import { createRequire as __WEBPACK_EXTERNAL_createRequire } from "module"; /******/ var __webpack_modules__ = ({ /***/ 4914: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.issue = exports.issueCommand = void 0; const os = __importStar(__nccwpck_require__(857)); const utils_1 = __nccwpck_require__(302); /** * Commands * * Command Format: * ::name key=value,key=value::message * * Examples: * ::warning::This is the message * ::set-env name=MY_VAR::some value */ function issueCommand(command, properties, message) { const cmd = new Command(command, properties, message); process.stdout.write(cmd.toString() + os.EOL); } exports.issueCommand = issueCommand; function issue(name, message = '') { issueCommand(name, {}, message); } exports.issue = issue; const CMD_STRING = '::'; class Command { constructor(command, properties, message) { if (!command) { command = 'missing.command'; } this.command = command; this.properties = properties; this.message = message; } toString() { let cmdStr = CMD_STRING + this.command; if (this.properties && Object.keys(this.properties).length > 0) { cmdStr += ' '; let first = true; for (const key in this.properties) { if (this.properties.hasOwnProperty(key)) { const val = this.properties[key]; if (val) { if (first) { first = false; } else { cmdStr += ','; } cmdStr += `${key}=${escapeProperty(val)}`; } } } } cmdStr += `${CMD_STRING}${escapeData(this.message)}`; return cmdStr; } } function escapeData(s) { return (0, utils_1.toCommandValue)(s) .replace(/%/g, '%25') .replace(/\r/g, '%0D') .replace(/\n/g, '%0A'); } function escapeProperty(s) { return (0, utils_1.toCommandValue)(s) .replace(/%/g, '%25') .replace(/\r/g, '%0D') .replace(/\n/g, '%0A') .replace(/:/g, '%3A') .replace(/,/g, '%2C'); } //# sourceMappingURL=command.js.map /***/ }), /***/ 7484: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.platform = exports.toPlatformPath = exports.toWin32Path = exports.toPosixPath = exports.markdownSummary = exports.summary = exports.getIDToken = exports.getState = exports.saveState = exports.group = exports.endGroup = exports.startGroup = exports.info = exports.notice = exports.warning = exports.error = exports.debug = exports.isDebug = exports.setFailed = exports.setCommandEcho = exports.setOutput = exports.getBooleanInput = exports.getMultilineInput = exports.getInput = exports.addPath = exports.setSecret = exports.exportVariable = exports.ExitCode = void 0; const command_1 = __nccwpck_require__(4914); const file_command_1 = __nccwpck_require__(4753); const utils_1 = __nccwpck_require__(302); const os = __importStar(__nccwpck_require__(857)); const path = __importStar(__nccwpck_require__(6928)); const oidc_utils_1 = __nccwpck_require__(5306); /** * The code to exit an action */ var ExitCode; (function (ExitCode) { /** * A code indicating that the action was successful */ ExitCode[ExitCode["Success"] = 0] = "Success"; /** * A code indicating that the action was a failure */ ExitCode[ExitCode["Failure"] = 1] = "Failure"; })(ExitCode || (exports.ExitCode = ExitCode = {})); //----------------------------------------------------------------------- // Variables //----------------------------------------------------------------------- /** * Sets env variable for this action and future actions in the job * @param name the name of the variable to set * @param val the value of the variable. Non-string values will be converted to a string via JSON.stringify */ // eslint-disable-next-line @typescript-eslint/no-explicit-any function exportVariable(name, val) { const convertedVal = (0, utils_1.toCommandValue)(val); process.env[name] = convertedVal; const filePath = process.env['GITHUB_ENV'] || ''; if (filePath) { return (0, file_command_1.issueFileCommand)('ENV', (0, file_command_1.prepareKeyValueMessage)(name, val)); } (0, command_1.issueCommand)('set-env', { name }, convertedVal); } exports.exportVariable = exportVariable; /** * Registers a secret which will get masked from logs * @param secret value of the secret */ function setSecret(secret) { (0, command_1.issueCommand)('add-mask', {}, secret); } exports.setSecret = setSecret; /** * Prepends inputPath to the PATH (for this action and future actions) * @param inputPath */ function addPath(inputPath) { const filePath = process.env['GITHUB_PATH'] || ''; if (filePath) { (0, file_command_1.issueFileCommand)('PATH', inputPath); } else { (0, command_1.issueCommand)('add-path', {}, inputPath); } process.env['PATH'] = `${inputPath}${path.delimiter}${process.env['PATH']}`; } exports.addPath = addPath; /** * Gets the value of an input. * Unless trimWhitespace is set to false in InputOptions, the value is also trimmed. * Returns an empty string if the value is not defined. * * @param name name of the input to get * @param options optional. See InputOptions. * @returns string */ function getInput(name, options) { const val = process.env[`INPUT_${name.replace(/ /g, '_').toUpperCase()}`] || ''; if (options && options.required && !val) { throw new Error(`Input required and not supplied: ${name}`); } if (options && options.trimWhitespace === false) { return val; } return val.trim(); } exports.getInput = getInput; /** * Gets the values of an multiline input. Each value is also trimmed. * * @param name name of the input to get * @param options optional. See InputOptions. * @returns string[] * */ function getMultilineInput(name, options) { const inputs = getInput(name, options) .split('\n') .filter(x => x !== ''); if (options && options.trimWhitespace === false) { return inputs; } return inputs.map(input => input.trim()); } exports.getMultilineInput = getMultilineInput; /** * Gets the input value of the boolean type in the YAML 1.2 "core schema" specification. * Support boolean input list: `true | True | TRUE | false | False | FALSE` . * The return value is also in boolean type. * ref: https://yaml.org/spec/1.2/spec.html#id2804923 * * @param name name of the input to get * @param options optional. See InputOptions. * @returns boolean */ function getBooleanInput(name, options) { const trueValue = ['true', 'True', 'TRUE']; const falseValue = ['false', 'False', 'FALSE']; const val = getInput(name, options); if (trueValue.includes(val)) return true; if (falseValue.includes(val)) return false; throw new TypeError(`Input does not meet YAML 1.2 "Core Schema" specification: ${name}\n` + `Support boolean input list: \`true | True | TRUE | false | False | FALSE\``); } exports.getBooleanInput = getBooleanInput; /** * Sets the value of an output. * * @param name name of the output to set * @param value value to store. Non-string values will be converted to a string via JSON.stringify */ // eslint-disable-next-line @typescript-eslint/no-explicit-any function setOutput(name, value) { const filePath = process.env['GITHUB_OUTPUT'] || ''; if (filePath) { return (0, file_command_1.issueFileCommand)('OUTPUT', (0, file_command_1.prepareKeyValueMessage)(name, value)); } process.stdout.write(os.EOL); (0, command_1.issueCommand)('set-output', { name }, (0, utils_1.toCommandValue)(value)); } exports.setOutput = setOutput; /** * Enables or disables the echoing of commands into stdout for the rest of the step. * Echoing is disabled by default if ACTIONS_STEP_DEBUG is not set. * */ function setCommandEcho(enabled) { (0, command_1.issue)('echo', enabled ? 'on' : 'off'); } exports.setCommandEcho = setCommandEcho; //----------------------------------------------------------------------- // Results //----------------------------------------------------------------------- /** * Sets the action status to failed. * When the action exits it will be with an exit code of 1 * @param message add error issue message */ function setFailed(message) { process.exitCode = ExitCode.Failure; error(message); } exports.setFailed = setFailed; //----------------------------------------------------------------------- // Logging Commands //----------------------------------------------------------------------- /** * Gets whether Actions Step Debug is on or not */ function isDebug() { return process.env['RUNNER_DEBUG'] === '1'; } exports.isDebug = isDebug; /** * Writes debug message to user log * @param message debug message */ function debug(message) { (0, command_1.issueCommand)('debug', {}, message); } exports.debug = debug; /** * Adds an error issue * @param message error issue message. Errors will be converted to string via toString() * @param properties optional properties to add to the annotation. */ function error(message, properties = {}) { (0, command_1.issueCommand)('error', (0, utils_1.toCommandProperties)(properties), message instanceof Error ? message.toString() : message); } exports.error = error; /** * Adds a warning issue * @param message warning issue message. Errors will be converted to string via toString() * @param properties optional properties to add to the annotation. */ function warning(message, properties = {}) { (0, command_1.issueCommand)('warning', (0, utils_1.toCommandProperties)(properties), message instanceof Error ? message.toString() : message); } exports.warning = warning; /** * Adds a notice issue * @param message notice issue message. Errors will be converted to string via toString() * @param properties optional properties to add to the annotation. */ function notice(message, properties = {}) { (0, command_1.issueCommand)('notice', (0, utils_1.toCommandProperties)(properties), message instanceof Error ? message.toString() : message); } exports.notice = notice; /** * Writes info to log with console.log. * @param message info message */ function info(message) { process.stdout.write(message + os.EOL); } exports.info = info; /** * Begin an output group. * * Output until the next `groupEnd` will be foldable in this group * * @param name The name of the output group */ function startGroup(name) { (0, command_1.issue)('group', name); } exports.startGroup = startGroup; /** * End an output group. */ function endGroup() { (0, command_1.issue)('endgroup'); } exports.endGroup = endGroup; /** * Wrap an asynchronous function call in a group. * * Returns the same type as the function itself. * * @param name The name of the group * @param fn The function to wrap in the group */ function group(name, fn) { return __awaiter(this, void 0, void 0, function* () { startGroup(name); let result; try { result = yield fn(); } finally { endGroup(); } return result; }); } exports.group = group; //----------------------------------------------------------------------- // Wrapper action state //----------------------------------------------------------------------- /** * Saves state for current action, the state can only be retrieved by this action's post job execution. * * @param name name of the state to store * @param value value to store. Non-string values will be converted to a string via JSON.stringify */ // eslint-disable-next-line @typescript-eslint/no-explicit-any function saveState(name, value) { const filePath = process.env['GITHUB_STATE'] || ''; if (filePath) { return (0, file_command_1.issueFileCommand)('STATE', (0, file_command_1.prepareKeyValueMessage)(name, value)); } (0, command_1.issueCommand)('save-state', { name }, (0, utils_1.toCommandValue)(value)); } exports.saveState = saveState; /** * Gets the value of an state set by this action's main execution. * * @param name name of the state to get * @returns string */ function getState(name) { return process.env[`STATE_${name}`] || ''; } exports.getState = getState; function getIDToken(aud) { return __awaiter(this, void 0, void 0, function* () { return yield oidc_utils_1.OidcClient.getIDToken(aud); }); } exports.getIDToken = getIDToken; /** * Summary exports */ var summary_1 = __nccwpck_require__(1847); Object.defineProperty(exports, "summary", ({ enumerable: true, get: function () { return summary_1.summary; } })); /** * @deprecated use core.summary */ var summary_2 = __nccwpck_require__(1847); Object.defineProperty(exports, "markdownSummary", ({ enumerable: true, get: function () { return summary_2.markdownSummary; } })); /** * Path exports */ var path_utils_1 = __nccwpck_require__(1976); Object.defineProperty(exports, "toPosixPath", ({ enumerable: true, get: function () { return path_utils_1.toPosixPath; } })); Object.defineProperty(exports, "toWin32Path", ({ enumerable: true, get: function () { return path_utils_1.toWin32Path; } })); Object.defineProperty(exports, "toPlatformPath", ({ enumerable: true, get: function () { return path_utils_1.toPlatformPath; } })); /** * Platform utilities exports */ exports.platform = __importStar(__nccwpck_require__(8968)); //# sourceMappingURL=core.js.map /***/ }), /***/ 4753: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { // For internal use, subject to change. var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.prepareKeyValueMessage = exports.issueFileCommand = void 0; // We use any as a valid input type /* eslint-disable @typescript-eslint/no-explicit-any */ const crypto = __importStar(__nccwpck_require__(6982)); const fs = __importStar(__nccwpck_require__(9896)); const os = __importStar(__nccwpck_require__(857)); const utils_1 = __nccwpck_require__(302); function issueFileCommand(command, message) { const filePath = process.env[`GITHUB_${command}`]; if (!filePath) { throw new Error(`Unable to find environment variable for file command ${command}`); } if (!fs.existsSync(filePath)) { throw new Error(`Missing file at path: ${filePath}`); } fs.appendFileSync(filePath, `${(0, utils_1.toCommandValue)(message)}${os.EOL}`, { encoding: 'utf8' }); } exports.issueFileCommand = issueFileCommand; function prepareKeyValueMessage(key, value) { const delimiter = `ghadelimiter_${crypto.randomUUID()}`; const convertedValue = (0, utils_1.toCommandValue)(value); // These should realistically never happen, but just in case someone finds a // way to exploit uuid generation let's not allow keys or values that contain // the delimiter. if (key.includes(delimiter)) { throw new Error(`Unexpected input: name should not contain the delimiter "${delimiter}"`); } if (convertedValue.includes(delimiter)) { throw new Error(`Unexpected input: value should not contain the delimiter "${delimiter}"`); } return `${key}<<${delimiter}${os.EOL}${convertedValue}${os.EOL}${delimiter}`; } exports.prepareKeyValueMessage = prepareKeyValueMessage; //# sourceMappingURL=file-command.js.map /***/ }), /***/ 5306: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.OidcClient = void 0; const http_client_1 = __nccwpck_require__(4844); const auth_1 = __nccwpck_require__(4552); const core_1 = __nccwpck_require__(7484); class OidcClient { static createHttpClient(allowRetry = true, maxRetry = 10) { const requestOptions = { allowRetries: allowRetry, maxRetries: maxRetry }; return new http_client_1.HttpClient('actions/oidc-client', [new auth_1.BearerCredentialHandler(OidcClient.getRequestToken())], requestOptions); } static getRequestToken() { const token = process.env['ACTIONS_ID_TOKEN_REQUEST_TOKEN']; if (!token) { throw new Error('Unable to get ACTIONS_ID_TOKEN_REQUEST_TOKEN env variable'); } return token; } static getIDTokenUrl() { const runtimeUrl = process.env['ACTIONS_ID_TOKEN_REQUEST_URL']; if (!runtimeUrl) { throw new Error('Unable to get ACTIONS_ID_TOKEN_REQUEST_URL env variable'); } return runtimeUrl; } static getCall(id_token_url) { var _a; return __awaiter(this, void 0, void 0, function* () { const httpclient = OidcClient.createHttpClient(); const res = yield httpclient .getJson(id_token_url) .catch(error => { throw new Error(`Failed to get ID Token. \n Error Code : ${error.statusCode}\n Error Message: ${error.message}`); }); const id_token = (_a = res.result) === null || _a === void 0 ? void 0 : _a.value; if (!id_token) { throw new Error('Response json body do not have ID Token field'); } return id_token; }); } static getIDToken(audience) { return __awaiter(this, void 0, void 0, function* () { try { // New ID Token is requested from action service let id_token_url = OidcClient.getIDTokenUrl(); if (audience) { const encodedAudience = encodeURIComponent(audience); id_token_url = `${id_token_url}&audience=${encodedAudience}`; } (0, core_1.debug)(`ID token url is ${id_token_url}`); const id_token = yield OidcClient.getCall(id_token_url); (0, core_1.setSecret)(id_token); return id_token; } catch (error) { throw new Error(`Error message: ${error.message}`); } }); } } exports.OidcClient = OidcClient; //# sourceMappingURL=oidc-utils.js.map /***/ }), /***/ 1976: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.toPlatformPath = exports.toWin32Path = exports.toPosixPath = void 0; const path = __importStar(__nccwpck_require__(6928)); /** * toPosixPath converts the given path to the posix form. On Windows, \\ will be * replaced with /. * * @param pth. Path to transform. * @return string Posix path. */ function toPosixPath(pth) { return pth.replace(/[\\]/g, '/'); } exports.toPosixPath = toPosixPath; /** * toWin32Path converts the given path to the win32 form. On Linux, / will be * replaced with \\. * * @param pth. Path to transform. * @return string Win32 path. */ function toWin32Path(pth) { return pth.replace(/[/]/g, '\\'); } exports.toWin32Path = toWin32Path; /** * toPlatformPath converts the given path to a platform-specific path. It does * this by replacing instances of / and \ with the platform-specific path * separator. * * @param pth The path to platformize. * @return string The platform-specific path. */ function toPlatformPath(pth) { return pth.replace(/[/\\]/g, path.sep); } exports.toPlatformPath = toPlatformPath; //# sourceMappingURL=path-utils.js.map /***/ }), /***/ 8968: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __importDefault = (this && this.__importDefault) || function (mod) { return (mod && mod.__esModule) ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.getDetails = exports.isLinux = exports.isMacOS = exports.isWindows = exports.arch = exports.platform = void 0; const os_1 = __importDefault(__nccwpck_require__(857)); const exec = __importStar(__nccwpck_require__(5236)); const getWindowsInfo = () => __awaiter(void 0, void 0, void 0, function* () { const { stdout: version } = yield exec.getExecOutput('powershell -command "(Get-CimInstance -ClassName Win32_OperatingSystem).Version"', undefined, { silent: true }); const { stdout: name } = yield exec.getExecOutput('powershell -command "(Get-CimInstance -ClassName Win32_OperatingSystem).Caption"', undefined, { silent: true }); return { name: name.trim(), version: version.trim() }; }); const getMacOsInfo = () => __awaiter(void 0, void 0, void 0, function* () { var _a, _b, _c, _d; const { stdout } = yield exec.getExecOutput('sw_vers', undefined, { silent: true }); const version = (_b = (_a = stdout.match(/ProductVersion:\s*(.+)/)) === null || _a === void 0 ? void 0 : _a[1]) !== null && _b !== void 0 ? _b : ''; const name = (_d = (_c = stdout.match(/ProductName:\s*(.+)/)) === null || _c === void 0 ? void 0 : _c[1]) !== null && _d !== void 0 ? _d : ''; return { name, version }; }); const getLinuxInfo = () => __awaiter(void 0, void 0, void 0, function* () { const { stdout } = yield exec.getExecOutput('lsb_release', ['-i', '-r', '-s'], { silent: true }); const [name, version] = stdout.trim().split('\n'); return { name, version }; }); exports.platform = os_1.default.platform(); exports.arch = os_1.default.arch(); exports.isWindows = exports.platform === 'win32'; exports.isMacOS = exports.platform === 'darwin'; exports.isLinux = exports.platform === 'linux'; function getDetails() { return __awaiter(this, void 0, void 0, function* () { return Object.assign(Object.assign({}, (yield (exports.isWindows ? getWindowsInfo() : exports.isMacOS ? getMacOsInfo() : getLinuxInfo()))), { platform: exports.platform, arch: exports.arch, isWindows: exports.isWindows, isMacOS: exports.isMacOS, isLinux: exports.isLinux }); }); } exports.getDetails = getDetails; //# sourceMappingURL=platform.js.map /***/ }), /***/ 1847: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.summary = exports.markdownSummary = exports.SUMMARY_DOCS_URL = exports.SUMMARY_ENV_VAR = void 0; const os_1 = __nccwpck_require__(857); const fs_1 = __nccwpck_require__(9896); const { access, appendFile, writeFile } = fs_1.promises; exports.SUMMARY_ENV_VAR = 'GITHUB_STEP_SUMMARY'; exports.SUMMARY_DOCS_URL = 'https://docs.github.com/actions/using-workflows/workflow-commands-for-github-actions#adding-a-job-summary'; class Summary { constructor() { this._buffer = ''; } /** * Finds the summary file path from the environment, rejects if env var is not found or file does not exist * Also checks r/w permissions. * * @returns step summary file path */ filePath() { return __awaiter(this, void 0, void 0, function* () { if (this._filePath) { return this._filePath; } const pathFromEnv = process.env[exports.SUMMARY_ENV_VAR]; if (!pathFromEnv) { throw new Error(`Unable to find environment variable for $${exports.SUMMARY_ENV_VAR}. Check if your runtime environment supports job summaries.`); } try { yield access(pathFromEnv, fs_1.constants.R_OK | fs_1.constants.W_OK); } catch (_a) { throw new Error(`Unable to access summary file: '${pathFromEnv}'. Check if the file has correct read/write permissions.`); } this._filePath = pathFromEnv; return this._filePath; }); } /** * Wraps content in an HTML tag, adding any HTML attributes * * @param {string} tag HTML tag to wrap * @param {string | null} content content within the tag * @param {[attribute: string]: string} attrs key-value list of HTML attributes to add * * @returns {string} content wrapped in HTML element */ wrap(tag, content, attrs = {}) { const htmlAttrs = Object.entries(attrs) .map(([key, value]) => ` ${key}="${value}"`) .join(''); if (!content) { return `<${tag}${htmlAttrs}>`; } return `<${tag}${htmlAttrs}>${content}`; } /** * Writes text in the buffer to the summary buffer file and empties buffer. Will append by default. * * @param {SummaryWriteOptions} [options] (optional) options for write operation * * @returns {Promise} summary instance */ write(options) { return __awaiter(this, void 0, void 0, function* () { const overwrite = !!(options === null || options === void 0 ? void 0 : options.overwrite); const filePath = yield this.filePath(); const writeFunc = overwrite ? writeFile : appendFile; yield writeFunc(filePath, this._buffer, { encoding: 'utf8' }); return this.emptyBuffer(); }); } /** * Clears the summary buffer and wipes the summary file * * @returns {Summary} summary instance */ clear() { return __awaiter(this, void 0, void 0, function* () { return this.emptyBuffer().write({ overwrite: true }); }); } /** * Returns the current summary buffer as a string * * @returns {string} string of summary buffer */ stringify() { return this._buffer; } /** * If the summary buffer is empty * * @returns {boolen} true if the buffer is empty */ isEmptyBuffer() { return this._buffer.length === 0; } /** * Resets the summary buffer without writing to summary file * * @returns {Summary} summary instance */ emptyBuffer() { this._buffer = ''; return this; } /** * Adds raw text to the summary buffer * * @param {string} text content to add * @param {boolean} [addEOL=false] (optional) append an EOL to the raw text (default: false) * * @returns {Summary} summary instance */ addRaw(text, addEOL = false) { this._buffer += text; return addEOL ? this.addEOL() : this; } /** * Adds the operating system-specific end-of-line marker to the buffer * * @returns {Summary} summary instance */ addEOL() { return this.addRaw(os_1.EOL); } /** * Adds an HTML codeblock to the summary buffer * * @param {string} code content to render within fenced code block * @param {string} lang (optional) language to syntax highlight code * * @returns {Summary} summary instance */ addCodeBlock(code, lang) { const attrs = Object.assign({}, (lang && { lang })); const element = this.wrap('pre', this.wrap('code', code), attrs); return this.addRaw(element).addEOL(); } /** * Adds an HTML list to the summary buffer * * @param {string[]} items list of items to render * @param {boolean} [ordered=false] (optional) if the rendered list should be ordered or not (default: false) * * @returns {Summary} summary instance */ addList(items, ordered = false) { const tag = ordered ? 'ol' : 'ul'; const listItems = items.map(item => this.wrap('li', item)).join(''); const element = this.wrap(tag, listItems); return this.addRaw(element).addEOL(); } /** * Adds an HTML table to the summary buffer * * @param {SummaryTableCell[]} rows table rows * * @returns {Summary} summary instance */ addTable(rows) { const tableBody = rows .map(row => { const cells = row .map(cell => { if (typeof cell === 'string') { return this.wrap('td', cell); } const { header, data, colspan, rowspan } = cell; const tag = header ? 'th' : 'td'; const attrs = Object.assign(Object.assign({}, (colspan && { colspan })), (rowspan && { rowspan })); return this.wrap(tag, data, attrs); }) .join(''); return this.wrap('tr', cells); }) .join(''); const element = this.wrap('table', tableBody); return this.addRaw(element).addEOL(); } /** * Adds a collapsable HTML details element to the summary buffer * * @param {string} label text for the closed state * @param {string} content collapsable content * * @returns {Summary} summary instance */ addDetails(label, content) { const element = this.wrap('details', this.wrap('summary', label) + content); return this.addRaw(element).addEOL(); } /** * Adds an HTML image tag to the summary buffer * * @param {string} src path to the image you to embed * @param {string} alt text description of the image * @param {SummaryImageOptions} options (optional) addition image attributes * * @returns {Summary} summary instance */ addImage(src, alt, options) { const { width, height } = options || {}; const attrs = Object.assign(Object.assign({}, (width && { width })), (height && { height })); const element = this.wrap('img', null, Object.assign({ src, alt }, attrs)); return this.addRaw(element).addEOL(); } /** * Adds an HTML section heading element * * @param {string} text heading text * @param {number | string} [level=1] (optional) the heading level, default: 1 * * @returns {Summary} summary instance */ addHeading(text, level) { const tag = `h${level}`; const allowedTag = ['h1', 'h2', 'h3', 'h4', 'h5', 'h6'].includes(tag) ? tag : 'h1'; const element = this.wrap(allowedTag, text); return this.addRaw(element).addEOL(); } /** * Adds an HTML thematic break (
) to the summary buffer * * @returns {Summary} summary instance */ addSeparator() { const element = this.wrap('hr', null); return this.addRaw(element).addEOL(); } /** * Adds an HTML line break (
) to the summary buffer * * @returns {Summary} summary instance */ addBreak() { const element = this.wrap('br', null); return this.addRaw(element).addEOL(); } /** * Adds an HTML blockquote to the summary buffer * * @param {string} text quote text * @param {string} cite (optional) citation url * * @returns {Summary} summary instance */ addQuote(text, cite) { const attrs = Object.assign({}, (cite && { cite })); const element = this.wrap('blockquote', text, attrs); return this.addRaw(element).addEOL(); } /** * Adds an HTML anchor tag to the summary buffer * * @param {string} text link text/content * @param {string} href hyperlink * * @returns {Summary} summary instance */ addLink(text, href) { const element = this.wrap('a', text, { href }); return this.addRaw(element).addEOL(); } } const _summary = new Summary(); /** * @deprecated use `core.summary` */ exports.markdownSummary = _summary; exports.summary = _summary; //# sourceMappingURL=summary.js.map /***/ }), /***/ 302: /***/ ((__unused_webpack_module, exports) => { // We use any as a valid input type /* eslint-disable @typescript-eslint/no-explicit-any */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.toCommandProperties = exports.toCommandValue = void 0; /** * Sanitizes an input into a string so it can be passed into issueCommand safely * @param input input to sanitize into a string */ function toCommandValue(input) { if (input === null || input === undefined) { return ''; } else if (typeof input === 'string' || input instanceof String) { return input; } return JSON.stringify(input); } exports.toCommandValue = toCommandValue; /** * * @param annotationProperties * @returns The command properties to send with the actual annotation command * See IssueCommandProperties: https://github.com/actions/runner/blob/main/src/Runner.Worker/ActionCommandManager.cs#L646 */ function toCommandProperties(annotationProperties) { if (!Object.keys(annotationProperties).length) { return {}; } return { title: annotationProperties.title, file: annotationProperties.file, line: annotationProperties.startLine, endLine: annotationProperties.endLine, col: annotationProperties.startColumn, endColumn: annotationProperties.endColumn }; } exports.toCommandProperties = toCommandProperties; //# sourceMappingURL=utils.js.map /***/ }), /***/ 5236: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.getExecOutput = exports.exec = void 0; const string_decoder_1 = __nccwpck_require__(3193); const tr = __importStar(__nccwpck_require__(6665)); /** * Exec a command. * Output will be streamed to the live console. * Returns promise with return code * * @param commandLine command to execute (can include additional args). Must be correctly escaped. * @param args optional arguments for tool. Escaping is handled by the lib. * @param options optional exec options. See ExecOptions * @returns Promise exit code */ function exec(commandLine, args, options) { return __awaiter(this, void 0, void 0, function* () { const commandArgs = tr.argStringToArray(commandLine); if (commandArgs.length === 0) { throw new Error(`Parameter 'commandLine' cannot be null or empty.`); } // Path to tool to execute should be first arg const toolPath = commandArgs[0]; args = commandArgs.slice(1).concat(args || []); const runner = new tr.ToolRunner(toolPath, args, options); return runner.exec(); }); } exports.exec = exec; /** * Exec a command and get the output. * Output will be streamed to the live console. * Returns promise with the exit code and collected stdout and stderr * * @param commandLine command to execute (can include additional args). Must be correctly escaped. * @param args optional arguments for tool. Escaping is handled by the lib. * @param options optional exec options. See ExecOptions * @returns Promise exit code, stdout, and stderr */ function getExecOutput(commandLine, args, options) { var _a, _b; return __awaiter(this, void 0, void 0, function* () { let stdout = ''; let stderr = ''; //Using string decoder covers the case where a mult-byte character is split const stdoutDecoder = new string_decoder_1.StringDecoder('utf8'); const stderrDecoder = new string_decoder_1.StringDecoder('utf8'); const originalStdoutListener = (_a = options === null || options === void 0 ? void 0 : options.listeners) === null || _a === void 0 ? void 0 : _a.stdout; const originalStdErrListener = (_b = options === null || options === void 0 ? void 0 : options.listeners) === null || _b === void 0 ? void 0 : _b.stderr; const stdErrListener = (data) => { stderr += stderrDecoder.write(data); if (originalStdErrListener) { originalStdErrListener(data); } }; const stdOutListener = (data) => { stdout += stdoutDecoder.write(data); if (originalStdoutListener) { originalStdoutListener(data); } }; const listeners = Object.assign(Object.assign({}, options === null || options === void 0 ? void 0 : options.listeners), { stdout: stdOutListener, stderr: stdErrListener }); const exitCode = yield exec(commandLine, args, Object.assign(Object.assign({}, options), { listeners })); //flush any remaining characters stdout += stdoutDecoder.end(); stderr += stderrDecoder.end(); return { exitCode, stdout, stderr }; }); } exports.getExecOutput = getExecOutput; //# sourceMappingURL=exec.js.map /***/ }), /***/ 6665: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.argStringToArray = exports.ToolRunner = void 0; const os = __importStar(__nccwpck_require__(857)); const events = __importStar(__nccwpck_require__(4434)); const child = __importStar(__nccwpck_require__(5317)); const path = __importStar(__nccwpck_require__(6928)); const io = __importStar(__nccwpck_require__(4994)); const ioUtil = __importStar(__nccwpck_require__(5207)); const timers_1 = __nccwpck_require__(3557); /* eslint-disable @typescript-eslint/unbound-method */ const IS_WINDOWS = process.platform === 'win32'; /* * Class for running command line tools. Handles quoting and arg parsing in a platform agnostic way. */ class ToolRunner extends events.EventEmitter { constructor(toolPath, args, options) { super(); if (!toolPath) { throw new Error("Parameter 'toolPath' cannot be null or empty."); } this.toolPath = toolPath; this.args = args || []; this.options = options || {}; } _debug(message) { if (this.options.listeners && this.options.listeners.debug) { this.options.listeners.debug(message); } } _getCommandString(options, noPrefix) { const toolPath = this._getSpawnFileName(); const args = this._getSpawnArgs(options); let cmd = noPrefix ? '' : '[command]'; // omit prefix when piped to a second tool if (IS_WINDOWS) { // Windows + cmd file if (this._isCmdFile()) { cmd += toolPath; for (const a of args) { cmd += ` ${a}`; } } // Windows + verbatim else if (options.windowsVerbatimArguments) { cmd += `"${toolPath}"`; for (const a of args) { cmd += ` ${a}`; } } // Windows (regular) else { cmd += this._windowsQuoteCmdArg(toolPath); for (const a of args) { cmd += ` ${this._windowsQuoteCmdArg(a)}`; } } } else { // OSX/Linux - this can likely be improved with some form of quoting. // creating processes on Unix is fundamentally different than Windows. // on Unix, execvp() takes an arg array. cmd += toolPath; for (const a of args) { cmd += ` ${a}`; } } return cmd; } _processLineBuffer(data, strBuffer, onLine) { try { let s = strBuffer + data.toString(); let n = s.indexOf(os.EOL); while (n > -1) { const line = s.substring(0, n); onLine(line); // the rest of the string ... s = s.substring(n + os.EOL.length); n = s.indexOf(os.EOL); } return s; } catch (err) { // streaming lines to console is best effort. Don't fail a build. this._debug(`error processing line. Failed with error ${err}`); return ''; } } _getSpawnFileName() { if (IS_WINDOWS) { if (this._isCmdFile()) { return process.env['COMSPEC'] || 'cmd.exe'; } } return this.toolPath; } _getSpawnArgs(options) { if (IS_WINDOWS) { if (this._isCmdFile()) { let argline = `/D /S /C "${this._windowsQuoteCmdArg(this.toolPath)}`; for (const a of this.args) { argline += ' '; argline += options.windowsVerbatimArguments ? a : this._windowsQuoteCmdArg(a); } argline += '"'; return [argline]; } } return this.args; } _endsWith(str, end) { return str.endsWith(end); } _isCmdFile() { const upperToolPath = this.toolPath.toUpperCase(); return (this._endsWith(upperToolPath, '.CMD') || this._endsWith(upperToolPath, '.BAT')); } _windowsQuoteCmdArg(arg) { // for .exe, apply the normal quoting rules that libuv applies if (!this._isCmdFile()) { return this._uvQuoteCmdArg(arg); } // otherwise apply quoting rules specific to the cmd.exe command line parser. // the libuv rules are generic and are not designed specifically for cmd.exe // command line parser. // // for a detailed description of the cmd.exe command line parser, refer to // http://stackoverflow.com/questions/4094699/how-does-the-windows-command-interpreter-cmd-exe-parse-scripts/7970912#7970912 // need quotes for empty arg if (!arg) { return '""'; } // determine whether the arg needs to be quoted const cmdSpecialChars = [ ' ', '\t', '&', '(', ')', '[', ']', '{', '}', '^', '=', ';', '!', "'", '+', ',', '`', '~', '|', '<', '>', '"' ]; let needsQuotes = false; for (const char of arg) { if (cmdSpecialChars.some(x => x === char)) { needsQuotes = true; break; } } // short-circuit if quotes not needed if (!needsQuotes) { return arg; } // the following quoting rules are very similar to the rules that by libuv applies. // // 1) wrap the string in quotes // // 2) double-up quotes - i.e. " => "" // // this is different from the libuv quoting rules. libuv replaces " with \", which unfortunately // doesn't work well with a cmd.exe command line. // // note, replacing " with "" also works well if the arg is passed to a downstream .NET console app. // for example, the command line: // foo.exe "myarg:""my val""" // is parsed by a .NET console app into an arg array: // [ "myarg:\"my val\"" ] // which is the same end result when applying libuv quoting rules. although the actual // command line from libuv quoting rules would look like: // foo.exe "myarg:\"my val\"" // // 3) double-up slashes that precede a quote, // e.g. hello \world => "hello \world" // hello\"world => "hello\\""world" // hello\\"world => "hello\\\\""world" // hello world\ => "hello world\\" // // technically this is not required for a cmd.exe command line, or the batch argument parser. // the reasons for including this as a .cmd quoting rule are: // // a) this is optimized for the scenario where the argument is passed from the .cmd file to an // external program. many programs (e.g. .NET console apps) rely on the slash-doubling rule. // // b) it's what we've been doing previously (by deferring to node default behavior) and we // haven't heard any complaints about that aspect. // // note, a weakness of the quoting rules chosen here, is that % is not escaped. in fact, % cannot be // escaped when used on the command line directly - even though within a .cmd file % can be escaped // by using %%. // // the saving grace is, on the command line, %var% is left as-is if var is not defined. this contrasts // the line parsing rules within a .cmd file, where if var is not defined it is replaced with nothing. // // one option that was explored was replacing % with ^% - i.e. %var% => ^%var^%. this hack would // often work, since it is unlikely that var^ would exist, and the ^ character is removed when the // variable is used. the problem, however, is that ^ is not removed when %* is used to pass the args // to an external program. // // an unexplored potential solution for the % escaping problem, is to create a wrapper .cmd file. // % can be escaped within a .cmd file. let reverse = '"'; let quoteHit = true; for (let i = arg.length; i > 0; i--) { // walk the string in reverse reverse += arg[i - 1]; if (quoteHit && arg[i - 1] === '\\') { reverse += '\\'; // double the slash } else if (arg[i - 1] === '"') { quoteHit = true; reverse += '"'; // double the quote } else { quoteHit = false; } } reverse += '"'; return reverse .split('') .reverse() .join(''); } _uvQuoteCmdArg(arg) { // Tool runner wraps child_process.spawn() and needs to apply the same quoting as // Node in certain cases where the undocumented spawn option windowsVerbatimArguments // is used. // // Since this function is a port of quote_cmd_arg from Node 4.x (technically, lib UV, // see https://github.com/nodejs/node/blob/v4.x/deps/uv/src/win/process.c for details), // pasting copyright notice from Node within this function: // // Copyright Joyent, Inc. and other Node contributors. All rights reserved. // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to // deal in the Software without restriction, including without limitation the // rights to use, copy, modify, merge, publish, distribute, sublicense, and/or // sell copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS // IN THE SOFTWARE. if (!arg) { // Need double quotation for empty argument return '""'; } if (!arg.includes(' ') && !arg.includes('\t') && !arg.includes('"')) { // No quotation needed return arg; } if (!arg.includes('"') && !arg.includes('\\')) { // No embedded double quotes or backslashes, so I can just wrap // quote marks around the whole thing. return `"${arg}"`; } // Expected input/output: // input : hello"world // output: "hello\"world" // input : hello""world // output: "hello\"\"world" // input : hello\world // output: hello\world // input : hello\\world // output: hello\\world // input : hello\"world // output: "hello\\\"world" // input : hello\\"world // output: "hello\\\\\"world" // input : hello world\ // output: "hello world\\" - note the comment in libuv actually reads "hello world\" // but it appears the comment is wrong, it should be "hello world\\" let reverse = '"'; let quoteHit = true; for (let i = arg.length; i > 0; i--) { // walk the string in reverse reverse += arg[i - 1]; if (quoteHit && arg[i - 1] === '\\') { reverse += '\\'; } else if (arg[i - 1] === '"') { quoteHit = true; reverse += '\\'; } else { quoteHit = false; } } reverse += '"'; return reverse .split('') .reverse() .join(''); } _cloneExecOptions(options) { options = options || {}; const result = { cwd: options.cwd || process.cwd(), env: options.env || process.env, silent: options.silent || false, windowsVerbatimArguments: options.windowsVerbatimArguments || false, failOnStdErr: options.failOnStdErr || false, ignoreReturnCode: options.ignoreReturnCode || false, delay: options.delay || 10000 }; result.outStream = options.outStream || process.stdout; result.errStream = options.errStream || process.stderr; return result; } _getSpawnOptions(options, toolPath) { options = options || {}; const result = {}; result.cwd = options.cwd; result.env = options.env; result['windowsVerbatimArguments'] = options.windowsVerbatimArguments || this._isCmdFile(); if (options.windowsVerbatimArguments) { result.argv0 = `"${toolPath}"`; } return result; } /** * Exec a tool. * Output will be streamed to the live console. * Returns promise with return code * * @param tool path to tool to exec * @param options optional exec options. See ExecOptions * @returns number */ exec() { return __awaiter(this, void 0, void 0, function* () { // root the tool path if it is unrooted and contains relative pathing if (!ioUtil.isRooted(this.toolPath) && (this.toolPath.includes('/') || (IS_WINDOWS && this.toolPath.includes('\\')))) { // prefer options.cwd if it is specified, however options.cwd may also need to be rooted this.toolPath = path.resolve(process.cwd(), this.options.cwd || process.cwd(), this.toolPath); } // if the tool is only a file name, then resolve it from the PATH // otherwise verify it exists (add extension on Windows if necessary) this.toolPath = yield io.which(this.toolPath, true); return new Promise((resolve, reject) => __awaiter(this, void 0, void 0, function* () { this._debug(`exec tool: ${this.toolPath}`); this._debug('arguments:'); for (const arg of this.args) { this._debug(` ${arg}`); } const optionsNonNull = this._cloneExecOptions(this.options); if (!optionsNonNull.silent && optionsNonNull.outStream) { optionsNonNull.outStream.write(this._getCommandString(optionsNonNull) + os.EOL); } const state = new ExecState(optionsNonNull, this.toolPath); state.on('debug', (message) => { this._debug(message); }); if (this.options.cwd && !(yield ioUtil.exists(this.options.cwd))) { return reject(new Error(`The cwd: ${this.options.cwd} does not exist!`)); } const fileName = this._getSpawnFileName(); const cp = child.spawn(fileName, this._getSpawnArgs(optionsNonNull), this._getSpawnOptions(this.options, fileName)); let stdbuffer = ''; if (cp.stdout) { cp.stdout.on('data', (data) => { if (this.options.listeners && this.options.listeners.stdout) { this.options.listeners.stdout(data); } if (!optionsNonNull.silent && optionsNonNull.outStream) { optionsNonNull.outStream.write(data); } stdbuffer = this._processLineBuffer(data, stdbuffer, (line) => { if (this.options.listeners && this.options.listeners.stdline) { this.options.listeners.stdline(line); } }); }); } let errbuffer = ''; if (cp.stderr) { cp.stderr.on('data', (data) => { state.processStderr = true; if (this.options.listeners && this.options.listeners.stderr) { this.options.listeners.stderr(data); } if (!optionsNonNull.silent && optionsNonNull.errStream && optionsNonNull.outStream) { const s = optionsNonNull.failOnStdErr ? optionsNonNull.errStream : optionsNonNull.outStream; s.write(data); } errbuffer = this._processLineBuffer(data, errbuffer, (line) => { if (this.options.listeners && this.options.listeners.errline) { this.options.listeners.errline(line); } }); }); } cp.on('error', (err) => { state.processError = err.message; state.processExited = true; state.processClosed = true; state.CheckComplete(); }); cp.on('exit', (code) => { state.processExitCode = code; state.processExited = true; this._debug(`Exit code ${code} received from tool '${this.toolPath}'`); state.CheckComplete(); }); cp.on('close', (code) => { state.processExitCode = code; state.processExited = true; state.processClosed = true; this._debug(`STDIO streams have closed for tool '${this.toolPath}'`); state.CheckComplete(); }); state.on('done', (error, exitCode) => { if (stdbuffer.length > 0) { this.emit('stdline', stdbuffer); } if (errbuffer.length > 0) { this.emit('errline', errbuffer); } cp.removeAllListeners(); if (error) { reject(error); } else { resolve(exitCode); } }); if (this.options.input) { if (!cp.stdin) { throw new Error('child process missing stdin'); } cp.stdin.end(this.options.input); } })); }); } } exports.ToolRunner = ToolRunner; /** * Convert an arg string to an array of args. Handles escaping * * @param argString string of arguments * @returns string[] array of arguments */ function argStringToArray(argString) { const args = []; let inQuotes = false; let escaped = false; let arg = ''; function append(c) { // we only escape double quotes. if (escaped && c !== '"') { arg += '\\'; } arg += c; escaped = false; } for (let i = 0; i < argString.length; i++) { const c = argString.charAt(i); if (c === '"') { if (!escaped) { inQuotes = !inQuotes; } else { append(c); } continue; } if (c === '\\' && escaped) { append(c); continue; } if (c === '\\' && inQuotes) { escaped = true; continue; } if (c === ' ' && !inQuotes) { if (arg.length > 0) { args.push(arg); arg = ''; } continue; } append(c); } if (arg.length > 0) { args.push(arg.trim()); } return args; } exports.argStringToArray = argStringToArray; class ExecState extends events.EventEmitter { constructor(options, toolPath) { super(); this.processClosed = false; // tracks whether the process has exited and stdio is closed this.processError = ''; this.processExitCode = 0; this.processExited = false; // tracks whether the process has exited this.processStderr = false; // tracks whether stderr was written to this.delay = 10000; // 10 seconds this.done = false; this.timeout = null; if (!toolPath) { throw new Error('toolPath must not be empty'); } this.options = options; this.toolPath = toolPath; if (options.delay) { this.delay = options.delay; } } CheckComplete() { if (this.done) { return; } if (this.processClosed) { this._setResult(); } else if (this.processExited) { this.timeout = timers_1.setTimeout(ExecState.HandleTimeout, this.delay, this); } } _debug(message) { this.emit('debug', message); } _setResult() { // determine whether there is an error let error; if (this.processExited) { if (this.processError) { error = new Error(`There was an error when attempting to execute the process '${this.toolPath}'. This may indicate the process failed to start. Error: ${this.processError}`); } else if (this.processExitCode !== 0 && !this.options.ignoreReturnCode) { error = new Error(`The process '${this.toolPath}' failed with exit code ${this.processExitCode}`); } else if (this.processStderr && this.options.failOnStdErr) { error = new Error(`The process '${this.toolPath}' failed because one or more lines were written to the STDERR stream`); } } // clear the timeout if (this.timeout) { clearTimeout(this.timeout); this.timeout = null; } this.done = true; this.emit('done', error, this.processExitCode); } static HandleTimeout(state) { if (state.done) { return; } if (!state.processClosed && state.processExited) { const message = `The STDIO streams did not close within ${state.delay / 1000} seconds of the exit event from process '${state.toolPath}'. This may indicate a child process inherited the STDIO streams and has not yet exited.`; state._debug(message); } state._setResult(); } } //# sourceMappingURL=toolrunner.js.map /***/ }), /***/ 4552: /***/ (function(__unused_webpack_module, exports) { var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.PersonalAccessTokenCredentialHandler = exports.BearerCredentialHandler = exports.BasicCredentialHandler = void 0; class BasicCredentialHandler { constructor(username, password) { this.username = username; this.password = password; } prepareRequest(options) { if (!options.headers) { throw Error('The request has no headers'); } options.headers['Authorization'] = `Basic ${Buffer.from(`${this.username}:${this.password}`).toString('base64')}`; } // This handler cannot handle 401 canHandleAuthentication() { return false; } handleAuthentication() { return __awaiter(this, void 0, void 0, function* () { throw new Error('not implemented'); }); } } exports.BasicCredentialHandler = BasicCredentialHandler; class BearerCredentialHandler { constructor(token) { this.token = token; } // currently implements pre-authorization // TODO: support preAuth = false where it hooks on 401 prepareRequest(options) { if (!options.headers) { throw Error('The request has no headers'); } options.headers['Authorization'] = `Bearer ${this.token}`; } // This handler cannot handle 401 canHandleAuthentication() { return false; } handleAuthentication() { return __awaiter(this, void 0, void 0, function* () { throw new Error('not implemented'); }); } } exports.BearerCredentialHandler = BearerCredentialHandler; class PersonalAccessTokenCredentialHandler { constructor(token) { this.token = token; } // currently implements pre-authorization // TODO: support preAuth = false where it hooks on 401 prepareRequest(options) { if (!options.headers) { throw Error('The request has no headers'); } options.headers['Authorization'] = `Basic ${Buffer.from(`PAT:${this.token}`).toString('base64')}`; } // This handler cannot handle 401 canHandleAuthentication() { return false; } handleAuthentication() { return __awaiter(this, void 0, void 0, function* () { throw new Error('not implemented'); }); } } exports.PersonalAccessTokenCredentialHandler = PersonalAccessTokenCredentialHandler; //# sourceMappingURL=auth.js.map /***/ }), /***/ 4844: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { /* eslint-disable @typescript-eslint/no-explicit-any */ var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; var desc = Object.getOwnPropertyDescriptor(m, k); if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) { desc = { enumerable: true, get: function() { return m[k]; } }; } Object.defineProperty(o, k2, desc); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.HttpClient = exports.isHttps = exports.HttpClientResponse = exports.HttpClientError = exports.getProxyUrl = exports.MediaTypes = exports.Headers = exports.HttpCodes = void 0; const http = __importStar(__nccwpck_require__(8611)); const https = __importStar(__nccwpck_require__(5692)); const pm = __importStar(__nccwpck_require__(4988)); const tunnel = __importStar(__nccwpck_require__(770)); const undici_1 = __nccwpck_require__(6752); var HttpCodes; (function (HttpCodes) { HttpCodes[HttpCodes["OK"] = 200] = "OK"; HttpCodes[HttpCodes["MultipleChoices"] = 300] = "MultipleChoices"; HttpCodes[HttpCodes["MovedPermanently"] = 301] = "MovedPermanently"; HttpCodes[HttpCodes["ResourceMoved"] = 302] = "ResourceMoved"; HttpCodes[HttpCodes["SeeOther"] = 303] = "SeeOther"; HttpCodes[HttpCodes["NotModified"] = 304] = "NotModified"; HttpCodes[HttpCodes["UseProxy"] = 305] = "UseProxy"; HttpCodes[HttpCodes["SwitchProxy"] = 306] = "SwitchProxy"; HttpCodes[HttpCodes["TemporaryRedirect"] = 307] = "TemporaryRedirect"; HttpCodes[HttpCodes["PermanentRedirect"] = 308] = "PermanentRedirect"; HttpCodes[HttpCodes["BadRequest"] = 400] = "BadRequest"; HttpCodes[HttpCodes["Unauthorized"] = 401] = "Unauthorized"; HttpCodes[HttpCodes["PaymentRequired"] = 402] = "PaymentRequired"; HttpCodes[HttpCodes["Forbidden"] = 403] = "Forbidden"; HttpCodes[HttpCodes["NotFound"] = 404] = "NotFound"; HttpCodes[HttpCodes["MethodNotAllowed"] = 405] = "MethodNotAllowed"; HttpCodes[HttpCodes["NotAcceptable"] = 406] = "NotAcceptable"; HttpCodes[HttpCodes["ProxyAuthenticationRequired"] = 407] = "ProxyAuthenticationRequired"; HttpCodes[HttpCodes["RequestTimeout"] = 408] = "RequestTimeout"; HttpCodes[HttpCodes["Conflict"] = 409] = "Conflict"; HttpCodes[HttpCodes["Gone"] = 410] = "Gone"; HttpCodes[HttpCodes["TooManyRequests"] = 429] = "TooManyRequests"; HttpCodes[HttpCodes["InternalServerError"] = 500] = "InternalServerError"; HttpCodes[HttpCodes["NotImplemented"] = 501] = "NotImplemented"; HttpCodes[HttpCodes["BadGateway"] = 502] = "BadGateway"; HttpCodes[HttpCodes["ServiceUnavailable"] = 503] = "ServiceUnavailable"; HttpCodes[HttpCodes["GatewayTimeout"] = 504] = "GatewayTimeout"; })(HttpCodes || (exports.HttpCodes = HttpCodes = {})); var Headers; (function (Headers) { Headers["Accept"] = "accept"; Headers["ContentType"] = "content-type"; })(Headers || (exports.Headers = Headers = {})); var MediaTypes; (function (MediaTypes) { MediaTypes["ApplicationJson"] = "application/json"; })(MediaTypes || (exports.MediaTypes = MediaTypes = {})); /** * Returns the proxy URL, depending upon the supplied url and proxy environment variables. * @param serverUrl The server URL where the request will be sent. For example, https://api.github.com */ function getProxyUrl(serverUrl) { const proxyUrl = pm.getProxyUrl(new URL(serverUrl)); return proxyUrl ? proxyUrl.href : ''; } exports.getProxyUrl = getProxyUrl; const HttpRedirectCodes = [ HttpCodes.MovedPermanently, HttpCodes.ResourceMoved, HttpCodes.SeeOther, HttpCodes.TemporaryRedirect, HttpCodes.PermanentRedirect ]; const HttpResponseRetryCodes = [ HttpCodes.BadGateway, HttpCodes.ServiceUnavailable, HttpCodes.GatewayTimeout ]; const RetryableHttpVerbs = ['OPTIONS', 'GET', 'DELETE', 'HEAD']; const ExponentialBackoffCeiling = 10; const ExponentialBackoffTimeSlice = 5; class HttpClientError extends Error { constructor(message, statusCode) { super(message); this.name = 'HttpClientError'; this.statusCode = statusCode; Object.setPrototypeOf(this, HttpClientError.prototype); } } exports.HttpClientError = HttpClientError; class HttpClientResponse { constructor(message) { this.message = message; } readBody() { return __awaiter(this, void 0, void 0, function* () { return new Promise((resolve) => __awaiter(this, void 0, void 0, function* () { let output = Buffer.alloc(0); this.message.on('data', (chunk) => { output = Buffer.concat([output, chunk]); }); this.message.on('end', () => { resolve(output.toString()); }); })); }); } readBodyBuffer() { return __awaiter(this, void 0, void 0, function* () { return new Promise((resolve) => __awaiter(this, void 0, void 0, function* () { const chunks = []; this.message.on('data', (chunk) => { chunks.push(chunk); }); this.message.on('end', () => { resolve(Buffer.concat(chunks)); }); })); }); } } exports.HttpClientResponse = HttpClientResponse; function isHttps(requestUrl) { const parsedUrl = new URL(requestUrl); return parsedUrl.protocol === 'https:'; } exports.isHttps = isHttps; class HttpClient { constructor(userAgent, handlers, requestOptions) { this._ignoreSslError = false; this._allowRedirects = true; this._allowRedirectDowngrade = false; this._maxRedirects = 50; this._allowRetries = false; this._maxRetries = 1; this._keepAlive = false; this._disposed = false; this.userAgent = userAgent; this.handlers = handlers || []; this.requestOptions = requestOptions; if (requestOptions) { if (requestOptions.ignoreSslError != null) { this._ignoreSslError = requestOptions.ignoreSslError; } this._socketTimeout = requestOptions.socketTimeout; if (requestOptions.allowRedirects != null) { this._allowRedirects = requestOptions.allowRedirects; } if (requestOptions.allowRedirectDowngrade != null) { this._allowRedirectDowngrade = requestOptions.allowRedirectDowngrade; } if (requestOptions.maxRedirects != null) { this._maxRedirects = Math.max(requestOptions.maxRedirects, 0); } if (requestOptions.keepAlive != null) { this._keepAlive = requestOptions.keepAlive; } if (requestOptions.allowRetries != null) { this._allowRetries = requestOptions.allowRetries; } if (requestOptions.maxRetries != null) { this._maxRetries = requestOptions.maxRetries; } } } options(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('OPTIONS', requestUrl, null, additionalHeaders || {}); }); } get(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('GET', requestUrl, null, additionalHeaders || {}); }); } del(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('DELETE', requestUrl, null, additionalHeaders || {}); }); } post(requestUrl, data, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('POST', requestUrl, data, additionalHeaders || {}); }); } patch(requestUrl, data, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('PATCH', requestUrl, data, additionalHeaders || {}); }); } put(requestUrl, data, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('PUT', requestUrl, data, additionalHeaders || {}); }); } head(requestUrl, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request('HEAD', requestUrl, null, additionalHeaders || {}); }); } sendStream(verb, requestUrl, stream, additionalHeaders) { return __awaiter(this, void 0, void 0, function* () { return this.request(verb, requestUrl, stream, additionalHeaders); }); } /** * Gets a typed object from an endpoint * Be aware that not found returns a null. Other errors (4xx, 5xx) reject the promise */ getJson(requestUrl, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); const res = yield this.get(requestUrl, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } postJson(requestUrl, obj, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { const data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); const res = yield this.post(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } putJson(requestUrl, obj, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { const data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); const res = yield this.put(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } patchJson(requestUrl, obj, additionalHeaders = {}) { return __awaiter(this, void 0, void 0, function* () { const data = JSON.stringify(obj, null, 2); additionalHeaders[Headers.Accept] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.Accept, MediaTypes.ApplicationJson); additionalHeaders[Headers.ContentType] = this._getExistingOrDefaultHeader(additionalHeaders, Headers.ContentType, MediaTypes.ApplicationJson); const res = yield this.patch(requestUrl, data, additionalHeaders); return this._processResponse(res, this.requestOptions); }); } /** * Makes a raw http request. * All other methods such as get, post, patch, and request ultimately call this. * Prefer get, del, post and patch */ request(verb, requestUrl, data, headers) { return __awaiter(this, void 0, void 0, function* () { if (this._disposed) { throw new Error('Client has already been disposed.'); } const parsedUrl = new URL(requestUrl); let info = this._prepareRequest(verb, parsedUrl, headers); // Only perform retries on reads since writes may not be idempotent. const maxTries = this._allowRetries && RetryableHttpVerbs.includes(verb) ? this._maxRetries + 1 : 1; let numTries = 0; let response; do { response = yield this.requestRaw(info, data); // Check if it's an authentication challenge if (response && response.message && response.message.statusCode === HttpCodes.Unauthorized) { let authenticationHandler; for (const handler of this.handlers) { if (handler.canHandleAuthentication(response)) { authenticationHandler = handler; break; } } if (authenticationHandler) { return authenticationHandler.handleAuthentication(this, info, data); } else { // We have received an unauthorized response but have no handlers to handle it. // Let the response return to the caller. return response; } } let redirectsRemaining = this._maxRedirects; while (response.message.statusCode && HttpRedirectCodes.includes(response.message.statusCode) && this._allowRedirects && redirectsRemaining > 0) { const redirectUrl = response.message.headers['location']; if (!redirectUrl) { // if there's no location to redirect to, we won't break; } const parsedRedirectUrl = new URL(redirectUrl); if (parsedUrl.protocol === 'https:' && parsedUrl.protocol !== parsedRedirectUrl.protocol && !this._allowRedirectDowngrade) { throw new Error('Redirect from HTTPS to HTTP protocol. This downgrade is not allowed for security reasons. If you want to allow this behavior, set the allowRedirectDowngrade option to true.'); } // we need to finish reading the response before reassigning response // which will leak the open socket. yield response.readBody(); // strip authorization header if redirected to a different hostname if (parsedRedirectUrl.hostname !== parsedUrl.hostname) { for (const header in headers) { // header names are case insensitive if (header.toLowerCase() === 'authorization') { delete headers[header]; } } } // let's make the request with the new redirectUrl info = this._prepareRequest(verb, parsedRedirectUrl, headers); response = yield this.requestRaw(info, data); redirectsRemaining--; } if (!response.message.statusCode || !HttpResponseRetryCodes.includes(response.message.statusCode)) { // If not a retry code, return immediately instead of retrying return response; } numTries += 1; if (numTries < maxTries) { yield response.readBody(); yield this._performExponentialBackoff(numTries); } } while (numTries < maxTries); return response; }); } /** * Needs to be called if keepAlive is set to true in request options. */ dispose() { if (this._agent) { this._agent.destroy(); } this._disposed = true; } /** * Raw request. * @param info * @param data */ requestRaw(info, data) { return __awaiter(this, void 0, void 0, function* () { return new Promise((resolve, reject) => { function callbackForResult(err, res) { if (err) { reject(err); } else if (!res) { // If `err` is not passed, then `res` must be passed. reject(new Error('Unknown error')); } else { resolve(res); } } this.requestRawWithCallback(info, data, callbackForResult); }); }); } /** * Raw request with callback. * @param info * @param data * @param onResult */ requestRawWithCallback(info, data, onResult) { if (typeof data === 'string') { if (!info.options.headers) { info.options.headers = {}; } info.options.headers['Content-Length'] = Buffer.byteLength(data, 'utf8'); } let callbackCalled = false; function handleResult(err, res) { if (!callbackCalled) { callbackCalled = true; onResult(err, res); } } const req = info.httpModule.request(info.options, (msg) => { const res = new HttpClientResponse(msg); handleResult(undefined, res); }); let socket; req.on('socket', sock => { socket = sock; }); // If we ever get disconnected, we want the socket to timeout eventually req.setTimeout(this._socketTimeout || 3 * 60000, () => { if (socket) { socket.end(); } handleResult(new Error(`Request timeout: ${info.options.path}`)); }); req.on('error', function (err) { // err has statusCode property // res should have headers handleResult(err); }); if (data && typeof data === 'string') { req.write(data, 'utf8'); } if (data && typeof data !== 'string') { data.on('close', function () { req.end(); }); data.pipe(req); } else { req.end(); } } /** * Gets an http agent. This function is useful when you need an http agent that handles * routing through a proxy server - depending upon the url and proxy environment variables. * @param serverUrl The server URL where the request will be sent. For example, https://api.github.com */ getAgent(serverUrl) { const parsedUrl = new URL(serverUrl); return this._getAgent(parsedUrl); } getAgentDispatcher(serverUrl) { const parsedUrl = new URL(serverUrl); const proxyUrl = pm.getProxyUrl(parsedUrl); const useProxy = proxyUrl && proxyUrl.hostname; if (!useProxy) { return; } return this._getProxyAgentDispatcher(parsedUrl, proxyUrl); } _prepareRequest(method, requestUrl, headers) { const info = {}; info.parsedUrl = requestUrl; const usingSsl = info.parsedUrl.protocol === 'https:'; info.httpModule = usingSsl ? https : http; const defaultPort = usingSsl ? 443 : 80; info.options = {}; info.options.host = info.parsedUrl.hostname; info.options.port = info.parsedUrl.port ? parseInt(info.parsedUrl.port) : defaultPort; info.options.path = (info.parsedUrl.pathname || '') + (info.parsedUrl.search || ''); info.options.method = method; info.options.headers = this._mergeHeaders(headers); if (this.userAgent != null) { info.options.headers['user-agent'] = this.userAgent; } info.options.agent = this._getAgent(info.parsedUrl); // gives handlers an opportunity to participate if (this.handlers) { for (const handler of this.handlers) { handler.prepareRequest(info.options); } } return info; } _mergeHeaders(headers) { if (this.requestOptions && this.requestOptions.headers) { return Object.assign({}, lowercaseKeys(this.requestOptions.headers), lowercaseKeys(headers || {})); } return lowercaseKeys(headers || {}); } _getExistingOrDefaultHeader(additionalHeaders, header, _default) { let clientHeader; if (this.requestOptions && this.requestOptions.headers) { clientHeader = lowercaseKeys(this.requestOptions.headers)[header]; } return additionalHeaders[header] || clientHeader || _default; } _getAgent(parsedUrl) { let agent; const proxyUrl = pm.getProxyUrl(parsedUrl); const useProxy = proxyUrl && proxyUrl.hostname; if (this._keepAlive && useProxy) { agent = this._proxyAgent; } if (!useProxy) { agent = this._agent; } // if agent is already assigned use that agent. if (agent) { return agent; } const usingSsl = parsedUrl.protocol === 'https:'; let maxSockets = 100; if (this.requestOptions) { maxSockets = this.requestOptions.maxSockets || http.globalAgent.maxSockets; } // This is `useProxy` again, but we need to check `proxyURl` directly for TypeScripts's flow analysis. if (proxyUrl && proxyUrl.hostname) { const agentOptions = { maxSockets, keepAlive: this._keepAlive, proxy: Object.assign(Object.assign({}, ((proxyUrl.username || proxyUrl.password) && { proxyAuth: `${proxyUrl.username}:${proxyUrl.password}` })), { host: proxyUrl.hostname, port: proxyUrl.port }) }; let tunnelAgent; const overHttps = proxyUrl.protocol === 'https:'; if (usingSsl) { tunnelAgent = overHttps ? tunnel.httpsOverHttps : tunnel.httpsOverHttp; } else { tunnelAgent = overHttps ? tunnel.httpOverHttps : tunnel.httpOverHttp; } agent = tunnelAgent(agentOptions); this._proxyAgent = agent; } // if tunneling agent isn't assigned create a new agent if (!agent) { const options = { keepAlive: this._keepAlive, maxSockets }; agent = usingSsl ? new https.Agent(options) : new http.Agent(options); this._agent = agent; } if (usingSsl && this._ignoreSslError) { // we don't want to set NODE_TLS_REJECT_UNAUTHORIZED=0 since that will affect request for entire process // http.RequestOptions doesn't expose a way to modify RequestOptions.agent.options // we have to cast it to any and change it directly agent.options = Object.assign(agent.options || {}, { rejectUnauthorized: false }); } return agent; } _getProxyAgentDispatcher(parsedUrl, proxyUrl) { let proxyAgent; if (this._keepAlive) { proxyAgent = this._proxyAgentDispatcher; } // if agent is already assigned use that agent. if (proxyAgent) { return proxyAgent; } const usingSsl = parsedUrl.protocol === 'https:'; proxyAgent = new undici_1.ProxyAgent(Object.assign({ uri: proxyUrl.href, pipelining: !this._keepAlive ? 0 : 1 }, ((proxyUrl.username || proxyUrl.password) && { token: `Basic ${Buffer.from(`${proxyUrl.username}:${proxyUrl.password}`).toString('base64')}` }))); this._proxyAgentDispatcher = proxyAgent; if (usingSsl && this._ignoreSslError) { // we don't want to set NODE_TLS_REJECT_UNAUTHORIZED=0 since that will affect request for entire process // http.RequestOptions doesn't expose a way to modify RequestOptions.agent.options // we have to cast it to any and change it directly proxyAgent.options = Object.assign(proxyAgent.options.requestTls || {}, { rejectUnauthorized: false }); } return proxyAgent; } _performExponentialBackoff(retryNumber) { return __awaiter(this, void 0, void 0, function* () { retryNumber = Math.min(ExponentialBackoffCeiling, retryNumber); const ms = ExponentialBackoffTimeSlice * Math.pow(2, retryNumber); return new Promise(resolve => setTimeout(() => resolve(), ms)); }); } _processResponse(res, options) { return __awaiter(this, void 0, void 0, function* () { return new Promise((resolve, reject) => __awaiter(this, void 0, void 0, function* () { const statusCode = res.message.statusCode || 0; const response = { statusCode, result: null, headers: {} }; // not found leads to null obj returned if (statusCode === HttpCodes.NotFound) { resolve(response); } // get the result from the body function dateTimeDeserializer(key, value) { if (typeof value === 'string') { const a = new Date(value); if (!isNaN(a.valueOf())) { return a; } } return value; } let obj; let contents; try { contents = yield res.readBody(); if (contents && contents.length > 0) { if (options && options.deserializeDates) { obj = JSON.parse(contents, dateTimeDeserializer); } else { obj = JSON.parse(contents); } response.result = obj; } response.headers = res.message.headers; } catch (err) { // Invalid resource (contents not json); leaving result obj null } // note that 3xx redirects are handled by the http layer. if (statusCode > 299) { let msg; // if exception/error in body, attempt to get better error if (obj && obj.message) { msg = obj.message; } else if (contents && contents.length > 0) { // it may be the case that the exception is in the body message as string msg = contents; } else { msg = `Failed request: (${statusCode})`; } const err = new HttpClientError(msg, statusCode); err.result = response.result; reject(err); } else { resolve(response); } })); }); } } exports.HttpClient = HttpClient; const lowercaseKeys = (obj) => Object.keys(obj).reduce((c, k) => ((c[k.toLowerCase()] = obj[k]), c), {}); //# sourceMappingURL=index.js.map /***/ }), /***/ 4988: /***/ ((__unused_webpack_module, exports) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.checkBypass = exports.getProxyUrl = void 0; function getProxyUrl(reqUrl) { const usingSsl = reqUrl.protocol === 'https:'; if (checkBypass(reqUrl)) { return undefined; } const proxyVar = (() => { if (usingSsl) { return process.env['https_proxy'] || process.env['HTTPS_PROXY']; } else { return process.env['http_proxy'] || process.env['HTTP_PROXY']; } })(); if (proxyVar) { try { return new DecodedURL(proxyVar); } catch (_a) { if (!proxyVar.startsWith('http://') && !proxyVar.startsWith('https://')) return new DecodedURL(`http://${proxyVar}`); } } else { return undefined; } } exports.getProxyUrl = getProxyUrl; function checkBypass(reqUrl) { if (!reqUrl.hostname) { return false; } const reqHost = reqUrl.hostname; if (isLoopbackAddress(reqHost)) { return true; } const noProxy = process.env['no_proxy'] || process.env['NO_PROXY'] || ''; if (!noProxy) { return false; } // Determine the request port let reqPort; if (reqUrl.port) { reqPort = Number(reqUrl.port); } else if (reqUrl.protocol === 'http:') { reqPort = 80; } else if (reqUrl.protocol === 'https:') { reqPort = 443; } // Format the request hostname and hostname with port const upperReqHosts = [reqUrl.hostname.toUpperCase()]; if (typeof reqPort === 'number') { upperReqHosts.push(`${upperReqHosts[0]}:${reqPort}`); } // Compare request host against noproxy for (const upperNoProxyItem of noProxy .split(',') .map(x => x.trim().toUpperCase()) .filter(x => x)) { if (upperNoProxyItem === '*' || upperReqHosts.some(x => x === upperNoProxyItem || x.endsWith(`.${upperNoProxyItem}`) || (upperNoProxyItem.startsWith('.') && x.endsWith(`${upperNoProxyItem}`)))) { return true; } } return false; } exports.checkBypass = checkBypass; function isLoopbackAddress(host) { const hostLower = host.toLowerCase(); return (hostLower === 'localhost' || hostLower.startsWith('127.') || hostLower.startsWith('[::1]') || hostLower.startsWith('[0:0:0:0:0:0:0:1]')); } class DecodedURL extends URL { constructor(url, base) { super(url, base); this._decodedUsername = decodeURIComponent(super.username); this._decodedPassword = decodeURIComponent(super.password); } get username() { return this._decodedUsername; } get password() { return this._decodedPassword; } } //# sourceMappingURL=proxy.js.map /***/ }), /***/ 5207: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var _a; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.getCmdPath = exports.tryGetExecutablePath = exports.isRooted = exports.isDirectory = exports.exists = exports.READONLY = exports.UV_FS_O_EXLOCK = exports.IS_WINDOWS = exports.unlink = exports.symlink = exports.stat = exports.rmdir = exports.rm = exports.rename = exports.readlink = exports.readdir = exports.open = exports.mkdir = exports.lstat = exports.copyFile = exports.chmod = void 0; const fs = __importStar(__nccwpck_require__(9896)); const path = __importStar(__nccwpck_require__(6928)); _a = fs.promises // export const {open} = 'fs' , exports.chmod = _a.chmod, exports.copyFile = _a.copyFile, exports.lstat = _a.lstat, exports.mkdir = _a.mkdir, exports.open = _a.open, exports.readdir = _a.readdir, exports.readlink = _a.readlink, exports.rename = _a.rename, exports.rm = _a.rm, exports.rmdir = _a.rmdir, exports.stat = _a.stat, exports.symlink = _a.symlink, exports.unlink = _a.unlink; // export const {open} = 'fs' exports.IS_WINDOWS = process.platform === 'win32'; // See https://github.com/nodejs/node/blob/d0153aee367422d0858105abec186da4dff0a0c5/deps/uv/include/uv/win.h#L691 exports.UV_FS_O_EXLOCK = 0x10000000; exports.READONLY = fs.constants.O_RDONLY; function exists(fsPath) { return __awaiter(this, void 0, void 0, function* () { try { yield exports.stat(fsPath); } catch (err) { if (err.code === 'ENOENT') { return false; } throw err; } return true; }); } exports.exists = exists; function isDirectory(fsPath, useStat = false) { return __awaiter(this, void 0, void 0, function* () { const stats = useStat ? yield exports.stat(fsPath) : yield exports.lstat(fsPath); return stats.isDirectory(); }); } exports.isDirectory = isDirectory; /** * On OSX/Linux, true if path starts with '/'. On Windows, true for paths like: * \, \hello, \\hello\share, C:, and C:\hello (and corresponding alternate separator cases). */ function isRooted(p) { p = normalizeSeparators(p); if (!p) { throw new Error('isRooted() parameter "p" cannot be empty'); } if (exports.IS_WINDOWS) { return (p.startsWith('\\') || /^[A-Z]:/i.test(p) // e.g. \ or \hello or \\hello ); // e.g. C: or C:\hello } return p.startsWith('/'); } exports.isRooted = isRooted; /** * Best effort attempt to determine whether a file exists and is executable. * @param filePath file path to check * @param extensions additional file extensions to try * @return if file exists and is executable, returns the file path. otherwise empty string. */ function tryGetExecutablePath(filePath, extensions) { return __awaiter(this, void 0, void 0, function* () { let stats = undefined; try { // test file exists stats = yield exports.stat(filePath); } catch (err) { if (err.code !== 'ENOENT') { // eslint-disable-next-line no-console console.log(`Unexpected error attempting to determine if executable file exists '${filePath}': ${err}`); } } if (stats && stats.isFile()) { if (exports.IS_WINDOWS) { // on Windows, test for valid extension const upperExt = path.extname(filePath).toUpperCase(); if (extensions.some(validExt => validExt.toUpperCase() === upperExt)) { return filePath; } } else { if (isUnixExecutable(stats)) { return filePath; } } } // try each extension const originalFilePath = filePath; for (const extension of extensions) { filePath = originalFilePath + extension; stats = undefined; try { stats = yield exports.stat(filePath); } catch (err) { if (err.code !== 'ENOENT') { // eslint-disable-next-line no-console console.log(`Unexpected error attempting to determine if executable file exists '${filePath}': ${err}`); } } if (stats && stats.isFile()) { if (exports.IS_WINDOWS) { // preserve the case of the actual file (since an extension was appended) try { const directory = path.dirname(filePath); const upperName = path.basename(filePath).toUpperCase(); for (const actualName of yield exports.readdir(directory)) { if (upperName === actualName.toUpperCase()) { filePath = path.join(directory, actualName); break; } } } catch (err) { // eslint-disable-next-line no-console console.log(`Unexpected error attempting to determine the actual case of the file '${filePath}': ${err}`); } return filePath; } else { if (isUnixExecutable(stats)) { return filePath; } } } } return ''; }); } exports.tryGetExecutablePath = tryGetExecutablePath; function normalizeSeparators(p) { p = p || ''; if (exports.IS_WINDOWS) { // convert slashes on Windows p = p.replace(/\//g, '\\'); // remove redundant slashes return p.replace(/\\\\+/g, '\\'); } // remove redundant slashes return p.replace(/\/\/+/g, '/'); } // on Mac/Linux, test the execute bit // R W X R W X R W X // 256 128 64 32 16 8 4 2 1 function isUnixExecutable(stats) { return ((stats.mode & 1) > 0 || ((stats.mode & 8) > 0 && stats.gid === process.getgid()) || ((stats.mode & 64) > 0 && stats.uid === process.getuid())); } // Get the path of cmd.exe in windows function getCmdPath() { var _a; return (_a = process.env['COMSPEC']) !== null && _a !== void 0 ? _a : `cmd.exe`; } exports.getCmdPath = getCmdPath; //# sourceMappingURL=io-util.js.map /***/ }), /***/ 4994: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) { if (k2 === undefined) k2 = k; Object.defineProperty(o, k2, { enumerable: true, get: function() { return m[k]; } }); }) : (function(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; })); var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) { Object.defineProperty(o, "default", { enumerable: true, value: v }); }) : function(o, v) { o["default"] = v; }); var __importStar = (this && this.__importStar) || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (k !== "default" && Object.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k); __setModuleDefault(result, mod); return result; }; var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.findInPath = exports.which = exports.mkdirP = exports.rmRF = exports.mv = exports.cp = void 0; const assert_1 = __nccwpck_require__(2613); const path = __importStar(__nccwpck_require__(6928)); const ioUtil = __importStar(__nccwpck_require__(5207)); /** * Copies a file or folder. * Based off of shelljs - https://github.com/shelljs/shelljs/blob/9237f66c52e5daa40458f94f9565e18e8132f5a6/src/cp.js * * @param source source path * @param dest destination path * @param options optional. See CopyOptions. */ function cp(source, dest, options = {}) { return __awaiter(this, void 0, void 0, function* () { const { force, recursive, copySourceDirectory } = readCopyOptions(options); const destStat = (yield ioUtil.exists(dest)) ? yield ioUtil.stat(dest) : null; // Dest is an existing file, but not forcing if (destStat && destStat.isFile() && !force) { return; } // If dest is an existing directory, should copy inside. const newDest = destStat && destStat.isDirectory() && copySourceDirectory ? path.join(dest, path.basename(source)) : dest; if (!(yield ioUtil.exists(source))) { throw new Error(`no such file or directory: ${source}`); } const sourceStat = yield ioUtil.stat(source); if (sourceStat.isDirectory()) { if (!recursive) { throw new Error(`Failed to copy. ${source} is a directory, but tried to copy without recursive flag.`); } else { yield cpDirRecursive(source, newDest, 0, force); } } else { if (path.relative(source, newDest) === '') { // a file cannot be copied to itself throw new Error(`'${newDest}' and '${source}' are the same file`); } yield copyFile(source, newDest, force); } }); } exports.cp = cp; /** * Moves a path. * * @param source source path * @param dest destination path * @param options optional. See MoveOptions. */ function mv(source, dest, options = {}) { return __awaiter(this, void 0, void 0, function* () { if (yield ioUtil.exists(dest)) { let destExists = true; if (yield ioUtil.isDirectory(dest)) { // If dest is directory copy src into dest dest = path.join(dest, path.basename(source)); destExists = yield ioUtil.exists(dest); } if (destExists) { if (options.force == null || options.force) { yield rmRF(dest); } else { throw new Error('Destination already exists'); } } } yield mkdirP(path.dirname(dest)); yield ioUtil.rename(source, dest); }); } exports.mv = mv; /** * Remove a path recursively with force * * @param inputPath path to remove */ function rmRF(inputPath) { return __awaiter(this, void 0, void 0, function* () { if (ioUtil.IS_WINDOWS) { // Check for invalid characters // https://docs.microsoft.com/en-us/windows/win32/fileio/naming-a-file if (/[*"<>|]/.test(inputPath)) { throw new Error('File path must not contain `*`, `"`, `<`, `>` or `|` on Windows'); } } try { // note if path does not exist, error is silent yield ioUtil.rm(inputPath, { force: true, maxRetries: 3, recursive: true, retryDelay: 300 }); } catch (err) { throw new Error(`File was unable to be removed ${err}`); } }); } exports.rmRF = rmRF; /** * Make a directory. Creates the full path with folders in between * Will throw if it fails * * @param fsPath path to create * @returns Promise */ function mkdirP(fsPath) { return __awaiter(this, void 0, void 0, function* () { assert_1.ok(fsPath, 'a path argument must be provided'); yield ioUtil.mkdir(fsPath, { recursive: true }); }); } exports.mkdirP = mkdirP; /** * Returns path of a tool had the tool actually been invoked. Resolves via paths. * If you check and the tool does not exist, it will throw. * * @param tool name of the tool * @param check whether to check if tool exists * @returns Promise path to tool */ function which(tool, check) { return __awaiter(this, void 0, void 0, function* () { if (!tool) { throw new Error("parameter 'tool' is required"); } // recursive when check=true if (check) { const result = yield which(tool, false); if (!result) { if (ioUtil.IS_WINDOWS) { throw new Error(`Unable to locate executable file: ${tool}. Please verify either the file path exists or the file can be found within a directory specified by the PATH environment variable. Also verify the file has a valid extension for an executable file.`); } else { throw new Error(`Unable to locate executable file: ${tool}. Please verify either the file path exists or the file can be found within a directory specified by the PATH environment variable. Also check the file mode to verify the file is executable.`); } } return result; } const matches = yield findInPath(tool); if (matches && matches.length > 0) { return matches[0]; } return ''; }); } exports.which = which; /** * Returns a list of all occurrences of the given tool on the system path. * * @returns Promise the paths of the tool */ function findInPath(tool) { return __awaiter(this, void 0, void 0, function* () { if (!tool) { throw new Error("parameter 'tool' is required"); } // build the list of extensions to try const extensions = []; if (ioUtil.IS_WINDOWS && process.env['PATHEXT']) { for (const extension of process.env['PATHEXT'].split(path.delimiter)) { if (extension) { extensions.push(extension); } } } // if it's rooted, return it if exists. otherwise return empty. if (ioUtil.isRooted(tool)) { const filePath = yield ioUtil.tryGetExecutablePath(tool, extensions); if (filePath) { return [filePath]; } return []; } // if any path separators, return empty if (tool.includes(path.sep)) { return []; } // build the list of directories // // Note, technically "where" checks the current directory on Windows. From a toolkit perspective, // it feels like we should not do this. Checking the current directory seems like more of a use // case of a shell, and the which() function exposed by the toolkit should strive for consistency // across platforms. const directories = []; if (process.env.PATH) { for (const p of process.env.PATH.split(path.delimiter)) { if (p) { directories.push(p); } } } // find all matches const matches = []; for (const directory of directories) { const filePath = yield ioUtil.tryGetExecutablePath(path.join(directory, tool), extensions); if (filePath) { matches.push(filePath); } } return matches; }); } exports.findInPath = findInPath; function readCopyOptions(options) { const force = options.force == null ? true : options.force; const recursive = Boolean(options.recursive); const copySourceDirectory = options.copySourceDirectory == null ? true : Boolean(options.copySourceDirectory); return { force, recursive, copySourceDirectory }; } function cpDirRecursive(sourceDir, destDir, currentDepth, force) { return __awaiter(this, void 0, void 0, function* () { // Ensure there is not a run away recursive copy if (currentDepth >= 255) return; currentDepth++; yield mkdirP(destDir); const files = yield ioUtil.readdir(sourceDir); for (const fileName of files) { const srcFile = `${sourceDir}/${fileName}`; const destFile = `${destDir}/${fileName}`; const srcFileStat = yield ioUtil.lstat(srcFile); if (srcFileStat.isDirectory()) { // Recurse yield cpDirRecursive(srcFile, destFile, currentDepth, force); } else { yield copyFile(srcFile, destFile, force); } } // Change the mode for the newly created directory yield ioUtil.chmod(destDir, (yield ioUtil.stat(sourceDir)).mode); }); } // Buffered file copy function copyFile(srcFile, destFile, force) { return __awaiter(this, void 0, void 0, function* () { if ((yield ioUtil.lstat(srcFile)).isSymbolicLink()) { // unlink/re-link it try { yield ioUtil.lstat(destFile); yield ioUtil.unlink(destFile); } catch (e) { // Try to override file permission if (e.code === 'EPERM') { yield ioUtil.chmod(destFile, '0666'); yield ioUtil.unlink(destFile); } // other errors = it doesn't exist, no work to do } // Copy over symlink const symlinkFull = yield ioUtil.readlink(srcFile); yield ioUtil.symlink(symlinkFull, destFile, ioUtil.IS_WINDOWS ? 'junction' : null); } else if (!(yield ioUtil.exists(destFile)) || force) { yield ioUtil.copyFile(srcFile, destFile); } }); } //# sourceMappingURL=io.js.map /***/ }), /***/ 4471: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var __defProp = Object.defineProperty; var __getOwnPropDesc = Object.getOwnPropertyDescriptor; var __getOwnPropNames = Object.getOwnPropertyNames; var __hasOwnProp = Object.prototype.hasOwnProperty; var __export = (target, all) => { for (var name in all) __defProp(target, name, { get: all[name], enumerable: true }); }; var __copyProps = (to, from, except, desc) => { if (from && typeof from === "object" || typeof from === "function") { for (let key of __getOwnPropNames(from)) if (!__hasOwnProp.call(to, key) && key !== except) __defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable }); } return to; }; var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod); // pkg/dist-src/index.js var dist_src_exports = {}; __export(dist_src_exports, { endpoint: () => endpoint }); module.exports = __toCommonJS(dist_src_exports); // pkg/dist-src/defaults.js var import_universal_user_agent = __nccwpck_require__(3843); // pkg/dist-src/version.js var VERSION = "9.0.6"; // pkg/dist-src/defaults.js var userAgent = `octokit-endpoint.js/${VERSION} ${(0, import_universal_user_agent.getUserAgent)()}`; var DEFAULTS = { method: "GET", baseUrl: "https://api.github.com", headers: { accept: "application/vnd.github.v3+json", "user-agent": userAgent }, mediaType: { format: "" } }; // pkg/dist-src/util/lowercase-keys.js function lowercaseKeys(object) { if (!object) { return {}; } return Object.keys(object).reduce((newObj, key) => { newObj[key.toLowerCase()] = object[key]; return newObj; }, {}); } // pkg/dist-src/util/is-plain-object.js function isPlainObject(value) { if (typeof value !== "object" || value === null) return false; if (Object.prototype.toString.call(value) !== "[object Object]") return false; const proto = Object.getPrototypeOf(value); if (proto === null) return true; const Ctor = Object.prototype.hasOwnProperty.call(proto, "constructor") && proto.constructor; return typeof Ctor === "function" && Ctor instanceof Ctor && Function.prototype.call(Ctor) === Function.prototype.call(value); } // pkg/dist-src/util/merge-deep.js function mergeDeep(defaults, options) { const result = Object.assign({}, defaults); Object.keys(options).forEach((key) => { if (isPlainObject(options[key])) { if (!(key in defaults)) Object.assign(result, { [key]: options[key] }); else result[key] = mergeDeep(defaults[key], options[key]); } else { Object.assign(result, { [key]: options[key] }); } }); return result; } // pkg/dist-src/util/remove-undefined-properties.js function removeUndefinedProperties(obj) { for (const key in obj) { if (obj[key] === void 0) { delete obj[key]; } } return obj; } // pkg/dist-src/merge.js function merge(defaults, route, options) { if (typeof route === "string") { let [method, url] = route.split(" "); options = Object.assign(url ? { method, url } : { url: method }, options); } else { options = Object.assign({}, route); } options.headers = lowercaseKeys(options.headers); removeUndefinedProperties(options); removeUndefinedProperties(options.headers); const mergedOptions = mergeDeep(defaults || {}, options); if (options.url === "/graphql") { if (defaults && defaults.mediaType.previews?.length) { mergedOptions.mediaType.previews = defaults.mediaType.previews.filter( (preview) => !mergedOptions.mediaType.previews.includes(preview) ).concat(mergedOptions.mediaType.previews); } mergedOptions.mediaType.previews = (mergedOptions.mediaType.previews || []).map((preview) => preview.replace(/-preview/, "")); } return mergedOptions; } // pkg/dist-src/util/add-query-parameters.js function addQueryParameters(url, parameters) { const separator = /\?/.test(url) ? "&" : "?"; const names = Object.keys(parameters); if (names.length === 0) { return url; } return url + separator + names.map((name) => { if (name === "q") { return "q=" + parameters.q.split("+").map(encodeURIComponent).join("+"); } return `${name}=${encodeURIComponent(parameters[name])}`; }).join("&"); } // pkg/dist-src/util/extract-url-variable-names.js var urlVariableRegex = /\{[^{}}]+\}/g; function removeNonChars(variableName) { return variableName.replace(/(?:^\W+)|(?:(? a.concat(b), []); } // pkg/dist-src/util/omit.js function omit(object, keysToOmit) { const result = { __proto__: null }; for (const key of Object.keys(object)) { if (keysToOmit.indexOf(key) === -1) { result[key] = object[key]; } } return result; } // pkg/dist-src/util/url-template.js function encodeReserved(str) { return str.split(/(%[0-9A-Fa-f]{2})/g).map(function(part) { if (!/%[0-9A-Fa-f]/.test(part)) { part = encodeURI(part).replace(/%5B/g, "[").replace(/%5D/g, "]"); } return part; }).join(""); } function encodeUnreserved(str) { return encodeURIComponent(str).replace(/[!'()*]/g, function(c) { return "%" + c.charCodeAt(0).toString(16).toUpperCase(); }); } function encodeValue(operator, value, key) { value = operator === "+" || operator === "#" ? encodeReserved(value) : encodeUnreserved(value); if (key) { return encodeUnreserved(key) + "=" + value; } else { return value; } } function isDefined(value) { return value !== void 0 && value !== null; } function isKeyOperator(operator) { return operator === ";" || operator === "&" || operator === "?"; } function getValues(context, operator, key, modifier) { var value = context[key], result = []; if (isDefined(value) && value !== "") { if (typeof value === "string" || typeof value === "number" || typeof value === "boolean") { value = value.toString(); if (modifier && modifier !== "*") { value = value.substring(0, parseInt(modifier, 10)); } result.push( encodeValue(operator, value, isKeyOperator(operator) ? key : "") ); } else { if (modifier === "*") { if (Array.isArray(value)) { value.filter(isDefined).forEach(function(value2) { result.push( encodeValue(operator, value2, isKeyOperator(operator) ? key : "") ); }); } else { Object.keys(value).forEach(function(k) { if (isDefined(value[k])) { result.push(encodeValue(operator, value[k], k)); } }); } } else { const tmp = []; if (Array.isArray(value)) { value.filter(isDefined).forEach(function(value2) { tmp.push(encodeValue(operator, value2)); }); } else { Object.keys(value).forEach(function(k) { if (isDefined(value[k])) { tmp.push(encodeUnreserved(k)); tmp.push(encodeValue(operator, value[k].toString())); } }); } if (isKeyOperator(operator)) { result.push(encodeUnreserved(key) + "=" + tmp.join(",")); } else if (tmp.length !== 0) { result.push(tmp.join(",")); } } } } else { if (operator === ";") { if (isDefined(value)) { result.push(encodeUnreserved(key)); } } else if (value === "" && (operator === "&" || operator === "?")) { result.push(encodeUnreserved(key) + "="); } else if (value === "") { result.push(""); } } return result; } function parseUrl(template) { return { expand: expand.bind(null, template) }; } function expand(template, context) { var operators = ["+", "#", ".", "/", ";", "?", "&"]; template = template.replace( /\{([^\{\}]+)\}|([^\{\}]+)/g, function(_, expression, literal) { if (expression) { let operator = ""; const values = []; if (operators.indexOf(expression.charAt(0)) !== -1) { operator = expression.charAt(0); expression = expression.substr(1); } expression.split(/,/g).forEach(function(variable) { var tmp = /([^:\*]*)(?::(\d+)|(\*))?/.exec(variable); values.push(getValues(context, operator, tmp[1], tmp[2] || tmp[3])); }); if (operator && operator !== "+") { var separator = ","; if (operator === "?") { separator = "&"; } else if (operator !== "#") { separator = operator; } return (values.length !== 0 ? operator : "") + values.join(separator); } else { return values.join(","); } } else { return encodeReserved(literal); } } ); if (template === "/") { return template; } else { return template.replace(/\/$/, ""); } } // pkg/dist-src/parse.js function parse(options) { let method = options.method.toUpperCase(); let url = (options.url || "/").replace(/:([a-z]\w+)/g, "{$1}"); let headers = Object.assign({}, options.headers); let body; let parameters = omit(options, [ "method", "baseUrl", "url", "headers", "request", "mediaType" ]); const urlVariableNames = extractUrlVariableNames(url); url = parseUrl(url).expand(parameters); if (!/^http/.test(url)) { url = options.baseUrl + url; } const omittedParameters = Object.keys(options).filter((option) => urlVariableNames.includes(option)).concat("baseUrl"); const remainingParameters = omit(parameters, omittedParameters); const isBinaryRequest = /application\/octet-stream/i.test(headers.accept); if (!isBinaryRequest) { if (options.mediaType.format) { headers.accept = headers.accept.split(/,/).map( (format) => format.replace( /application\/vnd(\.\w+)(\.v3)?(\.\w+)?(\+json)?$/, `application/vnd$1$2.${options.mediaType.format}` ) ).join(","); } if (url.endsWith("/graphql")) { if (options.mediaType.previews?.length) { const previewsFromAcceptHeader = headers.accept.match(/(? { const format = options.mediaType.format ? `.${options.mediaType.format}` : "+json"; return `application/vnd.github.${preview}-preview${format}`; }).join(","); } } } if (["GET", "HEAD"].includes(method)) { url = addQueryParameters(url, remainingParameters); } else { if ("data" in remainingParameters) { body = remainingParameters.data; } else { if (Object.keys(remainingParameters).length) { body = remainingParameters; } } } if (!headers["content-type"] && typeof body !== "undefined") { headers["content-type"] = "application/json; charset=utf-8"; } if (["PATCH", "PUT"].includes(method) && typeof body === "undefined") { body = ""; } return Object.assign( { method, url, headers }, typeof body !== "undefined" ? { body } : null, options.request ? { request: options.request } : null ); } // pkg/dist-src/endpoint-with-defaults.js function endpointWithDefaults(defaults, route, options) { return parse(merge(defaults, route, options)); } // pkg/dist-src/with-defaults.js function withDefaults(oldDefaults, newDefaults) { const DEFAULTS2 = merge(oldDefaults, newDefaults); const endpoint2 = endpointWithDefaults.bind(null, DEFAULTS2); return Object.assign(endpoint2, { DEFAULTS: DEFAULTS2, defaults: withDefaults.bind(null, DEFAULTS2), merge: merge.bind(null, DEFAULTS2), parse }); } // pkg/dist-src/index.js var endpoint = withDefaults(null, DEFAULTS); // Annotate the CommonJS export names for ESM import in node: 0 && (0); /***/ }), /***/ 7: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var __defProp = Object.defineProperty; var __getOwnPropDesc = Object.getOwnPropertyDescriptor; var __getOwnPropNames = Object.getOwnPropertyNames; var __hasOwnProp = Object.prototype.hasOwnProperty; var __export = (target, all) => { for (var name in all) __defProp(target, name, { get: all[name], enumerable: true }); }; var __copyProps = (to, from, except, desc) => { if (from && typeof from === "object" || typeof from === "function") { for (let key of __getOwnPropNames(from)) if (!__hasOwnProp.call(to, key) && key !== except) __defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable }); } return to; }; var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod); // pkg/dist-src/index.js var index_exports = {}; __export(index_exports, { GraphqlResponseError: () => GraphqlResponseError, graphql: () => graphql2, withCustomRequest: () => withCustomRequest }); module.exports = __toCommonJS(index_exports); var import_request3 = __nccwpck_require__(8636); var import_universal_user_agent = __nccwpck_require__(3843); // pkg/dist-src/version.js var VERSION = "7.1.1"; // pkg/dist-src/with-defaults.js var import_request2 = __nccwpck_require__(8636); // pkg/dist-src/graphql.js var import_request = __nccwpck_require__(8636); // pkg/dist-src/error.js function _buildMessageForResponseErrors(data) { return `Request failed due to following response errors: ` + data.errors.map((e) => ` - ${e.message}`).join("\n"); } var GraphqlResponseError = class extends Error { constructor(request2, headers, response) { super(_buildMessageForResponseErrors(response)); this.request = request2; this.headers = headers; this.response = response; this.name = "GraphqlResponseError"; this.errors = response.errors; this.data = response.data; if (Error.captureStackTrace) { Error.captureStackTrace(this, this.constructor); } } }; // pkg/dist-src/graphql.js var NON_VARIABLE_OPTIONS = [ "method", "baseUrl", "url", "headers", "request", "query", "mediaType" ]; var FORBIDDEN_VARIABLE_OPTIONS = ["query", "method", "url"]; var GHES_V3_SUFFIX_REGEX = /\/api\/v3\/?$/; function graphql(request2, query, options) { if (options) { if (typeof query === "string" && "query" in options) { return Promise.reject( new Error(`[@octokit/graphql] "query" cannot be used as variable name`) ); } for (const key in options) { if (!FORBIDDEN_VARIABLE_OPTIONS.includes(key)) continue; return Promise.reject( new Error( `[@octokit/graphql] "${key}" cannot be used as variable name` ) ); } } const parsedOptions = typeof query === "string" ? Object.assign({ query }, options) : query; const requestOptions = Object.keys( parsedOptions ).reduce((result, key) => { if (NON_VARIABLE_OPTIONS.includes(key)) { result[key] = parsedOptions[key]; return result; } if (!result.variables) { result.variables = {}; } result.variables[key] = parsedOptions[key]; return result; }, {}); const baseUrl = parsedOptions.baseUrl || request2.endpoint.DEFAULTS.baseUrl; if (GHES_V3_SUFFIX_REGEX.test(baseUrl)) { requestOptions.url = baseUrl.replace(GHES_V3_SUFFIX_REGEX, "/api/graphql"); } return request2(requestOptions).then((response) => { if (response.data.errors) { const headers = {}; for (const key of Object.keys(response.headers)) { headers[key] = response.headers[key]; } throw new GraphqlResponseError( requestOptions, headers, response.data ); } return response.data.data; }); } // pkg/dist-src/with-defaults.js function withDefaults(request2, newDefaults) { const newRequest = request2.defaults(newDefaults); const newApi = (query, options) => { return graphql(newRequest, query, options); }; return Object.assign(newApi, { defaults: withDefaults.bind(null, newRequest), endpoint: newRequest.endpoint }); } // pkg/dist-src/index.js var graphql2 = withDefaults(import_request3.request, { headers: { "user-agent": `octokit-graphql.js/${VERSION} ${(0, import_universal_user_agent.getUserAgent)()}` }, method: "POST", url: "/graphql" }); function withCustomRequest(customRequest) { return withDefaults(customRequest, { method: "POST", url: "/graphql" }); } // Annotate the CommonJS export names for ESM import in node: 0 && (0); /***/ }), /***/ 3708: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var __create = Object.create; var __defProp = Object.defineProperty; var __getOwnPropDesc = Object.getOwnPropertyDescriptor; var __getOwnPropNames = Object.getOwnPropertyNames; var __getProtoOf = Object.getPrototypeOf; var __hasOwnProp = Object.prototype.hasOwnProperty; var __export = (target, all) => { for (var name in all) __defProp(target, name, { get: all[name], enumerable: true }); }; var __copyProps = (to, from, except, desc) => { if (from && typeof from === "object" || typeof from === "function") { for (let key of __getOwnPropNames(from)) if (!__hasOwnProp.call(to, key) && key !== except) __defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable }); } return to; }; var __toESM = (mod, isNodeMode, target) => (target = mod != null ? __create(__getProtoOf(mod)) : {}, __copyProps( // If the importer is in node compatibility mode or this is not an ESM // file that has been converted to a CommonJS file using a Babel- // compatible transform (i.e. "__esModule" has not been set), then set // "default" to the CommonJS "module.exports" for node compatibility. isNodeMode || !mod || !mod.__esModule ? __defProp(target, "default", { value: mod, enumerable: true }) : target, mod )); var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod); // pkg/dist-src/index.js var dist_src_exports = {}; __export(dist_src_exports, { RequestError: () => RequestError }); module.exports = __toCommonJS(dist_src_exports); var import_deprecation = __nccwpck_require__(4150); var import_once = __toESM(__nccwpck_require__(5560)); var logOnceCode = (0, import_once.default)((deprecation) => console.warn(deprecation)); var logOnceHeaders = (0, import_once.default)((deprecation) => console.warn(deprecation)); var RequestError = class extends Error { constructor(message, statusCode, options) { super(message); if (Error.captureStackTrace) { Error.captureStackTrace(this, this.constructor); } this.name = "HttpError"; this.status = statusCode; let headers; if ("headers" in options && typeof options.headers !== "undefined") { headers = options.headers; } if ("response" in options) { this.response = options.response; headers = options.response.headers; } const requestCopy = Object.assign({}, options.request); if (options.request.headers.authorization) { requestCopy.headers = Object.assign({}, options.request.headers, { authorization: options.request.headers.authorization.replace( /(? { var __defProp = Object.defineProperty; var __getOwnPropDesc = Object.getOwnPropertyDescriptor; var __getOwnPropNames = Object.getOwnPropertyNames; var __hasOwnProp = Object.prototype.hasOwnProperty; var __export = (target, all) => { for (var name in all) __defProp(target, name, { get: all[name], enumerable: true }); }; var __copyProps = (to, from, except, desc) => { if (from && typeof from === "object" || typeof from === "function") { for (let key of __getOwnPropNames(from)) if (!__hasOwnProp.call(to, key) && key !== except) __defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable }); } return to; }; var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod); // pkg/dist-src/index.js var dist_src_exports = {}; __export(dist_src_exports, { request: () => request }); module.exports = __toCommonJS(dist_src_exports); var import_endpoint = __nccwpck_require__(4471); var import_universal_user_agent = __nccwpck_require__(3843); // pkg/dist-src/version.js var VERSION = "8.4.1"; // pkg/dist-src/is-plain-object.js function isPlainObject(value) { if (typeof value !== "object" || value === null) return false; if (Object.prototype.toString.call(value) !== "[object Object]") return false; const proto = Object.getPrototypeOf(value); if (proto === null) return true; const Ctor = Object.prototype.hasOwnProperty.call(proto, "constructor") && proto.constructor; return typeof Ctor === "function" && Ctor instanceof Ctor && Function.prototype.call(Ctor) === Function.prototype.call(value); } // pkg/dist-src/fetch-wrapper.js var import_request_error = __nccwpck_require__(3708); // pkg/dist-src/get-buffer-response.js function getBufferResponse(response) { return response.arrayBuffer(); } // pkg/dist-src/fetch-wrapper.js function fetchWrapper(requestOptions) { var _a, _b, _c, _d; const log = requestOptions.request && requestOptions.request.log ? requestOptions.request.log : console; const parseSuccessResponseBody = ((_a = requestOptions.request) == null ? void 0 : _a.parseSuccessResponseBody) !== false; if (isPlainObject(requestOptions.body) || Array.isArray(requestOptions.body)) { requestOptions.body = JSON.stringify(requestOptions.body); } let headers = {}; let status; let url; let { fetch } = globalThis; if ((_b = requestOptions.request) == null ? void 0 : _b.fetch) { fetch = requestOptions.request.fetch; } if (!fetch) { throw new Error( "fetch is not set. Please pass a fetch implementation as new Octokit({ request: { fetch }}). Learn more at https://github.com/octokit/octokit.js/#fetch-missing" ); } return fetch(requestOptions.url, { method: requestOptions.method, body: requestOptions.body, redirect: (_c = requestOptions.request) == null ? void 0 : _c.redirect, headers: requestOptions.headers, signal: (_d = requestOptions.request) == null ? void 0 : _d.signal, // duplex must be set if request.body is ReadableStream or Async Iterables. // See https://fetch.spec.whatwg.org/#dom-requestinit-duplex. ...requestOptions.body && { duplex: "half" } }).then(async (response) => { url = response.url; status = response.status; for (const keyAndValue of response.headers) { headers[keyAndValue[0]] = keyAndValue[1]; } if ("deprecation" in headers) { const matches = headers.link && headers.link.match(/<([^<>]+)>; rel="deprecation"/); const deprecationLink = matches && matches.pop(); log.warn( `[@octokit/request] "${requestOptions.method} ${requestOptions.url}" is deprecated. It is scheduled to be removed on ${headers.sunset}${deprecationLink ? `. See ${deprecationLink}` : ""}` ); } if (status === 204 || status === 205) { return; } if (requestOptions.method === "HEAD") { if (status < 400) { return; } throw new import_request_error.RequestError(response.statusText, status, { response: { url, status, headers, data: void 0 }, request: requestOptions }); } if (status === 304) { throw new import_request_error.RequestError("Not modified", status, { response: { url, status, headers, data: await getResponseData(response) }, request: requestOptions }); } if (status >= 400) { const data = await getResponseData(response); const error = new import_request_error.RequestError(toErrorMessage(data), status, { response: { url, status, headers, data }, request: requestOptions }); throw error; } return parseSuccessResponseBody ? await getResponseData(response) : response.body; }).then((data) => { return { status, url, headers, data }; }).catch((error) => { if (error instanceof import_request_error.RequestError) throw error; else if (error.name === "AbortError") throw error; let message = error.message; if (error.name === "TypeError" && "cause" in error) { if (error.cause instanceof Error) { message = error.cause.message; } else if (typeof error.cause === "string") { message = error.cause; } } throw new import_request_error.RequestError(message, 500, { request: requestOptions }); }); } async function getResponseData(response) { const contentType = response.headers.get("content-type"); if (/application\/json/.test(contentType)) { return response.json().catch(() => response.text()).catch(() => ""); } if (!contentType || /^text\/|charset=utf-8$/.test(contentType)) { return response.text(); } return getBufferResponse(response); } function toErrorMessage(data) { if (typeof data === "string") return data; let suffix; if ("documentation_url" in data) { suffix = ` - ${data.documentation_url}`; } else { suffix = ""; } if ("message" in data) { if (Array.isArray(data.errors)) { return `${data.message}: ${data.errors.map(JSON.stringify).join(", ")}${suffix}`; } return `${data.message}${suffix}`; } return `Unknown error: ${JSON.stringify(data)}`; } // pkg/dist-src/with-defaults.js function withDefaults(oldEndpoint, newDefaults) { const endpoint2 = oldEndpoint.defaults(newDefaults); const newApi = function(route, parameters) { const endpointOptions = endpoint2.merge(route, parameters); if (!endpointOptions.request || !endpointOptions.request.hook) { return fetchWrapper(endpoint2.parse(endpointOptions)); } const request2 = (route2, parameters2) => { return fetchWrapper( endpoint2.parse(endpoint2.merge(route2, parameters2)) ); }; Object.assign(request2, { endpoint: endpoint2, defaults: withDefaults.bind(null, endpoint2) }); return endpointOptions.request.hook(request2, endpointOptions); }; return Object.assign(newApi, { endpoint: endpoint2, defaults: withDefaults.bind(null, endpoint2) }); } // pkg/dist-src/index.js var request = withDefaults(import_endpoint.endpoint, { headers: { "user-agent": `octokit-request.js/${VERSION} ${(0, import_universal_user_agent.getUserAgent)()}` } }); // Annotate the CommonJS export names for ESM import in node: 0 && (0); /***/ }), /***/ 1373: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const {Transform, PassThrough} = __nccwpck_require__(2203); const zlib = __nccwpck_require__(3106); const mimicResponse = __nccwpck_require__(9991); module.exports = response => { const contentEncoding = (response.headers['content-encoding'] || '').toLowerCase(); if (!['gzip', 'deflate', 'br'].includes(contentEncoding)) { return response; } // TODO: Remove this when targeting Node.js 12. const isBrotli = contentEncoding === 'br'; if (isBrotli && typeof zlib.createBrotliDecompress !== 'function') { response.destroy(new Error('Brotli is not supported on Node.js < 12')); return response; } let isEmpty = true; const checker = new Transform({ transform(data, _encoding, callback) { isEmpty = false; callback(null, data); }, flush(callback) { callback(); } }); const finalStream = new PassThrough({ autoDestroy: false, destroy(error, callback) { response.destroy(); callback(error); } }); const decompressStream = isBrotli ? zlib.createBrotliDecompress() : zlib.createUnzip(); decompressStream.once('error', error => { if (isEmpty && !response.readable) { finalStream.end(); return; } finalStream.destroy(error); }); mimicResponse(response, finalStream); response.pipe(checker).pipe(decompressStream).pipe(finalStream); return finalStream; }; /***/ }), /***/ 4150: /***/ ((__unused_webpack_module, exports) => { Object.defineProperty(exports, "__esModule", ({ value: true })); class Deprecation extends Error { constructor(message) { super(message); // Maintains proper stack trace (only available on V8) /* istanbul ignore next */ if (Error.captureStackTrace) { Error.captureStackTrace(this, this.constructor); } this.name = 'Deprecation'; } } exports.Deprecation = Deprecation; /***/ }), /***/ 9991: /***/ ((module) => { // We define these manually to ensure they're always copied // even if they would move up the prototype chain // https://nodejs.org/api/http.html#http_class_http_incomingmessage const knownProperties = [ 'aborted', 'complete', 'headers', 'httpVersion', 'httpVersionMinor', 'httpVersionMajor', 'method', 'rawHeaders', 'rawTrailers', 'setTimeout', 'socket', 'statusCode', 'statusMessage', 'trailers', 'url' ]; module.exports = (fromStream, toStream) => { if (toStream._readableState.autoDestroy) { throw new Error('The second stream must have the `autoDestroy` option set to `false`'); } const fromProperties = new Set(Object.keys(fromStream).concat(knownProperties)); const properties = {}; for (const property of fromProperties) { // Don't overwrite existing properties. if (property in toStream) { continue; } properties[property] = { get() { const value = fromStream[property]; const isFunction = typeof value === 'function'; return isFunction ? value.bind(fromStream) : value; }, set(value) { fromStream[property] = value; }, enumerable: true, configurable: false }; } Object.defineProperties(toStream, properties); fromStream.once('aborted', () => { toStream.destroy(); toStream.emit('aborted'); }); fromStream.once('close', () => { if (fromStream.complete) { if (toStream.readable) { toStream.once('end', () => { toStream.emit('close'); }); } else { toStream.emit('close'); } } else { toStream.emit('close'); } }); return toStream; }; /***/ }), /***/ 5560: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var wrappy = __nccwpck_require__(8264) module.exports = wrappy(once) module.exports.strict = wrappy(onceStrict) once.proto = once(function () { Object.defineProperty(Function.prototype, 'once', { value: function () { return once(this) }, configurable: true }) Object.defineProperty(Function.prototype, 'onceStrict', { value: function () { return onceStrict(this) }, configurable: true }) }) function once (fn) { var f = function () { if (f.called) return f.value f.called = true return f.value = fn.apply(this, arguments) } f.called = false return f } function onceStrict (fn) { var f = function () { if (f.called) throw new Error(f.onceError) f.called = true return f.value = fn.apply(this, arguments) } var name = fn.name || 'Function wrapped with `once`' f.onceError = name + " shouldn't be called more than once" f.called = false return f } /***/ }), /***/ 9568: /***/ ((module) => { /** * @module parenthesis */ function parse (str, opts) { // pretend non-string parsed per-se if (typeof str !== 'string') return [str] var res = [str] if (typeof opts === 'string' || Array.isArray(opts)) { opts = {brackets: opts} } else if (!opts) opts = {} var brackets = opts.brackets ? (Array.isArray(opts.brackets) ? opts.brackets : [opts.brackets]) : ['{}', '[]', '()'] var escape = opts.escape || '___' var flat = !!opts.flat brackets.forEach(function (bracket) { // create parenthesis regex var pRE = new RegExp(['\\', bracket[0], '[^\\', bracket[0], '\\', bracket[1], ']*\\', bracket[1]].join('')) var ids = [] function replaceToken(token, idx, str){ // save token to res var refId = res.push(token.slice(bracket[0].length, -bracket[1].length)) - 1 ids.push(refId) return escape + refId + escape } res.forEach(function (str, i) { var prevStr // replace paren tokens till there’s none var a = 0 while (str != prevStr) { prevStr = str str = str.replace(pRE, replaceToken) if (a++ > 10e3) throw Error('References have circular dependency. Please, check them.') } res[i] = str }) // wrap found refs to brackets ids = ids.reverse() res = res.map(function (str) { ids.forEach(function (id) { str = str.replace(new RegExp('(\\' + escape + id + '\\' + escape + ')', 'g'), bracket[0] + '$1' + bracket[1]) }) return str }) }) var re = new RegExp('\\' + escape + '([0-9]+)' + '\\' + escape) // transform references to tree function nest (str, refs, escape) { var res = [], match var a = 0 while (match = re.exec(str)) { if (a++ > 10e3) throw Error('Circular references in parenthesis') res.push(str.slice(0, match.index)) res.push(nest(refs[match[1]], refs)) str = str.slice(match.index + match[0].length) } res.push(str) return res } return flat ? res : nest(res[0], res) } function stringify (arg, opts) { if (opts && opts.flat) { var escape = opts && opts.escape || '___' var str = arg[0], prevStr // pretend bad string stringified with no parentheses if (!str) return '' var re = new RegExp('\\' + escape + '([0-9]+)' + '\\' + escape) var a = 0 while (str != prevStr) { if (a++ > 10e3) throw Error('Circular references in ' + arg) prevStr = str str = str.replace(re, replaceRef) } return str } return arg.reduce(function f (prev, curr) { if (Array.isArray(curr)) { curr = curr.reduce(f, '') } return prev + curr }, '') function replaceRef(match, idx){ if (arg[idx] == null) throw Error('Reference ' + idx + 'is undefined') return arg[idx] } } function parenthesis (arg, opts) { if (Array.isArray(arg)) { return stringify(arg, opts) } else { return parse(arg, opts) } } parenthesis.parse = parse parenthesis.stringify = stringify module.exports = parenthesis /***/ }), /***/ 9379: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const ANY = Symbol('SemVer ANY') // hoisted class for cyclic dependency class Comparator { static get ANY () { return ANY } constructor (comp, options) { options = parseOptions(options) if (comp instanceof Comparator) { if (comp.loose === !!options.loose) { return comp } else { comp = comp.value } } comp = comp.trim().split(/\s+/).join(' ') debug('comparator', comp, options) this.options = options this.loose = !!options.loose this.parse(comp) if (this.semver === ANY) { this.value = '' } else { this.value = this.operator + this.semver.version } debug('comp', this) } parse (comp) { const r = this.options.loose ? re[t.COMPARATORLOOSE] : re[t.COMPARATOR] const m = comp.match(r) if (!m) { throw new TypeError(`Invalid comparator: ${comp}`) } this.operator = m[1] !== undefined ? m[1] : '' if (this.operator === '=') { this.operator = '' } // if it literally is just '>' or '' then allow anything. if (!m[2]) { this.semver = ANY } else { this.semver = new SemVer(m[2], this.options.loose) } } toString () { return this.value } test (version) { debug('Comparator.test', version, this.options.loose) if (this.semver === ANY || version === ANY) { return true } if (typeof version === 'string') { try { version = new SemVer(version, this.options) } catch (er) { return false } } return cmp(version, this.operator, this.semver, this.options) } intersects (comp, options) { if (!(comp instanceof Comparator)) { throw new TypeError('a Comparator is required') } if (this.operator === '') { if (this.value === '') { return true } return new Range(comp.value, options).test(this.value) } else if (comp.operator === '') { if (comp.value === '') { return true } return new Range(this.value, options).test(comp.semver) } options = parseOptions(options) // Special cases where nothing can possibly be lower if (options.includePrerelease && (this.value === '<0.0.0-0' || comp.value === '<0.0.0-0')) { return false } if (!options.includePrerelease && (this.value.startsWith('<0.0.0') || comp.value.startsWith('<0.0.0'))) { return false } // Same direction increasing (> or >=) if (this.operator.startsWith('>') && comp.operator.startsWith('>')) { return true } // Same direction decreasing (< or <=) if (this.operator.startsWith('<') && comp.operator.startsWith('<')) { return true } // same SemVer and both sides are inclusive (<= or >=) if ( (this.semver.version === comp.semver.version) && this.operator.includes('=') && comp.operator.includes('=')) { return true } // opposite directions less than if (cmp(this.semver, '<', comp.semver, options) && this.operator.startsWith('>') && comp.operator.startsWith('<')) { return true } // opposite directions greater than if (cmp(this.semver, '>', comp.semver, options) && this.operator.startsWith('<') && comp.operator.startsWith('>')) { return true } return false } } module.exports = Comparator const parseOptions = __nccwpck_require__(356) const { safeRe: re, t } = __nccwpck_require__(5471) const cmp = __nccwpck_require__(8646) const debug = __nccwpck_require__(1159) const SemVer = __nccwpck_require__(7163) const Range = __nccwpck_require__(6782) /***/ }), /***/ 6782: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SPACE_CHARACTERS = /\s+/g // hoisted class for cyclic dependency class Range { constructor (range, options) { options = parseOptions(options) if (range instanceof Range) { if ( range.loose === !!options.loose && range.includePrerelease === !!options.includePrerelease ) { return range } else { return new Range(range.raw, options) } } if (range instanceof Comparator) { // just put it in the set and return this.raw = range.value this.set = [[range]] this.formatted = undefined return this } this.options = options this.loose = !!options.loose this.includePrerelease = !!options.includePrerelease // First reduce all whitespace as much as possible so we do not have to rely // on potentially slow regexes like \s*. This is then stored and used for // future error messages as well. this.raw = range.trim().replace(SPACE_CHARACTERS, ' ') // First, split on || this.set = this.raw .split('||') // map the range to a 2d array of comparators .map(r => this.parseRange(r.trim())) // throw out any comparator lists that are empty // this generally means that it was not a valid range, which is allowed // in loose mode, but will still throw if the WHOLE range is invalid. .filter(c => c.length) if (!this.set.length) { throw new TypeError(`Invalid SemVer Range: ${this.raw}`) } // if we have any that are not the null set, throw out null sets. if (this.set.length > 1) { // keep the first one, in case they're all null sets const first = this.set[0] this.set = this.set.filter(c => !isNullSet(c[0])) if (this.set.length === 0) { this.set = [first] } else if (this.set.length > 1) { // if we have any that are *, then the range is just * for (const c of this.set) { if (c.length === 1 && isAny(c[0])) { this.set = [c] break } } } } this.formatted = undefined } get range () { if (this.formatted === undefined) { this.formatted = '' for (let i = 0; i < this.set.length; i++) { if (i > 0) { this.formatted += '||' } const comps = this.set[i] for (let k = 0; k < comps.length; k++) { if (k > 0) { this.formatted += ' ' } this.formatted += comps[k].toString().trim() } } } return this.formatted } format () { return this.range } toString () { return this.range } parseRange (range) { // memoize range parsing for performance. // this is a very hot path, and fully deterministic. const memoOpts = (this.options.includePrerelease && FLAG_INCLUDE_PRERELEASE) | (this.options.loose && FLAG_LOOSE) const memoKey = memoOpts + ':' + range const cached = cache.get(memoKey) if (cached) { return cached } const loose = this.options.loose // `1.2.3 - 1.2.4` => `>=1.2.3 <=1.2.4` const hr = loose ? re[t.HYPHENRANGELOOSE] : re[t.HYPHENRANGE] range = range.replace(hr, hyphenReplace(this.options.includePrerelease)) debug('hyphen replace', range) // `> 1.2.3 < 1.2.5` => `>1.2.3 <1.2.5` range = range.replace(re[t.COMPARATORTRIM], comparatorTrimReplace) debug('comparator trim', range) // `~ 1.2.3` => `~1.2.3` range = range.replace(re[t.TILDETRIM], tildeTrimReplace) debug('tilde trim', range) // `^ 1.2.3` => `^1.2.3` range = range.replace(re[t.CARETTRIM], caretTrimReplace) debug('caret trim', range) // At this point, the range is completely trimmed and // ready to be split into comparators. let rangeList = range .split(' ') .map(comp => parseComparator(comp, this.options)) .join(' ') .split(/\s+/) // >=0.0.0 is equivalent to * .map(comp => replaceGTE0(comp, this.options)) if (loose) { // in loose mode, throw out any that are not valid comparators rangeList = rangeList.filter(comp => { debug('loose invalid filter', comp, this.options) return !!comp.match(re[t.COMPARATORLOOSE]) }) } debug('range list', rangeList) // if any comparators are the null set, then replace with JUST null set // if more than one comparator, remove any * comparators // also, don't include the same comparator more than once const rangeMap = new Map() const comparators = rangeList.map(comp => new Comparator(comp, this.options)) for (const comp of comparators) { if (isNullSet(comp)) { return [comp] } rangeMap.set(comp.value, comp) } if (rangeMap.size > 1 && rangeMap.has('')) { rangeMap.delete('') } const result = [...rangeMap.values()] cache.set(memoKey, result) return result } intersects (range, options) { if (!(range instanceof Range)) { throw new TypeError('a Range is required') } return this.set.some((thisComparators) => { return ( isSatisfiable(thisComparators, options) && range.set.some((rangeComparators) => { return ( isSatisfiable(rangeComparators, options) && thisComparators.every((thisComparator) => { return rangeComparators.every((rangeComparator) => { return thisComparator.intersects(rangeComparator, options) }) }) ) }) ) }) } // if ANY of the sets match ALL of its comparators, then pass test (version) { if (!version) { return false } if (typeof version === 'string') { try { version = new SemVer(version, this.options) } catch (er) { return false } } for (let i = 0; i < this.set.length; i++) { if (testSet(this.set[i], version, this.options)) { return true } } return false } } module.exports = Range const LRU = __nccwpck_require__(1383) const cache = new LRU() const parseOptions = __nccwpck_require__(356) const Comparator = __nccwpck_require__(9379) const debug = __nccwpck_require__(1159) const SemVer = __nccwpck_require__(7163) const { safeRe: re, t, comparatorTrimReplace, tildeTrimReplace, caretTrimReplace, } = __nccwpck_require__(5471) const { FLAG_INCLUDE_PRERELEASE, FLAG_LOOSE } = __nccwpck_require__(5101) const isNullSet = c => c.value === '<0.0.0-0' const isAny = c => c.value === '' // take a set of comparators and determine whether there // exists a version which can satisfy it const isSatisfiable = (comparators, options) => { let result = true const remainingComparators = comparators.slice() let testComparator = remainingComparators.pop() while (result && remainingComparators.length) { result = remainingComparators.every((otherComparator) => { return testComparator.intersects(otherComparator, options) }) testComparator = remainingComparators.pop() } return result } // comprised of xranges, tildes, stars, and gtlt's at this point. // already replaced the hyphen ranges // turn into a set of JUST comparators. const parseComparator = (comp, options) => { debug('comp', comp, options) comp = replaceCarets(comp, options) debug('caret', comp) comp = replaceTildes(comp, options) debug('tildes', comp) comp = replaceXRanges(comp, options) debug('xrange', comp) comp = replaceStars(comp, options) debug('stars', comp) return comp } const isX = id => !id || id.toLowerCase() === 'x' || id === '*' // ~, ~> --> * (any, kinda silly) // ~2, ~2.x, ~2.x.x, ~>2, ~>2.x ~>2.x.x --> >=2.0.0 <3.0.0-0 // ~2.0, ~2.0.x, ~>2.0, ~>2.0.x --> >=2.0.0 <2.1.0-0 // ~1.2, ~1.2.x, ~>1.2, ~>1.2.x --> >=1.2.0 <1.3.0-0 // ~1.2.3, ~>1.2.3 --> >=1.2.3 <1.3.0-0 // ~1.2.0, ~>1.2.0 --> >=1.2.0 <1.3.0-0 // ~0.0.1 --> >=0.0.1 <0.1.0-0 const replaceTildes = (comp, options) => { return comp .trim() .split(/\s+/) .map((c) => replaceTilde(c, options)) .join(' ') } const replaceTilde = (comp, options) => { const r = options.loose ? re[t.TILDELOOSE] : re[t.TILDE] return comp.replace(r, (_, M, m, p, pr) => { debug('tilde', comp, _, M, m, p, pr) let ret if (isX(M)) { ret = '' } else if (isX(m)) { ret = `>=${M}.0.0 <${+M + 1}.0.0-0` } else if (isX(p)) { // ~1.2 == >=1.2.0 <1.3.0-0 ret = `>=${M}.${m}.0 <${M}.${+m + 1}.0-0` } else if (pr) { debug('replaceTilde pr', pr) ret = `>=${M}.${m}.${p}-${pr } <${M}.${+m + 1}.0-0` } else { // ~1.2.3 == >=1.2.3 <1.3.0-0 ret = `>=${M}.${m}.${p } <${M}.${+m + 1}.0-0` } debug('tilde return', ret) return ret }) } // ^ --> * (any, kinda silly) // ^2, ^2.x, ^2.x.x --> >=2.0.0 <3.0.0-0 // ^2.0, ^2.0.x --> >=2.0.0 <3.0.0-0 // ^1.2, ^1.2.x --> >=1.2.0 <2.0.0-0 // ^1.2.3 --> >=1.2.3 <2.0.0-0 // ^1.2.0 --> >=1.2.0 <2.0.0-0 // ^0.0.1 --> >=0.0.1 <0.0.2-0 // ^0.1.0 --> >=0.1.0 <0.2.0-0 const replaceCarets = (comp, options) => { return comp .trim() .split(/\s+/) .map((c) => replaceCaret(c, options)) .join(' ') } const replaceCaret = (comp, options) => { debug('caret', comp, options) const r = options.loose ? re[t.CARETLOOSE] : re[t.CARET] const z = options.includePrerelease ? '-0' : '' return comp.replace(r, (_, M, m, p, pr) => { debug('caret', comp, _, M, m, p, pr) let ret if (isX(M)) { ret = '' } else if (isX(m)) { ret = `>=${M}.0.0${z} <${+M + 1}.0.0-0` } else if (isX(p)) { if (M === '0') { ret = `>=${M}.${m}.0${z} <${M}.${+m + 1}.0-0` } else { ret = `>=${M}.${m}.0${z} <${+M + 1}.0.0-0` } } else if (pr) { debug('replaceCaret pr', pr) if (M === '0') { if (m === '0') { ret = `>=${M}.${m}.${p}-${pr } <${M}.${m}.${+p + 1}-0` } else { ret = `>=${M}.${m}.${p}-${pr } <${M}.${+m + 1}.0-0` } } else { ret = `>=${M}.${m}.${p}-${pr } <${+M + 1}.0.0-0` } } else { debug('no pr') if (M === '0') { if (m === '0') { ret = `>=${M}.${m}.${p }${z} <${M}.${m}.${+p + 1}-0` } else { ret = `>=${M}.${m}.${p }${z} <${M}.${+m + 1}.0-0` } } else { ret = `>=${M}.${m}.${p } <${+M + 1}.0.0-0` } } debug('caret return', ret) return ret }) } const replaceXRanges = (comp, options) => { debug('replaceXRanges', comp, options) return comp .split(/\s+/) .map((c) => replaceXRange(c, options)) .join(' ') } const replaceXRange = (comp, options) => { comp = comp.trim() const r = options.loose ? re[t.XRANGELOOSE] : re[t.XRANGE] return comp.replace(r, (ret, gtlt, M, m, p, pr) => { debug('xRange', comp, ret, gtlt, M, m, p, pr) const xM = isX(M) const xm = xM || isX(m) const xp = xm || isX(p) const anyX = xp if (gtlt === '=' && anyX) { gtlt = '' } // if we're including prereleases in the match, then we need // to fix this to -0, the lowest possible prerelease value pr = options.includePrerelease ? '-0' : '' if (xM) { if (gtlt === '>' || gtlt === '<') { // nothing is allowed ret = '<0.0.0-0' } else { // nothing is forbidden ret = '*' } } else if (gtlt && anyX) { // we know patch is an x, because we have any x at all. // replace X with 0 if (xm) { m = 0 } p = 0 if (gtlt === '>') { // >1 => >=2.0.0 // >1.2 => >=1.3.0 gtlt = '>=' if (xm) { M = +M + 1 m = 0 p = 0 } else { m = +m + 1 p = 0 } } else if (gtlt === '<=') { // <=0.7.x is actually <0.8.0, since any 0.7.x should // pass. Similarly, <=7.x is actually <8.0.0, etc. gtlt = '<' if (xm) { M = +M + 1 } else { m = +m + 1 } } if (gtlt === '<') { pr = '-0' } ret = `${gtlt + M}.${m}.${p}${pr}` } else if (xm) { ret = `>=${M}.0.0${pr} <${+M + 1}.0.0-0` } else if (xp) { ret = `>=${M}.${m}.0${pr } <${M}.${+m + 1}.0-0` } debug('xRange return', ret) return ret }) } // Because * is AND-ed with everything else in the comparator, // and '' means "any version", just remove the *s entirely. const replaceStars = (comp, options) => { debug('replaceStars', comp, options) // Looseness is ignored here. star is always as loose as it gets! return comp .trim() .replace(re[t.STAR], '') } const replaceGTE0 = (comp, options) => { debug('replaceGTE0', comp, options) return comp .trim() .replace(re[options.includePrerelease ? t.GTE0PRE : t.GTE0], '') } // This function is passed to string.replace(re[t.HYPHENRANGE]) // M, m, patch, prerelease, build // 1.2 - 3.4.5 => >=1.2.0 <=3.4.5 // 1.2.3 - 3.4 => >=1.2.0 <3.5.0-0 Any 3.4.x will do // 1.2 - 3.4 => >=1.2.0 <3.5.0-0 // TODO build? const hyphenReplace = incPr => ($0, from, fM, fm, fp, fpr, fb, to, tM, tm, tp, tpr) => { if (isX(fM)) { from = '' } else if (isX(fm)) { from = `>=${fM}.0.0${incPr ? '-0' : ''}` } else if (isX(fp)) { from = `>=${fM}.${fm}.0${incPr ? '-0' : ''}` } else if (fpr) { from = `>=${from}` } else { from = `>=${from}${incPr ? '-0' : ''}` } if (isX(tM)) { to = '' } else if (isX(tm)) { to = `<${+tM + 1}.0.0-0` } else if (isX(tp)) { to = `<${tM}.${+tm + 1}.0-0` } else if (tpr) { to = `<=${tM}.${tm}.${tp}-${tpr}` } else if (incPr) { to = `<${tM}.${tm}.${+tp + 1}-0` } else { to = `<=${to}` } return `${from} ${to}`.trim() } const testSet = (set, version, options) => { for (let i = 0; i < set.length; i++) { if (!set[i].test(version)) { return false } } if (version.prerelease.length && !options.includePrerelease) { // Find the set of versions that are allowed to have prereleases // For example, ^1.2.3-pr.1 desugars to >=1.2.3-pr.1 <2.0.0 // That should allow `1.2.3-pr.2` to pass. // However, `1.2.4-alpha.notready` should NOT be allowed, // even though it's within the range set by the comparators. for (let i = 0; i < set.length; i++) { debug(set[i].semver) if (set[i].semver === Comparator.ANY) { continue } if (set[i].semver.prerelease.length > 0) { const allowed = set[i].semver if (allowed.major === version.major && allowed.minor === version.minor && allowed.patch === version.patch) { return true } } } // Version has a -pre, but it's not one of the ones we like. return false } return true } /***/ }), /***/ 7163: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const debug = __nccwpck_require__(1159) const { MAX_LENGTH, MAX_SAFE_INTEGER } = __nccwpck_require__(5101) const { safeRe: re, t } = __nccwpck_require__(5471) const parseOptions = __nccwpck_require__(356) const { compareIdentifiers } = __nccwpck_require__(3348) class SemVer { constructor (version, options) { options = parseOptions(options) if (version instanceof SemVer) { if (version.loose === !!options.loose && version.includePrerelease === !!options.includePrerelease) { return version } else { version = version.version } } else if (typeof version !== 'string') { throw new TypeError(`Invalid version. Must be a string. Got type "${typeof version}".`) } if (version.length > MAX_LENGTH) { throw new TypeError( `version is longer than ${MAX_LENGTH} characters` ) } debug('SemVer', version, options) this.options = options this.loose = !!options.loose // this isn't actually relevant for versions, but keep it so that we // don't run into trouble passing this.options around. this.includePrerelease = !!options.includePrerelease const m = version.trim().match(options.loose ? re[t.LOOSE] : re[t.FULL]) if (!m) { throw new TypeError(`Invalid Version: ${version}`) } this.raw = version // these are actually numbers this.major = +m[1] this.minor = +m[2] this.patch = +m[3] if (this.major > MAX_SAFE_INTEGER || this.major < 0) { throw new TypeError('Invalid major version') } if (this.minor > MAX_SAFE_INTEGER || this.minor < 0) { throw new TypeError('Invalid minor version') } if (this.patch > MAX_SAFE_INTEGER || this.patch < 0) { throw new TypeError('Invalid patch version') } // numberify any prerelease numeric ids if (!m[4]) { this.prerelease = [] } else { this.prerelease = m[4].split('.').map((id) => { if (/^[0-9]+$/.test(id)) { const num = +id if (num >= 0 && num < MAX_SAFE_INTEGER) { return num } } return id }) } this.build = m[5] ? m[5].split('.') : [] this.format() } format () { this.version = `${this.major}.${this.minor}.${this.patch}` if (this.prerelease.length) { this.version += `-${this.prerelease.join('.')}` } return this.version } toString () { return this.version } compare (other) { debug('SemVer.compare', this.version, this.options, other) if (!(other instanceof SemVer)) { if (typeof other === 'string' && other === this.version) { return 0 } other = new SemVer(other, this.options) } if (other.version === this.version) { return 0 } return this.compareMain(other) || this.comparePre(other) } compareMain (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options) } return ( compareIdentifiers(this.major, other.major) || compareIdentifiers(this.minor, other.minor) || compareIdentifiers(this.patch, other.patch) ) } comparePre (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options) } // NOT having a prerelease is > having one if (this.prerelease.length && !other.prerelease.length) { return -1 } else if (!this.prerelease.length && other.prerelease.length) { return 1 } else if (!this.prerelease.length && !other.prerelease.length) { return 0 } let i = 0 do { const a = this.prerelease[i] const b = other.prerelease[i] debug('prerelease compare', i, a, b) if (a === undefined && b === undefined) { return 0 } else if (b === undefined) { return 1 } else if (a === undefined) { return -1 } else if (a === b) { continue } else { return compareIdentifiers(a, b) } } while (++i) } compareBuild (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options) } let i = 0 do { const a = this.build[i] const b = other.build[i] debug('build compare', i, a, b) if (a === undefined && b === undefined) { return 0 } else if (b === undefined) { return 1 } else if (a === undefined) { return -1 } else if (a === b) { continue } else { return compareIdentifiers(a, b) } } while (++i) } // preminor will bump the version up to the next minor release, and immediately // down to pre-release. premajor and prepatch work the same way. inc (release, identifier, identifierBase) { if (release.startsWith('pre')) { if (!identifier && identifierBase === false) { throw new Error('invalid increment argument: identifier is empty') } // Avoid an invalid semver results if (identifier) { const match = `-${identifier}`.match(this.options.loose ? re[t.PRERELEASELOOSE] : re[t.PRERELEASE]) if (!match || match[1] !== identifier) { throw new Error(`invalid identifier: ${identifier}`) } } } switch (release) { case 'premajor': this.prerelease.length = 0 this.patch = 0 this.minor = 0 this.major++ this.inc('pre', identifier, identifierBase) break case 'preminor': this.prerelease.length = 0 this.patch = 0 this.minor++ this.inc('pre', identifier, identifierBase) break case 'prepatch': // If this is already a prerelease, it will bump to the next version // drop any prereleases that might already exist, since they are not // relevant at this point. this.prerelease.length = 0 this.inc('patch', identifier, identifierBase) this.inc('pre', identifier, identifierBase) break // If the input is a non-prerelease version, this acts the same as // prepatch. case 'prerelease': if (this.prerelease.length === 0) { this.inc('patch', identifier, identifierBase) } this.inc('pre', identifier, identifierBase) break case 'release': if (this.prerelease.length === 0) { throw new Error(`version ${this.raw} is not a prerelease`) } this.prerelease.length = 0 break case 'major': // If this is a pre-major version, bump up to the same major version. // Otherwise increment major. // 1.0.0-5 bumps to 1.0.0 // 1.1.0 bumps to 2.0.0 if ( this.minor !== 0 || this.patch !== 0 || this.prerelease.length === 0 ) { this.major++ } this.minor = 0 this.patch = 0 this.prerelease = [] break case 'minor': // If this is a pre-minor version, bump up to the same minor version. // Otherwise increment minor. // 1.2.0-5 bumps to 1.2.0 // 1.2.1 bumps to 1.3.0 if (this.patch !== 0 || this.prerelease.length === 0) { this.minor++ } this.patch = 0 this.prerelease = [] break case 'patch': // If this is not a pre-release version, it will increment the patch. // If it is a pre-release it will bump up to the same patch version. // 1.2.0-5 patches to 1.2.0 // 1.2.0 patches to 1.2.1 if (this.prerelease.length === 0) { this.patch++ } this.prerelease = [] break // This probably shouldn't be used publicly. // 1.0.0 'pre' would become 1.0.0-0 which is the wrong direction. case 'pre': { const base = Number(identifierBase) ? 1 : 0 if (this.prerelease.length === 0) { this.prerelease = [base] } else { let i = this.prerelease.length while (--i >= 0) { if (typeof this.prerelease[i] === 'number') { this.prerelease[i]++ i = -2 } } if (i === -1) { // didn't increment anything if (identifier === this.prerelease.join('.') && identifierBase === false) { throw new Error('invalid increment argument: identifier already exists') } this.prerelease.push(base) } } if (identifier) { // 1.2.0-beta.1 bumps to 1.2.0-beta.2, // 1.2.0-beta.fooblz or 1.2.0-beta bumps to 1.2.0-beta.0 let prerelease = [identifier, base] if (identifierBase === false) { prerelease = [identifier] } if (compareIdentifiers(this.prerelease[0], identifier) === 0) { if (isNaN(this.prerelease[1])) { this.prerelease = prerelease } } else { this.prerelease = prerelease } } break } default: throw new Error(`invalid increment argument: ${release}`) } this.raw = this.format() if (this.build.length) { this.raw += `+${this.build.join('.')}` } return this } } module.exports = SemVer /***/ }), /***/ 1799: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const parse = __nccwpck_require__(6353) const clean = (version, options) => { const s = parse(version.trim().replace(/^[=v]+/, ''), options) return s ? s.version : null } module.exports = clean /***/ }), /***/ 8646: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const eq = __nccwpck_require__(5082) const neq = __nccwpck_require__(4974) const gt = __nccwpck_require__(6599) const gte = __nccwpck_require__(1236) const lt = __nccwpck_require__(3872) const lte = __nccwpck_require__(6717) const cmp = (a, op, b, loose) => { switch (op) { case '===': if (typeof a === 'object') { a = a.version } if (typeof b === 'object') { b = b.version } return a === b case '!==': if (typeof a === 'object') { a = a.version } if (typeof b === 'object') { b = b.version } return a !== b case '': case '=': case '==': return eq(a, b, loose) case '!=': return neq(a, b, loose) case '>': return gt(a, b, loose) case '>=': return gte(a, b, loose) case '<': return lt(a, b, loose) case '<=': return lte(a, b, loose) default: throw new TypeError(`Invalid operator: ${op}`) } } module.exports = cmp /***/ }), /***/ 7766: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const parse = __nccwpck_require__(6353) const { safeRe: re, t } = __nccwpck_require__(5471) const coerce = (version, options) => { if (version instanceof SemVer) { return version } if (typeof version === 'number') { version = String(version) } if (typeof version !== 'string') { return null } options = options || {} let match = null if (!options.rtl) { match = version.match(options.includePrerelease ? re[t.COERCEFULL] : re[t.COERCE]) } else { // Find the right-most coercible string that does not share // a terminus with a more left-ward coercible string. // Eg, '1.2.3.4' wants to coerce '2.3.4', not '3.4' or '4' // With includePrerelease option set, '1.2.3.4-rc' wants to coerce '2.3.4-rc', not '2.3.4' // // Walk through the string checking with a /g regexp // Manually set the index so as to pick up overlapping matches. // Stop when we get a match that ends at the string end, since no // coercible string can be more right-ward without the same terminus. const coerceRtlRegex = options.includePrerelease ? re[t.COERCERTLFULL] : re[t.COERCERTL] let next while ((next = coerceRtlRegex.exec(version)) && (!match || match.index + match[0].length !== version.length) ) { if (!match || next.index + next[0].length !== match.index + match[0].length) { match = next } coerceRtlRegex.lastIndex = next.index + next[1].length + next[2].length } // leave it in a clean state coerceRtlRegex.lastIndex = -1 } if (match === null) { return null } const major = match[2] const minor = match[3] || '0' const patch = match[4] || '0' const prerelease = options.includePrerelease && match[5] ? `-${match[5]}` : '' const build = options.includePrerelease && match[6] ? `+${match[6]}` : '' return parse(`${major}.${minor}.${patch}${prerelease}${build}`, options) } module.exports = coerce /***/ }), /***/ 7648: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const compareBuild = (a, b, loose) => { const versionA = new SemVer(a, loose) const versionB = new SemVer(b, loose) return versionA.compare(versionB) || versionA.compareBuild(versionB) } module.exports = compareBuild /***/ }), /***/ 6874: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const compare = __nccwpck_require__(8469) const compareLoose = (a, b) => compare(a, b, true) module.exports = compareLoose /***/ }), /***/ 8469: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const compare = (a, b, loose) => new SemVer(a, loose).compare(new SemVer(b, loose)) module.exports = compare /***/ }), /***/ 711: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const parse = __nccwpck_require__(6353) const diff = (version1, version2) => { const v1 = parse(version1, null, true) const v2 = parse(version2, null, true) const comparison = v1.compare(v2) if (comparison === 0) { return null } const v1Higher = comparison > 0 const highVersion = v1Higher ? v1 : v2 const lowVersion = v1Higher ? v2 : v1 const highHasPre = !!highVersion.prerelease.length const lowHasPre = !!lowVersion.prerelease.length if (lowHasPre && !highHasPre) { // Going from prerelease -> no prerelease requires some special casing // If the low version has only a major, then it will always be a major // Some examples: // 1.0.0-1 -> 1.0.0 // 1.0.0-1 -> 1.1.1 // 1.0.0-1 -> 2.0.0 if (!lowVersion.patch && !lowVersion.minor) { return 'major' } // If the main part has no difference if (lowVersion.compareMain(highVersion) === 0) { if (lowVersion.minor && !lowVersion.patch) { return 'minor' } return 'patch' } } // add the `pre` prefix if we are going to a prerelease version const prefix = highHasPre ? 'pre' : '' if (v1.major !== v2.major) { return prefix + 'major' } if (v1.minor !== v2.minor) { return prefix + 'minor' } if (v1.patch !== v2.patch) { return prefix + 'patch' } // high and low are preleases return 'prerelease' } module.exports = diff /***/ }), /***/ 5082: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const compare = __nccwpck_require__(8469) const eq = (a, b, loose) => compare(a, b, loose) === 0 module.exports = eq /***/ }), /***/ 6599: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const compare = __nccwpck_require__(8469) const gt = (a, b, loose) => compare(a, b, loose) > 0 module.exports = gt /***/ }), /***/ 1236: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const compare = __nccwpck_require__(8469) const gte = (a, b, loose) => compare(a, b, loose) >= 0 module.exports = gte /***/ }), /***/ 2338: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const inc = (version, release, options, identifier, identifierBase) => { if (typeof (options) === 'string') { identifierBase = identifier identifier = options options = undefined } try { return new SemVer( version instanceof SemVer ? version.version : version, options ).inc(release, identifier, identifierBase).version } catch (er) { return null } } module.exports = inc /***/ }), /***/ 3872: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const compare = __nccwpck_require__(8469) const lt = (a, b, loose) => compare(a, b, loose) < 0 module.exports = lt /***/ }), /***/ 6717: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const compare = __nccwpck_require__(8469) const lte = (a, b, loose) => compare(a, b, loose) <= 0 module.exports = lte /***/ }), /***/ 8511: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const major = (a, loose) => new SemVer(a, loose).major module.exports = major /***/ }), /***/ 2603: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const minor = (a, loose) => new SemVer(a, loose).minor module.exports = minor /***/ }), /***/ 4974: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const compare = __nccwpck_require__(8469) const neq = (a, b, loose) => compare(a, b, loose) !== 0 module.exports = neq /***/ }), /***/ 6353: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const parse = (version, options, throwErrors = false) => { if (version instanceof SemVer) { return version } try { return new SemVer(version, options) } catch (er) { if (!throwErrors) { return null } throw er } } module.exports = parse /***/ }), /***/ 8756: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const patch = (a, loose) => new SemVer(a, loose).patch module.exports = patch /***/ }), /***/ 5714: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const parse = __nccwpck_require__(6353) const prerelease = (version, options) => { const parsed = parse(version, options) return (parsed && parsed.prerelease.length) ? parsed.prerelease : null } module.exports = prerelease /***/ }), /***/ 2173: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const compare = __nccwpck_require__(8469) const rcompare = (a, b, loose) => compare(b, a, loose) module.exports = rcompare /***/ }), /***/ 7192: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const compareBuild = __nccwpck_require__(7648) const rsort = (list, loose) => list.sort((a, b) => compareBuild(b, a, loose)) module.exports = rsort /***/ }), /***/ 8011: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const Range = __nccwpck_require__(6782) const satisfies = (version, range, options) => { try { range = new Range(range, options) } catch (er) { return false } return range.test(version) } module.exports = satisfies /***/ }), /***/ 9872: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const compareBuild = __nccwpck_require__(7648) const sort = (list, loose) => list.sort((a, b) => compareBuild(a, b, loose)) module.exports = sort /***/ }), /***/ 8780: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const parse = __nccwpck_require__(6353) const valid = (version, options) => { const v = parse(version, options) return v ? v.version : null } module.exports = valid /***/ }), /***/ 2088: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // just pre-load all the stuff that index.js lazily exports const internalRe = __nccwpck_require__(5471) const constants = __nccwpck_require__(5101) const SemVer = __nccwpck_require__(7163) const identifiers = __nccwpck_require__(3348) const parse = __nccwpck_require__(6353) const valid = __nccwpck_require__(8780) const clean = __nccwpck_require__(1799) const inc = __nccwpck_require__(2338) const diff = __nccwpck_require__(711) const major = __nccwpck_require__(8511) const minor = __nccwpck_require__(2603) const patch = __nccwpck_require__(8756) const prerelease = __nccwpck_require__(5714) const compare = __nccwpck_require__(8469) const rcompare = __nccwpck_require__(2173) const compareLoose = __nccwpck_require__(6874) const compareBuild = __nccwpck_require__(7648) const sort = __nccwpck_require__(9872) const rsort = __nccwpck_require__(7192) const gt = __nccwpck_require__(6599) const lt = __nccwpck_require__(3872) const eq = __nccwpck_require__(5082) const neq = __nccwpck_require__(4974) const gte = __nccwpck_require__(1236) const lte = __nccwpck_require__(6717) const cmp = __nccwpck_require__(8646) const coerce = __nccwpck_require__(7766) const Comparator = __nccwpck_require__(9379) const Range = __nccwpck_require__(6782) const satisfies = __nccwpck_require__(8011) const toComparators = __nccwpck_require__(4750) const maxSatisfying = __nccwpck_require__(5574) const minSatisfying = __nccwpck_require__(8595) const minVersion = __nccwpck_require__(1866) const validRange = __nccwpck_require__(4737) const outside = __nccwpck_require__(280) const gtr = __nccwpck_require__(2276) const ltr = __nccwpck_require__(5213) const intersects = __nccwpck_require__(3465) const simplifyRange = __nccwpck_require__(2028) const subset = __nccwpck_require__(1489) module.exports = { parse, valid, clean, inc, diff, major, minor, patch, prerelease, compare, rcompare, compareLoose, compareBuild, sort, rsort, gt, lt, eq, neq, gte, lte, cmp, coerce, Comparator, Range, satisfies, toComparators, maxSatisfying, minSatisfying, minVersion, validRange, outside, gtr, ltr, intersects, simplifyRange, subset, SemVer, re: internalRe.re, src: internalRe.src, tokens: internalRe.t, SEMVER_SPEC_VERSION: constants.SEMVER_SPEC_VERSION, RELEASE_TYPES: constants.RELEASE_TYPES, compareIdentifiers: identifiers.compareIdentifiers, rcompareIdentifiers: identifiers.rcompareIdentifiers, } /***/ }), /***/ 5101: /***/ ((module) => { // Note: this is the semver.org version of the spec that it implements // Not necessarily the package version of this code. const SEMVER_SPEC_VERSION = '2.0.0' const MAX_LENGTH = 256 const MAX_SAFE_INTEGER = Number.MAX_SAFE_INTEGER || /* istanbul ignore next */ 9007199254740991 // Max safe segment length for coercion. const MAX_SAFE_COMPONENT_LENGTH = 16 // Max safe length for a build identifier. The max length minus 6 characters for // the shortest version with a build 0.0.0+BUILD. const MAX_SAFE_BUILD_LENGTH = MAX_LENGTH - 6 const RELEASE_TYPES = [ 'major', 'premajor', 'minor', 'preminor', 'patch', 'prepatch', 'prerelease', ] module.exports = { MAX_LENGTH, MAX_SAFE_COMPONENT_LENGTH, MAX_SAFE_BUILD_LENGTH, MAX_SAFE_INTEGER, RELEASE_TYPES, SEMVER_SPEC_VERSION, FLAG_INCLUDE_PRERELEASE: 0b001, FLAG_LOOSE: 0b010, } /***/ }), /***/ 1159: /***/ ((module) => { const debug = ( typeof process === 'object' && process.env && process.env.NODE_DEBUG && /\bsemver\b/i.test(process.env.NODE_DEBUG) ) ? (...args) => console.error('SEMVER', ...args) : () => {} module.exports = debug /***/ }), /***/ 3348: /***/ ((module) => { const numeric = /^[0-9]+$/ const compareIdentifiers = (a, b) => { const anum = numeric.test(a) const bnum = numeric.test(b) if (anum && bnum) { a = +a b = +b } return a === b ? 0 : (anum && !bnum) ? -1 : (bnum && !anum) ? 1 : a < b ? -1 : 1 } const rcompareIdentifiers = (a, b) => compareIdentifiers(b, a) module.exports = { compareIdentifiers, rcompareIdentifiers, } /***/ }), /***/ 1383: /***/ ((module) => { class LRUCache { constructor () { this.max = 1000 this.map = new Map() } get (key) { const value = this.map.get(key) if (value === undefined) { return undefined } else { // Remove the key from the map and add it to the end this.map.delete(key) this.map.set(key, value) return value } } delete (key) { return this.map.delete(key) } set (key, value) { const deleted = this.delete(key) if (!deleted && value !== undefined) { // If cache is full, delete the least recently used item if (this.map.size >= this.max) { const firstKey = this.map.keys().next().value this.delete(firstKey) } this.map.set(key, value) } return this } } module.exports = LRUCache /***/ }), /***/ 356: /***/ ((module) => { // parse out just the options we care about const looseOption = Object.freeze({ loose: true }) const emptyOpts = Object.freeze({ }) const parseOptions = options => { if (!options) { return emptyOpts } if (typeof options !== 'object') { return looseOption } return options } module.exports = parseOptions /***/ }), /***/ 5471: /***/ ((module, exports, __nccwpck_require__) => { const { MAX_SAFE_COMPONENT_LENGTH, MAX_SAFE_BUILD_LENGTH, MAX_LENGTH, } = __nccwpck_require__(5101) const debug = __nccwpck_require__(1159) exports = module.exports = {} // The actual regexps go on exports.re const re = exports.re = [] const safeRe = exports.safeRe = [] const src = exports.src = [] const safeSrc = exports.safeSrc = [] const t = exports.t = {} let R = 0 const LETTERDASHNUMBER = '[a-zA-Z0-9-]' // Replace some greedy regex tokens to prevent regex dos issues. These regex are // used internally via the safeRe object since all inputs in this library get // normalized first to trim and collapse all extra whitespace. The original // regexes are exported for userland consumption and lower level usage. A // future breaking change could export the safer regex only with a note that // all input should have extra whitespace removed. const safeRegexReplacements = [ ['\\s', 1], ['\\d', MAX_LENGTH], [LETTERDASHNUMBER, MAX_SAFE_BUILD_LENGTH], ] const makeSafeRegex = (value) => { for (const [token, max] of safeRegexReplacements) { value = value .split(`${token}*`).join(`${token}{0,${max}}`) .split(`${token}+`).join(`${token}{1,${max}}`) } return value } const createToken = (name, value, isGlobal) => { const safe = makeSafeRegex(value) const index = R++ debug(name, index, value) t[name] = index src[index] = value safeSrc[index] = safe re[index] = new RegExp(value, isGlobal ? 'g' : undefined) safeRe[index] = new RegExp(safe, isGlobal ? 'g' : undefined) } // The following Regular Expressions can be used for tokenizing, // validating, and parsing SemVer version strings. // ## Numeric Identifier // A single `0`, or a non-zero digit followed by zero or more digits. createToken('NUMERICIDENTIFIER', '0|[1-9]\\d*') createToken('NUMERICIDENTIFIERLOOSE', '\\d+') // ## Non-numeric Identifier // Zero or more digits, followed by a letter or hyphen, and then zero or // more letters, digits, or hyphens. createToken('NONNUMERICIDENTIFIER', `\\d*[a-zA-Z-]${LETTERDASHNUMBER}*`) // ## Main Version // Three dot-separated numeric identifiers. createToken('MAINVERSION', `(${src[t.NUMERICIDENTIFIER]})\\.` + `(${src[t.NUMERICIDENTIFIER]})\\.` + `(${src[t.NUMERICIDENTIFIER]})`) createToken('MAINVERSIONLOOSE', `(${src[t.NUMERICIDENTIFIERLOOSE]})\\.` + `(${src[t.NUMERICIDENTIFIERLOOSE]})\\.` + `(${src[t.NUMERICIDENTIFIERLOOSE]})`) // ## Pre-release Version Identifier // A numeric identifier, or a non-numeric identifier. // Non-numberic identifiers include numberic identifiers but can be longer. // Therefore non-numberic identifiers must go first. createToken('PRERELEASEIDENTIFIER', `(?:${src[t.NONNUMERICIDENTIFIER] }|${src[t.NUMERICIDENTIFIER]})`) createToken('PRERELEASEIDENTIFIERLOOSE', `(?:${src[t.NONNUMERICIDENTIFIER] }|${src[t.NUMERICIDENTIFIERLOOSE]})`) // ## Pre-release Version // Hyphen, followed by one or more dot-separated pre-release version // identifiers. createToken('PRERELEASE', `(?:-(${src[t.PRERELEASEIDENTIFIER] }(?:\\.${src[t.PRERELEASEIDENTIFIER]})*))`) createToken('PRERELEASELOOSE', `(?:-?(${src[t.PRERELEASEIDENTIFIERLOOSE] }(?:\\.${src[t.PRERELEASEIDENTIFIERLOOSE]})*))`) // ## Build Metadata Identifier // Any combination of digits, letters, or hyphens. createToken('BUILDIDENTIFIER', `${LETTERDASHNUMBER}+`) // ## Build Metadata // Plus sign, followed by one or more period-separated build metadata // identifiers. createToken('BUILD', `(?:\\+(${src[t.BUILDIDENTIFIER] }(?:\\.${src[t.BUILDIDENTIFIER]})*))`) // ## Full Version String // A main version, followed optionally by a pre-release version and // build metadata. // Note that the only major, minor, patch, and pre-release sections of // the version string are capturing groups. The build metadata is not a // capturing group, because it should not ever be used in version // comparison. createToken('FULLPLAIN', `v?${src[t.MAINVERSION] }${src[t.PRERELEASE]}?${ src[t.BUILD]}?`) createToken('FULL', `^${src[t.FULLPLAIN]}$`) // like full, but allows v1.2.3 and =1.2.3, which people do sometimes. // also, 1.0.0alpha1 (prerelease without the hyphen) which is pretty // common in the npm registry. createToken('LOOSEPLAIN', `[v=\\s]*${src[t.MAINVERSIONLOOSE] }${src[t.PRERELEASELOOSE]}?${ src[t.BUILD]}?`) createToken('LOOSE', `^${src[t.LOOSEPLAIN]}$`) createToken('GTLT', '((?:<|>)?=?)') // Something like "2.*" or "1.2.x". // Note that "x.x" is a valid xRange identifer, meaning "any version" // Only the first item is strictly required. createToken('XRANGEIDENTIFIERLOOSE', `${src[t.NUMERICIDENTIFIERLOOSE]}|x|X|\\*`) createToken('XRANGEIDENTIFIER', `${src[t.NUMERICIDENTIFIER]}|x|X|\\*`) createToken('XRANGEPLAIN', `[v=\\s]*(${src[t.XRANGEIDENTIFIER]})` + `(?:\\.(${src[t.XRANGEIDENTIFIER]})` + `(?:\\.(${src[t.XRANGEIDENTIFIER]})` + `(?:${src[t.PRERELEASE]})?${ src[t.BUILD]}?` + `)?)?`) createToken('XRANGEPLAINLOOSE', `[v=\\s]*(${src[t.XRANGEIDENTIFIERLOOSE]})` + `(?:\\.(${src[t.XRANGEIDENTIFIERLOOSE]})` + `(?:\\.(${src[t.XRANGEIDENTIFIERLOOSE]})` + `(?:${src[t.PRERELEASELOOSE]})?${ src[t.BUILD]}?` + `)?)?`) createToken('XRANGE', `^${src[t.GTLT]}\\s*${src[t.XRANGEPLAIN]}$`) createToken('XRANGELOOSE', `^${src[t.GTLT]}\\s*${src[t.XRANGEPLAINLOOSE]}$`) // Coercion. // Extract anything that could conceivably be a part of a valid semver createToken('COERCEPLAIN', `${'(^|[^\\d])' + '(\\d{1,'}${MAX_SAFE_COMPONENT_LENGTH}})` + `(?:\\.(\\d{1,${MAX_SAFE_COMPONENT_LENGTH}}))?` + `(?:\\.(\\d{1,${MAX_SAFE_COMPONENT_LENGTH}}))?`) createToken('COERCE', `${src[t.COERCEPLAIN]}(?:$|[^\\d])`) createToken('COERCEFULL', src[t.COERCEPLAIN] + `(?:${src[t.PRERELEASE]})?` + `(?:${src[t.BUILD]})?` + `(?:$|[^\\d])`) createToken('COERCERTL', src[t.COERCE], true) createToken('COERCERTLFULL', src[t.COERCEFULL], true) // Tilde ranges. // Meaning is "reasonably at or greater than" createToken('LONETILDE', '(?:~>?)') createToken('TILDETRIM', `(\\s*)${src[t.LONETILDE]}\\s+`, true) exports.tildeTrimReplace = '$1~' createToken('TILDE', `^${src[t.LONETILDE]}${src[t.XRANGEPLAIN]}$`) createToken('TILDELOOSE', `^${src[t.LONETILDE]}${src[t.XRANGEPLAINLOOSE]}$`) // Caret ranges. // Meaning is "at least and backwards compatible with" createToken('LONECARET', '(?:\\^)') createToken('CARETTRIM', `(\\s*)${src[t.LONECARET]}\\s+`, true) exports.caretTrimReplace = '$1^' createToken('CARET', `^${src[t.LONECARET]}${src[t.XRANGEPLAIN]}$`) createToken('CARETLOOSE', `^${src[t.LONECARET]}${src[t.XRANGEPLAINLOOSE]}$`) // A simple gt/lt/eq thing, or just "" to indicate "any version" createToken('COMPARATORLOOSE', `^${src[t.GTLT]}\\s*(${src[t.LOOSEPLAIN]})$|^$`) createToken('COMPARATOR', `^${src[t.GTLT]}\\s*(${src[t.FULLPLAIN]})$|^$`) // An expression to strip any whitespace between the gtlt and the thing // it modifies, so that `> 1.2.3` ==> `>1.2.3` createToken('COMPARATORTRIM', `(\\s*)${src[t.GTLT] }\\s*(${src[t.LOOSEPLAIN]}|${src[t.XRANGEPLAIN]})`, true) exports.comparatorTrimReplace = '$1$2$3' // Something like `1.2.3 - 1.2.4` // Note that these all use the loose form, because they'll be // checked against either the strict or loose comparator form // later. createToken('HYPHENRANGE', `^\\s*(${src[t.XRANGEPLAIN]})` + `\\s+-\\s+` + `(${src[t.XRANGEPLAIN]})` + `\\s*$`) createToken('HYPHENRANGELOOSE', `^\\s*(${src[t.XRANGEPLAINLOOSE]})` + `\\s+-\\s+` + `(${src[t.XRANGEPLAINLOOSE]})` + `\\s*$`) // Star ranges basically just allow anything at all. createToken('STAR', '(<|>)?=?\\s*\\*') // >=0.0.0 is like a star createToken('GTE0', '^\\s*>=\\s*0\\.0\\.0\\s*$') createToken('GTE0PRE', '^\\s*>=\\s*0\\.0\\.0-0\\s*$') /***/ }), /***/ 2276: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // Determine if version is greater than all the versions possible in the range. const outside = __nccwpck_require__(280) const gtr = (version, range, options) => outside(version, range, '>', options) module.exports = gtr /***/ }), /***/ 3465: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const Range = __nccwpck_require__(6782) const intersects = (r1, r2, options) => { r1 = new Range(r1, options) r2 = new Range(r2, options) return r1.intersects(r2, options) } module.exports = intersects /***/ }), /***/ 5213: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const outside = __nccwpck_require__(280) // Determine if version is less than all the versions possible in the range const ltr = (version, range, options) => outside(version, range, '<', options) module.exports = ltr /***/ }), /***/ 5574: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const Range = __nccwpck_require__(6782) const maxSatisfying = (versions, range, options) => { let max = null let maxSV = null let rangeObj = null try { rangeObj = new Range(range, options) } catch (er) { return null } versions.forEach((v) => { if (rangeObj.test(v)) { // satisfies(v, range, options) if (!max || maxSV.compare(v) === -1) { // compare(max, v, true) max = v maxSV = new SemVer(max, options) } } }) return max } module.exports = maxSatisfying /***/ }), /***/ 8595: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const Range = __nccwpck_require__(6782) const minSatisfying = (versions, range, options) => { let min = null let minSV = null let rangeObj = null try { rangeObj = new Range(range, options) } catch (er) { return null } versions.forEach((v) => { if (rangeObj.test(v)) { // satisfies(v, range, options) if (!min || minSV.compare(v) === 1) { // compare(min, v, true) min = v minSV = new SemVer(min, options) } } }) return min } module.exports = minSatisfying /***/ }), /***/ 1866: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const Range = __nccwpck_require__(6782) const gt = __nccwpck_require__(6599) const minVersion = (range, loose) => { range = new Range(range, loose) let minver = new SemVer('0.0.0') if (range.test(minver)) { return minver } minver = new SemVer('0.0.0-0') if (range.test(minver)) { return minver } minver = null for (let i = 0; i < range.set.length; ++i) { const comparators = range.set[i] let setMin = null comparators.forEach((comparator) => { // Clone to avoid manipulating the comparator's semver object. const compver = new SemVer(comparator.semver.version) switch (comparator.operator) { case '>': if (compver.prerelease.length === 0) { compver.patch++ } else { compver.prerelease.push(0) } compver.raw = compver.format() /* fallthrough */ case '': case '>=': if (!setMin || gt(compver, setMin)) { setMin = compver } break case '<': case '<=': /* Ignore maximum versions */ break /* istanbul ignore next */ default: throw new Error(`Unexpected operation: ${comparator.operator}`) } }) if (setMin && (!minver || gt(minver, setMin))) { minver = setMin } } if (minver && range.test(minver)) { return minver } return null } module.exports = minVersion /***/ }), /***/ 280: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const SemVer = __nccwpck_require__(7163) const Comparator = __nccwpck_require__(9379) const { ANY } = Comparator const Range = __nccwpck_require__(6782) const satisfies = __nccwpck_require__(8011) const gt = __nccwpck_require__(6599) const lt = __nccwpck_require__(3872) const lte = __nccwpck_require__(6717) const gte = __nccwpck_require__(1236) const outside = (version, range, hilo, options) => { version = new SemVer(version, options) range = new Range(range, options) let gtfn, ltefn, ltfn, comp, ecomp switch (hilo) { case '>': gtfn = gt ltefn = lte ltfn = lt comp = '>' ecomp = '>=' break case '<': gtfn = lt ltefn = gte ltfn = gt comp = '<' ecomp = '<=' break default: throw new TypeError('Must provide a hilo val of "<" or ">"') } // If it satisfies the range it is not outside if (satisfies(version, range, options)) { return false } // From now on, variable terms are as if we're in "gtr" mode. // but note that everything is flipped for the "ltr" function. for (let i = 0; i < range.set.length; ++i) { const comparators = range.set[i] let high = null let low = null comparators.forEach((comparator) => { if (comparator.semver === ANY) { comparator = new Comparator('>=0.0.0') } high = high || comparator low = low || comparator if (gtfn(comparator.semver, high.semver, options)) { high = comparator } else if (ltfn(comparator.semver, low.semver, options)) { low = comparator } }) // If the edge version comparator has a operator then our version // isn't outside it if (high.operator === comp || high.operator === ecomp) { return false } // If the lowest version comparator has an operator and our version // is less than it then it isn't higher than the range if ((!low.operator || low.operator === comp) && ltefn(version, low.semver)) { return false } else if (low.operator === ecomp && ltfn(version, low.semver)) { return false } } return true } module.exports = outside /***/ }), /***/ 2028: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // given a set of versions and a range, create a "simplified" range // that includes the same versions that the original range does // If the original range is shorter than the simplified one, return that. const satisfies = __nccwpck_require__(8011) const compare = __nccwpck_require__(8469) module.exports = (versions, range, options) => { const set = [] let first = null let prev = null const v = versions.sort((a, b) => compare(a, b, options)) for (const version of v) { const included = satisfies(version, range, options) if (included) { prev = version if (!first) { first = version } } else { if (prev) { set.push([first, prev]) } prev = null first = null } } if (first) { set.push([first, null]) } const ranges = [] for (const [min, max] of set) { if (min === max) { ranges.push(min) } else if (!max && min === v[0]) { ranges.push('*') } else if (!max) { ranges.push(`>=${min}`) } else if (min === v[0]) { ranges.push(`<=${max}`) } else { ranges.push(`${min} - ${max}`) } } const simplified = ranges.join(' || ') const original = typeof range.raw === 'string' ? range.raw : String(range) return simplified.length < original.length ? simplified : range } /***/ }), /***/ 1489: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const Range = __nccwpck_require__(6782) const Comparator = __nccwpck_require__(9379) const { ANY } = Comparator const satisfies = __nccwpck_require__(8011) const compare = __nccwpck_require__(8469) // Complex range `r1 || r2 || ...` is a subset of `R1 || R2 || ...` iff: // - Every simple range `r1, r2, ...` is a null set, OR // - Every simple range `r1, r2, ...` which is not a null set is a subset of // some `R1, R2, ...` // // Simple range `c1 c2 ...` is a subset of simple range `C1 C2 ...` iff: // - If c is only the ANY comparator // - If C is only the ANY comparator, return true // - Else if in prerelease mode, return false // - else replace c with `[>=0.0.0]` // - If C is only the ANY comparator // - if in prerelease mode, return true // - else replace C with `[>=0.0.0]` // - Let EQ be the set of = comparators in c // - If EQ is more than one, return true (null set) // - Let GT be the highest > or >= comparator in c // - Let LT be the lowest < or <= comparator in c // - If GT and LT, and GT.semver > LT.semver, return true (null set) // - If any C is a = range, and GT or LT are set, return false // - If EQ // - If GT, and EQ does not satisfy GT, return true (null set) // - If LT, and EQ does not satisfy LT, return true (null set) // - If EQ satisfies every C, return true // - Else return false // - If GT // - If GT.semver is lower than any > or >= comp in C, return false // - If GT is >=, and GT.semver does not satisfy every C, return false // - If GT.semver has a prerelease, and not in prerelease mode // - If no C has a prerelease and the GT.semver tuple, return false // - If LT // - If LT.semver is greater than any < or <= comp in C, return false // - If LT is <=, and LT.semver does not satisfy every C, return false // - If GT.semver has a prerelease, and not in prerelease mode // - If no C has a prerelease and the LT.semver tuple, return false // - Else return true const subset = (sub, dom, options = {}) => { if (sub === dom) { return true } sub = new Range(sub, options) dom = new Range(dom, options) let sawNonNull = false OUTER: for (const simpleSub of sub.set) { for (const simpleDom of dom.set) { const isSub = simpleSubset(simpleSub, simpleDom, options) sawNonNull = sawNonNull || isSub !== null if (isSub) { continue OUTER } } // the null set is a subset of everything, but null simple ranges in // a complex range should be ignored. so if we saw a non-null range, // then we know this isn't a subset, but if EVERY simple range was null, // then it is a subset. if (sawNonNull) { return false } } return true } const minimumVersionWithPreRelease = [new Comparator('>=0.0.0-0')] const minimumVersion = [new Comparator('>=0.0.0')] const simpleSubset = (sub, dom, options) => { if (sub === dom) { return true } if (sub.length === 1 && sub[0].semver === ANY) { if (dom.length === 1 && dom[0].semver === ANY) { return true } else if (options.includePrerelease) { sub = minimumVersionWithPreRelease } else { sub = minimumVersion } } if (dom.length === 1 && dom[0].semver === ANY) { if (options.includePrerelease) { return true } else { dom = minimumVersion } } const eqSet = new Set() let gt, lt for (const c of sub) { if (c.operator === '>' || c.operator === '>=') { gt = higherGT(gt, c, options) } else if (c.operator === '<' || c.operator === '<=') { lt = lowerLT(lt, c, options) } else { eqSet.add(c.semver) } } if (eqSet.size > 1) { return null } let gtltComp if (gt && lt) { gtltComp = compare(gt.semver, lt.semver, options) if (gtltComp > 0) { return null } else if (gtltComp === 0 && (gt.operator !== '>=' || lt.operator !== '<=')) { return null } } // will iterate one or zero times for (const eq of eqSet) { if (gt && !satisfies(eq, String(gt), options)) { return null } if (lt && !satisfies(eq, String(lt), options)) { return null } for (const c of dom) { if (!satisfies(eq, String(c), options)) { return false } } return true } let higher, lower let hasDomLT, hasDomGT // if the subset has a prerelease, we need a comparator in the superset // with the same tuple and a prerelease, or it's not a subset let needDomLTPre = lt && !options.includePrerelease && lt.semver.prerelease.length ? lt.semver : false let needDomGTPre = gt && !options.includePrerelease && gt.semver.prerelease.length ? gt.semver : false // exception: <1.2.3-0 is the same as <1.2.3 if (needDomLTPre && needDomLTPre.prerelease.length === 1 && lt.operator === '<' && needDomLTPre.prerelease[0] === 0) { needDomLTPre = false } for (const c of dom) { hasDomGT = hasDomGT || c.operator === '>' || c.operator === '>=' hasDomLT = hasDomLT || c.operator === '<' || c.operator === '<=' if (gt) { if (needDomGTPre) { if (c.semver.prerelease && c.semver.prerelease.length && c.semver.major === needDomGTPre.major && c.semver.minor === needDomGTPre.minor && c.semver.patch === needDomGTPre.patch) { needDomGTPre = false } } if (c.operator === '>' || c.operator === '>=') { higher = higherGT(gt, c, options) if (higher === c && higher !== gt) { return false } } else if (gt.operator === '>=' && !satisfies(gt.semver, String(c), options)) { return false } } if (lt) { if (needDomLTPre) { if (c.semver.prerelease && c.semver.prerelease.length && c.semver.major === needDomLTPre.major && c.semver.minor === needDomLTPre.minor && c.semver.patch === needDomLTPre.patch) { needDomLTPre = false } } if (c.operator === '<' || c.operator === '<=') { lower = lowerLT(lt, c, options) if (lower === c && lower !== lt) { return false } } else if (lt.operator === '<=' && !satisfies(lt.semver, String(c), options)) { return false } } if (!c.operator && (lt || gt) && gtltComp !== 0) { return false } } // if there was a < or >, and nothing in the dom, then must be false // UNLESS it was limited by another range in the other direction. // Eg, >1.0.0 <1.0.1 is still a subset of <2.0.0 if (gt && hasDomLT && !lt && gtltComp !== 0) { return false } if (lt && hasDomGT && !gt && gtltComp !== 0) { return false } // we needed a prerelease range in a specific tuple, but didn't get one // then this isn't a subset. eg >=1.2.3-pre is not a subset of >=1.0.0, // because it includes prereleases in the 1.2.3 tuple if (needDomGTPre || needDomLTPre) { return false } return true } // >=1.2.3 is lower than >1.2.3 const higherGT = (a, b, options) => { if (!a) { return b } const comp = compare(a.semver, b.semver, options) return comp > 0 ? a : comp < 0 ? b : b.operator === '>' && a.operator === '>=' ? b : a } // <=1.2.3 is higher than <1.2.3 const lowerLT = (a, b, options) => { if (!a) { return b } const comp = compare(a.semver, b.semver, options) return comp < 0 ? a : comp > 0 ? b : b.operator === '<' && a.operator === '<=' ? b : a } module.exports = subset /***/ }), /***/ 4750: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const Range = __nccwpck_require__(6782) // Mostly just for testing and legacy API reasons const toComparators = (range, options) => new Range(range, options).set .map(comp => comp.map(c => c.value).join(' ').trim().split(' ')) module.exports = toComparators /***/ }), /***/ 4737: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const Range = __nccwpck_require__(6782) const validRange = (range, options) => { try { // Return '*' instead of '' so that truthiness works. // This will throw if it's invalid anyway return new Range(range, options).range || '*' } catch (er) { return null } } module.exports = validRange /***/ }), /***/ 5385: /***/ ((module) => { /*! simple-concat. MIT License. Feross Aboukhadijeh */ module.exports = function (stream, cb) { var chunks = [] stream.on('data', function (chunk) { chunks.push(chunk) }) stream.once('end', function () { if (cb) cb(null, Buffer.concat(chunks)) cb = null }) stream.once('error', function (err) { if (cb) cb(err) cb = null }) } /***/ }), /***/ 6215: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { /*! simple-get. MIT License. Feross Aboukhadijeh */ module.exports = simpleGet const concat = __nccwpck_require__(5385) const decompressResponse = __nccwpck_require__(1373) // excluded from browser build const http = __nccwpck_require__(8611) const https = __nccwpck_require__(5692) const once = __nccwpck_require__(5560) const querystring = __nccwpck_require__(3480) const url = __nccwpck_require__(7016) const isStream = o => o !== null && typeof o === 'object' && typeof o.pipe === 'function' function simpleGet (opts, cb) { opts = Object.assign({ maxRedirects: 10 }, typeof opts === 'string' ? { url: opts } : opts) cb = once(cb) if (opts.url) { const { hostname, port, protocol, auth, path } = url.parse(opts.url) // eslint-disable-line node/no-deprecated-api delete opts.url if (!hostname && !port && !protocol && !auth) opts.path = path // Relative redirect else Object.assign(opts, { hostname, port, protocol, auth, path }) // Absolute redirect } const headers = { 'accept-encoding': 'gzip, deflate' } if (opts.headers) Object.keys(opts.headers).forEach(k => (headers[k.toLowerCase()] = opts.headers[k])) opts.headers = headers let body if (opts.body) { body = opts.json && !isStream(opts.body) ? JSON.stringify(opts.body) : opts.body } else if (opts.form) { body = typeof opts.form === 'string' ? opts.form : querystring.stringify(opts.form) opts.headers['content-type'] = 'application/x-www-form-urlencoded' } if (body) { if (!opts.method) opts.method = 'POST' if (!isStream(body)) opts.headers['content-length'] = Buffer.byteLength(body) if (opts.json && !opts.form) opts.headers['content-type'] = 'application/json' } delete opts.body; delete opts.form if (opts.json) opts.headers.accept = 'application/json' if (opts.method) opts.method = opts.method.toUpperCase() const originalHost = opts.hostname // hostname before potential redirect const protocol = opts.protocol === 'https:' ? https : http // Support http/https urls const req = protocol.request(opts, res => { if (opts.followRedirects !== false && res.statusCode >= 300 && res.statusCode < 400 && res.headers.location) { opts.url = res.headers.location // Follow 3xx redirects delete opts.headers.host // Discard `host` header on redirect (see #32) res.resume() // Discard response const redirectHost = url.parse(opts.url).hostname // eslint-disable-line node/no-deprecated-api // If redirected host is different than original host, drop headers to prevent cookie leak (#73) if (redirectHost !== null && redirectHost !== originalHost) { delete opts.headers.cookie delete opts.headers.authorization } if (opts.method === 'POST' && [301, 302].includes(res.statusCode)) { opts.method = 'GET' // On 301/302 redirect, change POST to GET (see #35) delete opts.headers['content-length']; delete opts.headers['content-type'] } if (opts.maxRedirects-- === 0) return cb(new Error('too many redirects')) else return simpleGet(opts, cb) } const tryUnzip = typeof decompressResponse === 'function' && opts.method !== 'HEAD' cb(null, tryUnzip ? decompressResponse(res) : res) }) req.on('timeout', () => { req.abort() cb(new Error('Request timed out')) }) req.on('error', cb) if (isStream(body)) body.on('error', cb).pipe(req) else req.end(body) return req } simpleGet.concat = (opts, cb) => { return simpleGet(opts, (err, res) => { if (err) return cb(err) concat(res, (err, data) => { if (err) return cb(err) if (opts.json) { try { data = JSON.parse(data.toString()) } catch (err) { return cb(err, res, data) } } cb(null, res, data) }) }) } ;['get', 'post', 'put', 'patch', 'head', 'delete'].forEach(method => { simpleGet[method] = (opts, cb) => { if (typeof opts === 'string') opts = { url: opts } return simpleGet(Object.assign({ method: method.toUpperCase() }, opts), cb) } }) /***/ }), /***/ 1658: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // // Canvas object & export options // const {RustClass, core, inspect, REPR} = __nccwpck_require__(1526), {Image, ImageData, pixelSize} = __nccwpck_require__(3672), {toSkMatrix} = __nccwpck_require__(6634) class Canvas extends RustClass{ #contexts constructor(width, height){ super(Canvas).alloc() this.#contexts = [] Object.assign(this, {width, height}) } getContext(kind){ return (kind=="2d") ? this.#contexts[0] || this.newPage() : null } get gpu(){ return this.prop('engine')=='gpu' } set gpu(mode){ this.prop('engine', !!mode ? 'gpu' : 'cpu') } get engine(){ return JSON.parse(this.prop('engine_status')) } get width(){ return this.prop('width') } set width(w){ this.prop('width', (typeof w=='number' && !Number.isNaN(w) && w>=0) ? w : 300) if (this.#contexts[0]) this.getContext("2d").ƒ('resetSize', core(this)) } get height(){ return this.prop('height') } set height(h){ this.prop('height', h = (typeof h=='number' && !Number.isNaN(h) && h>=0) ? h : 150) if (this.#contexts[0]) this.getContext("2d").ƒ('resetSize', core(this)) } newPage(width, height){ const {CanvasRenderingContext2D} = __nccwpck_require__(2563) let ctx = new CanvasRenderingContext2D(this) this.#contexts.unshift(ctx) if (arguments.length==2){ Object.assign(this, {width, height}) } return ctx } get pages(){ return this.#contexts.slice().reverse() } get png(){ return this.toBuffer("png") } get jpg(){ return this.toBuffer("jpg") } get pdf(){ return this.toBuffer("pdf") } get svg(){ return this.toBuffer("svg") } get webp(){ return this.toBuffer("webp") } saveAs(filename, opts={}){ opts = typeof opts=='number' ? {quality:opts} : opts let {format, quality, pages, padding, pattern, density, outline, matte, msaa, colorType} = exportOptions(this.pages, {filename, ...opts}), args = [pages.map(core), pattern, padding, {format, quality, density, outline, matte, msaa, colorType}] return this.ƒ("save", ...args) } saveAsSync(filename, opts={}){ opts = typeof opts=='number' ? {quality:opts} : opts let {format, quality, pages, padding, pattern, density, outline, matte, msaa, colorType} = exportOptions(this.pages, {filename, ...opts}) this.ƒ("saveSync", pages.map(core), pattern, padding, {format, quality, density, outline, matte, msaa, colorType}) } toBuffer(extension="png", opts={}){ opts = typeof opts=='number' ? {quality:opts} : opts let {format, quality, pages, density, outline, matte, msaa, colorType} = exportOptions(this.pages, {extension, ...opts}), args = [pages.map(core), {format, quality, density, outline, matte, msaa, colorType}]; return this.ƒ("toBuffer", ...args) } toBufferSync(extension="png", opts={}){ opts = typeof opts=='number' ? {quality:opts} : opts let {format, quality, pages, density, outline, matte, msaa, colorType} = exportOptions(this.pages, {extension, ...opts}) return this.ƒ("toBufferSync", pages.map(core), {format, quality, density, outline, matte, msaa, colorType}) } toDataURL(extension="png", opts={}){ opts = typeof opts=='number' ? {quality:opts} : opts let {mime} = exportOptions(this.pages, {extension, ...opts}), buffer = this.toBuffer(extension, opts); return buffer.then(data => `data:${mime};base64,${data.toString('base64')}`) } toDataURLSync(extension="png", opts={}){ opts = typeof opts=='number' ? {quality:opts} : opts let {mime} = exportOptions(this.pages, {extension, ...opts}), buffer = this.toBufferSync(extension, opts); return `data:${mime};base64,${buffer.toString('base64')}` } [REPR](depth, options) { let {width, height, gpu, engine, pages} = this return `Canvas ${inspect({width, height, gpu, engine, pages}, options)}` } } class CanvasGradient extends RustClass{ constructor(style, ...coords){ super(CanvasGradient) style = (style || "").toLowerCase() if (['linear', 'radial', 'conic'].includes(style)) this.init(style, ...coords) else throw new Error(`Function is not a constructor (use CanvasRenderingContext2D's "createConicGradient", "createLinearGradient", and "createRadialGradient" methods instead)`) } addColorStop(offset, color){ if (offset>=0 && offset<=1) this.ƒ('addColorStop', offset, color) else throw new Error("Color stop offsets must be between 0.0 and 1.0") } [REPR](depth, options) { return `CanvasGradient (${this.ƒ("repr")})` } } class CanvasPattern extends RustClass{ constructor(canvas, src, repeat){ super(CanvasPattern) if (src instanceof Image){ let {width, height} = canvas this.init('from_image', core(src), width, height, repeat) }else if (src instanceof ImageData){ this.init('from_image_data', src, repeat) }else if (src instanceof Canvas){ let ctx = src.getContext('2d') this.init('from_canvas', core(ctx), repeat) }else{ throw new Error("CanvasPatterns require a source Image or a Canvas") } } setTransform(matrix) { this.ƒ('setTransform', toSkMatrix.apply(null, arguments)) } [REPR](depth, options) { return `CanvasPattern (${this.ƒ("repr")})` } } class CanvasTexture extends RustClass{ constructor(spacing, {path, line, color, angle, offset=0}={}){ super(CanvasTexture) let [x, y] = typeof offset=='number' ? [offset, offset] : offset.slice(0, 2) let [h, v] = typeof spacing=='number' ? [spacing, spacing] : spacing.slice(0, 2) path = core(path) line = line != null ? line : (path ? 0 : 1) angle = angle != null ? angle : (path ? 0 : -Math.PI / 4) this.alloc(path, color, line, angle, h, v, x, y) } [REPR](depth, options) { return `CanvasTexture (${this.ƒ("repr")})` } } // // Mime type <-> File extension mappings // class Format{ constructor(){ let png = "image/png", jpg = "image/jpeg", jpeg = "image/jpeg", webp = "image/webp", pdf = "application/pdf", svg = "image/svg+xml", raw = "application/octet-stream" Object.assign(this, { toMime: this.toMime.bind(this), fromMime: this.fromMime.bind(this), expected: `"png", "jpg", "webp", "raw", "pdf", or "svg"`, formats: {png, jpg, jpeg, webp, raw, pdf, svg}, mimes: {[png]: "png", [jpg]: "jpg", [webp]: "webp", [raw]: "raw", [pdf]: "pdf", [svg]: "svg"}, }) } toMime(ext){ return this.formats[(ext||'').replace(/^\./, '').toLowerCase()] } fromMime(mime){ return this.mimes[mime] } } // // Validation of the options dict shared by the `saveAs`, `toBuffer`, and `toDataURL` methods // const {basename, extname} = __nccwpck_require__(6928) function exportOptions(pages, {filename='', extension='', format, page, quality, matte, density, outline, msaa, colorType}={}){ var {fromMime, toMime, expected} = new Format(), ext = format || extension.replace(/@\d+x$/i,'') || extname(filename), format = fromMime(toMime(ext) || ext), mime = toMime(format), pp = pages.length if (!ext) throw new Error(`Cannot determine image format (use a filename extension or 'format' argument)`) if (!format) throw new Error(`Unsupported file format "${ext}" (expected ${expected})`) if (!pp) throw new RangeError(`Canvas has no associated contexts (try calling getContext or newPage first)`) let padding, isSequence, pattern = filename.replace(/{(\d*)}/g, (_, width) => { isSequence = true width = parseInt(width, 10) padding = isFinite(width) ? width : isFinite(padding) ? padding : -1 return "{}" }) // allow negative indexing if a specific page is specified let idx = page > 0 ? page - 1 : page < 0 ? pp + page : undefined; if (isFinite(idx) && idx < 0 || idx >= pp) throw new RangeError( pp == 1 ? `Canvas only has a ‘page 1’ (${idx} is out of bounds)` : `Canvas has pages 1–${pp} (${idx} is out of bounds)` ) pages = isFinite(idx) ? [pages[idx]] : isSequence || format=='pdf' ? pages : pages.slice(-1) // default to the 'current' context if (quality===undefined){ quality = 0.92 }else{ if (typeof quality!='number' || !isFinite(quality) || quality<0 || quality>1){ throw new TypeError("The quality option must be an number in the 0.0–1.0 range") } } if (density===undefined){ let m = (extension || basename(filename, ext)).match(/@(\d+)x$/i) density = m ? parseInt(m[1], 10) : 1 }else if (typeof density!='number' || !Number.isInteger(density) || density<1){ throw new TypeError("The density option must be a non-negative integer") } if (outline===undefined){ outline = true }else if (format == 'svg'){ outline = !!outline } if (msaa===undefined) { msaa = undefined // leave as-is }else if (!msaa){ msaa = 0 // null, false, etc. should all disable it }else if (typeof msaa!='number' || !isFinite(msaa) || msaa<0){ throw new TypeError("The number of MSAA samples must be an integer ≥0") } if (colorType!==undefined){ pixelSize(colorType) // throw an error if invalid } return {filename, pattern, format, mime, pages, padding, quality, matte, density, outline, msaa, colorType} } module.exports = {Canvas, CanvasGradient, CanvasPattern, CanvasTexture} /***/ }), /***/ 2563: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // // The Canvas drawing API // const {RustClass, core, wrap, inspect, REPR} = __nccwpck_require__(1526), {Canvas, CanvasGradient, CanvasPattern, CanvasTexture} = __nccwpck_require__(1658), {fromSkMatrix, toSkMatrix} = __nccwpck_require__(6634), {Image, ImageData} = __nccwpck_require__(3672), {TextMetrics} = __nccwpck_require__(5243), {Path2D} = __nccwpck_require__(8409), css = __nccwpck_require__(327) const toString = val => typeof val=='string' ? val : new String(val).toString() class CanvasRenderingContext2D extends RustClass{ #canvas constructor(canvas){ try{ super(CanvasRenderingContext2D).alloc(core(canvas)) this.#canvas = new WeakRef(canvas) }catch(e){ throw new TypeError(`Function is not a constructor (use Canvas's "getContext" method instead)`) } } get canvas(){ return this.#canvas.deref() } // -- global state & content reset ------------------------------------------ reset(){ this.ƒ('reset') } // -- grid state ------------------------------------------------------------ save(){ this.ƒ('save') } restore(){ this.ƒ('restore') } get currentTransform(){ return fromSkMatrix( this.prop('currentTransform') ) } set currentTransform(matrix){ this.setTransform(matrix) } resetTransform(){ this.ƒ('resetTransform')} getTransform(){ return this.currentTransform } setTransform(matrix){ this.prop('currentTransform', toSkMatrix.apply(null, arguments)) } transform(matrix) { this.ƒ('transform', toSkMatrix.apply(null, arguments)) } translate(x, y){ this.ƒ('translate', ...arguments)} scale(x, y){ this.ƒ('scale', ...arguments)} rotate(angle){ this.ƒ('rotate', ...arguments)} createProjection(quad, basis){ return fromSkMatrix(this.ƒ("createProjection", [quad].flat(), [basis].flat())) } // -- bézier paths ---------------------------------------------------------- beginPath(){ this.ƒ('beginPath') } rect(x, y, width, height){ this.ƒ('rect', ...arguments) } arc(x, y, radius, startAngle, endAngle, isCCW){ this.ƒ('arc', ...arguments) } ellipse(x, y, xRadius, yRadius, rotation, startAngle, endAngle, isCCW){ this.ƒ('ellipse', ...arguments) } moveTo(x, y){ this.ƒ('moveTo', ...arguments) } lineTo(x, y){ this.ƒ('lineTo', ...arguments) } arcTo(x1, y1, x2, y2, radius){ this.ƒ('arcTo', ...arguments) } bezierCurveTo(cp1x, cp1y, cp2x, cp2y, x, y){ this.ƒ('bezierCurveTo', ...arguments) } quadraticCurveTo(cpx, cpy, x, y){ this.ƒ('quadraticCurveTo', ...arguments) } conicCurveTo(cpx, cpy, x, y, weight){ this.ƒ("conicCurveTo", ...arguments) } closePath(){ this.ƒ('closePath') } roundRect(x, y, w, h, r){ let radii = css.radii(r) if (radii){ if (w < 0) radii = [radii[1], radii[0], radii[3], radii[2]] if (h < 0) radii = [radii[3], radii[2], radii[1], radii[0]] this.ƒ("roundRect", x, y, w, h, ...radii.map(({x, y}) => [x, y]).flat()) } } // -- using paths ----------------------------------------------------------- fill(path, rule){ if (path instanceof Path2D) this.ƒ('fill', core(path), rule) else this.ƒ('fill', path) // 'path' is the optional winding-rule } stroke(path, rule){ if (path instanceof Path2D) this.ƒ('stroke', core(path), rule) else this.ƒ('stroke', path) // 'path' is the optional winding-rule } clip(path, rule){ if (path instanceof Path2D) this.ƒ('clip', core(path), rule) else this.ƒ('clip', path) // 'path' is the optional winding-rule } isPointInPath(path, x, y){ let args = path instanceof Path2D ? [core(path), x, y] : arguments return this.ƒ('isPointInPath', ...args) } isPointInStroke(path, x, y){ let args = path instanceof Path2D ? [core(path), x, y] : arguments return this.ƒ('isPointInStroke', ...args) } // -- shaders --------------------------------------------------------------- createPattern(image, repetition){ return new CanvasPattern(this.canvas, image, repetition) } createLinearGradient(x0, y0, x1, y1){ return new CanvasGradient("Linear", ...arguments) } createRadialGradient(x0, y0, r0, x1, y1, r1){ return new CanvasGradient("Radial", ...arguments) } createConicGradient(startAngle, x, y){ return new CanvasGradient("Conic", ...arguments) } createTexture(spacing, options){ return new CanvasTexture(spacing, options) } // -- fill & stroke --------------------------------------------------------- fillRect(x, y, width, height){ this.ƒ('fillRect', ...arguments) } strokeRect(x, y, width, height){ this.ƒ('strokeRect', ...arguments) } clearRect(x, y, width, height){ this.ƒ('clearRect', ...arguments) } set fillStyle(style){ let isShader = style instanceof CanvasPattern || style instanceof CanvasGradient || style instanceof CanvasTexture, [ref, val] = isShader ? [style, core(style)] : [null, style] this.ref('fill', ref) this.prop('fillStyle', val) } get fillStyle(){ let style = this.prop('fillStyle') return style===null ? this.ref('fill') : style } set strokeStyle(style){ let isShader = style instanceof CanvasPattern || style instanceof CanvasGradient || style instanceof CanvasTexture, [ref, val] = isShader ? [style, core(style)] : [null, style] this.ref('stroke', ref) this.prop('strokeStyle', val) } get strokeStyle(){ let style = this.prop('strokeStyle') return style===null ? this.ref('stroke') : style } // -- line style ------------------------------------------------------------ getLineDash(){ return this.ƒ("getLineDash") } setLineDash(segments){ this.ƒ("setLineDash", segments) } get lineCap(){ return this.prop("lineCap") } set lineCap(style){ this.prop("lineCap", style) } get lineDashFit(){ return this.prop("lineDashFit") } set lineDashFit(style){ this.prop("lineDashFit", style) } get lineDashMarker(){ return wrap(Path2D, this.prop("lineDashMarker")) } set lineDashMarker(path){ this.prop("lineDashMarker", path instanceof Path2D ? core(path) : path) } get lineDashOffset(){ return this.prop("lineDashOffset") } set lineDashOffset(offset){ this.prop("lineDashOffset", offset) } get lineJoin(){ return this.prop("lineJoin") } set lineJoin(style){ this.prop("lineJoin", style) } get lineWidth(){ return this.prop("lineWidth") } set lineWidth(width){ this.prop("lineWidth", width) } get miterLimit(){ return this.prop("miterLimit") } set miterLimit(limit){ this.prop("miterLimit", limit) } // -- imagery --------------------------------------------------------------- get imageSmoothingEnabled(){ return this.prop("imageSmoothingEnabled")} set imageSmoothingEnabled(flag){ this.prop("imageSmoothingEnabled", !!flag)} get imageSmoothingQuality(){ return this.prop("imageSmoothingQuality")} set imageSmoothingQuality(level){ this.prop("imageSmoothingQuality", level)} putImageData(imageData, ...coords){ this.ƒ('putImageData', imageData, ...coords) } createImageData(width, height, settings){ return new ImageData(width, height, settings) } getImageData(x, y, width, height, {colorType='rgba', colorSpace='srgb'}={}){ let w = Math.floor(width), h = Math.floor(height), buffer = this.ƒ('getImageData', core(this.canvas), x, y, w, h, {colorType, colorSpace}); return new ImageData(buffer, w, h, {colorType, colorSpace}) } drawImage(image, ...coords){ if (image instanceof Canvas){ this.ƒ('drawImage', core(image.getContext('2d')), ...coords) }else if (image instanceof Image){ if (image.complete) this.ƒ('drawImage', core(image), ...coords) else throw new Error("Image has not completed loading: listen for `load` event or await `decode()` first") }else if (image instanceof ImageData){ this.ƒ('drawImage', image, ...coords) }else if (image instanceof Promise) { throw new Error("Promise has not yet resolved: `await` image loading before drawing") }else{ throw new Error(`Expected an Image or a Canvas argument (got: ${inspect(image, {depth:1})})`) } } drawCanvas(image, ...coords){ if (image instanceof Canvas){ this.ƒ('drawCanvas', core(image.getContext('2d')), ...coords) }else{ this.drawImage(image, ...coords) } } // -- typography ------------------------------------------------------------ get font(){ return this.prop('font') } set font(str){ this.prop('font', css.font(str)) } get textAlign(){ return this.prop("textAlign") } set textAlign(mode){ this.prop("textAlign", mode) } get textBaseline(){ return this.prop("textBaseline") } set textBaseline(mode ){ this.prop("textBaseline", mode) } get direction(){ return this.prop("direction") } set direction(mode){ this.prop("direction", mode) } get fontStretch(){ return this.prop('fontStretch') } set fontStretch(str){ this.prop('fontStretch', css.stretch(str)) } get letterSpacing(){ return this.prop('letterSpacing') } set letterSpacing(str){ this.prop('letterSpacing', css.spacing(str)) } get wordSpacing(){ return this.prop('wordSpacing') } set wordSpacing(str){ this.prop('wordSpacing', css.spacing(str)) } measureText(text, maxWidth){ text = this.textWrap ? text : text + '\u200b' // include trailing whitespace by default let [metrics, ...lines] = this.ƒ('measureText', toString(text), maxWidth) return new TextMetrics(metrics, lines) } fillText(text, x, y, maxWidth){ this.ƒ('fillText', toString(text), x, y, maxWidth) } strokeText(text, x, y, maxWidth){ this.ƒ('strokeText', toString(text), x, y, maxWidth) } outlineText(text, width){ let path = this.ƒ('outlineText', toString(text), width) return path ? wrap(Path2D, path) : null } // -- non-standard typography extensions -------------------------------------------- get fontHinting(){ return this.prop("fontHinting") } set fontHinting(flag){ this.prop("fontHinting", !!flag) } get fontVariant(){ return this.prop('fontVariant') } set fontVariant(str){ this.prop('fontVariant', css.variant(str)) } get textWrap(){ return this.prop("textWrap") } set textWrap(flag){ this.prop("textWrap", !!flag) } get textDecoration(){ return this.prop("textDecoration") } set textDecoration(str){ this.prop("textDecoration", css.decoration(str)) } set textTracking(_){ process.emitWarning("The .textTracking property has been removed; use the .letterSpacing property instead", "PropertyRemoved") } // -- effects --------------------------------------------------------------- get globalCompositeOperation(){ return this.prop("globalCompositeOperation") } set globalCompositeOperation(blend){ this.prop("globalCompositeOperation", blend) } get globalAlpha(){ return this.prop("globalAlpha") } set globalAlpha(alpha){ this.prop("globalAlpha", alpha) } get shadowBlur(){ return this.prop("shadowBlur") } set shadowBlur(level){ this.prop("shadowBlur", level) } get shadowColor(){ return this.prop("shadowColor") } set shadowColor(color){ this.prop("shadowColor", color) } get shadowOffsetX(){ return this.prop("shadowOffsetX") } set shadowOffsetX(x){ this.prop("shadowOffsetX", x) } get shadowOffsetY(){ return this.prop("shadowOffsetY") } set shadowOffsetY(y){ this.prop("shadowOffsetY", y) } get filter(){ return this.prop('filter') } set filter(str){ this.prop('filter', css.filter(str)) } [REPR](depth, options) { let props = [ "canvas", "currentTransform", "fillStyle", "strokeStyle", "font", "fontStretch", "fontVariant", "direction", "textAlign", "textBaseline", "textWrap", "letterSpacing", "wordSpacing", "globalAlpha", "globalCompositeOperation", "imageSmoothingEnabled", "imageSmoothingQuality", "filter", "shadowBlur", "shadowColor", "shadowOffsetX", "shadowOffsetY", "lineCap", "lineDashOffset", "lineJoin", "lineWidth", "miterLimit" ] let info = {} if (depth > 0 ){ for (var prop of props){ try{ info[prop] = this[prop] } catch{ info[prop] = undefined } } } return `CanvasRenderingContext2D ${inspect(info, options)}` } } module.exports = {CanvasRenderingContext2D} /***/ }), /***/ 327: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // // Parsers for properties that take CSS-style strings as values // // -- Font & Variant -------------------------------------------------------------------- // https://developer.mozilla.org/en-US/docs/Web/CSS/font-variant // https://www.w3.org/TR/css-fonts-3/#font-size-prop var splitBy = __nccwpck_require__(3670), {DOMPoint} = __nccwpck_require__(6634), m, cache = {font:{}, variant:{}}; const styleRE = /^(normal|italic|oblique)$/, smallcapsRE = /^(normal|small-caps)$/, stretchRE = /^(normal|(semi-|extra-|ultra-)?(condensed|expanded))$/, namedSizeRE = /(?:xx?-)?small|smaller|medium|larger|(?:xx?-)?large|normal/, numSizeRE = /^(\-?[\d\.]+)(px|pt|pc|in|cm|mm|%|em|ex|ch|rem|q)/, namedWeightRE = /^(normal|bold(er)?|lighter)$/, numWeightRE = /^(1000|\d{1,3})$/, parameterizedRE = /([\w\-]+)\((.*?)\)/, unquote = s => s.replace(/^(['"])(.*?)\1$/, "$2"), isSize = s => namedSizeRE.test(s) || numSizeRE.test(s), isWeight = s => namedWeightRE.test(s) || numWeightRE.test(s); function parseFont(str){ if (cache.font[str]===undefined){ try{ if (typeof str !== 'string') throw new Error('Font specification must be a string') if (!str) throw new Error('Font specification cannot be an empty string') let font = {style:'normal', variant:'normal', weight:'normal', stretch:'normal'}, value = str.replace(/\s*\/\*s/, "/"), tokens = splitBy(value, /\s+/), token; while (token = tokens.shift()) { let match = styleRE.test(token) ? 'style' : smallcapsRE.test(token) ? 'variant' : stretchRE.test(token) ? 'stretch' : isWeight(token) ? 'weight' : isSize(token) ? 'size' : null; switch (match){ case "style": case "variant": case "stretch": case "weight": font[match] = token break; case "size": // size is the pivot point between the style fields and the family name stack, // so start processing what's been collected let [emSize, leading] = splitBy(token, '/'), size = parseSize(emSize), lineHeight = leading ? parseSize(leading.replace(/(\d)$/, '$1em'), size) : undefined, weight = parseWeight(font.weight), family = splitBy(tokens.join(' '), /\s*,\s*/).map(unquote), features = font.variant=='small-caps' ? {on:['smcp', 'onum']} : {}, {style, stretch, variant} = font; // make sure all the numeric fields have legitimate values let invalid = !isFinite(size) ? `font size "${emSize}"` : !isFinite(lineHeight) && lineHeight!==undefined ? `line height "${leading}"` : !isFinite(weight) ? `font weight "${font.weight}"` : family.length==0 ? `font family "${tokens.join(', ')}"` : false; if (!invalid){ // include a re-stringified version of the decoded/absified values return cache.font[str] = Object.assign(font, { size, lineHeight, weight, family, features, canonical:[ style, (variant !== style) && variant, ([variant, style].indexOf(weight) == -1) && weight, ([variant, style, weight].indexOf(stretch) == -1) && stretch, `${size}px${isFinite(lineHeight) ? `/${lineHeight}px`: ''}`, family.map(nm => nm.match(/\s/) ? `"${nm}"` : nm).join(", ") ].filter(Boolean).join(' ') }) } throw new Error(`Invalid ${invalid}`) default: throw new Error(`Unrecognized font attribute "${token}"`) } } throw new Error('Could not find a font size value') } catch(e) { // console.warn(Object.assign(e, {name:"Warning"})) cache.font[str] = null } } return cache.font[str] } function parseSize(str, emSize=16){ if (m = numSizeRE.exec(str)){ let [size, unit] = [parseFloat(m[1]), m[2]] return size * (unit == 'px' ? 1 : unit == 'pt' ? 1 / 0.75 : unit == '%' ? emSize / 100 : unit == 'pc' ? 16 : unit == 'in' ? 96 : unit == 'cm' ? 96.0 / 2.54 : unit == 'mm' ? 96.0 / 25.4 : unit == 'q' ? 96 / 25.4 / 4 : unit.match('r?em') ? emSize : NaN ) } if (m = namedSizeRE.exec(str)){ return emSize * (sizeMap[m[0]] || 1.0) } return NaN } function parseFlexibleSize(str){ if (m = numSizeRE.exec(str)){ let [size, unit] = [parseFloat(m[1]), m[2]], px = size * (unit == 'px' ? 1 : unit == 'pt' ? 1 / 0.75 : unit == 'pc' ? 16 : unit == 'in' ? 96 : unit == 'cm' ? 96.0 / 2.54 : unit == 'mm' ? 96.0 / 25.4 : unit == 'q' ? 96 / 25.4 / 4 : NaN ) return {size, unit, px} } return null } function parseStretch(str){ return (m = stretchRE.exec(str)) ? m[0] : undefined } function parseWeight(str){ return (m = numWeightRE.exec(str)) ? parseInt(m[0]) || NaN : (m = namedWeightRE.exec(str)) ? weightMap[m[0]] : NaN } function parseVariant(str){ if (cache.variant[str]===undefined){ let variants = [], features = {on:[], off:[]}; for (let token of splitBy(str, /\s+/)){ if (token == 'normal'){ return {variants:[token], features:{on:[], off:[]}} }else if (token in featureMap){ featureMap[token].forEach(feat => { if (feat[0] == '-') features.off.push(feat.slice(1)) else features.on.push(feat) }) variants.push(token); }else if (m = parameterizedRE.exec(token)){ let subPattern = alternatesMap[m[1]], subValue = Math.max(0, Math.min(99, parseInt(m[2], 10))), [feat, val] = subPattern.replace(/##/, subValue < 10 ? '0'+subValue : subValue) .replace(/#/, Math.min(9, subValue)).split(' '); if (typeof val=='undefined') features.on.push(feat) else features[feat] = parseInt(val, 10) variants.push(`${m[1]}(${subValue})`) }else{ throw new Error(`Invalid font variant "${token}"`) } } cache.variant[str] = {variant:variants.join(' '), features:features}; } return cache.variant[str]; } function parseTextDecoration(str){ let style = 'solid', line = 'none', color = 'currentColor', inherit = 'auto', thickness, _val str = (typeof str=='string' ? str : '').trim().replace(/\s+/, ' ') for (const token of str.split(' ')){ if (token.match(/solid|double|dotted|dashed|wavy/)) style = token else if (token.match(/none|initial|revert(-layer)?|unset/)) line = "none" else if (token.match(/underline|overline|line-through/)) line = token else if (_val = parseFlexibleSize(token)) thickness = _val else if (token.match(/auto|from-font/)) inherit = token else color = token } return { style, line, color, thickness, inherit, str } } // -- Window Types ----------------------------------------------------------------------- let cursorTypes = [ "default", "none", "context-menu", "help", "pointer", "progress", "wait", "cell", "crosshair", "text", "vertical-text", "alias", "copy", "move", "no-drop", "not-allowed", "grab", "grabbing", "e-resize", "n-resize", "ne-resize", "nw-resize", "s-resize", "se-resize", "sw-resize", "w-resize", "ew-resize", "ns-resize", "nesw-resize", "nwse-resize", "col-resize", "row-resize", "all-scroll", "zoom-in", "zoom-out", ] function parseCursor(str){ return cursorTypes.includes(str) } function parseFit(mode){ return ["none", "contain-x", "contain-y", "contain", "cover", "fill", "scale-down", "resize"].includes(mode) } // -- Corner Rounding // https://github.com/fserb/canvas2D/blob/master/spec/roundrect.md function parseCornerRadii(r){ r = [r].flat() .map(n => n instanceof DOMPoint ? n : new DOMPoint(n, n)) .slice(0, 4) if (r.some(pt => !Number.isFinite(pt.x) || !Number.isFinite(pt.y))){ return null // silently abort }else if (r.some(pt => pt.x < 0 || pt.y < 0)){ throw new Error("Corner radius cannot be negative") } return r.length == 1 ? [r[0], r[0], r[0], r[0]] : r.length == 2 ? [r[0], r[1], r[0], r[1]] : r.length == 3 ? [r[0], r[1], r[2], r[1]] : r.length == 4 ? [r[0], r[1], r[2], r[3]] : [0, 0, 0, 0].map(n => new DOMPoint(n, n)) } // -- Image Filters ----------------------------------------------------------------------- // https://developer.mozilla.org/en-US/docs/Web/CSS/filter var plainFilterRE = /(blur|hue-rotate|brightness|contrast|grayscale|invert|opacity|saturate|sepia)\((.*?)\)/, shadowFilterRE = /drop-shadow\((.*)\)/, percentValueRE = /^(\+|-)?\d+%$/, angleValueRE = /([\d\.]+)(deg|g?rad|turn)/; function parseFilter(str){ let filters = {} let canonical = [] for (var spec of splitBy(str, /\s+/) || []){ if (m = shadowFilterRE.exec(spec)){ let kind = 'drop-shadow', args = m[1].trim().split(/\s+/), lengths = args.slice(0,3), color = args.slice(3).join(' '), dims = lengths.map(s => parseSize(s)).filter(isFinite); if (dims.length==3 && !!color){ filters[kind] = [...dims, color] canonical.push(`${kind}(${lengths.join(' ')} ${color.replace(/ /g,'')})`) } }else if (m = plainFilterRE.exec(spec)){ let [kind, arg] = m.slice(1) let val = kind=='blur' ? parseSize(arg) : kind=='hue-rotate' ? parseAngle(arg) : parsePercentage(arg); if (isFinite(val)){ filters[kind] = val canonical.push(`${kind}(${arg.trim()})`) } } } return str.trim() == 'none' ? {canonical:'none', filters} : canonical.length ? {canonical:canonical.join(' '), filters} : null } function parsePercentage(str){ return percentValueRE.test(str.trim()) ? parseInt(str, 10) / 100 : !isNaN(str) ? parseFloat(str) : NaN } function parseAngle(str){ if (m = angleValueRE.exec(str.trim())){ let [amt, unit] = [parseFloat(m[1]), m[2]] return unit== 'deg' ? amt : unit== 'rad' ? 360 * amt / (2 * Math.PI) : unit=='grad' ? 360 * amt / 400 : unit=='turn' ? 360 * amt : NaN } } // // Font attribute keywords & corresponding values // const weightMap = { "lighter":300, "normal":400, "bold":700, "bolder":800 } const sizeMap = { "xx-small":3/5, "x-small":3/4, "small":8/9, "smaller":8/9, "large":6/5, "larger":6/5, "x-large":3/2, "xx-large":2/1, "normal": 1.2 // special case for lineHeight } const featureMap = { "normal": [], // font-variant-ligatures "common-ligatures": ["liga", "clig"], "no-common-ligatures": ["-liga", "-clig"], "discretionary-ligatures": ["dlig"], "no-discretionary-ligatures": ["-dlig"], "historical-ligatures": ["hlig"], "no-historical-ligatures": ["-hlig"], "contextual": ["calt"], "no-contextual": ["-calt"], // font-variant-position "super": ["sups"], "sub": ["subs"], // font-variant-caps "small-caps": ["smcp"], "all-small-caps": ["c2sc", "smcp"], "petite-caps": ["pcap"], "all-petite-caps": ["c2pc", "pcap"], "unicase": ["unic"], "titling-caps": ["titl"], // font-variant-numeric "lining-nums": ["lnum"], "oldstyle-nums": ["onum"], "proportional-nums": ["pnum"], "tabular-nums": ["tnum"], "diagonal-fractions": ["frac"], "stacked-fractions": ["afrc"], "ordinal": ["ordn"], "slashed-zero": ["zero"], // font-variant-east-asian "jis78": ["jp78"], "jis83": ["jp83"], "jis90": ["jp90"], "jis04": ["jp04"], "simplified": ["smpl"], "traditional": ["trad"], "full-width": ["fwid"], "proportional-width": ["pwid"], "ruby": ["ruby"], // font-variant-alternates (non-parameterized) "historical-forms": ["hist"], } const alternatesMap = { "stylistic": "salt #", "styleset": "ss##", "character-variant": "cv##", "swash": "swsh #", "ornaments": "ornm #", "annotation": "nalt #", } module.exports = { // used by context font:parseFont, variant:parseVariant, size:parseSize, spacing:parseFlexibleSize, stretch:parseStretch, decoration:parseTextDecoration, filter:parseFilter, // path & context radii:parseCornerRadii, // gui cursor:parseCursor, fit:parseFit, } /***/ }), /***/ 6634: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // // Polyfill for DOMMatrix and friends // const {inspect} = __nccwpck_require__(9023) /* * vendored in order to fix its dependence on the window global [@samizdatco 2020/08/04] * removed SVGMatrix references that were guaranteed to be undefined on node [@mpaperno 2024/10/20] * added support for parsing existing matrices (and matrix-like) objects in constructor [@mpaperno 2024/10/20] * added `parseTransform*` helpers to enable CSS-style strings as constructor args [@samizdatco 2024/10/29] * otherwise unchanged from https://github.com/jarek-foksa/geometry-polyfill/tree/f36bbc8f4bc43539d980687904ce46c8e915543d */ // @info // DOMPoint polyfill // @src // https://drafts.fxtf.org/geometry/#DOMPoint // https://github.com/chromium/chromium/blob/master/third_party/blink/renderer/core/geometry/dom_point_read_only.cc class DOMPoint { constructor(x = 0, y = 0, z = 0, w = 1) { this.x = x; this.y = y; this.z = z; this.w = w; } static fromPoint(otherPoint) { return new DOMPoint( otherPoint.x, otherPoint.y, otherPoint.z !== undefined ? otherPoint.z : 0, otherPoint.w !== undefined ? otherPoint.w : 1 ); } matrixTransform(matrix) { if ( matrix.is2D && this.z === 0 && this.w === 1 ) { return new DOMPoint( this.x * matrix.a + this.y * matrix.c + matrix.e, this.x * matrix.b + this.y * matrix.d + matrix.f, 0, 1 ); } else { return new DOMPoint( this.x * matrix.m11 + this.y * matrix.m21 + this.z * matrix.m31 + this.w * matrix.m41, this.x * matrix.m12 + this.y * matrix.m22 + this.z * matrix.m32 + this.w * matrix.m42, this.x * matrix.m13 + this.y * matrix.m23 + this.z * matrix.m33 + this.w * matrix.m43, this.x * matrix.m14 + this.y * matrix.m24 + this.z * matrix.m34 + this.w * matrix.m44 ); } } toJSON() { return { x: this.x, y: this.y, z: this.z, w: this.w }; } } // @info // DOMRect polyfill // @src // https://drafts.fxtf.org/geometry/#DOMRect // https://github.com/chromium/chromium/blob/master/third_party/blink/renderer/core/geometry/dom_rect_read_only.cc class DOMRect { constructor(x = 0, y = 0, width = 0, height = 0) { this.x = x; this.y = y; this.width = width; this.height = height; } static fromRect(otherRect) { return new DOMRect(otherRect.x, otherRect.y, otherRect.width, otherRect.height); } get top() { return this.y; } get left() { return this.x; } get right() { return this.x + this.width; } get bottom() { return this.y + this.height; } toJSON() { return { x: this.x, y: this.y, width: this.width, height: this.height, top: this.top, left: this.left, right: this.right, bottom: this.bottom }; } } for (let propertyName of ["top", "right", "bottom", "left"]) { let propertyDescriptor = Object.getOwnPropertyDescriptor(DOMRect.prototype, propertyName); propertyDescriptor.enumerable = true; Object.defineProperty(DOMRect.prototype, propertyName, propertyDescriptor); } // @info // DOMMatrix polyfill (SVG 2) // @src // https://github.com/chromium/chromium/blob/master/third_party/blink/renderer/core/geometry/dom_matrix_read_only.cc // https://github.com/tocharomera/generativecanvas/blob/master/node-canvas/lib/DOMMatrix.js const M11 = 0, M12 = 1, M13 = 2, M14 = 3; const M21 = 4, M22 = 5, M23 = 6, M24 = 7; const M31 = 8, M32 = 9, M33 = 10, M34 = 11; const M41 = 12, M42 = 13, M43 = 14, M44 = 15; const A = M11, B = M12; const C = M21, D = M22; const E = M41, F = M42; const DEGREE_PER_RAD = 180 / Math.PI; const RAD_PER_DEGREE = Math.PI / 180; const $values = Symbol(); const $is2D = Symbol(); // Parsers for CSS-style string initializers const parseTransformName = name => ( name.match(/^(matrix(3d)?|(rotate|translate|scale)(3d|X|Y|Z)?|skew(X|Y)?)$/) ) const parseAngle = value => { if (value.endsWith('deg')) return parseFloat(value) if (value.endsWith('rad')) return parseFloat(value)/Math.PI * 180 if (value.endsWith('turn')) return parseFloat(value) * 360 throw new TypeError(`Angles must be in 'deg', 'rad', or 'turn' units (got: "${value}")`) } const parseLength = value => { if (value.endsWith('px')) return parseFloat(value) if (!isNaN(value) && !isNaN(parseFloat(value))) return parseFloat(value) throw new TypeError(`Lengths must be in 'px' or numeric units (got: "${value}")`) } const parseScalar = value => { if (value.endsWith('%')) return parseFloat(value) / 100 if (!isNaN(value) && !isNaN(parseFloat(value))) return parseFloat(value) throw new TypeError(`Scales must be in '%' or numeric units (got: "${value}")`) } const parseNumeric = value => { if (!isNaN(value) && !isNaN(parseFloat(value))) return parseFloat(value) throw new TypeError(`Matrix values must be in plain, numeric units (got: "${value}")`) } const parseTransformString = (transformString) => { return transformString .split(/\)\s*?/) .filter(s => !!s.trim()) .map(transform => { let [name, transformValue] = transform.split('(').map(s => s.trim()) // catch single-word initializers if (!transformValue){ if (name.match(/^(inherit|initial|revert(-layer)?|unset|none)$/)) return {op:'matrix', vals:[1,0,0,1,0,0] } throw new SyntaxError("The string did not match the expected pattern") } // otherwise check that the last term was well formed before splitting based on `)` if (!transformString.trim().endsWith(')')){ throw new SyntaxError("Expected a closing ')'") } // validate & normalize op names if (!parseTransformName(name)){ throw new SyntaxError(`Unknown transform operation: ${name}`) }else if (name=='rotate3d'){ name = 'rotateAxisAngle' } // validate the individual values & units const rawVals = transformValue.split(',').map(s => s.trim()) const values = name.startsWith('rotate') ? [ ...rawVals.slice(0,-1).map(parseLength), parseAngle(rawVals.at(-1)) ] : name.startsWith('skew') ? rawVals.map(parseAngle) : name.startsWith('scale') ? rawVals.map(parseScalar) : name.startsWith('matrix') ? rawVals.map(parseNumeric) : rawVals.map(parseLength) // special case validation for the matrix/3d ops for (const [form, len] of [['matrix', 6], ['matrix3d', 16]]){ if (name==form && values.length!=len){ throw new TypeError(`${name}() requires 6 numeric values (got ${values.length})`) } } // catch single-dimension ops and route them to the corresponding 3D matrix method const parts = name.match(/^(rotate|translate|scale)(3d|X|Y|Z)$/) if (parts){ const [_, op, dim] = parts const fill = op=='scale' ? 1 : 0 return {op, vals: dim=='X'? [values[0], fill, fill] : dim=='Y'? [fill, values[0], fill] : dim=='Z'? [fill, fill, values[0]] : values} }else{ return {op:name, vals:values} } }).flat() } let setNumber2D = (receiver, index, value) => { if (typeof value !== "number") { throw new TypeError("Expected number"); } receiver[$values][index] = value; }; let setNumber3D = (receiver, index, value) => { if (typeof value !== "number") { throw new TypeError("Expected number"); } if (index === M33 || index === M44) { if (value !== 1) { receiver[$is2D] = false; } } else if (value !== 0) { receiver[$is2D] = false; } receiver[$values][index] = value; }; let newInstance = (values) => { let instance = Object.create(DOMMatrix.prototype); instance.constructor = DOMMatrix; instance[$is2D] = true; instance[$values] = values; return instance; }; let multiply = (first, second) => { let dest = new Float64Array(16); for (let i = 0; i < 4; i++) { for (let j = 0; j < 4; j++) { let sum = 0; for (let k = 0; k < 4; k++) { sum += first[i * 4 + k] * second[k * 4 + j]; } dest[i * 4 + j] = sum; } } return dest; }; class DOMMatrix { get m11() { return this[$values][M11]; } set m11(value) { setNumber2D(this, M11, value); } get m12() { return this[$values][M12]; } set m12(value) { setNumber2D(this, M12, value); } get m13() { return this[$values][M13]; } set m13(value) { setNumber3D(this, M13, value); } get m14() { return this[$values][M14]; } set m14(value) { setNumber3D(this, M14, value); } get m21() { return this[$values][M21]; } set m21(value) { setNumber2D(this, M21, value); } get m22() { return this[$values][M22]; } set m22(value) { setNumber2D(this, M22, value); } get m23() { return this[$values][M23]; } set m23(value) { setNumber3D(this, M23, value); } get m24() { return this[$values][M24]; } set m24(value) { setNumber3D(this, M24, value); } get m31() { return this[$values][M31]; } set m31(value) { setNumber3D(this, M31, value); } get m32() { return this[$values][M32]; } set m32(value) { setNumber3D(this, M32, value); } get m33() { return this[$values][M33]; } set m33(value) { setNumber3D(this, M33, value); } get m34() { return this[$values][M34]; } set m34(value) { setNumber3D(this, M34, value); } get m41() { return this[$values][M41]; } set m41(value) { setNumber2D(this, M41, value); } get m42() { return this[$values][M42]; } set m42(value) { setNumber2D(this, M42, value); } get m43() { return this[$values][M43]; } set m43(value) { setNumber3D(this, M43, value); } get m44() { return this[$values][M44]; } set m44(value) { setNumber3D(this, M44, value); } get a() { return this[$values][A]; } set a(value) { setNumber2D(this, A, value); } get b() { return this[$values][B]; } set b(value) { setNumber2D(this, B, value); } get c() { return this[$values][C]; } set c(value) { setNumber2D(this, C, value); } get d() { return this[$values][D]; } set d(value) { setNumber2D(this, D, value); } get e() { return this[$values][E]; } set e(value) { setNumber2D(this, E, value); } get f() { return this[$values][F]; } set f(value) { setNumber2D(this, F, value); } get is2D() { return this[$is2D]; } get isIdentity() { let values = this[$values]; return values[M11] === 1 && values[M12] === 0 && values[M13] === 0 && values[M14] === 0 && values[M21] === 0 && values[M22] === 1 && values[M23] === 0 && values[M24] === 0 && values[M31] === 0 && values[M32] === 0 && values[M33] === 1 && values[M34] === 0 && values[M41] === 0 && values[M42] === 0 && values[M43] === 0 && values[M44] === 1; } static fromMatrix(init) { if (init instanceof DOMMatrix) return new DOMMatrix(init[$values]); if (DOMMatrix.isMatrix4(init)) return new DOMMatrix([ init.m11, init.m12, init.m13, init.m14, init.m21, init.m22, init.m23, init.m24, init.m31, init.m32, init.m33, init.m34, init.m41, init.m42, init.m43, init.m44, ]); if (DOMMatrix.isMatrix3(init)) return new DOMMatrix([init.a, init.b, init.c, init.d, init.e, init.f]); throw new TypeError(`Expected DOMMatrix, got: '${init}'`); } static fromFloat32Array(init) { if (!(init instanceof Float32Array)) throw new TypeError("Expected Float32Array"); return new DOMMatrix(init); } static fromFloat64Array(init) { if (!(init instanceof Float64Array)) throw new TypeError("Expected Float64Array"); return new DOMMatrix(init); } static isMatrix3(matrix) { if (matrix instanceof DOMMatrix) return true; if (typeof matrix != 'object') return false; for (const p of ["a", "b", "c", "d", "e", "f"]) if (typeof matrix[p] != 'number') return false; return true; } static isMatrix4(matrix) { if (matrix instanceof DOMMatrix) return true; if (typeof matrix != 'object') return false; for (const p of [ "m11", "m12", "m13", "m14", "m21", "m22", "m23", "m24", "m31", "m32", "m33", "m34", "m41", "m42", "m43", "m44", ]) { if (typeof matrix[p] != 'number') return false; } return true; } // @type // (Float64Array) => void constructor(init) { if (typeof init === "object" && !Array.isArray(init) && !ArrayBuffer.isView(init)) return DOMMatrix.fromMatrix(init); if (arguments.length > 1) init = [...arguments]; this[$is2D] = true; this[$values] = new Float64Array([ 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1 ]); // Parse CSS transformList and accumulate transforms sequentially if (typeof init === "string") { if (init === "") return; let acc = new DOMMatrix() for (const {op, vals} of parseTransformString(init)) { acc = op.startsWith('matrix') ? acc.multiply(new DOMMatrix(vals)) : acc[op] ? acc[op](...vals) : acc } init = acc[$values] } let i = 0; if (init && init.length === 6) { setNumber2D(this, A, init[i++]); setNumber2D(this, B, init[i++]); setNumber2D(this, C, init[i++]); setNumber2D(this, D, init[i++]); setNumber2D(this, E, init[i++]); setNumber2D(this, F, init[i++]); } else if (init && init.length === 16) { setNumber2D(this, M11, init[i++]); setNumber2D(this, M12, init[i++]); setNumber3D(this, M13, init[i++]); setNumber3D(this, M14, init[i++]); setNumber2D(this, M21, init[i++]); setNumber2D(this, M22, init[i++]); setNumber3D(this, M23, init[i++]); setNumber3D(this, M24, init[i++]); setNumber3D(this, M31, init[i++]); setNumber3D(this, M32, init[i++]); setNumber3D(this, M33, init[i++]); setNumber3D(this, M34, init[i++]); setNumber2D(this, M41, init[i++]); setNumber2D(this, M42, init[i++]); setNumber3D(this, M43, init[i++]); setNumber3D(this, M44, init[i]); } else if (init !== undefined) { throw new TypeError("Expected string or array."); } } dump(){ let mat = this[$values] console.log([ mat.slice(0,4), mat.slice(4,8), mat.slice(8,12), mat.slice(12,16) ]) } [inspect.custom](depth, options) { if (depth < 0) return "[DOMMatrix]" let {a, b, c, d, e, f, is2D, isIdentity} = this if (this.is2D){ return `DOMMatrix ${inspect({a, b, c, d, e, f, is2D, isIdentity}, {colors:true})}` }else{ let {m11, m12, m13, m14, m21, m22, m23, m24, m31, m32, m33, m34, m41, m42, m43, m44, is2D, isIdentity} = this return `DOMMatrix ${inspect({a, b, c, d, e, f, m11, m12, m13, m14, m21, m22, m23, m24, m31, m32, m33, m34, m41, m42, m43, m44, is2D, isIdentity}, {colors:true})}` } } multiply(other) { return newInstance(this[$values]).multiplySelf(other); } multiplySelf(other) { this[$values] = multiply(other[$values], this[$values]); if (!other.is2D) { this[$is2D] = false; } return this; } preMultiplySelf(other) { this[$values] = multiply(this[$values], other[$values]); if (!other.is2D) { this[$is2D] = false; } return this; } translate(tx, ty, tz) { return newInstance(this[$values]).translateSelf(tx, ty, tz); } translateSelf(tx = 0, ty = 0, tz = 0) { this[$values] = multiply([ 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, tx, ty, tz, 1 ], this[$values]); if (tz !== 0) { this[$is2D] = false; } return this; } scale(scaleX, scaleY, scaleZ, originX, originY, originZ) { return newInstance(this[$values]).scaleSelf(scaleX, scaleY, scaleZ, originX, originY, originZ); } scale3d(scale, originX, originY, originZ) { return newInstance(this[$values]).scale3dSelf(scale, originX, originY, originZ); } scale3dSelf(scale, originX, originY, originZ) { return this.scaleSelf(scale, scale, scale, originX, originY, originZ); } scaleSelf(scaleX, scaleY, scaleZ, originX, originY, originZ) { // Not redundant with translate's checks because we need to negate the values later. if (typeof originX !== "number") originX = 0; if (typeof originY !== "number") originY = 0; if (typeof originZ !== "number") originZ = 0; this.translateSelf(originX, originY, originZ); if (typeof scaleX !== "number") scaleX = 1; if (typeof scaleY !== "number") scaleY = scaleX; if (typeof scaleZ !== "number") scaleZ = 1; this[$values] = multiply([ scaleX, 0, 0, 0, 0, scaleY, 0, 0, 0, 0, scaleZ, 0, 0, 0, 0, 1 ], this[$values]); this.translateSelf(-originX, -originY, -originZ); if (scaleZ !== 1 || originZ !== 0) { this[$is2D] = false; } return this; } rotateFromVector(x, y) { return newInstance(this[$values]).rotateFromVectorSelf(x, y); } rotateFromVectorSelf(x = 0, y = 0) { let theta = (x === 0 && y === 0) ? 0 : Math.atan2(y, x) * DEGREE_PER_RAD; return this.rotateSelf(theta); } rotate(rotX, rotY, rotZ) { return newInstance(this[$values]).rotateSelf(rotX, rotY, rotZ); } rotateSelf(rotX, rotY, rotZ) { if (rotY === undefined && rotZ === undefined) { rotZ = rotX; rotX = rotY = 0; } if (typeof rotY !== "number") rotY = 0; if (typeof rotZ !== "number") rotZ = 0; if (rotX !== 0 || rotY !== 0) { this[$is2D] = false; } rotX *= RAD_PER_DEGREE; rotY *= RAD_PER_DEGREE; rotZ *= RAD_PER_DEGREE; let c = Math.cos(rotZ); let s = Math.sin(rotZ); this[$values] = multiply([ c, s, 0, 0, -s, c, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1 ], this[$values]); c = Math.cos(rotY); s = Math.sin(rotY); this[$values] = multiply([ c, 0, -s, 0, 0, 1, 0, 0, s, 0, c, 0, 0, 0, 0, 1 ], this[$values]); c = Math.cos(rotX); s = Math.sin(rotX); this[$values] = multiply([ 1, 0, 0, 0, 0, c, s, 0, 0, -s, c, 0, 0, 0, 0, 1 ], this[$values]); return this; } rotateAxisAngle(x, y, z, angle) { return newInstance(this[$values]).rotateAxisAngleSelf(x, y, z, angle); } rotateAxisAngleSelf(x = 0, y = 0, z = 0, angle = 0) { let length = Math.sqrt(x * x + y * y + z * z); if (length === 0) { return this; } if (length !== 1) { x /= length; y /= length; z /= length; } angle *= RAD_PER_DEGREE; let c = Math.cos(angle); let s = Math.sin(angle); let t = 1 - c; let tx = t * x; let ty = t * y; this[$values] = multiply([ tx * x + c, tx * y + s * z, tx * z - s * y, 0, tx * y - s * z, ty * y + c, ty * z + s * x, 0, tx * z + s * y, ty * z - s * x, t * z * z + c, 0, 0, 0, 0, 1 ], this[$values]); if (x !== 0 || y !== 0) { this[$is2D] = false; } return this; } skew(sx, sy){ return newInstance(this[$values]).skewSelf(sx, sy); } skewSelf(sx, sy){ if (typeof sx !== "number" && typeof sy !== "number") { return this; } let x = isNaN(sx) ? 0 : Math.tan(sx * RAD_PER_DEGREE); let y = isNaN(sy) ? 0 : Math.tan(sy * RAD_PER_DEGREE); this[$values] = multiply([ 1, y, 0, 0, x, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1 ], this[$values]); return this; } skewX(sx) { return newInstance(this[$values]).skewXSelf(sx); } skewXSelf(sx) { if (typeof sx !== "number") { return this; } let t = Math.tan(sx * RAD_PER_DEGREE); this[$values] = multiply([ 1, 0, 0, 0, t, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1 ], this[$values]); return this; } skewY(sy) { return newInstance(this[$values]).skewYSelf(sy); } skewYSelf(sy) { if (typeof sy !== "number") { return this; } let t = Math.tan(sy * RAD_PER_DEGREE); this[$values] = multiply([ 1, t, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1 ], this[$values]); return this; } flipX() { return newInstance(multiply([ -1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1 ], this[$values])); } flipY() { return newInstance(multiply([ 1, 0, 0, 0, 0, -1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1 ], this[$values])); } inverse () { return newInstance(this[$values]).invertSelf(); } invertSelf() { if (this[$is2D]) { let det = this[$values][A] * this[$values][D] - this[$values][B] * this[$values][C]; // Invertable if (det !== 0) { let result = new DOMMatrix(); result.a = this[$values][D] / det; result.b = -this[$values][B] / det; result.c = -this[$values][C] / det; result.d = this[$values][A] / det; result.e = (this[$values][C] * this[$values][F] - this[$values][D] * this[$values][E]) / det; result.f = (this[$values][B] * this[$values][E] - this[$values][A] * this[$values][F]) / det; return result; } // Not invertable else { this[$is2D] = false; this[$values] = [ NaN, NaN, NaN, NaN, NaN, NaN, NaN, NaN, NaN, NaN, NaN, NaN, NaN, NaN, NaN, NaN ]; } } else { throw new Error("3D matrix inversion is not implemented."); } } setMatrixValue(transformList) { let temp = new DOMMatrix(transformList); this[$values] = temp[$values]; this[$is2D] = temp[$is2D]; return this; } transformPoint(point) { let x = point.x; let y = point.y; let z = point.z; let w = point.w; let values = this[$values]; let nx = values[M11] * x + values[M21] * y + values[M31] * z + values[M41] * w; let ny = values[M12] * x + values[M22] * y + values[M32] * z + values[M42] * w; let nz = values[M13] * x + values[M23] * y + values[M33] * z + values[M43] * w; let nw = values[M14] * x + values[M24] * y + values[M34] * z + values[M44] * w; return new DOMPoint(nx, ny, nz, nw); } toFloat32Array() { return Float32Array.from(this[$values]); } toFloat64Array() { return this[$values].slice(0); } toJSON() { return { a: this.a, b: this.b, c: this.c, d: this.d, e: this.e, f: this.f, m11: this.m11, m12: this.m12, m13: this.m13, m14: this.m14, m21: this.m21, m22: this.m22, m23: this.m23, m24: this.m24, m31: this.m31, m32: this.m32, m33: this.m33, m34: this.m34, m41: this.m41, m42: this.m42, m43: this.m43, m44: this.m44, is2D: this.is2D, isIdentity: this.isIdentity }; } toString() { let name = this.is2D ? 'matrix' : 'matrix3d' let values = this.is2D ? [this.a, this.b, this.c, this.d, this.e, this.f] : this[$values] let simplify = n => n.toFixed(12).replace(/\.([^0])?0*$/, ".$1").replace(/\.$/, '').replace(/^-0$/, '0') return `${name}(${values.map(simplify).join(', ')})` } clone(){ return new DOMMatrix(this) } } for (let propertyName of [ "a", "b", "c", "d", "e", "f", "m11", "m12", "m13", "m14", "m21", "m22", "m23", "m24", "m31", "m32", "m33", "m34", "m41", "m42", "m43", "m44", "is2D", "isIdentity" ]) { let propertyDescriptor = Object.getOwnPropertyDescriptor(DOMMatrix.prototype, propertyName); propertyDescriptor.enumerable = true; Object.defineProperty(DOMMatrix.prototype, propertyName, propertyDescriptor); } // // Helpers to reconcile Skia and DOMMatrix’s disagreement about row/col orientation // function toSkMatrix() { try { const m = new DOMMatrix(...arguments); return [m.a, m.c, m.e, m.b, m.d, m.f, m.m14, m.m24, m.m44]; }catch(e){ throw new TypeError(`Invalid transform matrix argument(s): `+e); } } function fromSkMatrix(skMatrix){ let [a, b, c, d, e, f, p0, p1, p2] = skMatrix return new DOMMatrix([ a, d, 0, p0, b, e, 0, p1, 0, 0, 1, 0, c, f, 0, p2 ]) } module.exports = {DOMPoint, DOMMatrix, DOMRect, toSkMatrix, fromSkMatrix} /***/ }), /***/ 4439: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // // Windows & event handling // const {EventEmitter} = __nccwpck_require__(4434), {RustClass, core, inspect, neon, REPR} = __nccwpck_require__(1526), {Canvas} = __nccwpck_require__(1658), css = __nccwpck_require__(327) const checkSupport = () => { if (!neon.App) throw new Error("Skia Canvas was compiled without window support") } class App extends RustClass{ static #locale = process.env.LC_ALL || process.env.LC_MESSAGES || process.env.LANG || process.env.LANGUAGE #running #fps constructor(){ super(App) this.#running = false this.#fps = 60 } get windows(){ return [...GUI.windows] } get running(){ return this.#running } get fps(){ return this.#fps } set fps(rate){ checkSupport() if (rate >= 1 && rate != this.#fps){ this.#fps = this.ƒ('setRate', rate) } } launch(){ checkSupport() if (this.#running) return console.error('Application is already running') this.#running = true clearTimeout(GUI.launcher) // begin event loop (and never return) this.ƒ("launch", args => { let {ui, state, geom} = JSON.parse(args) // in the initial roundtrip only, merge the autogenerated window locations with the specs for (const [id, {top, left}] of Object.entries(geom || {})){ GUI.getWindow(id, win => { win.left = win.left || left win.top = win.top || top }) } // update local state based on ui modifications (and evict GUI.windows that have been closed) if (state) GUI.windows = GUI.windows.filter(win => { return win.state.id in (state || {}) && Object.assign(win, state[win.state.id]) }) // deliver ui events to corresponding windows for (const [id, events] of Object.entries(ui || {})){ GUI.getWindow(id, (win, frame) => { let modifiers = {} for (const [[type, e]] of events.map(o => Object.entries(o))){ switch(type){ case 'modifiers': var {control_key:ctrlKey, alt_key:altKey, super_key:metaKey, shift_key:shiftKey} = e modifiers = {ctrlKey, altKey, metaKey, shiftKey} break case 'mouse': var {button, x, y, pageX, pageY} = e e.events.forEach(type => win.emit(type, {x, y, pageX, pageY, button, ...modifiers})) break case 'input': win.emit(type, {data:e, inputType:'insertText'}) break case 'composition': win.emit(e.event, {data:e.data, locale:App.#locale}) break case 'keyboard': var {event, key, code, location, repeat} = e, defaults = true; win.emit(event, {key, code, location, repeat, ...modifiers, preventDefault:() => defaults = false }) // apply default keybindings unless e.preventDefault() was run if (defaults && event=='keydown' && !repeat){ let {ctrlKey, altKey, metaKey} = modifiers if ( (metaKey && key=='w') || (ctrlKey && key=='c') || (altKey && key=='F4') ){ win.close() }else if ( (metaKey && key=='f') || (altKey && key=='F8') ){ win.fullscreen = !win.fullscreen } } break case 'focus': if (e) win.emit('focus') else win.emit('blur') break case 'resize': if (win.fit == 'resize'){ win.ctx.prop('size', e.width, e.height) win.canvas.prop('width', e.width) win.canvas.prop('height', e.height) } win.emit(type, e) break case 'move': case 'wheel': win.emit(type, e) break case 'fullscreen': win.emit(type, {enabled: e}) break default: console.log(type, e); } } }) } // provide frame updates to prompt redraws GUI.nextFrame((win, frame) => { if (frame==0) win.emit("setup") win.emit("frame", {frame}) if (win.listenerCount('draw')){ win.canvas.width = win.canvas.width win.emit("draw", {frame}) } }) // refresh lazily if not doing a flipbook animation this.ƒ('setRate', GUI.needsFrameUpdates() ? this.#fps : 0) // update the display return [ JSON.stringify( GUI.windows.map(win => win.state) ), GUI.windows.map(win => core(win.canvas.pages[win.page-1]) ) ] }) GUI.windows = [] // if the launch call exited, the last window was closed } quit(){ this.ƒ("quit") } } class Window extends EventEmitter{ static #kwargs = "left,top,width,height,title,page,background,fullscreen,cursor,fit,visible,resizable".split(/,/) #canvas #state // accept either ƒ(width, height, {…}) or ƒ({…}) constructor(width=512, height=512, opts={}){ checkSupport() if (!Number.isFinite(width) || !Number.isFinite(height)){ opts = [...arguments].slice(-1)[0] || {} width = opts.width || (opts.canvas || {}).width || 512 height = opts.height || (opts.canvas || {}).height || 512 } let canvas = (opts.canvas instanceof Canvas) ? opts.canvas : new Canvas(width, height) super(Window) this.#state = { title: "", visible: true, resizable: true, background: "white", fullscreen: false, page: canvas.pages.length, left: undefined, top: undefined, width, height, cursor: "default", cursorHidden: false, fit: "contain", id: Math.random().toString(16) } Object.assign(this, {canvas}, Object.fromEntries( Object.entries(opts).filter(([k, v]) => Window.#kwargs.includes(k) && v!==undefined) )) GUI.openWindow(this) } get state(){ return this.#state } get ctx(){ return this.#canvas.pages[this.page-1] } get canvas(){ return this.#canvas } set canvas(canvas){ if (canvas instanceof Canvas){ canvas.getContext("2d") // ensure it has at least one page this.#canvas = canvas this.#state.page = canvas.pages.length } } get visible(){ return this.#state.visible } set visible(flag){ this.#state.visible = !!flag } get resizable(){ return this.#state.resizable } set resizable(flag){ this.#state.resizable = !!flag } get fullscreen(){ return this.#state.fullscreen } set fullscreen(flag){ this.#state.fullscreen = !!flag } get title(){ return this.#state.title } set title(txt){ this.#state.title = (txt != null ? txt : '').toString() } get cursor(){ return this.#state.cursorHidden ? 'none' : this.#state.cursor } set cursor(icon){ if (css.cursor(icon)){ this.#state.cursorHidden = icon == 'none' if (icon != 'none') this.#state.cursor = icon } } get fit(){ return this.#state.fit } set fit(mode){ if (css.fit(mode)) this.#state.fit = mode } get left(){ return this.#state.left } set left(val){ if (Number.isFinite(val)) this.#state.left = val } get top(){ return this.#state.top } set top(val){ if (Number.isFinite(val)) this.#state.top = val } get width(){ return this.#state.width } set width(val){ if (Number.isFinite(val)) this.#state.width = val } get height(){ return this.#state.height } set height(val){ if (Number.isFinite(val)) this.#state.height = val } get page(){ return this.#state.page } set page(val){ if (val < 0) val += this.#canvas.pages.length + 1 let page = this.#canvas.pages[val-1] if (page && this.#state.page != val){ let [width, height] = page.prop('size') this.#canvas.prop('width', width) this.#canvas.prop('height', height) this.#state.page = val } } get background(){ return this.#state.background } set background(c){ this.#state.background = (c != null ? c : '').toString() } emit(type, e){ // report errors in event-handlers but don't crash try{ super.emit(type, Object.assign({target:this, type}, e)) } catch(err){ console.error(err) } } close(){ GUI.closeWindow(this) } [REPR](depth, options) { let info = Object.fromEntries(Window.#kwargs.map(k => [k, this.#state[k]])) return `Window ${inspect(info, options)}` } } const GUI = { App: new App(), windows: [], frames: new WeakMap(), launcher: null, nextFrame(callback){ GUI.windows.forEach(win => { let frame = GUI.frames.get(win) || 0 GUI.frames.set(win, frame + 1) callback(win, frame) }) }, needsFrameUpdates(){ let names = GUI.windows.map(win => win.eventNames()).flat() return (names.includes('frame') || names.includes('draw')) }, getWindow(id, callback){ GUI.windows.filter(w => w.state.id==id).forEach(win => callback(win)) }, openWindow(win){ GUI.windows.push(win) if (!GUI.launcher) GUI.launcher = setTimeout( () => GUI.App.launch() ) neon.App.openWindow(JSON.stringify(win.state), core(win.canvas.pages[win.state.page-1])) }, closeWindow(win){ GUI.windows = GUI.windows.filter(w => w !== win) neon.App.closeWindow(win.state.id) } } module.exports = {App:GUI.App, Window} /***/ }), /***/ 3672: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // // Image & ImageData // const {RustClass, core, readOnly, inspect, neon, REPR} = __nccwpck_require__(1526), {EventEmitter} = __nccwpck_require__(4434), {readFile} = __nccwpck_require__(1943), get = __nccwpck_require__(6215) const loadImage = src => Object.assign(new Image(), {src}).decode() const loadImageData = (src, ...args) => new Promise((res,rej) => Image.fetchData(src, ({data}) => res(new ImageData(data, ...args)), err => rej(err)) ) class Image extends RustClass { #fetch #err constructor() { super(Image).alloc() } get complete(){ return this.prop('complete') } get height(){ return this.prop('height') } get width(){ return this.prop('width') } #onload get onload(){ return this.#onload } set onload(cb){ if (this.#onload) this.off('load', this.#onload) this.#onload = typeof cb=='function' ? cb : null if (this.#onload) this.on('load', this.#onload) } #onerror get onerror(){ return this.#onerror } set onerror(cb){ if (this.#onerror) this.off('error', this.#onerror) this.#onerror = typeof cb=='function' ? cb : null if (this.#onerror) this.on('error', this.#onerror) } get src(){ return this.prop('src') } set src(src){ const request = this.#fetch = {}, // use an empty object as a unique token loaded = ({data, src}) => { if (request === this.#fetch){ // confirm this is the most recent request with === this.#fetch = undefined this.prop("src", src) this.#err = this.prop("data", data) ? null : new Error("Could not decode image data") if (this.#err) this.emit('error', this.#err) else this.emit('load', this) } }, failed = (err) => { this.#fetch = undefined this.#err = err this.prop("data", Buffer.alloc(0)) this.emit('error', err) } this.prop("src", typeof src=='string' ? src : '') Image.fetchData(src, loaded, failed) } static fetchData(src, ok, fail){ if (Buffer.isBuffer(src)) { // already loaded ok({data:src, src:''}) } else if (typeof src != 'string') { fail(new Error("'src' property value is neither string nor Buffer type.'")) } else if (src.startsWith('data:')) { // data URI let [header, mime, enc] = src.slice(0, 40).match(/^\s*data:(?[^;]*);(?:charset=)?(?[^,]*),/) || [] if (!mime || !enc){ throw new Error(`Invalid data URI header`) } else { let content = src.slice(header.length) if (enc.toLowerCase() != 'base64'){ content = decodeURIComponent(content) } ok({data:Buffer.from(content, enc), src:''}) } } else if (/^\s*https?:\/\//.test(src)) { // remote URL get.concat(src, (err, res, data) => { let code = (res || {}).statusCode if (err) fail(err) else if (code < 200 || code >= 300) { fail(new Error(`Failed to load image from "${src}" (error ${code})`)) } else { ok({data, src}) } }) } else { // local file path readFile(src).then(data => ok({data, src})).catch(e => fail(e)) } } decode(){ return this.#fetch ? new Promise((res, rej) => this.once('load', res).once('error', rej) ) : this.#err ? Promise.reject(this.#err) : this.complete ? Promise.resolve(this) : Promise.reject(new Error("Image source not set")) } [REPR](depth, options) { let {width, height, complete, src} = this options.maxStringLength = src.match(/^data:/) ? 128 : Infinity; return `Image ${inspect({width, height, complete, src}, options)}` } } // Mix the EventEmitter properties into Image Object.assign(Image.prototype, EventEmitter.prototype) class ImageData{ constructor(...args){ if (args[0] instanceof ImageData){ var {data, width, height, colorSpace, colorType, bytesPerPixel} = args[0] }else if (args[0] instanceof Image){ var [image, {colorSpace='srgb', colorType='rgba'}={}] = args, {width, height} = image, bytesPerPixel = pixelSize(colorType), buffer = neon.Image.pixels(core(image), {colorType}), data = new Uint8ClampedArray(buffer) }else if (args[0] instanceof Uint8ClampedArray || args[0] instanceof Buffer){ var [data, width, height, {colorSpace='srgb', colorType='rgba'}={}] = args, bytesPerPixel = pixelSize(colorType) // validates the string as side effect height = height || data.length / width / bytesPerPixel data = data instanceof Uint8ClampedArray ? data : new Uint8ClampedArray(data) if (data.length / bytesPerPixel != width * height){ throw new Error("ImageData dimensions must match buffer length") } }else{ var [width, height, {colorSpace='srgb', colorType='rgba'}={}] = args, bytesPerPixel = pixelSize(colorType) } if (!['srgb'].includes(colorSpace)){ // TODO: add display-p3 when supported… throw new Error(`Unsupported colorSpace: ${colorSpace}`) } if (!Number.isInteger(width) || !Number.isInteger(height) || width < 0 || height < 0){ throw new Error("ImageData dimensions must be positive integers") } readOnly(this, "colorSpace", colorSpace) readOnly(this, "colorType", colorType) readOnly(this, "width", width) readOnly(this, "height", height) readOnly(this, 'bytesPerPixel', bytesPerPixel) readOnly(this, "data", data || new Uint8ClampedArray(width * height * bytesPerPixel)) } [REPR](depth, options) { let {width, height, colorType, bytesPerPixel, data} = this return `ImageData ${inspect({width, height, colorType, bytesPerPixel, data}, options)}` } } function pixelSize(colorType){ const bpp = ["Alpha8", "Gray8", "R8UNorm"].includes(colorType) ? 1 : ["A16Float", "A16UNorm", "ARGB4444", "R8G8UNorm", "RGB565"].includes(colorType) ? 2 : [ "rgb", "rgba", "bgra", "BGR101010x", "BGRA1010102", "BGRA8888", "R16G16Float", "R16G16UNorm", "RGB101010x", "RGB888x", "RGBA1010102", "RGBA8888", "RGBA8888", "SRGBA8888" ].includes(colorType) ? 4 : ["R16G16B16A16UNorm", "RGBAF16", "RGBAF16Norm"].includes(colorType) ? 8 : colorType=="RGBAF32" ? 16 : 0 if (!bpp) throw new TypeError(`Unknown colorType: ${colorType}`) return bpp } module.exports = {Image, ImageData, loadImage, loadImageData, pixelSize} /***/ }), /***/ 1526: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // // Neon <-> Node interface // const {inspect} = __nccwpck_require__(9023) const ø = Symbol.for('📦'), // the attr containing the boxed struct core = (obj) => (obj||{})[ø], // dereference the boxed struct wrap = (type, struct) => { // create new instance for struct let obj = internal(Object.create(type.prototype), ø, struct) return struct && internal(obj, 'native', neon[type.name]) }, neon = Object.entries(__nccwpck_require__(1071)).reduce( (api, [name, fn]) => { let [_, struct, getset, attr] = name.match(/(.*?)_(?:([sg]et)_)?(.*)/), cls = api[struct] || (api[struct] = {}), slot = getset ? (cls[attr] || (cls[attr] = {})) : cls slot[getset || attr] = fn return api }, {}) class RustClass{ constructor(type){ internal(this, 'native', neon[type.name]) } alloc(...args){ return this.init('new', ...args) } init(fn, ...args){ return internal(this, ø, this.native[fn](null, ...args)) } ref(key, val){ return arguments.length > 1 ? this[Symbol.for(key)] = val : this[Symbol.for(key)] } prop(attr, ...vals){ let getset = arguments.length > 1 ? 'set' : 'get' return this.native[attr][getset](this[ø], ...vals) } ƒ(fn, ...args){ try{ return this.native[fn](this[ø], ...args) }catch(error){ Error.captureStackTrace(error, this.ƒ) throw error } } } // shorthands for attaching read-only attributes const readOnly = (obj, attr, value) => ( Object.defineProperty(obj, attr, {value, writable:false, enumerable:true}) ) const internal = (obj, attr, value) => ( Object.defineProperty(obj, attr, {value, writable:false, enumerable:false}) ) // convert arguments list to a string of type abbreviations function signature(args){ return args.map(v => (Array.isArray(v) ? 'a' : {string:'s', number:'n', object:'o'}[typeof v] || 'x')).join('') } module.exports = {neon, core, wrap, signature, readOnly, RustClass, inspect, REPR:inspect.custom} /***/ }), /***/ 8409: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // // Bézier paths // const {RustClass, core, wrap, inspect, REPR} = __nccwpck_require__(1526), {toSkMatrix} = __nccwpck_require__(6634), css = __nccwpck_require__(327) class Path2D extends RustClass{ static op(operation, path, other){ return wrap(Path2D, path.ƒ("op", core(other), operation)) } static interpolate(path, other, weight){ return wrap(Path2D, path.ƒ("interpolate", core(other), weight)) } static effect(effect, path, ...args){ return wrap(Path2D, path.ƒ(effect, ...args)) } constructor(source){ super(Path2D) if (source instanceof Path2D) this.init('from_path', core(source)) else if (typeof source == 'string') this.init('from_svg', source) else this.alloc() } // dimensions & contents get bounds(){ return this.ƒ('bounds') } get edges(){ return this.ƒ("edges") } get d(){ return this.prop("d") } set d(svg){ return this.prop("d", svg) } contains(x, y){ return this.ƒ("contains", x, y)} points(step=1){ return this.jitter(step, 0).edges .map(([verb, ...pts]) => pts.slice(-2)) .filter(pt => pt.length) } // concatenation addPath(path, matrix){ if (!(path instanceof Path2D)) throw new Error("Expected a Path2D object") if (matrix) matrix = toSkMatrix(matrix) this.ƒ('addPath', core(path), matrix) } // line segments moveTo(x, y){ this.ƒ("moveTo", ...arguments) } lineTo(x, y){ this.ƒ("lineTo", ...arguments) } closePath(){ this.ƒ("closePath") } arcTo(x1, y1, x2, y2, radius){ this.ƒ("arcTo", ...arguments) } bezierCurveTo(cp1x, cp1y, cp2x, cp2y, x, y){ this.ƒ("bezierCurveTo", ...arguments) } quadraticCurveTo(cpx, cpy, x, y){ this.ƒ("quadraticCurveTo", ...arguments) } conicCurveTo(cpx, cpy, x, y, weight){ this.ƒ("conicCurveTo", ...arguments) } // shape primitives ellipse(x, y, radiusX, radiusY, rotation, startAngle, endAngle, isCCW){ this.ƒ("ellipse", ...arguments) } rect(x, y, width, height){this.ƒ("rect", ...arguments) } arc(x, y, radius, startAngle, endAngle){ this.ƒ("arc", ...arguments) } roundRect(x, y, w, h, r){ let radii = css.radii(r) if (radii){ if (w < 0) radii = [radii[1], radii[0], radii[3], radii[2]] if (h < 0) radii = [radii[3], radii[2], radii[1], radii[0]] this.ƒ("roundRect", x, y, w, h, ...radii.map(({x, y}) => [x, y]).flat()) } } // tween similar paths interpolate(path, weight){ return Path2D.interpolate(this, path, weight) } // boolean operations complement(path){ return Path2D.op("complement", this, path) } difference(path){ return Path2D.op("difference", this, path) } intersect(path){ return Path2D.op("intersect", this, path) } union(path){ return Path2D.op("union", this, path) } xor(path){ return Path2D.op("xor", this, path) } // path effects jitter(len, amt, seed){ return Path2D.effect("jitter", this, ...arguments) } simplify(rule){ return Path2D.effect("simplify", this, rule) } unwind(){ return Path2D.effect("unwind", this) } round(radius){ return Path2D.effect("round", this, radius) } offset(dx, dy){ return Path2D.effect("offset", this, dx, dy) } transform(matrix){ return Path2D.effect("transform", this, toSkMatrix.apply(null, arguments)) } trim(...rng){ if (typeof rng[1] != 'number'){ if (rng[0] > 0) rng.unshift(0) else if (rng[0] < 0) rng.splice(1, 0, 1) } if (rng[0] < 0) rng[0] = Math.max(-1, rng[0]) + 1 if (rng[1] < 0) rng[1] = Math.max(-1, rng[1]) + 1 return Path2D.effect("trim", this, ...rng) } [REPR](depth, options) { let {d, bounds, edges} = this return `Path2D ${inspect({d, bounds, edges}, options)}` } } module.exports = {Path2D} /***/ }), /***/ 5243: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // // Font management & metrics // const {RustClass, readOnly, signature, inspect, REPR} = __nccwpck_require__(1526), {sync:globSync, hasMagic} = __nccwpck_require__(1363), glob = paths => [paths].flat(2).map(pth => hasMagic(pth) ? globSync(pth) : pth).flat() class FontLibrary extends RustClass { constructor(){ super(FontLibrary) } get families(){ return this.prop('families') } has(familyName){ return this.ƒ('has', familyName) } family(name){ return this.ƒ('family', name) } use(...args){ let sig = signature(args) if (sig=='o'){ let results = {} for (let [alias, paths] of Object.entries(args.shift())){ results[alias] = this.ƒ("addFamily", alias, glob(paths)) } return results }else if (sig.match(/^s?[as]$/)){ let fonts = glob(args.pop()) let alias = args.shift() return this.ƒ("addFamily", alias, fonts) }else{ throw new Error("Expected an array of file paths or an object mapping family names to font files") } } reset(){ return this.ƒ('reset') } } class TextMetrics{ constructor([ left, right, ascent, descent, fontAscent, fontDescent, hanging, alphabetic, ideographic ], lines){ readOnly(this, "width", Math.max(0, right) + Math.max(0, left)) readOnly(this, "actualBoundingBoxLeft", left) readOnly(this, "actualBoundingBoxRight", right) readOnly(this, "actualBoundingBoxAscent", ascent) readOnly(this, "actualBoundingBoxDescent", descent) readOnly(this, "fontBoundingBoxAscent", fontAscent) readOnly(this, "fontBoundingBoxDescent", fontDescent) readOnly(this, "emHeightAscent", fontAscent) readOnly(this, "emHeightDescent", fontDescent) readOnly(this, "hangingBaseline", hanging) readOnly(this, "alphabeticBaseline", alphabetic) readOnly(this, "ideographicBaseline", ideographic) readOnly(this, "lines", lines.map( ([x, y, width, height, baseline, startIndex, endIndex]) => ( {x, y, width, height, baseline, startIndex, endIndex} ))) } } module.exports = {FontLibrary:new FontLibrary(), TextMetrics} /***/ }), /***/ 4711: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // // Skia Canvas — CommonJS version // const {Canvas, CanvasGradient, CanvasPattern, CanvasTexture} = __nccwpck_require__(1658), {Image, ImageData, loadImage, loadImageData} = __nccwpck_require__(3672), {DOMPoint, DOMMatrix, DOMRect} = __nccwpck_require__(6634), {TextMetrics, FontLibrary} = __nccwpck_require__(5243), {CanvasRenderingContext2D} = __nccwpck_require__(2563), {App, Window} = __nccwpck_require__(4439), {Path2D} = __nccwpck_require__(8409) module.exports = { Canvas, CanvasGradient, CanvasPattern, CanvasTexture, Image, ImageData, loadImage, loadImageData, Path2D, DOMPoint, DOMMatrix, DOMRect, FontLibrary, TextMetrics, CanvasRenderingContext2D, App, Window, } /***/ }), /***/ 3670: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { var paren = __nccwpck_require__(9568) module.exports = function splitBy (string, separator, o) { if (string == null) throw Error('First argument should be a string') if (separator == null) throw Error('Separator should be a string or a RegExp') if (!o) o = {} else if (typeof o === 'string' || Array.isArray(o)) { o = {ignore: o} } if (o.escape == null) o.escape = true if (o.ignore == null) o.ignore = ['[]', '()', '{}', '<>', '""', "''", '``', '“”', '«»'] else { if (typeof o.ignore === 'string') {o.ignore = [o.ignore]} o.ignore = o.ignore.map(function (pair) { // '"' → '""' if (pair.length === 1) pair = pair + pair return pair }) } var tokens = paren.parse(string, {flat: true, brackets: o.ignore}) var str = tokens[0] var parts = str.split(separator) // join parts separated by escape if (o.escape) { var cleanParts = [] for (var i = 0; i < parts.length; i++) { var prev = parts[i] var part = parts[i + 1] if (prev[prev.length - 1] === '\\' && prev[prev.length - 2] !== '\\') { cleanParts.push(prev + separator + part) i++ } else { cleanParts.push(prev) } } parts = cleanParts } // open parens pack & apply unquotes, if any for (var i = 0; i < parts.length; i++) { tokens[0] = parts[i] parts[i] = paren.stringify(tokens, {flat: true}) } return parts } /***/ }), /***/ 770: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { module.exports = __nccwpck_require__(218); /***/ }), /***/ 218: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { var net = __nccwpck_require__(9278); var tls = __nccwpck_require__(4756); var http = __nccwpck_require__(8611); var https = __nccwpck_require__(5692); var events = __nccwpck_require__(4434); var assert = __nccwpck_require__(2613); var util = __nccwpck_require__(9023); exports.httpOverHttp = httpOverHttp; exports.httpsOverHttp = httpsOverHttp; exports.httpOverHttps = httpOverHttps; exports.httpsOverHttps = httpsOverHttps; function httpOverHttp(options) { var agent = new TunnelingAgent(options); agent.request = http.request; return agent; } function httpsOverHttp(options) { var agent = new TunnelingAgent(options); agent.request = http.request; agent.createSocket = createSecureSocket; agent.defaultPort = 443; return agent; } function httpOverHttps(options) { var agent = new TunnelingAgent(options); agent.request = https.request; return agent; } function httpsOverHttps(options) { var agent = new TunnelingAgent(options); agent.request = https.request; agent.createSocket = createSecureSocket; agent.defaultPort = 443; return agent; } function TunnelingAgent(options) { var self = this; self.options = options || {}; self.proxyOptions = self.options.proxy || {}; self.maxSockets = self.options.maxSockets || http.Agent.defaultMaxSockets; self.requests = []; self.sockets = []; self.on('free', function onFree(socket, host, port, localAddress) { var options = toOptions(host, port, localAddress); for (var i = 0, len = self.requests.length; i < len; ++i) { var pending = self.requests[i]; if (pending.host === options.host && pending.port === options.port) { // Detect the request to connect same origin server, // reuse the connection. self.requests.splice(i, 1); pending.request.onSocket(socket); return; } } socket.destroy(); self.removeSocket(socket); }); } util.inherits(TunnelingAgent, events.EventEmitter); TunnelingAgent.prototype.addRequest = function addRequest(req, host, port, localAddress) { var self = this; var options = mergeOptions({request: req}, self.options, toOptions(host, port, localAddress)); if (self.sockets.length >= this.maxSockets) { // We are over limit so we'll add it to the queue. self.requests.push(options); return; } // If we are under maxSockets create a new one. self.createSocket(options, function(socket) { socket.on('free', onFree); socket.on('close', onCloseOrRemove); socket.on('agentRemove', onCloseOrRemove); req.onSocket(socket); function onFree() { self.emit('free', socket, options); } function onCloseOrRemove(err) { self.removeSocket(socket); socket.removeListener('free', onFree); socket.removeListener('close', onCloseOrRemove); socket.removeListener('agentRemove', onCloseOrRemove); } }); }; TunnelingAgent.prototype.createSocket = function createSocket(options, cb) { var self = this; var placeholder = {}; self.sockets.push(placeholder); var connectOptions = mergeOptions({}, self.proxyOptions, { method: 'CONNECT', path: options.host + ':' + options.port, agent: false, headers: { host: options.host + ':' + options.port } }); if (options.localAddress) { connectOptions.localAddress = options.localAddress; } if (connectOptions.proxyAuth) { connectOptions.headers = connectOptions.headers || {}; connectOptions.headers['Proxy-Authorization'] = 'Basic ' + new Buffer(connectOptions.proxyAuth).toString('base64'); } debug('making CONNECT request'); var connectReq = self.request(connectOptions); connectReq.useChunkedEncodingByDefault = false; // for v0.6 connectReq.once('response', onResponse); // for v0.6 connectReq.once('upgrade', onUpgrade); // for v0.6 connectReq.once('connect', onConnect); // for v0.7 or later connectReq.once('error', onError); connectReq.end(); function onResponse(res) { // Very hacky. This is necessary to avoid http-parser leaks. res.upgrade = true; } function onUpgrade(res, socket, head) { // Hacky. process.nextTick(function() { onConnect(res, socket, head); }); } function onConnect(res, socket, head) { connectReq.removeAllListeners(); socket.removeAllListeners(); if (res.statusCode !== 200) { debug('tunneling socket could not be established, statusCode=%d', res.statusCode); socket.destroy(); var error = new Error('tunneling socket could not be established, ' + 'statusCode=' + res.statusCode); error.code = 'ECONNRESET'; options.request.emit('error', error); self.removeSocket(placeholder); return; } if (head.length > 0) { debug('got illegal response body from proxy'); socket.destroy(); var error = new Error('got illegal response body from proxy'); error.code = 'ECONNRESET'; options.request.emit('error', error); self.removeSocket(placeholder); return; } debug('tunneling connection has established'); self.sockets[self.sockets.indexOf(placeholder)] = socket; return cb(socket); } function onError(cause) { connectReq.removeAllListeners(); debug('tunneling socket could not be established, cause=%s\n', cause.message, cause.stack); var error = new Error('tunneling socket could not be established, ' + 'cause=' + cause.message); error.code = 'ECONNRESET'; options.request.emit('error', error); self.removeSocket(placeholder); } }; TunnelingAgent.prototype.removeSocket = function removeSocket(socket) { var pos = this.sockets.indexOf(socket) if (pos === -1) { return; } this.sockets.splice(pos, 1); var pending = this.requests.shift(); if (pending) { // If we have pending requests and a socket gets closed a new one // needs to be created to take over in the pool for the one that closed. this.createSocket(pending, function(socket) { pending.request.onSocket(socket); }); } }; function createSecureSocket(options, cb) { var self = this; TunnelingAgent.prototype.createSocket.call(self, options, function(socket) { var hostHeader = options.request.getHeader('host'); var tlsOptions = mergeOptions({}, self.options, { socket: socket, servername: hostHeader ? hostHeader.replace(/:.*$/, '') : options.host }); // 0 is dummy port for v0.6 var secureSocket = tls.connect(0, tlsOptions); self.sockets[self.sockets.indexOf(socket)] = secureSocket; cb(secureSocket); }); } function toOptions(host, port, localAddress) { if (typeof host === 'string') { // since v0.10 return { host: host, port: port, localAddress: localAddress }; } return host; // for v0.11 or later } function mergeOptions(target) { for (var i = 1, len = arguments.length; i < len; ++i) { var overrides = arguments[i]; if (typeof overrides === 'object') { var keys = Object.keys(overrides); for (var j = 0, keyLen = keys.length; j < keyLen; ++j) { var k = keys[j]; if (overrides[k] !== undefined) { target[k] = overrides[k]; } } } } return target; } var debug; if (process.env.NODE_DEBUG && /\btunnel\b/.test(process.env.NODE_DEBUG)) { debug = function() { var args = Array.prototype.slice.call(arguments); if (typeof args[0] === 'string') { args[0] = 'TUNNEL: ' + args[0]; } else { args.unshift('TUNNEL:'); } console.error.apply(console, args); } } else { debug = function() {}; } exports.debug = debug; // for test /***/ }), /***/ 6752: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const Client = __nccwpck_require__(6197) const Dispatcher = __nccwpck_require__(992) const errors = __nccwpck_require__(8707) const Pool = __nccwpck_require__(5076) const BalancedPool = __nccwpck_require__(1093) const Agent = __nccwpck_require__(9965) const util = __nccwpck_require__(3440) const { InvalidArgumentError } = errors const api = __nccwpck_require__(6615) const buildConnector = __nccwpck_require__(9136) const MockClient = __nccwpck_require__(7365) const MockAgent = __nccwpck_require__(7501) const MockPool = __nccwpck_require__(4004) const mockErrors = __nccwpck_require__(2429) const ProxyAgent = __nccwpck_require__(2720) const RetryHandler = __nccwpck_require__(3573) const { getGlobalDispatcher, setGlobalDispatcher } = __nccwpck_require__(2581) const DecoratorHandler = __nccwpck_require__(8840) const RedirectHandler = __nccwpck_require__(8299) const createRedirectInterceptor = __nccwpck_require__(4415) let hasCrypto try { __nccwpck_require__(6982) hasCrypto = true } catch { hasCrypto = false } Object.assign(Dispatcher.prototype, api) module.exports.Dispatcher = Dispatcher module.exports.Client = Client module.exports.Pool = Pool module.exports.BalancedPool = BalancedPool module.exports.Agent = Agent module.exports.ProxyAgent = ProxyAgent module.exports.RetryHandler = RetryHandler module.exports.DecoratorHandler = DecoratorHandler module.exports.RedirectHandler = RedirectHandler module.exports.createRedirectInterceptor = createRedirectInterceptor module.exports.buildConnector = buildConnector module.exports.errors = errors function makeDispatcher (fn) { return (url, opts, handler) => { if (typeof opts === 'function') { handler = opts opts = null } if (!url || (typeof url !== 'string' && typeof url !== 'object' && !(url instanceof URL))) { throw new InvalidArgumentError('invalid url') } if (opts != null && typeof opts !== 'object') { throw new InvalidArgumentError('invalid opts') } if (opts && opts.path != null) { if (typeof opts.path !== 'string') { throw new InvalidArgumentError('invalid opts.path') } let path = opts.path if (!opts.path.startsWith('/')) { path = `/${path}` } url = new URL(util.parseOrigin(url).origin + path) } else { if (!opts) { opts = typeof url === 'object' ? url : {} } url = util.parseURL(url) } const { agent, dispatcher = getGlobalDispatcher() } = opts if (agent) { throw new InvalidArgumentError('unsupported opts.agent. Did you mean opts.client?') } return fn.call(dispatcher, { ...opts, origin: url.origin, path: url.search ? `${url.pathname}${url.search}` : url.pathname, method: opts.method || (opts.body ? 'PUT' : 'GET') }, handler) } } module.exports.setGlobalDispatcher = setGlobalDispatcher module.exports.getGlobalDispatcher = getGlobalDispatcher if (util.nodeMajor > 16 || (util.nodeMajor === 16 && util.nodeMinor >= 8)) { let fetchImpl = null module.exports.fetch = async function fetch (resource) { if (!fetchImpl) { fetchImpl = (__nccwpck_require__(2315).fetch) } try { return await fetchImpl(...arguments) } catch (err) { if (typeof err === 'object') { Error.captureStackTrace(err, this) } throw err } } module.exports.Headers = __nccwpck_require__(6349).Headers module.exports.Response = __nccwpck_require__(8676).Response module.exports.Request = __nccwpck_require__(5194).Request module.exports.FormData = __nccwpck_require__(3073).FormData module.exports.File = __nccwpck_require__(3041).File module.exports.FileReader = __nccwpck_require__(2160).FileReader const { setGlobalOrigin, getGlobalOrigin } = __nccwpck_require__(5628) module.exports.setGlobalOrigin = setGlobalOrigin module.exports.getGlobalOrigin = getGlobalOrigin const { CacheStorage } = __nccwpck_require__(4738) const { kConstruct } = __nccwpck_require__(296) // Cache & CacheStorage are tightly coupled with fetch. Even if it may run // in an older version of Node, it doesn't have any use without fetch. module.exports.caches = new CacheStorage(kConstruct) } if (util.nodeMajor >= 16) { const { deleteCookie, getCookies, getSetCookies, setCookie } = __nccwpck_require__(3168) module.exports.deleteCookie = deleteCookie module.exports.getCookies = getCookies module.exports.getSetCookies = getSetCookies module.exports.setCookie = setCookie const { parseMIMEType, serializeAMimeType } = __nccwpck_require__(4322) module.exports.parseMIMEType = parseMIMEType module.exports.serializeAMimeType = serializeAMimeType } if (util.nodeMajor >= 18 && hasCrypto) { const { WebSocket } = __nccwpck_require__(5171) module.exports.WebSocket = WebSocket } module.exports.request = makeDispatcher(api.request) module.exports.stream = makeDispatcher(api.stream) module.exports.pipeline = makeDispatcher(api.pipeline) module.exports.connect = makeDispatcher(api.connect) module.exports.upgrade = makeDispatcher(api.upgrade) module.exports.MockClient = MockClient module.exports.MockPool = MockPool module.exports.MockAgent = MockAgent module.exports.mockErrors = mockErrors /***/ }), /***/ 9965: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { InvalidArgumentError } = __nccwpck_require__(8707) const { kClients, kRunning, kClose, kDestroy, kDispatch, kInterceptors } = __nccwpck_require__(6443) const DispatcherBase = __nccwpck_require__(1) const Pool = __nccwpck_require__(5076) const Client = __nccwpck_require__(6197) const util = __nccwpck_require__(3440) const createRedirectInterceptor = __nccwpck_require__(4415) const { WeakRef, FinalizationRegistry } = __nccwpck_require__(3194)() const kOnConnect = Symbol('onConnect') const kOnDisconnect = Symbol('onDisconnect') const kOnConnectionError = Symbol('onConnectionError') const kMaxRedirections = Symbol('maxRedirections') const kOnDrain = Symbol('onDrain') const kFactory = Symbol('factory') const kFinalizer = Symbol('finalizer') const kOptions = Symbol('options') function defaultFactory (origin, opts) { return opts && opts.connections === 1 ? new Client(origin, opts) : new Pool(origin, opts) } class Agent extends DispatcherBase { constructor ({ factory = defaultFactory, maxRedirections = 0, connect, ...options } = {}) { super() if (typeof factory !== 'function') { throw new InvalidArgumentError('factory must be a function.') } if (connect != null && typeof connect !== 'function' && typeof connect !== 'object') { throw new InvalidArgumentError('connect must be a function or an object') } if (!Number.isInteger(maxRedirections) || maxRedirections < 0) { throw new InvalidArgumentError('maxRedirections must be a positive number') } if (connect && typeof connect !== 'function') { connect = { ...connect } } this[kInterceptors] = options.interceptors && options.interceptors.Agent && Array.isArray(options.interceptors.Agent) ? options.interceptors.Agent : [createRedirectInterceptor({ maxRedirections })] this[kOptions] = { ...util.deepClone(options), connect } this[kOptions].interceptors = options.interceptors ? { ...options.interceptors } : undefined this[kMaxRedirections] = maxRedirections this[kFactory] = factory this[kClients] = new Map() this[kFinalizer] = new FinalizationRegistry(/* istanbul ignore next: gc is undeterministic */ key => { const ref = this[kClients].get(key) if (ref !== undefined && ref.deref() === undefined) { this[kClients].delete(key) } }) const agent = this this[kOnDrain] = (origin, targets) => { agent.emit('drain', origin, [agent, ...targets]) } this[kOnConnect] = (origin, targets) => { agent.emit('connect', origin, [agent, ...targets]) } this[kOnDisconnect] = (origin, targets, err) => { agent.emit('disconnect', origin, [agent, ...targets], err) } this[kOnConnectionError] = (origin, targets, err) => { agent.emit('connectionError', origin, [agent, ...targets], err) } } get [kRunning] () { let ret = 0 for (const ref of this[kClients].values()) { const client = ref.deref() /* istanbul ignore next: gc is undeterministic */ if (client) { ret += client[kRunning] } } return ret } [kDispatch] (opts, handler) { let key if (opts.origin && (typeof opts.origin === 'string' || opts.origin instanceof URL)) { key = String(opts.origin) } else { throw new InvalidArgumentError('opts.origin must be a non-empty string or URL.') } const ref = this[kClients].get(key) let dispatcher = ref ? ref.deref() : null if (!dispatcher) { dispatcher = this[kFactory](opts.origin, this[kOptions]) .on('drain', this[kOnDrain]) .on('connect', this[kOnConnect]) .on('disconnect', this[kOnDisconnect]) .on('connectionError', this[kOnConnectionError]) this[kClients].set(key, new WeakRef(dispatcher)) this[kFinalizer].register(dispatcher, key) } return dispatcher.dispatch(opts, handler) } async [kClose] () { const closePromises = [] for (const ref of this[kClients].values()) { const client = ref.deref() /* istanbul ignore else: gc is undeterministic */ if (client) { closePromises.push(client.close()) } } await Promise.all(closePromises) } async [kDestroy] (err) { const destroyPromises = [] for (const ref of this[kClients].values()) { const client = ref.deref() /* istanbul ignore else: gc is undeterministic */ if (client) { destroyPromises.push(client.destroy(err)) } } await Promise.all(destroyPromises) } } module.exports = Agent /***/ }), /***/ 158: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { addAbortListener } = __nccwpck_require__(3440) const { RequestAbortedError } = __nccwpck_require__(8707) const kListener = Symbol('kListener') const kSignal = Symbol('kSignal') function abort (self) { if (self.abort) { self.abort() } else { self.onError(new RequestAbortedError()) } } function addSignal (self, signal) { self[kSignal] = null self[kListener] = null if (!signal) { return } if (signal.aborted) { abort(self) return } self[kSignal] = signal self[kListener] = () => { abort(self) } addAbortListener(self[kSignal], self[kListener]) } function removeSignal (self) { if (!self[kSignal]) { return } if ('removeEventListener' in self[kSignal]) { self[kSignal].removeEventListener('abort', self[kListener]) } else { self[kSignal].removeListener('abort', self[kListener]) } self[kSignal] = null self[kListener] = null } module.exports = { addSignal, removeSignal } /***/ }), /***/ 4660: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { AsyncResource } = __nccwpck_require__(290) const { InvalidArgumentError, RequestAbortedError, SocketError } = __nccwpck_require__(8707) const util = __nccwpck_require__(3440) const { addSignal, removeSignal } = __nccwpck_require__(158) class ConnectHandler extends AsyncResource { constructor (opts, callback) { if (!opts || typeof opts !== 'object') { throw new InvalidArgumentError('invalid opts') } if (typeof callback !== 'function') { throw new InvalidArgumentError('invalid callback') } const { signal, opaque, responseHeaders } = opts if (signal && typeof signal.on !== 'function' && typeof signal.addEventListener !== 'function') { throw new InvalidArgumentError('signal must be an EventEmitter or EventTarget') } super('UNDICI_CONNECT') this.opaque = opaque || null this.responseHeaders = responseHeaders || null this.callback = callback this.abort = null addSignal(this, signal) } onConnect (abort, context) { if (!this.callback) { throw new RequestAbortedError() } this.abort = abort this.context = context } onHeaders () { throw new SocketError('bad connect', null) } onUpgrade (statusCode, rawHeaders, socket) { const { callback, opaque, context } = this removeSignal(this) this.callback = null let headers = rawHeaders // Indicates is an HTTP2Session if (headers != null) { headers = this.responseHeaders === 'raw' ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders) } this.runInAsyncScope(callback, null, null, { statusCode, headers, socket, opaque, context }) } onError (err) { const { callback, opaque } = this removeSignal(this) if (callback) { this.callback = null queueMicrotask(() => { this.runInAsyncScope(callback, null, err, { opaque }) }) } } } function connect (opts, callback) { if (callback === undefined) { return new Promise((resolve, reject) => { connect.call(this, opts, (err, data) => { return err ? reject(err) : resolve(data) }) }) } try { const connectHandler = new ConnectHandler(opts, callback) this.dispatch({ ...opts, method: 'CONNECT' }, connectHandler) } catch (err) { if (typeof callback !== 'function') { throw err } const opaque = opts && opts.opaque queueMicrotask(() => callback(err, { opaque })) } } module.exports = connect /***/ }), /***/ 6862: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { Readable, Duplex, PassThrough } = __nccwpck_require__(2203) const { InvalidArgumentError, InvalidReturnValueError, RequestAbortedError } = __nccwpck_require__(8707) const util = __nccwpck_require__(3440) const { AsyncResource } = __nccwpck_require__(290) const { addSignal, removeSignal } = __nccwpck_require__(158) const assert = __nccwpck_require__(2613) const kResume = Symbol('resume') class PipelineRequest extends Readable { constructor () { super({ autoDestroy: true }) this[kResume] = null } _read () { const { [kResume]: resume } = this if (resume) { this[kResume] = null resume() } } _destroy (err, callback) { this._read() callback(err) } } class PipelineResponse extends Readable { constructor (resume) { super({ autoDestroy: true }) this[kResume] = resume } _read () { this[kResume]() } _destroy (err, callback) { if (!err && !this._readableState.endEmitted) { err = new RequestAbortedError() } callback(err) } } class PipelineHandler extends AsyncResource { constructor (opts, handler) { if (!opts || typeof opts !== 'object') { throw new InvalidArgumentError('invalid opts') } if (typeof handler !== 'function') { throw new InvalidArgumentError('invalid handler') } const { signal, method, opaque, onInfo, responseHeaders } = opts if (signal && typeof signal.on !== 'function' && typeof signal.addEventListener !== 'function') { throw new InvalidArgumentError('signal must be an EventEmitter or EventTarget') } if (method === 'CONNECT') { throw new InvalidArgumentError('invalid method') } if (onInfo && typeof onInfo !== 'function') { throw new InvalidArgumentError('invalid onInfo callback') } super('UNDICI_PIPELINE') this.opaque = opaque || null this.responseHeaders = responseHeaders || null this.handler = handler this.abort = null this.context = null this.onInfo = onInfo || null this.req = new PipelineRequest().on('error', util.nop) this.ret = new Duplex({ readableObjectMode: opts.objectMode, autoDestroy: true, read: () => { const { body } = this if (body && body.resume) { body.resume() } }, write: (chunk, encoding, callback) => { const { req } = this if (req.push(chunk, encoding) || req._readableState.destroyed) { callback() } else { req[kResume] = callback } }, destroy: (err, callback) => { const { body, req, res, ret, abort } = this if (!err && !ret._readableState.endEmitted) { err = new RequestAbortedError() } if (abort && err) { abort() } util.destroy(body, err) util.destroy(req, err) util.destroy(res, err) removeSignal(this) callback(err) } }).on('prefinish', () => { const { req } = this // Node < 15 does not call _final in same tick. req.push(null) }) this.res = null addSignal(this, signal) } onConnect (abort, context) { const { ret, res } = this assert(!res, 'pipeline cannot be retried') if (ret.destroyed) { throw new RequestAbortedError() } this.abort = abort this.context = context } onHeaders (statusCode, rawHeaders, resume) { const { opaque, handler, context } = this if (statusCode < 200) { if (this.onInfo) { const headers = this.responseHeaders === 'raw' ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders) this.onInfo({ statusCode, headers }) } return } this.res = new PipelineResponse(resume) let body try { this.handler = null const headers = this.responseHeaders === 'raw' ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders) body = this.runInAsyncScope(handler, null, { statusCode, headers, opaque, body: this.res, context }) } catch (err) { this.res.on('error', util.nop) throw err } if (!body || typeof body.on !== 'function') { throw new InvalidReturnValueError('expected Readable') } body .on('data', (chunk) => { const { ret, body } = this if (!ret.push(chunk) && body.pause) { body.pause() } }) .on('error', (err) => { const { ret } = this util.destroy(ret, err) }) .on('end', () => { const { ret } = this ret.push(null) }) .on('close', () => { const { ret } = this if (!ret._readableState.ended) { util.destroy(ret, new RequestAbortedError()) } }) this.body = body } onData (chunk) { const { res } = this return res.push(chunk) } onComplete (trailers) { const { res } = this res.push(null) } onError (err) { const { ret } = this this.handler = null util.destroy(ret, err) } } function pipeline (opts, handler) { try { const pipelineHandler = new PipelineHandler(opts, handler) this.dispatch({ ...opts, body: pipelineHandler.req }, pipelineHandler) return pipelineHandler.ret } catch (err) { return new PassThrough().destroy(err) } } module.exports = pipeline /***/ }), /***/ 4043: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const Readable = __nccwpck_require__(9927) const { InvalidArgumentError, RequestAbortedError } = __nccwpck_require__(8707) const util = __nccwpck_require__(3440) const { getResolveErrorBodyCallback } = __nccwpck_require__(7655) const { AsyncResource } = __nccwpck_require__(290) const { addSignal, removeSignal } = __nccwpck_require__(158) class RequestHandler extends AsyncResource { constructor (opts, callback) { if (!opts || typeof opts !== 'object') { throw new InvalidArgumentError('invalid opts') } const { signal, method, opaque, body, onInfo, responseHeaders, throwOnError, highWaterMark } = opts try { if (typeof callback !== 'function') { throw new InvalidArgumentError('invalid callback') } if (highWaterMark && (typeof highWaterMark !== 'number' || highWaterMark < 0)) { throw new InvalidArgumentError('invalid highWaterMark') } if (signal && typeof signal.on !== 'function' && typeof signal.addEventListener !== 'function') { throw new InvalidArgumentError('signal must be an EventEmitter or EventTarget') } if (method === 'CONNECT') { throw new InvalidArgumentError('invalid method') } if (onInfo && typeof onInfo !== 'function') { throw new InvalidArgumentError('invalid onInfo callback') } super('UNDICI_REQUEST') } catch (err) { if (util.isStream(body)) { util.destroy(body.on('error', util.nop), err) } throw err } this.responseHeaders = responseHeaders || null this.opaque = opaque || null this.callback = callback this.res = null this.abort = null this.body = body this.trailers = {} this.context = null this.onInfo = onInfo || null this.throwOnError = throwOnError this.highWaterMark = highWaterMark if (util.isStream(body)) { body.on('error', (err) => { this.onError(err) }) } addSignal(this, signal) } onConnect (abort, context) { if (!this.callback) { throw new RequestAbortedError() } this.abort = abort this.context = context } onHeaders (statusCode, rawHeaders, resume, statusMessage) { const { callback, opaque, abort, context, responseHeaders, highWaterMark } = this const headers = responseHeaders === 'raw' ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders) if (statusCode < 200) { if (this.onInfo) { this.onInfo({ statusCode, headers }) } return } const parsedHeaders = responseHeaders === 'raw' ? util.parseHeaders(rawHeaders) : headers const contentType = parsedHeaders['content-type'] const body = new Readable({ resume, abort, contentType, highWaterMark }) this.callback = null this.res = body if (callback !== null) { if (this.throwOnError && statusCode >= 400) { this.runInAsyncScope(getResolveErrorBodyCallback, null, { callback, body, contentType, statusCode, statusMessage, headers } ) } else { this.runInAsyncScope(callback, null, null, { statusCode, headers, trailers: this.trailers, opaque, body, context }) } } } onData (chunk) { const { res } = this return res.push(chunk) } onComplete (trailers) { const { res } = this removeSignal(this) util.parseHeaders(trailers, this.trailers) res.push(null) } onError (err) { const { res, callback, body, opaque } = this removeSignal(this) if (callback) { // TODO: Does this need queueMicrotask? this.callback = null queueMicrotask(() => { this.runInAsyncScope(callback, null, err, { opaque }) }) } if (res) { this.res = null // Ensure all queued handlers are invoked before destroying res. queueMicrotask(() => { util.destroy(res, err) }) } if (body) { this.body = null util.destroy(body, err) } } } function request (opts, callback) { if (callback === undefined) { return new Promise((resolve, reject) => { request.call(this, opts, (err, data) => { return err ? reject(err) : resolve(data) }) }) } try { this.dispatch(opts, new RequestHandler(opts, callback)) } catch (err) { if (typeof callback !== 'function') { throw err } const opaque = opts && opts.opaque queueMicrotask(() => callback(err, { opaque })) } } module.exports = request module.exports.RequestHandler = RequestHandler /***/ }), /***/ 3560: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { finished, PassThrough } = __nccwpck_require__(2203) const { InvalidArgumentError, InvalidReturnValueError, RequestAbortedError } = __nccwpck_require__(8707) const util = __nccwpck_require__(3440) const { getResolveErrorBodyCallback } = __nccwpck_require__(7655) const { AsyncResource } = __nccwpck_require__(290) const { addSignal, removeSignal } = __nccwpck_require__(158) class StreamHandler extends AsyncResource { constructor (opts, factory, callback) { if (!opts || typeof opts !== 'object') { throw new InvalidArgumentError('invalid opts') } const { signal, method, opaque, body, onInfo, responseHeaders, throwOnError } = opts try { if (typeof callback !== 'function') { throw new InvalidArgumentError('invalid callback') } if (typeof factory !== 'function') { throw new InvalidArgumentError('invalid factory') } if (signal && typeof signal.on !== 'function' && typeof signal.addEventListener !== 'function') { throw new InvalidArgumentError('signal must be an EventEmitter or EventTarget') } if (method === 'CONNECT') { throw new InvalidArgumentError('invalid method') } if (onInfo && typeof onInfo !== 'function') { throw new InvalidArgumentError('invalid onInfo callback') } super('UNDICI_STREAM') } catch (err) { if (util.isStream(body)) { util.destroy(body.on('error', util.nop), err) } throw err } this.responseHeaders = responseHeaders || null this.opaque = opaque || null this.factory = factory this.callback = callback this.res = null this.abort = null this.context = null this.trailers = null this.body = body this.onInfo = onInfo || null this.throwOnError = throwOnError || false if (util.isStream(body)) { body.on('error', (err) => { this.onError(err) }) } addSignal(this, signal) } onConnect (abort, context) { if (!this.callback) { throw new RequestAbortedError() } this.abort = abort this.context = context } onHeaders (statusCode, rawHeaders, resume, statusMessage) { const { factory, opaque, context, callback, responseHeaders } = this const headers = responseHeaders === 'raw' ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders) if (statusCode < 200) { if (this.onInfo) { this.onInfo({ statusCode, headers }) } return } this.factory = null let res if (this.throwOnError && statusCode >= 400) { const parsedHeaders = responseHeaders === 'raw' ? util.parseHeaders(rawHeaders) : headers const contentType = parsedHeaders['content-type'] res = new PassThrough() this.callback = null this.runInAsyncScope(getResolveErrorBodyCallback, null, { callback, body: res, contentType, statusCode, statusMessage, headers } ) } else { if (factory === null) { return } res = this.runInAsyncScope(factory, null, { statusCode, headers, opaque, context }) if ( !res || typeof res.write !== 'function' || typeof res.end !== 'function' || typeof res.on !== 'function' ) { throw new InvalidReturnValueError('expected Writable') } // TODO: Avoid finished. It registers an unnecessary amount of listeners. finished(res, { readable: false }, (err) => { const { callback, res, opaque, trailers, abort } = this this.res = null if (err || !res.readable) { util.destroy(res, err) } this.callback = null this.runInAsyncScope(callback, null, err || null, { opaque, trailers }) if (err) { abort() } }) } res.on('drain', resume) this.res = res const needDrain = res.writableNeedDrain !== undefined ? res.writableNeedDrain : res._writableState && res._writableState.needDrain return needDrain !== true } onData (chunk) { const { res } = this return res ? res.write(chunk) : true } onComplete (trailers) { const { res } = this removeSignal(this) if (!res) { return } this.trailers = util.parseHeaders(trailers) res.end() } onError (err) { const { res, callback, opaque, body } = this removeSignal(this) this.factory = null if (res) { this.res = null util.destroy(res, err) } else if (callback) { this.callback = null queueMicrotask(() => { this.runInAsyncScope(callback, null, err, { opaque }) }) } if (body) { this.body = null util.destroy(body, err) } } } function stream (opts, factory, callback) { if (callback === undefined) { return new Promise((resolve, reject) => { stream.call(this, opts, factory, (err, data) => { return err ? reject(err) : resolve(data) }) }) } try { this.dispatch(opts, new StreamHandler(opts, factory, callback)) } catch (err) { if (typeof callback !== 'function') { throw err } const opaque = opts && opts.opaque queueMicrotask(() => callback(err, { opaque })) } } module.exports = stream /***/ }), /***/ 1882: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { InvalidArgumentError, RequestAbortedError, SocketError } = __nccwpck_require__(8707) const { AsyncResource } = __nccwpck_require__(290) const util = __nccwpck_require__(3440) const { addSignal, removeSignal } = __nccwpck_require__(158) const assert = __nccwpck_require__(2613) class UpgradeHandler extends AsyncResource { constructor (opts, callback) { if (!opts || typeof opts !== 'object') { throw new InvalidArgumentError('invalid opts') } if (typeof callback !== 'function') { throw new InvalidArgumentError('invalid callback') } const { signal, opaque, responseHeaders } = opts if (signal && typeof signal.on !== 'function' && typeof signal.addEventListener !== 'function') { throw new InvalidArgumentError('signal must be an EventEmitter or EventTarget') } super('UNDICI_UPGRADE') this.responseHeaders = responseHeaders || null this.opaque = opaque || null this.callback = callback this.abort = null this.context = null addSignal(this, signal) } onConnect (abort, context) { if (!this.callback) { throw new RequestAbortedError() } this.abort = abort this.context = null } onHeaders () { throw new SocketError('bad upgrade', null) } onUpgrade (statusCode, rawHeaders, socket) { const { callback, opaque, context } = this assert.strictEqual(statusCode, 101) removeSignal(this) this.callback = null const headers = this.responseHeaders === 'raw' ? util.parseRawHeaders(rawHeaders) : util.parseHeaders(rawHeaders) this.runInAsyncScope(callback, null, null, { headers, socket, opaque, context }) } onError (err) { const { callback, opaque } = this removeSignal(this) if (callback) { this.callback = null queueMicrotask(() => { this.runInAsyncScope(callback, null, err, { opaque }) }) } } } function upgrade (opts, callback) { if (callback === undefined) { return new Promise((resolve, reject) => { upgrade.call(this, opts, (err, data) => { return err ? reject(err) : resolve(data) }) }) } try { const upgradeHandler = new UpgradeHandler(opts, callback) this.dispatch({ ...opts, method: opts.method || 'GET', upgrade: opts.protocol || 'Websocket' }, upgradeHandler) } catch (err) { if (typeof callback !== 'function') { throw err } const opaque = opts && opts.opaque queueMicrotask(() => callback(err, { opaque })) } } module.exports = upgrade /***/ }), /***/ 6615: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { module.exports.request = __nccwpck_require__(4043) module.exports.stream = __nccwpck_require__(3560) module.exports.pipeline = __nccwpck_require__(6862) module.exports.upgrade = __nccwpck_require__(1882) module.exports.connect = __nccwpck_require__(4660) /***/ }), /***/ 9927: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // Ported from https://github.com/nodejs/undici/pull/907 const assert = __nccwpck_require__(2613) const { Readable } = __nccwpck_require__(2203) const { RequestAbortedError, NotSupportedError, InvalidArgumentError } = __nccwpck_require__(8707) const util = __nccwpck_require__(3440) const { ReadableStreamFrom, toUSVString } = __nccwpck_require__(3440) let Blob const kConsume = Symbol('kConsume') const kReading = Symbol('kReading') const kBody = Symbol('kBody') const kAbort = Symbol('abort') const kContentType = Symbol('kContentType') const noop = () => {} module.exports = class BodyReadable extends Readable { constructor ({ resume, abort, contentType = '', highWaterMark = 64 * 1024 // Same as nodejs fs streams. }) { super({ autoDestroy: true, read: resume, highWaterMark }) this._readableState.dataEmitted = false this[kAbort] = abort this[kConsume] = null this[kBody] = null this[kContentType] = contentType // Is stream being consumed through Readable API? // This is an optimization so that we avoid checking // for 'data' and 'readable' listeners in the hot path // inside push(). this[kReading] = false } destroy (err) { if (this.destroyed) { // Node < 16 return this } if (!err && !this._readableState.endEmitted) { err = new RequestAbortedError() } if (err) { this[kAbort]() } return super.destroy(err) } emit (ev, ...args) { if (ev === 'data') { // Node < 16.7 this._readableState.dataEmitted = true } else if (ev === 'error') { // Node < 16 this._readableState.errorEmitted = true } return super.emit(ev, ...args) } on (ev, ...args) { if (ev === 'data' || ev === 'readable') { this[kReading] = true } return super.on(ev, ...args) } addListener (ev, ...args) { return this.on(ev, ...args) } off (ev, ...args) { const ret = super.off(ev, ...args) if (ev === 'data' || ev === 'readable') { this[kReading] = ( this.listenerCount('data') > 0 || this.listenerCount('readable') > 0 ) } return ret } removeListener (ev, ...args) { return this.off(ev, ...args) } push (chunk) { if (this[kConsume] && chunk !== null && this.readableLength === 0) { consumePush(this[kConsume], chunk) return this[kReading] ? super.push(chunk) : true } return super.push(chunk) } // https://fetch.spec.whatwg.org/#dom-body-text async text () { return consume(this, 'text') } // https://fetch.spec.whatwg.org/#dom-body-json async json () { return consume(this, 'json') } // https://fetch.spec.whatwg.org/#dom-body-blob async blob () { return consume(this, 'blob') } // https://fetch.spec.whatwg.org/#dom-body-arraybuffer async arrayBuffer () { return consume(this, 'arrayBuffer') } // https://fetch.spec.whatwg.org/#dom-body-formdata async formData () { // TODO: Implement. throw new NotSupportedError() } // https://fetch.spec.whatwg.org/#dom-body-bodyused get bodyUsed () { return util.isDisturbed(this) } // https://fetch.spec.whatwg.org/#dom-body-body get body () { if (!this[kBody]) { this[kBody] = ReadableStreamFrom(this) if (this[kConsume]) { // TODO: Is this the best way to force a lock? this[kBody].getReader() // Ensure stream is locked. assert(this[kBody].locked) } } return this[kBody] } dump (opts) { let limit = opts && Number.isFinite(opts.limit) ? opts.limit : 262144 const signal = opts && opts.signal if (signal) { try { if (typeof signal !== 'object' || !('aborted' in signal)) { throw new InvalidArgumentError('signal must be an AbortSignal') } util.throwIfAborted(signal) } catch (err) { return Promise.reject(err) } } if (this.closed) { return Promise.resolve(null) } return new Promise((resolve, reject) => { const signalListenerCleanup = signal ? util.addAbortListener(signal, () => { this.destroy() }) : noop this .on('close', function () { signalListenerCleanup() if (signal && signal.aborted) { reject(signal.reason || Object.assign(new Error('The operation was aborted'), { name: 'AbortError' })) } else { resolve(null) } }) .on('error', noop) .on('data', function (chunk) { limit -= chunk.length if (limit <= 0) { this.destroy() } }) .resume() }) } } // https://streams.spec.whatwg.org/#readablestream-locked function isLocked (self) { // Consume is an implicit lock. return (self[kBody] && self[kBody].locked === true) || self[kConsume] } // https://fetch.spec.whatwg.org/#body-unusable function isUnusable (self) { return util.isDisturbed(self) || isLocked(self) } async function consume (stream, type) { if (isUnusable(stream)) { throw new TypeError('unusable') } assert(!stream[kConsume]) return new Promise((resolve, reject) => { stream[kConsume] = { type, stream, resolve, reject, length: 0, body: [] } stream .on('error', function (err) { consumeFinish(this[kConsume], err) }) .on('close', function () { if (this[kConsume].body !== null) { consumeFinish(this[kConsume], new RequestAbortedError()) } }) process.nextTick(consumeStart, stream[kConsume]) }) } function consumeStart (consume) { if (consume.body === null) { return } const { _readableState: state } = consume.stream for (const chunk of state.buffer) { consumePush(consume, chunk) } if (state.endEmitted) { consumeEnd(this[kConsume]) } else { consume.stream.on('end', function () { consumeEnd(this[kConsume]) }) } consume.stream.resume() while (consume.stream.read() != null) { // Loop } } function consumeEnd (consume) { const { type, body, resolve, stream, length } = consume try { if (type === 'text') { resolve(toUSVString(Buffer.concat(body))) } else if (type === 'json') { resolve(JSON.parse(Buffer.concat(body))) } else if (type === 'arrayBuffer') { const dst = new Uint8Array(length) let pos = 0 for (const buf of body) { dst.set(buf, pos) pos += buf.byteLength } resolve(dst.buffer) } else if (type === 'blob') { if (!Blob) { Blob = (__nccwpck_require__(181).Blob) } resolve(new Blob(body, { type: stream[kContentType] })) } consumeFinish(consume) } catch (err) { stream.destroy(err) } } function consumePush (consume, chunk) { consume.length += chunk.length consume.body.push(chunk) } function consumeFinish (consume, err) { if (consume.body === null) { return } if (err) { consume.reject(err) } else { consume.resolve() } consume.type = null consume.stream = null consume.resolve = null consume.reject = null consume.length = 0 consume.body = null } /***/ }), /***/ 7655: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const assert = __nccwpck_require__(2613) const { ResponseStatusCodeError } = __nccwpck_require__(8707) const { toUSVString } = __nccwpck_require__(3440) async function getResolveErrorBodyCallback ({ callback, body, contentType, statusCode, statusMessage, headers }) { assert(body) let chunks = [] let limit = 0 for await (const chunk of body) { chunks.push(chunk) limit += chunk.length if (limit > 128 * 1024) { chunks = null break } } if (statusCode === 204 || !contentType || !chunks) { process.nextTick(callback, new ResponseStatusCodeError(`Response status code ${statusCode}${statusMessage ? `: ${statusMessage}` : ''}`, statusCode, headers)) return } try { if (contentType.startsWith('application/json')) { const payload = JSON.parse(toUSVString(Buffer.concat(chunks))) process.nextTick(callback, new ResponseStatusCodeError(`Response status code ${statusCode}${statusMessage ? `: ${statusMessage}` : ''}`, statusCode, headers, payload)) return } if (contentType.startsWith('text/')) { const payload = toUSVString(Buffer.concat(chunks)) process.nextTick(callback, new ResponseStatusCodeError(`Response status code ${statusCode}${statusMessage ? `: ${statusMessage}` : ''}`, statusCode, headers, payload)) return } } catch (err) { // Process in a fallback if error } process.nextTick(callback, new ResponseStatusCodeError(`Response status code ${statusCode}${statusMessage ? `: ${statusMessage}` : ''}`, statusCode, headers)) } module.exports = { getResolveErrorBodyCallback } /***/ }), /***/ 1093: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { BalancedPoolMissingUpstreamError, InvalidArgumentError } = __nccwpck_require__(8707) const { PoolBase, kClients, kNeedDrain, kAddClient, kRemoveClient, kGetDispatcher } = __nccwpck_require__(8640) const Pool = __nccwpck_require__(5076) const { kUrl, kInterceptors } = __nccwpck_require__(6443) const { parseOrigin } = __nccwpck_require__(3440) const kFactory = Symbol('factory') const kOptions = Symbol('options') const kGreatestCommonDivisor = Symbol('kGreatestCommonDivisor') const kCurrentWeight = Symbol('kCurrentWeight') const kIndex = Symbol('kIndex') const kWeight = Symbol('kWeight') const kMaxWeightPerServer = Symbol('kMaxWeightPerServer') const kErrorPenalty = Symbol('kErrorPenalty') function getGreatestCommonDivisor (a, b) { if (b === 0) return a return getGreatestCommonDivisor(b, a % b) } function defaultFactory (origin, opts) { return new Pool(origin, opts) } class BalancedPool extends PoolBase { constructor (upstreams = [], { factory = defaultFactory, ...opts } = {}) { super() this[kOptions] = opts this[kIndex] = -1 this[kCurrentWeight] = 0 this[kMaxWeightPerServer] = this[kOptions].maxWeightPerServer || 100 this[kErrorPenalty] = this[kOptions].errorPenalty || 15 if (!Array.isArray(upstreams)) { upstreams = [upstreams] } if (typeof factory !== 'function') { throw new InvalidArgumentError('factory must be a function.') } this[kInterceptors] = opts.interceptors && opts.interceptors.BalancedPool && Array.isArray(opts.interceptors.BalancedPool) ? opts.interceptors.BalancedPool : [] this[kFactory] = factory for (const upstream of upstreams) { this.addUpstream(upstream) } this._updateBalancedPoolStats() } addUpstream (upstream) { const upstreamOrigin = parseOrigin(upstream).origin if (this[kClients].find((pool) => ( pool[kUrl].origin === upstreamOrigin && pool.closed !== true && pool.destroyed !== true ))) { return this } const pool = this[kFactory](upstreamOrigin, Object.assign({}, this[kOptions])) this[kAddClient](pool) pool.on('connect', () => { pool[kWeight] = Math.min(this[kMaxWeightPerServer], pool[kWeight] + this[kErrorPenalty]) }) pool.on('connectionError', () => { pool[kWeight] = Math.max(1, pool[kWeight] - this[kErrorPenalty]) this._updateBalancedPoolStats() }) pool.on('disconnect', (...args) => { const err = args[2] if (err && err.code === 'UND_ERR_SOCKET') { // decrease the weight of the pool. pool[kWeight] = Math.max(1, pool[kWeight] - this[kErrorPenalty]) this._updateBalancedPoolStats() } }) for (const client of this[kClients]) { client[kWeight] = this[kMaxWeightPerServer] } this._updateBalancedPoolStats() return this } _updateBalancedPoolStats () { this[kGreatestCommonDivisor] = this[kClients].map(p => p[kWeight]).reduce(getGreatestCommonDivisor, 0) } removeUpstream (upstream) { const upstreamOrigin = parseOrigin(upstream).origin const pool = this[kClients].find((pool) => ( pool[kUrl].origin === upstreamOrigin && pool.closed !== true && pool.destroyed !== true )) if (pool) { this[kRemoveClient](pool) } return this } get upstreams () { return this[kClients] .filter(dispatcher => dispatcher.closed !== true && dispatcher.destroyed !== true) .map((p) => p[kUrl].origin) } [kGetDispatcher] () { // We validate that pools is greater than 0, // otherwise we would have to wait until an upstream // is added, which might never happen. if (this[kClients].length === 0) { throw new BalancedPoolMissingUpstreamError() } const dispatcher = this[kClients].find(dispatcher => ( !dispatcher[kNeedDrain] && dispatcher.closed !== true && dispatcher.destroyed !== true )) if (!dispatcher) { return } const allClientsBusy = this[kClients].map(pool => pool[kNeedDrain]).reduce((a, b) => a && b, true) if (allClientsBusy) { return } let counter = 0 let maxWeightIndex = this[kClients].findIndex(pool => !pool[kNeedDrain]) while (counter++ < this[kClients].length) { this[kIndex] = (this[kIndex] + 1) % this[kClients].length const pool = this[kClients][this[kIndex]] // find pool index with the largest weight if (pool[kWeight] > this[kClients][maxWeightIndex][kWeight] && !pool[kNeedDrain]) { maxWeightIndex = this[kIndex] } // decrease the current weight every `this[kClients].length`. if (this[kIndex] === 0) { // Set the current weight to the next lower weight. this[kCurrentWeight] = this[kCurrentWeight] - this[kGreatestCommonDivisor] if (this[kCurrentWeight] <= 0) { this[kCurrentWeight] = this[kMaxWeightPerServer] } } if (pool[kWeight] >= this[kCurrentWeight] && (!pool[kNeedDrain])) { return pool } } this[kCurrentWeight] = this[kClients][maxWeightIndex][kWeight] this[kIndex] = maxWeightIndex return this[kClients][maxWeightIndex] } } module.exports = BalancedPool /***/ }), /***/ 479: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { kConstruct } = __nccwpck_require__(296) const { urlEquals, fieldValues: getFieldValues } = __nccwpck_require__(3993) const { kEnumerableProperty, isDisturbed } = __nccwpck_require__(3440) const { kHeadersList } = __nccwpck_require__(6443) const { webidl } = __nccwpck_require__(4222) const { Response, cloneResponse } = __nccwpck_require__(8676) const { Request } = __nccwpck_require__(5194) const { kState, kHeaders, kGuard, kRealm } = __nccwpck_require__(9710) const { fetching } = __nccwpck_require__(2315) const { urlIsHttpHttpsScheme, createDeferredPromise, readAllBytes } = __nccwpck_require__(5523) const assert = __nccwpck_require__(2613) const { getGlobalDispatcher } = __nccwpck_require__(2581) /** * @see https://w3c.github.io/ServiceWorker/#dfn-cache-batch-operation * @typedef {Object} CacheBatchOperation * @property {'delete' | 'put'} type * @property {any} request * @property {any} response * @property {import('../../types/cache').CacheQueryOptions} options */ /** * @see https://w3c.github.io/ServiceWorker/#dfn-request-response-list * @typedef {[any, any][]} requestResponseList */ class Cache { /** * @see https://w3c.github.io/ServiceWorker/#dfn-relevant-request-response-list * @type {requestResponseList} */ #relevantRequestResponseList constructor () { if (arguments[0] !== kConstruct) { webidl.illegalConstructor() } this.#relevantRequestResponseList = arguments[1] } async match (request, options = {}) { webidl.brandCheck(this, Cache) webidl.argumentLengthCheck(arguments, 1, { header: 'Cache.match' }) request = webidl.converters.RequestInfo(request) options = webidl.converters.CacheQueryOptions(options) const p = await this.matchAll(request, options) if (p.length === 0) { return } return p[0] } async matchAll (request = undefined, options = {}) { webidl.brandCheck(this, Cache) if (request !== undefined) request = webidl.converters.RequestInfo(request) options = webidl.converters.CacheQueryOptions(options) // 1. let r = null // 2. if (request !== undefined) { if (request instanceof Request) { // 2.1.1 r = request[kState] // 2.1.2 if (r.method !== 'GET' && !options.ignoreMethod) { return [] } } else if (typeof request === 'string') { // 2.2.1 r = new Request(request)[kState] } } // 5. // 5.1 const responses = [] // 5.2 if (request === undefined) { // 5.2.1 for (const requestResponse of this.#relevantRequestResponseList) { responses.push(requestResponse[1]) } } else { // 5.3 // 5.3.1 const requestResponses = this.#queryCache(r, options) // 5.3.2 for (const requestResponse of requestResponses) { responses.push(requestResponse[1]) } } // 5.4 // We don't implement CORs so we don't need to loop over the responses, yay! // 5.5.1 const responseList = [] // 5.5.2 for (const response of responses) { // 5.5.2.1 const responseObject = new Response(response.body?.source ?? null) const body = responseObject[kState].body responseObject[kState] = response responseObject[kState].body = body responseObject[kHeaders][kHeadersList] = response.headersList responseObject[kHeaders][kGuard] = 'immutable' responseList.push(responseObject) } // 6. return Object.freeze(responseList) } async add (request) { webidl.brandCheck(this, Cache) webidl.argumentLengthCheck(arguments, 1, { header: 'Cache.add' }) request = webidl.converters.RequestInfo(request) // 1. const requests = [request] // 2. const responseArrayPromise = this.addAll(requests) // 3. return await responseArrayPromise } async addAll (requests) { webidl.brandCheck(this, Cache) webidl.argumentLengthCheck(arguments, 1, { header: 'Cache.addAll' }) requests = webidl.converters['sequence'](requests) // 1. const responsePromises = [] // 2. const requestList = [] // 3. for (const request of requests) { if (typeof request === 'string') { continue } // 3.1 const r = request[kState] // 3.2 if (!urlIsHttpHttpsScheme(r.url) || r.method !== 'GET') { throw webidl.errors.exception({ header: 'Cache.addAll', message: 'Expected http/s scheme when method is not GET.' }) } } // 4. /** @type {ReturnType[]} */ const fetchControllers = [] // 5. for (const request of requests) { // 5.1 const r = new Request(request)[kState] // 5.2 if (!urlIsHttpHttpsScheme(r.url)) { throw webidl.errors.exception({ header: 'Cache.addAll', message: 'Expected http/s scheme.' }) } // 5.4 r.initiator = 'fetch' r.destination = 'subresource' // 5.5 requestList.push(r) // 5.6 const responsePromise = createDeferredPromise() // 5.7 fetchControllers.push(fetching({ request: r, dispatcher: getGlobalDispatcher(), processResponse (response) { // 1. if (response.type === 'error' || response.status === 206 || response.status < 200 || response.status > 299) { responsePromise.reject(webidl.errors.exception({ header: 'Cache.addAll', message: 'Received an invalid status code or the request failed.' })) } else if (response.headersList.contains('vary')) { // 2. // 2.1 const fieldValues = getFieldValues(response.headersList.get('vary')) // 2.2 for (const fieldValue of fieldValues) { // 2.2.1 if (fieldValue === '*') { responsePromise.reject(webidl.errors.exception({ header: 'Cache.addAll', message: 'invalid vary field value' })) for (const controller of fetchControllers) { controller.abort() } return } } } }, processResponseEndOfBody (response) { // 1. if (response.aborted) { responsePromise.reject(new DOMException('aborted', 'AbortError')) return } // 2. responsePromise.resolve(response) } })) // 5.8 responsePromises.push(responsePromise.promise) } // 6. const p = Promise.all(responsePromises) // 7. const responses = await p // 7.1 const operations = [] // 7.2 let index = 0 // 7.3 for (const response of responses) { // 7.3.1 /** @type {CacheBatchOperation} */ const operation = { type: 'put', // 7.3.2 request: requestList[index], // 7.3.3 response // 7.3.4 } operations.push(operation) // 7.3.5 index++ // 7.3.6 } // 7.5 const cacheJobPromise = createDeferredPromise() // 7.6.1 let errorData = null // 7.6.2 try { this.#batchCacheOperations(operations) } catch (e) { errorData = e } // 7.6.3 queueMicrotask(() => { // 7.6.3.1 if (errorData === null) { cacheJobPromise.resolve(undefined) } else { // 7.6.3.2 cacheJobPromise.reject(errorData) } }) // 7.7 return cacheJobPromise.promise } async put (request, response) { webidl.brandCheck(this, Cache) webidl.argumentLengthCheck(arguments, 2, { header: 'Cache.put' }) request = webidl.converters.RequestInfo(request) response = webidl.converters.Response(response) // 1. let innerRequest = null // 2. if (request instanceof Request) { innerRequest = request[kState] } else { // 3. innerRequest = new Request(request)[kState] } // 4. if (!urlIsHttpHttpsScheme(innerRequest.url) || innerRequest.method !== 'GET') { throw webidl.errors.exception({ header: 'Cache.put', message: 'Expected an http/s scheme when method is not GET' }) } // 5. const innerResponse = response[kState] // 6. if (innerResponse.status === 206) { throw webidl.errors.exception({ header: 'Cache.put', message: 'Got 206 status' }) } // 7. if (innerResponse.headersList.contains('vary')) { // 7.1. const fieldValues = getFieldValues(innerResponse.headersList.get('vary')) // 7.2. for (const fieldValue of fieldValues) { // 7.2.1 if (fieldValue === '*') { throw webidl.errors.exception({ header: 'Cache.put', message: 'Got * vary field value' }) } } } // 8. if (innerResponse.body && (isDisturbed(innerResponse.body.stream) || innerResponse.body.stream.locked)) { throw webidl.errors.exception({ header: 'Cache.put', message: 'Response body is locked or disturbed' }) } // 9. const clonedResponse = cloneResponse(innerResponse) // 10. const bodyReadPromise = createDeferredPromise() // 11. if (innerResponse.body != null) { // 11.1 const stream = innerResponse.body.stream // 11.2 const reader = stream.getReader() // 11.3 readAllBytes(reader).then(bodyReadPromise.resolve, bodyReadPromise.reject) } else { bodyReadPromise.resolve(undefined) } // 12. /** @type {CacheBatchOperation[]} */ const operations = [] // 13. /** @type {CacheBatchOperation} */ const operation = { type: 'put', // 14. request: innerRequest, // 15. response: clonedResponse // 16. } // 17. operations.push(operation) // 19. const bytes = await bodyReadPromise.promise if (clonedResponse.body != null) { clonedResponse.body.source = bytes } // 19.1 const cacheJobPromise = createDeferredPromise() // 19.2.1 let errorData = null // 19.2.2 try { this.#batchCacheOperations(operations) } catch (e) { errorData = e } // 19.2.3 queueMicrotask(() => { // 19.2.3.1 if (errorData === null) { cacheJobPromise.resolve() } else { // 19.2.3.2 cacheJobPromise.reject(errorData) } }) return cacheJobPromise.promise } async delete (request, options = {}) { webidl.brandCheck(this, Cache) webidl.argumentLengthCheck(arguments, 1, { header: 'Cache.delete' }) request = webidl.converters.RequestInfo(request) options = webidl.converters.CacheQueryOptions(options) /** * @type {Request} */ let r = null if (request instanceof Request) { r = request[kState] if (r.method !== 'GET' && !options.ignoreMethod) { return false } } else { assert(typeof request === 'string') r = new Request(request)[kState] } /** @type {CacheBatchOperation[]} */ const operations = [] /** @type {CacheBatchOperation} */ const operation = { type: 'delete', request: r, options } operations.push(operation) const cacheJobPromise = createDeferredPromise() let errorData = null let requestResponses try { requestResponses = this.#batchCacheOperations(operations) } catch (e) { errorData = e } queueMicrotask(() => { if (errorData === null) { cacheJobPromise.resolve(!!requestResponses?.length) } else { cacheJobPromise.reject(errorData) } }) return cacheJobPromise.promise } /** * @see https://w3c.github.io/ServiceWorker/#dom-cache-keys * @param {any} request * @param {import('../../types/cache').CacheQueryOptions} options * @returns {readonly Request[]} */ async keys (request = undefined, options = {}) { webidl.brandCheck(this, Cache) if (request !== undefined) request = webidl.converters.RequestInfo(request) options = webidl.converters.CacheQueryOptions(options) // 1. let r = null // 2. if (request !== undefined) { // 2.1 if (request instanceof Request) { // 2.1.1 r = request[kState] // 2.1.2 if (r.method !== 'GET' && !options.ignoreMethod) { return [] } } else if (typeof request === 'string') { // 2.2 r = new Request(request)[kState] } } // 4. const promise = createDeferredPromise() // 5. // 5.1 const requests = [] // 5.2 if (request === undefined) { // 5.2.1 for (const requestResponse of this.#relevantRequestResponseList) { // 5.2.1.1 requests.push(requestResponse[0]) } } else { // 5.3 // 5.3.1 const requestResponses = this.#queryCache(r, options) // 5.3.2 for (const requestResponse of requestResponses) { // 5.3.2.1 requests.push(requestResponse[0]) } } // 5.4 queueMicrotask(() => { // 5.4.1 const requestList = [] // 5.4.2 for (const request of requests) { const requestObject = new Request('https://a') requestObject[kState] = request requestObject[kHeaders][kHeadersList] = request.headersList requestObject[kHeaders][kGuard] = 'immutable' requestObject[kRealm] = request.client // 5.4.2.1 requestList.push(requestObject) } // 5.4.3 promise.resolve(Object.freeze(requestList)) }) return promise.promise } /** * @see https://w3c.github.io/ServiceWorker/#batch-cache-operations-algorithm * @param {CacheBatchOperation[]} operations * @returns {requestResponseList} */ #batchCacheOperations (operations) { // 1. const cache = this.#relevantRequestResponseList // 2. const backupCache = [...cache] // 3. const addedItems = [] // 4.1 const resultList = [] try { // 4.2 for (const operation of operations) { // 4.2.1 if (operation.type !== 'delete' && operation.type !== 'put') { throw webidl.errors.exception({ header: 'Cache.#batchCacheOperations', message: 'operation type does not match "delete" or "put"' }) } // 4.2.2 if (operation.type === 'delete' && operation.response != null) { throw webidl.errors.exception({ header: 'Cache.#batchCacheOperations', message: 'delete operation should not have an associated response' }) } // 4.2.3 if (this.#queryCache(operation.request, operation.options, addedItems).length) { throw new DOMException('???', 'InvalidStateError') } // 4.2.4 let requestResponses // 4.2.5 if (operation.type === 'delete') { // 4.2.5.1 requestResponses = this.#queryCache(operation.request, operation.options) // TODO: the spec is wrong, this is needed to pass WPTs if (requestResponses.length === 0) { return [] } // 4.2.5.2 for (const requestResponse of requestResponses) { const idx = cache.indexOf(requestResponse) assert(idx !== -1) // 4.2.5.2.1 cache.splice(idx, 1) } } else if (operation.type === 'put') { // 4.2.6 // 4.2.6.1 if (operation.response == null) { throw webidl.errors.exception({ header: 'Cache.#batchCacheOperations', message: 'put operation should have an associated response' }) } // 4.2.6.2 const r = operation.request // 4.2.6.3 if (!urlIsHttpHttpsScheme(r.url)) { throw webidl.errors.exception({ header: 'Cache.#batchCacheOperations', message: 'expected http or https scheme' }) } // 4.2.6.4 if (r.method !== 'GET') { throw webidl.errors.exception({ header: 'Cache.#batchCacheOperations', message: 'not get method' }) } // 4.2.6.5 if (operation.options != null) { throw webidl.errors.exception({ header: 'Cache.#batchCacheOperations', message: 'options must not be defined' }) } // 4.2.6.6 requestResponses = this.#queryCache(operation.request) // 4.2.6.7 for (const requestResponse of requestResponses) { const idx = cache.indexOf(requestResponse) assert(idx !== -1) // 4.2.6.7.1 cache.splice(idx, 1) } // 4.2.6.8 cache.push([operation.request, operation.response]) // 4.2.6.10 addedItems.push([operation.request, operation.response]) } // 4.2.7 resultList.push([operation.request, operation.response]) } // 4.3 return resultList } catch (e) { // 5. // 5.1 this.#relevantRequestResponseList.length = 0 // 5.2 this.#relevantRequestResponseList = backupCache // 5.3 throw e } } /** * @see https://w3c.github.io/ServiceWorker/#query-cache * @param {any} requestQuery * @param {import('../../types/cache').CacheQueryOptions} options * @param {requestResponseList} targetStorage * @returns {requestResponseList} */ #queryCache (requestQuery, options, targetStorage) { /** @type {requestResponseList} */ const resultList = [] const storage = targetStorage ?? this.#relevantRequestResponseList for (const requestResponse of storage) { const [cachedRequest, cachedResponse] = requestResponse if (this.#requestMatchesCachedItem(requestQuery, cachedRequest, cachedResponse, options)) { resultList.push(requestResponse) } } return resultList } /** * @see https://w3c.github.io/ServiceWorker/#request-matches-cached-item-algorithm * @param {any} requestQuery * @param {any} request * @param {any | null} response * @param {import('../../types/cache').CacheQueryOptions | undefined} options * @returns {boolean} */ #requestMatchesCachedItem (requestQuery, request, response = null, options) { // if (options?.ignoreMethod === false && request.method === 'GET') { // return false // } const queryURL = new URL(requestQuery.url) const cachedURL = new URL(request.url) if (options?.ignoreSearch) { cachedURL.search = '' queryURL.search = '' } if (!urlEquals(queryURL, cachedURL, true)) { return false } if ( response == null || options?.ignoreVary || !response.headersList.contains('vary') ) { return true } const fieldValues = getFieldValues(response.headersList.get('vary')) for (const fieldValue of fieldValues) { if (fieldValue === '*') { return false } const requestValue = request.headersList.get(fieldValue) const queryValue = requestQuery.headersList.get(fieldValue) // If one has the header and the other doesn't, or one has // a different value than the other, return false if (requestValue !== queryValue) { return false } } return true } } Object.defineProperties(Cache.prototype, { [Symbol.toStringTag]: { value: 'Cache', configurable: true }, match: kEnumerableProperty, matchAll: kEnumerableProperty, add: kEnumerableProperty, addAll: kEnumerableProperty, put: kEnumerableProperty, delete: kEnumerableProperty, keys: kEnumerableProperty }) const cacheQueryOptionConverters = [ { key: 'ignoreSearch', converter: webidl.converters.boolean, defaultValue: false }, { key: 'ignoreMethod', converter: webidl.converters.boolean, defaultValue: false }, { key: 'ignoreVary', converter: webidl.converters.boolean, defaultValue: false } ] webidl.converters.CacheQueryOptions = webidl.dictionaryConverter(cacheQueryOptionConverters) webidl.converters.MultiCacheQueryOptions = webidl.dictionaryConverter([ ...cacheQueryOptionConverters, { key: 'cacheName', converter: webidl.converters.DOMString } ]) webidl.converters.Response = webidl.interfaceConverter(Response) webidl.converters['sequence'] = webidl.sequenceConverter( webidl.converters.RequestInfo ) module.exports = { Cache } /***/ }), /***/ 4738: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { kConstruct } = __nccwpck_require__(296) const { Cache } = __nccwpck_require__(479) const { webidl } = __nccwpck_require__(4222) const { kEnumerableProperty } = __nccwpck_require__(3440) class CacheStorage { /** * @see https://w3c.github.io/ServiceWorker/#dfn-relevant-name-to-cache-map * @type {Map} */ async has (cacheName) { webidl.brandCheck(this, CacheStorage) webidl.argumentLengthCheck(arguments, 1, { header: 'CacheStorage.has' }) cacheName = webidl.converters.DOMString(cacheName) // 2.1.1 // 2.2 return this.#caches.has(cacheName) } /** * @see https://w3c.github.io/ServiceWorker/#dom-cachestorage-open * @param {string} cacheName * @returns {Promise} */ async open (cacheName) { webidl.brandCheck(this, CacheStorage) webidl.argumentLengthCheck(arguments, 1, { header: 'CacheStorage.open' }) cacheName = webidl.converters.DOMString(cacheName) // 2.1 if (this.#caches.has(cacheName)) { // await caches.open('v1') !== await caches.open('v1') // 2.1.1 const cache = this.#caches.get(cacheName) // 2.1.1.1 return new Cache(kConstruct, cache) } // 2.2 const cache = [] // 2.3 this.#caches.set(cacheName, cache) // 2.4 return new Cache(kConstruct, cache) } /** * @see https://w3c.github.io/ServiceWorker/#cache-storage-delete * @param {string} cacheName * @returns {Promise} */ async delete (cacheName) { webidl.brandCheck(this, CacheStorage) webidl.argumentLengthCheck(arguments, 1, { header: 'CacheStorage.delete' }) cacheName = webidl.converters.DOMString(cacheName) return this.#caches.delete(cacheName) } /** * @see https://w3c.github.io/ServiceWorker/#cache-storage-keys * @returns {string[]} */ async keys () { webidl.brandCheck(this, CacheStorage) // 2.1 const keys = this.#caches.keys() // 2.2 return [...keys] } } Object.defineProperties(CacheStorage.prototype, { [Symbol.toStringTag]: { value: 'CacheStorage', configurable: true }, match: kEnumerableProperty, has: kEnumerableProperty, open: kEnumerableProperty, delete: kEnumerableProperty, keys: kEnumerableProperty }) module.exports = { CacheStorage } /***/ }), /***/ 296: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { module.exports = { kConstruct: (__nccwpck_require__(6443).kConstruct) } /***/ }), /***/ 3993: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const assert = __nccwpck_require__(2613) const { URLSerializer } = __nccwpck_require__(4322) const { isValidHeaderName } = __nccwpck_require__(5523) /** * @see https://url.spec.whatwg.org/#concept-url-equals * @param {URL} A * @param {URL} B * @param {boolean | undefined} excludeFragment * @returns {boolean} */ function urlEquals (A, B, excludeFragment = false) { const serializedA = URLSerializer(A, excludeFragment) const serializedB = URLSerializer(B, excludeFragment) return serializedA === serializedB } /** * @see https://github.com/chromium/chromium/blob/694d20d134cb553d8d89e5500b9148012b1ba299/content/browser/cache_storage/cache_storage_cache.cc#L260-L262 * @param {string} header */ function fieldValues (header) { assert(header !== null) const values = [] for (let value of header.split(',')) { value = value.trim() if (!value.length) { continue } else if (!isValidHeaderName(value)) { continue } values.push(value) } return values } module.exports = { urlEquals, fieldValues } /***/ }), /***/ 6197: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // @ts-check /* global WebAssembly */ const assert = __nccwpck_require__(2613) const net = __nccwpck_require__(9278) const http = __nccwpck_require__(8611) const { pipeline } = __nccwpck_require__(2203) const util = __nccwpck_require__(3440) const timers = __nccwpck_require__(8804) const Request = __nccwpck_require__(4655) const DispatcherBase = __nccwpck_require__(1) const { RequestContentLengthMismatchError, ResponseContentLengthMismatchError, InvalidArgumentError, RequestAbortedError, HeadersTimeoutError, HeadersOverflowError, SocketError, InformationalError, BodyTimeoutError, HTTPParserError, ResponseExceededMaxSizeError, ClientDestroyedError } = __nccwpck_require__(8707) const buildConnector = __nccwpck_require__(9136) const { kUrl, kReset, kServerName, kClient, kBusy, kParser, kConnect, kBlocking, kResuming, kRunning, kPending, kSize, kWriting, kQueue, kConnected, kConnecting, kNeedDrain, kNoRef, kKeepAliveDefaultTimeout, kHostHeader, kPendingIdx, kRunningIdx, kError, kPipelining, kSocket, kKeepAliveTimeoutValue, kMaxHeadersSize, kKeepAliveMaxTimeout, kKeepAliveTimeoutThreshold, kHeadersTimeout, kBodyTimeout, kStrictContentLength, kConnector, kMaxRedirections, kMaxRequests, kCounter, kClose, kDestroy, kDispatch, kInterceptors, kLocalAddress, kMaxResponseSize, kHTTPConnVersion, // HTTP2 kHost, kHTTP2Session, kHTTP2SessionState, kHTTP2BuildRequest, kHTTP2CopyHeaders, kHTTP1BuildRequest } = __nccwpck_require__(6443) /** @type {import('http2')} */ let http2 try { http2 = __nccwpck_require__(5675) } catch { // @ts-ignore http2 = { constants: {} } } const { constants: { HTTP2_HEADER_AUTHORITY, HTTP2_HEADER_METHOD, HTTP2_HEADER_PATH, HTTP2_HEADER_SCHEME, HTTP2_HEADER_CONTENT_LENGTH, HTTP2_HEADER_EXPECT, HTTP2_HEADER_STATUS } } = http2 // Experimental let h2ExperimentalWarned = false const FastBuffer = Buffer[Symbol.species] const kClosedResolve = Symbol('kClosedResolve') const channels = {} try { const diagnosticsChannel = __nccwpck_require__(1637) channels.sendHeaders = diagnosticsChannel.channel('undici:client:sendHeaders') channels.beforeConnect = diagnosticsChannel.channel('undici:client:beforeConnect') channels.connectError = diagnosticsChannel.channel('undici:client:connectError') channels.connected = diagnosticsChannel.channel('undici:client:connected') } catch { channels.sendHeaders = { hasSubscribers: false } channels.beforeConnect = { hasSubscribers: false } channels.connectError = { hasSubscribers: false } channels.connected = { hasSubscribers: false } } /** * @type {import('../types/client').default} */ class Client extends DispatcherBase { /** * * @param {string|URL} url * @param {import('../types/client').Client.Options} options */ constructor (url, { interceptors, maxHeaderSize, headersTimeout, socketTimeout, requestTimeout, connectTimeout, bodyTimeout, idleTimeout, keepAlive, keepAliveTimeout, maxKeepAliveTimeout, keepAliveMaxTimeout, keepAliveTimeoutThreshold, socketPath, pipelining, tls, strictContentLength, maxCachedSessions, maxRedirections, connect, maxRequestsPerClient, localAddress, maxResponseSize, autoSelectFamily, autoSelectFamilyAttemptTimeout, // h2 allowH2, maxConcurrentStreams } = {}) { super() if (keepAlive !== undefined) { throw new InvalidArgumentError('unsupported keepAlive, use pipelining=0 instead') } if (socketTimeout !== undefined) { throw new InvalidArgumentError('unsupported socketTimeout, use headersTimeout & bodyTimeout instead') } if (requestTimeout !== undefined) { throw new InvalidArgumentError('unsupported requestTimeout, use headersTimeout & bodyTimeout instead') } if (idleTimeout !== undefined) { throw new InvalidArgumentError('unsupported idleTimeout, use keepAliveTimeout instead') } if (maxKeepAliveTimeout !== undefined) { throw new InvalidArgumentError('unsupported maxKeepAliveTimeout, use keepAliveMaxTimeout instead') } if (maxHeaderSize != null && !Number.isFinite(maxHeaderSize)) { throw new InvalidArgumentError('invalid maxHeaderSize') } if (socketPath != null && typeof socketPath !== 'string') { throw new InvalidArgumentError('invalid socketPath') } if (connectTimeout != null && (!Number.isFinite(connectTimeout) || connectTimeout < 0)) { throw new InvalidArgumentError('invalid connectTimeout') } if (keepAliveTimeout != null && (!Number.isFinite(keepAliveTimeout) || keepAliveTimeout <= 0)) { throw new InvalidArgumentError('invalid keepAliveTimeout') } if (keepAliveMaxTimeout != null && (!Number.isFinite(keepAliveMaxTimeout) || keepAliveMaxTimeout <= 0)) { throw new InvalidArgumentError('invalid keepAliveMaxTimeout') } if (keepAliveTimeoutThreshold != null && !Number.isFinite(keepAliveTimeoutThreshold)) { throw new InvalidArgumentError('invalid keepAliveTimeoutThreshold') } if (headersTimeout != null && (!Number.isInteger(headersTimeout) || headersTimeout < 0)) { throw new InvalidArgumentError('headersTimeout must be a positive integer or zero') } if (bodyTimeout != null && (!Number.isInteger(bodyTimeout) || bodyTimeout < 0)) { throw new InvalidArgumentError('bodyTimeout must be a positive integer or zero') } if (connect != null && typeof connect !== 'function' && typeof connect !== 'object') { throw new InvalidArgumentError('connect must be a function or an object') } if (maxRedirections != null && (!Number.isInteger(maxRedirections) || maxRedirections < 0)) { throw new InvalidArgumentError('maxRedirections must be a positive number') } if (maxRequestsPerClient != null && (!Number.isInteger(maxRequestsPerClient) || maxRequestsPerClient < 0)) { throw new InvalidArgumentError('maxRequestsPerClient must be a positive number') } if (localAddress != null && (typeof localAddress !== 'string' || net.isIP(localAddress) === 0)) { throw new InvalidArgumentError('localAddress must be valid string IP address') } if (maxResponseSize != null && (!Number.isInteger(maxResponseSize) || maxResponseSize < -1)) { throw new InvalidArgumentError('maxResponseSize must be a positive number') } if ( autoSelectFamilyAttemptTimeout != null && (!Number.isInteger(autoSelectFamilyAttemptTimeout) || autoSelectFamilyAttemptTimeout < -1) ) { throw new InvalidArgumentError('autoSelectFamilyAttemptTimeout must be a positive number') } // h2 if (allowH2 != null && typeof allowH2 !== 'boolean') { throw new InvalidArgumentError('allowH2 must be a valid boolean value') } if (maxConcurrentStreams != null && (typeof maxConcurrentStreams !== 'number' || maxConcurrentStreams < 1)) { throw new InvalidArgumentError('maxConcurrentStreams must be a possitive integer, greater than 0') } if (typeof connect !== 'function') { connect = buildConnector({ ...tls, maxCachedSessions, allowH2, socketPath, timeout: connectTimeout, ...(util.nodeHasAutoSelectFamily && autoSelectFamily ? { autoSelectFamily, autoSelectFamilyAttemptTimeout } : undefined), ...connect }) } this[kInterceptors] = interceptors && interceptors.Client && Array.isArray(interceptors.Client) ? interceptors.Client : [createRedirectInterceptor({ maxRedirections })] this[kUrl] = util.parseOrigin(url) this[kConnector] = connect this[kSocket] = null this[kPipelining] = pipelining != null ? pipelining : 1 this[kMaxHeadersSize] = maxHeaderSize || http.maxHeaderSize this[kKeepAliveDefaultTimeout] = keepAliveTimeout == null ? 4e3 : keepAliveTimeout this[kKeepAliveMaxTimeout] = keepAliveMaxTimeout == null ? 600e3 : keepAliveMaxTimeout this[kKeepAliveTimeoutThreshold] = keepAliveTimeoutThreshold == null ? 1e3 : keepAliveTimeoutThreshold this[kKeepAliveTimeoutValue] = this[kKeepAliveDefaultTimeout] this[kServerName] = null this[kLocalAddress] = localAddress != null ? localAddress : null this[kResuming] = 0 // 0, idle, 1, scheduled, 2 resuming this[kNeedDrain] = 0 // 0, idle, 1, scheduled, 2 resuming this[kHostHeader] = `host: ${this[kUrl].hostname}${this[kUrl].port ? `:${this[kUrl].port}` : ''}\r\n` this[kBodyTimeout] = bodyTimeout != null ? bodyTimeout : 300e3 this[kHeadersTimeout] = headersTimeout != null ? headersTimeout : 300e3 this[kStrictContentLength] = strictContentLength == null ? true : strictContentLength this[kMaxRedirections] = maxRedirections this[kMaxRequests] = maxRequestsPerClient this[kClosedResolve] = null this[kMaxResponseSize] = maxResponseSize > -1 ? maxResponseSize : -1 this[kHTTPConnVersion] = 'h1' // HTTP/2 this[kHTTP2Session] = null this[kHTTP2SessionState] = !allowH2 ? null : { // streams: null, // Fixed queue of streams - For future support of `push` openStreams: 0, // Keep track of them to decide wether or not unref the session maxConcurrentStreams: maxConcurrentStreams != null ? maxConcurrentStreams : 100 // Max peerConcurrentStreams for a Node h2 server } this[kHost] = `${this[kUrl].hostname}${this[kUrl].port ? `:${this[kUrl].port}` : ''}` // kQueue is built up of 3 sections separated by // the kRunningIdx and kPendingIdx indices. // | complete | running | pending | // ^ kRunningIdx ^ kPendingIdx ^ kQueue.length // kRunningIdx points to the first running element. // kPendingIdx points to the first pending element. // This implements a fast queue with an amortized // time of O(1). this[kQueue] = [] this[kRunningIdx] = 0 this[kPendingIdx] = 0 } get pipelining () { return this[kPipelining] } set pipelining (value) { this[kPipelining] = value resume(this, true) } get [kPending] () { return this[kQueue].length - this[kPendingIdx] } get [kRunning] () { return this[kPendingIdx] - this[kRunningIdx] } get [kSize] () { return this[kQueue].length - this[kRunningIdx] } get [kConnected] () { return !!this[kSocket] && !this[kConnecting] && !this[kSocket].destroyed } get [kBusy] () { const socket = this[kSocket] return ( (socket && (socket[kReset] || socket[kWriting] || socket[kBlocking])) || (this[kSize] >= (this[kPipelining] || 1)) || this[kPending] > 0 ) } /* istanbul ignore: only used for test */ [kConnect] (cb) { connect(this) this.once('connect', cb) } [kDispatch] (opts, handler) { const origin = opts.origin || this[kUrl].origin const request = this[kHTTPConnVersion] === 'h2' ? Request[kHTTP2BuildRequest](origin, opts, handler) : Request[kHTTP1BuildRequest](origin, opts, handler) this[kQueue].push(request) if (this[kResuming]) { // Do nothing. } else if (util.bodyLength(request.body) == null && util.isIterable(request.body)) { // Wait a tick in case stream/iterator is ended in the same tick. this[kResuming] = 1 process.nextTick(resume, this) } else { resume(this, true) } if (this[kResuming] && this[kNeedDrain] !== 2 && this[kBusy]) { this[kNeedDrain] = 2 } return this[kNeedDrain] < 2 } async [kClose] () { // TODO: for H2 we need to gracefully flush the remaining enqueued // request and close each stream. return new Promise((resolve) => { if (!this[kSize]) { resolve(null) } else { this[kClosedResolve] = resolve } }) } async [kDestroy] (err) { return new Promise((resolve) => { const requests = this[kQueue].splice(this[kPendingIdx]) for (let i = 0; i < requests.length; i++) { const request = requests[i] errorRequest(this, request, err) } const callback = () => { if (this[kClosedResolve]) { // TODO (fix): Should we error here with ClientDestroyedError? this[kClosedResolve]() this[kClosedResolve] = null } resolve() } if (this[kHTTP2Session] != null) { util.destroy(this[kHTTP2Session], err) this[kHTTP2Session] = null this[kHTTP2SessionState] = null } if (!this[kSocket]) { queueMicrotask(callback) } else { util.destroy(this[kSocket].on('close', callback), err) } resume(this) }) } } function onHttp2SessionError (err) { assert(err.code !== 'ERR_TLS_CERT_ALTNAME_INVALID') this[kSocket][kError] = err onError(this[kClient], err) } function onHttp2FrameError (type, code, id) { const err = new InformationalError(`HTTP/2: "frameError" received - type ${type}, code ${code}`) if (id === 0) { this[kSocket][kError] = err onError(this[kClient], err) } } function onHttp2SessionEnd () { util.destroy(this, new SocketError('other side closed')) util.destroy(this[kSocket], new SocketError('other side closed')) } function onHTTP2GoAway (code) { const client = this[kClient] const err = new InformationalError(`HTTP/2: "GOAWAY" frame received with code ${code}`) client[kSocket] = null client[kHTTP2Session] = null if (client.destroyed) { assert(this[kPending] === 0) // Fail entire queue. const requests = client[kQueue].splice(client[kRunningIdx]) for (let i = 0; i < requests.length; i++) { const request = requests[i] errorRequest(this, request, err) } } else if (client[kRunning] > 0) { // Fail head of pipeline. const request = client[kQueue][client[kRunningIdx]] client[kQueue][client[kRunningIdx]++] = null errorRequest(client, request, err) } client[kPendingIdx] = client[kRunningIdx] assert(client[kRunning] === 0) client.emit('disconnect', client[kUrl], [client], err ) resume(client) } const constants = __nccwpck_require__(2824) const createRedirectInterceptor = __nccwpck_require__(4415) const EMPTY_BUF = Buffer.alloc(0) async function lazyllhttp () { const llhttpWasmData = process.env.JEST_WORKER_ID ? __nccwpck_require__(3870) : undefined let mod try { mod = await WebAssembly.compile(Buffer.from(__nccwpck_require__(3434), 'base64')) } catch (e) { /* istanbul ignore next */ // We could check if the error was caused by the simd option not // being enabled, but the occurring of this other error // * https://github.com/emscripten-core/emscripten/issues/11495 // got me to remove that check to avoid breaking Node 12. mod = await WebAssembly.compile(Buffer.from(llhttpWasmData || __nccwpck_require__(3870), 'base64')) } return await WebAssembly.instantiate(mod, { env: { /* eslint-disable camelcase */ wasm_on_url: (p, at, len) => { /* istanbul ignore next */ return 0 }, wasm_on_status: (p, at, len) => { assert.strictEqual(currentParser.ptr, p) const start = at - currentBufferPtr + currentBufferRef.byteOffset return currentParser.onStatus(new FastBuffer(currentBufferRef.buffer, start, len)) || 0 }, wasm_on_message_begin: (p) => { assert.strictEqual(currentParser.ptr, p) return currentParser.onMessageBegin() || 0 }, wasm_on_header_field: (p, at, len) => { assert.strictEqual(currentParser.ptr, p) const start = at - currentBufferPtr + currentBufferRef.byteOffset return currentParser.onHeaderField(new FastBuffer(currentBufferRef.buffer, start, len)) || 0 }, wasm_on_header_value: (p, at, len) => { assert.strictEqual(currentParser.ptr, p) const start = at - currentBufferPtr + currentBufferRef.byteOffset return currentParser.onHeaderValue(new FastBuffer(currentBufferRef.buffer, start, len)) || 0 }, wasm_on_headers_complete: (p, statusCode, upgrade, shouldKeepAlive) => { assert.strictEqual(currentParser.ptr, p) return currentParser.onHeadersComplete(statusCode, Boolean(upgrade), Boolean(shouldKeepAlive)) || 0 }, wasm_on_body: (p, at, len) => { assert.strictEqual(currentParser.ptr, p) const start = at - currentBufferPtr + currentBufferRef.byteOffset return currentParser.onBody(new FastBuffer(currentBufferRef.buffer, start, len)) || 0 }, wasm_on_message_complete: (p) => { assert.strictEqual(currentParser.ptr, p) return currentParser.onMessageComplete() || 0 } /* eslint-enable camelcase */ } }) } let llhttpInstance = null let llhttpPromise = lazyllhttp() llhttpPromise.catch() let currentParser = null let currentBufferRef = null let currentBufferSize = 0 let currentBufferPtr = null const TIMEOUT_HEADERS = 1 const TIMEOUT_BODY = 2 const TIMEOUT_IDLE = 3 class Parser { constructor (client, socket, { exports }) { assert(Number.isFinite(client[kMaxHeadersSize]) && client[kMaxHeadersSize] > 0) this.llhttp = exports this.ptr = this.llhttp.llhttp_alloc(constants.TYPE.RESPONSE) this.client = client this.socket = socket this.timeout = null this.timeoutValue = null this.timeoutType = null this.statusCode = null this.statusText = '' this.upgrade = false this.headers = [] this.headersSize = 0 this.headersMaxSize = client[kMaxHeadersSize] this.shouldKeepAlive = false this.paused = false this.resume = this.resume.bind(this) this.bytesRead = 0 this.keepAlive = '' this.contentLength = '' this.connection = '' this.maxResponseSize = client[kMaxResponseSize] } setTimeout (value, type) { this.timeoutType = type if (value !== this.timeoutValue) { timers.clearTimeout(this.timeout) if (value) { this.timeout = timers.setTimeout(onParserTimeout, value, this) // istanbul ignore else: only for jest if (this.timeout.unref) { this.timeout.unref() } } else { this.timeout = null } this.timeoutValue = value } else if (this.timeout) { // istanbul ignore else: only for jest if (this.timeout.refresh) { this.timeout.refresh() } } } resume () { if (this.socket.destroyed || !this.paused) { return } assert(this.ptr != null) assert(currentParser == null) this.llhttp.llhttp_resume(this.ptr) assert(this.timeoutType === TIMEOUT_BODY) if (this.timeout) { // istanbul ignore else: only for jest if (this.timeout.refresh) { this.timeout.refresh() } } this.paused = false this.execute(this.socket.read() || EMPTY_BUF) // Flush parser. this.readMore() } readMore () { while (!this.paused && this.ptr) { const chunk = this.socket.read() if (chunk === null) { break } this.execute(chunk) } } execute (data) { assert(this.ptr != null) assert(currentParser == null) assert(!this.paused) const { socket, llhttp } = this if (data.length > currentBufferSize) { if (currentBufferPtr) { llhttp.free(currentBufferPtr) } currentBufferSize = Math.ceil(data.length / 4096) * 4096 currentBufferPtr = llhttp.malloc(currentBufferSize) } new Uint8Array(llhttp.memory.buffer, currentBufferPtr, currentBufferSize).set(data) // Call `execute` on the wasm parser. // We pass the `llhttp_parser` pointer address, the pointer address of buffer view data, // and finally the length of bytes to parse. // The return value is an error code or `constants.ERROR.OK`. try { let ret try { currentBufferRef = data currentParser = this ret = llhttp.llhttp_execute(this.ptr, currentBufferPtr, data.length) /* eslint-disable-next-line no-useless-catch */ } catch (err) { /* istanbul ignore next: difficult to make a test case for */ throw err } finally { currentParser = null currentBufferRef = null } const offset = llhttp.llhttp_get_error_pos(this.ptr) - currentBufferPtr if (ret === constants.ERROR.PAUSED_UPGRADE) { this.onUpgrade(data.slice(offset)) } else if (ret === constants.ERROR.PAUSED) { this.paused = true socket.unshift(data.slice(offset)) } else if (ret !== constants.ERROR.OK) { const ptr = llhttp.llhttp_get_error_reason(this.ptr) let message = '' /* istanbul ignore else: difficult to make a test case for */ if (ptr) { const len = new Uint8Array(llhttp.memory.buffer, ptr).indexOf(0) message = 'Response does not match the HTTP/1.1 protocol (' + Buffer.from(llhttp.memory.buffer, ptr, len).toString() + ')' } throw new HTTPParserError(message, constants.ERROR[ret], data.slice(offset)) } } catch (err) { util.destroy(socket, err) } } destroy () { assert(this.ptr != null) assert(currentParser == null) this.llhttp.llhttp_free(this.ptr) this.ptr = null timers.clearTimeout(this.timeout) this.timeout = null this.timeoutValue = null this.timeoutType = null this.paused = false } onStatus (buf) { this.statusText = buf.toString() } onMessageBegin () { const { socket, client } = this /* istanbul ignore next: difficult to make a test case for */ if (socket.destroyed) { return -1 } const request = client[kQueue][client[kRunningIdx]] if (!request) { return -1 } } onHeaderField (buf) { const len = this.headers.length if ((len & 1) === 0) { this.headers.push(buf) } else { this.headers[len - 1] = Buffer.concat([this.headers[len - 1], buf]) } this.trackHeader(buf.length) } onHeaderValue (buf) { let len = this.headers.length if ((len & 1) === 1) { this.headers.push(buf) len += 1 } else { this.headers[len - 1] = Buffer.concat([this.headers[len - 1], buf]) } const key = this.headers[len - 2] if (key.length === 10 && key.toString().toLowerCase() === 'keep-alive') { this.keepAlive += buf.toString() } else if (key.length === 10 && key.toString().toLowerCase() === 'connection') { this.connection += buf.toString() } else if (key.length === 14 && key.toString().toLowerCase() === 'content-length') { this.contentLength += buf.toString() } this.trackHeader(buf.length) } trackHeader (len) { this.headersSize += len if (this.headersSize >= this.headersMaxSize) { util.destroy(this.socket, new HeadersOverflowError()) } } onUpgrade (head) { const { upgrade, client, socket, headers, statusCode } = this assert(upgrade) const request = client[kQueue][client[kRunningIdx]] assert(request) assert(!socket.destroyed) assert(socket === client[kSocket]) assert(!this.paused) assert(request.upgrade || request.method === 'CONNECT') this.statusCode = null this.statusText = '' this.shouldKeepAlive = null assert(this.headers.length % 2 === 0) this.headers = [] this.headersSize = 0 socket.unshift(head) socket[kParser].destroy() socket[kParser] = null socket[kClient] = null socket[kError] = null socket .removeListener('error', onSocketError) .removeListener('readable', onSocketReadable) .removeListener('end', onSocketEnd) .removeListener('close', onSocketClose) client[kSocket] = null client[kQueue][client[kRunningIdx]++] = null client.emit('disconnect', client[kUrl], [client], new InformationalError('upgrade')) try { request.onUpgrade(statusCode, headers, socket) } catch (err) { util.destroy(socket, err) } resume(client) } onHeadersComplete (statusCode, upgrade, shouldKeepAlive) { const { client, socket, headers, statusText } = this /* istanbul ignore next: difficult to make a test case for */ if (socket.destroyed) { return -1 } const request = client[kQueue][client[kRunningIdx]] /* istanbul ignore next: difficult to make a test case for */ if (!request) { return -1 } assert(!this.upgrade) assert(this.statusCode < 200) if (statusCode === 100) { util.destroy(socket, new SocketError('bad response', util.getSocketInfo(socket))) return -1 } /* this can only happen if server is misbehaving */ if (upgrade && !request.upgrade) { util.destroy(socket, new SocketError('bad upgrade', util.getSocketInfo(socket))) return -1 } assert.strictEqual(this.timeoutType, TIMEOUT_HEADERS) this.statusCode = statusCode this.shouldKeepAlive = ( shouldKeepAlive || // Override llhttp value which does not allow keepAlive for HEAD. (request.method === 'HEAD' && !socket[kReset] && this.connection.toLowerCase() === 'keep-alive') ) if (this.statusCode >= 200) { const bodyTimeout = request.bodyTimeout != null ? request.bodyTimeout : client[kBodyTimeout] this.setTimeout(bodyTimeout, TIMEOUT_BODY) } else if (this.timeout) { // istanbul ignore else: only for jest if (this.timeout.refresh) { this.timeout.refresh() } } if (request.method === 'CONNECT') { assert(client[kRunning] === 1) this.upgrade = true return 2 } if (upgrade) { assert(client[kRunning] === 1) this.upgrade = true return 2 } assert(this.headers.length % 2 === 0) this.headers = [] this.headersSize = 0 if (this.shouldKeepAlive && client[kPipelining]) { const keepAliveTimeout = this.keepAlive ? util.parseKeepAliveTimeout(this.keepAlive) : null if (keepAliveTimeout != null) { const timeout = Math.min( keepAliveTimeout - client[kKeepAliveTimeoutThreshold], client[kKeepAliveMaxTimeout] ) if (timeout <= 0) { socket[kReset] = true } else { client[kKeepAliveTimeoutValue] = timeout } } else { client[kKeepAliveTimeoutValue] = client[kKeepAliveDefaultTimeout] } } else { // Stop more requests from being dispatched. socket[kReset] = true } const pause = request.onHeaders(statusCode, headers, this.resume, statusText) === false if (request.aborted) { return -1 } if (request.method === 'HEAD') { return 1 } if (statusCode < 200) { return 1 } if (socket[kBlocking]) { socket[kBlocking] = false resume(client) } return pause ? constants.ERROR.PAUSED : 0 } onBody (buf) { const { client, socket, statusCode, maxResponseSize } = this if (socket.destroyed) { return -1 } const request = client[kQueue][client[kRunningIdx]] assert(request) assert.strictEqual(this.timeoutType, TIMEOUT_BODY) if (this.timeout) { // istanbul ignore else: only for jest if (this.timeout.refresh) { this.timeout.refresh() } } assert(statusCode >= 200) if (maxResponseSize > -1 && this.bytesRead + buf.length > maxResponseSize) { util.destroy(socket, new ResponseExceededMaxSizeError()) return -1 } this.bytesRead += buf.length if (request.onData(buf) === false) { return constants.ERROR.PAUSED } } onMessageComplete () { const { client, socket, statusCode, upgrade, headers, contentLength, bytesRead, shouldKeepAlive } = this if (socket.destroyed && (!statusCode || shouldKeepAlive)) { return -1 } if (upgrade) { return } const request = client[kQueue][client[kRunningIdx]] assert(request) assert(statusCode >= 100) this.statusCode = null this.statusText = '' this.bytesRead = 0 this.contentLength = '' this.keepAlive = '' this.connection = '' assert(this.headers.length % 2 === 0) this.headers = [] this.headersSize = 0 if (statusCode < 200) { return } /* istanbul ignore next: should be handled by llhttp? */ if (request.method !== 'HEAD' && contentLength && bytesRead !== parseInt(contentLength, 10)) { util.destroy(socket, new ResponseContentLengthMismatchError()) return -1 } request.onComplete(headers) client[kQueue][client[kRunningIdx]++] = null if (socket[kWriting]) { assert.strictEqual(client[kRunning], 0) // Response completed before request. util.destroy(socket, new InformationalError('reset')) return constants.ERROR.PAUSED } else if (!shouldKeepAlive) { util.destroy(socket, new InformationalError('reset')) return constants.ERROR.PAUSED } else if (socket[kReset] && client[kRunning] === 0) { // Destroy socket once all requests have completed. // The request at the tail of the pipeline is the one // that requested reset and no further requests should // have been queued since then. util.destroy(socket, new InformationalError('reset')) return constants.ERROR.PAUSED } else if (client[kPipelining] === 1) { // We must wait a full event loop cycle to reuse this socket to make sure // that non-spec compliant servers are not closing the connection even if they // said they won't. setImmediate(resume, client) } else { resume(client) } } } function onParserTimeout (parser) { const { socket, timeoutType, client } = parser /* istanbul ignore else */ if (timeoutType === TIMEOUT_HEADERS) { if (!socket[kWriting] || socket.writableNeedDrain || client[kRunning] > 1) { assert(!parser.paused, 'cannot be paused while waiting for headers') util.destroy(socket, new HeadersTimeoutError()) } } else if (timeoutType === TIMEOUT_BODY) { if (!parser.paused) { util.destroy(socket, new BodyTimeoutError()) } } else if (timeoutType === TIMEOUT_IDLE) { assert(client[kRunning] === 0 && client[kKeepAliveTimeoutValue]) util.destroy(socket, new InformationalError('socket idle timeout')) } } function onSocketReadable () { const { [kParser]: parser } = this if (parser) { parser.readMore() } } function onSocketError (err) { const { [kClient]: client, [kParser]: parser } = this assert(err.code !== 'ERR_TLS_CERT_ALTNAME_INVALID') if (client[kHTTPConnVersion] !== 'h2') { // On Mac OS, we get an ECONNRESET even if there is a full body to be forwarded // to the user. if (err.code === 'ECONNRESET' && parser.statusCode && !parser.shouldKeepAlive) { // We treat all incoming data so for as a valid response. parser.onMessageComplete() return } } this[kError] = err onError(this[kClient], err) } function onError (client, err) { if ( client[kRunning] === 0 && err.code !== 'UND_ERR_INFO' && err.code !== 'UND_ERR_SOCKET' ) { // Error is not caused by running request and not a recoverable // socket error. assert(client[kPendingIdx] === client[kRunningIdx]) const requests = client[kQueue].splice(client[kRunningIdx]) for (let i = 0; i < requests.length; i++) { const request = requests[i] errorRequest(client, request, err) } assert(client[kSize] === 0) } } function onSocketEnd () { const { [kParser]: parser, [kClient]: client } = this if (client[kHTTPConnVersion] !== 'h2') { if (parser.statusCode && !parser.shouldKeepAlive) { // We treat all incoming data so far as a valid response. parser.onMessageComplete() return } } util.destroy(this, new SocketError('other side closed', util.getSocketInfo(this))) } function onSocketClose () { const { [kClient]: client, [kParser]: parser } = this if (client[kHTTPConnVersion] === 'h1' && parser) { if (!this[kError] && parser.statusCode && !parser.shouldKeepAlive) { // We treat all incoming data so far as a valid response. parser.onMessageComplete() } this[kParser].destroy() this[kParser] = null } const err = this[kError] || new SocketError('closed', util.getSocketInfo(this)) client[kSocket] = null if (client.destroyed) { assert(client[kPending] === 0) // Fail entire queue. const requests = client[kQueue].splice(client[kRunningIdx]) for (let i = 0; i < requests.length; i++) { const request = requests[i] errorRequest(client, request, err) } } else if (client[kRunning] > 0 && err.code !== 'UND_ERR_INFO') { // Fail head of pipeline. const request = client[kQueue][client[kRunningIdx]] client[kQueue][client[kRunningIdx]++] = null errorRequest(client, request, err) } client[kPendingIdx] = client[kRunningIdx] assert(client[kRunning] === 0) client.emit('disconnect', client[kUrl], [client], err) resume(client) } async function connect (client) { assert(!client[kConnecting]) assert(!client[kSocket]) let { host, hostname, protocol, port } = client[kUrl] // Resolve ipv6 if (hostname[0] === '[') { const idx = hostname.indexOf(']') assert(idx !== -1) const ip = hostname.substring(1, idx) assert(net.isIP(ip)) hostname = ip } client[kConnecting] = true if (channels.beforeConnect.hasSubscribers) { channels.beforeConnect.publish({ connectParams: { host, hostname, protocol, port, servername: client[kServerName], localAddress: client[kLocalAddress] }, connector: client[kConnector] }) } try { const socket = await new Promise((resolve, reject) => { client[kConnector]({ host, hostname, protocol, port, servername: client[kServerName], localAddress: client[kLocalAddress] }, (err, socket) => { if (err) { reject(err) } else { resolve(socket) } }) }) if (client.destroyed) { util.destroy(socket.on('error', () => {}), new ClientDestroyedError()) return } client[kConnecting] = false assert(socket) const isH2 = socket.alpnProtocol === 'h2' if (isH2) { if (!h2ExperimentalWarned) { h2ExperimentalWarned = true process.emitWarning('H2 support is experimental, expect them to change at any time.', { code: 'UNDICI-H2' }) } const session = http2.connect(client[kUrl], { createConnection: () => socket, peerMaxConcurrentStreams: client[kHTTP2SessionState].maxConcurrentStreams }) client[kHTTPConnVersion] = 'h2' session[kClient] = client session[kSocket] = socket session.on('error', onHttp2SessionError) session.on('frameError', onHttp2FrameError) session.on('end', onHttp2SessionEnd) session.on('goaway', onHTTP2GoAway) session.on('close', onSocketClose) session.unref() client[kHTTP2Session] = session socket[kHTTP2Session] = session } else { if (!llhttpInstance) { llhttpInstance = await llhttpPromise llhttpPromise = null } socket[kNoRef] = false socket[kWriting] = false socket[kReset] = false socket[kBlocking] = false socket[kParser] = new Parser(client, socket, llhttpInstance) } socket[kCounter] = 0 socket[kMaxRequests] = client[kMaxRequests] socket[kClient] = client socket[kError] = null socket .on('error', onSocketError) .on('readable', onSocketReadable) .on('end', onSocketEnd) .on('close', onSocketClose) client[kSocket] = socket if (channels.connected.hasSubscribers) { channels.connected.publish({ connectParams: { host, hostname, protocol, port, servername: client[kServerName], localAddress: client[kLocalAddress] }, connector: client[kConnector], socket }) } client.emit('connect', client[kUrl], [client]) } catch (err) { if (client.destroyed) { return } client[kConnecting] = false if (channels.connectError.hasSubscribers) { channels.connectError.publish({ connectParams: { host, hostname, protocol, port, servername: client[kServerName], localAddress: client[kLocalAddress] }, connector: client[kConnector], error: err }) } if (err.code === 'ERR_TLS_CERT_ALTNAME_INVALID') { assert(client[kRunning] === 0) while (client[kPending] > 0 && client[kQueue][client[kPendingIdx]].servername === client[kServerName]) { const request = client[kQueue][client[kPendingIdx]++] errorRequest(client, request, err) } } else { onError(client, err) } client.emit('connectionError', client[kUrl], [client], err) } resume(client) } function emitDrain (client) { client[kNeedDrain] = 0 client.emit('drain', client[kUrl], [client]) } function resume (client, sync) { if (client[kResuming] === 2) { return } client[kResuming] = 2 _resume(client, sync) client[kResuming] = 0 if (client[kRunningIdx] > 256) { client[kQueue].splice(0, client[kRunningIdx]) client[kPendingIdx] -= client[kRunningIdx] client[kRunningIdx] = 0 } } function _resume (client, sync) { while (true) { if (client.destroyed) { assert(client[kPending] === 0) return } if (client[kClosedResolve] && !client[kSize]) { client[kClosedResolve]() client[kClosedResolve] = null return } const socket = client[kSocket] if (socket && !socket.destroyed && socket.alpnProtocol !== 'h2') { if (client[kSize] === 0) { if (!socket[kNoRef] && socket.unref) { socket.unref() socket[kNoRef] = true } } else if (socket[kNoRef] && socket.ref) { socket.ref() socket[kNoRef] = false } if (client[kSize] === 0) { if (socket[kParser].timeoutType !== TIMEOUT_IDLE) { socket[kParser].setTimeout(client[kKeepAliveTimeoutValue], TIMEOUT_IDLE) } } else if (client[kRunning] > 0 && socket[kParser].statusCode < 200) { if (socket[kParser].timeoutType !== TIMEOUT_HEADERS) { const request = client[kQueue][client[kRunningIdx]] const headersTimeout = request.headersTimeout != null ? request.headersTimeout : client[kHeadersTimeout] socket[kParser].setTimeout(headersTimeout, TIMEOUT_HEADERS) } } } if (client[kBusy]) { client[kNeedDrain] = 2 } else if (client[kNeedDrain] === 2) { if (sync) { client[kNeedDrain] = 1 process.nextTick(emitDrain, client) } else { emitDrain(client) } continue } if (client[kPending] === 0) { return } if (client[kRunning] >= (client[kPipelining] || 1)) { return } const request = client[kQueue][client[kPendingIdx]] if (client[kUrl].protocol === 'https:' && client[kServerName] !== request.servername) { if (client[kRunning] > 0) { return } client[kServerName] = request.servername if (socket && socket.servername !== request.servername) { util.destroy(socket, new InformationalError('servername changed')) return } } if (client[kConnecting]) { return } if (!socket && !client[kHTTP2Session]) { connect(client) return } if (socket.destroyed || socket[kWriting] || socket[kReset] || socket[kBlocking]) { return } if (client[kRunning] > 0 && !request.idempotent) { // Non-idempotent request cannot be retried. // Ensure that no other requests are inflight and // could cause failure. return } if (client[kRunning] > 0 && (request.upgrade || request.method === 'CONNECT')) { // Don't dispatch an upgrade until all preceding requests have completed. // A misbehaving server might upgrade the connection before all pipelined // request has completed. return } if (client[kRunning] > 0 && util.bodyLength(request.body) !== 0 && (util.isStream(request.body) || util.isAsyncIterable(request.body))) { // Request with stream or iterator body can error while other requests // are inflight and indirectly error those as well. // Ensure this doesn't happen by waiting for inflight // to complete before dispatching. // Request with stream or iterator body cannot be retried. // Ensure that no other requests are inflight and // could cause failure. return } if (!request.aborted && write(client, request)) { client[kPendingIdx]++ } else { client[kQueue].splice(client[kPendingIdx], 1) } } } // https://www.rfc-editor.org/rfc/rfc7230#section-3.3.2 function shouldSendContentLength (method) { return method !== 'GET' && method !== 'HEAD' && method !== 'OPTIONS' && method !== 'TRACE' && method !== 'CONNECT' } function write (client, request) { if (client[kHTTPConnVersion] === 'h2') { writeH2(client, client[kHTTP2Session], request) return } const { body, method, path, host, upgrade, headers, blocking, reset } = request // https://tools.ietf.org/html/rfc7231#section-4.3.1 // https://tools.ietf.org/html/rfc7231#section-4.3.2 // https://tools.ietf.org/html/rfc7231#section-4.3.5 // Sending a payload body on a request that does not // expect it can cause undefined behavior on some // servers and corrupt connection state. Do not // re-use the connection for further requests. const expectsPayload = ( method === 'PUT' || method === 'POST' || method === 'PATCH' ) if (body && typeof body.read === 'function') { // Try to read EOF in order to get length. body.read(0) } const bodyLength = util.bodyLength(body) let contentLength = bodyLength if (contentLength === null) { contentLength = request.contentLength } if (contentLength === 0 && !expectsPayload) { // https://tools.ietf.org/html/rfc7230#section-3.3.2 // A user agent SHOULD NOT send a Content-Length header field when // the request message does not contain a payload body and the method // semantics do not anticipate such a body. contentLength = null } // https://github.com/nodejs/undici/issues/2046 // A user agent may send a Content-Length header with 0 value, this should be allowed. if (shouldSendContentLength(method) && contentLength > 0 && request.contentLength !== null && request.contentLength !== contentLength) { if (client[kStrictContentLength]) { errorRequest(client, request, new RequestContentLengthMismatchError()) return false } process.emitWarning(new RequestContentLengthMismatchError()) } const socket = client[kSocket] try { request.onConnect((err) => { if (request.aborted || request.completed) { return } errorRequest(client, request, err || new RequestAbortedError()) util.destroy(socket, new InformationalError('aborted')) }) } catch (err) { errorRequest(client, request, err) } if (request.aborted) { return false } if (method === 'HEAD') { // https://github.com/mcollina/undici/issues/258 // Close after a HEAD request to interop with misbehaving servers // that may send a body in the response. socket[kReset] = true } if (upgrade || method === 'CONNECT') { // On CONNECT or upgrade, block pipeline from dispatching further // requests on this connection. socket[kReset] = true } if (reset != null) { socket[kReset] = reset } if (client[kMaxRequests] && socket[kCounter]++ >= client[kMaxRequests]) { socket[kReset] = true } if (blocking) { socket[kBlocking] = true } let header = `${method} ${path} HTTP/1.1\r\n` if (typeof host === 'string') { header += `host: ${host}\r\n` } else { header += client[kHostHeader] } if (upgrade) { header += `connection: upgrade\r\nupgrade: ${upgrade}\r\n` } else if (client[kPipelining] && !socket[kReset]) { header += 'connection: keep-alive\r\n' } else { header += 'connection: close\r\n' } if (headers) { header += headers } if (channels.sendHeaders.hasSubscribers) { channels.sendHeaders.publish({ request, headers: header, socket }) } /* istanbul ignore else: assertion */ if (!body || bodyLength === 0) { if (contentLength === 0) { socket.write(`${header}content-length: 0\r\n\r\n`, 'latin1') } else { assert(contentLength === null, 'no body must not have content length') socket.write(`${header}\r\n`, 'latin1') } request.onRequestSent() } else if (util.isBuffer(body)) { assert(contentLength === body.byteLength, 'buffer body must have content length') socket.cork() socket.write(`${header}content-length: ${contentLength}\r\n\r\n`, 'latin1') socket.write(body) socket.uncork() request.onBodySent(body) request.onRequestSent() if (!expectsPayload) { socket[kReset] = true } } else if (util.isBlobLike(body)) { if (typeof body.stream === 'function') { writeIterable({ body: body.stream(), client, request, socket, contentLength, header, expectsPayload }) } else { writeBlob({ body, client, request, socket, contentLength, header, expectsPayload }) } } else if (util.isStream(body)) { writeStream({ body, client, request, socket, contentLength, header, expectsPayload }) } else if (util.isIterable(body)) { writeIterable({ body, client, request, socket, contentLength, header, expectsPayload }) } else { assert(false) } return true } function writeH2 (client, session, request) { const { body, method, path, host, upgrade, expectContinue, signal, headers: reqHeaders } = request let headers if (typeof reqHeaders === 'string') headers = Request[kHTTP2CopyHeaders](reqHeaders.trim()) else headers = reqHeaders if (upgrade) { errorRequest(client, request, new Error('Upgrade not supported for H2')) return false } try { // TODO(HTTP/2): Should we call onConnect immediately or on stream ready event? request.onConnect((err) => { if (request.aborted || request.completed) { return } errorRequest(client, request, err || new RequestAbortedError()) }) } catch (err) { errorRequest(client, request, err) } if (request.aborted) { return false } /** @type {import('node:http2').ClientHttp2Stream} */ let stream const h2State = client[kHTTP2SessionState] headers[HTTP2_HEADER_AUTHORITY] = host || client[kHost] headers[HTTP2_HEADER_METHOD] = method if (method === 'CONNECT') { session.ref() // we are already connected, streams are pending, first request // will create a new stream. We trigger a request to create the stream and wait until // `ready` event is triggered // We disabled endStream to allow the user to write to the stream stream = session.request(headers, { endStream: false, signal }) if (stream.id && !stream.pending) { request.onUpgrade(null, null, stream) ++h2State.openStreams } else { stream.once('ready', () => { request.onUpgrade(null, null, stream) ++h2State.openStreams }) } stream.once('close', () => { h2State.openStreams -= 1 // TODO(HTTP/2): unref only if current streams count is 0 if (h2State.openStreams === 0) session.unref() }) return true } // https://tools.ietf.org/html/rfc7540#section-8.3 // :path and :scheme headers must be omited when sending CONNECT headers[HTTP2_HEADER_PATH] = path headers[HTTP2_HEADER_SCHEME] = 'https' // https://tools.ietf.org/html/rfc7231#section-4.3.1 // https://tools.ietf.org/html/rfc7231#section-4.3.2 // https://tools.ietf.org/html/rfc7231#section-4.3.5 // Sending a payload body on a request that does not // expect it can cause undefined behavior on some // servers and corrupt connection state. Do not // re-use the connection for further requests. const expectsPayload = ( method === 'PUT' || method === 'POST' || method === 'PATCH' ) if (body && typeof body.read === 'function') { // Try to read EOF in order to get length. body.read(0) } let contentLength = util.bodyLength(body) if (contentLength == null) { contentLength = request.contentLength } if (contentLength === 0 || !expectsPayload) { // https://tools.ietf.org/html/rfc7230#section-3.3.2 // A user agent SHOULD NOT send a Content-Length header field when // the request message does not contain a payload body and the method // semantics do not anticipate such a body. contentLength = null } // https://github.com/nodejs/undici/issues/2046 // A user agent may send a Content-Length header with 0 value, this should be allowed. if (shouldSendContentLength(method) && contentLength > 0 && request.contentLength != null && request.contentLength !== contentLength) { if (client[kStrictContentLength]) { errorRequest(client, request, new RequestContentLengthMismatchError()) return false } process.emitWarning(new RequestContentLengthMismatchError()) } if (contentLength != null) { assert(body, 'no body must not have content length') headers[HTTP2_HEADER_CONTENT_LENGTH] = `${contentLength}` } session.ref() const shouldEndStream = method === 'GET' || method === 'HEAD' if (expectContinue) { headers[HTTP2_HEADER_EXPECT] = '100-continue' stream = session.request(headers, { endStream: shouldEndStream, signal }) stream.once('continue', writeBodyH2) } else { stream = session.request(headers, { endStream: shouldEndStream, signal }) writeBodyH2() } // Increment counter as we have new several streams open ++h2State.openStreams stream.once('response', headers => { const { [HTTP2_HEADER_STATUS]: statusCode, ...realHeaders } = headers if (request.onHeaders(Number(statusCode), realHeaders, stream.resume.bind(stream), '') === false) { stream.pause() } }) stream.once('end', () => { request.onComplete([]) }) stream.on('data', (chunk) => { if (request.onData(chunk) === false) { stream.pause() } }) stream.once('close', () => { h2State.openStreams -= 1 // TODO(HTTP/2): unref only if current streams count is 0 if (h2State.openStreams === 0) { session.unref() } }) stream.once('error', function (err) { if (client[kHTTP2Session] && !client[kHTTP2Session].destroyed && !this.closed && !this.destroyed) { h2State.streams -= 1 util.destroy(stream, err) } }) stream.once('frameError', (type, code) => { const err = new InformationalError(`HTTP/2: "frameError" received - type ${type}, code ${code}`) errorRequest(client, request, err) if (client[kHTTP2Session] && !client[kHTTP2Session].destroyed && !this.closed && !this.destroyed) { h2State.streams -= 1 util.destroy(stream, err) } }) // stream.on('aborted', () => { // // TODO(HTTP/2): Support aborted // }) // stream.on('timeout', () => { // // TODO(HTTP/2): Support timeout // }) // stream.on('push', headers => { // // TODO(HTTP/2): Suppor push // }) // stream.on('trailers', headers => { // // TODO(HTTP/2): Support trailers // }) return true function writeBodyH2 () { /* istanbul ignore else: assertion */ if (!body) { request.onRequestSent() } else if (util.isBuffer(body)) { assert(contentLength === body.byteLength, 'buffer body must have content length') stream.cork() stream.write(body) stream.uncork() stream.end() request.onBodySent(body) request.onRequestSent() } else if (util.isBlobLike(body)) { if (typeof body.stream === 'function') { writeIterable({ client, request, contentLength, h2stream: stream, expectsPayload, body: body.stream(), socket: client[kSocket], header: '' }) } else { writeBlob({ body, client, request, contentLength, expectsPayload, h2stream: stream, header: '', socket: client[kSocket] }) } } else if (util.isStream(body)) { writeStream({ body, client, request, contentLength, expectsPayload, socket: client[kSocket], h2stream: stream, header: '' }) } else if (util.isIterable(body)) { writeIterable({ body, client, request, contentLength, expectsPayload, header: '', h2stream: stream, socket: client[kSocket] }) } else { assert(false) } } } function writeStream ({ h2stream, body, client, request, socket, contentLength, header, expectsPayload }) { assert(contentLength !== 0 || client[kRunning] === 0, 'stream body cannot be pipelined') if (client[kHTTPConnVersion] === 'h2') { // For HTTP/2, is enough to pipe the stream const pipe = pipeline( body, h2stream, (err) => { if (err) { util.destroy(body, err) util.destroy(h2stream, err) } else { request.onRequestSent() } } ) pipe.on('data', onPipeData) pipe.once('end', () => { pipe.removeListener('data', onPipeData) util.destroy(pipe) }) function onPipeData (chunk) { request.onBodySent(chunk) } return } let finished = false const writer = new AsyncWriter({ socket, request, contentLength, client, expectsPayload, header }) const onData = function (chunk) { if (finished) { return } try { if (!writer.write(chunk) && this.pause) { this.pause() } } catch (err) { util.destroy(this, err) } } const onDrain = function () { if (finished) { return } if (body.resume) { body.resume() } } const onAbort = function () { if (finished) { return } const err = new RequestAbortedError() queueMicrotask(() => onFinished(err)) } const onFinished = function (err) { if (finished) { return } finished = true assert(socket.destroyed || (socket[kWriting] && client[kRunning] <= 1)) socket .off('drain', onDrain) .off('error', onFinished) body .removeListener('data', onData) .removeListener('end', onFinished) .removeListener('error', onFinished) .removeListener('close', onAbort) if (!err) { try { writer.end() } catch (er) { err = er } } writer.destroy(err) if (err && (err.code !== 'UND_ERR_INFO' || err.message !== 'reset')) { util.destroy(body, err) } else { util.destroy(body) } } body .on('data', onData) .on('end', onFinished) .on('error', onFinished) .on('close', onAbort) if (body.resume) { body.resume() } socket .on('drain', onDrain) .on('error', onFinished) } async function writeBlob ({ h2stream, body, client, request, socket, contentLength, header, expectsPayload }) { assert(contentLength === body.size, 'blob body must have content length') const isH2 = client[kHTTPConnVersion] === 'h2' try { if (contentLength != null && contentLength !== body.size) { throw new RequestContentLengthMismatchError() } const buffer = Buffer.from(await body.arrayBuffer()) if (isH2) { h2stream.cork() h2stream.write(buffer) h2stream.uncork() } else { socket.cork() socket.write(`${header}content-length: ${contentLength}\r\n\r\n`, 'latin1') socket.write(buffer) socket.uncork() } request.onBodySent(buffer) request.onRequestSent() if (!expectsPayload) { socket[kReset] = true } resume(client) } catch (err) { util.destroy(isH2 ? h2stream : socket, err) } } async function writeIterable ({ h2stream, body, client, request, socket, contentLength, header, expectsPayload }) { assert(contentLength !== 0 || client[kRunning] === 0, 'iterator body cannot be pipelined') let callback = null function onDrain () { if (callback) { const cb = callback callback = null cb() } } const waitForDrain = () => new Promise((resolve, reject) => { assert(callback === null) if (socket[kError]) { reject(socket[kError]) } else { callback = resolve } }) if (client[kHTTPConnVersion] === 'h2') { h2stream .on('close', onDrain) .on('drain', onDrain) try { // It's up to the user to somehow abort the async iterable. for await (const chunk of body) { if (socket[kError]) { throw socket[kError] } const res = h2stream.write(chunk) request.onBodySent(chunk) if (!res) { await waitForDrain() } } } catch (err) { h2stream.destroy(err) } finally { request.onRequestSent() h2stream.end() h2stream .off('close', onDrain) .off('drain', onDrain) } return } socket .on('close', onDrain) .on('drain', onDrain) const writer = new AsyncWriter({ socket, request, contentLength, client, expectsPayload, header }) try { // It's up to the user to somehow abort the async iterable. for await (const chunk of body) { if (socket[kError]) { throw socket[kError] } if (!writer.write(chunk)) { await waitForDrain() } } writer.end() } catch (err) { writer.destroy(err) } finally { socket .off('close', onDrain) .off('drain', onDrain) } } class AsyncWriter { constructor ({ socket, request, contentLength, client, expectsPayload, header }) { this.socket = socket this.request = request this.contentLength = contentLength this.client = client this.bytesWritten = 0 this.expectsPayload = expectsPayload this.header = header socket[kWriting] = true } write (chunk) { const { socket, request, contentLength, client, bytesWritten, expectsPayload, header } = this if (socket[kError]) { throw socket[kError] } if (socket.destroyed) { return false } const len = Buffer.byteLength(chunk) if (!len) { return true } // We should defer writing chunks. if (contentLength !== null && bytesWritten + len > contentLength) { if (client[kStrictContentLength]) { throw new RequestContentLengthMismatchError() } process.emitWarning(new RequestContentLengthMismatchError()) } socket.cork() if (bytesWritten === 0) { if (!expectsPayload) { socket[kReset] = true } if (contentLength === null) { socket.write(`${header}transfer-encoding: chunked\r\n`, 'latin1') } else { socket.write(`${header}content-length: ${contentLength}\r\n\r\n`, 'latin1') } } if (contentLength === null) { socket.write(`\r\n${len.toString(16)}\r\n`, 'latin1') } this.bytesWritten += len const ret = socket.write(chunk) socket.uncork() request.onBodySent(chunk) if (!ret) { if (socket[kParser].timeout && socket[kParser].timeoutType === TIMEOUT_HEADERS) { // istanbul ignore else: only for jest if (socket[kParser].timeout.refresh) { socket[kParser].timeout.refresh() } } } return ret } end () { const { socket, contentLength, client, bytesWritten, expectsPayload, header, request } = this request.onRequestSent() socket[kWriting] = false if (socket[kError]) { throw socket[kError] } if (socket.destroyed) { return } if (bytesWritten === 0) { if (expectsPayload) { // https://tools.ietf.org/html/rfc7230#section-3.3.2 // A user agent SHOULD send a Content-Length in a request message when // no Transfer-Encoding is sent and the request method defines a meaning // for an enclosed payload body. socket.write(`${header}content-length: 0\r\n\r\n`, 'latin1') } else { socket.write(`${header}\r\n`, 'latin1') } } else if (contentLength === null) { socket.write('\r\n0\r\n\r\n', 'latin1') } if (contentLength !== null && bytesWritten !== contentLength) { if (client[kStrictContentLength]) { throw new RequestContentLengthMismatchError() } else { process.emitWarning(new RequestContentLengthMismatchError()) } } if (socket[kParser].timeout && socket[kParser].timeoutType === TIMEOUT_HEADERS) { // istanbul ignore else: only for jest if (socket[kParser].timeout.refresh) { socket[kParser].timeout.refresh() } } resume(client) } destroy (err) { const { socket, client } = this socket[kWriting] = false if (err) { assert(client[kRunning] <= 1, 'pipeline should only contain this request') util.destroy(socket, err) } } } function errorRequest (client, request, err) { try { request.onError(err) assert(request.aborted) } catch (err) { client.emit('error', err) } } module.exports = Client /***/ }), /***/ 3194: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { /* istanbul ignore file: only for Node 12 */ const { kConnected, kSize } = __nccwpck_require__(6443) class CompatWeakRef { constructor (value) { this.value = value } deref () { return this.value[kConnected] === 0 && this.value[kSize] === 0 ? undefined : this.value } } class CompatFinalizer { constructor (finalizer) { this.finalizer = finalizer } register (dispatcher, key) { if (dispatcher.on) { dispatcher.on('disconnect', () => { if (dispatcher[kConnected] === 0 && dispatcher[kSize] === 0) { this.finalizer(key) } }) } } } module.exports = function () { // FIXME: remove workaround when the Node bug is fixed // https://github.com/nodejs/node/issues/49344#issuecomment-1741776308 if (process.env.NODE_V8_COVERAGE) { return { WeakRef: CompatWeakRef, FinalizationRegistry: CompatFinalizer } } return { WeakRef: global.WeakRef || CompatWeakRef, FinalizationRegistry: global.FinalizationRegistry || CompatFinalizer } } /***/ }), /***/ 9237: /***/ ((module) => { // https://wicg.github.io/cookie-store/#cookie-maximum-attribute-value-size const maxAttributeValueSize = 1024 // https://wicg.github.io/cookie-store/#cookie-maximum-name-value-pair-size const maxNameValuePairSize = 4096 module.exports = { maxAttributeValueSize, maxNameValuePairSize } /***/ }), /***/ 3168: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { parseSetCookie } = __nccwpck_require__(8915) const { stringify } = __nccwpck_require__(3834) const { webidl } = __nccwpck_require__(4222) const { Headers } = __nccwpck_require__(6349) /** * @typedef {Object} Cookie * @property {string} name * @property {string} value * @property {Date|number|undefined} expires * @property {number|undefined} maxAge * @property {string|undefined} domain * @property {string|undefined} path * @property {boolean|undefined} secure * @property {boolean|undefined} httpOnly * @property {'Strict'|'Lax'|'None'} sameSite * @property {string[]} unparsed */ /** * @param {Headers} headers * @returns {Record} */ function getCookies (headers) { webidl.argumentLengthCheck(arguments, 1, { header: 'getCookies' }) webidl.brandCheck(headers, Headers, { strict: false }) const cookie = headers.get('cookie') const out = {} if (!cookie) { return out } for (const piece of cookie.split(';')) { const [name, ...value] = piece.split('=') out[name.trim()] = value.join('=') } return out } /** * @param {Headers} headers * @param {string} name * @param {{ path?: string, domain?: string }|undefined} attributes * @returns {void} */ function deleteCookie (headers, name, attributes) { webidl.argumentLengthCheck(arguments, 2, { header: 'deleteCookie' }) webidl.brandCheck(headers, Headers, { strict: false }) name = webidl.converters.DOMString(name) attributes = webidl.converters.DeleteCookieAttributes(attributes) // Matches behavior of // https://github.com/denoland/deno_std/blob/63827b16330b82489a04614027c33b7904e08be5/http/cookie.ts#L278 setCookie(headers, { name, value: '', expires: new Date(0), ...attributes }) } /** * @param {Headers} headers * @returns {Cookie[]} */ function getSetCookies (headers) { webidl.argumentLengthCheck(arguments, 1, { header: 'getSetCookies' }) webidl.brandCheck(headers, Headers, { strict: false }) const cookies = headers.getSetCookie() if (!cookies) { return [] } return cookies.map((pair) => parseSetCookie(pair)) } /** * @param {Headers} headers * @param {Cookie} cookie * @returns {void} */ function setCookie (headers, cookie) { webidl.argumentLengthCheck(arguments, 2, { header: 'setCookie' }) webidl.brandCheck(headers, Headers, { strict: false }) cookie = webidl.converters.Cookie(cookie) const str = stringify(cookie) if (str) { headers.append('Set-Cookie', stringify(cookie)) } } webidl.converters.DeleteCookieAttributes = webidl.dictionaryConverter([ { converter: webidl.nullableConverter(webidl.converters.DOMString), key: 'path', defaultValue: null }, { converter: webidl.nullableConverter(webidl.converters.DOMString), key: 'domain', defaultValue: null } ]) webidl.converters.Cookie = webidl.dictionaryConverter([ { converter: webidl.converters.DOMString, key: 'name' }, { converter: webidl.converters.DOMString, key: 'value' }, { converter: webidl.nullableConverter((value) => { if (typeof value === 'number') { return webidl.converters['unsigned long long'](value) } return new Date(value) }), key: 'expires', defaultValue: null }, { converter: webidl.nullableConverter(webidl.converters['long long']), key: 'maxAge', defaultValue: null }, { converter: webidl.nullableConverter(webidl.converters.DOMString), key: 'domain', defaultValue: null }, { converter: webidl.nullableConverter(webidl.converters.DOMString), key: 'path', defaultValue: null }, { converter: webidl.nullableConverter(webidl.converters.boolean), key: 'secure', defaultValue: null }, { converter: webidl.nullableConverter(webidl.converters.boolean), key: 'httpOnly', defaultValue: null }, { converter: webidl.converters.USVString, key: 'sameSite', allowedValues: ['Strict', 'Lax', 'None'] }, { converter: webidl.sequenceConverter(webidl.converters.DOMString), key: 'unparsed', defaultValue: [] } ]) module.exports = { getCookies, deleteCookie, getSetCookies, setCookie } /***/ }), /***/ 8915: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { maxNameValuePairSize, maxAttributeValueSize } = __nccwpck_require__(9237) const { isCTLExcludingHtab } = __nccwpck_require__(3834) const { collectASequenceOfCodePointsFast } = __nccwpck_require__(4322) const assert = __nccwpck_require__(2613) /** * @description Parses the field-value attributes of a set-cookie header string. * @see https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-rfc6265bis#section-5.4 * @param {string} header * @returns if the header is invalid, null will be returned */ function parseSetCookie (header) { // 1. If the set-cookie-string contains a %x00-08 / %x0A-1F / %x7F // character (CTL characters excluding HTAB): Abort these steps and // ignore the set-cookie-string entirely. if (isCTLExcludingHtab(header)) { return null } let nameValuePair = '' let unparsedAttributes = '' let name = '' let value = '' // 2. If the set-cookie-string contains a %x3B (";") character: if (header.includes(';')) { // 1. The name-value-pair string consists of the characters up to, // but not including, the first %x3B (";"), and the unparsed- // attributes consist of the remainder of the set-cookie-string // (including the %x3B (";") in question). const position = { position: 0 } nameValuePair = collectASequenceOfCodePointsFast(';', header, position) unparsedAttributes = header.slice(position.position) } else { // Otherwise: // 1. The name-value-pair string consists of all the characters // contained in the set-cookie-string, and the unparsed- // attributes is the empty string. nameValuePair = header } // 3. If the name-value-pair string lacks a %x3D ("=") character, then // the name string is empty, and the value string is the value of // name-value-pair. if (!nameValuePair.includes('=')) { value = nameValuePair } else { // Otherwise, the name string consists of the characters up to, but // not including, the first %x3D ("=") character, and the (possibly // empty) value string consists of the characters after the first // %x3D ("=") character. const position = { position: 0 } name = collectASequenceOfCodePointsFast( '=', nameValuePair, position ) value = nameValuePair.slice(position.position + 1) } // 4. Remove any leading or trailing WSP characters from the name // string and the value string. name = name.trim() value = value.trim() // 5. If the sum of the lengths of the name string and the value string // is more than 4096 octets, abort these steps and ignore the set- // cookie-string entirely. if (name.length + value.length > maxNameValuePairSize) { return null } // 6. The cookie-name is the name string, and the cookie-value is the // value string. return { name, value, ...parseUnparsedAttributes(unparsedAttributes) } } /** * Parses the remaining attributes of a set-cookie header * @see https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-rfc6265bis#section-5.4 * @param {string} unparsedAttributes * @param {[Object.]={}} cookieAttributeList */ function parseUnparsedAttributes (unparsedAttributes, cookieAttributeList = {}) { // 1. If the unparsed-attributes string is empty, skip the rest of // these steps. if (unparsedAttributes.length === 0) { return cookieAttributeList } // 2. Discard the first character of the unparsed-attributes (which // will be a %x3B (";") character). assert(unparsedAttributes[0] === ';') unparsedAttributes = unparsedAttributes.slice(1) let cookieAv = '' // 3. If the remaining unparsed-attributes contains a %x3B (";") // character: if (unparsedAttributes.includes(';')) { // 1. Consume the characters of the unparsed-attributes up to, but // not including, the first %x3B (";") character. cookieAv = collectASequenceOfCodePointsFast( ';', unparsedAttributes, { position: 0 } ) unparsedAttributes = unparsedAttributes.slice(cookieAv.length) } else { // Otherwise: // 1. Consume the remainder of the unparsed-attributes. cookieAv = unparsedAttributes unparsedAttributes = '' } // Let the cookie-av string be the characters consumed in this step. let attributeName = '' let attributeValue = '' // 4. If the cookie-av string contains a %x3D ("=") character: if (cookieAv.includes('=')) { // 1. The (possibly empty) attribute-name string consists of the // characters up to, but not including, the first %x3D ("=") // character, and the (possibly empty) attribute-value string // consists of the characters after the first %x3D ("=") // character. const position = { position: 0 } attributeName = collectASequenceOfCodePointsFast( '=', cookieAv, position ) attributeValue = cookieAv.slice(position.position + 1) } else { // Otherwise: // 1. The attribute-name string consists of the entire cookie-av // string, and the attribute-value string is empty. attributeName = cookieAv } // 5. Remove any leading or trailing WSP characters from the attribute- // name string and the attribute-value string. attributeName = attributeName.trim() attributeValue = attributeValue.trim() // 6. If the attribute-value is longer than 1024 octets, ignore the // cookie-av string and return to Step 1 of this algorithm. if (attributeValue.length > maxAttributeValueSize) { return parseUnparsedAttributes(unparsedAttributes, cookieAttributeList) } // 7. Process the attribute-name and attribute-value according to the // requirements in the following subsections. (Notice that // attributes with unrecognized attribute-names are ignored.) const attributeNameLowercase = attributeName.toLowerCase() // https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-rfc6265bis#section-5.4.1 // If the attribute-name case-insensitively matches the string // "Expires", the user agent MUST process the cookie-av as follows. if (attributeNameLowercase === 'expires') { // 1. Let the expiry-time be the result of parsing the attribute-value // as cookie-date (see Section 5.1.1). const expiryTime = new Date(attributeValue) // 2. If the attribute-value failed to parse as a cookie date, ignore // the cookie-av. cookieAttributeList.expires = expiryTime } else if (attributeNameLowercase === 'max-age') { // https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-rfc6265bis#section-5.4.2 // If the attribute-name case-insensitively matches the string "Max- // Age", the user agent MUST process the cookie-av as follows. // 1. If the first character of the attribute-value is not a DIGIT or a // "-" character, ignore the cookie-av. const charCode = attributeValue.charCodeAt(0) if ((charCode < 48 || charCode > 57) && attributeValue[0] !== '-') { return parseUnparsedAttributes(unparsedAttributes, cookieAttributeList) } // 2. If the remainder of attribute-value contains a non-DIGIT // character, ignore the cookie-av. if (!/^\d+$/.test(attributeValue)) { return parseUnparsedAttributes(unparsedAttributes, cookieAttributeList) } // 3. Let delta-seconds be the attribute-value converted to an integer. const deltaSeconds = Number(attributeValue) // 4. Let cookie-age-limit be the maximum age of the cookie (which // SHOULD be 400 days or less, see Section 4.1.2.2). // 5. Set delta-seconds to the smaller of its present value and cookie- // age-limit. // deltaSeconds = Math.min(deltaSeconds * 1000, maxExpiresMs) // 6. If delta-seconds is less than or equal to zero (0), let expiry- // time be the earliest representable date and time. Otherwise, let // the expiry-time be the current date and time plus delta-seconds // seconds. // const expiryTime = deltaSeconds <= 0 ? Date.now() : Date.now() + deltaSeconds // 7. Append an attribute to the cookie-attribute-list with an // attribute-name of Max-Age and an attribute-value of expiry-time. cookieAttributeList.maxAge = deltaSeconds } else if (attributeNameLowercase === 'domain') { // https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-rfc6265bis#section-5.4.3 // If the attribute-name case-insensitively matches the string "Domain", // the user agent MUST process the cookie-av as follows. // 1. Let cookie-domain be the attribute-value. let cookieDomain = attributeValue // 2. If cookie-domain starts with %x2E ("."), let cookie-domain be // cookie-domain without its leading %x2E ("."). if (cookieDomain[0] === '.') { cookieDomain = cookieDomain.slice(1) } // 3. Convert the cookie-domain to lower case. cookieDomain = cookieDomain.toLowerCase() // 4. Append an attribute to the cookie-attribute-list with an // attribute-name of Domain and an attribute-value of cookie-domain. cookieAttributeList.domain = cookieDomain } else if (attributeNameLowercase === 'path') { // https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-rfc6265bis#section-5.4.4 // If the attribute-name case-insensitively matches the string "Path", // the user agent MUST process the cookie-av as follows. // 1. If the attribute-value is empty or if the first character of the // attribute-value is not %x2F ("/"): let cookiePath = '' if (attributeValue.length === 0 || attributeValue[0] !== '/') { // 1. Let cookie-path be the default-path. cookiePath = '/' } else { // Otherwise: // 1. Let cookie-path be the attribute-value. cookiePath = attributeValue } // 2. Append an attribute to the cookie-attribute-list with an // attribute-name of Path and an attribute-value of cookie-path. cookieAttributeList.path = cookiePath } else if (attributeNameLowercase === 'secure') { // https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-rfc6265bis#section-5.4.5 // If the attribute-name case-insensitively matches the string "Secure", // the user agent MUST append an attribute to the cookie-attribute-list // with an attribute-name of Secure and an empty attribute-value. cookieAttributeList.secure = true } else if (attributeNameLowercase === 'httponly') { // https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-rfc6265bis#section-5.4.6 // If the attribute-name case-insensitively matches the string // "HttpOnly", the user agent MUST append an attribute to the cookie- // attribute-list with an attribute-name of HttpOnly and an empty // attribute-value. cookieAttributeList.httpOnly = true } else if (attributeNameLowercase === 'samesite') { // https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-rfc6265bis#section-5.4.7 // If the attribute-name case-insensitively matches the string // "SameSite", the user agent MUST process the cookie-av as follows: // 1. Let enforcement be "Default". let enforcement = 'Default' const attributeValueLowercase = attributeValue.toLowerCase() // 2. If cookie-av's attribute-value is a case-insensitive match for // "None", set enforcement to "None". if (attributeValueLowercase.includes('none')) { enforcement = 'None' } // 3. If cookie-av's attribute-value is a case-insensitive match for // "Strict", set enforcement to "Strict". if (attributeValueLowercase.includes('strict')) { enforcement = 'Strict' } // 4. If cookie-av's attribute-value is a case-insensitive match for // "Lax", set enforcement to "Lax". if (attributeValueLowercase.includes('lax')) { enforcement = 'Lax' } // 5. Append an attribute to the cookie-attribute-list with an // attribute-name of "SameSite" and an attribute-value of // enforcement. cookieAttributeList.sameSite = enforcement } else { cookieAttributeList.unparsed ??= [] cookieAttributeList.unparsed.push(`${attributeName}=${attributeValue}`) } // 8. Return to Step 1 of this algorithm. return parseUnparsedAttributes(unparsedAttributes, cookieAttributeList) } module.exports = { parseSetCookie, parseUnparsedAttributes } /***/ }), /***/ 3834: /***/ ((module) => { /** * @param {string} value * @returns {boolean} */ function isCTLExcludingHtab (value) { if (value.length === 0) { return false } for (const char of value) { const code = char.charCodeAt(0) if ( (code >= 0x00 || code <= 0x08) || (code >= 0x0A || code <= 0x1F) || code === 0x7F ) { return false } } } /** CHAR = token = 1* separators = "(" | ")" | "<" | ">" | "@" | "," | ";" | ":" | "\" | <"> | "/" | "[" | "]" | "?" | "=" | "{" | "}" | SP | HT * @param {string} name */ function validateCookieName (name) { for (const char of name) { const code = char.charCodeAt(0) if ( (code <= 0x20 || code > 0x7F) || char === '(' || char === ')' || char === '>' || char === '<' || char === '@' || char === ',' || char === ';' || char === ':' || char === '\\' || char === '"' || char === '/' || char === '[' || char === ']' || char === '?' || char === '=' || char === '{' || char === '}' ) { throw new Error('Invalid cookie name') } } } /** cookie-value = *cookie-octet / ( DQUOTE *cookie-octet DQUOTE ) cookie-octet = %x21 / %x23-2B / %x2D-3A / %x3C-5B / %x5D-7E ; US-ASCII characters excluding CTLs, ; whitespace DQUOTE, comma, semicolon, ; and backslash * @param {string} value */ function validateCookieValue (value) { for (const char of value) { const code = char.charCodeAt(0) if ( code < 0x21 || // exclude CTLs (0-31) code === 0x22 || code === 0x2C || code === 0x3B || code === 0x5C || code > 0x7E // non-ascii ) { throw new Error('Invalid header value') } } } /** * path-value = * @param {string} path */ function validateCookiePath (path) { for (const char of path) { const code = char.charCodeAt(0) if (code < 0x21 || char === ';') { throw new Error('Invalid cookie path') } } } /** * I have no idea why these values aren't allowed to be honest, * but Deno tests these. - Khafra * @param {string} domain */ function validateCookieDomain (domain) { if ( domain.startsWith('-') || domain.endsWith('.') || domain.endsWith('-') ) { throw new Error('Invalid cookie domain') } } /** * @see https://www.rfc-editor.org/rfc/rfc7231#section-7.1.1.1 * @param {number|Date} date IMF-fixdate = day-name "," SP date1 SP time-of-day SP GMT ; fixed length/zone/capitalization subset of the format ; see Section 3.3 of [RFC5322] day-name = %x4D.6F.6E ; "Mon", case-sensitive / %x54.75.65 ; "Tue", case-sensitive / %x57.65.64 ; "Wed", case-sensitive / %x54.68.75 ; "Thu", case-sensitive / %x46.72.69 ; "Fri", case-sensitive / %x53.61.74 ; "Sat", case-sensitive / %x53.75.6E ; "Sun", case-sensitive date1 = day SP month SP year ; e.g., 02 Jun 1982 day = 2DIGIT month = %x4A.61.6E ; "Jan", case-sensitive / %x46.65.62 ; "Feb", case-sensitive / %x4D.61.72 ; "Mar", case-sensitive / %x41.70.72 ; "Apr", case-sensitive / %x4D.61.79 ; "May", case-sensitive / %x4A.75.6E ; "Jun", case-sensitive / %x4A.75.6C ; "Jul", case-sensitive / %x41.75.67 ; "Aug", case-sensitive / %x53.65.70 ; "Sep", case-sensitive / %x4F.63.74 ; "Oct", case-sensitive / %x4E.6F.76 ; "Nov", case-sensitive / %x44.65.63 ; "Dec", case-sensitive year = 4DIGIT GMT = %x47.4D.54 ; "GMT", case-sensitive time-of-day = hour ":" minute ":" second ; 00:00:00 - 23:59:60 (leap second) hour = 2DIGIT minute = 2DIGIT second = 2DIGIT */ function toIMFDate (date) { if (typeof date === 'number') { date = new Date(date) } const days = [ 'Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat' ] const months = [ 'Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec' ] const dayName = days[date.getUTCDay()] const day = date.getUTCDate().toString().padStart(2, '0') const month = months[date.getUTCMonth()] const year = date.getUTCFullYear() const hour = date.getUTCHours().toString().padStart(2, '0') const minute = date.getUTCMinutes().toString().padStart(2, '0') const second = date.getUTCSeconds().toString().padStart(2, '0') return `${dayName}, ${day} ${month} ${year} ${hour}:${minute}:${second} GMT` } /** max-age-av = "Max-Age=" non-zero-digit *DIGIT ; In practice, both expires-av and max-age-av ; are limited to dates representable by the ; user agent. * @param {number} maxAge */ function validateCookieMaxAge (maxAge) { if (maxAge < 0) { throw new Error('Invalid cookie max-age') } } /** * @see https://www.rfc-editor.org/rfc/rfc6265#section-4.1.1 * @param {import('./index').Cookie} cookie */ function stringify (cookie) { if (cookie.name.length === 0) { return null } validateCookieName(cookie.name) validateCookieValue(cookie.value) const out = [`${cookie.name}=${cookie.value}`] // https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-cookie-prefixes-00#section-3.1 // https://datatracker.ietf.org/doc/html/draft-ietf-httpbis-cookie-prefixes-00#section-3.2 if (cookie.name.startsWith('__Secure-')) { cookie.secure = true } if (cookie.name.startsWith('__Host-')) { cookie.secure = true cookie.domain = null cookie.path = '/' } if (cookie.secure) { out.push('Secure') } if (cookie.httpOnly) { out.push('HttpOnly') } if (typeof cookie.maxAge === 'number') { validateCookieMaxAge(cookie.maxAge) out.push(`Max-Age=${cookie.maxAge}`) } if (cookie.domain) { validateCookieDomain(cookie.domain) out.push(`Domain=${cookie.domain}`) } if (cookie.path) { validateCookiePath(cookie.path) out.push(`Path=${cookie.path}`) } if (cookie.expires && cookie.expires.toString() !== 'Invalid Date') { out.push(`Expires=${toIMFDate(cookie.expires)}`) } if (cookie.sameSite) { out.push(`SameSite=${cookie.sameSite}`) } for (const part of cookie.unparsed) { if (!part.includes('=')) { throw new Error('Invalid unparsed') } const [key, ...value] = part.split('=') out.push(`${key.trim()}=${value.join('=')}`) } return out.join('; ') } module.exports = { isCTLExcludingHtab, validateCookieName, validateCookiePath, validateCookieValue, toIMFDate, stringify } /***/ }), /***/ 9136: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const net = __nccwpck_require__(9278) const assert = __nccwpck_require__(2613) const util = __nccwpck_require__(3440) const { InvalidArgumentError, ConnectTimeoutError } = __nccwpck_require__(8707) let tls // include tls conditionally since it is not always available // TODO: session re-use does not wait for the first // connection to resolve the session and might therefore // resolve the same servername multiple times even when // re-use is enabled. let SessionCache // FIXME: remove workaround when the Node bug is fixed // https://github.com/nodejs/node/issues/49344#issuecomment-1741776308 if (global.FinalizationRegistry && !process.env.NODE_V8_COVERAGE) { SessionCache = class WeakSessionCache { constructor (maxCachedSessions) { this._maxCachedSessions = maxCachedSessions this._sessionCache = new Map() this._sessionRegistry = new global.FinalizationRegistry((key) => { if (this._sessionCache.size < this._maxCachedSessions) { return } const ref = this._sessionCache.get(key) if (ref !== undefined && ref.deref() === undefined) { this._sessionCache.delete(key) } }) } get (sessionKey) { const ref = this._sessionCache.get(sessionKey) return ref ? ref.deref() : null } set (sessionKey, session) { if (this._maxCachedSessions === 0) { return } this._sessionCache.set(sessionKey, new WeakRef(session)) this._sessionRegistry.register(session, sessionKey) } } } else { SessionCache = class SimpleSessionCache { constructor (maxCachedSessions) { this._maxCachedSessions = maxCachedSessions this._sessionCache = new Map() } get (sessionKey) { return this._sessionCache.get(sessionKey) } set (sessionKey, session) { if (this._maxCachedSessions === 0) { return } if (this._sessionCache.size >= this._maxCachedSessions) { // remove the oldest session const { value: oldestKey } = this._sessionCache.keys().next() this._sessionCache.delete(oldestKey) } this._sessionCache.set(sessionKey, session) } } } function buildConnector ({ allowH2, maxCachedSessions, socketPath, timeout, ...opts }) { if (maxCachedSessions != null && (!Number.isInteger(maxCachedSessions) || maxCachedSessions < 0)) { throw new InvalidArgumentError('maxCachedSessions must be a positive integer or zero') } const options = { path: socketPath, ...opts } const sessionCache = new SessionCache(maxCachedSessions == null ? 100 : maxCachedSessions) timeout = timeout == null ? 10e3 : timeout allowH2 = allowH2 != null ? allowH2 : false return function connect ({ hostname, host, protocol, port, servername, localAddress, httpSocket }, callback) { let socket if (protocol === 'https:') { if (!tls) { tls = __nccwpck_require__(4756) } servername = servername || options.servername || util.getServerName(host) || null const sessionKey = servername || hostname const session = sessionCache.get(sessionKey) || null assert(sessionKey) socket = tls.connect({ highWaterMark: 16384, // TLS in node can't have bigger HWM anyway... ...options, servername, session, localAddress, // TODO(HTTP/2): Add support for h2c ALPNProtocols: allowH2 ? ['http/1.1', 'h2'] : ['http/1.1'], socket: httpSocket, // upgrade socket connection port: port || 443, host: hostname }) socket .on('session', function (session) { // TODO (fix): Can a session become invalid once established? Don't think so? sessionCache.set(sessionKey, session) }) } else { assert(!httpSocket, 'httpSocket can only be sent on TLS update') socket = net.connect({ highWaterMark: 64 * 1024, // Same as nodejs fs streams. ...options, localAddress, port: port || 80, host: hostname }) } // Set TCP keep alive options on the socket here instead of in connect() for the case of assigning the socket if (options.keepAlive == null || options.keepAlive) { const keepAliveInitialDelay = options.keepAliveInitialDelay === undefined ? 60e3 : options.keepAliveInitialDelay socket.setKeepAlive(true, keepAliveInitialDelay) } const cancelTimeout = setupTimeout(() => onConnectTimeout(socket), timeout) socket .setNoDelay(true) .once(protocol === 'https:' ? 'secureConnect' : 'connect', function () { cancelTimeout() if (callback) { const cb = callback callback = null cb(null, this) } }) .on('error', function (err) { cancelTimeout() if (callback) { const cb = callback callback = null cb(err) } }) return socket } } function setupTimeout (onConnectTimeout, timeout) { if (!timeout) { return () => {} } let s1 = null let s2 = null const timeoutId = setTimeout(() => { // setImmediate is added to make sure that we priotorise socket error events over timeouts s1 = setImmediate(() => { if (process.platform === 'win32') { // Windows needs an extra setImmediate probably due to implementation differences in the socket logic s2 = setImmediate(() => onConnectTimeout()) } else { onConnectTimeout() } }) }, timeout) return () => { clearTimeout(timeoutId) clearImmediate(s1) clearImmediate(s2) } } function onConnectTimeout (socket) { util.destroy(socket, new ConnectTimeoutError()) } module.exports = buildConnector /***/ }), /***/ 735: /***/ ((module) => { /** @type {Record} */ const headerNameLowerCasedRecord = {} // https://developer.mozilla.org/docs/Web/HTTP/Headers const wellknownHeaderNames = [ 'Accept', 'Accept-Encoding', 'Accept-Language', 'Accept-Ranges', 'Access-Control-Allow-Credentials', 'Access-Control-Allow-Headers', 'Access-Control-Allow-Methods', 'Access-Control-Allow-Origin', 'Access-Control-Expose-Headers', 'Access-Control-Max-Age', 'Access-Control-Request-Headers', 'Access-Control-Request-Method', 'Age', 'Allow', 'Alt-Svc', 'Alt-Used', 'Authorization', 'Cache-Control', 'Clear-Site-Data', 'Connection', 'Content-Disposition', 'Content-Encoding', 'Content-Language', 'Content-Length', 'Content-Location', 'Content-Range', 'Content-Security-Policy', 'Content-Security-Policy-Report-Only', 'Content-Type', 'Cookie', 'Cross-Origin-Embedder-Policy', 'Cross-Origin-Opener-Policy', 'Cross-Origin-Resource-Policy', 'Date', 'Device-Memory', 'Downlink', 'ECT', 'ETag', 'Expect', 'Expect-CT', 'Expires', 'Forwarded', 'From', 'Host', 'If-Match', 'If-Modified-Since', 'If-None-Match', 'If-Range', 'If-Unmodified-Since', 'Keep-Alive', 'Last-Modified', 'Link', 'Location', 'Max-Forwards', 'Origin', 'Permissions-Policy', 'Pragma', 'Proxy-Authenticate', 'Proxy-Authorization', 'RTT', 'Range', 'Referer', 'Referrer-Policy', 'Refresh', 'Retry-After', 'Sec-WebSocket-Accept', 'Sec-WebSocket-Extensions', 'Sec-WebSocket-Key', 'Sec-WebSocket-Protocol', 'Sec-WebSocket-Version', 'Server', 'Server-Timing', 'Service-Worker-Allowed', 'Service-Worker-Navigation-Preload', 'Set-Cookie', 'SourceMap', 'Strict-Transport-Security', 'Supports-Loading-Mode', 'TE', 'Timing-Allow-Origin', 'Trailer', 'Transfer-Encoding', 'Upgrade', 'Upgrade-Insecure-Requests', 'User-Agent', 'Vary', 'Via', 'WWW-Authenticate', 'X-Content-Type-Options', 'X-DNS-Prefetch-Control', 'X-Frame-Options', 'X-Permitted-Cross-Domain-Policies', 'X-Powered-By', 'X-Requested-With', 'X-XSS-Protection' ] for (let i = 0; i < wellknownHeaderNames.length; ++i) { const key = wellknownHeaderNames[i] const lowerCasedKey = key.toLowerCase() headerNameLowerCasedRecord[key] = headerNameLowerCasedRecord[lowerCasedKey] = lowerCasedKey } // Note: object prototypes should not be able to be referenced. e.g. `Object#hasOwnProperty`. Object.setPrototypeOf(headerNameLowerCasedRecord, null) module.exports = { wellknownHeaderNames, headerNameLowerCasedRecord } /***/ }), /***/ 8707: /***/ ((module) => { class UndiciError extends Error { constructor (message) { super(message) this.name = 'UndiciError' this.code = 'UND_ERR' } } class ConnectTimeoutError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, ConnectTimeoutError) this.name = 'ConnectTimeoutError' this.message = message || 'Connect Timeout Error' this.code = 'UND_ERR_CONNECT_TIMEOUT' } } class HeadersTimeoutError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, HeadersTimeoutError) this.name = 'HeadersTimeoutError' this.message = message || 'Headers Timeout Error' this.code = 'UND_ERR_HEADERS_TIMEOUT' } } class HeadersOverflowError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, HeadersOverflowError) this.name = 'HeadersOverflowError' this.message = message || 'Headers Overflow Error' this.code = 'UND_ERR_HEADERS_OVERFLOW' } } class BodyTimeoutError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, BodyTimeoutError) this.name = 'BodyTimeoutError' this.message = message || 'Body Timeout Error' this.code = 'UND_ERR_BODY_TIMEOUT' } } class ResponseStatusCodeError extends UndiciError { constructor (message, statusCode, headers, body) { super(message) Error.captureStackTrace(this, ResponseStatusCodeError) this.name = 'ResponseStatusCodeError' this.message = message || 'Response Status Code Error' this.code = 'UND_ERR_RESPONSE_STATUS_CODE' this.body = body this.status = statusCode this.statusCode = statusCode this.headers = headers } } class InvalidArgumentError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, InvalidArgumentError) this.name = 'InvalidArgumentError' this.message = message || 'Invalid Argument Error' this.code = 'UND_ERR_INVALID_ARG' } } class InvalidReturnValueError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, InvalidReturnValueError) this.name = 'InvalidReturnValueError' this.message = message || 'Invalid Return Value Error' this.code = 'UND_ERR_INVALID_RETURN_VALUE' } } class RequestAbortedError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, RequestAbortedError) this.name = 'AbortError' this.message = message || 'Request aborted' this.code = 'UND_ERR_ABORTED' } } class InformationalError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, InformationalError) this.name = 'InformationalError' this.message = message || 'Request information' this.code = 'UND_ERR_INFO' } } class RequestContentLengthMismatchError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, RequestContentLengthMismatchError) this.name = 'RequestContentLengthMismatchError' this.message = message || 'Request body length does not match content-length header' this.code = 'UND_ERR_REQ_CONTENT_LENGTH_MISMATCH' } } class ResponseContentLengthMismatchError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, ResponseContentLengthMismatchError) this.name = 'ResponseContentLengthMismatchError' this.message = message || 'Response body length does not match content-length header' this.code = 'UND_ERR_RES_CONTENT_LENGTH_MISMATCH' } } class ClientDestroyedError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, ClientDestroyedError) this.name = 'ClientDestroyedError' this.message = message || 'The client is destroyed' this.code = 'UND_ERR_DESTROYED' } } class ClientClosedError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, ClientClosedError) this.name = 'ClientClosedError' this.message = message || 'The client is closed' this.code = 'UND_ERR_CLOSED' } } class SocketError extends UndiciError { constructor (message, socket) { super(message) Error.captureStackTrace(this, SocketError) this.name = 'SocketError' this.message = message || 'Socket error' this.code = 'UND_ERR_SOCKET' this.socket = socket } } class NotSupportedError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, NotSupportedError) this.name = 'NotSupportedError' this.message = message || 'Not supported error' this.code = 'UND_ERR_NOT_SUPPORTED' } } class BalancedPoolMissingUpstreamError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, NotSupportedError) this.name = 'MissingUpstreamError' this.message = message || 'No upstream has been added to the BalancedPool' this.code = 'UND_ERR_BPL_MISSING_UPSTREAM' } } class HTTPParserError extends Error { constructor (message, code, data) { super(message) Error.captureStackTrace(this, HTTPParserError) this.name = 'HTTPParserError' this.code = code ? `HPE_${code}` : undefined this.data = data ? data.toString() : undefined } } class ResponseExceededMaxSizeError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, ResponseExceededMaxSizeError) this.name = 'ResponseExceededMaxSizeError' this.message = message || 'Response content exceeded max size' this.code = 'UND_ERR_RES_EXCEEDED_MAX_SIZE' } } class RequestRetryError extends UndiciError { constructor (message, code, { headers, data }) { super(message) Error.captureStackTrace(this, RequestRetryError) this.name = 'RequestRetryError' this.message = message || 'Request retry error' this.code = 'UND_ERR_REQ_RETRY' this.statusCode = code this.data = data this.headers = headers } } module.exports = { HTTPParserError, UndiciError, HeadersTimeoutError, HeadersOverflowError, BodyTimeoutError, RequestContentLengthMismatchError, ConnectTimeoutError, ResponseStatusCodeError, InvalidArgumentError, InvalidReturnValueError, RequestAbortedError, ClientDestroyedError, ClientClosedError, InformationalError, SocketError, NotSupportedError, ResponseContentLengthMismatchError, BalancedPoolMissingUpstreamError, ResponseExceededMaxSizeError, RequestRetryError } /***/ }), /***/ 4655: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { InvalidArgumentError, NotSupportedError } = __nccwpck_require__(8707) const assert = __nccwpck_require__(2613) const { kHTTP2BuildRequest, kHTTP2CopyHeaders, kHTTP1BuildRequest } = __nccwpck_require__(6443) const util = __nccwpck_require__(3440) // tokenRegExp and headerCharRegex have been lifted from // https://github.com/nodejs/node/blob/main/lib/_http_common.js /** * Verifies that the given val is a valid HTTP token * per the rules defined in RFC 7230 * See https://tools.ietf.org/html/rfc7230#section-3.2.6 */ const tokenRegExp = /^[\^_`a-zA-Z\-0-9!#$%&'*+.|~]+$/ /** * Matches if val contains an invalid field-vchar * field-value = *( field-content / obs-fold ) * field-content = field-vchar [ 1*( SP / HTAB ) field-vchar ] * field-vchar = VCHAR / obs-text */ const headerCharRegex = /[^\t\x20-\x7e\x80-\xff]/ // Verifies that a given path is valid does not contain control chars \x00 to \x20 const invalidPathRegex = /[^\u0021-\u00ff]/ const kHandler = Symbol('handler') const channels = {} let extractBody try { const diagnosticsChannel = __nccwpck_require__(1637) channels.create = diagnosticsChannel.channel('undici:request:create') channels.bodySent = diagnosticsChannel.channel('undici:request:bodySent') channels.headers = diagnosticsChannel.channel('undici:request:headers') channels.trailers = diagnosticsChannel.channel('undici:request:trailers') channels.error = diagnosticsChannel.channel('undici:request:error') } catch { channels.create = { hasSubscribers: false } channels.bodySent = { hasSubscribers: false } channels.headers = { hasSubscribers: false } channels.trailers = { hasSubscribers: false } channels.error = { hasSubscribers: false } } class Request { constructor (origin, { path, method, body, headers, query, idempotent, blocking, upgrade, headersTimeout, bodyTimeout, reset, throwOnError, expectContinue }, handler) { if (typeof path !== 'string') { throw new InvalidArgumentError('path must be a string') } else if ( path[0] !== '/' && !(path.startsWith('http://') || path.startsWith('https://')) && method !== 'CONNECT' ) { throw new InvalidArgumentError('path must be an absolute URL or start with a slash') } else if (invalidPathRegex.exec(path) !== null) { throw new InvalidArgumentError('invalid request path') } if (typeof method !== 'string') { throw new InvalidArgumentError('method must be a string') } else if (tokenRegExp.exec(method) === null) { throw new InvalidArgumentError('invalid request method') } if (upgrade && typeof upgrade !== 'string') { throw new InvalidArgumentError('upgrade must be a string') } if (headersTimeout != null && (!Number.isFinite(headersTimeout) || headersTimeout < 0)) { throw new InvalidArgumentError('invalid headersTimeout') } if (bodyTimeout != null && (!Number.isFinite(bodyTimeout) || bodyTimeout < 0)) { throw new InvalidArgumentError('invalid bodyTimeout') } if (reset != null && typeof reset !== 'boolean') { throw new InvalidArgumentError('invalid reset') } if (expectContinue != null && typeof expectContinue !== 'boolean') { throw new InvalidArgumentError('invalid expectContinue') } this.headersTimeout = headersTimeout this.bodyTimeout = bodyTimeout this.throwOnError = throwOnError === true this.method = method this.abort = null if (body == null) { this.body = null } else if (util.isStream(body)) { this.body = body const rState = this.body._readableState if (!rState || !rState.autoDestroy) { this.endHandler = function autoDestroy () { util.destroy(this) } this.body.on('end', this.endHandler) } this.errorHandler = err => { if (this.abort) { this.abort(err) } else { this.error = err } } this.body.on('error', this.errorHandler) } else if (util.isBuffer(body)) { this.body = body.byteLength ? body : null } else if (ArrayBuffer.isView(body)) { this.body = body.buffer.byteLength ? Buffer.from(body.buffer, body.byteOffset, body.byteLength) : null } else if (body instanceof ArrayBuffer) { this.body = body.byteLength ? Buffer.from(body) : null } else if (typeof body === 'string') { this.body = body.length ? Buffer.from(body) : null } else if (util.isFormDataLike(body) || util.isIterable(body) || util.isBlobLike(body)) { this.body = body } else { throw new InvalidArgumentError('body must be a string, a Buffer, a Readable stream, an iterable, or an async iterable') } this.completed = false this.aborted = false this.upgrade = upgrade || null this.path = query ? util.buildURL(path, query) : path this.origin = origin this.idempotent = idempotent == null ? method === 'HEAD' || method === 'GET' : idempotent this.blocking = blocking == null ? false : blocking this.reset = reset == null ? null : reset this.host = null this.contentLength = null this.contentType = null this.headers = '' // Only for H2 this.expectContinue = expectContinue != null ? expectContinue : false if (Array.isArray(headers)) { if (headers.length % 2 !== 0) { throw new InvalidArgumentError('headers array must be even') } for (let i = 0; i < headers.length; i += 2) { processHeader(this, headers[i], headers[i + 1]) } } else if (headers && typeof headers === 'object') { const keys = Object.keys(headers) for (let i = 0; i < keys.length; i++) { const key = keys[i] processHeader(this, key, headers[key]) } } else if (headers != null) { throw new InvalidArgumentError('headers must be an object or an array') } if (util.isFormDataLike(this.body)) { if (util.nodeMajor < 16 || (util.nodeMajor === 16 && util.nodeMinor < 8)) { throw new InvalidArgumentError('Form-Data bodies are only supported in node v16.8 and newer.') } if (!extractBody) { extractBody = (__nccwpck_require__(8923).extractBody) } const [bodyStream, contentType] = extractBody(body) if (this.contentType == null) { this.contentType = contentType this.headers += `content-type: ${contentType}\r\n` } this.body = bodyStream.stream this.contentLength = bodyStream.length } else if (util.isBlobLike(body) && this.contentType == null && body.type) { this.contentType = body.type this.headers += `content-type: ${body.type}\r\n` } util.validateHandler(handler, method, upgrade) this.servername = util.getServerName(this.host) this[kHandler] = handler if (channels.create.hasSubscribers) { channels.create.publish({ request: this }) } } onBodySent (chunk) { if (this[kHandler].onBodySent) { try { return this[kHandler].onBodySent(chunk) } catch (err) { this.abort(err) } } } onRequestSent () { if (channels.bodySent.hasSubscribers) { channels.bodySent.publish({ request: this }) } if (this[kHandler].onRequestSent) { try { return this[kHandler].onRequestSent() } catch (err) { this.abort(err) } } } onConnect (abort) { assert(!this.aborted) assert(!this.completed) if (this.error) { abort(this.error) } else { this.abort = abort return this[kHandler].onConnect(abort) } } onHeaders (statusCode, headers, resume, statusText) { assert(!this.aborted) assert(!this.completed) if (channels.headers.hasSubscribers) { channels.headers.publish({ request: this, response: { statusCode, headers, statusText } }) } try { return this[kHandler].onHeaders(statusCode, headers, resume, statusText) } catch (err) { this.abort(err) } } onData (chunk) { assert(!this.aborted) assert(!this.completed) try { return this[kHandler].onData(chunk) } catch (err) { this.abort(err) return false } } onUpgrade (statusCode, headers, socket) { assert(!this.aborted) assert(!this.completed) return this[kHandler].onUpgrade(statusCode, headers, socket) } onComplete (trailers) { this.onFinally() assert(!this.aborted) this.completed = true if (channels.trailers.hasSubscribers) { channels.trailers.publish({ request: this, trailers }) } try { return this[kHandler].onComplete(trailers) } catch (err) { // TODO (fix): This might be a bad idea? this.onError(err) } } onError (error) { this.onFinally() if (channels.error.hasSubscribers) { channels.error.publish({ request: this, error }) } if (this.aborted) { return } this.aborted = true return this[kHandler].onError(error) } onFinally () { if (this.errorHandler) { this.body.off('error', this.errorHandler) this.errorHandler = null } if (this.endHandler) { this.body.off('end', this.endHandler) this.endHandler = null } } // TODO: adjust to support H2 addHeader (key, value) { processHeader(this, key, value) return this } static [kHTTP1BuildRequest] (origin, opts, handler) { // TODO: Migrate header parsing here, to make Requests // HTTP agnostic return new Request(origin, opts, handler) } static [kHTTP2BuildRequest] (origin, opts, handler) { const headers = opts.headers opts = { ...opts, headers: null } const request = new Request(origin, opts, handler) request.headers = {} if (Array.isArray(headers)) { if (headers.length % 2 !== 0) { throw new InvalidArgumentError('headers array must be even') } for (let i = 0; i < headers.length; i += 2) { processHeader(request, headers[i], headers[i + 1], true) } } else if (headers && typeof headers === 'object') { const keys = Object.keys(headers) for (let i = 0; i < keys.length; i++) { const key = keys[i] processHeader(request, key, headers[key], true) } } else if (headers != null) { throw new InvalidArgumentError('headers must be an object or an array') } return request } static [kHTTP2CopyHeaders] (raw) { const rawHeaders = raw.split('\r\n') const headers = {} for (const header of rawHeaders) { const [key, value] = header.split(': ') if (value == null || value.length === 0) continue if (headers[key]) headers[key] += `,${value}` else headers[key] = value } return headers } } function processHeaderValue (key, val, skipAppend) { if (val && typeof val === 'object') { throw new InvalidArgumentError(`invalid ${key} header`) } val = val != null ? `${val}` : '' if (headerCharRegex.exec(val) !== null) { throw new InvalidArgumentError(`invalid ${key} header`) } return skipAppend ? val : `${key}: ${val}\r\n` } function processHeader (request, key, val, skipAppend = false) { if (val && (typeof val === 'object' && !Array.isArray(val))) { throw new InvalidArgumentError(`invalid ${key} header`) } else if (val === undefined) { return } if ( request.host === null && key.length === 4 && key.toLowerCase() === 'host' ) { if (headerCharRegex.exec(val) !== null) { throw new InvalidArgumentError(`invalid ${key} header`) } // Consumed by Client request.host = val } else if ( request.contentLength === null && key.length === 14 && key.toLowerCase() === 'content-length' ) { request.contentLength = parseInt(val, 10) if (!Number.isFinite(request.contentLength)) { throw new InvalidArgumentError('invalid content-length header') } } else if ( request.contentType === null && key.length === 12 && key.toLowerCase() === 'content-type' ) { request.contentType = val if (skipAppend) request.headers[key] = processHeaderValue(key, val, skipAppend) else request.headers += processHeaderValue(key, val) } else if ( key.length === 17 && key.toLowerCase() === 'transfer-encoding' ) { throw new InvalidArgumentError('invalid transfer-encoding header') } else if ( key.length === 10 && key.toLowerCase() === 'connection' ) { const value = typeof val === 'string' ? val.toLowerCase() : null if (value !== 'close' && value !== 'keep-alive') { throw new InvalidArgumentError('invalid connection header') } else if (value === 'close') { request.reset = true } } else if ( key.length === 10 && key.toLowerCase() === 'keep-alive' ) { throw new InvalidArgumentError('invalid keep-alive header') } else if ( key.length === 7 && key.toLowerCase() === 'upgrade' ) { throw new InvalidArgumentError('invalid upgrade header') } else if ( key.length === 6 && key.toLowerCase() === 'expect' ) { throw new NotSupportedError('expect header not supported') } else if (tokenRegExp.exec(key) === null) { throw new InvalidArgumentError('invalid header key') } else { if (Array.isArray(val)) { for (let i = 0; i < val.length; i++) { if (skipAppend) { if (request.headers[key]) request.headers[key] += `,${processHeaderValue(key, val[i], skipAppend)}` else request.headers[key] = processHeaderValue(key, val[i], skipAppend) } else { request.headers += processHeaderValue(key, val[i]) } } } else { if (skipAppend) request.headers[key] = processHeaderValue(key, val, skipAppend) else request.headers += processHeaderValue(key, val) } } } module.exports = Request /***/ }), /***/ 6443: /***/ ((module) => { module.exports = { kClose: Symbol('close'), kDestroy: Symbol('destroy'), kDispatch: Symbol('dispatch'), kUrl: Symbol('url'), kWriting: Symbol('writing'), kResuming: Symbol('resuming'), kQueue: Symbol('queue'), kConnect: Symbol('connect'), kConnecting: Symbol('connecting'), kHeadersList: Symbol('headers list'), kKeepAliveDefaultTimeout: Symbol('default keep alive timeout'), kKeepAliveMaxTimeout: Symbol('max keep alive timeout'), kKeepAliveTimeoutThreshold: Symbol('keep alive timeout threshold'), kKeepAliveTimeoutValue: Symbol('keep alive timeout'), kKeepAlive: Symbol('keep alive'), kHeadersTimeout: Symbol('headers timeout'), kBodyTimeout: Symbol('body timeout'), kServerName: Symbol('server name'), kLocalAddress: Symbol('local address'), kHost: Symbol('host'), kNoRef: Symbol('no ref'), kBodyUsed: Symbol('used'), kRunning: Symbol('running'), kBlocking: Symbol('blocking'), kPending: Symbol('pending'), kSize: Symbol('size'), kBusy: Symbol('busy'), kQueued: Symbol('queued'), kFree: Symbol('free'), kConnected: Symbol('connected'), kClosed: Symbol('closed'), kNeedDrain: Symbol('need drain'), kReset: Symbol('reset'), kDestroyed: Symbol.for('nodejs.stream.destroyed'), kMaxHeadersSize: Symbol('max headers size'), kRunningIdx: Symbol('running index'), kPendingIdx: Symbol('pending index'), kError: Symbol('error'), kClients: Symbol('clients'), kClient: Symbol('client'), kParser: Symbol('parser'), kOnDestroyed: Symbol('destroy callbacks'), kPipelining: Symbol('pipelining'), kSocket: Symbol('socket'), kHostHeader: Symbol('host header'), kConnector: Symbol('connector'), kStrictContentLength: Symbol('strict content length'), kMaxRedirections: Symbol('maxRedirections'), kMaxRequests: Symbol('maxRequestsPerClient'), kProxy: Symbol('proxy agent options'), kCounter: Symbol('socket request counter'), kInterceptors: Symbol('dispatch interceptors'), kMaxResponseSize: Symbol('max response size'), kHTTP2Session: Symbol('http2Session'), kHTTP2SessionState: Symbol('http2Session state'), kHTTP2BuildRequest: Symbol('http2 build request'), kHTTP1BuildRequest: Symbol('http1 build request'), kHTTP2CopyHeaders: Symbol('http2 copy headers'), kHTTPConnVersion: Symbol('http connection version'), kRetryHandlerDefaultRetry: Symbol('retry agent default retry'), kConstruct: Symbol('constructable') } /***/ }), /***/ 3440: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const assert = __nccwpck_require__(2613) const { kDestroyed, kBodyUsed } = __nccwpck_require__(6443) const { IncomingMessage } = __nccwpck_require__(8611) const stream = __nccwpck_require__(2203) const net = __nccwpck_require__(9278) const { InvalidArgumentError } = __nccwpck_require__(8707) const { Blob } = __nccwpck_require__(181) const nodeUtil = __nccwpck_require__(9023) const { stringify } = __nccwpck_require__(3480) const { headerNameLowerCasedRecord } = __nccwpck_require__(735) const [nodeMajor, nodeMinor] = process.versions.node.split('.').map(v => Number(v)) function nop () {} function isStream (obj) { return obj && typeof obj === 'object' && typeof obj.pipe === 'function' && typeof obj.on === 'function' } // based on https://github.com/node-fetch/fetch-blob/blob/8ab587d34080de94140b54f07168451e7d0b655e/index.js#L229-L241 (MIT License) function isBlobLike (object) { return (Blob && object instanceof Blob) || ( object && typeof object === 'object' && (typeof object.stream === 'function' || typeof object.arrayBuffer === 'function') && /^(Blob|File)$/.test(object[Symbol.toStringTag]) ) } function buildURL (url, queryParams) { if (url.includes('?') || url.includes('#')) { throw new Error('Query params cannot be passed when url already contains "?" or "#".') } const stringified = stringify(queryParams) if (stringified) { url += '?' + stringified } return url } function parseURL (url) { if (typeof url === 'string') { url = new URL(url) if (!/^https?:/.test(url.origin || url.protocol)) { throw new InvalidArgumentError('Invalid URL protocol: the URL must start with `http:` or `https:`.') } return url } if (!url || typeof url !== 'object') { throw new InvalidArgumentError('Invalid URL: The URL argument must be a non-null object.') } if (!/^https?:/.test(url.origin || url.protocol)) { throw new InvalidArgumentError('Invalid URL protocol: the URL must start with `http:` or `https:`.') } if (!(url instanceof URL)) { if (url.port != null && url.port !== '' && !Number.isFinite(parseInt(url.port))) { throw new InvalidArgumentError('Invalid URL: port must be a valid integer or a string representation of an integer.') } if (url.path != null && typeof url.path !== 'string') { throw new InvalidArgumentError('Invalid URL path: the path must be a string or null/undefined.') } if (url.pathname != null && typeof url.pathname !== 'string') { throw new InvalidArgumentError('Invalid URL pathname: the pathname must be a string or null/undefined.') } if (url.hostname != null && typeof url.hostname !== 'string') { throw new InvalidArgumentError('Invalid URL hostname: the hostname must be a string or null/undefined.') } if (url.origin != null && typeof url.origin !== 'string') { throw new InvalidArgumentError('Invalid URL origin: the origin must be a string or null/undefined.') } const port = url.port != null ? url.port : (url.protocol === 'https:' ? 443 : 80) let origin = url.origin != null ? url.origin : `${url.protocol}//${url.hostname}:${port}` let path = url.path != null ? url.path : `${url.pathname || ''}${url.search || ''}` if (origin.endsWith('/')) { origin = origin.substring(0, origin.length - 1) } if (path && !path.startsWith('/')) { path = `/${path}` } // new URL(path, origin) is unsafe when `path` contains an absolute URL // From https://developer.mozilla.org/en-US/docs/Web/API/URL/URL: // If first parameter is a relative URL, second param is required, and will be used as the base URL. // If first parameter is an absolute URL, a given second param will be ignored. url = new URL(origin + path) } return url } function parseOrigin (url) { url = parseURL(url) if (url.pathname !== '/' || url.search || url.hash) { throw new InvalidArgumentError('invalid url') } return url } function getHostname (host) { if (host[0] === '[') { const idx = host.indexOf(']') assert(idx !== -1) return host.substring(1, idx) } const idx = host.indexOf(':') if (idx === -1) return host return host.substring(0, idx) } // IP addresses are not valid server names per RFC6066 // > Currently, the only server names supported are DNS hostnames function getServerName (host) { if (!host) { return null } assert.strictEqual(typeof host, 'string') const servername = getHostname(host) if (net.isIP(servername)) { return '' } return servername } function deepClone (obj) { return JSON.parse(JSON.stringify(obj)) } function isAsyncIterable (obj) { return !!(obj != null && typeof obj[Symbol.asyncIterator] === 'function') } function isIterable (obj) { return !!(obj != null && (typeof obj[Symbol.iterator] === 'function' || typeof obj[Symbol.asyncIterator] === 'function')) } function bodyLength (body) { if (body == null) { return 0 } else if (isStream(body)) { const state = body._readableState return state && state.objectMode === false && state.ended === true && Number.isFinite(state.length) ? state.length : null } else if (isBlobLike(body)) { return body.size != null ? body.size : null } else if (isBuffer(body)) { return body.byteLength } return null } function isDestroyed (stream) { return !stream || !!(stream.destroyed || stream[kDestroyed]) } function isReadableAborted (stream) { const state = stream && stream._readableState return isDestroyed(stream) && state && !state.endEmitted } function destroy (stream, err) { if (stream == null || !isStream(stream) || isDestroyed(stream)) { return } if (typeof stream.destroy === 'function') { if (Object.getPrototypeOf(stream).constructor === IncomingMessage) { // See: https://github.com/nodejs/node/pull/38505/files stream.socket = null } stream.destroy(err) } else if (err) { process.nextTick((stream, err) => { stream.emit('error', err) }, stream, err) } if (stream.destroyed !== true) { stream[kDestroyed] = true } } const KEEPALIVE_TIMEOUT_EXPR = /timeout=(\d+)/ function parseKeepAliveTimeout (val) { const m = val.toString().match(KEEPALIVE_TIMEOUT_EXPR) return m ? parseInt(m[1], 10) * 1000 : null } /** * Retrieves a header name and returns its lowercase value. * @param {string | Buffer} value Header name * @returns {string} */ function headerNameToString (value) { return headerNameLowerCasedRecord[value] || value.toLowerCase() } function parseHeaders (headers, obj = {}) { // For H2 support if (!Array.isArray(headers)) return headers for (let i = 0; i < headers.length; i += 2) { const key = headers[i].toString().toLowerCase() let val = obj[key] if (!val) { if (Array.isArray(headers[i + 1])) { obj[key] = headers[i + 1].map(x => x.toString('utf8')) } else { obj[key] = headers[i + 1].toString('utf8') } } else { if (!Array.isArray(val)) { val = [val] obj[key] = val } val.push(headers[i + 1].toString('utf8')) } } // See https://github.com/nodejs/node/pull/46528 if ('content-length' in obj && 'content-disposition' in obj) { obj['content-disposition'] = Buffer.from(obj['content-disposition']).toString('latin1') } return obj } function parseRawHeaders (headers) { const ret = [] let hasContentLength = false let contentDispositionIdx = -1 for (let n = 0; n < headers.length; n += 2) { const key = headers[n + 0].toString() const val = headers[n + 1].toString('utf8') if (key.length === 14 && (key === 'content-length' || key.toLowerCase() === 'content-length')) { ret.push(key, val) hasContentLength = true } else if (key.length === 19 && (key === 'content-disposition' || key.toLowerCase() === 'content-disposition')) { contentDispositionIdx = ret.push(key, val) - 1 } else { ret.push(key, val) } } // See https://github.com/nodejs/node/pull/46528 if (hasContentLength && contentDispositionIdx !== -1) { ret[contentDispositionIdx] = Buffer.from(ret[contentDispositionIdx]).toString('latin1') } return ret } function isBuffer (buffer) { // See, https://github.com/mcollina/undici/pull/319 return buffer instanceof Uint8Array || Buffer.isBuffer(buffer) } function validateHandler (handler, method, upgrade) { if (!handler || typeof handler !== 'object') { throw new InvalidArgumentError('handler must be an object') } if (typeof handler.onConnect !== 'function') { throw new InvalidArgumentError('invalid onConnect method') } if (typeof handler.onError !== 'function') { throw new InvalidArgumentError('invalid onError method') } if (typeof handler.onBodySent !== 'function' && handler.onBodySent !== undefined) { throw new InvalidArgumentError('invalid onBodySent method') } if (upgrade || method === 'CONNECT') { if (typeof handler.onUpgrade !== 'function') { throw new InvalidArgumentError('invalid onUpgrade method') } } else { if (typeof handler.onHeaders !== 'function') { throw new InvalidArgumentError('invalid onHeaders method') } if (typeof handler.onData !== 'function') { throw new InvalidArgumentError('invalid onData method') } if (typeof handler.onComplete !== 'function') { throw new InvalidArgumentError('invalid onComplete method') } } } // A body is disturbed if it has been read from and it cannot // be re-used without losing state or data. function isDisturbed (body) { return !!(body && ( stream.isDisturbed ? stream.isDisturbed(body) || body[kBodyUsed] // TODO (fix): Why is body[kBodyUsed] needed? : body[kBodyUsed] || body.readableDidRead || (body._readableState && body._readableState.dataEmitted) || isReadableAborted(body) )) } function isErrored (body) { return !!(body && ( stream.isErrored ? stream.isErrored(body) : /state: 'errored'/.test(nodeUtil.inspect(body) ))) } function isReadable (body) { return !!(body && ( stream.isReadable ? stream.isReadable(body) : /state: 'readable'/.test(nodeUtil.inspect(body) ))) } function getSocketInfo (socket) { return { localAddress: socket.localAddress, localPort: socket.localPort, remoteAddress: socket.remoteAddress, remotePort: socket.remotePort, remoteFamily: socket.remoteFamily, timeout: socket.timeout, bytesWritten: socket.bytesWritten, bytesRead: socket.bytesRead } } async function * convertIterableToBuffer (iterable) { for await (const chunk of iterable) { yield Buffer.isBuffer(chunk) ? chunk : Buffer.from(chunk) } } let ReadableStream function ReadableStreamFrom (iterable) { if (!ReadableStream) { ReadableStream = (__nccwpck_require__(3774).ReadableStream) } if (ReadableStream.from) { return ReadableStream.from(convertIterableToBuffer(iterable)) } let iterator return new ReadableStream( { async start () { iterator = iterable[Symbol.asyncIterator]() }, async pull (controller) { const { done, value } = await iterator.next() if (done) { queueMicrotask(() => { controller.close() }) } else { const buf = Buffer.isBuffer(value) ? value : Buffer.from(value) controller.enqueue(new Uint8Array(buf)) } return controller.desiredSize > 0 }, async cancel (reason) { await iterator.return() } }, 0 ) } // The chunk should be a FormData instance and contains // all the required methods. function isFormDataLike (object) { return ( object && typeof object === 'object' && typeof object.append === 'function' && typeof object.delete === 'function' && typeof object.get === 'function' && typeof object.getAll === 'function' && typeof object.has === 'function' && typeof object.set === 'function' && object[Symbol.toStringTag] === 'FormData' ) } function throwIfAborted (signal) { if (!signal) { return } if (typeof signal.throwIfAborted === 'function') { signal.throwIfAborted() } else { if (signal.aborted) { // DOMException not available < v17.0.0 const err = new Error('The operation was aborted') err.name = 'AbortError' throw err } } } function addAbortListener (signal, listener) { if ('addEventListener' in signal) { signal.addEventListener('abort', listener, { once: true }) return () => signal.removeEventListener('abort', listener) } signal.addListener('abort', listener) return () => signal.removeListener('abort', listener) } const hasToWellFormed = !!String.prototype.toWellFormed /** * @param {string} val */ function toUSVString (val) { if (hasToWellFormed) { return `${val}`.toWellFormed() } else if (nodeUtil.toUSVString) { return nodeUtil.toUSVString(val) } return `${val}` } // Parsed accordingly to RFC 9110 // https://www.rfc-editor.org/rfc/rfc9110#field.content-range function parseRangeHeader (range) { if (range == null || range === '') return { start: 0, end: null, size: null } const m = range ? range.match(/^bytes (\d+)-(\d+)\/(\d+)?$/) : null return m ? { start: parseInt(m[1]), end: m[2] ? parseInt(m[2]) : null, size: m[3] ? parseInt(m[3]) : null } : null } const kEnumerableProperty = Object.create(null) kEnumerableProperty.enumerable = true module.exports = { kEnumerableProperty, nop, isDisturbed, isErrored, isReadable, toUSVString, isReadableAborted, isBlobLike, parseOrigin, parseURL, getServerName, isStream, isIterable, isAsyncIterable, isDestroyed, headerNameToString, parseRawHeaders, parseHeaders, parseKeepAliveTimeout, destroy, bodyLength, deepClone, ReadableStreamFrom, isBuffer, validateHandler, getSocketInfo, isFormDataLike, buildURL, throwIfAborted, addAbortListener, parseRangeHeader, nodeMajor, nodeMinor, nodeHasAutoSelectFamily: nodeMajor > 18 || (nodeMajor === 18 && nodeMinor >= 13), safeHTTPMethods: ['GET', 'HEAD', 'OPTIONS', 'TRACE'] } /***/ }), /***/ 1: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const Dispatcher = __nccwpck_require__(992) const { ClientDestroyedError, ClientClosedError, InvalidArgumentError } = __nccwpck_require__(8707) const { kDestroy, kClose, kDispatch, kInterceptors } = __nccwpck_require__(6443) const kDestroyed = Symbol('destroyed') const kClosed = Symbol('closed') const kOnDestroyed = Symbol('onDestroyed') const kOnClosed = Symbol('onClosed') const kInterceptedDispatch = Symbol('Intercepted Dispatch') class DispatcherBase extends Dispatcher { constructor () { super() this[kDestroyed] = false this[kOnDestroyed] = null this[kClosed] = false this[kOnClosed] = [] } get destroyed () { return this[kDestroyed] } get closed () { return this[kClosed] } get interceptors () { return this[kInterceptors] } set interceptors (newInterceptors) { if (newInterceptors) { for (let i = newInterceptors.length - 1; i >= 0; i--) { const interceptor = this[kInterceptors][i] if (typeof interceptor !== 'function') { throw new InvalidArgumentError('interceptor must be an function') } } } this[kInterceptors] = newInterceptors } close (callback) { if (callback === undefined) { return new Promise((resolve, reject) => { this.close((err, data) => { return err ? reject(err) : resolve(data) }) }) } if (typeof callback !== 'function') { throw new InvalidArgumentError('invalid callback') } if (this[kDestroyed]) { queueMicrotask(() => callback(new ClientDestroyedError(), null)) return } if (this[kClosed]) { if (this[kOnClosed]) { this[kOnClosed].push(callback) } else { queueMicrotask(() => callback(null, null)) } return } this[kClosed] = true this[kOnClosed].push(callback) const onClosed = () => { const callbacks = this[kOnClosed] this[kOnClosed] = null for (let i = 0; i < callbacks.length; i++) { callbacks[i](null, null) } } // Should not error. this[kClose]() .then(() => this.destroy()) .then(() => { queueMicrotask(onClosed) }) } destroy (err, callback) { if (typeof err === 'function') { callback = err err = null } if (callback === undefined) { return new Promise((resolve, reject) => { this.destroy(err, (err, data) => { return err ? /* istanbul ignore next: should never error */ reject(err) : resolve(data) }) }) } if (typeof callback !== 'function') { throw new InvalidArgumentError('invalid callback') } if (this[kDestroyed]) { if (this[kOnDestroyed]) { this[kOnDestroyed].push(callback) } else { queueMicrotask(() => callback(null, null)) } return } if (!err) { err = new ClientDestroyedError() } this[kDestroyed] = true this[kOnDestroyed] = this[kOnDestroyed] || [] this[kOnDestroyed].push(callback) const onDestroyed = () => { const callbacks = this[kOnDestroyed] this[kOnDestroyed] = null for (let i = 0; i < callbacks.length; i++) { callbacks[i](null, null) } } // Should not error. this[kDestroy](err).then(() => { queueMicrotask(onDestroyed) }) } [kInterceptedDispatch] (opts, handler) { if (!this[kInterceptors] || this[kInterceptors].length === 0) { this[kInterceptedDispatch] = this[kDispatch] return this[kDispatch](opts, handler) } let dispatch = this[kDispatch].bind(this) for (let i = this[kInterceptors].length - 1; i >= 0; i--) { dispatch = this[kInterceptors][i](dispatch) } this[kInterceptedDispatch] = dispatch return dispatch(opts, handler) } dispatch (opts, handler) { if (!handler || typeof handler !== 'object') { throw new InvalidArgumentError('handler must be an object') } try { if (!opts || typeof opts !== 'object') { throw new InvalidArgumentError('opts must be an object.') } if (this[kDestroyed] || this[kOnDestroyed]) { throw new ClientDestroyedError() } if (this[kClosed]) { throw new ClientClosedError() } return this[kInterceptedDispatch](opts, handler) } catch (err) { if (typeof handler.onError !== 'function') { throw new InvalidArgumentError('invalid onError method') } handler.onError(err) return false } } } module.exports = DispatcherBase /***/ }), /***/ 992: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const EventEmitter = __nccwpck_require__(4434) class Dispatcher extends EventEmitter { dispatch () { throw new Error('not implemented') } close () { throw new Error('not implemented') } destroy () { throw new Error('not implemented') } } module.exports = Dispatcher /***/ }), /***/ 8923: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const Busboy = __nccwpck_require__(9581) const util = __nccwpck_require__(3440) const { ReadableStreamFrom, isBlobLike, isReadableStreamLike, readableStreamClose, createDeferredPromise, fullyReadBody } = __nccwpck_require__(5523) const { FormData } = __nccwpck_require__(3073) const { kState } = __nccwpck_require__(9710) const { webidl } = __nccwpck_require__(4222) const { DOMException, structuredClone } = __nccwpck_require__(7326) const { Blob, File: NativeFile } = __nccwpck_require__(181) const { kBodyUsed } = __nccwpck_require__(6443) const assert = __nccwpck_require__(2613) const { isErrored } = __nccwpck_require__(3440) const { isUint8Array, isArrayBuffer } = __nccwpck_require__(8253) const { File: UndiciFile } = __nccwpck_require__(3041) const { parseMIMEType, serializeAMimeType } = __nccwpck_require__(4322) let random try { const crypto = __nccwpck_require__(7598) random = (max) => crypto.randomInt(0, max) } catch { random = (max) => Math.floor(Math.random(max)) } let ReadableStream = globalThis.ReadableStream /** @type {globalThis['File']} */ const File = NativeFile ?? UndiciFile const textEncoder = new TextEncoder() const textDecoder = new TextDecoder() // https://fetch.spec.whatwg.org/#concept-bodyinit-extract function extractBody (object, keepalive = false) { if (!ReadableStream) { ReadableStream = (__nccwpck_require__(3774).ReadableStream) } // 1. Let stream be null. let stream = null // 2. If object is a ReadableStream object, then set stream to object. if (object instanceof ReadableStream) { stream = object } else if (isBlobLike(object)) { // 3. Otherwise, if object is a Blob object, set stream to the // result of running object’s get stream. stream = object.stream() } else { // 4. Otherwise, set stream to a new ReadableStream object, and set // up stream. stream = new ReadableStream({ async pull (controller) { controller.enqueue( typeof source === 'string' ? textEncoder.encode(source) : source ) queueMicrotask(() => readableStreamClose(controller)) }, start () {}, type: undefined }) } // 5. Assert: stream is a ReadableStream object. assert(isReadableStreamLike(stream)) // 6. Let action be null. let action = null // 7. Let source be null. let source = null // 8. Let length be null. let length = null // 9. Let type be null. let type = null // 10. Switch on object: if (typeof object === 'string') { // Set source to the UTF-8 encoding of object. // Note: setting source to a Uint8Array here breaks some mocking assumptions. source = object // Set type to `text/plain;charset=UTF-8`. type = 'text/plain;charset=UTF-8' } else if (object instanceof URLSearchParams) { // URLSearchParams // spec says to run application/x-www-form-urlencoded on body.list // this is implemented in Node.js as apart of an URLSearchParams instance toString method // See: https://github.com/nodejs/node/blob/e46c680bf2b211bbd52cf959ca17ee98c7f657f5/lib/internal/url.js#L490 // and https://github.com/nodejs/node/blob/e46c680bf2b211bbd52cf959ca17ee98c7f657f5/lib/internal/url.js#L1100 // Set source to the result of running the application/x-www-form-urlencoded serializer with object’s list. source = object.toString() // Set type to `application/x-www-form-urlencoded;charset=UTF-8`. type = 'application/x-www-form-urlencoded;charset=UTF-8' } else if (isArrayBuffer(object)) { // BufferSource/ArrayBuffer // Set source to a copy of the bytes held by object. source = new Uint8Array(object.slice()) } else if (ArrayBuffer.isView(object)) { // BufferSource/ArrayBufferView // Set source to a copy of the bytes held by object. source = new Uint8Array(object.buffer.slice(object.byteOffset, object.byteOffset + object.byteLength)) } else if (util.isFormDataLike(object)) { const boundary = `----formdata-undici-0${`${random(1e11)}`.padStart(11, '0')}` const prefix = `--${boundary}\r\nContent-Disposition: form-data` /*! formdata-polyfill. MIT License. Jimmy Wärting */ const escape = (str) => str.replace(/\n/g, '%0A').replace(/\r/g, '%0D').replace(/"/g, '%22') const normalizeLinefeeds = (value) => value.replace(/\r?\n|\r/g, '\r\n') // Set action to this step: run the multipart/form-data // encoding algorithm, with object’s entry list and UTF-8. // - This ensures that the body is immutable and can't be changed afterwords // - That the content-length is calculated in advance. // - And that all parts are pre-encoded and ready to be sent. const blobParts = [] const rn = new Uint8Array([13, 10]) // '\r\n' length = 0 let hasUnknownSizeValue = false for (const [name, value] of object) { if (typeof value === 'string') { const chunk = textEncoder.encode(prefix + `; name="${escape(normalizeLinefeeds(name))}"` + `\r\n\r\n${normalizeLinefeeds(value)}\r\n`) blobParts.push(chunk) length += chunk.byteLength } else { const chunk = textEncoder.encode(`${prefix}; name="${escape(normalizeLinefeeds(name))}"` + (value.name ? `; filename="${escape(value.name)}"` : '') + '\r\n' + `Content-Type: ${ value.type || 'application/octet-stream' }\r\n\r\n`) blobParts.push(chunk, value, rn) if (typeof value.size === 'number') { length += chunk.byteLength + value.size + rn.byteLength } else { hasUnknownSizeValue = true } } } const chunk = textEncoder.encode(`--${boundary}--`) blobParts.push(chunk) length += chunk.byteLength if (hasUnknownSizeValue) { length = null } // Set source to object. source = object action = async function * () { for (const part of blobParts) { if (part.stream) { yield * part.stream() } else { yield part } } } // Set type to `multipart/form-data; boundary=`, // followed by the multipart/form-data boundary string generated // by the multipart/form-data encoding algorithm. type = 'multipart/form-data; boundary=' + boundary } else if (isBlobLike(object)) { // Blob // Set source to object. source = object // Set length to object’s size. length = object.size // If object’s type attribute is not the empty byte sequence, set // type to its value. if (object.type) { type = object.type } } else if (typeof object[Symbol.asyncIterator] === 'function') { // If keepalive is true, then throw a TypeError. if (keepalive) { throw new TypeError('keepalive') } // If object is disturbed or locked, then throw a TypeError. if (util.isDisturbed(object) || object.locked) { throw new TypeError( 'Response body object should not be disturbed or locked' ) } stream = object instanceof ReadableStream ? object : ReadableStreamFrom(object) } // 11. If source is a byte sequence, then set action to a // step that returns source and length to source’s length. if (typeof source === 'string' || util.isBuffer(source)) { length = Buffer.byteLength(source) } // 12. If action is non-null, then run these steps in in parallel: if (action != null) { // Run action. let iterator stream = new ReadableStream({ async start () { iterator = action(object)[Symbol.asyncIterator]() }, async pull (controller) { const { value, done } = await iterator.next() if (done) { // When running action is done, close stream. queueMicrotask(() => { controller.close() }) } else { // Whenever one or more bytes are available and stream is not errored, // enqueue a Uint8Array wrapping an ArrayBuffer containing the available // bytes into stream. if (!isErrored(stream)) { controller.enqueue(new Uint8Array(value)) } } return controller.desiredSize > 0 }, async cancel (reason) { await iterator.return() }, type: undefined }) } // 13. Let body be a body whose stream is stream, source is source, // and length is length. const body = { stream, source, length } // 14. Return (body, type). return [body, type] } // https://fetch.spec.whatwg.org/#bodyinit-safely-extract function safelyExtractBody (object, keepalive = false) { if (!ReadableStream) { // istanbul ignore next ReadableStream = (__nccwpck_require__(3774).ReadableStream) } // To safely extract a body and a `Content-Type` value from // a byte sequence or BodyInit object object, run these steps: // 1. If object is a ReadableStream object, then: if (object instanceof ReadableStream) { // Assert: object is neither disturbed nor locked. // istanbul ignore next assert(!util.isDisturbed(object), 'The body has already been consumed.') // istanbul ignore next assert(!object.locked, 'The stream is locked.') } // 2. Return the results of extracting object. return extractBody(object, keepalive) } function cloneBody (body) { // To clone a body body, run these steps: // https://fetch.spec.whatwg.org/#concept-body-clone // 1. Let « out1, out2 » be the result of teeing body’s stream. const [out1, out2] = body.stream.tee() const out2Clone = structuredClone(out2, { transfer: [out2] }) // This, for whatever reasons, unrefs out2Clone which allows // the process to exit by itself. const [, finalClone] = out2Clone.tee() // 2. Set body’s stream to out1. body.stream = out1 // 3. Return a body whose stream is out2 and other members are copied from body. return { stream: finalClone, length: body.length, source: body.source } } async function * consumeBody (body) { if (body) { if (isUint8Array(body)) { yield body } else { const stream = body.stream if (util.isDisturbed(stream)) { throw new TypeError('The body has already been consumed.') } if (stream.locked) { throw new TypeError('The stream is locked.') } // Compat. stream[kBodyUsed] = true yield * stream } } } function throwIfAborted (state) { if (state.aborted) { throw new DOMException('The operation was aborted.', 'AbortError') } } function bodyMixinMethods (instance) { const methods = { blob () { // The blob() method steps are to return the result of // running consume body with this and the following step // given a byte sequence bytes: return a Blob whose // contents are bytes and whose type attribute is this’s // MIME type. return specConsumeBody(this, (bytes) => { let mimeType = bodyMimeType(this) if (mimeType === 'failure') { mimeType = '' } else if (mimeType) { mimeType = serializeAMimeType(mimeType) } // Return a Blob whose contents are bytes and type attribute // is mimeType. return new Blob([bytes], { type: mimeType }) }, instance) }, arrayBuffer () { // The arrayBuffer() method steps are to return the result // of running consume body with this and the following step // given a byte sequence bytes: return a new ArrayBuffer // whose contents are bytes. return specConsumeBody(this, (bytes) => { return new Uint8Array(bytes).buffer }, instance) }, text () { // The text() method steps are to return the result of running // consume body with this and UTF-8 decode. return specConsumeBody(this, utf8DecodeBytes, instance) }, json () { // The json() method steps are to return the result of running // consume body with this and parse JSON from bytes. return specConsumeBody(this, parseJSONFromBytes, instance) }, async formData () { webidl.brandCheck(this, instance) throwIfAborted(this[kState]) const contentType = this.headers.get('Content-Type') // If mimeType’s essence is "multipart/form-data", then: if (/multipart\/form-data/.test(contentType)) { const headers = {} for (const [key, value] of this.headers) headers[key.toLowerCase()] = value const responseFormData = new FormData() let busboy try { busboy = new Busboy({ headers, preservePath: true }) } catch (err) { throw new DOMException(`${err}`, 'AbortError') } busboy.on('field', (name, value) => { responseFormData.append(name, value) }) busboy.on('file', (name, value, filename, encoding, mimeType) => { const chunks = [] if (encoding === 'base64' || encoding.toLowerCase() === 'base64') { let base64chunk = '' value.on('data', (chunk) => { base64chunk += chunk.toString().replace(/[\r\n]/gm, '') const end = base64chunk.length - base64chunk.length % 4 chunks.push(Buffer.from(base64chunk.slice(0, end), 'base64')) base64chunk = base64chunk.slice(end) }) value.on('end', () => { chunks.push(Buffer.from(base64chunk, 'base64')) responseFormData.append(name, new File(chunks, filename, { type: mimeType })) }) } else { value.on('data', (chunk) => { chunks.push(chunk) }) value.on('end', () => { responseFormData.append(name, new File(chunks, filename, { type: mimeType })) }) } }) const busboyResolve = new Promise((resolve, reject) => { busboy.on('finish', resolve) busboy.on('error', (err) => reject(new TypeError(err))) }) if (this.body !== null) for await (const chunk of consumeBody(this[kState].body)) busboy.write(chunk) busboy.end() await busboyResolve return responseFormData } else if (/application\/x-www-form-urlencoded/.test(contentType)) { // Otherwise, if mimeType’s essence is "application/x-www-form-urlencoded", then: // 1. Let entries be the result of parsing bytes. let entries try { let text = '' // application/x-www-form-urlencoded parser will keep the BOM. // https://url.spec.whatwg.org/#concept-urlencoded-parser // Note that streaming decoder is stateful and cannot be reused const streamingDecoder = new TextDecoder('utf-8', { ignoreBOM: true }) for await (const chunk of consumeBody(this[kState].body)) { if (!isUint8Array(chunk)) { throw new TypeError('Expected Uint8Array chunk') } text += streamingDecoder.decode(chunk, { stream: true }) } text += streamingDecoder.decode() entries = new URLSearchParams(text) } catch (err) { // istanbul ignore next: Unclear when new URLSearchParams can fail on a string. // 2. If entries is failure, then throw a TypeError. throw Object.assign(new TypeError(), { cause: err }) } // 3. Return a new FormData object whose entries are entries. const formData = new FormData() for (const [name, value] of entries) { formData.append(name, value) } return formData } else { // Wait a tick before checking if the request has been aborted. // Otherwise, a TypeError can be thrown when an AbortError should. await Promise.resolve() throwIfAborted(this[kState]) // Otherwise, throw a TypeError. throw webidl.errors.exception({ header: `${instance.name}.formData`, message: 'Could not parse content as FormData.' }) } } } return methods } function mixinBody (prototype) { Object.assign(prototype.prototype, bodyMixinMethods(prototype)) } /** * @see https://fetch.spec.whatwg.org/#concept-body-consume-body * @param {Response|Request} object * @param {(value: unknown) => unknown} convertBytesToJSValue * @param {Response|Request} instance */ async function specConsumeBody (object, convertBytesToJSValue, instance) { webidl.brandCheck(object, instance) throwIfAborted(object[kState]) // 1. If object is unusable, then return a promise rejected // with a TypeError. if (bodyUnusable(object[kState].body)) { throw new TypeError('Body is unusable') } // 2. Let promise be a new promise. const promise = createDeferredPromise() // 3. Let errorSteps given error be to reject promise with error. const errorSteps = (error) => promise.reject(error) // 4. Let successSteps given a byte sequence data be to resolve // promise with the result of running convertBytesToJSValue // with data. If that threw an exception, then run errorSteps // with that exception. const successSteps = (data) => { try { promise.resolve(convertBytesToJSValue(data)) } catch (e) { errorSteps(e) } } // 5. If object’s body is null, then run successSteps with an // empty byte sequence. if (object[kState].body == null) { successSteps(new Uint8Array()) return promise.promise } // 6. Otherwise, fully read object’s body given successSteps, // errorSteps, and object’s relevant global object. await fullyReadBody(object[kState].body, successSteps, errorSteps) // 7. Return promise. return promise.promise } // https://fetch.spec.whatwg.org/#body-unusable function bodyUnusable (body) { // An object including the Body interface mixin is // said to be unusable if its body is non-null and // its body’s stream is disturbed or locked. return body != null && (body.stream.locked || util.isDisturbed(body.stream)) } /** * @see https://encoding.spec.whatwg.org/#utf-8-decode * @param {Buffer} buffer */ function utf8DecodeBytes (buffer) { if (buffer.length === 0) { return '' } // 1. Let buffer be the result of peeking three bytes from // ioQueue, converted to a byte sequence. // 2. If buffer is 0xEF 0xBB 0xBF, then read three // bytes from ioQueue. (Do nothing with those bytes.) if (buffer[0] === 0xEF && buffer[1] === 0xBB && buffer[2] === 0xBF) { buffer = buffer.subarray(3) } // 3. Process a queue with an instance of UTF-8’s // decoder, ioQueue, output, and "replacement". const output = textDecoder.decode(buffer) // 4. Return output. return output } /** * @see https://infra.spec.whatwg.org/#parse-json-bytes-to-a-javascript-value * @param {Uint8Array} bytes */ function parseJSONFromBytes (bytes) { return JSON.parse(utf8DecodeBytes(bytes)) } /** * @see https://fetch.spec.whatwg.org/#concept-body-mime-type * @param {import('./response').Response|import('./request').Request} object */ function bodyMimeType (object) { const { headersList } = object[kState] const contentType = headersList.get('content-type') if (contentType === null) { return 'failure' } return parseMIMEType(contentType) } module.exports = { extractBody, safelyExtractBody, cloneBody, mixinBody } /***/ }), /***/ 7326: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { MessageChannel, receiveMessageOnPort } = __nccwpck_require__(8167) const corsSafeListedMethods = ['GET', 'HEAD', 'POST'] const corsSafeListedMethodsSet = new Set(corsSafeListedMethods) const nullBodyStatus = [101, 204, 205, 304] const redirectStatus = [301, 302, 303, 307, 308] const redirectStatusSet = new Set(redirectStatus) // https://fetch.spec.whatwg.org/#block-bad-port const badPorts = [ '1', '7', '9', '11', '13', '15', '17', '19', '20', '21', '22', '23', '25', '37', '42', '43', '53', '69', '77', '79', '87', '95', '101', '102', '103', '104', '109', '110', '111', '113', '115', '117', '119', '123', '135', '137', '139', '143', '161', '179', '389', '427', '465', '512', '513', '514', '515', '526', '530', '531', '532', '540', '548', '554', '556', '563', '587', '601', '636', '989', '990', '993', '995', '1719', '1720', '1723', '2049', '3659', '4045', '5060', '5061', '6000', '6566', '6665', '6666', '6667', '6668', '6669', '6697', '10080' ] const badPortsSet = new Set(badPorts) // https://w3c.github.io/webappsec-referrer-policy/#referrer-policies const referrerPolicy = [ '', 'no-referrer', 'no-referrer-when-downgrade', 'same-origin', 'origin', 'strict-origin', 'origin-when-cross-origin', 'strict-origin-when-cross-origin', 'unsafe-url' ] const referrerPolicySet = new Set(referrerPolicy) const requestRedirect = ['follow', 'manual', 'error'] const safeMethods = ['GET', 'HEAD', 'OPTIONS', 'TRACE'] const safeMethodsSet = new Set(safeMethods) const requestMode = ['navigate', 'same-origin', 'no-cors', 'cors'] const requestCredentials = ['omit', 'same-origin', 'include'] const requestCache = [ 'default', 'no-store', 'reload', 'no-cache', 'force-cache', 'only-if-cached' ] // https://fetch.spec.whatwg.org/#request-body-header-name const requestBodyHeader = [ 'content-encoding', 'content-language', 'content-location', 'content-type', // See https://github.com/nodejs/undici/issues/2021 // 'Content-Length' is a forbidden header name, which is typically // removed in the Headers implementation. However, undici doesn't // filter out headers, so we add it here. 'content-length' ] // https://fetch.spec.whatwg.org/#enumdef-requestduplex const requestDuplex = [ 'half' ] // http://fetch.spec.whatwg.org/#forbidden-method const forbiddenMethods = ['CONNECT', 'TRACE', 'TRACK'] const forbiddenMethodsSet = new Set(forbiddenMethods) const subresource = [ 'audio', 'audioworklet', 'font', 'image', 'manifest', 'paintworklet', 'script', 'style', 'track', 'video', 'xslt', '' ] const subresourceSet = new Set(subresource) /** @type {globalThis['DOMException']} */ const DOMException = globalThis.DOMException ?? (() => { // DOMException was only made a global in Node v17.0.0, // but fetch supports >= v16.8. try { atob('~') } catch (err) { return Object.getPrototypeOf(err).constructor } })() let channel /** @type {globalThis['structuredClone']} */ const structuredClone = globalThis.structuredClone ?? // https://github.com/nodejs/node/blob/b27ae24dcc4251bad726d9d84baf678d1f707fed/lib/internal/structured_clone.js // structuredClone was added in v17.0.0, but fetch supports v16.8 function structuredClone (value, options = undefined) { if (arguments.length === 0) { throw new TypeError('missing argument') } if (!channel) { channel = new MessageChannel() } channel.port1.unref() channel.port2.unref() channel.port1.postMessage(value, options?.transfer) return receiveMessageOnPort(channel.port2).message } module.exports = { DOMException, structuredClone, subresource, forbiddenMethods, requestBodyHeader, referrerPolicy, requestRedirect, requestMode, requestCredentials, requestCache, redirectStatus, corsSafeListedMethods, nullBodyStatus, safeMethods, badPorts, requestDuplex, subresourceSet, badPortsSet, redirectStatusSet, corsSafeListedMethodsSet, safeMethodsSet, forbiddenMethodsSet, referrerPolicySet } /***/ }), /***/ 4322: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const assert = __nccwpck_require__(2613) const { atob } = __nccwpck_require__(181) const { isomorphicDecode } = __nccwpck_require__(5523) const encoder = new TextEncoder() /** * @see https://mimesniff.spec.whatwg.org/#http-token-code-point */ const HTTP_TOKEN_CODEPOINTS = /^[!#$%&'*+-.^_|~A-Za-z0-9]+$/ const HTTP_WHITESPACE_REGEX = /(\u000A|\u000D|\u0009|\u0020)/ // eslint-disable-line /** * @see https://mimesniff.spec.whatwg.org/#http-quoted-string-token-code-point */ const HTTP_QUOTED_STRING_TOKENS = /[\u0009|\u0020-\u007E|\u0080-\u00FF]/ // eslint-disable-line // https://fetch.spec.whatwg.org/#data-url-processor /** @param {URL} dataURL */ function dataURLProcessor (dataURL) { // 1. Assert: dataURL’s scheme is "data". assert(dataURL.protocol === 'data:') // 2. Let input be the result of running the URL // serializer on dataURL with exclude fragment // set to true. let input = URLSerializer(dataURL, true) // 3. Remove the leading "data:" string from input. input = input.slice(5) // 4. Let position point at the start of input. const position = { position: 0 } // 5. Let mimeType be the result of collecting a // sequence of code points that are not equal // to U+002C (,), given position. let mimeType = collectASequenceOfCodePointsFast( ',', input, position ) // 6. Strip leading and trailing ASCII whitespace // from mimeType. // Undici implementation note: we need to store the // length because if the mimetype has spaces removed, // the wrong amount will be sliced from the input in // step #9 const mimeTypeLength = mimeType.length mimeType = removeASCIIWhitespace(mimeType, true, true) // 7. If position is past the end of input, then // return failure if (position.position >= input.length) { return 'failure' } // 8. Advance position by 1. position.position++ // 9. Let encodedBody be the remainder of input. const encodedBody = input.slice(mimeTypeLength + 1) // 10. Let body be the percent-decoding of encodedBody. let body = stringPercentDecode(encodedBody) // 11. If mimeType ends with U+003B (;), followed by // zero or more U+0020 SPACE, followed by an ASCII // case-insensitive match for "base64", then: if (/;(\u0020){0,}base64$/i.test(mimeType)) { // 1. Let stringBody be the isomorphic decode of body. const stringBody = isomorphicDecode(body) // 2. Set body to the forgiving-base64 decode of // stringBody. body = forgivingBase64(stringBody) // 3. If body is failure, then return failure. if (body === 'failure') { return 'failure' } // 4. Remove the last 6 code points from mimeType. mimeType = mimeType.slice(0, -6) // 5. Remove trailing U+0020 SPACE code points from mimeType, // if any. mimeType = mimeType.replace(/(\u0020)+$/, '') // 6. Remove the last U+003B (;) code point from mimeType. mimeType = mimeType.slice(0, -1) } // 12. If mimeType starts with U+003B (;), then prepend // "text/plain" to mimeType. if (mimeType.startsWith(';')) { mimeType = 'text/plain' + mimeType } // 13. Let mimeTypeRecord be the result of parsing // mimeType. let mimeTypeRecord = parseMIMEType(mimeType) // 14. If mimeTypeRecord is failure, then set // mimeTypeRecord to text/plain;charset=US-ASCII. if (mimeTypeRecord === 'failure') { mimeTypeRecord = parseMIMEType('text/plain;charset=US-ASCII') } // 15. Return a new data: URL struct whose MIME // type is mimeTypeRecord and body is body. // https://fetch.spec.whatwg.org/#data-url-struct return { mimeType: mimeTypeRecord, body } } // https://url.spec.whatwg.org/#concept-url-serializer /** * @param {URL} url * @param {boolean} excludeFragment */ function URLSerializer (url, excludeFragment = false) { if (!excludeFragment) { return url.href } const href = url.href const hashLength = url.hash.length return hashLength === 0 ? href : href.substring(0, href.length - hashLength) } // https://infra.spec.whatwg.org/#collect-a-sequence-of-code-points /** * @param {(char: string) => boolean} condition * @param {string} input * @param {{ position: number }} position */ function collectASequenceOfCodePoints (condition, input, position) { // 1. Let result be the empty string. let result = '' // 2. While position doesn’t point past the end of input and the // code point at position within input meets the condition condition: while (position.position < input.length && condition(input[position.position])) { // 1. Append that code point to the end of result. result += input[position.position] // 2. Advance position by 1. position.position++ } // 3. Return result. return result } /** * A faster collectASequenceOfCodePoints that only works when comparing a single character. * @param {string} char * @param {string} input * @param {{ position: number }} position */ function collectASequenceOfCodePointsFast (char, input, position) { const idx = input.indexOf(char, position.position) const start = position.position if (idx === -1) { position.position = input.length return input.slice(start) } position.position = idx return input.slice(start, position.position) } // https://url.spec.whatwg.org/#string-percent-decode /** @param {string} input */ function stringPercentDecode (input) { // 1. Let bytes be the UTF-8 encoding of input. const bytes = encoder.encode(input) // 2. Return the percent-decoding of bytes. return percentDecode(bytes) } // https://url.spec.whatwg.org/#percent-decode /** @param {Uint8Array} input */ function percentDecode (input) { // 1. Let output be an empty byte sequence. /** @type {number[]} */ const output = [] // 2. For each byte byte in input: for (let i = 0; i < input.length; i++) { const byte = input[i] // 1. If byte is not 0x25 (%), then append byte to output. if (byte !== 0x25) { output.push(byte) // 2. Otherwise, if byte is 0x25 (%) and the next two bytes // after byte in input are not in the ranges // 0x30 (0) to 0x39 (9), 0x41 (A) to 0x46 (F), // and 0x61 (a) to 0x66 (f), all inclusive, append byte // to output. } else if ( byte === 0x25 && !/^[0-9A-Fa-f]{2}$/i.test(String.fromCharCode(input[i + 1], input[i + 2])) ) { output.push(0x25) // 3. Otherwise: } else { // 1. Let bytePoint be the two bytes after byte in input, // decoded, and then interpreted as hexadecimal number. const nextTwoBytes = String.fromCharCode(input[i + 1], input[i + 2]) const bytePoint = Number.parseInt(nextTwoBytes, 16) // 2. Append a byte whose value is bytePoint to output. output.push(bytePoint) // 3. Skip the next two bytes in input. i += 2 } } // 3. Return output. return Uint8Array.from(output) } // https://mimesniff.spec.whatwg.org/#parse-a-mime-type /** @param {string} input */ function parseMIMEType (input) { // 1. Remove any leading and trailing HTTP whitespace // from input. input = removeHTTPWhitespace(input, true, true) // 2. Let position be a position variable for input, // initially pointing at the start of input. const position = { position: 0 } // 3. Let type be the result of collecting a sequence // of code points that are not U+002F (/) from // input, given position. const type = collectASequenceOfCodePointsFast( '/', input, position ) // 4. If type is the empty string or does not solely // contain HTTP token code points, then return failure. // https://mimesniff.spec.whatwg.org/#http-token-code-point if (type.length === 0 || !HTTP_TOKEN_CODEPOINTS.test(type)) { return 'failure' } // 5. If position is past the end of input, then return // failure if (position.position > input.length) { return 'failure' } // 6. Advance position by 1. (This skips past U+002F (/).) position.position++ // 7. Let subtype be the result of collecting a sequence of // code points that are not U+003B (;) from input, given // position. let subtype = collectASequenceOfCodePointsFast( ';', input, position ) // 8. Remove any trailing HTTP whitespace from subtype. subtype = removeHTTPWhitespace(subtype, false, true) // 9. If subtype is the empty string or does not solely // contain HTTP token code points, then return failure. if (subtype.length === 0 || !HTTP_TOKEN_CODEPOINTS.test(subtype)) { return 'failure' } const typeLowercase = type.toLowerCase() const subtypeLowercase = subtype.toLowerCase() // 10. Let mimeType be a new MIME type record whose type // is type, in ASCII lowercase, and subtype is subtype, // in ASCII lowercase. // https://mimesniff.spec.whatwg.org/#mime-type const mimeType = { type: typeLowercase, subtype: subtypeLowercase, /** @type {Map} */ parameters: new Map(), // https://mimesniff.spec.whatwg.org/#mime-type-essence essence: `${typeLowercase}/${subtypeLowercase}` } // 11. While position is not past the end of input: while (position.position < input.length) { // 1. Advance position by 1. (This skips past U+003B (;).) position.position++ // 2. Collect a sequence of code points that are HTTP // whitespace from input given position. collectASequenceOfCodePoints( // https://fetch.spec.whatwg.org/#http-whitespace char => HTTP_WHITESPACE_REGEX.test(char), input, position ) // 3. Let parameterName be the result of collecting a // sequence of code points that are not U+003B (;) // or U+003D (=) from input, given position. let parameterName = collectASequenceOfCodePoints( (char) => char !== ';' && char !== '=', input, position ) // 4. Set parameterName to parameterName, in ASCII // lowercase. parameterName = parameterName.toLowerCase() // 5. If position is not past the end of input, then: if (position.position < input.length) { // 1. If the code point at position within input is // U+003B (;), then continue. if (input[position.position] === ';') { continue } // 2. Advance position by 1. (This skips past U+003D (=).) position.position++ } // 6. If position is past the end of input, then break. if (position.position > input.length) { break } // 7. Let parameterValue be null. let parameterValue = null // 8. If the code point at position within input is // U+0022 ("), then: if (input[position.position] === '"') { // 1. Set parameterValue to the result of collecting // an HTTP quoted string from input, given position // and the extract-value flag. parameterValue = collectAnHTTPQuotedString(input, position, true) // 2. Collect a sequence of code points that are not // U+003B (;) from input, given position. collectASequenceOfCodePointsFast( ';', input, position ) // 9. Otherwise: } else { // 1. Set parameterValue to the result of collecting // a sequence of code points that are not U+003B (;) // from input, given position. parameterValue = collectASequenceOfCodePointsFast( ';', input, position ) // 2. Remove any trailing HTTP whitespace from parameterValue. parameterValue = removeHTTPWhitespace(parameterValue, false, true) // 3. If parameterValue is the empty string, then continue. if (parameterValue.length === 0) { continue } } // 10. If all of the following are true // - parameterName is not the empty string // - parameterName solely contains HTTP token code points // - parameterValue solely contains HTTP quoted-string token code points // - mimeType’s parameters[parameterName] does not exist // then set mimeType’s parameters[parameterName] to parameterValue. if ( parameterName.length !== 0 && HTTP_TOKEN_CODEPOINTS.test(parameterName) && (parameterValue.length === 0 || HTTP_QUOTED_STRING_TOKENS.test(parameterValue)) && !mimeType.parameters.has(parameterName) ) { mimeType.parameters.set(parameterName, parameterValue) } } // 12. Return mimeType. return mimeType } // https://infra.spec.whatwg.org/#forgiving-base64-decode /** @param {string} data */ function forgivingBase64 (data) { // 1. Remove all ASCII whitespace from data. data = data.replace(/[\u0009\u000A\u000C\u000D\u0020]/g, '') // eslint-disable-line // 2. If data’s code point length divides by 4 leaving // no remainder, then: if (data.length % 4 === 0) { // 1. If data ends with one or two U+003D (=) code points, // then remove them from data. data = data.replace(/=?=$/, '') } // 3. If data’s code point length divides by 4 leaving // a remainder of 1, then return failure. if (data.length % 4 === 1) { return 'failure' } // 4. If data contains a code point that is not one of // U+002B (+) // U+002F (/) // ASCII alphanumeric // then return failure. if (/[^+/0-9A-Za-z]/.test(data)) { return 'failure' } const binary = atob(data) const bytes = new Uint8Array(binary.length) for (let byte = 0; byte < binary.length; byte++) { bytes[byte] = binary.charCodeAt(byte) } return bytes } // https://fetch.spec.whatwg.org/#collect-an-http-quoted-string // tests: https://fetch.spec.whatwg.org/#example-http-quoted-string /** * @param {string} input * @param {{ position: number }} position * @param {boolean?} extractValue */ function collectAnHTTPQuotedString (input, position, extractValue) { // 1. Let positionStart be position. const positionStart = position.position // 2. Let value be the empty string. let value = '' // 3. Assert: the code point at position within input // is U+0022 ("). assert(input[position.position] === '"') // 4. Advance position by 1. position.position++ // 5. While true: while (true) { // 1. Append the result of collecting a sequence of code points // that are not U+0022 (") or U+005C (\) from input, given // position, to value. value += collectASequenceOfCodePoints( (char) => char !== '"' && char !== '\\', input, position ) // 2. If position is past the end of input, then break. if (position.position >= input.length) { break } // 3. Let quoteOrBackslash be the code point at position within // input. const quoteOrBackslash = input[position.position] // 4. Advance position by 1. position.position++ // 5. If quoteOrBackslash is U+005C (\), then: if (quoteOrBackslash === '\\') { // 1. If position is past the end of input, then append // U+005C (\) to value and break. if (position.position >= input.length) { value += '\\' break } // 2. Append the code point at position within input to value. value += input[position.position] // 3. Advance position by 1. position.position++ // 6. Otherwise: } else { // 1. Assert: quoteOrBackslash is U+0022 ("). assert(quoteOrBackslash === '"') // 2. Break. break } } // 6. If the extract-value flag is set, then return value. if (extractValue) { return value } // 7. Return the code points from positionStart to position, // inclusive, within input. return input.slice(positionStart, position.position) } /** * @see https://mimesniff.spec.whatwg.org/#serialize-a-mime-type */ function serializeAMimeType (mimeType) { assert(mimeType !== 'failure') const { parameters, essence } = mimeType // 1. Let serialization be the concatenation of mimeType’s // type, U+002F (/), and mimeType’s subtype. let serialization = essence // 2. For each name → value of mimeType’s parameters: for (let [name, value] of parameters.entries()) { // 1. Append U+003B (;) to serialization. serialization += ';' // 2. Append name to serialization. serialization += name // 3. Append U+003D (=) to serialization. serialization += '=' // 4. If value does not solely contain HTTP token code // points or value is the empty string, then: if (!HTTP_TOKEN_CODEPOINTS.test(value)) { // 1. Precede each occurence of U+0022 (") or // U+005C (\) in value with U+005C (\). value = value.replace(/(\\|")/g, '\\$1') // 2. Prepend U+0022 (") to value. value = '"' + value // 3. Append U+0022 (") to value. value += '"' } // 5. Append value to serialization. serialization += value } // 3. Return serialization. return serialization } /** * @see https://fetch.spec.whatwg.org/#http-whitespace * @param {string} char */ function isHTTPWhiteSpace (char) { return char === '\r' || char === '\n' || char === '\t' || char === ' ' } /** * @see https://fetch.spec.whatwg.org/#http-whitespace * @param {string} str */ function removeHTTPWhitespace (str, leading = true, trailing = true) { let lead = 0 let trail = str.length - 1 if (leading) { for (; lead < str.length && isHTTPWhiteSpace(str[lead]); lead++); } if (trailing) { for (; trail > 0 && isHTTPWhiteSpace(str[trail]); trail--); } return str.slice(lead, trail + 1) } /** * @see https://infra.spec.whatwg.org/#ascii-whitespace * @param {string} char */ function isASCIIWhitespace (char) { return char === '\r' || char === '\n' || char === '\t' || char === '\f' || char === ' ' } /** * @see https://infra.spec.whatwg.org/#strip-leading-and-trailing-ascii-whitespace */ function removeASCIIWhitespace (str, leading = true, trailing = true) { let lead = 0 let trail = str.length - 1 if (leading) { for (; lead < str.length && isASCIIWhitespace(str[lead]); lead++); } if (trailing) { for (; trail > 0 && isASCIIWhitespace(str[trail]); trail--); } return str.slice(lead, trail + 1) } module.exports = { dataURLProcessor, URLSerializer, collectASequenceOfCodePoints, collectASequenceOfCodePointsFast, stringPercentDecode, parseMIMEType, collectAnHTTPQuotedString, serializeAMimeType } /***/ }), /***/ 3041: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { Blob, File: NativeFile } = __nccwpck_require__(181) const { types } = __nccwpck_require__(9023) const { kState } = __nccwpck_require__(9710) const { isBlobLike } = __nccwpck_require__(5523) const { webidl } = __nccwpck_require__(4222) const { parseMIMEType, serializeAMimeType } = __nccwpck_require__(4322) const { kEnumerableProperty } = __nccwpck_require__(3440) const encoder = new TextEncoder() class File extends Blob { constructor (fileBits, fileName, options = {}) { // The File constructor is invoked with two or three parameters, depending // on whether the optional dictionary parameter is used. When the File() // constructor is invoked, user agents must run the following steps: webidl.argumentLengthCheck(arguments, 2, { header: 'File constructor' }) fileBits = webidl.converters['sequence'](fileBits) fileName = webidl.converters.USVString(fileName) options = webidl.converters.FilePropertyBag(options) // 1. Let bytes be the result of processing blob parts given fileBits and // options. // Note: Blob handles this for us // 2. Let n be the fileName argument to the constructor. const n = fileName // 3. Process FilePropertyBag dictionary argument by running the following // substeps: // 1. If the type member is provided and is not the empty string, let t // be set to the type dictionary member. If t contains any characters // outside the range U+0020 to U+007E, then set t to the empty string // and return from these substeps. // 2. Convert every character in t to ASCII lowercase. let t = options.type let d // eslint-disable-next-line no-labels substep: { if (t) { t = parseMIMEType(t) if (t === 'failure') { t = '' // eslint-disable-next-line no-labels break substep } t = serializeAMimeType(t).toLowerCase() } // 3. If the lastModified member is provided, let d be set to the // lastModified dictionary member. If it is not provided, set d to the // current date and time represented as the number of milliseconds since // the Unix Epoch (which is the equivalent of Date.now() [ECMA-262]). d = options.lastModified } // 4. Return a new File object F such that: // F refers to the bytes byte sequence. // F.size is set to the number of total bytes in bytes. // F.name is set to n. // F.type is set to t. // F.lastModified is set to d. super(processBlobParts(fileBits, options), { type: t }) this[kState] = { name: n, lastModified: d, type: t } } get name () { webidl.brandCheck(this, File) return this[kState].name } get lastModified () { webidl.brandCheck(this, File) return this[kState].lastModified } get type () { webidl.brandCheck(this, File) return this[kState].type } } class FileLike { constructor (blobLike, fileName, options = {}) { // TODO: argument idl type check // The File constructor is invoked with two or three parameters, depending // on whether the optional dictionary parameter is used. When the File() // constructor is invoked, user agents must run the following steps: // 1. Let bytes be the result of processing blob parts given fileBits and // options. // 2. Let n be the fileName argument to the constructor. const n = fileName // 3. Process FilePropertyBag dictionary argument by running the following // substeps: // 1. If the type member is provided and is not the empty string, let t // be set to the type dictionary member. If t contains any characters // outside the range U+0020 to U+007E, then set t to the empty string // and return from these substeps. // TODO const t = options.type // 2. Convert every character in t to ASCII lowercase. // TODO // 3. If the lastModified member is provided, let d be set to the // lastModified dictionary member. If it is not provided, set d to the // current date and time represented as the number of milliseconds since // the Unix Epoch (which is the equivalent of Date.now() [ECMA-262]). const d = options.lastModified ?? Date.now() // 4. Return a new File object F such that: // F refers to the bytes byte sequence. // F.size is set to the number of total bytes in bytes. // F.name is set to n. // F.type is set to t. // F.lastModified is set to d. this[kState] = { blobLike, name: n, type: t, lastModified: d } } stream (...args) { webidl.brandCheck(this, FileLike) return this[kState].blobLike.stream(...args) } arrayBuffer (...args) { webidl.brandCheck(this, FileLike) return this[kState].blobLike.arrayBuffer(...args) } slice (...args) { webidl.brandCheck(this, FileLike) return this[kState].blobLike.slice(...args) } text (...args) { webidl.brandCheck(this, FileLike) return this[kState].blobLike.text(...args) } get size () { webidl.brandCheck(this, FileLike) return this[kState].blobLike.size } get type () { webidl.brandCheck(this, FileLike) return this[kState].blobLike.type } get name () { webidl.brandCheck(this, FileLike) return this[kState].name } get lastModified () { webidl.brandCheck(this, FileLike) return this[kState].lastModified } get [Symbol.toStringTag] () { return 'File' } } Object.defineProperties(File.prototype, { [Symbol.toStringTag]: { value: 'File', configurable: true }, name: kEnumerableProperty, lastModified: kEnumerableProperty }) webidl.converters.Blob = webidl.interfaceConverter(Blob) webidl.converters.BlobPart = function (V, opts) { if (webidl.util.Type(V) === 'Object') { if (isBlobLike(V)) { return webidl.converters.Blob(V, { strict: false }) } if ( ArrayBuffer.isView(V) || types.isAnyArrayBuffer(V) ) { return webidl.converters.BufferSource(V, opts) } } return webidl.converters.USVString(V, opts) } webidl.converters['sequence'] = webidl.sequenceConverter( webidl.converters.BlobPart ) // https://www.w3.org/TR/FileAPI/#dfn-FilePropertyBag webidl.converters.FilePropertyBag = webidl.dictionaryConverter([ { key: 'lastModified', converter: webidl.converters['long long'], get defaultValue () { return Date.now() } }, { key: 'type', converter: webidl.converters.DOMString, defaultValue: '' }, { key: 'endings', converter: (value) => { value = webidl.converters.DOMString(value) value = value.toLowerCase() if (value !== 'native') { value = 'transparent' } return value }, defaultValue: 'transparent' } ]) /** * @see https://www.w3.org/TR/FileAPI/#process-blob-parts * @param {(NodeJS.TypedArray|Blob|string)[]} parts * @param {{ type: string, endings: string }} options */ function processBlobParts (parts, options) { // 1. Let bytes be an empty sequence of bytes. /** @type {NodeJS.TypedArray[]} */ const bytes = [] // 2. For each element in parts: for (const element of parts) { // 1. If element is a USVString, run the following substeps: if (typeof element === 'string') { // 1. Let s be element. let s = element // 2. If the endings member of options is "native", set s // to the result of converting line endings to native // of element. if (options.endings === 'native') { s = convertLineEndingsNative(s) } // 3. Append the result of UTF-8 encoding s to bytes. bytes.push(encoder.encode(s)) } else if ( types.isAnyArrayBuffer(element) || types.isTypedArray(element) ) { // 2. If element is a BufferSource, get a copy of the // bytes held by the buffer source, and append those // bytes to bytes. if (!element.buffer) { // ArrayBuffer bytes.push(new Uint8Array(element)) } else { bytes.push( new Uint8Array(element.buffer, element.byteOffset, element.byteLength) ) } } else if (isBlobLike(element)) { // 3. If element is a Blob, append the bytes it represents // to bytes. bytes.push(element) } } // 3. Return bytes. return bytes } /** * @see https://www.w3.org/TR/FileAPI/#convert-line-endings-to-native * @param {string} s */ function convertLineEndingsNative (s) { // 1. Let native line ending be be the code point U+000A LF. let nativeLineEnding = '\n' // 2. If the underlying platform’s conventions are to // represent newlines as a carriage return and line feed // sequence, set native line ending to the code point // U+000D CR followed by the code point U+000A LF. if (process.platform === 'win32') { nativeLineEnding = '\r\n' } return s.replace(/\r?\n/g, nativeLineEnding) } // If this function is moved to ./util.js, some tools (such as // rollup) will warn about circular dependencies. See: // https://github.com/nodejs/undici/issues/1629 function isFileLike (object) { return ( (NativeFile && object instanceof NativeFile) || object instanceof File || ( object && (typeof object.stream === 'function' || typeof object.arrayBuffer === 'function') && object[Symbol.toStringTag] === 'File' ) ) } module.exports = { File, FileLike, isFileLike } /***/ }), /***/ 3073: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { isBlobLike, toUSVString, makeIterator } = __nccwpck_require__(5523) const { kState } = __nccwpck_require__(9710) const { File: UndiciFile, FileLike, isFileLike } = __nccwpck_require__(3041) const { webidl } = __nccwpck_require__(4222) const { Blob, File: NativeFile } = __nccwpck_require__(181) /** @type {globalThis['File']} */ const File = NativeFile ?? UndiciFile // https://xhr.spec.whatwg.org/#formdata class FormData { constructor (form) { if (form !== undefined) { throw webidl.errors.conversionFailed({ prefix: 'FormData constructor', argument: 'Argument 1', types: ['undefined'] }) } this[kState] = [] } append (name, value, filename = undefined) { webidl.brandCheck(this, FormData) webidl.argumentLengthCheck(arguments, 2, { header: 'FormData.append' }) if (arguments.length === 3 && !isBlobLike(value)) { throw new TypeError( "Failed to execute 'append' on 'FormData': parameter 2 is not of type 'Blob'" ) } // 1. Let value be value if given; otherwise blobValue. name = webidl.converters.USVString(name) value = isBlobLike(value) ? webidl.converters.Blob(value, { strict: false }) : webidl.converters.USVString(value) filename = arguments.length === 3 ? webidl.converters.USVString(filename) : undefined // 2. Let entry be the result of creating an entry with // name, value, and filename if given. const entry = makeEntry(name, value, filename) // 3. Append entry to this’s entry list. this[kState].push(entry) } delete (name) { webidl.brandCheck(this, FormData) webidl.argumentLengthCheck(arguments, 1, { header: 'FormData.delete' }) name = webidl.converters.USVString(name) // The delete(name) method steps are to remove all entries whose name // is name from this’s entry list. this[kState] = this[kState].filter(entry => entry.name !== name) } get (name) { webidl.brandCheck(this, FormData) webidl.argumentLengthCheck(arguments, 1, { header: 'FormData.get' }) name = webidl.converters.USVString(name) // 1. If there is no entry whose name is name in this’s entry list, // then return null. const idx = this[kState].findIndex((entry) => entry.name === name) if (idx === -1) { return null } // 2. Return the value of the first entry whose name is name from // this’s entry list. return this[kState][idx].value } getAll (name) { webidl.brandCheck(this, FormData) webidl.argumentLengthCheck(arguments, 1, { header: 'FormData.getAll' }) name = webidl.converters.USVString(name) // 1. If there is no entry whose name is name in this’s entry list, // then return the empty list. // 2. Return the values of all entries whose name is name, in order, // from this’s entry list. return this[kState] .filter((entry) => entry.name === name) .map((entry) => entry.value) } has (name) { webidl.brandCheck(this, FormData) webidl.argumentLengthCheck(arguments, 1, { header: 'FormData.has' }) name = webidl.converters.USVString(name) // The has(name) method steps are to return true if there is an entry // whose name is name in this’s entry list; otherwise false. return this[kState].findIndex((entry) => entry.name === name) !== -1 } set (name, value, filename = undefined) { webidl.brandCheck(this, FormData) webidl.argumentLengthCheck(arguments, 2, { header: 'FormData.set' }) if (arguments.length === 3 && !isBlobLike(value)) { throw new TypeError( "Failed to execute 'set' on 'FormData': parameter 2 is not of type 'Blob'" ) } // The set(name, value) and set(name, blobValue, filename) method steps // are: // 1. Let value be value if given; otherwise blobValue. name = webidl.converters.USVString(name) value = isBlobLike(value) ? webidl.converters.Blob(value, { strict: false }) : webidl.converters.USVString(value) filename = arguments.length === 3 ? toUSVString(filename) : undefined // 2. Let entry be the result of creating an entry with name, value, and // filename if given. const entry = makeEntry(name, value, filename) // 3. If there are entries in this’s entry list whose name is name, then // replace the first such entry with entry and remove the others. const idx = this[kState].findIndex((entry) => entry.name === name) if (idx !== -1) { this[kState] = [ ...this[kState].slice(0, idx), entry, ...this[kState].slice(idx + 1).filter((entry) => entry.name !== name) ] } else { // 4. Otherwise, append entry to this’s entry list. this[kState].push(entry) } } entries () { webidl.brandCheck(this, FormData) return makeIterator( () => this[kState].map(pair => [pair.name, pair.value]), 'FormData', 'key+value' ) } keys () { webidl.brandCheck(this, FormData) return makeIterator( () => this[kState].map(pair => [pair.name, pair.value]), 'FormData', 'key' ) } values () { webidl.brandCheck(this, FormData) return makeIterator( () => this[kState].map(pair => [pair.name, pair.value]), 'FormData', 'value' ) } /** * @param {(value: string, key: string, self: FormData) => void} callbackFn * @param {unknown} thisArg */ forEach (callbackFn, thisArg = globalThis) { webidl.brandCheck(this, FormData) webidl.argumentLengthCheck(arguments, 1, { header: 'FormData.forEach' }) if (typeof callbackFn !== 'function') { throw new TypeError( "Failed to execute 'forEach' on 'FormData': parameter 1 is not of type 'Function'." ) } for (const [key, value] of this) { callbackFn.apply(thisArg, [value, key, this]) } } } FormData.prototype[Symbol.iterator] = FormData.prototype.entries Object.defineProperties(FormData.prototype, { [Symbol.toStringTag]: { value: 'FormData', configurable: true } }) /** * @see https://html.spec.whatwg.org/multipage/form-control-infrastructure.html#create-an-entry * @param {string} name * @param {string|Blob} value * @param {?string} filename * @returns */ function makeEntry (name, value, filename) { // 1. Set name to the result of converting name into a scalar value string. // "To convert a string into a scalar value string, replace any surrogates // with U+FFFD." // see: https://nodejs.org/dist/latest-v18.x/docs/api/buffer.html#buftostringencoding-start-end name = Buffer.from(name).toString('utf8') // 2. If value is a string, then set value to the result of converting // value into a scalar value string. if (typeof value === 'string') { value = Buffer.from(value).toString('utf8') } else { // 3. Otherwise: // 1. If value is not a File object, then set value to a new File object, // representing the same bytes, whose name attribute value is "blob" if (!isFileLike(value)) { value = value instanceof Blob ? new File([value], 'blob', { type: value.type }) : new FileLike(value, 'blob', { type: value.type }) } // 2. If filename is given, then set value to a new File object, // representing the same bytes, whose name attribute is filename. if (filename !== undefined) { /** @type {FilePropertyBag} */ const options = { type: value.type, lastModified: value.lastModified } value = (NativeFile && value instanceof NativeFile) || value instanceof UndiciFile ? new File([value], filename, options) : new FileLike(value, filename, options) } } // 4. Return an entry whose name is name and whose value is value. return { name, value } } module.exports = { FormData } /***/ }), /***/ 5628: /***/ ((module) => { // In case of breaking changes, increase the version // number to avoid conflicts. const globalOrigin = Symbol.for('undici.globalOrigin.1') function getGlobalOrigin () { return globalThis[globalOrigin] } function setGlobalOrigin (newOrigin) { if (newOrigin === undefined) { Object.defineProperty(globalThis, globalOrigin, { value: undefined, writable: true, enumerable: false, configurable: false }) return } const parsedURL = new URL(newOrigin) if (parsedURL.protocol !== 'http:' && parsedURL.protocol !== 'https:') { throw new TypeError(`Only http & https urls are allowed, received ${parsedURL.protocol}`) } Object.defineProperty(globalThis, globalOrigin, { value: parsedURL, writable: true, enumerable: false, configurable: false }) } module.exports = { getGlobalOrigin, setGlobalOrigin } /***/ }), /***/ 6349: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // https://github.com/Ethan-Arrowood/undici-fetch const { kHeadersList, kConstruct } = __nccwpck_require__(6443) const { kGuard } = __nccwpck_require__(9710) const { kEnumerableProperty } = __nccwpck_require__(3440) const { makeIterator, isValidHeaderName, isValidHeaderValue } = __nccwpck_require__(5523) const util = __nccwpck_require__(9023) const { webidl } = __nccwpck_require__(4222) const assert = __nccwpck_require__(2613) const kHeadersMap = Symbol('headers map') const kHeadersSortedMap = Symbol('headers map sorted') /** * @param {number} code */ function isHTTPWhiteSpaceCharCode (code) { return code === 0x00a || code === 0x00d || code === 0x009 || code === 0x020 } /** * @see https://fetch.spec.whatwg.org/#concept-header-value-normalize * @param {string} potentialValue */ function headerValueNormalize (potentialValue) { // To normalize a byte sequence potentialValue, remove // any leading and trailing HTTP whitespace bytes from // potentialValue. let i = 0; let j = potentialValue.length while (j > i && isHTTPWhiteSpaceCharCode(potentialValue.charCodeAt(j - 1))) --j while (j > i && isHTTPWhiteSpaceCharCode(potentialValue.charCodeAt(i))) ++i return i === 0 && j === potentialValue.length ? potentialValue : potentialValue.substring(i, j) } function fill (headers, object) { // To fill a Headers object headers with a given object object, run these steps: // 1. If object is a sequence, then for each header in object: // Note: webidl conversion to array has already been done. if (Array.isArray(object)) { for (let i = 0; i < object.length; ++i) { const header = object[i] // 1. If header does not contain exactly two items, then throw a TypeError. if (header.length !== 2) { throw webidl.errors.exception({ header: 'Headers constructor', message: `expected name/value pair to be length 2, found ${header.length}.` }) } // 2. Append (header’s first item, header’s second item) to headers. appendHeader(headers, header[0], header[1]) } } else if (typeof object === 'object' && object !== null) { // Note: null should throw // 2. Otherwise, object is a record, then for each key → value in object, // append (key, value) to headers const keys = Object.keys(object) for (let i = 0; i < keys.length; ++i) { appendHeader(headers, keys[i], object[keys[i]]) } } else { throw webidl.errors.conversionFailed({ prefix: 'Headers constructor', argument: 'Argument 1', types: ['sequence>', 'record'] }) } } /** * @see https://fetch.spec.whatwg.org/#concept-headers-append */ function appendHeader (headers, name, value) { // 1. Normalize value. value = headerValueNormalize(value) // 2. If name is not a header name or value is not a // header value, then throw a TypeError. if (!isValidHeaderName(name)) { throw webidl.errors.invalidArgument({ prefix: 'Headers.append', value: name, type: 'header name' }) } else if (!isValidHeaderValue(value)) { throw webidl.errors.invalidArgument({ prefix: 'Headers.append', value, type: 'header value' }) } // 3. If headers’s guard is "immutable", then throw a TypeError. // 4. Otherwise, if headers’s guard is "request" and name is a // forbidden header name, return. // Note: undici does not implement forbidden header names if (headers[kGuard] === 'immutable') { throw new TypeError('immutable') } else if (headers[kGuard] === 'request-no-cors') { // 5. Otherwise, if headers’s guard is "request-no-cors": // TODO } // 6. Otherwise, if headers’s guard is "response" and name is a // forbidden response-header name, return. // 7. Append (name, value) to headers’s header list. return headers[kHeadersList].append(name, value) // 8. If headers’s guard is "request-no-cors", then remove // privileged no-CORS request headers from headers } class HeadersList { /** @type {[string, string][]|null} */ cookies = null constructor (init) { if (init instanceof HeadersList) { this[kHeadersMap] = new Map(init[kHeadersMap]) this[kHeadersSortedMap] = init[kHeadersSortedMap] this.cookies = init.cookies === null ? null : [...init.cookies] } else { this[kHeadersMap] = new Map(init) this[kHeadersSortedMap] = null } } // https://fetch.spec.whatwg.org/#header-list-contains contains (name) { // A header list list contains a header name name if list // contains a header whose name is a byte-case-insensitive // match for name. name = name.toLowerCase() return this[kHeadersMap].has(name) } clear () { this[kHeadersMap].clear() this[kHeadersSortedMap] = null this.cookies = null } // https://fetch.spec.whatwg.org/#concept-header-list-append append (name, value) { this[kHeadersSortedMap] = null // 1. If list contains name, then set name to the first such // header’s name. const lowercaseName = name.toLowerCase() const exists = this[kHeadersMap].get(lowercaseName) // 2. Append (name, value) to list. if (exists) { const delimiter = lowercaseName === 'cookie' ? '; ' : ', ' this[kHeadersMap].set(lowercaseName, { name: exists.name, value: `${exists.value}${delimiter}${value}` }) } else { this[kHeadersMap].set(lowercaseName, { name, value }) } if (lowercaseName === 'set-cookie') { this.cookies ??= [] this.cookies.push(value) } } // https://fetch.spec.whatwg.org/#concept-header-list-set set (name, value) { this[kHeadersSortedMap] = null const lowercaseName = name.toLowerCase() if (lowercaseName === 'set-cookie') { this.cookies = [value] } // 1. If list contains name, then set the value of // the first such header to value and remove the // others. // 2. Otherwise, append header (name, value) to list. this[kHeadersMap].set(lowercaseName, { name, value }) } // https://fetch.spec.whatwg.org/#concept-header-list-delete delete (name) { this[kHeadersSortedMap] = null name = name.toLowerCase() if (name === 'set-cookie') { this.cookies = null } this[kHeadersMap].delete(name) } // https://fetch.spec.whatwg.org/#concept-header-list-get get (name) { const value = this[kHeadersMap].get(name.toLowerCase()) // 1. If list does not contain name, then return null. // 2. Return the values of all headers in list whose name // is a byte-case-insensitive match for name, // separated from each other by 0x2C 0x20, in order. return value === undefined ? null : value.value } * [Symbol.iterator] () { // use the lowercased name for (const [name, { value }] of this[kHeadersMap]) { yield [name, value] } } get entries () { const headers = {} if (this[kHeadersMap].size) { for (const { name, value } of this[kHeadersMap].values()) { headers[name] = value } } return headers } } // https://fetch.spec.whatwg.org/#headers-class class Headers { constructor (init = undefined) { if (init === kConstruct) { return } this[kHeadersList] = new HeadersList() // The new Headers(init) constructor steps are: // 1. Set this’s guard to "none". this[kGuard] = 'none' // 2. If init is given, then fill this with init. if (init !== undefined) { init = webidl.converters.HeadersInit(init) fill(this, init) } } // https://fetch.spec.whatwg.org/#dom-headers-append append (name, value) { webidl.brandCheck(this, Headers) webidl.argumentLengthCheck(arguments, 2, { header: 'Headers.append' }) name = webidl.converters.ByteString(name) value = webidl.converters.ByteString(value) return appendHeader(this, name, value) } // https://fetch.spec.whatwg.org/#dom-headers-delete delete (name) { webidl.brandCheck(this, Headers) webidl.argumentLengthCheck(arguments, 1, { header: 'Headers.delete' }) name = webidl.converters.ByteString(name) // 1. If name is not a header name, then throw a TypeError. if (!isValidHeaderName(name)) { throw webidl.errors.invalidArgument({ prefix: 'Headers.delete', value: name, type: 'header name' }) } // 2. If this’s guard is "immutable", then throw a TypeError. // 3. Otherwise, if this’s guard is "request" and name is a // forbidden header name, return. // 4. Otherwise, if this’s guard is "request-no-cors", name // is not a no-CORS-safelisted request-header name, and // name is not a privileged no-CORS request-header name, // return. // 5. Otherwise, if this’s guard is "response" and name is // a forbidden response-header name, return. // Note: undici does not implement forbidden header names if (this[kGuard] === 'immutable') { throw new TypeError('immutable') } else if (this[kGuard] === 'request-no-cors') { // TODO } // 6. If this’s header list does not contain name, then // return. if (!this[kHeadersList].contains(name)) { return } // 7. Delete name from this’s header list. // 8. If this’s guard is "request-no-cors", then remove // privileged no-CORS request headers from this. this[kHeadersList].delete(name) } // https://fetch.spec.whatwg.org/#dom-headers-get get (name) { webidl.brandCheck(this, Headers) webidl.argumentLengthCheck(arguments, 1, { header: 'Headers.get' }) name = webidl.converters.ByteString(name) // 1. If name is not a header name, then throw a TypeError. if (!isValidHeaderName(name)) { throw webidl.errors.invalidArgument({ prefix: 'Headers.get', value: name, type: 'header name' }) } // 2. Return the result of getting name from this’s header // list. return this[kHeadersList].get(name) } // https://fetch.spec.whatwg.org/#dom-headers-has has (name) { webidl.brandCheck(this, Headers) webidl.argumentLengthCheck(arguments, 1, { header: 'Headers.has' }) name = webidl.converters.ByteString(name) // 1. If name is not a header name, then throw a TypeError. if (!isValidHeaderName(name)) { throw webidl.errors.invalidArgument({ prefix: 'Headers.has', value: name, type: 'header name' }) } // 2. Return true if this’s header list contains name; // otherwise false. return this[kHeadersList].contains(name) } // https://fetch.spec.whatwg.org/#dom-headers-set set (name, value) { webidl.brandCheck(this, Headers) webidl.argumentLengthCheck(arguments, 2, { header: 'Headers.set' }) name = webidl.converters.ByteString(name) value = webidl.converters.ByteString(value) // 1. Normalize value. value = headerValueNormalize(value) // 2. If name is not a header name or value is not a // header value, then throw a TypeError. if (!isValidHeaderName(name)) { throw webidl.errors.invalidArgument({ prefix: 'Headers.set', value: name, type: 'header name' }) } else if (!isValidHeaderValue(value)) { throw webidl.errors.invalidArgument({ prefix: 'Headers.set', value, type: 'header value' }) } // 3. If this’s guard is "immutable", then throw a TypeError. // 4. Otherwise, if this’s guard is "request" and name is a // forbidden header name, return. // 5. Otherwise, if this’s guard is "request-no-cors" and // name/value is not a no-CORS-safelisted request-header, // return. // 6. Otherwise, if this’s guard is "response" and name is a // forbidden response-header name, return. // Note: undici does not implement forbidden header names if (this[kGuard] === 'immutable') { throw new TypeError('immutable') } else if (this[kGuard] === 'request-no-cors') { // TODO } // 7. Set (name, value) in this’s header list. // 8. If this’s guard is "request-no-cors", then remove // privileged no-CORS request headers from this this[kHeadersList].set(name, value) } // https://fetch.spec.whatwg.org/#dom-headers-getsetcookie getSetCookie () { webidl.brandCheck(this, Headers) // 1. If this’s header list does not contain `Set-Cookie`, then return « ». // 2. Return the values of all headers in this’s header list whose name is // a byte-case-insensitive match for `Set-Cookie`, in order. const list = this[kHeadersList].cookies if (list) { return [...list] } return [] } // https://fetch.spec.whatwg.org/#concept-header-list-sort-and-combine get [kHeadersSortedMap] () { if (this[kHeadersList][kHeadersSortedMap]) { return this[kHeadersList][kHeadersSortedMap] } // 1. Let headers be an empty list of headers with the key being the name // and value the value. const headers = [] // 2. Let names be the result of convert header names to a sorted-lowercase // set with all the names of the headers in list. const names = [...this[kHeadersList]].sort((a, b) => a[0] < b[0] ? -1 : 1) const cookies = this[kHeadersList].cookies // 3. For each name of names: for (let i = 0; i < names.length; ++i) { const [name, value] = names[i] // 1. If name is `set-cookie`, then: if (name === 'set-cookie') { // 1. Let values be a list of all values of headers in list whose name // is a byte-case-insensitive match for name, in order. // 2. For each value of values: // 1. Append (name, value) to headers. for (let j = 0; j < cookies.length; ++j) { headers.push([name, cookies[j]]) } } else { // 2. Otherwise: // 1. Let value be the result of getting name from list. // 2. Assert: value is non-null. assert(value !== null) // 3. Append (name, value) to headers. headers.push([name, value]) } } this[kHeadersList][kHeadersSortedMap] = headers // 4. Return headers. return headers } keys () { webidl.brandCheck(this, Headers) if (this[kGuard] === 'immutable') { const value = this[kHeadersSortedMap] return makeIterator(() => value, 'Headers', 'key') } return makeIterator( () => [...this[kHeadersSortedMap].values()], 'Headers', 'key' ) } values () { webidl.brandCheck(this, Headers) if (this[kGuard] === 'immutable') { const value = this[kHeadersSortedMap] return makeIterator(() => value, 'Headers', 'value') } return makeIterator( () => [...this[kHeadersSortedMap].values()], 'Headers', 'value' ) } entries () { webidl.brandCheck(this, Headers) if (this[kGuard] === 'immutable') { const value = this[kHeadersSortedMap] return makeIterator(() => value, 'Headers', 'key+value') } return makeIterator( () => [...this[kHeadersSortedMap].values()], 'Headers', 'key+value' ) } /** * @param {(value: string, key: string, self: Headers) => void} callbackFn * @param {unknown} thisArg */ forEach (callbackFn, thisArg = globalThis) { webidl.brandCheck(this, Headers) webidl.argumentLengthCheck(arguments, 1, { header: 'Headers.forEach' }) if (typeof callbackFn !== 'function') { throw new TypeError( "Failed to execute 'forEach' on 'Headers': parameter 1 is not of type 'Function'." ) } for (const [key, value] of this) { callbackFn.apply(thisArg, [value, key, this]) } } [Symbol.for('nodejs.util.inspect.custom')] () { webidl.brandCheck(this, Headers) return this[kHeadersList] } } Headers.prototype[Symbol.iterator] = Headers.prototype.entries Object.defineProperties(Headers.prototype, { append: kEnumerableProperty, delete: kEnumerableProperty, get: kEnumerableProperty, has: kEnumerableProperty, set: kEnumerableProperty, getSetCookie: kEnumerableProperty, keys: kEnumerableProperty, values: kEnumerableProperty, entries: kEnumerableProperty, forEach: kEnumerableProperty, [Symbol.iterator]: { enumerable: false }, [Symbol.toStringTag]: { value: 'Headers', configurable: true }, [util.inspect.custom]: { enumerable: false } }) webidl.converters.HeadersInit = function (V) { if (webidl.util.Type(V) === 'Object') { if (V[Symbol.iterator]) { return webidl.converters['sequence>'](V) } return webidl.converters['record'](V) } throw webidl.errors.conversionFailed({ prefix: 'Headers constructor', argument: 'Argument 1', types: ['sequence>', 'record'] }) } module.exports = { fill, Headers, HeadersList } /***/ }), /***/ 2315: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // https://github.com/Ethan-Arrowood/undici-fetch const { Response, makeNetworkError, makeAppropriateNetworkError, filterResponse, makeResponse } = __nccwpck_require__(8676) const { Headers } = __nccwpck_require__(6349) const { Request, makeRequest } = __nccwpck_require__(5194) const zlib = __nccwpck_require__(3106) const { bytesMatch, makePolicyContainer, clonePolicyContainer, requestBadPort, TAOCheck, appendRequestOriginHeader, responseLocationURL, requestCurrentURL, setRequestReferrerPolicyOnRedirect, tryUpgradeRequestToAPotentiallyTrustworthyURL, createOpaqueTimingInfo, appendFetchMetadata, corsCheck, crossOriginResourcePolicyCheck, determineRequestsReferrer, coarsenedSharedCurrentTime, createDeferredPromise, isBlobLike, sameOrigin, isCancelled, isAborted, isErrorLike, fullyReadBody, readableStreamClose, isomorphicEncode, urlIsLocal, urlIsHttpHttpsScheme, urlHasHttpsScheme } = __nccwpck_require__(5523) const { kState, kHeaders, kGuard, kRealm } = __nccwpck_require__(9710) const assert = __nccwpck_require__(2613) const { safelyExtractBody } = __nccwpck_require__(8923) const { redirectStatusSet, nullBodyStatus, safeMethodsSet, requestBodyHeader, subresourceSet, DOMException } = __nccwpck_require__(7326) const { kHeadersList } = __nccwpck_require__(6443) const EE = __nccwpck_require__(4434) const { Readable, pipeline } = __nccwpck_require__(2203) const { addAbortListener, isErrored, isReadable, nodeMajor, nodeMinor } = __nccwpck_require__(3440) const { dataURLProcessor, serializeAMimeType } = __nccwpck_require__(4322) const { TransformStream } = __nccwpck_require__(3774) const { getGlobalDispatcher } = __nccwpck_require__(2581) const { webidl } = __nccwpck_require__(4222) const { STATUS_CODES } = __nccwpck_require__(8611) const GET_OR_HEAD = ['GET', 'HEAD'] /** @type {import('buffer').resolveObjectURL} */ let resolveObjectURL let ReadableStream = globalThis.ReadableStream class Fetch extends EE { constructor (dispatcher) { super() this.dispatcher = dispatcher this.connection = null this.dump = false this.state = 'ongoing' // 2 terminated listeners get added per request, // but only 1 gets removed. If there are 20 redirects, // 21 listeners will be added. // See https://github.com/nodejs/undici/issues/1711 // TODO (fix): Find and fix root cause for leaked listener. this.setMaxListeners(21) } terminate (reason) { if (this.state !== 'ongoing') { return } this.state = 'terminated' this.connection?.destroy(reason) this.emit('terminated', reason) } // https://fetch.spec.whatwg.org/#fetch-controller-abort abort (error) { if (this.state !== 'ongoing') { return } // 1. Set controller’s state to "aborted". this.state = 'aborted' // 2. Let fallbackError be an "AbortError" DOMException. // 3. Set error to fallbackError if it is not given. if (!error) { error = new DOMException('The operation was aborted.', 'AbortError') } // 4. Let serializedError be StructuredSerialize(error). // If that threw an exception, catch it, and let // serializedError be StructuredSerialize(fallbackError). // 5. Set controller’s serialized abort reason to serializedError. this.serializedAbortReason = error this.connection?.destroy(error) this.emit('terminated', error) } } // https://fetch.spec.whatwg.org/#fetch-method function fetch (input, init = {}) { webidl.argumentLengthCheck(arguments, 1, { header: 'globalThis.fetch' }) // 1. Let p be a new promise. const p = createDeferredPromise() // 2. Let requestObject be the result of invoking the initial value of // Request as constructor with input and init as arguments. If this throws // an exception, reject p with it and return p. let requestObject try { requestObject = new Request(input, init) } catch (e) { p.reject(e) return p.promise } // 3. Let request be requestObject’s request. const request = requestObject[kState] // 4. If requestObject’s signal’s aborted flag is set, then: if (requestObject.signal.aborted) { // 1. Abort the fetch() call with p, request, null, and // requestObject’s signal’s abort reason. abortFetch(p, request, null, requestObject.signal.reason) // 2. Return p. return p.promise } // 5. Let globalObject be request’s client’s global object. const globalObject = request.client.globalObject // 6. If globalObject is a ServiceWorkerGlobalScope object, then set // request’s service-workers mode to "none". if (globalObject?.constructor?.name === 'ServiceWorkerGlobalScope') { request.serviceWorkers = 'none' } // 7. Let responseObject be null. let responseObject = null // 8. Let relevantRealm be this’s relevant Realm. const relevantRealm = null // 9. Let locallyAborted be false. let locallyAborted = false // 10. Let controller be null. let controller = null // 11. Add the following abort steps to requestObject’s signal: addAbortListener( requestObject.signal, () => { // 1. Set locallyAborted to true. locallyAborted = true // 2. Assert: controller is non-null. assert(controller != null) // 3. Abort controller with requestObject’s signal’s abort reason. controller.abort(requestObject.signal.reason) // 4. Abort the fetch() call with p, request, responseObject, // and requestObject’s signal’s abort reason. abortFetch(p, request, responseObject, requestObject.signal.reason) } ) // 12. Let handleFetchDone given response response be to finalize and // report timing with response, globalObject, and "fetch". const handleFetchDone = (response) => finalizeAndReportTiming(response, 'fetch') // 13. Set controller to the result of calling fetch given request, // with processResponseEndOfBody set to handleFetchDone, and processResponse // given response being these substeps: const processResponse = (response) => { // 1. If locallyAborted is true, terminate these substeps. if (locallyAborted) { return Promise.resolve() } // 2. If response’s aborted flag is set, then: if (response.aborted) { // 1. Let deserializedError be the result of deserialize a serialized // abort reason given controller’s serialized abort reason and // relevantRealm. // 2. Abort the fetch() call with p, request, responseObject, and // deserializedError. abortFetch(p, request, responseObject, controller.serializedAbortReason) return Promise.resolve() } // 3. If response is a network error, then reject p with a TypeError // and terminate these substeps. if (response.type === 'error') { p.reject( Object.assign(new TypeError('fetch failed'), { cause: response.error }) ) return Promise.resolve() } // 4. Set responseObject to the result of creating a Response object, // given response, "immutable", and relevantRealm. responseObject = new Response() responseObject[kState] = response responseObject[kRealm] = relevantRealm responseObject[kHeaders][kHeadersList] = response.headersList responseObject[kHeaders][kGuard] = 'immutable' responseObject[kHeaders][kRealm] = relevantRealm // 5. Resolve p with responseObject. p.resolve(responseObject) } controller = fetching({ request, processResponseEndOfBody: handleFetchDone, processResponse, dispatcher: init.dispatcher ?? getGlobalDispatcher() // undici }) // 14. Return p. return p.promise } // https://fetch.spec.whatwg.org/#finalize-and-report-timing function finalizeAndReportTiming (response, initiatorType = 'other') { // 1. If response is an aborted network error, then return. if (response.type === 'error' && response.aborted) { return } // 2. If response’s URL list is null or empty, then return. if (!response.urlList?.length) { return } // 3. Let originalURL be response’s URL list[0]. const originalURL = response.urlList[0] // 4. Let timingInfo be response’s timing info. let timingInfo = response.timingInfo // 5. Let cacheState be response’s cache state. let cacheState = response.cacheState // 6. If originalURL’s scheme is not an HTTP(S) scheme, then return. if (!urlIsHttpHttpsScheme(originalURL)) { return } // 7. If timingInfo is null, then return. if (timingInfo === null) { return } // 8. If response’s timing allow passed flag is not set, then: if (!response.timingAllowPassed) { // 1. Set timingInfo to a the result of creating an opaque timing info for timingInfo. timingInfo = createOpaqueTimingInfo({ startTime: timingInfo.startTime }) // 2. Set cacheState to the empty string. cacheState = '' } // 9. Set timingInfo’s end time to the coarsened shared current time // given global’s relevant settings object’s cross-origin isolated // capability. // TODO: given global’s relevant settings object’s cross-origin isolated // capability? timingInfo.endTime = coarsenedSharedCurrentTime() // 10. Set response’s timing info to timingInfo. response.timingInfo = timingInfo // 11. Mark resource timing for timingInfo, originalURL, initiatorType, // global, and cacheState. markResourceTiming( timingInfo, originalURL, initiatorType, globalThis, cacheState ) } // https://w3c.github.io/resource-timing/#dfn-mark-resource-timing function markResourceTiming (timingInfo, originalURL, initiatorType, globalThis, cacheState) { if (nodeMajor > 18 || (nodeMajor === 18 && nodeMinor >= 2)) { performance.markResourceTiming(timingInfo, originalURL.href, initiatorType, globalThis, cacheState) } } // https://fetch.spec.whatwg.org/#abort-fetch function abortFetch (p, request, responseObject, error) { // Note: AbortSignal.reason was added in node v17.2.0 // which would give us an undefined error to reject with. // Remove this once node v16 is no longer supported. if (!error) { error = new DOMException('The operation was aborted.', 'AbortError') } // 1. Reject promise with error. p.reject(error) // 2. If request’s body is not null and is readable, then cancel request’s // body with error. if (request.body != null && isReadable(request.body?.stream)) { request.body.stream.cancel(error).catch((err) => { if (err.code === 'ERR_INVALID_STATE') { // Node bug? return } throw err }) } // 3. If responseObject is null, then return. if (responseObject == null) { return } // 4. Let response be responseObject’s response. const response = responseObject[kState] // 5. If response’s body is not null and is readable, then error response’s // body with error. if (response.body != null && isReadable(response.body?.stream)) { response.body.stream.cancel(error).catch((err) => { if (err.code === 'ERR_INVALID_STATE') { // Node bug? return } throw err }) } } // https://fetch.spec.whatwg.org/#fetching function fetching ({ request, processRequestBodyChunkLength, processRequestEndOfBody, processResponse, processResponseEndOfBody, processResponseConsumeBody, useParallelQueue = false, dispatcher // undici }) { // 1. Let taskDestination be null. let taskDestination = null // 2. Let crossOriginIsolatedCapability be false. let crossOriginIsolatedCapability = false // 3. If request’s client is non-null, then: if (request.client != null) { // 1. Set taskDestination to request’s client’s global object. taskDestination = request.client.globalObject // 2. Set crossOriginIsolatedCapability to request’s client’s cross-origin // isolated capability. crossOriginIsolatedCapability = request.client.crossOriginIsolatedCapability } // 4. If useParallelQueue is true, then set taskDestination to the result of // starting a new parallel queue. // TODO // 5. Let timingInfo be a new fetch timing info whose start time and // post-redirect start time are the coarsened shared current time given // crossOriginIsolatedCapability. const currenTime = coarsenedSharedCurrentTime(crossOriginIsolatedCapability) const timingInfo = createOpaqueTimingInfo({ startTime: currenTime }) // 6. Let fetchParams be a new fetch params whose // request is request, // timing info is timingInfo, // process request body chunk length is processRequestBodyChunkLength, // process request end-of-body is processRequestEndOfBody, // process response is processResponse, // process response consume body is processResponseConsumeBody, // process response end-of-body is processResponseEndOfBody, // task destination is taskDestination, // and cross-origin isolated capability is crossOriginIsolatedCapability. const fetchParams = { controller: new Fetch(dispatcher), request, timingInfo, processRequestBodyChunkLength, processRequestEndOfBody, processResponse, processResponseConsumeBody, processResponseEndOfBody, taskDestination, crossOriginIsolatedCapability } // 7. If request’s body is a byte sequence, then set request’s body to // request’s body as a body. // NOTE: Since fetching is only called from fetch, body should already be // extracted. assert(!request.body || request.body.stream) // 8. If request’s window is "client", then set request’s window to request’s // client, if request’s client’s global object is a Window object; otherwise // "no-window". if (request.window === 'client') { // TODO: What if request.client is null? request.window = request.client?.globalObject?.constructor?.name === 'Window' ? request.client : 'no-window' } // 9. If request’s origin is "client", then set request’s origin to request’s // client’s origin. if (request.origin === 'client') { // TODO: What if request.client is null? request.origin = request.client?.origin } // 10. If all of the following conditions are true: // TODO // 11. If request’s policy container is "client", then: if (request.policyContainer === 'client') { // 1. If request’s client is non-null, then set request’s policy // container to a clone of request’s client’s policy container. [HTML] if (request.client != null) { request.policyContainer = clonePolicyContainer( request.client.policyContainer ) } else { // 2. Otherwise, set request’s policy container to a new policy // container. request.policyContainer = makePolicyContainer() } } // 12. If request’s header list does not contain `Accept`, then: if (!request.headersList.contains('accept')) { // 1. Let value be `*/*`. const value = '*/*' // 2. A user agent should set value to the first matching statement, if // any, switching on request’s destination: // "document" // "frame" // "iframe" // `text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8` // "image" // `image/png,image/svg+xml,image/*;q=0.8,*/*;q=0.5` // "style" // `text/css,*/*;q=0.1` // TODO // 3. Append `Accept`/value to request’s header list. request.headersList.append('accept', value) } // 13. If request’s header list does not contain `Accept-Language`, then // user agents should append `Accept-Language`/an appropriate value to // request’s header list. if (!request.headersList.contains('accept-language')) { request.headersList.append('accept-language', '*') } // 14. If request’s priority is null, then use request’s initiator and // destination appropriately in setting request’s priority to a // user-agent-defined object. if (request.priority === null) { // TODO } // 15. If request is a subresource request, then: if (subresourceSet.has(request.destination)) { // TODO } // 16. Run main fetch given fetchParams. mainFetch(fetchParams) .catch(err => { fetchParams.controller.terminate(err) }) // 17. Return fetchParam's controller return fetchParams.controller } // https://fetch.spec.whatwg.org/#concept-main-fetch async function mainFetch (fetchParams, recursive = false) { // 1. Let request be fetchParams’s request. const request = fetchParams.request // 2. Let response be null. let response = null // 3. If request’s local-URLs-only flag is set and request’s current URL is // not local, then set response to a network error. if (request.localURLsOnly && !urlIsLocal(requestCurrentURL(request))) { response = makeNetworkError('local URLs only') } // 4. Run report Content Security Policy violations for request. // TODO // 5. Upgrade request to a potentially trustworthy URL, if appropriate. tryUpgradeRequestToAPotentiallyTrustworthyURL(request) // 6. If should request be blocked due to a bad port, should fetching request // be blocked as mixed content, or should request be blocked by Content // Security Policy returns blocked, then set response to a network error. if (requestBadPort(request) === 'blocked') { response = makeNetworkError('bad port') } // TODO: should fetching request be blocked as mixed content? // TODO: should request be blocked by Content Security Policy? // 7. If request’s referrer policy is the empty string, then set request’s // referrer policy to request’s policy container’s referrer policy. if (request.referrerPolicy === '') { request.referrerPolicy = request.policyContainer.referrerPolicy } // 8. If request’s referrer is not "no-referrer", then set request’s // referrer to the result of invoking determine request’s referrer. if (request.referrer !== 'no-referrer') { request.referrer = determineRequestsReferrer(request) } // 9. Set request’s current URL’s scheme to "https" if all of the following // conditions are true: // - request’s current URL’s scheme is "http" // - request’s current URL’s host is a domain // - Matching request’s current URL’s host per Known HSTS Host Domain Name // Matching results in either a superdomain match with an asserted // includeSubDomains directive or a congruent match (with or without an // asserted includeSubDomains directive). [HSTS] // TODO // 10. If recursive is false, then run the remaining steps in parallel. // TODO // 11. If response is null, then set response to the result of running // the steps corresponding to the first matching statement: if (response === null) { response = await (async () => { const currentURL = requestCurrentURL(request) if ( // - request’s current URL’s origin is same origin with request’s origin, // and request’s response tainting is "basic" (sameOrigin(currentURL, request.url) && request.responseTainting === 'basic') || // request’s current URL’s scheme is "data" (currentURL.protocol === 'data:') || // - request’s mode is "navigate" or "websocket" (request.mode === 'navigate' || request.mode === 'websocket') ) { // 1. Set request’s response tainting to "basic". request.responseTainting = 'basic' // 2. Return the result of running scheme fetch given fetchParams. return await schemeFetch(fetchParams) } // request’s mode is "same-origin" if (request.mode === 'same-origin') { // 1. Return a network error. return makeNetworkError('request mode cannot be "same-origin"') } // request’s mode is "no-cors" if (request.mode === 'no-cors') { // 1. If request’s redirect mode is not "follow", then return a network // error. if (request.redirect !== 'follow') { return makeNetworkError( 'redirect mode cannot be "follow" for "no-cors" request' ) } // 2. Set request’s response tainting to "opaque". request.responseTainting = 'opaque' // 3. Return the result of running scheme fetch given fetchParams. return await schemeFetch(fetchParams) } // request’s current URL’s scheme is not an HTTP(S) scheme if (!urlIsHttpHttpsScheme(requestCurrentURL(request))) { // Return a network error. return makeNetworkError('URL scheme must be a HTTP(S) scheme') } // - request’s use-CORS-preflight flag is set // - request’s unsafe-request flag is set and either request’s method is // not a CORS-safelisted method or CORS-unsafe request-header names with // request’s header list is not empty // 1. Set request’s response tainting to "cors". // 2. Let corsWithPreflightResponse be the result of running HTTP fetch // given fetchParams and true. // 3. If corsWithPreflightResponse is a network error, then clear cache // entries using request. // 4. Return corsWithPreflightResponse. // TODO // Otherwise // 1. Set request’s response tainting to "cors". request.responseTainting = 'cors' // 2. Return the result of running HTTP fetch given fetchParams. return await httpFetch(fetchParams) })() } // 12. If recursive is true, then return response. if (recursive) { return response } // 13. If response is not a network error and response is not a filtered // response, then: if (response.status !== 0 && !response.internalResponse) { // If request’s response tainting is "cors", then: if (request.responseTainting === 'cors') { // 1. Let headerNames be the result of extracting header list values // given `Access-Control-Expose-Headers` and response’s header list. // TODO // 2. If request’s credentials mode is not "include" and headerNames // contains `*`, then set response’s CORS-exposed header-name list to // all unique header names in response’s header list. // TODO // 3. Otherwise, if headerNames is not null or failure, then set // response’s CORS-exposed header-name list to headerNames. // TODO } // Set response to the following filtered response with response as its // internal response, depending on request’s response tainting: if (request.responseTainting === 'basic') { response = filterResponse(response, 'basic') } else if (request.responseTainting === 'cors') { response = filterResponse(response, 'cors') } else if (request.responseTainting === 'opaque') { response = filterResponse(response, 'opaque') } else { assert(false) } } // 14. Let internalResponse be response, if response is a network error, // and response’s internal response otherwise. let internalResponse = response.status === 0 ? response : response.internalResponse // 15. If internalResponse’s URL list is empty, then set it to a clone of // request’s URL list. if (internalResponse.urlList.length === 0) { internalResponse.urlList.push(...request.urlList) } // 16. If request’s timing allow failed flag is unset, then set // internalResponse’s timing allow passed flag. if (!request.timingAllowFailed) { response.timingAllowPassed = true } // 17. If response is not a network error and any of the following returns // blocked // - should internalResponse to request be blocked as mixed content // - should internalResponse to request be blocked by Content Security Policy // - should internalResponse to request be blocked due to its MIME type // - should internalResponse to request be blocked due to nosniff // TODO // 18. If response’s type is "opaque", internalResponse’s status is 206, // internalResponse’s range-requested flag is set, and request’s header // list does not contain `Range`, then set response and internalResponse // to a network error. if ( response.type === 'opaque' && internalResponse.status === 206 && internalResponse.rangeRequested && !request.headers.contains('range') ) { response = internalResponse = makeNetworkError() } // 19. If response is not a network error and either request’s method is // `HEAD` or `CONNECT`, or internalResponse’s status is a null body status, // set internalResponse’s body to null and disregard any enqueuing toward // it (if any). if ( response.status !== 0 && (request.method === 'HEAD' || request.method === 'CONNECT' || nullBodyStatus.includes(internalResponse.status)) ) { internalResponse.body = null fetchParams.controller.dump = true } // 20. If request’s integrity metadata is not the empty string, then: if (request.integrity) { // 1. Let processBodyError be this step: run fetch finale given fetchParams // and a network error. const processBodyError = (reason) => fetchFinale(fetchParams, makeNetworkError(reason)) // 2. If request’s response tainting is "opaque", or response’s body is null, // then run processBodyError and abort these steps. if (request.responseTainting === 'opaque' || response.body == null) { processBodyError(response.error) return } // 3. Let processBody given bytes be these steps: const processBody = (bytes) => { // 1. If bytes do not match request’s integrity metadata, // then run processBodyError and abort these steps. [SRI] if (!bytesMatch(bytes, request.integrity)) { processBodyError('integrity mismatch') return } // 2. Set response’s body to bytes as a body. response.body = safelyExtractBody(bytes)[0] // 3. Run fetch finale given fetchParams and response. fetchFinale(fetchParams, response) } // 4. Fully read response’s body given processBody and processBodyError. await fullyReadBody(response.body, processBody, processBodyError) } else { // 21. Otherwise, run fetch finale given fetchParams and response. fetchFinale(fetchParams, response) } } // https://fetch.spec.whatwg.org/#concept-scheme-fetch // given a fetch params fetchParams function schemeFetch (fetchParams) { // Note: since the connection is destroyed on redirect, which sets fetchParams to a // cancelled state, we do not want this condition to trigger *unless* there have been // no redirects. See https://github.com/nodejs/undici/issues/1776 // 1. If fetchParams is canceled, then return the appropriate network error for fetchParams. if (isCancelled(fetchParams) && fetchParams.request.redirectCount === 0) { return Promise.resolve(makeAppropriateNetworkError(fetchParams)) } // 2. Let request be fetchParams’s request. const { request } = fetchParams const { protocol: scheme } = requestCurrentURL(request) // 3. Switch on request’s current URL’s scheme and run the associated steps: switch (scheme) { case 'about:': { // If request’s current URL’s path is the string "blank", then return a new response // whose status message is `OK`, header list is « (`Content-Type`, `text/html;charset=utf-8`) », // and body is the empty byte sequence as a body. // Otherwise, return a network error. return Promise.resolve(makeNetworkError('about scheme is not supported')) } case 'blob:': { if (!resolveObjectURL) { resolveObjectURL = (__nccwpck_require__(181).resolveObjectURL) } // 1. Let blobURLEntry be request’s current URL’s blob URL entry. const blobURLEntry = requestCurrentURL(request) // https://github.com/web-platform-tests/wpt/blob/7b0ebaccc62b566a1965396e5be7bb2bc06f841f/FileAPI/url/resources/fetch-tests.js#L52-L56 // Buffer.resolveObjectURL does not ignore URL queries. if (blobURLEntry.search.length !== 0) { return Promise.resolve(makeNetworkError('NetworkError when attempting to fetch resource.')) } const blobURLEntryObject = resolveObjectURL(blobURLEntry.toString()) // 2. If request’s method is not `GET`, blobURLEntry is null, or blobURLEntry’s // object is not a Blob object, then return a network error. if (request.method !== 'GET' || !isBlobLike(blobURLEntryObject)) { return Promise.resolve(makeNetworkError('invalid method')) } // 3. Let bodyWithType be the result of safely extracting blobURLEntry’s object. const bodyWithType = safelyExtractBody(blobURLEntryObject) // 4. Let body be bodyWithType’s body. const body = bodyWithType[0] // 5. Let length be body’s length, serialized and isomorphic encoded. const length = isomorphicEncode(`${body.length}`) // 6. Let type be bodyWithType’s type if it is non-null; otherwise the empty byte sequence. const type = bodyWithType[1] ?? '' // 7. Return a new response whose status message is `OK`, header list is // « (`Content-Length`, length), (`Content-Type`, type) », and body is body. const response = makeResponse({ statusText: 'OK', headersList: [ ['content-length', { name: 'Content-Length', value: length }], ['content-type', { name: 'Content-Type', value: type }] ] }) response.body = body return Promise.resolve(response) } case 'data:': { // 1. Let dataURLStruct be the result of running the // data: URL processor on request’s current URL. const currentURL = requestCurrentURL(request) const dataURLStruct = dataURLProcessor(currentURL) // 2. If dataURLStruct is failure, then return a // network error. if (dataURLStruct === 'failure') { return Promise.resolve(makeNetworkError('failed to fetch the data URL')) } // 3. Let mimeType be dataURLStruct’s MIME type, serialized. const mimeType = serializeAMimeType(dataURLStruct.mimeType) // 4. Return a response whose status message is `OK`, // header list is « (`Content-Type`, mimeType) », // and body is dataURLStruct’s body as a body. return Promise.resolve(makeResponse({ statusText: 'OK', headersList: [ ['content-type', { name: 'Content-Type', value: mimeType }] ], body: safelyExtractBody(dataURLStruct.body)[0] })) } case 'file:': { // For now, unfortunate as it is, file URLs are left as an exercise for the reader. // When in doubt, return a network error. return Promise.resolve(makeNetworkError('not implemented... yet...')) } case 'http:': case 'https:': { // Return the result of running HTTP fetch given fetchParams. return httpFetch(fetchParams) .catch((err) => makeNetworkError(err)) } default: { return Promise.resolve(makeNetworkError('unknown scheme')) } } } // https://fetch.spec.whatwg.org/#finalize-response function finalizeResponse (fetchParams, response) { // 1. Set fetchParams’s request’s done flag. fetchParams.request.done = true // 2, If fetchParams’s process response done is not null, then queue a fetch // task to run fetchParams’s process response done given response, with // fetchParams’s task destination. if (fetchParams.processResponseDone != null) { queueMicrotask(() => fetchParams.processResponseDone(response)) } } // https://fetch.spec.whatwg.org/#fetch-finale function fetchFinale (fetchParams, response) { // 1. If response is a network error, then: if (response.type === 'error') { // 1. Set response’s URL list to « fetchParams’s request’s URL list[0] ». response.urlList = [fetchParams.request.urlList[0]] // 2. Set response’s timing info to the result of creating an opaque timing // info for fetchParams’s timing info. response.timingInfo = createOpaqueTimingInfo({ startTime: fetchParams.timingInfo.startTime }) } // 2. Let processResponseEndOfBody be the following steps: const processResponseEndOfBody = () => { // 1. Set fetchParams’s request’s done flag. fetchParams.request.done = true // If fetchParams’s process response end-of-body is not null, // then queue a fetch task to run fetchParams’s process response // end-of-body given response with fetchParams’s task destination. if (fetchParams.processResponseEndOfBody != null) { queueMicrotask(() => fetchParams.processResponseEndOfBody(response)) } } // 3. If fetchParams’s process response is non-null, then queue a fetch task // to run fetchParams’s process response given response, with fetchParams’s // task destination. if (fetchParams.processResponse != null) { queueMicrotask(() => fetchParams.processResponse(response)) } // 4. If response’s body is null, then run processResponseEndOfBody. if (response.body == null) { processResponseEndOfBody() } else { // 5. Otherwise: // 1. Let transformStream be a new a TransformStream. // 2. Let identityTransformAlgorithm be an algorithm which, given chunk, // enqueues chunk in transformStream. const identityTransformAlgorithm = (chunk, controller) => { controller.enqueue(chunk) } // 3. Set up transformStream with transformAlgorithm set to identityTransformAlgorithm // and flushAlgorithm set to processResponseEndOfBody. const transformStream = new TransformStream({ start () {}, transform: identityTransformAlgorithm, flush: processResponseEndOfBody }, { size () { return 1 } }, { size () { return 1 } }) // 4. Set response’s body to the result of piping response’s body through transformStream. response.body = { stream: response.body.stream.pipeThrough(transformStream) } } // 6. If fetchParams’s process response consume body is non-null, then: if (fetchParams.processResponseConsumeBody != null) { // 1. Let processBody given nullOrBytes be this step: run fetchParams’s // process response consume body given response and nullOrBytes. const processBody = (nullOrBytes) => fetchParams.processResponseConsumeBody(response, nullOrBytes) // 2. Let processBodyError be this step: run fetchParams’s process // response consume body given response and failure. const processBodyError = (failure) => fetchParams.processResponseConsumeBody(response, failure) // 3. If response’s body is null, then queue a fetch task to run processBody // given null, with fetchParams’s task destination. if (response.body == null) { queueMicrotask(() => processBody(null)) } else { // 4. Otherwise, fully read response’s body given processBody, processBodyError, // and fetchParams’s task destination. return fullyReadBody(response.body, processBody, processBodyError) } return Promise.resolve() } } // https://fetch.spec.whatwg.org/#http-fetch async function httpFetch (fetchParams) { // 1. Let request be fetchParams’s request. const request = fetchParams.request // 2. Let response be null. let response = null // 3. Let actualResponse be null. let actualResponse = null // 4. Let timingInfo be fetchParams’s timing info. const timingInfo = fetchParams.timingInfo // 5. If request’s service-workers mode is "all", then: if (request.serviceWorkers === 'all') { // TODO } // 6. If response is null, then: if (response === null) { // 1. If makeCORSPreflight is true and one of these conditions is true: // TODO // 2. If request’s redirect mode is "follow", then set request’s // service-workers mode to "none". if (request.redirect === 'follow') { request.serviceWorkers = 'none' } // 3. Set response and actualResponse to the result of running // HTTP-network-or-cache fetch given fetchParams. actualResponse = response = await httpNetworkOrCacheFetch(fetchParams) // 4. If request’s response tainting is "cors" and a CORS check // for request and response returns failure, then return a network error. if ( request.responseTainting === 'cors' && corsCheck(request, response) === 'failure' ) { return makeNetworkError('cors failure') } // 5. If the TAO check for request and response returns failure, then set // request’s timing allow failed flag. if (TAOCheck(request, response) === 'failure') { request.timingAllowFailed = true } } // 7. If either request’s response tainting or response’s type // is "opaque", and the cross-origin resource policy check with // request’s origin, request’s client, request’s destination, // and actualResponse returns blocked, then return a network error. if ( (request.responseTainting === 'opaque' || response.type === 'opaque') && crossOriginResourcePolicyCheck( request.origin, request.client, request.destination, actualResponse ) === 'blocked' ) { return makeNetworkError('blocked') } // 8. If actualResponse’s status is a redirect status, then: if (redirectStatusSet.has(actualResponse.status)) { // 1. If actualResponse’s status is not 303, request’s body is not null, // and the connection uses HTTP/2, then user agents may, and are even // encouraged to, transmit an RST_STREAM frame. // See, https://github.com/whatwg/fetch/issues/1288 if (request.redirect !== 'manual') { fetchParams.controller.connection.destroy() } // 2. Switch on request’s redirect mode: if (request.redirect === 'error') { // Set response to a network error. response = makeNetworkError('unexpected redirect') } else if (request.redirect === 'manual') { // Set response to an opaque-redirect filtered response whose internal // response is actualResponse. // NOTE(spec): On the web this would return an `opaqueredirect` response, // but that doesn't make sense server side. // See https://github.com/nodejs/undici/issues/1193. response = actualResponse } else if (request.redirect === 'follow') { // Set response to the result of running HTTP-redirect fetch given // fetchParams and response. response = await httpRedirectFetch(fetchParams, response) } else { assert(false) } } // 9. Set response’s timing info to timingInfo. response.timingInfo = timingInfo // 10. Return response. return response } // https://fetch.spec.whatwg.org/#http-redirect-fetch function httpRedirectFetch (fetchParams, response) { // 1. Let request be fetchParams’s request. const request = fetchParams.request // 2. Let actualResponse be response, if response is not a filtered response, // and response’s internal response otherwise. const actualResponse = response.internalResponse ? response.internalResponse : response // 3. Let locationURL be actualResponse’s location URL given request’s current // URL’s fragment. let locationURL try { locationURL = responseLocationURL( actualResponse, requestCurrentURL(request).hash ) // 4. If locationURL is null, then return response. if (locationURL == null) { return response } } catch (err) { // 5. If locationURL is failure, then return a network error. return Promise.resolve(makeNetworkError(err)) } // 6. If locationURL’s scheme is not an HTTP(S) scheme, then return a network // error. if (!urlIsHttpHttpsScheme(locationURL)) { return Promise.resolve(makeNetworkError('URL scheme must be a HTTP(S) scheme')) } // 7. If request’s redirect count is 20, then return a network error. if (request.redirectCount === 20) { return Promise.resolve(makeNetworkError('redirect count exceeded')) } // 8. Increase request’s redirect count by 1. request.redirectCount += 1 // 9. If request’s mode is "cors", locationURL includes credentials, and // request’s origin is not same origin with locationURL’s origin, then return // a network error. if ( request.mode === 'cors' && (locationURL.username || locationURL.password) && !sameOrigin(request, locationURL) ) { return Promise.resolve(makeNetworkError('cross origin not allowed for request mode "cors"')) } // 10. If request’s response tainting is "cors" and locationURL includes // credentials, then return a network error. if ( request.responseTainting === 'cors' && (locationURL.username || locationURL.password) ) { return Promise.resolve(makeNetworkError( 'URL cannot contain credentials for request mode "cors"' )) } // 11. If actualResponse’s status is not 303, request’s body is non-null, // and request’s body’s source is null, then return a network error. if ( actualResponse.status !== 303 && request.body != null && request.body.source == null ) { return Promise.resolve(makeNetworkError()) } // 12. If one of the following is true // - actualResponse’s status is 301 or 302 and request’s method is `POST` // - actualResponse’s status is 303 and request’s method is not `GET` or `HEAD` if ( ([301, 302].includes(actualResponse.status) && request.method === 'POST') || (actualResponse.status === 303 && !GET_OR_HEAD.includes(request.method)) ) { // then: // 1. Set request’s method to `GET` and request’s body to null. request.method = 'GET' request.body = null // 2. For each headerName of request-body-header name, delete headerName from // request’s header list. for (const headerName of requestBodyHeader) { request.headersList.delete(headerName) } } // 13. If request’s current URL’s origin is not same origin with locationURL’s // origin, then for each headerName of CORS non-wildcard request-header name, // delete headerName from request’s header list. if (!sameOrigin(requestCurrentURL(request), locationURL)) { // https://fetch.spec.whatwg.org/#cors-non-wildcard-request-header-name request.headersList.delete('authorization') // https://fetch.spec.whatwg.org/#authentication-entries request.headersList.delete('proxy-authorization', true) // "Cookie" and "Host" are forbidden request-headers, which undici doesn't implement. request.headersList.delete('cookie') request.headersList.delete('host') } // 14. If request’s body is non-null, then set request’s body to the first return // value of safely extracting request’s body’s source. if (request.body != null) { assert(request.body.source != null) request.body = safelyExtractBody(request.body.source)[0] } // 15. Let timingInfo be fetchParams’s timing info. const timingInfo = fetchParams.timingInfo // 16. Set timingInfo’s redirect end time and post-redirect start time to the // coarsened shared current time given fetchParams’s cross-origin isolated // capability. timingInfo.redirectEndTime = timingInfo.postRedirectStartTime = coarsenedSharedCurrentTime(fetchParams.crossOriginIsolatedCapability) // 17. If timingInfo’s redirect start time is 0, then set timingInfo’s // redirect start time to timingInfo’s start time. if (timingInfo.redirectStartTime === 0) { timingInfo.redirectStartTime = timingInfo.startTime } // 18. Append locationURL to request’s URL list. request.urlList.push(locationURL) // 19. Invoke set request’s referrer policy on redirect on request and // actualResponse. setRequestReferrerPolicyOnRedirect(request, actualResponse) // 20. Return the result of running main fetch given fetchParams and true. return mainFetch(fetchParams, true) } // https://fetch.spec.whatwg.org/#http-network-or-cache-fetch async function httpNetworkOrCacheFetch ( fetchParams, isAuthenticationFetch = false, isNewConnectionFetch = false ) { // 1. Let request be fetchParams’s request. const request = fetchParams.request // 2. Let httpFetchParams be null. let httpFetchParams = null // 3. Let httpRequest be null. let httpRequest = null // 4. Let response be null. let response = null // 5. Let storedResponse be null. // TODO: cache // 6. Let httpCache be null. const httpCache = null // 7. Let the revalidatingFlag be unset. const revalidatingFlag = false // 8. Run these steps, but abort when the ongoing fetch is terminated: // 1. If request’s window is "no-window" and request’s redirect mode is // "error", then set httpFetchParams to fetchParams and httpRequest to // request. if (request.window === 'no-window' && request.redirect === 'error') { httpFetchParams = fetchParams httpRequest = request } else { // Otherwise: // 1. Set httpRequest to a clone of request. httpRequest = makeRequest(request) // 2. Set httpFetchParams to a copy of fetchParams. httpFetchParams = { ...fetchParams } // 3. Set httpFetchParams’s request to httpRequest. httpFetchParams.request = httpRequest } // 3. Let includeCredentials be true if one of const includeCredentials = request.credentials === 'include' || (request.credentials === 'same-origin' && request.responseTainting === 'basic') // 4. Let contentLength be httpRequest’s body’s length, if httpRequest’s // body is non-null; otherwise null. const contentLength = httpRequest.body ? httpRequest.body.length : null // 5. Let contentLengthHeaderValue be null. let contentLengthHeaderValue = null // 6. If httpRequest’s body is null and httpRequest’s method is `POST` or // `PUT`, then set contentLengthHeaderValue to `0`. if ( httpRequest.body == null && ['POST', 'PUT'].includes(httpRequest.method) ) { contentLengthHeaderValue = '0' } // 7. If contentLength is non-null, then set contentLengthHeaderValue to // contentLength, serialized and isomorphic encoded. if (contentLength != null) { contentLengthHeaderValue = isomorphicEncode(`${contentLength}`) } // 8. If contentLengthHeaderValue is non-null, then append // `Content-Length`/contentLengthHeaderValue to httpRequest’s header // list. if (contentLengthHeaderValue != null) { httpRequest.headersList.append('content-length', contentLengthHeaderValue) } // 9. If contentLengthHeaderValue is non-null, then append (`Content-Length`, // contentLengthHeaderValue) to httpRequest’s header list. // 10. If contentLength is non-null and httpRequest’s keepalive is true, // then: if (contentLength != null && httpRequest.keepalive) { // NOTE: keepalive is a noop outside of browser context. } // 11. If httpRequest’s referrer is a URL, then append // `Referer`/httpRequest’s referrer, serialized and isomorphic encoded, // to httpRequest’s header list. if (httpRequest.referrer instanceof URL) { httpRequest.headersList.append('referer', isomorphicEncode(httpRequest.referrer.href)) } // 12. Append a request `Origin` header for httpRequest. appendRequestOriginHeader(httpRequest) // 13. Append the Fetch metadata headers for httpRequest. [FETCH-METADATA] appendFetchMetadata(httpRequest) // 14. If httpRequest’s header list does not contain `User-Agent`, then // user agents should append `User-Agent`/default `User-Agent` value to // httpRequest’s header list. if (!httpRequest.headersList.contains('user-agent')) { httpRequest.headersList.append('user-agent', typeof esbuildDetection === 'undefined' ? 'undici' : 'node') } // 15. If httpRequest’s cache mode is "default" and httpRequest’s header // list contains `If-Modified-Since`, `If-None-Match`, // `If-Unmodified-Since`, `If-Match`, or `If-Range`, then set // httpRequest’s cache mode to "no-store". if ( httpRequest.cache === 'default' && (httpRequest.headersList.contains('if-modified-since') || httpRequest.headersList.contains('if-none-match') || httpRequest.headersList.contains('if-unmodified-since') || httpRequest.headersList.contains('if-match') || httpRequest.headersList.contains('if-range')) ) { httpRequest.cache = 'no-store' } // 16. If httpRequest’s cache mode is "no-cache", httpRequest’s prevent // no-cache cache-control header modification flag is unset, and // httpRequest’s header list does not contain `Cache-Control`, then append // `Cache-Control`/`max-age=0` to httpRequest’s header list. if ( httpRequest.cache === 'no-cache' && !httpRequest.preventNoCacheCacheControlHeaderModification && !httpRequest.headersList.contains('cache-control') ) { httpRequest.headersList.append('cache-control', 'max-age=0') } // 17. If httpRequest’s cache mode is "no-store" or "reload", then: if (httpRequest.cache === 'no-store' || httpRequest.cache === 'reload') { // 1. If httpRequest’s header list does not contain `Pragma`, then append // `Pragma`/`no-cache` to httpRequest’s header list. if (!httpRequest.headersList.contains('pragma')) { httpRequest.headersList.append('pragma', 'no-cache') } // 2. If httpRequest’s header list does not contain `Cache-Control`, // then append `Cache-Control`/`no-cache` to httpRequest’s header list. if (!httpRequest.headersList.contains('cache-control')) { httpRequest.headersList.append('cache-control', 'no-cache') } } // 18. If httpRequest’s header list contains `Range`, then append // `Accept-Encoding`/`identity` to httpRequest’s header list. if (httpRequest.headersList.contains('range')) { httpRequest.headersList.append('accept-encoding', 'identity') } // 19. Modify httpRequest’s header list per HTTP. Do not append a given // header if httpRequest’s header list contains that header’s name. // TODO: https://github.com/whatwg/fetch/issues/1285#issuecomment-896560129 if (!httpRequest.headersList.contains('accept-encoding')) { if (urlHasHttpsScheme(requestCurrentURL(httpRequest))) { httpRequest.headersList.append('accept-encoding', 'br, gzip, deflate') } else { httpRequest.headersList.append('accept-encoding', 'gzip, deflate') } } httpRequest.headersList.delete('host') // 20. If includeCredentials is true, then: if (includeCredentials) { // 1. If the user agent is not configured to block cookies for httpRequest // (see section 7 of [COOKIES]), then: // TODO: credentials // 2. If httpRequest’s header list does not contain `Authorization`, then: // TODO: credentials } // 21. If there’s a proxy-authentication entry, use it as appropriate. // TODO: proxy-authentication // 22. Set httpCache to the result of determining the HTTP cache // partition, given httpRequest. // TODO: cache // 23. If httpCache is null, then set httpRequest’s cache mode to // "no-store". if (httpCache == null) { httpRequest.cache = 'no-store' } // 24. If httpRequest’s cache mode is neither "no-store" nor "reload", // then: if (httpRequest.mode !== 'no-store' && httpRequest.mode !== 'reload') { // TODO: cache } // 9. If aborted, then return the appropriate network error for fetchParams. // TODO // 10. If response is null, then: if (response == null) { // 1. If httpRequest’s cache mode is "only-if-cached", then return a // network error. if (httpRequest.mode === 'only-if-cached') { return makeNetworkError('only if cached') } // 2. Let forwardResponse be the result of running HTTP-network fetch // given httpFetchParams, includeCredentials, and isNewConnectionFetch. const forwardResponse = await httpNetworkFetch( httpFetchParams, includeCredentials, isNewConnectionFetch ) // 3. If httpRequest’s method is unsafe and forwardResponse’s status is // in the range 200 to 399, inclusive, invalidate appropriate stored // responses in httpCache, as per the "Invalidation" chapter of HTTP // Caching, and set storedResponse to null. [HTTP-CACHING] if ( !safeMethodsSet.has(httpRequest.method) && forwardResponse.status >= 200 && forwardResponse.status <= 399 ) { // TODO: cache } // 4. If the revalidatingFlag is set and forwardResponse’s status is 304, // then: if (revalidatingFlag && forwardResponse.status === 304) { // TODO: cache } // 5. If response is null, then: if (response == null) { // 1. Set response to forwardResponse. response = forwardResponse // 2. Store httpRequest and forwardResponse in httpCache, as per the // "Storing Responses in Caches" chapter of HTTP Caching. [HTTP-CACHING] // TODO: cache } } // 11. Set response’s URL list to a clone of httpRequest’s URL list. response.urlList = [...httpRequest.urlList] // 12. If httpRequest’s header list contains `Range`, then set response’s // range-requested flag. if (httpRequest.headersList.contains('range')) { response.rangeRequested = true } // 13. Set response’s request-includes-credentials to includeCredentials. response.requestIncludesCredentials = includeCredentials // 14. If response’s status is 401, httpRequest’s response tainting is not // "cors", includeCredentials is true, and request’s window is an environment // settings object, then: // TODO // 15. If response’s status is 407, then: if (response.status === 407) { // 1. If request’s window is "no-window", then return a network error. if (request.window === 'no-window') { return makeNetworkError() } // 2. ??? // 3. If fetchParams is canceled, then return the appropriate network error for fetchParams. if (isCancelled(fetchParams)) { return makeAppropriateNetworkError(fetchParams) } // 4. Prompt the end user as appropriate in request’s window and store // the result as a proxy-authentication entry. [HTTP-AUTH] // TODO: Invoke some kind of callback? // 5. Set response to the result of running HTTP-network-or-cache fetch given // fetchParams. // TODO return makeNetworkError('proxy authentication required') } // 16. If all of the following are true if ( // response’s status is 421 response.status === 421 && // isNewConnectionFetch is false !isNewConnectionFetch && // request’s body is null, or request’s body is non-null and request’s body’s source is non-null (request.body == null || request.body.source != null) ) { // then: // 1. If fetchParams is canceled, then return the appropriate network error for fetchParams. if (isCancelled(fetchParams)) { return makeAppropriateNetworkError(fetchParams) } // 2. Set response to the result of running HTTP-network-or-cache // fetch given fetchParams, isAuthenticationFetch, and true. // TODO (spec): The spec doesn't specify this but we need to cancel // the active response before we can start a new one. // https://github.com/whatwg/fetch/issues/1293 fetchParams.controller.connection.destroy() response = await httpNetworkOrCacheFetch( fetchParams, isAuthenticationFetch, true ) } // 17. If isAuthenticationFetch is true, then create an authentication entry if (isAuthenticationFetch) { // TODO } // 18. Return response. return response } // https://fetch.spec.whatwg.org/#http-network-fetch async function httpNetworkFetch ( fetchParams, includeCredentials = false, forceNewConnection = false ) { assert(!fetchParams.controller.connection || fetchParams.controller.connection.destroyed) fetchParams.controller.connection = { abort: null, destroyed: false, destroy (err) { if (!this.destroyed) { this.destroyed = true this.abort?.(err ?? new DOMException('The operation was aborted.', 'AbortError')) } } } // 1. Let request be fetchParams’s request. const request = fetchParams.request // 2. Let response be null. let response = null // 3. Let timingInfo be fetchParams’s timing info. const timingInfo = fetchParams.timingInfo // 4. Let httpCache be the result of determining the HTTP cache partition, // given request. // TODO: cache const httpCache = null // 5. If httpCache is null, then set request’s cache mode to "no-store". if (httpCache == null) { request.cache = 'no-store' } // 6. Let networkPartitionKey be the result of determining the network // partition key given request. // TODO // 7. Let newConnection be "yes" if forceNewConnection is true; otherwise // "no". const newConnection = forceNewConnection ? 'yes' : 'no' // eslint-disable-line no-unused-vars // 8. Switch on request’s mode: if (request.mode === 'websocket') { // Let connection be the result of obtaining a WebSocket connection, // given request’s current URL. // TODO } else { // Let connection be the result of obtaining a connection, given // networkPartitionKey, request’s current URL’s origin, // includeCredentials, and forceNewConnection. // TODO } // 9. Run these steps, but abort when the ongoing fetch is terminated: // 1. If connection is failure, then return a network error. // 2. Set timingInfo’s final connection timing info to the result of // calling clamp and coarsen connection timing info with connection’s // timing info, timingInfo’s post-redirect start time, and fetchParams’s // cross-origin isolated capability. // 3. If connection is not an HTTP/2 connection, request’s body is non-null, // and request’s body’s source is null, then append (`Transfer-Encoding`, // `chunked`) to request’s header list. // 4. Set timingInfo’s final network-request start time to the coarsened // shared current time given fetchParams’s cross-origin isolated // capability. // 5. Set response to the result of making an HTTP request over connection // using request with the following caveats: // - Follow the relevant requirements from HTTP. [HTTP] [HTTP-SEMANTICS] // [HTTP-COND] [HTTP-CACHING] [HTTP-AUTH] // - If request’s body is non-null, and request’s body’s source is null, // then the user agent may have a buffer of up to 64 kibibytes and store // a part of request’s body in that buffer. If the user agent reads from // request’s body beyond that buffer’s size and the user agent needs to // resend request, then instead return a network error. // - Set timingInfo’s final network-response start time to the coarsened // shared current time given fetchParams’s cross-origin isolated capability, // immediately after the user agent’s HTTP parser receives the first byte // of the response (e.g., frame header bytes for HTTP/2 or response status // line for HTTP/1.x). // - Wait until all the headers are transmitted. // - Any responses whose status is in the range 100 to 199, inclusive, // and is not 101, are to be ignored, except for the purposes of setting // timingInfo’s final network-response start time above. // - If request’s header list contains `Transfer-Encoding`/`chunked` and // response is transferred via HTTP/1.0 or older, then return a network // error. // - If the HTTP request results in a TLS client certificate dialog, then: // 1. If request’s window is an environment settings object, make the // dialog available in request’s window. // 2. Otherwise, return a network error. // To transmit request’s body body, run these steps: let requestBody = null // 1. If body is null and fetchParams’s process request end-of-body is // non-null, then queue a fetch task given fetchParams’s process request // end-of-body and fetchParams’s task destination. if (request.body == null && fetchParams.processRequestEndOfBody) { queueMicrotask(() => fetchParams.processRequestEndOfBody()) } else if (request.body != null) { // 2. Otherwise, if body is non-null: // 1. Let processBodyChunk given bytes be these steps: const processBodyChunk = async function * (bytes) { // 1. If the ongoing fetch is terminated, then abort these steps. if (isCancelled(fetchParams)) { return } // 2. Run this step in parallel: transmit bytes. yield bytes // 3. If fetchParams’s process request body is non-null, then run // fetchParams’s process request body given bytes’s length. fetchParams.processRequestBodyChunkLength?.(bytes.byteLength) } // 2. Let processEndOfBody be these steps: const processEndOfBody = () => { // 1. If fetchParams is canceled, then abort these steps. if (isCancelled(fetchParams)) { return } // 2. If fetchParams’s process request end-of-body is non-null, // then run fetchParams’s process request end-of-body. if (fetchParams.processRequestEndOfBody) { fetchParams.processRequestEndOfBody() } } // 3. Let processBodyError given e be these steps: const processBodyError = (e) => { // 1. If fetchParams is canceled, then abort these steps. if (isCancelled(fetchParams)) { return } // 2. If e is an "AbortError" DOMException, then abort fetchParams’s controller. if (e.name === 'AbortError') { fetchParams.controller.abort() } else { fetchParams.controller.terminate(e) } } // 4. Incrementally read request’s body given processBodyChunk, processEndOfBody, // processBodyError, and fetchParams’s task destination. requestBody = (async function * () { try { for await (const bytes of request.body.stream) { yield * processBodyChunk(bytes) } processEndOfBody() } catch (err) { processBodyError(err) } })() } try { // socket is only provided for websockets const { body, status, statusText, headersList, socket } = await dispatch({ body: requestBody }) if (socket) { response = makeResponse({ status, statusText, headersList, socket }) } else { const iterator = body[Symbol.asyncIterator]() fetchParams.controller.next = () => iterator.next() response = makeResponse({ status, statusText, headersList }) } } catch (err) { // 10. If aborted, then: if (err.name === 'AbortError') { // 1. If connection uses HTTP/2, then transmit an RST_STREAM frame. fetchParams.controller.connection.destroy() // 2. Return the appropriate network error for fetchParams. return makeAppropriateNetworkError(fetchParams, err) } return makeNetworkError(err) } // 11. Let pullAlgorithm be an action that resumes the ongoing fetch // if it is suspended. const pullAlgorithm = () => { fetchParams.controller.resume() } // 12. Let cancelAlgorithm be an algorithm that aborts fetchParams’s // controller with reason, given reason. const cancelAlgorithm = (reason) => { fetchParams.controller.abort(reason) } // 13. Let highWaterMark be a non-negative, non-NaN number, chosen by // the user agent. // TODO // 14. Let sizeAlgorithm be an algorithm that accepts a chunk object // and returns a non-negative, non-NaN, non-infinite number, chosen by the user agent. // TODO // 15. Let stream be a new ReadableStream. // 16. Set up stream with pullAlgorithm set to pullAlgorithm, // cancelAlgorithm set to cancelAlgorithm, highWaterMark set to // highWaterMark, and sizeAlgorithm set to sizeAlgorithm. if (!ReadableStream) { ReadableStream = (__nccwpck_require__(3774).ReadableStream) } const stream = new ReadableStream( { async start (controller) { fetchParams.controller.controller = controller }, async pull (controller) { await pullAlgorithm(controller) }, async cancel (reason) { await cancelAlgorithm(reason) } }, { highWaterMark: 0, size () { return 1 } } ) // 17. Run these steps, but abort when the ongoing fetch is terminated: // 1. Set response’s body to a new body whose stream is stream. response.body = { stream } // 2. If response is not a network error and request’s cache mode is // not "no-store", then update response in httpCache for request. // TODO // 3. If includeCredentials is true and the user agent is not configured // to block cookies for request (see section 7 of [COOKIES]), then run the // "set-cookie-string" parsing algorithm (see section 5.2 of [COOKIES]) on // the value of each header whose name is a byte-case-insensitive match for // `Set-Cookie` in response’s header list, if any, and request’s current URL. // TODO // 18. If aborted, then: // TODO // 19. Run these steps in parallel: // 1. Run these steps, but abort when fetchParams is canceled: fetchParams.controller.on('terminated', onAborted) fetchParams.controller.resume = async () => { // 1. While true while (true) { // 1-3. See onData... // 4. Set bytes to the result of handling content codings given // codings and bytes. let bytes let isFailure try { const { done, value } = await fetchParams.controller.next() if (isAborted(fetchParams)) { break } bytes = done ? undefined : value } catch (err) { if (fetchParams.controller.ended && !timingInfo.encodedBodySize) { // zlib doesn't like empty streams. bytes = undefined } else { bytes = err // err may be propagated from the result of calling readablestream.cancel, // which might not be an error. https://github.com/nodejs/undici/issues/2009 isFailure = true } } if (bytes === undefined) { // 2. Otherwise, if the bytes transmission for response’s message // body is done normally and stream is readable, then close // stream, finalize response for fetchParams and response, and // abort these in-parallel steps. readableStreamClose(fetchParams.controller.controller) finalizeResponse(fetchParams, response) return } // 5. Increase timingInfo’s decoded body size by bytes’s length. timingInfo.decodedBodySize += bytes?.byteLength ?? 0 // 6. If bytes is failure, then terminate fetchParams’s controller. if (isFailure) { fetchParams.controller.terminate(bytes) return } // 7. Enqueue a Uint8Array wrapping an ArrayBuffer containing bytes // into stream. fetchParams.controller.controller.enqueue(new Uint8Array(bytes)) // 8. If stream is errored, then terminate the ongoing fetch. if (isErrored(stream)) { fetchParams.controller.terminate() return } // 9. If stream doesn’t need more data ask the user agent to suspend // the ongoing fetch. if (!fetchParams.controller.controller.desiredSize) { return } } } // 2. If aborted, then: function onAborted (reason) { // 2. If fetchParams is aborted, then: if (isAborted(fetchParams)) { // 1. Set response’s aborted flag. response.aborted = true // 2. If stream is readable, then error stream with the result of // deserialize a serialized abort reason given fetchParams’s // controller’s serialized abort reason and an // implementation-defined realm. if (isReadable(stream)) { fetchParams.controller.controller.error( fetchParams.controller.serializedAbortReason ) } } else { // 3. Otherwise, if stream is readable, error stream with a TypeError. if (isReadable(stream)) { fetchParams.controller.controller.error(new TypeError('terminated', { cause: isErrorLike(reason) ? reason : undefined })) } } // 4. If connection uses HTTP/2, then transmit an RST_STREAM frame. // 5. Otherwise, the user agent should close connection unless it would be bad for performance to do so. fetchParams.controller.connection.destroy() } // 20. Return response. return response async function dispatch ({ body }) { const url = requestCurrentURL(request) /** @type {import('../..').Agent} */ const agent = fetchParams.controller.dispatcher return new Promise((resolve, reject) => agent.dispatch( { path: url.pathname + url.search, origin: url.origin, method: request.method, body: fetchParams.controller.dispatcher.isMockActive ? request.body && (request.body.source || request.body.stream) : body, headers: request.headersList.entries, maxRedirections: 0, upgrade: request.mode === 'websocket' ? 'websocket' : undefined }, { body: null, abort: null, onConnect (abort) { // TODO (fix): Do we need connection here? const { connection } = fetchParams.controller if (connection.destroyed) { abort(new DOMException('The operation was aborted.', 'AbortError')) } else { fetchParams.controller.on('terminated', abort) this.abort = connection.abort = abort } }, onHeaders (status, headersList, resume, statusText) { if (status < 200) { return } let codings = [] let location = '' const headers = new Headers() // For H2, the headers are a plain JS object // We distinguish between them and iterate accordingly if (Array.isArray(headersList)) { for (let n = 0; n < headersList.length; n += 2) { const key = headersList[n + 0].toString('latin1') const val = headersList[n + 1].toString('latin1') if (key.toLowerCase() === 'content-encoding') { // https://www.rfc-editor.org/rfc/rfc7231#section-3.1.2.1 // "All content-coding values are case-insensitive..." codings = val.toLowerCase().split(',').map((x) => x.trim()) } else if (key.toLowerCase() === 'location') { location = val } headers[kHeadersList].append(key, val) } } else { const keys = Object.keys(headersList) for (const key of keys) { const val = headersList[key] if (key.toLowerCase() === 'content-encoding') { // https://www.rfc-editor.org/rfc/rfc7231#section-3.1.2.1 // "All content-coding values are case-insensitive..." codings = val.toLowerCase().split(',').map((x) => x.trim()).reverse() } else if (key.toLowerCase() === 'location') { location = val } headers[kHeadersList].append(key, val) } } this.body = new Readable({ read: resume }) const decoders = [] const willFollow = request.redirect === 'follow' && location && redirectStatusSet.has(status) // https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Content-Encoding if (request.method !== 'HEAD' && request.method !== 'CONNECT' && !nullBodyStatus.includes(status) && !willFollow) { for (const coding of codings) { // https://www.rfc-editor.org/rfc/rfc9112.html#section-7.2 if (coding === 'x-gzip' || coding === 'gzip') { decoders.push(zlib.createGunzip({ // Be less strict when decoding compressed responses, since sometimes // servers send slightly invalid responses that are still accepted // by common browsers. // Always using Z_SYNC_FLUSH is what cURL does. flush: zlib.constants.Z_SYNC_FLUSH, finishFlush: zlib.constants.Z_SYNC_FLUSH })) } else if (coding === 'deflate') { decoders.push(zlib.createInflate()) } else if (coding === 'br') { decoders.push(zlib.createBrotliDecompress()) } else { decoders.length = 0 break } } } resolve({ status, statusText, headersList: headers[kHeadersList], body: decoders.length ? pipeline(this.body, ...decoders, () => { }) : this.body.on('error', () => {}) }) return true }, onData (chunk) { if (fetchParams.controller.dump) { return } // 1. If one or more bytes have been transmitted from response’s // message body, then: // 1. Let bytes be the transmitted bytes. const bytes = chunk // 2. Let codings be the result of extracting header list values // given `Content-Encoding` and response’s header list. // See pullAlgorithm. // 3. Increase timingInfo’s encoded body size by bytes’s length. timingInfo.encodedBodySize += bytes.byteLength // 4. See pullAlgorithm... return this.body.push(bytes) }, onComplete () { if (this.abort) { fetchParams.controller.off('terminated', this.abort) } fetchParams.controller.ended = true this.body.push(null) }, onError (error) { if (this.abort) { fetchParams.controller.off('terminated', this.abort) } this.body?.destroy(error) fetchParams.controller.terminate(error) reject(error) }, onUpgrade (status, headersList, socket) { if (status !== 101) { return } const headers = new Headers() for (let n = 0; n < headersList.length; n += 2) { const key = headersList[n + 0].toString('latin1') const val = headersList[n + 1].toString('latin1') headers[kHeadersList].append(key, val) } resolve({ status, statusText: STATUS_CODES[status], headersList: headers[kHeadersList], socket }) return true } } )) } } module.exports = { fetch, Fetch, fetching, finalizeAndReportTiming } /***/ }), /***/ 5194: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { /* globals AbortController */ const { extractBody, mixinBody, cloneBody } = __nccwpck_require__(8923) const { Headers, fill: fillHeaders, HeadersList } = __nccwpck_require__(6349) const { FinalizationRegistry } = __nccwpck_require__(3194)() const util = __nccwpck_require__(3440) const { isValidHTTPToken, sameOrigin, normalizeMethod, makePolicyContainer, normalizeMethodRecord } = __nccwpck_require__(5523) const { forbiddenMethodsSet, corsSafeListedMethodsSet, referrerPolicy, requestRedirect, requestMode, requestCredentials, requestCache, requestDuplex } = __nccwpck_require__(7326) const { kEnumerableProperty } = util const { kHeaders, kSignal, kState, kGuard, kRealm } = __nccwpck_require__(9710) const { webidl } = __nccwpck_require__(4222) const { getGlobalOrigin } = __nccwpck_require__(5628) const { URLSerializer } = __nccwpck_require__(4322) const { kHeadersList, kConstruct } = __nccwpck_require__(6443) const assert = __nccwpck_require__(2613) const { getMaxListeners, setMaxListeners, getEventListeners, defaultMaxListeners } = __nccwpck_require__(4434) let TransformStream = globalThis.TransformStream const kAbortController = Symbol('abortController') const requestFinalizer = new FinalizationRegistry(({ signal, abort }) => { signal.removeEventListener('abort', abort) }) // https://fetch.spec.whatwg.org/#request-class class Request { // https://fetch.spec.whatwg.org/#dom-request constructor (input, init = {}) { if (input === kConstruct) { return } webidl.argumentLengthCheck(arguments, 1, { header: 'Request constructor' }) input = webidl.converters.RequestInfo(input) init = webidl.converters.RequestInit(init) // https://html.spec.whatwg.org/multipage/webappapis.html#environment-settings-object this[kRealm] = { settingsObject: { baseUrl: getGlobalOrigin(), get origin () { return this.baseUrl?.origin }, policyContainer: makePolicyContainer() } } // 1. Let request be null. let request = null // 2. Let fallbackMode be null. let fallbackMode = null // 3. Let baseURL be this’s relevant settings object’s API base URL. const baseUrl = this[kRealm].settingsObject.baseUrl // 4. Let signal be null. let signal = null // 5. If input is a string, then: if (typeof input === 'string') { // 1. Let parsedURL be the result of parsing input with baseURL. // 2. If parsedURL is failure, then throw a TypeError. let parsedURL try { parsedURL = new URL(input, baseUrl) } catch (err) { throw new TypeError('Failed to parse URL from ' + input, { cause: err }) } // 3. If parsedURL includes credentials, then throw a TypeError. if (parsedURL.username || parsedURL.password) { throw new TypeError( 'Request cannot be constructed from a URL that includes credentials: ' + input ) } // 4. Set request to a new request whose URL is parsedURL. request = makeRequest({ urlList: [parsedURL] }) // 5. Set fallbackMode to "cors". fallbackMode = 'cors' } else { // 6. Otherwise: // 7. Assert: input is a Request object. assert(input instanceof Request) // 8. Set request to input’s request. request = input[kState] // 9. Set signal to input’s signal. signal = input[kSignal] } // 7. Let origin be this’s relevant settings object’s origin. const origin = this[kRealm].settingsObject.origin // 8. Let window be "client". let window = 'client' // 9. If request’s window is an environment settings object and its origin // is same origin with origin, then set window to request’s window. if ( request.window?.constructor?.name === 'EnvironmentSettingsObject' && sameOrigin(request.window, origin) ) { window = request.window } // 10. If init["window"] exists and is non-null, then throw a TypeError. if (init.window != null) { throw new TypeError(`'window' option '${window}' must be null`) } // 11. If init["window"] exists, then set window to "no-window". if ('window' in init) { window = 'no-window' } // 12. Set request to a new request with the following properties: request = makeRequest({ // URL request’s URL. // undici implementation note: this is set as the first item in request's urlList in makeRequest // method request’s method. method: request.method, // header list A copy of request’s header list. // undici implementation note: headersList is cloned in makeRequest headersList: request.headersList, // unsafe-request flag Set. unsafeRequest: request.unsafeRequest, // client This’s relevant settings object. client: this[kRealm].settingsObject, // window window. window, // priority request’s priority. priority: request.priority, // origin request’s origin. The propagation of the origin is only significant for navigation requests // being handled by a service worker. In this scenario a request can have an origin that is different // from the current client. origin: request.origin, // referrer request’s referrer. referrer: request.referrer, // referrer policy request’s referrer policy. referrerPolicy: request.referrerPolicy, // mode request’s mode. mode: request.mode, // credentials mode request’s credentials mode. credentials: request.credentials, // cache mode request’s cache mode. cache: request.cache, // redirect mode request’s redirect mode. redirect: request.redirect, // integrity metadata request’s integrity metadata. integrity: request.integrity, // keepalive request’s keepalive. keepalive: request.keepalive, // reload-navigation flag request’s reload-navigation flag. reloadNavigation: request.reloadNavigation, // history-navigation flag request’s history-navigation flag. historyNavigation: request.historyNavigation, // URL list A clone of request’s URL list. urlList: [...request.urlList] }) const initHasKey = Object.keys(init).length !== 0 // 13. If init is not empty, then: if (initHasKey) { // 1. If request’s mode is "navigate", then set it to "same-origin". if (request.mode === 'navigate') { request.mode = 'same-origin' } // 2. Unset request’s reload-navigation flag. request.reloadNavigation = false // 3. Unset request’s history-navigation flag. request.historyNavigation = false // 4. Set request’s origin to "client". request.origin = 'client' // 5. Set request’s referrer to "client" request.referrer = 'client' // 6. Set request’s referrer policy to the empty string. request.referrerPolicy = '' // 7. Set request’s URL to request’s current URL. request.url = request.urlList[request.urlList.length - 1] // 8. Set request’s URL list to « request’s URL ». request.urlList = [request.url] } // 14. If init["referrer"] exists, then: if (init.referrer !== undefined) { // 1. Let referrer be init["referrer"]. const referrer = init.referrer // 2. If referrer is the empty string, then set request’s referrer to "no-referrer". if (referrer === '') { request.referrer = 'no-referrer' } else { // 1. Let parsedReferrer be the result of parsing referrer with // baseURL. // 2. If parsedReferrer is failure, then throw a TypeError. let parsedReferrer try { parsedReferrer = new URL(referrer, baseUrl) } catch (err) { throw new TypeError(`Referrer "${referrer}" is not a valid URL.`, { cause: err }) } // 3. If one of the following is true // - parsedReferrer’s scheme is "about" and path is the string "client" // - parsedReferrer’s origin is not same origin with origin // then set request’s referrer to "client". if ( (parsedReferrer.protocol === 'about:' && parsedReferrer.hostname === 'client') || (origin && !sameOrigin(parsedReferrer, this[kRealm].settingsObject.baseUrl)) ) { request.referrer = 'client' } else { // 4. Otherwise, set request’s referrer to parsedReferrer. request.referrer = parsedReferrer } } } // 15. If init["referrerPolicy"] exists, then set request’s referrer policy // to it. if (init.referrerPolicy !== undefined) { request.referrerPolicy = init.referrerPolicy } // 16. Let mode be init["mode"] if it exists, and fallbackMode otherwise. let mode if (init.mode !== undefined) { mode = init.mode } else { mode = fallbackMode } // 17. If mode is "navigate", then throw a TypeError. if (mode === 'navigate') { throw webidl.errors.exception({ header: 'Request constructor', message: 'invalid request mode navigate.' }) } // 18. If mode is non-null, set request’s mode to mode. if (mode != null) { request.mode = mode } // 19. If init["credentials"] exists, then set request’s credentials mode // to it. if (init.credentials !== undefined) { request.credentials = init.credentials } // 18. If init["cache"] exists, then set request’s cache mode to it. if (init.cache !== undefined) { request.cache = init.cache } // 21. If request’s cache mode is "only-if-cached" and request’s mode is // not "same-origin", then throw a TypeError. if (request.cache === 'only-if-cached' && request.mode !== 'same-origin') { throw new TypeError( "'only-if-cached' can be set only with 'same-origin' mode" ) } // 22. If init["redirect"] exists, then set request’s redirect mode to it. if (init.redirect !== undefined) { request.redirect = init.redirect } // 23. If init["integrity"] exists, then set request’s integrity metadata to it. if (init.integrity != null) { request.integrity = String(init.integrity) } // 24. If init["keepalive"] exists, then set request’s keepalive to it. if (init.keepalive !== undefined) { request.keepalive = Boolean(init.keepalive) } // 25. If init["method"] exists, then: if (init.method !== undefined) { // 1. Let method be init["method"]. let method = init.method // 2. If method is not a method or method is a forbidden method, then // throw a TypeError. if (!isValidHTTPToken(method)) { throw new TypeError(`'${method}' is not a valid HTTP method.`) } if (forbiddenMethodsSet.has(method.toUpperCase())) { throw new TypeError(`'${method}' HTTP method is unsupported.`) } // 3. Normalize method. method = normalizeMethodRecord[method] ?? normalizeMethod(method) // 4. Set request’s method to method. request.method = method } // 26. If init["signal"] exists, then set signal to it. if (init.signal !== undefined) { signal = init.signal } // 27. Set this’s request to request. this[kState] = request // 28. Set this’s signal to a new AbortSignal object with this’s relevant // Realm. // TODO: could this be simplified with AbortSignal.any // (https://dom.spec.whatwg.org/#dom-abortsignal-any) const ac = new AbortController() this[kSignal] = ac.signal this[kSignal][kRealm] = this[kRealm] // 29. If signal is not null, then make this’s signal follow signal. if (signal != null) { if ( !signal || typeof signal.aborted !== 'boolean' || typeof signal.addEventListener !== 'function' ) { throw new TypeError( "Failed to construct 'Request': member signal is not of type AbortSignal." ) } if (signal.aborted) { ac.abort(signal.reason) } else { // Keep a strong ref to ac while request object // is alive. This is needed to prevent AbortController // from being prematurely garbage collected. // See, https://github.com/nodejs/undici/issues/1926. this[kAbortController] = ac const acRef = new WeakRef(ac) const abort = function () { const ac = acRef.deref() if (ac !== undefined) { ac.abort(this.reason) } } // Third-party AbortControllers may not work with these. // See, https://github.com/nodejs/undici/pull/1910#issuecomment-1464495619. try { // If the max amount of listeners is equal to the default, increase it // This is only available in node >= v19.9.0 if (typeof getMaxListeners === 'function' && getMaxListeners(signal) === defaultMaxListeners) { setMaxListeners(100, signal) } else if (getEventListeners(signal, 'abort').length >= defaultMaxListeners) { setMaxListeners(100, signal) } } catch {} util.addAbortListener(signal, abort) requestFinalizer.register(ac, { signal, abort }) } } // 30. Set this’s headers to a new Headers object with this’s relevant // Realm, whose header list is request’s header list and guard is // "request". this[kHeaders] = new Headers(kConstruct) this[kHeaders][kHeadersList] = request.headersList this[kHeaders][kGuard] = 'request' this[kHeaders][kRealm] = this[kRealm] // 31. If this’s request’s mode is "no-cors", then: if (mode === 'no-cors') { // 1. If this’s request’s method is not a CORS-safelisted method, // then throw a TypeError. if (!corsSafeListedMethodsSet.has(request.method)) { throw new TypeError( `'${request.method} is unsupported in no-cors mode.` ) } // 2. Set this’s headers’s guard to "request-no-cors". this[kHeaders][kGuard] = 'request-no-cors' } // 32. If init is not empty, then: if (initHasKey) { /** @type {HeadersList} */ const headersList = this[kHeaders][kHeadersList] // 1. Let headers be a copy of this’s headers and its associated header // list. // 2. If init["headers"] exists, then set headers to init["headers"]. const headers = init.headers !== undefined ? init.headers : new HeadersList(headersList) // 3. Empty this’s headers’s header list. headersList.clear() // 4. If headers is a Headers object, then for each header in its header // list, append header’s name/header’s value to this’s headers. if (headers instanceof HeadersList) { for (const [key, val] of headers) { headersList.append(key, val) } // Note: Copy the `set-cookie` meta-data. headersList.cookies = headers.cookies } else { // 5. Otherwise, fill this’s headers with headers. fillHeaders(this[kHeaders], headers) } } // 33. Let inputBody be input’s request’s body if input is a Request // object; otherwise null. const inputBody = input instanceof Request ? input[kState].body : null // 34. If either init["body"] exists and is non-null or inputBody is // non-null, and request’s method is `GET` or `HEAD`, then throw a // TypeError. if ( (init.body != null || inputBody != null) && (request.method === 'GET' || request.method === 'HEAD') ) { throw new TypeError('Request with GET/HEAD method cannot have body.') } // 35. Let initBody be null. let initBody = null // 36. If init["body"] exists and is non-null, then: if (init.body != null) { // 1. Let Content-Type be null. // 2. Set initBody and Content-Type to the result of extracting // init["body"], with keepalive set to request’s keepalive. const [extractedBody, contentType] = extractBody( init.body, request.keepalive ) initBody = extractedBody // 3, If Content-Type is non-null and this’s headers’s header list does // not contain `Content-Type`, then append `Content-Type`/Content-Type to // this’s headers. if (contentType && !this[kHeaders][kHeadersList].contains('content-type')) { this[kHeaders].append('content-type', contentType) } } // 37. Let inputOrInitBody be initBody if it is non-null; otherwise // inputBody. const inputOrInitBody = initBody ?? inputBody // 38. If inputOrInitBody is non-null and inputOrInitBody’s source is // null, then: if (inputOrInitBody != null && inputOrInitBody.source == null) { // 1. If initBody is non-null and init["duplex"] does not exist, // then throw a TypeError. if (initBody != null && init.duplex == null) { throw new TypeError('RequestInit: duplex option is required when sending a body.') } // 2. If this’s request’s mode is neither "same-origin" nor "cors", // then throw a TypeError. if (request.mode !== 'same-origin' && request.mode !== 'cors') { throw new TypeError( 'If request is made from ReadableStream, mode should be "same-origin" or "cors"' ) } // 3. Set this’s request’s use-CORS-preflight flag. request.useCORSPreflightFlag = true } // 39. Let finalBody be inputOrInitBody. let finalBody = inputOrInitBody // 40. If initBody is null and inputBody is non-null, then: if (initBody == null && inputBody != null) { // 1. If input is unusable, then throw a TypeError. if (util.isDisturbed(inputBody.stream) || inputBody.stream.locked) { throw new TypeError( 'Cannot construct a Request with a Request object that has already been used.' ) } // 2. Set finalBody to the result of creating a proxy for inputBody. if (!TransformStream) { TransformStream = (__nccwpck_require__(3774).TransformStream) } // https://streams.spec.whatwg.org/#readablestream-create-a-proxy const identityTransform = new TransformStream() inputBody.stream.pipeThrough(identityTransform) finalBody = { source: inputBody.source, length: inputBody.length, stream: identityTransform.readable } } // 41. Set this’s request’s body to finalBody. this[kState].body = finalBody } // Returns request’s HTTP method, which is "GET" by default. get method () { webidl.brandCheck(this, Request) // The method getter steps are to return this’s request’s method. return this[kState].method } // Returns the URL of request as a string. get url () { webidl.brandCheck(this, Request) // The url getter steps are to return this’s request’s URL, serialized. return URLSerializer(this[kState].url) } // Returns a Headers object consisting of the headers associated with request. // Note that headers added in the network layer by the user agent will not // be accounted for in this object, e.g., the "Host" header. get headers () { webidl.brandCheck(this, Request) // The headers getter steps are to return this’s headers. return this[kHeaders] } // Returns the kind of resource requested by request, e.g., "document" // or "script". get destination () { webidl.brandCheck(this, Request) // The destination getter are to return this’s request’s destination. return this[kState].destination } // Returns the referrer of request. Its value can be a same-origin URL if // explicitly set in init, the empty string to indicate no referrer, and // "about:client" when defaulting to the global’s default. This is used // during fetching to determine the value of the `Referer` header of the // request being made. get referrer () { webidl.brandCheck(this, Request) // 1. If this’s request’s referrer is "no-referrer", then return the // empty string. if (this[kState].referrer === 'no-referrer') { return '' } // 2. If this’s request’s referrer is "client", then return // "about:client". if (this[kState].referrer === 'client') { return 'about:client' } // Return this’s request’s referrer, serialized. return this[kState].referrer.toString() } // Returns the referrer policy associated with request. // This is used during fetching to compute the value of the request’s // referrer. get referrerPolicy () { webidl.brandCheck(this, Request) // The referrerPolicy getter steps are to return this’s request’s referrer policy. return this[kState].referrerPolicy } // Returns the mode associated with request, which is a string indicating // whether the request will use CORS, or will be restricted to same-origin // URLs. get mode () { webidl.brandCheck(this, Request) // The mode getter steps are to return this’s request’s mode. return this[kState].mode } // Returns the credentials mode associated with request, // which is a string indicating whether credentials will be sent with the // request always, never, or only when sent to a same-origin URL. get credentials () { // The credentials getter steps are to return this’s request’s credentials mode. return this[kState].credentials } // Returns the cache mode associated with request, // which is a string indicating how the request will // interact with the browser’s cache when fetching. get cache () { webidl.brandCheck(this, Request) // The cache getter steps are to return this’s request’s cache mode. return this[kState].cache } // Returns the redirect mode associated with request, // which is a string indicating how redirects for the // request will be handled during fetching. A request // will follow redirects by default. get redirect () { webidl.brandCheck(this, Request) // The redirect getter steps are to return this’s request’s redirect mode. return this[kState].redirect } // Returns request’s subresource integrity metadata, which is a // cryptographic hash of the resource being fetched. Its value // consists of multiple hashes separated by whitespace. [SRI] get integrity () { webidl.brandCheck(this, Request) // The integrity getter steps are to return this’s request’s integrity // metadata. return this[kState].integrity } // Returns a boolean indicating whether or not request can outlive the // global in which it was created. get keepalive () { webidl.brandCheck(this, Request) // The keepalive getter steps are to return this’s request’s keepalive. return this[kState].keepalive } // Returns a boolean indicating whether or not request is for a reload // navigation. get isReloadNavigation () { webidl.brandCheck(this, Request) // The isReloadNavigation getter steps are to return true if this’s // request’s reload-navigation flag is set; otherwise false. return this[kState].reloadNavigation } // Returns a boolean indicating whether or not request is for a history // navigation (a.k.a. back-foward navigation). get isHistoryNavigation () { webidl.brandCheck(this, Request) // The isHistoryNavigation getter steps are to return true if this’s request’s // history-navigation flag is set; otherwise false. return this[kState].historyNavigation } // Returns the signal associated with request, which is an AbortSignal // object indicating whether or not request has been aborted, and its // abort event handler. get signal () { webidl.brandCheck(this, Request) // The signal getter steps are to return this’s signal. return this[kSignal] } get body () { webidl.brandCheck(this, Request) return this[kState].body ? this[kState].body.stream : null } get bodyUsed () { webidl.brandCheck(this, Request) return !!this[kState].body && util.isDisturbed(this[kState].body.stream) } get duplex () { webidl.brandCheck(this, Request) return 'half' } // Returns a clone of request. clone () { webidl.brandCheck(this, Request) // 1. If this is unusable, then throw a TypeError. if (this.bodyUsed || this.body?.locked) { throw new TypeError('unusable') } // 2. Let clonedRequest be the result of cloning this’s request. const clonedRequest = cloneRequest(this[kState]) // 3. Let clonedRequestObject be the result of creating a Request object, // given clonedRequest, this’s headers’s guard, and this’s relevant Realm. const clonedRequestObject = new Request(kConstruct) clonedRequestObject[kState] = clonedRequest clonedRequestObject[kRealm] = this[kRealm] clonedRequestObject[kHeaders] = new Headers(kConstruct) clonedRequestObject[kHeaders][kHeadersList] = clonedRequest.headersList clonedRequestObject[kHeaders][kGuard] = this[kHeaders][kGuard] clonedRequestObject[kHeaders][kRealm] = this[kHeaders][kRealm] // 4. Make clonedRequestObject’s signal follow this’s signal. const ac = new AbortController() if (this.signal.aborted) { ac.abort(this.signal.reason) } else { util.addAbortListener( this.signal, () => { ac.abort(this.signal.reason) } ) } clonedRequestObject[kSignal] = ac.signal // 4. Return clonedRequestObject. return clonedRequestObject } } mixinBody(Request) function makeRequest (init) { // https://fetch.spec.whatwg.org/#requests const request = { method: 'GET', localURLsOnly: false, unsafeRequest: false, body: null, client: null, reservedClient: null, replacesClientId: '', window: 'client', keepalive: false, serviceWorkers: 'all', initiator: '', destination: '', priority: null, origin: 'client', policyContainer: 'client', referrer: 'client', referrerPolicy: '', mode: 'no-cors', useCORSPreflightFlag: false, credentials: 'same-origin', useCredentials: false, cache: 'default', redirect: 'follow', integrity: '', cryptoGraphicsNonceMetadata: '', parserMetadata: '', reloadNavigation: false, historyNavigation: false, userActivation: false, taintedOrigin: false, redirectCount: 0, responseTainting: 'basic', preventNoCacheCacheControlHeaderModification: false, done: false, timingAllowFailed: false, ...init, headersList: init.headersList ? new HeadersList(init.headersList) : new HeadersList() } request.url = request.urlList[0] return request } // https://fetch.spec.whatwg.org/#concept-request-clone function cloneRequest (request) { // To clone a request request, run these steps: // 1. Let newRequest be a copy of request, except for its body. const newRequest = makeRequest({ ...request, body: null }) // 2. If request’s body is non-null, set newRequest’s body to the // result of cloning request’s body. if (request.body != null) { newRequest.body = cloneBody(request.body) } // 3. Return newRequest. return newRequest } Object.defineProperties(Request.prototype, { method: kEnumerableProperty, url: kEnumerableProperty, headers: kEnumerableProperty, redirect: kEnumerableProperty, clone: kEnumerableProperty, signal: kEnumerableProperty, duplex: kEnumerableProperty, destination: kEnumerableProperty, body: kEnumerableProperty, bodyUsed: kEnumerableProperty, isHistoryNavigation: kEnumerableProperty, isReloadNavigation: kEnumerableProperty, keepalive: kEnumerableProperty, integrity: kEnumerableProperty, cache: kEnumerableProperty, credentials: kEnumerableProperty, attribute: kEnumerableProperty, referrerPolicy: kEnumerableProperty, referrer: kEnumerableProperty, mode: kEnumerableProperty, [Symbol.toStringTag]: { value: 'Request', configurable: true } }) webidl.converters.Request = webidl.interfaceConverter( Request ) // https://fetch.spec.whatwg.org/#requestinfo webidl.converters.RequestInfo = function (V) { if (typeof V === 'string') { return webidl.converters.USVString(V) } if (V instanceof Request) { return webidl.converters.Request(V) } return webidl.converters.USVString(V) } webidl.converters.AbortSignal = webidl.interfaceConverter( AbortSignal ) // https://fetch.spec.whatwg.org/#requestinit webidl.converters.RequestInit = webidl.dictionaryConverter([ { key: 'method', converter: webidl.converters.ByteString }, { key: 'headers', converter: webidl.converters.HeadersInit }, { key: 'body', converter: webidl.nullableConverter( webidl.converters.BodyInit ) }, { key: 'referrer', converter: webidl.converters.USVString }, { key: 'referrerPolicy', converter: webidl.converters.DOMString, // https://w3c.github.io/webappsec-referrer-policy/#referrer-policy allowedValues: referrerPolicy }, { key: 'mode', converter: webidl.converters.DOMString, // https://fetch.spec.whatwg.org/#concept-request-mode allowedValues: requestMode }, { key: 'credentials', converter: webidl.converters.DOMString, // https://fetch.spec.whatwg.org/#requestcredentials allowedValues: requestCredentials }, { key: 'cache', converter: webidl.converters.DOMString, // https://fetch.spec.whatwg.org/#requestcache allowedValues: requestCache }, { key: 'redirect', converter: webidl.converters.DOMString, // https://fetch.spec.whatwg.org/#requestredirect allowedValues: requestRedirect }, { key: 'integrity', converter: webidl.converters.DOMString }, { key: 'keepalive', converter: webidl.converters.boolean }, { key: 'signal', converter: webidl.nullableConverter( (signal) => webidl.converters.AbortSignal( signal, { strict: false } ) ) }, { key: 'window', converter: webidl.converters.any }, { key: 'duplex', converter: webidl.converters.DOMString, allowedValues: requestDuplex } ]) module.exports = { Request, makeRequest } /***/ }), /***/ 8676: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { Headers, HeadersList, fill } = __nccwpck_require__(6349) const { extractBody, cloneBody, mixinBody } = __nccwpck_require__(8923) const util = __nccwpck_require__(3440) const { kEnumerableProperty } = util const { isValidReasonPhrase, isCancelled, isAborted, isBlobLike, serializeJavascriptValueToJSONString, isErrorLike, isomorphicEncode } = __nccwpck_require__(5523) const { redirectStatusSet, nullBodyStatus, DOMException } = __nccwpck_require__(7326) const { kState, kHeaders, kGuard, kRealm } = __nccwpck_require__(9710) const { webidl } = __nccwpck_require__(4222) const { FormData } = __nccwpck_require__(3073) const { getGlobalOrigin } = __nccwpck_require__(5628) const { URLSerializer } = __nccwpck_require__(4322) const { kHeadersList, kConstruct } = __nccwpck_require__(6443) const assert = __nccwpck_require__(2613) const { types } = __nccwpck_require__(9023) const ReadableStream = globalThis.ReadableStream || (__nccwpck_require__(3774).ReadableStream) const textEncoder = new TextEncoder('utf-8') // https://fetch.spec.whatwg.org/#response-class class Response { // Creates network error Response. static error () { // TODO const relevantRealm = { settingsObject: {} } // The static error() method steps are to return the result of creating a // Response object, given a new network error, "immutable", and this’s // relevant Realm. const responseObject = new Response() responseObject[kState] = makeNetworkError() responseObject[kRealm] = relevantRealm responseObject[kHeaders][kHeadersList] = responseObject[kState].headersList responseObject[kHeaders][kGuard] = 'immutable' responseObject[kHeaders][kRealm] = relevantRealm return responseObject } // https://fetch.spec.whatwg.org/#dom-response-json static json (data, init = {}) { webidl.argumentLengthCheck(arguments, 1, { header: 'Response.json' }) if (init !== null) { init = webidl.converters.ResponseInit(init) } // 1. Let bytes the result of running serialize a JavaScript value to JSON bytes on data. const bytes = textEncoder.encode( serializeJavascriptValueToJSONString(data) ) // 2. Let body be the result of extracting bytes. const body = extractBody(bytes) // 3. Let responseObject be the result of creating a Response object, given a new response, // "response", and this’s relevant Realm. const relevantRealm = { settingsObject: {} } const responseObject = new Response() responseObject[kRealm] = relevantRealm responseObject[kHeaders][kGuard] = 'response' responseObject[kHeaders][kRealm] = relevantRealm // 4. Perform initialize a response given responseObject, init, and (body, "application/json"). initializeResponse(responseObject, init, { body: body[0], type: 'application/json' }) // 5. Return responseObject. return responseObject } // Creates a redirect Response that redirects to url with status status. static redirect (url, status = 302) { const relevantRealm = { settingsObject: {} } webidl.argumentLengthCheck(arguments, 1, { header: 'Response.redirect' }) url = webidl.converters.USVString(url) status = webidl.converters['unsigned short'](status) // 1. Let parsedURL be the result of parsing url with current settings // object’s API base URL. // 2. If parsedURL is failure, then throw a TypeError. // TODO: base-URL? let parsedURL try { parsedURL = new URL(url, getGlobalOrigin()) } catch (err) { throw Object.assign(new TypeError('Failed to parse URL from ' + url), { cause: err }) } // 3. If status is not a redirect status, then throw a RangeError. if (!redirectStatusSet.has(status)) { throw new RangeError('Invalid status code ' + status) } // 4. Let responseObject be the result of creating a Response object, // given a new response, "immutable", and this’s relevant Realm. const responseObject = new Response() responseObject[kRealm] = relevantRealm responseObject[kHeaders][kGuard] = 'immutable' responseObject[kHeaders][kRealm] = relevantRealm // 5. Set responseObject’s response’s status to status. responseObject[kState].status = status // 6. Let value be parsedURL, serialized and isomorphic encoded. const value = isomorphicEncode(URLSerializer(parsedURL)) // 7. Append `Location`/value to responseObject’s response’s header list. responseObject[kState].headersList.append('location', value) // 8. Return responseObject. return responseObject } // https://fetch.spec.whatwg.org/#dom-response constructor (body = null, init = {}) { if (body !== null) { body = webidl.converters.BodyInit(body) } init = webidl.converters.ResponseInit(init) // TODO this[kRealm] = { settingsObject: {} } // 1. Set this’s response to a new response. this[kState] = makeResponse({}) // 2. Set this’s headers to a new Headers object with this’s relevant // Realm, whose header list is this’s response’s header list and guard // is "response". this[kHeaders] = new Headers(kConstruct) this[kHeaders][kGuard] = 'response' this[kHeaders][kHeadersList] = this[kState].headersList this[kHeaders][kRealm] = this[kRealm] // 3. Let bodyWithType be null. let bodyWithType = null // 4. If body is non-null, then set bodyWithType to the result of extracting body. if (body != null) { const [extractedBody, type] = extractBody(body) bodyWithType = { body: extractedBody, type } } // 5. Perform initialize a response given this, init, and bodyWithType. initializeResponse(this, init, bodyWithType) } // Returns response’s type, e.g., "cors". get type () { webidl.brandCheck(this, Response) // The type getter steps are to return this’s response’s type. return this[kState].type } // Returns response’s URL, if it has one; otherwise the empty string. get url () { webidl.brandCheck(this, Response) const urlList = this[kState].urlList // The url getter steps are to return the empty string if this’s // response’s URL is null; otherwise this’s response’s URL, // serialized with exclude fragment set to true. const url = urlList[urlList.length - 1] ?? null if (url === null) { return '' } return URLSerializer(url, true) } // Returns whether response was obtained through a redirect. get redirected () { webidl.brandCheck(this, Response) // The redirected getter steps are to return true if this’s response’s URL // list has more than one item; otherwise false. return this[kState].urlList.length > 1 } // Returns response’s status. get status () { webidl.brandCheck(this, Response) // The status getter steps are to return this’s response’s status. return this[kState].status } // Returns whether response’s status is an ok status. get ok () { webidl.brandCheck(this, Response) // The ok getter steps are to return true if this’s response’s status is an // ok status; otherwise false. return this[kState].status >= 200 && this[kState].status <= 299 } // Returns response’s status message. get statusText () { webidl.brandCheck(this, Response) // The statusText getter steps are to return this’s response’s status // message. return this[kState].statusText } // Returns response’s headers as Headers. get headers () { webidl.brandCheck(this, Response) // The headers getter steps are to return this’s headers. return this[kHeaders] } get body () { webidl.brandCheck(this, Response) return this[kState].body ? this[kState].body.stream : null } get bodyUsed () { webidl.brandCheck(this, Response) return !!this[kState].body && util.isDisturbed(this[kState].body.stream) } // Returns a clone of response. clone () { webidl.brandCheck(this, Response) // 1. If this is unusable, then throw a TypeError. if (this.bodyUsed || (this.body && this.body.locked)) { throw webidl.errors.exception({ header: 'Response.clone', message: 'Body has already been consumed.' }) } // 2. Let clonedResponse be the result of cloning this’s response. const clonedResponse = cloneResponse(this[kState]) // 3. Return the result of creating a Response object, given // clonedResponse, this’s headers’s guard, and this’s relevant Realm. const clonedResponseObject = new Response() clonedResponseObject[kState] = clonedResponse clonedResponseObject[kRealm] = this[kRealm] clonedResponseObject[kHeaders][kHeadersList] = clonedResponse.headersList clonedResponseObject[kHeaders][kGuard] = this[kHeaders][kGuard] clonedResponseObject[kHeaders][kRealm] = this[kHeaders][kRealm] return clonedResponseObject } } mixinBody(Response) Object.defineProperties(Response.prototype, { type: kEnumerableProperty, url: kEnumerableProperty, status: kEnumerableProperty, ok: kEnumerableProperty, redirected: kEnumerableProperty, statusText: kEnumerableProperty, headers: kEnumerableProperty, clone: kEnumerableProperty, body: kEnumerableProperty, bodyUsed: kEnumerableProperty, [Symbol.toStringTag]: { value: 'Response', configurable: true } }) Object.defineProperties(Response, { json: kEnumerableProperty, redirect: kEnumerableProperty, error: kEnumerableProperty }) // https://fetch.spec.whatwg.org/#concept-response-clone function cloneResponse (response) { // To clone a response response, run these steps: // 1. If response is a filtered response, then return a new identical // filtered response whose internal response is a clone of response’s // internal response. if (response.internalResponse) { return filterResponse( cloneResponse(response.internalResponse), response.type ) } // 2. Let newResponse be a copy of response, except for its body. const newResponse = makeResponse({ ...response, body: null }) // 3. If response’s body is non-null, then set newResponse’s body to the // result of cloning response’s body. if (response.body != null) { newResponse.body = cloneBody(response.body) } // 4. Return newResponse. return newResponse } function makeResponse (init) { return { aborted: false, rangeRequested: false, timingAllowPassed: false, requestIncludesCredentials: false, type: 'default', status: 200, timingInfo: null, cacheState: '', statusText: '', ...init, headersList: init.headersList ? new HeadersList(init.headersList) : new HeadersList(), urlList: init.urlList ? [...init.urlList] : [] } } function makeNetworkError (reason) { const isError = isErrorLike(reason) return makeResponse({ type: 'error', status: 0, error: isError ? reason : new Error(reason ? String(reason) : reason), aborted: reason && reason.name === 'AbortError' }) } function makeFilteredResponse (response, state) { state = { internalResponse: response, ...state } return new Proxy(response, { get (target, p) { return p in state ? state[p] : target[p] }, set (target, p, value) { assert(!(p in state)) target[p] = value return true } }) } // https://fetch.spec.whatwg.org/#concept-filtered-response function filterResponse (response, type) { // Set response to the following filtered response with response as its // internal response, depending on request’s response tainting: if (type === 'basic') { // A basic filtered response is a filtered response whose type is "basic" // and header list excludes any headers in internal response’s header list // whose name is a forbidden response-header name. // Note: undici does not implement forbidden response-header names return makeFilteredResponse(response, { type: 'basic', headersList: response.headersList }) } else if (type === 'cors') { // A CORS filtered response is a filtered response whose type is "cors" // and header list excludes any headers in internal response’s header // list whose name is not a CORS-safelisted response-header name, given // internal response’s CORS-exposed header-name list. // Note: undici does not implement CORS-safelisted response-header names return makeFilteredResponse(response, { type: 'cors', headersList: response.headersList }) } else if (type === 'opaque') { // An opaque filtered response is a filtered response whose type is // "opaque", URL list is the empty list, status is 0, status message // is the empty byte sequence, header list is empty, and body is null. return makeFilteredResponse(response, { type: 'opaque', urlList: Object.freeze([]), status: 0, statusText: '', body: null }) } else if (type === 'opaqueredirect') { // An opaque-redirect filtered response is a filtered response whose type // is "opaqueredirect", status is 0, status message is the empty byte // sequence, header list is empty, and body is null. return makeFilteredResponse(response, { type: 'opaqueredirect', status: 0, statusText: '', headersList: [], body: null }) } else { assert(false) } } // https://fetch.spec.whatwg.org/#appropriate-network-error function makeAppropriateNetworkError (fetchParams, err = null) { // 1. Assert: fetchParams is canceled. assert(isCancelled(fetchParams)) // 2. Return an aborted network error if fetchParams is aborted; // otherwise return a network error. return isAborted(fetchParams) ? makeNetworkError(Object.assign(new DOMException('The operation was aborted.', 'AbortError'), { cause: err })) : makeNetworkError(Object.assign(new DOMException('Request was cancelled.'), { cause: err })) } // https://whatpr.org/fetch/1392.html#initialize-a-response function initializeResponse (response, init, body) { // 1. If init["status"] is not in the range 200 to 599, inclusive, then // throw a RangeError. if (init.status !== null && (init.status < 200 || init.status > 599)) { throw new RangeError('init["status"] must be in the range of 200 to 599, inclusive.') } // 2. If init["statusText"] does not match the reason-phrase token production, // then throw a TypeError. if ('statusText' in init && init.statusText != null) { // See, https://datatracker.ietf.org/doc/html/rfc7230#section-3.1.2: // reason-phrase = *( HTAB / SP / VCHAR / obs-text ) if (!isValidReasonPhrase(String(init.statusText))) { throw new TypeError('Invalid statusText') } } // 3. Set response’s response’s status to init["status"]. if ('status' in init && init.status != null) { response[kState].status = init.status } // 4. Set response’s response’s status message to init["statusText"]. if ('statusText' in init && init.statusText != null) { response[kState].statusText = init.statusText } // 5. If init["headers"] exists, then fill response’s headers with init["headers"]. if ('headers' in init && init.headers != null) { fill(response[kHeaders], init.headers) } // 6. If body was given, then: if (body) { // 1. If response's status is a null body status, then throw a TypeError. if (nullBodyStatus.includes(response.status)) { throw webidl.errors.exception({ header: 'Response constructor', message: 'Invalid response status code ' + response.status }) } // 2. Set response's body to body's body. response[kState].body = body.body // 3. If body's type is non-null and response's header list does not contain // `Content-Type`, then append (`Content-Type`, body's type) to response's header list. if (body.type != null && !response[kState].headersList.contains('Content-Type')) { response[kState].headersList.append('content-type', body.type) } } } webidl.converters.ReadableStream = webidl.interfaceConverter( ReadableStream ) webidl.converters.FormData = webidl.interfaceConverter( FormData ) webidl.converters.URLSearchParams = webidl.interfaceConverter( URLSearchParams ) // https://fetch.spec.whatwg.org/#typedefdef-xmlhttprequestbodyinit webidl.converters.XMLHttpRequestBodyInit = function (V) { if (typeof V === 'string') { return webidl.converters.USVString(V) } if (isBlobLike(V)) { return webidl.converters.Blob(V, { strict: false }) } if (types.isArrayBuffer(V) || types.isTypedArray(V) || types.isDataView(V)) { return webidl.converters.BufferSource(V) } if (util.isFormDataLike(V)) { return webidl.converters.FormData(V, { strict: false }) } if (V instanceof URLSearchParams) { return webidl.converters.URLSearchParams(V) } return webidl.converters.DOMString(V) } // https://fetch.spec.whatwg.org/#bodyinit webidl.converters.BodyInit = function (V) { if (V instanceof ReadableStream) { return webidl.converters.ReadableStream(V) } // Note: the spec doesn't include async iterables, // this is an undici extension. if (V?.[Symbol.asyncIterator]) { return V } return webidl.converters.XMLHttpRequestBodyInit(V) } webidl.converters.ResponseInit = webidl.dictionaryConverter([ { key: 'status', converter: webidl.converters['unsigned short'], defaultValue: 200 }, { key: 'statusText', converter: webidl.converters.ByteString, defaultValue: '' }, { key: 'headers', converter: webidl.converters.HeadersInit } ]) module.exports = { makeNetworkError, makeResponse, makeAppropriateNetworkError, filterResponse, Response, cloneResponse } /***/ }), /***/ 9710: /***/ ((module) => { module.exports = { kUrl: Symbol('url'), kHeaders: Symbol('headers'), kSignal: Symbol('signal'), kState: Symbol('state'), kGuard: Symbol('guard'), kRealm: Symbol('realm') } /***/ }), /***/ 5523: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { redirectStatusSet, referrerPolicySet: referrerPolicyTokens, badPortsSet } = __nccwpck_require__(7326) const { getGlobalOrigin } = __nccwpck_require__(5628) const { performance } = __nccwpck_require__(2987) const { isBlobLike, toUSVString, ReadableStreamFrom } = __nccwpck_require__(3440) const assert = __nccwpck_require__(2613) const { isUint8Array } = __nccwpck_require__(8253) let supportedHashes = [] // https://nodejs.org/api/crypto.html#determining-if-crypto-support-is-unavailable /** @type {import('crypto')|undefined} */ let crypto try { crypto = __nccwpck_require__(6982) const possibleRelevantHashes = ['sha256', 'sha384', 'sha512'] supportedHashes = crypto.getHashes().filter((hash) => possibleRelevantHashes.includes(hash)) /* c8 ignore next 3 */ } catch { } function responseURL (response) { // https://fetch.spec.whatwg.org/#responses // A response has an associated URL. It is a pointer to the last URL // in response’s URL list and null if response’s URL list is empty. const urlList = response.urlList const length = urlList.length return length === 0 ? null : urlList[length - 1].toString() } // https://fetch.spec.whatwg.org/#concept-response-location-url function responseLocationURL (response, requestFragment) { // 1. If response’s status is not a redirect status, then return null. if (!redirectStatusSet.has(response.status)) { return null } // 2. Let location be the result of extracting header list values given // `Location` and response’s header list. let location = response.headersList.get('location') // 3. If location is a header value, then set location to the result of // parsing location with response’s URL. if (location !== null && isValidHeaderValue(location)) { location = new URL(location, responseURL(response)) } // 4. If location is a URL whose fragment is null, then set location’s // fragment to requestFragment. if (location && !location.hash) { location.hash = requestFragment } // 5. Return location. return location } /** @returns {URL} */ function requestCurrentURL (request) { return request.urlList[request.urlList.length - 1] } function requestBadPort (request) { // 1. Let url be request’s current URL. const url = requestCurrentURL(request) // 2. If url’s scheme is an HTTP(S) scheme and url’s port is a bad port, // then return blocked. if (urlIsHttpHttpsScheme(url) && badPortsSet.has(url.port)) { return 'blocked' } // 3. Return allowed. return 'allowed' } function isErrorLike (object) { return object instanceof Error || ( object?.constructor?.name === 'Error' || object?.constructor?.name === 'DOMException' ) } // Check whether |statusText| is a ByteString and // matches the Reason-Phrase token production. // RFC 2616: https://tools.ietf.org/html/rfc2616 // RFC 7230: https://tools.ietf.org/html/rfc7230 // "reason-phrase = *( HTAB / SP / VCHAR / obs-text )" // https://github.com/chromium/chromium/blob/94.0.4604.1/third_party/blink/renderer/core/fetch/response.cc#L116 function isValidReasonPhrase (statusText) { for (let i = 0; i < statusText.length; ++i) { const c = statusText.charCodeAt(i) if ( !( ( c === 0x09 || // HTAB (c >= 0x20 && c <= 0x7e) || // SP / VCHAR (c >= 0x80 && c <= 0xff) ) // obs-text ) ) { return false } } return true } /** * @see https://tools.ietf.org/html/rfc7230#section-3.2.6 * @param {number} c */ function isTokenCharCode (c) { switch (c) { case 0x22: case 0x28: case 0x29: case 0x2c: case 0x2f: case 0x3a: case 0x3b: case 0x3c: case 0x3d: case 0x3e: case 0x3f: case 0x40: case 0x5b: case 0x5c: case 0x5d: case 0x7b: case 0x7d: // DQUOTE and "(),/:;<=>?@[\]{}" return false default: // VCHAR %x21-7E return c >= 0x21 && c <= 0x7e } } /** * @param {string} characters */ function isValidHTTPToken (characters) { if (characters.length === 0) { return false } for (let i = 0; i < characters.length; ++i) { if (!isTokenCharCode(characters.charCodeAt(i))) { return false } } return true } /** * @see https://fetch.spec.whatwg.org/#header-name * @param {string} potentialValue */ function isValidHeaderName (potentialValue) { return isValidHTTPToken(potentialValue) } /** * @see https://fetch.spec.whatwg.org/#header-value * @param {string} potentialValue */ function isValidHeaderValue (potentialValue) { // - Has no leading or trailing HTTP tab or space bytes. // - Contains no 0x00 (NUL) or HTTP newline bytes. if ( potentialValue.startsWith('\t') || potentialValue.startsWith(' ') || potentialValue.endsWith('\t') || potentialValue.endsWith(' ') ) { return false } if ( potentialValue.includes('\0') || potentialValue.includes('\r') || potentialValue.includes('\n') ) { return false } return true } // https://w3c.github.io/webappsec-referrer-policy/#set-requests-referrer-policy-on-redirect function setRequestReferrerPolicyOnRedirect (request, actualResponse) { // Given a request request and a response actualResponse, this algorithm // updates request’s referrer policy according to the Referrer-Policy // header (if any) in actualResponse. // 1. Let policy be the result of executing § 8.1 Parse a referrer policy // from a Referrer-Policy header on actualResponse. // 8.1 Parse a referrer policy from a Referrer-Policy header // 1. Let policy-tokens be the result of extracting header list values given `Referrer-Policy` and response’s header list. const { headersList } = actualResponse // 2. Let policy be the empty string. // 3. For each token in policy-tokens, if token is a referrer policy and token is not the empty string, then set policy to token. // 4. Return policy. const policyHeader = (headersList.get('referrer-policy') ?? '').split(',') // Note: As the referrer-policy can contain multiple policies // separated by comma, we need to loop through all of them // and pick the first valid one. // Ref: https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Referrer-Policy#specify_a_fallback_policy let policy = '' if (policyHeader.length > 0) { // The right-most policy takes precedence. // The left-most policy is the fallback. for (let i = policyHeader.length; i !== 0; i--) { const token = policyHeader[i - 1].trim() if (referrerPolicyTokens.has(token)) { policy = token break } } } // 2. If policy is not the empty string, then set request’s referrer policy to policy. if (policy !== '') { request.referrerPolicy = policy } } // https://fetch.spec.whatwg.org/#cross-origin-resource-policy-check function crossOriginResourcePolicyCheck () { // TODO return 'allowed' } // https://fetch.spec.whatwg.org/#concept-cors-check function corsCheck () { // TODO return 'success' } // https://fetch.spec.whatwg.org/#concept-tao-check function TAOCheck () { // TODO return 'success' } function appendFetchMetadata (httpRequest) { // https://w3c.github.io/webappsec-fetch-metadata/#sec-fetch-dest-header // TODO // https://w3c.github.io/webappsec-fetch-metadata/#sec-fetch-mode-header // 1. Assert: r’s url is a potentially trustworthy URL. // TODO // 2. Let header be a Structured Header whose value is a token. let header = null // 3. Set header’s value to r’s mode. header = httpRequest.mode // 4. Set a structured field value `Sec-Fetch-Mode`/header in r’s header list. httpRequest.headersList.set('sec-fetch-mode', header) // https://w3c.github.io/webappsec-fetch-metadata/#sec-fetch-site-header // TODO // https://w3c.github.io/webappsec-fetch-metadata/#sec-fetch-user-header // TODO } // https://fetch.spec.whatwg.org/#append-a-request-origin-header function appendRequestOriginHeader (request) { // 1. Let serializedOrigin be the result of byte-serializing a request origin with request. let serializedOrigin = request.origin // 2. If request’s response tainting is "cors" or request’s mode is "websocket", then append (`Origin`, serializedOrigin) to request’s header list. if (request.responseTainting === 'cors' || request.mode === 'websocket') { if (serializedOrigin) { request.headersList.append('origin', serializedOrigin) } // 3. Otherwise, if request’s method is neither `GET` nor `HEAD`, then: } else if (request.method !== 'GET' && request.method !== 'HEAD') { // 1. Switch on request’s referrer policy: switch (request.referrerPolicy) { case 'no-referrer': // Set serializedOrigin to `null`. serializedOrigin = null break case 'no-referrer-when-downgrade': case 'strict-origin': case 'strict-origin-when-cross-origin': // If request’s origin is a tuple origin, its scheme is "https", and request’s current URL’s scheme is not "https", then set serializedOrigin to `null`. if (request.origin && urlHasHttpsScheme(request.origin) && !urlHasHttpsScheme(requestCurrentURL(request))) { serializedOrigin = null } break case 'same-origin': // If request’s origin is not same origin with request’s current URL’s origin, then set serializedOrigin to `null`. if (!sameOrigin(request, requestCurrentURL(request))) { serializedOrigin = null } break default: // Do nothing. } if (serializedOrigin) { // 2. Append (`Origin`, serializedOrigin) to request’s header list. request.headersList.append('origin', serializedOrigin) } } } function coarsenedSharedCurrentTime (crossOriginIsolatedCapability) { // TODO return performance.now() } // https://fetch.spec.whatwg.org/#create-an-opaque-timing-info function createOpaqueTimingInfo (timingInfo) { return { startTime: timingInfo.startTime ?? 0, redirectStartTime: 0, redirectEndTime: 0, postRedirectStartTime: timingInfo.startTime ?? 0, finalServiceWorkerStartTime: 0, finalNetworkResponseStartTime: 0, finalNetworkRequestStartTime: 0, endTime: 0, encodedBodySize: 0, decodedBodySize: 0, finalConnectionTimingInfo: null } } // https://html.spec.whatwg.org/multipage/origin.html#policy-container function makePolicyContainer () { // Note: the fetch spec doesn't make use of embedder policy or CSP list return { referrerPolicy: 'strict-origin-when-cross-origin' } } // https://html.spec.whatwg.org/multipage/origin.html#clone-a-policy-container function clonePolicyContainer (policyContainer) { return { referrerPolicy: policyContainer.referrerPolicy } } // https://w3c.github.io/webappsec-referrer-policy/#determine-requests-referrer function determineRequestsReferrer (request) { // 1. Let policy be request's referrer policy. const policy = request.referrerPolicy // Note: policy cannot (shouldn't) be null or an empty string. assert(policy) // 2. Let environment be request’s client. let referrerSource = null // 3. Switch on request’s referrer: if (request.referrer === 'client') { // Note: node isn't a browser and doesn't implement document/iframes, // so we bypass this step and replace it with our own. const globalOrigin = getGlobalOrigin() if (!globalOrigin || globalOrigin.origin === 'null') { return 'no-referrer' } // note: we need to clone it as it's mutated referrerSource = new URL(globalOrigin) } else if (request.referrer instanceof URL) { // Let referrerSource be request’s referrer. referrerSource = request.referrer } // 4. Let request’s referrerURL be the result of stripping referrerSource for // use as a referrer. let referrerURL = stripURLForReferrer(referrerSource) // 5. Let referrerOrigin be the result of stripping referrerSource for use as // a referrer, with the origin-only flag set to true. const referrerOrigin = stripURLForReferrer(referrerSource, true) // 6. If the result of serializing referrerURL is a string whose length is // greater than 4096, set referrerURL to referrerOrigin. if (referrerURL.toString().length > 4096) { referrerURL = referrerOrigin } const areSameOrigin = sameOrigin(request, referrerURL) const isNonPotentiallyTrustWorthy = isURLPotentiallyTrustworthy(referrerURL) && !isURLPotentiallyTrustworthy(request.url) // 8. Execute the switch statements corresponding to the value of policy: switch (policy) { case 'origin': return referrerOrigin != null ? referrerOrigin : stripURLForReferrer(referrerSource, true) case 'unsafe-url': return referrerURL case 'same-origin': return areSameOrigin ? referrerOrigin : 'no-referrer' case 'origin-when-cross-origin': return areSameOrigin ? referrerURL : referrerOrigin case 'strict-origin-when-cross-origin': { const currentURL = requestCurrentURL(request) // 1. If the origin of referrerURL and the origin of request’s current // URL are the same, then return referrerURL. if (sameOrigin(referrerURL, currentURL)) { return referrerURL } // 2. If referrerURL is a potentially trustworthy URL and request’s // current URL is not a potentially trustworthy URL, then return no // referrer. if (isURLPotentiallyTrustworthy(referrerURL) && !isURLPotentiallyTrustworthy(currentURL)) { return 'no-referrer' } // 3. Return referrerOrigin. return referrerOrigin } case 'strict-origin': // eslint-disable-line /** * 1. If referrerURL is a potentially trustworthy URL and * request’s current URL is not a potentially trustworthy URL, * then return no referrer. * 2. Return referrerOrigin */ case 'no-referrer-when-downgrade': // eslint-disable-line /** * 1. If referrerURL is a potentially trustworthy URL and * request’s current URL is not a potentially trustworthy URL, * then return no referrer. * 2. Return referrerOrigin */ default: // eslint-disable-line return isNonPotentiallyTrustWorthy ? 'no-referrer' : referrerOrigin } } /** * @see https://w3c.github.io/webappsec-referrer-policy/#strip-url * @param {URL} url * @param {boolean|undefined} originOnly */ function stripURLForReferrer (url, originOnly) { // 1. Assert: url is a URL. assert(url instanceof URL) // 2. If url’s scheme is a local scheme, then return no referrer. if (url.protocol === 'file:' || url.protocol === 'about:' || url.protocol === 'blank:') { return 'no-referrer' } // 3. Set url’s username to the empty string. url.username = '' // 4. Set url’s password to the empty string. url.password = '' // 5. Set url’s fragment to null. url.hash = '' // 6. If the origin-only flag is true, then: if (originOnly) { // 1. Set url’s path to « the empty string ». url.pathname = '' // 2. Set url’s query to null. url.search = '' } // 7. Return url. return url } function isURLPotentiallyTrustworthy (url) { if (!(url instanceof URL)) { return false } // If child of about, return true if (url.href === 'about:blank' || url.href === 'about:srcdoc') { return true } // If scheme is data, return true if (url.protocol === 'data:') return true // If file, return true if (url.protocol === 'file:') return true return isOriginPotentiallyTrustworthy(url.origin) function isOriginPotentiallyTrustworthy (origin) { // If origin is explicitly null, return false if (origin == null || origin === 'null') return false const originAsURL = new URL(origin) // If secure, return true if (originAsURL.protocol === 'https:' || originAsURL.protocol === 'wss:') { return true } // If localhost or variants, return true if (/^127(?:\.[0-9]+){0,2}\.[0-9]+$|^\[(?:0*:)*?:?0*1\]$/.test(originAsURL.hostname) || (originAsURL.hostname === 'localhost' || originAsURL.hostname.includes('localhost.')) || (originAsURL.hostname.endsWith('.localhost'))) { return true } // If any other, return false return false } } /** * @see https://w3c.github.io/webappsec-subresource-integrity/#does-response-match-metadatalist * @param {Uint8Array} bytes * @param {string} metadataList */ function bytesMatch (bytes, metadataList) { // If node is not built with OpenSSL support, we cannot check // a request's integrity, so allow it by default (the spec will // allow requests if an invalid hash is given, as precedence). /* istanbul ignore if: only if node is built with --without-ssl */ if (crypto === undefined) { return true } // 1. Let parsedMetadata be the result of parsing metadataList. const parsedMetadata = parseMetadata(metadataList) // 2. If parsedMetadata is no metadata, return true. if (parsedMetadata === 'no metadata') { return true } // 3. If response is not eligible for integrity validation, return false. // TODO // 4. If parsedMetadata is the empty set, return true. if (parsedMetadata.length === 0) { return true } // 5. Let metadata be the result of getting the strongest // metadata from parsedMetadata. const strongest = getStrongestMetadata(parsedMetadata) const metadata = filterMetadataListByAlgorithm(parsedMetadata, strongest) // 6. For each item in metadata: for (const item of metadata) { // 1. Let algorithm be the alg component of item. const algorithm = item.algo // 2. Let expectedValue be the val component of item. const expectedValue = item.hash // See https://github.com/web-platform-tests/wpt/commit/e4c5cc7a5e48093220528dfdd1c4012dc3837a0e // "be liberal with padding". This is annoying, and it's not even in the spec. // 3. Let actualValue be the result of applying algorithm to bytes. let actualValue = crypto.createHash(algorithm).update(bytes).digest('base64') if (actualValue[actualValue.length - 1] === '=') { if (actualValue[actualValue.length - 2] === '=') { actualValue = actualValue.slice(0, -2) } else { actualValue = actualValue.slice(0, -1) } } // 4. If actualValue is a case-sensitive match for expectedValue, // return true. if (compareBase64Mixed(actualValue, expectedValue)) { return true } } // 7. Return false. return false } // https://w3c.github.io/webappsec-subresource-integrity/#grammardef-hash-with-options // https://www.w3.org/TR/CSP2/#source-list-syntax // https://www.rfc-editor.org/rfc/rfc5234#appendix-B.1 const parseHashWithOptions = /(?sha256|sha384|sha512)-((?[A-Za-z0-9+/]+|[A-Za-z0-9_-]+)={0,2}(?:\s|$)( +[!-~]*)?)?/i /** * @see https://w3c.github.io/webappsec-subresource-integrity/#parse-metadata * @param {string} metadata */ function parseMetadata (metadata) { // 1. Let result be the empty set. /** @type {{ algo: string, hash: string }[]} */ const result = [] // 2. Let empty be equal to true. let empty = true // 3. For each token returned by splitting metadata on spaces: for (const token of metadata.split(' ')) { // 1. Set empty to false. empty = false // 2. Parse token as a hash-with-options. const parsedToken = parseHashWithOptions.exec(token) // 3. If token does not parse, continue to the next token. if ( parsedToken === null || parsedToken.groups === undefined || parsedToken.groups.algo === undefined ) { // Note: Chromium blocks the request at this point, but Firefox // gives a warning that an invalid integrity was given. The // correct behavior is to ignore these, and subsequently not // check the integrity of the resource. continue } // 4. Let algorithm be the hash-algo component of token. const algorithm = parsedToken.groups.algo.toLowerCase() // 5. If algorithm is a hash function recognized by the user // agent, add the parsed token to result. if (supportedHashes.includes(algorithm)) { result.push(parsedToken.groups) } } // 4. Return no metadata if empty is true, otherwise return result. if (empty === true) { return 'no metadata' } return result } /** * @param {{ algo: 'sha256' | 'sha384' | 'sha512' }[]} metadataList */ function getStrongestMetadata (metadataList) { // Let algorithm be the algo component of the first item in metadataList. // Can be sha256 let algorithm = metadataList[0].algo // If the algorithm is sha512, then it is the strongest // and we can return immediately if (algorithm[3] === '5') { return algorithm } for (let i = 1; i < metadataList.length; ++i) { const metadata = metadataList[i] // If the algorithm is sha512, then it is the strongest // and we can break the loop immediately if (metadata.algo[3] === '5') { algorithm = 'sha512' break // If the algorithm is sha384, then a potential sha256 or sha384 is ignored } else if (algorithm[3] === '3') { continue // algorithm is sha256, check if algorithm is sha384 and if so, set it as // the strongest } else if (metadata.algo[3] === '3') { algorithm = 'sha384' } } return algorithm } function filterMetadataListByAlgorithm (metadataList, algorithm) { if (metadataList.length === 1) { return metadataList } let pos = 0 for (let i = 0; i < metadataList.length; ++i) { if (metadataList[i].algo === algorithm) { metadataList[pos++] = metadataList[i] } } metadataList.length = pos return metadataList } /** * Compares two base64 strings, allowing for base64url * in the second string. * * @param {string} actualValue always base64 * @param {string} expectedValue base64 or base64url * @returns {boolean} */ function compareBase64Mixed (actualValue, expectedValue) { if (actualValue.length !== expectedValue.length) { return false } for (let i = 0; i < actualValue.length; ++i) { if (actualValue[i] !== expectedValue[i]) { if ( (actualValue[i] === '+' && expectedValue[i] === '-') || (actualValue[i] === '/' && expectedValue[i] === '_') ) { continue } return false } } return true } // https://w3c.github.io/webappsec-upgrade-insecure-requests/#upgrade-request function tryUpgradeRequestToAPotentiallyTrustworthyURL (request) { // TODO } /** * @link {https://html.spec.whatwg.org/multipage/origin.html#same-origin} * @param {URL} A * @param {URL} B */ function sameOrigin (A, B) { // 1. If A and B are the same opaque origin, then return true. if (A.origin === B.origin && A.origin === 'null') { return true } // 2. If A and B are both tuple origins and their schemes, // hosts, and port are identical, then return true. if (A.protocol === B.protocol && A.hostname === B.hostname && A.port === B.port) { return true } // 3. Return false. return false } function createDeferredPromise () { let res let rej const promise = new Promise((resolve, reject) => { res = resolve rej = reject }) return { promise, resolve: res, reject: rej } } function isAborted (fetchParams) { return fetchParams.controller.state === 'aborted' } function isCancelled (fetchParams) { return fetchParams.controller.state === 'aborted' || fetchParams.controller.state === 'terminated' } const normalizeMethodRecord = { delete: 'DELETE', DELETE: 'DELETE', get: 'GET', GET: 'GET', head: 'HEAD', HEAD: 'HEAD', options: 'OPTIONS', OPTIONS: 'OPTIONS', post: 'POST', POST: 'POST', put: 'PUT', PUT: 'PUT' } // Note: object prototypes should not be able to be referenced. e.g. `Object#hasOwnProperty`. Object.setPrototypeOf(normalizeMethodRecord, null) /** * @see https://fetch.spec.whatwg.org/#concept-method-normalize * @param {string} method */ function normalizeMethod (method) { return normalizeMethodRecord[method.toLowerCase()] ?? method } // https://infra.spec.whatwg.org/#serialize-a-javascript-value-to-a-json-string function serializeJavascriptValueToJSONString (value) { // 1. Let result be ? Call(%JSON.stringify%, undefined, « value »). const result = JSON.stringify(value) // 2. If result is undefined, then throw a TypeError. if (result === undefined) { throw new TypeError('Value is not JSON serializable') } // 3. Assert: result is a string. assert(typeof result === 'string') // 4. Return result. return result } // https://tc39.es/ecma262/#sec-%25iteratorprototype%25-object const esIteratorPrototype = Object.getPrototypeOf(Object.getPrototypeOf([][Symbol.iterator]())) /** * @see https://webidl.spec.whatwg.org/#dfn-iterator-prototype-object * @param {() => unknown[]} iterator * @param {string} name name of the instance * @param {'key'|'value'|'key+value'} kind */ function makeIterator (iterator, name, kind) { const object = { index: 0, kind, target: iterator } const i = { next () { // 1. Let interface be the interface for which the iterator prototype object exists. // 2. Let thisValue be the this value. // 3. Let object be ? ToObject(thisValue). // 4. If object is a platform object, then perform a security // check, passing: // 5. If object is not a default iterator object for interface, // then throw a TypeError. if (Object.getPrototypeOf(this) !== i) { throw new TypeError( `'next' called on an object that does not implement interface ${name} Iterator.` ) } // 6. Let index be object’s index. // 7. Let kind be object’s kind. // 8. Let values be object’s target's value pairs to iterate over. const { index, kind, target } = object const values = target() // 9. Let len be the length of values. const len = values.length // 10. If index is greater than or equal to len, then return // CreateIterResultObject(undefined, true). if (index >= len) { return { value: undefined, done: true } } // 11. Let pair be the entry in values at index index. const pair = values[index] // 12. Set object’s index to index + 1. object.index = index + 1 // 13. Return the iterator result for pair and kind. return iteratorResult(pair, kind) }, // The class string of an iterator prototype object for a given interface is the // result of concatenating the identifier of the interface and the string " Iterator". [Symbol.toStringTag]: `${name} Iterator` } // The [[Prototype]] internal slot of an iterator prototype object must be %IteratorPrototype%. Object.setPrototypeOf(i, esIteratorPrototype) // esIteratorPrototype needs to be the prototype of i // which is the prototype of an empty object. Yes, it's confusing. return Object.setPrototypeOf({}, i) } // https://webidl.spec.whatwg.org/#iterator-result function iteratorResult (pair, kind) { let result // 1. Let result be a value determined by the value of kind: switch (kind) { case 'key': { // 1. Let idlKey be pair’s key. // 2. Let key be the result of converting idlKey to an // ECMAScript value. // 3. result is key. result = pair[0] break } case 'value': { // 1. Let idlValue be pair’s value. // 2. Let value be the result of converting idlValue to // an ECMAScript value. // 3. result is value. result = pair[1] break } case 'key+value': { // 1. Let idlKey be pair’s key. // 2. Let idlValue be pair’s value. // 3. Let key be the result of converting idlKey to an // ECMAScript value. // 4. Let value be the result of converting idlValue to // an ECMAScript value. // 5. Let array be ! ArrayCreate(2). // 6. Call ! CreateDataProperty(array, "0", key). // 7. Call ! CreateDataProperty(array, "1", value). // 8. result is array. result = pair break } } // 2. Return CreateIterResultObject(result, false). return { value: result, done: false } } /** * @see https://fetch.spec.whatwg.org/#body-fully-read */ async function fullyReadBody (body, processBody, processBodyError) { // 1. If taskDestination is null, then set taskDestination to // the result of starting a new parallel queue. // 2. Let successSteps given a byte sequence bytes be to queue a // fetch task to run processBody given bytes, with taskDestination. const successSteps = processBody // 3. Let errorSteps be to queue a fetch task to run processBodyError, // with taskDestination. const errorSteps = processBodyError // 4. Let reader be the result of getting a reader for body’s stream. // If that threw an exception, then run errorSteps with that // exception and return. let reader try { reader = body.stream.getReader() } catch (e) { errorSteps(e) return } // 5. Read all bytes from reader, given successSteps and errorSteps. try { const result = await readAllBytes(reader) successSteps(result) } catch (e) { errorSteps(e) } } /** @type {ReadableStream} */ let ReadableStream = globalThis.ReadableStream function isReadableStreamLike (stream) { if (!ReadableStream) { ReadableStream = (__nccwpck_require__(3774).ReadableStream) } return stream instanceof ReadableStream || ( stream[Symbol.toStringTag] === 'ReadableStream' && typeof stream.tee === 'function' ) } const MAXIMUM_ARGUMENT_LENGTH = 65535 /** * @see https://infra.spec.whatwg.org/#isomorphic-decode * @param {number[]|Uint8Array} input */ function isomorphicDecode (input) { // 1. To isomorphic decode a byte sequence input, return a string whose code point // length is equal to input’s length and whose code points have the same values // as the values of input’s bytes, in the same order. if (input.length < MAXIMUM_ARGUMENT_LENGTH) { return String.fromCharCode(...input) } return input.reduce((previous, current) => previous + String.fromCharCode(current), '') } /** * @param {ReadableStreamController} controller */ function readableStreamClose (controller) { try { controller.close() } catch (err) { // TODO: add comment explaining why this error occurs. if (!err.message.includes('Controller is already closed')) { throw err } } } /** * @see https://infra.spec.whatwg.org/#isomorphic-encode * @param {string} input */ function isomorphicEncode (input) { // 1. Assert: input contains no code points greater than U+00FF. for (let i = 0; i < input.length; i++) { assert(input.charCodeAt(i) <= 0xFF) } // 2. Return a byte sequence whose length is equal to input’s code // point length and whose bytes have the same values as the // values of input’s code points, in the same order return input } /** * @see https://streams.spec.whatwg.org/#readablestreamdefaultreader-read-all-bytes * @see https://streams.spec.whatwg.org/#read-loop * @param {ReadableStreamDefaultReader} reader */ async function readAllBytes (reader) { const bytes = [] let byteLength = 0 while (true) { const { done, value: chunk } = await reader.read() if (done) { // 1. Call successSteps with bytes. return Buffer.concat(bytes, byteLength) } // 1. If chunk is not a Uint8Array object, call failureSteps // with a TypeError and abort these steps. if (!isUint8Array(chunk)) { throw new TypeError('Received non-Uint8Array chunk') } // 2. Append the bytes represented by chunk to bytes. bytes.push(chunk) byteLength += chunk.length // 3. Read-loop given reader, bytes, successSteps, and failureSteps. } } /** * @see https://fetch.spec.whatwg.org/#is-local * @param {URL} url */ function urlIsLocal (url) { assert('protocol' in url) // ensure it's a url object const protocol = url.protocol return protocol === 'about:' || protocol === 'blob:' || protocol === 'data:' } /** * @param {string|URL} url */ function urlHasHttpsScheme (url) { if (typeof url === 'string') { return url.startsWith('https:') } return url.protocol === 'https:' } /** * @see https://fetch.spec.whatwg.org/#http-scheme * @param {URL} url */ function urlIsHttpHttpsScheme (url) { assert('protocol' in url) // ensure it's a url object const protocol = url.protocol return protocol === 'http:' || protocol === 'https:' } /** * Fetch supports node >= 16.8.0, but Object.hasOwn was added in v16.9.0. */ const hasOwn = Object.hasOwn || ((dict, key) => Object.prototype.hasOwnProperty.call(dict, key)) module.exports = { isAborted, isCancelled, createDeferredPromise, ReadableStreamFrom, toUSVString, tryUpgradeRequestToAPotentiallyTrustworthyURL, coarsenedSharedCurrentTime, determineRequestsReferrer, makePolicyContainer, clonePolicyContainer, appendFetchMetadata, appendRequestOriginHeader, TAOCheck, corsCheck, crossOriginResourcePolicyCheck, createOpaqueTimingInfo, setRequestReferrerPolicyOnRedirect, isValidHTTPToken, requestBadPort, requestCurrentURL, responseURL, responseLocationURL, isBlobLike, isURLPotentiallyTrustworthy, isValidReasonPhrase, sameOrigin, normalizeMethod, serializeJavascriptValueToJSONString, makeIterator, isValidHeaderName, isValidHeaderValue, hasOwn, isErrorLike, fullyReadBody, bytesMatch, isReadableStreamLike, readableStreamClose, isomorphicEncode, isomorphicDecode, urlIsLocal, urlHasHttpsScheme, urlIsHttpHttpsScheme, readAllBytes, normalizeMethodRecord, parseMetadata } /***/ }), /***/ 4222: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { types } = __nccwpck_require__(9023) const { hasOwn, toUSVString } = __nccwpck_require__(5523) /** @type {import('../../types/webidl').Webidl} */ const webidl = {} webidl.converters = {} webidl.util = {} webidl.errors = {} webidl.errors.exception = function (message) { return new TypeError(`${message.header}: ${message.message}`) } webidl.errors.conversionFailed = function (context) { const plural = context.types.length === 1 ? '' : ' one of' const message = `${context.argument} could not be converted to` + `${plural}: ${context.types.join(', ')}.` return webidl.errors.exception({ header: context.prefix, message }) } webidl.errors.invalidArgument = function (context) { return webidl.errors.exception({ header: context.prefix, message: `"${context.value}" is an invalid ${context.type}.` }) } // https://webidl.spec.whatwg.org/#implements webidl.brandCheck = function (V, I, opts = undefined) { if (opts?.strict !== false && !(V instanceof I)) { throw new TypeError('Illegal invocation') } else { return V?.[Symbol.toStringTag] === I.prototype[Symbol.toStringTag] } } webidl.argumentLengthCheck = function ({ length }, min, ctx) { if (length < min) { throw webidl.errors.exception({ message: `${min} argument${min !== 1 ? 's' : ''} required, ` + `but${length ? ' only' : ''} ${length} found.`, ...ctx }) } } webidl.illegalConstructor = function () { throw webidl.errors.exception({ header: 'TypeError', message: 'Illegal constructor' }) } // https://tc39.es/ecma262/#sec-ecmascript-data-types-and-values webidl.util.Type = function (V) { switch (typeof V) { case 'undefined': return 'Undefined' case 'boolean': return 'Boolean' case 'string': return 'String' case 'symbol': return 'Symbol' case 'number': return 'Number' case 'bigint': return 'BigInt' case 'function': case 'object': { if (V === null) { return 'Null' } return 'Object' } } } // https://webidl.spec.whatwg.org/#abstract-opdef-converttoint webidl.util.ConvertToInt = function (V, bitLength, signedness, opts = {}) { let upperBound let lowerBound // 1. If bitLength is 64, then: if (bitLength === 64) { // 1. Let upperBound be 2^53 − 1. upperBound = Math.pow(2, 53) - 1 // 2. If signedness is "unsigned", then let lowerBound be 0. if (signedness === 'unsigned') { lowerBound = 0 } else { // 3. Otherwise let lowerBound be −2^53 + 1. lowerBound = Math.pow(-2, 53) + 1 } } else if (signedness === 'unsigned') { // 2. Otherwise, if signedness is "unsigned", then: // 1. Let lowerBound be 0. lowerBound = 0 // 2. Let upperBound be 2^bitLength − 1. upperBound = Math.pow(2, bitLength) - 1 } else { // 3. Otherwise: // 1. Let lowerBound be -2^bitLength − 1. lowerBound = Math.pow(-2, bitLength) - 1 // 2. Let upperBound be 2^bitLength − 1 − 1. upperBound = Math.pow(2, bitLength - 1) - 1 } // 4. Let x be ? ToNumber(V). let x = Number(V) // 5. If x is −0, then set x to +0. if (x === 0) { x = 0 } // 6. If the conversion is to an IDL type associated // with the [EnforceRange] extended attribute, then: if (opts.enforceRange === true) { // 1. If x is NaN, +∞, or −∞, then throw a TypeError. if ( Number.isNaN(x) || x === Number.POSITIVE_INFINITY || x === Number.NEGATIVE_INFINITY ) { throw webidl.errors.exception({ header: 'Integer conversion', message: `Could not convert ${V} to an integer.` }) } // 2. Set x to IntegerPart(x). x = webidl.util.IntegerPart(x) // 3. If x < lowerBound or x > upperBound, then // throw a TypeError. if (x < lowerBound || x > upperBound) { throw webidl.errors.exception({ header: 'Integer conversion', message: `Value must be between ${lowerBound}-${upperBound}, got ${x}.` }) } // 4. Return x. return x } // 7. If x is not NaN and the conversion is to an IDL // type associated with the [Clamp] extended // attribute, then: if (!Number.isNaN(x) && opts.clamp === true) { // 1. Set x to min(max(x, lowerBound), upperBound). x = Math.min(Math.max(x, lowerBound), upperBound) // 2. Round x to the nearest integer, choosing the // even integer if it lies halfway between two, // and choosing +0 rather than −0. if (Math.floor(x) % 2 === 0) { x = Math.floor(x) } else { x = Math.ceil(x) } // 3. Return x. return x } // 8. If x is NaN, +0, +∞, or −∞, then return +0. if ( Number.isNaN(x) || (x === 0 && Object.is(0, x)) || x === Number.POSITIVE_INFINITY || x === Number.NEGATIVE_INFINITY ) { return 0 } // 9. Set x to IntegerPart(x). x = webidl.util.IntegerPart(x) // 10. Set x to x modulo 2^bitLength. x = x % Math.pow(2, bitLength) // 11. If signedness is "signed" and x ≥ 2^bitLength − 1, // then return x − 2^bitLength. if (signedness === 'signed' && x >= Math.pow(2, bitLength) - 1) { return x - Math.pow(2, bitLength) } // 12. Otherwise, return x. return x } // https://webidl.spec.whatwg.org/#abstract-opdef-integerpart webidl.util.IntegerPart = function (n) { // 1. Let r be floor(abs(n)). const r = Math.floor(Math.abs(n)) // 2. If n < 0, then return -1 × r. if (n < 0) { return -1 * r } // 3. Otherwise, return r. return r } // https://webidl.spec.whatwg.org/#es-sequence webidl.sequenceConverter = function (converter) { return (V) => { // 1. If Type(V) is not Object, throw a TypeError. if (webidl.util.Type(V) !== 'Object') { throw webidl.errors.exception({ header: 'Sequence', message: `Value of type ${webidl.util.Type(V)} is not an Object.` }) } // 2. Let method be ? GetMethod(V, @@iterator). /** @type {Generator} */ const method = V?.[Symbol.iterator]?.() const seq = [] // 3. If method is undefined, throw a TypeError. if ( method === undefined || typeof method.next !== 'function' ) { throw webidl.errors.exception({ header: 'Sequence', message: 'Object is not an iterator.' }) } // https://webidl.spec.whatwg.org/#create-sequence-from-iterable while (true) { const { done, value } = method.next() if (done) { break } seq.push(converter(value)) } return seq } } // https://webidl.spec.whatwg.org/#es-to-record webidl.recordConverter = function (keyConverter, valueConverter) { return (O) => { // 1. If Type(O) is not Object, throw a TypeError. if (webidl.util.Type(O) !== 'Object') { throw webidl.errors.exception({ header: 'Record', message: `Value of type ${webidl.util.Type(O)} is not an Object.` }) } // 2. Let result be a new empty instance of record. const result = {} if (!types.isProxy(O)) { // Object.keys only returns enumerable properties const keys = Object.keys(O) for (const key of keys) { // 1. Let typedKey be key converted to an IDL value of type K. const typedKey = keyConverter(key) // 2. Let value be ? Get(O, key). // 3. Let typedValue be value converted to an IDL value of type V. const typedValue = valueConverter(O[key]) // 4. Set result[typedKey] to typedValue. result[typedKey] = typedValue } // 5. Return result. return result } // 3. Let keys be ? O.[[OwnPropertyKeys]](). const keys = Reflect.ownKeys(O) // 4. For each key of keys. for (const key of keys) { // 1. Let desc be ? O.[[GetOwnProperty]](key). const desc = Reflect.getOwnPropertyDescriptor(O, key) // 2. If desc is not undefined and desc.[[Enumerable]] is true: if (desc?.enumerable) { // 1. Let typedKey be key converted to an IDL value of type K. const typedKey = keyConverter(key) // 2. Let value be ? Get(O, key). // 3. Let typedValue be value converted to an IDL value of type V. const typedValue = valueConverter(O[key]) // 4. Set result[typedKey] to typedValue. result[typedKey] = typedValue } } // 5. Return result. return result } } webidl.interfaceConverter = function (i) { return (V, opts = {}) => { if (opts.strict !== false && !(V instanceof i)) { throw webidl.errors.exception({ header: i.name, message: `Expected ${V} to be an instance of ${i.name}.` }) } return V } } webidl.dictionaryConverter = function (converters) { return (dictionary) => { const type = webidl.util.Type(dictionary) const dict = {} if (type === 'Null' || type === 'Undefined') { return dict } else if (type !== 'Object') { throw webidl.errors.exception({ header: 'Dictionary', message: `Expected ${dictionary} to be one of: Null, Undefined, Object.` }) } for (const options of converters) { const { key, defaultValue, required, converter } = options if (required === true) { if (!hasOwn(dictionary, key)) { throw webidl.errors.exception({ header: 'Dictionary', message: `Missing required key "${key}".` }) } } let value = dictionary[key] const hasDefault = hasOwn(options, 'defaultValue') // Only use defaultValue if value is undefined and // a defaultValue options was provided. if (hasDefault && value !== null) { value = value ?? defaultValue } // A key can be optional and have no default value. // When this happens, do not perform a conversion, // and do not assign the key a value. if (required || hasDefault || value !== undefined) { value = converter(value) if ( options.allowedValues && !options.allowedValues.includes(value) ) { throw webidl.errors.exception({ header: 'Dictionary', message: `${value} is not an accepted type. Expected one of ${options.allowedValues.join(', ')}.` }) } dict[key] = value } } return dict } } webidl.nullableConverter = function (converter) { return (V) => { if (V === null) { return V } return converter(V) } } // https://webidl.spec.whatwg.org/#es-DOMString webidl.converters.DOMString = function (V, opts = {}) { // 1. If V is null and the conversion is to an IDL type // associated with the [LegacyNullToEmptyString] // extended attribute, then return the DOMString value // that represents the empty string. if (V === null && opts.legacyNullToEmptyString) { return '' } // 2. Let x be ? ToString(V). if (typeof V === 'symbol') { throw new TypeError('Could not convert argument of type symbol to string.') } // 3. Return the IDL DOMString value that represents the // same sequence of code units as the one the // ECMAScript String value x represents. return String(V) } // https://webidl.spec.whatwg.org/#es-ByteString webidl.converters.ByteString = function (V) { // 1. Let x be ? ToString(V). // Note: DOMString converter perform ? ToString(V) const x = webidl.converters.DOMString(V) // 2. If the value of any element of x is greater than // 255, then throw a TypeError. for (let index = 0; index < x.length; index++) { if (x.charCodeAt(index) > 255) { throw new TypeError( 'Cannot convert argument to a ByteString because the character at ' + `index ${index} has a value of ${x.charCodeAt(index)} which is greater than 255.` ) } } // 3. Return an IDL ByteString value whose length is the // length of x, and where the value of each element is // the value of the corresponding element of x. return x } // https://webidl.spec.whatwg.org/#es-USVString webidl.converters.USVString = toUSVString // https://webidl.spec.whatwg.org/#es-boolean webidl.converters.boolean = function (V) { // 1. Let x be the result of computing ToBoolean(V). const x = Boolean(V) // 2. Return the IDL boolean value that is the one that represents // the same truth value as the ECMAScript Boolean value x. return x } // https://webidl.spec.whatwg.org/#es-any webidl.converters.any = function (V) { return V } // https://webidl.spec.whatwg.org/#es-long-long webidl.converters['long long'] = function (V) { // 1. Let x be ? ConvertToInt(V, 64, "signed"). const x = webidl.util.ConvertToInt(V, 64, 'signed') // 2. Return the IDL long long value that represents // the same numeric value as x. return x } // https://webidl.spec.whatwg.org/#es-unsigned-long-long webidl.converters['unsigned long long'] = function (V) { // 1. Let x be ? ConvertToInt(V, 64, "unsigned"). const x = webidl.util.ConvertToInt(V, 64, 'unsigned') // 2. Return the IDL unsigned long long value that // represents the same numeric value as x. return x } // https://webidl.spec.whatwg.org/#es-unsigned-long webidl.converters['unsigned long'] = function (V) { // 1. Let x be ? ConvertToInt(V, 32, "unsigned"). const x = webidl.util.ConvertToInt(V, 32, 'unsigned') // 2. Return the IDL unsigned long value that // represents the same numeric value as x. return x } // https://webidl.spec.whatwg.org/#es-unsigned-short webidl.converters['unsigned short'] = function (V, opts) { // 1. Let x be ? ConvertToInt(V, 16, "unsigned"). const x = webidl.util.ConvertToInt(V, 16, 'unsigned', opts) // 2. Return the IDL unsigned short value that represents // the same numeric value as x. return x } // https://webidl.spec.whatwg.org/#idl-ArrayBuffer webidl.converters.ArrayBuffer = function (V, opts = {}) { // 1. If Type(V) is not Object, or V does not have an // [[ArrayBufferData]] internal slot, then throw a // TypeError. // see: https://tc39.es/ecma262/#sec-properties-of-the-arraybuffer-instances // see: https://tc39.es/ecma262/#sec-properties-of-the-sharedarraybuffer-instances if ( webidl.util.Type(V) !== 'Object' || !types.isAnyArrayBuffer(V) ) { throw webidl.errors.conversionFailed({ prefix: `${V}`, argument: `${V}`, types: ['ArrayBuffer'] }) } // 2. If the conversion is not to an IDL type associated // with the [AllowShared] extended attribute, and // IsSharedArrayBuffer(V) is true, then throw a // TypeError. if (opts.allowShared === false && types.isSharedArrayBuffer(V)) { throw webidl.errors.exception({ header: 'ArrayBuffer', message: 'SharedArrayBuffer is not allowed.' }) } // 3. If the conversion is not to an IDL type associated // with the [AllowResizable] extended attribute, and // IsResizableArrayBuffer(V) is true, then throw a // TypeError. // Note: resizable ArrayBuffers are currently a proposal. // 4. Return the IDL ArrayBuffer value that is a // reference to the same object as V. return V } webidl.converters.TypedArray = function (V, T, opts = {}) { // 1. Let T be the IDL type V is being converted to. // 2. If Type(V) is not Object, or V does not have a // [[TypedArrayName]] internal slot with a value // equal to T’s name, then throw a TypeError. if ( webidl.util.Type(V) !== 'Object' || !types.isTypedArray(V) || V.constructor.name !== T.name ) { throw webidl.errors.conversionFailed({ prefix: `${T.name}`, argument: `${V}`, types: [T.name] }) } // 3. If the conversion is not to an IDL type associated // with the [AllowShared] extended attribute, and // IsSharedArrayBuffer(V.[[ViewedArrayBuffer]]) is // true, then throw a TypeError. if (opts.allowShared === false && types.isSharedArrayBuffer(V.buffer)) { throw webidl.errors.exception({ header: 'ArrayBuffer', message: 'SharedArrayBuffer is not allowed.' }) } // 4. If the conversion is not to an IDL type associated // with the [AllowResizable] extended attribute, and // IsResizableArrayBuffer(V.[[ViewedArrayBuffer]]) is // true, then throw a TypeError. // Note: resizable array buffers are currently a proposal // 5. Return the IDL value of type T that is a reference // to the same object as V. return V } webidl.converters.DataView = function (V, opts = {}) { // 1. If Type(V) is not Object, or V does not have a // [[DataView]] internal slot, then throw a TypeError. if (webidl.util.Type(V) !== 'Object' || !types.isDataView(V)) { throw webidl.errors.exception({ header: 'DataView', message: 'Object is not a DataView.' }) } // 2. If the conversion is not to an IDL type associated // with the [AllowShared] extended attribute, and // IsSharedArrayBuffer(V.[[ViewedArrayBuffer]]) is true, // then throw a TypeError. if (opts.allowShared === false && types.isSharedArrayBuffer(V.buffer)) { throw webidl.errors.exception({ header: 'ArrayBuffer', message: 'SharedArrayBuffer is not allowed.' }) } // 3. If the conversion is not to an IDL type associated // with the [AllowResizable] extended attribute, and // IsResizableArrayBuffer(V.[[ViewedArrayBuffer]]) is // true, then throw a TypeError. // Note: resizable ArrayBuffers are currently a proposal // 4. Return the IDL DataView value that is a reference // to the same object as V. return V } // https://webidl.spec.whatwg.org/#BufferSource webidl.converters.BufferSource = function (V, opts = {}) { if (types.isAnyArrayBuffer(V)) { return webidl.converters.ArrayBuffer(V, opts) } if (types.isTypedArray(V)) { return webidl.converters.TypedArray(V, V.constructor) } if (types.isDataView(V)) { return webidl.converters.DataView(V, opts) } throw new TypeError(`Could not convert ${V} to a BufferSource.`) } webidl.converters['sequence'] = webidl.sequenceConverter( webidl.converters.ByteString ) webidl.converters['sequence>'] = webidl.sequenceConverter( webidl.converters['sequence'] ) webidl.converters['record'] = webidl.recordConverter( webidl.converters.ByteString, webidl.converters.ByteString ) module.exports = { webidl } /***/ }), /***/ 396: /***/ ((module) => { /** * @see https://encoding.spec.whatwg.org/#concept-encoding-get * @param {string|undefined} label */ function getEncoding (label) { if (!label) { return 'failure' } // 1. Remove any leading and trailing ASCII whitespace from label. // 2. If label is an ASCII case-insensitive match for any of the // labels listed in the table below, then return the // corresponding encoding; otherwise return failure. switch (label.trim().toLowerCase()) { case 'unicode-1-1-utf-8': case 'unicode11utf8': case 'unicode20utf8': case 'utf-8': case 'utf8': case 'x-unicode20utf8': return 'UTF-8' case '866': case 'cp866': case 'csibm866': case 'ibm866': return 'IBM866' case 'csisolatin2': case 'iso-8859-2': case 'iso-ir-101': case 'iso8859-2': case 'iso88592': case 'iso_8859-2': case 'iso_8859-2:1987': case 'l2': case 'latin2': return 'ISO-8859-2' case 'csisolatin3': case 'iso-8859-3': case 'iso-ir-109': case 'iso8859-3': case 'iso88593': case 'iso_8859-3': case 'iso_8859-3:1988': case 'l3': case 'latin3': return 'ISO-8859-3' case 'csisolatin4': case 'iso-8859-4': case 'iso-ir-110': case 'iso8859-4': case 'iso88594': case 'iso_8859-4': case 'iso_8859-4:1988': case 'l4': case 'latin4': return 'ISO-8859-4' case 'csisolatincyrillic': case 'cyrillic': case 'iso-8859-5': case 'iso-ir-144': case 'iso8859-5': case 'iso88595': case 'iso_8859-5': case 'iso_8859-5:1988': return 'ISO-8859-5' case 'arabic': case 'asmo-708': case 'csiso88596e': case 'csiso88596i': case 'csisolatinarabic': case 'ecma-114': case 'iso-8859-6': case 'iso-8859-6-e': case 'iso-8859-6-i': case 'iso-ir-127': case 'iso8859-6': case 'iso88596': case 'iso_8859-6': case 'iso_8859-6:1987': return 'ISO-8859-6' case 'csisolatingreek': case 'ecma-118': case 'elot_928': case 'greek': case 'greek8': case 'iso-8859-7': case 'iso-ir-126': case 'iso8859-7': case 'iso88597': case 'iso_8859-7': case 'iso_8859-7:1987': case 'sun_eu_greek': return 'ISO-8859-7' case 'csiso88598e': case 'csisolatinhebrew': case 'hebrew': case 'iso-8859-8': case 'iso-8859-8-e': case 'iso-ir-138': case 'iso8859-8': case 'iso88598': case 'iso_8859-8': case 'iso_8859-8:1988': case 'visual': return 'ISO-8859-8' case 'csiso88598i': case 'iso-8859-8-i': case 'logical': return 'ISO-8859-8-I' case 'csisolatin6': case 'iso-8859-10': case 'iso-ir-157': case 'iso8859-10': case 'iso885910': case 'l6': case 'latin6': return 'ISO-8859-10' case 'iso-8859-13': case 'iso8859-13': case 'iso885913': return 'ISO-8859-13' case 'iso-8859-14': case 'iso8859-14': case 'iso885914': return 'ISO-8859-14' case 'csisolatin9': case 'iso-8859-15': case 'iso8859-15': case 'iso885915': case 'iso_8859-15': case 'l9': return 'ISO-8859-15' case 'iso-8859-16': return 'ISO-8859-16' case 'cskoi8r': case 'koi': case 'koi8': case 'koi8-r': case 'koi8_r': return 'KOI8-R' case 'koi8-ru': case 'koi8-u': return 'KOI8-U' case 'csmacintosh': case 'mac': case 'macintosh': case 'x-mac-roman': return 'macintosh' case 'iso-8859-11': case 'iso8859-11': case 'iso885911': case 'tis-620': case 'windows-874': return 'windows-874' case 'cp1250': case 'windows-1250': case 'x-cp1250': return 'windows-1250' case 'cp1251': case 'windows-1251': case 'x-cp1251': return 'windows-1251' case 'ansi_x3.4-1968': case 'ascii': case 'cp1252': case 'cp819': case 'csisolatin1': case 'ibm819': case 'iso-8859-1': case 'iso-ir-100': case 'iso8859-1': case 'iso88591': case 'iso_8859-1': case 'iso_8859-1:1987': case 'l1': case 'latin1': case 'us-ascii': case 'windows-1252': case 'x-cp1252': return 'windows-1252' case 'cp1253': case 'windows-1253': case 'x-cp1253': return 'windows-1253' case 'cp1254': case 'csisolatin5': case 'iso-8859-9': case 'iso-ir-148': case 'iso8859-9': case 'iso88599': case 'iso_8859-9': case 'iso_8859-9:1989': case 'l5': case 'latin5': case 'windows-1254': case 'x-cp1254': return 'windows-1254' case 'cp1255': case 'windows-1255': case 'x-cp1255': return 'windows-1255' case 'cp1256': case 'windows-1256': case 'x-cp1256': return 'windows-1256' case 'cp1257': case 'windows-1257': case 'x-cp1257': return 'windows-1257' case 'cp1258': case 'windows-1258': case 'x-cp1258': return 'windows-1258' case 'x-mac-cyrillic': case 'x-mac-ukrainian': return 'x-mac-cyrillic' case 'chinese': case 'csgb2312': case 'csiso58gb231280': case 'gb2312': case 'gb_2312': case 'gb_2312-80': case 'gbk': case 'iso-ir-58': case 'x-gbk': return 'GBK' case 'gb18030': return 'gb18030' case 'big5': case 'big5-hkscs': case 'cn-big5': case 'csbig5': case 'x-x-big5': return 'Big5' case 'cseucpkdfmtjapanese': case 'euc-jp': case 'x-euc-jp': return 'EUC-JP' case 'csiso2022jp': case 'iso-2022-jp': return 'ISO-2022-JP' case 'csshiftjis': case 'ms932': case 'ms_kanji': case 'shift-jis': case 'shift_jis': case 'sjis': case 'windows-31j': case 'x-sjis': return 'Shift_JIS' case 'cseuckr': case 'csksc56011987': case 'euc-kr': case 'iso-ir-149': case 'korean': case 'ks_c_5601-1987': case 'ks_c_5601-1989': case 'ksc5601': case 'ksc_5601': case 'windows-949': return 'EUC-KR' case 'csiso2022kr': case 'hz-gb-2312': case 'iso-2022-cn': case 'iso-2022-cn-ext': case 'iso-2022-kr': case 'replacement': return 'replacement' case 'unicodefffe': case 'utf-16be': return 'UTF-16BE' case 'csunicode': case 'iso-10646-ucs-2': case 'ucs-2': case 'unicode': case 'unicodefeff': case 'utf-16': case 'utf-16le': return 'UTF-16LE' case 'x-user-defined': return 'x-user-defined' default: return 'failure' } } module.exports = { getEncoding } /***/ }), /***/ 2160: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { staticPropertyDescriptors, readOperation, fireAProgressEvent } = __nccwpck_require__(165) const { kState, kError, kResult, kEvents, kAborted } = __nccwpck_require__(6812) const { webidl } = __nccwpck_require__(4222) const { kEnumerableProperty } = __nccwpck_require__(3440) class FileReader extends EventTarget { constructor () { super() this[kState] = 'empty' this[kResult] = null this[kError] = null this[kEvents] = { loadend: null, error: null, abort: null, load: null, progress: null, loadstart: null } } /** * @see https://w3c.github.io/FileAPI/#dfn-readAsArrayBuffer * @param {import('buffer').Blob} blob */ readAsArrayBuffer (blob) { webidl.brandCheck(this, FileReader) webidl.argumentLengthCheck(arguments, 1, { header: 'FileReader.readAsArrayBuffer' }) blob = webidl.converters.Blob(blob, { strict: false }) // The readAsArrayBuffer(blob) method, when invoked, // must initiate a read operation for blob with ArrayBuffer. readOperation(this, blob, 'ArrayBuffer') } /** * @see https://w3c.github.io/FileAPI/#readAsBinaryString * @param {import('buffer').Blob} blob */ readAsBinaryString (blob) { webidl.brandCheck(this, FileReader) webidl.argumentLengthCheck(arguments, 1, { header: 'FileReader.readAsBinaryString' }) blob = webidl.converters.Blob(blob, { strict: false }) // The readAsBinaryString(blob) method, when invoked, // must initiate a read operation for blob with BinaryString. readOperation(this, blob, 'BinaryString') } /** * @see https://w3c.github.io/FileAPI/#readAsDataText * @param {import('buffer').Blob} blob * @param {string?} encoding */ readAsText (blob, encoding = undefined) { webidl.brandCheck(this, FileReader) webidl.argumentLengthCheck(arguments, 1, { header: 'FileReader.readAsText' }) blob = webidl.converters.Blob(blob, { strict: false }) if (encoding !== undefined) { encoding = webidl.converters.DOMString(encoding) } // The readAsText(blob, encoding) method, when invoked, // must initiate a read operation for blob with Text and encoding. readOperation(this, blob, 'Text', encoding) } /** * @see https://w3c.github.io/FileAPI/#dfn-readAsDataURL * @param {import('buffer').Blob} blob */ readAsDataURL (blob) { webidl.brandCheck(this, FileReader) webidl.argumentLengthCheck(arguments, 1, { header: 'FileReader.readAsDataURL' }) blob = webidl.converters.Blob(blob, { strict: false }) // The readAsDataURL(blob) method, when invoked, must // initiate a read operation for blob with DataURL. readOperation(this, blob, 'DataURL') } /** * @see https://w3c.github.io/FileAPI/#dfn-abort */ abort () { // 1. If this's state is "empty" or if this's state is // "done" set this's result to null and terminate // this algorithm. if (this[kState] === 'empty' || this[kState] === 'done') { this[kResult] = null return } // 2. If this's state is "loading" set this's state to // "done" and set this's result to null. if (this[kState] === 'loading') { this[kState] = 'done' this[kResult] = null } // 3. If there are any tasks from this on the file reading // task source in an affiliated task queue, then remove // those tasks from that task queue. this[kAborted] = true // 4. Terminate the algorithm for the read method being processed. // TODO // 5. Fire a progress event called abort at this. fireAProgressEvent('abort', this) // 6. If this's state is not "loading", fire a progress // event called loadend at this. if (this[kState] !== 'loading') { fireAProgressEvent('loadend', this) } } /** * @see https://w3c.github.io/FileAPI/#dom-filereader-readystate */ get readyState () { webidl.brandCheck(this, FileReader) switch (this[kState]) { case 'empty': return this.EMPTY case 'loading': return this.LOADING case 'done': return this.DONE } } /** * @see https://w3c.github.io/FileAPI/#dom-filereader-result */ get result () { webidl.brandCheck(this, FileReader) // The result attribute’s getter, when invoked, must return // this's result. return this[kResult] } /** * @see https://w3c.github.io/FileAPI/#dom-filereader-error */ get error () { webidl.brandCheck(this, FileReader) // The error attribute’s getter, when invoked, must return // this's error. return this[kError] } get onloadend () { webidl.brandCheck(this, FileReader) return this[kEvents].loadend } set onloadend (fn) { webidl.brandCheck(this, FileReader) if (this[kEvents].loadend) { this.removeEventListener('loadend', this[kEvents].loadend) } if (typeof fn === 'function') { this[kEvents].loadend = fn this.addEventListener('loadend', fn) } else { this[kEvents].loadend = null } } get onerror () { webidl.brandCheck(this, FileReader) return this[kEvents].error } set onerror (fn) { webidl.brandCheck(this, FileReader) if (this[kEvents].error) { this.removeEventListener('error', this[kEvents].error) } if (typeof fn === 'function') { this[kEvents].error = fn this.addEventListener('error', fn) } else { this[kEvents].error = null } } get onloadstart () { webidl.brandCheck(this, FileReader) return this[kEvents].loadstart } set onloadstart (fn) { webidl.brandCheck(this, FileReader) if (this[kEvents].loadstart) { this.removeEventListener('loadstart', this[kEvents].loadstart) } if (typeof fn === 'function') { this[kEvents].loadstart = fn this.addEventListener('loadstart', fn) } else { this[kEvents].loadstart = null } } get onprogress () { webidl.brandCheck(this, FileReader) return this[kEvents].progress } set onprogress (fn) { webidl.brandCheck(this, FileReader) if (this[kEvents].progress) { this.removeEventListener('progress', this[kEvents].progress) } if (typeof fn === 'function') { this[kEvents].progress = fn this.addEventListener('progress', fn) } else { this[kEvents].progress = null } } get onload () { webidl.brandCheck(this, FileReader) return this[kEvents].load } set onload (fn) { webidl.brandCheck(this, FileReader) if (this[kEvents].load) { this.removeEventListener('load', this[kEvents].load) } if (typeof fn === 'function') { this[kEvents].load = fn this.addEventListener('load', fn) } else { this[kEvents].load = null } } get onabort () { webidl.brandCheck(this, FileReader) return this[kEvents].abort } set onabort (fn) { webidl.brandCheck(this, FileReader) if (this[kEvents].abort) { this.removeEventListener('abort', this[kEvents].abort) } if (typeof fn === 'function') { this[kEvents].abort = fn this.addEventListener('abort', fn) } else { this[kEvents].abort = null } } } // https://w3c.github.io/FileAPI/#dom-filereader-empty FileReader.EMPTY = FileReader.prototype.EMPTY = 0 // https://w3c.github.io/FileAPI/#dom-filereader-loading FileReader.LOADING = FileReader.prototype.LOADING = 1 // https://w3c.github.io/FileAPI/#dom-filereader-done FileReader.DONE = FileReader.prototype.DONE = 2 Object.defineProperties(FileReader.prototype, { EMPTY: staticPropertyDescriptors, LOADING: staticPropertyDescriptors, DONE: staticPropertyDescriptors, readAsArrayBuffer: kEnumerableProperty, readAsBinaryString: kEnumerableProperty, readAsText: kEnumerableProperty, readAsDataURL: kEnumerableProperty, abort: kEnumerableProperty, readyState: kEnumerableProperty, result: kEnumerableProperty, error: kEnumerableProperty, onloadstart: kEnumerableProperty, onprogress: kEnumerableProperty, onload: kEnumerableProperty, onabort: kEnumerableProperty, onerror: kEnumerableProperty, onloadend: kEnumerableProperty, [Symbol.toStringTag]: { value: 'FileReader', writable: false, enumerable: false, configurable: true } }) Object.defineProperties(FileReader, { EMPTY: staticPropertyDescriptors, LOADING: staticPropertyDescriptors, DONE: staticPropertyDescriptors }) module.exports = { FileReader } /***/ }), /***/ 5976: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { webidl } = __nccwpck_require__(4222) const kState = Symbol('ProgressEvent state') /** * @see https://xhr.spec.whatwg.org/#progressevent */ class ProgressEvent extends Event { constructor (type, eventInitDict = {}) { type = webidl.converters.DOMString(type) eventInitDict = webidl.converters.ProgressEventInit(eventInitDict ?? {}) super(type, eventInitDict) this[kState] = { lengthComputable: eventInitDict.lengthComputable, loaded: eventInitDict.loaded, total: eventInitDict.total } } get lengthComputable () { webidl.brandCheck(this, ProgressEvent) return this[kState].lengthComputable } get loaded () { webidl.brandCheck(this, ProgressEvent) return this[kState].loaded } get total () { webidl.brandCheck(this, ProgressEvent) return this[kState].total } } webidl.converters.ProgressEventInit = webidl.dictionaryConverter([ { key: 'lengthComputable', converter: webidl.converters.boolean, defaultValue: false }, { key: 'loaded', converter: webidl.converters['unsigned long long'], defaultValue: 0 }, { key: 'total', converter: webidl.converters['unsigned long long'], defaultValue: 0 }, { key: 'bubbles', converter: webidl.converters.boolean, defaultValue: false }, { key: 'cancelable', converter: webidl.converters.boolean, defaultValue: false }, { key: 'composed', converter: webidl.converters.boolean, defaultValue: false } ]) module.exports = { ProgressEvent } /***/ }), /***/ 6812: /***/ ((module) => { module.exports = { kState: Symbol('FileReader state'), kResult: Symbol('FileReader result'), kError: Symbol('FileReader error'), kLastProgressEventFired: Symbol('FileReader last progress event fired timestamp'), kEvents: Symbol('FileReader events'), kAborted: Symbol('FileReader aborted') } /***/ }), /***/ 165: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { kState, kError, kResult, kAborted, kLastProgressEventFired } = __nccwpck_require__(6812) const { ProgressEvent } = __nccwpck_require__(5976) const { getEncoding } = __nccwpck_require__(396) const { DOMException } = __nccwpck_require__(7326) const { serializeAMimeType, parseMIMEType } = __nccwpck_require__(4322) const { types } = __nccwpck_require__(9023) const { StringDecoder } = __nccwpck_require__(3193) const { btoa } = __nccwpck_require__(181) /** @type {PropertyDescriptor} */ const staticPropertyDescriptors = { enumerable: true, writable: false, configurable: false } /** * @see https://w3c.github.io/FileAPI/#readOperation * @param {import('./filereader').FileReader} fr * @param {import('buffer').Blob} blob * @param {string} type * @param {string?} encodingName */ function readOperation (fr, blob, type, encodingName) { // 1. If fr’s state is "loading", throw an InvalidStateError // DOMException. if (fr[kState] === 'loading') { throw new DOMException('Invalid state', 'InvalidStateError') } // 2. Set fr’s state to "loading". fr[kState] = 'loading' // 3. Set fr’s result to null. fr[kResult] = null // 4. Set fr’s error to null. fr[kError] = null // 5. Let stream be the result of calling get stream on blob. /** @type {import('stream/web').ReadableStream} */ const stream = blob.stream() // 6. Let reader be the result of getting a reader from stream. const reader = stream.getReader() // 7. Let bytes be an empty byte sequence. /** @type {Uint8Array[]} */ const bytes = [] // 8. Let chunkPromise be the result of reading a chunk from // stream with reader. let chunkPromise = reader.read() // 9. Let isFirstChunk be true. let isFirstChunk = true // 10. In parallel, while true: // Note: "In parallel" just means non-blocking // Note 2: readOperation itself cannot be async as double // reading the body would then reject the promise, instead // of throwing an error. ;(async () => { while (!fr[kAborted]) { // 1. Wait for chunkPromise to be fulfilled or rejected. try { const { done, value } = await chunkPromise // 2. If chunkPromise is fulfilled, and isFirstChunk is // true, queue a task to fire a progress event called // loadstart at fr. if (isFirstChunk && !fr[kAborted]) { queueMicrotask(() => { fireAProgressEvent('loadstart', fr) }) } // 3. Set isFirstChunk to false. isFirstChunk = false // 4. If chunkPromise is fulfilled with an object whose // done property is false and whose value property is // a Uint8Array object, run these steps: if (!done && types.isUint8Array(value)) { // 1. Let bs be the byte sequence represented by the // Uint8Array object. // 2. Append bs to bytes. bytes.push(value) // 3. If roughly 50ms have passed since these steps // were last invoked, queue a task to fire a // progress event called progress at fr. if ( ( fr[kLastProgressEventFired] === undefined || Date.now() - fr[kLastProgressEventFired] >= 50 ) && !fr[kAborted] ) { fr[kLastProgressEventFired] = Date.now() queueMicrotask(() => { fireAProgressEvent('progress', fr) }) } // 4. Set chunkPromise to the result of reading a // chunk from stream with reader. chunkPromise = reader.read() } else if (done) { // 5. Otherwise, if chunkPromise is fulfilled with an // object whose done property is true, queue a task // to run the following steps and abort this algorithm: queueMicrotask(() => { // 1. Set fr’s state to "done". fr[kState] = 'done' // 2. Let result be the result of package data given // bytes, type, blob’s type, and encodingName. try { const result = packageData(bytes, type, blob.type, encodingName) // 4. Else: if (fr[kAborted]) { return } // 1. Set fr’s result to result. fr[kResult] = result // 2. Fire a progress event called load at the fr. fireAProgressEvent('load', fr) } catch (error) { // 3. If package data threw an exception error: // 1. Set fr’s error to error. fr[kError] = error // 2. Fire a progress event called error at fr. fireAProgressEvent('error', fr) } // 5. If fr’s state is not "loading", fire a progress // event called loadend at the fr. if (fr[kState] !== 'loading') { fireAProgressEvent('loadend', fr) } }) break } } catch (error) { if (fr[kAborted]) { return } // 6. Otherwise, if chunkPromise is rejected with an // error error, queue a task to run the following // steps and abort this algorithm: queueMicrotask(() => { // 1. Set fr’s state to "done". fr[kState] = 'done' // 2. Set fr’s error to error. fr[kError] = error // 3. Fire a progress event called error at fr. fireAProgressEvent('error', fr) // 4. If fr’s state is not "loading", fire a progress // event called loadend at fr. if (fr[kState] !== 'loading') { fireAProgressEvent('loadend', fr) } }) break } } })() } /** * @see https://w3c.github.io/FileAPI/#fire-a-progress-event * @see https://dom.spec.whatwg.org/#concept-event-fire * @param {string} e The name of the event * @param {import('./filereader').FileReader} reader */ function fireAProgressEvent (e, reader) { // The progress event e does not bubble. e.bubbles must be false // The progress event e is NOT cancelable. e.cancelable must be false const event = new ProgressEvent(e, { bubbles: false, cancelable: false }) reader.dispatchEvent(event) } /** * @see https://w3c.github.io/FileAPI/#blob-package-data * @param {Uint8Array[]} bytes * @param {string} type * @param {string?} mimeType * @param {string?} encodingName */ function packageData (bytes, type, mimeType, encodingName) { // 1. A Blob has an associated package data algorithm, given // bytes, a type, a optional mimeType, and a optional // encodingName, which switches on type and runs the // associated steps: switch (type) { case 'DataURL': { // 1. Return bytes as a DataURL [RFC2397] subject to // the considerations below: // * Use mimeType as part of the Data URL if it is // available in keeping with the Data URL // specification [RFC2397]. // * If mimeType is not available return a Data URL // without a media-type. [RFC2397]. // https://datatracker.ietf.org/doc/html/rfc2397#section-3 // dataurl := "data:" [ mediatype ] [ ";base64" ] "," data // mediatype := [ type "/" subtype ] *( ";" parameter ) // data := *urlchar // parameter := attribute "=" value let dataURL = 'data:' const parsed = parseMIMEType(mimeType || 'application/octet-stream') if (parsed !== 'failure') { dataURL += serializeAMimeType(parsed) } dataURL += ';base64,' const decoder = new StringDecoder('latin1') for (const chunk of bytes) { dataURL += btoa(decoder.write(chunk)) } dataURL += btoa(decoder.end()) return dataURL } case 'Text': { // 1. Let encoding be failure let encoding = 'failure' // 2. If the encodingName is present, set encoding to the // result of getting an encoding from encodingName. if (encodingName) { encoding = getEncoding(encodingName) } // 3. If encoding is failure, and mimeType is present: if (encoding === 'failure' && mimeType) { // 1. Let type be the result of parse a MIME type // given mimeType. const type = parseMIMEType(mimeType) // 2. If type is not failure, set encoding to the result // of getting an encoding from type’s parameters["charset"]. if (type !== 'failure') { encoding = getEncoding(type.parameters.get('charset')) } } // 4. If encoding is failure, then set encoding to UTF-8. if (encoding === 'failure') { encoding = 'UTF-8' } // 5. Decode bytes using fallback encoding encoding, and // return the result. return decode(bytes, encoding) } case 'ArrayBuffer': { // Return a new ArrayBuffer whose contents are bytes. const sequence = combineByteSequences(bytes) return sequence.buffer } case 'BinaryString': { // Return bytes as a binary string, in which every byte // is represented by a code unit of equal value [0..255]. let binaryString = '' const decoder = new StringDecoder('latin1') for (const chunk of bytes) { binaryString += decoder.write(chunk) } binaryString += decoder.end() return binaryString } } } /** * @see https://encoding.spec.whatwg.org/#decode * @param {Uint8Array[]} ioQueue * @param {string} encoding */ function decode (ioQueue, encoding) { const bytes = combineByteSequences(ioQueue) // 1. Let BOMEncoding be the result of BOM sniffing ioQueue. const BOMEncoding = BOMSniffing(bytes) let slice = 0 // 2. If BOMEncoding is non-null: if (BOMEncoding !== null) { // 1. Set encoding to BOMEncoding. encoding = BOMEncoding // 2. Read three bytes from ioQueue, if BOMEncoding is // UTF-8; otherwise read two bytes. // (Do nothing with those bytes.) slice = BOMEncoding === 'UTF-8' ? 3 : 2 } // 3. Process a queue with an instance of encoding’s // decoder, ioQueue, output, and "replacement". // 4. Return output. const sliced = bytes.slice(slice) return new TextDecoder(encoding).decode(sliced) } /** * @see https://encoding.spec.whatwg.org/#bom-sniff * @param {Uint8Array} ioQueue */ function BOMSniffing (ioQueue) { // 1. Let BOM be the result of peeking 3 bytes from ioQueue, // converted to a byte sequence. const [a, b, c] = ioQueue // 2. For each of the rows in the table below, starting with // the first one and going down, if BOM starts with the // bytes given in the first column, then return the // encoding given in the cell in the second column of that // row. Otherwise, return null. if (a === 0xEF && b === 0xBB && c === 0xBF) { return 'UTF-8' } else if (a === 0xFE && b === 0xFF) { return 'UTF-16BE' } else if (a === 0xFF && b === 0xFE) { return 'UTF-16LE' } return null } /** * @param {Uint8Array[]} sequences */ function combineByteSequences (sequences) { const size = sequences.reduce((a, b) => { return a + b.byteLength }, 0) let offset = 0 return sequences.reduce((a, b) => { a.set(b, offset) offset += b.byteLength return a }, new Uint8Array(size)) } module.exports = { staticPropertyDescriptors, readOperation, fireAProgressEvent } /***/ }), /***/ 2581: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // We include a version number for the Dispatcher API. In case of breaking changes, // this version number must be increased to avoid conflicts. const globalDispatcher = Symbol.for('undici.globalDispatcher.1') const { InvalidArgumentError } = __nccwpck_require__(8707) const Agent = __nccwpck_require__(9965) if (getGlobalDispatcher() === undefined) { setGlobalDispatcher(new Agent()) } function setGlobalDispatcher (agent) { if (!agent || typeof agent.dispatch !== 'function') { throw new InvalidArgumentError('Argument agent must implement Agent') } Object.defineProperty(globalThis, globalDispatcher, { value: agent, writable: true, enumerable: false, configurable: false }) } function getGlobalDispatcher () { return globalThis[globalDispatcher] } module.exports = { setGlobalDispatcher, getGlobalDispatcher } /***/ }), /***/ 8840: /***/ ((module) => { module.exports = class DecoratorHandler { constructor (handler) { this.handler = handler } onConnect (...args) { return this.handler.onConnect(...args) } onError (...args) { return this.handler.onError(...args) } onUpgrade (...args) { return this.handler.onUpgrade(...args) } onHeaders (...args) { return this.handler.onHeaders(...args) } onData (...args) { return this.handler.onData(...args) } onComplete (...args) { return this.handler.onComplete(...args) } onBodySent (...args) { return this.handler.onBodySent(...args) } } /***/ }), /***/ 8299: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const util = __nccwpck_require__(3440) const { kBodyUsed } = __nccwpck_require__(6443) const assert = __nccwpck_require__(2613) const { InvalidArgumentError } = __nccwpck_require__(8707) const EE = __nccwpck_require__(4434) const redirectableStatusCodes = [300, 301, 302, 303, 307, 308] const kBody = Symbol('body') class BodyAsyncIterable { constructor (body) { this[kBody] = body this[kBodyUsed] = false } async * [Symbol.asyncIterator] () { assert(!this[kBodyUsed], 'disturbed') this[kBodyUsed] = true yield * this[kBody] } } class RedirectHandler { constructor (dispatch, maxRedirections, opts, handler) { if (maxRedirections != null && (!Number.isInteger(maxRedirections) || maxRedirections < 0)) { throw new InvalidArgumentError('maxRedirections must be a positive number') } util.validateHandler(handler, opts.method, opts.upgrade) this.dispatch = dispatch this.location = null this.abort = null this.opts = { ...opts, maxRedirections: 0 } // opts must be a copy this.maxRedirections = maxRedirections this.handler = handler this.history = [] if (util.isStream(this.opts.body)) { // TODO (fix): Provide some way for the user to cache the file to e.g. /tmp // so that it can be dispatched again? // TODO (fix): Do we need 100-expect support to provide a way to do this properly? if (util.bodyLength(this.opts.body) === 0) { this.opts.body .on('data', function () { assert(false) }) } if (typeof this.opts.body.readableDidRead !== 'boolean') { this.opts.body[kBodyUsed] = false EE.prototype.on.call(this.opts.body, 'data', function () { this[kBodyUsed] = true }) } } else if (this.opts.body && typeof this.opts.body.pipeTo === 'function') { // TODO (fix): We can't access ReadableStream internal state // to determine whether or not it has been disturbed. This is just // a workaround. this.opts.body = new BodyAsyncIterable(this.opts.body) } else if ( this.opts.body && typeof this.opts.body !== 'string' && !ArrayBuffer.isView(this.opts.body) && util.isIterable(this.opts.body) ) { // TODO: Should we allow re-using iterable if !this.opts.idempotent // or through some other flag? this.opts.body = new BodyAsyncIterable(this.opts.body) } } onConnect (abort) { this.abort = abort this.handler.onConnect(abort, { history: this.history }) } onUpgrade (statusCode, headers, socket) { this.handler.onUpgrade(statusCode, headers, socket) } onError (error) { this.handler.onError(error) } onHeaders (statusCode, headers, resume, statusText) { this.location = this.history.length >= this.maxRedirections || util.isDisturbed(this.opts.body) ? null : parseLocation(statusCode, headers) if (this.opts.origin) { this.history.push(new URL(this.opts.path, this.opts.origin)) } if (!this.location) { return this.handler.onHeaders(statusCode, headers, resume, statusText) } const { origin, pathname, search } = util.parseURL(new URL(this.location, this.opts.origin && new URL(this.opts.path, this.opts.origin))) const path = search ? `${pathname}${search}` : pathname // Remove headers referring to the original URL. // By default it is Host only, unless it's a 303 (see below), which removes also all Content-* headers. // https://tools.ietf.org/html/rfc7231#section-6.4 this.opts.headers = cleanRequestHeaders(this.opts.headers, statusCode === 303, this.opts.origin !== origin) this.opts.path = path this.opts.origin = origin this.opts.maxRedirections = 0 this.opts.query = null // https://tools.ietf.org/html/rfc7231#section-6.4.4 // In case of HTTP 303, always replace method to be either HEAD or GET if (statusCode === 303 && this.opts.method !== 'HEAD') { this.opts.method = 'GET' this.opts.body = null } } onData (chunk) { if (this.location) { /* https://tools.ietf.org/html/rfc7231#section-6.4 TLDR: undici always ignores 3xx response bodies. Redirection is used to serve the requested resource from another URL, so it is assumes that no body is generated (and thus can be ignored). Even though generating a body is not prohibited. For status 301, 302, 303, 307 and 308 (the latter from RFC 7238), the specs mention that the body usually (which means it's optional and not mandated) contain just an hyperlink to the value of the Location response header, so the body can be ignored safely. For status 300, which is "Multiple Choices", the spec mentions both generating a Location response header AND a response body with the other possible location to follow. Since the spec explicitily chooses not to specify a format for such body and leave it to servers and browsers implementors, we ignore the body as there is no specified way to eventually parse it. */ } else { return this.handler.onData(chunk) } } onComplete (trailers) { if (this.location) { /* https://tools.ietf.org/html/rfc7231#section-6.4 TLDR: undici always ignores 3xx response trailers as they are not expected in case of redirections and neither are useful if present. See comment on onData method above for more detailed informations. */ this.location = null this.abort = null this.dispatch(this.opts, this) } else { this.handler.onComplete(trailers) } } onBodySent (chunk) { if (this.handler.onBodySent) { this.handler.onBodySent(chunk) } } } function parseLocation (statusCode, headers) { if (redirectableStatusCodes.indexOf(statusCode) === -1) { return null } for (let i = 0; i < headers.length; i += 2) { if (headers[i].toString().toLowerCase() === 'location') { return headers[i + 1] } } } // https://tools.ietf.org/html/rfc7231#section-6.4.4 function shouldRemoveHeader (header, removeContent, unknownOrigin) { if (header.length === 4) { return util.headerNameToString(header) === 'host' } if (removeContent && util.headerNameToString(header).startsWith('content-')) { return true } if (unknownOrigin && (header.length === 13 || header.length === 6 || header.length === 19)) { const name = util.headerNameToString(header) return name === 'authorization' || name === 'cookie' || name === 'proxy-authorization' } return false } // https://tools.ietf.org/html/rfc7231#section-6.4 function cleanRequestHeaders (headers, removeContent, unknownOrigin) { const ret = [] if (Array.isArray(headers)) { for (let i = 0; i < headers.length; i += 2) { if (!shouldRemoveHeader(headers[i], removeContent, unknownOrigin)) { ret.push(headers[i], headers[i + 1]) } } } else if (headers && typeof headers === 'object') { for (const key of Object.keys(headers)) { if (!shouldRemoveHeader(key, removeContent, unknownOrigin)) { ret.push(key, headers[key]) } } } else { assert(headers == null, 'headers must be an object or an array') } return ret } module.exports = RedirectHandler /***/ }), /***/ 3573: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const assert = __nccwpck_require__(2613) const { kRetryHandlerDefaultRetry } = __nccwpck_require__(6443) const { RequestRetryError } = __nccwpck_require__(8707) const { isDisturbed, parseHeaders, parseRangeHeader } = __nccwpck_require__(3440) function calculateRetryAfterHeader (retryAfter) { const current = Date.now() const diff = new Date(retryAfter).getTime() - current return diff } class RetryHandler { constructor (opts, handlers) { const { retryOptions, ...dispatchOpts } = opts const { // Retry scoped retry: retryFn, maxRetries, maxTimeout, minTimeout, timeoutFactor, // Response scoped methods, errorCodes, retryAfter, statusCodes } = retryOptions ?? {} this.dispatch = handlers.dispatch this.handler = handlers.handler this.opts = dispatchOpts this.abort = null this.aborted = false this.retryOpts = { retry: retryFn ?? RetryHandler[kRetryHandlerDefaultRetry], retryAfter: retryAfter ?? true, maxTimeout: maxTimeout ?? 30 * 1000, // 30s, timeout: minTimeout ?? 500, // .5s timeoutFactor: timeoutFactor ?? 2, maxRetries: maxRetries ?? 5, // What errors we should retry methods: methods ?? ['GET', 'HEAD', 'OPTIONS', 'PUT', 'DELETE', 'TRACE'], // Indicates which errors to retry statusCodes: statusCodes ?? [500, 502, 503, 504, 429], // List of errors to retry errorCodes: errorCodes ?? [ 'ECONNRESET', 'ECONNREFUSED', 'ENOTFOUND', 'ENETDOWN', 'ENETUNREACH', 'EHOSTDOWN', 'EHOSTUNREACH', 'EPIPE' ] } this.retryCount = 0 this.start = 0 this.end = null this.etag = null this.resume = null // Handle possible onConnect duplication this.handler.onConnect(reason => { this.aborted = true if (this.abort) { this.abort(reason) } else { this.reason = reason } }) } onRequestSent () { if (this.handler.onRequestSent) { this.handler.onRequestSent() } } onUpgrade (statusCode, headers, socket) { if (this.handler.onUpgrade) { this.handler.onUpgrade(statusCode, headers, socket) } } onConnect (abort) { if (this.aborted) { abort(this.reason) } else { this.abort = abort } } onBodySent (chunk) { if (this.handler.onBodySent) return this.handler.onBodySent(chunk) } static [kRetryHandlerDefaultRetry] (err, { state, opts }, cb) { const { statusCode, code, headers } = err const { method, retryOptions } = opts const { maxRetries, timeout, maxTimeout, timeoutFactor, statusCodes, errorCodes, methods } = retryOptions let { counter, currentTimeout } = state currentTimeout = currentTimeout != null && currentTimeout > 0 ? currentTimeout : timeout // Any code that is not a Undici's originated and allowed to retry if ( code && code !== 'UND_ERR_REQ_RETRY' && code !== 'UND_ERR_SOCKET' && !errorCodes.includes(code) ) { cb(err) return } // If a set of method are provided and the current method is not in the list if (Array.isArray(methods) && !methods.includes(method)) { cb(err) return } // If a set of status code are provided and the current status code is not in the list if ( statusCode != null && Array.isArray(statusCodes) && !statusCodes.includes(statusCode) ) { cb(err) return } // If we reached the max number of retries if (counter > maxRetries) { cb(err) return } let retryAfterHeader = headers != null && headers['retry-after'] if (retryAfterHeader) { retryAfterHeader = Number(retryAfterHeader) retryAfterHeader = isNaN(retryAfterHeader) ? calculateRetryAfterHeader(retryAfterHeader) : retryAfterHeader * 1e3 // Retry-After is in seconds } const retryTimeout = retryAfterHeader > 0 ? Math.min(retryAfterHeader, maxTimeout) : Math.min(currentTimeout * timeoutFactor ** counter, maxTimeout) state.currentTimeout = retryTimeout setTimeout(() => cb(null), retryTimeout) } onHeaders (statusCode, rawHeaders, resume, statusMessage) { const headers = parseHeaders(rawHeaders) this.retryCount += 1 if (statusCode >= 300) { this.abort( new RequestRetryError('Request failed', statusCode, { headers, count: this.retryCount }) ) return false } // Checkpoint for resume from where we left it if (this.resume != null) { this.resume = null if (statusCode !== 206) { return true } const contentRange = parseRangeHeader(headers['content-range']) // If no content range if (!contentRange) { this.abort( new RequestRetryError('Content-Range mismatch', statusCode, { headers, count: this.retryCount }) ) return false } // Let's start with a weak etag check if (this.etag != null && this.etag !== headers.etag) { this.abort( new RequestRetryError('ETag mismatch', statusCode, { headers, count: this.retryCount }) ) return false } const { start, size, end = size } = contentRange assert(this.start === start, 'content-range mismatch') assert(this.end == null || this.end === end, 'content-range mismatch') this.resume = resume return true } if (this.end == null) { if (statusCode === 206) { // First time we receive 206 const range = parseRangeHeader(headers['content-range']) if (range == null) { return this.handler.onHeaders( statusCode, rawHeaders, resume, statusMessage ) } const { start, size, end = size } = range assert( start != null && Number.isFinite(start) && this.start !== start, 'content-range mismatch' ) assert(Number.isFinite(start)) assert( end != null && Number.isFinite(end) && this.end !== end, 'invalid content-length' ) this.start = start this.end = end } // We make our best to checkpoint the body for further range headers if (this.end == null) { const contentLength = headers['content-length'] this.end = contentLength != null ? Number(contentLength) : null } assert(Number.isFinite(this.start)) assert( this.end == null || Number.isFinite(this.end), 'invalid content-length' ) this.resume = resume this.etag = headers.etag != null ? headers.etag : null return this.handler.onHeaders( statusCode, rawHeaders, resume, statusMessage ) } const err = new RequestRetryError('Request failed', statusCode, { headers, count: this.retryCount }) this.abort(err) return false } onData (chunk) { this.start += chunk.length return this.handler.onData(chunk) } onComplete (rawTrailers) { this.retryCount = 0 return this.handler.onComplete(rawTrailers) } onError (err) { if (this.aborted || isDisturbed(this.opts.body)) { return this.handler.onError(err) } this.retryOpts.retry( err, { state: { counter: this.retryCount++, currentTimeout: this.retryAfter }, opts: { retryOptions: this.retryOpts, ...this.opts } }, onRetry.bind(this) ) function onRetry (err) { if (err != null || this.aborted || isDisturbed(this.opts.body)) { return this.handler.onError(err) } if (this.start !== 0) { this.opts = { ...this.opts, headers: { ...this.opts.headers, range: `bytes=${this.start}-${this.end ?? ''}` } } } try { this.dispatch(this.opts, this) } catch (err) { this.handler.onError(err) } } } } module.exports = RetryHandler /***/ }), /***/ 4415: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const RedirectHandler = __nccwpck_require__(8299) function createRedirectInterceptor ({ maxRedirections: defaultMaxRedirections }) { return (dispatch) => { return function Intercept (opts, handler) { const { maxRedirections = defaultMaxRedirections } = opts if (!maxRedirections) { return dispatch(opts, handler) } const redirectHandler = new RedirectHandler(dispatch, maxRedirections, opts, handler) opts = { ...opts, maxRedirections: 0 } // Stop sub dispatcher from also redirecting. return dispatch(opts, redirectHandler) } } } module.exports = createRedirectInterceptor /***/ }), /***/ 2824: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.SPECIAL_HEADERS = exports.HEADER_STATE = exports.MINOR = exports.MAJOR = exports.CONNECTION_TOKEN_CHARS = exports.HEADER_CHARS = exports.TOKEN = exports.STRICT_TOKEN = exports.HEX = exports.URL_CHAR = exports.STRICT_URL_CHAR = exports.USERINFO_CHARS = exports.MARK = exports.ALPHANUM = exports.NUM = exports.HEX_MAP = exports.NUM_MAP = exports.ALPHA = exports.FINISH = exports.H_METHOD_MAP = exports.METHOD_MAP = exports.METHODS_RTSP = exports.METHODS_ICE = exports.METHODS_HTTP = exports.METHODS = exports.LENIENT_FLAGS = exports.FLAGS = exports.TYPE = exports.ERROR = void 0; const utils_1 = __nccwpck_require__(172); // C headers var ERROR; (function (ERROR) { ERROR[ERROR["OK"] = 0] = "OK"; ERROR[ERROR["INTERNAL"] = 1] = "INTERNAL"; ERROR[ERROR["STRICT"] = 2] = "STRICT"; ERROR[ERROR["LF_EXPECTED"] = 3] = "LF_EXPECTED"; ERROR[ERROR["UNEXPECTED_CONTENT_LENGTH"] = 4] = "UNEXPECTED_CONTENT_LENGTH"; ERROR[ERROR["CLOSED_CONNECTION"] = 5] = "CLOSED_CONNECTION"; ERROR[ERROR["INVALID_METHOD"] = 6] = "INVALID_METHOD"; ERROR[ERROR["INVALID_URL"] = 7] = "INVALID_URL"; ERROR[ERROR["INVALID_CONSTANT"] = 8] = "INVALID_CONSTANT"; ERROR[ERROR["INVALID_VERSION"] = 9] = "INVALID_VERSION"; ERROR[ERROR["INVALID_HEADER_TOKEN"] = 10] = "INVALID_HEADER_TOKEN"; ERROR[ERROR["INVALID_CONTENT_LENGTH"] = 11] = "INVALID_CONTENT_LENGTH"; ERROR[ERROR["INVALID_CHUNK_SIZE"] = 12] = "INVALID_CHUNK_SIZE"; ERROR[ERROR["INVALID_STATUS"] = 13] = "INVALID_STATUS"; ERROR[ERROR["INVALID_EOF_STATE"] = 14] = "INVALID_EOF_STATE"; ERROR[ERROR["INVALID_TRANSFER_ENCODING"] = 15] = "INVALID_TRANSFER_ENCODING"; ERROR[ERROR["CB_MESSAGE_BEGIN"] = 16] = "CB_MESSAGE_BEGIN"; ERROR[ERROR["CB_HEADERS_COMPLETE"] = 17] = "CB_HEADERS_COMPLETE"; ERROR[ERROR["CB_MESSAGE_COMPLETE"] = 18] = "CB_MESSAGE_COMPLETE"; ERROR[ERROR["CB_CHUNK_HEADER"] = 19] = "CB_CHUNK_HEADER"; ERROR[ERROR["CB_CHUNK_COMPLETE"] = 20] = "CB_CHUNK_COMPLETE"; ERROR[ERROR["PAUSED"] = 21] = "PAUSED"; ERROR[ERROR["PAUSED_UPGRADE"] = 22] = "PAUSED_UPGRADE"; ERROR[ERROR["PAUSED_H2_UPGRADE"] = 23] = "PAUSED_H2_UPGRADE"; ERROR[ERROR["USER"] = 24] = "USER"; })(ERROR = exports.ERROR || (exports.ERROR = {})); var TYPE; (function (TYPE) { TYPE[TYPE["BOTH"] = 0] = "BOTH"; TYPE[TYPE["REQUEST"] = 1] = "REQUEST"; TYPE[TYPE["RESPONSE"] = 2] = "RESPONSE"; })(TYPE = exports.TYPE || (exports.TYPE = {})); var FLAGS; (function (FLAGS) { FLAGS[FLAGS["CONNECTION_KEEP_ALIVE"] = 1] = "CONNECTION_KEEP_ALIVE"; FLAGS[FLAGS["CONNECTION_CLOSE"] = 2] = "CONNECTION_CLOSE"; FLAGS[FLAGS["CONNECTION_UPGRADE"] = 4] = "CONNECTION_UPGRADE"; FLAGS[FLAGS["CHUNKED"] = 8] = "CHUNKED"; FLAGS[FLAGS["UPGRADE"] = 16] = "UPGRADE"; FLAGS[FLAGS["CONTENT_LENGTH"] = 32] = "CONTENT_LENGTH"; FLAGS[FLAGS["SKIPBODY"] = 64] = "SKIPBODY"; FLAGS[FLAGS["TRAILING"] = 128] = "TRAILING"; // 1 << 8 is unused FLAGS[FLAGS["TRANSFER_ENCODING"] = 512] = "TRANSFER_ENCODING"; })(FLAGS = exports.FLAGS || (exports.FLAGS = {})); var LENIENT_FLAGS; (function (LENIENT_FLAGS) { LENIENT_FLAGS[LENIENT_FLAGS["HEADERS"] = 1] = "HEADERS"; LENIENT_FLAGS[LENIENT_FLAGS["CHUNKED_LENGTH"] = 2] = "CHUNKED_LENGTH"; LENIENT_FLAGS[LENIENT_FLAGS["KEEP_ALIVE"] = 4] = "KEEP_ALIVE"; })(LENIENT_FLAGS = exports.LENIENT_FLAGS || (exports.LENIENT_FLAGS = {})); var METHODS; (function (METHODS) { METHODS[METHODS["DELETE"] = 0] = "DELETE"; METHODS[METHODS["GET"] = 1] = "GET"; METHODS[METHODS["HEAD"] = 2] = "HEAD"; METHODS[METHODS["POST"] = 3] = "POST"; METHODS[METHODS["PUT"] = 4] = "PUT"; /* pathological */ METHODS[METHODS["CONNECT"] = 5] = "CONNECT"; METHODS[METHODS["OPTIONS"] = 6] = "OPTIONS"; METHODS[METHODS["TRACE"] = 7] = "TRACE"; /* WebDAV */ METHODS[METHODS["COPY"] = 8] = "COPY"; METHODS[METHODS["LOCK"] = 9] = "LOCK"; METHODS[METHODS["MKCOL"] = 10] = "MKCOL"; METHODS[METHODS["MOVE"] = 11] = "MOVE"; METHODS[METHODS["PROPFIND"] = 12] = "PROPFIND"; METHODS[METHODS["PROPPATCH"] = 13] = "PROPPATCH"; METHODS[METHODS["SEARCH"] = 14] = "SEARCH"; METHODS[METHODS["UNLOCK"] = 15] = "UNLOCK"; METHODS[METHODS["BIND"] = 16] = "BIND"; METHODS[METHODS["REBIND"] = 17] = "REBIND"; METHODS[METHODS["UNBIND"] = 18] = "UNBIND"; METHODS[METHODS["ACL"] = 19] = "ACL"; /* subversion */ METHODS[METHODS["REPORT"] = 20] = "REPORT"; METHODS[METHODS["MKACTIVITY"] = 21] = "MKACTIVITY"; METHODS[METHODS["CHECKOUT"] = 22] = "CHECKOUT"; METHODS[METHODS["MERGE"] = 23] = "MERGE"; /* upnp */ METHODS[METHODS["M-SEARCH"] = 24] = "M-SEARCH"; METHODS[METHODS["NOTIFY"] = 25] = "NOTIFY"; METHODS[METHODS["SUBSCRIBE"] = 26] = "SUBSCRIBE"; METHODS[METHODS["UNSUBSCRIBE"] = 27] = "UNSUBSCRIBE"; /* RFC-5789 */ METHODS[METHODS["PATCH"] = 28] = "PATCH"; METHODS[METHODS["PURGE"] = 29] = "PURGE"; /* CalDAV */ METHODS[METHODS["MKCALENDAR"] = 30] = "MKCALENDAR"; /* RFC-2068, section 19.6.1.2 */ METHODS[METHODS["LINK"] = 31] = "LINK"; METHODS[METHODS["UNLINK"] = 32] = "UNLINK"; /* icecast */ METHODS[METHODS["SOURCE"] = 33] = "SOURCE"; /* RFC-7540, section 11.6 */ METHODS[METHODS["PRI"] = 34] = "PRI"; /* RFC-2326 RTSP */ METHODS[METHODS["DESCRIBE"] = 35] = "DESCRIBE"; METHODS[METHODS["ANNOUNCE"] = 36] = "ANNOUNCE"; METHODS[METHODS["SETUP"] = 37] = "SETUP"; METHODS[METHODS["PLAY"] = 38] = "PLAY"; METHODS[METHODS["PAUSE"] = 39] = "PAUSE"; METHODS[METHODS["TEARDOWN"] = 40] = "TEARDOWN"; METHODS[METHODS["GET_PARAMETER"] = 41] = "GET_PARAMETER"; METHODS[METHODS["SET_PARAMETER"] = 42] = "SET_PARAMETER"; METHODS[METHODS["REDIRECT"] = 43] = "REDIRECT"; METHODS[METHODS["RECORD"] = 44] = "RECORD"; /* RAOP */ METHODS[METHODS["FLUSH"] = 45] = "FLUSH"; })(METHODS = exports.METHODS || (exports.METHODS = {})); exports.METHODS_HTTP = [ METHODS.DELETE, METHODS.GET, METHODS.HEAD, METHODS.POST, METHODS.PUT, METHODS.CONNECT, METHODS.OPTIONS, METHODS.TRACE, METHODS.COPY, METHODS.LOCK, METHODS.MKCOL, METHODS.MOVE, METHODS.PROPFIND, METHODS.PROPPATCH, METHODS.SEARCH, METHODS.UNLOCK, METHODS.BIND, METHODS.REBIND, METHODS.UNBIND, METHODS.ACL, METHODS.REPORT, METHODS.MKACTIVITY, METHODS.CHECKOUT, METHODS.MERGE, METHODS['M-SEARCH'], METHODS.NOTIFY, METHODS.SUBSCRIBE, METHODS.UNSUBSCRIBE, METHODS.PATCH, METHODS.PURGE, METHODS.MKCALENDAR, METHODS.LINK, METHODS.UNLINK, METHODS.PRI, // TODO(indutny): should we allow it with HTTP? METHODS.SOURCE, ]; exports.METHODS_ICE = [ METHODS.SOURCE, ]; exports.METHODS_RTSP = [ METHODS.OPTIONS, METHODS.DESCRIBE, METHODS.ANNOUNCE, METHODS.SETUP, METHODS.PLAY, METHODS.PAUSE, METHODS.TEARDOWN, METHODS.GET_PARAMETER, METHODS.SET_PARAMETER, METHODS.REDIRECT, METHODS.RECORD, METHODS.FLUSH, // For AirPlay METHODS.GET, METHODS.POST, ]; exports.METHOD_MAP = utils_1.enumToMap(METHODS); exports.H_METHOD_MAP = {}; Object.keys(exports.METHOD_MAP).forEach((key) => { if (/^H/.test(key)) { exports.H_METHOD_MAP[key] = exports.METHOD_MAP[key]; } }); var FINISH; (function (FINISH) { FINISH[FINISH["SAFE"] = 0] = "SAFE"; FINISH[FINISH["SAFE_WITH_CB"] = 1] = "SAFE_WITH_CB"; FINISH[FINISH["UNSAFE"] = 2] = "UNSAFE"; })(FINISH = exports.FINISH || (exports.FINISH = {})); exports.ALPHA = []; for (let i = 'A'.charCodeAt(0); i <= 'Z'.charCodeAt(0); i++) { // Upper case exports.ALPHA.push(String.fromCharCode(i)); // Lower case exports.ALPHA.push(String.fromCharCode(i + 0x20)); } exports.NUM_MAP = { 0: 0, 1: 1, 2: 2, 3: 3, 4: 4, 5: 5, 6: 6, 7: 7, 8: 8, 9: 9, }; exports.HEX_MAP = { 0: 0, 1: 1, 2: 2, 3: 3, 4: 4, 5: 5, 6: 6, 7: 7, 8: 8, 9: 9, A: 0XA, B: 0XB, C: 0XC, D: 0XD, E: 0XE, F: 0XF, a: 0xa, b: 0xb, c: 0xc, d: 0xd, e: 0xe, f: 0xf, }; exports.NUM = [ '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', ]; exports.ALPHANUM = exports.ALPHA.concat(exports.NUM); exports.MARK = ['-', '_', '.', '!', '~', '*', '\'', '(', ')']; exports.USERINFO_CHARS = exports.ALPHANUM .concat(exports.MARK) .concat(['%', ';', ':', '&', '=', '+', '$', ',']); // TODO(indutny): use RFC exports.STRICT_URL_CHAR = [ '!', '"', '$', '%', '&', '\'', '(', ')', '*', '+', ',', '-', '.', '/', ':', ';', '<', '=', '>', '@', '[', '\\', ']', '^', '_', '`', '{', '|', '}', '~', ].concat(exports.ALPHANUM); exports.URL_CHAR = exports.STRICT_URL_CHAR .concat(['\t', '\f']); // All characters with 0x80 bit set to 1 for (let i = 0x80; i <= 0xff; i++) { exports.URL_CHAR.push(i); } exports.HEX = exports.NUM.concat(['a', 'b', 'c', 'd', 'e', 'f', 'A', 'B', 'C', 'D', 'E', 'F']); /* Tokens as defined by rfc 2616. Also lowercases them. * token = 1* * separators = "(" | ")" | "<" | ">" | "@" * | "," | ";" | ":" | "\" | <"> * | "/" | "[" | "]" | "?" | "=" * | "{" | "}" | SP | HT */ exports.STRICT_TOKEN = [ '!', '#', '$', '%', '&', '\'', '*', '+', '-', '.', '^', '_', '`', '|', '~', ].concat(exports.ALPHANUM); exports.TOKEN = exports.STRICT_TOKEN.concat([' ']); /* * Verify that a char is a valid visible (printable) US-ASCII * character or %x80-FF */ exports.HEADER_CHARS = ['\t']; for (let i = 32; i <= 255; i++) { if (i !== 127) { exports.HEADER_CHARS.push(i); } } // ',' = \x44 exports.CONNECTION_TOKEN_CHARS = exports.HEADER_CHARS.filter((c) => c !== 44); exports.MAJOR = exports.NUM_MAP; exports.MINOR = exports.MAJOR; var HEADER_STATE; (function (HEADER_STATE) { HEADER_STATE[HEADER_STATE["GENERAL"] = 0] = "GENERAL"; HEADER_STATE[HEADER_STATE["CONNECTION"] = 1] = "CONNECTION"; HEADER_STATE[HEADER_STATE["CONTENT_LENGTH"] = 2] = "CONTENT_LENGTH"; HEADER_STATE[HEADER_STATE["TRANSFER_ENCODING"] = 3] = "TRANSFER_ENCODING"; HEADER_STATE[HEADER_STATE["UPGRADE"] = 4] = "UPGRADE"; HEADER_STATE[HEADER_STATE["CONNECTION_KEEP_ALIVE"] = 5] = "CONNECTION_KEEP_ALIVE"; HEADER_STATE[HEADER_STATE["CONNECTION_CLOSE"] = 6] = "CONNECTION_CLOSE"; HEADER_STATE[HEADER_STATE["CONNECTION_UPGRADE"] = 7] = "CONNECTION_UPGRADE"; HEADER_STATE[HEADER_STATE["TRANSFER_ENCODING_CHUNKED"] = 8] = "TRANSFER_ENCODING_CHUNKED"; })(HEADER_STATE = exports.HEADER_STATE || (exports.HEADER_STATE = {})); exports.SPECIAL_HEADERS = { 'connection': HEADER_STATE.CONNECTION, 'content-length': HEADER_STATE.CONTENT_LENGTH, 'proxy-connection': HEADER_STATE.CONNECTION, 'transfer-encoding': HEADER_STATE.TRANSFER_ENCODING, 'upgrade': HEADER_STATE.UPGRADE, }; //# sourceMappingURL=constants.js.map /***/ }), /***/ 3870: /***/ ((module) => { module.exports = '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/***/ }), /***/ 3434: /***/ ((module) => { module.exports = 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/***/ }), /***/ 172: /***/ ((__unused_webpack_module, exports) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.enumToMap = void 0; function enumToMap(obj) { const res = {}; Object.keys(obj).forEach((key) => { const value = obj[key]; if (typeof value === 'number') { res[key] = value; } }); return res; } exports.enumToMap = enumToMap; //# sourceMappingURL=utils.js.map /***/ }), /***/ 7501: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { kClients } = __nccwpck_require__(6443) const Agent = __nccwpck_require__(9965) const { kAgent, kMockAgentSet, kMockAgentGet, kDispatches, kIsMockActive, kNetConnect, kGetNetConnect, kOptions, kFactory } = __nccwpck_require__(1117) const MockClient = __nccwpck_require__(7365) const MockPool = __nccwpck_require__(4004) const { matchValue, buildMockOptions } = __nccwpck_require__(3397) const { InvalidArgumentError, UndiciError } = __nccwpck_require__(8707) const Dispatcher = __nccwpck_require__(992) const Pluralizer = __nccwpck_require__(1529) const PendingInterceptorsFormatter = __nccwpck_require__(6142) class FakeWeakRef { constructor (value) { this.value = value } deref () { return this.value } } class MockAgent extends Dispatcher { constructor (opts) { super(opts) this[kNetConnect] = true this[kIsMockActive] = true // Instantiate Agent and encapsulate if ((opts && opts.agent && typeof opts.agent.dispatch !== 'function')) { throw new InvalidArgumentError('Argument opts.agent must implement Agent') } const agent = opts && opts.agent ? opts.agent : new Agent(opts) this[kAgent] = agent this[kClients] = agent[kClients] this[kOptions] = buildMockOptions(opts) } get (origin) { let dispatcher = this[kMockAgentGet](origin) if (!dispatcher) { dispatcher = this[kFactory](origin) this[kMockAgentSet](origin, dispatcher) } return dispatcher } dispatch (opts, handler) { // Call MockAgent.get to perform additional setup before dispatching as normal this.get(opts.origin) return this[kAgent].dispatch(opts, handler) } async close () { await this[kAgent].close() this[kClients].clear() } deactivate () { this[kIsMockActive] = false } activate () { this[kIsMockActive] = true } enableNetConnect (matcher) { if (typeof matcher === 'string' || typeof matcher === 'function' || matcher instanceof RegExp) { if (Array.isArray(this[kNetConnect])) { this[kNetConnect].push(matcher) } else { this[kNetConnect] = [matcher] } } else if (typeof matcher === 'undefined') { this[kNetConnect] = true } else { throw new InvalidArgumentError('Unsupported matcher. Must be one of String|Function|RegExp.') } } disableNetConnect () { this[kNetConnect] = false } // This is required to bypass issues caused by using global symbols - see: // https://github.com/nodejs/undici/issues/1447 get isMockActive () { return this[kIsMockActive] } [kMockAgentSet] (origin, dispatcher) { this[kClients].set(origin, new FakeWeakRef(dispatcher)) } [kFactory] (origin) { const mockOptions = Object.assign({ agent: this }, this[kOptions]) return this[kOptions] && this[kOptions].connections === 1 ? new MockClient(origin, mockOptions) : new MockPool(origin, mockOptions) } [kMockAgentGet] (origin) { // First check if we can immediately find it const ref = this[kClients].get(origin) if (ref) { return ref.deref() } // If the origin is not a string create a dummy parent pool and return to user if (typeof origin !== 'string') { const dispatcher = this[kFactory]('http://localhost:9999') this[kMockAgentSet](origin, dispatcher) return dispatcher } // If we match, create a pool and assign the same dispatches for (const [keyMatcher, nonExplicitRef] of Array.from(this[kClients])) { const nonExplicitDispatcher = nonExplicitRef.deref() if (nonExplicitDispatcher && typeof keyMatcher !== 'string' && matchValue(keyMatcher, origin)) { const dispatcher = this[kFactory](origin) this[kMockAgentSet](origin, dispatcher) dispatcher[kDispatches] = nonExplicitDispatcher[kDispatches] return dispatcher } } } [kGetNetConnect] () { return this[kNetConnect] } pendingInterceptors () { const mockAgentClients = this[kClients] return Array.from(mockAgentClients.entries()) .flatMap(([origin, scope]) => scope.deref()[kDispatches].map(dispatch => ({ ...dispatch, origin }))) .filter(({ pending }) => pending) } assertNoPendingInterceptors ({ pendingInterceptorsFormatter = new PendingInterceptorsFormatter() } = {}) { const pending = this.pendingInterceptors() if (pending.length === 0) { return } const pluralizer = new Pluralizer('interceptor', 'interceptors').pluralize(pending.length) throw new UndiciError(` ${pluralizer.count} ${pluralizer.noun} ${pluralizer.is} pending: ${pendingInterceptorsFormatter.format(pending)} `.trim()) } } module.exports = MockAgent /***/ }), /***/ 7365: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { promisify } = __nccwpck_require__(9023) const Client = __nccwpck_require__(6197) const { buildMockDispatch } = __nccwpck_require__(3397) const { kDispatches, kMockAgent, kClose, kOriginalClose, kOrigin, kOriginalDispatch, kConnected } = __nccwpck_require__(1117) const { MockInterceptor } = __nccwpck_require__(1511) const Symbols = __nccwpck_require__(6443) const { InvalidArgumentError } = __nccwpck_require__(8707) /** * MockClient provides an API that extends the Client to influence the mockDispatches. */ class MockClient extends Client { constructor (origin, opts) { super(origin, opts) if (!opts || !opts.agent || typeof opts.agent.dispatch !== 'function') { throw new InvalidArgumentError('Argument opts.agent must implement Agent') } this[kMockAgent] = opts.agent this[kOrigin] = origin this[kDispatches] = [] this[kConnected] = 1 this[kOriginalDispatch] = this.dispatch this[kOriginalClose] = this.close.bind(this) this.dispatch = buildMockDispatch.call(this) this.close = this[kClose] } get [Symbols.kConnected] () { return this[kConnected] } /** * Sets up the base interceptor for mocking replies from undici. */ intercept (opts) { return new MockInterceptor(opts, this[kDispatches]) } async [kClose] () { await promisify(this[kOriginalClose])() this[kConnected] = 0 this[kMockAgent][Symbols.kClients].delete(this[kOrigin]) } } module.exports = MockClient /***/ }), /***/ 2429: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { UndiciError } = __nccwpck_require__(8707) class MockNotMatchedError extends UndiciError { constructor (message) { super(message) Error.captureStackTrace(this, MockNotMatchedError) this.name = 'MockNotMatchedError' this.message = message || 'The request does not match any registered mock dispatches' this.code = 'UND_MOCK_ERR_MOCK_NOT_MATCHED' } } module.exports = { MockNotMatchedError } /***/ }), /***/ 1511: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { getResponseData, buildKey, addMockDispatch } = __nccwpck_require__(3397) const { kDispatches, kDispatchKey, kDefaultHeaders, kDefaultTrailers, kContentLength, kMockDispatch } = __nccwpck_require__(1117) const { InvalidArgumentError } = __nccwpck_require__(8707) const { buildURL } = __nccwpck_require__(3440) /** * Defines the scope API for an interceptor reply */ class MockScope { constructor (mockDispatch) { this[kMockDispatch] = mockDispatch } /** * Delay a reply by a set amount in ms. */ delay (waitInMs) { if (typeof waitInMs !== 'number' || !Number.isInteger(waitInMs) || waitInMs <= 0) { throw new InvalidArgumentError('waitInMs must be a valid integer > 0') } this[kMockDispatch].delay = waitInMs return this } /** * For a defined reply, never mark as consumed. */ persist () { this[kMockDispatch].persist = true return this } /** * Allow one to define a reply for a set amount of matching requests. */ times (repeatTimes) { if (typeof repeatTimes !== 'number' || !Number.isInteger(repeatTimes) || repeatTimes <= 0) { throw new InvalidArgumentError('repeatTimes must be a valid integer > 0') } this[kMockDispatch].times = repeatTimes return this } } /** * Defines an interceptor for a Mock */ class MockInterceptor { constructor (opts, mockDispatches) { if (typeof opts !== 'object') { throw new InvalidArgumentError('opts must be an object') } if (typeof opts.path === 'undefined') { throw new InvalidArgumentError('opts.path must be defined') } if (typeof opts.method === 'undefined') { opts.method = 'GET' } // See https://github.com/nodejs/undici/issues/1245 // As per RFC 3986, clients are not supposed to send URI // fragments to servers when they retrieve a document, if (typeof opts.path === 'string') { if (opts.query) { opts.path = buildURL(opts.path, opts.query) } else { // Matches https://github.com/nodejs/undici/blob/main/lib/fetch/index.js#L1811 const parsedURL = new URL(opts.path, 'data://') opts.path = parsedURL.pathname + parsedURL.search } } if (typeof opts.method === 'string') { opts.method = opts.method.toUpperCase() } this[kDispatchKey] = buildKey(opts) this[kDispatches] = mockDispatches this[kDefaultHeaders] = {} this[kDefaultTrailers] = {} this[kContentLength] = false } createMockScopeDispatchData (statusCode, data, responseOptions = {}) { const responseData = getResponseData(data) const contentLength = this[kContentLength] ? { 'content-length': responseData.length } : {} const headers = { ...this[kDefaultHeaders], ...contentLength, ...responseOptions.headers } const trailers = { ...this[kDefaultTrailers], ...responseOptions.trailers } return { statusCode, data, headers, trailers } } validateReplyParameters (statusCode, data, responseOptions) { if (typeof statusCode === 'undefined') { throw new InvalidArgumentError('statusCode must be defined') } if (typeof data === 'undefined') { throw new InvalidArgumentError('data must be defined') } if (typeof responseOptions !== 'object') { throw new InvalidArgumentError('responseOptions must be an object') } } /** * Mock an undici request with a defined reply. */ reply (replyData) { // Values of reply aren't available right now as they // can only be available when the reply callback is invoked. if (typeof replyData === 'function') { // We'll first wrap the provided callback in another function, // this function will properly resolve the data from the callback // when invoked. const wrappedDefaultsCallback = (opts) => { // Our reply options callback contains the parameter for statusCode, data and options. const resolvedData = replyData(opts) // Check if it is in the right format if (typeof resolvedData !== 'object') { throw new InvalidArgumentError('reply options callback must return an object') } const { statusCode, data = '', responseOptions = {} } = resolvedData this.validateReplyParameters(statusCode, data, responseOptions) // Since the values can be obtained immediately we return them // from this higher order function that will be resolved later. return { ...this.createMockScopeDispatchData(statusCode, data, responseOptions) } } // Add usual dispatch data, but this time set the data parameter to function that will eventually provide data. const newMockDispatch = addMockDispatch(this[kDispatches], this[kDispatchKey], wrappedDefaultsCallback) return new MockScope(newMockDispatch) } // We can have either one or three parameters, if we get here, // we should have 1-3 parameters. So we spread the arguments of // this function to obtain the parameters, since replyData will always // just be the statusCode. const [statusCode, data = '', responseOptions = {}] = [...arguments] this.validateReplyParameters(statusCode, data, responseOptions) // Send in-already provided data like usual const dispatchData = this.createMockScopeDispatchData(statusCode, data, responseOptions) const newMockDispatch = addMockDispatch(this[kDispatches], this[kDispatchKey], dispatchData) return new MockScope(newMockDispatch) } /** * Mock an undici request with a defined error. */ replyWithError (error) { if (typeof error === 'undefined') { throw new InvalidArgumentError('error must be defined') } const newMockDispatch = addMockDispatch(this[kDispatches], this[kDispatchKey], { error }) return new MockScope(newMockDispatch) } /** * Set default reply headers on the interceptor for subsequent replies */ defaultReplyHeaders (headers) { if (typeof headers === 'undefined') { throw new InvalidArgumentError('headers must be defined') } this[kDefaultHeaders] = headers return this } /** * Set default reply trailers on the interceptor for subsequent replies */ defaultReplyTrailers (trailers) { if (typeof trailers === 'undefined') { throw new InvalidArgumentError('trailers must be defined') } this[kDefaultTrailers] = trailers return this } /** * Set reply content length header for replies on the interceptor */ replyContentLength () { this[kContentLength] = true return this } } module.exports.MockInterceptor = MockInterceptor module.exports.MockScope = MockScope /***/ }), /***/ 4004: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { promisify } = __nccwpck_require__(9023) const Pool = __nccwpck_require__(5076) const { buildMockDispatch } = __nccwpck_require__(3397) const { kDispatches, kMockAgent, kClose, kOriginalClose, kOrigin, kOriginalDispatch, kConnected } = __nccwpck_require__(1117) const { MockInterceptor } = __nccwpck_require__(1511) const Symbols = __nccwpck_require__(6443) const { InvalidArgumentError } = __nccwpck_require__(8707) /** * MockPool provides an API that extends the Pool to influence the mockDispatches. */ class MockPool extends Pool { constructor (origin, opts) { super(origin, opts) if (!opts || !opts.agent || typeof opts.agent.dispatch !== 'function') { throw new InvalidArgumentError('Argument opts.agent must implement Agent') } this[kMockAgent] = opts.agent this[kOrigin] = origin this[kDispatches] = [] this[kConnected] = 1 this[kOriginalDispatch] = this.dispatch this[kOriginalClose] = this.close.bind(this) this.dispatch = buildMockDispatch.call(this) this.close = this[kClose] } get [Symbols.kConnected] () { return this[kConnected] } /** * Sets up the base interceptor for mocking replies from undici. */ intercept (opts) { return new MockInterceptor(opts, this[kDispatches]) } async [kClose] () { await promisify(this[kOriginalClose])() this[kConnected] = 0 this[kMockAgent][Symbols.kClients].delete(this[kOrigin]) } } module.exports = MockPool /***/ }), /***/ 1117: /***/ ((module) => { module.exports = { kAgent: Symbol('agent'), kOptions: Symbol('options'), kFactory: Symbol('factory'), kDispatches: Symbol('dispatches'), kDispatchKey: Symbol('dispatch key'), kDefaultHeaders: Symbol('default headers'), kDefaultTrailers: Symbol('default trailers'), kContentLength: Symbol('content length'), kMockAgent: Symbol('mock agent'), kMockAgentSet: Symbol('mock agent set'), kMockAgentGet: Symbol('mock agent get'), kMockDispatch: Symbol('mock dispatch'), kClose: Symbol('close'), kOriginalClose: Symbol('original agent close'), kOrigin: Symbol('origin'), kIsMockActive: Symbol('is mock active'), kNetConnect: Symbol('net connect'), kGetNetConnect: Symbol('get net connect'), kConnected: Symbol('connected') } /***/ }), /***/ 3397: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { MockNotMatchedError } = __nccwpck_require__(2429) const { kDispatches, kMockAgent, kOriginalDispatch, kOrigin, kGetNetConnect } = __nccwpck_require__(1117) const { buildURL, nop } = __nccwpck_require__(3440) const { STATUS_CODES } = __nccwpck_require__(8611) const { types: { isPromise } } = __nccwpck_require__(9023) function matchValue (match, value) { if (typeof match === 'string') { return match === value } if (match instanceof RegExp) { return match.test(value) } if (typeof match === 'function') { return match(value) === true } return false } function lowerCaseEntries (headers) { return Object.fromEntries( Object.entries(headers).map(([headerName, headerValue]) => { return [headerName.toLocaleLowerCase(), headerValue] }) ) } /** * @param {import('../../index').Headers|string[]|Record} headers * @param {string} key */ function getHeaderByName (headers, key) { if (Array.isArray(headers)) { for (let i = 0; i < headers.length; i += 2) { if (headers[i].toLocaleLowerCase() === key.toLocaleLowerCase()) { return headers[i + 1] } } return undefined } else if (typeof headers.get === 'function') { return headers.get(key) } else { return lowerCaseEntries(headers)[key.toLocaleLowerCase()] } } /** @param {string[]} headers */ function buildHeadersFromArray (headers) { // fetch HeadersList const clone = headers.slice() const entries = [] for (let index = 0; index < clone.length; index += 2) { entries.push([clone[index], clone[index + 1]]) } return Object.fromEntries(entries) } function matchHeaders (mockDispatch, headers) { if (typeof mockDispatch.headers === 'function') { if (Array.isArray(headers)) { // fetch HeadersList headers = buildHeadersFromArray(headers) } return mockDispatch.headers(headers ? lowerCaseEntries(headers) : {}) } if (typeof mockDispatch.headers === 'undefined') { return true } if (typeof headers !== 'object' || typeof mockDispatch.headers !== 'object') { return false } for (const [matchHeaderName, matchHeaderValue] of Object.entries(mockDispatch.headers)) { const headerValue = getHeaderByName(headers, matchHeaderName) if (!matchValue(matchHeaderValue, headerValue)) { return false } } return true } function safeUrl (path) { if (typeof path !== 'string') { return path } const pathSegments = path.split('?') if (pathSegments.length !== 2) { return path } const qp = new URLSearchParams(pathSegments.pop()) qp.sort() return [...pathSegments, qp.toString()].join('?') } function matchKey (mockDispatch, { path, method, body, headers }) { const pathMatch = matchValue(mockDispatch.path, path) const methodMatch = matchValue(mockDispatch.method, method) const bodyMatch = typeof mockDispatch.body !== 'undefined' ? matchValue(mockDispatch.body, body) : true const headersMatch = matchHeaders(mockDispatch, headers) return pathMatch && methodMatch && bodyMatch && headersMatch } function getResponseData (data) { if (Buffer.isBuffer(data)) { return data } else if (typeof data === 'object') { return JSON.stringify(data) } else { return data.toString() } } function getMockDispatch (mockDispatches, key) { const basePath = key.query ? buildURL(key.path, key.query) : key.path const resolvedPath = typeof basePath === 'string' ? safeUrl(basePath) : basePath // Match path let matchedMockDispatches = mockDispatches.filter(({ consumed }) => !consumed).filter(({ path }) => matchValue(safeUrl(path), resolvedPath)) if (matchedMockDispatches.length === 0) { throw new MockNotMatchedError(`Mock dispatch not matched for path '${resolvedPath}'`) } // Match method matchedMockDispatches = matchedMockDispatches.filter(({ method }) => matchValue(method, key.method)) if (matchedMockDispatches.length === 0) { throw new MockNotMatchedError(`Mock dispatch not matched for method '${key.method}'`) } // Match body matchedMockDispatches = matchedMockDispatches.filter(({ body }) => typeof body !== 'undefined' ? matchValue(body, key.body) : true) if (matchedMockDispatches.length === 0) { throw new MockNotMatchedError(`Mock dispatch not matched for body '${key.body}'`) } // Match headers matchedMockDispatches = matchedMockDispatches.filter((mockDispatch) => matchHeaders(mockDispatch, key.headers)) if (matchedMockDispatches.length === 0) { throw new MockNotMatchedError(`Mock dispatch not matched for headers '${typeof key.headers === 'object' ? JSON.stringify(key.headers) : key.headers}'`) } return matchedMockDispatches[0] } function addMockDispatch (mockDispatches, key, data) { const baseData = { timesInvoked: 0, times: 1, persist: false, consumed: false } const replyData = typeof data === 'function' ? { callback: data } : { ...data } const newMockDispatch = { ...baseData, ...key, pending: true, data: { error: null, ...replyData } } mockDispatches.push(newMockDispatch) return newMockDispatch } function deleteMockDispatch (mockDispatches, key) { const index = mockDispatches.findIndex(dispatch => { if (!dispatch.consumed) { return false } return matchKey(dispatch, key) }) if (index !== -1) { mockDispatches.splice(index, 1) } } function buildKey (opts) { const { path, method, body, headers, query } = opts return { path, method, body, headers, query } } function generateKeyValues (data) { return Object.entries(data).reduce((keyValuePairs, [key, value]) => [ ...keyValuePairs, Buffer.from(`${key}`), Array.isArray(value) ? value.map(x => Buffer.from(`${x}`)) : Buffer.from(`${value}`) ], []) } /** * @see https://developer.mozilla.org/en-US/docs/Web/HTTP/Status * @param {number} statusCode */ function getStatusText (statusCode) { return STATUS_CODES[statusCode] || 'unknown' } async function getResponse (body) { const buffers = [] for await (const data of body) { buffers.push(data) } return Buffer.concat(buffers).toString('utf8') } /** * Mock dispatch function used to simulate undici dispatches */ function mockDispatch (opts, handler) { // Get mock dispatch from built key const key = buildKey(opts) const mockDispatch = getMockDispatch(this[kDispatches], key) mockDispatch.timesInvoked++ // Here's where we resolve a callback if a callback is present for the dispatch data. if (mockDispatch.data.callback) { mockDispatch.data = { ...mockDispatch.data, ...mockDispatch.data.callback(opts) } } // Parse mockDispatch data const { data: { statusCode, data, headers, trailers, error }, delay, persist } = mockDispatch const { timesInvoked, times } = mockDispatch // If it's used up and not persistent, mark as consumed mockDispatch.consumed = !persist && timesInvoked >= times mockDispatch.pending = timesInvoked < times // If specified, trigger dispatch error if (error !== null) { deleteMockDispatch(this[kDispatches], key) handler.onError(error) return true } // Handle the request with a delay if necessary if (typeof delay === 'number' && delay > 0) { setTimeout(() => { handleReply(this[kDispatches]) }, delay) } else { handleReply(this[kDispatches]) } function handleReply (mockDispatches, _data = data) { // fetch's HeadersList is a 1D string array const optsHeaders = Array.isArray(opts.headers) ? buildHeadersFromArray(opts.headers) : opts.headers const body = typeof _data === 'function' ? _data({ ...opts, headers: optsHeaders }) : _data // util.types.isPromise is likely needed for jest. if (isPromise(body)) { // If handleReply is asynchronous, throwing an error // in the callback will reject the promise, rather than // synchronously throw the error, which breaks some tests. // Rather, we wait for the callback to resolve if it is a // promise, and then re-run handleReply with the new body. body.then((newData) => handleReply(mockDispatches, newData)) return } const responseData = getResponseData(body) const responseHeaders = generateKeyValues(headers) const responseTrailers = generateKeyValues(trailers) handler.abort = nop handler.onHeaders(statusCode, responseHeaders, resume, getStatusText(statusCode)) handler.onData(Buffer.from(responseData)) handler.onComplete(responseTrailers) deleteMockDispatch(mockDispatches, key) } function resume () {} return true } function buildMockDispatch () { const agent = this[kMockAgent] const origin = this[kOrigin] const originalDispatch = this[kOriginalDispatch] return function dispatch (opts, handler) { if (agent.isMockActive) { try { mockDispatch.call(this, opts, handler) } catch (error) { if (error instanceof MockNotMatchedError) { const netConnect = agent[kGetNetConnect]() if (netConnect === false) { throw new MockNotMatchedError(`${error.message}: subsequent request to origin ${origin} was not allowed (net.connect disabled)`) } if (checkNetConnect(netConnect, origin)) { originalDispatch.call(this, opts, handler) } else { throw new MockNotMatchedError(`${error.message}: subsequent request to origin ${origin} was not allowed (net.connect is not enabled for this origin)`) } } else { throw error } } } else { originalDispatch.call(this, opts, handler) } } } function checkNetConnect (netConnect, origin) { const url = new URL(origin) if (netConnect === true) { return true } else if (Array.isArray(netConnect) && netConnect.some((matcher) => matchValue(matcher, url.host))) { return true } return false } function buildMockOptions (opts) { if (opts) { const { agent, ...mockOptions } = opts return mockOptions } } module.exports = { getResponseData, getMockDispatch, addMockDispatch, deleteMockDispatch, buildKey, generateKeyValues, matchValue, getResponse, getStatusText, mockDispatch, buildMockDispatch, checkNetConnect, buildMockOptions, getHeaderByName } /***/ }), /***/ 6142: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { Transform } = __nccwpck_require__(2203) const { Console } = __nccwpck_require__(4236) /** * Gets the output of `console.table(…)` as a string. */ module.exports = class PendingInterceptorsFormatter { constructor ({ disableColors } = {}) { this.transform = new Transform({ transform (chunk, _enc, cb) { cb(null, chunk) } }) this.logger = new Console({ stdout: this.transform, inspectOptions: { colors: !disableColors && !process.env.CI } }) } format (pendingInterceptors) { const withPrettyHeaders = pendingInterceptors.map( ({ method, path, data: { statusCode }, persist, times, timesInvoked, origin }) => ({ Method: method, Origin: origin, Path: path, 'Status code': statusCode, Persistent: persist ? '✅' : '❌', Invocations: timesInvoked, Remaining: persist ? Infinity : times - timesInvoked })) this.logger.table(withPrettyHeaders) return this.transform.read().toString() } } /***/ }), /***/ 1529: /***/ ((module) => { const singulars = { pronoun: 'it', is: 'is', was: 'was', this: 'this' } const plurals = { pronoun: 'they', is: 'are', was: 'were', this: 'these' } module.exports = class Pluralizer { constructor (singular, plural) { this.singular = singular this.plural = plural } pluralize (count) { const one = count === 1 const keys = one ? singulars : plurals const noun = one ? this.singular : this.plural return { ...keys, count, noun } } } /***/ }), /***/ 4869: /***/ ((module) => { /* eslint-disable */ // Extracted from node/lib/internal/fixed_queue.js // Currently optimal queue size, tested on V8 6.0 - 6.6. Must be power of two. const kSize = 2048; const kMask = kSize - 1; // The FixedQueue is implemented as a singly-linked list of fixed-size // circular buffers. It looks something like this: // // head tail // | | // v v // +-----------+ <-----\ +-----------+ <------\ +-----------+ // | [null] | \----- | next | \------- | next | // +-----------+ +-----------+ +-----------+ // | item | <-- bottom | item | <-- bottom | [empty] | // | item | | item | | [empty] | // | item | | item | | [empty] | // | item | | item | | [empty] | // | item | | item | bottom --> | item | // | item | | item | | item | // | ... | | ... | | ... | // | item | | item | | item | // | item | | item | | item | // | [empty] | <-- top | item | | item | // | [empty] | | item | | item | // | [empty] | | [empty] | <-- top top --> | [empty] | // +-----------+ +-----------+ +-----------+ // // Or, if there is only one circular buffer, it looks something // like either of these: // // head tail head tail // | | | | // v v v v // +-----------+ +-----------+ // | [null] | | [null] | // +-----------+ +-----------+ // | [empty] | | item | // | [empty] | | item | // | item | <-- bottom top --> | [empty] | // | item | | [empty] | // | [empty] | <-- top bottom --> | item | // | [empty] | | item | // +-----------+ +-----------+ // // Adding a value means moving `top` forward by one, removing means // moving `bottom` forward by one. After reaching the end, the queue // wraps around. // // When `top === bottom` the current queue is empty and when // `top + 1 === bottom` it's full. This wastes a single space of storage // but allows much quicker checks. class FixedCircularBuffer { constructor() { this.bottom = 0; this.top = 0; this.list = new Array(kSize); this.next = null; } isEmpty() { return this.top === this.bottom; } isFull() { return ((this.top + 1) & kMask) === this.bottom; } push(data) { this.list[this.top] = data; this.top = (this.top + 1) & kMask; } shift() { const nextItem = this.list[this.bottom]; if (nextItem === undefined) return null; this.list[this.bottom] = undefined; this.bottom = (this.bottom + 1) & kMask; return nextItem; } } module.exports = class FixedQueue { constructor() { this.head = this.tail = new FixedCircularBuffer(); } isEmpty() { return this.head.isEmpty(); } push(data) { if (this.head.isFull()) { // Head is full: Creates a new queue, sets the old queue's `.next` to it, // and sets it as the new main queue. this.head = this.head.next = new FixedCircularBuffer(); } this.head.push(data); } shift() { const tail = this.tail; const next = tail.shift(); if (tail.isEmpty() && tail.next !== null) { // If there is another queue, it forms the new tail. this.tail = tail.next; } return next; } }; /***/ }), /***/ 8640: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const DispatcherBase = __nccwpck_require__(1) const FixedQueue = __nccwpck_require__(4869) const { kConnected, kSize, kRunning, kPending, kQueued, kBusy, kFree, kUrl, kClose, kDestroy, kDispatch } = __nccwpck_require__(6443) const PoolStats = __nccwpck_require__(4622) const kClients = Symbol('clients') const kNeedDrain = Symbol('needDrain') const kQueue = Symbol('queue') const kClosedResolve = Symbol('closed resolve') const kOnDrain = Symbol('onDrain') const kOnConnect = Symbol('onConnect') const kOnDisconnect = Symbol('onDisconnect') const kOnConnectionError = Symbol('onConnectionError') const kGetDispatcher = Symbol('get dispatcher') const kAddClient = Symbol('add client') const kRemoveClient = Symbol('remove client') const kStats = Symbol('stats') class PoolBase extends DispatcherBase { constructor () { super() this[kQueue] = new FixedQueue() this[kClients] = [] this[kQueued] = 0 const pool = this this[kOnDrain] = function onDrain (origin, targets) { const queue = pool[kQueue] let needDrain = false while (!needDrain) { const item = queue.shift() if (!item) { break } pool[kQueued]-- needDrain = !this.dispatch(item.opts, item.handler) } this[kNeedDrain] = needDrain if (!this[kNeedDrain] && pool[kNeedDrain]) { pool[kNeedDrain] = false pool.emit('drain', origin, [pool, ...targets]) } if (pool[kClosedResolve] && queue.isEmpty()) { Promise .all(pool[kClients].map(c => c.close())) .then(pool[kClosedResolve]) } } this[kOnConnect] = (origin, targets) => { pool.emit('connect', origin, [pool, ...targets]) } this[kOnDisconnect] = (origin, targets, err) => { pool.emit('disconnect', origin, [pool, ...targets], err) } this[kOnConnectionError] = (origin, targets, err) => { pool.emit('connectionError', origin, [pool, ...targets], err) } this[kStats] = new PoolStats(this) } get [kBusy] () { return this[kNeedDrain] } get [kConnected] () { return this[kClients].filter(client => client[kConnected]).length } get [kFree] () { return this[kClients].filter(client => client[kConnected] && !client[kNeedDrain]).length } get [kPending] () { let ret = this[kQueued] for (const { [kPending]: pending } of this[kClients]) { ret += pending } return ret } get [kRunning] () { let ret = 0 for (const { [kRunning]: running } of this[kClients]) { ret += running } return ret } get [kSize] () { let ret = this[kQueued] for (const { [kSize]: size } of this[kClients]) { ret += size } return ret } get stats () { return this[kStats] } async [kClose] () { if (this[kQueue].isEmpty()) { return Promise.all(this[kClients].map(c => c.close())) } else { return new Promise((resolve) => { this[kClosedResolve] = resolve }) } } async [kDestroy] (err) { while (true) { const item = this[kQueue].shift() if (!item) { break } item.handler.onError(err) } return Promise.all(this[kClients].map(c => c.destroy(err))) } [kDispatch] (opts, handler) { const dispatcher = this[kGetDispatcher]() if (!dispatcher) { this[kNeedDrain] = true this[kQueue].push({ opts, handler }) this[kQueued]++ } else if (!dispatcher.dispatch(opts, handler)) { dispatcher[kNeedDrain] = true this[kNeedDrain] = !this[kGetDispatcher]() } return !this[kNeedDrain] } [kAddClient] (client) { client .on('drain', this[kOnDrain]) .on('connect', this[kOnConnect]) .on('disconnect', this[kOnDisconnect]) .on('connectionError', this[kOnConnectionError]) this[kClients].push(client) if (this[kNeedDrain]) { process.nextTick(() => { if (this[kNeedDrain]) { this[kOnDrain](client[kUrl], [this, client]) } }) } return this } [kRemoveClient] (client) { client.close(() => { const idx = this[kClients].indexOf(client) if (idx !== -1) { this[kClients].splice(idx, 1) } }) this[kNeedDrain] = this[kClients].some(dispatcher => ( !dispatcher[kNeedDrain] && dispatcher.closed !== true && dispatcher.destroyed !== true )) } } module.exports = { PoolBase, kClients, kNeedDrain, kAddClient, kRemoveClient, kGetDispatcher } /***/ }), /***/ 4622: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { kFree, kConnected, kPending, kQueued, kRunning, kSize } = __nccwpck_require__(6443) const kPool = Symbol('pool') class PoolStats { constructor (pool) { this[kPool] = pool } get connected () { return this[kPool][kConnected] } get free () { return this[kPool][kFree] } get pending () { return this[kPool][kPending] } get queued () { return this[kPool][kQueued] } get running () { return this[kPool][kRunning] } get size () { return this[kPool][kSize] } } module.exports = PoolStats /***/ }), /***/ 5076: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { PoolBase, kClients, kNeedDrain, kAddClient, kGetDispatcher } = __nccwpck_require__(8640) const Client = __nccwpck_require__(6197) const { InvalidArgumentError } = __nccwpck_require__(8707) const util = __nccwpck_require__(3440) const { kUrl, kInterceptors } = __nccwpck_require__(6443) const buildConnector = __nccwpck_require__(9136) const kOptions = Symbol('options') const kConnections = Symbol('connections') const kFactory = Symbol('factory') function defaultFactory (origin, opts) { return new Client(origin, opts) } class Pool extends PoolBase { constructor (origin, { connections, factory = defaultFactory, connect, connectTimeout, tls, maxCachedSessions, socketPath, autoSelectFamily, autoSelectFamilyAttemptTimeout, allowH2, ...options } = {}) { super() if (connections != null && (!Number.isFinite(connections) || connections < 0)) { throw new InvalidArgumentError('invalid connections') } if (typeof factory !== 'function') { throw new InvalidArgumentError('factory must be a function.') } if (connect != null && typeof connect !== 'function' && typeof connect !== 'object') { throw new InvalidArgumentError('connect must be a function or an object') } if (typeof connect !== 'function') { connect = buildConnector({ ...tls, maxCachedSessions, allowH2, socketPath, timeout: connectTimeout, ...(util.nodeHasAutoSelectFamily && autoSelectFamily ? { autoSelectFamily, autoSelectFamilyAttemptTimeout } : undefined), ...connect }) } this[kInterceptors] = options.interceptors && options.interceptors.Pool && Array.isArray(options.interceptors.Pool) ? options.interceptors.Pool : [] this[kConnections] = connections || null this[kUrl] = util.parseOrigin(origin) this[kOptions] = { ...util.deepClone(options), connect, allowH2 } this[kOptions].interceptors = options.interceptors ? { ...options.interceptors } : undefined this[kFactory] = factory this.on('connectionError', (origin, targets, error) => { // If a connection error occurs, we remove the client from the pool, // and emit a connectionError event. They will not be re-used. // Fixes https://github.com/nodejs/undici/issues/3895 for (const target of targets) { // Do not use kRemoveClient here, as it will close the client, // but the client cannot be closed in this state. const idx = this[kClients].indexOf(target) if (idx !== -1) { this[kClients].splice(idx, 1) } } }) } [kGetDispatcher] () { let dispatcher = this[kClients].find(dispatcher => !dispatcher[kNeedDrain]) if (dispatcher) { return dispatcher } if (!this[kConnections] || this[kClients].length < this[kConnections]) { dispatcher = this[kFactory](this[kUrl], this[kOptions]) this[kAddClient](dispatcher) } return dispatcher } } module.exports = Pool /***/ }), /***/ 2720: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { kProxy, kClose, kDestroy, kInterceptors } = __nccwpck_require__(6443) const { URL } = __nccwpck_require__(7016) const Agent = __nccwpck_require__(9965) const Pool = __nccwpck_require__(5076) const DispatcherBase = __nccwpck_require__(1) const { InvalidArgumentError, RequestAbortedError } = __nccwpck_require__(8707) const buildConnector = __nccwpck_require__(9136) const kAgent = Symbol('proxy agent') const kClient = Symbol('proxy client') const kProxyHeaders = Symbol('proxy headers') const kRequestTls = Symbol('request tls settings') const kProxyTls = Symbol('proxy tls settings') const kConnectEndpoint = Symbol('connect endpoint function') function defaultProtocolPort (protocol) { return protocol === 'https:' ? 443 : 80 } function buildProxyOptions (opts) { if (typeof opts === 'string') { opts = { uri: opts } } if (!opts || !opts.uri) { throw new InvalidArgumentError('Proxy opts.uri is mandatory') } return { uri: opts.uri, protocol: opts.protocol || 'https' } } function defaultFactory (origin, opts) { return new Pool(origin, opts) } class ProxyAgent extends DispatcherBase { constructor (opts) { super(opts) this[kProxy] = buildProxyOptions(opts) this[kAgent] = new Agent(opts) this[kInterceptors] = opts.interceptors && opts.interceptors.ProxyAgent && Array.isArray(opts.interceptors.ProxyAgent) ? opts.interceptors.ProxyAgent : [] if (typeof opts === 'string') { opts = { uri: opts } } if (!opts || !opts.uri) { throw new InvalidArgumentError('Proxy opts.uri is mandatory') } const { clientFactory = defaultFactory } = opts if (typeof clientFactory !== 'function') { throw new InvalidArgumentError('Proxy opts.clientFactory must be a function.') } this[kRequestTls] = opts.requestTls this[kProxyTls] = opts.proxyTls this[kProxyHeaders] = opts.headers || {} const resolvedUrl = new URL(opts.uri) const { origin, port, host, username, password } = resolvedUrl if (opts.auth && opts.token) { throw new InvalidArgumentError('opts.auth cannot be used in combination with opts.token') } else if (opts.auth) { /* @deprecated in favour of opts.token */ this[kProxyHeaders]['proxy-authorization'] = `Basic ${opts.auth}` } else if (opts.token) { this[kProxyHeaders]['proxy-authorization'] = opts.token } else if (username && password) { this[kProxyHeaders]['proxy-authorization'] = `Basic ${Buffer.from(`${decodeURIComponent(username)}:${decodeURIComponent(password)}`).toString('base64')}` } const connect = buildConnector({ ...opts.proxyTls }) this[kConnectEndpoint] = buildConnector({ ...opts.requestTls }) this[kClient] = clientFactory(resolvedUrl, { connect }) this[kAgent] = new Agent({ ...opts, connect: async (opts, callback) => { let requestedHost = opts.host if (!opts.port) { requestedHost += `:${defaultProtocolPort(opts.protocol)}` } try { const { socket, statusCode } = await this[kClient].connect({ origin, port, path: requestedHost, signal: opts.signal, headers: { ...this[kProxyHeaders], host } }) if (statusCode !== 200) { socket.on('error', () => {}).destroy() callback(new RequestAbortedError(`Proxy response (${statusCode}) !== 200 when HTTP Tunneling`)) } if (opts.protocol !== 'https:') { callback(null, socket) return } let servername if (this[kRequestTls]) { servername = this[kRequestTls].servername } else { servername = opts.servername } this[kConnectEndpoint]({ ...opts, servername, httpSocket: socket }, callback) } catch (err) { callback(err) } } }) } dispatch (opts, handler) { const { host } = new URL(opts.origin) const headers = buildHeaders(opts.headers) throwIfProxyAuthIsSent(headers) return this[kAgent].dispatch( { ...opts, headers: { ...headers, host } }, handler ) } async [kClose] () { await this[kAgent].close() await this[kClient].close() } async [kDestroy] () { await this[kAgent].destroy() await this[kClient].destroy() } } /** * @param {string[] | Record} headers * @returns {Record} */ function buildHeaders (headers) { // When using undici.fetch, the headers list is stored // as an array. if (Array.isArray(headers)) { /** @type {Record} */ const headersPair = {} for (let i = 0; i < headers.length; i += 2) { headersPair[headers[i]] = headers[i + 1] } return headersPair } return headers } /** * @param {Record} headers * * Previous versions of ProxyAgent suggests the Proxy-Authorization in request headers * Nevertheless, it was changed and to avoid a security vulnerability by end users * this check was created. * It should be removed in the next major version for performance reasons */ function throwIfProxyAuthIsSent (headers) { const existProxyAuth = headers && Object.keys(headers) .find((key) => key.toLowerCase() === 'proxy-authorization') if (existProxyAuth) { throw new InvalidArgumentError('Proxy-Authorization should be sent in ProxyAgent constructor') } } module.exports = ProxyAgent /***/ }), /***/ 8804: /***/ ((module) => { let fastNow = Date.now() let fastNowTimeout const fastTimers = [] function onTimeout () { fastNow = Date.now() let len = fastTimers.length let idx = 0 while (idx < len) { const timer = fastTimers[idx] if (timer.state === 0) { timer.state = fastNow + timer.delay } else if (timer.state > 0 && fastNow >= timer.state) { timer.state = -1 timer.callback(timer.opaque) } if (timer.state === -1) { timer.state = -2 if (idx !== len - 1) { fastTimers[idx] = fastTimers.pop() } else { fastTimers.pop() } len -= 1 } else { idx += 1 } } if (fastTimers.length > 0) { refreshTimeout() } } function refreshTimeout () { if (fastNowTimeout && fastNowTimeout.refresh) { fastNowTimeout.refresh() } else { clearTimeout(fastNowTimeout) fastNowTimeout = setTimeout(onTimeout, 1e3) if (fastNowTimeout.unref) { fastNowTimeout.unref() } } } class Timeout { constructor (callback, delay, opaque) { this.callback = callback this.delay = delay this.opaque = opaque // -2 not in timer list // -1 in timer list but inactive // 0 in timer list waiting for time // > 0 in timer list waiting for time to expire this.state = -2 this.refresh() } refresh () { if (this.state === -2) { fastTimers.push(this) if (!fastNowTimeout || fastTimers.length === 1) { refreshTimeout() } } this.state = 0 } clear () { this.state = -1 } } module.exports = { setTimeout (callback, delay, opaque) { return delay < 1e3 ? setTimeout(callback, delay, opaque) : new Timeout(callback, delay, opaque) }, clearTimeout (timeout) { if (timeout instanceof Timeout) { timeout.clear() } else { clearTimeout(timeout) } } } /***/ }), /***/ 8550: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const diagnosticsChannel = __nccwpck_require__(1637) const { uid, states } = __nccwpck_require__(5913) const { kReadyState, kSentClose, kByteParser, kReceivedClose } = __nccwpck_require__(2933) const { fireEvent, failWebsocketConnection } = __nccwpck_require__(3574) const { CloseEvent } = __nccwpck_require__(6255) const { makeRequest } = __nccwpck_require__(5194) const { fetching } = __nccwpck_require__(2315) const { Headers } = __nccwpck_require__(6349) const { getGlobalDispatcher } = __nccwpck_require__(2581) const { kHeadersList } = __nccwpck_require__(6443) const channels = {} channels.open = diagnosticsChannel.channel('undici:websocket:open') channels.close = diagnosticsChannel.channel('undici:websocket:close') channels.socketError = diagnosticsChannel.channel('undici:websocket:socket_error') /** @type {import('crypto')} */ let crypto try { crypto = __nccwpck_require__(6982) } catch { } /** * @see https://websockets.spec.whatwg.org/#concept-websocket-establish * @param {URL} url * @param {string|string[]} protocols * @param {import('./websocket').WebSocket} ws * @param {(response: any) => void} onEstablish * @param {Partial} options */ function establishWebSocketConnection (url, protocols, ws, onEstablish, options) { // 1. Let requestURL be a copy of url, with its scheme set to "http", if url’s // scheme is "ws", and to "https" otherwise. const requestURL = url requestURL.protocol = url.protocol === 'ws:' ? 'http:' : 'https:' // 2. Let request be a new request, whose URL is requestURL, client is client, // service-workers mode is "none", referrer is "no-referrer", mode is // "websocket", credentials mode is "include", cache mode is "no-store" , // and redirect mode is "error". const request = makeRequest({ urlList: [requestURL], serviceWorkers: 'none', referrer: 'no-referrer', mode: 'websocket', credentials: 'include', cache: 'no-store', redirect: 'error' }) // Note: undici extension, allow setting custom headers. if (options.headers) { const headersList = new Headers(options.headers)[kHeadersList] request.headersList = headersList } // 3. Append (`Upgrade`, `websocket`) to request’s header list. // 4. Append (`Connection`, `Upgrade`) to request’s header list. // Note: both of these are handled by undici currently. // https://github.com/nodejs/undici/blob/68c269c4144c446f3f1220951338daef4a6b5ec4/lib/client.js#L1397 // 5. Let keyValue be a nonce consisting of a randomly selected // 16-byte value that has been forgiving-base64-encoded and // isomorphic encoded. const keyValue = crypto.randomBytes(16).toString('base64') // 6. Append (`Sec-WebSocket-Key`, keyValue) to request’s // header list. request.headersList.append('sec-websocket-key', keyValue) // 7. Append (`Sec-WebSocket-Version`, `13`) to request’s // header list. request.headersList.append('sec-websocket-version', '13') // 8. For each protocol in protocols, combine // (`Sec-WebSocket-Protocol`, protocol) in request’s header // list. for (const protocol of protocols) { request.headersList.append('sec-websocket-protocol', protocol) } // 9. Let permessageDeflate be a user-agent defined // "permessage-deflate" extension header value. // https://github.com/mozilla/gecko-dev/blob/ce78234f5e653a5d3916813ff990f053510227bc/netwerk/protocol/websocket/WebSocketChannel.cpp#L2673 // TODO: enable once permessage-deflate is supported const permessageDeflate = '' // 'permessage-deflate; 15' // 10. Append (`Sec-WebSocket-Extensions`, permessageDeflate) to // request’s header list. // request.headersList.append('sec-websocket-extensions', permessageDeflate) // 11. Fetch request with useParallelQueue set to true, and // processResponse given response being these steps: const controller = fetching({ request, useParallelQueue: true, dispatcher: options.dispatcher ?? getGlobalDispatcher(), processResponse (response) { // 1. If response is a network error or its status is not 101, // fail the WebSocket connection. if (response.type === 'error' || response.status !== 101) { failWebsocketConnection(ws, 'Received network error or non-101 status code.') return } // 2. If protocols is not the empty list and extracting header // list values given `Sec-WebSocket-Protocol` and response’s // header list results in null, failure, or the empty byte // sequence, then fail the WebSocket connection. if (protocols.length !== 0 && !response.headersList.get('Sec-WebSocket-Protocol')) { failWebsocketConnection(ws, 'Server did not respond with sent protocols.') return } // 3. Follow the requirements stated step 2 to step 6, inclusive, // of the last set of steps in section 4.1 of The WebSocket // Protocol to validate response. This either results in fail // the WebSocket connection or the WebSocket connection is // established. // 2. If the response lacks an |Upgrade| header field or the |Upgrade| // header field contains a value that is not an ASCII case- // insensitive match for the value "websocket", the client MUST // _Fail the WebSocket Connection_. if (response.headersList.get('Upgrade')?.toLowerCase() !== 'websocket') { failWebsocketConnection(ws, 'Server did not set Upgrade header to "websocket".') return } // 3. If the response lacks a |Connection| header field or the // |Connection| header field doesn't contain a token that is an // ASCII case-insensitive match for the value "Upgrade", the client // MUST _Fail the WebSocket Connection_. if (response.headersList.get('Connection')?.toLowerCase() !== 'upgrade') { failWebsocketConnection(ws, 'Server did not set Connection header to "upgrade".') return } // 4. If the response lacks a |Sec-WebSocket-Accept| header field or // the |Sec-WebSocket-Accept| contains a value other than the // base64-encoded SHA-1 of the concatenation of the |Sec-WebSocket- // Key| (as a string, not base64-decoded) with the string "258EAFA5- // E914-47DA-95CA-C5AB0DC85B11" but ignoring any leading and // trailing whitespace, the client MUST _Fail the WebSocket // Connection_. const secWSAccept = response.headersList.get('Sec-WebSocket-Accept') const digest = crypto.createHash('sha1').update(keyValue + uid).digest('base64') if (secWSAccept !== digest) { failWebsocketConnection(ws, 'Incorrect hash received in Sec-WebSocket-Accept header.') return } // 5. If the response includes a |Sec-WebSocket-Extensions| header // field and this header field indicates the use of an extension // that was not present in the client's handshake (the server has // indicated an extension not requested by the client), the client // MUST _Fail the WebSocket Connection_. (The parsing of this // header field to determine which extensions are requested is // discussed in Section 9.1.) const secExtension = response.headersList.get('Sec-WebSocket-Extensions') if (secExtension !== null && secExtension !== permessageDeflate) { failWebsocketConnection(ws, 'Received different permessage-deflate than the one set.') return } // 6. If the response includes a |Sec-WebSocket-Protocol| header field // and this header field indicates the use of a subprotocol that was // not present in the client's handshake (the server has indicated a // subprotocol not requested by the client), the client MUST _Fail // the WebSocket Connection_. const secProtocol = response.headersList.get('Sec-WebSocket-Protocol') if (secProtocol !== null && secProtocol !== request.headersList.get('Sec-WebSocket-Protocol')) { failWebsocketConnection(ws, 'Protocol was not set in the opening handshake.') return } response.socket.on('data', onSocketData) response.socket.on('close', onSocketClose) response.socket.on('error', onSocketError) if (channels.open.hasSubscribers) { channels.open.publish({ address: response.socket.address(), protocol: secProtocol, extensions: secExtension }) } onEstablish(response) } }) return controller } /** * @param {Buffer} chunk */ function onSocketData (chunk) { if (!this.ws[kByteParser].write(chunk)) { this.pause() } } /** * @see https://websockets.spec.whatwg.org/#feedback-from-the-protocol * @see https://datatracker.ietf.org/doc/html/rfc6455#section-7.1.4 */ function onSocketClose () { const { ws } = this // If the TCP connection was closed after the // WebSocket closing handshake was completed, the WebSocket connection // is said to have been closed _cleanly_. const wasClean = ws[kSentClose] && ws[kReceivedClose] let code = 1005 let reason = '' const result = ws[kByteParser].closingInfo if (result) { code = result.code ?? 1005 reason = result.reason } else if (!ws[kSentClose]) { // If _The WebSocket // Connection is Closed_ and no Close control frame was received by the // endpoint (such as could occur if the underlying transport connection // is lost), _The WebSocket Connection Close Code_ is considered to be // 1006. code = 1006 } // 1. Change the ready state to CLOSED (3). ws[kReadyState] = states.CLOSED // 2. If the user agent was required to fail the WebSocket // connection, or if the WebSocket connection was closed // after being flagged as full, fire an event named error // at the WebSocket object. // TODO // 3. Fire an event named close at the WebSocket object, // using CloseEvent, with the wasClean attribute // initialized to true if the connection closed cleanly // and false otherwise, the code attribute initialized to // the WebSocket connection close code, and the reason // attribute initialized to the result of applying UTF-8 // decode without BOM to the WebSocket connection close // reason. fireEvent('close', ws, CloseEvent, { wasClean, code, reason }) if (channels.close.hasSubscribers) { channels.close.publish({ websocket: ws, code, reason }) } } function onSocketError (error) { const { ws } = this ws[kReadyState] = states.CLOSING if (channels.socketError.hasSubscribers) { channels.socketError.publish(error) } this.destroy() } module.exports = { establishWebSocketConnection } /***/ }), /***/ 5913: /***/ ((module) => { // This is a Globally Unique Identifier unique used // to validate that the endpoint accepts websocket // connections. // See https://www.rfc-editor.org/rfc/rfc6455.html#section-1.3 const uid = '258EAFA5-E914-47DA-95CA-C5AB0DC85B11' /** @type {PropertyDescriptor} */ const staticPropertyDescriptors = { enumerable: true, writable: false, configurable: false } const states = { CONNECTING: 0, OPEN: 1, CLOSING: 2, CLOSED: 3 } const opcodes = { CONTINUATION: 0x0, TEXT: 0x1, BINARY: 0x2, CLOSE: 0x8, PING: 0x9, PONG: 0xA } const maxUnsigned16Bit = 2 ** 16 - 1 // 65535 const parserStates = { INFO: 0, PAYLOADLENGTH_16: 2, PAYLOADLENGTH_64: 3, READ_DATA: 4 } const emptyBuffer = Buffer.allocUnsafe(0) module.exports = { uid, staticPropertyDescriptors, states, opcodes, maxUnsigned16Bit, parserStates, emptyBuffer } /***/ }), /***/ 6255: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { webidl } = __nccwpck_require__(4222) const { kEnumerableProperty } = __nccwpck_require__(3440) const { MessagePort } = __nccwpck_require__(8167) /** * @see https://html.spec.whatwg.org/multipage/comms.html#messageevent */ class MessageEvent extends Event { #eventInit constructor (type, eventInitDict = {}) { webidl.argumentLengthCheck(arguments, 1, { header: 'MessageEvent constructor' }) type = webidl.converters.DOMString(type) eventInitDict = webidl.converters.MessageEventInit(eventInitDict) super(type, eventInitDict) this.#eventInit = eventInitDict } get data () { webidl.brandCheck(this, MessageEvent) return this.#eventInit.data } get origin () { webidl.brandCheck(this, MessageEvent) return this.#eventInit.origin } get lastEventId () { webidl.brandCheck(this, MessageEvent) return this.#eventInit.lastEventId } get source () { webidl.brandCheck(this, MessageEvent) return this.#eventInit.source } get ports () { webidl.brandCheck(this, MessageEvent) if (!Object.isFrozen(this.#eventInit.ports)) { Object.freeze(this.#eventInit.ports) } return this.#eventInit.ports } initMessageEvent ( type, bubbles = false, cancelable = false, data = null, origin = '', lastEventId = '', source = null, ports = [] ) { webidl.brandCheck(this, MessageEvent) webidl.argumentLengthCheck(arguments, 1, { header: 'MessageEvent.initMessageEvent' }) return new MessageEvent(type, { bubbles, cancelable, data, origin, lastEventId, source, ports }) } } /** * @see https://websockets.spec.whatwg.org/#the-closeevent-interface */ class CloseEvent extends Event { #eventInit constructor (type, eventInitDict = {}) { webidl.argumentLengthCheck(arguments, 1, { header: 'CloseEvent constructor' }) type = webidl.converters.DOMString(type) eventInitDict = webidl.converters.CloseEventInit(eventInitDict) super(type, eventInitDict) this.#eventInit = eventInitDict } get wasClean () { webidl.brandCheck(this, CloseEvent) return this.#eventInit.wasClean } get code () { webidl.brandCheck(this, CloseEvent) return this.#eventInit.code } get reason () { webidl.brandCheck(this, CloseEvent) return this.#eventInit.reason } } // https://html.spec.whatwg.org/multipage/webappapis.html#the-errorevent-interface class ErrorEvent extends Event { #eventInit constructor (type, eventInitDict) { webidl.argumentLengthCheck(arguments, 1, { header: 'ErrorEvent constructor' }) super(type, eventInitDict) type = webidl.converters.DOMString(type) eventInitDict = webidl.converters.ErrorEventInit(eventInitDict ?? {}) this.#eventInit = eventInitDict } get message () { webidl.brandCheck(this, ErrorEvent) return this.#eventInit.message } get filename () { webidl.brandCheck(this, ErrorEvent) return this.#eventInit.filename } get lineno () { webidl.brandCheck(this, ErrorEvent) return this.#eventInit.lineno } get colno () { webidl.brandCheck(this, ErrorEvent) return this.#eventInit.colno } get error () { webidl.brandCheck(this, ErrorEvent) return this.#eventInit.error } } Object.defineProperties(MessageEvent.prototype, { [Symbol.toStringTag]: { value: 'MessageEvent', configurable: true }, data: kEnumerableProperty, origin: kEnumerableProperty, lastEventId: kEnumerableProperty, source: kEnumerableProperty, ports: kEnumerableProperty, initMessageEvent: kEnumerableProperty }) Object.defineProperties(CloseEvent.prototype, { [Symbol.toStringTag]: { value: 'CloseEvent', configurable: true }, reason: kEnumerableProperty, code: kEnumerableProperty, wasClean: kEnumerableProperty }) Object.defineProperties(ErrorEvent.prototype, { [Symbol.toStringTag]: { value: 'ErrorEvent', configurable: true }, message: kEnumerableProperty, filename: kEnumerableProperty, lineno: kEnumerableProperty, colno: kEnumerableProperty, error: kEnumerableProperty }) webidl.converters.MessagePort = webidl.interfaceConverter(MessagePort) webidl.converters['sequence'] = webidl.sequenceConverter( webidl.converters.MessagePort ) const eventInit = [ { key: 'bubbles', converter: webidl.converters.boolean, defaultValue: false }, { key: 'cancelable', converter: webidl.converters.boolean, defaultValue: false }, { key: 'composed', converter: webidl.converters.boolean, defaultValue: false } ] webidl.converters.MessageEventInit = webidl.dictionaryConverter([ ...eventInit, { key: 'data', converter: webidl.converters.any, defaultValue: null }, { key: 'origin', converter: webidl.converters.USVString, defaultValue: '' }, { key: 'lastEventId', converter: webidl.converters.DOMString, defaultValue: '' }, { key: 'source', // Node doesn't implement WindowProxy or ServiceWorker, so the only // valid value for source is a MessagePort. converter: webidl.nullableConverter(webidl.converters.MessagePort), defaultValue: null }, { key: 'ports', converter: webidl.converters['sequence'], get defaultValue () { return [] } } ]) webidl.converters.CloseEventInit = webidl.dictionaryConverter([ ...eventInit, { key: 'wasClean', converter: webidl.converters.boolean, defaultValue: false }, { key: 'code', converter: webidl.converters['unsigned short'], defaultValue: 0 }, { key: 'reason', converter: webidl.converters.USVString, defaultValue: '' } ]) webidl.converters.ErrorEventInit = webidl.dictionaryConverter([ ...eventInit, { key: 'message', converter: webidl.converters.DOMString, defaultValue: '' }, { key: 'filename', converter: webidl.converters.USVString, defaultValue: '' }, { key: 'lineno', converter: webidl.converters['unsigned long'], defaultValue: 0 }, { key: 'colno', converter: webidl.converters['unsigned long'], defaultValue: 0 }, { key: 'error', converter: webidl.converters.any } ]) module.exports = { MessageEvent, CloseEvent, ErrorEvent } /***/ }), /***/ 1237: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { maxUnsigned16Bit } = __nccwpck_require__(5913) /** @type {import('crypto')} */ let crypto try { crypto = __nccwpck_require__(6982) } catch { } class WebsocketFrameSend { /** * @param {Buffer|undefined} data */ constructor (data) { this.frameData = data this.maskKey = crypto.randomBytes(4) } createFrame (opcode) { const bodyLength = this.frameData?.byteLength ?? 0 /** @type {number} */ let payloadLength = bodyLength // 0-125 let offset = 6 if (bodyLength > maxUnsigned16Bit) { offset += 8 // payload length is next 8 bytes payloadLength = 127 } else if (bodyLength > 125) { offset += 2 // payload length is next 2 bytes payloadLength = 126 } const buffer = Buffer.allocUnsafe(bodyLength + offset) // Clear first 2 bytes, everything else is overwritten buffer[0] = buffer[1] = 0 buffer[0] |= 0x80 // FIN buffer[0] = (buffer[0] & 0xF0) + opcode // opcode /*! ws. MIT License. Einar Otto Stangvik */ buffer[offset - 4] = this.maskKey[0] buffer[offset - 3] = this.maskKey[1] buffer[offset - 2] = this.maskKey[2] buffer[offset - 1] = this.maskKey[3] buffer[1] = payloadLength if (payloadLength === 126) { buffer.writeUInt16BE(bodyLength, 2) } else if (payloadLength === 127) { // Clear extended payload length buffer[2] = buffer[3] = 0 buffer.writeUIntBE(bodyLength, 4, 6) } buffer[1] |= 0x80 // MASK // mask body for (let i = 0; i < bodyLength; i++) { buffer[offset + i] = this.frameData[i] ^ this.maskKey[i % 4] } return buffer } } module.exports = { WebsocketFrameSend } /***/ }), /***/ 3171: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { Writable } = __nccwpck_require__(2203) const diagnosticsChannel = __nccwpck_require__(1637) const { parserStates, opcodes, states, emptyBuffer } = __nccwpck_require__(5913) const { kReadyState, kSentClose, kResponse, kReceivedClose } = __nccwpck_require__(2933) const { isValidStatusCode, failWebsocketConnection, websocketMessageReceived } = __nccwpck_require__(3574) const { WebsocketFrameSend } = __nccwpck_require__(1237) // This code was influenced by ws released under the MIT license. // Copyright (c) 2011 Einar Otto Stangvik // Copyright (c) 2013 Arnout Kazemier and contributors // Copyright (c) 2016 Luigi Pinca and contributors const channels = {} channels.ping = diagnosticsChannel.channel('undici:websocket:ping') channels.pong = diagnosticsChannel.channel('undici:websocket:pong') class ByteParser extends Writable { #buffers = [] #byteOffset = 0 #state = parserStates.INFO #info = {} #fragments = [] constructor (ws) { super() this.ws = ws } /** * @param {Buffer} chunk * @param {() => void} callback */ _write (chunk, _, callback) { this.#buffers.push(chunk) this.#byteOffset += chunk.length this.run(callback) } /** * Runs whenever a new chunk is received. * Callback is called whenever there are no more chunks buffering, * or not enough bytes are buffered to parse. */ run (callback) { while (true) { if (this.#state === parserStates.INFO) { // If there aren't enough bytes to parse the payload length, etc. if (this.#byteOffset < 2) { return callback() } const buffer = this.consume(2) this.#info.fin = (buffer[0] & 0x80) !== 0 this.#info.opcode = buffer[0] & 0x0F // If we receive a fragmented message, we use the type of the first // frame to parse the full message as binary/text, when it's terminated this.#info.originalOpcode ??= this.#info.opcode this.#info.fragmented = !this.#info.fin && this.#info.opcode !== opcodes.CONTINUATION if (this.#info.fragmented && this.#info.opcode !== opcodes.BINARY && this.#info.opcode !== opcodes.TEXT) { // Only text and binary frames can be fragmented failWebsocketConnection(this.ws, 'Invalid frame type was fragmented.') return } const payloadLength = buffer[1] & 0x7F if (payloadLength <= 125) { this.#info.payloadLength = payloadLength this.#state = parserStates.READ_DATA } else if (payloadLength === 126) { this.#state = parserStates.PAYLOADLENGTH_16 } else if (payloadLength === 127) { this.#state = parserStates.PAYLOADLENGTH_64 } if (this.#info.fragmented && payloadLength > 125) { // A fragmented frame can't be fragmented itself failWebsocketConnection(this.ws, 'Fragmented frame exceeded 125 bytes.') return } else if ( (this.#info.opcode === opcodes.PING || this.#info.opcode === opcodes.PONG || this.#info.opcode === opcodes.CLOSE) && payloadLength > 125 ) { // Control frames can have a payload length of 125 bytes MAX failWebsocketConnection(this.ws, 'Payload length for control frame exceeded 125 bytes.') return } else if (this.#info.opcode === opcodes.CLOSE) { if (payloadLength === 1) { failWebsocketConnection(this.ws, 'Received close frame with a 1-byte body.') return } const body = this.consume(payloadLength) this.#info.closeInfo = this.parseCloseBody(false, body) if (!this.ws[kSentClose]) { // If an endpoint receives a Close frame and did not previously send a // Close frame, the endpoint MUST send a Close frame in response. (When // sending a Close frame in response, the endpoint typically echos the // status code it received.) const body = Buffer.allocUnsafe(2) body.writeUInt16BE(this.#info.closeInfo.code, 0) const closeFrame = new WebsocketFrameSend(body) this.ws[kResponse].socket.write( closeFrame.createFrame(opcodes.CLOSE), (err) => { if (!err) { this.ws[kSentClose] = true } } ) } // Upon either sending or receiving a Close control frame, it is said // that _The WebSocket Closing Handshake is Started_ and that the // WebSocket connection is in the CLOSING state. this.ws[kReadyState] = states.CLOSING this.ws[kReceivedClose] = true this.end() return } else if (this.#info.opcode === opcodes.PING) { // Upon receipt of a Ping frame, an endpoint MUST send a Pong frame in // response, unless it already received a Close frame. // A Pong frame sent in response to a Ping frame must have identical // "Application data" const body = this.consume(payloadLength) if (!this.ws[kReceivedClose]) { const frame = new WebsocketFrameSend(body) this.ws[kResponse].socket.write(frame.createFrame(opcodes.PONG)) if (channels.ping.hasSubscribers) { channels.ping.publish({ payload: body }) } } this.#state = parserStates.INFO if (this.#byteOffset > 0) { continue } else { callback() return } } else if (this.#info.opcode === opcodes.PONG) { // A Pong frame MAY be sent unsolicited. This serves as a // unidirectional heartbeat. A response to an unsolicited Pong frame is // not expected. const body = this.consume(payloadLength) if (channels.pong.hasSubscribers) { channels.pong.publish({ payload: body }) } if (this.#byteOffset > 0) { continue } else { callback() return } } } else if (this.#state === parserStates.PAYLOADLENGTH_16) { if (this.#byteOffset < 2) { return callback() } const buffer = this.consume(2) this.#info.payloadLength = buffer.readUInt16BE(0) this.#state = parserStates.READ_DATA } else if (this.#state === parserStates.PAYLOADLENGTH_64) { if (this.#byteOffset < 8) { return callback() } const buffer = this.consume(8) const upper = buffer.readUInt32BE(0) // 2^31 is the maxinimum bytes an arraybuffer can contain // on 32-bit systems. Although, on 64-bit systems, this is // 2^53-1 bytes. // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Errors/Invalid_array_length // https://source.chromium.org/chromium/chromium/src/+/main:v8/src/common/globals.h;drc=1946212ac0100668f14eb9e2843bdd846e510a1e;bpv=1;bpt=1;l=1275 // https://source.chromium.org/chromium/chromium/src/+/main:v8/src/objects/js-array-buffer.h;l=34;drc=1946212ac0100668f14eb9e2843bdd846e510a1e if (upper > 2 ** 31 - 1) { failWebsocketConnection(this.ws, 'Received payload length > 2^31 bytes.') return } const lower = buffer.readUInt32BE(4) this.#info.payloadLength = (upper << 8) + lower this.#state = parserStates.READ_DATA } else if (this.#state === parserStates.READ_DATA) { if (this.#byteOffset < this.#info.payloadLength) { // If there is still more data in this chunk that needs to be read return callback() } else if (this.#byteOffset >= this.#info.payloadLength) { // If the server sent multiple frames in a single chunk const body = this.consume(this.#info.payloadLength) this.#fragments.push(body) // If the frame is unfragmented, or a fragmented frame was terminated, // a message was received if (!this.#info.fragmented || (this.#info.fin && this.#info.opcode === opcodes.CONTINUATION)) { const fullMessage = Buffer.concat(this.#fragments) websocketMessageReceived(this.ws, this.#info.originalOpcode, fullMessage) this.#info = {} this.#fragments.length = 0 } this.#state = parserStates.INFO } } if (this.#byteOffset > 0) { continue } else { callback() break } } } /** * Take n bytes from the buffered Buffers * @param {number} n * @returns {Buffer|null} */ consume (n) { if (n > this.#byteOffset) { return null } else if (n === 0) { return emptyBuffer } if (this.#buffers[0].length === n) { this.#byteOffset -= this.#buffers[0].length return this.#buffers.shift() } const buffer = Buffer.allocUnsafe(n) let offset = 0 while (offset !== n) { const next = this.#buffers[0] const { length } = next if (length + offset === n) { buffer.set(this.#buffers.shift(), offset) break } else if (length + offset > n) { buffer.set(next.subarray(0, n - offset), offset) this.#buffers[0] = next.subarray(n - offset) break } else { buffer.set(this.#buffers.shift(), offset) offset += next.length } } this.#byteOffset -= n return buffer } parseCloseBody (onlyCode, data) { // https://datatracker.ietf.org/doc/html/rfc6455#section-7.1.5 /** @type {number|undefined} */ let code if (data.length >= 2) { // _The WebSocket Connection Close Code_ is // defined as the status code (Section 7.4) contained in the first Close // control frame received by the application code = data.readUInt16BE(0) } if (onlyCode) { if (!isValidStatusCode(code)) { return null } return { code } } // https://datatracker.ietf.org/doc/html/rfc6455#section-7.1.6 /** @type {Buffer} */ let reason = data.subarray(2) // Remove BOM if (reason[0] === 0xEF && reason[1] === 0xBB && reason[2] === 0xBF) { reason = reason.subarray(3) } if (code !== undefined && !isValidStatusCode(code)) { return null } try { // TODO: optimize this reason = new TextDecoder('utf-8', { fatal: true }).decode(reason) } catch { return null } return { code, reason } } get closingInfo () { return this.#info.closeInfo } } module.exports = { ByteParser } /***/ }), /***/ 2933: /***/ ((module) => { module.exports = { kWebSocketURL: Symbol('url'), kReadyState: Symbol('ready state'), kController: Symbol('controller'), kResponse: Symbol('response'), kBinaryType: Symbol('binary type'), kSentClose: Symbol('sent close'), kReceivedClose: Symbol('received close'), kByteParser: Symbol('byte parser') } /***/ }), /***/ 3574: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { kReadyState, kController, kResponse, kBinaryType, kWebSocketURL } = __nccwpck_require__(2933) const { states, opcodes } = __nccwpck_require__(5913) const { MessageEvent, ErrorEvent } = __nccwpck_require__(6255) /* globals Blob */ /** * @param {import('./websocket').WebSocket} ws */ function isEstablished (ws) { // If the server's response is validated as provided for above, it is // said that _The WebSocket Connection is Established_ and that the // WebSocket Connection is in the OPEN state. return ws[kReadyState] === states.OPEN } /** * @param {import('./websocket').WebSocket} ws */ function isClosing (ws) { // Upon either sending or receiving a Close control frame, it is said // that _The WebSocket Closing Handshake is Started_ and that the // WebSocket connection is in the CLOSING state. return ws[kReadyState] === states.CLOSING } /** * @param {import('./websocket').WebSocket} ws */ function isClosed (ws) { return ws[kReadyState] === states.CLOSED } /** * @see https://dom.spec.whatwg.org/#concept-event-fire * @param {string} e * @param {EventTarget} target * @param {EventInit | undefined} eventInitDict */ function fireEvent (e, target, eventConstructor = Event, eventInitDict) { // 1. If eventConstructor is not given, then let eventConstructor be Event. // 2. Let event be the result of creating an event given eventConstructor, // in the relevant realm of target. // 3. Initialize event’s type attribute to e. const event = new eventConstructor(e, eventInitDict) // eslint-disable-line new-cap // 4. Initialize any other IDL attributes of event as described in the // invocation of this algorithm. // 5. Return the result of dispatching event at target, with legacy target // override flag set if set. target.dispatchEvent(event) } /** * @see https://websockets.spec.whatwg.org/#feedback-from-the-protocol * @param {import('./websocket').WebSocket} ws * @param {number} type Opcode * @param {Buffer} data application data */ function websocketMessageReceived (ws, type, data) { // 1. If ready state is not OPEN (1), then return. if (ws[kReadyState] !== states.OPEN) { return } // 2. Let dataForEvent be determined by switching on type and binary type: let dataForEvent if (type === opcodes.TEXT) { // -> type indicates that the data is Text // a new DOMString containing data try { dataForEvent = new TextDecoder('utf-8', { fatal: true }).decode(data) } catch { failWebsocketConnection(ws, 'Received invalid UTF-8 in text frame.') return } } else if (type === opcodes.BINARY) { if (ws[kBinaryType] === 'blob') { // -> type indicates that the data is Binary and binary type is "blob" // a new Blob object, created in the relevant Realm of the WebSocket // object, that represents data as its raw data dataForEvent = new Blob([data]) } else { // -> type indicates that the data is Binary and binary type is "arraybuffer" // a new ArrayBuffer object, created in the relevant Realm of the // WebSocket object, whose contents are data dataForEvent = new Uint8Array(data).buffer } } // 3. Fire an event named message at the WebSocket object, using MessageEvent, // with the origin attribute initialized to the serialization of the WebSocket // object’s url's origin, and the data attribute initialized to dataForEvent. fireEvent('message', ws, MessageEvent, { origin: ws[kWebSocketURL].origin, data: dataForEvent }) } /** * @see https://datatracker.ietf.org/doc/html/rfc6455 * @see https://datatracker.ietf.org/doc/html/rfc2616 * @see https://bugs.chromium.org/p/chromium/issues/detail?id=398407 * @param {string} protocol */ function isValidSubprotocol (protocol) { // If present, this value indicates one // or more comma-separated subprotocol the client wishes to speak, // ordered by preference. The elements that comprise this value // MUST be non-empty strings with characters in the range U+0021 to // U+007E not including separator characters as defined in // [RFC2616] and MUST all be unique strings. if (protocol.length === 0) { return false } for (const char of protocol) { const code = char.charCodeAt(0) if ( code < 0x21 || code > 0x7E || char === '(' || char === ')' || char === '<' || char === '>' || char === '@' || char === ',' || char === ';' || char === ':' || char === '\\' || char === '"' || char === '/' || char === '[' || char === ']' || char === '?' || char === '=' || char === '{' || char === '}' || code === 32 || // SP code === 9 // HT ) { return false } } return true } /** * @see https://datatracker.ietf.org/doc/html/rfc6455#section-7-4 * @param {number} code */ function isValidStatusCode (code) { if (code >= 1000 && code < 1015) { return ( code !== 1004 && // reserved code !== 1005 && // "MUST NOT be set as a status code" code !== 1006 // "MUST NOT be set as a status code" ) } return code >= 3000 && code <= 4999 } /** * @param {import('./websocket').WebSocket} ws * @param {string|undefined} reason */ function failWebsocketConnection (ws, reason) { const { [kController]: controller, [kResponse]: response } = ws controller.abort() if (response?.socket && !response.socket.destroyed) { response.socket.destroy() } if (reason) { fireEvent('error', ws, ErrorEvent, { error: new Error(reason) }) } } module.exports = { isEstablished, isClosing, isClosed, fireEvent, isValidSubprotocol, isValidStatusCode, failWebsocketConnection, websocketMessageReceived } /***/ }), /***/ 5171: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const { webidl } = __nccwpck_require__(4222) const { DOMException } = __nccwpck_require__(7326) const { URLSerializer } = __nccwpck_require__(4322) const { getGlobalOrigin } = __nccwpck_require__(5628) const { staticPropertyDescriptors, states, opcodes, emptyBuffer } = __nccwpck_require__(5913) const { kWebSocketURL, kReadyState, kController, kBinaryType, kResponse, kSentClose, kByteParser } = __nccwpck_require__(2933) const { isEstablished, isClosing, isValidSubprotocol, failWebsocketConnection, fireEvent } = __nccwpck_require__(3574) const { establishWebSocketConnection } = __nccwpck_require__(8550) const { WebsocketFrameSend } = __nccwpck_require__(1237) const { ByteParser } = __nccwpck_require__(3171) const { kEnumerableProperty, isBlobLike } = __nccwpck_require__(3440) const { getGlobalDispatcher } = __nccwpck_require__(2581) const { types } = __nccwpck_require__(9023) let experimentalWarned = false // https://websockets.spec.whatwg.org/#interface-definition class WebSocket extends EventTarget { #events = { open: null, error: null, close: null, message: null } #bufferedAmount = 0 #protocol = '' #extensions = '' /** * @param {string} url * @param {string|string[]} protocols */ constructor (url, protocols = []) { super() webidl.argumentLengthCheck(arguments, 1, { header: 'WebSocket constructor' }) if (!experimentalWarned) { experimentalWarned = true process.emitWarning('WebSockets are experimental, expect them to change at any time.', { code: 'UNDICI-WS' }) } const options = webidl.converters['DOMString or sequence or WebSocketInit'](protocols) url = webidl.converters.USVString(url) protocols = options.protocols // 1. Let baseURL be this's relevant settings object's API base URL. const baseURL = getGlobalOrigin() // 1. Let urlRecord be the result of applying the URL parser to url with baseURL. let urlRecord try { urlRecord = new URL(url, baseURL) } catch (e) { // 3. If urlRecord is failure, then throw a "SyntaxError" DOMException. throw new DOMException(e, 'SyntaxError') } // 4. If urlRecord’s scheme is "http", then set urlRecord’s scheme to "ws". if (urlRecord.protocol === 'http:') { urlRecord.protocol = 'ws:' } else if (urlRecord.protocol === 'https:') { // 5. Otherwise, if urlRecord’s scheme is "https", set urlRecord’s scheme to "wss". urlRecord.protocol = 'wss:' } // 6. If urlRecord’s scheme is not "ws" or "wss", then throw a "SyntaxError" DOMException. if (urlRecord.protocol !== 'ws:' && urlRecord.protocol !== 'wss:') { throw new DOMException( `Expected a ws: or wss: protocol, got ${urlRecord.protocol}`, 'SyntaxError' ) } // 7. If urlRecord’s fragment is non-null, then throw a "SyntaxError" // DOMException. if (urlRecord.hash || urlRecord.href.endsWith('#')) { throw new DOMException('Got fragment', 'SyntaxError') } // 8. If protocols is a string, set protocols to a sequence consisting // of just that string. if (typeof protocols === 'string') { protocols = [protocols] } // 9. If any of the values in protocols occur more than once or otherwise // fail to match the requirements for elements that comprise the value // of `Sec-WebSocket-Protocol` fields as defined by The WebSocket // protocol, then throw a "SyntaxError" DOMException. if (protocols.length !== new Set(protocols.map(p => p.toLowerCase())).size) { throw new DOMException('Invalid Sec-WebSocket-Protocol value', 'SyntaxError') } if (protocols.length > 0 && !protocols.every(p => isValidSubprotocol(p))) { throw new DOMException('Invalid Sec-WebSocket-Protocol value', 'SyntaxError') } // 10. Set this's url to urlRecord. this[kWebSocketURL] = new URL(urlRecord.href) // 11. Let client be this's relevant settings object. // 12. Run this step in parallel: // 1. Establish a WebSocket connection given urlRecord, protocols, // and client. this[kController] = establishWebSocketConnection( urlRecord, protocols, this, (response) => this.#onConnectionEstablished(response), options ) // Each WebSocket object has an associated ready state, which is a // number representing the state of the connection. Initially it must // be CONNECTING (0). this[kReadyState] = WebSocket.CONNECTING // The extensions attribute must initially return the empty string. // The protocol attribute must initially return the empty string. // Each WebSocket object has an associated binary type, which is a // BinaryType. Initially it must be "blob". this[kBinaryType] = 'blob' } /** * @see https://websockets.spec.whatwg.org/#dom-websocket-close * @param {number|undefined} code * @param {string|undefined} reason */ close (code = undefined, reason = undefined) { webidl.brandCheck(this, WebSocket) if (code !== undefined) { code = webidl.converters['unsigned short'](code, { clamp: true }) } if (reason !== undefined) { reason = webidl.converters.USVString(reason) } // 1. If code is present, but is neither an integer equal to 1000 nor an // integer in the range 3000 to 4999, inclusive, throw an // "InvalidAccessError" DOMException. if (code !== undefined) { if (code !== 1000 && (code < 3000 || code > 4999)) { throw new DOMException('invalid code', 'InvalidAccessError') } } let reasonByteLength = 0 // 2. If reason is present, then run these substeps: if (reason !== undefined) { // 1. Let reasonBytes be the result of encoding reason. // 2. If reasonBytes is longer than 123 bytes, then throw a // "SyntaxError" DOMException. reasonByteLength = Buffer.byteLength(reason) if (reasonByteLength > 123) { throw new DOMException( `Reason must be less than 123 bytes; received ${reasonByteLength}`, 'SyntaxError' ) } } // 3. Run the first matching steps from the following list: if (this[kReadyState] === WebSocket.CLOSING || this[kReadyState] === WebSocket.CLOSED) { // If this's ready state is CLOSING (2) or CLOSED (3) // Do nothing. } else if (!isEstablished(this)) { // If the WebSocket connection is not yet established // Fail the WebSocket connection and set this's ready state // to CLOSING (2). failWebsocketConnection(this, 'Connection was closed before it was established.') this[kReadyState] = WebSocket.CLOSING } else if (!isClosing(this)) { // If the WebSocket closing handshake has not yet been started // Start the WebSocket closing handshake and set this's ready // state to CLOSING (2). // - If neither code nor reason is present, the WebSocket Close // message must not have a body. // - If code is present, then the status code to use in the // WebSocket Close message must be the integer given by code. // - If reason is also present, then reasonBytes must be // provided in the Close message after the status code. const frame = new WebsocketFrameSend() // If neither code nor reason is present, the WebSocket Close // message must not have a body. // If code is present, then the status code to use in the // WebSocket Close message must be the integer given by code. if (code !== undefined && reason === undefined) { frame.frameData = Buffer.allocUnsafe(2) frame.frameData.writeUInt16BE(code, 0) } else if (code !== undefined && reason !== undefined) { // If reason is also present, then reasonBytes must be // provided in the Close message after the status code. frame.frameData = Buffer.allocUnsafe(2 + reasonByteLength) frame.frameData.writeUInt16BE(code, 0) // the body MAY contain UTF-8-encoded data with value /reason/ frame.frameData.write(reason, 2, 'utf-8') } else { frame.frameData = emptyBuffer } /** @type {import('stream').Duplex} */ const socket = this[kResponse].socket socket.write(frame.createFrame(opcodes.CLOSE), (err) => { if (!err) { this[kSentClose] = true } }) // Upon either sending or receiving a Close control frame, it is said // that _The WebSocket Closing Handshake is Started_ and that the // WebSocket connection is in the CLOSING state. this[kReadyState] = states.CLOSING } else { // Otherwise // Set this's ready state to CLOSING (2). this[kReadyState] = WebSocket.CLOSING } } /** * @see https://websockets.spec.whatwg.org/#dom-websocket-send * @param {NodeJS.TypedArray|ArrayBuffer|Blob|string} data */ send (data) { webidl.brandCheck(this, WebSocket) webidl.argumentLengthCheck(arguments, 1, { header: 'WebSocket.send' }) data = webidl.converters.WebSocketSendData(data) // 1. If this's ready state is CONNECTING, then throw an // "InvalidStateError" DOMException. if (this[kReadyState] === WebSocket.CONNECTING) { throw new DOMException('Sent before connected.', 'InvalidStateError') } // 2. Run the appropriate set of steps from the following list: // https://datatracker.ietf.org/doc/html/rfc6455#section-6.1 // https://datatracker.ietf.org/doc/html/rfc6455#section-5.2 if (!isEstablished(this) || isClosing(this)) { return } /** @type {import('stream').Duplex} */ const socket = this[kResponse].socket // If data is a string if (typeof data === 'string') { // If the WebSocket connection is established and the WebSocket // closing handshake has not yet started, then the user agent // must send a WebSocket Message comprised of the data argument // using a text frame opcode; if the data cannot be sent, e.g. // because it would need to be buffered but the buffer is full, // the user agent must flag the WebSocket as full and then close // the WebSocket connection. Any invocation of this method with a // string argument that does not throw an exception must increase // the bufferedAmount attribute by the number of bytes needed to // express the argument as UTF-8. const value = Buffer.from(data) const frame = new WebsocketFrameSend(value) const buffer = frame.createFrame(opcodes.TEXT) this.#bufferedAmount += value.byteLength socket.write(buffer, () => { this.#bufferedAmount -= value.byteLength }) } else if (types.isArrayBuffer(data)) { // If the WebSocket connection is established, and the WebSocket // closing handshake has not yet started, then the user agent must // send a WebSocket Message comprised of data using a binary frame // opcode; if the data cannot be sent, e.g. because it would need // to be buffered but the buffer is full, the user agent must flag // the WebSocket as full and then close the WebSocket connection. // The data to be sent is the data stored in the buffer described // by the ArrayBuffer object. Any invocation of this method with an // ArrayBuffer argument that does not throw an exception must // increase the bufferedAmount attribute by the length of the // ArrayBuffer in bytes. const value = Buffer.from(data) const frame = new WebsocketFrameSend(value) const buffer = frame.createFrame(opcodes.BINARY) this.#bufferedAmount += value.byteLength socket.write(buffer, () => { this.#bufferedAmount -= value.byteLength }) } else if (ArrayBuffer.isView(data)) { // If the WebSocket connection is established, and the WebSocket // closing handshake has not yet started, then the user agent must // send a WebSocket Message comprised of data using a binary frame // opcode; if the data cannot be sent, e.g. because it would need to // be buffered but the buffer is full, the user agent must flag the // WebSocket as full and then close the WebSocket connection. The // data to be sent is the data stored in the section of the buffer // described by the ArrayBuffer object that data references. Any // invocation of this method with this kind of argument that does // not throw an exception must increase the bufferedAmount attribute // by the length of data’s buffer in bytes. const ab = Buffer.from(data, data.byteOffset, data.byteLength) const frame = new WebsocketFrameSend(ab) const buffer = frame.createFrame(opcodes.BINARY) this.#bufferedAmount += ab.byteLength socket.write(buffer, () => { this.#bufferedAmount -= ab.byteLength }) } else if (isBlobLike(data)) { // If the WebSocket connection is established, and the WebSocket // closing handshake has not yet started, then the user agent must // send a WebSocket Message comprised of data using a binary frame // opcode; if the data cannot be sent, e.g. because it would need to // be buffered but the buffer is full, the user agent must flag the // WebSocket as full and then close the WebSocket connection. The data // to be sent is the raw data represented by the Blob object. Any // invocation of this method with a Blob argument that does not throw // an exception must increase the bufferedAmount attribute by the size // of the Blob object’s raw data, in bytes. const frame = new WebsocketFrameSend() data.arrayBuffer().then((ab) => { const value = Buffer.from(ab) frame.frameData = value const buffer = frame.createFrame(opcodes.BINARY) this.#bufferedAmount += value.byteLength socket.write(buffer, () => { this.#bufferedAmount -= value.byteLength }) }) } } get readyState () { webidl.brandCheck(this, WebSocket) // The readyState getter steps are to return this's ready state. return this[kReadyState] } get bufferedAmount () { webidl.brandCheck(this, WebSocket) return this.#bufferedAmount } get url () { webidl.brandCheck(this, WebSocket) // The url getter steps are to return this's url, serialized. return URLSerializer(this[kWebSocketURL]) } get extensions () { webidl.brandCheck(this, WebSocket) return this.#extensions } get protocol () { webidl.brandCheck(this, WebSocket) return this.#protocol } get onopen () { webidl.brandCheck(this, WebSocket) return this.#events.open } set onopen (fn) { webidl.brandCheck(this, WebSocket) if (this.#events.open) { this.removeEventListener('open', this.#events.open) } if (typeof fn === 'function') { this.#events.open = fn this.addEventListener('open', fn) } else { this.#events.open = null } } get onerror () { webidl.brandCheck(this, WebSocket) return this.#events.error } set onerror (fn) { webidl.brandCheck(this, WebSocket) if (this.#events.error) { this.removeEventListener('error', this.#events.error) } if (typeof fn === 'function') { this.#events.error = fn this.addEventListener('error', fn) } else { this.#events.error = null } } get onclose () { webidl.brandCheck(this, WebSocket) return this.#events.close } set onclose (fn) { webidl.brandCheck(this, WebSocket) if (this.#events.close) { this.removeEventListener('close', this.#events.close) } if (typeof fn === 'function') { this.#events.close = fn this.addEventListener('close', fn) } else { this.#events.close = null } } get onmessage () { webidl.brandCheck(this, WebSocket) return this.#events.message } set onmessage (fn) { webidl.brandCheck(this, WebSocket) if (this.#events.message) { this.removeEventListener('message', this.#events.message) } if (typeof fn === 'function') { this.#events.message = fn this.addEventListener('message', fn) } else { this.#events.message = null } } get binaryType () { webidl.brandCheck(this, WebSocket) return this[kBinaryType] } set binaryType (type) { webidl.brandCheck(this, WebSocket) if (type !== 'blob' && type !== 'arraybuffer') { this[kBinaryType] = 'blob' } else { this[kBinaryType] = type } } /** * @see https://websockets.spec.whatwg.org/#feedback-from-the-protocol */ #onConnectionEstablished (response) { // processResponse is called when the "response’s header list has been received and initialized." // once this happens, the connection is open this[kResponse] = response const parser = new ByteParser(this) parser.on('drain', function onParserDrain () { this.ws[kResponse].socket.resume() }) response.socket.ws = this this[kByteParser] = parser // 1. Change the ready state to OPEN (1). this[kReadyState] = states.OPEN // 2. Change the extensions attribute’s value to the extensions in use, if // it is not the null value. // https://datatracker.ietf.org/doc/html/rfc6455#section-9.1 const extensions = response.headersList.get('sec-websocket-extensions') if (extensions !== null) { this.#extensions = extensions } // 3. Change the protocol attribute’s value to the subprotocol in use, if // it is not the null value. // https://datatracker.ietf.org/doc/html/rfc6455#section-1.9 const protocol = response.headersList.get('sec-websocket-protocol') if (protocol !== null) { this.#protocol = protocol } // 4. Fire an event named open at the WebSocket object. fireEvent('open', this) } } // https://websockets.spec.whatwg.org/#dom-websocket-connecting WebSocket.CONNECTING = WebSocket.prototype.CONNECTING = states.CONNECTING // https://websockets.spec.whatwg.org/#dom-websocket-open WebSocket.OPEN = WebSocket.prototype.OPEN = states.OPEN // https://websockets.spec.whatwg.org/#dom-websocket-closing WebSocket.CLOSING = WebSocket.prototype.CLOSING = states.CLOSING // https://websockets.spec.whatwg.org/#dom-websocket-closed WebSocket.CLOSED = WebSocket.prototype.CLOSED = states.CLOSED Object.defineProperties(WebSocket.prototype, { CONNECTING: staticPropertyDescriptors, OPEN: staticPropertyDescriptors, CLOSING: staticPropertyDescriptors, CLOSED: staticPropertyDescriptors, url: kEnumerableProperty, readyState: kEnumerableProperty, bufferedAmount: kEnumerableProperty, onopen: kEnumerableProperty, onerror: kEnumerableProperty, onclose: kEnumerableProperty, close: kEnumerableProperty, onmessage: kEnumerableProperty, binaryType: kEnumerableProperty, send: kEnumerableProperty, extensions: kEnumerableProperty, protocol: kEnumerableProperty, [Symbol.toStringTag]: { value: 'WebSocket', writable: false, enumerable: false, configurable: true } }) Object.defineProperties(WebSocket, { CONNECTING: staticPropertyDescriptors, OPEN: staticPropertyDescriptors, CLOSING: staticPropertyDescriptors, CLOSED: staticPropertyDescriptors }) webidl.converters['sequence'] = webidl.sequenceConverter( webidl.converters.DOMString ) webidl.converters['DOMString or sequence'] = function (V) { if (webidl.util.Type(V) === 'Object' && Symbol.iterator in V) { return webidl.converters['sequence'](V) } return webidl.converters.DOMString(V) } // This implements the propsal made in https://github.com/whatwg/websockets/issues/42 webidl.converters.WebSocketInit = webidl.dictionaryConverter([ { key: 'protocols', converter: webidl.converters['DOMString or sequence'], get defaultValue () { return [] } }, { key: 'dispatcher', converter: (V) => V, get defaultValue () { return getGlobalDispatcher() } }, { key: 'headers', converter: webidl.nullableConverter(webidl.converters.HeadersInit) } ]) webidl.converters['DOMString or sequence or WebSocketInit'] = function (V) { if (webidl.util.Type(V) === 'Object' && !(Symbol.iterator in V)) { return webidl.converters.WebSocketInit(V) } return { protocols: webidl.converters['DOMString or sequence'](V) } } webidl.converters.WebSocketSendData = function (V) { if (webidl.util.Type(V) === 'Object') { if (isBlobLike(V)) { return webidl.converters.Blob(V, { strict: false }) } if (ArrayBuffer.isView(V) || types.isAnyArrayBuffer(V)) { return webidl.converters.BufferSource(V) } } return webidl.converters.USVString(V) } module.exports = { WebSocket } /***/ }), /***/ 3843: /***/ ((__unused_webpack_module, exports) => { Object.defineProperty(exports, "__esModule", ({ value: true })); function getUserAgent() { if (typeof navigator === "object" && "userAgent" in navigator) { return navigator.userAgent; } if (typeof process === "object" && process.version !== undefined) { return `Node.js/${process.version.substr(1)} (${process.platform}; ${process.arch})`; } return ""; } exports.getUserAgent = getUserAgent; //# sourceMappingURL=index.js.map /***/ }), /***/ 8264: /***/ ((module) => { // Returns a wrapper function that returns a wrapped callback // The wrapper function should do some stuff, and return a // presumably different callback function. // This makes sure that own properties are retained, so that // decorations and such are not lost along the way. module.exports = wrappy function wrappy (fn, cb) { if (fn && cb) return wrappy(fn)(cb) if (typeof fn !== 'function') throw new TypeError('need wrapper function') Object.keys(fn).forEach(function (k) { wrapper[k] = fn[k] }) return wrapper function wrapper() { var args = new Array(arguments.length) for (var i = 0; i < args.length; i++) { args[i] = arguments[i] } var ret = fn.apply(this, args) var cb = args[args.length-1] if (typeof ret === 'function' && ret !== cb) { Object.keys(cb).forEach(function (k) { ret[k] = cb[k] }) } return ret } } /***/ }), /***/ 1071: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)(__nccwpck_require__.ab + "lib/v8/index.node") /***/ }), /***/ 2613: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("assert"); /***/ }), /***/ 290: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("async_hooks"); /***/ }), /***/ 181: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("buffer"); /***/ }), /***/ 5317: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("child_process"); /***/ }), /***/ 4236: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("console"); /***/ }), /***/ 6982: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("crypto"); /***/ }), /***/ 1637: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("diagnostics_channel"); /***/ }), /***/ 4434: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("events"); /***/ }), /***/ 9896: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("fs"); /***/ }), /***/ 1943: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("fs/promises"); /***/ }), /***/ 8611: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("http"); /***/ }), /***/ 5675: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("http2"); /***/ }), /***/ 5692: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("https"); /***/ }), /***/ 9278: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("net"); /***/ }), /***/ 7598: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("node:crypto"); /***/ }), /***/ 8474: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("node:events"); /***/ }), /***/ 3024: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("node:fs"); /***/ }), /***/ 1455: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("node:fs/promises"); /***/ }), /***/ 6760: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("node:path"); /***/ }), /***/ 7075: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("node:stream"); /***/ }), /***/ 6193: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("node:string_decoder"); /***/ }), /***/ 3136: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("node:url"); /***/ }), /***/ 7975: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("node:util"); /***/ }), /***/ 857: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("os"); /***/ }), /***/ 6928: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("path"); /***/ }), /***/ 2987: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("perf_hooks"); /***/ }), /***/ 3480: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("querystring"); /***/ }), /***/ 2203: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("stream"); /***/ }), /***/ 3774: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("stream/web"); /***/ }), /***/ 3193: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("string_decoder"); /***/ }), /***/ 3557: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("timers"); /***/ }), /***/ 4756: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("tls"); /***/ }), /***/ 7016: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("url"); /***/ }), /***/ 9023: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("util"); /***/ }), /***/ 8253: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("util/types"); /***/ }), /***/ 8167: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("worker_threads"); /***/ }), /***/ 3106: /***/ ((module) => { module.exports = __WEBPACK_EXTERNAL_createRequire(import.meta.url)("zlib"); /***/ }), /***/ 7182: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const WritableStream = (__nccwpck_require__(7075).Writable) const inherits = (__nccwpck_require__(7975).inherits) const StreamSearch = __nccwpck_require__(4136) const PartStream = __nccwpck_require__(612) const HeaderParser = __nccwpck_require__(2271) const DASH = 45 const B_ONEDASH = Buffer.from('-') const B_CRLF = Buffer.from('\r\n') const EMPTY_FN = function () {} function Dicer (cfg) { if (!(this instanceof Dicer)) { return new Dicer(cfg) } WritableStream.call(this, cfg) if (!cfg || (!cfg.headerFirst && typeof cfg.boundary !== 'string')) { throw new TypeError('Boundary required') } if (typeof cfg.boundary === 'string') { this.setBoundary(cfg.boundary) } else { this._bparser = undefined } this._headerFirst = cfg.headerFirst this._dashes = 0 this._parts = 0 this._finished = false this._realFinish = false this._isPreamble = true this._justMatched = false this._firstWrite = true this._inHeader = true this._part = undefined this._cb = undefined this._ignoreData = false this._partOpts = { highWaterMark: cfg.partHwm } this._pause = false const self = this this._hparser = new HeaderParser(cfg) this._hparser.on('header', function (header) { self._inHeader = false self._part.emit('header', header) }) } inherits(Dicer, WritableStream) Dicer.prototype.emit = function (ev) { if (ev === 'finish' && !this._realFinish) { if (!this._finished) { const self = this process.nextTick(function () { self.emit('error', new Error('Unexpected end of multipart data')) if (self._part && !self._ignoreData) { const type = (self._isPreamble ? 'Preamble' : 'Part') self._part.emit('error', new Error(type + ' terminated early due to unexpected end of multipart data')) self._part.push(null) process.nextTick(function () { self._realFinish = true self.emit('finish') self._realFinish = false }) return } self._realFinish = true self.emit('finish') self._realFinish = false }) } } else { WritableStream.prototype.emit.apply(this, arguments) } } Dicer.prototype._write = function (data, encoding, cb) { // ignore unexpected data (e.g. extra trailer data after finished) if (!this._hparser && !this._bparser) { return cb() } if (this._headerFirst && this._isPreamble) { if (!this._part) { this._part = new PartStream(this._partOpts) if (this.listenerCount('preamble') !== 0) { this.emit('preamble', this._part) } else { this._ignore() } } const r = this._hparser.push(data) if (!this._inHeader && r !== undefined && r < data.length) { data = data.slice(r) } else { return cb() } } // allows for "easier" testing if (this._firstWrite) { this._bparser.push(B_CRLF) this._firstWrite = false } this._bparser.push(data) if (this._pause) { this._cb = cb } else { cb() } } Dicer.prototype.reset = function () { this._part = undefined this._bparser = undefined this._hparser = undefined } Dicer.prototype.setBoundary = function (boundary) { const self = this this._bparser = new StreamSearch('\r\n--' + boundary) this._bparser.on('info', function (isMatch, data, start, end) { self._oninfo(isMatch, data, start, end) }) } Dicer.prototype._ignore = function () { if (this._part && !this._ignoreData) { this._ignoreData = true this._part.on('error', EMPTY_FN) // we must perform some kind of read on the stream even though we are // ignoring the data, otherwise node's Readable stream will not emit 'end' // after pushing null to the stream this._part.resume() } } Dicer.prototype._oninfo = function (isMatch, data, start, end) { let buf; const self = this; let i = 0; let r; let shouldWriteMore = true if (!this._part && this._justMatched && data) { while (this._dashes < 2 && (start + i) < end) { if (data[start + i] === DASH) { ++i ++this._dashes } else { if (this._dashes) { buf = B_ONEDASH } this._dashes = 0 break } } if (this._dashes === 2) { if ((start + i) < end && this.listenerCount('trailer') !== 0) { this.emit('trailer', data.slice(start + i, end)) } this.reset() this._finished = true // no more parts will be added if (self._parts === 0) { self._realFinish = true self.emit('finish') self._realFinish = false } } if (this._dashes) { return } } if (this._justMatched) { this._justMatched = false } if (!this._part) { this._part = new PartStream(this._partOpts) this._part._read = function (n) { self._unpause() } if (this._isPreamble && this.listenerCount('preamble') !== 0) { this.emit('preamble', this._part) } else if (this._isPreamble !== true && this.listenerCount('part') !== 0) { this.emit('part', this._part) } else { this._ignore() } if (!this._isPreamble) { this._inHeader = true } } if (data && start < end && !this._ignoreData) { if (this._isPreamble || !this._inHeader) { if (buf) { shouldWriteMore = this._part.push(buf) } shouldWriteMore = this._part.push(data.slice(start, end)) if (!shouldWriteMore) { this._pause = true } } else if (!this._isPreamble && this._inHeader) { if (buf) { this._hparser.push(buf) } r = this._hparser.push(data.slice(start, end)) if (!this._inHeader && r !== undefined && r < end) { this._oninfo(false, data, start + r, end) } } } if (isMatch) { this._hparser.reset() if (this._isPreamble) { this._isPreamble = false } else { if (start !== end) { ++this._parts this._part.on('end', function () { if (--self._parts === 0) { if (self._finished) { self._realFinish = true self.emit('finish') self._realFinish = false } else { self._unpause() } } }) } } this._part.push(null) this._part = undefined this._ignoreData = false this._justMatched = true this._dashes = 0 } } Dicer.prototype._unpause = function () { if (!this._pause) { return } this._pause = false if (this._cb) { const cb = this._cb this._cb = undefined cb() } } module.exports = Dicer /***/ }), /***/ 2271: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const EventEmitter = (__nccwpck_require__(8474).EventEmitter) const inherits = (__nccwpck_require__(7975).inherits) const getLimit = __nccwpck_require__(2393) const StreamSearch = __nccwpck_require__(4136) const B_DCRLF = Buffer.from('\r\n\r\n') const RE_CRLF = /\r\n/g const RE_HDR = /^([^:]+):[ \t]?([\x00-\xFF]+)?$/ // eslint-disable-line no-control-regex function HeaderParser (cfg) { EventEmitter.call(this) cfg = cfg || {} const self = this this.nread = 0 this.maxed = false this.npairs = 0 this.maxHeaderPairs = getLimit(cfg, 'maxHeaderPairs', 2000) this.maxHeaderSize = getLimit(cfg, 'maxHeaderSize', 80 * 1024) this.buffer = '' this.header = {} this.finished = false this.ss = new StreamSearch(B_DCRLF) this.ss.on('info', function (isMatch, data, start, end) { if (data && !self.maxed) { if (self.nread + end - start >= self.maxHeaderSize) { end = self.maxHeaderSize - self.nread + start self.nread = self.maxHeaderSize self.maxed = true } else { self.nread += (end - start) } self.buffer += data.toString('binary', start, end) } if (isMatch) { self._finish() } }) } inherits(HeaderParser, EventEmitter) HeaderParser.prototype.push = function (data) { const r = this.ss.push(data) if (this.finished) { return r } } HeaderParser.prototype.reset = function () { this.finished = false this.buffer = '' this.header = {} this.ss.reset() } HeaderParser.prototype._finish = function () { if (this.buffer) { this._parseHeader() } this.ss.matches = this.ss.maxMatches const header = this.header this.header = {} this.buffer = '' this.finished = true this.nread = this.npairs = 0 this.maxed = false this.emit('header', header) } HeaderParser.prototype._parseHeader = function () { if (this.npairs === this.maxHeaderPairs) { return } const lines = this.buffer.split(RE_CRLF) const len = lines.length let m, h for (var i = 0; i < len; ++i) { // eslint-disable-line no-var if (lines[i].length === 0) { continue } if (lines[i][0] === '\t' || lines[i][0] === ' ') { // folded header content // RFC2822 says to just remove the CRLF and not the whitespace following // it, so we follow the RFC and include the leading whitespace ... if (h) { this.header[h][this.header[h].length - 1] += lines[i] continue } } const posColon = lines[i].indexOf(':') if ( posColon === -1 || posColon === 0 ) { return } m = RE_HDR.exec(lines[i]) h = m[1].toLowerCase() this.header[h] = this.header[h] || [] this.header[h].push((m[2] || '')) if (++this.npairs === this.maxHeaderPairs) { break } } } module.exports = HeaderParser /***/ }), /***/ 612: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const inherits = (__nccwpck_require__(7975).inherits) const ReadableStream = (__nccwpck_require__(7075).Readable) function PartStream (opts) { ReadableStream.call(this, opts) } inherits(PartStream, ReadableStream) PartStream.prototype._read = function (n) {} module.exports = PartStream /***/ }), /***/ 4136: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { /** * Copyright Brian White. All rights reserved. * * @see https://github.com/mscdex/streamsearch * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. * * Based heavily on the Streaming Boyer-Moore-Horspool C++ implementation * by Hongli Lai at: https://github.com/FooBarWidget/boyer-moore-horspool */ const EventEmitter = (__nccwpck_require__(8474).EventEmitter) const inherits = (__nccwpck_require__(7975).inherits) function SBMH (needle) { if (typeof needle === 'string') { needle = Buffer.from(needle) } if (!Buffer.isBuffer(needle)) { throw new TypeError('The needle has to be a String or a Buffer.') } const needleLength = needle.length if (needleLength === 0) { throw new Error('The needle cannot be an empty String/Buffer.') } if (needleLength > 256) { throw new Error('The needle cannot have a length bigger than 256.') } this.maxMatches = Infinity this.matches = 0 this._occ = new Array(256) .fill(needleLength) // Initialize occurrence table. this._lookbehind_size = 0 this._needle = needle this._bufpos = 0 this._lookbehind = Buffer.alloc(needleLength) // Populate occurrence table with analysis of the needle, // ignoring last letter. for (var i = 0; i < needleLength - 1; ++i) { // eslint-disable-line no-var this._occ[needle[i]] = needleLength - 1 - i } } inherits(SBMH, EventEmitter) SBMH.prototype.reset = function () { this._lookbehind_size = 0 this.matches = 0 this._bufpos = 0 } SBMH.prototype.push = function (chunk, pos) { if (!Buffer.isBuffer(chunk)) { chunk = Buffer.from(chunk, 'binary') } const chlen = chunk.length this._bufpos = pos || 0 let r while (r !== chlen && this.matches < this.maxMatches) { r = this._sbmh_feed(chunk) } return r } SBMH.prototype._sbmh_feed = function (data) { const len = data.length const needle = this._needle const needleLength = needle.length const lastNeedleChar = needle[needleLength - 1] // Positive: points to a position in `data` // pos == 3 points to data[3] // Negative: points to a position in the lookbehind buffer // pos == -2 points to lookbehind[lookbehind_size - 2] let pos = -this._lookbehind_size let ch if (pos < 0) { // Lookbehind buffer is not empty. Perform Boyer-Moore-Horspool // search with character lookup code that considers both the // lookbehind buffer and the current round's haystack data. // // Loop until // there is a match. // or until // we've moved past the position that requires the // lookbehind buffer. In this case we switch to the // optimized loop. // or until // the character to look at lies outside the haystack. while (pos < 0 && pos <= len - needleLength) { ch = this._sbmh_lookup_char(data, pos + needleLength - 1) if ( ch === lastNeedleChar && this._sbmh_memcmp(data, pos, needleLength - 1) ) { this._lookbehind_size = 0 ++this.matches this.emit('info', true) return (this._bufpos = pos + needleLength) } pos += this._occ[ch] } // No match. if (pos < 0) { // There's too few data for Boyer-Moore-Horspool to run, // so let's use a different algorithm to skip as much as // we can. // Forward pos until // the trailing part of lookbehind + data // looks like the beginning of the needle // or until // pos == 0 while (pos < 0 && !this._sbmh_memcmp(data, pos, len - pos)) { ++pos } } if (pos >= 0) { // Discard lookbehind buffer. this.emit('info', false, this._lookbehind, 0, this._lookbehind_size) this._lookbehind_size = 0 } else { // Cut off part of the lookbehind buffer that has // been processed and append the entire haystack // into it. const bytesToCutOff = this._lookbehind_size + pos if (bytesToCutOff > 0) { // The cut off data is guaranteed not to contain the needle. this.emit('info', false, this._lookbehind, 0, bytesToCutOff) } this._lookbehind.copy(this._lookbehind, 0, bytesToCutOff, this._lookbehind_size - bytesToCutOff) this._lookbehind_size -= bytesToCutOff data.copy(this._lookbehind, this._lookbehind_size) this._lookbehind_size += len this._bufpos = len return len } } pos += (pos >= 0) * this._bufpos // Lookbehind buffer is now empty. We only need to check if the // needle is in the haystack. if (data.indexOf(needle, pos) !== -1) { pos = data.indexOf(needle, pos) ++this.matches if (pos > 0) { this.emit('info', true, data, this._bufpos, pos) } else { this.emit('info', true) } return (this._bufpos = pos + needleLength) } else { pos = len - needleLength } // There was no match. If there's trailing haystack data that we cannot // match yet using the Boyer-Moore-Horspool algorithm (because the trailing // data is less than the needle size) then match using a modified // algorithm that starts matching from the beginning instead of the end. // Whatever trailing data is left after running this algorithm is added to // the lookbehind buffer. while ( pos < len && ( data[pos] !== needle[0] || ( (Buffer.compare( data.subarray(pos, pos + len - pos), needle.subarray(0, len - pos) ) !== 0) ) ) ) { ++pos } if (pos < len) { data.copy(this._lookbehind, 0, pos, pos + (len - pos)) this._lookbehind_size = len - pos } // Everything until pos is guaranteed not to contain needle data. if (pos > 0) { this.emit('info', false, data, this._bufpos, pos < len ? pos : len) } this._bufpos = len return len } SBMH.prototype._sbmh_lookup_char = function (data, pos) { return (pos < 0) ? this._lookbehind[this._lookbehind_size + pos] : data[pos] } SBMH.prototype._sbmh_memcmp = function (data, pos, len) { for (var i = 0; i < len; ++i) { // eslint-disable-line no-var if (this._sbmh_lookup_char(data, pos + i) !== this._needle[i]) { return false } } return true } module.exports = SBMH /***/ }), /***/ 9581: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const WritableStream = (__nccwpck_require__(7075).Writable) const { inherits } = __nccwpck_require__(7975) const Dicer = __nccwpck_require__(7182) const MultipartParser = __nccwpck_require__(1192) const UrlencodedParser = __nccwpck_require__(855) const parseParams = __nccwpck_require__(8929) function Busboy (opts) { if (!(this instanceof Busboy)) { return new Busboy(opts) } if (typeof opts !== 'object') { throw new TypeError('Busboy expected an options-Object.') } if (typeof opts.headers !== 'object') { throw new TypeError('Busboy expected an options-Object with headers-attribute.') } if (typeof opts.headers['content-type'] !== 'string') { throw new TypeError('Missing Content-Type-header.') } const { headers, ...streamOptions } = opts this.opts = { autoDestroy: false, ...streamOptions } WritableStream.call(this, this.opts) this._done = false this._parser = this.getParserByHeaders(headers) this._finished = false } inherits(Busboy, WritableStream) Busboy.prototype.emit = function (ev) { if (ev === 'finish') { if (!this._done) { this._parser?.end() return } else if (this._finished) { return } this._finished = true } WritableStream.prototype.emit.apply(this, arguments) } Busboy.prototype.getParserByHeaders = function (headers) { const parsed = parseParams(headers['content-type']) const cfg = { defCharset: this.opts.defCharset, fileHwm: this.opts.fileHwm, headers, highWaterMark: this.opts.highWaterMark, isPartAFile: this.opts.isPartAFile, limits: this.opts.limits, parsedConType: parsed, preservePath: this.opts.preservePath } if (MultipartParser.detect.test(parsed[0])) { return new MultipartParser(this, cfg) } if (UrlencodedParser.detect.test(parsed[0])) { return new UrlencodedParser(this, cfg) } throw new Error('Unsupported Content-Type.') } Busboy.prototype._write = function (chunk, encoding, cb) { this._parser.write(chunk, cb) } module.exports = Busboy module.exports["default"] = Busboy module.exports.Busboy = Busboy module.exports.Dicer = Dicer /***/ }), /***/ 1192: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { // TODO: // * support 1 nested multipart level // (see second multipart example here: // http://www.w3.org/TR/html401/interact/forms.html#didx-multipartform-data) // * support limits.fieldNameSize // -- this will require modifications to utils.parseParams const { Readable } = __nccwpck_require__(7075) const { inherits } = __nccwpck_require__(7975) const Dicer = __nccwpck_require__(7182) const parseParams = __nccwpck_require__(8929) const decodeText = __nccwpck_require__(2747) const basename = __nccwpck_require__(692) const getLimit = __nccwpck_require__(2393) const RE_BOUNDARY = /^boundary$/i const RE_FIELD = /^form-data$/i const RE_CHARSET = /^charset$/i const RE_FILENAME = /^filename$/i const RE_NAME = /^name$/i Multipart.detect = /^multipart\/form-data/i function Multipart (boy, cfg) { let i let len const self = this let boundary const limits = cfg.limits const isPartAFile = cfg.isPartAFile || ((fieldName, contentType, fileName) => (contentType === 'application/octet-stream' || fileName !== undefined)) const parsedConType = cfg.parsedConType || [] const defCharset = cfg.defCharset || 'utf8' const preservePath = cfg.preservePath const fileOpts = { highWaterMark: cfg.fileHwm } for (i = 0, len = parsedConType.length; i < len; ++i) { if (Array.isArray(parsedConType[i]) && RE_BOUNDARY.test(parsedConType[i][0])) { boundary = parsedConType[i][1] break } } function checkFinished () { if (nends === 0 && finished && !boy._done) { finished = false self.end() } } if (typeof boundary !== 'string') { throw new Error('Multipart: Boundary not found') } const fieldSizeLimit = getLimit(limits, 'fieldSize', 1 * 1024 * 1024) const fileSizeLimit = getLimit(limits, 'fileSize', Infinity) const filesLimit = getLimit(limits, 'files', Infinity) const fieldsLimit = getLimit(limits, 'fields', Infinity) const partsLimit = getLimit(limits, 'parts', Infinity) const headerPairsLimit = getLimit(limits, 'headerPairs', 2000) const headerSizeLimit = getLimit(limits, 'headerSize', 80 * 1024) let nfiles = 0 let nfields = 0 let nends = 0 let curFile let curField let finished = false this._needDrain = false this._pause = false this._cb = undefined this._nparts = 0 this._boy = boy const parserCfg = { boundary, maxHeaderPairs: headerPairsLimit, maxHeaderSize: headerSizeLimit, partHwm: fileOpts.highWaterMark, highWaterMark: cfg.highWaterMark } this.parser = new Dicer(parserCfg) this.parser.on('drain', function () { self._needDrain = false if (self._cb && !self._pause) { const cb = self._cb self._cb = undefined cb() } }).on('part', function onPart (part) { if (++self._nparts > partsLimit) { self.parser.removeListener('part', onPart) self.parser.on('part', skipPart) boy.hitPartsLimit = true boy.emit('partsLimit') return skipPart(part) } // hack because streams2 _always_ doesn't emit 'end' until nextTick, so let // us emit 'end' early since we know the part has ended if we are already // seeing the next part if (curField) { const field = curField field.emit('end') field.removeAllListeners('end') } part.on('header', function (header) { let contype let fieldname let parsed let charset let encoding let filename let nsize = 0 if (header['content-type']) { parsed = parseParams(header['content-type'][0]) if (parsed[0]) { contype = parsed[0].toLowerCase() for (i = 0, len = parsed.length; i < len; ++i) { if (RE_CHARSET.test(parsed[i][0])) { charset = parsed[i][1].toLowerCase() break } } } } if (contype === undefined) { contype = 'text/plain' } if (charset === undefined) { charset = defCharset } if (header['content-disposition']) { parsed = parseParams(header['content-disposition'][0]) if (!RE_FIELD.test(parsed[0])) { return skipPart(part) } for (i = 0, len = parsed.length; i < len; ++i) { if (RE_NAME.test(parsed[i][0])) { fieldname = parsed[i][1] } else if (RE_FILENAME.test(parsed[i][0])) { filename = parsed[i][1] if (!preservePath) { filename = basename(filename) } } } } else { return skipPart(part) } if (header['content-transfer-encoding']) { encoding = header['content-transfer-encoding'][0].toLowerCase() } else { encoding = '7bit' } let onData, onEnd if (isPartAFile(fieldname, contype, filename)) { // file/binary field if (nfiles === filesLimit) { if (!boy.hitFilesLimit) { boy.hitFilesLimit = true boy.emit('filesLimit') } return skipPart(part) } ++nfiles if (boy.listenerCount('file') === 0) { self.parser._ignore() return } ++nends const file = new FileStream(fileOpts) curFile = file file.on('end', function () { --nends self._pause = false checkFinished() if (self._cb && !self._needDrain) { const cb = self._cb self._cb = undefined cb() } }) file._read = function (n) { if (!self._pause) { return } self._pause = false if (self._cb && !self._needDrain) { const cb = self._cb self._cb = undefined cb() } } boy.emit('file', fieldname, file, filename, encoding, contype) onData = function (data) { if ((nsize += data.length) > fileSizeLimit) { const extralen = fileSizeLimit - nsize + data.length if (extralen > 0) { file.push(data.slice(0, extralen)) } file.truncated = true file.bytesRead = fileSizeLimit part.removeAllListeners('data') file.emit('limit') return } else if (!file.push(data)) { self._pause = true } file.bytesRead = nsize } onEnd = function () { curFile = undefined file.push(null) } } else { // non-file field if (nfields === fieldsLimit) { if (!boy.hitFieldsLimit) { boy.hitFieldsLimit = true boy.emit('fieldsLimit') } return skipPart(part) } ++nfields ++nends let buffer = '' let truncated = false curField = part onData = function (data) { if ((nsize += data.length) > fieldSizeLimit) { const extralen = (fieldSizeLimit - (nsize - data.length)) buffer += data.toString('binary', 0, extralen) truncated = true part.removeAllListeners('data') } else { buffer += data.toString('binary') } } onEnd = function () { curField = undefined if (buffer.length) { buffer = decodeText(buffer, 'binary', charset) } boy.emit('field', fieldname, buffer, false, truncated, encoding, contype) --nends checkFinished() } } /* As of node@2efe4ab761666 (v0.10.29+/v0.11.14+), busboy had become broken. Streams2/streams3 is a huge black box of confusion, but somehow overriding the sync state seems to fix things again (and still seems to work for previous node versions). */ part._readableState.sync = false part.on('data', onData) part.on('end', onEnd) }).on('error', function (err) { if (curFile) { curFile.emit('error', err) } }) }).on('error', function (err) { boy.emit('error', err) }).on('finish', function () { finished = true checkFinished() }) } Multipart.prototype.write = function (chunk, cb) { const r = this.parser.write(chunk) if (r && !this._pause) { cb() } else { this._needDrain = !r this._cb = cb } } Multipart.prototype.end = function () { const self = this if (self.parser.writable) { self.parser.end() } else if (!self._boy._done) { process.nextTick(function () { self._boy._done = true self._boy.emit('finish') }) } } function skipPart (part) { part.resume() } function FileStream (opts) { Readable.call(this, opts) this.bytesRead = 0 this.truncated = false } inherits(FileStream, Readable) FileStream.prototype._read = function (n) {} module.exports = Multipart /***/ }), /***/ 855: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { const Decoder = __nccwpck_require__(1496) const decodeText = __nccwpck_require__(2747) const getLimit = __nccwpck_require__(2393) const RE_CHARSET = /^charset$/i UrlEncoded.detect = /^application\/x-www-form-urlencoded/i function UrlEncoded (boy, cfg) { const limits = cfg.limits const parsedConType = cfg.parsedConType this.boy = boy this.fieldSizeLimit = getLimit(limits, 'fieldSize', 1 * 1024 * 1024) this.fieldNameSizeLimit = getLimit(limits, 'fieldNameSize', 100) this.fieldsLimit = getLimit(limits, 'fields', Infinity) let charset for (var i = 0, len = parsedConType.length; i < len; ++i) { // eslint-disable-line no-var if (Array.isArray(parsedConType[i]) && RE_CHARSET.test(parsedConType[i][0])) { charset = parsedConType[i][1].toLowerCase() break } } if (charset === undefined) { charset = cfg.defCharset || 'utf8' } this.decoder = new Decoder() this.charset = charset this._fields = 0 this._state = 'key' this._checkingBytes = true this._bytesKey = 0 this._bytesVal = 0 this._key = '' this._val = '' this._keyTrunc = false this._valTrunc = false this._hitLimit = false } UrlEncoded.prototype.write = function (data, cb) { if (this._fields === this.fieldsLimit) { if (!this.boy.hitFieldsLimit) { this.boy.hitFieldsLimit = true this.boy.emit('fieldsLimit') } return cb() } let idxeq; let idxamp; let i; let p = 0; const len = data.length while (p < len) { if (this._state === 'key') { idxeq = idxamp = undefined for (i = p; i < len; ++i) { if (!this._checkingBytes) { ++p } if (data[i] === 0x3D/* = */) { idxeq = i break } else if (data[i] === 0x26/* & */) { idxamp = i break } if (this._checkingBytes && this._bytesKey === this.fieldNameSizeLimit) { this._hitLimit = true break } else if (this._checkingBytes) { ++this._bytesKey } } if (idxeq !== undefined) { // key with assignment if (idxeq > p) { this._key += this.decoder.write(data.toString('binary', p, idxeq)) } this._state = 'val' this._hitLimit = false this._checkingBytes = true this._val = '' this._bytesVal = 0 this._valTrunc = false this.decoder.reset() p = idxeq + 1 } else if (idxamp !== undefined) { // key with no assignment ++this._fields let key; const keyTrunc = this._keyTrunc if (idxamp > p) { key = (this._key += this.decoder.write(data.toString('binary', p, idxamp))) } else { key = this._key } this._hitLimit = false this._checkingBytes = true this._key = '' this._bytesKey = 0 this._keyTrunc = false this.decoder.reset() if (key.length) { this.boy.emit('field', decodeText(key, 'binary', this.charset), '', keyTrunc, false) } p = idxamp + 1 if (this._fields === this.fieldsLimit) { return cb() } } else if (this._hitLimit) { // we may not have hit the actual limit if there are encoded bytes... if (i > p) { this._key += this.decoder.write(data.toString('binary', p, i)) } p = i if ((this._bytesKey = this._key.length) === this.fieldNameSizeLimit) { // yep, we actually did hit the limit this._checkingBytes = false this._keyTrunc = true } } else { if (p < len) { this._key += this.decoder.write(data.toString('binary', p)) } p = len } } else { idxamp = undefined for (i = p; i < len; ++i) { if (!this._checkingBytes) { ++p } if (data[i] === 0x26/* & */) { idxamp = i break } if (this._checkingBytes && this._bytesVal === this.fieldSizeLimit) { this._hitLimit = true break } else if (this._checkingBytes) { ++this._bytesVal } } if (idxamp !== undefined) { ++this._fields if (idxamp > p) { this._val += this.decoder.write(data.toString('binary', p, idxamp)) } this.boy.emit('field', decodeText(this._key, 'binary', this.charset), decodeText(this._val, 'binary', this.charset), this._keyTrunc, this._valTrunc) this._state = 'key' this._hitLimit = false this._checkingBytes = true this._key = '' this._bytesKey = 0 this._keyTrunc = false this.decoder.reset() p = idxamp + 1 if (this._fields === this.fieldsLimit) { return cb() } } else if (this._hitLimit) { // we may not have hit the actual limit if there are encoded bytes... if (i > p) { this._val += this.decoder.write(data.toString('binary', p, i)) } p = i if ((this._val === '' && this.fieldSizeLimit === 0) || (this._bytesVal = this._val.length) === this.fieldSizeLimit) { // yep, we actually did hit the limit this._checkingBytes = false this._valTrunc = true } } else { if (p < len) { this._val += this.decoder.write(data.toString('binary', p)) } p = len } } } cb() } UrlEncoded.prototype.end = function () { if (this.boy._done) { return } if (this._state === 'key' && this._key.length > 0) { this.boy.emit('field', decodeText(this._key, 'binary', this.charset), '', this._keyTrunc, false) } else if (this._state === 'val') { this.boy.emit('field', decodeText(this._key, 'binary', this.charset), decodeText(this._val, 'binary', this.charset), this._keyTrunc, this._valTrunc) } this.boy._done = true this.boy.emit('finish') } module.exports = UrlEncoded /***/ }), /***/ 1496: /***/ ((module) => { const RE_PLUS = /\+/g const HEX = [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 ] function Decoder () { this.buffer = undefined } Decoder.prototype.write = function (str) { // Replace '+' with ' ' before decoding str = str.replace(RE_PLUS, ' ') let res = '' let i = 0; let p = 0; const len = str.length for (; i < len; ++i) { if (this.buffer !== undefined) { if (!HEX[str.charCodeAt(i)]) { res += '%' + this.buffer this.buffer = undefined --i // retry character } else { this.buffer += str[i] ++p if (this.buffer.length === 2) { res += String.fromCharCode(parseInt(this.buffer, 16)) this.buffer = undefined } } } else if (str[i] === '%') { if (i > p) { res += str.substring(p, i) p = i } this.buffer = '' ++p } } if (p < len && this.buffer === undefined) { res += str.substring(p) } return res } Decoder.prototype.reset = function () { this.buffer = undefined } module.exports = Decoder /***/ }), /***/ 692: /***/ ((module) => { module.exports = function basename (path) { if (typeof path !== 'string') { return '' } for (var i = path.length - 1; i >= 0; --i) { // eslint-disable-line no-var switch (path.charCodeAt(i)) { case 0x2F: // '/' case 0x5C: // '\' path = path.slice(i + 1) return (path === '..' || path === '.' ? '' : path) } } return (path === '..' || path === '.' ? '' : path) } /***/ }), /***/ 2747: /***/ (function(module) { // Node has always utf-8 const utf8Decoder = new TextDecoder('utf-8') const textDecoders = new Map([ ['utf-8', utf8Decoder], ['utf8', utf8Decoder] ]) function getDecoder (charset) { let lc while (true) { switch (charset) { case 'utf-8': case 'utf8': return decoders.utf8 case 'latin1': case 'ascii': // TODO: Make these a separate, strict decoder? case 'us-ascii': case 'iso-8859-1': case 'iso8859-1': case 'iso88591': case 'iso_8859-1': case 'windows-1252': case 'iso_8859-1:1987': case 'cp1252': case 'x-cp1252': return decoders.latin1 case 'utf16le': case 'utf-16le': case 'ucs2': case 'ucs-2': return decoders.utf16le case 'base64': return decoders.base64 default: if (lc === undefined) { lc = true charset = charset.toLowerCase() continue } return decoders.other.bind(charset) } } } const decoders = { utf8: (data, sourceEncoding) => { if (data.length === 0) { return '' } if (typeof data === 'string') { data = Buffer.from(data, sourceEncoding) } return data.utf8Slice(0, data.length) }, latin1: (data, sourceEncoding) => { if (data.length === 0) { return '' } if (typeof data === 'string') { return data } return data.latin1Slice(0, data.length) }, utf16le: (data, sourceEncoding) => { if (data.length === 0) { return '' } if (typeof data === 'string') { data = Buffer.from(data, sourceEncoding) } return data.ucs2Slice(0, data.length) }, base64: (data, sourceEncoding) => { if (data.length === 0) { return '' } if (typeof data === 'string') { data = Buffer.from(data, sourceEncoding) } return data.base64Slice(0, data.length) }, other: (data, sourceEncoding) => { if (data.length === 0) { return '' } if (typeof data === 'string') { data = Buffer.from(data, sourceEncoding) } if (textDecoders.has(this.toString())) { try { return textDecoders.get(this).decode(data) } catch {} } return typeof data === 'string' ? data : data.toString() } } function decodeText (text, sourceEncoding, destEncoding) { if (text) { return getDecoder(destEncoding)(text, sourceEncoding) } return text } module.exports = decodeText /***/ }), /***/ 2393: /***/ ((module) => { module.exports = function getLimit (limits, name, defaultLimit) { if ( !limits || limits[name] === undefined || limits[name] === null ) { return defaultLimit } if ( typeof limits[name] !== 'number' || isNaN(limits[name]) ) { throw new TypeError('Limit ' + name + ' is not a valid number') } return limits[name] } /***/ }), /***/ 8929: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { /* eslint-disable object-property-newline */ const decodeText = __nccwpck_require__(2747) const RE_ENCODED = /%[a-fA-F0-9][a-fA-F0-9]/g const EncodedLookup = { '%00': '\x00', '%01': '\x01', '%02': '\x02', '%03': '\x03', '%04': '\x04', '%05': '\x05', '%06': '\x06', '%07': '\x07', '%08': '\x08', '%09': '\x09', '%0a': '\x0a', '%0A': '\x0a', '%0b': '\x0b', '%0B': '\x0b', '%0c': '\x0c', '%0C': '\x0c', '%0d': '\x0d', '%0D': '\x0d', '%0e': '\x0e', '%0E': '\x0e', '%0f': '\x0f', '%0F': '\x0f', '%10': '\x10', '%11': '\x11', '%12': '\x12', '%13': '\x13', '%14': '\x14', '%15': '\x15', '%16': '\x16', '%17': '\x17', '%18': '\x18', '%19': '\x19', '%1a': '\x1a', '%1A': '\x1a', '%1b': '\x1b', '%1B': '\x1b', '%1c': '\x1c', '%1C': '\x1c', '%1d': '\x1d', '%1D': '\x1d', '%1e': '\x1e', '%1E': '\x1e', '%1f': '\x1f', '%1F': '\x1f', '%20': '\x20', '%21': '\x21', '%22': '\x22', '%23': '\x23', '%24': '\x24', '%25': '\x25', '%26': '\x26', '%27': '\x27', '%28': '\x28', '%29': '\x29', '%2a': '\x2a', '%2A': '\x2a', '%2b': '\x2b', '%2B': '\x2b', '%2c': '\x2c', '%2C': '\x2c', '%2d': '\x2d', '%2D': '\x2d', '%2e': '\x2e', '%2E': '\x2e', '%2f': '\x2f', '%2F': '\x2f', '%30': '\x30', '%31': '\x31', '%32': '\x32', '%33': '\x33', '%34': '\x34', '%35': '\x35', '%36': '\x36', '%37': '\x37', '%38': '\x38', '%39': '\x39', '%3a': '\x3a', '%3A': '\x3a', '%3b': '\x3b', '%3B': '\x3b', '%3c': '\x3c', '%3C': '\x3c', '%3d': '\x3d', '%3D': '\x3d', '%3e': '\x3e', '%3E': '\x3e', '%3f': '\x3f', '%3F': '\x3f', '%40': '\x40', '%41': '\x41', '%42': '\x42', '%43': '\x43', '%44': '\x44', '%45': '\x45', '%46': '\x46', '%47': '\x47', '%48': '\x48', '%49': '\x49', '%4a': '\x4a', '%4A': '\x4a', '%4b': '\x4b', '%4B': '\x4b', '%4c': '\x4c', '%4C': '\x4c', '%4d': '\x4d', '%4D': '\x4d', '%4e': '\x4e', '%4E': '\x4e', '%4f': '\x4f', '%4F': '\x4f', '%50': '\x50', '%51': '\x51', '%52': '\x52', '%53': '\x53', '%54': '\x54', '%55': '\x55', '%56': '\x56', '%57': '\x57', '%58': '\x58', '%59': '\x59', '%5a': '\x5a', '%5A': '\x5a', '%5b': '\x5b', '%5B': '\x5b', '%5c': '\x5c', '%5C': '\x5c', '%5d': '\x5d', '%5D': '\x5d', '%5e': '\x5e', '%5E': '\x5e', '%5f': '\x5f', '%5F': '\x5f', '%60': '\x60', '%61': '\x61', '%62': '\x62', '%63': '\x63', '%64': '\x64', '%65': '\x65', '%66': '\x66', '%67': '\x67', '%68': '\x68', '%69': '\x69', '%6a': '\x6a', '%6A': '\x6a', '%6b': '\x6b', '%6B': '\x6b', '%6c': '\x6c', '%6C': '\x6c', '%6d': '\x6d', '%6D': '\x6d', '%6e': '\x6e', '%6E': '\x6e', '%6f': '\x6f', '%6F': '\x6f', '%70': '\x70', '%71': '\x71', '%72': '\x72', '%73': '\x73', '%74': '\x74', '%75': '\x75', '%76': '\x76', '%77': '\x77', '%78': '\x78', '%79': '\x79', '%7a': '\x7a', '%7A': '\x7a', '%7b': '\x7b', '%7B': '\x7b', '%7c': '\x7c', '%7C': '\x7c', '%7d': '\x7d', '%7D': '\x7d', '%7e': '\x7e', '%7E': '\x7e', '%7f': '\x7f', '%7F': '\x7f', '%80': '\x80', '%81': '\x81', '%82': '\x82', '%83': '\x83', '%84': '\x84', '%85': '\x85', '%86': '\x86', '%87': '\x87', '%88': '\x88', '%89': '\x89', '%8a': '\x8a', '%8A': '\x8a', '%8b': '\x8b', '%8B': '\x8b', '%8c': '\x8c', '%8C': '\x8c', '%8d': '\x8d', '%8D': '\x8d', '%8e': '\x8e', '%8E': '\x8e', '%8f': '\x8f', '%8F': '\x8f', '%90': '\x90', '%91': '\x91', '%92': '\x92', '%93': '\x93', '%94': '\x94', '%95': '\x95', '%96': '\x96', '%97': '\x97', '%98': '\x98', '%99': '\x99', '%9a': '\x9a', '%9A': '\x9a', '%9b': '\x9b', '%9B': '\x9b', '%9c': '\x9c', '%9C': '\x9c', '%9d': '\x9d', '%9D': '\x9d', '%9e': '\x9e', '%9E': '\x9e', '%9f': '\x9f', '%9F': '\x9f', '%a0': '\xa0', '%A0': '\xa0', '%a1': '\xa1', '%A1': '\xa1', '%a2': '\xa2', '%A2': '\xa2', '%a3': '\xa3', '%A3': '\xa3', '%a4': '\xa4', '%A4': '\xa4', '%a5': '\xa5', '%A5': '\xa5', '%a6': '\xa6', '%A6': '\xa6', '%a7': '\xa7', '%A7': '\xa7', '%a8': '\xa8', '%A8': '\xa8', '%a9': '\xa9', '%A9': '\xa9', '%aa': '\xaa', '%Aa': '\xaa', '%aA': '\xaa', '%AA': '\xaa', '%ab': '\xab', '%Ab': '\xab', '%aB': '\xab', '%AB': '\xab', '%ac': '\xac', '%Ac': '\xac', '%aC': '\xac', '%AC': '\xac', '%ad': '\xad', '%Ad': '\xad', '%aD': '\xad', '%AD': '\xad', '%ae': '\xae', '%Ae': '\xae', '%aE': '\xae', '%AE': '\xae', '%af': '\xaf', '%Af': '\xaf', '%aF': '\xaf', '%AF': '\xaf', '%b0': '\xb0', '%B0': '\xb0', '%b1': '\xb1', '%B1': '\xb1', '%b2': '\xb2', '%B2': '\xb2', '%b3': '\xb3', '%B3': '\xb3', '%b4': '\xb4', '%B4': '\xb4', '%b5': '\xb5', '%B5': '\xb5', '%b6': '\xb6', '%B6': '\xb6', '%b7': '\xb7', '%B7': '\xb7', '%b8': '\xb8', '%B8': '\xb8', '%b9': '\xb9', '%B9': '\xb9', '%ba': '\xba', '%Ba': '\xba', '%bA': '\xba', '%BA': '\xba', '%bb': '\xbb', '%Bb': '\xbb', '%bB': '\xbb', '%BB': '\xbb', '%bc': '\xbc', '%Bc': '\xbc', '%bC': '\xbc', '%BC': '\xbc', '%bd': '\xbd', '%Bd': '\xbd', '%bD': '\xbd', '%BD': '\xbd', '%be': '\xbe', '%Be': '\xbe', '%bE': '\xbe', '%BE': '\xbe', '%bf': '\xbf', '%Bf': '\xbf', '%bF': '\xbf', '%BF': '\xbf', '%c0': '\xc0', '%C0': '\xc0', '%c1': '\xc1', '%C1': '\xc1', '%c2': '\xc2', '%C2': '\xc2', '%c3': '\xc3', '%C3': '\xc3', '%c4': '\xc4', '%C4': '\xc4', '%c5': '\xc5', '%C5': '\xc5', '%c6': '\xc6', '%C6': '\xc6', '%c7': '\xc7', '%C7': '\xc7', '%c8': '\xc8', '%C8': '\xc8', '%c9': '\xc9', '%C9': '\xc9', '%ca': '\xca', '%Ca': '\xca', '%cA': '\xca', '%CA': '\xca', '%cb': '\xcb', '%Cb': '\xcb', '%cB': '\xcb', '%CB': '\xcb', '%cc': '\xcc', '%Cc': '\xcc', '%cC': '\xcc', '%CC': '\xcc', '%cd': '\xcd', '%Cd': '\xcd', '%cD': '\xcd', '%CD': '\xcd', '%ce': '\xce', '%Ce': '\xce', '%cE': '\xce', '%CE': '\xce', '%cf': '\xcf', '%Cf': '\xcf', '%cF': '\xcf', '%CF': '\xcf', '%d0': '\xd0', '%D0': '\xd0', '%d1': '\xd1', '%D1': '\xd1', '%d2': '\xd2', '%D2': '\xd2', '%d3': '\xd3', '%D3': '\xd3', '%d4': '\xd4', '%D4': '\xd4', '%d5': '\xd5', '%D5': '\xd5', '%d6': '\xd6', '%D6': '\xd6', '%d7': '\xd7', '%D7': '\xd7', '%d8': '\xd8', '%D8': '\xd8', '%d9': '\xd9', '%D9': '\xd9', '%da': '\xda', '%Da': '\xda', '%dA': '\xda', '%DA': '\xda', '%db': '\xdb', '%Db': '\xdb', '%dB': '\xdb', '%DB': '\xdb', '%dc': '\xdc', '%Dc': '\xdc', '%dC': '\xdc', '%DC': '\xdc', '%dd': '\xdd', '%Dd': '\xdd', '%dD': '\xdd', '%DD': '\xdd', '%de': '\xde', '%De': '\xde', '%dE': '\xde', '%DE': '\xde', '%df': '\xdf', '%Df': '\xdf', '%dF': '\xdf', '%DF': '\xdf', '%e0': '\xe0', '%E0': '\xe0', '%e1': '\xe1', '%E1': '\xe1', '%e2': '\xe2', '%E2': '\xe2', '%e3': '\xe3', '%E3': '\xe3', '%e4': '\xe4', '%E4': '\xe4', '%e5': '\xe5', '%E5': '\xe5', '%e6': '\xe6', '%E6': '\xe6', '%e7': '\xe7', '%E7': '\xe7', '%e8': '\xe8', '%E8': '\xe8', '%e9': '\xe9', '%E9': '\xe9', '%ea': '\xea', '%Ea': '\xea', '%eA': '\xea', '%EA': '\xea', '%eb': '\xeb', '%Eb': '\xeb', '%eB': '\xeb', '%EB': '\xeb', '%ec': '\xec', '%Ec': '\xec', '%eC': '\xec', '%EC': '\xec', '%ed': '\xed', '%Ed': '\xed', '%eD': '\xed', '%ED': '\xed', '%ee': '\xee', '%Ee': '\xee', '%eE': '\xee', '%EE': '\xee', '%ef': '\xef', '%Ef': '\xef', '%eF': '\xef', '%EF': '\xef', '%f0': '\xf0', '%F0': '\xf0', '%f1': '\xf1', '%F1': '\xf1', '%f2': '\xf2', '%F2': '\xf2', '%f3': '\xf3', '%F3': '\xf3', '%f4': '\xf4', '%F4': '\xf4', '%f5': '\xf5', '%F5': '\xf5', '%f6': '\xf6', '%F6': '\xf6', '%f7': '\xf7', '%F7': '\xf7', '%f8': '\xf8', '%F8': '\xf8', '%f9': '\xf9', '%F9': '\xf9', '%fa': '\xfa', '%Fa': '\xfa', '%fA': '\xfa', '%FA': '\xfa', '%fb': '\xfb', '%Fb': '\xfb', '%fB': '\xfb', '%FB': '\xfb', '%fc': '\xfc', '%Fc': '\xfc', '%fC': '\xfc', '%FC': '\xfc', '%fd': '\xfd', '%Fd': '\xfd', '%fD': '\xfd', '%FD': '\xfd', '%fe': '\xfe', '%Fe': '\xfe', '%fE': '\xfe', '%FE': '\xfe', '%ff': '\xff', '%Ff': '\xff', '%fF': '\xff', '%FF': '\xff' } function encodedReplacer (match) { return EncodedLookup[match] } const STATE_KEY = 0 const STATE_VALUE = 1 const STATE_CHARSET = 2 const STATE_LANG = 3 function parseParams (str) { const res = [] let state = STATE_KEY let charset = '' let inquote = false let escaping = false let p = 0 let tmp = '' const len = str.length for (var i = 0; i < len; ++i) { // eslint-disable-line no-var const char = str[i] if (char === '\\' && inquote) { if (escaping) { escaping = false } else { escaping = true continue } } else if (char === '"') { if (!escaping) { if (inquote) { inquote = false state = STATE_KEY } else { inquote = true } continue } else { escaping = false } } else { if (escaping && inquote) { tmp += '\\' } escaping = false if ((state === STATE_CHARSET || state === STATE_LANG) && char === "'") { if (state === STATE_CHARSET) { state = STATE_LANG charset = tmp.substring(1) } else { state = STATE_VALUE } tmp = '' continue } else if (state === STATE_KEY && (char === '*' || char === '=') && res.length) { state = char === '*' ? STATE_CHARSET : STATE_VALUE res[p] = [tmp, undefined] tmp = '' continue } else if (!inquote && char === ';') { state = STATE_KEY if (charset) { if (tmp.length) { tmp = decodeText(tmp.replace(RE_ENCODED, encodedReplacer), 'binary', charset) } charset = '' } else if (tmp.length) { tmp = decodeText(tmp, 'binary', 'utf8') } if (res[p] === undefined) { res[p] = tmp } else { res[p][1] = tmp } tmp = '' ++p continue } else if (!inquote && (char === ' ' || char === '\t')) { continue } } tmp += char } if (charset && tmp.length) { tmp = decodeText(tmp.replace(RE_ENCODED, encodedReplacer), 'binary', charset) } else if (tmp) { tmp = decodeText(tmp, 'binary', 'utf8') } if (res[p] === undefined) { if (tmp) { res[p] = tmp } } else { res[p][1] = tmp } return res } module.exports = parseParams /***/ }), /***/ 516: /***/ ((__unused_webpack_module, exports) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.range = exports.balanced = void 0; const balanced = (a, b, str) => { const ma = a instanceof RegExp ? maybeMatch(a, str) : a; const mb = b instanceof RegExp ? maybeMatch(b, str) : b; const r = ma !== null && mb != null && (0, exports.range)(ma, mb, str); return (r && { start: r[0], end: r[1], pre: str.slice(0, r[0]), body: str.slice(r[0] + ma.length, r[1]), post: str.slice(r[1] + mb.length), }); }; exports.balanced = balanced; const maybeMatch = (reg, str) => { const m = str.match(reg); return m ? m[0] : null; }; const range = (a, b, str) => { let begs, beg, left, right = undefined, result; let ai = str.indexOf(a); let bi = str.indexOf(b, ai + 1); let i = ai; if (ai >= 0 && bi > 0) { if (a === b) { return [ai, bi]; } begs = []; left = str.length; while (i >= 0 && !result) { if (i === ai) { begs.push(i); ai = str.indexOf(a, i + 1); } else if (begs.length === 1) { const r = begs.pop(); if (r !== undefined) result = [r, bi]; } else { beg = begs.pop(); if (beg !== undefined && beg < left) { left = beg; right = bi; } bi = str.indexOf(b, i + 1); } i = ai < bi && ai >= 0 ? ai : bi; } if (begs.length && right !== undefined) { result = [left, right]; } } return result; }; exports.range = range; //# sourceMappingURL=index.js.map /***/ }), /***/ 1215: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.expand = expand; const balanced_match_1 = __nccwpck_require__(516); const escSlash = '\0SLASH' + Math.random() + '\0'; const escOpen = '\0OPEN' + Math.random() + '\0'; const escClose = '\0CLOSE' + Math.random() + '\0'; const escComma = '\0COMMA' + Math.random() + '\0'; const escPeriod = '\0PERIOD' + Math.random() + '\0'; const escSlashPattern = new RegExp(escSlash, 'g'); const escOpenPattern = new RegExp(escOpen, 'g'); const escClosePattern = new RegExp(escClose, 'g'); const escCommaPattern = new RegExp(escComma, 'g'); const escPeriodPattern = new RegExp(escPeriod, 'g'); const slashPattern = /\\\\/g; const openPattern = /\\{/g; const closePattern = /\\}/g; const commaPattern = /\\,/g; const periodPattern = /\\./g; function numeric(str) { return !isNaN(str) ? parseInt(str, 10) : str.charCodeAt(0); } function escapeBraces(str) { return str .replace(slashPattern, escSlash) .replace(openPattern, escOpen) .replace(closePattern, escClose) .replace(commaPattern, escComma) .replace(periodPattern, escPeriod); } function unescapeBraces(str) { return str .replace(escSlashPattern, '\\') .replace(escOpenPattern, '{') .replace(escClosePattern, '}') .replace(escCommaPattern, ',') .replace(escPeriodPattern, '.'); } /** * Basically just str.split(","), but handling cases * where we have nested braced sections, which should be * treated as individual members, like {a,{b,c},d} */ function parseCommaParts(str) { if (!str) { return ['']; } const parts = []; const m = (0, balanced_match_1.balanced)('{', '}', str); if (!m) { return str.split(','); } const { pre, body, post } = m; const p = pre.split(','); p[p.length - 1] += '{' + body + '}'; const postParts = parseCommaParts(post); if (post.length) { ; p[p.length - 1] += postParts.shift(); p.push.apply(p, postParts); } parts.push.apply(parts, p); return parts; } function expand(str) { if (!str) { return []; } // I don't know why Bash 4.3 does this, but it does. // Anything starting with {} will have the first two bytes preserved // but *only* at the top level, so {},a}b will not expand to anything, // but a{},b}c will be expanded to [a}c,abc]. // One could argue that this is a bug in Bash, but since the goal of // this module is to match Bash's rules, we escape a leading {} if (str.slice(0, 2) === '{}') { str = '\\{\\}' + str.slice(2); } return expand_(escapeBraces(str), true).map(unescapeBraces); } function embrace(str) { return '{' + str + '}'; } function isPadded(el) { return /^-?0\d/.test(el); } function lte(i, y) { return i <= y; } function gte(i, y) { return i >= y; } function expand_(str, isTop) { /** @type {string[]} */ const expansions = []; const m = (0, balanced_match_1.balanced)('{', '}', str); if (!m) return [str]; // no need to expand pre, since it is guaranteed to be free of brace-sets const pre = m.pre; const post = m.post.length ? expand_(m.post, false) : ['']; if (/\$$/.test(m.pre)) { for (let k = 0; k < post.length; k++) { const expansion = pre + '{' + m.body + '}' + post[k]; expansions.push(expansion); } } else { const isNumericSequence = /^-?\d+\.\.-?\d+(?:\.\.-?\d+)?$/.test(m.body); const isAlphaSequence = /^[a-zA-Z]\.\.[a-zA-Z](?:\.\.-?\d+)?$/.test(m.body); const isSequence = isNumericSequence || isAlphaSequence; const isOptions = m.body.indexOf(',') >= 0; if (!isSequence && !isOptions) { // {a},b} if (m.post.match(/,(?!,).*\}/)) { str = m.pre + '{' + m.body + escClose + m.post; return expand_(str); } return [str]; } let n; if (isSequence) { n = m.body.split(/\.\./); } else { n = parseCommaParts(m.body); if (n.length === 1 && n[0] !== undefined) { // x{{a,b}}y ==> x{a}y x{b}y n = expand_(n[0], false).map(embrace); //XXX is this necessary? Can't seem to hit it in tests. /* c8 ignore start */ if (n.length === 1) { return post.map(p => m.pre + n[0] + p); } /* c8 ignore stop */ } } // at this point, n is the parts, and we know it's not a comma set // with a single entry. let N; if (isSequence && n[0] !== undefined && n[1] !== undefined) { const x = numeric(n[0]); const y = numeric(n[1]); const width = Math.max(n[0].length, n[1].length); let incr = n.length === 3 && n[2] !== undefined ? Math.abs(numeric(n[2])) : 1; let test = lte; const reverse = y < x; if (reverse) { incr *= -1; test = gte; } const pad = n.some(isPadded); N = []; for (let i = x; test(i, y); i += incr) { let c; if (isAlphaSequence) { c = String.fromCharCode(i); if (c === '\\') { c = ''; } } else { c = String(i); if (pad) { const need = width - c.length; if (need > 0) { const z = new Array(need + 1).join('0'); if (i < 0) { c = '-' + z + c.slice(1); } else { c = z + c; } } } } N.push(c); } } else { N = []; for (let j = 0; j < n.length; j++) { N.push.apply(N, expand_(n[j], false)); } } for (let j = 0; j < N.length; j++) { for (let k = 0; k < post.length; k++) { const expansion = pre + N[j] + post[k]; if (!isTop || isSequence || expansion) { expansions.push(expansion); } } } } return expansions; } //# sourceMappingURL=index.js.map /***/ }), /***/ 1120: /***/ ((module) => { var __webpack_unused_export__; const NullObject = function NullObject () { } NullObject.prototype = Object.create(null) /** * RegExp to match *( ";" parameter ) in RFC 7231 sec 3.1.1.1 * * parameter = token "=" ( token / quoted-string ) * token = 1*tchar * tchar = "!" / "#" / "$" / "%" / "&" / "'" / "*" * / "+" / "-" / "." / "^" / "_" / "`" / "|" / "~" * / DIGIT / ALPHA * ; any VCHAR, except delimiters * quoted-string = DQUOTE *( qdtext / quoted-pair ) DQUOTE * qdtext = HTAB / SP / %x21 / %x23-5B / %x5D-7E / obs-text * obs-text = %x80-FF * quoted-pair = "\" ( HTAB / SP / VCHAR / obs-text ) */ const paramRE = /; *([!#$%&'*+.^\w`|~-]+)=("(?:[\v\u0020\u0021\u0023-\u005b\u005d-\u007e\u0080-\u00ff]|\\[\v\u0020-\u00ff])*"|[!#$%&'*+.^\w`|~-]+) */gu /** * RegExp to match quoted-pair in RFC 7230 sec 3.2.6 * * quoted-pair = "\" ( HTAB / SP / VCHAR / obs-text ) * obs-text = %x80-FF */ const quotedPairRE = /\\([\v\u0020-\u00ff])/gu /** * RegExp to match type in RFC 7231 sec 3.1.1.1 * * media-type = type "/" subtype * type = token * subtype = token */ const mediaTypeRE = /^[!#$%&'*+.^\w|~-]+\/[!#$%&'*+.^\w|~-]+$/u // default ContentType to prevent repeated object creation const defaultContentType = { type: '', parameters: new NullObject() } Object.freeze(defaultContentType.parameters) Object.freeze(defaultContentType) /** * Parse media type to object. * * @param {string|object} header * @return {Object} * @public */ function parse (header) { if (typeof header !== 'string') { throw new TypeError('argument header is required and must be a string') } let index = header.indexOf(';') const type = index !== -1 ? header.slice(0, index).trim() : header.trim() if (mediaTypeRE.test(type) === false) { throw new TypeError('invalid media type') } const result = { type: type.toLowerCase(), parameters: new NullObject() } // parse parameters if (index === -1) { return result } let key let match let value paramRE.lastIndex = index while ((match = paramRE.exec(header))) { if (match.index !== index) { throw new TypeError('invalid parameter format') } index += match[0].length key = match[1].toLowerCase() value = match[2] if (value[0] === '"') { // remove quotes and escapes value = value .slice(1, value.length - 1) quotedPairRE.test(value) && (value = value.replace(quotedPairRE, '$1')) } result.parameters[key] = value } if (index !== header.length) { throw new TypeError('invalid parameter format') } return result } function safeParse (header) { if (typeof header !== 'string') { return defaultContentType } let index = header.indexOf(';') const type = index !== -1 ? header.slice(0, index).trim() : header.trim() if (mediaTypeRE.test(type) === false) { return defaultContentType } const result = { type: type.toLowerCase(), parameters: new NullObject() } // parse parameters if (index === -1) { return result } let key let match let value paramRE.lastIndex = index while ((match = paramRE.exec(header))) { if (match.index !== index) { return defaultContentType } index += match[0].length key = match[1].toLowerCase() value = match[2] if (value[0] === '"') { // remove quotes and escapes value = value .slice(1, value.length - 1) quotedPairRE.test(value) && (value = value.replace(quotedPairRE, '$1')) } result.parameters[key] = value } if (index !== header.length) { return defaultContentType } return result } __webpack_unused_export__ = { parse, safeParse } __webpack_unused_export__ = parse module.exports.xL = safeParse __webpack_unused_export__ = defaultContentType /***/ }), /***/ 2981: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.Glob = void 0; const minimatch_1 = __nccwpck_require__(6507); const node_url_1 = __nccwpck_require__(3136); const path_scurry_1 = __nccwpck_require__(6577); const pattern_js_1 = __nccwpck_require__(7813); const walker_js_1 = __nccwpck_require__(1157); // if no process global, just call it linux. // so we default to case-sensitive, / separators const defaultPlatform = (typeof process === 'object' && process && typeof process.platform === 'string') ? process.platform : 'linux'; /** * An object that can perform glob pattern traversals. */ class Glob { absolute; cwd; root; dot; dotRelative; follow; ignore; magicalBraces; mark; matchBase; maxDepth; nobrace; nocase; nodir; noext; noglobstar; pattern; platform; realpath; scurry; stat; signal; windowsPathsNoEscape; withFileTypes; includeChildMatches; /** * The options provided to the constructor. */ opts; /** * An array of parsed immutable {@link Pattern} objects. */ patterns; /** * All options are stored as properties on the `Glob` object. * * See {@link GlobOptions} for full options descriptions. * * Note that a previous `Glob` object can be passed as the * `GlobOptions` to another `Glob` instantiation to re-use settings * and caches with a new pattern. * * Traversal functions can be called multiple times to run the walk * again. */ constructor(pattern, opts) { /* c8 ignore start */ if (!opts) throw new TypeError('glob options required'); /* c8 ignore stop */ this.withFileTypes = !!opts.withFileTypes; this.signal = opts.signal; this.follow = !!opts.follow; this.dot = !!opts.dot; this.dotRelative = !!opts.dotRelative; this.nodir = !!opts.nodir; this.mark = !!opts.mark; if (!opts.cwd) { this.cwd = ''; } else if (opts.cwd instanceof URL || opts.cwd.startsWith('file://')) { opts.cwd = (0, node_url_1.fileURLToPath)(opts.cwd); } this.cwd = opts.cwd || ''; this.root = opts.root; this.magicalBraces = !!opts.magicalBraces; this.nobrace = !!opts.nobrace; this.noext = !!opts.noext; this.realpath = !!opts.realpath; this.absolute = opts.absolute; this.includeChildMatches = opts.includeChildMatches !== false; this.noglobstar = !!opts.noglobstar; this.matchBase = !!opts.matchBase; this.maxDepth = typeof opts.maxDepth === 'number' ? opts.maxDepth : Infinity; this.stat = !!opts.stat; this.ignore = opts.ignore; if (this.withFileTypes && this.absolute !== undefined) { throw new Error('cannot set absolute and withFileTypes:true'); } if (typeof pattern === 'string') { pattern = [pattern]; } this.windowsPathsNoEscape = !!opts.windowsPathsNoEscape || opts.allowWindowsEscape === false; if (this.windowsPathsNoEscape) { pattern = pattern.map(p => p.replace(/\\/g, '/')); } if (this.matchBase) { if (opts.noglobstar) { throw new TypeError('base matching requires globstar'); } pattern = pattern.map(p => (p.includes('/') ? p : `./**/${p}`)); } this.pattern = pattern; this.platform = opts.platform || defaultPlatform; this.opts = { ...opts, platform: this.platform }; if (opts.scurry) { this.scurry = opts.scurry; if (opts.nocase !== undefined && opts.nocase !== opts.scurry.nocase) { throw new Error('nocase option contradicts provided scurry option'); } } else { const Scurry = opts.platform === 'win32' ? path_scurry_1.PathScurryWin32 : opts.platform === 'darwin' ? path_scurry_1.PathScurryDarwin : opts.platform ? path_scurry_1.PathScurryPosix : path_scurry_1.PathScurry; this.scurry = new Scurry(this.cwd, { nocase: opts.nocase, fs: opts.fs, }); } this.nocase = this.scurry.nocase; // If you do nocase:true on a case-sensitive file system, then // we need to use regexps instead of strings for non-magic // path portions, because statting `aBc` won't return results // for the file `AbC` for example. const nocaseMagicOnly = this.platform === 'darwin' || this.platform === 'win32'; const mmo = { // default nocase based on platform ...opts, dot: this.dot, matchBase: this.matchBase, nobrace: this.nobrace, nocase: this.nocase, nocaseMagicOnly, nocomment: true, noext: this.noext, nonegate: true, optimizationLevel: 2, platform: this.platform, windowsPathsNoEscape: this.windowsPathsNoEscape, debug: !!this.opts.debug, }; const mms = this.pattern.map(p => new minimatch_1.Minimatch(p, mmo)); const [matchSet, globParts] = mms.reduce((set, m) => { set[0].push(...m.set); set[1].push(...m.globParts); return set; }, [[], []]); this.patterns = matchSet.map((set, i) => { const g = globParts[i]; /* c8 ignore start */ if (!g) throw new Error('invalid pattern object'); /* c8 ignore stop */ return new pattern_js_1.Pattern(set, g, 0, this.platform); }); } async walk() { // Walkers always return array of Path objects, so we just have to // coerce them into the right shape. It will have already called // realpath() if the option was set to do so, so we know that's cached. // start out knowing the cwd, at least return [ ...(await new walker_js_1.GlobWalker(this.patterns, this.scurry.cwd, { ...this.opts, maxDepth: this.maxDepth !== Infinity ? this.maxDepth + this.scurry.cwd.depth() : Infinity, platform: this.platform, nocase: this.nocase, includeChildMatches: this.includeChildMatches, }).walk()), ]; } walkSync() { return [ ...new walker_js_1.GlobWalker(this.patterns, this.scurry.cwd, { ...this.opts, maxDepth: this.maxDepth !== Infinity ? this.maxDepth + this.scurry.cwd.depth() : Infinity, platform: this.platform, nocase: this.nocase, includeChildMatches: this.includeChildMatches, }).walkSync(), ]; } stream() { return new walker_js_1.GlobStream(this.patterns, this.scurry.cwd, { ...this.opts, maxDepth: this.maxDepth !== Infinity ? this.maxDepth + this.scurry.cwd.depth() : Infinity, platform: this.platform, nocase: this.nocase, includeChildMatches: this.includeChildMatches, }).stream(); } streamSync() { return new walker_js_1.GlobStream(this.patterns, this.scurry.cwd, { ...this.opts, maxDepth: this.maxDepth !== Infinity ? this.maxDepth + this.scurry.cwd.depth() : Infinity, platform: this.platform, nocase: this.nocase, includeChildMatches: this.includeChildMatches, }).streamSync(); } /** * Default sync iteration function. Returns a Generator that * iterates over the results. */ iterateSync() { return this.streamSync()[Symbol.iterator](); } [Symbol.iterator]() { return this.iterateSync(); } /** * Default async iteration function. Returns an AsyncGenerator that * iterates over the results. */ iterate() { return this.stream()[Symbol.asyncIterator](); } [Symbol.asyncIterator]() { return this.iterate(); } } exports.Glob = Glob; //# sourceMappingURL=glob.js.map /***/ }), /***/ 5197: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.hasMagic = void 0; const minimatch_1 = __nccwpck_require__(6507); /** * Return true if the patterns provided contain any magic glob characters, * given the options provided. * * Brace expansion is not considered "magic" unless the `magicalBraces` option * is set, as brace expansion just turns one string into an array of strings. * So a pattern like `'x{a,b}y'` would return `false`, because `'xay'` and * `'xby'` both do not contain any magic glob characters, and it's treated the * same as if you had called it on `['xay', 'xby']`. When `magicalBraces:true` * is in the options, brace expansion _is_ treated as a pattern having magic. */ const hasMagic = (pattern, options = {}) => { if (!Array.isArray(pattern)) { pattern = [pattern]; } for (const p of pattern) { if (new minimatch_1.Minimatch(p, options).hasMagic()) return true; } return false; }; exports.hasMagic = hasMagic; //# sourceMappingURL=has-magic.js.map /***/ }), /***/ 5637: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { // give it a pattern, and it'll be able to tell you if // a given path should be ignored. // Ignoring a path ignores its children if the pattern ends in /** // Ignores are always parsed in dot:true mode Object.defineProperty(exports, "__esModule", ({ value: true })); exports.Ignore = void 0; const minimatch_1 = __nccwpck_require__(6507); const pattern_js_1 = __nccwpck_require__(7813); const defaultPlatform = (typeof process === 'object' && process && typeof process.platform === 'string') ? process.platform : 'linux'; /** * Class used to process ignored patterns */ class Ignore { relative; relativeChildren; absolute; absoluteChildren; platform; mmopts; constructor(ignored, { nobrace, nocase, noext, noglobstar, platform = defaultPlatform, }) { this.relative = []; this.absolute = []; this.relativeChildren = []; this.absoluteChildren = []; this.platform = platform; this.mmopts = { dot: true, nobrace, nocase, noext, noglobstar, optimizationLevel: 2, platform, nocomment: true, nonegate: true, }; for (const ign of ignored) this.add(ign); } add(ign) { // this is a little weird, but it gives us a clean set of optimized // minimatch matchers, without getting tripped up if one of them // ends in /** inside a brace section, and it's only inefficient at // the start of the walk, not along it. // It'd be nice if the Pattern class just had a .test() method, but // handling globstars is a bit of a pita, and that code already lives // in minimatch anyway. // Another way would be if maybe Minimatch could take its set/globParts // as an option, and then we could at least just use Pattern to test // for absolute-ness. // Yet another way, Minimatch could take an array of glob strings, and // a cwd option, and do the right thing. const mm = new minimatch_1.Minimatch(ign, this.mmopts); for (let i = 0; i < mm.set.length; i++) { const parsed = mm.set[i]; const globParts = mm.globParts[i]; /* c8 ignore start */ if (!parsed || !globParts) { throw new Error('invalid pattern object'); } // strip off leading ./ portions // https://github.com/isaacs/node-glob/issues/570 while (parsed[0] === '.' && globParts[0] === '.') { parsed.shift(); globParts.shift(); } /* c8 ignore stop */ const p = new pattern_js_1.Pattern(parsed, globParts, 0, this.platform); const m = new minimatch_1.Minimatch(p.globString(), this.mmopts); const children = globParts[globParts.length - 1] === '**'; const absolute = p.isAbsolute(); if (absolute) this.absolute.push(m); else this.relative.push(m); if (children) { if (absolute) this.absoluteChildren.push(m); else this.relativeChildren.push(m); } } } ignored(p) { const fullpath = p.fullpath(); const fullpaths = `${fullpath}/`; const relative = p.relative() || '.'; const relatives = `${relative}/`; for (const m of this.relative) { if (m.match(relative) || m.match(relatives)) return true; } for (const m of this.absolute) { if (m.match(fullpath) || m.match(fullpaths)) return true; } return false; } childrenIgnored(p) { const fullpath = p.fullpath() + '/'; const relative = (p.relative() || '.') + '/'; for (const m of this.relativeChildren) { if (m.match(relative)) return true; } for (const m of this.absoluteChildren) { if (m.match(fullpath)) return true; } return false; } } exports.Ignore = Ignore; //# sourceMappingURL=ignore.js.map /***/ }), /***/ 1363: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.glob = exports.sync = exports.iterate = exports.iterateSync = exports.stream = exports.streamSync = exports.Ignore = exports.hasMagic = exports.Glob = exports.unescape = exports.escape = void 0; exports.globStreamSync = globStreamSync; exports.globStream = globStream; exports.globSync = globSync; exports.globIterateSync = globIterateSync; exports.globIterate = globIterate; const minimatch_1 = __nccwpck_require__(6507); const glob_js_1 = __nccwpck_require__(2981); const has_magic_js_1 = __nccwpck_require__(5197); var minimatch_2 = __nccwpck_require__(6507); Object.defineProperty(exports, "escape", ({ enumerable: true, get: function () { return minimatch_2.escape; } })); Object.defineProperty(exports, "unescape", ({ enumerable: true, get: function () { return minimatch_2.unescape; } })); var glob_js_2 = __nccwpck_require__(2981); Object.defineProperty(exports, "Glob", ({ enumerable: true, get: function () { return glob_js_2.Glob; } })); var has_magic_js_2 = __nccwpck_require__(5197); Object.defineProperty(exports, "hasMagic", ({ enumerable: true, get: function () { return has_magic_js_2.hasMagic; } })); var ignore_js_1 = __nccwpck_require__(5637); Object.defineProperty(exports, "Ignore", ({ enumerable: true, get: function () { return ignore_js_1.Ignore; } })); function globStreamSync(pattern, options = {}) { return new glob_js_1.Glob(pattern, options).streamSync(); } function globStream(pattern, options = {}) { return new glob_js_1.Glob(pattern, options).stream(); } function globSync(pattern, options = {}) { return new glob_js_1.Glob(pattern, options).walkSync(); } async function glob_(pattern, options = {}) { return new glob_js_1.Glob(pattern, options).walk(); } function globIterateSync(pattern, options = {}) { return new glob_js_1.Glob(pattern, options).iterateSync(); } function globIterate(pattern, options = {}) { return new glob_js_1.Glob(pattern, options).iterate(); } // aliases: glob.sync.stream() glob.stream.sync() glob.sync() etc exports.streamSync = globStreamSync; exports.stream = Object.assign(globStream, { sync: globStreamSync }); exports.iterateSync = globIterateSync; exports.iterate = Object.assign(globIterate, { sync: globIterateSync, }); exports.sync = Object.assign(globSync, { stream: globStreamSync, iterate: globIterateSync, }); exports.glob = Object.assign(glob_, { glob: glob_, globSync, sync: exports.sync, globStream, stream: exports.stream, globStreamSync, streamSync: exports.streamSync, globIterate, iterate: exports.iterate, globIterateSync, iterateSync: exports.iterateSync, Glob: glob_js_1.Glob, hasMagic: has_magic_js_1.hasMagic, escape: minimatch_1.escape, unescape: minimatch_1.unescape, }); exports.glob.glob = exports.glob; //# sourceMappingURL=index.js.map /***/ }), /***/ 7813: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { // this is just a very light wrapper around 2 arrays with an offset index Object.defineProperty(exports, "__esModule", ({ value: true })); exports.Pattern = void 0; const minimatch_1 = __nccwpck_require__(6507); const isPatternList = (pl) => pl.length >= 1; const isGlobList = (gl) => gl.length >= 1; /** * An immutable-ish view on an array of glob parts and their parsed * results */ class Pattern { #patternList; #globList; #index; length; #platform; #rest; #globString; #isDrive; #isUNC; #isAbsolute; #followGlobstar = true; constructor(patternList, globList, index, platform) { if (!isPatternList(patternList)) { throw new TypeError('empty pattern list'); } if (!isGlobList(globList)) { throw new TypeError('empty glob list'); } if (globList.length !== patternList.length) { throw new TypeError('mismatched pattern list and glob list lengths'); } this.length = patternList.length; if (index < 0 || index >= this.length) { throw new TypeError('index out of range'); } this.#patternList = patternList; this.#globList = globList; this.#index = index; this.#platform = platform; // normalize root entries of absolute patterns on initial creation. if (this.#index === 0) { // c: => ['c:/'] // C:/ => ['C:/'] // C:/x => ['C:/', 'x'] // //host/share => ['//host/share/'] // //host/share/ => ['//host/share/'] // //host/share/x => ['//host/share/', 'x'] // /etc => ['/', 'etc'] // / => ['/'] if (this.isUNC()) { // '' / '' / 'host' / 'share' const [p0, p1, p2, p3, ...prest] = this.#patternList; const [g0, g1, g2, g3, ...grest] = this.#globList; if (prest[0] === '') { // ends in / prest.shift(); grest.shift(); } const p = [p0, p1, p2, p3, ''].join('/'); const g = [g0, g1, g2, g3, ''].join('/'); this.#patternList = [p, ...prest]; this.#globList = [g, ...grest]; this.length = this.#patternList.length; } else if (this.isDrive() || this.isAbsolute()) { const [p1, ...prest] = this.#patternList; const [g1, ...grest] = this.#globList; if (prest[0] === '') { // ends in / prest.shift(); grest.shift(); } const p = p1 + '/'; const g = g1 + '/'; this.#patternList = [p, ...prest]; this.#globList = [g, ...grest]; this.length = this.#patternList.length; } } } /** * The first entry in the parsed list of patterns */ pattern() { return this.#patternList[this.#index]; } /** * true of if pattern() returns a string */ isString() { return typeof this.#patternList[this.#index] === 'string'; } /** * true of if pattern() returns GLOBSTAR */ isGlobstar() { return this.#patternList[this.#index] === minimatch_1.GLOBSTAR; } /** * true if pattern() returns a regexp */ isRegExp() { return this.#patternList[this.#index] instanceof RegExp; } /** * The /-joined set of glob parts that make up this pattern */ globString() { return (this.#globString = this.#globString || (this.#index === 0 ? this.isAbsolute() ? this.#globList[0] + this.#globList.slice(1).join('/') : this.#globList.join('/') : this.#globList.slice(this.#index).join('/'))); } /** * true if there are more pattern parts after this one */ hasMore() { return this.length > this.#index + 1; } /** * The rest of the pattern after this part, or null if this is the end */ rest() { if (this.#rest !== undefined) return this.#rest; if (!this.hasMore()) return (this.#rest = null); this.#rest = new Pattern(this.#patternList, this.#globList, this.#index + 1, this.#platform); this.#rest.#isAbsolute = this.#isAbsolute; this.#rest.#isUNC = this.#isUNC; this.#rest.#isDrive = this.#isDrive; return this.#rest; } /** * true if the pattern represents a //unc/path/ on windows */ isUNC() { const pl = this.#patternList; return this.#isUNC !== undefined ? this.#isUNC : (this.#isUNC = this.#platform === 'win32' && this.#index === 0 && pl[0] === '' && pl[1] === '' && typeof pl[2] === 'string' && !!pl[2] && typeof pl[3] === 'string' && !!pl[3]); } // pattern like C:/... // split = ['C:', ...] // XXX: would be nice to handle patterns like `c:*` to test the cwd // in c: for *, but I don't know of a way to even figure out what that // cwd is without actually chdir'ing into it? /** * True if the pattern starts with a drive letter on Windows */ isDrive() { const pl = this.#patternList; return this.#isDrive !== undefined ? this.#isDrive : (this.#isDrive = this.#platform === 'win32' && this.#index === 0 && this.length > 1 && typeof pl[0] === 'string' && /^[a-z]:$/i.test(pl[0])); } // pattern = '/' or '/...' or '/x/...' // split = ['', ''] or ['', ...] or ['', 'x', ...] // Drive and UNC both considered absolute on windows /** * True if the pattern is rooted on an absolute path */ isAbsolute() { const pl = this.#patternList; return this.#isAbsolute !== undefined ? this.#isAbsolute : (this.#isAbsolute = (pl[0] === '' && pl.length > 1) || this.isDrive() || this.isUNC()); } /** * consume the root of the pattern, and return it */ root() { const p = this.#patternList[0]; return (typeof p === 'string' && this.isAbsolute() && this.#index === 0) ? p : ''; } /** * Check to see if the current globstar pattern is allowed to follow * a symbolic link. */ checkFollowGlobstar() { return !(this.#index === 0 || !this.isGlobstar() || !this.#followGlobstar); } /** * Mark that the current globstar pattern is following a symbolic link */ markFollowGlobstar() { if (this.#index === 0 || !this.isGlobstar() || !this.#followGlobstar) return false; this.#followGlobstar = false; return true; } } exports.Pattern = Pattern; //# sourceMappingURL=pattern.js.map /***/ }), /***/ 7843: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { // synchronous utility for filtering entries and calculating subwalks Object.defineProperty(exports, "__esModule", ({ value: true })); exports.Processor = exports.SubWalks = exports.MatchRecord = exports.HasWalkedCache = void 0; const minimatch_1 = __nccwpck_require__(6507); /** * A cache of which patterns have been processed for a given Path */ class HasWalkedCache { store; constructor(store = new Map()) { this.store = store; } copy() { return new HasWalkedCache(new Map(this.store)); } hasWalked(target, pattern) { return this.store.get(target.fullpath())?.has(pattern.globString()); } storeWalked(target, pattern) { const fullpath = target.fullpath(); const cached = this.store.get(fullpath); if (cached) cached.add(pattern.globString()); else this.store.set(fullpath, new Set([pattern.globString()])); } } exports.HasWalkedCache = HasWalkedCache; /** * A record of which paths have been matched in a given walk step, * and whether they only are considered a match if they are a directory, * and whether their absolute or relative path should be returned. */ class MatchRecord { store = new Map(); add(target, absolute, ifDir) { const n = (absolute ? 2 : 0) | (ifDir ? 1 : 0); const current = this.store.get(target); this.store.set(target, current === undefined ? n : n & current); } // match, absolute, ifdir entries() { return [...this.store.entries()].map(([path, n]) => [ path, !!(n & 2), !!(n & 1), ]); } } exports.MatchRecord = MatchRecord; /** * A collection of patterns that must be processed in a subsequent step * for a given path. */ class SubWalks { store = new Map(); add(target, pattern) { if (!target.canReaddir()) { return; } const subs = this.store.get(target); if (subs) { if (!subs.find(p => p.globString() === pattern.globString())) { subs.push(pattern); } } else this.store.set(target, [pattern]); } get(target) { const subs = this.store.get(target); /* c8 ignore start */ if (!subs) { throw new Error('attempting to walk unknown path'); } /* c8 ignore stop */ return subs; } entries() { return this.keys().map(k => [k, this.store.get(k)]); } keys() { return [...this.store.keys()].filter(t => t.canReaddir()); } } exports.SubWalks = SubWalks; /** * The class that processes patterns for a given path. * * Handles child entry filtering, and determining whether a path's * directory contents must be read. */ class Processor { hasWalkedCache; matches = new MatchRecord(); subwalks = new SubWalks(); patterns; follow; dot; opts; constructor(opts, hasWalkedCache) { this.opts = opts; this.follow = !!opts.follow; this.dot = !!opts.dot; this.hasWalkedCache = hasWalkedCache ? hasWalkedCache.copy() : new HasWalkedCache(); } processPatterns(target, patterns) { this.patterns = patterns; const processingSet = patterns.map(p => [target, p]); // map of paths to the magic-starting subwalks they need to walk // first item in patterns is the filter for (let [t, pattern] of processingSet) { this.hasWalkedCache.storeWalked(t, pattern); const root = pattern.root(); const absolute = pattern.isAbsolute() && this.opts.absolute !== false; // start absolute patterns at root if (root) { t = t.resolve(root === '/' && this.opts.root !== undefined ? this.opts.root : root); const rest = pattern.rest(); if (!rest) { this.matches.add(t, true, false); continue; } else { pattern = rest; } } if (t.isENOENT()) continue; let p; let rest; let changed = false; while (typeof (p = pattern.pattern()) === 'string' && (rest = pattern.rest())) { const c = t.resolve(p); t = c; pattern = rest; changed = true; } p = pattern.pattern(); rest = pattern.rest(); if (changed) { if (this.hasWalkedCache.hasWalked(t, pattern)) continue; this.hasWalkedCache.storeWalked(t, pattern); } // now we have either a final string for a known entry, // more strings for an unknown entry, // or a pattern starting with magic, mounted on t. if (typeof p === 'string') { // must not be final entry, otherwise we would have // concatenated it earlier. const ifDir = p === '..' || p === '' || p === '.'; this.matches.add(t.resolve(p), absolute, ifDir); continue; } else if (p === minimatch_1.GLOBSTAR) { // if no rest, match and subwalk pattern // if rest, process rest and subwalk pattern // if it's a symlink, but we didn't get here by way of a // globstar match (meaning it's the first time THIS globstar // has traversed a symlink), then we follow it. Otherwise, stop. if (!t.isSymbolicLink() || this.follow || pattern.checkFollowGlobstar()) { this.subwalks.add(t, pattern); } const rp = rest?.pattern(); const rrest = rest?.rest(); if (!rest || ((rp === '' || rp === '.') && !rrest)) { // only HAS to be a dir if it ends in **/ or **/. // but ending in ** will match files as well. this.matches.add(t, absolute, rp === '' || rp === '.'); } else { if (rp === '..') { // this would mean you're matching **/.. at the fs root, // and no thanks, I'm not gonna test that specific case. /* c8 ignore start */ const tp = t.parent || t; /* c8 ignore stop */ if (!rrest) this.matches.add(tp, absolute, true); else if (!this.hasWalkedCache.hasWalked(tp, rrest)) { this.subwalks.add(tp, rrest); } } } } else if (p instanceof RegExp) { this.subwalks.add(t, pattern); } } return this; } subwalkTargets() { return this.subwalks.keys(); } child() { return new Processor(this.opts, this.hasWalkedCache); } // return a new Processor containing the subwalks for each // child entry, and a set of matches, and // a hasWalkedCache that's a copy of this one // then we're going to call filterEntries(parent, entries) { const patterns = this.subwalks.get(parent); // put matches and entry walks into the results processor const results = this.child(); for (const e of entries) { for (const pattern of patterns) { const absolute = pattern.isAbsolute(); const p = pattern.pattern(); const rest = pattern.rest(); if (p === minimatch_1.GLOBSTAR) { results.testGlobstar(e, pattern, rest, absolute); } else if (p instanceof RegExp) { results.testRegExp(e, p, rest, absolute); } else { results.testString(e, p, rest, absolute); } } } return results; } testGlobstar(e, pattern, rest, absolute) { if (this.dot || !e.name.startsWith('.')) { if (!pattern.hasMore()) { this.matches.add(e, absolute, false); } if (e.canReaddir()) { // if we're in follow mode or it's not a symlink, just keep // testing the same pattern. If there's more after the globstar, // then this symlink consumes the globstar. If not, then we can // follow at most ONE symlink along the way, so we mark it, which // also checks to ensure that it wasn't already marked. if (this.follow || !e.isSymbolicLink()) { this.subwalks.add(e, pattern); } else if (e.isSymbolicLink()) { if (rest && pattern.checkFollowGlobstar()) { this.subwalks.add(e, rest); } else if (pattern.markFollowGlobstar()) { this.subwalks.add(e, pattern); } } } } // if the NEXT thing matches this entry, then also add // the rest. if (rest) { const rp = rest.pattern(); if (typeof rp === 'string' && // dots and empty were handled already rp !== '..' && rp !== '' && rp !== '.') { this.testString(e, rp, rest.rest(), absolute); } else if (rp === '..') { /* c8 ignore start */ const ep = e.parent || e; /* c8 ignore stop */ this.subwalks.add(ep, rest); } else if (rp instanceof RegExp) { this.testRegExp(e, rp, rest.rest(), absolute); } } } testRegExp(e, p, rest, absolute) { if (!p.test(e.name)) return; if (!rest) { this.matches.add(e, absolute, false); } else { this.subwalks.add(e, rest); } } testString(e, p, rest, absolute) { // should never happen? if (!e.isNamed(p)) return; if (!rest) { this.matches.add(e, absolute, false); } else { this.subwalks.add(e, rest); } } } exports.Processor = Processor; //# sourceMappingURL=processor.js.map /***/ }), /***/ 1157: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.GlobStream = exports.GlobWalker = exports.GlobUtil = void 0; /** * Single-use utility classes to provide functionality to the {@link Glob} * methods. * * @module */ const minipass_1 = __nccwpck_require__(8275); const ignore_js_1 = __nccwpck_require__(5637); const processor_js_1 = __nccwpck_require__(7843); const makeIgnore = (ignore, opts) => typeof ignore === 'string' ? new ignore_js_1.Ignore([ignore], opts) : Array.isArray(ignore) ? new ignore_js_1.Ignore(ignore, opts) : ignore; /** * basic walking utilities that all the glob walker types use */ class GlobUtil { path; patterns; opts; seen = new Set(); paused = false; aborted = false; #onResume = []; #ignore; #sep; signal; maxDepth; includeChildMatches; constructor(patterns, path, opts) { this.patterns = patterns; this.path = path; this.opts = opts; this.#sep = !opts.posix && opts.platform === 'win32' ? '\\' : '/'; this.includeChildMatches = opts.includeChildMatches !== false; if (opts.ignore || !this.includeChildMatches) { this.#ignore = makeIgnore(opts.ignore ?? [], opts); if (!this.includeChildMatches && typeof this.#ignore.add !== 'function') { const m = 'cannot ignore child matches, ignore lacks add() method.'; throw new Error(m); } } // ignore, always set with maxDepth, but it's optional on the // GlobOptions type /* c8 ignore start */ this.maxDepth = opts.maxDepth || Infinity; /* c8 ignore stop */ if (opts.signal) { this.signal = opts.signal; this.signal.addEventListener('abort', () => { this.#onResume.length = 0; }); } } #ignored(path) { return this.seen.has(path) || !!this.#ignore?.ignored?.(path); } #childrenIgnored(path) { return !!this.#ignore?.childrenIgnored?.(path); } // backpressure mechanism pause() { this.paused = true; } resume() { /* c8 ignore start */ if (this.signal?.aborted) return; /* c8 ignore stop */ this.paused = false; let fn = undefined; while (!this.paused && (fn = this.#onResume.shift())) { fn(); } } onResume(fn) { if (this.signal?.aborted) return; /* c8 ignore start */ if (!this.paused) { fn(); } else { /* c8 ignore stop */ this.#onResume.push(fn); } } // do the requisite realpath/stat checking, and return the path // to add or undefined to filter it out. async matchCheck(e, ifDir) { if (ifDir && this.opts.nodir) return undefined; let rpc; if (this.opts.realpath) { rpc = e.realpathCached() || (await e.realpath()); if (!rpc) return undefined; e = rpc; } const needStat = e.isUnknown() || this.opts.stat; const s = needStat ? await e.lstat() : e; if (this.opts.follow && this.opts.nodir && s?.isSymbolicLink()) { const target = await s.realpath(); /* c8 ignore start */ if (target && (target.isUnknown() || this.opts.stat)) { await target.lstat(); } /* c8 ignore stop */ } return this.matchCheckTest(s, ifDir); } matchCheckTest(e, ifDir) { return (e && (this.maxDepth === Infinity || e.depth() <= this.maxDepth) && (!ifDir || e.canReaddir()) && (!this.opts.nodir || !e.isDirectory()) && (!this.opts.nodir || !this.opts.follow || !e.isSymbolicLink() || !e.realpathCached()?.isDirectory()) && !this.#ignored(e)) ? e : undefined; } matchCheckSync(e, ifDir) { if (ifDir && this.opts.nodir) return undefined; let rpc; if (this.opts.realpath) { rpc = e.realpathCached() || e.realpathSync(); if (!rpc) return undefined; e = rpc; } const needStat = e.isUnknown() || this.opts.stat; const s = needStat ? e.lstatSync() : e; if (this.opts.follow && this.opts.nodir && s?.isSymbolicLink()) { const target = s.realpathSync(); if (target && (target?.isUnknown() || this.opts.stat)) { target.lstatSync(); } } return this.matchCheckTest(s, ifDir); } matchFinish(e, absolute) { if (this.#ignored(e)) return; // we know we have an ignore if this is false, but TS doesn't if (!this.includeChildMatches && this.#ignore?.add) { const ign = `${e.relativePosix()}/**`; this.#ignore.add(ign); } const abs = this.opts.absolute === undefined ? absolute : this.opts.absolute; this.seen.add(e); const mark = this.opts.mark && e.isDirectory() ? this.#sep : ''; // ok, we have what we need! if (this.opts.withFileTypes) { this.matchEmit(e); } else if (abs) { const abs = this.opts.posix ? e.fullpathPosix() : e.fullpath(); this.matchEmit(abs + mark); } else { const rel = this.opts.posix ? e.relativePosix() : e.relative(); const pre = this.opts.dotRelative && !rel.startsWith('..' + this.#sep) ? '.' + this.#sep : ''; this.matchEmit(!rel ? '.' + mark : pre + rel + mark); } } async match(e, absolute, ifDir) { const p = await this.matchCheck(e, ifDir); if (p) this.matchFinish(p, absolute); } matchSync(e, absolute, ifDir) { const p = this.matchCheckSync(e, ifDir); if (p) this.matchFinish(p, absolute); } walkCB(target, patterns, cb) { /* c8 ignore start */ if (this.signal?.aborted) cb(); /* c8 ignore stop */ this.walkCB2(target, patterns, new processor_js_1.Processor(this.opts), cb); } walkCB2(target, patterns, processor, cb) { if (this.#childrenIgnored(target)) return cb(); if (this.signal?.aborted) cb(); if (this.paused) { this.onResume(() => this.walkCB2(target, patterns, processor, cb)); return; } processor.processPatterns(target, patterns); // done processing. all of the above is sync, can be abstracted out. // subwalks is a map of paths to the entry filters they need // matches is a map of paths to [absolute, ifDir] tuples. let tasks = 1; const next = () => { if (--tasks === 0) cb(); }; for (const [m, absolute, ifDir] of processor.matches.entries()) { if (this.#ignored(m)) continue; tasks++; this.match(m, absolute, ifDir).then(() => next()); } for (const t of processor.subwalkTargets()) { if (this.maxDepth !== Infinity && t.depth() >= this.maxDepth) { continue; } tasks++; const childrenCached = t.readdirCached(); if (t.calledReaddir()) this.walkCB3(t, childrenCached, processor, next); else { t.readdirCB((_, entries) => this.walkCB3(t, entries, processor, next), true); } } next(); } walkCB3(target, entries, processor, cb) { processor = processor.filterEntries(target, entries); let tasks = 1; const next = () => { if (--tasks === 0) cb(); }; for (const [m, absolute, ifDir] of processor.matches.entries()) { if (this.#ignored(m)) continue; tasks++; this.match(m, absolute, ifDir).then(() => next()); } for (const [target, patterns] of processor.subwalks.entries()) { tasks++; this.walkCB2(target, patterns, processor.child(), next); } next(); } walkCBSync(target, patterns, cb) { /* c8 ignore start */ if (this.signal?.aborted) cb(); /* c8 ignore stop */ this.walkCB2Sync(target, patterns, new processor_js_1.Processor(this.opts), cb); } walkCB2Sync(target, patterns, processor, cb) { if (this.#childrenIgnored(target)) return cb(); if (this.signal?.aborted) cb(); if (this.paused) { this.onResume(() => this.walkCB2Sync(target, patterns, processor, cb)); return; } processor.processPatterns(target, patterns); // done processing. all of the above is sync, can be abstracted out. // subwalks is a map of paths to the entry filters they need // matches is a map of paths to [absolute, ifDir] tuples. let tasks = 1; const next = () => { if (--tasks === 0) cb(); }; for (const [m, absolute, ifDir] of processor.matches.entries()) { if (this.#ignored(m)) continue; this.matchSync(m, absolute, ifDir); } for (const t of processor.subwalkTargets()) { if (this.maxDepth !== Infinity && t.depth() >= this.maxDepth) { continue; } tasks++; const children = t.readdirSync(); this.walkCB3Sync(t, children, processor, next); } next(); } walkCB3Sync(target, entries, processor, cb) { processor = processor.filterEntries(target, entries); let tasks = 1; const next = () => { if (--tasks === 0) cb(); }; for (const [m, absolute, ifDir] of processor.matches.entries()) { if (this.#ignored(m)) continue; this.matchSync(m, absolute, ifDir); } for (const [target, patterns] of processor.subwalks.entries()) { tasks++; this.walkCB2Sync(target, patterns, processor.child(), next); } next(); } } exports.GlobUtil = GlobUtil; class GlobWalker extends GlobUtil { matches = new Set(); constructor(patterns, path, opts) { super(patterns, path, opts); } matchEmit(e) { this.matches.add(e); } async walk() { if (this.signal?.aborted) throw this.signal.reason; if (this.path.isUnknown()) { await this.path.lstat(); } await new Promise((res, rej) => { this.walkCB(this.path, this.patterns, () => { if (this.signal?.aborted) { rej(this.signal.reason); } else { res(this.matches); } }); }); return this.matches; } walkSync() { if (this.signal?.aborted) throw this.signal.reason; if (this.path.isUnknown()) { this.path.lstatSync(); } // nothing for the callback to do, because this never pauses this.walkCBSync(this.path, this.patterns, () => { if (this.signal?.aborted) throw this.signal.reason; }); return this.matches; } } exports.GlobWalker = GlobWalker; class GlobStream extends GlobUtil { results; constructor(patterns, path, opts) { super(patterns, path, opts); this.results = new minipass_1.Minipass({ signal: this.signal, objectMode: true, }); this.results.on('drain', () => this.resume()); this.results.on('resume', () => this.resume()); } matchEmit(e) { this.results.write(e); if (!this.results.flowing) this.pause(); } stream() { const target = this.path; if (target.isUnknown()) { target.lstat().then(() => { this.walkCB(target, this.patterns, () => this.results.end()); }); } else { this.walkCB(target, this.patterns, () => this.results.end()); } return this.results; } streamSync() { if (this.path.isUnknown()) { this.path.lstatSync(); } this.walkCBSync(this.path, this.patterns, () => this.results.end()); return this.results; } } exports.GlobStream = GlobStream; //# sourceMappingURL=walker.js.map /***/ }), /***/ 2477: /***/ ((__unused_webpack_module, exports) => { /** * @module LRUCache */ Object.defineProperty(exports, "__esModule", ({ value: true })); exports.LRUCache = void 0; const perf = typeof performance === 'object' && performance && typeof performance.now === 'function' ? performance : Date; const warned = new Set(); /* c8 ignore start */ const PROCESS = (typeof process === 'object' && !!process ? process : {}); /* c8 ignore start */ const emitWarning = (msg, type, code, fn) => { typeof PROCESS.emitWarning === 'function' ? PROCESS.emitWarning(msg, type, code, fn) : console.error(`[${code}] ${type}: ${msg}`); }; let AC = globalThis.AbortController; let AS = globalThis.AbortSignal; /* c8 ignore start */ if (typeof AC === 'undefined') { //@ts-ignore AS = class AbortSignal { onabort; _onabort = []; reason; aborted = false; addEventListener(_, fn) { this._onabort.push(fn); } }; //@ts-ignore AC = class AbortController { constructor() { warnACPolyfill(); } signal = new AS(); abort(reason) { if (this.signal.aborted) return; //@ts-ignore this.signal.reason = reason; //@ts-ignore this.signal.aborted = true; //@ts-ignore for (const fn of this.signal._onabort) { fn(reason); } this.signal.onabort?.(reason); } }; let printACPolyfillWarning = PROCESS.env?.LRU_CACHE_IGNORE_AC_WARNING !== '1'; const warnACPolyfill = () => { if (!printACPolyfillWarning) return; printACPolyfillWarning = false; emitWarning('AbortController is not defined. If using lru-cache in ' + 'node 14, load an AbortController polyfill from the ' + '`node-abort-controller` package. A minimal polyfill is ' + 'provided for use by LRUCache.fetch(), but it should not be ' + 'relied upon in other contexts (eg, passing it to other APIs that ' + 'use AbortController/AbortSignal might have undesirable effects). ' + 'You may disable this with LRU_CACHE_IGNORE_AC_WARNING=1 in the env.', 'NO_ABORT_CONTROLLER', 'ENOTSUP', warnACPolyfill); }; } /* c8 ignore stop */ const shouldWarn = (code) => !warned.has(code); const TYPE = Symbol('type'); const isPosInt = (n) => n && n === Math.floor(n) && n > 0 && isFinite(n); /* c8 ignore start */ // This is a little bit ridiculous, tbh. // The maximum array length is 2^32-1 or thereabouts on most JS impls. // And well before that point, you're caching the entire world, I mean, // that's ~32GB of just integers for the next/prev links, plus whatever // else to hold that many keys and values. Just filling the memory with // zeroes at init time is brutal when you get that big. // But why not be complete? // Maybe in the future, these limits will have expanded. const getUintArray = (max) => !isPosInt(max) ? null : max <= Math.pow(2, 8) ? Uint8Array : max <= Math.pow(2, 16) ? Uint16Array : max <= Math.pow(2, 32) ? Uint32Array : max <= Number.MAX_SAFE_INTEGER ? ZeroArray : null; /* c8 ignore stop */ class ZeroArray extends Array { constructor(size) { super(size); this.fill(0); } } class Stack { heap; length; // private constructor static #constructing = false; static create(max) { const HeapCls = getUintArray(max); if (!HeapCls) return []; Stack.#constructing = true; const s = new Stack(max, HeapCls); Stack.#constructing = false; return s; } constructor(max, HeapCls) { /* c8 ignore start */ if (!Stack.#constructing) { throw new TypeError('instantiate Stack using Stack.create(n)'); } /* c8 ignore stop */ this.heap = new HeapCls(max); this.length = 0; } push(n) { this.heap[this.length++] = n; } pop() { return this.heap[--this.length]; } } /** * Default export, the thing you're using this module to get. * * The `K` and `V` types define the key and value types, respectively. The * optional `FC` type defines the type of the `context` object passed to * `cache.fetch()` and `cache.memo()`. * * Keys and values **must not** be `null` or `undefined`. * * All properties from the options object (with the exception of `max`, * `maxSize`, `fetchMethod`, `memoMethod`, `dispose` and `disposeAfter`) are * added as normal public members. (The listed options are read-only getters.) * * Changing any of these will alter the defaults for subsequent method calls. */ class LRUCache { // options that cannot be changed without disaster #max; #maxSize; #dispose; #onInsert; #disposeAfter; #fetchMethod; #memoMethod; /** * {@link LRUCache.OptionsBase.ttl} */ ttl; /** * {@link LRUCache.OptionsBase.ttlResolution} */ ttlResolution; /** * {@link LRUCache.OptionsBase.ttlAutopurge} */ ttlAutopurge; /** * {@link LRUCache.OptionsBase.updateAgeOnGet} */ updateAgeOnGet; /** * {@link LRUCache.OptionsBase.updateAgeOnHas} */ updateAgeOnHas; /** * {@link LRUCache.OptionsBase.allowStale} */ allowStale; /** * {@link LRUCache.OptionsBase.noDisposeOnSet} */ noDisposeOnSet; /** * {@link LRUCache.OptionsBase.noUpdateTTL} */ noUpdateTTL; /** * {@link LRUCache.OptionsBase.maxEntrySize} */ maxEntrySize; /** * {@link LRUCache.OptionsBase.sizeCalculation} */ sizeCalculation; /** * {@link LRUCache.OptionsBase.noDeleteOnFetchRejection} */ noDeleteOnFetchRejection; /** * {@link LRUCache.OptionsBase.noDeleteOnStaleGet} */ noDeleteOnStaleGet; /** * {@link LRUCache.OptionsBase.allowStaleOnFetchAbort} */ allowStaleOnFetchAbort; /** * {@link LRUCache.OptionsBase.allowStaleOnFetchRejection} */ allowStaleOnFetchRejection; /** * {@link LRUCache.OptionsBase.ignoreFetchAbort} */ ignoreFetchAbort; // computed properties #size; #calculatedSize; #keyMap; #keyList; #valList; #next; #prev; #head; #tail; #free; #disposed; #sizes; #starts; #ttls; #hasDispose; #hasFetchMethod; #hasDisposeAfter; #hasOnInsert; /** * Do not call this method unless you need to inspect the * inner workings of the cache. If anything returned by this * object is modified in any way, strange breakage may occur. * * These fields are private for a reason! * * @internal */ static unsafeExposeInternals(c) { return { // properties starts: c.#starts, ttls: c.#ttls, sizes: c.#sizes, keyMap: c.#keyMap, keyList: c.#keyList, valList: c.#valList, next: c.#next, prev: c.#prev, get head() { return c.#head; }, get tail() { return c.#tail; }, free: c.#free, // methods isBackgroundFetch: (p) => c.#isBackgroundFetch(p), backgroundFetch: (k, index, options, context) => c.#backgroundFetch(k, index, options, context), moveToTail: (index) => c.#moveToTail(index), indexes: (options) => c.#indexes(options), rindexes: (options) => c.#rindexes(options), isStale: (index) => c.#isStale(index), }; } // Protected read-only members /** * {@link LRUCache.OptionsBase.max} (read-only) */ get max() { return this.#max; } /** * {@link LRUCache.OptionsBase.maxSize} (read-only) */ get maxSize() { return this.#maxSize; } /** * The total computed size of items in the cache (read-only) */ get calculatedSize() { return this.#calculatedSize; } /** * The number of items stored in the cache (read-only) */ get size() { return this.#size; } /** * {@link LRUCache.OptionsBase.fetchMethod} (read-only) */ get fetchMethod() { return this.#fetchMethod; } get memoMethod() { return this.#memoMethod; } /** * {@link LRUCache.OptionsBase.dispose} (read-only) */ get dispose() { return this.#dispose; } /** * {@link LRUCache.OptionsBase.onInsert} (read-only) */ get onInsert() { return this.#onInsert; } /** * {@link LRUCache.OptionsBase.disposeAfter} (read-only) */ get disposeAfter() { return this.#disposeAfter; } constructor(options) { const { max = 0, ttl, ttlResolution = 1, ttlAutopurge, updateAgeOnGet, updateAgeOnHas, allowStale, dispose, onInsert, disposeAfter, noDisposeOnSet, noUpdateTTL, maxSize = 0, maxEntrySize = 0, sizeCalculation, fetchMethod, memoMethod, noDeleteOnFetchRejection, noDeleteOnStaleGet, allowStaleOnFetchRejection, allowStaleOnFetchAbort, ignoreFetchAbort, } = options; if (max !== 0 && !isPosInt(max)) { throw new TypeError('max option must be a nonnegative integer'); } const UintArray = max ? getUintArray(max) : Array; if (!UintArray) { throw new Error('invalid max value: ' + max); } this.#max = max; this.#maxSize = maxSize; this.maxEntrySize = maxEntrySize || this.#maxSize; this.sizeCalculation = sizeCalculation; if (this.sizeCalculation) { if (!this.#maxSize && !this.maxEntrySize) { throw new TypeError('cannot set sizeCalculation without setting maxSize or maxEntrySize'); } if (typeof this.sizeCalculation !== 'function') { throw new TypeError('sizeCalculation set to non-function'); } } if (memoMethod !== undefined && typeof memoMethod !== 'function') { throw new TypeError('memoMethod must be a function if defined'); } this.#memoMethod = memoMethod; if (fetchMethod !== undefined && typeof fetchMethod !== 'function') { throw new TypeError('fetchMethod must be a function if specified'); } this.#fetchMethod = fetchMethod; this.#hasFetchMethod = !!fetchMethod; this.#keyMap = new Map(); this.#keyList = new Array(max).fill(undefined); this.#valList = new Array(max).fill(undefined); this.#next = new UintArray(max); this.#prev = new UintArray(max); this.#head = 0; this.#tail = 0; this.#free = Stack.create(max); this.#size = 0; this.#calculatedSize = 0; if (typeof dispose === 'function') { this.#dispose = dispose; } if (typeof onInsert === 'function') { this.#onInsert = onInsert; } if (typeof disposeAfter === 'function') { this.#disposeAfter = disposeAfter; this.#disposed = []; } else { this.#disposeAfter = undefined; this.#disposed = undefined; } this.#hasDispose = !!this.#dispose; this.#hasOnInsert = !!this.#onInsert; this.#hasDisposeAfter = !!this.#disposeAfter; this.noDisposeOnSet = !!noDisposeOnSet; this.noUpdateTTL = !!noUpdateTTL; this.noDeleteOnFetchRejection = !!noDeleteOnFetchRejection; this.allowStaleOnFetchRejection = !!allowStaleOnFetchRejection; this.allowStaleOnFetchAbort = !!allowStaleOnFetchAbort; this.ignoreFetchAbort = !!ignoreFetchAbort; // NB: maxEntrySize is set to maxSize if it's set if (this.maxEntrySize !== 0) { if (this.#maxSize !== 0) { if (!isPosInt(this.#maxSize)) { throw new TypeError('maxSize must be a positive integer if specified'); } } if (!isPosInt(this.maxEntrySize)) { throw new TypeError('maxEntrySize must be a positive integer if specified'); } this.#initializeSizeTracking(); } this.allowStale = !!allowStale; this.noDeleteOnStaleGet = !!noDeleteOnStaleGet; this.updateAgeOnGet = !!updateAgeOnGet; this.updateAgeOnHas = !!updateAgeOnHas; this.ttlResolution = isPosInt(ttlResolution) || ttlResolution === 0 ? ttlResolution : 1; this.ttlAutopurge = !!ttlAutopurge; this.ttl = ttl || 0; if (this.ttl) { if (!isPosInt(this.ttl)) { throw new TypeError('ttl must be a positive integer if specified'); } this.#initializeTTLTracking(); } // do not allow completely unbounded caches if (this.#max === 0 && this.ttl === 0 && this.#maxSize === 0) { throw new TypeError('At least one of max, maxSize, or ttl is required'); } if (!this.ttlAutopurge && !this.#max && !this.#maxSize) { const code = 'LRU_CACHE_UNBOUNDED'; if (shouldWarn(code)) { warned.add(code); const msg = 'TTL caching without ttlAutopurge, max, or maxSize can ' + 'result in unbounded memory consumption.'; emitWarning(msg, 'UnboundedCacheWarning', code, LRUCache); } } } /** * Return the number of ms left in the item's TTL. If item is not in cache, * returns `0`. Returns `Infinity` if item is in cache without a defined TTL. */ getRemainingTTL(key) { return this.#keyMap.has(key) ? Infinity : 0; } #initializeTTLTracking() { const ttls = new ZeroArray(this.#max); const starts = new ZeroArray(this.#max); this.#ttls = ttls; this.#starts = starts; this.#setItemTTL = (index, ttl, start = perf.now()) => { starts[index] = ttl !== 0 ? start : 0; ttls[index] = ttl; if (ttl !== 0 && this.ttlAutopurge) { const t = setTimeout(() => { if (this.#isStale(index)) { this.#delete(this.#keyList[index], 'expire'); } }, ttl + 1); // unref() not supported on all platforms /* c8 ignore start */ if (t.unref) { t.unref(); } /* c8 ignore stop */ } }; this.#updateItemAge = index => { starts[index] = ttls[index] !== 0 ? perf.now() : 0; }; this.#statusTTL = (status, index) => { if (ttls[index]) { const ttl = ttls[index]; const start = starts[index]; /* c8 ignore next */ if (!ttl || !start) return; status.ttl = ttl; status.start = start; status.now = cachedNow || getNow(); const age = status.now - start; status.remainingTTL = ttl - age; } }; // debounce calls to perf.now() to 1s so we're not hitting // that costly call repeatedly. let cachedNow = 0; const getNow = () => { const n = perf.now(); if (this.ttlResolution > 0) { cachedNow = n; const t = setTimeout(() => (cachedNow = 0), this.ttlResolution); // not available on all platforms /* c8 ignore start */ if (t.unref) { t.unref(); } /* c8 ignore stop */ } return n; }; this.getRemainingTTL = key => { const index = this.#keyMap.get(key); if (index === undefined) { return 0; } const ttl = ttls[index]; const start = starts[index]; if (!ttl || !start) { return Infinity; } const age = (cachedNow || getNow()) - start; return ttl - age; }; this.#isStale = index => { const s = starts[index]; const t = ttls[index]; return !!t && !!s && (cachedNow || getNow()) - s > t; }; } // conditionally set private methods related to TTL #updateItemAge = () => { }; #statusTTL = () => { }; #setItemTTL = () => { }; /* c8 ignore stop */ #isStale = () => false; #initializeSizeTracking() { const sizes = new ZeroArray(this.#max); this.#calculatedSize = 0; this.#sizes = sizes; this.#removeItemSize = index => { this.#calculatedSize -= sizes[index]; sizes[index] = 0; }; this.#requireSize = (k, v, size, sizeCalculation) => { // provisionally accept background fetches. // actual value size will be checked when they return. if (this.#isBackgroundFetch(v)) { return 0; } if (!isPosInt(size)) { if (sizeCalculation) { if (typeof sizeCalculation !== 'function') { throw new TypeError('sizeCalculation must be a function'); } size = sizeCalculation(v, k); if (!isPosInt(size)) { throw new TypeError('sizeCalculation return invalid (expect positive integer)'); } } else { throw new TypeError('invalid size value (must be positive integer). ' + 'When maxSize or maxEntrySize is used, sizeCalculation ' + 'or size must be set.'); } } return size; }; this.#addItemSize = (index, size, status) => { sizes[index] = size; if (this.#maxSize) { const maxSize = this.#maxSize - sizes[index]; while (this.#calculatedSize > maxSize) { this.#evict(true); } } this.#calculatedSize += sizes[index]; if (status) { status.entrySize = size; status.totalCalculatedSize = this.#calculatedSize; } }; } #removeItemSize = _i => { }; #addItemSize = (_i, _s, _st) => { }; #requireSize = (_k, _v, size, sizeCalculation) => { if (size || sizeCalculation) { throw new TypeError('cannot set size without setting maxSize or maxEntrySize on cache'); } return 0; }; *#indexes({ allowStale = this.allowStale } = {}) { if (this.#size) { for (let i = this.#tail; true;) { if (!this.#isValidIndex(i)) { break; } if (allowStale || !this.#isStale(i)) { yield i; } if (i === this.#head) { break; } else { i = this.#prev[i]; } } } } *#rindexes({ allowStale = this.allowStale } = {}) { if (this.#size) { for (let i = this.#head; true;) { if (!this.#isValidIndex(i)) { break; } if (allowStale || !this.#isStale(i)) { yield i; } if (i === this.#tail) { break; } else { i = this.#next[i]; } } } } #isValidIndex(index) { return (index !== undefined && this.#keyMap.get(this.#keyList[index]) === index); } /** * Return a generator yielding `[key, value]` pairs, * in order from most recently used to least recently used. */ *entries() { for (const i of this.#indexes()) { if (this.#valList[i] !== undefined && this.#keyList[i] !== undefined && !this.#isBackgroundFetch(this.#valList[i])) { yield [this.#keyList[i], this.#valList[i]]; } } } /** * Inverse order version of {@link LRUCache.entries} * * Return a generator yielding `[key, value]` pairs, * in order from least recently used to most recently used. */ *rentries() { for (const i of this.#rindexes()) { if (this.#valList[i] !== undefined && this.#keyList[i] !== undefined && !this.#isBackgroundFetch(this.#valList[i])) { yield [this.#keyList[i], this.#valList[i]]; } } } /** * Return a generator yielding the keys in the cache, * in order from most recently used to least recently used. */ *keys() { for (const i of this.#indexes()) { const k = this.#keyList[i]; if (k !== undefined && !this.#isBackgroundFetch(this.#valList[i])) { yield k; } } } /** * Inverse order version of {@link LRUCache.keys} * * Return a generator yielding the keys in the cache, * in order from least recently used to most recently used. */ *rkeys() { for (const i of this.#rindexes()) { const k = this.#keyList[i]; if (k !== undefined && !this.#isBackgroundFetch(this.#valList[i])) { yield k; } } } /** * Return a generator yielding the values in the cache, * in order from most recently used to least recently used. */ *values() { for (const i of this.#indexes()) { const v = this.#valList[i]; if (v !== undefined && !this.#isBackgroundFetch(this.#valList[i])) { yield this.#valList[i]; } } } /** * Inverse order version of {@link LRUCache.values} * * Return a generator yielding the values in the cache, * in order from least recently used to most recently used. */ *rvalues() { for (const i of this.#rindexes()) { const v = this.#valList[i]; if (v !== undefined && !this.#isBackgroundFetch(this.#valList[i])) { yield this.#valList[i]; } } } /** * Iterating over the cache itself yields the same results as * {@link LRUCache.entries} */ [Symbol.iterator]() { return this.entries(); } /** * A String value that is used in the creation of the default string * description of an object. Called by the built-in method * `Object.prototype.toString`. */ [Symbol.toStringTag] = 'LRUCache'; /** * Find a value for which the supplied fn method returns a truthy value, * similar to `Array.find()`. fn is called as `fn(value, key, cache)`. */ find(fn, getOptions = {}) { for (const i of this.#indexes()) { const v = this.#valList[i]; const value = this.#isBackgroundFetch(v) ? v.__staleWhileFetching : v; if (value === undefined) continue; if (fn(value, this.#keyList[i], this)) { return this.get(this.#keyList[i], getOptions); } } } /** * Call the supplied function on each item in the cache, in order from most * recently used to least recently used. * * `fn` is called as `fn(value, key, cache)`. * * If `thisp` is provided, function will be called in the `this`-context of * the provided object, or the cache if no `thisp` object is provided. * * Does not update age or recenty of use, or iterate over stale values. */ forEach(fn, thisp = this) { for (const i of this.#indexes()) { const v = this.#valList[i]; const value = this.#isBackgroundFetch(v) ? v.__staleWhileFetching : v; if (value === undefined) continue; fn.call(thisp, value, this.#keyList[i], this); } } /** * The same as {@link LRUCache.forEach} but items are iterated over in * reverse order. (ie, less recently used items are iterated over first.) */ rforEach(fn, thisp = this) { for (const i of this.#rindexes()) { const v = this.#valList[i]; const value = this.#isBackgroundFetch(v) ? v.__staleWhileFetching : v; if (value === undefined) continue; fn.call(thisp, value, this.#keyList[i], this); } } /** * Delete any stale entries. Returns true if anything was removed, * false otherwise. */ purgeStale() { let deleted = false; for (const i of this.#rindexes({ allowStale: true })) { if (this.#isStale(i)) { this.#delete(this.#keyList[i], 'expire'); deleted = true; } } return deleted; } /** * Get the extended info about a given entry, to get its value, size, and * TTL info simultaneously. Returns `undefined` if the key is not present. * * Unlike {@link LRUCache#dump}, which is designed to be portable and survive * serialization, the `start` value is always the current timestamp, and the * `ttl` is a calculated remaining time to live (negative if expired). * * Always returns stale values, if their info is found in the cache, so be * sure to check for expirations (ie, a negative {@link LRUCache.Entry#ttl}) * if relevant. */ info(key) { const i = this.#keyMap.get(key); if (i === undefined) return undefined; const v = this.#valList[i]; const value = this.#isBackgroundFetch(v) ? v.__staleWhileFetching : v; if (value === undefined) return undefined; const entry = { value }; if (this.#ttls && this.#starts) { const ttl = this.#ttls[i]; const start = this.#starts[i]; if (ttl && start) { const remain = ttl - (perf.now() - start); entry.ttl = remain; entry.start = Date.now(); } } if (this.#sizes) { entry.size = this.#sizes[i]; } return entry; } /** * Return an array of [key, {@link LRUCache.Entry}] tuples which can be * passed to {@link LRUCache#load}. * * The `start` fields are calculated relative to a portable `Date.now()` * timestamp, even if `performance.now()` is available. * * Stale entries are always included in the `dump`, even if * {@link LRUCache.OptionsBase.allowStale} is false. * * Note: this returns an actual array, not a generator, so it can be more * easily passed around. */ dump() { const arr = []; for (const i of this.#indexes({ allowStale: true })) { const key = this.#keyList[i]; const v = this.#valList[i]; const value = this.#isBackgroundFetch(v) ? v.__staleWhileFetching : v; if (value === undefined || key === undefined) continue; const entry = { value }; if (this.#ttls && this.#starts) { entry.ttl = this.#ttls[i]; // always dump the start relative to a portable timestamp // it's ok for this to be a bit slow, it's a rare operation. const age = perf.now() - this.#starts[i]; entry.start = Math.floor(Date.now() - age); } if (this.#sizes) { entry.size = this.#sizes[i]; } arr.unshift([key, entry]); } return arr; } /** * Reset the cache and load in the items in entries in the order listed. * * The shape of the resulting cache may be different if the same options are * not used in both caches. * * The `start` fields are assumed to be calculated relative to a portable * `Date.now()` timestamp, even if `performance.now()` is available. */ load(arr) { this.clear(); for (const [key, entry] of arr) { if (entry.start) { // entry.start is a portable timestamp, but we may be using // node's performance.now(), so calculate the offset, so that // we get the intended remaining TTL, no matter how long it's // been on ice. // // it's ok for this to be a bit slow, it's a rare operation. const age = Date.now() - entry.start; entry.start = perf.now() - age; } this.set(key, entry.value, entry); } } /** * Add a value to the cache. * * Note: if `undefined` is specified as a value, this is an alias for * {@link LRUCache#delete} * * Fields on the {@link LRUCache.SetOptions} options param will override * their corresponding values in the constructor options for the scope * of this single `set()` operation. * * If `start` is provided, then that will set the effective start * time for the TTL calculation. Note that this must be a previous * value of `performance.now()` if supported, or a previous value of * `Date.now()` if not. * * Options object may also include `size`, which will prevent * calling the `sizeCalculation` function and just use the specified * number if it is a positive integer, and `noDisposeOnSet` which * will prevent calling a `dispose` function in the case of * overwrites. * * If the `size` (or return value of `sizeCalculation`) for a given * entry is greater than `maxEntrySize`, then the item will not be * added to the cache. * * Will update the recency of the entry. * * If the value is `undefined`, then this is an alias for * `cache.delete(key)`. `undefined` is never stored in the cache. */ set(k, v, setOptions = {}) { if (v === undefined) { this.delete(k); return this; } const { ttl = this.ttl, start, noDisposeOnSet = this.noDisposeOnSet, sizeCalculation = this.sizeCalculation, status, } = setOptions; let { noUpdateTTL = this.noUpdateTTL } = setOptions; const size = this.#requireSize(k, v, setOptions.size || 0, sizeCalculation); // if the item doesn't fit, don't do anything // NB: maxEntrySize set to maxSize by default if (this.maxEntrySize && size > this.maxEntrySize) { if (status) { status.set = 'miss'; status.maxEntrySizeExceeded = true; } // have to delete, in case something is there already. this.#delete(k, 'set'); return this; } let index = this.#size === 0 ? undefined : this.#keyMap.get(k); if (index === undefined) { // addition index = (this.#size === 0 ? this.#tail : this.#free.length !== 0 ? this.#free.pop() : this.#size === this.#max ? this.#evict(false) : this.#size); this.#keyList[index] = k; this.#valList[index] = v; this.#keyMap.set(k, index); this.#next[this.#tail] = index; this.#prev[index] = this.#tail; this.#tail = index; this.#size++; this.#addItemSize(index, size, status); if (status) status.set = 'add'; noUpdateTTL = false; if (this.#hasOnInsert) { this.#onInsert?.(v, k, 'add'); } } else { // update this.#moveToTail(index); const oldVal = this.#valList[index]; if (v !== oldVal) { if (this.#hasFetchMethod && this.#isBackgroundFetch(oldVal)) { oldVal.__abortController.abort(new Error('replaced')); const { __staleWhileFetching: s } = oldVal; if (s !== undefined && !noDisposeOnSet) { if (this.#hasDispose) { this.#dispose?.(s, k, 'set'); } if (this.#hasDisposeAfter) { this.#disposed?.push([s, k, 'set']); } } } else if (!noDisposeOnSet) { if (this.#hasDispose) { this.#dispose?.(oldVal, k, 'set'); } if (this.#hasDisposeAfter) { this.#disposed?.push([oldVal, k, 'set']); } } this.#removeItemSize(index); this.#addItemSize(index, size, status); this.#valList[index] = v; if (status) { status.set = 'replace'; const oldValue = oldVal && this.#isBackgroundFetch(oldVal) ? oldVal.__staleWhileFetching : oldVal; if (oldValue !== undefined) status.oldValue = oldValue; } } else if (status) { status.set = 'update'; } if (this.#hasOnInsert) { this.onInsert?.(v, k, v === oldVal ? 'update' : 'replace'); } } if (ttl !== 0 && !this.#ttls) { this.#initializeTTLTracking(); } if (this.#ttls) { if (!noUpdateTTL) { this.#setItemTTL(index, ttl, start); } if (status) this.#statusTTL(status, index); } if (!noDisposeOnSet && this.#hasDisposeAfter && this.#disposed) { const dt = this.#disposed; let task; while ((task = dt?.shift())) { this.#disposeAfter?.(...task); } } return this; } /** * Evict the least recently used item, returning its value or * `undefined` if cache is empty. */ pop() { try { while (this.#size) { const val = this.#valList[this.#head]; this.#evict(true); if (this.#isBackgroundFetch(val)) { if (val.__staleWhileFetching) { return val.__staleWhileFetching; } } else if (val !== undefined) { return val; } } } finally { if (this.#hasDisposeAfter && this.#disposed) { const dt = this.#disposed; let task; while ((task = dt?.shift())) { this.#disposeAfter?.(...task); } } } } #evict(free) { const head = this.#head; const k = this.#keyList[head]; const v = this.#valList[head]; if (this.#hasFetchMethod && this.#isBackgroundFetch(v)) { v.__abortController.abort(new Error('evicted')); } else if (this.#hasDispose || this.#hasDisposeAfter) { if (this.#hasDispose) { this.#dispose?.(v, k, 'evict'); } if (this.#hasDisposeAfter) { this.#disposed?.push([v, k, 'evict']); } } this.#removeItemSize(head); // if we aren't about to use the index, then null these out if (free) { this.#keyList[head] = undefined; this.#valList[head] = undefined; this.#free.push(head); } if (this.#size === 1) { this.#head = this.#tail = 0; this.#free.length = 0; } else { this.#head = this.#next[head]; } this.#keyMap.delete(k); this.#size--; return head; } /** * Check if a key is in the cache, without updating the recency of use. * Will return false if the item is stale, even though it is technically * in the cache. * * Check if a key is in the cache, without updating the recency of * use. Age is updated if {@link LRUCache.OptionsBase.updateAgeOnHas} is set * to `true` in either the options or the constructor. * * Will return `false` if the item is stale, even though it is technically in * the cache. The difference can be determined (if it matters) by using a * `status` argument, and inspecting the `has` field. * * Will not update item age unless * {@link LRUCache.OptionsBase.updateAgeOnHas} is set. */ has(k, hasOptions = {}) { const { updateAgeOnHas = this.updateAgeOnHas, status } = hasOptions; const index = this.#keyMap.get(k); if (index !== undefined) { const v = this.#valList[index]; if (this.#isBackgroundFetch(v) && v.__staleWhileFetching === undefined) { return false; } if (!this.#isStale(index)) { if (updateAgeOnHas) { this.#updateItemAge(index); } if (status) { status.has = 'hit'; this.#statusTTL(status, index); } return true; } else if (status) { status.has = 'stale'; this.#statusTTL(status, index); } } else if (status) { status.has = 'miss'; } return false; } /** * Like {@link LRUCache#get} but doesn't update recency or delete stale * items. * * Returns `undefined` if the item is stale, unless * {@link LRUCache.OptionsBase.allowStale} is set. */ peek(k, peekOptions = {}) { const { allowStale = this.allowStale } = peekOptions; const index = this.#keyMap.get(k); if (index === undefined || (!allowStale && this.#isStale(index))) { return; } const v = this.#valList[index]; // either stale and allowed, or forcing a refresh of non-stale value return this.#isBackgroundFetch(v) ? v.__staleWhileFetching : v; } #backgroundFetch(k, index, options, context) { const v = index === undefined ? undefined : this.#valList[index]; if (this.#isBackgroundFetch(v)) { return v; } const ac = new AC(); const { signal } = options; // when/if our AC signals, then stop listening to theirs. signal?.addEventListener('abort', () => ac.abort(signal.reason), { signal: ac.signal, }); const fetchOpts = { signal: ac.signal, options, context, }; const cb = (v, updateCache = false) => { const { aborted } = ac.signal; const ignoreAbort = options.ignoreFetchAbort && v !== undefined; if (options.status) { if (aborted && !updateCache) { options.status.fetchAborted = true; options.status.fetchError = ac.signal.reason; if (ignoreAbort) options.status.fetchAbortIgnored = true; } else { options.status.fetchResolved = true; } } if (aborted && !ignoreAbort && !updateCache) { return fetchFail(ac.signal.reason); } // either we didn't abort, and are still here, or we did, and ignored const bf = p; if (this.#valList[index] === p) { if (v === undefined) { if (bf.__staleWhileFetching) { this.#valList[index] = bf.__staleWhileFetching; } else { this.#delete(k, 'fetch'); } } else { if (options.status) options.status.fetchUpdated = true; this.set(k, v, fetchOpts.options); } } return v; }; const eb = (er) => { if (options.status) { options.status.fetchRejected = true; options.status.fetchError = er; } return fetchFail(er); }; const fetchFail = (er) => { const { aborted } = ac.signal; const allowStaleAborted = aborted && options.allowStaleOnFetchAbort; const allowStale = allowStaleAborted || options.allowStaleOnFetchRejection; const noDelete = allowStale || options.noDeleteOnFetchRejection; const bf = p; if (this.#valList[index] === p) { // if we allow stale on fetch rejections, then we need to ensure that // the stale value is not removed from the cache when the fetch fails. const del = !noDelete || bf.__staleWhileFetching === undefined; if (del) { this.#delete(k, 'fetch'); } else if (!allowStaleAborted) { // still replace the *promise* with the stale value, // since we are done with the promise at this point. // leave it untouched if we're still waiting for an // aborted background fetch that hasn't yet returned. this.#valList[index] = bf.__staleWhileFetching; } } if (allowStale) { if (options.status && bf.__staleWhileFetching !== undefined) { options.status.returnedStale = true; } return bf.__staleWhileFetching; } else if (bf.__returned === bf) { throw er; } }; const pcall = (res, rej) => { const fmp = this.#fetchMethod?.(k, v, fetchOpts); if (fmp && fmp instanceof Promise) { fmp.then(v => res(v === undefined ? undefined : v), rej); } // ignored, we go until we finish, regardless. // defer check until we are actually aborting, // so fetchMethod can override. ac.signal.addEventListener('abort', () => { if (!options.ignoreFetchAbort || options.allowStaleOnFetchAbort) { res(undefined); // when it eventually resolves, update the cache. if (options.allowStaleOnFetchAbort) { res = v => cb(v, true); } } }); }; if (options.status) options.status.fetchDispatched = true; const p = new Promise(pcall).then(cb, eb); const bf = Object.assign(p, { __abortController: ac, __staleWhileFetching: v, __returned: undefined, }); if (index === undefined) { // internal, don't expose status. this.set(k, bf, { ...fetchOpts.options, status: undefined }); index = this.#keyMap.get(k); } else { this.#valList[index] = bf; } return bf; } #isBackgroundFetch(p) { if (!this.#hasFetchMethod) return false; const b = p; return (!!b && b instanceof Promise && b.hasOwnProperty('__staleWhileFetching') && b.__abortController instanceof AC); } async fetch(k, fetchOptions = {}) { const { // get options allowStale = this.allowStale, updateAgeOnGet = this.updateAgeOnGet, noDeleteOnStaleGet = this.noDeleteOnStaleGet, // set options ttl = this.ttl, noDisposeOnSet = this.noDisposeOnSet, size = 0, sizeCalculation = this.sizeCalculation, noUpdateTTL = this.noUpdateTTL, // fetch exclusive options noDeleteOnFetchRejection = this.noDeleteOnFetchRejection, allowStaleOnFetchRejection = this.allowStaleOnFetchRejection, ignoreFetchAbort = this.ignoreFetchAbort, allowStaleOnFetchAbort = this.allowStaleOnFetchAbort, context, forceRefresh = false, status, signal, } = fetchOptions; if (!this.#hasFetchMethod) { if (status) status.fetch = 'get'; return this.get(k, { allowStale, updateAgeOnGet, noDeleteOnStaleGet, status, }); } const options = { allowStale, updateAgeOnGet, noDeleteOnStaleGet, ttl, noDisposeOnSet, size, sizeCalculation, noUpdateTTL, noDeleteOnFetchRejection, allowStaleOnFetchRejection, allowStaleOnFetchAbort, ignoreFetchAbort, status, signal, }; let index = this.#keyMap.get(k); if (index === undefined) { if (status) status.fetch = 'miss'; const p = this.#backgroundFetch(k, index, options, context); return (p.__returned = p); } else { // in cache, maybe already fetching const v = this.#valList[index]; if (this.#isBackgroundFetch(v)) { const stale = allowStale && v.__staleWhileFetching !== undefined; if (status) { status.fetch = 'inflight'; if (stale) status.returnedStale = true; } return stale ? v.__staleWhileFetching : (v.__returned = v); } // if we force a refresh, that means do NOT serve the cached value, // unless we are already in the process of refreshing the cache. const isStale = this.#isStale(index); if (!forceRefresh && !isStale) { if (status) status.fetch = 'hit'; this.#moveToTail(index); if (updateAgeOnGet) { this.#updateItemAge(index); } if (status) this.#statusTTL(status, index); return v; } // ok, it is stale or a forced refresh, and not already fetching. // refresh the cache. const p = this.#backgroundFetch(k, index, options, context); const hasStale = p.__staleWhileFetching !== undefined; const staleVal = hasStale && allowStale; if (status) { status.fetch = isStale ? 'stale' : 'refresh'; if (staleVal && isStale) status.returnedStale = true; } return staleVal ? p.__staleWhileFetching : (p.__returned = p); } } async forceFetch(k, fetchOptions = {}) { const v = await this.fetch(k, fetchOptions); if (v === undefined) throw new Error('fetch() returned undefined'); return v; } memo(k, memoOptions = {}) { const memoMethod = this.#memoMethod; if (!memoMethod) { throw new Error('no memoMethod provided to constructor'); } const { context, forceRefresh, ...options } = memoOptions; const v = this.get(k, options); if (!forceRefresh && v !== undefined) return v; const vv = memoMethod(k, v, { options, context, }); this.set(k, vv, options); return vv; } /** * Return a value from the cache. Will update the recency of the cache * entry found. * * If the key is not found, get() will return `undefined`. */ get(k, getOptions = {}) { const { allowStale = this.allowStale, updateAgeOnGet = this.updateAgeOnGet, noDeleteOnStaleGet = this.noDeleteOnStaleGet, status, } = getOptions; const index = this.#keyMap.get(k); if (index !== undefined) { const value = this.#valList[index]; const fetching = this.#isBackgroundFetch(value); if (status) this.#statusTTL(status, index); if (this.#isStale(index)) { if (status) status.get = 'stale'; // delete only if not an in-flight background fetch if (!fetching) { if (!noDeleteOnStaleGet) { this.#delete(k, 'expire'); } if (status && allowStale) status.returnedStale = true; return allowStale ? value : undefined; } else { if (status && allowStale && value.__staleWhileFetching !== undefined) { status.returnedStale = true; } return allowStale ? value.__staleWhileFetching : undefined; } } else { if (status) status.get = 'hit'; // if we're currently fetching it, we don't actually have it yet // it's not stale, which means this isn't a staleWhileRefetching. // If it's not stale, and fetching, AND has a __staleWhileFetching // value, then that means the user fetched with {forceRefresh:true}, // so it's safe to return that value. if (fetching) { return value.__staleWhileFetching; } this.#moveToTail(index); if (updateAgeOnGet) { this.#updateItemAge(index); } return value; } } else if (status) { status.get = 'miss'; } } #connect(p, n) { this.#prev[n] = p; this.#next[p] = n; } #moveToTail(index) { // if tail already, nothing to do // if head, move head to next[index] // else // move next[prev[index]] to next[index] (head has no prev) // move prev[next[index]] to prev[index] // prev[index] = tail // next[tail] = index // tail = index if (index !== this.#tail) { if (index === this.#head) { this.#head = this.#next[index]; } else { this.#connect(this.#prev[index], this.#next[index]); } this.#connect(this.#tail, index); this.#tail = index; } } /** * Deletes a key out of the cache. * * Returns true if the key was deleted, false otherwise. */ delete(k) { return this.#delete(k, 'delete'); } #delete(k, reason) { let deleted = false; if (this.#size !== 0) { const index = this.#keyMap.get(k); if (index !== undefined) { deleted = true; if (this.#size === 1) { this.#clear(reason); } else { this.#removeItemSize(index); const v = this.#valList[index]; if (this.#isBackgroundFetch(v)) { v.__abortController.abort(new Error('deleted')); } else if (this.#hasDispose || this.#hasDisposeAfter) { if (this.#hasDispose) { this.#dispose?.(v, k, reason); } if (this.#hasDisposeAfter) { this.#disposed?.push([v, k, reason]); } } this.#keyMap.delete(k); this.#keyList[index] = undefined; this.#valList[index] = undefined; if (index === this.#tail) { this.#tail = this.#prev[index]; } else if (index === this.#head) { this.#head = this.#next[index]; } else { const pi = this.#prev[index]; this.#next[pi] = this.#next[index]; const ni = this.#next[index]; this.#prev[ni] = this.#prev[index]; } this.#size--; this.#free.push(index); } } } if (this.#hasDisposeAfter && this.#disposed?.length) { const dt = this.#disposed; let task; while ((task = dt?.shift())) { this.#disposeAfter?.(...task); } } return deleted; } /** * Clear the cache entirely, throwing away all values. */ clear() { return this.#clear('delete'); } #clear(reason) { for (const index of this.#rindexes({ allowStale: true })) { const v = this.#valList[index]; if (this.#isBackgroundFetch(v)) { v.__abortController.abort(new Error('deleted')); } else { const k = this.#keyList[index]; if (this.#hasDispose) { this.#dispose?.(v, k, reason); } if (this.#hasDisposeAfter) { this.#disposed?.push([v, k, reason]); } } } this.#keyMap.clear(); this.#valList.fill(undefined); this.#keyList.fill(undefined); if (this.#ttls && this.#starts) { this.#ttls.fill(0); this.#starts.fill(0); } if (this.#sizes) { this.#sizes.fill(0); } this.#head = 0; this.#tail = 0; this.#free.length = 0; this.#calculatedSize = 0; this.#size = 0; if (this.#hasDisposeAfter && this.#disposed) { const dt = this.#disposed; let task; while ((task = dt?.shift())) { this.#disposeAfter?.(...task); } } } } exports.LRUCache = LRUCache; //# sourceMappingURL=index.js.map /***/ }), /***/ 7305: /***/ ((__unused_webpack_module, exports) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.assertValidPattern = void 0; const MAX_PATTERN_LENGTH = 1024 * 64; const assertValidPattern = (pattern) => { if (typeof pattern !== 'string') { throw new TypeError('invalid pattern'); } if (pattern.length > MAX_PATTERN_LENGTH) { throw new TypeError('pattern is too long'); } }; exports.assertValidPattern = assertValidPattern; //# sourceMappingURL=assert-valid-pattern.js.map /***/ }), /***/ 1803: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { // parse a single path portion Object.defineProperty(exports, "__esModule", ({ value: true })); exports.AST = void 0; const brace_expressions_js_1 = __nccwpck_require__(1090); const unescape_js_1 = __nccwpck_require__(851); const types = new Set(['!', '?', '+', '*', '@']); const isExtglobType = (c) => types.has(c); // Patterns that get prepended to bind to the start of either the // entire string, or just a single path portion, to prevent dots // and/or traversal patterns, when needed. // Exts don't need the ^ or / bit, because the root binds that already. const startNoTraversal = '(?!(?:^|/)\\.\\.?(?:$|/))'; const startNoDot = '(?!\\.)'; // characters that indicate a start of pattern needs the "no dots" bit, // because a dot *might* be matched. ( is not in the list, because in // the case of a child extglob, it will handle the prevention itself. const addPatternStart = new Set(['[', '.']); // cases where traversal is A-OK, no dot prevention needed const justDots = new Set(['..', '.']); const reSpecials = new Set('().*{}+?[]^$\\!'); const regExpEscape = (s) => s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&'); // any single thing other than / const qmark = '[^/]'; // * => any number of characters const star = qmark + '*?'; // use + when we need to ensure that *something* matches, because the * is // the only thing in the path portion. const starNoEmpty = qmark + '+?'; // remove the \ chars that we added if we end up doing a nonmagic compare // const deslash = (s: string) => s.replace(/\\(.)/g, '$1') class AST { type; #root; #hasMagic; #uflag = false; #parts = []; #parent; #parentIndex; #negs; #filledNegs = false; #options; #toString; // set to true if it's an extglob with no children // (which really means one child of '') #emptyExt = false; constructor(type, parent, options = {}) { this.type = type; // extglobs are inherently magical if (type) this.#hasMagic = true; this.#parent = parent; this.#root = this.#parent ? this.#parent.#root : this; this.#options = this.#root === this ? options : this.#root.#options; this.#negs = this.#root === this ? [] : this.#root.#negs; if (type === '!' && !this.#root.#filledNegs) this.#negs.push(this); this.#parentIndex = this.#parent ? this.#parent.#parts.length : 0; } get hasMagic() { /* c8 ignore start */ if (this.#hasMagic !== undefined) return this.#hasMagic; /* c8 ignore stop */ for (const p of this.#parts) { if (typeof p === 'string') continue; if (p.type || p.hasMagic) return (this.#hasMagic = true); } // note: will be undefined until we generate the regexp src and find out return this.#hasMagic; } // reconstructs the pattern toString() { if (this.#toString !== undefined) return this.#toString; if (!this.type) { return (this.#toString = this.#parts.map(p => String(p)).join('')); } else { return (this.#toString = this.type + '(' + this.#parts.map(p => String(p)).join('|') + ')'); } } #fillNegs() { /* c8 ignore start */ if (this !== this.#root) throw new Error('should only call on root'); if (this.#filledNegs) return this; /* c8 ignore stop */ // call toString() once to fill this out this.toString(); this.#filledNegs = true; let n; while ((n = this.#negs.pop())) { if (n.type !== '!') continue; // walk up the tree, appending everthing that comes AFTER parentIndex let p = n; let pp = p.#parent; while (pp) { for (let i = p.#parentIndex + 1; !pp.type && i < pp.#parts.length; i++) { for (const part of n.#parts) { /* c8 ignore start */ if (typeof part === 'string') { throw new Error('string part in extglob AST??'); } /* c8 ignore stop */ part.copyIn(pp.#parts[i]); } } p = pp; pp = p.#parent; } } return this; } push(...parts) { for (const p of parts) { if (p === '') continue; /* c8 ignore start */ if (typeof p !== 'string' && !(p instanceof AST && p.#parent === this)) { throw new Error('invalid part: ' + p); } /* c8 ignore stop */ this.#parts.push(p); } } toJSON() { const ret = this.type === null ? this.#parts.slice().map(p => (typeof p === 'string' ? p : p.toJSON())) : [this.type, ...this.#parts.map(p => p.toJSON())]; if (this.isStart() && !this.type) ret.unshift([]); if (this.isEnd() && (this === this.#root || (this.#root.#filledNegs && this.#parent?.type === '!'))) { ret.push({}); } return ret; } isStart() { if (this.#root === this) return true; // if (this.type) return !!this.#parent?.isStart() if (!this.#parent?.isStart()) return false; if (this.#parentIndex === 0) return true; // if everything AHEAD of this is a negation, then it's still the "start" const p = this.#parent; for (let i = 0; i < this.#parentIndex; i++) { const pp = p.#parts[i]; if (!(pp instanceof AST && pp.type === '!')) { return false; } } return true; } isEnd() { if (this.#root === this) return true; if (this.#parent?.type === '!') return true; if (!this.#parent?.isEnd()) return false; if (!this.type) return this.#parent?.isEnd(); // if not root, it'll always have a parent /* c8 ignore start */ const pl = this.#parent ? this.#parent.#parts.length : 0; /* c8 ignore stop */ return this.#parentIndex === pl - 1; } copyIn(part) { if (typeof part === 'string') this.push(part); else this.push(part.clone(this)); } clone(parent) { const c = new AST(this.type, parent); for (const p of this.#parts) { c.copyIn(p); } return c; } static #parseAST(str, ast, pos, opt) { let escaping = false; let inBrace = false; let braceStart = -1; let braceNeg = false; if (ast.type === null) { // outside of a extglob, append until we find a start let i = pos; let acc = ''; while (i < str.length) { const c = str.charAt(i++); // still accumulate escapes at this point, but we do ignore // starts that are escaped if (escaping || c === '\\') { escaping = !escaping; acc += c; continue; } if (inBrace) { if (i === braceStart + 1) { if (c === '^' || c === '!') { braceNeg = true; } } else if (c === ']' && !(i === braceStart + 2 && braceNeg)) { inBrace = false; } acc += c; continue; } else if (c === '[') { inBrace = true; braceStart = i; braceNeg = false; acc += c; continue; } if (!opt.noext && isExtglobType(c) && str.charAt(i) === '(') { ast.push(acc); acc = ''; const ext = new AST(c, ast); i = AST.#parseAST(str, ext, i, opt); ast.push(ext); continue; } acc += c; } ast.push(acc); return i; } // some kind of extglob, pos is at the ( // find the next | or ) let i = pos + 1; let part = new AST(null, ast); const parts = []; let acc = ''; while (i < str.length) { const c = str.charAt(i++); // still accumulate escapes at this point, but we do ignore // starts that are escaped if (escaping || c === '\\') { escaping = !escaping; acc += c; continue; } if (inBrace) { if (i === braceStart + 1) { if (c === '^' || c === '!') { braceNeg = true; } } else if (c === ']' && !(i === braceStart + 2 && braceNeg)) { inBrace = false; } acc += c; continue; } else if (c === '[') { inBrace = true; braceStart = i; braceNeg = false; acc += c; continue; } if (isExtglobType(c) && str.charAt(i) === '(') { part.push(acc); acc = ''; const ext = new AST(c, part); part.push(ext); i = AST.#parseAST(str, ext, i, opt); continue; } if (c === '|') { part.push(acc); acc = ''; parts.push(part); part = new AST(null, ast); continue; } if (c === ')') { if (acc === '' && ast.#parts.length === 0) { ast.#emptyExt = true; } part.push(acc); acc = ''; ast.push(...parts, part); return i; } acc += c; } // unfinished extglob // if we got here, it was a malformed extglob! not an extglob, but // maybe something else in there. ast.type = null; ast.#hasMagic = undefined; ast.#parts = [str.substring(pos - 1)]; return i; } static fromGlob(pattern, options = {}) { const ast = new AST(null, undefined, options); AST.#parseAST(pattern, ast, 0, options); return ast; } // returns the regular expression if there's magic, or the unescaped // string if not. toMMPattern() { // should only be called on root /* c8 ignore start */ if (this !== this.#root) return this.#root.toMMPattern(); /* c8 ignore stop */ const glob = this.toString(); const [re, body, hasMagic, uflag] = this.toRegExpSource(); // if we're in nocase mode, and not nocaseMagicOnly, then we do // still need a regular expression if we have to case-insensitively // match capital/lowercase characters. const anyMagic = hasMagic || this.#hasMagic || (this.#options.nocase && !this.#options.nocaseMagicOnly && glob.toUpperCase() !== glob.toLowerCase()); if (!anyMagic) { return body; } const flags = (this.#options.nocase ? 'i' : '') + (uflag ? 'u' : ''); return Object.assign(new RegExp(`^${re}$`, flags), { _src: re, _glob: glob, }); } get options() { return this.#options; } // returns the string match, the regexp source, whether there's magic // in the regexp (so a regular expression is required) and whether or // not the uflag is needed for the regular expression (for posix classes) // TODO: instead of injecting the start/end at this point, just return // the BODY of the regexp, along with the start/end portions suitable // for binding the start/end in either a joined full-path makeRe context // (where we bind to (^|/), or a standalone matchPart context (where // we bind to ^, and not /). Otherwise slashes get duped! // // In part-matching mode, the start is: // - if not isStart: nothing // - if traversal possible, but not allowed: ^(?!\.\.?$) // - if dots allowed or not possible: ^ // - if dots possible and not allowed: ^(?!\.) // end is: // - if not isEnd(): nothing // - else: $ // // In full-path matching mode, we put the slash at the START of the // pattern, so start is: // - if first pattern: same as part-matching mode // - if not isStart(): nothing // - if traversal possible, but not allowed: /(?!\.\.?(?:$|/)) // - if dots allowed or not possible: / // - if dots possible and not allowed: /(?!\.) // end is: // - if last pattern, same as part-matching mode // - else nothing // // Always put the (?:$|/) on negated tails, though, because that has to be // there to bind the end of the negated pattern portion, and it's easier to // just stick it in now rather than try to inject it later in the middle of // the pattern. // // We can just always return the same end, and leave it up to the caller // to know whether it's going to be used joined or in parts. // And, if the start is adjusted slightly, can do the same there: // - if not isStart: nothing // - if traversal possible, but not allowed: (?:/|^)(?!\.\.?$) // - if dots allowed or not possible: (?:/|^) // - if dots possible and not allowed: (?:/|^)(?!\.) // // But it's better to have a simpler binding without a conditional, for // performance, so probably better to return both start options. // // Then the caller just ignores the end if it's not the first pattern, // and the start always gets applied. // // But that's always going to be $ if it's the ending pattern, or nothing, // so the caller can just attach $ at the end of the pattern when building. // // So the todo is: // - better detect what kind of start is needed // - return both flavors of starting pattern // - attach $ at the end of the pattern when creating the actual RegExp // // Ah, but wait, no, that all only applies to the root when the first pattern // is not an extglob. If the first pattern IS an extglob, then we need all // that dot prevention biz to live in the extglob portions, because eg // +(*|.x*) can match .xy but not .yx. // // So, return the two flavors if it's #root and the first child is not an // AST, otherwise leave it to the child AST to handle it, and there, // use the (?:^|/) style of start binding. // // Even simplified further: // - Since the start for a join is eg /(?!\.) and the start for a part // is ^(?!\.), we can just prepend (?!\.) to the pattern (either root // or start or whatever) and prepend ^ or / at the Regexp construction. toRegExpSource(allowDot) { const dot = allowDot ?? !!this.#options.dot; if (this.#root === this) this.#fillNegs(); if (!this.type) { const noEmpty = this.isStart() && this.isEnd(); const src = this.#parts .map(p => { const [re, _, hasMagic, uflag] = typeof p === 'string' ? AST.#parseGlob(p, this.#hasMagic, noEmpty) : p.toRegExpSource(allowDot); this.#hasMagic = this.#hasMagic || hasMagic; this.#uflag = this.#uflag || uflag; return re; }) .join(''); let start = ''; if (this.isStart()) { if (typeof this.#parts[0] === 'string') { // this is the string that will match the start of the pattern, // so we need to protect against dots and such. // '.' and '..' cannot match unless the pattern is that exactly, // even if it starts with . or dot:true is set. const dotTravAllowed = this.#parts.length === 1 && justDots.has(this.#parts[0]); if (!dotTravAllowed) { const aps = addPatternStart; // check if we have a possibility of matching . or .., // and prevent that. const needNoTrav = // dots are allowed, and the pattern starts with [ or . (dot && aps.has(src.charAt(0))) || // the pattern starts with \., and then [ or . (src.startsWith('\\.') && aps.has(src.charAt(2))) || // the pattern starts with \.\., and then [ or . (src.startsWith('\\.\\.') && aps.has(src.charAt(4))); // no need to prevent dots if it can't match a dot, or if a // sub-pattern will be preventing it anyway. const needNoDot = !dot && !allowDot && aps.has(src.charAt(0)); start = needNoTrav ? startNoTraversal : needNoDot ? startNoDot : ''; } } } // append the "end of path portion" pattern to negation tails let end = ''; if (this.isEnd() && this.#root.#filledNegs && this.#parent?.type === '!') { end = '(?:$|\\/)'; } const final = start + src + end; return [ final, (0, unescape_js_1.unescape)(src), (this.#hasMagic = !!this.#hasMagic), this.#uflag, ]; } // We need to calculate the body *twice* if it's a repeat pattern // at the start, once in nodot mode, then again in dot mode, so a // pattern like *(?) can match 'x.y' const repeated = this.type === '*' || this.type === '+'; // some kind of extglob const start = this.type === '!' ? '(?:(?!(?:' : '(?:'; let body = this.#partsToRegExp(dot); if (this.isStart() && this.isEnd() && !body && this.type !== '!') { // invalid extglob, has to at least be *something* present, if it's // the entire path portion. const s = this.toString(); this.#parts = [s]; this.type = null; this.#hasMagic = undefined; return [s, (0, unescape_js_1.unescape)(this.toString()), false, false]; } // XXX abstract out this map method let bodyDotAllowed = !repeated || allowDot || dot || !startNoDot ? '' : this.#partsToRegExp(true); if (bodyDotAllowed === body) { bodyDotAllowed = ''; } if (bodyDotAllowed) { body = `(?:${body})(?:${bodyDotAllowed})*?`; } // an empty !() is exactly equivalent to a starNoEmpty let final = ''; if (this.type === '!' && this.#emptyExt) { final = (this.isStart() && !dot ? startNoDot : '') + starNoEmpty; } else { const close = this.type === '!' ? // !() must match something,but !(x) can match '' '))' + (this.isStart() && !dot && !allowDot ? startNoDot : '') + star + ')' : this.type === '@' ? ')' : this.type === '?' ? ')?' : this.type === '+' && bodyDotAllowed ? ')' : this.type === '*' && bodyDotAllowed ? `)?` : `)${this.type}`; final = start + body + close; } return [ final, (0, unescape_js_1.unescape)(body), (this.#hasMagic = !!this.#hasMagic), this.#uflag, ]; } #partsToRegExp(dot) { return this.#parts .map(p => { // extglob ASTs should only contain parent ASTs /* c8 ignore start */ if (typeof p === 'string') { throw new Error('string type in extglob ast??'); } /* c8 ignore stop */ // can ignore hasMagic, because extglobs are already always magic const [re, _, _hasMagic, uflag] = p.toRegExpSource(dot); this.#uflag = this.#uflag || uflag; return re; }) .filter(p => !(this.isStart() && this.isEnd()) || !!p) .join('|'); } static #parseGlob(glob, hasMagic, noEmpty = false) { let escaping = false; let re = ''; let uflag = false; for (let i = 0; i < glob.length; i++) { const c = glob.charAt(i); if (escaping) { escaping = false; re += (reSpecials.has(c) ? '\\' : '') + c; continue; } if (c === '\\') { if (i === glob.length - 1) { re += '\\\\'; } else { escaping = true; } continue; } if (c === '[') { const [src, needUflag, consumed, magic] = (0, brace_expressions_js_1.parseClass)(glob, i); if (consumed) { re += src; uflag = uflag || needUflag; i += consumed - 1; hasMagic = hasMagic || magic; continue; } } if (c === '*') { if (noEmpty && glob === '*') re += starNoEmpty; else re += star; hasMagic = true; continue; } if (c === '?') { re += qmark; hasMagic = true; continue; } re += regExpEscape(c); } return [re, (0, unescape_js_1.unescape)(glob), !!hasMagic, uflag]; } } exports.AST = AST; //# sourceMappingURL=ast.js.map /***/ }), /***/ 1090: /***/ ((__unused_webpack_module, exports) => { // translate the various posix character classes into unicode properties // this works across all unicode locales Object.defineProperty(exports, "__esModule", ({ value: true })); exports.parseClass = void 0; // { : [, /u flag required, negated] const posixClasses = { '[:alnum:]': ['\\p{L}\\p{Nl}\\p{Nd}', true], '[:alpha:]': ['\\p{L}\\p{Nl}', true], '[:ascii:]': ['\\x' + '00-\\x' + '7f', false], '[:blank:]': ['\\p{Zs}\\t', true], '[:cntrl:]': ['\\p{Cc}', true], '[:digit:]': ['\\p{Nd}', true], '[:graph:]': ['\\p{Z}\\p{C}', true, true], '[:lower:]': ['\\p{Ll}', true], '[:print:]': ['\\p{C}', true], '[:punct:]': ['\\p{P}', true], '[:space:]': ['\\p{Z}\\t\\r\\n\\v\\f', true], '[:upper:]': ['\\p{Lu}', true], '[:word:]': ['\\p{L}\\p{Nl}\\p{Nd}\\p{Pc}', true], '[:xdigit:]': ['A-Fa-f0-9', false], }; // only need to escape a few things inside of brace expressions // escapes: [ \ ] - const braceEscape = (s) => s.replace(/[[\]\\-]/g, '\\$&'); // escape all regexp magic characters const regexpEscape = (s) => s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&'); // everything has already been escaped, we just have to join const rangesToString = (ranges) => ranges.join(''); // takes a glob string at a posix brace expression, and returns // an equivalent regular expression source, and boolean indicating // whether the /u flag needs to be applied, and the number of chars // consumed to parse the character class. // This also removes out of order ranges, and returns ($.) if the // entire class just no good. const parseClass = (glob, position) => { const pos = position; /* c8 ignore start */ if (glob.charAt(pos) !== '[') { throw new Error('not in a brace expression'); } /* c8 ignore stop */ const ranges = []; const negs = []; let i = pos + 1; let sawStart = false; let uflag = false; let escaping = false; let negate = false; let endPos = pos; let rangeStart = ''; WHILE: while (i < glob.length) { const c = glob.charAt(i); if ((c === '!' || c === '^') && i === pos + 1) { negate = true; i++; continue; } if (c === ']' && sawStart && !escaping) { endPos = i + 1; break; } sawStart = true; if (c === '\\') { if (!escaping) { escaping = true; i++; continue; } // escaped \ char, fall through and treat like normal char } if (c === '[' && !escaping) { // either a posix class, a collation equivalent, or just a [ for (const [cls, [unip, u, neg]] of Object.entries(posixClasses)) { if (glob.startsWith(cls, i)) { // invalid, [a-[] is fine, but not [a-[:alpha]] if (rangeStart) { return ['$.', false, glob.length - pos, true]; } i += cls.length; if (neg) negs.push(unip); else ranges.push(unip); uflag = uflag || u; continue WHILE; } } } // now it's just a normal character, effectively escaping = false; if (rangeStart) { // throw this range away if it's not valid, but others // can still match. if (c > rangeStart) { ranges.push(braceEscape(rangeStart) + '-' + braceEscape(c)); } else if (c === rangeStart) { ranges.push(braceEscape(c)); } rangeStart = ''; i++; continue; } // now might be the start of a range. // can be either c-d or c-] or c] or c] at this point if (glob.startsWith('-]', i + 1)) { ranges.push(braceEscape(c + '-')); i += 2; continue; } if (glob.startsWith('-', i + 1)) { rangeStart = c; i += 2; continue; } // not the start of a range, just a single character ranges.push(braceEscape(c)); i++; } if (endPos < i) { // didn't see the end of the class, not a valid class, // but might still be valid as a literal match. return ['', false, 0, false]; } // if we got no ranges and no negates, then we have a range that // cannot possibly match anything, and that poisons the whole glob if (!ranges.length && !negs.length) { return ['$.', false, glob.length - pos, true]; } // if we got one positive range, and it's a single character, then that's // not actually a magic pattern, it's just that one literal character. // we should not treat that as "magic", we should just return the literal // character. [_] is a perfectly valid way to escape glob magic chars. if (negs.length === 0 && ranges.length === 1 && /^\\?.$/.test(ranges[0]) && !negate) { const r = ranges[0].length === 2 ? ranges[0].slice(-1) : ranges[0]; return [regexpEscape(r), false, endPos - pos, false]; } const sranges = '[' + (negate ? '^' : '') + rangesToString(ranges) + ']'; const snegs = '[' + (negate ? '' : '^') + rangesToString(negs) + ']'; const comb = ranges.length && negs.length ? '(' + sranges + '|' + snegs + ')' : ranges.length ? sranges : snegs; return [comb, uflag, endPos - pos, true]; }; exports.parseClass = parseClass; //# sourceMappingURL=brace-expressions.js.map /***/ }), /***/ 800: /***/ ((__unused_webpack_module, exports) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.escape = void 0; /** * Escape all magic characters in a glob pattern. * * If the {@link windowsPathsNoEscape | GlobOptions.windowsPathsNoEscape} * option is used, then characters are escaped by wrapping in `[]`, because * a magic character wrapped in a character class can only be satisfied by * that exact character. In this mode, `\` is _not_ escaped, because it is * not interpreted as a magic character, but instead as a path separator. */ const escape = (s, { windowsPathsNoEscape = false, } = {}) => { // don't need to escape +@! because we escape the parens // that make those magic, and escaping ! as [!] isn't valid, // because [!]] is a valid glob class meaning not ']'. return windowsPathsNoEscape ? s.replace(/[?*()[\]]/g, '[$&]') : s.replace(/[?*()[\]\\]/g, '\\$&'); }; exports.escape = escape; //# sourceMappingURL=escape.js.map /***/ }), /***/ 6507: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { Object.defineProperty(exports, "__esModule", ({ value: true })); exports.unescape = exports.escape = exports.AST = exports.Minimatch = exports.match = exports.makeRe = exports.braceExpand = exports.defaults = exports.filter = exports.GLOBSTAR = exports.sep = exports.minimatch = void 0; const brace_expansion_1 = __nccwpck_require__(1215); const assert_valid_pattern_js_1 = __nccwpck_require__(7305); const ast_js_1 = __nccwpck_require__(1803); const escape_js_1 = __nccwpck_require__(800); const unescape_js_1 = __nccwpck_require__(851); const minimatch = (p, pattern, options = {}) => { (0, assert_valid_pattern_js_1.assertValidPattern)(pattern); // shortcut: comments match nothing. if (!options.nocomment && pattern.charAt(0) === '#') { return false; } return new Minimatch(pattern, options).match(p); }; exports.minimatch = minimatch; // Optimized checking for the most common glob patterns. const starDotExtRE = /^\*+([^+@!?\*\[\(]*)$/; const starDotExtTest = (ext) => (f) => !f.startsWith('.') && f.endsWith(ext); const starDotExtTestDot = (ext) => (f) => f.endsWith(ext); const starDotExtTestNocase = (ext) => { ext = ext.toLowerCase(); return (f) => !f.startsWith('.') && f.toLowerCase().endsWith(ext); }; const starDotExtTestNocaseDot = (ext) => { ext = ext.toLowerCase(); return (f) => f.toLowerCase().endsWith(ext); }; const starDotStarRE = /^\*+\.\*+$/; const starDotStarTest = (f) => !f.startsWith('.') && f.includes('.'); const starDotStarTestDot = (f) => f !== '.' && f !== '..' && f.includes('.'); const dotStarRE = /^\.\*+$/; const dotStarTest = (f) => f !== '.' && f !== '..' && f.startsWith('.'); const starRE = /^\*+$/; const starTest = (f) => f.length !== 0 && !f.startsWith('.'); const starTestDot = (f) => f.length !== 0 && f !== '.' && f !== '..'; const qmarksRE = /^\?+([^+@!?\*\[\(]*)?$/; const qmarksTestNocase = ([$0, ext = '']) => { const noext = qmarksTestNoExt([$0]); if (!ext) return noext; ext = ext.toLowerCase(); return (f) => noext(f) && f.toLowerCase().endsWith(ext); }; const qmarksTestNocaseDot = ([$0, ext = '']) => { const noext = qmarksTestNoExtDot([$0]); if (!ext) return noext; ext = ext.toLowerCase(); return (f) => noext(f) && f.toLowerCase().endsWith(ext); }; const qmarksTestDot = ([$0, ext = '']) => { const noext = qmarksTestNoExtDot([$0]); return !ext ? noext : (f) => noext(f) && f.endsWith(ext); }; const qmarksTest = ([$0, ext = '']) => { const noext = qmarksTestNoExt([$0]); return !ext ? noext : (f) => noext(f) && f.endsWith(ext); }; const qmarksTestNoExt = ([$0]) => { const len = $0.length; return (f) => f.length === len && !f.startsWith('.'); }; const qmarksTestNoExtDot = ([$0]) => { const len = $0.length; return (f) => f.length === len && f !== '.' && f !== '..'; }; /* c8 ignore start */ const defaultPlatform = (typeof process === 'object' && process ? (typeof process.env === 'object' && process.env && process.env.__MINIMATCH_TESTING_PLATFORM__) || process.platform : 'posix'); const path = { win32: { sep: '\\' }, posix: { sep: '/' }, }; /* c8 ignore stop */ exports.sep = defaultPlatform === 'win32' ? path.win32.sep : path.posix.sep; exports.minimatch.sep = exports.sep; exports.GLOBSTAR = Symbol('globstar **'); exports.minimatch.GLOBSTAR = exports.GLOBSTAR; // any single thing other than / // don't need to escape / when using new RegExp() const qmark = '[^/]'; // * => any number of characters const star = qmark + '*?'; // ** when dots are allowed. Anything goes, except .. and . // not (^ or / followed by one or two dots followed by $ or /), // followed by anything, any number of times. const twoStarDot = '(?:(?!(?:\\/|^)(?:\\.{1,2})($|\\/)).)*?'; // not a ^ or / followed by a dot, // followed by anything, any number of times. const twoStarNoDot = '(?:(?!(?:\\/|^)\\.).)*?'; const filter = (pattern, options = {}) => (p) => (0, exports.minimatch)(p, pattern, options); exports.filter = filter; exports.minimatch.filter = exports.filter; const ext = (a, b = {}) => Object.assign({}, a, b); const defaults = (def) => { if (!def || typeof def !== 'object' || !Object.keys(def).length) { return exports.minimatch; } const orig = exports.minimatch; const m = (p, pattern, options = {}) => orig(p, pattern, ext(def, options)); return Object.assign(m, { Minimatch: class Minimatch extends orig.Minimatch { constructor(pattern, options = {}) { super(pattern, ext(def, options)); } static defaults(options) { return orig.defaults(ext(def, options)).Minimatch; } }, AST: class AST extends orig.AST { /* c8 ignore start */ constructor(type, parent, options = {}) { super(type, parent, ext(def, options)); } /* c8 ignore stop */ static fromGlob(pattern, options = {}) { return orig.AST.fromGlob(pattern, ext(def, options)); } }, unescape: (s, options = {}) => orig.unescape(s, ext(def, options)), escape: (s, options = {}) => orig.escape(s, ext(def, options)), filter: (pattern, options = {}) => orig.filter(pattern, ext(def, options)), defaults: (options) => orig.defaults(ext(def, options)), makeRe: (pattern, options = {}) => orig.makeRe(pattern, ext(def, options)), braceExpand: (pattern, options = {}) => orig.braceExpand(pattern, ext(def, options)), match: (list, pattern, options = {}) => orig.match(list, pattern, ext(def, options)), sep: orig.sep, GLOBSTAR: exports.GLOBSTAR, }); }; exports.defaults = defaults; exports.minimatch.defaults = exports.defaults; // Brace expansion: // a{b,c}d -> abd acd // a{b,}c -> abc ac // a{0..3}d -> a0d a1d a2d a3d // a{b,c{d,e}f}g -> abg acdfg acefg // a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg // // Invalid sets are not expanded. // a{2..}b -> a{2..}b // a{b}c -> a{b}c const braceExpand = (pattern, options = {}) => { (0, assert_valid_pattern_js_1.assertValidPattern)(pattern); // Thanks to Yeting Li for // improving this regexp to avoid a ReDOS vulnerability. if (options.nobrace || !/\{(?:(?!\{).)*\}/.test(pattern)) { // shortcut. no need to expand. return [pattern]; } return (0, brace_expansion_1.expand)(pattern); }; exports.braceExpand = braceExpand; exports.minimatch.braceExpand = exports.braceExpand; // parse a component of the expanded set. // At this point, no pattern may contain "/" in it // so we're going to return a 2d array, where each entry is the full // pattern, split on '/', and then turned into a regular expression. // A regexp is made at the end which joins each array with an // escaped /, and another full one which joins each regexp with |. // // Following the lead of Bash 4.1, note that "**" only has special meaning // when it is the *only* thing in a path portion. Otherwise, any series // of * is equivalent to a single *. Globstar behavior is enabled by // default, and can be disabled by setting options.noglobstar. const makeRe = (pattern, options = {}) => new Minimatch(pattern, options).makeRe(); exports.makeRe = makeRe; exports.minimatch.makeRe = exports.makeRe; const match = (list, pattern, options = {}) => { const mm = new Minimatch(pattern, options); list = list.filter(f => mm.match(f)); if (mm.options.nonull && !list.length) { list.push(pattern); } return list; }; exports.match = match; exports.minimatch.match = exports.match; // replace stuff like \* with * const globMagic = /[?*]|[+@!]\(.*?\)|\[|\]/; const regExpEscape = (s) => s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&'); class Minimatch { options; set; pattern; windowsPathsNoEscape; nonegate; negate; comment; empty; preserveMultipleSlashes; partial; globSet; globParts; nocase; isWindows; platform; windowsNoMagicRoot; regexp; constructor(pattern, options = {}) { (0, assert_valid_pattern_js_1.assertValidPattern)(pattern); options = options || {}; this.options = options; this.pattern = pattern; this.platform = options.platform || defaultPlatform; this.isWindows = this.platform === 'win32'; this.windowsPathsNoEscape = !!options.windowsPathsNoEscape || options.allowWindowsEscape === false; if (this.windowsPathsNoEscape) { this.pattern = this.pattern.replace(/\\/g, '/'); } this.preserveMultipleSlashes = !!options.preserveMultipleSlashes; this.regexp = null; this.negate = false; this.nonegate = !!options.nonegate; this.comment = false; this.empty = false; this.partial = !!options.partial; this.nocase = !!this.options.nocase; this.windowsNoMagicRoot = options.windowsNoMagicRoot !== undefined ? options.windowsNoMagicRoot : !!(this.isWindows && this.nocase); this.globSet = []; this.globParts = []; this.set = []; // make the set of regexps etc. this.make(); } hasMagic() { if (this.options.magicalBraces && this.set.length > 1) { return true; } for (const pattern of this.set) { for (const part of pattern) { if (typeof part !== 'string') return true; } } return false; } debug(..._) { } make() { const pattern = this.pattern; const options = this.options; // empty patterns and comments match nothing. if (!options.nocomment && pattern.charAt(0) === '#') { this.comment = true; return; } if (!pattern) { this.empty = true; return; } // step 1: figure out negation, etc. this.parseNegate(); // step 2: expand braces this.globSet = [...new Set(this.braceExpand())]; if (options.debug) { this.debug = (...args) => console.error(...args); } this.debug(this.pattern, this.globSet); // step 3: now we have a set, so turn each one into a series of // path-portion matching patterns. // These will be regexps, except in the case of "**", which is // set to the GLOBSTAR object for globstar behavior, // and will not contain any / characters // // First, we preprocess to make the glob pattern sets a bit simpler // and deduped. There are some perf-killing patterns that can cause // problems with a glob walk, but we can simplify them down a bit. const rawGlobParts = this.globSet.map(s => this.slashSplit(s)); this.globParts = this.preprocess(rawGlobParts); this.debug(this.pattern, this.globParts); // glob --> regexps let set = this.globParts.map((s, _, __) => { if (this.isWindows && this.windowsNoMagicRoot) { // check if it's a drive or unc path. const isUNC = s[0] === '' && s[1] === '' && (s[2] === '?' || !globMagic.test(s[2])) && !globMagic.test(s[3]); const isDrive = /^[a-z]:/i.test(s[0]); if (isUNC) { return [...s.slice(0, 4), ...s.slice(4).map(ss => this.parse(ss))]; } else if (isDrive) { return [s[0], ...s.slice(1).map(ss => this.parse(ss))]; } } return s.map(ss => this.parse(ss)); }); this.debug(this.pattern, set); // filter out everything that didn't compile properly. this.set = set.filter(s => s.indexOf(false) === -1); // do not treat the ? in UNC paths as magic if (this.isWindows) { for (let i = 0; i < this.set.length; i++) { const p = this.set[i]; if (p[0] === '' && p[1] === '' && this.globParts[i][2] === '?' && typeof p[3] === 'string' && /^[a-z]:$/i.test(p[3])) { p[2] = '?'; } } } this.debug(this.pattern, this.set); } // various transforms to equivalent pattern sets that are // faster to process in a filesystem walk. The goal is to // eliminate what we can, and push all ** patterns as far // to the right as possible, even if it increases the number // of patterns that we have to process. preprocess(globParts) { // if we're not in globstar mode, then turn all ** into * if (this.options.noglobstar) { for (let i = 0; i < globParts.length; i++) { for (let j = 0; j < globParts[i].length; j++) { if (globParts[i][j] === '**') { globParts[i][j] = '*'; } } } } const { optimizationLevel = 1 } = this.options; if (optimizationLevel >= 2) { // aggressive optimization for the purpose of fs walking globParts = this.firstPhasePreProcess(globParts); globParts = this.secondPhasePreProcess(globParts); } else if (optimizationLevel >= 1) { // just basic optimizations to remove some .. parts globParts = this.levelOneOptimize(globParts); } else { // just collapse multiple ** portions into one globParts = this.adjascentGlobstarOptimize(globParts); } return globParts; } // just get rid of adjascent ** portions adjascentGlobstarOptimize(globParts) { return globParts.map(parts => { let gs = -1; while (-1 !== (gs = parts.indexOf('**', gs + 1))) { let i = gs; while (parts[i + 1] === '**') { i++; } if (i !== gs) { parts.splice(gs, i - gs); } } return parts; }); } // get rid of adjascent ** and resolve .. portions levelOneOptimize(globParts) { return globParts.map(parts => { parts = parts.reduce((set, part) => { const prev = set[set.length - 1]; if (part === '**' && prev === '**') { return set; } if (part === '..') { if (prev && prev !== '..' && prev !== '.' && prev !== '**') { set.pop(); return set; } } set.push(part); return set; }, []); return parts.length === 0 ? [''] : parts; }); } levelTwoFileOptimize(parts) { if (!Array.isArray(parts)) { parts = this.slashSplit(parts); } let didSomething = false; do { didSomething = false; // 
// -> 
/
            if (!this.preserveMultipleSlashes) {
                for (let i = 1; i < parts.length - 1; i++) {
                    const p = parts[i];
                    // don't squeeze out UNC patterns
                    if (i === 1 && p === '' && parts[0] === '')
                        continue;
                    if (p === '.' || p === '') {
                        didSomething = true;
                        parts.splice(i, 1);
                        i--;
                    }
                }
                if (parts[0] === '.' &&
                    parts.length === 2 &&
                    (parts[1] === '.' || parts[1] === '')) {
                    didSomething = true;
                    parts.pop();
                }
            }
            // 
/
/../ -> 
/
            let dd = 0;
            while (-1 !== (dd = parts.indexOf('..', dd + 1))) {
                const p = parts[dd - 1];
                if (p && p !== '.' && p !== '..' && p !== '**') {
                    didSomething = true;
                    parts.splice(dd - 1, 2);
                    dd -= 2;
                }
            }
        } while (didSomething);
        return parts.length === 0 ? [''] : parts;
    }
    // First phase: single-pattern processing
    // 
 is 1 or more portions
    //  is 1 or more portions
    // 
 is any portion other than ., .., '', or **
    //  is . or ''
    //
    // **/.. is *brutal* for filesystem walking performance, because
    // it effectively resets the recursive walk each time it occurs,
    // and ** cannot be reduced out by a .. pattern part like a regexp
    // or most strings (other than .., ., and '') can be.
    //
    // 
/**/../
/
/ -> {
/../
/
/,
/**/
/
/}
    // 
// -> 
/
    // 
/
/../ -> 
/
    // **/**/ -> **/
    //
    // **/*/ -> */**/ <== not valid because ** doesn't follow
    // this WOULD be allowed if ** did follow symlinks, or * didn't
    firstPhasePreProcess(globParts) {
        let didSomething = false;
        do {
            didSomething = false;
            // 
/**/../
/
/ -> {
/../
/
/,
/**/
/
/}
            for (let parts of globParts) {
                let gs = -1;
                while (-1 !== (gs = parts.indexOf('**', gs + 1))) {
                    let gss = gs;
                    while (parts[gss + 1] === '**') {
                        // 
/**/**/ -> 
/**/
                        gss++;
                    }
                    // eg, if gs is 2 and gss is 4, that means we have 3 **
                    // parts, and can remove 2 of them.
                    if (gss > gs) {
                        parts.splice(gs + 1, gss - gs);
                    }
                    let next = parts[gs + 1];
                    const p = parts[gs + 2];
                    const p2 = parts[gs + 3];
                    if (next !== '..')
                        continue;
                    if (!p ||
                        p === '.' ||
                        p === '..' ||
                        !p2 ||
                        p2 === '.' ||
                        p2 === '..') {
                        continue;
                    }
                    didSomething = true;
                    // edit parts in place, and push the new one
                    parts.splice(gs, 1);
                    const other = parts.slice(0);
                    other[gs] = '**';
                    globParts.push(other);
                    gs--;
                }
                // 
// -> 
/
                if (!this.preserveMultipleSlashes) {
                    for (let i = 1; i < parts.length - 1; i++) {
                        const p = parts[i];
                        // don't squeeze out UNC patterns
                        if (i === 1 && p === '' && parts[0] === '')
                            continue;
                        if (p === '.' || p === '') {
                            didSomething = true;
                            parts.splice(i, 1);
                            i--;
                        }
                    }
                    if (parts[0] === '.' &&
                        parts.length === 2 &&
                        (parts[1] === '.' || parts[1] === '')) {
                        didSomething = true;
                        parts.pop();
                    }
                }
                // 
/
/../ -> 
/
                let dd = 0;
                while (-1 !== (dd = parts.indexOf('..', dd + 1))) {
                    const p = parts[dd - 1];
                    if (p && p !== '.' && p !== '..' && p !== '**') {
                        didSomething = true;
                        const needDot = dd === 1 && parts[dd + 1] === '**';
                        const splin = needDot ? ['.'] : [];
                        parts.splice(dd - 1, 2, ...splin);
                        if (parts.length === 0)
                            parts.push('');
                        dd -= 2;
                    }
                }
            }
        } while (didSomething);
        return globParts;
    }
    // second phase: multi-pattern dedupes
    // {
/*/,
/
/} -> 
/*/
    // {
/,
/} -> 
/
    // {
/**/,
/} -> 
/**/
    //
    // {
/**/,
/**/
/} -> 
/**/
    // ^-- not valid because ** doens't follow symlinks
    secondPhasePreProcess(globParts) {
        for (let i = 0; i < globParts.length - 1; i++) {
            for (let j = i + 1; j < globParts.length; j++) {
                const matched = this.partsMatch(globParts[i], globParts[j], !this.preserveMultipleSlashes);
                if (matched) {
                    globParts[i] = [];
                    globParts[j] = matched;
                    break;
                }
            }
        }
        return globParts.filter(gs => gs.length);
    }
    partsMatch(a, b, emptyGSMatch = false) {
        let ai = 0;
        let bi = 0;
        let result = [];
        let which = '';
        while (ai < a.length && bi < b.length) {
            if (a[ai] === b[bi]) {
                result.push(which === 'b' ? b[bi] : a[ai]);
                ai++;
                bi++;
            }
            else if (emptyGSMatch && a[ai] === '**' && b[bi] === a[ai + 1]) {
                result.push(a[ai]);
                ai++;
            }
            else if (emptyGSMatch && b[bi] === '**' && a[ai] === b[bi + 1]) {
                result.push(b[bi]);
                bi++;
            }
            else if (a[ai] === '*' &&
                b[bi] &&
                (this.options.dot || !b[bi].startsWith('.')) &&
                b[bi] !== '**') {
                if (which === 'b')
                    return false;
                which = 'a';
                result.push(a[ai]);
                ai++;
                bi++;
            }
            else if (b[bi] === '*' &&
                a[ai] &&
                (this.options.dot || !a[ai].startsWith('.')) &&
                a[ai] !== '**') {
                if (which === 'a')
                    return false;
                which = 'b';
                result.push(b[bi]);
                ai++;
                bi++;
            }
            else {
                return false;
            }
        }
        // if we fall out of the loop, it means they two are identical
        // as long as their lengths match
        return a.length === b.length && result;
    }
    parseNegate() {
        if (this.nonegate)
            return;
        const pattern = this.pattern;
        let negate = false;
        let negateOffset = 0;
        for (let i = 0; i < pattern.length && pattern.charAt(i) === '!'; i++) {
            negate = !negate;
            negateOffset++;
        }
        if (negateOffset)
            this.pattern = pattern.slice(negateOffset);
        this.negate = negate;
    }
    // set partial to true to test if, for example,
    // "/a/b" matches the start of "/*/b/*/d"
    // Partial means, if you run out of file before you run
    // out of pattern, then that's fine, as long as all
    // the parts match.
    matchOne(file, pattern, partial = false) {
        const options = this.options;
        // UNC paths like //?/X:/... can match X:/... and vice versa
        // Drive letters in absolute drive or unc paths are always compared
        // case-insensitively.
        if (this.isWindows) {
            const fileDrive = typeof file[0] === 'string' && /^[a-z]:$/i.test(file[0]);
            const fileUNC = !fileDrive &&
                file[0] === '' &&
                file[1] === '' &&
                file[2] === '?' &&
                /^[a-z]:$/i.test(file[3]);
            const patternDrive = typeof pattern[0] === 'string' && /^[a-z]:$/i.test(pattern[0]);
            const patternUNC = !patternDrive &&
                pattern[0] === '' &&
                pattern[1] === '' &&
                pattern[2] === '?' &&
                typeof pattern[3] === 'string' &&
                /^[a-z]:$/i.test(pattern[3]);
            const fdi = fileUNC ? 3 : fileDrive ? 0 : undefined;
            const pdi = patternUNC ? 3 : patternDrive ? 0 : undefined;
            if (typeof fdi === 'number' && typeof pdi === 'number') {
                const [fd, pd] = [file[fdi], pattern[pdi]];
                if (fd.toLowerCase() === pd.toLowerCase()) {
                    pattern[pdi] = fd;
                    if (pdi > fdi) {
                        pattern = pattern.slice(pdi);
                    }
                    else if (fdi > pdi) {
                        file = file.slice(fdi);
                    }
                }
            }
        }
        // resolve and reduce . and .. portions in the file as well.
        // dont' need to do the second phase, because it's only one string[]
        const { optimizationLevel = 1 } = this.options;
        if (optimizationLevel >= 2) {
            file = this.levelTwoFileOptimize(file);
        }
        this.debug('matchOne', this, { file, pattern });
        this.debug('matchOne', file.length, pattern.length);
        for (var fi = 0, pi = 0, fl = file.length, pl = pattern.length; fi < fl && pi < pl; fi++, pi++) {
            this.debug('matchOne loop');
            var p = pattern[pi];
            var f = file[fi];
            this.debug(pattern, p, f);
            // should be impossible.
            // some invalid regexp stuff in the set.
            /* c8 ignore start */
            if (p === false) {
                return false;
            }
            /* c8 ignore stop */
            if (p === exports.GLOBSTAR) {
                this.debug('GLOBSTAR', [pattern, p, f]);
                // "**"
                // a/**/b/**/c would match the following:
                // a/b/x/y/z/c
                // a/x/y/z/b/c
                // a/b/x/b/x/c
                // a/b/c
                // To do this, take the rest of the pattern after
                // the **, and see if it would match the file remainder.
                // If so, return success.
                // If not, the ** "swallows" a segment, and try again.
                // This is recursively awful.
                //
                // a/**/b/**/c matching a/b/x/y/z/c
                // - a matches a
                // - doublestar
                //   - matchOne(b/x/y/z/c, b/**/c)
                //     - b matches b
                //     - doublestar
                //       - matchOne(x/y/z/c, c) -> no
                //       - matchOne(y/z/c, c) -> no
                //       - matchOne(z/c, c) -> no
                //       - matchOne(c, c) yes, hit
                var fr = fi;
                var pr = pi + 1;
                if (pr === pl) {
                    this.debug('** at the end');
                    // a ** at the end will just swallow the rest.
                    // We have found a match.
                    // however, it will not swallow /.x, unless
                    // options.dot is set.
                    // . and .. are *never* matched by **, for explosively
                    // exponential reasons.
                    for (; fi < fl; fi++) {
                        if (file[fi] === '.' ||
                            file[fi] === '..' ||
                            (!options.dot && file[fi].charAt(0) === '.'))
                            return false;
                    }
                    return true;
                }
                // ok, let's see if we can swallow whatever we can.
                while (fr < fl) {
                    var swallowee = file[fr];
                    this.debug('\nglobstar while', file, fr, pattern, pr, swallowee);
                    // XXX remove this slice.  Just pass the start index.
                    if (this.matchOne(file.slice(fr), pattern.slice(pr), partial)) {
                        this.debug('globstar found match!', fr, fl, swallowee);
                        // found a match.
                        return true;
                    }
                    else {
                        // can't swallow "." or ".." ever.
                        // can only swallow ".foo" when explicitly asked.
                        if (swallowee === '.' ||
                            swallowee === '..' ||
                            (!options.dot && swallowee.charAt(0) === '.')) {
                            this.debug('dot detected!', file, fr, pattern, pr);
                            break;
                        }
                        // ** swallows a segment, and continue.
                        this.debug('globstar swallow a segment, and continue');
                        fr++;
                    }
                }
                // no match was found.
                // However, in partial mode, we can't say this is necessarily over.
                /* c8 ignore start */
                if (partial) {
                    // ran out of file
                    this.debug('\n>>> no match, partial?', file, fr, pattern, pr);
                    if (fr === fl) {
                        return true;
                    }
                }
                /* c8 ignore stop */
                return false;
            }
            // something other than **
            // non-magic patterns just have to match exactly
            // patterns with magic have been turned into regexps.
            let hit;
            if (typeof p === 'string') {
                hit = f === p;
                this.debug('string match', p, f, hit);
            }
            else {
                hit = p.test(f);
                this.debug('pattern match', p, f, hit);
            }
            if (!hit)
                return false;
        }
        // Note: ending in / means that we'll get a final ""
        // at the end of the pattern.  This can only match a
        // corresponding "" at the end of the file.
        // If the file ends in /, then it can only match a
        // a pattern that ends in /, unless the pattern just
        // doesn't have any more for it. But, a/b/ should *not*
        // match "a/b/*", even though "" matches against the
        // [^/]*? pattern, except in partial mode, where it might
        // simply not be reached yet.
        // However, a/b/ should still satisfy a/*
        // now either we fell off the end of the pattern, or we're done.
        if (fi === fl && pi === pl) {
            // ran out of pattern and filename at the same time.
            // an exact hit!
            return true;
        }
        else if (fi === fl) {
            // ran out of file, but still had pattern left.
            // this is ok if we're doing the match as part of
            // a glob fs traversal.
            return partial;
        }
        else if (pi === pl) {
            // ran out of pattern, still have file left.
            // this is only acceptable if we're on the very last
            // empty segment of a file with a trailing slash.
            // a/* should match a/b/
            return fi === fl - 1 && file[fi] === '';
            /* c8 ignore start */
        }
        else {
            // should be unreachable.
            throw new Error('wtf?');
        }
        /* c8 ignore stop */
    }
    braceExpand() {
        return (0, exports.braceExpand)(this.pattern, this.options);
    }
    parse(pattern) {
        (0, assert_valid_pattern_js_1.assertValidPattern)(pattern);
        const options = this.options;
        // shortcuts
        if (pattern === '**')
            return exports.GLOBSTAR;
        if (pattern === '')
            return '';
        // far and away, the most common glob pattern parts are
        // *, *.*, and *.  Add a fast check method for those.
        let m;
        let fastTest = null;
        if ((m = pattern.match(starRE))) {
            fastTest = options.dot ? starTestDot : starTest;
        }
        else if ((m = pattern.match(starDotExtRE))) {
            fastTest = (options.nocase
                ? options.dot
                    ? starDotExtTestNocaseDot
                    : starDotExtTestNocase
                : options.dot
                    ? starDotExtTestDot
                    : starDotExtTest)(m[1]);
        }
        else if ((m = pattern.match(qmarksRE))) {
            fastTest = (options.nocase
                ? options.dot
                    ? qmarksTestNocaseDot
                    : qmarksTestNocase
                : options.dot
                    ? qmarksTestDot
                    : qmarksTest)(m);
        }
        else if ((m = pattern.match(starDotStarRE))) {
            fastTest = options.dot ? starDotStarTestDot : starDotStarTest;
        }
        else if ((m = pattern.match(dotStarRE))) {
            fastTest = dotStarTest;
        }
        const re = ast_js_1.AST.fromGlob(pattern, this.options).toMMPattern();
        if (fastTest && typeof re === 'object') {
            // Avoids overriding in frozen environments
            Reflect.defineProperty(re, 'test', { value: fastTest });
        }
        return re;
    }
    makeRe() {
        if (this.regexp || this.regexp === false)
            return this.regexp;
        // at this point, this.set is a 2d array of partial
        // pattern strings, or "**".
        //
        // It's better to use .match().  This function shouldn't
        // be used, really, but it's pretty convenient sometimes,
        // when you just want to work with a regex.
        const set = this.set;
        if (!set.length) {
            this.regexp = false;
            return this.regexp;
        }
        const options = this.options;
        const twoStar = options.noglobstar
            ? star
            : options.dot
                ? twoStarDot
                : twoStarNoDot;
        const flags = new Set(options.nocase ? ['i'] : []);
        // regexpify non-globstar patterns
        // if ** is only item, then we just do one twoStar
        // if ** is first, and there are more, prepend (\/|twoStar\/)? to next
        // if ** is last, append (\/twoStar|) to previous
        // if ** is in the middle, append (\/|\/twoStar\/) to previous
        // then filter out GLOBSTAR symbols
        let re = set
            .map(pattern => {
            const pp = pattern.map(p => {
                if (p instanceof RegExp) {
                    for (const f of p.flags.split(''))
                        flags.add(f);
                }
                return typeof p === 'string'
                    ? regExpEscape(p)
                    : p === exports.GLOBSTAR
                        ? exports.GLOBSTAR
                        : p._src;
            });
            pp.forEach((p, i) => {
                const next = pp[i + 1];
                const prev = pp[i - 1];
                if (p !== exports.GLOBSTAR || prev === exports.GLOBSTAR) {
                    return;
                }
                if (prev === undefined) {
                    if (next !== undefined && next !== exports.GLOBSTAR) {
                        pp[i + 1] = '(?:\\/|' + twoStar + '\\/)?' + next;
                    }
                    else {
                        pp[i] = twoStar;
                    }
                }
                else if (next === undefined) {
                    pp[i - 1] = prev + '(?:\\/|' + twoStar + ')?';
                }
                else if (next !== exports.GLOBSTAR) {
                    pp[i - 1] = prev + '(?:\\/|\\/' + twoStar + '\\/)' + next;
                    pp[i + 1] = exports.GLOBSTAR;
                }
            });
            return pp.filter(p => p !== exports.GLOBSTAR).join('/');
        })
            .join('|');
        // need to wrap in parens if we had more than one thing with |,
        // otherwise only the first will be anchored to ^ and the last to $
        const [open, close] = set.length > 1 ? ['(?:', ')'] : ['', ''];
        // must match entire pattern
        // ending in a * or ** will make it less strict.
        re = '^' + open + re + close + '$';
        // can match anything, as long as it's not this.
        if (this.negate)
            re = '^(?!' + re + ').+$';
        try {
            this.regexp = new RegExp(re, [...flags].join(''));
            /* c8 ignore start */
        }
        catch (ex) {
            // should be impossible
            this.regexp = false;
        }
        /* c8 ignore stop */
        return this.regexp;
    }
    slashSplit(p) {
        // if p starts with // on windows, we preserve that
        // so that UNC paths aren't broken.  Otherwise, any number of
        // / characters are coalesced into one, unless
        // preserveMultipleSlashes is set to true.
        if (this.preserveMultipleSlashes) {
            return p.split('/');
        }
        else if (this.isWindows && /^\/\/[^\/]+/.test(p)) {
            // add an extra '' for the one we lose
            return ['', ...p.split(/\/+/)];
        }
        else {
            return p.split(/\/+/);
        }
    }
    match(f, partial = this.partial) {
        this.debug('match', f, this.pattern);
        // short-circuit in the case of busted things.
        // comments, etc.
        if (this.comment) {
            return false;
        }
        if (this.empty) {
            return f === '';
        }
        if (f === '/' && partial) {
            return true;
        }
        const options = this.options;
        // windows: need to use /, not \
        if (this.isWindows) {
            f = f.split('\\').join('/');
        }
        // treat the test path as a set of pathparts.
        const ff = this.slashSplit(f);
        this.debug(this.pattern, 'split', ff);
        // just ONE of the pattern sets in this.set needs to match
        // in order for it to be valid.  If negating, then just one
        // match means that we have failed.
        // Either way, return on the first hit.
        const set = this.set;
        this.debug(this.pattern, 'set', set);
        // Find the basename of the path by looking for the last non-empty segment
        let filename = ff[ff.length - 1];
        if (!filename) {
            for (let i = ff.length - 2; !filename && i >= 0; i--) {
                filename = ff[i];
            }
        }
        for (let i = 0; i < set.length; i++) {
            const pattern = set[i];
            let file = ff;
            if (options.matchBase && pattern.length === 1) {
                file = [filename];
            }
            const hit = this.matchOne(file, pattern, partial);
            if (hit) {
                if (options.flipNegate) {
                    return true;
                }
                return !this.negate;
            }
        }
        // didn't get any hits.  this is success if it's a negative
        // pattern, failure otherwise.
        if (options.flipNegate) {
            return false;
        }
        return this.negate;
    }
    static defaults(def) {
        return exports.minimatch.defaults(def).Minimatch;
    }
}
exports.Minimatch = Minimatch;
/* c8 ignore start */
var ast_js_2 = __nccwpck_require__(1803);
Object.defineProperty(exports, "AST", ({ enumerable: true, get: function () { return ast_js_2.AST; } }));
var escape_js_2 = __nccwpck_require__(800);
Object.defineProperty(exports, "escape", ({ enumerable: true, get: function () { return escape_js_2.escape; } }));
var unescape_js_2 = __nccwpck_require__(851);
Object.defineProperty(exports, "unescape", ({ enumerable: true, get: function () { return unescape_js_2.unescape; } }));
/* c8 ignore stop */
exports.minimatch.AST = ast_js_1.AST;
exports.minimatch.Minimatch = Minimatch;
exports.minimatch.escape = escape_js_1.escape;
exports.minimatch.unescape = unescape_js_1.unescape;
//# sourceMappingURL=index.js.map

/***/ }),

/***/ 851:
/***/ ((__unused_webpack_module, exports) => {


Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.unescape = void 0;
/**
 * Un-escape a string that has been escaped with {@link escape}.
 *
 * If the {@link windowsPathsNoEscape} option is used, then square-brace
 * escapes are removed, but not backslash escapes.  For example, it will turn
 * the string `'[*]'` into `*`, but it will not turn `'\\*'` into `'*'`,
 * becuase `\` is a path separator in `windowsPathsNoEscape` mode.
 *
 * When `windowsPathsNoEscape` is not set, then both brace escapes and
 * backslash escapes are removed.
 *
 * Slashes (and backslashes in `windowsPathsNoEscape` mode) cannot be escaped
 * or unescaped.
 */
const unescape = (s, { windowsPathsNoEscape = false, } = {}) => {
    return windowsPathsNoEscape
        ? s.replace(/\[([^\/\\])\]/g, '$1')
        : s.replace(/((?!\\).|^)\[([^\/\\])\]/g, '$1$2').replace(/\\([^\/])/g, '$1');
};
exports.unescape = unescape;
//# sourceMappingURL=unescape.js.map

/***/ }),

/***/ 8275:
/***/ (function(__unused_webpack_module, exports, __nccwpck_require__) {


var __importDefault = (this && this.__importDefault) || function (mod) {
    return (mod && mod.__esModule) ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.Minipass = exports.isWritable = exports.isReadable = exports.isStream = void 0;
const proc = typeof process === 'object' && process
    ? process
    : {
        stdout: null,
        stderr: null,
    };
const node_events_1 = __nccwpck_require__(8474);
const node_stream_1 = __importDefault(__nccwpck_require__(7075));
const node_string_decoder_1 = __nccwpck_require__(6193);
/**
 * Return true if the argument is a Minipass stream, Node stream, or something
 * else that Minipass can interact with.
 */
const isStream = (s) => !!s &&
    typeof s === 'object' &&
    (s instanceof Minipass ||
        s instanceof node_stream_1.default ||
        (0, exports.isReadable)(s) ||
        (0, exports.isWritable)(s));
exports.isStream = isStream;
/**
 * Return true if the argument is a valid {@link Minipass.Readable}
 */
const isReadable = (s) => !!s &&
    typeof s === 'object' &&
    s instanceof node_events_1.EventEmitter &&
    typeof s.pipe === 'function' &&
    // node core Writable streams have a pipe() method, but it throws
    s.pipe !== node_stream_1.default.Writable.prototype.pipe;
exports.isReadable = isReadable;
/**
 * Return true if the argument is a valid {@link Minipass.Writable}
 */
const isWritable = (s) => !!s &&
    typeof s === 'object' &&
    s instanceof node_events_1.EventEmitter &&
    typeof s.write === 'function' &&
    typeof s.end === 'function';
exports.isWritable = isWritable;
const EOF = Symbol('EOF');
const MAYBE_EMIT_END = Symbol('maybeEmitEnd');
const EMITTED_END = Symbol('emittedEnd');
const EMITTING_END = Symbol('emittingEnd');
const EMITTED_ERROR = Symbol('emittedError');
const CLOSED = Symbol('closed');
const READ = Symbol('read');
const FLUSH = Symbol('flush');
const FLUSHCHUNK = Symbol('flushChunk');
const ENCODING = Symbol('encoding');
const DECODER = Symbol('decoder');
const FLOWING = Symbol('flowing');
const PAUSED = Symbol('paused');
const RESUME = Symbol('resume');
const BUFFER = Symbol('buffer');
const PIPES = Symbol('pipes');
const BUFFERLENGTH = Symbol('bufferLength');
const BUFFERPUSH = Symbol('bufferPush');
const BUFFERSHIFT = Symbol('bufferShift');
const OBJECTMODE = Symbol('objectMode');
// internal event when stream is destroyed
const DESTROYED = Symbol('destroyed');
// internal event when stream has an error
const ERROR = Symbol('error');
const EMITDATA = Symbol('emitData');
const EMITEND = Symbol('emitEnd');
const EMITEND2 = Symbol('emitEnd2');
const ASYNC = Symbol('async');
const ABORT = Symbol('abort');
const ABORTED = Symbol('aborted');
const SIGNAL = Symbol('signal');
const DATALISTENERS = Symbol('dataListeners');
const DISCARDED = Symbol('discarded');
const defer = (fn) => Promise.resolve().then(fn);
const nodefer = (fn) => fn();
const isEndish = (ev) => ev === 'end' || ev === 'finish' || ev === 'prefinish';
const isArrayBufferLike = (b) => b instanceof ArrayBuffer ||
    (!!b &&
        typeof b === 'object' &&
        b.constructor &&
        b.constructor.name === 'ArrayBuffer' &&
        b.byteLength >= 0);
const isArrayBufferView = (b) => !Buffer.isBuffer(b) && ArrayBuffer.isView(b);
/**
 * Internal class representing a pipe to a destination stream.
 *
 * @internal
 */
class Pipe {
    src;
    dest;
    opts;
    ondrain;
    constructor(src, dest, opts) {
        this.src = src;
        this.dest = dest;
        this.opts = opts;
        this.ondrain = () => src[RESUME]();
        this.dest.on('drain', this.ondrain);
    }
    unpipe() {
        this.dest.removeListener('drain', this.ondrain);
    }
    // only here for the prototype
    /* c8 ignore start */
    proxyErrors(_er) { }
    /* c8 ignore stop */
    end() {
        this.unpipe();
        if (this.opts.end)
            this.dest.end();
    }
}
/**
 * Internal class representing a pipe to a destination stream where
 * errors are proxied.
 *
 * @internal
 */
class PipeProxyErrors extends Pipe {
    unpipe() {
        this.src.removeListener('error', this.proxyErrors);
        super.unpipe();
    }
    constructor(src, dest, opts) {
        super(src, dest, opts);
        this.proxyErrors = er => dest.emit('error', er);
        src.on('error', this.proxyErrors);
    }
}
const isObjectModeOptions = (o) => !!o.objectMode;
const isEncodingOptions = (o) => !o.objectMode && !!o.encoding && o.encoding !== 'buffer';
/**
 * Main export, the Minipass class
 *
 * `RType` is the type of data emitted, defaults to Buffer
 *
 * `WType` is the type of data to be written, if RType is buffer or string,
 * then any {@link Minipass.ContiguousData} is allowed.
 *
 * `Events` is the set of event handler signatures that this object
 * will emit, see {@link Minipass.Events}
 */
class Minipass extends node_events_1.EventEmitter {
    [FLOWING] = false;
    [PAUSED] = false;
    [PIPES] = [];
    [BUFFER] = [];
    [OBJECTMODE];
    [ENCODING];
    [ASYNC];
    [DECODER];
    [EOF] = false;
    [EMITTED_END] = false;
    [EMITTING_END] = false;
    [CLOSED] = false;
    [EMITTED_ERROR] = null;
    [BUFFERLENGTH] = 0;
    [DESTROYED] = false;
    [SIGNAL];
    [ABORTED] = false;
    [DATALISTENERS] = 0;
    [DISCARDED] = false;
    /**
     * true if the stream can be written
     */
    writable = true;
    /**
     * true if the stream can be read
     */
    readable = true;
    /**
     * If `RType` is Buffer, then options do not need to be provided.
     * Otherwise, an options object must be provided to specify either
     * {@link Minipass.SharedOptions.objectMode} or
     * {@link Minipass.SharedOptions.encoding}, as appropriate.
     */
    constructor(...args) {
        const options = (args[0] ||
            {});
        super();
        if (options.objectMode && typeof options.encoding === 'string') {
            throw new TypeError('Encoding and objectMode may not be used together');
        }
        if (isObjectModeOptions(options)) {
            this[OBJECTMODE] = true;
            this[ENCODING] = null;
        }
        else if (isEncodingOptions(options)) {
            this[ENCODING] = options.encoding;
            this[OBJECTMODE] = false;
        }
        else {
            this[OBJECTMODE] = false;
            this[ENCODING] = null;
        }
        this[ASYNC] = !!options.async;
        this[DECODER] = this[ENCODING]
            ? new node_string_decoder_1.StringDecoder(this[ENCODING])
            : null;
        //@ts-ignore - private option for debugging and testing
        if (options && options.debugExposeBuffer === true) {
            Object.defineProperty(this, 'buffer', { get: () => this[BUFFER] });
        }
        //@ts-ignore - private option for debugging and testing
        if (options && options.debugExposePipes === true) {
            Object.defineProperty(this, 'pipes', { get: () => this[PIPES] });
        }
        const { signal } = options;
        if (signal) {
            this[SIGNAL] = signal;
            if (signal.aborted) {
                this[ABORT]();
            }
            else {
                signal.addEventListener('abort', () => this[ABORT]());
            }
        }
    }
    /**
     * The amount of data stored in the buffer waiting to be read.
     *
     * For Buffer strings, this will be the total byte length.
     * For string encoding streams, this will be the string character length,
     * according to JavaScript's `string.length` logic.
     * For objectMode streams, this is a count of the items waiting to be
     * emitted.
     */
    get bufferLength() {
        return this[BUFFERLENGTH];
    }
    /**
     * The `BufferEncoding` currently in use, or `null`
     */
    get encoding() {
        return this[ENCODING];
    }
    /**
     * @deprecated - This is a read only property
     */
    set encoding(_enc) {
        throw new Error('Encoding must be set at instantiation time');
    }
    /**
     * @deprecated - Encoding may only be set at instantiation time
     */
    setEncoding(_enc) {
        throw new Error('Encoding must be set at instantiation time');
    }
    /**
     * True if this is an objectMode stream
     */
    get objectMode() {
        return this[OBJECTMODE];
    }
    /**
     * @deprecated - This is a read-only property
     */
    set objectMode(_om) {
        throw new Error('objectMode must be set at instantiation time');
    }
    /**
     * true if this is an async stream
     */
    get ['async']() {
        return this[ASYNC];
    }
    /**
     * Set to true to make this stream async.
     *
     * Once set, it cannot be unset, as this would potentially cause incorrect
     * behavior.  Ie, a sync stream can be made async, but an async stream
     * cannot be safely made sync.
     */
    set ['async'](a) {
        this[ASYNC] = this[ASYNC] || !!a;
    }
    // drop everything and get out of the flow completely
    [ABORT]() {
        this[ABORTED] = true;
        this.emit('abort', this[SIGNAL]?.reason);
        this.destroy(this[SIGNAL]?.reason);
    }
    /**
     * True if the stream has been aborted.
     */
    get aborted() {
        return this[ABORTED];
    }
    /**
     * No-op setter. Stream aborted status is set via the AbortSignal provided
     * in the constructor options.
     */
    set aborted(_) { }
    write(chunk, encoding, cb) {
        if (this[ABORTED])
            return false;
        if (this[EOF])
            throw new Error('write after end');
        if (this[DESTROYED]) {
            this.emit('error', Object.assign(new Error('Cannot call write after a stream was destroyed'), { code: 'ERR_STREAM_DESTROYED' }));
            return true;
        }
        if (typeof encoding === 'function') {
            cb = encoding;
            encoding = 'utf8';
        }
        if (!encoding)
            encoding = 'utf8';
        const fn = this[ASYNC] ? defer : nodefer;
        // convert array buffers and typed array views into buffers
        // at some point in the future, we may want to do the opposite!
        // leave strings and buffers as-is
        // anything is only allowed if in object mode, so throw
        if (!this[OBJECTMODE] && !Buffer.isBuffer(chunk)) {
            if (isArrayBufferView(chunk)) {
                //@ts-ignore - sinful unsafe type changing
                chunk = Buffer.from(chunk.buffer, chunk.byteOffset, chunk.byteLength);
            }
            else if (isArrayBufferLike(chunk)) {
                //@ts-ignore - sinful unsafe type changing
                chunk = Buffer.from(chunk);
            }
            else if (typeof chunk !== 'string') {
                throw new Error('Non-contiguous data written to non-objectMode stream');
            }
        }
        // handle object mode up front, since it's simpler
        // this yields better performance, fewer checks later.
        if (this[OBJECTMODE]) {
            // maybe impossible?
            /* c8 ignore start */
            if (this[FLOWING] && this[BUFFERLENGTH] !== 0)
                this[FLUSH](true);
            /* c8 ignore stop */
            if (this[FLOWING])
                this.emit('data', chunk);
            else
                this[BUFFERPUSH](chunk);
            if (this[BUFFERLENGTH] !== 0)
                this.emit('readable');
            if (cb)
                fn(cb);
            return this[FLOWING];
        }
        // at this point the chunk is a buffer or string
        // don't buffer it up or send it to the decoder
        if (!chunk.length) {
            if (this[BUFFERLENGTH] !== 0)
                this.emit('readable');
            if (cb)
                fn(cb);
            return this[FLOWING];
        }
        // fast-path writing strings of same encoding to a stream with
        // an empty buffer, skipping the buffer/decoder dance
        if (typeof chunk === 'string' &&
            // unless it is a string already ready for us to use
            !(encoding === this[ENCODING] && !this[DECODER]?.lastNeed)) {
            //@ts-ignore - sinful unsafe type change
            chunk = Buffer.from(chunk, encoding);
        }
        if (Buffer.isBuffer(chunk) && this[ENCODING]) {
            //@ts-ignore - sinful unsafe type change
            chunk = this[DECODER].write(chunk);
        }
        // Note: flushing CAN potentially switch us into not-flowing mode
        if (this[FLOWING] && this[BUFFERLENGTH] !== 0)
            this[FLUSH](true);
        if (this[FLOWING])
            this.emit('data', chunk);
        else
            this[BUFFERPUSH](chunk);
        if (this[BUFFERLENGTH] !== 0)
            this.emit('readable');
        if (cb)
            fn(cb);
        return this[FLOWING];
    }
    /**
     * Low-level explicit read method.
     *
     * In objectMode, the argument is ignored, and one item is returned if
     * available.
     *
     * `n` is the number of bytes (or in the case of encoding streams,
     * characters) to consume. If `n` is not provided, then the entire buffer
     * is returned, or `null` is returned if no data is available.
     *
     * If `n` is greater that the amount of data in the internal buffer,
     * then `null` is returned.
     */
    read(n) {
        if (this[DESTROYED])
            return null;
        this[DISCARDED] = false;
        if (this[BUFFERLENGTH] === 0 ||
            n === 0 ||
            (n && n > this[BUFFERLENGTH])) {
            this[MAYBE_EMIT_END]();
            return null;
        }
        if (this[OBJECTMODE])
            n = null;
        if (this[BUFFER].length > 1 && !this[OBJECTMODE]) {
            // not object mode, so if we have an encoding, then RType is string
            // otherwise, must be Buffer
            this[BUFFER] = [
                (this[ENCODING]
                    ? this[BUFFER].join('')
                    : Buffer.concat(this[BUFFER], this[BUFFERLENGTH])),
            ];
        }
        const ret = this[READ](n || null, this[BUFFER][0]);
        this[MAYBE_EMIT_END]();
        return ret;
    }
    [READ](n, chunk) {
        if (this[OBJECTMODE])
            this[BUFFERSHIFT]();
        else {
            const c = chunk;
            if (n === c.length || n === null)
                this[BUFFERSHIFT]();
            else if (typeof c === 'string') {
                this[BUFFER][0] = c.slice(n);
                chunk = c.slice(0, n);
                this[BUFFERLENGTH] -= n;
            }
            else {
                this[BUFFER][0] = c.subarray(n);
                chunk = c.subarray(0, n);
                this[BUFFERLENGTH] -= n;
            }
        }
        this.emit('data', chunk);
        if (!this[BUFFER].length && !this[EOF])
            this.emit('drain');
        return chunk;
    }
    end(chunk, encoding, cb) {
        if (typeof chunk === 'function') {
            cb = chunk;
            chunk = undefined;
        }
        if (typeof encoding === 'function') {
            cb = encoding;
            encoding = 'utf8';
        }
        if (chunk !== undefined)
            this.write(chunk, encoding);
        if (cb)
            this.once('end', cb);
        this[EOF] = true;
        this.writable = false;
        // if we haven't written anything, then go ahead and emit,
        // even if we're not reading.
        // we'll re-emit if a new 'end' listener is added anyway.
        // This makes MP more suitable to write-only use cases.
        if (this[FLOWING] || !this[PAUSED])
            this[MAYBE_EMIT_END]();
        return this;
    }
    // don't let the internal resume be overwritten
    [RESUME]() {
        if (this[DESTROYED])
            return;
        if (!this[DATALISTENERS] && !this[PIPES].length) {
            this[DISCARDED] = true;
        }
        this[PAUSED] = false;
        this[FLOWING] = true;
        this.emit('resume');
        if (this[BUFFER].length)
            this[FLUSH]();
        else if (this[EOF])
            this[MAYBE_EMIT_END]();
        else
            this.emit('drain');
    }
    /**
     * Resume the stream if it is currently in a paused state
     *
     * If called when there are no pipe destinations or `data` event listeners,
     * this will place the stream in a "discarded" state, where all data will
     * be thrown away. The discarded state is removed if a pipe destination or
     * data handler is added, if pause() is called, or if any synchronous or
     * asynchronous iteration is started.
     */
    resume() {
        return this[RESUME]();
    }
    /**
     * Pause the stream
     */
    pause() {
        this[FLOWING] = false;
        this[PAUSED] = true;
        this[DISCARDED] = false;
    }
    /**
     * true if the stream has been forcibly destroyed
     */
    get destroyed() {
        return this[DESTROYED];
    }
    /**
     * true if the stream is currently in a flowing state, meaning that
     * any writes will be immediately emitted.
     */
    get flowing() {
        return this[FLOWING];
    }
    /**
     * true if the stream is currently in a paused state
     */
    get paused() {
        return this[PAUSED];
    }
    [BUFFERPUSH](chunk) {
        if (this[OBJECTMODE])
            this[BUFFERLENGTH] += 1;
        else
            this[BUFFERLENGTH] += chunk.length;
        this[BUFFER].push(chunk);
    }
    [BUFFERSHIFT]() {
        if (this[OBJECTMODE])
            this[BUFFERLENGTH] -= 1;
        else
            this[BUFFERLENGTH] -= this[BUFFER][0].length;
        return this[BUFFER].shift();
    }
    [FLUSH](noDrain = false) {
        do { } while (this[FLUSHCHUNK](this[BUFFERSHIFT]()) &&
            this[BUFFER].length);
        if (!noDrain && !this[BUFFER].length && !this[EOF])
            this.emit('drain');
    }
    [FLUSHCHUNK](chunk) {
        this.emit('data', chunk);
        return this[FLOWING];
    }
    /**
     * Pipe all data emitted by this stream into the destination provided.
     *
     * Triggers the flow of data.
     */
    pipe(dest, opts) {
        if (this[DESTROYED])
            return dest;
        this[DISCARDED] = false;
        const ended = this[EMITTED_END];
        opts = opts || {};
        if (dest === proc.stdout || dest === proc.stderr)
            opts.end = false;
        else
            opts.end = opts.end !== false;
        opts.proxyErrors = !!opts.proxyErrors;
        // piping an ended stream ends immediately
        if (ended) {
            if (opts.end)
                dest.end();
        }
        else {
            // "as" here just ignores the WType, which pipes don't care about,
            // since they're only consuming from us, and writing to the dest
            this[PIPES].push(!opts.proxyErrors
                ? new Pipe(this, dest, opts)
                : new PipeProxyErrors(this, dest, opts));
            if (this[ASYNC])
                defer(() => this[RESUME]());
            else
                this[RESUME]();
        }
        return dest;
    }
    /**
     * Fully unhook a piped destination stream.
     *
     * If the destination stream was the only consumer of this stream (ie,
     * there are no other piped destinations or `'data'` event listeners)
     * then the flow of data will stop until there is another consumer or
     * {@link Minipass#resume} is explicitly called.
     */
    unpipe(dest) {
        const p = this[PIPES].find(p => p.dest === dest);
        if (p) {
            if (this[PIPES].length === 1) {
                if (this[FLOWING] && this[DATALISTENERS] === 0) {
                    this[FLOWING] = false;
                }
                this[PIPES] = [];
            }
            else
                this[PIPES].splice(this[PIPES].indexOf(p), 1);
            p.unpipe();
        }
    }
    /**
     * Alias for {@link Minipass#on}
     */
    addListener(ev, handler) {
        return this.on(ev, handler);
    }
    /**
     * Mostly identical to `EventEmitter.on`, with the following
     * behavior differences to prevent data loss and unnecessary hangs:
     *
     * - Adding a 'data' event handler will trigger the flow of data
     *
     * - Adding a 'readable' event handler when there is data waiting to be read
     *   will cause 'readable' to be emitted immediately.
     *
     * - Adding an 'endish' event handler ('end', 'finish', etc.) which has
     *   already passed will cause the event to be emitted immediately and all
     *   handlers removed.
     *
     * - Adding an 'error' event handler after an error has been emitted will
     *   cause the event to be re-emitted immediately with the error previously
     *   raised.
     */
    on(ev, handler) {
        const ret = super.on(ev, handler);
        if (ev === 'data') {
            this[DISCARDED] = false;
            this[DATALISTENERS]++;
            if (!this[PIPES].length && !this[FLOWING]) {
                this[RESUME]();
            }
        }
        else if (ev === 'readable' && this[BUFFERLENGTH] !== 0) {
            super.emit('readable');
        }
        else if (isEndish(ev) && this[EMITTED_END]) {
            super.emit(ev);
            this.removeAllListeners(ev);
        }
        else if (ev === 'error' && this[EMITTED_ERROR]) {
            const h = handler;
            if (this[ASYNC])
                defer(() => h.call(this, this[EMITTED_ERROR]));
            else
                h.call(this, this[EMITTED_ERROR]);
        }
        return ret;
    }
    /**
     * Alias for {@link Minipass#off}
     */
    removeListener(ev, handler) {
        return this.off(ev, handler);
    }
    /**
     * Mostly identical to `EventEmitter.off`
     *
     * If a 'data' event handler is removed, and it was the last consumer
     * (ie, there are no pipe destinations or other 'data' event listeners),
     * then the flow of data will stop until there is another consumer or
     * {@link Minipass#resume} is explicitly called.
     */
    off(ev, handler) {
        const ret = super.off(ev, handler);
        // if we previously had listeners, and now we don't, and we don't
        // have any pipes, then stop the flow, unless it's been explicitly
        // put in a discarded flowing state via stream.resume().
        if (ev === 'data') {
            this[DATALISTENERS] = this.listeners('data').length;
            if (this[DATALISTENERS] === 0 &&
                !this[DISCARDED] &&
                !this[PIPES].length) {
                this[FLOWING] = false;
            }
        }
        return ret;
    }
    /**
     * Mostly identical to `EventEmitter.removeAllListeners`
     *
     * If all 'data' event handlers are removed, and they were the last consumer
     * (ie, there are no pipe destinations), then the flow of data will stop
     * until there is another consumer or {@link Minipass#resume} is explicitly
     * called.
     */
    removeAllListeners(ev) {
        const ret = super.removeAllListeners(ev);
        if (ev === 'data' || ev === undefined) {
            this[DATALISTENERS] = 0;
            if (!this[DISCARDED] && !this[PIPES].length) {
                this[FLOWING] = false;
            }
        }
        return ret;
    }
    /**
     * true if the 'end' event has been emitted
     */
    get emittedEnd() {
        return this[EMITTED_END];
    }
    [MAYBE_EMIT_END]() {
        if (!this[EMITTING_END] &&
            !this[EMITTED_END] &&
            !this[DESTROYED] &&
            this[BUFFER].length === 0 &&
            this[EOF]) {
            this[EMITTING_END] = true;
            this.emit('end');
            this.emit('prefinish');
            this.emit('finish');
            if (this[CLOSED])
                this.emit('close');
            this[EMITTING_END] = false;
        }
    }
    /**
     * Mostly identical to `EventEmitter.emit`, with the following
     * behavior differences to prevent data loss and unnecessary hangs:
     *
     * If the stream has been destroyed, and the event is something other
     * than 'close' or 'error', then `false` is returned and no handlers
     * are called.
     *
     * If the event is 'end', and has already been emitted, then the event
     * is ignored. If the stream is in a paused or non-flowing state, then
     * the event will be deferred until data flow resumes. If the stream is
     * async, then handlers will be called on the next tick rather than
     * immediately.
     *
     * If the event is 'close', and 'end' has not yet been emitted, then
     * the event will be deferred until after 'end' is emitted.
     *
     * If the event is 'error', and an AbortSignal was provided for the stream,
     * and there are no listeners, then the event is ignored, matching the
     * behavior of node core streams in the presense of an AbortSignal.
     *
     * If the event is 'finish' or 'prefinish', then all listeners will be
     * removed after emitting the event, to prevent double-firing.
     */
    emit(ev, ...args) {
        const data = args[0];
        // error and close are only events allowed after calling destroy()
        if (ev !== 'error' &&
            ev !== 'close' &&
            ev !== DESTROYED &&
            this[DESTROYED]) {
            return false;
        }
        else if (ev === 'data') {
            return !this[OBJECTMODE] && !data
                ? false
                : this[ASYNC]
                    ? (defer(() => this[EMITDATA](data)), true)
                    : this[EMITDATA](data);
        }
        else if (ev === 'end') {
            return this[EMITEND]();
        }
        else if (ev === 'close') {
            this[CLOSED] = true;
            // don't emit close before 'end' and 'finish'
            if (!this[EMITTED_END] && !this[DESTROYED])
                return false;
            const ret = super.emit('close');
            this.removeAllListeners('close');
            return ret;
        }
        else if (ev === 'error') {
            this[EMITTED_ERROR] = data;
            super.emit(ERROR, data);
            const ret = !this[SIGNAL] || this.listeners('error').length
                ? super.emit('error', data)
                : false;
            this[MAYBE_EMIT_END]();
            return ret;
        }
        else if (ev === 'resume') {
            const ret = super.emit('resume');
            this[MAYBE_EMIT_END]();
            return ret;
        }
        else if (ev === 'finish' || ev === 'prefinish') {
            const ret = super.emit(ev);
            this.removeAllListeners(ev);
            return ret;
        }
        // Some other unknown event
        const ret = super.emit(ev, ...args);
        this[MAYBE_EMIT_END]();
        return ret;
    }
    [EMITDATA](data) {
        for (const p of this[PIPES]) {
            if (p.dest.write(data) === false)
                this.pause();
        }
        const ret = this[DISCARDED] ? false : super.emit('data', data);
        this[MAYBE_EMIT_END]();
        return ret;
    }
    [EMITEND]() {
        if (this[EMITTED_END])
            return false;
        this[EMITTED_END] = true;
        this.readable = false;
        return this[ASYNC]
            ? (defer(() => this[EMITEND2]()), true)
            : this[EMITEND2]();
    }
    [EMITEND2]() {
        if (this[DECODER]) {
            const data = this[DECODER].end();
            if (data) {
                for (const p of this[PIPES]) {
                    p.dest.write(data);
                }
                if (!this[DISCARDED])
                    super.emit('data', data);
            }
        }
        for (const p of this[PIPES]) {
            p.end();
        }
        const ret = super.emit('end');
        this.removeAllListeners('end');
        return ret;
    }
    /**
     * Return a Promise that resolves to an array of all emitted data once
     * the stream ends.
     */
    async collect() {
        const buf = Object.assign([], {
            dataLength: 0,
        });
        if (!this[OBJECTMODE])
            buf.dataLength = 0;
        // set the promise first, in case an error is raised
        // by triggering the flow here.
        const p = this.promise();
        this.on('data', c => {
            buf.push(c);
            if (!this[OBJECTMODE])
                buf.dataLength += c.length;
        });
        await p;
        return buf;
    }
    /**
     * Return a Promise that resolves to the concatenation of all emitted data
     * once the stream ends.
     *
     * Not allowed on objectMode streams.
     */
    async concat() {
        if (this[OBJECTMODE]) {
            throw new Error('cannot concat in objectMode');
        }
        const buf = await this.collect();
        return (this[ENCODING]
            ? buf.join('')
            : Buffer.concat(buf, buf.dataLength));
    }
    /**
     * Return a void Promise that resolves once the stream ends.
     */
    async promise() {
        return new Promise((resolve, reject) => {
            this.on(DESTROYED, () => reject(new Error('stream destroyed')));
            this.on('error', er => reject(er));
            this.on('end', () => resolve());
        });
    }
    /**
     * Asynchronous `for await of` iteration.
     *
     * This will continue emitting all chunks until the stream terminates.
     */
    [Symbol.asyncIterator]() {
        // set this up front, in case the consumer doesn't call next()
        // right away.
        this[DISCARDED] = false;
        let stopped = false;
        const stop = async () => {
            this.pause();
            stopped = true;
            return { value: undefined, done: true };
        };
        const next = () => {
            if (stopped)
                return stop();
            const res = this.read();
            if (res !== null)
                return Promise.resolve({ done: false, value: res });
            if (this[EOF])
                return stop();
            let resolve;
            let reject;
            const onerr = (er) => {
                this.off('data', ondata);
                this.off('end', onend);
                this.off(DESTROYED, ondestroy);
                stop();
                reject(er);
            };
            const ondata = (value) => {
                this.off('error', onerr);
                this.off('end', onend);
                this.off(DESTROYED, ondestroy);
                this.pause();
                resolve({ value, done: !!this[EOF] });
            };
            const onend = () => {
                this.off('error', onerr);
                this.off('data', ondata);
                this.off(DESTROYED, ondestroy);
                stop();
                resolve({ done: true, value: undefined });
            };
            const ondestroy = () => onerr(new Error('stream destroyed'));
            return new Promise((res, rej) => {
                reject = rej;
                resolve = res;
                this.once(DESTROYED, ondestroy);
                this.once('error', onerr);
                this.once('end', onend);
                this.once('data', ondata);
            });
        };
        return {
            next,
            throw: stop,
            return: stop,
            [Symbol.asyncIterator]() {
                return this;
            },
        };
    }
    /**
     * Synchronous `for of` iteration.
     *
     * The iteration will terminate when the internal buffer runs out, even
     * if the stream has not yet terminated.
     */
    [Symbol.iterator]() {
        // set this up front, in case the consumer doesn't call next()
        // right away.
        this[DISCARDED] = false;
        let stopped = false;
        const stop = () => {
            this.pause();
            this.off(ERROR, stop);
            this.off(DESTROYED, stop);
            this.off('end', stop);
            stopped = true;
            return { done: true, value: undefined };
        };
        const next = () => {
            if (stopped)
                return stop();
            const value = this.read();
            return value === null ? stop() : { done: false, value };
        };
        this.once('end', stop);
        this.once(ERROR, stop);
        this.once(DESTROYED, stop);
        return {
            next,
            throw: stop,
            return: stop,
            [Symbol.iterator]() {
                return this;
            },
        };
    }
    /**
     * Destroy a stream, preventing it from being used for any further purpose.
     *
     * If the stream has a `close()` method, then it will be called on
     * destruction.
     *
     * After destruction, any attempt to write data, read data, or emit most
     * events will be ignored.
     *
     * If an error argument is provided, then it will be emitted in an
     * 'error' event.
     */
    destroy(er) {
        if (this[DESTROYED]) {
            if (er)
                this.emit('error', er);
            else
                this.emit(DESTROYED);
            return this;
        }
        this[DESTROYED] = true;
        this[DISCARDED] = true;
        // throw away all buffered data, it's never coming out
        this[BUFFER].length = 0;
        this[BUFFERLENGTH] = 0;
        const wc = this;
        if (typeof wc.close === 'function' && !this[CLOSED])
            wc.close();
        if (er)
            this.emit('error', er);
        // if no error to emit, still reject pending promises
        else
            this.emit(DESTROYED);
        return this;
    }
    /**
     * Alias for {@link isStream}
     *
     * Former export location, maintained for backwards compatibility.
     *
     * @deprecated
     */
    static get isStream() {
        return exports.isStream;
    }
}
exports.Minipass = Minipass;
//# sourceMappingURL=index.js.map

/***/ }),

/***/ 6577:
/***/ (function(__unused_webpack_module, exports, __nccwpck_require__) {


var __createBinding = (this && this.__createBinding) || (Object.create ? (function(o, m, k, k2) {
    if (k2 === undefined) k2 = k;
    var desc = Object.getOwnPropertyDescriptor(m, k);
    if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) {
      desc = { enumerable: true, get: function() { return m[k]; } };
    }
    Object.defineProperty(o, k2, desc);
}) : (function(o, m, k, k2) {
    if (k2 === undefined) k2 = k;
    o[k2] = m[k];
}));
var __setModuleDefault = (this && this.__setModuleDefault) || (Object.create ? (function(o, v) {
    Object.defineProperty(o, "default", { enumerable: true, value: v });
}) : function(o, v) {
    o["default"] = v;
});
var __importStar = (this && this.__importStar) || function (mod) {
    if (mod && mod.__esModule) return mod;
    var result = {};
    if (mod != null) for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k);
    __setModuleDefault(result, mod);
    return result;
};
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.PathScurry = exports.Path = exports.PathScurryDarwin = exports.PathScurryPosix = exports.PathScurryWin32 = exports.PathScurryBase = exports.PathPosix = exports.PathWin32 = exports.PathBase = exports.ChildrenCache = exports.ResolveCache = void 0;
const lru_cache_1 = __nccwpck_require__(2477);
const node_path_1 = __nccwpck_require__(6760);
const node_url_1 = __nccwpck_require__(3136);
const fs_1 = __nccwpck_require__(9896);
const actualFS = __importStar(__nccwpck_require__(3024));
const realpathSync = fs_1.realpathSync.native;
// TODO: test perf of fs/promises realpath vs realpathCB,
// since the promises one uses realpath.native
const promises_1 = __nccwpck_require__(1455);
const minipass_1 = __nccwpck_require__(8275);
const defaultFS = {
    lstatSync: fs_1.lstatSync,
    readdir: fs_1.readdir,
    readdirSync: fs_1.readdirSync,
    readlinkSync: fs_1.readlinkSync,
    realpathSync,
    promises: {
        lstat: promises_1.lstat,
        readdir: promises_1.readdir,
        readlink: promises_1.readlink,
        realpath: promises_1.realpath,
    },
};
// if they just gave us require('fs') then use our default
const fsFromOption = (fsOption) => !fsOption || fsOption === defaultFS || fsOption === actualFS ?
    defaultFS
    : {
        ...defaultFS,
        ...fsOption,
        promises: {
            ...defaultFS.promises,
            ...(fsOption.promises || {}),
        },
    };
// turn something like //?/c:/ into c:\
const uncDriveRegexp = /^\\\\\?\\([a-z]:)\\?$/i;
const uncToDrive = (rootPath) => rootPath.replace(/\//g, '\\').replace(uncDriveRegexp, '$1\\');
// windows paths are separated by either / or \
const eitherSep = /[\\\/]/;
const UNKNOWN = 0; // may not even exist, for all we know
const IFIFO = 0b0001;
const IFCHR = 0b0010;
const IFDIR = 0b0100;
const IFBLK = 0b0110;
const IFREG = 0b1000;
const IFLNK = 0b1010;
const IFSOCK = 0b1100;
const IFMT = 0b1111;
// mask to unset low 4 bits
const IFMT_UNKNOWN = ~IFMT;
// set after successfully calling readdir() and getting entries.
const READDIR_CALLED = 0b0000_0001_0000;
// set after a successful lstat()
const LSTAT_CALLED = 0b0000_0010_0000;
// set if an entry (or one of its parents) is definitely not a dir
const ENOTDIR = 0b0000_0100_0000;
// set if an entry (or one of its parents) does not exist
// (can also be set on lstat errors like EACCES or ENAMETOOLONG)
const ENOENT = 0b0000_1000_0000;
// cannot have child entries -- also verify &IFMT is either IFDIR or IFLNK
// set if we fail to readlink
const ENOREADLINK = 0b0001_0000_0000;
// set if we know realpath() will fail
const ENOREALPATH = 0b0010_0000_0000;
const ENOCHILD = ENOTDIR | ENOENT | ENOREALPATH;
const TYPEMASK = 0b0011_1111_1111;
const entToType = (s) => s.isFile() ? IFREG
    : s.isDirectory() ? IFDIR
        : s.isSymbolicLink() ? IFLNK
            : s.isCharacterDevice() ? IFCHR
                : s.isBlockDevice() ? IFBLK
                    : s.isSocket() ? IFSOCK
                        : s.isFIFO() ? IFIFO
                            : UNKNOWN;
// normalize unicode path names
const normalizeCache = new Map();
const normalize = (s) => {
    const c = normalizeCache.get(s);
    if (c)
        return c;
    const n = s.normalize('NFKD');
    normalizeCache.set(s, n);
    return n;
};
const normalizeNocaseCache = new Map();
const normalizeNocase = (s) => {
    const c = normalizeNocaseCache.get(s);
    if (c)
        return c;
    const n = normalize(s.toLowerCase());
    normalizeNocaseCache.set(s, n);
    return n;
};
/**
 * An LRUCache for storing resolved path strings or Path objects.
 * @internal
 */
class ResolveCache extends lru_cache_1.LRUCache {
    constructor() {
        super({ max: 256 });
    }
}
exports.ResolveCache = ResolveCache;
// In order to prevent blowing out the js heap by allocating hundreds of
// thousands of Path entries when walking extremely large trees, the "children"
// in this tree are represented by storing an array of Path entries in an
// LRUCache, indexed by the parent.  At any time, Path.children() may return an
// empty array, indicating that it doesn't know about any of its children, and
// thus has to rebuild that cache.  This is fine, it just means that we don't
// benefit as much from having the cached entries, but huge directory walks
// don't blow out the stack, and smaller ones are still as fast as possible.
//
//It does impose some complexity when building up the readdir data, because we
//need to pass a reference to the children array that we started with.
/**
 * an LRUCache for storing child entries.
 * @internal
 */
class ChildrenCache extends lru_cache_1.LRUCache {
    constructor(maxSize = 16 * 1024) {
        super({
            maxSize,
            // parent + children
            sizeCalculation: a => a.length + 1,
        });
    }
}
exports.ChildrenCache = ChildrenCache;
const setAsCwd = Symbol('PathScurry setAsCwd');
/**
 * Path objects are sort of like a super-powered
 * {@link https://nodejs.org/docs/latest/api/fs.html#class-fsdirent fs.Dirent}
 *
 * Each one represents a single filesystem entry on disk, which may or may not
 * exist. It includes methods for reading various types of information via
 * lstat, readlink, and readdir, and caches all information to the greatest
 * degree possible.
 *
 * Note that fs operations that would normally throw will instead return an
 * "empty" value. This is in order to prevent excessive overhead from error
 * stack traces.
 */
class PathBase {
    /**
     * the basename of this path
     *
     * **Important**: *always* test the path name against any test string
     * usingthe {@link isNamed} method, and not by directly comparing this
     * string. Otherwise, unicode path strings that the system sees as identical
     * will not be properly treated as the same path, leading to incorrect
     * behavior and possible security issues.
     */
    name;
    /**
     * the Path entry corresponding to the path root.
     *
     * @internal
     */
    root;
    /**
     * All roots found within the current PathScurry family
     *
     * @internal
     */
    roots;
    /**
     * a reference to the parent path, or undefined in the case of root entries
     *
     * @internal
     */
    parent;
    /**
     * boolean indicating whether paths are compared case-insensitively
     * @internal
     */
    nocase;
    /**
     * boolean indicating that this path is the current working directory
     * of the PathScurry collection that contains it.
     */
    isCWD = false;
    // potential default fs override
    #fs;
    // Stats fields
    #dev;
    get dev() {
        return this.#dev;
    }
    #mode;
    get mode() {
        return this.#mode;
    }
    #nlink;
    get nlink() {
        return this.#nlink;
    }
    #uid;
    get uid() {
        return this.#uid;
    }
    #gid;
    get gid() {
        return this.#gid;
    }
    #rdev;
    get rdev() {
        return this.#rdev;
    }
    #blksize;
    get blksize() {
        return this.#blksize;
    }
    #ino;
    get ino() {
        return this.#ino;
    }
    #size;
    get size() {
        return this.#size;
    }
    #blocks;
    get blocks() {
        return this.#blocks;
    }
    #atimeMs;
    get atimeMs() {
        return this.#atimeMs;
    }
    #mtimeMs;
    get mtimeMs() {
        return this.#mtimeMs;
    }
    #ctimeMs;
    get ctimeMs() {
        return this.#ctimeMs;
    }
    #birthtimeMs;
    get birthtimeMs() {
        return this.#birthtimeMs;
    }
    #atime;
    get atime() {
        return this.#atime;
    }
    #mtime;
    get mtime() {
        return this.#mtime;
    }
    #ctime;
    get ctime() {
        return this.#ctime;
    }
    #birthtime;
    get birthtime() {
        return this.#birthtime;
    }
    #matchName;
    #depth;
    #fullpath;
    #fullpathPosix;
    #relative;
    #relativePosix;
    #type;
    #children;
    #linkTarget;
    #realpath;
    /**
     * This property is for compatibility with the Dirent class as of
     * Node v20, where Dirent['parentPath'] refers to the path of the
     * directory that was passed to readdir. For root entries, it's the path
     * to the entry itself.
     */
    get parentPath() {
        return (this.parent || this).fullpath();
    }
    /**
     * Deprecated alias for Dirent['parentPath'] Somewhat counterintuitively,
     * this property refers to the *parent* path, not the path object itself.
     *
     * @deprecated
     */
    get path() {
        return this.parentPath;
    }
    /**
     * Do not create new Path objects directly.  They should always be accessed
     * via the PathScurry class or other methods on the Path class.
     *
     * @internal
     */
    constructor(name, type = UNKNOWN, root, roots, nocase, children, opts) {
        this.name = name;
        this.#matchName = nocase ? normalizeNocase(name) : normalize(name);
        this.#type = type & TYPEMASK;
        this.nocase = nocase;
        this.roots = roots;
        this.root = root || this;
        this.#children = children;
        this.#fullpath = opts.fullpath;
        this.#relative = opts.relative;
        this.#relativePosix = opts.relativePosix;
        this.parent = opts.parent;
        if (this.parent) {
            this.#fs = this.parent.#fs;
        }
        else {
            this.#fs = fsFromOption(opts.fs);
        }
    }
    /**
     * Returns the depth of the Path object from its root.
     *
     * For example, a path at `/foo/bar` would have a depth of 2.
     */
    depth() {
        if (this.#depth !== undefined)
            return this.#depth;
        if (!this.parent)
            return (this.#depth = 0);
        return (this.#depth = this.parent.depth() + 1);
    }
    /**
     * @internal
     */
    childrenCache() {
        return this.#children;
    }
    /**
     * Get the Path object referenced by the string path, resolved from this Path
     */
    resolve(path) {
        if (!path) {
            return this;
        }
        const rootPath = this.getRootString(path);
        const dir = path.substring(rootPath.length);
        const dirParts = dir.split(this.splitSep);
        const result = rootPath ?
            this.getRoot(rootPath).#resolveParts(dirParts)
            : this.#resolveParts(dirParts);
        return result;
    }
    #resolveParts(dirParts) {
        let p = this;
        for (const part of dirParts) {
            p = p.child(part);
        }
        return p;
    }
    /**
     * Returns the cached children Path objects, if still available.  If they
     * have fallen out of the cache, then returns an empty array, and resets the
     * READDIR_CALLED bit, so that future calls to readdir() will require an fs
     * lookup.
     *
     * @internal
     */
    children() {
        const cached = this.#children.get(this);
        if (cached) {
            return cached;
        }
        const children = Object.assign([], { provisional: 0 });
        this.#children.set(this, children);
        this.#type &= ~READDIR_CALLED;
        return children;
    }
    /**
     * Resolves a path portion and returns or creates the child Path.
     *
     * Returns `this` if pathPart is `''` or `'.'`, or `parent` if pathPart is
     * `'..'`.
     *
     * This should not be called directly.  If `pathPart` contains any path
     * separators, it will lead to unsafe undefined behavior.
     *
     * Use `Path.resolve()` instead.
     *
     * @internal
     */
    child(pathPart, opts) {
        if (pathPart === '' || pathPart === '.') {
            return this;
        }
        if (pathPart === '..') {
            return this.parent || this;
        }
        // find the child
        const children = this.children();
        const name = this.nocase ? normalizeNocase(pathPart) : normalize(pathPart);
        for (const p of children) {
            if (p.#matchName === name) {
                return p;
            }
        }
        // didn't find it, create provisional child, since it might not
        // actually exist.  If we know the parent isn't a dir, then
        // in fact it CAN'T exist.
        const s = this.parent ? this.sep : '';
        const fullpath = this.#fullpath ? this.#fullpath + s + pathPart : undefined;
        const pchild = this.newChild(pathPart, UNKNOWN, {
            ...opts,
            parent: this,
            fullpath,
        });
        if (!this.canReaddir()) {
            pchild.#type |= ENOENT;
        }
        // don't have to update provisional, because if we have real children,
        // then provisional is set to children.length, otherwise a lower number
        children.push(pchild);
        return pchild;
    }
    /**
     * The relative path from the cwd. If it does not share an ancestor with
     * the cwd, then this ends up being equivalent to the fullpath()
     */
    relative() {
        if (this.isCWD)
            return '';
        if (this.#relative !== undefined) {
            return this.#relative;
        }
        const name = this.name;
        const p = this.parent;
        if (!p) {
            return (this.#relative = this.name);
        }
        const pv = p.relative();
        return pv + (!pv || !p.parent ? '' : this.sep) + name;
    }
    /**
     * The relative path from the cwd, using / as the path separator.
     * If it does not share an ancestor with
     * the cwd, then this ends up being equivalent to the fullpathPosix()
     * On posix systems, this is identical to relative().
     */
    relativePosix() {
        if (this.sep === '/')
            return this.relative();
        if (this.isCWD)
            return '';
        if (this.#relativePosix !== undefined)
            return this.#relativePosix;
        const name = this.name;
        const p = this.parent;
        if (!p) {
            return (this.#relativePosix = this.fullpathPosix());
        }
        const pv = p.relativePosix();
        return pv + (!pv || !p.parent ? '' : '/') + name;
    }
    /**
     * The fully resolved path string for this Path entry
     */
    fullpath() {
        if (this.#fullpath !== undefined) {
            return this.#fullpath;
        }
        const name = this.name;
        const p = this.parent;
        if (!p) {
            return (this.#fullpath = this.name);
        }
        const pv = p.fullpath();
        const fp = pv + (!p.parent ? '' : this.sep) + name;
        return (this.#fullpath = fp);
    }
    /**
     * On platforms other than windows, this is identical to fullpath.
     *
     * On windows, this is overridden to return the forward-slash form of the
     * full UNC path.
     */
    fullpathPosix() {
        if (this.#fullpathPosix !== undefined)
            return this.#fullpathPosix;
        if (this.sep === '/')
            return (this.#fullpathPosix = this.fullpath());
        if (!this.parent) {
            const p = this.fullpath().replace(/\\/g, '/');
            if (/^[a-z]:\//i.test(p)) {
                return (this.#fullpathPosix = `//?/${p}`);
            }
            else {
                return (this.#fullpathPosix = p);
            }
        }
        const p = this.parent;
        const pfpp = p.fullpathPosix();
        const fpp = pfpp + (!pfpp || !p.parent ? '' : '/') + this.name;
        return (this.#fullpathPosix = fpp);
    }
    /**
     * Is the Path of an unknown type?
     *
     * Note that we might know *something* about it if there has been a previous
     * filesystem operation, for example that it does not exist, or is not a
     * link, or whether it has child entries.
     */
    isUnknown() {
        return (this.#type & IFMT) === UNKNOWN;
    }
    isType(type) {
        return this[`is${type}`]();
    }
    getType() {
        return (this.isUnknown() ? 'Unknown'
            : this.isDirectory() ? 'Directory'
                : this.isFile() ? 'File'
                    : this.isSymbolicLink() ? 'SymbolicLink'
                        : this.isFIFO() ? 'FIFO'
                            : this.isCharacterDevice() ? 'CharacterDevice'
                                : this.isBlockDevice() ? 'BlockDevice'
                                    : /* c8 ignore start */ this.isSocket() ? 'Socket'
                                        : 'Unknown');
        /* c8 ignore stop */
    }
    /**
     * Is the Path a regular file?
     */
    isFile() {
        return (this.#type & IFMT) === IFREG;
    }
    /**
     * Is the Path a directory?
     */
    isDirectory() {
        return (this.#type & IFMT) === IFDIR;
    }
    /**
     * Is the path a character device?
     */
    isCharacterDevice() {
        return (this.#type & IFMT) === IFCHR;
    }
    /**
     * Is the path a block device?
     */
    isBlockDevice() {
        return (this.#type & IFMT) === IFBLK;
    }
    /**
     * Is the path a FIFO pipe?
     */
    isFIFO() {
        return (this.#type & IFMT) === IFIFO;
    }
    /**
     * Is the path a socket?
     */
    isSocket() {
        return (this.#type & IFMT) === IFSOCK;
    }
    /**
     * Is the path a symbolic link?
     */
    isSymbolicLink() {
        return (this.#type & IFLNK) === IFLNK;
    }
    /**
     * Return the entry if it has been subject of a successful lstat, or
     * undefined otherwise.
     *
     * Does not read the filesystem, so an undefined result *could* simply
     * mean that we haven't called lstat on it.
     */
    lstatCached() {
        return this.#type & LSTAT_CALLED ? this : undefined;
    }
    /**
     * Return the cached link target if the entry has been the subject of a
     * successful readlink, or undefined otherwise.
     *
     * Does not read the filesystem, so an undefined result *could* just mean we
     * don't have any cached data. Only use it if you are very sure that a
     * readlink() has been called at some point.
     */
    readlinkCached() {
        return this.#linkTarget;
    }
    /**
     * Returns the cached realpath target if the entry has been the subject
     * of a successful realpath, or undefined otherwise.
     *
     * Does not read the filesystem, so an undefined result *could* just mean we
     * don't have any cached data. Only use it if you are very sure that a
     * realpath() has been called at some point.
     */
    realpathCached() {
        return this.#realpath;
    }
    /**
     * Returns the cached child Path entries array if the entry has been the
     * subject of a successful readdir(), or [] otherwise.
     *
     * Does not read the filesystem, so an empty array *could* just mean we
     * don't have any cached data. Only use it if you are very sure that a
     * readdir() has been called recently enough to still be valid.
     */
    readdirCached() {
        const children = this.children();
        return children.slice(0, children.provisional);
    }
    /**
     * Return true if it's worth trying to readlink.  Ie, we don't (yet) have
     * any indication that readlink will definitely fail.
     *
     * Returns false if the path is known to not be a symlink, if a previous
     * readlink failed, or if the entry does not exist.
     */
    canReadlink() {
        if (this.#linkTarget)
            return true;
        if (!this.parent)
            return false;
        // cases where it cannot possibly succeed
        const ifmt = this.#type & IFMT;
        return !((ifmt !== UNKNOWN && ifmt !== IFLNK) ||
            this.#type & ENOREADLINK ||
            this.#type & ENOENT);
    }
    /**
     * Return true if readdir has previously been successfully called on this
     * path, indicating that cachedReaddir() is likely valid.
     */
    calledReaddir() {
        return !!(this.#type & READDIR_CALLED);
    }
    /**
     * Returns true if the path is known to not exist. That is, a previous lstat
     * or readdir failed to verify its existence when that would have been
     * expected, or a parent entry was marked either enoent or enotdir.
     */
    isENOENT() {
        return !!(this.#type & ENOENT);
    }
    /**
     * Return true if the path is a match for the given path name.  This handles
     * case sensitivity and unicode normalization.
     *
     * Note: even on case-sensitive systems, it is **not** safe to test the
     * equality of the `.name` property to determine whether a given pathname
     * matches, due to unicode normalization mismatches.
     *
     * Always use this method instead of testing the `path.name` property
     * directly.
     */
    isNamed(n) {
        return !this.nocase ?
            this.#matchName === normalize(n)
            : this.#matchName === normalizeNocase(n);
    }
    /**
     * Return the Path object corresponding to the target of a symbolic link.
     *
     * If the Path is not a symbolic link, or if the readlink call fails for any
     * reason, `undefined` is returned.
     *
     * Result is cached, and thus may be outdated if the filesystem is mutated.
     */
    async readlink() {
        const target = this.#linkTarget;
        if (target) {
            return target;
        }
        if (!this.canReadlink()) {
            return undefined;
        }
        /* c8 ignore start */
        // already covered by the canReadlink test, here for ts grumples
        if (!this.parent) {
            return undefined;
        }
        /* c8 ignore stop */
        try {
            const read = await this.#fs.promises.readlink(this.fullpath());
            const linkTarget = (await this.parent.realpath())?.resolve(read);
            if (linkTarget) {
                return (this.#linkTarget = linkTarget);
            }
        }
        catch (er) {
            this.#readlinkFail(er.code);
            return undefined;
        }
    }
    /**
     * Synchronous {@link PathBase.readlink}
     */
    readlinkSync() {
        const target = this.#linkTarget;
        if (target) {
            return target;
        }
        if (!this.canReadlink()) {
            return undefined;
        }
        /* c8 ignore start */
        // already covered by the canReadlink test, here for ts grumples
        if (!this.parent) {
            return undefined;
        }
        /* c8 ignore stop */
        try {
            const read = this.#fs.readlinkSync(this.fullpath());
            const linkTarget = this.parent.realpathSync()?.resolve(read);
            if (linkTarget) {
                return (this.#linkTarget = linkTarget);
            }
        }
        catch (er) {
            this.#readlinkFail(er.code);
            return undefined;
        }
    }
    #readdirSuccess(children) {
        // succeeded, mark readdir called bit
        this.#type |= READDIR_CALLED;
        // mark all remaining provisional children as ENOENT
        for (let p = children.provisional; p < children.length; p++) {
            const c = children[p];
            if (c)
                c.#markENOENT();
        }
    }
    #markENOENT() {
        // mark as UNKNOWN and ENOENT
        if (this.#type & ENOENT)
            return;
        this.#type = (this.#type | ENOENT) & IFMT_UNKNOWN;
        this.#markChildrenENOENT();
    }
    #markChildrenENOENT() {
        // all children are provisional and do not exist
        const children = this.children();
        children.provisional = 0;
        for (const p of children) {
            p.#markENOENT();
        }
    }
    #markENOREALPATH() {
        this.#type |= ENOREALPATH;
        this.#markENOTDIR();
    }
    // save the information when we know the entry is not a dir
    #markENOTDIR() {
        // entry is not a directory, so any children can't exist.
        // this *should* be impossible, since any children created
        // after it's been marked ENOTDIR should be marked ENOENT,
        // so it won't even get to this point.
        /* c8 ignore start */
        if (this.#type & ENOTDIR)
            return;
        /* c8 ignore stop */
        let t = this.#type;
        // this could happen if we stat a dir, then delete it,
        // then try to read it or one of its children.
        if ((t & IFMT) === IFDIR)
            t &= IFMT_UNKNOWN;
        this.#type = t | ENOTDIR;
        this.#markChildrenENOENT();
    }
    #readdirFail(code = '') {
        // markENOTDIR and markENOENT also set provisional=0
        if (code === 'ENOTDIR' || code === 'EPERM') {
            this.#markENOTDIR();
        }
        else if (code === 'ENOENT') {
            this.#markENOENT();
        }
        else {
            this.children().provisional = 0;
        }
    }
    #lstatFail(code = '') {
        // Windows just raises ENOENT in this case, disable for win CI
        /* c8 ignore start */
        if (code === 'ENOTDIR') {
            // already know it has a parent by this point
            const p = this.parent;
            p.#markENOTDIR();
        }
        else if (code === 'ENOENT') {
            /* c8 ignore stop */
            this.#markENOENT();
        }
    }
    #readlinkFail(code = '') {
        let ter = this.#type;
        ter |= ENOREADLINK;
        if (code === 'ENOENT')
            ter |= ENOENT;
        // windows gets a weird error when you try to readlink a file
        if (code === 'EINVAL' || code === 'UNKNOWN') {
            // exists, but not a symlink, we don't know WHAT it is, so remove
            // all IFMT bits.
            ter &= IFMT_UNKNOWN;
        }
        this.#type = ter;
        // windows just gets ENOENT in this case.  We do cover the case,
        // just disabled because it's impossible on Windows CI
        /* c8 ignore start */
        if (code === 'ENOTDIR' && this.parent) {
            this.parent.#markENOTDIR();
        }
        /* c8 ignore stop */
    }
    #readdirAddChild(e, c) {
        return (this.#readdirMaybePromoteChild(e, c) ||
            this.#readdirAddNewChild(e, c));
    }
    #readdirAddNewChild(e, c) {
        // alloc new entry at head, so it's never provisional
        const type = entToType(e);
        const child = this.newChild(e.name, type, { parent: this });
        const ifmt = child.#type & IFMT;
        if (ifmt !== IFDIR && ifmt !== IFLNK && ifmt !== UNKNOWN) {
            child.#type |= ENOTDIR;
        }
        c.unshift(child);
        c.provisional++;
        return child;
    }
    #readdirMaybePromoteChild(e, c) {
        for (let p = c.provisional; p < c.length; p++) {
            const pchild = c[p];
            const name = this.nocase ? normalizeNocase(e.name) : normalize(e.name);
            if (name !== pchild.#matchName) {
                continue;
            }
            return this.#readdirPromoteChild(e, pchild, p, c);
        }
    }
    #readdirPromoteChild(e, p, index, c) {
        const v = p.name;
        // retain any other flags, but set ifmt from dirent
        p.#type = (p.#type & IFMT_UNKNOWN) | entToType(e);
        // case sensitivity fixing when we learn the true name.
        if (v !== e.name)
            p.name = e.name;
        // just advance provisional index (potentially off the list),
        // otherwise we have to splice/pop it out and re-insert at head
        if (index !== c.provisional) {
            if (index === c.length - 1)
                c.pop();
            else
                c.splice(index, 1);
            c.unshift(p);
        }
        c.provisional++;
        return p;
    }
    /**
     * Call lstat() on this Path, and update all known information that can be
     * determined.
     *
     * Note that unlike `fs.lstat()`, the returned value does not contain some
     * information, such as `mode`, `dev`, `nlink`, and `ino`.  If that
     * information is required, you will need to call `fs.lstat` yourself.
     *
     * If the Path refers to a nonexistent file, or if the lstat call fails for
     * any reason, `undefined` is returned.  Otherwise the updated Path object is
     * returned.
     *
     * Results are cached, and thus may be out of date if the filesystem is
     * mutated.
     */
    async lstat() {
        if ((this.#type & ENOENT) === 0) {
            try {
                this.#applyStat(await this.#fs.promises.lstat(this.fullpath()));
                return this;
            }
            catch (er) {
                this.#lstatFail(er.code);
            }
        }
    }
    /**
     * synchronous {@link PathBase.lstat}
     */
    lstatSync() {
        if ((this.#type & ENOENT) === 0) {
            try {
                this.#applyStat(this.#fs.lstatSync(this.fullpath()));
                return this;
            }
            catch (er) {
                this.#lstatFail(er.code);
            }
        }
    }
    #applyStat(st) {
        const { atime, atimeMs, birthtime, birthtimeMs, blksize, blocks, ctime, ctimeMs, dev, gid, ino, mode, mtime, mtimeMs, nlink, rdev, size, uid, } = st;
        this.#atime = atime;
        this.#atimeMs = atimeMs;
        this.#birthtime = birthtime;
        this.#birthtimeMs = birthtimeMs;
        this.#blksize = blksize;
        this.#blocks = blocks;
        this.#ctime = ctime;
        this.#ctimeMs = ctimeMs;
        this.#dev = dev;
        this.#gid = gid;
        this.#ino = ino;
        this.#mode = mode;
        this.#mtime = mtime;
        this.#mtimeMs = mtimeMs;
        this.#nlink = nlink;
        this.#rdev = rdev;
        this.#size = size;
        this.#uid = uid;
        const ifmt = entToType(st);
        // retain any other flags, but set the ifmt
        this.#type = (this.#type & IFMT_UNKNOWN) | ifmt | LSTAT_CALLED;
        if (ifmt !== UNKNOWN && ifmt !== IFDIR && ifmt !== IFLNK) {
            this.#type |= ENOTDIR;
        }
    }
    #onReaddirCB = [];
    #readdirCBInFlight = false;
    #callOnReaddirCB(children) {
        this.#readdirCBInFlight = false;
        const cbs = this.#onReaddirCB.slice();
        this.#onReaddirCB.length = 0;
        cbs.forEach(cb => cb(null, children));
    }
    /**
     * Standard node-style callback interface to get list of directory entries.
     *
     * If the Path cannot or does not contain any children, then an empty array
     * is returned.
     *
     * Results are cached, and thus may be out of date if the filesystem is
     * mutated.
     *
     * @param cb The callback called with (er, entries).  Note that the `er`
     * param is somewhat extraneous, as all readdir() errors are handled and
     * simply result in an empty set of entries being returned.
     * @param allowZalgo Boolean indicating that immediately known results should
     * *not* be deferred with `queueMicrotask`. Defaults to `false`. Release
     * zalgo at your peril, the dark pony lord is devious and unforgiving.
     */
    readdirCB(cb, allowZalgo = false) {
        if (!this.canReaddir()) {
            if (allowZalgo)
                cb(null, []);
            else
                queueMicrotask(() => cb(null, []));
            return;
        }
        const children = this.children();
        if (this.calledReaddir()) {
            const c = children.slice(0, children.provisional);
            if (allowZalgo)
                cb(null, c);
            else
                queueMicrotask(() => cb(null, c));
            return;
        }
        // don't have to worry about zalgo at this point.
        this.#onReaddirCB.push(cb);
        if (this.#readdirCBInFlight) {
            return;
        }
        this.#readdirCBInFlight = true;
        // else read the directory, fill up children
        // de-provisionalize any provisional children.
        const fullpath = this.fullpath();
        this.#fs.readdir(fullpath, { withFileTypes: true }, (er, entries) => {
            if (er) {
                this.#readdirFail(er.code);
                children.provisional = 0;
            }
            else {
                // if we didn't get an error, we always get entries.
                //@ts-ignore
                for (const e of entries) {
                    this.#readdirAddChild(e, children);
                }
                this.#readdirSuccess(children);
            }
            this.#callOnReaddirCB(children.slice(0, children.provisional));
            return;
        });
    }
    #asyncReaddirInFlight;
    /**
     * Return an array of known child entries.
     *
     * If the Path cannot or does not contain any children, then an empty array
     * is returned.
     *
     * Results are cached, and thus may be out of date if the filesystem is
     * mutated.
     */
    async readdir() {
        if (!this.canReaddir()) {
            return [];
        }
        const children = this.children();
        if (this.calledReaddir()) {
            return children.slice(0, children.provisional);
        }
        // else read the directory, fill up children
        // de-provisionalize any provisional children.
        const fullpath = this.fullpath();
        if (this.#asyncReaddirInFlight) {
            await this.#asyncReaddirInFlight;
        }
        else {
            /* c8 ignore start */
            let resolve = () => { };
            /* c8 ignore stop */
            this.#asyncReaddirInFlight = new Promise(res => (resolve = res));
            try {
                for (const e of await this.#fs.promises.readdir(fullpath, {
                    withFileTypes: true,
                })) {
                    this.#readdirAddChild(e, children);
                }
                this.#readdirSuccess(children);
            }
            catch (er) {
                this.#readdirFail(er.code);
                children.provisional = 0;
            }
            this.#asyncReaddirInFlight = undefined;
            resolve();
        }
        return children.slice(0, children.provisional);
    }
    /**
     * synchronous {@link PathBase.readdir}
     */
    readdirSync() {
        if (!this.canReaddir()) {
            return [];
        }
        const children = this.children();
        if (this.calledReaddir()) {
            return children.slice(0, children.provisional);
        }
        // else read the directory, fill up children
        // de-provisionalize any provisional children.
        const fullpath = this.fullpath();
        try {
            for (const e of this.#fs.readdirSync(fullpath, {
                withFileTypes: true,
            })) {
                this.#readdirAddChild(e, children);
            }
            this.#readdirSuccess(children);
        }
        catch (er) {
            this.#readdirFail(er.code);
            children.provisional = 0;
        }
        return children.slice(0, children.provisional);
    }
    canReaddir() {
        if (this.#type & ENOCHILD)
            return false;
        const ifmt = IFMT & this.#type;
        // we always set ENOTDIR when setting IFMT, so should be impossible
        /* c8 ignore start */
        if (!(ifmt === UNKNOWN || ifmt === IFDIR || ifmt === IFLNK)) {
            return false;
        }
        /* c8 ignore stop */
        return true;
    }
    shouldWalk(dirs, walkFilter) {
        return ((this.#type & IFDIR) === IFDIR &&
            !(this.#type & ENOCHILD) &&
            !dirs.has(this) &&
            (!walkFilter || walkFilter(this)));
    }
    /**
     * Return the Path object corresponding to path as resolved
     * by realpath(3).
     *
     * If the realpath call fails for any reason, `undefined` is returned.
     *
     * Result is cached, and thus may be outdated if the filesystem is mutated.
     * On success, returns a Path object.
     */
    async realpath() {
        if (this.#realpath)
            return this.#realpath;
        if ((ENOREALPATH | ENOREADLINK | ENOENT) & this.#type)
            return undefined;
        try {
            const rp = await this.#fs.promises.realpath(this.fullpath());
            return (this.#realpath = this.resolve(rp));
        }
        catch (_) {
            this.#markENOREALPATH();
        }
    }
    /**
     * Synchronous {@link realpath}
     */
    realpathSync() {
        if (this.#realpath)
            return this.#realpath;
        if ((ENOREALPATH | ENOREADLINK | ENOENT) & this.#type)
            return undefined;
        try {
            const rp = this.#fs.realpathSync(this.fullpath());
            return (this.#realpath = this.resolve(rp));
        }
        catch (_) {
            this.#markENOREALPATH();
        }
    }
    /**
     * Internal method to mark this Path object as the scurry cwd,
     * called by {@link PathScurry#chdir}
     *
     * @internal
     */
    [setAsCwd](oldCwd) {
        if (oldCwd === this)
            return;
        oldCwd.isCWD = false;
        this.isCWD = true;
        const changed = new Set([]);
        let rp = [];
        let p = this;
        while (p && p.parent) {
            changed.add(p);
            p.#relative = rp.join(this.sep);
            p.#relativePosix = rp.join('/');
            p = p.parent;
            rp.push('..');
        }
        // now un-memoize parents of old cwd
        p = oldCwd;
        while (p && p.parent && !changed.has(p)) {
            p.#relative = undefined;
            p.#relativePosix = undefined;
            p = p.parent;
        }
    }
}
exports.PathBase = PathBase;
/**
 * Path class used on win32 systems
 *
 * Uses `'\\'` as the path separator for returned paths, either `'\\'` or `'/'`
 * as the path separator for parsing paths.
 */
class PathWin32 extends PathBase {
    /**
     * Separator for generating path strings.
     */
    sep = '\\';
    /**
     * Separator for parsing path strings.
     */
    splitSep = eitherSep;
    /**
     * Do not create new Path objects directly.  They should always be accessed
     * via the PathScurry class or other methods on the Path class.
     *
     * @internal
     */
    constructor(name, type = UNKNOWN, root, roots, nocase, children, opts) {
        super(name, type, root, roots, nocase, children, opts);
    }
    /**
     * @internal
     */
    newChild(name, type = UNKNOWN, opts = {}) {
        return new PathWin32(name, type, this.root, this.roots, this.nocase, this.childrenCache(), opts);
    }
    /**
     * @internal
     */
    getRootString(path) {
        return node_path_1.win32.parse(path).root;
    }
    /**
     * @internal
     */
    getRoot(rootPath) {
        rootPath = uncToDrive(rootPath.toUpperCase());
        if (rootPath === this.root.name) {
            return this.root;
        }
        // ok, not that one, check if it matches another we know about
        for (const [compare, root] of Object.entries(this.roots)) {
            if (this.sameRoot(rootPath, compare)) {
                return (this.roots[rootPath] = root);
            }
        }
        // otherwise, have to create a new one.
        return (this.roots[rootPath] = new PathScurryWin32(rootPath, this).root);
    }
    /**
     * @internal
     */
    sameRoot(rootPath, compare = this.root.name) {
        // windows can (rarely) have case-sensitive filesystem, but
        // UNC and drive letters are always case-insensitive, and canonically
        // represented uppercase.
        rootPath = rootPath
            .toUpperCase()
            .replace(/\//g, '\\')
            .replace(uncDriveRegexp, '$1\\');
        return rootPath === compare;
    }
}
exports.PathWin32 = PathWin32;
/**
 * Path class used on all posix systems.
 *
 * Uses `'/'` as the path separator.
 */
class PathPosix extends PathBase {
    /**
     * separator for parsing path strings
     */
    splitSep = '/';
    /**
     * separator for generating path strings
     */
    sep = '/';
    /**
     * Do not create new Path objects directly.  They should always be accessed
     * via the PathScurry class or other methods on the Path class.
     *
     * @internal
     */
    constructor(name, type = UNKNOWN, root, roots, nocase, children, opts) {
        super(name, type, root, roots, nocase, children, opts);
    }
    /**
     * @internal
     */
    getRootString(path) {
        return path.startsWith('/') ? '/' : '';
    }
    /**
     * @internal
     */
    getRoot(_rootPath) {
        return this.root;
    }
    /**
     * @internal
     */
    newChild(name, type = UNKNOWN, opts = {}) {
        return new PathPosix(name, type, this.root, this.roots, this.nocase, this.childrenCache(), opts);
    }
}
exports.PathPosix = PathPosix;
/**
 * The base class for all PathScurry classes, providing the interface for path
 * resolution and filesystem operations.
 *
 * Typically, you should *not* instantiate this class directly, but rather one
 * of the platform-specific classes, or the exported {@link PathScurry} which
 * defaults to the current platform.
 */
class PathScurryBase {
    /**
     * The root Path entry for the current working directory of this Scurry
     */
    root;
    /**
     * The string path for the root of this Scurry's current working directory
     */
    rootPath;
    /**
     * A collection of all roots encountered, referenced by rootPath
     */
    roots;
    /**
     * The Path entry corresponding to this PathScurry's current working directory.
     */
    cwd;
    #resolveCache;
    #resolvePosixCache;
    #children;
    /**
     * Perform path comparisons case-insensitively.
     *
     * Defaults true on Darwin and Windows systems, false elsewhere.
     */
    nocase;
    #fs;
    /**
     * This class should not be instantiated directly.
     *
     * Use PathScurryWin32, PathScurryDarwin, PathScurryPosix, or PathScurry
     *
     * @internal
     */
    constructor(cwd = process.cwd(), pathImpl, sep, { nocase, childrenCacheSize = 16 * 1024, fs = defaultFS, } = {}) {
        this.#fs = fsFromOption(fs);
        if (cwd instanceof URL || cwd.startsWith('file://')) {
            cwd = (0, node_url_1.fileURLToPath)(cwd);
        }
        // resolve and split root, and then add to the store.
        // this is the only time we call path.resolve()
        const cwdPath = pathImpl.resolve(cwd);
        this.roots = Object.create(null);
        this.rootPath = this.parseRootPath(cwdPath);
        this.#resolveCache = new ResolveCache();
        this.#resolvePosixCache = new ResolveCache();
        this.#children = new ChildrenCache(childrenCacheSize);
        const split = cwdPath.substring(this.rootPath.length).split(sep);
        // resolve('/') leaves '', splits to [''], we don't want that.
        if (split.length === 1 && !split[0]) {
            split.pop();
        }
        /* c8 ignore start */
        if (nocase === undefined) {
            throw new TypeError('must provide nocase setting to PathScurryBase ctor');
        }
        /* c8 ignore stop */
        this.nocase = nocase;
        this.root = this.newRoot(this.#fs);
        this.roots[this.rootPath] = this.root;
        let prev = this.root;
        let len = split.length - 1;
        const joinSep = pathImpl.sep;
        let abs = this.rootPath;
        let sawFirst = false;
        for (const part of split) {
            const l = len--;
            prev = prev.child(part, {
                relative: new Array(l).fill('..').join(joinSep),
                relativePosix: new Array(l).fill('..').join('/'),
                fullpath: (abs += (sawFirst ? '' : joinSep) + part),
            });
            sawFirst = true;
        }
        this.cwd = prev;
    }
    /**
     * Get the depth of a provided path, string, or the cwd
     */
    depth(path = this.cwd) {
        if (typeof path === 'string') {
            path = this.cwd.resolve(path);
        }
        return path.depth();
    }
    /**
     * Return the cache of child entries.  Exposed so subclasses can create
     * child Path objects in a platform-specific way.
     *
     * @internal
     */
    childrenCache() {
        return this.#children;
    }
    /**
     * Resolve one or more path strings to a resolved string
     *
     * Same interface as require('path').resolve.
     *
     * Much faster than path.resolve() when called multiple times for the same
     * path, because the resolved Path objects are cached.  Much slower
     * otherwise.
     */
    resolve(...paths) {
        // first figure out the minimum number of paths we have to test
        // we always start at cwd, but any absolutes will bump the start
        let r = '';
        for (let i = paths.length - 1; i >= 0; i--) {
            const p = paths[i];
            if (!p || p === '.')
                continue;
            r = r ? `${p}/${r}` : p;
            if (this.isAbsolute(p)) {
                break;
            }
        }
        const cached = this.#resolveCache.get(r);
        if (cached !== undefined) {
            return cached;
        }
        const result = this.cwd.resolve(r).fullpath();
        this.#resolveCache.set(r, result);
        return result;
    }
    /**
     * Resolve one or more path strings to a resolved string, returning
     * the posix path.  Identical to .resolve() on posix systems, but on
     * windows will return a forward-slash separated UNC path.
     *
     * Same interface as require('path').resolve.
     *
     * Much faster than path.resolve() when called multiple times for the same
     * path, because the resolved Path objects are cached.  Much slower
     * otherwise.
     */
    resolvePosix(...paths) {
        // first figure out the minimum number of paths we have to test
        // we always start at cwd, but any absolutes will bump the start
        let r = '';
        for (let i = paths.length - 1; i >= 0; i--) {
            const p = paths[i];
            if (!p || p === '.')
                continue;
            r = r ? `${p}/${r}` : p;
            if (this.isAbsolute(p)) {
                break;
            }
        }
        const cached = this.#resolvePosixCache.get(r);
        if (cached !== undefined) {
            return cached;
        }
        const result = this.cwd.resolve(r).fullpathPosix();
        this.#resolvePosixCache.set(r, result);
        return result;
    }
    /**
     * find the relative path from the cwd to the supplied path string or entry
     */
    relative(entry = this.cwd) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        return entry.relative();
    }
    /**
     * find the relative path from the cwd to the supplied path string or
     * entry, using / as the path delimiter, even on Windows.
     */
    relativePosix(entry = this.cwd) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        return entry.relativePosix();
    }
    /**
     * Return the basename for the provided string or Path object
     */
    basename(entry = this.cwd) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        return entry.name;
    }
    /**
     * Return the dirname for the provided string or Path object
     */
    dirname(entry = this.cwd) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        return (entry.parent || entry).fullpath();
    }
    async readdir(entry = this.cwd, opts = {
        withFileTypes: true,
    }) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            opts = entry;
            entry = this.cwd;
        }
        const { withFileTypes } = opts;
        if (!entry.canReaddir()) {
            return [];
        }
        else {
            const p = await entry.readdir();
            return withFileTypes ? p : p.map(e => e.name);
        }
    }
    readdirSync(entry = this.cwd, opts = {
        withFileTypes: true,
    }) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            opts = entry;
            entry = this.cwd;
        }
        const { withFileTypes = true } = opts;
        if (!entry.canReaddir()) {
            return [];
        }
        else if (withFileTypes) {
            return entry.readdirSync();
        }
        else {
            return entry.readdirSync().map(e => e.name);
        }
    }
    /**
     * Call lstat() on the string or Path object, and update all known
     * information that can be determined.
     *
     * Note that unlike `fs.lstat()`, the returned value does not contain some
     * information, such as `mode`, `dev`, `nlink`, and `ino`.  If that
     * information is required, you will need to call `fs.lstat` yourself.
     *
     * If the Path refers to a nonexistent file, or if the lstat call fails for
     * any reason, `undefined` is returned.  Otherwise the updated Path object is
     * returned.
     *
     * Results are cached, and thus may be out of date if the filesystem is
     * mutated.
     */
    async lstat(entry = this.cwd) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        return entry.lstat();
    }
    /**
     * synchronous {@link PathScurryBase.lstat}
     */
    lstatSync(entry = this.cwd) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        return entry.lstatSync();
    }
    async readlink(entry = this.cwd, { withFileTypes } = {
        withFileTypes: false,
    }) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            withFileTypes = entry.withFileTypes;
            entry = this.cwd;
        }
        const e = await entry.readlink();
        return withFileTypes ? e : e?.fullpath();
    }
    readlinkSync(entry = this.cwd, { withFileTypes } = {
        withFileTypes: false,
    }) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            withFileTypes = entry.withFileTypes;
            entry = this.cwd;
        }
        const e = entry.readlinkSync();
        return withFileTypes ? e : e?.fullpath();
    }
    async realpath(entry = this.cwd, { withFileTypes } = {
        withFileTypes: false,
    }) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            withFileTypes = entry.withFileTypes;
            entry = this.cwd;
        }
        const e = await entry.realpath();
        return withFileTypes ? e : e?.fullpath();
    }
    realpathSync(entry = this.cwd, { withFileTypes } = {
        withFileTypes: false,
    }) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            withFileTypes = entry.withFileTypes;
            entry = this.cwd;
        }
        const e = entry.realpathSync();
        return withFileTypes ? e : e?.fullpath();
    }
    async walk(entry = this.cwd, opts = {}) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            opts = entry;
            entry = this.cwd;
        }
        const { withFileTypes = true, follow = false, filter, walkFilter, } = opts;
        const results = [];
        if (!filter || filter(entry)) {
            results.push(withFileTypes ? entry : entry.fullpath());
        }
        const dirs = new Set();
        const walk = (dir, cb) => {
            dirs.add(dir);
            dir.readdirCB((er, entries) => {
                /* c8 ignore start */
                if (er) {
                    return cb(er);
                }
                /* c8 ignore stop */
                let len = entries.length;
                if (!len)
                    return cb();
                const next = () => {
                    if (--len === 0) {
                        cb();
                    }
                };
                for (const e of entries) {
                    if (!filter || filter(e)) {
                        results.push(withFileTypes ? e : e.fullpath());
                    }
                    if (follow && e.isSymbolicLink()) {
                        e.realpath()
                            .then(r => (r?.isUnknown() ? r.lstat() : r))
                            .then(r => r?.shouldWalk(dirs, walkFilter) ? walk(r, next) : next());
                    }
                    else {
                        if (e.shouldWalk(dirs, walkFilter)) {
                            walk(e, next);
                        }
                        else {
                            next();
                        }
                    }
                }
            }, true); // zalgooooooo
        };
        const start = entry;
        return new Promise((res, rej) => {
            walk(start, er => {
                /* c8 ignore start */
                if (er)
                    return rej(er);
                /* c8 ignore stop */
                res(results);
            });
        });
    }
    walkSync(entry = this.cwd, opts = {}) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            opts = entry;
            entry = this.cwd;
        }
        const { withFileTypes = true, follow = false, filter, walkFilter, } = opts;
        const results = [];
        if (!filter || filter(entry)) {
            results.push(withFileTypes ? entry : entry.fullpath());
        }
        const dirs = new Set([entry]);
        for (const dir of dirs) {
            const entries = dir.readdirSync();
            for (const e of entries) {
                if (!filter || filter(e)) {
                    results.push(withFileTypes ? e : e.fullpath());
                }
                let r = e;
                if (e.isSymbolicLink()) {
                    if (!(follow && (r = e.realpathSync())))
                        continue;
                    if (r.isUnknown())
                        r.lstatSync();
                }
                if (r.shouldWalk(dirs, walkFilter)) {
                    dirs.add(r);
                }
            }
        }
        return results;
    }
    /**
     * Support for `for await`
     *
     * Alias for {@link PathScurryBase.iterate}
     *
     * Note: As of Node 19, this is very slow, compared to other methods of
     * walking.  Consider using {@link PathScurryBase.stream} if memory overhead
     * and backpressure are concerns, or {@link PathScurryBase.walk} if not.
     */
    [Symbol.asyncIterator]() {
        return this.iterate();
    }
    iterate(entry = this.cwd, options = {}) {
        // iterating async over the stream is significantly more performant,
        // especially in the warm-cache scenario, because it buffers up directory
        // entries in the background instead of waiting for a yield for each one.
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            options = entry;
            entry = this.cwd;
        }
        return this.stream(entry, options)[Symbol.asyncIterator]();
    }
    /**
     * Iterating over a PathScurry performs a synchronous walk.
     *
     * Alias for {@link PathScurryBase.iterateSync}
     */
    [Symbol.iterator]() {
        return this.iterateSync();
    }
    *iterateSync(entry = this.cwd, opts = {}) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            opts = entry;
            entry = this.cwd;
        }
        const { withFileTypes = true, follow = false, filter, walkFilter, } = opts;
        if (!filter || filter(entry)) {
            yield withFileTypes ? entry : entry.fullpath();
        }
        const dirs = new Set([entry]);
        for (const dir of dirs) {
            const entries = dir.readdirSync();
            for (const e of entries) {
                if (!filter || filter(e)) {
                    yield withFileTypes ? e : e.fullpath();
                }
                let r = e;
                if (e.isSymbolicLink()) {
                    if (!(follow && (r = e.realpathSync())))
                        continue;
                    if (r.isUnknown())
                        r.lstatSync();
                }
                if (r.shouldWalk(dirs, walkFilter)) {
                    dirs.add(r);
                }
            }
        }
    }
    stream(entry = this.cwd, opts = {}) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            opts = entry;
            entry = this.cwd;
        }
        const { withFileTypes = true, follow = false, filter, walkFilter, } = opts;
        const results = new minipass_1.Minipass({ objectMode: true });
        if (!filter || filter(entry)) {
            results.write(withFileTypes ? entry : entry.fullpath());
        }
        const dirs = new Set();
        const queue = [entry];
        let processing = 0;
        const process = () => {
            let paused = false;
            while (!paused) {
                const dir = queue.shift();
                if (!dir) {
                    if (processing === 0)
                        results.end();
                    return;
                }
                processing++;
                dirs.add(dir);
                const onReaddir = (er, entries, didRealpaths = false) => {
                    /* c8 ignore start */
                    if (er)
                        return results.emit('error', er);
                    /* c8 ignore stop */
                    if (follow && !didRealpaths) {
                        const promises = [];
                        for (const e of entries) {
                            if (e.isSymbolicLink()) {
                                promises.push(e
                                    .realpath()
                                    .then((r) => r?.isUnknown() ? r.lstat() : r));
                            }
                        }
                        if (promises.length) {
                            Promise.all(promises).then(() => onReaddir(null, entries, true));
                            return;
                        }
                    }
                    for (const e of entries) {
                        if (e && (!filter || filter(e))) {
                            if (!results.write(withFileTypes ? e : e.fullpath())) {
                                paused = true;
                            }
                        }
                    }
                    processing--;
                    for (const e of entries) {
                        const r = e.realpathCached() || e;
                        if (r.shouldWalk(dirs, walkFilter)) {
                            queue.push(r);
                        }
                    }
                    if (paused && !results.flowing) {
                        results.once('drain', process);
                    }
                    else if (!sync) {
                        process();
                    }
                };
                // zalgo containment
                let sync = true;
                dir.readdirCB(onReaddir, true);
                sync = false;
            }
        };
        process();
        return results;
    }
    streamSync(entry = this.cwd, opts = {}) {
        if (typeof entry === 'string') {
            entry = this.cwd.resolve(entry);
        }
        else if (!(entry instanceof PathBase)) {
            opts = entry;
            entry = this.cwd;
        }
        const { withFileTypes = true, follow = false, filter, walkFilter, } = opts;
        const results = new minipass_1.Minipass({ objectMode: true });
        const dirs = new Set();
        if (!filter || filter(entry)) {
            results.write(withFileTypes ? entry : entry.fullpath());
        }
        const queue = [entry];
        let processing = 0;
        const process = () => {
            let paused = false;
            while (!paused) {
                const dir = queue.shift();
                if (!dir) {
                    if (processing === 0)
                        results.end();
                    return;
                }
                processing++;
                dirs.add(dir);
                const entries = dir.readdirSync();
                for (const e of entries) {
                    if (!filter || filter(e)) {
                        if (!results.write(withFileTypes ? e : e.fullpath())) {
                            paused = true;
                        }
                    }
                }
                processing--;
                for (const e of entries) {
                    let r = e;
                    if (e.isSymbolicLink()) {
                        if (!(follow && (r = e.realpathSync())))
                            continue;
                        if (r.isUnknown())
                            r.lstatSync();
                    }
                    if (r.shouldWalk(dirs, walkFilter)) {
                        queue.push(r);
                    }
                }
            }
            if (paused && !results.flowing)
                results.once('drain', process);
        };
        process();
        return results;
    }
    chdir(path = this.cwd) {
        const oldCwd = this.cwd;
        this.cwd = typeof path === 'string' ? this.cwd.resolve(path) : path;
        this.cwd[setAsCwd](oldCwd);
    }
}
exports.PathScurryBase = PathScurryBase;
/**
 * Windows implementation of {@link PathScurryBase}
 *
 * Defaults to case insensitve, uses `'\\'` to generate path strings.  Uses
 * {@link PathWin32} for Path objects.
 */
class PathScurryWin32 extends PathScurryBase {
    /**
     * separator for generating path strings
     */
    sep = '\\';
    constructor(cwd = process.cwd(), opts = {}) {
        const { nocase = true } = opts;
        super(cwd, node_path_1.win32, '\\', { ...opts, nocase });
        this.nocase = nocase;
        for (let p = this.cwd; p; p = p.parent) {
            p.nocase = this.nocase;
        }
    }
    /**
     * @internal
     */
    parseRootPath(dir) {
        // if the path starts with a single separator, it's not a UNC, and we'll
        // just get separator as the root, and driveFromUNC will return \
        // In that case, mount \ on the root from the cwd.
        return node_path_1.win32.parse(dir).root.toUpperCase();
    }
    /**
     * @internal
     */
    newRoot(fs) {
        return new PathWin32(this.rootPath, IFDIR, undefined, this.roots, this.nocase, this.childrenCache(), { fs });
    }
    /**
     * Return true if the provided path string is an absolute path
     */
    isAbsolute(p) {
        return (p.startsWith('/') || p.startsWith('\\') || /^[a-z]:(\/|\\)/i.test(p));
    }
}
exports.PathScurryWin32 = PathScurryWin32;
/**
 * {@link PathScurryBase} implementation for all posix systems other than Darwin.
 *
 * Defaults to case-sensitive matching, uses `'/'` to generate path strings.
 *
 * Uses {@link PathPosix} for Path objects.
 */
class PathScurryPosix extends PathScurryBase {
    /**
     * separator for generating path strings
     */
    sep = '/';
    constructor(cwd = process.cwd(), opts = {}) {
        const { nocase = false } = opts;
        super(cwd, node_path_1.posix, '/', { ...opts, nocase });
        this.nocase = nocase;
    }
    /**
     * @internal
     */
    parseRootPath(_dir) {
        return '/';
    }
    /**
     * @internal
     */
    newRoot(fs) {
        return new PathPosix(this.rootPath, IFDIR, undefined, this.roots, this.nocase, this.childrenCache(), { fs });
    }
    /**
     * Return true if the provided path string is an absolute path
     */
    isAbsolute(p) {
        return p.startsWith('/');
    }
}
exports.PathScurryPosix = PathScurryPosix;
/**
 * {@link PathScurryBase} implementation for Darwin (macOS) systems.
 *
 * Defaults to case-insensitive matching, uses `'/'` for generating path
 * strings.
 *
 * Uses {@link PathPosix} for Path objects.
 */
class PathScurryDarwin extends PathScurryPosix {
    constructor(cwd = process.cwd(), opts = {}) {
        const { nocase = true } = opts;
        super(cwd, { ...opts, nocase });
    }
}
exports.PathScurryDarwin = PathScurryDarwin;
/**
 * Default {@link PathBase} implementation for the current platform.
 *
 * {@link PathWin32} on Windows systems, {@link PathPosix} on all others.
 */
exports.Path = process.platform === 'win32' ? PathWin32 : PathPosix;
/**
 * Default {@link PathScurryBase} implementation for the current platform.
 *
 * {@link PathScurryWin32} on Windows systems, {@link PathScurryDarwin} on
 * Darwin (macOS) systems, {@link PathScurryPosix} on all others.
 */
exports.PathScurry = process.platform === 'win32' ? PathScurryWin32
    : process.platform === 'darwin' ? PathScurryDarwin
        : PathScurryPosix;
//# sourceMappingURL=index.js.map

/***/ }),

/***/ 6628:
/***/ ((__webpack_module__, __unused_webpack___webpack_exports__, __nccwpck_require__) => {

__nccwpck_require__.a(__webpack_module__, async (__webpack_handle_async_dependencies__, __webpack_async_result__) => { try {
/* harmony import */ var _actions_core__WEBPACK_IMPORTED_MODULE_0__ = __nccwpck_require__(7484);
/* harmony import */ var _collectors_npm_js__WEBPACK_IMPORTED_MODULE_1__ = __nccwpck_require__(1704);
/* harmony import */ var _collectors_github_js__WEBPACK_IMPORTED_MODULE_2__ = __nccwpck_require__(7157);
/* harmony import */ var _collectors_powershell_js__WEBPACK_IMPORTED_MODULE_3__ = __nccwpck_require__(6045);
/* harmony import */ var _collectors_pypi_js__WEBPACK_IMPORTED_MODULE_4__ = __nccwpck_require__(9701);
/* harmony import */ var _utils_js__WEBPACK_IMPORTED_MODULE_5__ = __nccwpck_require__(6574);
/* harmony import */ var fs_promises__WEBPACK_IMPORTED_MODULE_6__ = __nccwpck_require__(1943);







try {
    const { npmPackages, githubRepositories, pypiPackages, powershellModules, jsonOutputPath, updateReadme, commitMessage, readmePath, } = (0,_utils_js__WEBPACK_IMPORTED_MODULE_5__/* .getInputs */ .GP)();
    // Debug logs are only output if the `ACTIONS_STEP_DEBUG` secret is true
    _actions_core__WEBPACK_IMPORTED_MODULE_0__.debug(`NPM Packages: ${npmPackages.join(', ')}`);
    _actions_core__WEBPACK_IMPORTED_MODULE_0__.debug(`GitHub Repositories: ${githubRepositories.join(', ')}`);
    _actions_core__WEBPACK_IMPORTED_MODULE_0__.debug(`PyPI Packages: ${pypiPackages.join(', ')}`);
    _actions_core__WEBPACK_IMPORTED_MODULE_0__.debug(`PowerShell Modules: ${powershellModules.join(', ')}`);
    _actions_core__WEBPACK_IMPORTED_MODULE_0__.debug(``);
    _actions_core__WEBPACK_IMPORTED_MODULE_0__.debug(`JSON Output Path: ${jsonOutputPath}`);
    _actions_core__WEBPACK_IMPORTED_MODULE_0__.debug(`Update README: ${updateReadme}`);
    _actions_core__WEBPACK_IMPORTED_MODULE_0__.debug(`Commit Message: ${commitMessage}`);
    // Track which platforms are being used
    const platformsTracked = [];
    if (npmPackages.length > 0)
        platformsTracked.push('NPM');
    if (githubRepositories.length > 0)
        platformsTracked.push('GitHub');
    if (pypiPackages.length > 0)
        platformsTracked.push('PyPI');
    if (powershellModules.length > 0)
        platformsTracked.push('PowerShell');
    _actions_core__WEBPACK_IMPORTED_MODULE_0__.debug(`Platforms to track: ${platformsTracked.join(', ')}`);
    _actions_core__WEBPACK_IMPORTED_MODULE_0__.info(`Successfully configured usage statistics tracker for ${platformsTracked.length} platforms`);
    const metricPromises = [];
    const metrics = [];
    for (const platform of platformsTracked) {
        _actions_core__WEBPACK_IMPORTED_MODULE_0__.info(`Collecting ${platform} metrics...`);
        switch (platform) {
            case 'NPM':
                console.log(`Collecting NPM metrics for ${npmPackages.join(', ')}`);
                console.time(`Collecting NPM metrics`);
                metricPromises.push((0,_collectors_npm_js__WEBPACK_IMPORTED_MODULE_1__/* .collectNpmBatch */ .G)(npmPackages).then(results => {
                    console.timeEnd(`Collecting NPM metrics`);
                    return results;
                }));
                break;
            case 'GitHub':
                console.log(`Collecting GitHub metrics for ${githubRepositories.join(', ')}`);
                console.time(`Collecting GitHub metrics`);
                metricPromises.push((0,_collectors_github_js__WEBPACK_IMPORTED_MODULE_2__/* .collectGithubBatch */ .W)(githubRepositories).then(results => {
                    console.timeEnd(`Collecting GitHub metrics`);
                    return results;
                }));
                break;
            case 'PyPI':
                console.log(`Collecting PyPI metrics for ${pypiPackages.join(', ')}`);
                console.time(`Collecting PyPI metrics`);
                metricPromises.push((0,_collectors_pypi_js__WEBPACK_IMPORTED_MODULE_4__/* .collectPypiBatch */ .V)(pypiPackages).then(results => {
                    console.timeEnd(`Collecting PyPI metrics`);
                    return results;
                }));
                break;
            case 'PowerShell':
                console.log(`Collecting PowerShell metrics for ${powershellModules.join(', ')}`);
                console.time(`Collecting PowerShell metrics`);
                metricPromises.push((0,_collectors_powershell_js__WEBPACK_IMPORTED_MODULE_3__/* .collectPowerShellBatch */ .S8)(powershellModules).then(results => {
                    console.timeEnd(`Collecting PowerShell metrics`);
                    return results;
                }));
                break;
        }
    }
    console.log('All metrics collecting started');
    const metricResults = await Promise.all(metricPromises);
    metrics.push(...metricResults.flat());
    console.log('All metrics collecting completed');
    if (updateReadme) {
        console.log('Updating repository readme...');
        await (0,_utils_js__WEBPACK_IMPORTED_MODULE_5__/* .updateRepositoryReadme */ .qz)(metrics, readmePath);
    }
    console.log('Repository readme updated');
    // Persist full result set to JSON for downstream consumption
    try {
        await (0,fs_promises__WEBPACK_IMPORTED_MODULE_6__.writeFile)(jsonOutputPath, JSON.stringify(metrics, null, 2), 'utf8');
        _actions_core__WEBPACK_IMPORTED_MODULE_0__.setOutput('json-output', jsonOutputPath);
        console.log(`Wrote metrics JSON to ${jsonOutputPath}`);
    }
    catch (writeErr) {
        console.warn(`Failed to write metrics JSON to ${jsonOutputPath}:`, writeErr);
    }
    _actions_core__WEBPACK_IMPORTED_MODULE_0__.setOutput('commit-message', commitMessage);
}
catch (error) {
    // Fail the workflow run if an error occurs
    if (error instanceof Error)
        _actions_core__WEBPACK_IMPORTED_MODULE_0__.setFailed(error.message);
}

__webpack_async_result__();
} catch(e) { __webpack_async_result__(e); } }, 1);

/***/ }),

/***/ 7157:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __nccwpck_require__) => {


// EXPORTS
__nccwpck_require__.d(__webpack_exports__, {
  W: () => (/* binding */ collectGithubBatch)
});

// UNUSED EXPORTS: collectGithub

;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/core/node_modules/universal-user-agent/index.js
function getUserAgent() {
  if (typeof navigator === "object" && "userAgent" in navigator) {
    return navigator.userAgent;
  }

  if (typeof process === "object" && process.version !== undefined) {
    return `Node.js/${process.version.substr(1)} (${process.platform}; ${
      process.arch
    })`;
  }

  return "";
}

;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/core/node_modules/before-after-hook/lib/register.js
// @ts-check

function register(state, name, method, options) {
  if (typeof method !== "function") {
    throw new Error("method for before hook must be a function");
  }

  if (!options) {
    options = {};
  }

  if (Array.isArray(name)) {
    return name.reverse().reduce((callback, name) => {
      return register.bind(null, state, name, callback, options);
    }, method)();
  }

  return Promise.resolve().then(() => {
    if (!state.registry[name]) {
      return method(options);
    }

    return state.registry[name].reduce((method, registered) => {
      return registered.hook.bind(null, method, options);
    }, method)();
  });
}

;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/core/node_modules/before-after-hook/lib/add.js
// @ts-check

function addHook(state, kind, name, hook) {
  const orig = hook;
  if (!state.registry[name]) {
    state.registry[name] = [];
  }

  if (kind === "before") {
    hook = (method, options) => {
      return Promise.resolve()
        .then(orig.bind(null, options))
        .then(method.bind(null, options));
    };
  }

  if (kind === "after") {
    hook = (method, options) => {
      let result;
      return Promise.resolve()
        .then(method.bind(null, options))
        .then((result_) => {
          result = result_;
          return orig(result, options);
        })
        .then(() => {
          return result;
        });
    };
  }

  if (kind === "error") {
    hook = (method, options) => {
      return Promise.resolve()
        .then(method.bind(null, options))
        .catch((error) => {
          return orig(error, options);
        });
    };
  }

  state.registry[name].push({
    hook: hook,
    orig: orig,
  });
}

;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/core/node_modules/before-after-hook/lib/remove.js
// @ts-check

function removeHook(state, name, method) {
  if (!state.registry[name]) {
    return;
  }

  const index = state.registry[name]
    .map((registered) => {
      return registered.orig;
    })
    .indexOf(method);

  if (index === -1) {
    return;
  }

  state.registry[name].splice(index, 1);
}

;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/core/node_modules/before-after-hook/index.js
// @ts-check





// bind with array of arguments: https://stackoverflow.com/a/21792913
const bind = Function.bind;
const bindable = bind.bind(bind);

function bindApi(hook, state, name) {
  const removeHookRef = bindable(removeHook, null).apply(
    null,
    name ? [state, name] : [state]
  );
  hook.api = { remove: removeHookRef };
  hook.remove = removeHookRef;
  ["before", "error", "after", "wrap"].forEach((kind) => {
    const args = name ? [state, kind, name] : [state, kind];
    hook[kind] = hook.api[kind] = bindable(addHook, null).apply(null, args);
  });
}

function Singular() {
  const singularHookName = Symbol("Singular");
  const singularHookState = {
    registry: {},
  };
  const singularHook = register.bind(null, singularHookState, singularHookName);
  bindApi(singularHook, singularHookState, singularHookName);
  return singularHook;
}

function Collection() {
  const state = {
    registry: {},
  };

  const hook = register.bind(null, state);
  bindApi(hook, state);

  return hook;
}

/* harmony default export */ const before_after_hook = ({ Singular, Collection });

;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/core/node_modules/@octokit/request/node_modules/@octokit/endpoint/dist-bundle/index.js
// pkg/dist-src/defaults.js


// pkg/dist-src/version.js
var VERSION = "0.0.0-development";

// pkg/dist-src/defaults.js
var userAgent = `octokit-endpoint.js/${VERSION} ${getUserAgent()}`;
var DEFAULTS = {
  method: "GET",
  baseUrl: "https://api.github.com",
  headers: {
    accept: "application/vnd.github.v3+json",
    "user-agent": userAgent
  },
  mediaType: {
    format: ""
  }
};

// pkg/dist-src/util/lowercase-keys.js
function lowercaseKeys(object) {
  if (!object) {
    return {};
  }
  return Object.keys(object).reduce((newObj, key) => {
    newObj[key.toLowerCase()] = object[key];
    return newObj;
  }, {});
}

// pkg/dist-src/util/is-plain-object.js
function isPlainObject(value) {
  if (typeof value !== "object" || value === null) return false;
  if (Object.prototype.toString.call(value) !== "[object Object]") return false;
  const proto = Object.getPrototypeOf(value);
  if (proto === null) return true;
  const Ctor = Object.prototype.hasOwnProperty.call(proto, "constructor") && proto.constructor;
  return typeof Ctor === "function" && Ctor instanceof Ctor && Function.prototype.call(Ctor) === Function.prototype.call(value);
}

// pkg/dist-src/util/merge-deep.js
function mergeDeep(defaults, options) {
  const result = Object.assign({}, defaults);
  Object.keys(options).forEach((key) => {
    if (isPlainObject(options[key])) {
      if (!(key in defaults)) Object.assign(result, { [key]: options[key] });
      else result[key] = mergeDeep(defaults[key], options[key]);
    } else {
      Object.assign(result, { [key]: options[key] });
    }
  });
  return result;
}

// pkg/dist-src/util/remove-undefined-properties.js
function removeUndefinedProperties(obj) {
  for (const key in obj) {
    if (obj[key] === void 0) {
      delete obj[key];
    }
  }
  return obj;
}

// pkg/dist-src/merge.js
function merge(defaults, route, options) {
  if (typeof route === "string") {
    let [method, url] = route.split(" ");
    options = Object.assign(url ? { method, url } : { url: method }, options);
  } else {
    options = Object.assign({}, route);
  }
  options.headers = lowercaseKeys(options.headers);
  removeUndefinedProperties(options);
  removeUndefinedProperties(options.headers);
  const mergedOptions = mergeDeep(defaults || {}, options);
  if (options.url === "/graphql") {
    if (defaults && defaults.mediaType.previews?.length) {
      mergedOptions.mediaType.previews = defaults.mediaType.previews.filter(
        (preview) => !mergedOptions.mediaType.previews.includes(preview)
      ).concat(mergedOptions.mediaType.previews);
    }
    mergedOptions.mediaType.previews = (mergedOptions.mediaType.previews || []).map((preview) => preview.replace(/-preview/, ""));
  }
  return mergedOptions;
}

// pkg/dist-src/util/add-query-parameters.js
function addQueryParameters(url, parameters) {
  const separator = /\?/.test(url) ? "&" : "?";
  const names = Object.keys(parameters);
  if (names.length === 0) {
    return url;
  }
  return url + separator + names.map((name) => {
    if (name === "q") {
      return "q=" + parameters.q.split("+").map(encodeURIComponent).join("+");
    }
    return `${name}=${encodeURIComponent(parameters[name])}`;
  }).join("&");
}

// pkg/dist-src/util/extract-url-variable-names.js
var urlVariableRegex = /\{[^{}}]+\}/g;
function removeNonChars(variableName) {
  return variableName.replace(/(?:^\W+)|(?:(? a.concat(b), []);
}

// pkg/dist-src/util/omit.js
function omit(object, keysToOmit) {
  const result = { __proto__: null };
  for (const key of Object.keys(object)) {
    if (keysToOmit.indexOf(key) === -1) {
      result[key] = object[key];
    }
  }
  return result;
}

// pkg/dist-src/util/url-template.js
function encodeReserved(str) {
  return str.split(/(%[0-9A-Fa-f]{2})/g).map(function(part) {
    if (!/%[0-9A-Fa-f]/.test(part)) {
      part = encodeURI(part).replace(/%5B/g, "[").replace(/%5D/g, "]");
    }
    return part;
  }).join("");
}
function encodeUnreserved(str) {
  return encodeURIComponent(str).replace(/[!'()*]/g, function(c) {
    return "%" + c.charCodeAt(0).toString(16).toUpperCase();
  });
}
function encodeValue(operator, value, key) {
  value = operator === "+" || operator === "#" ? encodeReserved(value) : encodeUnreserved(value);
  if (key) {
    return encodeUnreserved(key) + "=" + value;
  } else {
    return value;
  }
}
function isDefined(value) {
  return value !== void 0 && value !== null;
}
function isKeyOperator(operator) {
  return operator === ";" || operator === "&" || operator === "?";
}
function getValues(context, operator, key, modifier) {
  var value = context[key], result = [];
  if (isDefined(value) && value !== "") {
    if (typeof value === "string" || typeof value === "number" || typeof value === "boolean") {
      value = value.toString();
      if (modifier && modifier !== "*") {
        value = value.substring(0, parseInt(modifier, 10));
      }
      result.push(
        encodeValue(operator, value, isKeyOperator(operator) ? key : "")
      );
    } else {
      if (modifier === "*") {
        if (Array.isArray(value)) {
          value.filter(isDefined).forEach(function(value2) {
            result.push(
              encodeValue(operator, value2, isKeyOperator(operator) ? key : "")
            );
          });
        } else {
          Object.keys(value).forEach(function(k) {
            if (isDefined(value[k])) {
              result.push(encodeValue(operator, value[k], k));
            }
          });
        }
      } else {
        const tmp = [];
        if (Array.isArray(value)) {
          value.filter(isDefined).forEach(function(value2) {
            tmp.push(encodeValue(operator, value2));
          });
        } else {
          Object.keys(value).forEach(function(k) {
            if (isDefined(value[k])) {
              tmp.push(encodeUnreserved(k));
              tmp.push(encodeValue(operator, value[k].toString()));
            }
          });
        }
        if (isKeyOperator(operator)) {
          result.push(encodeUnreserved(key) + "=" + tmp.join(","));
        } else if (tmp.length !== 0) {
          result.push(tmp.join(","));
        }
      }
    }
  } else {
    if (operator === ";") {
      if (isDefined(value)) {
        result.push(encodeUnreserved(key));
      }
    } else if (value === "" && (operator === "&" || operator === "?")) {
      result.push(encodeUnreserved(key) + "=");
    } else if (value === "") {
      result.push("");
    }
  }
  return result;
}
function parseUrl(template) {
  return {
    expand: expand.bind(null, template)
  };
}
function expand(template, context) {
  var operators = ["+", "#", ".", "/", ";", "?", "&"];
  template = template.replace(
    /\{([^\{\}]+)\}|([^\{\}]+)/g,
    function(_, expression, literal) {
      if (expression) {
        let operator = "";
        const values = [];
        if (operators.indexOf(expression.charAt(0)) !== -1) {
          operator = expression.charAt(0);
          expression = expression.substr(1);
        }
        expression.split(/,/g).forEach(function(variable) {
          var tmp = /([^:\*]*)(?::(\d+)|(\*))?/.exec(variable);
          values.push(getValues(context, operator, tmp[1], tmp[2] || tmp[3]));
        });
        if (operator && operator !== "+") {
          var separator = ",";
          if (operator === "?") {
            separator = "&";
          } else if (operator !== "#") {
            separator = operator;
          }
          return (values.length !== 0 ? operator : "") + values.join(separator);
        } else {
          return values.join(",");
        }
      } else {
        return encodeReserved(literal);
      }
    }
  );
  if (template === "/") {
    return template;
  } else {
    return template.replace(/\/$/, "");
  }
}

// pkg/dist-src/parse.js
function parse(options) {
  let method = options.method.toUpperCase();
  let url = (options.url || "/").replace(/:([a-z]\w+)/g, "{$1}");
  let headers = Object.assign({}, options.headers);
  let body;
  let parameters = omit(options, [
    "method",
    "baseUrl",
    "url",
    "headers",
    "request",
    "mediaType"
  ]);
  const urlVariableNames = extractUrlVariableNames(url);
  url = parseUrl(url).expand(parameters);
  if (!/^http/.test(url)) {
    url = options.baseUrl + url;
  }
  const omittedParameters = Object.keys(options).filter((option) => urlVariableNames.includes(option)).concat("baseUrl");
  const remainingParameters = omit(parameters, omittedParameters);
  const isBinaryRequest = /application\/octet-stream/i.test(headers.accept);
  if (!isBinaryRequest) {
    if (options.mediaType.format) {
      headers.accept = headers.accept.split(/,/).map(
        (format) => format.replace(
          /application\/vnd(\.\w+)(\.v3)?(\.\w+)?(\+json)?$/,
          `application/vnd$1$2.${options.mediaType.format}`
        )
      ).join(",");
    }
    if (url.endsWith("/graphql")) {
      if (options.mediaType.previews?.length) {
        const previewsFromAcceptHeader = headers.accept.match(/(? {
          const format = options.mediaType.format ? `.${options.mediaType.format}` : "+json";
          return `application/vnd.github.${preview}-preview${format}`;
        }).join(",");
      }
    }
  }
  if (["GET", "HEAD"].includes(method)) {
    url = addQueryParameters(url, remainingParameters);
  } else {
    if ("data" in remainingParameters) {
      body = remainingParameters.data;
    } else {
      if (Object.keys(remainingParameters).length) {
        body = remainingParameters;
      }
    }
  }
  if (!headers["content-type"] && typeof body !== "undefined") {
    headers["content-type"] = "application/json; charset=utf-8";
  }
  if (["PATCH", "PUT"].includes(method) && typeof body === "undefined") {
    body = "";
  }
  return Object.assign(
    { method, url, headers },
    typeof body !== "undefined" ? { body } : null,
    options.request ? { request: options.request } : null
  );
}

// pkg/dist-src/endpoint-with-defaults.js
function endpointWithDefaults(defaults, route, options) {
  return parse(merge(defaults, route, options));
}

// pkg/dist-src/with-defaults.js
function withDefaults(oldDefaults, newDefaults) {
  const DEFAULTS2 = merge(oldDefaults, newDefaults);
  const endpoint2 = endpointWithDefaults.bind(null, DEFAULTS2);
  return Object.assign(endpoint2, {
    DEFAULTS: DEFAULTS2,
    defaults: withDefaults.bind(null, DEFAULTS2),
    merge: merge.bind(null, DEFAULTS2),
    parse
  });
}

// pkg/dist-src/index.js
var endpoint = withDefaults(null, DEFAULTS);


// EXTERNAL MODULE: ./node_modules/fast-content-type-parse/index.js
var fast_content_type_parse = __nccwpck_require__(1120);
;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/core/node_modules/@octokit/request-error/dist-src/index.js
class RequestError extends Error {
  name;
  /**
   * http status code
   */
  status;
  /**
   * Request options that lead to the error.
   */
  request;
  /**
   * Response object if a response was received
   */
  response;
  constructor(message, statusCode, options) {
    super(message);
    this.name = "HttpError";
    this.status = Number.parseInt(statusCode);
    if (Number.isNaN(this.status)) {
      this.status = 0;
    }
    if ("response" in options) {
      this.response = options.response;
    }
    const requestCopy = Object.assign({}, options.request);
    if (options.request.headers.authorization) {
      requestCopy.headers = Object.assign({}, options.request.headers, {
        authorization: options.request.headers.authorization.replace(
          /(? [
      name,
      String(value)
    ])
  );
  let fetchResponse;
  try {
    fetchResponse = await fetch(requestOptions.url, {
      method: requestOptions.method,
      body,
      redirect: requestOptions.request?.redirect,
      headers: requestHeaders,
      signal: requestOptions.request?.signal,
      // duplex must be set if request.body is ReadableStream or Async Iterables.
      // See https://fetch.spec.whatwg.org/#dom-requestinit-duplex.
      ...requestOptions.body && { duplex: "half" }
    });
  } catch (error) {
    let message = "Unknown Error";
    if (error instanceof Error) {
      if (error.name === "AbortError") {
        error.status = 500;
        throw error;
      }
      message = error.message;
      if (error.name === "TypeError" && "cause" in error) {
        if (error.cause instanceof Error) {
          message = error.cause.message;
        } else if (typeof error.cause === "string") {
          message = error.cause;
        }
      }
    }
    const requestError = new RequestError(message, 500, {
      request: requestOptions
    });
    requestError.cause = error;
    throw requestError;
  }
  const status = fetchResponse.status;
  const url = fetchResponse.url;
  const responseHeaders = {};
  for (const [key, value] of fetchResponse.headers) {
    responseHeaders[key] = value;
  }
  const octokitResponse = {
    url,
    status,
    headers: responseHeaders,
    data: ""
  };
  if ("deprecation" in responseHeaders) {
    const matches = responseHeaders.link && responseHeaders.link.match(/<([^<>]+)>; rel="deprecation"/);
    const deprecationLink = matches && matches.pop();
    log.warn(
      `[@octokit/request] "${requestOptions.method} ${requestOptions.url}" is deprecated. It is scheduled to be removed on ${responseHeaders.sunset}${deprecationLink ? `. See ${deprecationLink}` : ""}`
    );
  }
  if (status === 204 || status === 205) {
    return octokitResponse;
  }
  if (requestOptions.method === "HEAD") {
    if (status < 400) {
      return octokitResponse;
    }
    throw new RequestError(fetchResponse.statusText, status, {
      response: octokitResponse,
      request: requestOptions
    });
  }
  if (status === 304) {
    octokitResponse.data = await getResponseData(fetchResponse);
    throw new RequestError("Not modified", status, {
      response: octokitResponse,
      request: requestOptions
    });
  }
  if (status >= 400) {
    octokitResponse.data = await getResponseData(fetchResponse);
    throw new RequestError(toErrorMessage(octokitResponse.data), status, {
      response: octokitResponse,
      request: requestOptions
    });
  }
  octokitResponse.data = parseSuccessResponseBody ? await getResponseData(fetchResponse) : fetchResponse.body;
  return octokitResponse;
}
async function getResponseData(response) {
  const contentType = response.headers.get("content-type");
  if (!contentType) {
    return response.text().catch(() => "");
  }
  const mimetype = (0,fast_content_type_parse/* safeParse */.xL)(contentType);
  if (isJSONResponse(mimetype)) {
    let text = "";
    try {
      text = await response.text();
      return JSON.parse(text);
    } catch (err) {
      return text;
    }
  } else if (mimetype.type.startsWith("text/") || mimetype.parameters.charset?.toLowerCase() === "utf-8") {
    return response.text().catch(() => "");
  } else {
    return response.arrayBuffer().catch(() => new ArrayBuffer(0));
  }
}
function isJSONResponse(mimetype) {
  return mimetype.type === "application/json" || mimetype.type === "application/scim+json";
}
function toErrorMessage(data) {
  if (typeof data === "string") {
    return data;
  }
  if (data instanceof ArrayBuffer) {
    return "Unknown error";
  }
  if ("message" in data) {
    const suffix = "documentation_url" in data ? ` - ${data.documentation_url}` : "";
    return Array.isArray(data.errors) ? `${data.message}: ${data.errors.map((v) => JSON.stringify(v)).join(", ")}${suffix}` : `${data.message}${suffix}`;
  }
  return `Unknown error: ${JSON.stringify(data)}`;
}

// pkg/dist-src/with-defaults.js
function dist_bundle_withDefaults(oldEndpoint, newDefaults) {
  const endpoint2 = oldEndpoint.defaults(newDefaults);
  const newApi = function(route, parameters) {
    const endpointOptions = endpoint2.merge(route, parameters);
    if (!endpointOptions.request || !endpointOptions.request.hook) {
      return fetchWrapper(endpoint2.parse(endpointOptions));
    }
    const request2 = (route2, parameters2) => {
      return fetchWrapper(
        endpoint2.parse(endpoint2.merge(route2, parameters2))
      );
    };
    Object.assign(request2, {
      endpoint: endpoint2,
      defaults: dist_bundle_withDefaults.bind(null, endpoint2)
    });
    return endpointOptions.request.hook(request2, endpointOptions);
  };
  return Object.assign(newApi, {
    endpoint: endpoint2,
    defaults: dist_bundle_withDefaults.bind(null, endpoint2)
  });
}

// pkg/dist-src/index.js
var request = dist_bundle_withDefaults(endpoint, defaults_default);


;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/core/node_modules/@octokit/graphql/dist-bundle/index.js
// pkg/dist-src/index.js



// pkg/dist-src/version.js
var graphql_dist_bundle_VERSION = "0.0.0-development";

// pkg/dist-src/with-defaults.js


// pkg/dist-src/graphql.js


// pkg/dist-src/error.js
function _buildMessageForResponseErrors(data) {
  return `Request failed due to following response errors:
` + data.errors.map((e) => ` - ${e.message}`).join("\n");
}
var GraphqlResponseError = class extends Error {
  constructor(request2, headers, response) {
    super(_buildMessageForResponseErrors(response));
    this.request = request2;
    this.headers = headers;
    this.response = response;
    this.errors = response.errors;
    this.data = response.data;
    if (Error.captureStackTrace) {
      Error.captureStackTrace(this, this.constructor);
    }
  }
  name = "GraphqlResponseError";
  errors;
  data;
};

// pkg/dist-src/graphql.js
var NON_VARIABLE_OPTIONS = [
  "method",
  "baseUrl",
  "url",
  "headers",
  "request",
  "query",
  "mediaType",
  "operationName"
];
var FORBIDDEN_VARIABLE_OPTIONS = ["query", "method", "url"];
var GHES_V3_SUFFIX_REGEX = /\/api\/v3\/?$/;
function graphql(request2, query, options) {
  if (options) {
    if (typeof query === "string" && "query" in options) {
      return Promise.reject(
        new Error(`[@octokit/graphql] "query" cannot be used as variable name`)
      );
    }
    for (const key in options) {
      if (!FORBIDDEN_VARIABLE_OPTIONS.includes(key)) continue;
      return Promise.reject(
        new Error(
          `[@octokit/graphql] "${key}" cannot be used as variable name`
        )
      );
    }
  }
  const parsedOptions = typeof query === "string" ? Object.assign({ query }, options) : query;
  const requestOptions = Object.keys(
    parsedOptions
  ).reduce((result, key) => {
    if (NON_VARIABLE_OPTIONS.includes(key)) {
      result[key] = parsedOptions[key];
      return result;
    }
    if (!result.variables) {
      result.variables = {};
    }
    result.variables[key] = parsedOptions[key];
    return result;
  }, {});
  const baseUrl = parsedOptions.baseUrl || request2.endpoint.DEFAULTS.baseUrl;
  if (GHES_V3_SUFFIX_REGEX.test(baseUrl)) {
    requestOptions.url = baseUrl.replace(GHES_V3_SUFFIX_REGEX, "/api/graphql");
  }
  return request2(requestOptions).then((response) => {
    if (response.data.errors) {
      const headers = {};
      for (const key of Object.keys(response.headers)) {
        headers[key] = response.headers[key];
      }
      throw new GraphqlResponseError(
        requestOptions,
        headers,
        response.data
      );
    }
    return response.data.data;
  });
}

// pkg/dist-src/with-defaults.js
function graphql_dist_bundle_withDefaults(request2, newDefaults) {
  const newRequest = request2.defaults(newDefaults);
  const newApi = (query, options) => {
    return graphql(newRequest, query, options);
  };
  return Object.assign(newApi, {
    defaults: graphql_dist_bundle_withDefaults.bind(null, newRequest),
    endpoint: newRequest.endpoint
  });
}

// pkg/dist-src/index.js
var graphql2 = graphql_dist_bundle_withDefaults(request, {
  headers: {
    "user-agent": `octokit-graphql.js/${graphql_dist_bundle_VERSION} ${getUserAgent()}`
  },
  method: "POST",
  url: "/graphql"
});
function withCustomRequest(customRequest) {
  return graphql_dist_bundle_withDefaults(customRequest, {
    method: "POST",
    url: "/graphql"
  });
}


;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/core/node_modules/@octokit/auth-token/dist-bundle/index.js
// pkg/dist-src/is-jwt.js
var b64url = "(?:[a-zA-Z0-9_-]+)";
var sep = "\\.";
var jwtRE = new RegExp(`^${b64url}${sep}${b64url}${sep}${b64url}$`);
var isJWT = jwtRE.test.bind(jwtRE);

// pkg/dist-src/auth.js
async function auth(token) {
  const isApp = isJWT(token);
  const isInstallation = token.startsWith("v1.") || token.startsWith("ghs_");
  const isUserToServer = token.startsWith("ghu_");
  const tokenType = isApp ? "app" : isInstallation ? "installation" : isUserToServer ? "user-to-server" : "oauth";
  return {
    type: "token",
    token,
    tokenType
  };
}

// pkg/dist-src/with-authorization-prefix.js
function withAuthorizationPrefix(token) {
  if (token.split(/\./).length === 3) {
    return `bearer ${token}`;
  }
  return `token ${token}`;
}

// pkg/dist-src/hook.js
async function hook(token, request, route, parameters) {
  const endpoint = request.endpoint.merge(
    route,
    parameters
  );
  endpoint.headers.authorization = withAuthorizationPrefix(token);
  return request(endpoint);
}

// pkg/dist-src/index.js
var createTokenAuth = function createTokenAuth2(token) {
  if (!token) {
    throw new Error("[@octokit/auth-token] No token passed to createTokenAuth");
  }
  if (typeof token !== "string") {
    throw new Error(
      "[@octokit/auth-token] Token passed to createTokenAuth is not a string"
    );
  }
  token = token.replace(/^(token|bearer) +/i, "");
  return Object.assign(auth.bind(null, token), {
    hook: hook.bind(null, token)
  });
};


;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/core/dist-src/version.js
const version_VERSION = "7.0.3";


;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/core/dist-src/index.js






const noop = () => {
};
const consoleWarn = console.warn.bind(console);
const consoleError = console.error.bind(console);
function createLogger(logger = {}) {
  if (typeof logger.debug !== "function") {
    logger.debug = noop;
  }
  if (typeof logger.info !== "function") {
    logger.info = noop;
  }
  if (typeof logger.warn !== "function") {
    logger.warn = consoleWarn;
  }
  if (typeof logger.error !== "function") {
    logger.error = consoleError;
  }
  return logger;
}
const userAgentTrail = `octokit-core.js/${version_VERSION} ${getUserAgent()}`;
class Octokit {
  static VERSION = version_VERSION;
  static defaults(defaults) {
    const OctokitWithDefaults = class extends this {
      constructor(...args) {
        const options = args[0] || {};
        if (typeof defaults === "function") {
          super(defaults(options));
          return;
        }
        super(
          Object.assign(
            {},
            defaults,
            options,
            options.userAgent && defaults.userAgent ? {
              userAgent: `${options.userAgent} ${defaults.userAgent}`
            } : null
          )
        );
      }
    };
    return OctokitWithDefaults;
  }
  static plugins = [];
  /**
   * Attach a plugin (or many) to your Octokit instance.
   *
   * @example
   * const API = Octokit.plugin(plugin1, plugin2, plugin3, ...)
   */
  static plugin(...newPlugins) {
    const currentPlugins = this.plugins;
    const NewOctokit = class extends this {
      static plugins = currentPlugins.concat(
        newPlugins.filter((plugin) => !currentPlugins.includes(plugin))
      );
    };
    return NewOctokit;
  }
  constructor(options = {}) {
    const hook = new before_after_hook.Collection();
    const requestDefaults = {
      baseUrl: request.endpoint.DEFAULTS.baseUrl,
      headers: {},
      request: Object.assign({}, options.request, {
        // @ts-ignore internal usage only, no need to type
        hook: hook.bind(null, "request")
      }),
      mediaType: {
        previews: [],
        format: ""
      }
    };
    requestDefaults.headers["user-agent"] = options.userAgent ? `${options.userAgent} ${userAgentTrail}` : userAgentTrail;
    if (options.baseUrl) {
      requestDefaults.baseUrl = options.baseUrl;
    }
    if (options.previews) {
      requestDefaults.mediaType.previews = options.previews;
    }
    if (options.timeZone) {
      requestDefaults.headers["time-zone"] = options.timeZone;
    }
    this.request = request.defaults(requestDefaults);
    this.graphql = withCustomRequest(this.request).defaults(requestDefaults);
    this.log = createLogger(options.log);
    this.hook = hook;
    if (!options.authStrategy) {
      if (!options.auth) {
        this.auth = async () => ({
          type: "unauthenticated"
        });
      } else {
        const auth = createTokenAuth(options.auth);
        hook.wrap("request", auth.hook);
        this.auth = auth;
      }
    } else {
      const { authStrategy, ...otherOptions } = options;
      const auth = authStrategy(
        Object.assign(
          {
            request: this.request,
            log: this.log,
            // we pass the current octokit instance as well as its constructor options
            // to allow for authentication strategies that return a new octokit instance
            // that shares the same internal state as the current one. The original
            // requirement for this was the "event-octokit" authentication strategy
            // of https://github.com/probot/octokit-auth-probot.
            octokit: this,
            octokitOptions: otherOptions
          },
          options.auth
        )
      );
      hook.wrap("request", auth.hook);
      this.auth = auth;
    }
    const classConstructor = this.constructor;
    for (let i = 0; i < classConstructor.plugins.length; ++i) {
      Object.assign(this, classConstructor.plugins[i](this, options));
    }
  }
  // assigned during constructor
  request;
  graphql;
  log;
  hook;
  // TODO: type `octokit.auth` based on passed options.authStrategy
  auth;
}


;// CONCATENATED MODULE: ./node_modules/@octokit/plugin-request-log/dist-src/version.js
const dist_src_version_VERSION = "6.0.0";


;// CONCATENATED MODULE: ./node_modules/@octokit/plugin-request-log/dist-src/index.js

function requestLog(octokit) {
  octokit.hook.wrap("request", (request, options) => {
    octokit.log.debug("request", options);
    const start = Date.now();
    const requestOptions = octokit.request.endpoint.parse(options);
    const path = requestOptions.url.replace(options.baseUrl, "");
    return request(options).then((response) => {
      const requestId = response.headers["x-github-request-id"];
      octokit.log.info(
        `${requestOptions.method} ${path} - ${response.status} with id ${requestId} in ${Date.now() - start}ms`
      );
      return response;
    }).catch((error) => {
      const requestId = error.response?.headers["x-github-request-id"] || "UNKNOWN";
      octokit.log.error(
        `${requestOptions.method} ${path} - ${error.status} with id ${requestId} in ${Date.now() - start}ms`
      );
      throw error;
    });
  });
}
requestLog.VERSION = dist_src_version_VERSION;


;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/plugin-paginate-rest/dist-bundle/index.js
// pkg/dist-src/version.js
var plugin_paginate_rest_dist_bundle_VERSION = "0.0.0-development";

// pkg/dist-src/normalize-paginated-list-response.js
function normalizePaginatedListResponse(response) {
  if (!response.data) {
    return {
      ...response,
      data: []
    };
  }
  const responseNeedsNormalization = ("total_count" in response.data || "total_commits" in response.data) && !("url" in response.data);
  if (!responseNeedsNormalization) return response;
  const incompleteResults = response.data.incomplete_results;
  const repositorySelection = response.data.repository_selection;
  const totalCount = response.data.total_count;
  const totalCommits = response.data.total_commits;
  delete response.data.incomplete_results;
  delete response.data.repository_selection;
  delete response.data.total_count;
  delete response.data.total_commits;
  const namespaceKey = Object.keys(response.data)[0];
  const data = response.data[namespaceKey];
  response.data = data;
  if (typeof incompleteResults !== "undefined") {
    response.data.incomplete_results = incompleteResults;
  }
  if (typeof repositorySelection !== "undefined") {
    response.data.repository_selection = repositorySelection;
  }
  response.data.total_count = totalCount;
  response.data.total_commits = totalCommits;
  return response;
}

// pkg/dist-src/iterator.js
function iterator(octokit, route, parameters) {
  const options = typeof route === "function" ? route.endpoint(parameters) : octokit.request.endpoint(route, parameters);
  const requestMethod = typeof route === "function" ? route : octokit.request;
  const method = options.method;
  const headers = options.headers;
  let url = options.url;
  return {
    [Symbol.asyncIterator]: () => ({
      async next() {
        if (!url) return { done: true };
        try {
          const response = await requestMethod({ method, url, headers });
          const normalizedResponse = normalizePaginatedListResponse(response);
          url = ((normalizedResponse.headers.link || "").match(
            /<([^<>]+)>;\s*rel="next"/
          ) || [])[1];
          if (!url && "total_commits" in normalizedResponse.data) {
            const parsedUrl = new URL(normalizedResponse.url);
            const params = parsedUrl.searchParams;
            const page = parseInt(params.get("page") || "1", 10);
            const per_page = parseInt(params.get("per_page") || "250", 10);
            if (page * per_page < normalizedResponse.data.total_commits) {
              params.set("page", String(page + 1));
              url = parsedUrl.toString();
            }
          }
          return { value: normalizedResponse };
        } catch (error) {
          if (error.status !== 409) throw error;
          url = "";
          return {
            value: {
              status: 200,
              headers: {},
              data: []
            }
          };
        }
      }
    })
  };
}

// pkg/dist-src/paginate.js
function paginate(octokit, route, parameters, mapFn) {
  if (typeof parameters === "function") {
    mapFn = parameters;
    parameters = void 0;
  }
  return gather(
    octokit,
    [],
    iterator(octokit, route, parameters)[Symbol.asyncIterator](),
    mapFn
  );
}
function gather(octokit, results, iterator2, mapFn) {
  return iterator2.next().then((result) => {
    if (result.done) {
      return results;
    }
    let earlyExit = false;
    function done() {
      earlyExit = true;
    }
    results = results.concat(
      mapFn ? mapFn(result.value, done) : result.value.data
    );
    if (earlyExit) {
      return results;
    }
    return gather(octokit, results, iterator2, mapFn);
  });
}

// pkg/dist-src/compose-paginate.js
var composePaginateRest = Object.assign(paginate, {
  iterator
});

// pkg/dist-src/generated/paginating-endpoints.js
var paginatingEndpoints = (/* unused pure expression or super */ null && ([
  "GET /advisories",
  "GET /app/hook/deliveries",
  "GET /app/installation-requests",
  "GET /app/installations",
  "GET /assignments/{assignment_id}/accepted_assignments",
  "GET /classrooms",
  "GET /classrooms/{classroom_id}/assignments",
  "GET /enterprises/{enterprise}/code-security/configurations",
  "GET /enterprises/{enterprise}/code-security/configurations/{configuration_id}/repositories",
  "GET /enterprises/{enterprise}/dependabot/alerts",
  "GET /enterprises/{enterprise}/secret-scanning/alerts",
  "GET /events",
  "GET /gists",
  "GET /gists/public",
  "GET /gists/starred",
  "GET /gists/{gist_id}/comments",
  "GET /gists/{gist_id}/commits",
  "GET /gists/{gist_id}/forks",
  "GET /installation/repositories",
  "GET /issues",
  "GET /licenses",
  "GET /marketplace_listing/plans",
  "GET /marketplace_listing/plans/{plan_id}/accounts",
  "GET /marketplace_listing/stubbed/plans",
  "GET /marketplace_listing/stubbed/plans/{plan_id}/accounts",
  "GET /networks/{owner}/{repo}/events",
  "GET /notifications",
  "GET /organizations",
  "GET /orgs/{org}/actions/cache/usage-by-repository",
  "GET /orgs/{org}/actions/hosted-runners",
  "GET /orgs/{org}/actions/permissions/repositories",
  "GET /orgs/{org}/actions/runner-groups",
  "GET /orgs/{org}/actions/runner-groups/{runner_group_id}/hosted-runners",
  "GET /orgs/{org}/actions/runner-groups/{runner_group_id}/repositories",
  "GET /orgs/{org}/actions/runner-groups/{runner_group_id}/runners",
  "GET /orgs/{org}/actions/runners",
  "GET /orgs/{org}/actions/secrets",
  "GET /orgs/{org}/actions/secrets/{secret_name}/repositories",
  "GET /orgs/{org}/actions/variables",
  "GET /orgs/{org}/actions/variables/{name}/repositories",
  "GET /orgs/{org}/attestations/{subject_digest}",
  "GET /orgs/{org}/blocks",
  "GET /orgs/{org}/campaigns",
  "GET /orgs/{org}/code-scanning/alerts",
  "GET /orgs/{org}/code-security/configurations",
  "GET /orgs/{org}/code-security/configurations/{configuration_id}/repositories",
  "GET /orgs/{org}/codespaces",
  "GET /orgs/{org}/codespaces/secrets",
  "GET /orgs/{org}/codespaces/secrets/{secret_name}/repositories",
  "GET /orgs/{org}/copilot/billing/seats",
  "GET /orgs/{org}/copilot/metrics",
  "GET /orgs/{org}/dependabot/alerts",
  "GET /orgs/{org}/dependabot/secrets",
  "GET /orgs/{org}/dependabot/secrets/{secret_name}/repositories",
  "GET /orgs/{org}/events",
  "GET /orgs/{org}/failed_invitations",
  "GET /orgs/{org}/hooks",
  "GET /orgs/{org}/hooks/{hook_id}/deliveries",
  "GET /orgs/{org}/insights/api/route-stats/{actor_type}/{actor_id}",
  "GET /orgs/{org}/insights/api/subject-stats",
  "GET /orgs/{org}/insights/api/user-stats/{user_id}",
  "GET /orgs/{org}/installations",
  "GET /orgs/{org}/invitations",
  "GET /orgs/{org}/invitations/{invitation_id}/teams",
  "GET /orgs/{org}/issues",
  "GET /orgs/{org}/members",
  "GET /orgs/{org}/members/{username}/codespaces",
  "GET /orgs/{org}/migrations",
  "GET /orgs/{org}/migrations/{migration_id}/repositories",
  "GET /orgs/{org}/organization-roles/{role_id}/teams",
  "GET /orgs/{org}/organization-roles/{role_id}/users",
  "GET /orgs/{org}/outside_collaborators",
  "GET /orgs/{org}/packages",
  "GET /orgs/{org}/packages/{package_type}/{package_name}/versions",
  "GET /orgs/{org}/personal-access-token-requests",
  "GET /orgs/{org}/personal-access-token-requests/{pat_request_id}/repositories",
  "GET /orgs/{org}/personal-access-tokens",
  "GET /orgs/{org}/personal-access-tokens/{pat_id}/repositories",
  "GET /orgs/{org}/private-registries",
  "GET /orgs/{org}/projects",
  "GET /orgs/{org}/properties/values",
  "GET /orgs/{org}/public_members",
  "GET /orgs/{org}/repos",
  "GET /orgs/{org}/rulesets",
  "GET /orgs/{org}/rulesets/rule-suites",
  "GET /orgs/{org}/rulesets/{ruleset_id}/history",
  "GET /orgs/{org}/secret-scanning/alerts",
  "GET /orgs/{org}/security-advisories",
  "GET /orgs/{org}/settings/network-configurations",
  "GET /orgs/{org}/team/{team_slug}/copilot/metrics",
  "GET /orgs/{org}/teams",
  "GET /orgs/{org}/teams/{team_slug}/discussions",
  "GET /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/comments",
  "GET /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/comments/{comment_number}/reactions",
  "GET /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/reactions",
  "GET /orgs/{org}/teams/{team_slug}/invitations",
  "GET /orgs/{org}/teams/{team_slug}/members",
  "GET /orgs/{org}/teams/{team_slug}/projects",
  "GET /orgs/{org}/teams/{team_slug}/repos",
  "GET /orgs/{org}/teams/{team_slug}/teams",
  "GET /projects/columns/{column_id}/cards",
  "GET /projects/{project_id}/collaborators",
  "GET /projects/{project_id}/columns",
  "GET /repos/{owner}/{repo}/actions/artifacts",
  "GET /repos/{owner}/{repo}/actions/caches",
  "GET /repos/{owner}/{repo}/actions/organization-secrets",
  "GET /repos/{owner}/{repo}/actions/organization-variables",
  "GET /repos/{owner}/{repo}/actions/runners",
  "GET /repos/{owner}/{repo}/actions/runs",
  "GET /repos/{owner}/{repo}/actions/runs/{run_id}/artifacts",
  "GET /repos/{owner}/{repo}/actions/runs/{run_id}/attempts/{attempt_number}/jobs",
  "GET /repos/{owner}/{repo}/actions/runs/{run_id}/jobs",
  "GET /repos/{owner}/{repo}/actions/secrets",
  "GET /repos/{owner}/{repo}/actions/variables",
  "GET /repos/{owner}/{repo}/actions/workflows",
  "GET /repos/{owner}/{repo}/actions/workflows/{workflow_id}/runs",
  "GET /repos/{owner}/{repo}/activity",
  "GET /repos/{owner}/{repo}/assignees",
  "GET /repos/{owner}/{repo}/attestations/{subject_digest}",
  "GET /repos/{owner}/{repo}/branches",
  "GET /repos/{owner}/{repo}/check-runs/{check_run_id}/annotations",
  "GET /repos/{owner}/{repo}/check-suites/{check_suite_id}/check-runs",
  "GET /repos/{owner}/{repo}/code-scanning/alerts",
  "GET /repos/{owner}/{repo}/code-scanning/alerts/{alert_number}/instances",
  "GET /repos/{owner}/{repo}/code-scanning/analyses",
  "GET /repos/{owner}/{repo}/codespaces",
  "GET /repos/{owner}/{repo}/codespaces/devcontainers",
  "GET /repos/{owner}/{repo}/codespaces/secrets",
  "GET /repos/{owner}/{repo}/collaborators",
  "GET /repos/{owner}/{repo}/comments",
  "GET /repos/{owner}/{repo}/comments/{comment_id}/reactions",
  "GET /repos/{owner}/{repo}/commits",
  "GET /repos/{owner}/{repo}/commits/{commit_sha}/comments",
  "GET /repos/{owner}/{repo}/commits/{commit_sha}/pulls",
  "GET /repos/{owner}/{repo}/commits/{ref}/check-runs",
  "GET /repos/{owner}/{repo}/commits/{ref}/check-suites",
  "GET /repos/{owner}/{repo}/commits/{ref}/status",
  "GET /repos/{owner}/{repo}/commits/{ref}/statuses",
  "GET /repos/{owner}/{repo}/compare/{basehead}",
  "GET /repos/{owner}/{repo}/compare/{base}...{head}",
  "GET /repos/{owner}/{repo}/contributors",
  "GET /repos/{owner}/{repo}/dependabot/alerts",
  "GET /repos/{owner}/{repo}/dependabot/secrets",
  "GET /repos/{owner}/{repo}/deployments",
  "GET /repos/{owner}/{repo}/deployments/{deployment_id}/statuses",
  "GET /repos/{owner}/{repo}/environments",
  "GET /repos/{owner}/{repo}/environments/{environment_name}/deployment-branch-policies",
  "GET /repos/{owner}/{repo}/environments/{environment_name}/deployment_protection_rules/apps",
  "GET /repos/{owner}/{repo}/environments/{environment_name}/secrets",
  "GET /repos/{owner}/{repo}/environments/{environment_name}/variables",
  "GET /repos/{owner}/{repo}/events",
  "GET /repos/{owner}/{repo}/forks",
  "GET /repos/{owner}/{repo}/hooks",
  "GET /repos/{owner}/{repo}/hooks/{hook_id}/deliveries",
  "GET /repos/{owner}/{repo}/invitations",
  "GET /repos/{owner}/{repo}/issues",
  "GET /repos/{owner}/{repo}/issues/comments",
  "GET /repos/{owner}/{repo}/issues/comments/{comment_id}/reactions",
  "GET /repos/{owner}/{repo}/issues/events",
  "GET /repos/{owner}/{repo}/issues/{issue_number}/comments",
  "GET /repos/{owner}/{repo}/issues/{issue_number}/events",
  "GET /repos/{owner}/{repo}/issues/{issue_number}/labels",
  "GET /repos/{owner}/{repo}/issues/{issue_number}/reactions",
  "GET /repos/{owner}/{repo}/issues/{issue_number}/sub_issues",
  "GET /repos/{owner}/{repo}/issues/{issue_number}/timeline",
  "GET /repos/{owner}/{repo}/keys",
  "GET /repos/{owner}/{repo}/labels",
  "GET /repos/{owner}/{repo}/milestones",
  "GET /repos/{owner}/{repo}/milestones/{milestone_number}/labels",
  "GET /repos/{owner}/{repo}/notifications",
  "GET /repos/{owner}/{repo}/pages/builds",
  "GET /repos/{owner}/{repo}/projects",
  "GET /repos/{owner}/{repo}/pulls",
  "GET /repos/{owner}/{repo}/pulls/comments",
  "GET /repos/{owner}/{repo}/pulls/comments/{comment_id}/reactions",
  "GET /repos/{owner}/{repo}/pulls/{pull_number}/comments",
  "GET /repos/{owner}/{repo}/pulls/{pull_number}/commits",
  "GET /repos/{owner}/{repo}/pulls/{pull_number}/files",
  "GET /repos/{owner}/{repo}/pulls/{pull_number}/reviews",
  "GET /repos/{owner}/{repo}/pulls/{pull_number}/reviews/{review_id}/comments",
  "GET /repos/{owner}/{repo}/releases",
  "GET /repos/{owner}/{repo}/releases/{release_id}/assets",
  "GET /repos/{owner}/{repo}/releases/{release_id}/reactions",
  "GET /repos/{owner}/{repo}/rules/branches/{branch}",
  "GET /repos/{owner}/{repo}/rulesets",
  "GET /repos/{owner}/{repo}/rulesets/rule-suites",
  "GET /repos/{owner}/{repo}/rulesets/{ruleset_id}/history",
  "GET /repos/{owner}/{repo}/secret-scanning/alerts",
  "GET /repos/{owner}/{repo}/secret-scanning/alerts/{alert_number}/locations",
  "GET /repos/{owner}/{repo}/security-advisories",
  "GET /repos/{owner}/{repo}/stargazers",
  "GET /repos/{owner}/{repo}/subscribers",
  "GET /repos/{owner}/{repo}/tags",
  "GET /repos/{owner}/{repo}/teams",
  "GET /repos/{owner}/{repo}/topics",
  "GET /repositories",
  "GET /search/code",
  "GET /search/commits",
  "GET /search/issues",
  "GET /search/labels",
  "GET /search/repositories",
  "GET /search/topics",
  "GET /search/users",
  "GET /teams/{team_id}/discussions",
  "GET /teams/{team_id}/discussions/{discussion_number}/comments",
  "GET /teams/{team_id}/discussions/{discussion_number}/comments/{comment_number}/reactions",
  "GET /teams/{team_id}/discussions/{discussion_number}/reactions",
  "GET /teams/{team_id}/invitations",
  "GET /teams/{team_id}/members",
  "GET /teams/{team_id}/projects",
  "GET /teams/{team_id}/repos",
  "GET /teams/{team_id}/teams",
  "GET /user/blocks",
  "GET /user/codespaces",
  "GET /user/codespaces/secrets",
  "GET /user/emails",
  "GET /user/followers",
  "GET /user/following",
  "GET /user/gpg_keys",
  "GET /user/installations",
  "GET /user/installations/{installation_id}/repositories",
  "GET /user/issues",
  "GET /user/keys",
  "GET /user/marketplace_purchases",
  "GET /user/marketplace_purchases/stubbed",
  "GET /user/memberships/orgs",
  "GET /user/migrations",
  "GET /user/migrations/{migration_id}/repositories",
  "GET /user/orgs",
  "GET /user/packages",
  "GET /user/packages/{package_type}/{package_name}/versions",
  "GET /user/public_emails",
  "GET /user/repos",
  "GET /user/repository_invitations",
  "GET /user/social_accounts",
  "GET /user/ssh_signing_keys",
  "GET /user/starred",
  "GET /user/subscriptions",
  "GET /user/teams",
  "GET /users",
  "GET /users/{username}/attestations/{subject_digest}",
  "GET /users/{username}/events",
  "GET /users/{username}/events/orgs/{org}",
  "GET /users/{username}/events/public",
  "GET /users/{username}/followers",
  "GET /users/{username}/following",
  "GET /users/{username}/gists",
  "GET /users/{username}/gpg_keys",
  "GET /users/{username}/keys",
  "GET /users/{username}/orgs",
  "GET /users/{username}/packages",
  "GET /users/{username}/projects",
  "GET /users/{username}/received_events",
  "GET /users/{username}/received_events/public",
  "GET /users/{username}/repos",
  "GET /users/{username}/social_accounts",
  "GET /users/{username}/ssh_signing_keys",
  "GET /users/{username}/starred",
  "GET /users/{username}/subscriptions"
]));

// pkg/dist-src/paginating-endpoints.js
function isPaginatingEndpoint(arg) {
  if (typeof arg === "string") {
    return paginatingEndpoints.includes(arg);
  } else {
    return false;
  }
}

// pkg/dist-src/index.js
function paginateRest(octokit) {
  return {
    paginate: Object.assign(paginate.bind(null, octokit), {
      iterator: iterator.bind(null, octokit)
    })
  };
}
paginateRest.VERSION = plugin_paginate_rest_dist_bundle_VERSION;


;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/plugin-rest-endpoint-methods/dist-src/version.js
const plugin_rest_endpoint_methods_dist_src_version_VERSION = "16.0.0";

//# sourceMappingURL=version.js.map

;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/plugin-rest-endpoint-methods/dist-src/generated/endpoints.js
const Endpoints = {
  actions: {
    addCustomLabelsToSelfHostedRunnerForOrg: [
      "POST /orgs/{org}/actions/runners/{runner_id}/labels"
    ],
    addCustomLabelsToSelfHostedRunnerForRepo: [
      "POST /repos/{owner}/{repo}/actions/runners/{runner_id}/labels"
    ],
    addRepoAccessToSelfHostedRunnerGroupInOrg: [
      "PUT /orgs/{org}/actions/runner-groups/{runner_group_id}/repositories/{repository_id}"
    ],
    addSelectedRepoToOrgSecret: [
      "PUT /orgs/{org}/actions/secrets/{secret_name}/repositories/{repository_id}"
    ],
    addSelectedRepoToOrgVariable: [
      "PUT /orgs/{org}/actions/variables/{name}/repositories/{repository_id}"
    ],
    approveWorkflowRun: [
      "POST /repos/{owner}/{repo}/actions/runs/{run_id}/approve"
    ],
    cancelWorkflowRun: [
      "POST /repos/{owner}/{repo}/actions/runs/{run_id}/cancel"
    ],
    createEnvironmentVariable: [
      "POST /repos/{owner}/{repo}/environments/{environment_name}/variables"
    ],
    createHostedRunnerForOrg: ["POST /orgs/{org}/actions/hosted-runners"],
    createOrUpdateEnvironmentSecret: [
      "PUT /repos/{owner}/{repo}/environments/{environment_name}/secrets/{secret_name}"
    ],
    createOrUpdateOrgSecret: ["PUT /orgs/{org}/actions/secrets/{secret_name}"],
    createOrUpdateRepoSecret: [
      "PUT /repos/{owner}/{repo}/actions/secrets/{secret_name}"
    ],
    createOrgVariable: ["POST /orgs/{org}/actions/variables"],
    createRegistrationTokenForOrg: [
      "POST /orgs/{org}/actions/runners/registration-token"
    ],
    createRegistrationTokenForRepo: [
      "POST /repos/{owner}/{repo}/actions/runners/registration-token"
    ],
    createRemoveTokenForOrg: ["POST /orgs/{org}/actions/runners/remove-token"],
    createRemoveTokenForRepo: [
      "POST /repos/{owner}/{repo}/actions/runners/remove-token"
    ],
    createRepoVariable: ["POST /repos/{owner}/{repo}/actions/variables"],
    createWorkflowDispatch: [
      "POST /repos/{owner}/{repo}/actions/workflows/{workflow_id}/dispatches"
    ],
    deleteActionsCacheById: [
      "DELETE /repos/{owner}/{repo}/actions/caches/{cache_id}"
    ],
    deleteActionsCacheByKey: [
      "DELETE /repos/{owner}/{repo}/actions/caches{?key,ref}"
    ],
    deleteArtifact: [
      "DELETE /repos/{owner}/{repo}/actions/artifacts/{artifact_id}"
    ],
    deleteEnvironmentSecret: [
      "DELETE /repos/{owner}/{repo}/environments/{environment_name}/secrets/{secret_name}"
    ],
    deleteEnvironmentVariable: [
      "DELETE /repos/{owner}/{repo}/environments/{environment_name}/variables/{name}"
    ],
    deleteHostedRunnerForOrg: [
      "DELETE /orgs/{org}/actions/hosted-runners/{hosted_runner_id}"
    ],
    deleteOrgSecret: ["DELETE /orgs/{org}/actions/secrets/{secret_name}"],
    deleteOrgVariable: ["DELETE /orgs/{org}/actions/variables/{name}"],
    deleteRepoSecret: [
      "DELETE /repos/{owner}/{repo}/actions/secrets/{secret_name}"
    ],
    deleteRepoVariable: [
      "DELETE /repos/{owner}/{repo}/actions/variables/{name}"
    ],
    deleteSelfHostedRunnerFromOrg: [
      "DELETE /orgs/{org}/actions/runners/{runner_id}"
    ],
    deleteSelfHostedRunnerFromRepo: [
      "DELETE /repos/{owner}/{repo}/actions/runners/{runner_id}"
    ],
    deleteWorkflowRun: ["DELETE /repos/{owner}/{repo}/actions/runs/{run_id}"],
    deleteWorkflowRunLogs: [
      "DELETE /repos/{owner}/{repo}/actions/runs/{run_id}/logs"
    ],
    disableSelectedRepositoryGithubActionsOrganization: [
      "DELETE /orgs/{org}/actions/permissions/repositories/{repository_id}"
    ],
    disableWorkflow: [
      "PUT /repos/{owner}/{repo}/actions/workflows/{workflow_id}/disable"
    ],
    downloadArtifact: [
      "GET /repos/{owner}/{repo}/actions/artifacts/{artifact_id}/{archive_format}"
    ],
    downloadJobLogsForWorkflowRun: [
      "GET /repos/{owner}/{repo}/actions/jobs/{job_id}/logs"
    ],
    downloadWorkflowRunAttemptLogs: [
      "GET /repos/{owner}/{repo}/actions/runs/{run_id}/attempts/{attempt_number}/logs"
    ],
    downloadWorkflowRunLogs: [
      "GET /repos/{owner}/{repo}/actions/runs/{run_id}/logs"
    ],
    enableSelectedRepositoryGithubActionsOrganization: [
      "PUT /orgs/{org}/actions/permissions/repositories/{repository_id}"
    ],
    enableWorkflow: [
      "PUT /repos/{owner}/{repo}/actions/workflows/{workflow_id}/enable"
    ],
    forceCancelWorkflowRun: [
      "POST /repos/{owner}/{repo}/actions/runs/{run_id}/force-cancel"
    ],
    generateRunnerJitconfigForOrg: [
      "POST /orgs/{org}/actions/runners/generate-jitconfig"
    ],
    generateRunnerJitconfigForRepo: [
      "POST /repos/{owner}/{repo}/actions/runners/generate-jitconfig"
    ],
    getActionsCacheList: ["GET /repos/{owner}/{repo}/actions/caches"],
    getActionsCacheUsage: ["GET /repos/{owner}/{repo}/actions/cache/usage"],
    getActionsCacheUsageByRepoForOrg: [
      "GET /orgs/{org}/actions/cache/usage-by-repository"
    ],
    getActionsCacheUsageForOrg: ["GET /orgs/{org}/actions/cache/usage"],
    getAllowedActionsOrganization: [
      "GET /orgs/{org}/actions/permissions/selected-actions"
    ],
    getAllowedActionsRepository: [
      "GET /repos/{owner}/{repo}/actions/permissions/selected-actions"
    ],
    getArtifact: ["GET /repos/{owner}/{repo}/actions/artifacts/{artifact_id}"],
    getCustomOidcSubClaimForRepo: [
      "GET /repos/{owner}/{repo}/actions/oidc/customization/sub"
    ],
    getEnvironmentPublicKey: [
      "GET /repos/{owner}/{repo}/environments/{environment_name}/secrets/public-key"
    ],
    getEnvironmentSecret: [
      "GET /repos/{owner}/{repo}/environments/{environment_name}/secrets/{secret_name}"
    ],
    getEnvironmentVariable: [
      "GET /repos/{owner}/{repo}/environments/{environment_name}/variables/{name}"
    ],
    getGithubActionsDefaultWorkflowPermissionsOrganization: [
      "GET /orgs/{org}/actions/permissions/workflow"
    ],
    getGithubActionsDefaultWorkflowPermissionsRepository: [
      "GET /repos/{owner}/{repo}/actions/permissions/workflow"
    ],
    getGithubActionsPermissionsOrganization: [
      "GET /orgs/{org}/actions/permissions"
    ],
    getGithubActionsPermissionsRepository: [
      "GET /repos/{owner}/{repo}/actions/permissions"
    ],
    getHostedRunnerForOrg: [
      "GET /orgs/{org}/actions/hosted-runners/{hosted_runner_id}"
    ],
    getHostedRunnersGithubOwnedImagesForOrg: [
      "GET /orgs/{org}/actions/hosted-runners/images/github-owned"
    ],
    getHostedRunnersLimitsForOrg: [
      "GET /orgs/{org}/actions/hosted-runners/limits"
    ],
    getHostedRunnersMachineSpecsForOrg: [
      "GET /orgs/{org}/actions/hosted-runners/machine-sizes"
    ],
    getHostedRunnersPartnerImagesForOrg: [
      "GET /orgs/{org}/actions/hosted-runners/images/partner"
    ],
    getHostedRunnersPlatformsForOrg: [
      "GET /orgs/{org}/actions/hosted-runners/platforms"
    ],
    getJobForWorkflowRun: ["GET /repos/{owner}/{repo}/actions/jobs/{job_id}"],
    getOrgPublicKey: ["GET /orgs/{org}/actions/secrets/public-key"],
    getOrgSecret: ["GET /orgs/{org}/actions/secrets/{secret_name}"],
    getOrgVariable: ["GET /orgs/{org}/actions/variables/{name}"],
    getPendingDeploymentsForRun: [
      "GET /repos/{owner}/{repo}/actions/runs/{run_id}/pending_deployments"
    ],
    getRepoPermissions: [
      "GET /repos/{owner}/{repo}/actions/permissions",
      {},
      { renamed: ["actions", "getGithubActionsPermissionsRepository"] }
    ],
    getRepoPublicKey: ["GET /repos/{owner}/{repo}/actions/secrets/public-key"],
    getRepoSecret: ["GET /repos/{owner}/{repo}/actions/secrets/{secret_name}"],
    getRepoVariable: ["GET /repos/{owner}/{repo}/actions/variables/{name}"],
    getReviewsForRun: [
      "GET /repos/{owner}/{repo}/actions/runs/{run_id}/approvals"
    ],
    getSelfHostedRunnerForOrg: ["GET /orgs/{org}/actions/runners/{runner_id}"],
    getSelfHostedRunnerForRepo: [
      "GET /repos/{owner}/{repo}/actions/runners/{runner_id}"
    ],
    getWorkflow: ["GET /repos/{owner}/{repo}/actions/workflows/{workflow_id}"],
    getWorkflowAccessToRepository: [
      "GET /repos/{owner}/{repo}/actions/permissions/access"
    ],
    getWorkflowRun: ["GET /repos/{owner}/{repo}/actions/runs/{run_id}"],
    getWorkflowRunAttempt: [
      "GET /repos/{owner}/{repo}/actions/runs/{run_id}/attempts/{attempt_number}"
    ],
    getWorkflowRunUsage: [
      "GET /repos/{owner}/{repo}/actions/runs/{run_id}/timing"
    ],
    getWorkflowUsage: [
      "GET /repos/{owner}/{repo}/actions/workflows/{workflow_id}/timing"
    ],
    listArtifactsForRepo: ["GET /repos/{owner}/{repo}/actions/artifacts"],
    listEnvironmentSecrets: [
      "GET /repos/{owner}/{repo}/environments/{environment_name}/secrets"
    ],
    listEnvironmentVariables: [
      "GET /repos/{owner}/{repo}/environments/{environment_name}/variables"
    ],
    listGithubHostedRunnersInGroupForOrg: [
      "GET /orgs/{org}/actions/runner-groups/{runner_group_id}/hosted-runners"
    ],
    listHostedRunnersForOrg: ["GET /orgs/{org}/actions/hosted-runners"],
    listJobsForWorkflowRun: [
      "GET /repos/{owner}/{repo}/actions/runs/{run_id}/jobs"
    ],
    listJobsForWorkflowRunAttempt: [
      "GET /repos/{owner}/{repo}/actions/runs/{run_id}/attempts/{attempt_number}/jobs"
    ],
    listLabelsForSelfHostedRunnerForOrg: [
      "GET /orgs/{org}/actions/runners/{runner_id}/labels"
    ],
    listLabelsForSelfHostedRunnerForRepo: [
      "GET /repos/{owner}/{repo}/actions/runners/{runner_id}/labels"
    ],
    listOrgSecrets: ["GET /orgs/{org}/actions/secrets"],
    listOrgVariables: ["GET /orgs/{org}/actions/variables"],
    listRepoOrganizationSecrets: [
      "GET /repos/{owner}/{repo}/actions/organization-secrets"
    ],
    listRepoOrganizationVariables: [
      "GET /repos/{owner}/{repo}/actions/organization-variables"
    ],
    listRepoSecrets: ["GET /repos/{owner}/{repo}/actions/secrets"],
    listRepoVariables: ["GET /repos/{owner}/{repo}/actions/variables"],
    listRepoWorkflows: ["GET /repos/{owner}/{repo}/actions/workflows"],
    listRunnerApplicationsForOrg: ["GET /orgs/{org}/actions/runners/downloads"],
    listRunnerApplicationsForRepo: [
      "GET /repos/{owner}/{repo}/actions/runners/downloads"
    ],
    listSelectedReposForOrgSecret: [
      "GET /orgs/{org}/actions/secrets/{secret_name}/repositories"
    ],
    listSelectedReposForOrgVariable: [
      "GET /orgs/{org}/actions/variables/{name}/repositories"
    ],
    listSelectedRepositoriesEnabledGithubActionsOrganization: [
      "GET /orgs/{org}/actions/permissions/repositories"
    ],
    listSelfHostedRunnersForOrg: ["GET /orgs/{org}/actions/runners"],
    listSelfHostedRunnersForRepo: ["GET /repos/{owner}/{repo}/actions/runners"],
    listWorkflowRunArtifacts: [
      "GET /repos/{owner}/{repo}/actions/runs/{run_id}/artifacts"
    ],
    listWorkflowRuns: [
      "GET /repos/{owner}/{repo}/actions/workflows/{workflow_id}/runs"
    ],
    listWorkflowRunsForRepo: ["GET /repos/{owner}/{repo}/actions/runs"],
    reRunJobForWorkflowRun: [
      "POST /repos/{owner}/{repo}/actions/jobs/{job_id}/rerun"
    ],
    reRunWorkflow: ["POST /repos/{owner}/{repo}/actions/runs/{run_id}/rerun"],
    reRunWorkflowFailedJobs: [
      "POST /repos/{owner}/{repo}/actions/runs/{run_id}/rerun-failed-jobs"
    ],
    removeAllCustomLabelsFromSelfHostedRunnerForOrg: [
      "DELETE /orgs/{org}/actions/runners/{runner_id}/labels"
    ],
    removeAllCustomLabelsFromSelfHostedRunnerForRepo: [
      "DELETE /repos/{owner}/{repo}/actions/runners/{runner_id}/labels"
    ],
    removeCustomLabelFromSelfHostedRunnerForOrg: [
      "DELETE /orgs/{org}/actions/runners/{runner_id}/labels/{name}"
    ],
    removeCustomLabelFromSelfHostedRunnerForRepo: [
      "DELETE /repos/{owner}/{repo}/actions/runners/{runner_id}/labels/{name}"
    ],
    removeSelectedRepoFromOrgSecret: [
      "DELETE /orgs/{org}/actions/secrets/{secret_name}/repositories/{repository_id}"
    ],
    removeSelectedRepoFromOrgVariable: [
      "DELETE /orgs/{org}/actions/variables/{name}/repositories/{repository_id}"
    ],
    reviewCustomGatesForRun: [
      "POST /repos/{owner}/{repo}/actions/runs/{run_id}/deployment_protection_rule"
    ],
    reviewPendingDeploymentsForRun: [
      "POST /repos/{owner}/{repo}/actions/runs/{run_id}/pending_deployments"
    ],
    setAllowedActionsOrganization: [
      "PUT /orgs/{org}/actions/permissions/selected-actions"
    ],
    setAllowedActionsRepository: [
      "PUT /repos/{owner}/{repo}/actions/permissions/selected-actions"
    ],
    setCustomLabelsForSelfHostedRunnerForOrg: [
      "PUT /orgs/{org}/actions/runners/{runner_id}/labels"
    ],
    setCustomLabelsForSelfHostedRunnerForRepo: [
      "PUT /repos/{owner}/{repo}/actions/runners/{runner_id}/labels"
    ],
    setCustomOidcSubClaimForRepo: [
      "PUT /repos/{owner}/{repo}/actions/oidc/customization/sub"
    ],
    setGithubActionsDefaultWorkflowPermissionsOrganization: [
      "PUT /orgs/{org}/actions/permissions/workflow"
    ],
    setGithubActionsDefaultWorkflowPermissionsRepository: [
      "PUT /repos/{owner}/{repo}/actions/permissions/workflow"
    ],
    setGithubActionsPermissionsOrganization: [
      "PUT /orgs/{org}/actions/permissions"
    ],
    setGithubActionsPermissionsRepository: [
      "PUT /repos/{owner}/{repo}/actions/permissions"
    ],
    setSelectedReposForOrgSecret: [
      "PUT /orgs/{org}/actions/secrets/{secret_name}/repositories"
    ],
    setSelectedReposForOrgVariable: [
      "PUT /orgs/{org}/actions/variables/{name}/repositories"
    ],
    setSelectedRepositoriesEnabledGithubActionsOrganization: [
      "PUT /orgs/{org}/actions/permissions/repositories"
    ],
    setWorkflowAccessToRepository: [
      "PUT /repos/{owner}/{repo}/actions/permissions/access"
    ],
    updateEnvironmentVariable: [
      "PATCH /repos/{owner}/{repo}/environments/{environment_name}/variables/{name}"
    ],
    updateHostedRunnerForOrg: [
      "PATCH /orgs/{org}/actions/hosted-runners/{hosted_runner_id}"
    ],
    updateOrgVariable: ["PATCH /orgs/{org}/actions/variables/{name}"],
    updateRepoVariable: [
      "PATCH /repos/{owner}/{repo}/actions/variables/{name}"
    ]
  },
  activity: {
    checkRepoIsStarredByAuthenticatedUser: ["GET /user/starred/{owner}/{repo}"],
    deleteRepoSubscription: ["DELETE /repos/{owner}/{repo}/subscription"],
    deleteThreadSubscription: [
      "DELETE /notifications/threads/{thread_id}/subscription"
    ],
    getFeeds: ["GET /feeds"],
    getRepoSubscription: ["GET /repos/{owner}/{repo}/subscription"],
    getThread: ["GET /notifications/threads/{thread_id}"],
    getThreadSubscriptionForAuthenticatedUser: [
      "GET /notifications/threads/{thread_id}/subscription"
    ],
    listEventsForAuthenticatedUser: ["GET /users/{username}/events"],
    listNotificationsForAuthenticatedUser: ["GET /notifications"],
    listOrgEventsForAuthenticatedUser: [
      "GET /users/{username}/events/orgs/{org}"
    ],
    listPublicEvents: ["GET /events"],
    listPublicEventsForRepoNetwork: ["GET /networks/{owner}/{repo}/events"],
    listPublicEventsForUser: ["GET /users/{username}/events/public"],
    listPublicOrgEvents: ["GET /orgs/{org}/events"],
    listReceivedEventsForUser: ["GET /users/{username}/received_events"],
    listReceivedPublicEventsForUser: [
      "GET /users/{username}/received_events/public"
    ],
    listRepoEvents: ["GET /repos/{owner}/{repo}/events"],
    listRepoNotificationsForAuthenticatedUser: [
      "GET /repos/{owner}/{repo}/notifications"
    ],
    listReposStarredByAuthenticatedUser: ["GET /user/starred"],
    listReposStarredByUser: ["GET /users/{username}/starred"],
    listReposWatchedByUser: ["GET /users/{username}/subscriptions"],
    listStargazersForRepo: ["GET /repos/{owner}/{repo}/stargazers"],
    listWatchedReposForAuthenticatedUser: ["GET /user/subscriptions"],
    listWatchersForRepo: ["GET /repos/{owner}/{repo}/subscribers"],
    markNotificationsAsRead: ["PUT /notifications"],
    markRepoNotificationsAsRead: ["PUT /repos/{owner}/{repo}/notifications"],
    markThreadAsDone: ["DELETE /notifications/threads/{thread_id}"],
    markThreadAsRead: ["PATCH /notifications/threads/{thread_id}"],
    setRepoSubscription: ["PUT /repos/{owner}/{repo}/subscription"],
    setThreadSubscription: [
      "PUT /notifications/threads/{thread_id}/subscription"
    ],
    starRepoForAuthenticatedUser: ["PUT /user/starred/{owner}/{repo}"],
    unstarRepoForAuthenticatedUser: ["DELETE /user/starred/{owner}/{repo}"]
  },
  apps: {
    addRepoToInstallation: [
      "PUT /user/installations/{installation_id}/repositories/{repository_id}",
      {},
      { renamed: ["apps", "addRepoToInstallationForAuthenticatedUser"] }
    ],
    addRepoToInstallationForAuthenticatedUser: [
      "PUT /user/installations/{installation_id}/repositories/{repository_id}"
    ],
    checkToken: ["POST /applications/{client_id}/token"],
    createFromManifest: ["POST /app-manifests/{code}/conversions"],
    createInstallationAccessToken: [
      "POST /app/installations/{installation_id}/access_tokens"
    ],
    deleteAuthorization: ["DELETE /applications/{client_id}/grant"],
    deleteInstallation: ["DELETE /app/installations/{installation_id}"],
    deleteToken: ["DELETE /applications/{client_id}/token"],
    getAuthenticated: ["GET /app"],
    getBySlug: ["GET /apps/{app_slug}"],
    getInstallation: ["GET /app/installations/{installation_id}"],
    getOrgInstallation: ["GET /orgs/{org}/installation"],
    getRepoInstallation: ["GET /repos/{owner}/{repo}/installation"],
    getSubscriptionPlanForAccount: [
      "GET /marketplace_listing/accounts/{account_id}"
    ],
    getSubscriptionPlanForAccountStubbed: [
      "GET /marketplace_listing/stubbed/accounts/{account_id}"
    ],
    getUserInstallation: ["GET /users/{username}/installation"],
    getWebhookConfigForApp: ["GET /app/hook/config"],
    getWebhookDelivery: ["GET /app/hook/deliveries/{delivery_id}"],
    listAccountsForPlan: ["GET /marketplace_listing/plans/{plan_id}/accounts"],
    listAccountsForPlanStubbed: [
      "GET /marketplace_listing/stubbed/plans/{plan_id}/accounts"
    ],
    listInstallationReposForAuthenticatedUser: [
      "GET /user/installations/{installation_id}/repositories"
    ],
    listInstallationRequestsForAuthenticatedApp: [
      "GET /app/installation-requests"
    ],
    listInstallations: ["GET /app/installations"],
    listInstallationsForAuthenticatedUser: ["GET /user/installations"],
    listPlans: ["GET /marketplace_listing/plans"],
    listPlansStubbed: ["GET /marketplace_listing/stubbed/plans"],
    listReposAccessibleToInstallation: ["GET /installation/repositories"],
    listSubscriptionsForAuthenticatedUser: ["GET /user/marketplace_purchases"],
    listSubscriptionsForAuthenticatedUserStubbed: [
      "GET /user/marketplace_purchases/stubbed"
    ],
    listWebhookDeliveries: ["GET /app/hook/deliveries"],
    redeliverWebhookDelivery: [
      "POST /app/hook/deliveries/{delivery_id}/attempts"
    ],
    removeRepoFromInstallation: [
      "DELETE /user/installations/{installation_id}/repositories/{repository_id}",
      {},
      { renamed: ["apps", "removeRepoFromInstallationForAuthenticatedUser"] }
    ],
    removeRepoFromInstallationForAuthenticatedUser: [
      "DELETE /user/installations/{installation_id}/repositories/{repository_id}"
    ],
    resetToken: ["PATCH /applications/{client_id}/token"],
    revokeInstallationAccessToken: ["DELETE /installation/token"],
    scopeToken: ["POST /applications/{client_id}/token/scoped"],
    suspendInstallation: ["PUT /app/installations/{installation_id}/suspended"],
    unsuspendInstallation: [
      "DELETE /app/installations/{installation_id}/suspended"
    ],
    updateWebhookConfigForApp: ["PATCH /app/hook/config"]
  },
  billing: {
    getGithubActionsBillingOrg: ["GET /orgs/{org}/settings/billing/actions"],
    getGithubActionsBillingUser: [
      "GET /users/{username}/settings/billing/actions"
    ],
    getGithubBillingUsageReportOrg: [
      "GET /organizations/{org}/settings/billing/usage"
    ],
    getGithubBillingUsageReportUser: [
      "GET /users/{username}/settings/billing/usage"
    ],
    getGithubPackagesBillingOrg: ["GET /orgs/{org}/settings/billing/packages"],
    getGithubPackagesBillingUser: [
      "GET /users/{username}/settings/billing/packages"
    ],
    getSharedStorageBillingOrg: [
      "GET /orgs/{org}/settings/billing/shared-storage"
    ],
    getSharedStorageBillingUser: [
      "GET /users/{username}/settings/billing/shared-storage"
    ]
  },
  campaigns: {
    createCampaign: ["POST /orgs/{org}/campaigns"],
    deleteCampaign: ["DELETE /orgs/{org}/campaigns/{campaign_number}"],
    getCampaignSummary: ["GET /orgs/{org}/campaigns/{campaign_number}"],
    listOrgCampaigns: ["GET /orgs/{org}/campaigns"],
    updateCampaign: ["PATCH /orgs/{org}/campaigns/{campaign_number}"]
  },
  checks: {
    create: ["POST /repos/{owner}/{repo}/check-runs"],
    createSuite: ["POST /repos/{owner}/{repo}/check-suites"],
    get: ["GET /repos/{owner}/{repo}/check-runs/{check_run_id}"],
    getSuite: ["GET /repos/{owner}/{repo}/check-suites/{check_suite_id}"],
    listAnnotations: [
      "GET /repos/{owner}/{repo}/check-runs/{check_run_id}/annotations"
    ],
    listForRef: ["GET /repos/{owner}/{repo}/commits/{ref}/check-runs"],
    listForSuite: [
      "GET /repos/{owner}/{repo}/check-suites/{check_suite_id}/check-runs"
    ],
    listSuitesForRef: ["GET /repos/{owner}/{repo}/commits/{ref}/check-suites"],
    rerequestRun: [
      "POST /repos/{owner}/{repo}/check-runs/{check_run_id}/rerequest"
    ],
    rerequestSuite: [
      "POST /repos/{owner}/{repo}/check-suites/{check_suite_id}/rerequest"
    ],
    setSuitesPreferences: [
      "PATCH /repos/{owner}/{repo}/check-suites/preferences"
    ],
    update: ["PATCH /repos/{owner}/{repo}/check-runs/{check_run_id}"]
  },
  codeScanning: {
    commitAutofix: [
      "POST /repos/{owner}/{repo}/code-scanning/alerts/{alert_number}/autofix/commits"
    ],
    createAutofix: [
      "POST /repos/{owner}/{repo}/code-scanning/alerts/{alert_number}/autofix"
    ],
    createVariantAnalysis: [
      "POST /repos/{owner}/{repo}/code-scanning/codeql/variant-analyses"
    ],
    deleteAnalysis: [
      "DELETE /repos/{owner}/{repo}/code-scanning/analyses/{analysis_id}{?confirm_delete}"
    ],
    deleteCodeqlDatabase: [
      "DELETE /repos/{owner}/{repo}/code-scanning/codeql/databases/{language}"
    ],
    getAlert: [
      "GET /repos/{owner}/{repo}/code-scanning/alerts/{alert_number}",
      {},
      { renamedParameters: { alert_id: "alert_number" } }
    ],
    getAnalysis: [
      "GET /repos/{owner}/{repo}/code-scanning/analyses/{analysis_id}"
    ],
    getAutofix: [
      "GET /repos/{owner}/{repo}/code-scanning/alerts/{alert_number}/autofix"
    ],
    getCodeqlDatabase: [
      "GET /repos/{owner}/{repo}/code-scanning/codeql/databases/{language}"
    ],
    getDefaultSetup: ["GET /repos/{owner}/{repo}/code-scanning/default-setup"],
    getSarif: ["GET /repos/{owner}/{repo}/code-scanning/sarifs/{sarif_id}"],
    getVariantAnalysis: [
      "GET /repos/{owner}/{repo}/code-scanning/codeql/variant-analyses/{codeql_variant_analysis_id}"
    ],
    getVariantAnalysisRepoTask: [
      "GET /repos/{owner}/{repo}/code-scanning/codeql/variant-analyses/{codeql_variant_analysis_id}/repos/{repo_owner}/{repo_name}"
    ],
    listAlertInstances: [
      "GET /repos/{owner}/{repo}/code-scanning/alerts/{alert_number}/instances"
    ],
    listAlertsForOrg: ["GET /orgs/{org}/code-scanning/alerts"],
    listAlertsForRepo: ["GET /repos/{owner}/{repo}/code-scanning/alerts"],
    listAlertsInstances: [
      "GET /repos/{owner}/{repo}/code-scanning/alerts/{alert_number}/instances",
      {},
      { renamed: ["codeScanning", "listAlertInstances"] }
    ],
    listCodeqlDatabases: [
      "GET /repos/{owner}/{repo}/code-scanning/codeql/databases"
    ],
    listRecentAnalyses: ["GET /repos/{owner}/{repo}/code-scanning/analyses"],
    updateAlert: [
      "PATCH /repos/{owner}/{repo}/code-scanning/alerts/{alert_number}"
    ],
    updateDefaultSetup: [
      "PATCH /repos/{owner}/{repo}/code-scanning/default-setup"
    ],
    uploadSarif: ["POST /repos/{owner}/{repo}/code-scanning/sarifs"]
  },
  codeSecurity: {
    attachConfiguration: [
      "POST /orgs/{org}/code-security/configurations/{configuration_id}/attach"
    ],
    attachEnterpriseConfiguration: [
      "POST /enterprises/{enterprise}/code-security/configurations/{configuration_id}/attach"
    ],
    createConfiguration: ["POST /orgs/{org}/code-security/configurations"],
    createConfigurationForEnterprise: [
      "POST /enterprises/{enterprise}/code-security/configurations"
    ],
    deleteConfiguration: [
      "DELETE /orgs/{org}/code-security/configurations/{configuration_id}"
    ],
    deleteConfigurationForEnterprise: [
      "DELETE /enterprises/{enterprise}/code-security/configurations/{configuration_id}"
    ],
    detachConfiguration: [
      "DELETE /orgs/{org}/code-security/configurations/detach"
    ],
    getConfiguration: [
      "GET /orgs/{org}/code-security/configurations/{configuration_id}"
    ],
    getConfigurationForRepository: [
      "GET /repos/{owner}/{repo}/code-security-configuration"
    ],
    getConfigurationsForEnterprise: [
      "GET /enterprises/{enterprise}/code-security/configurations"
    ],
    getConfigurationsForOrg: ["GET /orgs/{org}/code-security/configurations"],
    getDefaultConfigurations: [
      "GET /orgs/{org}/code-security/configurations/defaults"
    ],
    getDefaultConfigurationsForEnterprise: [
      "GET /enterprises/{enterprise}/code-security/configurations/defaults"
    ],
    getRepositoriesForConfiguration: [
      "GET /orgs/{org}/code-security/configurations/{configuration_id}/repositories"
    ],
    getRepositoriesForEnterpriseConfiguration: [
      "GET /enterprises/{enterprise}/code-security/configurations/{configuration_id}/repositories"
    ],
    getSingleConfigurationForEnterprise: [
      "GET /enterprises/{enterprise}/code-security/configurations/{configuration_id}"
    ],
    setConfigurationAsDefault: [
      "PUT /orgs/{org}/code-security/configurations/{configuration_id}/defaults"
    ],
    setConfigurationAsDefaultForEnterprise: [
      "PUT /enterprises/{enterprise}/code-security/configurations/{configuration_id}/defaults"
    ],
    updateConfiguration: [
      "PATCH /orgs/{org}/code-security/configurations/{configuration_id}"
    ],
    updateEnterpriseConfiguration: [
      "PATCH /enterprises/{enterprise}/code-security/configurations/{configuration_id}"
    ]
  },
  codesOfConduct: {
    getAllCodesOfConduct: ["GET /codes_of_conduct"],
    getConductCode: ["GET /codes_of_conduct/{key}"]
  },
  codespaces: {
    addRepositoryForSecretForAuthenticatedUser: [
      "PUT /user/codespaces/secrets/{secret_name}/repositories/{repository_id}"
    ],
    addSelectedRepoToOrgSecret: [
      "PUT /orgs/{org}/codespaces/secrets/{secret_name}/repositories/{repository_id}"
    ],
    checkPermissionsForDevcontainer: [
      "GET /repos/{owner}/{repo}/codespaces/permissions_check"
    ],
    codespaceMachinesForAuthenticatedUser: [
      "GET /user/codespaces/{codespace_name}/machines"
    ],
    createForAuthenticatedUser: ["POST /user/codespaces"],
    createOrUpdateOrgSecret: [
      "PUT /orgs/{org}/codespaces/secrets/{secret_name}"
    ],
    createOrUpdateRepoSecret: [
      "PUT /repos/{owner}/{repo}/codespaces/secrets/{secret_name}"
    ],
    createOrUpdateSecretForAuthenticatedUser: [
      "PUT /user/codespaces/secrets/{secret_name}"
    ],
    createWithPrForAuthenticatedUser: [
      "POST /repos/{owner}/{repo}/pulls/{pull_number}/codespaces"
    ],
    createWithRepoForAuthenticatedUser: [
      "POST /repos/{owner}/{repo}/codespaces"
    ],
    deleteForAuthenticatedUser: ["DELETE /user/codespaces/{codespace_name}"],
    deleteFromOrganization: [
      "DELETE /orgs/{org}/members/{username}/codespaces/{codespace_name}"
    ],
    deleteOrgSecret: ["DELETE /orgs/{org}/codespaces/secrets/{secret_name}"],
    deleteRepoSecret: [
      "DELETE /repos/{owner}/{repo}/codespaces/secrets/{secret_name}"
    ],
    deleteSecretForAuthenticatedUser: [
      "DELETE /user/codespaces/secrets/{secret_name}"
    ],
    exportForAuthenticatedUser: [
      "POST /user/codespaces/{codespace_name}/exports"
    ],
    getCodespacesForUserInOrg: [
      "GET /orgs/{org}/members/{username}/codespaces"
    ],
    getExportDetailsForAuthenticatedUser: [
      "GET /user/codespaces/{codespace_name}/exports/{export_id}"
    ],
    getForAuthenticatedUser: ["GET /user/codespaces/{codespace_name}"],
    getOrgPublicKey: ["GET /orgs/{org}/codespaces/secrets/public-key"],
    getOrgSecret: ["GET /orgs/{org}/codespaces/secrets/{secret_name}"],
    getPublicKeyForAuthenticatedUser: [
      "GET /user/codespaces/secrets/public-key"
    ],
    getRepoPublicKey: [
      "GET /repos/{owner}/{repo}/codespaces/secrets/public-key"
    ],
    getRepoSecret: [
      "GET /repos/{owner}/{repo}/codespaces/secrets/{secret_name}"
    ],
    getSecretForAuthenticatedUser: [
      "GET /user/codespaces/secrets/{secret_name}"
    ],
    listDevcontainersInRepositoryForAuthenticatedUser: [
      "GET /repos/{owner}/{repo}/codespaces/devcontainers"
    ],
    listForAuthenticatedUser: ["GET /user/codespaces"],
    listInOrganization: [
      "GET /orgs/{org}/codespaces",
      {},
      { renamedParameters: { org_id: "org" } }
    ],
    listInRepositoryForAuthenticatedUser: [
      "GET /repos/{owner}/{repo}/codespaces"
    ],
    listOrgSecrets: ["GET /orgs/{org}/codespaces/secrets"],
    listRepoSecrets: ["GET /repos/{owner}/{repo}/codespaces/secrets"],
    listRepositoriesForSecretForAuthenticatedUser: [
      "GET /user/codespaces/secrets/{secret_name}/repositories"
    ],
    listSecretsForAuthenticatedUser: ["GET /user/codespaces/secrets"],
    listSelectedReposForOrgSecret: [
      "GET /orgs/{org}/codespaces/secrets/{secret_name}/repositories"
    ],
    preFlightWithRepoForAuthenticatedUser: [
      "GET /repos/{owner}/{repo}/codespaces/new"
    ],
    publishForAuthenticatedUser: [
      "POST /user/codespaces/{codespace_name}/publish"
    ],
    removeRepositoryForSecretForAuthenticatedUser: [
      "DELETE /user/codespaces/secrets/{secret_name}/repositories/{repository_id}"
    ],
    removeSelectedRepoFromOrgSecret: [
      "DELETE /orgs/{org}/codespaces/secrets/{secret_name}/repositories/{repository_id}"
    ],
    repoMachinesForAuthenticatedUser: [
      "GET /repos/{owner}/{repo}/codespaces/machines"
    ],
    setRepositoriesForSecretForAuthenticatedUser: [
      "PUT /user/codespaces/secrets/{secret_name}/repositories"
    ],
    setSelectedReposForOrgSecret: [
      "PUT /orgs/{org}/codespaces/secrets/{secret_name}/repositories"
    ],
    startForAuthenticatedUser: ["POST /user/codespaces/{codespace_name}/start"],
    stopForAuthenticatedUser: ["POST /user/codespaces/{codespace_name}/stop"],
    stopInOrganization: [
      "POST /orgs/{org}/members/{username}/codespaces/{codespace_name}/stop"
    ],
    updateForAuthenticatedUser: ["PATCH /user/codespaces/{codespace_name}"]
  },
  copilot: {
    addCopilotSeatsForTeams: [
      "POST /orgs/{org}/copilot/billing/selected_teams"
    ],
    addCopilotSeatsForUsers: [
      "POST /orgs/{org}/copilot/billing/selected_users"
    ],
    cancelCopilotSeatAssignmentForTeams: [
      "DELETE /orgs/{org}/copilot/billing/selected_teams"
    ],
    cancelCopilotSeatAssignmentForUsers: [
      "DELETE /orgs/{org}/copilot/billing/selected_users"
    ],
    copilotMetricsForOrganization: ["GET /orgs/{org}/copilot/metrics"],
    copilotMetricsForTeam: ["GET /orgs/{org}/team/{team_slug}/copilot/metrics"],
    getCopilotOrganizationDetails: ["GET /orgs/{org}/copilot/billing"],
    getCopilotSeatDetailsForUser: [
      "GET /orgs/{org}/members/{username}/copilot"
    ],
    listCopilotSeats: ["GET /orgs/{org}/copilot/billing/seats"]
  },
  credentials: { revoke: ["POST /credentials/revoke"] },
  dependabot: {
    addSelectedRepoToOrgSecret: [
      "PUT /orgs/{org}/dependabot/secrets/{secret_name}/repositories/{repository_id}"
    ],
    createOrUpdateOrgSecret: [
      "PUT /orgs/{org}/dependabot/secrets/{secret_name}"
    ],
    createOrUpdateRepoSecret: [
      "PUT /repos/{owner}/{repo}/dependabot/secrets/{secret_name}"
    ],
    deleteOrgSecret: ["DELETE /orgs/{org}/dependabot/secrets/{secret_name}"],
    deleteRepoSecret: [
      "DELETE /repos/{owner}/{repo}/dependabot/secrets/{secret_name}"
    ],
    getAlert: ["GET /repos/{owner}/{repo}/dependabot/alerts/{alert_number}"],
    getOrgPublicKey: ["GET /orgs/{org}/dependabot/secrets/public-key"],
    getOrgSecret: ["GET /orgs/{org}/dependabot/secrets/{secret_name}"],
    getRepoPublicKey: [
      "GET /repos/{owner}/{repo}/dependabot/secrets/public-key"
    ],
    getRepoSecret: [
      "GET /repos/{owner}/{repo}/dependabot/secrets/{secret_name}"
    ],
    listAlertsForEnterprise: [
      "GET /enterprises/{enterprise}/dependabot/alerts"
    ],
    listAlertsForOrg: ["GET /orgs/{org}/dependabot/alerts"],
    listAlertsForRepo: ["GET /repos/{owner}/{repo}/dependabot/alerts"],
    listOrgSecrets: ["GET /orgs/{org}/dependabot/secrets"],
    listRepoSecrets: ["GET /repos/{owner}/{repo}/dependabot/secrets"],
    listSelectedReposForOrgSecret: [
      "GET /orgs/{org}/dependabot/secrets/{secret_name}/repositories"
    ],
    removeSelectedRepoFromOrgSecret: [
      "DELETE /orgs/{org}/dependabot/secrets/{secret_name}/repositories/{repository_id}"
    ],
    setSelectedReposForOrgSecret: [
      "PUT /orgs/{org}/dependabot/secrets/{secret_name}/repositories"
    ],
    updateAlert: [
      "PATCH /repos/{owner}/{repo}/dependabot/alerts/{alert_number}"
    ]
  },
  dependencyGraph: {
    createRepositorySnapshot: [
      "POST /repos/{owner}/{repo}/dependency-graph/snapshots"
    ],
    diffRange: [
      "GET /repos/{owner}/{repo}/dependency-graph/compare/{basehead}"
    ],
    exportSbom: ["GET /repos/{owner}/{repo}/dependency-graph/sbom"]
  },
  emojis: { get: ["GET /emojis"] },
  gists: {
    checkIsStarred: ["GET /gists/{gist_id}/star"],
    create: ["POST /gists"],
    createComment: ["POST /gists/{gist_id}/comments"],
    delete: ["DELETE /gists/{gist_id}"],
    deleteComment: ["DELETE /gists/{gist_id}/comments/{comment_id}"],
    fork: ["POST /gists/{gist_id}/forks"],
    get: ["GET /gists/{gist_id}"],
    getComment: ["GET /gists/{gist_id}/comments/{comment_id}"],
    getRevision: ["GET /gists/{gist_id}/{sha}"],
    list: ["GET /gists"],
    listComments: ["GET /gists/{gist_id}/comments"],
    listCommits: ["GET /gists/{gist_id}/commits"],
    listForUser: ["GET /users/{username}/gists"],
    listForks: ["GET /gists/{gist_id}/forks"],
    listPublic: ["GET /gists/public"],
    listStarred: ["GET /gists/starred"],
    star: ["PUT /gists/{gist_id}/star"],
    unstar: ["DELETE /gists/{gist_id}/star"],
    update: ["PATCH /gists/{gist_id}"],
    updateComment: ["PATCH /gists/{gist_id}/comments/{comment_id}"]
  },
  git: {
    createBlob: ["POST /repos/{owner}/{repo}/git/blobs"],
    createCommit: ["POST /repos/{owner}/{repo}/git/commits"],
    createRef: ["POST /repos/{owner}/{repo}/git/refs"],
    createTag: ["POST /repos/{owner}/{repo}/git/tags"],
    createTree: ["POST /repos/{owner}/{repo}/git/trees"],
    deleteRef: ["DELETE /repos/{owner}/{repo}/git/refs/{ref}"],
    getBlob: ["GET /repos/{owner}/{repo}/git/blobs/{file_sha}"],
    getCommit: ["GET /repos/{owner}/{repo}/git/commits/{commit_sha}"],
    getRef: ["GET /repos/{owner}/{repo}/git/ref/{ref}"],
    getTag: ["GET /repos/{owner}/{repo}/git/tags/{tag_sha}"],
    getTree: ["GET /repos/{owner}/{repo}/git/trees/{tree_sha}"],
    listMatchingRefs: ["GET /repos/{owner}/{repo}/git/matching-refs/{ref}"],
    updateRef: ["PATCH /repos/{owner}/{repo}/git/refs/{ref}"]
  },
  gitignore: {
    getAllTemplates: ["GET /gitignore/templates"],
    getTemplate: ["GET /gitignore/templates/{name}"]
  },
  hostedCompute: {
    createNetworkConfigurationForOrg: [
      "POST /orgs/{org}/settings/network-configurations"
    ],
    deleteNetworkConfigurationFromOrg: [
      "DELETE /orgs/{org}/settings/network-configurations/{network_configuration_id}"
    ],
    getNetworkConfigurationForOrg: [
      "GET /orgs/{org}/settings/network-configurations/{network_configuration_id}"
    ],
    getNetworkSettingsForOrg: [
      "GET /orgs/{org}/settings/network-settings/{network_settings_id}"
    ],
    listNetworkConfigurationsForOrg: [
      "GET /orgs/{org}/settings/network-configurations"
    ],
    updateNetworkConfigurationForOrg: [
      "PATCH /orgs/{org}/settings/network-configurations/{network_configuration_id}"
    ]
  },
  interactions: {
    getRestrictionsForAuthenticatedUser: ["GET /user/interaction-limits"],
    getRestrictionsForOrg: ["GET /orgs/{org}/interaction-limits"],
    getRestrictionsForRepo: ["GET /repos/{owner}/{repo}/interaction-limits"],
    getRestrictionsForYourPublicRepos: [
      "GET /user/interaction-limits",
      {},
      { renamed: ["interactions", "getRestrictionsForAuthenticatedUser"] }
    ],
    removeRestrictionsForAuthenticatedUser: ["DELETE /user/interaction-limits"],
    removeRestrictionsForOrg: ["DELETE /orgs/{org}/interaction-limits"],
    removeRestrictionsForRepo: [
      "DELETE /repos/{owner}/{repo}/interaction-limits"
    ],
    removeRestrictionsForYourPublicRepos: [
      "DELETE /user/interaction-limits",
      {},
      { renamed: ["interactions", "removeRestrictionsForAuthenticatedUser"] }
    ],
    setRestrictionsForAuthenticatedUser: ["PUT /user/interaction-limits"],
    setRestrictionsForOrg: ["PUT /orgs/{org}/interaction-limits"],
    setRestrictionsForRepo: ["PUT /repos/{owner}/{repo}/interaction-limits"],
    setRestrictionsForYourPublicRepos: [
      "PUT /user/interaction-limits",
      {},
      { renamed: ["interactions", "setRestrictionsForAuthenticatedUser"] }
    ]
  },
  issues: {
    addAssignees: [
      "POST /repos/{owner}/{repo}/issues/{issue_number}/assignees"
    ],
    addLabels: ["POST /repos/{owner}/{repo}/issues/{issue_number}/labels"],
    addSubIssue: [
      "POST /repos/{owner}/{repo}/issues/{issue_number}/sub_issues"
    ],
    checkUserCanBeAssigned: ["GET /repos/{owner}/{repo}/assignees/{assignee}"],
    checkUserCanBeAssignedToIssue: [
      "GET /repos/{owner}/{repo}/issues/{issue_number}/assignees/{assignee}"
    ],
    create: ["POST /repos/{owner}/{repo}/issues"],
    createComment: [
      "POST /repos/{owner}/{repo}/issues/{issue_number}/comments"
    ],
    createLabel: ["POST /repos/{owner}/{repo}/labels"],
    createMilestone: ["POST /repos/{owner}/{repo}/milestones"],
    deleteComment: [
      "DELETE /repos/{owner}/{repo}/issues/comments/{comment_id}"
    ],
    deleteLabel: ["DELETE /repos/{owner}/{repo}/labels/{name}"],
    deleteMilestone: [
      "DELETE /repos/{owner}/{repo}/milestones/{milestone_number}"
    ],
    get: ["GET /repos/{owner}/{repo}/issues/{issue_number}"],
    getComment: ["GET /repos/{owner}/{repo}/issues/comments/{comment_id}"],
    getEvent: ["GET /repos/{owner}/{repo}/issues/events/{event_id}"],
    getLabel: ["GET /repos/{owner}/{repo}/labels/{name}"],
    getMilestone: ["GET /repos/{owner}/{repo}/milestones/{milestone_number}"],
    list: ["GET /issues"],
    listAssignees: ["GET /repos/{owner}/{repo}/assignees"],
    listComments: ["GET /repos/{owner}/{repo}/issues/{issue_number}/comments"],
    listCommentsForRepo: ["GET /repos/{owner}/{repo}/issues/comments"],
    listEvents: ["GET /repos/{owner}/{repo}/issues/{issue_number}/events"],
    listEventsForRepo: ["GET /repos/{owner}/{repo}/issues/events"],
    listEventsForTimeline: [
      "GET /repos/{owner}/{repo}/issues/{issue_number}/timeline"
    ],
    listForAuthenticatedUser: ["GET /user/issues"],
    listForOrg: ["GET /orgs/{org}/issues"],
    listForRepo: ["GET /repos/{owner}/{repo}/issues"],
    listLabelsForMilestone: [
      "GET /repos/{owner}/{repo}/milestones/{milestone_number}/labels"
    ],
    listLabelsForRepo: ["GET /repos/{owner}/{repo}/labels"],
    listLabelsOnIssue: [
      "GET /repos/{owner}/{repo}/issues/{issue_number}/labels"
    ],
    listMilestones: ["GET /repos/{owner}/{repo}/milestones"],
    listSubIssues: [
      "GET /repos/{owner}/{repo}/issues/{issue_number}/sub_issues"
    ],
    lock: ["PUT /repos/{owner}/{repo}/issues/{issue_number}/lock"],
    removeAllLabels: [
      "DELETE /repos/{owner}/{repo}/issues/{issue_number}/labels"
    ],
    removeAssignees: [
      "DELETE /repos/{owner}/{repo}/issues/{issue_number}/assignees"
    ],
    removeLabel: [
      "DELETE /repos/{owner}/{repo}/issues/{issue_number}/labels/{name}"
    ],
    removeSubIssue: [
      "DELETE /repos/{owner}/{repo}/issues/{issue_number}/sub_issue"
    ],
    reprioritizeSubIssue: [
      "PATCH /repos/{owner}/{repo}/issues/{issue_number}/sub_issues/priority"
    ],
    setLabels: ["PUT /repos/{owner}/{repo}/issues/{issue_number}/labels"],
    unlock: ["DELETE /repos/{owner}/{repo}/issues/{issue_number}/lock"],
    update: ["PATCH /repos/{owner}/{repo}/issues/{issue_number}"],
    updateComment: ["PATCH /repos/{owner}/{repo}/issues/comments/{comment_id}"],
    updateLabel: ["PATCH /repos/{owner}/{repo}/labels/{name}"],
    updateMilestone: [
      "PATCH /repos/{owner}/{repo}/milestones/{milestone_number}"
    ]
  },
  licenses: {
    get: ["GET /licenses/{license}"],
    getAllCommonlyUsed: ["GET /licenses"],
    getForRepo: ["GET /repos/{owner}/{repo}/license"]
  },
  markdown: {
    render: ["POST /markdown"],
    renderRaw: [
      "POST /markdown/raw",
      { headers: { "content-type": "text/plain; charset=utf-8" } }
    ]
  },
  meta: {
    get: ["GET /meta"],
    getAllVersions: ["GET /versions"],
    getOctocat: ["GET /octocat"],
    getZen: ["GET /zen"],
    root: ["GET /"]
  },
  migrations: {
    deleteArchiveForAuthenticatedUser: [
      "DELETE /user/migrations/{migration_id}/archive"
    ],
    deleteArchiveForOrg: [
      "DELETE /orgs/{org}/migrations/{migration_id}/archive"
    ],
    downloadArchiveForOrg: [
      "GET /orgs/{org}/migrations/{migration_id}/archive"
    ],
    getArchiveForAuthenticatedUser: [
      "GET /user/migrations/{migration_id}/archive"
    ],
    getStatusForAuthenticatedUser: ["GET /user/migrations/{migration_id}"],
    getStatusForOrg: ["GET /orgs/{org}/migrations/{migration_id}"],
    listForAuthenticatedUser: ["GET /user/migrations"],
    listForOrg: ["GET /orgs/{org}/migrations"],
    listReposForAuthenticatedUser: [
      "GET /user/migrations/{migration_id}/repositories"
    ],
    listReposForOrg: ["GET /orgs/{org}/migrations/{migration_id}/repositories"],
    listReposForUser: [
      "GET /user/migrations/{migration_id}/repositories",
      {},
      { renamed: ["migrations", "listReposForAuthenticatedUser"] }
    ],
    startForAuthenticatedUser: ["POST /user/migrations"],
    startForOrg: ["POST /orgs/{org}/migrations"],
    unlockRepoForAuthenticatedUser: [
      "DELETE /user/migrations/{migration_id}/repos/{repo_name}/lock"
    ],
    unlockRepoForOrg: [
      "DELETE /orgs/{org}/migrations/{migration_id}/repos/{repo_name}/lock"
    ]
  },
  oidc: {
    getOidcCustomSubTemplateForOrg: [
      "GET /orgs/{org}/actions/oidc/customization/sub"
    ],
    updateOidcCustomSubTemplateForOrg: [
      "PUT /orgs/{org}/actions/oidc/customization/sub"
    ]
  },
  orgs: {
    addSecurityManagerTeam: [
      "PUT /orgs/{org}/security-managers/teams/{team_slug}",
      {},
      {
        deprecated: "octokit.rest.orgs.addSecurityManagerTeam() is deprecated, see https://docs.github.com/rest/orgs/security-managers#add-a-security-manager-team"
      }
    ],
    assignTeamToOrgRole: [
      "PUT /orgs/{org}/organization-roles/teams/{team_slug}/{role_id}"
    ],
    assignUserToOrgRole: [
      "PUT /orgs/{org}/organization-roles/users/{username}/{role_id}"
    ],
    blockUser: ["PUT /orgs/{org}/blocks/{username}"],
    cancelInvitation: ["DELETE /orgs/{org}/invitations/{invitation_id}"],
    checkBlockedUser: ["GET /orgs/{org}/blocks/{username}"],
    checkMembershipForUser: ["GET /orgs/{org}/members/{username}"],
    checkPublicMembershipForUser: ["GET /orgs/{org}/public_members/{username}"],
    convertMemberToOutsideCollaborator: [
      "PUT /orgs/{org}/outside_collaborators/{username}"
    ],
    createInvitation: ["POST /orgs/{org}/invitations"],
    createIssueType: ["POST /orgs/{org}/issue-types"],
    createOrUpdateCustomProperties: ["PATCH /orgs/{org}/properties/schema"],
    createOrUpdateCustomPropertiesValuesForRepos: [
      "PATCH /orgs/{org}/properties/values"
    ],
    createOrUpdateCustomProperty: [
      "PUT /orgs/{org}/properties/schema/{custom_property_name}"
    ],
    createWebhook: ["POST /orgs/{org}/hooks"],
    delete: ["DELETE /orgs/{org}"],
    deleteIssueType: ["DELETE /orgs/{org}/issue-types/{issue_type_id}"],
    deleteWebhook: ["DELETE /orgs/{org}/hooks/{hook_id}"],
    enableOrDisableSecurityProductOnAllOrgRepos: [
      "POST /orgs/{org}/{security_product}/{enablement}",
      {},
      {
        deprecated: "octokit.rest.orgs.enableOrDisableSecurityProductOnAllOrgRepos() is deprecated, see https://docs.github.com/rest/orgs/orgs#enable-or-disable-a-security-feature-for-an-organization"
      }
    ],
    get: ["GET /orgs/{org}"],
    getAllCustomProperties: ["GET /orgs/{org}/properties/schema"],
    getCustomProperty: [
      "GET /orgs/{org}/properties/schema/{custom_property_name}"
    ],
    getMembershipForAuthenticatedUser: ["GET /user/memberships/orgs/{org}"],
    getMembershipForUser: ["GET /orgs/{org}/memberships/{username}"],
    getOrgRole: ["GET /orgs/{org}/organization-roles/{role_id}"],
    getOrgRulesetHistory: ["GET /orgs/{org}/rulesets/{ruleset_id}/history"],
    getOrgRulesetVersion: [
      "GET /orgs/{org}/rulesets/{ruleset_id}/history/{version_id}"
    ],
    getWebhook: ["GET /orgs/{org}/hooks/{hook_id}"],
    getWebhookConfigForOrg: ["GET /orgs/{org}/hooks/{hook_id}/config"],
    getWebhookDelivery: [
      "GET /orgs/{org}/hooks/{hook_id}/deliveries/{delivery_id}"
    ],
    list: ["GET /organizations"],
    listAppInstallations: ["GET /orgs/{org}/installations"],
    listAttestations: ["GET /orgs/{org}/attestations/{subject_digest}"],
    listBlockedUsers: ["GET /orgs/{org}/blocks"],
    listCustomPropertiesValuesForRepos: ["GET /orgs/{org}/properties/values"],
    listFailedInvitations: ["GET /orgs/{org}/failed_invitations"],
    listForAuthenticatedUser: ["GET /user/orgs"],
    listForUser: ["GET /users/{username}/orgs"],
    listInvitationTeams: ["GET /orgs/{org}/invitations/{invitation_id}/teams"],
    listIssueTypes: ["GET /orgs/{org}/issue-types"],
    listMembers: ["GET /orgs/{org}/members"],
    listMembershipsForAuthenticatedUser: ["GET /user/memberships/orgs"],
    listOrgRoleTeams: ["GET /orgs/{org}/organization-roles/{role_id}/teams"],
    listOrgRoleUsers: ["GET /orgs/{org}/organization-roles/{role_id}/users"],
    listOrgRoles: ["GET /orgs/{org}/organization-roles"],
    listOrganizationFineGrainedPermissions: [
      "GET /orgs/{org}/organization-fine-grained-permissions"
    ],
    listOutsideCollaborators: ["GET /orgs/{org}/outside_collaborators"],
    listPatGrantRepositories: [
      "GET /orgs/{org}/personal-access-tokens/{pat_id}/repositories"
    ],
    listPatGrantRequestRepositories: [
      "GET /orgs/{org}/personal-access-token-requests/{pat_request_id}/repositories"
    ],
    listPatGrantRequests: ["GET /orgs/{org}/personal-access-token-requests"],
    listPatGrants: ["GET /orgs/{org}/personal-access-tokens"],
    listPendingInvitations: ["GET /orgs/{org}/invitations"],
    listPublicMembers: ["GET /orgs/{org}/public_members"],
    listSecurityManagerTeams: [
      "GET /orgs/{org}/security-managers",
      {},
      {
        deprecated: "octokit.rest.orgs.listSecurityManagerTeams() is deprecated, see https://docs.github.com/rest/orgs/security-managers#list-security-manager-teams"
      }
    ],
    listWebhookDeliveries: ["GET /orgs/{org}/hooks/{hook_id}/deliveries"],
    listWebhooks: ["GET /orgs/{org}/hooks"],
    pingWebhook: ["POST /orgs/{org}/hooks/{hook_id}/pings"],
    redeliverWebhookDelivery: [
      "POST /orgs/{org}/hooks/{hook_id}/deliveries/{delivery_id}/attempts"
    ],
    removeCustomProperty: [
      "DELETE /orgs/{org}/properties/schema/{custom_property_name}"
    ],
    removeMember: ["DELETE /orgs/{org}/members/{username}"],
    removeMembershipForUser: ["DELETE /orgs/{org}/memberships/{username}"],
    removeOutsideCollaborator: [
      "DELETE /orgs/{org}/outside_collaborators/{username}"
    ],
    removePublicMembershipForAuthenticatedUser: [
      "DELETE /orgs/{org}/public_members/{username}"
    ],
    removeSecurityManagerTeam: [
      "DELETE /orgs/{org}/security-managers/teams/{team_slug}",
      {},
      {
        deprecated: "octokit.rest.orgs.removeSecurityManagerTeam() is deprecated, see https://docs.github.com/rest/orgs/security-managers#remove-a-security-manager-team"
      }
    ],
    reviewPatGrantRequest: [
      "POST /orgs/{org}/personal-access-token-requests/{pat_request_id}"
    ],
    reviewPatGrantRequestsInBulk: [
      "POST /orgs/{org}/personal-access-token-requests"
    ],
    revokeAllOrgRolesTeam: [
      "DELETE /orgs/{org}/organization-roles/teams/{team_slug}"
    ],
    revokeAllOrgRolesUser: [
      "DELETE /orgs/{org}/organization-roles/users/{username}"
    ],
    revokeOrgRoleTeam: [
      "DELETE /orgs/{org}/organization-roles/teams/{team_slug}/{role_id}"
    ],
    revokeOrgRoleUser: [
      "DELETE /orgs/{org}/organization-roles/users/{username}/{role_id}"
    ],
    setMembershipForUser: ["PUT /orgs/{org}/memberships/{username}"],
    setPublicMembershipForAuthenticatedUser: [
      "PUT /orgs/{org}/public_members/{username}"
    ],
    unblockUser: ["DELETE /orgs/{org}/blocks/{username}"],
    update: ["PATCH /orgs/{org}"],
    updateIssueType: ["PUT /orgs/{org}/issue-types/{issue_type_id}"],
    updateMembershipForAuthenticatedUser: [
      "PATCH /user/memberships/orgs/{org}"
    ],
    updatePatAccess: ["POST /orgs/{org}/personal-access-tokens/{pat_id}"],
    updatePatAccesses: ["POST /orgs/{org}/personal-access-tokens"],
    updateWebhook: ["PATCH /orgs/{org}/hooks/{hook_id}"],
    updateWebhookConfigForOrg: ["PATCH /orgs/{org}/hooks/{hook_id}/config"]
  },
  packages: {
    deletePackageForAuthenticatedUser: [
      "DELETE /user/packages/{package_type}/{package_name}"
    ],
    deletePackageForOrg: [
      "DELETE /orgs/{org}/packages/{package_type}/{package_name}"
    ],
    deletePackageForUser: [
      "DELETE /users/{username}/packages/{package_type}/{package_name}"
    ],
    deletePackageVersionForAuthenticatedUser: [
      "DELETE /user/packages/{package_type}/{package_name}/versions/{package_version_id}"
    ],
    deletePackageVersionForOrg: [
      "DELETE /orgs/{org}/packages/{package_type}/{package_name}/versions/{package_version_id}"
    ],
    deletePackageVersionForUser: [
      "DELETE /users/{username}/packages/{package_type}/{package_name}/versions/{package_version_id}"
    ],
    getAllPackageVersionsForAPackageOwnedByAnOrg: [
      "GET /orgs/{org}/packages/{package_type}/{package_name}/versions",
      {},
      { renamed: ["packages", "getAllPackageVersionsForPackageOwnedByOrg"] }
    ],
    getAllPackageVersionsForAPackageOwnedByTheAuthenticatedUser: [
      "GET /user/packages/{package_type}/{package_name}/versions",
      {},
      {
        renamed: [
          "packages",
          "getAllPackageVersionsForPackageOwnedByAuthenticatedUser"
        ]
      }
    ],
    getAllPackageVersionsForPackageOwnedByAuthenticatedUser: [
      "GET /user/packages/{package_type}/{package_name}/versions"
    ],
    getAllPackageVersionsForPackageOwnedByOrg: [
      "GET /orgs/{org}/packages/{package_type}/{package_name}/versions"
    ],
    getAllPackageVersionsForPackageOwnedByUser: [
      "GET /users/{username}/packages/{package_type}/{package_name}/versions"
    ],
    getPackageForAuthenticatedUser: [
      "GET /user/packages/{package_type}/{package_name}"
    ],
    getPackageForOrganization: [
      "GET /orgs/{org}/packages/{package_type}/{package_name}"
    ],
    getPackageForUser: [
      "GET /users/{username}/packages/{package_type}/{package_name}"
    ],
    getPackageVersionForAuthenticatedUser: [
      "GET /user/packages/{package_type}/{package_name}/versions/{package_version_id}"
    ],
    getPackageVersionForOrganization: [
      "GET /orgs/{org}/packages/{package_type}/{package_name}/versions/{package_version_id}"
    ],
    getPackageVersionForUser: [
      "GET /users/{username}/packages/{package_type}/{package_name}/versions/{package_version_id}"
    ],
    listDockerMigrationConflictingPackagesForAuthenticatedUser: [
      "GET /user/docker/conflicts"
    ],
    listDockerMigrationConflictingPackagesForOrganization: [
      "GET /orgs/{org}/docker/conflicts"
    ],
    listDockerMigrationConflictingPackagesForUser: [
      "GET /users/{username}/docker/conflicts"
    ],
    listPackagesForAuthenticatedUser: ["GET /user/packages"],
    listPackagesForOrganization: ["GET /orgs/{org}/packages"],
    listPackagesForUser: ["GET /users/{username}/packages"],
    restorePackageForAuthenticatedUser: [
      "POST /user/packages/{package_type}/{package_name}/restore{?token}"
    ],
    restorePackageForOrg: [
      "POST /orgs/{org}/packages/{package_type}/{package_name}/restore{?token}"
    ],
    restorePackageForUser: [
      "POST /users/{username}/packages/{package_type}/{package_name}/restore{?token}"
    ],
    restorePackageVersionForAuthenticatedUser: [
      "POST /user/packages/{package_type}/{package_name}/versions/{package_version_id}/restore"
    ],
    restorePackageVersionForOrg: [
      "POST /orgs/{org}/packages/{package_type}/{package_name}/versions/{package_version_id}/restore"
    ],
    restorePackageVersionForUser: [
      "POST /users/{username}/packages/{package_type}/{package_name}/versions/{package_version_id}/restore"
    ]
  },
  privateRegistries: {
    createOrgPrivateRegistry: ["POST /orgs/{org}/private-registries"],
    deleteOrgPrivateRegistry: [
      "DELETE /orgs/{org}/private-registries/{secret_name}"
    ],
    getOrgPrivateRegistry: ["GET /orgs/{org}/private-registries/{secret_name}"],
    getOrgPublicKey: ["GET /orgs/{org}/private-registries/public-key"],
    listOrgPrivateRegistries: ["GET /orgs/{org}/private-registries"],
    updateOrgPrivateRegistry: [
      "PATCH /orgs/{org}/private-registries/{secret_name}"
    ]
  },
  pulls: {
    checkIfMerged: ["GET /repos/{owner}/{repo}/pulls/{pull_number}/merge"],
    create: ["POST /repos/{owner}/{repo}/pulls"],
    createReplyForReviewComment: [
      "POST /repos/{owner}/{repo}/pulls/{pull_number}/comments/{comment_id}/replies"
    ],
    createReview: ["POST /repos/{owner}/{repo}/pulls/{pull_number}/reviews"],
    createReviewComment: [
      "POST /repos/{owner}/{repo}/pulls/{pull_number}/comments"
    ],
    deletePendingReview: [
      "DELETE /repos/{owner}/{repo}/pulls/{pull_number}/reviews/{review_id}"
    ],
    deleteReviewComment: [
      "DELETE /repos/{owner}/{repo}/pulls/comments/{comment_id}"
    ],
    dismissReview: [
      "PUT /repos/{owner}/{repo}/pulls/{pull_number}/reviews/{review_id}/dismissals"
    ],
    get: ["GET /repos/{owner}/{repo}/pulls/{pull_number}"],
    getReview: [
      "GET /repos/{owner}/{repo}/pulls/{pull_number}/reviews/{review_id}"
    ],
    getReviewComment: ["GET /repos/{owner}/{repo}/pulls/comments/{comment_id}"],
    list: ["GET /repos/{owner}/{repo}/pulls"],
    listCommentsForReview: [
      "GET /repos/{owner}/{repo}/pulls/{pull_number}/reviews/{review_id}/comments"
    ],
    listCommits: ["GET /repos/{owner}/{repo}/pulls/{pull_number}/commits"],
    listFiles: ["GET /repos/{owner}/{repo}/pulls/{pull_number}/files"],
    listRequestedReviewers: [
      "GET /repos/{owner}/{repo}/pulls/{pull_number}/requested_reviewers"
    ],
    listReviewComments: [
      "GET /repos/{owner}/{repo}/pulls/{pull_number}/comments"
    ],
    listReviewCommentsForRepo: ["GET /repos/{owner}/{repo}/pulls/comments"],
    listReviews: ["GET /repos/{owner}/{repo}/pulls/{pull_number}/reviews"],
    merge: ["PUT /repos/{owner}/{repo}/pulls/{pull_number}/merge"],
    removeRequestedReviewers: [
      "DELETE /repos/{owner}/{repo}/pulls/{pull_number}/requested_reviewers"
    ],
    requestReviewers: [
      "POST /repos/{owner}/{repo}/pulls/{pull_number}/requested_reviewers"
    ],
    submitReview: [
      "POST /repos/{owner}/{repo}/pulls/{pull_number}/reviews/{review_id}/events"
    ],
    update: ["PATCH /repos/{owner}/{repo}/pulls/{pull_number}"],
    updateBranch: [
      "PUT /repos/{owner}/{repo}/pulls/{pull_number}/update-branch"
    ],
    updateReview: [
      "PUT /repos/{owner}/{repo}/pulls/{pull_number}/reviews/{review_id}"
    ],
    updateReviewComment: [
      "PATCH /repos/{owner}/{repo}/pulls/comments/{comment_id}"
    ]
  },
  rateLimit: { get: ["GET /rate_limit"] },
  reactions: {
    createForCommitComment: [
      "POST /repos/{owner}/{repo}/comments/{comment_id}/reactions"
    ],
    createForIssue: [
      "POST /repos/{owner}/{repo}/issues/{issue_number}/reactions"
    ],
    createForIssueComment: [
      "POST /repos/{owner}/{repo}/issues/comments/{comment_id}/reactions"
    ],
    createForPullRequestReviewComment: [
      "POST /repos/{owner}/{repo}/pulls/comments/{comment_id}/reactions"
    ],
    createForRelease: [
      "POST /repos/{owner}/{repo}/releases/{release_id}/reactions"
    ],
    createForTeamDiscussionCommentInOrg: [
      "POST /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/comments/{comment_number}/reactions"
    ],
    createForTeamDiscussionInOrg: [
      "POST /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/reactions"
    ],
    deleteForCommitComment: [
      "DELETE /repos/{owner}/{repo}/comments/{comment_id}/reactions/{reaction_id}"
    ],
    deleteForIssue: [
      "DELETE /repos/{owner}/{repo}/issues/{issue_number}/reactions/{reaction_id}"
    ],
    deleteForIssueComment: [
      "DELETE /repos/{owner}/{repo}/issues/comments/{comment_id}/reactions/{reaction_id}"
    ],
    deleteForPullRequestComment: [
      "DELETE /repos/{owner}/{repo}/pulls/comments/{comment_id}/reactions/{reaction_id}"
    ],
    deleteForRelease: [
      "DELETE /repos/{owner}/{repo}/releases/{release_id}/reactions/{reaction_id}"
    ],
    deleteForTeamDiscussion: [
      "DELETE /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/reactions/{reaction_id}"
    ],
    deleteForTeamDiscussionComment: [
      "DELETE /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/comments/{comment_number}/reactions/{reaction_id}"
    ],
    listForCommitComment: [
      "GET /repos/{owner}/{repo}/comments/{comment_id}/reactions"
    ],
    listForIssue: ["GET /repos/{owner}/{repo}/issues/{issue_number}/reactions"],
    listForIssueComment: [
      "GET /repos/{owner}/{repo}/issues/comments/{comment_id}/reactions"
    ],
    listForPullRequestReviewComment: [
      "GET /repos/{owner}/{repo}/pulls/comments/{comment_id}/reactions"
    ],
    listForRelease: [
      "GET /repos/{owner}/{repo}/releases/{release_id}/reactions"
    ],
    listForTeamDiscussionCommentInOrg: [
      "GET /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/comments/{comment_number}/reactions"
    ],
    listForTeamDiscussionInOrg: [
      "GET /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/reactions"
    ]
  },
  repos: {
    acceptInvitation: [
      "PATCH /user/repository_invitations/{invitation_id}",
      {},
      { renamed: ["repos", "acceptInvitationForAuthenticatedUser"] }
    ],
    acceptInvitationForAuthenticatedUser: [
      "PATCH /user/repository_invitations/{invitation_id}"
    ],
    addAppAccessRestrictions: [
      "POST /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/apps",
      {},
      { mapToData: "apps" }
    ],
    addCollaborator: ["PUT /repos/{owner}/{repo}/collaborators/{username}"],
    addStatusCheckContexts: [
      "POST /repos/{owner}/{repo}/branches/{branch}/protection/required_status_checks/contexts",
      {},
      { mapToData: "contexts" }
    ],
    addTeamAccessRestrictions: [
      "POST /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/teams",
      {},
      { mapToData: "teams" }
    ],
    addUserAccessRestrictions: [
      "POST /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/users",
      {},
      { mapToData: "users" }
    ],
    cancelPagesDeployment: [
      "POST /repos/{owner}/{repo}/pages/deployments/{pages_deployment_id}/cancel"
    ],
    checkAutomatedSecurityFixes: [
      "GET /repos/{owner}/{repo}/automated-security-fixes"
    ],
    checkCollaborator: ["GET /repos/{owner}/{repo}/collaborators/{username}"],
    checkPrivateVulnerabilityReporting: [
      "GET /repos/{owner}/{repo}/private-vulnerability-reporting"
    ],
    checkVulnerabilityAlerts: [
      "GET /repos/{owner}/{repo}/vulnerability-alerts"
    ],
    codeownersErrors: ["GET /repos/{owner}/{repo}/codeowners/errors"],
    compareCommits: ["GET /repos/{owner}/{repo}/compare/{base}...{head}"],
    compareCommitsWithBasehead: [
      "GET /repos/{owner}/{repo}/compare/{basehead}"
    ],
    createAttestation: ["POST /repos/{owner}/{repo}/attestations"],
    createAutolink: ["POST /repos/{owner}/{repo}/autolinks"],
    createCommitComment: [
      "POST /repos/{owner}/{repo}/commits/{commit_sha}/comments"
    ],
    createCommitSignatureProtection: [
      "POST /repos/{owner}/{repo}/branches/{branch}/protection/required_signatures"
    ],
    createCommitStatus: ["POST /repos/{owner}/{repo}/statuses/{sha}"],
    createDeployKey: ["POST /repos/{owner}/{repo}/keys"],
    createDeployment: ["POST /repos/{owner}/{repo}/deployments"],
    createDeploymentBranchPolicy: [
      "POST /repos/{owner}/{repo}/environments/{environment_name}/deployment-branch-policies"
    ],
    createDeploymentProtectionRule: [
      "POST /repos/{owner}/{repo}/environments/{environment_name}/deployment_protection_rules"
    ],
    createDeploymentStatus: [
      "POST /repos/{owner}/{repo}/deployments/{deployment_id}/statuses"
    ],
    createDispatchEvent: ["POST /repos/{owner}/{repo}/dispatches"],
    createForAuthenticatedUser: ["POST /user/repos"],
    createFork: ["POST /repos/{owner}/{repo}/forks"],
    createInOrg: ["POST /orgs/{org}/repos"],
    createOrUpdateCustomPropertiesValues: [
      "PATCH /repos/{owner}/{repo}/properties/values"
    ],
    createOrUpdateEnvironment: [
      "PUT /repos/{owner}/{repo}/environments/{environment_name}"
    ],
    createOrUpdateFileContents: ["PUT /repos/{owner}/{repo}/contents/{path}"],
    createOrgRuleset: ["POST /orgs/{org}/rulesets"],
    createPagesDeployment: ["POST /repos/{owner}/{repo}/pages/deployments"],
    createPagesSite: ["POST /repos/{owner}/{repo}/pages"],
    createRelease: ["POST /repos/{owner}/{repo}/releases"],
    createRepoRuleset: ["POST /repos/{owner}/{repo}/rulesets"],
    createUsingTemplate: [
      "POST /repos/{template_owner}/{template_repo}/generate"
    ],
    createWebhook: ["POST /repos/{owner}/{repo}/hooks"],
    declineInvitation: [
      "DELETE /user/repository_invitations/{invitation_id}",
      {},
      { renamed: ["repos", "declineInvitationForAuthenticatedUser"] }
    ],
    declineInvitationForAuthenticatedUser: [
      "DELETE /user/repository_invitations/{invitation_id}"
    ],
    delete: ["DELETE /repos/{owner}/{repo}"],
    deleteAccessRestrictions: [
      "DELETE /repos/{owner}/{repo}/branches/{branch}/protection/restrictions"
    ],
    deleteAdminBranchProtection: [
      "DELETE /repos/{owner}/{repo}/branches/{branch}/protection/enforce_admins"
    ],
    deleteAnEnvironment: [
      "DELETE /repos/{owner}/{repo}/environments/{environment_name}"
    ],
    deleteAutolink: ["DELETE /repos/{owner}/{repo}/autolinks/{autolink_id}"],
    deleteBranchProtection: [
      "DELETE /repos/{owner}/{repo}/branches/{branch}/protection"
    ],
    deleteCommitComment: ["DELETE /repos/{owner}/{repo}/comments/{comment_id}"],
    deleteCommitSignatureProtection: [
      "DELETE /repos/{owner}/{repo}/branches/{branch}/protection/required_signatures"
    ],
    deleteDeployKey: ["DELETE /repos/{owner}/{repo}/keys/{key_id}"],
    deleteDeployment: [
      "DELETE /repos/{owner}/{repo}/deployments/{deployment_id}"
    ],
    deleteDeploymentBranchPolicy: [
      "DELETE /repos/{owner}/{repo}/environments/{environment_name}/deployment-branch-policies/{branch_policy_id}"
    ],
    deleteFile: ["DELETE /repos/{owner}/{repo}/contents/{path}"],
    deleteInvitation: [
      "DELETE /repos/{owner}/{repo}/invitations/{invitation_id}"
    ],
    deleteOrgRuleset: ["DELETE /orgs/{org}/rulesets/{ruleset_id}"],
    deletePagesSite: ["DELETE /repos/{owner}/{repo}/pages"],
    deletePullRequestReviewProtection: [
      "DELETE /repos/{owner}/{repo}/branches/{branch}/protection/required_pull_request_reviews"
    ],
    deleteRelease: ["DELETE /repos/{owner}/{repo}/releases/{release_id}"],
    deleteReleaseAsset: [
      "DELETE /repos/{owner}/{repo}/releases/assets/{asset_id}"
    ],
    deleteRepoRuleset: ["DELETE /repos/{owner}/{repo}/rulesets/{ruleset_id}"],
    deleteWebhook: ["DELETE /repos/{owner}/{repo}/hooks/{hook_id}"],
    disableAutomatedSecurityFixes: [
      "DELETE /repos/{owner}/{repo}/automated-security-fixes"
    ],
    disableDeploymentProtectionRule: [
      "DELETE /repos/{owner}/{repo}/environments/{environment_name}/deployment_protection_rules/{protection_rule_id}"
    ],
    disablePrivateVulnerabilityReporting: [
      "DELETE /repos/{owner}/{repo}/private-vulnerability-reporting"
    ],
    disableVulnerabilityAlerts: [
      "DELETE /repos/{owner}/{repo}/vulnerability-alerts"
    ],
    downloadArchive: [
      "GET /repos/{owner}/{repo}/zipball/{ref}",
      {},
      { renamed: ["repos", "downloadZipballArchive"] }
    ],
    downloadTarballArchive: ["GET /repos/{owner}/{repo}/tarball/{ref}"],
    downloadZipballArchive: ["GET /repos/{owner}/{repo}/zipball/{ref}"],
    enableAutomatedSecurityFixes: [
      "PUT /repos/{owner}/{repo}/automated-security-fixes"
    ],
    enablePrivateVulnerabilityReporting: [
      "PUT /repos/{owner}/{repo}/private-vulnerability-reporting"
    ],
    enableVulnerabilityAlerts: [
      "PUT /repos/{owner}/{repo}/vulnerability-alerts"
    ],
    generateReleaseNotes: [
      "POST /repos/{owner}/{repo}/releases/generate-notes"
    ],
    get: ["GET /repos/{owner}/{repo}"],
    getAccessRestrictions: [
      "GET /repos/{owner}/{repo}/branches/{branch}/protection/restrictions"
    ],
    getAdminBranchProtection: [
      "GET /repos/{owner}/{repo}/branches/{branch}/protection/enforce_admins"
    ],
    getAllDeploymentProtectionRules: [
      "GET /repos/{owner}/{repo}/environments/{environment_name}/deployment_protection_rules"
    ],
    getAllEnvironments: ["GET /repos/{owner}/{repo}/environments"],
    getAllStatusCheckContexts: [
      "GET /repos/{owner}/{repo}/branches/{branch}/protection/required_status_checks/contexts"
    ],
    getAllTopics: ["GET /repos/{owner}/{repo}/topics"],
    getAppsWithAccessToProtectedBranch: [
      "GET /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/apps"
    ],
    getAutolink: ["GET /repos/{owner}/{repo}/autolinks/{autolink_id}"],
    getBranch: ["GET /repos/{owner}/{repo}/branches/{branch}"],
    getBranchProtection: [
      "GET /repos/{owner}/{repo}/branches/{branch}/protection"
    ],
    getBranchRules: ["GET /repos/{owner}/{repo}/rules/branches/{branch}"],
    getClones: ["GET /repos/{owner}/{repo}/traffic/clones"],
    getCodeFrequencyStats: ["GET /repos/{owner}/{repo}/stats/code_frequency"],
    getCollaboratorPermissionLevel: [
      "GET /repos/{owner}/{repo}/collaborators/{username}/permission"
    ],
    getCombinedStatusForRef: ["GET /repos/{owner}/{repo}/commits/{ref}/status"],
    getCommit: ["GET /repos/{owner}/{repo}/commits/{ref}"],
    getCommitActivityStats: ["GET /repos/{owner}/{repo}/stats/commit_activity"],
    getCommitComment: ["GET /repos/{owner}/{repo}/comments/{comment_id}"],
    getCommitSignatureProtection: [
      "GET /repos/{owner}/{repo}/branches/{branch}/protection/required_signatures"
    ],
    getCommunityProfileMetrics: ["GET /repos/{owner}/{repo}/community/profile"],
    getContent: ["GET /repos/{owner}/{repo}/contents/{path}"],
    getContributorsStats: ["GET /repos/{owner}/{repo}/stats/contributors"],
    getCustomDeploymentProtectionRule: [
      "GET /repos/{owner}/{repo}/environments/{environment_name}/deployment_protection_rules/{protection_rule_id}"
    ],
    getCustomPropertiesValues: ["GET /repos/{owner}/{repo}/properties/values"],
    getDeployKey: ["GET /repos/{owner}/{repo}/keys/{key_id}"],
    getDeployment: ["GET /repos/{owner}/{repo}/deployments/{deployment_id}"],
    getDeploymentBranchPolicy: [
      "GET /repos/{owner}/{repo}/environments/{environment_name}/deployment-branch-policies/{branch_policy_id}"
    ],
    getDeploymentStatus: [
      "GET /repos/{owner}/{repo}/deployments/{deployment_id}/statuses/{status_id}"
    ],
    getEnvironment: [
      "GET /repos/{owner}/{repo}/environments/{environment_name}"
    ],
    getLatestPagesBuild: ["GET /repos/{owner}/{repo}/pages/builds/latest"],
    getLatestRelease: ["GET /repos/{owner}/{repo}/releases/latest"],
    getOrgRuleSuite: ["GET /orgs/{org}/rulesets/rule-suites/{rule_suite_id}"],
    getOrgRuleSuites: ["GET /orgs/{org}/rulesets/rule-suites"],
    getOrgRuleset: ["GET /orgs/{org}/rulesets/{ruleset_id}"],
    getOrgRulesets: ["GET /orgs/{org}/rulesets"],
    getPages: ["GET /repos/{owner}/{repo}/pages"],
    getPagesBuild: ["GET /repos/{owner}/{repo}/pages/builds/{build_id}"],
    getPagesDeployment: [
      "GET /repos/{owner}/{repo}/pages/deployments/{pages_deployment_id}"
    ],
    getPagesHealthCheck: ["GET /repos/{owner}/{repo}/pages/health"],
    getParticipationStats: ["GET /repos/{owner}/{repo}/stats/participation"],
    getPullRequestReviewProtection: [
      "GET /repos/{owner}/{repo}/branches/{branch}/protection/required_pull_request_reviews"
    ],
    getPunchCardStats: ["GET /repos/{owner}/{repo}/stats/punch_card"],
    getReadme: ["GET /repos/{owner}/{repo}/readme"],
    getReadmeInDirectory: ["GET /repos/{owner}/{repo}/readme/{dir}"],
    getRelease: ["GET /repos/{owner}/{repo}/releases/{release_id}"],
    getReleaseAsset: ["GET /repos/{owner}/{repo}/releases/assets/{asset_id}"],
    getReleaseByTag: ["GET /repos/{owner}/{repo}/releases/tags/{tag}"],
    getRepoRuleSuite: [
      "GET /repos/{owner}/{repo}/rulesets/rule-suites/{rule_suite_id}"
    ],
    getRepoRuleSuites: ["GET /repos/{owner}/{repo}/rulesets/rule-suites"],
    getRepoRuleset: ["GET /repos/{owner}/{repo}/rulesets/{ruleset_id}"],
    getRepoRulesetHistory: [
      "GET /repos/{owner}/{repo}/rulesets/{ruleset_id}/history"
    ],
    getRepoRulesetVersion: [
      "GET /repos/{owner}/{repo}/rulesets/{ruleset_id}/history/{version_id}"
    ],
    getRepoRulesets: ["GET /repos/{owner}/{repo}/rulesets"],
    getStatusChecksProtection: [
      "GET /repos/{owner}/{repo}/branches/{branch}/protection/required_status_checks"
    ],
    getTeamsWithAccessToProtectedBranch: [
      "GET /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/teams"
    ],
    getTopPaths: ["GET /repos/{owner}/{repo}/traffic/popular/paths"],
    getTopReferrers: ["GET /repos/{owner}/{repo}/traffic/popular/referrers"],
    getUsersWithAccessToProtectedBranch: [
      "GET /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/users"
    ],
    getViews: ["GET /repos/{owner}/{repo}/traffic/views"],
    getWebhook: ["GET /repos/{owner}/{repo}/hooks/{hook_id}"],
    getWebhookConfigForRepo: [
      "GET /repos/{owner}/{repo}/hooks/{hook_id}/config"
    ],
    getWebhookDelivery: [
      "GET /repos/{owner}/{repo}/hooks/{hook_id}/deliveries/{delivery_id}"
    ],
    listActivities: ["GET /repos/{owner}/{repo}/activity"],
    listAttestations: [
      "GET /repos/{owner}/{repo}/attestations/{subject_digest}"
    ],
    listAutolinks: ["GET /repos/{owner}/{repo}/autolinks"],
    listBranches: ["GET /repos/{owner}/{repo}/branches"],
    listBranchesForHeadCommit: [
      "GET /repos/{owner}/{repo}/commits/{commit_sha}/branches-where-head"
    ],
    listCollaborators: ["GET /repos/{owner}/{repo}/collaborators"],
    listCommentsForCommit: [
      "GET /repos/{owner}/{repo}/commits/{commit_sha}/comments"
    ],
    listCommitCommentsForRepo: ["GET /repos/{owner}/{repo}/comments"],
    listCommitStatusesForRef: [
      "GET /repos/{owner}/{repo}/commits/{ref}/statuses"
    ],
    listCommits: ["GET /repos/{owner}/{repo}/commits"],
    listContributors: ["GET /repos/{owner}/{repo}/contributors"],
    listCustomDeploymentRuleIntegrations: [
      "GET /repos/{owner}/{repo}/environments/{environment_name}/deployment_protection_rules/apps"
    ],
    listDeployKeys: ["GET /repos/{owner}/{repo}/keys"],
    listDeploymentBranchPolicies: [
      "GET /repos/{owner}/{repo}/environments/{environment_name}/deployment-branch-policies"
    ],
    listDeploymentStatuses: [
      "GET /repos/{owner}/{repo}/deployments/{deployment_id}/statuses"
    ],
    listDeployments: ["GET /repos/{owner}/{repo}/deployments"],
    listForAuthenticatedUser: ["GET /user/repos"],
    listForOrg: ["GET /orgs/{org}/repos"],
    listForUser: ["GET /users/{username}/repos"],
    listForks: ["GET /repos/{owner}/{repo}/forks"],
    listInvitations: ["GET /repos/{owner}/{repo}/invitations"],
    listInvitationsForAuthenticatedUser: ["GET /user/repository_invitations"],
    listLanguages: ["GET /repos/{owner}/{repo}/languages"],
    listPagesBuilds: ["GET /repos/{owner}/{repo}/pages/builds"],
    listPublic: ["GET /repositories"],
    listPullRequestsAssociatedWithCommit: [
      "GET /repos/{owner}/{repo}/commits/{commit_sha}/pulls"
    ],
    listReleaseAssets: [
      "GET /repos/{owner}/{repo}/releases/{release_id}/assets"
    ],
    listReleases: ["GET /repos/{owner}/{repo}/releases"],
    listTags: ["GET /repos/{owner}/{repo}/tags"],
    listTeams: ["GET /repos/{owner}/{repo}/teams"],
    listWebhookDeliveries: [
      "GET /repos/{owner}/{repo}/hooks/{hook_id}/deliveries"
    ],
    listWebhooks: ["GET /repos/{owner}/{repo}/hooks"],
    merge: ["POST /repos/{owner}/{repo}/merges"],
    mergeUpstream: ["POST /repos/{owner}/{repo}/merge-upstream"],
    pingWebhook: ["POST /repos/{owner}/{repo}/hooks/{hook_id}/pings"],
    redeliverWebhookDelivery: [
      "POST /repos/{owner}/{repo}/hooks/{hook_id}/deliveries/{delivery_id}/attempts"
    ],
    removeAppAccessRestrictions: [
      "DELETE /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/apps",
      {},
      { mapToData: "apps" }
    ],
    removeCollaborator: [
      "DELETE /repos/{owner}/{repo}/collaborators/{username}"
    ],
    removeStatusCheckContexts: [
      "DELETE /repos/{owner}/{repo}/branches/{branch}/protection/required_status_checks/contexts",
      {},
      { mapToData: "contexts" }
    ],
    removeStatusCheckProtection: [
      "DELETE /repos/{owner}/{repo}/branches/{branch}/protection/required_status_checks"
    ],
    removeTeamAccessRestrictions: [
      "DELETE /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/teams",
      {},
      { mapToData: "teams" }
    ],
    removeUserAccessRestrictions: [
      "DELETE /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/users",
      {},
      { mapToData: "users" }
    ],
    renameBranch: ["POST /repos/{owner}/{repo}/branches/{branch}/rename"],
    replaceAllTopics: ["PUT /repos/{owner}/{repo}/topics"],
    requestPagesBuild: ["POST /repos/{owner}/{repo}/pages/builds"],
    setAdminBranchProtection: [
      "POST /repos/{owner}/{repo}/branches/{branch}/protection/enforce_admins"
    ],
    setAppAccessRestrictions: [
      "PUT /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/apps",
      {},
      { mapToData: "apps" }
    ],
    setStatusCheckContexts: [
      "PUT /repos/{owner}/{repo}/branches/{branch}/protection/required_status_checks/contexts",
      {},
      { mapToData: "contexts" }
    ],
    setTeamAccessRestrictions: [
      "PUT /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/teams",
      {},
      { mapToData: "teams" }
    ],
    setUserAccessRestrictions: [
      "PUT /repos/{owner}/{repo}/branches/{branch}/protection/restrictions/users",
      {},
      { mapToData: "users" }
    ],
    testPushWebhook: ["POST /repos/{owner}/{repo}/hooks/{hook_id}/tests"],
    transfer: ["POST /repos/{owner}/{repo}/transfer"],
    update: ["PATCH /repos/{owner}/{repo}"],
    updateBranchProtection: [
      "PUT /repos/{owner}/{repo}/branches/{branch}/protection"
    ],
    updateCommitComment: ["PATCH /repos/{owner}/{repo}/comments/{comment_id}"],
    updateDeploymentBranchPolicy: [
      "PUT /repos/{owner}/{repo}/environments/{environment_name}/deployment-branch-policies/{branch_policy_id}"
    ],
    updateInformationAboutPagesSite: ["PUT /repos/{owner}/{repo}/pages"],
    updateInvitation: [
      "PATCH /repos/{owner}/{repo}/invitations/{invitation_id}"
    ],
    updateOrgRuleset: ["PUT /orgs/{org}/rulesets/{ruleset_id}"],
    updatePullRequestReviewProtection: [
      "PATCH /repos/{owner}/{repo}/branches/{branch}/protection/required_pull_request_reviews"
    ],
    updateRelease: ["PATCH /repos/{owner}/{repo}/releases/{release_id}"],
    updateReleaseAsset: [
      "PATCH /repos/{owner}/{repo}/releases/assets/{asset_id}"
    ],
    updateRepoRuleset: ["PUT /repos/{owner}/{repo}/rulesets/{ruleset_id}"],
    updateStatusCheckPotection: [
      "PATCH /repos/{owner}/{repo}/branches/{branch}/protection/required_status_checks",
      {},
      { renamed: ["repos", "updateStatusCheckProtection"] }
    ],
    updateStatusCheckProtection: [
      "PATCH /repos/{owner}/{repo}/branches/{branch}/protection/required_status_checks"
    ],
    updateWebhook: ["PATCH /repos/{owner}/{repo}/hooks/{hook_id}"],
    updateWebhookConfigForRepo: [
      "PATCH /repos/{owner}/{repo}/hooks/{hook_id}/config"
    ],
    uploadReleaseAsset: [
      "POST /repos/{owner}/{repo}/releases/{release_id}/assets{?name,label}",
      { baseUrl: "https://uploads.github.com" }
    ]
  },
  search: {
    code: ["GET /search/code"],
    commits: ["GET /search/commits"],
    issuesAndPullRequests: [
      "GET /search/issues",
      {},
      {
        deprecated: "octokit.rest.search.issuesAndPullRequests() is deprecated, see https://docs.github.com/rest/search/search#search-issues-and-pull-requests"
      }
    ],
    labels: ["GET /search/labels"],
    repos: ["GET /search/repositories"],
    topics: ["GET /search/topics"],
    users: ["GET /search/users"]
  },
  secretScanning: {
    createPushProtectionBypass: [
      "POST /repos/{owner}/{repo}/secret-scanning/push-protection-bypasses"
    ],
    getAlert: [
      "GET /repos/{owner}/{repo}/secret-scanning/alerts/{alert_number}"
    ],
    getScanHistory: ["GET /repos/{owner}/{repo}/secret-scanning/scan-history"],
    listAlertsForEnterprise: [
      "GET /enterprises/{enterprise}/secret-scanning/alerts"
    ],
    listAlertsForOrg: ["GET /orgs/{org}/secret-scanning/alerts"],
    listAlertsForRepo: ["GET /repos/{owner}/{repo}/secret-scanning/alerts"],
    listLocationsForAlert: [
      "GET /repos/{owner}/{repo}/secret-scanning/alerts/{alert_number}/locations"
    ],
    updateAlert: [
      "PATCH /repos/{owner}/{repo}/secret-scanning/alerts/{alert_number}"
    ]
  },
  securityAdvisories: {
    createFork: [
      "POST /repos/{owner}/{repo}/security-advisories/{ghsa_id}/forks"
    ],
    createPrivateVulnerabilityReport: [
      "POST /repos/{owner}/{repo}/security-advisories/reports"
    ],
    createRepositoryAdvisory: [
      "POST /repos/{owner}/{repo}/security-advisories"
    ],
    createRepositoryAdvisoryCveRequest: [
      "POST /repos/{owner}/{repo}/security-advisories/{ghsa_id}/cve"
    ],
    getGlobalAdvisory: ["GET /advisories/{ghsa_id}"],
    getRepositoryAdvisory: [
      "GET /repos/{owner}/{repo}/security-advisories/{ghsa_id}"
    ],
    listGlobalAdvisories: ["GET /advisories"],
    listOrgRepositoryAdvisories: ["GET /orgs/{org}/security-advisories"],
    listRepositoryAdvisories: ["GET /repos/{owner}/{repo}/security-advisories"],
    updateRepositoryAdvisory: [
      "PATCH /repos/{owner}/{repo}/security-advisories/{ghsa_id}"
    ]
  },
  teams: {
    addOrUpdateMembershipForUserInOrg: [
      "PUT /orgs/{org}/teams/{team_slug}/memberships/{username}"
    ],
    addOrUpdateRepoPermissionsInOrg: [
      "PUT /orgs/{org}/teams/{team_slug}/repos/{owner}/{repo}"
    ],
    checkPermissionsForRepoInOrg: [
      "GET /orgs/{org}/teams/{team_slug}/repos/{owner}/{repo}"
    ],
    create: ["POST /orgs/{org}/teams"],
    createDiscussionCommentInOrg: [
      "POST /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/comments"
    ],
    createDiscussionInOrg: ["POST /orgs/{org}/teams/{team_slug}/discussions"],
    deleteDiscussionCommentInOrg: [
      "DELETE /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/comments/{comment_number}"
    ],
    deleteDiscussionInOrg: [
      "DELETE /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}"
    ],
    deleteInOrg: ["DELETE /orgs/{org}/teams/{team_slug}"],
    getByName: ["GET /orgs/{org}/teams/{team_slug}"],
    getDiscussionCommentInOrg: [
      "GET /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/comments/{comment_number}"
    ],
    getDiscussionInOrg: [
      "GET /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}"
    ],
    getMembershipForUserInOrg: [
      "GET /orgs/{org}/teams/{team_slug}/memberships/{username}"
    ],
    list: ["GET /orgs/{org}/teams"],
    listChildInOrg: ["GET /orgs/{org}/teams/{team_slug}/teams"],
    listDiscussionCommentsInOrg: [
      "GET /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/comments"
    ],
    listDiscussionsInOrg: ["GET /orgs/{org}/teams/{team_slug}/discussions"],
    listForAuthenticatedUser: ["GET /user/teams"],
    listMembersInOrg: ["GET /orgs/{org}/teams/{team_slug}/members"],
    listPendingInvitationsInOrg: [
      "GET /orgs/{org}/teams/{team_slug}/invitations"
    ],
    listReposInOrg: ["GET /orgs/{org}/teams/{team_slug}/repos"],
    removeMembershipForUserInOrg: [
      "DELETE /orgs/{org}/teams/{team_slug}/memberships/{username}"
    ],
    removeRepoInOrg: [
      "DELETE /orgs/{org}/teams/{team_slug}/repos/{owner}/{repo}"
    ],
    updateDiscussionCommentInOrg: [
      "PATCH /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}/comments/{comment_number}"
    ],
    updateDiscussionInOrg: [
      "PATCH /orgs/{org}/teams/{team_slug}/discussions/{discussion_number}"
    ],
    updateInOrg: ["PATCH /orgs/{org}/teams/{team_slug}"]
  },
  users: {
    addEmailForAuthenticated: [
      "POST /user/emails",
      {},
      { renamed: ["users", "addEmailForAuthenticatedUser"] }
    ],
    addEmailForAuthenticatedUser: ["POST /user/emails"],
    addSocialAccountForAuthenticatedUser: ["POST /user/social_accounts"],
    block: ["PUT /user/blocks/{username}"],
    checkBlocked: ["GET /user/blocks/{username}"],
    checkFollowingForUser: ["GET /users/{username}/following/{target_user}"],
    checkPersonIsFollowedByAuthenticated: ["GET /user/following/{username}"],
    createGpgKeyForAuthenticated: [
      "POST /user/gpg_keys",
      {},
      { renamed: ["users", "createGpgKeyForAuthenticatedUser"] }
    ],
    createGpgKeyForAuthenticatedUser: ["POST /user/gpg_keys"],
    createPublicSshKeyForAuthenticated: [
      "POST /user/keys",
      {},
      { renamed: ["users", "createPublicSshKeyForAuthenticatedUser"] }
    ],
    createPublicSshKeyForAuthenticatedUser: ["POST /user/keys"],
    createSshSigningKeyForAuthenticatedUser: ["POST /user/ssh_signing_keys"],
    deleteEmailForAuthenticated: [
      "DELETE /user/emails",
      {},
      { renamed: ["users", "deleteEmailForAuthenticatedUser"] }
    ],
    deleteEmailForAuthenticatedUser: ["DELETE /user/emails"],
    deleteGpgKeyForAuthenticated: [
      "DELETE /user/gpg_keys/{gpg_key_id}",
      {},
      { renamed: ["users", "deleteGpgKeyForAuthenticatedUser"] }
    ],
    deleteGpgKeyForAuthenticatedUser: ["DELETE /user/gpg_keys/{gpg_key_id}"],
    deletePublicSshKeyForAuthenticated: [
      "DELETE /user/keys/{key_id}",
      {},
      { renamed: ["users", "deletePublicSshKeyForAuthenticatedUser"] }
    ],
    deletePublicSshKeyForAuthenticatedUser: ["DELETE /user/keys/{key_id}"],
    deleteSocialAccountForAuthenticatedUser: ["DELETE /user/social_accounts"],
    deleteSshSigningKeyForAuthenticatedUser: [
      "DELETE /user/ssh_signing_keys/{ssh_signing_key_id}"
    ],
    follow: ["PUT /user/following/{username}"],
    getAuthenticated: ["GET /user"],
    getById: ["GET /user/{account_id}"],
    getByUsername: ["GET /users/{username}"],
    getContextForUser: ["GET /users/{username}/hovercard"],
    getGpgKeyForAuthenticated: [
      "GET /user/gpg_keys/{gpg_key_id}",
      {},
      { renamed: ["users", "getGpgKeyForAuthenticatedUser"] }
    ],
    getGpgKeyForAuthenticatedUser: ["GET /user/gpg_keys/{gpg_key_id}"],
    getPublicSshKeyForAuthenticated: [
      "GET /user/keys/{key_id}",
      {},
      { renamed: ["users", "getPublicSshKeyForAuthenticatedUser"] }
    ],
    getPublicSshKeyForAuthenticatedUser: ["GET /user/keys/{key_id}"],
    getSshSigningKeyForAuthenticatedUser: [
      "GET /user/ssh_signing_keys/{ssh_signing_key_id}"
    ],
    list: ["GET /users"],
    listAttestations: ["GET /users/{username}/attestations/{subject_digest}"],
    listBlockedByAuthenticated: [
      "GET /user/blocks",
      {},
      { renamed: ["users", "listBlockedByAuthenticatedUser"] }
    ],
    listBlockedByAuthenticatedUser: ["GET /user/blocks"],
    listEmailsForAuthenticated: [
      "GET /user/emails",
      {},
      { renamed: ["users", "listEmailsForAuthenticatedUser"] }
    ],
    listEmailsForAuthenticatedUser: ["GET /user/emails"],
    listFollowedByAuthenticated: [
      "GET /user/following",
      {},
      { renamed: ["users", "listFollowedByAuthenticatedUser"] }
    ],
    listFollowedByAuthenticatedUser: ["GET /user/following"],
    listFollowersForAuthenticatedUser: ["GET /user/followers"],
    listFollowersForUser: ["GET /users/{username}/followers"],
    listFollowingForUser: ["GET /users/{username}/following"],
    listGpgKeysForAuthenticated: [
      "GET /user/gpg_keys",
      {},
      { renamed: ["users", "listGpgKeysForAuthenticatedUser"] }
    ],
    listGpgKeysForAuthenticatedUser: ["GET /user/gpg_keys"],
    listGpgKeysForUser: ["GET /users/{username}/gpg_keys"],
    listPublicEmailsForAuthenticated: [
      "GET /user/public_emails",
      {},
      { renamed: ["users", "listPublicEmailsForAuthenticatedUser"] }
    ],
    listPublicEmailsForAuthenticatedUser: ["GET /user/public_emails"],
    listPublicKeysForUser: ["GET /users/{username}/keys"],
    listPublicSshKeysForAuthenticated: [
      "GET /user/keys",
      {},
      { renamed: ["users", "listPublicSshKeysForAuthenticatedUser"] }
    ],
    listPublicSshKeysForAuthenticatedUser: ["GET /user/keys"],
    listSocialAccountsForAuthenticatedUser: ["GET /user/social_accounts"],
    listSocialAccountsForUser: ["GET /users/{username}/social_accounts"],
    listSshSigningKeysForAuthenticatedUser: ["GET /user/ssh_signing_keys"],
    listSshSigningKeysForUser: ["GET /users/{username}/ssh_signing_keys"],
    setPrimaryEmailVisibilityForAuthenticated: [
      "PATCH /user/email/visibility",
      {},
      { renamed: ["users", "setPrimaryEmailVisibilityForAuthenticatedUser"] }
    ],
    setPrimaryEmailVisibilityForAuthenticatedUser: [
      "PATCH /user/email/visibility"
    ],
    unblock: ["DELETE /user/blocks/{username}"],
    unfollow: ["DELETE /user/following/{username}"],
    updateAuthenticated: ["PATCH /user"]
  }
};
var endpoints_default = Endpoints;

//# sourceMappingURL=endpoints.js.map

;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/plugin-rest-endpoint-methods/dist-src/endpoints-to-methods.js

const endpointMethodsMap = /* @__PURE__ */ new Map();
for (const [scope, endpoints] of Object.entries(endpoints_default)) {
  for (const [methodName, endpoint] of Object.entries(endpoints)) {
    const [route, defaults, decorations] = endpoint;
    const [method, url] = route.split(/ /);
    const endpointDefaults = Object.assign(
      {
        method,
        url
      },
      defaults
    );
    if (!endpointMethodsMap.has(scope)) {
      endpointMethodsMap.set(scope, /* @__PURE__ */ new Map());
    }
    endpointMethodsMap.get(scope).set(methodName, {
      scope,
      methodName,
      endpointDefaults,
      decorations
    });
  }
}
const handler = {
  has({ scope }, methodName) {
    return endpointMethodsMap.get(scope).has(methodName);
  },
  getOwnPropertyDescriptor(target, methodName) {
    return {
      value: this.get(target, methodName),
      // ensures method is in the cache
      configurable: true,
      writable: true,
      enumerable: true
    };
  },
  defineProperty(target, methodName, descriptor) {
    Object.defineProperty(target.cache, methodName, descriptor);
    return true;
  },
  deleteProperty(target, methodName) {
    delete target.cache[methodName];
    return true;
  },
  ownKeys({ scope }) {
    return [...endpointMethodsMap.get(scope).keys()];
  },
  set(target, methodName, value) {
    return target.cache[methodName] = value;
  },
  get({ octokit, scope, cache }, methodName) {
    if (cache[methodName]) {
      return cache[methodName];
    }
    const method = endpointMethodsMap.get(scope).get(methodName);
    if (!method) {
      return void 0;
    }
    const { endpointDefaults, decorations } = method;
    if (decorations) {
      cache[methodName] = decorate(
        octokit,
        scope,
        methodName,
        endpointDefaults,
        decorations
      );
    } else {
      cache[methodName] = octokit.request.defaults(endpointDefaults);
    }
    return cache[methodName];
  }
};
function endpointsToMethods(octokit) {
  const newMethods = {};
  for (const scope of endpointMethodsMap.keys()) {
    newMethods[scope] = new Proxy({ octokit, scope, cache: {} }, handler);
  }
  return newMethods;
}
function decorate(octokit, scope, methodName, defaults, decorations) {
  const requestWithDefaults = octokit.request.defaults(defaults);
  function withDecorations(...args) {
    let options = requestWithDefaults.endpoint.merge(...args);
    if (decorations.mapToData) {
      options = Object.assign({}, options, {
        data: options[decorations.mapToData],
        [decorations.mapToData]: void 0
      });
      return requestWithDefaults(options);
    }
    if (decorations.renamed) {
      const [newScope, newMethodName] = decorations.renamed;
      octokit.log.warn(
        `octokit.${scope}.${methodName}() has been renamed to octokit.${newScope}.${newMethodName}()`
      );
    }
    if (decorations.deprecated) {
      octokit.log.warn(decorations.deprecated);
    }
    if (decorations.renamedParameters) {
      const options2 = requestWithDefaults.endpoint.merge(...args);
      for (const [name, alias] of Object.entries(
        decorations.renamedParameters
      )) {
        if (name in options2) {
          octokit.log.warn(
            `"${name}" parameter is deprecated for "octokit.${scope}.${methodName}()". Use "${alias}" instead`
          );
          if (!(alias in options2)) {
            options2[alias] = options2[name];
          }
          delete options2[name];
        }
      }
      return requestWithDefaults(options2);
    }
    return requestWithDefaults(...args);
  }
  return Object.assign(withDecorations, requestWithDefaults);
}

//# sourceMappingURL=endpoints-to-methods.js.map

;// CONCATENATED MODULE: ./node_modules/@octokit/rest/node_modules/@octokit/plugin-rest-endpoint-methods/dist-src/index.js


function restEndpointMethods(octokit) {
  const api = endpointsToMethods(octokit);
  return {
    rest: api
  };
}
restEndpointMethods.VERSION = plugin_rest_endpoint_methods_dist_src_version_VERSION;
function legacyRestEndpointMethods(octokit) {
  const api = endpointsToMethods(octokit);
  return {
    ...api,
    rest: api
  };
}
legacyRestEndpointMethods.VERSION = plugin_rest_endpoint_methods_dist_src_version_VERSION;

//# sourceMappingURL=index.js.map

;// CONCATENATED MODULE: ./node_modules/@octokit/rest/dist-src/version.js
const rest_dist_src_version_VERSION = "22.0.0";


;// CONCATENATED MODULE: ./node_modules/@octokit/rest/dist-src/index.js





const dist_src_Octokit = Octokit.plugin(requestLog, legacyRestEndpointMethods, paginateRest).defaults(
  {
    userAgent: `octokit-rest.js/${rest_dist_src_version_VERSION}`
  }
);


// EXTERNAL MODULE: ./node_modules/@octokit/graphql/dist-node/index.js
var dist_node = __nccwpck_require__(7);
// EXTERNAL MODULE: ./node_modules/@actions/core/lib/core.js
var core = __nccwpck_require__(7484);
;// CONCATENATED MODULE: ./dist/collectors/github.js
/**
 * GitHub repository statistics collector with enhanced metrics using Octokit SDK and GraphQL
 */



const PlatformSettings = {
    name: 'GitHub',
};
// GraphQL query for basic repository data (without releases)
const REPOSITORY_BASIC_QUERY = `
  query RepositoryBasicData($owner: String!, $name: String!) {
    repository(owner: $owner, name: $name) {
      id
      name
      description
      homepageUrl
      stargazerCount
      forkCount
      watchers {
        totalCount
      }
      openIssues: issues(states: OPEN) {
        totalCount
      }
      closedIssues: issues(states: CLOSED) {
        totalCount
      }
      primaryLanguage {
        name
      }
      diskUsage
      createdAt
      updatedAt
      pushedAt
      defaultBranchRef {
        name
      }
      repositoryTopics(first: 10) {
        nodes {
          topic {
            name
          }
        }
      }
      licenseInfo {
        name
        spdxId
      }
    }
  }
`;
// GraphQL query for releases with download data
const RELEASES_QUERY = `
  query RepositoryReleases($owner: String!, $name: String!, $first: Int!) {
    repository(owner: $owner, name: $name) {
      releases(first: $first, orderBy: {field: CREATED_AT, direction: DESC}) {
        nodes {
          id
          tagName
          name
          description
          createdAt
          publishedAt
          releaseAssets(first: 100) {
            nodes {
              id
              name
              size
              downloadCount
              downloadUrl
            }
          }
        }
      }
    }
  }
`;
async function collectGithub(repository) {
    try {
        const [owner, repo] = repository.split('/');
        if (!owner || !repo) {
            throw new Error(`Invalid repository format: ${repository}. Expected "owner/repo"`);
        }
        // Initialize Octokit for REST API calls
        const token = core.getInput('github-token');
        const octokit = new dist_src_Octokit({
            auth: token,
            userAgent: 'usage-statistics-tracker'
        });
        if (!token) {
            console.warn('No GitHub token provided. Using unauthenticated requests (rate limited).');
        }
        // Step 1: Fetch basic repository data using GraphQL
        let graphqlData = null;
        try {
            const graphqlClient = dist_node.graphql.defaults({
                headers: {
                    authorization: token ? `token ${token}` : undefined,
                },
            });
            // Fetch basic repository data (without releases)
            const basicResponse = await graphqlClient(REPOSITORY_BASIC_QUERY, {
                owner,
                name: repo
            });
            if (basicResponse.repository) {
                graphqlData = basicResponse.repository;
            }
        }
        catch (error) {
            console.warn(`Could not fetch GitHub GraphQL basic data for ${repository}:`, error);
        }
        // Step 2: Fetch releases data separately using GraphQL
        let totalReleaseDownloads = 0;
        let latestReleaseDownloads = 0;
        let releaseCount = 0;
        let downloadRange = [];
        let latestRelease = null;
        try {
            const graphqlClient = dist_node.graphql.defaults({
                headers: {
                    authorization: token ? `token ${token}` : undefined,
                },
            });
            // Fetch releases data
            const releasesResponse = await graphqlClient(RELEASES_QUERY, {
                owner,
                name: repo,
                first: 100
            });
            if (releasesResponse.repository?.releases?.nodes) {
                const releases = releasesResponse.repository.releases.nodes.filter(Boolean);
                releaseCount = releases.length;
                for (const release of releases) {
                    let releaseDownloads = 0;
                    if (release?.releaseAssets?.nodes) {
                        for (const asset of release.releaseAssets.nodes) {
                            if (asset) {
                                releaseDownloads += asset.downloadCount || 0;
                            }
                        }
                    }
                    totalReleaseDownloads += releaseDownloads;
                    // Latest release is the first one in the list
                    if (release && release === releases[0]) {
                        latestReleaseDownloads = releaseDownloads;
                        latestRelease = release.tagName;
                    }
                    // Add to download range with proper date format for charts
                    if (release?.publishedAt) {
                        downloadRange.push({
                            day: release.publishedAt,
                            downloads: releaseDownloads,
                            tagName: release.tagName
                        });
                    }
                }
            }
        }
        catch (error) {
            console.warn(`Could not fetch GitHub GraphQL releases data for ${repository}:`, error);
        }
        // Fallback to REST API if GraphQL fails or for additional data
        let restData = null;
        try {
            const { data: repoData } = await octokit.repos.get({
                owner,
                repo
            });
            restData = repoData;
        }
        catch (error) {
            console.warn(`Could not fetch GitHub REST data for ${repository}:`, error);
        }
        // Use the best available data (GraphQL preferred, REST as fallback)
        const finalData = graphqlData || restData;
        if (!finalData) {
            throw new Error('Could not fetch repository data from either GraphQL or REST API');
        }
        // Get traffic statistics using REST API (requires authentication)
        let viewsCount = 0;
        let uniqueVisitors = 0;
        let clonesCount = 0;
        if (token) {
            try {
                // Get views data
                const { data: viewsData } = await octokit.repos.getViews({
                    owner,
                    repo
                });
                if (viewsData) {
                    viewsCount = viewsData.count || 0;
                    uniqueVisitors = viewsData.uniques || 0;
                }
                // Get clones data
                const { data: clonesData } = await octokit.repos.getClones({
                    owner,
                    repo
                });
                if (clonesData) {
                    clonesCount = clonesData.count || 0;
                }
            }
            catch (error) {
                console.warn(`Could not fetch GitHub traffic data for ${repository}:`, error);
            }
        }
        // Calculate repository age
        let repositoryAge = 0;
        if (finalData.createdAt) {
            const created = new Date(finalData.createdAt);
            const now = new Date();
            repositoryAge = Math.floor((now.getTime() - created.getTime()) / (1000 * 60 * 60 * 24)); // days
        }
        // Calculate activity metrics
        let lastActivity = 0;
        if (finalData.pushedAt) {
            const pushed = new Date(finalData.pushedAt);
            const now = new Date();
            lastActivity = Math.floor((now.getTime() - pushed.getTime()) / (1000 * 60 * 60 * 24)); // days
        }
        return {
            platform: PlatformSettings.name,
            name: repository,
            timestamp: new Date().toISOString(),
            metrics: {
                stars: finalData.stargazerCount || finalData.stargazers_count || 0,
                forks: finalData.forkCount || finalData.forks_count || 0,
                watchers: finalData.watchers?.totalCount || finalData.watchers_count || 0,
                totalIssues: finalData.openIssues?.totalCount + finalData.closedIssues?.totalCount || 0,
                openIssues: finalData.openIssues?.totalCount || 0,
                closedIssues: finalData.closedIssues?.totalCount || 0,
                language: finalData.primaryLanguage?.name || finalData.language || null,
                size: finalData.diskUsage || finalData.size || null,
                repositoryAge,
                lastActivity,
                releaseCount,
                totalReleaseDownloads,
                latestReleaseDownloads,
                viewsCount,
                uniqueVisitors,
                latestRelease,
                clonesCount,
                topics: finalData.repositoryTopics?.nodes?.length || finalData.topics?.length || 0,
                license: finalData.licenseInfo?.name || finalData.license?.name || null,
                defaultBranch: finalData.defaultBranchRef?.name || finalData.default_branch || null,
                downloadsTotal: totalReleaseDownloads || 0,
                downloadRange,
            }
        };
    }
    catch (error) {
        return {
            platform: PlatformSettings.name,
            name: repository,
            timestamp: new Date().toISOString(),
            metrics: {},
            error: error instanceof Error ? error.message : String(error)
        };
    }
}
async function collectGithubBatch(repositories) {
    const results = [];
    for (const repo of repositories) {
        results.push(collectGithub(repo));
    }
    return Promise.all(results);
}


/***/ }),

/***/ 1704:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __nccwpck_require__) => {

/* harmony export */ __nccwpck_require__.d(__webpack_exports__, {
/* harmony export */   G: () => (/* binding */ collectNpmBatch)
/* harmony export */ });
/* unused harmony export collectNpm */
/**
 * NPM package statistics collector with enhanced metrics
 */
const PlatformSettings = {
    name: 'NPM',
};
const BASE_URL = 'https://api.npmjs.org/downloads/range';
const CHUNK_DAYS = 540; // 18 months max per request
const START_DATE = new Date('2015-01-10'); // Earliest NPM data
function formatDate(date) {
    return date.toISOString().split('T')[0];
}
function addDays(date, days) {
    const result = new Date(date);
    result.setDate(result.getDate() + days);
    return result;
}
async function fetchChunk(start, end, packageName) {
    const url = `${BASE_URL}/${formatDate(start)}:${formatDate(end)}/${packageName}`;
    const res = await fetch(url);
    if (!res.ok) {
        throw new Error(`Failed to fetch data: ${res.status} ${res.statusText}`);
    }
    const json = await res.json();
    return json.downloads;
}
async function getFullDownloadHistory(packageName, startDate) {
    const today = new Date();
    let currentStart = new Date(startDate);
    let allDownloads = [];
    while (currentStart < today) {
        const currentEnd = addDays(currentStart, CHUNK_DAYS - 1);
        const end = currentEnd > today ? today : currentEnd;
        console.log(`Fetching ${formatDate(currentStart)} to ${formatDate(end)}...`);
        const chunk = await fetchChunk(currentStart, end, packageName);
        allDownloads = allDownloads.concat(chunk);
        currentStart = addDays(end, 1); // move to next chunk
    }
    return Array.from(new Set(allDownloads));
}
async function collectNpm(packageName) {
    try {
        // Get package info from npm registry
        const packageUrl = `https://registry.npmjs.org/${packageName}`;
        const packageResponse = await fetch(packageUrl);
        const packageData = await packageResponse.json();
        // Get download statistics
        let downloadsMonthly;
        let downloadsWeekly;
        let downloadsDaily;
        try {
            // Monthly downloads
            const monthlyUrl = `https://api.npmjs.org/downloads/point/last-month/${packageName}`;
            const monthlyResponse = await fetch(monthlyUrl);
            const monthlyData = await monthlyResponse.json();
            downloadsMonthly = monthlyData.downloads || null;
        }
        catch (error) {
            console.warn(`Could not fetch NPM monthly downloads for ${packageName}:`, error);
        }
        try {
            // Weekly downloads
            const weeklyUrl = `https://api.npmjs.org/downloads/point/last-week/${packageName}`;
            const weeklyResponse = await fetch(weeklyUrl);
            const weeklyData = await weeklyResponse.json();
            downloadsWeekly = weeklyData.downloads || null;
        }
        catch (error) {
            console.warn(`Could not fetch NPM weekly downloads for ${packageName}:`, error);
        }
        try {
            // Daily downloads
            const dailyUrl = `https://api.npmjs.org/downloads/point/last-day/${packageName}`;
            const dailyResponse = await fetch(dailyUrl);
            const dailyData = await dailyResponse.json();
            downloadsDaily = dailyData.downloads || null;
        }
        catch (error) {
            console.warn(`Could not fetch NPM daily downloads for ${packageName}:`, error);
        }
        const downloadsRange = await getFullDownloadHistory(packageName, new Date(packageData.time?.created || START_DATE));
        const downloadsTotal = downloadsRange.reduce((acc, curr) => acc + curr.downloads, 0);
        return {
            platform: PlatformSettings.name,
            name: packageName,
            timestamp: new Date().toISOString(),
            metrics: {
                downloadsTotal,
                downloadsMonthly,
                downloadsWeekly,
                downloadsDaily,
                downloadsRange,
            }
        };
    }
    catch (error) {
        return {
            platform: PlatformSettings.name,
            name: packageName,
            timestamp: new Date().toISOString(),
            metrics: {},
            error: error instanceof Error ? error.message : String(error)
        };
    }
}
async function collectNpmBatch(packageNames) {
    const resultPromises = [];
    for (const packageName of packageNames) {
        resultPromises.push(collectNpm(packageName));
    }
    return Promise.all(resultPromises);
}


/***/ }),

/***/ 6045:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __nccwpck_require__) => {


// EXPORTS
__nccwpck_require__.d(__webpack_exports__, {
  S8: () => (/* binding */ collectPowerShellBatch)
});

// UNUSED EXPORTS: collectPowerShell, findPackagesById, getPackageVersionInfo, getTotalDownloadCount, searchPackages

;// CONCATENATED MODULE: ./node_modules/fast-xml-parser/src/xmlparser/OptionsBuilder.js

const defaultOptions = {
    preserveOrder: false,
    attributeNamePrefix: '@_',
    attributesGroupName: false,
    textNodeName: '#text',
    ignoreAttributes: true,
    removeNSPrefix: false, // remove NS from tag name or attribute name if true
    allowBooleanAttributes: false, //a tag can have attributes without any value
    //ignoreRootElement : false,
    parseTagValue: true,
    parseAttributeValue: false,
    trimValues: true, //Trim string values of tag and attributes
    cdataPropName: false,
    numberParseOptions: {
      hex: true,
      leadingZeros: true,
      eNotation: true
    },
    tagValueProcessor: function(tagName, val) {
      return val;
    },
    attributeValueProcessor: function(attrName, val) {
      return val;
    },
    stopNodes: [], //nested tags will not be parsed even for errors
    alwaysCreateTextNode: false,
    isArray: () => false,
    commentPropName: false,
    unpairedTags: [],
    processEntities: true,
    htmlEntities: false,
    ignoreDeclaration: false,
    ignorePiTags: false,
    transformTagName: false,
    transformAttributeName: false,
    updateTag: function(tagName, jPath, attrs){
      return tagName
    },
    // skipEmptyListItem: false
    captureMetaData: false,
};
   
const buildOptions = function(options) {
    return Object.assign({}, defaultOptions, options);
};

;// CONCATENATED MODULE: ./node_modules/fast-xml-parser/src/util.js


const nameStartChar = ':A-Za-z_\\u00C0-\\u00D6\\u00D8-\\u00F6\\u00F8-\\u02FF\\u0370-\\u037D\\u037F-\\u1FFF\\u200C-\\u200D\\u2070-\\u218F\\u2C00-\\u2FEF\\u3001-\\uD7FF\\uF900-\\uFDCF\\uFDF0-\\uFFFD';
const nameChar = nameStartChar + '\\-.\\d\\u00B7\\u0300-\\u036F\\u203F-\\u2040';
const nameRegexp = '[' + nameStartChar + '][' + nameChar + ']*';
const regexName = new RegExp('^' + nameRegexp + '$');

function getAllMatches(string, regex) {
  const matches = [];
  let match = regex.exec(string);
  while (match) {
    const allmatches = [];
    allmatches.startIndex = regex.lastIndex - match[0].length;
    const len = match.length;
    for (let index = 0; index < len; index++) {
      allmatches.push(match[index]);
    }
    matches.push(allmatches);
    match = regex.exec(string);
  }
  return matches;
}

const isName = function(string) {
  const match = regexName.exec(string);
  return !(match === null || typeof match === 'undefined');
}

function isExist(v) {
  return typeof v !== 'undefined';
}

function isEmptyObject(obj) {
  return Object.keys(obj).length === 0;
}

/**
 * Copy all the properties of a into b.
 * @param {*} target
 * @param {*} a
 */
function merge(target, a, arrayMode) {
  if (a) {
    const keys = Object.keys(a); // will return an array of own properties
    const len = keys.length; //don't make it inline
    for (let i = 0; i < len; i++) {
      if (arrayMode === 'strict') {
        target[keys[i]] = [ a[keys[i]] ];
      } else {
        target[keys[i]] = a[keys[i]];
      }
    }
  }
}
/* exports.merge =function (b,a){
  return Object.assign(b,a);
} */

function getValue(v) {
  if (exports.isExist(v)) {
    return v;
  } else {
    return '';
  }
}

// const fakeCall = function(a) {return a;};
// const fakeCallNoReturn = function() {};
;// CONCATENATED MODULE: ./node_modules/fast-xml-parser/src/xmlparser/xmlNode.js


let METADATA_SYMBOL;

if (typeof Symbol !== "function") {
  METADATA_SYMBOL = "@@xmlMetadata";
} else {
  METADATA_SYMBOL = Symbol("XML Node Metadata");
}

class XmlNode{
  constructor(tagname) {
    this.tagname = tagname;
    this.child = []; //nested tags, text, cdata, comments in order
    this[":@"] = {}; //attributes map
  }
  add(key,val){
    // this.child.push( {name : key, val: val, isCdata: isCdata });
    if(key === "__proto__") key = "#__proto__";
    this.child.push( {[key]: val });
  }
  addChild(node, startIndex) {
    if(node.tagname === "__proto__") node.tagname = "#__proto__";
    if(node[":@"] && Object.keys(node[":@"]).length > 0){
      this.child.push( { [node.tagname]: node.child, [":@"]: node[":@"] });
    }else{
      this.child.push( { [node.tagname]: node.child });
    }
    // if requested, add the startIndex
    if (startIndex !== undefined) {
      // Note: for now we just overwrite the metadata. If we had more complex metadata,
      // we might need to do an object append here:  metadata = { ...metadata, startIndex }
      this.child[this.child.length - 1][METADATA_SYMBOL] = { startIndex };
    }
  }
  /** symbol used for metadata */
  static getMetaDataSymbol() {
    return METADATA_SYMBOL;
  }
}

;// CONCATENATED MODULE: ./node_modules/fast-xml-parser/src/xmlparser/DocTypeReader.js


//TODO: handle comments
function readDocType(xmlData, i){
    
    const entities = {};
    if( xmlData[i + 3] === 'O' &&
         xmlData[i + 4] === 'C' &&
         xmlData[i + 5] === 'T' &&
         xmlData[i + 6] === 'Y' &&
         xmlData[i + 7] === 'P' &&
         xmlData[i + 8] === 'E')
    {    
        i = i+9;
        let angleBracketsCount = 1;
        let hasBody = false, comment = false;
        let exp = "";
        for(;i') { //Read tag content
                if(comment){
                    if( xmlData[i - 1] === "-" && xmlData[i - 2] === "-"){
                        comment = false;
                        angleBracketsCount--;
                    }
                }else{
                    angleBracketsCount--;
                }
                if (angleBracketsCount === 0) {
                  break;
                }
            }else if( xmlData[i] === '['){
                hasBody = true;
            }else{
                exp += xmlData[i];
            }
        }
        if(angleBracketsCount !== 0){
            throw new Error(`Unclosed DOCTYPE`);
        }
    }else{
        throw new Error(`Invalid Tag instead of DOCTYPE`);
    }
    return {entities, i};
}

const skipWhitespace = (data, index) => {
    while (index < data.length && /\s/.test(data[index])) {
        index++;
    }
    return index;
};

function readEntityExp(xmlData, i) {    
    //External entities are not supported
    //    

    //Parameter entities are not supported
    //    

    //Internal entities are supported
    //    

    // Skip leading whitespace after 
    // 
    // 
    // 
    // 
    
    // Skip leading whitespace after  [ , '+', '00', '.123', ..
        if(match){
            const sign = match[1] || "";
            const leadingZeros = match[2];
            let numTrimmedByZeros = trimZeros(match[3]); //complete num without leading zeros
            const decimalAdjacentToLeadingZeros = sign ? // 0., -00., 000.
                str[leadingZeros.length+1] === "." 
                : str[leadingZeros.length] === ".";

            //trim ending zeros for floating number
            if(!options.leadingZeros //leading zeros are not allowed
                && (leadingZeros.length > 1 
                    || (leadingZeros.length === 1 && !decimalAdjacentToLeadingZeros))){
                // 00, 00.3, +03.24, 03, 03.24
                return str;
            }
            else{//no leading zeros or leading zeros are allowed
                const num = Number(trimmedStr);
                const parsedStr = String(num);

                if( num === 0) return num;
                if(parsedStr.search(/[eE]/) !== -1){ //given number is long and parsed to eNotation
                    if(options.eNotation) return num;
                    else return str;
                }else if(trimmedStr.indexOf(".") !== -1){ //floating number
                    if(parsedStr === "0") return num; //0.0
                    else if(parsedStr === numTrimmedByZeros) return num; //0.456. 0.79000
                    else if( parsedStr === `${sign}${numTrimmedByZeros}`) return num;
                    else return str;
                }
                
                let n = leadingZeros? numTrimmedByZeros : trimmedStr;
                if(leadingZeros){
                    // -009 => -9
                    return (n === parsedStr) || (sign+n === parsedStr) ? num : str
                }else  {
                    // +9
                    return (n === parsedStr) || (n === sign+parsedStr) ? num : str
                }
            }
        }else{ //non-numeric string
            return str;
        }
    }
}

const eNotationRegx = /^([-+])?(0*)(\d*(\.\d*)?[eE][-\+]?\d+)$/;
function resolveEnotation(str,trimmedStr,options){
    if(!options.eNotation) return str;
    const notation = trimmedStr.match(eNotationRegx); 
    if(notation){
        let sign = notation[1] || "";
        const eChar = notation[3].indexOf("e") === -1 ? "E" : "e";
        const leadingZeros = notation[2];
        const eAdjacentToLeadingZeros = sign ? // 0E.
            str[leadingZeros.length+1] === eChar 
            : str[leadingZeros.length] === eChar;

        if(leadingZeros.length > 1 && eAdjacentToLeadingZeros) return str;
        else if(leadingZeros.length === 1 
            && (notation[3].startsWith(`.${eChar}`) || notation[3][0] === eChar)){
                return Number(trimmedStr);
        }else if(options.leadingZeros && !eAdjacentToLeadingZeros){ //accept with leading zeros
            //remove leading 0s
            trimmedStr = (notation[1] || "") + notation[3];
            return Number(trimmedStr);
        }else return str;
    }else{
        return str;
    }
}

/**
 * 
 * @param {string} numStr without leading zeros
 * @returns 
 */
function trimZeros(numStr){
    if(numStr && numStr.indexOf(".") !== -1){//float
        numStr = numStr.replace(/0+$/, ""); //remove ending zeros
        if(numStr === ".")  numStr = "0";
        else if(numStr[0] === ".")  numStr = "0"+numStr;
        else if(numStr[numStr.length-1] === ".")  numStr = numStr.substring(0,numStr.length-1);
        return numStr;
    }
    return numStr;
}

function parse_int(numStr, base){
    //polyfill
    if(parseInt) return parseInt(numStr, base);
    else if(Number.parseInt) return Number.parseInt(numStr, base);
    else if(window && window.parseInt) return window.parseInt(numStr, base);
    else throw new Error("parseInt, Number.parseInt, window.parseInt are not supported")
}
;// CONCATENATED MODULE: ./node_modules/fast-xml-parser/src/ignoreAttributes.js
function getIgnoreAttributesFn(ignoreAttributes) {
    if (typeof ignoreAttributes === 'function') {
        return ignoreAttributes
    }
    if (Array.isArray(ignoreAttributes)) {
        return (attrName) => {
            for (const pattern of ignoreAttributes) {
                if (typeof pattern === 'string' && attrName === pattern) {
                    return true
                }
                if (pattern instanceof RegExp && pattern.test(attrName)) {
                    return true
                }
            }
        }
    }
    return () => false
}
;// CONCATENATED MODULE: ./node_modules/fast-xml-parser/src/xmlparser/OrderedObjParser.js

///@ts-check







// const regx =
//   '<((!\\[CDATA\\[([\\s\\S]*?)(]]>))|((NAME:)?(NAME))([^>]*)>|((\\/)(NAME)\\s*>))([^<]*)'
//   .replace(/NAME/g, util.nameRegexp);

//const tagsRegx = new RegExp("<(\\/?[\\w:\\-\._]+)([^>]*)>(\\s*"+cdataRegx+")*([^<]+)?","g");
//const tagsRegx = new RegExp("<(\\/?)((\\w*:)?([\\w:\\-\._]+))([^>]*)>([^<]*)("+cdataRegx+"([^<]*))*([^<]+)?","g");

class OrderedObjParser{
  constructor(options){
    this.options = options;
    this.currentNode = null;
    this.tagsNodeStack = [];
    this.docTypeEntities = {};
    this.lastEntities = {
      "apos" : { regex: /&(apos|#39|#x27);/g, val : "'"},
      "gt" : { regex: /&(gt|#62|#x3E);/g, val : ">"},
      "lt" : { regex: /&(lt|#60|#x3C);/g, val : "<"},
      "quot" : { regex: /&(quot|#34|#x22);/g, val : "\""},
    };
    this.ampEntity = { regex: /&(amp|#38|#x26);/g, val : "&"};
    this.htmlEntities = {
      "space": { regex: /&(nbsp|#160);/g, val: " " },
      // "lt" : { regex: /&(lt|#60);/g, val: "<" },
      // "gt" : { regex: /&(gt|#62);/g, val: ">" },
      // "amp" : { regex: /&(amp|#38);/g, val: "&" },
      // "quot" : { regex: /&(quot|#34);/g, val: "\"" },
      // "apos" : { regex: /&(apos|#39);/g, val: "'" },
      "cent" : { regex: /&(cent|#162);/g, val: "¢" },
      "pound" : { regex: /&(pound|#163);/g, val: "£" },
      "yen" : { regex: /&(yen|#165);/g, val: "¥" },
      "euro" : { regex: /&(euro|#8364);/g, val: "€" },
      "copyright" : { regex: /&(copy|#169);/g, val: "©" },
      "reg" : { regex: /&(reg|#174);/g, val: "®" },
      "inr" : { regex: /&(inr|#8377);/g, val: "₹" },
      "num_dec": { regex: /&#([0-9]{1,7});/g, val : (_, str) => String.fromCodePoint(Number.parseInt(str, 10)) },
      "num_hex": { regex: /&#x([0-9a-fA-F]{1,6});/g, val : (_, str) => String.fromCodePoint(Number.parseInt(str, 16)) },
    };
    this.addExternalEntities = addExternalEntities;
    this.parseXml = parseXml;
    this.parseTextData = parseTextData;
    this.resolveNameSpace = resolveNameSpace;
    this.buildAttributesMap = buildAttributesMap;
    this.isItStopNode = isItStopNode;
    this.replaceEntitiesValue = replaceEntitiesValue;
    this.readStopNodeData = readStopNodeData;
    this.saveTextToParentTag = saveTextToParentTag;
    this.addChild = addChild;
    this.ignoreAttributesFn = getIgnoreAttributesFn(this.options.ignoreAttributes)
  }

}

function addExternalEntities(externalEntities){
  const entKeys = Object.keys(externalEntities);
  for (let i = 0; i < entKeys.length; i++) {
    const ent = entKeys[i];
    this.lastEntities[ent] = {
       regex: new RegExp("&"+ent+";","g"),
       val : externalEntities[ent]
    }
  }
}

/**
 * @param {string} val
 * @param {string} tagName
 * @param {string} jPath
 * @param {boolean} dontTrim
 * @param {boolean} hasAttributes
 * @param {boolean} isLeafNode
 * @param {boolean} escapeEntities
 */
function parseTextData(val, tagName, jPath, dontTrim, hasAttributes, isLeafNode, escapeEntities) {
  if (val !== undefined) {
    if (this.options.trimValues && !dontTrim) {
      val = val.trim();
    }
    if(val.length > 0){
      if(!escapeEntities) val = this.replaceEntitiesValue(val);
      
      const newval = this.options.tagValueProcessor(tagName, val, jPath, hasAttributes, isLeafNode);
      if(newval === null || newval === undefined){
        //don't parse
        return val;
      }else if(typeof newval !== typeof val || newval !== val){
        //overwrite
        return newval;
      }else if(this.options.trimValues){
        return parseValue(val, this.options.parseTagValue, this.options.numberParseOptions);
      }else{
        const trimmedVal = val.trim();
        if(trimmedVal === val){
          return parseValue(val, this.options.parseTagValue, this.options.numberParseOptions);
        }else{
          return val;
        }
      }
    }
  }
}

function resolveNameSpace(tagname) {
  if (this.options.removeNSPrefix) {
    const tags = tagname.split(':');
    const prefix = tagname.charAt(0) === '/' ? '/' : '';
    if (tags[0] === 'xmlns') {
      return '';
    }
    if (tags.length === 2) {
      tagname = prefix + tags[1];
    }
  }
  return tagname;
}

//TODO: change regex to capture NS
//const attrsRegx = new RegExp("([\\w\\-\\.\\:]+)\\s*=\\s*(['\"])((.|\n)*?)\\2","gm");
const attrsRegx = new RegExp('([^\\s=]+)\\s*(=\\s*([\'"])([\\s\\S]*?)\\3)?', 'gm');

function buildAttributesMap(attrStr, jPath, tagName) {
  if (this.options.ignoreAttributes !== true && typeof attrStr === 'string') {
    // attrStr = attrStr.replace(/\r?\n/g, ' ');
    //attrStr = attrStr || attrStr.trim();

    const matches = getAllMatches(attrStr, attrsRegx);
    const len = matches.length; //don't make it inline
    const attrs = {};
    for (let i = 0; i < len; i++) {
      const attrName = this.resolveNameSpace(matches[i][1]);
      if (this.ignoreAttributesFn(attrName, jPath)) {
        continue
      }
      let oldVal = matches[i][4];
      let aName = this.options.attributeNamePrefix + attrName;
      if (attrName.length) {
        if (this.options.transformAttributeName) {
          aName = this.options.transformAttributeName(aName);
        }
        if(aName === "__proto__") aName  = "#__proto__";
        if (oldVal !== undefined) {
          if (this.options.trimValues) {
            oldVal = oldVal.trim();
          }
          oldVal = this.replaceEntitiesValue(oldVal);
          const newVal = this.options.attributeValueProcessor(attrName, oldVal, jPath);
          if(newVal === null || newVal === undefined){
            //don't parse
            attrs[aName] = oldVal;
          }else if(typeof newVal !== typeof oldVal || newVal !== oldVal){
            //overwrite
            attrs[aName] = newVal;
          }else{
            //parse
            attrs[aName] = parseValue(
              oldVal,
              this.options.parseAttributeValue,
              this.options.numberParseOptions
            );
          }
        } else if (this.options.allowBooleanAttributes) {
          attrs[aName] = true;
        }
      }
    }
    if (!Object.keys(attrs).length) {
      return;
    }
    if (this.options.attributesGroupName) {
      const attrCollection = {};
      attrCollection[this.options.attributesGroupName] = attrs;
      return attrCollection;
    }
    return attrs
  }
}

const parseXml = function(xmlData) {
  xmlData = xmlData.replace(/\r\n?/g, "\n"); //TODO: remove this line
  const xmlObj = new XmlNode('!xml');
  let currentNode = xmlObj;
  let textData = "";
  let jPath = "";
  for(let i=0; i< xmlData.length; i++){//for each char in XML data
    const ch = xmlData[i];
    if(ch === '<'){
      // const nextIndex = i+1;
      // const _2ndChar = xmlData[nextIndex];
      if( xmlData[i+1] === '/') {//Closing Tag
        const closeIndex = findClosingIndex(xmlData, ">", i, "Closing Tag is not closed.")
        let tagName = xmlData.substring(i+2,closeIndex).trim();

        if(this.options.removeNSPrefix){
          const colonIndex = tagName.indexOf(":");
          if(colonIndex !== -1){
            tagName = tagName.substr(colonIndex+1);
          }
        }

        if(this.options.transformTagName) {
          tagName = this.options.transformTagName(tagName);
        }

        if(currentNode){
          textData = this.saveTextToParentTag(textData, currentNode, jPath);
        }

        //check if last tag of nested tag was unpaired tag
        const lastTagName = jPath.substring(jPath.lastIndexOf(".")+1);
        if(tagName && this.options.unpairedTags.indexOf(tagName) !== -1 ){
          throw new Error(`Unpaired tag can not be used as closing tag: `);
        }
        let propIndex = 0
        if(lastTagName && this.options.unpairedTags.indexOf(lastTagName) !== -1 ){
          propIndex = jPath.lastIndexOf('.', jPath.lastIndexOf('.')-1)
          this.tagsNodeStack.pop();
        }else{
          propIndex = jPath.lastIndexOf(".");
        }
        jPath = jPath.substring(0, propIndex);

        currentNode = this.tagsNodeStack.pop();//avoid recursion, set the parent tag scope
        textData = "";
        i = closeIndex;
      } else if( xmlData[i+1] === '?') {

        let tagData = readTagExp(xmlData,i, false, "?>");
        if(!tagData) throw new Error("Pi Tag is not closed.");

        textData = this.saveTextToParentTag(textData, currentNode, jPath);
        if( (this.options.ignoreDeclaration && tagData.tagName === "?xml") || this.options.ignorePiTags){

        }else{
  
          const childNode = new XmlNode(tagData.tagName);
          childNode.add(this.options.textNodeName, "");
          
          if(tagData.tagName !== tagData.tagExp && tagData.attrExpPresent){
            childNode[":@"] = this.buildAttributesMap(tagData.tagExp, jPath, tagData.tagName);
          }
          this.addChild(currentNode, childNode, jPath, i);
        }


        i = tagData.closeIndex + 1;
      } else if(xmlData.substr(i + 1, 3) === '!--') {
        const endIndex = findClosingIndex(xmlData, "-->", i+4, "Comment is not closed.")
        if(this.options.commentPropName){
          const comment = xmlData.substring(i + 4, endIndex - 2);

          textData = this.saveTextToParentTag(textData, currentNode, jPath);

          currentNode.add(this.options.commentPropName, [ { [this.options.textNodeName] : comment } ]);
        }
        i = endIndex;
      } else if( xmlData.substr(i + 1, 2) === '!D') {
        const result = readDocType(xmlData, i);
        this.docTypeEntities = result.entities;
        i = result.i;
      }else if(xmlData.substr(i + 1, 2) === '![') {
        const closeIndex = findClosingIndex(xmlData, "]]>", i, "CDATA is not closed.") - 2;
        const tagExp = xmlData.substring(i + 9,closeIndex);

        textData = this.saveTextToParentTag(textData, currentNode, jPath);

        let val = this.parseTextData(tagExp, currentNode.tagname, jPath, true, false, true, true);
        if(val == undefined) val = "";

        //cdata should be set even if it is 0 length string
        if(this.options.cdataPropName){
          currentNode.add(this.options.cdataPropName, [ { [this.options.textNodeName] : tagExp } ]);
        }else{
          currentNode.add(this.options.textNodeName, val);
        }
        
        i = closeIndex + 2;
      }else {//Opening tag
        let result = readTagExp(xmlData,i, this.options.removeNSPrefix);
        let tagName= result.tagName;
        const rawTagName = result.rawTagName;
        let tagExp = result.tagExp;
        let attrExpPresent = result.attrExpPresent;
        let closeIndex = result.closeIndex;

        if (this.options.transformTagName) {
          tagName = this.options.transformTagName(tagName);
        }
        
        //save text as child node
        if (currentNode && textData) {
          if(currentNode.tagname !== '!xml'){
            //when nested tag is found
            textData = this.saveTextToParentTag(textData, currentNode, jPath, false);
          }
        }

        //check if last tag was unpaired tag
        const lastTag = currentNode;
        if(lastTag && this.options.unpairedTags.indexOf(lastTag.tagname) !== -1 ){
          currentNode = this.tagsNodeStack.pop();
          jPath = jPath.substring(0, jPath.lastIndexOf("."));
        }
        if(tagName !== xmlObj.tagname){
          jPath += jPath ? "." + tagName : tagName;
        }
        const startIndex = i;
        if (this.isItStopNode(this.options.stopNodes, jPath, tagName)) {
          let tagContent = "";
          //self-closing tag
          if(tagExp.length > 0 && tagExp.lastIndexOf("/") === tagExp.length - 1){
            if(tagName[tagName.length - 1] === "/"){ //remove trailing '/'
              tagName = tagName.substr(0, tagName.length - 1);
              jPath = jPath.substr(0, jPath.length - 1);
              tagExp = tagName;
            }else{
              tagExp = tagExp.substr(0, tagExp.length - 1);
            }
            i = result.closeIndex;
          }
          //unpaired tag
          else if(this.options.unpairedTags.indexOf(tagName) !== -1){
            
            i = result.closeIndex;
          }
          //normal tag
          else{
            //read until closing tag is found
            const result = this.readStopNodeData(xmlData, rawTagName, closeIndex + 1);
            if(!result) throw new Error(`Unexpected end of ${rawTagName}`);
            i = result.i;
            tagContent = result.tagContent;
          }

          const childNode = new XmlNode(tagName);

          if(tagName !== tagExp && attrExpPresent){
            childNode[":@"] = this.buildAttributesMap(tagExp, jPath, tagName);
          }
          if(tagContent) {
            tagContent = this.parseTextData(tagContent, tagName, jPath, true, attrExpPresent, true, true);
          }
          
          jPath = jPath.substr(0, jPath.lastIndexOf("."));
          childNode.add(this.options.textNodeName, tagContent);
          
          this.addChild(currentNode, childNode, jPath, startIndex);
        }else{
  //selfClosing tag
          if(tagExp.length > 0 && tagExp.lastIndexOf("/") === tagExp.length - 1){
            if(tagName[tagName.length - 1] === "/"){ //remove trailing '/'
              tagName = tagName.substr(0, tagName.length - 1);
              jPath = jPath.substr(0, jPath.length - 1);
              tagExp = tagName;
            }else{
              tagExp = tagExp.substr(0, tagExp.length - 1);
            }
            
            if(this.options.transformTagName) {
              tagName = this.options.transformTagName(tagName);
            }

            const childNode = new XmlNode(tagName);
            if(tagName !== tagExp && attrExpPresent){
              childNode[":@"] = this.buildAttributesMap(tagExp, jPath, tagName);
            }
            this.addChild(currentNode, childNode, jPath, startIndex);
            jPath = jPath.substr(0, jPath.lastIndexOf("."));
          }
    //opening tag
          else{
            const childNode = new XmlNode( tagName);
            this.tagsNodeStack.push(currentNode);
            
            if(tagName !== tagExp && attrExpPresent){
              childNode[":@"] = this.buildAttributesMap(tagExp, jPath, tagName);
            }
            this.addChild(currentNode, childNode, jPath, startIndex);
            currentNode = childNode;
          }
          textData = "";
          i = closeIndex;
        }
      }
    }else{
      textData += xmlData[i];
    }
  }
  return xmlObj.child;
}

function addChild(currentNode, childNode, jPath, startIndex){
  // unset startIndex if not requested
  if (!this.options.captureMetaData) startIndex = undefined;
  const result = this.options.updateTag(childNode.tagname, jPath, childNode[":@"])
  if(result === false){
  } else if(typeof result === "string"){
    childNode.tagname = result
    currentNode.addChild(childNode, startIndex);
  }else{
    currentNode.addChild(childNode, startIndex);
  }
}

const replaceEntitiesValue = function(val){

  if(this.options.processEntities){
    for(let entityName in this.docTypeEntities){
      const entity = this.docTypeEntities[entityName];
      val = val.replace( entity.regx, entity.val);
    }
    for(let entityName in this.lastEntities){
      const entity = this.lastEntities[entityName];
      val = val.replace( entity.regex, entity.val);
    }
    if(this.options.htmlEntities){
      for(let entityName in this.htmlEntities){
        const entity = this.htmlEntities[entityName];
        val = val.replace( entity.regex, entity.val);
      }
    }
    val = val.replace( this.ampEntity.regex, this.ampEntity.val);
  }
  return val;
}
function saveTextToParentTag(textData, currentNode, jPath, isLeafNode) {
  if (textData) { //store previously collected data as textNode
    if(isLeafNode === undefined) isLeafNode = currentNode.child.length === 0
    
    textData = this.parseTextData(textData,
      currentNode.tagname,
      jPath,
      false,
      currentNode[":@"] ? Object.keys(currentNode[":@"]).length !== 0 : false,
      isLeafNode);

    if (textData !== undefined && textData !== "")
      currentNode.add(this.options.textNodeName, textData);
    textData = "";
  }
  return textData;
}

//TODO: use jPath to simplify the logic
/**
 * 
 * @param {string[]} stopNodes 
 * @param {string} jPath
 * @param {string} currentTagName 
 */
function isItStopNode(stopNodes, jPath, currentTagName){
  const allNodesExp = "*." + currentTagName;
  for (const stopNodePath in stopNodes) {
    const stopNodeExp = stopNodes[stopNodePath];
    if( allNodesExp === stopNodeExp || jPath === stopNodeExp  ) return true;
  }
  return false;
}

/**
 * Returns the tag Expression and where it is ending handling single-double quotes situation
 * @param {string} xmlData 
 * @param {number} i starting index
 * @returns 
 */
function tagExpWithClosingIndex(xmlData, i, closingChar = ">"){
  let attrBoundary;
  let tagExp = "";
  for (let index = i; index < xmlData.length; index++) {
    let ch = xmlData[index];
    if (attrBoundary) {
        if (ch === attrBoundary) attrBoundary = "";//reset
    } else if (ch === '"' || ch === "'") {
        attrBoundary = ch;
    } else if (ch === closingChar[0]) {
      if(closingChar[1]){
        if(xmlData[index + 1] === closingChar[1]){
          return {
            data: tagExp,
            index: index
          }
        }
      }else{
        return {
          data: tagExp,
          index: index
        }
      }
    } else if (ch === '\t') {
      ch = " "
    }
    tagExp += ch;
  }
}

function findClosingIndex(xmlData, str, i, errMsg){
  const closingIndex = xmlData.indexOf(str, i);
  if(closingIndex === -1){
    throw new Error(errMsg)
  }else{
    return closingIndex + str.length - 1;
  }
}

function readTagExp(xmlData,i, removeNSPrefix, closingChar = ">"){
  const result = tagExpWithClosingIndex(xmlData, i+1, closingChar);
  if(!result) return;
  let tagExp = result.data;
  const closeIndex = result.index;
  const separatorIndex = tagExp.search(/\s/);
  let tagName = tagExp;
  let attrExpPresent = true;
  if(separatorIndex !== -1){//separate tag name and attributes expression
    tagName = tagExp.substring(0, separatorIndex);
    tagExp = tagExp.substring(separatorIndex + 1).trimStart();
  }

  const rawTagName = tagName;
  if(removeNSPrefix){
    const colonIndex = tagName.indexOf(":");
    if(colonIndex !== -1){
      tagName = tagName.substr(colonIndex+1);
      attrExpPresent = tagName !== result.data.substr(colonIndex + 1);
    }
  }

  return {
    tagName: tagName,
    tagExp: tagExp,
    closeIndex: closeIndex,
    attrExpPresent: attrExpPresent,
    rawTagName: rawTagName,
  }
}
/**
 * find paired tag for a stop node
 * @param {string} xmlData 
 * @param {string} tagName 
 * @param {number} i 
 */
function readStopNodeData(xmlData, tagName, i){
  const startIndex = i;
  // Starting at 1 since we already have an open tag
  let openTagCount = 1;

  for (; i < xmlData.length; i++) {
    if( xmlData[i] === "<"){ 
      if (xmlData[i+1] === "/") {//close tag
          const closeIndex = findClosingIndex(xmlData, ">", i, `${tagName} is not closed`);
          let closeTagName = xmlData.substring(i+2,closeIndex).trim();
          if(closeTagName === tagName){
            openTagCount--;
            if (openTagCount === 0) {
              return {
                tagContent: xmlData.substring(startIndex, i),
                i : closeIndex
              }
            }
          }
          i=closeIndex;
        } else if(xmlData[i+1] === '?') { 
          const closeIndex = findClosingIndex(xmlData, "?>", i+1, "StopNode is not closed.")
          i=closeIndex;
        } else if(xmlData.substr(i + 1, 3) === '!--') { 
          const closeIndex = findClosingIndex(xmlData, "-->", i+3, "StopNode is not closed.")
          i=closeIndex;
        } else if(xmlData.substr(i + 1, 2) === '![') { 
          const closeIndex = findClosingIndex(xmlData, "]]>", i, "StopNode is not closed.") - 2;
          i=closeIndex;
        } else {
          const tagData = readTagExp(xmlData, i, '>')

          if (tagData) {
            const openTagName = tagData && tagData.tagName;
            if (openTagName === tagName && tagData.tagExp[tagData.tagExp.length-1] !== "/") {
              openTagCount++;
            }
            i=tagData.closeIndex;
          }
        }
      }
  }//end for loop
}

function parseValue(val, shouldParse, options) {
  if (shouldParse && typeof val === 'string') {
    //console.log(options)
    const newval = val.trim();
    if(newval === 'true' ) return true;
    else if(newval === 'false' ) return false;
    else return toNumber(val, options);
  } else {
    if (isExist(val)) {
      return val;
    } else {
      return '';
    }
  }
}

;// CONCATENATED MODULE: ./node_modules/fast-xml-parser/src/xmlparser/node2json.js




const node2json_METADATA_SYMBOL = XmlNode.getMetaDataSymbol();

/**
 * 
 * @param {array} node 
 * @param {any} options 
 * @returns 
 */
function prettify(node, options){
  return compress( node, options);
}

/**
 * 
 * @param {array} arr 
 * @param {object} options 
 * @param {string} jPath 
 * @returns object
 */
function compress(arr, options, jPath){
  let text;
  const compressedObj = {};
  for (let i = 0; i < arr.length; i++) {
    const tagObj = arr[i];
    const property = propName(tagObj);
    let newJpath = "";
    if(jPath === undefined) newJpath = property;
    else newJpath = jPath + "." + property;

    if(property === options.textNodeName){
      if(text === undefined) text = tagObj[property];
      else text += "" + tagObj[property];
    }else if(property === undefined){
      continue;
    }else if(tagObj[property]){
      
      let val = compress(tagObj[property], options, newJpath);
      const isLeaf = isLeafTag(val, options);
      if (tagObj[node2json_METADATA_SYMBOL] !== undefined) {
        val[node2json_METADATA_SYMBOL] = tagObj[node2json_METADATA_SYMBOL]; // copy over metadata
      }

      if(tagObj[":@"]){
        assignAttributes( val, tagObj[":@"], newJpath, options);
      }else if(Object.keys(val).length === 1 && val[options.textNodeName] !== undefined && !options.alwaysCreateTextNode){
        val = val[options.textNodeName];
      }else if(Object.keys(val).length === 0){
        if(options.alwaysCreateTextNode) val[options.textNodeName] = "";
        else val = "";
      }

      if(compressedObj[property] !== undefined && compressedObj.hasOwnProperty(property)) {
        if(!Array.isArray(compressedObj[property])) {
            compressedObj[property] = [ compressedObj[property] ];
        }
        compressedObj[property].push(val);
      }else{
        //TODO: if a node is not an array, then check if it should be an array
        //also determine if it is a leaf node
        if (options.isArray(property, newJpath, isLeaf )) {
          compressedObj[property] = [val];
        }else{
          compressedObj[property] = val;
        }
      }
    }
    
  }
  // if(text && text.length > 0) compressedObj[options.textNodeName] = text;
  if(typeof text === "string"){
    if(text.length > 0) compressedObj[options.textNodeName] = text;
  }else if(text !== undefined) compressedObj[options.textNodeName] = text;
  return compressedObj;
}

function propName(obj){
  const keys = Object.keys(obj);
  for (let i = 0; i < keys.length; i++) {
    const key = keys[i];
    if(key !== ":@") return key;
  }
}

function assignAttributes(obj, attrMap, jpath, options){
  if (attrMap) {
    const keys = Object.keys(attrMap);
    const len = keys.length; //don't make it inline
    for (let i = 0; i < len; i++) {
      const atrrName = keys[i];
      if (options.isArray(atrrName, jpath + "." + atrrName, true, true)) {
        obj[atrrName] = [ attrMap[atrrName] ];
      } else {
        obj[atrrName] = attrMap[atrrName];
      }
    }
  }
}

function isLeafTag(obj, options){
  const { textNodeName } = options;
  const propCount = Object.keys(obj).length;
  
  if (propCount === 0) {
    return true;
  }

  if (
    propCount === 1 &&
    (obj[textNodeName] || typeof obj[textNodeName] === "boolean" || obj[textNodeName] === 0)
  ) {
    return true;
  }

  return false;
}

;// CONCATENATED MODULE: ./node_modules/fast-xml-parser/src/validator.js




const validator_defaultOptions = {
  allowBooleanAttributes: false, //A tag can have attributes without any value
  unpairedTags: []
};

//const tagsPattern = new RegExp("<\\/?([\\w:\\-_\.]+)\\s*\/?>","g");
function validate(xmlData, options) {
  options = Object.assign({}, validator_defaultOptions, options);

  //xmlData = xmlData.replace(/(\r\n|\n|\r)/gm,"");//make it single line
  //xmlData = xmlData.replace(/(^\s*<\?xml.*?\?>)/g,"");//Remove XML starting tag
  //xmlData = xmlData.replace(/()/g,"");//Remove DOCTYPE
  const tags = [];
  let tagFound = false;

  //indicates that the root tag has been closed (aka. depth 0 has been reached)
  let reachedRoot = false;

  if (xmlData[0] === '\ufeff') {
    // check for byte order mark (BOM)
    xmlData = xmlData.substr(1);
  }
  
  for (let i = 0; i < xmlData.length; i++) {

    if (xmlData[i] === '<' && xmlData[i+1] === '?') {
      i+=2;
      i = readPI(xmlData,i);
      if (i.err) return i;
    }else if (xmlData[i] === '<') {
      //starting of tag
      //read until you reach to '>' avoiding any '>' in attribute value
      let tagStartPos = i;
      i++;
      
      if (xmlData[i] === '!') {
        i = readCommentAndCDATA(xmlData, i);
        continue;
      } else {
        let closingTag = false;
        if (xmlData[i] === '/') {
          //closing tag
          closingTag = true;
          i++;
        }
        //read tagname
        let tagName = '';
        for (; i < xmlData.length &&
          xmlData[i] !== '>' &&
          xmlData[i] !== ' ' &&
          xmlData[i] !== '\t' &&
          xmlData[i] !== '\n' &&
          xmlData[i] !== '\r'; i++
        ) {
          tagName += xmlData[i];
        }
        tagName = tagName.trim();
        //console.log(tagName);

        if (tagName[tagName.length - 1] === '/') {
          //self closing tag without attributes
          tagName = tagName.substring(0, tagName.length - 1);
          //continue;
          i--;
        }
        if (!validateTagName(tagName)) {
          let msg;
          if (tagName.trim().length === 0) {
            msg = "Invalid space after '<'.";
          } else {
            msg = "Tag '"+tagName+"' is an invalid name.";
          }
          return getErrorObject('InvalidTag', msg, getLineNumberForPosition(xmlData, i));
        }

        const result = readAttributeStr(xmlData, i);
        if (result === false) {
          return getErrorObject('InvalidAttr', "Attributes for '"+tagName+"' have open quote.", getLineNumberForPosition(xmlData, i));
        }
        let attrStr = result.value;
        i = result.index;

        if (attrStr[attrStr.length - 1] === '/') {
          //self closing tag
          const attrStrStart = i - attrStr.length;
          attrStr = attrStr.substring(0, attrStr.length - 1);
          const isValid = validateAttributeString(attrStr, options);
          if (isValid === true) {
            tagFound = true;
            //continue; //text may presents after self closing tag
          } else {
            //the result from the nested function returns the position of the error within the attribute
            //in order to get the 'true' error line, we need to calculate the position where the attribute begins (i - attrStr.length) and then add the position within the attribute
            //this gives us the absolute index in the entire xml, which we can use to find the line at last
            return getErrorObject(isValid.err.code, isValid.err.msg, getLineNumberForPosition(xmlData, attrStrStart + isValid.err.line));
          }
        } else if (closingTag) {
          if (!result.tagClosed) {
            return getErrorObject('InvalidTag', "Closing tag '"+tagName+"' doesn't have proper closing.", getLineNumberForPosition(xmlData, i));
          } else if (attrStr.trim().length > 0) {
            return getErrorObject('InvalidTag', "Closing tag '"+tagName+"' can't have attributes or invalid starting.", getLineNumberForPosition(xmlData, tagStartPos));
          } else if (tags.length === 0) {
            return getErrorObject('InvalidTag', "Closing tag '"+tagName+"' has not been opened.", getLineNumberForPosition(xmlData, tagStartPos));
          } else {
            const otg = tags.pop();
            if (tagName !== otg.tagName) {
              let openPos = getLineNumberForPosition(xmlData, otg.tagStartPos);
              return getErrorObject('InvalidTag',
                "Expected closing tag '"+otg.tagName+"' (opened in line "+openPos.line+", col "+openPos.col+") instead of closing tag '"+tagName+"'.",
                getLineNumberForPosition(xmlData, tagStartPos));
            }

            //when there are no more tags, we reached the root level.
            if (tags.length == 0) {
              reachedRoot = true;
            }
          }
        } else {
          const isValid = validateAttributeString(attrStr, options);
          if (isValid !== true) {
            //the result from the nested function returns the position of the error within the attribute
            //in order to get the 'true' error line, we need to calculate the position where the attribute begins (i - attrStr.length) and then add the position within the attribute
            //this gives us the absolute index in the entire xml, which we can use to find the line at last
            return getErrorObject(isValid.err.code, isValid.err.msg, getLineNumberForPosition(xmlData, i - attrStr.length + isValid.err.line));
          }

          //if the root level has been reached before ...
          if (reachedRoot === true) {
            return getErrorObject('InvalidXml', 'Multiple possible root nodes found.', getLineNumberForPosition(xmlData, i));
          } else if(options.unpairedTags.indexOf(tagName) !== -1){
            //don't push into stack
          } else {
            tags.push({tagName, tagStartPos});
          }
          tagFound = true;
        }

        //skip tag text value
        //It may include comments and CDATA value
        for (i++; i < xmlData.length; i++) {
          if (xmlData[i] === '<') {
            if (xmlData[i + 1] === '!') {
              //comment or CADATA
              i++;
              i = readCommentAndCDATA(xmlData, i);
              continue;
            } else if (xmlData[i+1] === '?') {
              i = readPI(xmlData, ++i);
              if (i.err) return i;
            } else{
              break;
            }
          } else if (xmlData[i] === '&') {
            const afterAmp = validateAmpersand(xmlData, i);
            if (afterAmp == -1)
              return getErrorObject('InvalidChar', "char '&' is not expected.", getLineNumberForPosition(xmlData, i));
            i = afterAmp;
          }else{
            if (reachedRoot === true && !isWhiteSpace(xmlData[i])) {
              return getErrorObject('InvalidXml', "Extra text at the end", getLineNumberForPosition(xmlData, i));
            }
          }
        } //end of reading tag text value
        if (xmlData[i] === '<') {
          i--;
        }
      }
    } else {
      if ( isWhiteSpace(xmlData[i])) {
        continue;
      }
      return getErrorObject('InvalidChar', "char '"+xmlData[i]+"' is not expected.", getLineNumberForPosition(xmlData, i));
    }
  }

  if (!tagFound) {
    return getErrorObject('InvalidXml', 'Start tag expected.', 1);
  }else if (tags.length == 1) {
      return getErrorObject('InvalidTag', "Unclosed tag '"+tags[0].tagName+"'.", getLineNumberForPosition(xmlData, tags[0].tagStartPos));
  }else if (tags.length > 0) {
      return getErrorObject('InvalidXml', "Invalid '"+
          JSON.stringify(tags.map(t => t.tagName), null, 4).replace(/\r?\n/g, '')+
          "' found.", {line: 1, col: 1});
  }

  return true;
};

function isWhiteSpace(char){
  return char === ' ' || char === '\t' || char === '\n'  || char === '\r';
}
/**
 * Read Processing insstructions and skip
 * @param {*} xmlData
 * @param {*} i
 */
function readPI(xmlData, i) {
  const start = i;
  for (; i < xmlData.length; i++) {
    if (xmlData[i] == '?' || xmlData[i] == ' ') {
      //tagname
      const tagname = xmlData.substr(start, i - start);
      if (i > 5 && tagname === 'xml') {
        return getErrorObject('InvalidXml', 'XML declaration allowed only at the start of the document.', getLineNumberForPosition(xmlData, i));
      } else if (xmlData[i] == '?' && xmlData[i + 1] == '>') {
        //check if valid attribut string
        i++;
        break;
      } else {
        continue;
      }
    }
  }
  return i;
}

function readCommentAndCDATA(xmlData, i) {
  if (xmlData.length > i + 5 && xmlData[i + 1] === '-' && xmlData[i + 2] === '-') {
    //comment
    for (i += 3; i < xmlData.length; i++) {
      if (xmlData[i] === '-' && xmlData[i + 1] === '-' && xmlData[i + 2] === '>') {
        i += 2;
        break;
      }
    }
  } else if (
    xmlData.length > i + 8 &&
    xmlData[i + 1] === 'D' &&
    xmlData[i + 2] === 'O' &&
    xmlData[i + 3] === 'C' &&
    xmlData[i + 4] === 'T' &&
    xmlData[i + 5] === 'Y' &&
    xmlData[i + 6] === 'P' &&
    xmlData[i + 7] === 'E'
  ) {
    let angleBracketsCount = 1;
    for (i += 8; i < xmlData.length; i++) {
      if (xmlData[i] === '<') {
        angleBracketsCount++;
      } else if (xmlData[i] === '>') {
        angleBracketsCount--;
        if (angleBracketsCount === 0) {
          break;
        }
      }
    }
  } else if (
    xmlData.length > i + 9 &&
    xmlData[i + 1] === '[' &&
    xmlData[i + 2] === 'C' &&
    xmlData[i + 3] === 'D' &&
    xmlData[i + 4] === 'A' &&
    xmlData[i + 5] === 'T' &&
    xmlData[i + 6] === 'A' &&
    xmlData[i + 7] === '['
  ) {
    for (i += 8; i < xmlData.length; i++) {
      if (xmlData[i] === ']' && xmlData[i + 1] === ']' && xmlData[i + 2] === '>') {
        i += 2;
        break;
      }
    }
  }

  return i;
}

const doubleQuote = '"';
const singleQuote = "'";

/**
 * Keep reading xmlData until '<' is found outside the attribute value.
 * @param {string} xmlData
 * @param {number} i
 */
function readAttributeStr(xmlData, i) {
  let attrStr = '';
  let startChar = '';
  let tagClosed = false;
  for (; i < xmlData.length; i++) {
    if (xmlData[i] === doubleQuote || xmlData[i] === singleQuote) {
      if (startChar === '') {
        startChar = xmlData[i];
      } else if (startChar !== xmlData[i]) {
        //if vaue is enclosed with double quote then single quotes are allowed inside the value and vice versa
      } else {
        startChar = '';
      }
    } else if (xmlData[i] === '>') {
      if (startChar === '') {
        tagClosed = true;
        break;
      }
    }
    attrStr += xmlData[i];
  }
  if (startChar !== '') {
    return false;
  }

  return {
    value: attrStr,
    index: i,
    tagClosed: tagClosed
  };
}

/**
 * Select all the attributes whether valid or invalid.
 */
const validAttrStrRegxp = new RegExp('(\\s*)([^\\s=]+)(\\s*=)?(\\s*([\'"])(([\\s\\S])*?)\\5)?', 'g');

//attr, ="sd", a="amit's", a="sd"b="saf", ab  cd=""

function validateAttributeString(attrStr, options) {
  //console.log("start:"+attrStr+":end");

  //if(attrStr.trim().length === 0) return true; //empty string

  const matches = getAllMatches(attrStr, validAttrStrRegxp);
  const attrNames = {};

  for (let i = 0; i < matches.length; i++) {
    if (matches[i][1].length === 0) {
      //nospace before attribute name: a="sd"b="saf"
      return getErrorObject('InvalidAttr', "Attribute '"+matches[i][2]+"' has no space in starting.", getPositionFromMatch(matches[i]))
    } else if (matches[i][3] !== undefined && matches[i][4] === undefined) {
      return getErrorObject('InvalidAttr', "Attribute '"+matches[i][2]+"' is without value.", getPositionFromMatch(matches[i]));
    } else if (matches[i][3] === undefined && !options.allowBooleanAttributes) {
      //independent attribute: ab
      return getErrorObject('InvalidAttr', "boolean attribute '"+matches[i][2]+"' is not allowed.", getPositionFromMatch(matches[i]));
    }
    /* else if(matches[i][6] === undefined){//attribute without value: ab=
                    return { err: { code:"InvalidAttr",msg:"attribute " + matches[i][2] + " has no value assigned."}};
                } */
    const attrName = matches[i][2];
    if (!validateAttrName(attrName)) {
      return getErrorObject('InvalidAttr', "Attribute '"+attrName+"' is an invalid name.", getPositionFromMatch(matches[i]));
    }
    if (!attrNames.hasOwnProperty(attrName)) {
      //check for duplicate attribute.
      attrNames[attrName] = 1;
    } else {
      return getErrorObject('InvalidAttr', "Attribute '"+attrName+"' is repeated.", getPositionFromMatch(matches[i]));
    }
  }

  return true;
}

function validateNumberAmpersand(xmlData, i) {
  let re = /\d/;
  if (xmlData[i] === 'x') {
    i++;
    re = /[\da-fA-F]/;
  }
  for (; i < xmlData.length; i++) {
    if (xmlData[i] === ';')
      return i;
    if (!xmlData[i].match(re))
      break;
  }
  return -1;
}

function validateAmpersand(xmlData, i) {
  // https://www.w3.org/TR/xml/#dt-charref
  i++;
  if (xmlData[i] === ';')
    return -1;
  if (xmlData[i] === '#') {
    i++;
    return validateNumberAmpersand(xmlData, i);
  }
  let count = 0;
  for (; i < xmlData.length; i++, count++) {
    if (xmlData[i].match(/\w/) && count < 20)
      continue;
    if (xmlData[i] === ';')
      break;
    return -1;
  }
  return i;
}

function getErrorObject(code, message, lineNumber) {
  return {
    err: {
      code: code,
      msg: message,
      line: lineNumber.line || lineNumber,
      col: lineNumber.col,
    },
  };
}

function validateAttrName(attrName) {
  return isName(attrName);
}

// const startsWithXML = /^xml/i;

function validateTagName(tagname) {
  return isName(tagname) /* && !tagname.match(startsWithXML) */;
}

//this function returns the line number for the character at the given index
function getLineNumberForPosition(xmlData, index) {
  const lines = xmlData.substring(0, index).split(/\r?\n/);
  return {
    line: lines.length,

    // column number is last line's length + 1, because column numbering starts at 1:
    col: lines[lines.length - 1].length + 1
  };
}

//this function returns the position of the first character of match within attrStr
function getPositionFromMatch(match) {
  return match.startIndex + match[1].length;
}

;// CONCATENATED MODULE: ./node_modules/fast-xml-parser/src/xmlparser/XMLParser.js






class XMLParser{
    
    constructor(options){
        this.externalEntities = {};
        this.options = buildOptions(options);
        
    }
    /**
     * Parse XML dats to JS object 
     * @param {string|Buffer} xmlData 
     * @param {boolean|Object} validationOption 
     */
    parse(xmlData,validationOption){
        if(typeof xmlData === "string"){
        }else if( xmlData.toString){
            xmlData = xmlData.toString();
        }else{
            throw new Error("XML data is accepted in String or Bytes[] form.")
        }
        if( validationOption){
            if(validationOption === true) validationOption = {}; //validate with default options
            
            const result = validate(xmlData, validationOption);
            if (result !== true) {
              throw Error( `${result.err.msg}:${result.err.line}:${result.err.col}` )
            }
          }
        const orderedObjParser = new OrderedObjParser(this.options);
        orderedObjParser.addExternalEntities(this.externalEntities);
        const orderedResult = orderedObjParser.parseXml(xmlData);
        if(this.options.preserveOrder || orderedResult === undefined) return orderedResult;
        else return prettify(orderedResult, this.options);
    }

    /**
     * Add Entity which is not by default supported by this library
     * @param {string} key 
     * @param {string} value 
     */
    addEntity(key, value){
        if(value.indexOf("&") !== -1){
            throw new Error("Entity value can't have '&'")
        }else if(key.indexOf("&") !== -1 || key.indexOf(";") !== -1){
            throw new Error("An entity must be set without '&' and ';'. Eg. use '#xD' for '
'")
        }else if(value === "&"){
            throw new Error("An entity with value '&' is not permitted");
        }else{
            this.externalEntities[key] = value;
        }
    }

    /**
     * Returns a Symbol that can be used to access the metadata
     * property on a node.
     * 
     * If Symbol is not available in the environment, an ordinary property is used
     * and the name of the property is here returned.
     * 
     * The XMLMetaData property is only present when `captureMetaData`
     * is true in the options.
     */
    static getMetaDataSymbol() {
        return XmlNode.getMetaDataSymbol();
    }
}

;// CONCATENATED MODULE: ./dist/collectors/powershell.js
/**
 * PowerShell Gallery module statistics collector with enhanced metrics
 */

const PlatformSettings = {
    name: 'PowerShell',
};
const BASE_URL = 'https://www.powershellgallery.com/api/v2/';
const parser = new XMLParser({
    ignoreAttributes: false,
    attributeNamePrefix: '',
});
function parsePowerShellGalleryEntry(entry) {
    const props = entry["m:properties"];
    const getText = (field) => field?.["#text"];
    const isTrue = (field) => field?.["#text"] === true;
    const getNumber = (field) => field?.["#text"];
    const getDate = (field) => {
        const dateText = getText(field);
        if (!dateText || dateText === '') {
            return new Date(0); // Return epoch date for invalid dates
        }
        return new Date(dateText);
    };
    return {
        id: entry.id,
        name: props["d:Id"],
        version: props["d:Version"],
        normalizedVersion: props["d:NormalizedVersion"],
        authors: props["d:Authors"],
        description: props["d:Description"],
        downloadCount: getNumber(props["d:DownloadCount"]),
        versionDownloadCount: getNumber(props["d:VersionDownloadCount"]),
        published: getDate(props["d:Published"]),
        lastUpdated: getDate(props["d:LastUpdated"]),
        created: getDate(props["d:Created"]),
        isLatest: isTrue(props["d:IsLatestVersion"]),
        isPrerelease: isTrue(props["d:IsPrerelease"]),
        projectUrl: getText(props["d:ProjectUrl"]) ?? undefined,
        reportAbuseUrl: props["d:ReportAbuseUrl"],
        galleryDetailsUrl: props["d:GalleryDetailsUrl"],
        packageSize: getNumber(props["d:PackageSize"]),
        companyName: props["d:CompanyName"],
        owners: props["d:Owners"],
    };
}
/**
 * Fetches all versions of a package.
 * Equivalent to: FindPackagesById()?id='PackageName'
 */
async function findPackagesById(id) {
    const url = `${BASE_URL}FindPackagesById()?id='${encodeURIComponent(id)}'`;
    const res = await fetch(url);
    const xml = await res.text();
    const json = parser.parse(xml);
    return json.feed.entry ?? [];
}
/**
 * Fetches metadata for a specific version of a package.
 * Equivalent to: Packages(Id='Name',Version='x.y.z')
 */
async function getPackageVersionInfo(id, version) {
    const url = `${BASE_URL}Packages(Id='${encodeURIComponent(id)}',Version='${encodeURIComponent(version)}')`;
    const res = await fetch(url);
    const xml = await res.text();
    const json = parser.parse(xml);
    return json.entry;
}
/**
 * Searches the PowerShell Gallery with a search term.
 * Equivalent to: Search()?searchTerm='term'&includePrerelease=false
 */
async function searchPackages(searchTerm, includePrerelease = false) {
    const url = `${BASE_URL}Search()?searchTerm='${encodeURIComponent(searchTerm)}'&includePrerelease=${includePrerelease.toString()}`;
    const res = await fetch(url);
    const xml = await res.text();
    const json = parser.parse(xml);
    return json.feed?.entry ?? [];
}
/**
 * Sum total download count for all versions of a package.
 */
async function getTotalDownloadCount(id) {
    const entries = await findPackagesById(id);
    const versions = Array.isArray(entries) ? entries : [entries];
    return versions.reduce((sum, entry) => {
        const count = entry['m:properties']?.['d:DownloadCount']?.['#text'];
        return sum + count;
    }, 0);
}
async function collectPowerShell(moduleName) {
    try {
        // Get all versions of the package
        const allVersions = await findPackagesById(moduleName);
        if (!allVersions || allVersions.length === 0) {
            throw new Error(`Module ${moduleName} not found`);
        }
        const versions = [];
        for (const version of allVersions) {
            const parsedVersion = parsePowerShellGalleryEntry(version);
            versions.push(parsedVersion);
        }
        // Sort versions by published date (newest first)
        const sortedVersions = versions.sort((a, b) => b.published.getTime() - a.published.getTime());
        let downloadsTotal = 0;
        let latestVersionDownloads = 0;
        let downloadRange = [];
        let latestVersion = '';
        let latestVersionDate = '';
        // Process each version
        for (const version of sortedVersions) {
            // Use Created date if Published date is invalid (1900-01-01)
            const effectiveDate = version.published.getTime() === new Date('1900-01-01T00:00:00').getTime()
                ? version.created
                : version.published;
            // Skip versions with invalid dates
            if (effectiveDate.getTime() === 0) {
                continue;
            }
            downloadsTotal += version.versionDownloadCount;
            // Track latest version downloads
            if (version.isLatest) {
                latestVersionDownloads = version.versionDownloadCount;
                latestVersion = version.version;
                latestVersionDate = effectiveDate.toISOString();
            }
            const rangeEntry = {
                day: effectiveDate.toISOString(),
                downloads: version.versionDownloadCount,
                version: version.version
            };
            // Add to download range for charts
            downloadRange.push(rangeEntry);
        }
        // Get latest version metadata
        const latestModuleData = sortedVersions[0];
        const result = {
            platform: PlatformSettings.name,
            name: moduleName,
            timestamp: new Date().toISOString(),
            metrics: {
                downloadsTotal,
                downloadsRange: downloadRange,
                latestVersionDownloads,
                latestVersion,
                latestVersionDate,
                versionCount: versions.length,
                lastUpdated: latestModuleData.lastUpdated.toISOString(),
                // Additional metadata
                authors: latestModuleData.authors,
                description: latestModuleData.description,
                projectUrl: latestModuleData.projectUrl,
                packageSize: latestModuleData.packageSize,
                companyName: latestModuleData.companyName,
                owners: latestModuleData.owners,
            }
        };
        return result;
    }
    catch (error) {
        console.warn('Error collecting PowerShell module:', error);
        return {
            platform: PlatformSettings.name,
            name: moduleName,
            timestamp: new Date().toISOString(),
            error: error instanceof Error ? error.message : String(error),
        };
    }
}
async function collectPowerShellBatch(moduleNames) {
    const resultPromises = [];
    for (const moduleName of moduleNames) {
        resultPromises.push(collectPowerShell(moduleName));
    }
    return Promise.all(resultPromises);
}


/***/ }),

/***/ 9701:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __nccwpck_require__) => {

/* harmony export */ __nccwpck_require__.d(__webpack_exports__, {
/* harmony export */   V: () => (/* binding */ collectPypiBatch)
/* harmony export */ });
/* unused harmony export collectPypi */
/**
 * PyPI package statistics collector using external PyPI Stats API
 */
const PlatformSettings = {
    name: 'PyPI',
};
// (no BigQuery historical metrics; all data comes from the external API)
// External PyPI Stats API base URL
const PYPI_STATS_BASE_URL = process.env.PYPI_STATS_BASE_URL || 'https://pypistats.dev';
function normalizePackageName(name) {
    return name.replace(/[._]/g, '-').toLowerCase();
}
async function fetchJson(url) {
    const res = await fetch(url);
    if (!res.ok)
        throw new Error(`Request failed ${res.status}: ${url}`);
    return res.json();
}
async function collectPypi(packageName) {
    const normalized = normalizePackageName(packageName);
    try {
        // Package metadata
        const packageDataPromise = fetchJson(`https://pypi.org/pypi/${normalized}/json`);
        const recentPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/recent`);
        const summaryPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/summary`);
        const overallPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/overall`);
        const pythonMajorPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/python_major`);
        const pythonMinorPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/python_minor`);
        const systemPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/system`);
        const installerPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/installer`);
        const overallChartPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/chart/overall?format=json`);
        const pythonMajorChartPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/chart/python_major?format=json`);
        const pythonMinorChartPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/chart/python_minor?format=json`);
        const systemChartPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/chart/system?format=json`);
        const installerChartPromise = fetchJson(`${PYPI_STATS_BASE_URL}/api/packages/${normalized}/chart/installer?format=json`);
        const [packageData, recent, summary, overall, pythonMajor, pythonMinor, system, installer, overallChart, pythonMajorChart, pythonMinorChart, systemChart, installerChart] = await Promise.all([
            packageDataPromise,
            recentPromise,
            summaryPromise,
            overallPromise,
            pythonMajorPromise,
            pythonMinorPromise,
            systemPromise,
            installerPromise,
            overallChartPromise,
            pythonMajorChartPromise,
            pythonMinorChartPromise,
            systemChartPromise,
            installerChartPromise,
        ]);
        // All time-series and breakdowns are provided by the external API
        const overallSeries = (overall.data || []).filter(p => p.category === 'without_mirrors');
        const systemBreakdown = summary.totals?.system || null;
        const pythonVersionBreakdown = summary.totals?.python_major
            ? Object.fromEntries(Object.entries(summary.totals.python_major).filter(([k]) => /^\d+$/.test(k)).map(([k, v]) => [`python${k}`, v]))
            : null;
        const pythonMinorBreakdown = summary.totals?.python_minor
            ? Object.fromEntries(Object.entries(summary.totals.python_minor).filter(([k]) => /^\d+(?:\.\d+)?$/.test(k)).map(([k, v]) => [`python${k}`, v]))
            : null;
        // Derive popular system and installer from totals/series
        let popularSystem;
        if (systemBreakdown && Object.keys(systemBreakdown).length > 0) {
            popularSystem = Object.entries(systemBreakdown).sort((a, b) => b[1] - a[1])[0]?.[0];
        }
        else if (system.data && system.data.length > 0) {
            const totals = {};
            for (const p of system.data)
                totals[p.category] = (totals[p.category] || 0) + p.downloads;
            popularSystem = Object.entries(totals).sort((a, b) => b[1] - a[1])[0]?.[0];
        }
        let popularInstaller;
        if (installer.data && installer.data.length > 0) {
            const totals = {};
            for (const p of installer.data)
                totals[p.category] = (totals[p.category] || 0) + p.downloads;
            popularInstaller = Object.entries(totals).sort((a, b) => b[1] - a[1])[0]?.[0];
        }
        // Latest release date for current version
        let latestReleaseDate;
        try {
            const currentVersion = packageData.info?.version;
            const files = currentVersion ? (packageData.releases?.[currentVersion] || []) : [];
            const latestUpload = files.reduce((max, f) => {
                const t = f.upload_time;
                if (!t)
                    return max;
                if (!max)
                    return t;
                return new Date(t) > new Date(max) ? t : max;
            }, undefined);
            if (latestUpload) {
                const d = new Date(latestUpload);
                if (!isNaN(d.getTime()))
                    latestReleaseDate = d.toISOString().slice(0, 10);
            }
        }
        catch { }
        return {
            platform: PlatformSettings.name,
            name: packageName,
            timestamp: new Date().toISOString(),
            metrics: {
                downloadsTotal: summary.totals?.overall,
                downloadsMonthly: recent.data?.last_month,
                downloadsWeekly: recent.data?.last_week,
                downloadsDaily: recent.data?.last_day,
                version: packageData.info?.version,
                latestReleaseDate,
                description: packageData.info?.summary,
                homepage: packageData.info?.home_page,
                author: packageData.info?.author,
                license: packageData.info?.license,
                requiresPython: packageData.info?.requires_python,
                releases: Object.keys(packageData.releases || {}).length,
                downloadsRange: overallSeries.map(p => ({ day: p.date, downloads: p.downloads })),
                overallSeries,
                pythonMajorSeries: (pythonMajor.data || []).filter(p => p.category?.toLowerCase?.() !== 'unknown'),
                pythonMinorSeries: (pythonMinor.data || []).filter(p => p.category?.toLowerCase?.() !== 'unknown'),
                systemSeries: system.data || [],
                installerSeries: installer.data || [],
                popularSystem,
                popularInstaller,
                // Server-prepared chart JSON (preferred for rendering)
                overallChart,
                pythonMajorChart: { ...pythonMajorChart, datasets: (pythonMajorChart.datasets || []).filter(ds => !/unknown/i.test(ds.label)) },
                pythonMinorChart: { ...pythonMinorChart, datasets: (pythonMinorChart.datasets || []).filter(ds => !/unknown/i.test(ds.label)) },
                systemChart,
                installerChart,
                pythonVersionBreakdown,
                pythonMinorBreakdown,
                systemBreakdown,
            }
        };
    }
    catch (error) {
        return {
            platform: PlatformSettings.name,
            name: packageName,
            timestamp: new Date().toISOString(),
            metrics: {},
            error: error instanceof Error ? error.message : String(error)
        };
    }
}
async function collectPypiBatch(packageNames) {
    const results = [];
    for (const packageName of packageNames) {
        results.push(collectPypi(packageName));
    }
    return Promise.all(results);
}


/***/ }),

/***/ 6574:
/***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __nccwpck_require__) => {


// EXPORTS
__nccwpck_require__.d(__webpack_exports__, {
  GP: () => (/* binding */ getInputs),
  qz: () => (/* binding */ updateRepositoryReadme)
});

// UNUSED EXPORTS: createSummary

// EXTERNAL MODULE: ./node_modules/@actions/core/lib/core.js
var core = __nccwpck_require__(7484);
;// CONCATENATED MODULE: ./node_modules/@kurkle/color/dist/color.esm.js
/*!
 * @kurkle/color v0.3.4
 * https://github.com/kurkle/color#readme
 * (c) 2024 Jukka Kurkela
 * Released under the MIT License
 */
function round(v) {
  return v + 0.5 | 0;
}
const lim = (v, l, h) => Math.max(Math.min(v, h), l);
function p2b(v) {
  return lim(round(v * 2.55), 0, 255);
}
function b2p(v) {
  return lim(round(v / 2.55), 0, 100);
}
function n2b(v) {
  return lim(round(v * 255), 0, 255);
}
function b2n(v) {
  return lim(round(v / 2.55) / 100, 0, 1);
}
function n2p(v) {
  return lim(round(v * 100), 0, 100);
}

const map$1 = {0: 0, 1: 1, 2: 2, 3: 3, 4: 4, 5: 5, 6: 6, 7: 7, 8: 8, 9: 9, A: 10, B: 11, C: 12, D: 13, E: 14, F: 15, a: 10, b: 11, c: 12, d: 13, e: 14, f: 15};
const hex = [...'0123456789ABCDEF'];
const h1 = b => hex[b & 0xF];
const h2 = b => hex[(b & 0xF0) >> 4] + hex[b & 0xF];
const eq = b => ((b & 0xF0) >> 4) === (b & 0xF);
const isShort = v => eq(v.r) && eq(v.g) && eq(v.b) && eq(v.a);
function hexParse(str) {
  var len = str.length;
  var ret;
  if (str[0] === '#') {
    if (len === 4 || len === 5) {
      ret = {
        r: 255 & map$1[str[1]] * 17,
        g: 255 & map$1[str[2]] * 17,
        b: 255 & map$1[str[3]] * 17,
        a: len === 5 ? map$1[str[4]] * 17 : 255
      };
    } else if (len === 7 || len === 9) {
      ret = {
        r: map$1[str[1]] << 4 | map$1[str[2]],
        g: map$1[str[3]] << 4 | map$1[str[4]],
        b: map$1[str[5]] << 4 | map$1[str[6]],
        a: len === 9 ? (map$1[str[7]] << 4 | map$1[str[8]]) : 255
      };
    }
  }
  return ret;
}
const alpha = (a, f) => a < 255 ? f(a) : '';
function hexString(v) {
  var f = isShort(v) ? h1 : h2;
  return v
    ? '#' + f(v.r) + f(v.g) + f(v.b) + alpha(v.a, f)
    : undefined;
}

const HUE_RE = /^(hsla?|hwb|hsv)\(\s*([-+.e\d]+)(?:deg)?[\s,]+([-+.e\d]+)%[\s,]+([-+.e\d]+)%(?:[\s,]+([-+.e\d]+)(%)?)?\s*\)$/;
function hsl2rgbn(h, s, l) {
  const a = s * Math.min(l, 1 - l);
  const f = (n, k = (n + h / 30) % 12) => l - a * Math.max(Math.min(k - 3, 9 - k, 1), -1);
  return [f(0), f(8), f(4)];
}
function hsv2rgbn(h, s, v) {
  const f = (n, k = (n + h / 60) % 6) => v - v * s * Math.max(Math.min(k, 4 - k, 1), 0);
  return [f(5), f(3), f(1)];
}
function hwb2rgbn(h, w, b) {
  const rgb = hsl2rgbn(h, 1, 0.5);
  let i;
  if (w + b > 1) {
    i = 1 / (w + b);
    w *= i;
    b *= i;
  }
  for (i = 0; i < 3; i++) {
    rgb[i] *= 1 - w - b;
    rgb[i] += w;
  }
  return rgb;
}
function hueValue(r, g, b, d, max) {
  if (r === max) {
    return ((g - b) / d) + (g < b ? 6 : 0);
  }
  if (g === max) {
    return (b - r) / d + 2;
  }
  return (r - g) / d + 4;
}
function rgb2hsl(v) {
  const range = 255;
  const r = v.r / range;
  const g = v.g / range;
  const b = v.b / range;
  const max = Math.max(r, g, b);
  const min = Math.min(r, g, b);
  const l = (max + min) / 2;
  let h, s, d;
  if (max !== min) {
    d = max - min;
    s = l > 0.5 ? d / (2 - max - min) : d / (max + min);
    h = hueValue(r, g, b, d, max);
    h = h * 60 + 0.5;
  }
  return [h | 0, s || 0, l];
}
function calln(f, a, b, c) {
  return (
    Array.isArray(a)
      ? f(a[0], a[1], a[2])
      : f(a, b, c)
  ).map(n2b);
}
function hsl2rgb(h, s, l) {
  return calln(hsl2rgbn, h, s, l);
}
function hwb2rgb(h, w, b) {
  return calln(hwb2rgbn, h, w, b);
}
function hsv2rgb(h, s, v) {
  return calln(hsv2rgbn, h, s, v);
}
function hue(h) {
  return (h % 360 + 360) % 360;
}
function hueParse(str) {
  const m = HUE_RE.exec(str);
  let a = 255;
  let v;
  if (!m) {
    return;
  }
  if (m[5] !== v) {
    a = m[6] ? p2b(+m[5]) : n2b(+m[5]);
  }
  const h = hue(+m[2]);
  const p1 = +m[3] / 100;
  const p2 = +m[4] / 100;
  if (m[1] === 'hwb') {
    v = hwb2rgb(h, p1, p2);
  } else if (m[1] === 'hsv') {
    v = hsv2rgb(h, p1, p2);
  } else {
    v = hsl2rgb(h, p1, p2);
  }
  return {
    r: v[0],
    g: v[1],
    b: v[2],
    a: a
  };
}
function rotate(v, deg) {
  var h = rgb2hsl(v);
  h[0] = hue(h[0] + deg);
  h = hsl2rgb(h);
  v.r = h[0];
  v.g = h[1];
  v.b = h[2];
}
function hslString(v) {
  if (!v) {
    return;
  }
  const a = rgb2hsl(v);
  const h = a[0];
  const s = n2p(a[1]);
  const l = n2p(a[2]);
  return v.a < 255
    ? `hsla(${h}, ${s}%, ${l}%, ${b2n(v.a)})`
    : `hsl(${h}, ${s}%, ${l}%)`;
}

const map = {
	x: 'dark',
	Z: 'light',
	Y: 're',
	X: 'blu',
	W: 'gr',
	V: 'medium',
	U: 'slate',
	A: 'ee',
	T: 'ol',
	S: 'or',
	B: 'ra',
	C: 'lateg',
	D: 'ights',
	R: 'in',
	Q: 'turquois',
	E: 'hi',
	P: 'ro',
	O: 'al',
	N: 'le',
	M: 'de',
	L: 'yello',
	F: 'en',
	K: 'ch',
	G: 'arks',
	H: 'ea',
	I: 'ightg',
	J: 'wh'
};
const names$1 = {
	OiceXe: 'f0f8ff',
	antiquewEte: 'faebd7',
	aqua: 'ffff',
	aquamarRe: '7fffd4',
	azuY: 'f0ffff',
	beige: 'f5f5dc',
	bisque: 'ffe4c4',
	black: '0',
	blanKedOmond: 'ffebcd',
	Xe: 'ff',
	XeviTet: '8a2be2',
	bPwn: 'a52a2a',
	burlywood: 'deb887',
	caMtXe: '5f9ea0',
	KartYuse: '7fff00',
	KocTate: 'd2691e',
	cSO: 'ff7f50',
	cSnflowerXe: '6495ed',
	cSnsilk: 'fff8dc',
	crimson: 'dc143c',
	cyan: 'ffff',
	xXe: '8b',
	xcyan: '8b8b',
	xgTMnPd: 'b8860b',
	xWay: 'a9a9a9',
	xgYF: '6400',
	xgYy: 'a9a9a9',
	xkhaki: 'bdb76b',
	xmagFta: '8b008b',
	xTivegYF: '556b2f',
	xSange: 'ff8c00',
	xScEd: '9932cc',
	xYd: '8b0000',
	xsOmon: 'e9967a',
	xsHgYF: '8fbc8f',
	xUXe: '483d8b',
	xUWay: '2f4f4f',
	xUgYy: '2f4f4f',
	xQe: 'ced1',
	xviTet: '9400d3',
	dAppRk: 'ff1493',
	dApskyXe: 'bfff',
	dimWay: '696969',
	dimgYy: '696969',
	dodgerXe: '1e90ff',
	fiYbrick: 'b22222',
	flSOwEte: 'fffaf0',
	foYstWAn: '228b22',
	fuKsia: 'ff00ff',
	gaRsbSo: 'dcdcdc',
	ghostwEte: 'f8f8ff',
	gTd: 'ffd700',
	gTMnPd: 'daa520',
	Way: '808080',
	gYF: '8000',
	gYFLw: 'adff2f',
	gYy: '808080',
	honeyMw: 'f0fff0',
	hotpRk: 'ff69b4',
	RdianYd: 'cd5c5c',
	Rdigo: '4b0082',
	ivSy: 'fffff0',
	khaki: 'f0e68c',
	lavFMr: 'e6e6fa',
	lavFMrXsh: 'fff0f5',
	lawngYF: '7cfc00',
	NmoncEffon: 'fffacd',
	ZXe: 'add8e6',
	ZcSO: 'f08080',
	Zcyan: 'e0ffff',
	ZgTMnPdLw: 'fafad2',
	ZWay: 'd3d3d3',
	ZgYF: '90ee90',
	ZgYy: 'd3d3d3',
	ZpRk: 'ffb6c1',
	ZsOmon: 'ffa07a',
	ZsHgYF: '20b2aa',
	ZskyXe: '87cefa',
	ZUWay: '778899',
	ZUgYy: '778899',
	ZstAlXe: 'b0c4de',
	ZLw: 'ffffe0',
	lime: 'ff00',
	limegYF: '32cd32',
	lRF: 'faf0e6',
	magFta: 'ff00ff',
	maPon: '800000',
	VaquamarRe: '66cdaa',
	VXe: 'cd',
	VScEd: 'ba55d3',
	VpurpN: '9370db',
	VsHgYF: '3cb371',
	VUXe: '7b68ee',
	VsprRggYF: 'fa9a',
	VQe: '48d1cc',
	VviTetYd: 'c71585',
	midnightXe: '191970',
	mRtcYam: 'f5fffa',
	mistyPse: 'ffe4e1',
	moccasR: 'ffe4b5',
	navajowEte: 'ffdead',
	navy: '80',
	Tdlace: 'fdf5e6',
	Tive: '808000',
	TivedBb: '6b8e23',
	Sange: 'ffa500',
	SangeYd: 'ff4500',
	ScEd: 'da70d6',
	pOegTMnPd: 'eee8aa',
	pOegYF: '98fb98',
	pOeQe: 'afeeee',
	pOeviTetYd: 'db7093',
	papayawEp: 'ffefd5',
	pHKpuff: 'ffdab9',
	peru: 'cd853f',
	pRk: 'ffc0cb',
	plum: 'dda0dd',
	powMrXe: 'b0e0e6',
	purpN: '800080',
	YbeccapurpN: '663399',
	Yd: 'ff0000',
	Psybrown: 'bc8f8f',
	PyOXe: '4169e1',
	saddNbPwn: '8b4513',
	sOmon: 'fa8072',
	sandybPwn: 'f4a460',
	sHgYF: '2e8b57',
	sHshell: 'fff5ee',
	siFna: 'a0522d',
	silver: 'c0c0c0',
	skyXe: '87ceeb',
	UXe: '6a5acd',
	UWay: '708090',
	UgYy: '708090',
	snow: 'fffafa',
	sprRggYF: 'ff7f',
	stAlXe: '4682b4',
	tan: 'd2b48c',
	teO: '8080',
	tEstN: 'd8bfd8',
	tomato: 'ff6347',
	Qe: '40e0d0',
	viTet: 'ee82ee',
	JHt: 'f5deb3',
	wEte: 'ffffff',
	wEtesmoke: 'f5f5f5',
	Lw: 'ffff00',
	LwgYF: '9acd32'
};
function unpack() {
  const unpacked = {};
  const keys = Object.keys(names$1);
  const tkeys = Object.keys(map);
  let i, j, k, ok, nk;
  for (i = 0; i < keys.length; i++) {
    ok = nk = keys[i];
    for (j = 0; j < tkeys.length; j++) {
      k = tkeys[j];
      nk = nk.replace(k, map[k]);
    }
    k = parseInt(names$1[ok], 16);
    unpacked[nk] = [k >> 16 & 0xFF, k >> 8 & 0xFF, k & 0xFF];
  }
  return unpacked;
}

let names;
function nameParse(str) {
  if (!names) {
    names = unpack();
    names.transparent = [0, 0, 0, 0];
  }
  const a = names[str.toLowerCase()];
  return a && {
    r: a[0],
    g: a[1],
    b: a[2],
    a: a.length === 4 ? a[3] : 255
  };
}

const RGB_RE = /^rgba?\(\s*([-+.\d]+)(%)?[\s,]+([-+.e\d]+)(%)?[\s,]+([-+.e\d]+)(%)?(?:[\s,/]+([-+.e\d]+)(%)?)?\s*\)$/;
function rgbParse(str) {
  const m = RGB_RE.exec(str);
  let a = 255;
  let r, g, b;
  if (!m) {
    return;
  }
  if (m[7] !== r) {
    const v = +m[7];
    a = m[8] ? p2b(v) : lim(v * 255, 0, 255);
  }
  r = +m[1];
  g = +m[3];
  b = +m[5];
  r = 255 & (m[2] ? p2b(r) : lim(r, 0, 255));
  g = 255 & (m[4] ? p2b(g) : lim(g, 0, 255));
  b = 255 & (m[6] ? p2b(b) : lim(b, 0, 255));
  return {
    r: r,
    g: g,
    b: b,
    a: a
  };
}
function rgbString(v) {
  return v && (
    v.a < 255
      ? `rgba(${v.r}, ${v.g}, ${v.b}, ${b2n(v.a)})`
      : `rgb(${v.r}, ${v.g}, ${v.b})`
  );
}

const to = v => v <= 0.0031308 ? v * 12.92 : Math.pow(v, 1.0 / 2.4) * 1.055 - 0.055;
const from = v => v <= 0.04045 ? v / 12.92 : Math.pow((v + 0.055) / 1.055, 2.4);
function interpolate(rgb1, rgb2, t) {
  const r = from(b2n(rgb1.r));
  const g = from(b2n(rgb1.g));
  const b = from(b2n(rgb1.b));
  return {
    r: n2b(to(r + t * (from(b2n(rgb2.r)) - r))),
    g: n2b(to(g + t * (from(b2n(rgb2.g)) - g))),
    b: n2b(to(b + t * (from(b2n(rgb2.b)) - b))),
    a: rgb1.a + t * (rgb2.a - rgb1.a)
  };
}

function modHSL(v, i, ratio) {
  if (v) {
    let tmp = rgb2hsl(v);
    tmp[i] = Math.max(0, Math.min(tmp[i] + tmp[i] * ratio, i === 0 ? 360 : 1));
    tmp = hsl2rgb(tmp);
    v.r = tmp[0];
    v.g = tmp[1];
    v.b = tmp[2];
  }
}
function clone(v, proto) {
  return v ? Object.assign(proto || {}, v) : v;
}
function fromObject(input) {
  var v = {r: 0, g: 0, b: 0, a: 255};
  if (Array.isArray(input)) {
    if (input.length >= 3) {
      v = {r: input[0], g: input[1], b: input[2], a: 255};
      if (input.length > 3) {
        v.a = n2b(input[3]);
      }
    }
  } else {
    v = clone(input, {r: 0, g: 0, b: 0, a: 1});
    v.a = n2b(v.a);
  }
  return v;
}
function functionParse(str) {
  if (str.charAt(0) === 'r') {
    return rgbParse(str);
  }
  return hueParse(str);
}
class Color {
  constructor(input) {
    if (input instanceof Color) {
      return input;
    }
    const type = typeof input;
    let v;
    if (type === 'object') {
      v = fromObject(input);
    } else if (type === 'string') {
      v = hexParse(input) || nameParse(input) || functionParse(input);
    }
    this._rgb = v;
    this._valid = !!v;
  }
  get valid() {
    return this._valid;
  }
  get rgb() {
    var v = clone(this._rgb);
    if (v) {
      v.a = b2n(v.a);
    }
    return v;
  }
  set rgb(obj) {
    this._rgb = fromObject(obj);
  }
  rgbString() {
    return this._valid ? rgbString(this._rgb) : undefined;
  }
  hexString() {
    return this._valid ? hexString(this._rgb) : undefined;
  }
  hslString() {
    return this._valid ? hslString(this._rgb) : undefined;
  }
  mix(color, weight) {
    if (color) {
      const c1 = this.rgb;
      const c2 = color.rgb;
      let w2;
      const p = weight === w2 ? 0.5 : weight;
      const w = 2 * p - 1;
      const a = c1.a - c2.a;
      const w1 = ((w * a === -1 ? w : (w + a) / (1 + w * a)) + 1) / 2.0;
      w2 = 1 - w1;
      c1.r = 0xFF & w1 * c1.r + w2 * c2.r + 0.5;
      c1.g = 0xFF & w1 * c1.g + w2 * c2.g + 0.5;
      c1.b = 0xFF & w1 * c1.b + w2 * c2.b + 0.5;
      c1.a = p * c1.a + (1 - p) * c2.a;
      this.rgb = c1;
    }
    return this;
  }
  interpolate(color, t) {
    if (color) {
      this._rgb = interpolate(this._rgb, color._rgb, t);
    }
    return this;
  }
  clone() {
    return new Color(this.rgb);
  }
  alpha(a) {
    this._rgb.a = n2b(a);
    return this;
  }
  clearer(ratio) {
    const rgb = this._rgb;
    rgb.a *= 1 - ratio;
    return this;
  }
  greyscale() {
    const rgb = this._rgb;
    const val = round(rgb.r * 0.3 + rgb.g * 0.59 + rgb.b * 0.11);
    rgb.r = rgb.g = rgb.b = val;
    return this;
  }
  opaquer(ratio) {
    const rgb = this._rgb;
    rgb.a *= 1 + ratio;
    return this;
  }
  negate() {
    const v = this._rgb;
    v.r = 255 - v.r;
    v.g = 255 - v.g;
    v.b = 255 - v.b;
    return this;
  }
  lighten(ratio) {
    modHSL(this._rgb, 2, ratio);
    return this;
  }
  darken(ratio) {
    modHSL(this._rgb, 2, -ratio);
    return this;
  }
  saturate(ratio) {
    modHSL(this._rgb, 1, ratio);
    return this;
  }
  desaturate(ratio) {
    modHSL(this._rgb, 1, -ratio);
    return this;
  }
  rotate(deg) {
    rotate(this._rgb, deg);
    return this;
  }
}

function index_esm(input) {
  return new Color(input);
}



;// CONCATENATED MODULE: ./node_modules/chart.js/dist/chunks/helpers.dataset.js
/*!
 * Chart.js v4.5.0
 * https://www.chartjs.org
 * (c) 2025 Chart.js Contributors
 * Released under the MIT License
 */


/**
 * @namespace Chart.helpers
 */ /**
 * An empty function that can be used, for example, for optional callback.
 */ function noop() {
/* noop */ }
/**
 * Returns a unique id, sequentially generated from a global variable.
 */ const uid = (()=>{
    let id = 0;
    return ()=>id++;
})();
/**
 * Returns true if `value` is neither null nor undefined, else returns false.
 * @param value - The value to test.
 * @since 2.7.0
 */ function isNullOrUndef(value) {
    return value === null || value === undefined;
}
/**
 * Returns true if `value` is an array (including typed arrays), else returns false.
 * @param value - The value to test.
 * @function
 */ function isArray(value) {
    if (Array.isArray && Array.isArray(value)) {
        return true;
    }
    const type = Object.prototype.toString.call(value);
    if (type.slice(0, 7) === '[object' && type.slice(-6) === 'Array]') {
        return true;
    }
    return false;
}
/**
 * Returns true if `value` is an object (excluding null), else returns false.
 * @param value - The value to test.
 * @since 2.7.0
 */ function isObject(value) {
    return value !== null && Object.prototype.toString.call(value) === '[object Object]';
}
/**
 * Returns true if `value` is a finite number, else returns false
 * @param value  - The value to test.
 */ function isNumberFinite(value) {
    return (typeof value === 'number' || value instanceof Number) && isFinite(+value);
}
/**
 * Returns `value` if finite, else returns `defaultValue`.
 * @param value - The value to return if defined.
 * @param defaultValue - The value to return if `value` is not finite.
 */ function finiteOrDefault(value, defaultValue) {
    return isNumberFinite(value) ? value : defaultValue;
}
/**
 * Returns `value` if defined, else returns `defaultValue`.
 * @param value - The value to return if defined.
 * @param defaultValue - The value to return if `value` is undefined.
 */ function valueOrDefault(value, defaultValue) {
    return typeof value === 'undefined' ? defaultValue : value;
}
const toPercentage = (value, dimension)=>typeof value === 'string' && value.endsWith('%') ? parseFloat(value) / 100 : +value / dimension;
const toDimension = (value, dimension)=>typeof value === 'string' && value.endsWith('%') ? parseFloat(value) / 100 * dimension : +value;
/**
 * Calls `fn` with the given `args` in the scope defined by `thisArg` and returns the
 * value returned by `fn`. If `fn` is not a function, this method returns undefined.
 * @param fn - The function to call.
 * @param args - The arguments with which `fn` should be called.
 * @param [thisArg] - The value of `this` provided for the call to `fn`.
 */ function callback(fn, args, thisArg) {
    if (fn && typeof fn.call === 'function') {
        return fn.apply(thisArg, args);
    }
}
function each(loopable, fn, thisArg, reverse) {
    let i, len, keys;
    if (isArray(loopable)) {
        len = loopable.length;
        if (reverse) {
            for(i = len - 1; i >= 0; i--){
                fn.call(thisArg, loopable[i], i);
            }
        } else {
            for(i = 0; i < len; i++){
                fn.call(thisArg, loopable[i], i);
            }
        }
    } else if (isObject(loopable)) {
        keys = Object.keys(loopable);
        len = keys.length;
        for(i = 0; i < len; i++){
            fn.call(thisArg, loopable[keys[i]], keys[i]);
        }
    }
}
/**
 * Returns true if the `a0` and `a1` arrays have the same content, else returns false.
 * @param a0 - The array to compare
 * @param a1 - The array to compare
 * @private
 */ function _elementsEqual(a0, a1) {
    let i, ilen, v0, v1;
    if (!a0 || !a1 || a0.length !== a1.length) {
        return false;
    }
    for(i = 0, ilen = a0.length; i < ilen; ++i){
        v0 = a0[i];
        v1 = a1[i];
        if (v0.datasetIndex !== v1.datasetIndex || v0.index !== v1.index) {
            return false;
        }
    }
    return true;
}
/**
 * Returns a deep copy of `source` without keeping references on objects and arrays.
 * @param source - The value to clone.
 */ function helpers_dataset_clone(source) {
    if (isArray(source)) {
        return source.map(helpers_dataset_clone);
    }
    if (isObject(source)) {
        const target = Object.create(null);
        const keys = Object.keys(source);
        const klen = keys.length;
        let k = 0;
        for(; k < klen; ++k){
            target[keys[k]] = helpers_dataset_clone(source[keys[k]]);
        }
        return target;
    }
    return source;
}
function isValidKey(key) {
    return [
        '__proto__',
        'prototype',
        'constructor'
    ].indexOf(key) === -1;
}
/**
 * The default merger when Chart.helpers.merge is called without merger option.
 * Note(SB): also used by mergeConfig and mergeScaleConfig as fallback.
 * @private
 */ function _merger(key, target, source, options) {
    if (!isValidKey(key)) {
        return;
    }
    const tval = target[key];
    const sval = source[key];
    if (isObject(tval) && isObject(sval)) {
        // eslint-disable-next-line @typescript-eslint/no-use-before-define
        merge(tval, sval, options);
    } else {
        target[key] = helpers_dataset_clone(sval);
    }
}
function merge(target, source, options) {
    const sources = isArray(source) ? source : [
        source
    ];
    const ilen = sources.length;
    if (!isObject(target)) {
        return target;
    }
    options = options || {};
    const merger = options.merger || _merger;
    let current;
    for(let i = 0; i < ilen; ++i){
        current = sources[i];
        if (!isObject(current)) {
            continue;
        }
        const keys = Object.keys(current);
        for(let k = 0, klen = keys.length; k < klen; ++k){
            merger(keys[k], target, current, options);
        }
    }
    return target;
}
function mergeIf(target, source) {
    // eslint-disable-next-line @typescript-eslint/no-use-before-define
    return merge(target, source, {
        merger: _mergerIf
    });
}
/**
 * Merges source[key] in target[key] only if target[key] is undefined.
 * @private
 */ function _mergerIf(key, target, source) {
    if (!isValidKey(key)) {
        return;
    }
    const tval = target[key];
    const sval = source[key];
    if (isObject(tval) && isObject(sval)) {
        mergeIf(tval, sval);
    } else if (!Object.prototype.hasOwnProperty.call(target, key)) {
        target[key] = helpers_dataset_clone(sval);
    }
}
/**
 * @private
 */ function _deprecated(scope, value, previous, current) {
    if (value !== undefined) {
        console.warn(scope + ': "' + previous + '" is deprecated. Please use "' + current + '" instead');
    }
}
// resolveObjectKey resolver cache
const keyResolvers = {
    // Chart.helpers.core resolveObjectKey should resolve empty key to root object
    '': (v)=>v,
    // default resolvers
    x: (o)=>o.x,
    y: (o)=>o.y
};
/**
 * @private
 */ function _splitKey(key) {
    const parts = key.split('.');
    const keys = [];
    let tmp = '';
    for (const part of parts){
        tmp += part;
        if (tmp.endsWith('\\')) {
            tmp = tmp.slice(0, -1) + '.';
        } else {
            keys.push(tmp);
            tmp = '';
        }
    }
    return keys;
}
function _getKeyResolver(key) {
    const keys = _splitKey(key);
    return (obj)=>{
        for (const k of keys){
            if (k === '') {
                break;
            }
            obj = obj && obj[k];
        }
        return obj;
    };
}
function resolveObjectKey(obj, key) {
    const resolver = keyResolvers[key] || (keyResolvers[key] = _getKeyResolver(key));
    return resolver(obj);
}
/**
 * @private
 */ function _capitalize(str) {
    return str.charAt(0).toUpperCase() + str.slice(1);
}
const defined = (value)=>typeof value !== 'undefined';
const isFunction = (value)=>typeof value === 'function';
// Adapted from https://stackoverflow.com/questions/31128855/comparing-ecma6-sets-for-equality#31129384
const setsEqual = (a, b)=>{
    if (a.size !== b.size) {
        return false;
    }
    for (const item of a){
        if (!b.has(item)) {
            return false;
        }
    }
    return true;
};
/**
 * @param e - The event
 * @private
 */ function _isClickEvent(e) {
    return e.type === 'mouseup' || e.type === 'click' || e.type === 'contextmenu';
}

/**
 * @alias Chart.helpers.math
 * @namespace
 */ const PI = Math.PI;
const TAU = 2 * PI;
const PITAU = TAU + PI;
const INFINITY = Number.POSITIVE_INFINITY;
const RAD_PER_DEG = PI / 180;
const HALF_PI = PI / 2;
const QUARTER_PI = PI / 4;
const TWO_THIRDS_PI = PI * 2 / 3;
const log10 = Math.log10;
const sign = Math.sign;
function almostEquals(x, y, epsilon) {
    return Math.abs(x - y) < epsilon;
}
/**
 * Implementation of the nice number algorithm used in determining where axis labels will go
 */ function niceNum(range) {
    const roundedRange = Math.round(range);
    range = almostEquals(range, roundedRange, range / 1000) ? roundedRange : range;
    const niceRange = Math.pow(10, Math.floor(log10(range)));
    const fraction = range / niceRange;
    const niceFraction = fraction <= 1 ? 1 : fraction <= 2 ? 2 : fraction <= 5 ? 5 : 10;
    return niceFraction * niceRange;
}
/**
 * Returns an array of factors sorted from 1 to sqrt(value)
 * @private
 */ function _factorize(value) {
    const result = [];
    const sqrt = Math.sqrt(value);
    let i;
    for(i = 1; i < sqrt; i++){
        if (value % i === 0) {
            result.push(i);
            result.push(value / i);
        }
    }
    if (sqrt === (sqrt | 0)) {
        result.push(sqrt);
    }
    result.sort((a, b)=>a - b).pop();
    return result;
}
/**
 * Verifies that attempting to coerce n to string or number won't throw a TypeError.
 */ function isNonPrimitive(n) {
    return typeof n === 'symbol' || typeof n === 'object' && n !== null && !(Symbol.toPrimitive in n || 'toString' in n || 'valueOf' in n);
}
function isNumber(n) {
    return !isNonPrimitive(n) && !isNaN(parseFloat(n)) && isFinite(n);
}
function almostWhole(x, epsilon) {
    const rounded = Math.round(x);
    return rounded - epsilon <= x && rounded + epsilon >= x;
}
/**
 * @private
 */ function _setMinAndMaxByKey(array, target, property) {
    let i, ilen, value;
    for(i = 0, ilen = array.length; i < ilen; i++){
        value = array[i][property];
        if (!isNaN(value)) {
            target.min = Math.min(target.min, value);
            target.max = Math.max(target.max, value);
        }
    }
}
function toRadians(degrees) {
    return degrees * (PI / 180);
}
function toDegrees(radians) {
    return radians * (180 / PI);
}
/**
 * Returns the number of decimal places
 * i.e. the number of digits after the decimal point, of the value of this Number.
 * @param x - A number.
 * @returns The number of decimal places.
 * @private
 */ function _decimalPlaces(x) {
    if (!isNumberFinite(x)) {
        return;
    }
    let e = 1;
    let p = 0;
    while(Math.round(x * e) / e !== x){
        e *= 10;
        p++;
    }
    return p;
}
// Gets the angle from vertical upright to the point about a centre.
function getAngleFromPoint(centrePoint, anglePoint) {
    const distanceFromXCenter = anglePoint.x - centrePoint.x;
    const distanceFromYCenter = anglePoint.y - centrePoint.y;
    const radialDistanceFromCenter = Math.sqrt(distanceFromXCenter * distanceFromXCenter + distanceFromYCenter * distanceFromYCenter);
    let angle = Math.atan2(distanceFromYCenter, distanceFromXCenter);
    if (angle < -0.5 * PI) {
        angle += TAU; // make sure the returned angle is in the range of (-PI/2, 3PI/2]
    }
    return {
        angle,
        distance: radialDistanceFromCenter
    };
}
function distanceBetweenPoints(pt1, pt2) {
    return Math.sqrt(Math.pow(pt2.x - pt1.x, 2) + Math.pow(pt2.y - pt1.y, 2));
}
/**
 * Shortest distance between angles, in either direction.
 * @private
 */ function _angleDiff(a, b) {
    return (a - b + PITAU) % TAU - PI;
}
/**
 * Normalize angle to be between 0 and 2*PI
 * @private
 */ function _normalizeAngle(a) {
    return (a % TAU + TAU) % TAU;
}
/**
 * @private
 */ function _angleBetween(angle, start, end, sameAngleIsFullCircle) {
    const a = _normalizeAngle(angle);
    const s = _normalizeAngle(start);
    const e = _normalizeAngle(end);
    const angleToStart = _normalizeAngle(s - a);
    const angleToEnd = _normalizeAngle(e - a);
    const startToAngle = _normalizeAngle(a - s);
    const endToAngle = _normalizeAngle(a - e);
    return a === s || a === e || sameAngleIsFullCircle && s === e || angleToStart > angleToEnd && startToAngle < endToAngle;
}
/**
 * Limit `value` between `min` and `max`
 * @param value
 * @param min
 * @param max
 * @private
 */ function _limitValue(value, min, max) {
    return Math.max(min, Math.min(max, value));
}
/**
 * @param {number} value
 * @private
 */ function _int16Range(value) {
    return _limitValue(value, -32768, 32767);
}
/**
 * @param value
 * @param start
 * @param end
 * @param [epsilon]
 * @private
 */ function _isBetween(value, start, end, epsilon = 1e-6) {
    return value >= Math.min(start, end) - epsilon && value <= Math.max(start, end) + epsilon;
}

function _lookup(table, value, cmp) {
    cmp = cmp || ((index)=>table[index] < value);
    let hi = table.length - 1;
    let lo = 0;
    let mid;
    while(hi - lo > 1){
        mid = lo + hi >> 1;
        if (cmp(mid)) {
            lo = mid;
        } else {
            hi = mid;
        }
    }
    return {
        lo,
        hi
    };
}
/**
 * Binary search
 * @param table - the table search. must be sorted!
 * @param key - property name for the value in each entry
 * @param value - value to find
 * @param last - lookup last index
 * @private
 */ const _lookupByKey = (table, key, value, last)=>_lookup(table, value, last ? (index)=>{
        const ti = table[index][key];
        return ti < value || ti === value && table[index + 1][key] === value;
    } : (index)=>table[index][key] < value);
/**
 * Reverse binary search
 * @param table - the table search. must be sorted!
 * @param key - property name for the value in each entry
 * @param value - value to find
 * @private
 */ const _rlookupByKey = (table, key, value)=>_lookup(table, value, (index)=>table[index][key] >= value);
/**
 * Return subset of `values` between `min` and `max` inclusive.
 * Values are assumed to be in sorted order.
 * @param values - sorted array of values
 * @param min - min value
 * @param max - max value
 */ function _filterBetween(values, min, max) {
    let start = 0;
    let end = values.length;
    while(start < end && values[start] < min){
        start++;
    }
    while(end > start && values[end - 1] > max){
        end--;
    }
    return start > 0 || end < values.length ? values.slice(start, end) : values;
}
const arrayEvents = [
    'push',
    'pop',
    'shift',
    'splice',
    'unshift'
];
function listenArrayEvents(array, listener) {
    if (array._chartjs) {
        array._chartjs.listeners.push(listener);
        return;
    }
    Object.defineProperty(array, '_chartjs', {
        configurable: true,
        enumerable: false,
        value: {
            listeners: [
                listener
            ]
        }
    });
    arrayEvents.forEach((key)=>{
        const method = '_onData' + _capitalize(key);
        const base = array[key];
        Object.defineProperty(array, key, {
            configurable: true,
            enumerable: false,
            value (...args) {
                const res = base.apply(this, args);
                array._chartjs.listeners.forEach((object)=>{
                    if (typeof object[method] === 'function') {
                        object[method](...args);
                    }
                });
                return res;
            }
        });
    });
}
function unlistenArrayEvents(array, listener) {
    const stub = array._chartjs;
    if (!stub) {
        return;
    }
    const listeners = stub.listeners;
    const index = listeners.indexOf(listener);
    if (index !== -1) {
        listeners.splice(index, 1);
    }
    if (listeners.length > 0) {
        return;
    }
    arrayEvents.forEach((key)=>{
        delete array[key];
    });
    delete array._chartjs;
}
/**
 * @param items
 */ function _arrayUnique(items) {
    const set = new Set(items);
    if (set.size === items.length) {
        return items;
    }
    return Array.from(set);
}

function fontString(pixelSize, fontStyle, fontFamily) {
    return fontStyle + ' ' + pixelSize + 'px ' + fontFamily;
}
/**
* Request animation polyfill
*/ const requestAnimFrame = function() {
    if (typeof window === 'undefined') {
        return function(callback) {
            return callback();
        };
    }
    return window.requestAnimationFrame;
}();
/**
 * Throttles calling `fn` once per animation frame
 * Latest arguments are used on the actual call
 */ function throttled(fn, thisArg) {
    let argsToUse = [];
    let ticking = false;
    return function(...args) {
        // Save the args for use later
        argsToUse = args;
        if (!ticking) {
            ticking = true;
            requestAnimFrame.call(window, ()=>{
                ticking = false;
                fn.apply(thisArg, argsToUse);
            });
        }
    };
}
/**
 * Debounces calling `fn` for `delay` ms
 */ function debounce(fn, delay) {
    let timeout;
    return function(...args) {
        if (delay) {
            clearTimeout(timeout);
            timeout = setTimeout(fn, delay, args);
        } else {
            fn.apply(this, args);
        }
        return delay;
    };
}
/**
 * Converts 'start' to 'left', 'end' to 'right' and others to 'center'
 * @private
 */ const _toLeftRightCenter = (align)=>align === 'start' ? 'left' : align === 'end' ? 'right' : 'center';
/**
 * Returns `start`, `end` or `(start + end) / 2` depending on `align`. Defaults to `center`
 * @private
 */ const _alignStartEnd = (align, start, end)=>align === 'start' ? start : align === 'end' ? end : (start + end) / 2;
/**
 * Returns `left`, `right` or `(left + right) / 2` depending on `align`. Defaults to `left`
 * @private
 */ const _textX = (align, left, right, rtl)=>{
    const check = rtl ? 'left' : 'right';
    return align === check ? right : align === 'center' ? (left + right) / 2 : left;
};
/**
 * Return start and count of visible points.
 * @private
 */ function _getStartAndCountOfVisiblePoints(meta, points, animationsDisabled) {
    const pointCount = points.length;
    let start = 0;
    let count = pointCount;
    if (meta._sorted) {
        const { iScale , vScale , _parsed  } = meta;
        const spanGaps = meta.dataset ? meta.dataset.options ? meta.dataset.options.spanGaps : null : null;
        const axis = iScale.axis;
        const { min , max , minDefined , maxDefined  } = iScale.getUserBounds();
        if (minDefined) {
            start = Math.min(// @ts-expect-error Need to type _parsed
            _lookupByKey(_parsed, axis, min).lo, // @ts-expect-error Need to fix types on _lookupByKey
            animationsDisabled ? pointCount : _lookupByKey(points, axis, iScale.getPixelForValue(min)).lo);
            if (spanGaps) {
                const distanceToDefinedLo = _parsed.slice(0, start + 1).reverse().findIndex((point)=>!isNullOrUndef(point[vScale.axis]));
                start -= Math.max(0, distanceToDefinedLo);
            }
            start = _limitValue(start, 0, pointCount - 1);
        }
        if (maxDefined) {
            let end = Math.max(// @ts-expect-error Need to type _parsed
            _lookupByKey(_parsed, iScale.axis, max, true).hi + 1, // @ts-expect-error Need to fix types on _lookupByKey
            animationsDisabled ? 0 : _lookupByKey(points, axis, iScale.getPixelForValue(max), true).hi + 1);
            if (spanGaps) {
                const distanceToDefinedHi = _parsed.slice(end - 1).findIndex((point)=>!isNullOrUndef(point[vScale.axis]));
                end += Math.max(0, distanceToDefinedHi);
            }
            count = _limitValue(end, start, pointCount) - start;
        } else {
            count = pointCount - start;
        }
    }
    return {
        start,
        count
    };
}
/**
 * Checks if the scale ranges have changed.
 * @param {object} meta - dataset meta.
 * @returns {boolean}
 * @private
 */ function _scaleRangesChanged(meta) {
    const { xScale , yScale , _scaleRanges  } = meta;
    const newRanges = {
        xmin: xScale.min,
        xmax: xScale.max,
        ymin: yScale.min,
        ymax: yScale.max
    };
    if (!_scaleRanges) {
        meta._scaleRanges = newRanges;
        return true;
    }
    const changed = _scaleRanges.xmin !== xScale.min || _scaleRanges.xmax !== xScale.max || _scaleRanges.ymin !== yScale.min || _scaleRanges.ymax !== yScale.max;
    Object.assign(_scaleRanges, newRanges);
    return changed;
}

const atEdge = (t)=>t === 0 || t === 1;
const elasticIn = (t, s, p)=>-(Math.pow(2, 10 * (t -= 1)) * Math.sin((t - s) * TAU / p));
const elasticOut = (t, s, p)=>Math.pow(2, -10 * t) * Math.sin((t - s) * TAU / p) + 1;
/**
 * Easing functions adapted from Robert Penner's easing equations.
 * @namespace Chart.helpers.easing.effects
 * @see http://www.robertpenner.com/easing/
 */ const effects = {
    linear: (t)=>t,
    easeInQuad: (t)=>t * t,
    easeOutQuad: (t)=>-t * (t - 2),
    easeInOutQuad: (t)=>(t /= 0.5) < 1 ? 0.5 * t * t : -0.5 * (--t * (t - 2) - 1),
    easeInCubic: (t)=>t * t * t,
    easeOutCubic: (t)=>(t -= 1) * t * t + 1,
    easeInOutCubic: (t)=>(t /= 0.5) < 1 ? 0.5 * t * t * t : 0.5 * ((t -= 2) * t * t + 2),
    easeInQuart: (t)=>t * t * t * t,
    easeOutQuart: (t)=>-((t -= 1) * t * t * t - 1),
    easeInOutQuart: (t)=>(t /= 0.5) < 1 ? 0.5 * t * t * t * t : -0.5 * ((t -= 2) * t * t * t - 2),
    easeInQuint: (t)=>t * t * t * t * t,
    easeOutQuint: (t)=>(t -= 1) * t * t * t * t + 1,
    easeInOutQuint: (t)=>(t /= 0.5) < 1 ? 0.5 * t * t * t * t * t : 0.5 * ((t -= 2) * t * t * t * t + 2),
    easeInSine: (t)=>-Math.cos(t * HALF_PI) + 1,
    easeOutSine: (t)=>Math.sin(t * HALF_PI),
    easeInOutSine: (t)=>-0.5 * (Math.cos(PI * t) - 1),
    easeInExpo: (t)=>t === 0 ? 0 : Math.pow(2, 10 * (t - 1)),
    easeOutExpo: (t)=>t === 1 ? 1 : -Math.pow(2, -10 * t) + 1,
    easeInOutExpo: (t)=>atEdge(t) ? t : t < 0.5 ? 0.5 * Math.pow(2, 10 * (t * 2 - 1)) : 0.5 * (-Math.pow(2, -10 * (t * 2 - 1)) + 2),
    easeInCirc: (t)=>t >= 1 ? t : -(Math.sqrt(1 - t * t) - 1),
    easeOutCirc: (t)=>Math.sqrt(1 - (t -= 1) * t),
    easeInOutCirc: (t)=>(t /= 0.5) < 1 ? -0.5 * (Math.sqrt(1 - t * t) - 1) : 0.5 * (Math.sqrt(1 - (t -= 2) * t) + 1),
    easeInElastic: (t)=>atEdge(t) ? t : elasticIn(t, 0.075, 0.3),
    easeOutElastic: (t)=>atEdge(t) ? t : elasticOut(t, 0.075, 0.3),
    easeInOutElastic (t) {
        const s = 0.1125;
        const p = 0.45;
        return atEdge(t) ? t : t < 0.5 ? 0.5 * elasticIn(t * 2, s, p) : 0.5 + 0.5 * elasticOut(t * 2 - 1, s, p);
    },
    easeInBack (t) {
        const s = 1.70158;
        return t * t * ((s + 1) * t - s);
    },
    easeOutBack (t) {
        const s = 1.70158;
        return (t -= 1) * t * ((s + 1) * t + s) + 1;
    },
    easeInOutBack (t) {
        let s = 1.70158;
        if ((t /= 0.5) < 1) {
            return 0.5 * (t * t * (((s *= 1.525) + 1) * t - s));
        }
        return 0.5 * ((t -= 2) * t * (((s *= 1.525) + 1) * t + s) + 2);
    },
    easeInBounce: (t)=>1 - effects.easeOutBounce(1 - t),
    easeOutBounce (t) {
        const m = 7.5625;
        const d = 2.75;
        if (t < 1 / d) {
            return m * t * t;
        }
        if (t < 2 / d) {
            return m * (t -= 1.5 / d) * t + 0.75;
        }
        if (t < 2.5 / d) {
            return m * (t -= 2.25 / d) * t + 0.9375;
        }
        return m * (t -= 2.625 / d) * t + 0.984375;
    },
    easeInOutBounce: (t)=>t < 0.5 ? effects.easeInBounce(t * 2) * 0.5 : effects.easeOutBounce(t * 2 - 1) * 0.5 + 0.5
};

function isPatternOrGradient(value) {
    if (value && typeof value === 'object') {
        const type = value.toString();
        return type === '[object CanvasPattern]' || type === '[object CanvasGradient]';
    }
    return false;
}
function color(value) {
    return isPatternOrGradient(value) ? value : new Color(value);
}
function getHoverColor(value) {
    return isPatternOrGradient(value) ? value : new Color(value).saturate(0.5).darken(0.1).hexString();
}

const numbers = [
    'x',
    'y',
    'borderWidth',
    'radius',
    'tension'
];
const colors = [
    'color',
    'borderColor',
    'backgroundColor'
];
function applyAnimationsDefaults(defaults) {
    defaults.set('animation', {
        delay: undefined,
        duration: 1000,
        easing: 'easeOutQuart',
        fn: undefined,
        from: undefined,
        loop: undefined,
        to: undefined,
        type: undefined
    });
    defaults.describe('animation', {
        _fallback: false,
        _indexable: false,
        _scriptable: (name)=>name !== 'onProgress' && name !== 'onComplete' && name !== 'fn'
    });
    defaults.set('animations', {
        colors: {
            type: 'color',
            properties: colors
        },
        numbers: {
            type: 'number',
            properties: numbers
        }
    });
    defaults.describe('animations', {
        _fallback: 'animation'
    });
    defaults.set('transitions', {
        active: {
            animation: {
                duration: 400
            }
        },
        resize: {
            animation: {
                duration: 0
            }
        },
        show: {
            animations: {
                colors: {
                    from: 'transparent'
                },
                visible: {
                    type: 'boolean',
                    duration: 0
                }
            }
        },
        hide: {
            animations: {
                colors: {
                    to: 'transparent'
                },
                visible: {
                    type: 'boolean',
                    easing: 'linear',
                    fn: (v)=>v | 0
                }
            }
        }
    });
}

function applyLayoutsDefaults(defaults) {
    defaults.set('layout', {
        autoPadding: true,
        padding: {
            top: 0,
            right: 0,
            bottom: 0,
            left: 0
        }
    });
}

const intlCache = new Map();
function getNumberFormat(locale, options) {
    options = options || {};
    const cacheKey = locale + JSON.stringify(options);
    let formatter = intlCache.get(cacheKey);
    if (!formatter) {
        formatter = new Intl.NumberFormat(locale, options);
        intlCache.set(cacheKey, formatter);
    }
    return formatter;
}
function formatNumber(num, locale, options) {
    return getNumberFormat(locale, options).format(num);
}

const formatters = {
 values (value) {
        return isArray(value) ?  value : '' + value;
    },
 numeric (tickValue, index, ticks) {
        if (tickValue === 0) {
            return '0';
        }
        const locale = this.chart.options.locale;
        let notation;
        let delta = tickValue;
        if (ticks.length > 1) {
            const maxTick = Math.max(Math.abs(ticks[0].value), Math.abs(ticks[ticks.length - 1].value));
            if (maxTick < 1e-4 || maxTick > 1e+15) {
                notation = 'scientific';
            }
            delta = calculateDelta(tickValue, ticks);
        }
        const logDelta = log10(Math.abs(delta));
        const numDecimal = isNaN(logDelta) ? 1 : Math.max(Math.min(-1 * Math.floor(logDelta), 20), 0);
        const options = {
            notation,
            minimumFractionDigits: numDecimal,
            maximumFractionDigits: numDecimal
        };
        Object.assign(options, this.options.ticks.format);
        return formatNumber(tickValue, locale, options);
    },
 logarithmic (tickValue, index, ticks) {
        if (tickValue === 0) {
            return '0';
        }
        const remain = ticks[index].significand || tickValue / Math.pow(10, Math.floor(log10(tickValue)));
        if ([
            1,
            2,
            3,
            5,
            10,
            15
        ].includes(remain) || index > 0.8 * ticks.length) {
            return formatters.numeric.call(this, tickValue, index, ticks);
        }
        return '';
    }
};
function calculateDelta(tickValue, ticks) {
    let delta = ticks.length > 3 ? ticks[2].value - ticks[1].value : ticks[1].value - ticks[0].value;
    if (Math.abs(delta) >= 1 && tickValue !== Math.floor(tickValue)) {
        delta = tickValue - Math.floor(tickValue);
    }
    return delta;
}
 var Ticks = {
    formatters
};

function applyScaleDefaults(defaults) {
    defaults.set('scale', {
        display: true,
        offset: false,
        reverse: false,
        beginAtZero: false,
 bounds: 'ticks',
        clip: true,
 grace: 0,
        grid: {
            display: true,
            lineWidth: 1,
            drawOnChartArea: true,
            drawTicks: true,
            tickLength: 8,
            tickWidth: (_ctx, options)=>options.lineWidth,
            tickColor: (_ctx, options)=>options.color,
            offset: false
        },
        border: {
            display: true,
            dash: [],
            dashOffset: 0.0,
            width: 1
        },
        title: {
            display: false,
            text: '',
            padding: {
                top: 4,
                bottom: 4
            }
        },
        ticks: {
            minRotation: 0,
            maxRotation: 50,
            mirror: false,
            textStrokeWidth: 0,
            textStrokeColor: '',
            padding: 3,
            display: true,
            autoSkip: true,
            autoSkipPadding: 3,
            labelOffset: 0,
            callback: Ticks.formatters.values,
            minor: {},
            major: {},
            align: 'center',
            crossAlign: 'near',
            showLabelBackdrop: false,
            backdropColor: 'rgba(255, 255, 255, 0.75)',
            backdropPadding: 2
        }
    });
    defaults.route('scale.ticks', 'color', '', 'color');
    defaults.route('scale.grid', 'color', '', 'borderColor');
    defaults.route('scale.border', 'color', '', 'borderColor');
    defaults.route('scale.title', 'color', '', 'color');
    defaults.describe('scale', {
        _fallback: false,
        _scriptable: (name)=>!name.startsWith('before') && !name.startsWith('after') && name !== 'callback' && name !== 'parser',
        _indexable: (name)=>name !== 'borderDash' && name !== 'tickBorderDash' && name !== 'dash'
    });
    defaults.describe('scales', {
        _fallback: 'scale'
    });
    defaults.describe('scale.ticks', {
        _scriptable: (name)=>name !== 'backdropPadding' && name !== 'callback',
        _indexable: (name)=>name !== 'backdropPadding'
    });
}

const overrides = Object.create(null);
const descriptors = Object.create(null);
 function getScope$1(node, key) {
    if (!key) {
        return node;
    }
    const keys = key.split('.');
    for(let i = 0, n = keys.length; i < n; ++i){
        const k = keys[i];
        node = node[k] || (node[k] = Object.create(null));
    }
    return node;
}
function set(root, scope, values) {
    if (typeof scope === 'string') {
        return merge(getScope$1(root, scope), values);
    }
    return merge(getScope$1(root, ''), scope);
}
 class Defaults {
    constructor(_descriptors, _appliers){
        this.animation = undefined;
        this.backgroundColor = 'rgba(0,0,0,0.1)';
        this.borderColor = 'rgba(0,0,0,0.1)';
        this.color = '#666';
        this.datasets = {};
        this.devicePixelRatio = (context)=>context.chart.platform.getDevicePixelRatio();
        this.elements = {};
        this.events = [
            'mousemove',
            'mouseout',
            'click',
            'touchstart',
            'touchmove'
        ];
        this.font = {
            family: "'Helvetica Neue', 'Helvetica', 'Arial', sans-serif",
            size: 12,
            style: 'normal',
            lineHeight: 1.2,
            weight: null
        };
        this.hover = {};
        this.hoverBackgroundColor = (ctx, options)=>getHoverColor(options.backgroundColor);
        this.hoverBorderColor = (ctx, options)=>getHoverColor(options.borderColor);
        this.hoverColor = (ctx, options)=>getHoverColor(options.color);
        this.indexAxis = 'x';
        this.interaction = {
            mode: 'nearest',
            intersect: true,
            includeInvisible: false
        };
        this.maintainAspectRatio = true;
        this.onHover = null;
        this.onClick = null;
        this.parsing = true;
        this.plugins = {};
        this.responsive = true;
        this.scale = undefined;
        this.scales = {};
        this.showLine = true;
        this.drawActiveElementsOnTop = true;
        this.describe(_descriptors);
        this.apply(_appliers);
    }
 set(scope, values) {
        return set(this, scope, values);
    }
 get(scope) {
        return getScope$1(this, scope);
    }
 describe(scope, values) {
        return set(descriptors, scope, values);
    }
    override(scope, values) {
        return set(overrides, scope, values);
    }
 route(scope, name, targetScope, targetName) {
        const scopeObject = getScope$1(this, scope);
        const targetScopeObject = getScope$1(this, targetScope);
        const privateName = '_' + name;
        Object.defineProperties(scopeObject, {
            [privateName]: {
                value: scopeObject[name],
                writable: true
            },
            [name]: {
                enumerable: true,
                get () {
                    const local = this[privateName];
                    const target = targetScopeObject[targetName];
                    if (isObject(local)) {
                        return Object.assign({}, target, local);
                    }
                    return valueOrDefault(local, target);
                },
                set (value) {
                    this[privateName] = value;
                }
            }
        });
    }
    apply(appliers) {
        appliers.forEach((apply)=>apply(this));
    }
}
var defaults = /* #__PURE__ */ new Defaults({
    _scriptable: (name)=>!name.startsWith('on'),
    _indexable: (name)=>name !== 'events',
    hover: {
        _fallback: 'interaction'
    },
    interaction: {
        _scriptable: false,
        _indexable: false
    }
}, [
    applyAnimationsDefaults,
    applyLayoutsDefaults,
    applyScaleDefaults
]);

/**
 * Converts the given font object into a CSS font string.
 * @param font - A font object.
 * @return The CSS font string. See https://developer.mozilla.org/en-US/docs/Web/CSS/font
 * @private
 */ function toFontString(font) {
    if (!font || isNullOrUndef(font.size) || isNullOrUndef(font.family)) {
        return null;
    }
    return (font.style ? font.style + ' ' : '') + (font.weight ? font.weight + ' ' : '') + font.size + 'px ' + font.family;
}
/**
 * @private
 */ function _measureText(ctx, data, gc, longest, string) {
    let textWidth = data[string];
    if (!textWidth) {
        textWidth = data[string] = ctx.measureText(string).width;
        gc.push(string);
    }
    if (textWidth > longest) {
        longest = textWidth;
    }
    return longest;
}
/**
 * @private
 */ // eslint-disable-next-line complexity
function _longestText(ctx, font, arrayOfThings, cache) {
    cache = cache || {};
    let data = cache.data = cache.data || {};
    let gc = cache.garbageCollect = cache.garbageCollect || [];
    if (cache.font !== font) {
        data = cache.data = {};
        gc = cache.garbageCollect = [];
        cache.font = font;
    }
    ctx.save();
    ctx.font = font;
    let longest = 0;
    const ilen = arrayOfThings.length;
    let i, j, jlen, thing, nestedThing;
    for(i = 0; i < ilen; i++){
        thing = arrayOfThings[i];
        // Undefined strings and arrays should not be measured
        if (thing !== undefined && thing !== null && !isArray(thing)) {
            longest = _measureText(ctx, data, gc, longest, thing);
        } else if (isArray(thing)) {
            // if it is an array lets measure each element
            // to do maybe simplify this function a bit so we can do this more recursively?
            for(j = 0, jlen = thing.length; j < jlen; j++){
                nestedThing = thing[j];
                // Undefined strings and arrays should not be measured
                if (nestedThing !== undefined && nestedThing !== null && !isArray(nestedThing)) {
                    longest = _measureText(ctx, data, gc, longest, nestedThing);
                }
            }
        }
    }
    ctx.restore();
    const gcLen = gc.length / 2;
    if (gcLen > arrayOfThings.length) {
        for(i = 0; i < gcLen; i++){
            delete data[gc[i]];
        }
        gc.splice(0, gcLen);
    }
    return longest;
}
/**
 * Returns the aligned pixel value to avoid anti-aliasing blur
 * @param chart - The chart instance.
 * @param pixel - A pixel value.
 * @param width - The width of the element.
 * @returns The aligned pixel value.
 * @private
 */ function _alignPixel(chart, pixel, width) {
    const devicePixelRatio = chart.currentDevicePixelRatio;
    const halfWidth = width !== 0 ? Math.max(width / 2, 0.5) : 0;
    return Math.round((pixel - halfWidth) * devicePixelRatio) / devicePixelRatio + halfWidth;
}
/**
 * Clears the entire canvas.
 */ function clearCanvas(canvas, ctx) {
    if (!ctx && !canvas) {
        return;
    }
    ctx = ctx || canvas.getContext('2d');
    ctx.save();
    // canvas.width and canvas.height do not consider the canvas transform,
    // while clearRect does
    ctx.resetTransform();
    ctx.clearRect(0, 0, canvas.width, canvas.height);
    ctx.restore();
}
function drawPoint(ctx, options, x, y) {
    // eslint-disable-next-line @typescript-eslint/no-use-before-define
    drawPointLegend(ctx, options, x, y, null);
}
// eslint-disable-next-line complexity
function drawPointLegend(ctx, options, x, y, w) {
    let type, xOffset, yOffset, size, cornerRadius, width, xOffsetW, yOffsetW;
    const style = options.pointStyle;
    const rotation = options.rotation;
    const radius = options.radius;
    let rad = (rotation || 0) * RAD_PER_DEG;
    if (style && typeof style === 'object') {
        type = style.toString();
        if (type === '[object HTMLImageElement]' || type === '[object HTMLCanvasElement]') {
            ctx.save();
            ctx.translate(x, y);
            ctx.rotate(rad);
            ctx.drawImage(style, -style.width / 2, -style.height / 2, style.width, style.height);
            ctx.restore();
            return;
        }
    }
    if (isNaN(radius) || radius <= 0) {
        return;
    }
    ctx.beginPath();
    switch(style){
        // Default includes circle
        default:
            if (w) {
                ctx.ellipse(x, y, w / 2, radius, 0, 0, TAU);
            } else {
                ctx.arc(x, y, radius, 0, TAU);
            }
            ctx.closePath();
            break;
        case 'triangle':
            width = w ? w / 2 : radius;
            ctx.moveTo(x + Math.sin(rad) * width, y - Math.cos(rad) * radius);
            rad += TWO_THIRDS_PI;
            ctx.lineTo(x + Math.sin(rad) * width, y - Math.cos(rad) * radius);
            rad += TWO_THIRDS_PI;
            ctx.lineTo(x + Math.sin(rad) * width, y - Math.cos(rad) * radius);
            ctx.closePath();
            break;
        case 'rectRounded':
            // NOTE: the rounded rect implementation changed to use `arc` instead of
            // `quadraticCurveTo` since it generates better results when rect is
            // almost a circle. 0.516 (instead of 0.5) produces results with visually
            // closer proportion to the previous impl and it is inscribed in the
            // circle with `radius`. For more details, see the following PRs:
            // https://github.com/chartjs/Chart.js/issues/5597
            // https://github.com/chartjs/Chart.js/issues/5858
            cornerRadius = radius * 0.516;
            size = radius - cornerRadius;
            xOffset = Math.cos(rad + QUARTER_PI) * size;
            xOffsetW = Math.cos(rad + QUARTER_PI) * (w ? w / 2 - cornerRadius : size);
            yOffset = Math.sin(rad + QUARTER_PI) * size;
            yOffsetW = Math.sin(rad + QUARTER_PI) * (w ? w / 2 - cornerRadius : size);
            ctx.arc(x - xOffsetW, y - yOffset, cornerRadius, rad - PI, rad - HALF_PI);
            ctx.arc(x + yOffsetW, y - xOffset, cornerRadius, rad - HALF_PI, rad);
            ctx.arc(x + xOffsetW, y + yOffset, cornerRadius, rad, rad + HALF_PI);
            ctx.arc(x - yOffsetW, y + xOffset, cornerRadius, rad + HALF_PI, rad + PI);
            ctx.closePath();
            break;
        case 'rect':
            if (!rotation) {
                size = Math.SQRT1_2 * radius;
                width = w ? w / 2 : size;
                ctx.rect(x - width, y - size, 2 * width, 2 * size);
                break;
            }
            rad += QUARTER_PI;
        /* falls through */ case 'rectRot':
            xOffsetW = Math.cos(rad) * (w ? w / 2 : radius);
            xOffset = Math.cos(rad) * radius;
            yOffset = Math.sin(rad) * radius;
            yOffsetW = Math.sin(rad) * (w ? w / 2 : radius);
            ctx.moveTo(x - xOffsetW, y - yOffset);
            ctx.lineTo(x + yOffsetW, y - xOffset);
            ctx.lineTo(x + xOffsetW, y + yOffset);
            ctx.lineTo(x - yOffsetW, y + xOffset);
            ctx.closePath();
            break;
        case 'crossRot':
            rad += QUARTER_PI;
        /* falls through */ case 'cross':
            xOffsetW = Math.cos(rad) * (w ? w / 2 : radius);
            xOffset = Math.cos(rad) * radius;
            yOffset = Math.sin(rad) * radius;
            yOffsetW = Math.sin(rad) * (w ? w / 2 : radius);
            ctx.moveTo(x - xOffsetW, y - yOffset);
            ctx.lineTo(x + xOffsetW, y + yOffset);
            ctx.moveTo(x + yOffsetW, y - xOffset);
            ctx.lineTo(x - yOffsetW, y + xOffset);
            break;
        case 'star':
            xOffsetW = Math.cos(rad) * (w ? w / 2 : radius);
            xOffset = Math.cos(rad) * radius;
            yOffset = Math.sin(rad) * radius;
            yOffsetW = Math.sin(rad) * (w ? w / 2 : radius);
            ctx.moveTo(x - xOffsetW, y - yOffset);
            ctx.lineTo(x + xOffsetW, y + yOffset);
            ctx.moveTo(x + yOffsetW, y - xOffset);
            ctx.lineTo(x - yOffsetW, y + xOffset);
            rad += QUARTER_PI;
            xOffsetW = Math.cos(rad) * (w ? w / 2 : radius);
            xOffset = Math.cos(rad) * radius;
            yOffset = Math.sin(rad) * radius;
            yOffsetW = Math.sin(rad) * (w ? w / 2 : radius);
            ctx.moveTo(x - xOffsetW, y - yOffset);
            ctx.lineTo(x + xOffsetW, y + yOffset);
            ctx.moveTo(x + yOffsetW, y - xOffset);
            ctx.lineTo(x - yOffsetW, y + xOffset);
            break;
        case 'line':
            xOffset = w ? w / 2 : Math.cos(rad) * radius;
            yOffset = Math.sin(rad) * radius;
            ctx.moveTo(x - xOffset, y - yOffset);
            ctx.lineTo(x + xOffset, y + yOffset);
            break;
        case 'dash':
            ctx.moveTo(x, y);
            ctx.lineTo(x + Math.cos(rad) * (w ? w / 2 : radius), y + Math.sin(rad) * radius);
            break;
        case false:
            ctx.closePath();
            break;
    }
    ctx.fill();
    if (options.borderWidth > 0) {
        ctx.stroke();
    }
}
/**
 * Returns true if the point is inside the rectangle
 * @param point - The point to test
 * @param area - The rectangle
 * @param margin - allowed margin
 * @private
 */ function _isPointInArea(point, area, margin) {
    margin = margin || 0.5; // margin - default is to match rounded decimals
    return !area || point && point.x > area.left - margin && point.x < area.right + margin && point.y > area.top - margin && point.y < area.bottom + margin;
}
function clipArea(ctx, area) {
    ctx.save();
    ctx.beginPath();
    ctx.rect(area.left, area.top, area.right - area.left, area.bottom - area.top);
    ctx.clip();
}
function unclipArea(ctx) {
    ctx.restore();
}
/**
 * @private
 */ function _steppedLineTo(ctx, previous, target, flip, mode) {
    if (!previous) {
        return ctx.lineTo(target.x, target.y);
    }
    if (mode === 'middle') {
        const midpoint = (previous.x + target.x) / 2.0;
        ctx.lineTo(midpoint, previous.y);
        ctx.lineTo(midpoint, target.y);
    } else if (mode === 'after' !== !!flip) {
        ctx.lineTo(previous.x, target.y);
    } else {
        ctx.lineTo(target.x, previous.y);
    }
    ctx.lineTo(target.x, target.y);
}
/**
 * @private
 */ function _bezierCurveTo(ctx, previous, target, flip) {
    if (!previous) {
        return ctx.lineTo(target.x, target.y);
    }
    ctx.bezierCurveTo(flip ? previous.cp1x : previous.cp2x, flip ? previous.cp1y : previous.cp2y, flip ? target.cp2x : target.cp1x, flip ? target.cp2y : target.cp1y, target.x, target.y);
}
function setRenderOpts(ctx, opts) {
    if (opts.translation) {
        ctx.translate(opts.translation[0], opts.translation[1]);
    }
    if (!isNullOrUndef(opts.rotation)) {
        ctx.rotate(opts.rotation);
    }
    if (opts.color) {
        ctx.fillStyle = opts.color;
    }
    if (opts.textAlign) {
        ctx.textAlign = opts.textAlign;
    }
    if (opts.textBaseline) {
        ctx.textBaseline = opts.textBaseline;
    }
}
function decorateText(ctx, x, y, line, opts) {
    if (opts.strikethrough || opts.underline) {
        /**
     * Now that IE11 support has been dropped, we can use more
     * of the TextMetrics object. The actual bounding boxes
     * are unflagged in Chrome, Firefox, Edge, and Safari so they
     * can be safely used.
     * See https://developer.mozilla.org/en-US/docs/Web/API/TextMetrics#Browser_compatibility
     */ const metrics = ctx.measureText(line);
        const left = x - metrics.actualBoundingBoxLeft;
        const right = x + metrics.actualBoundingBoxRight;
        const top = y - metrics.actualBoundingBoxAscent;
        const bottom = y + metrics.actualBoundingBoxDescent;
        const yDecoration = opts.strikethrough ? (top + bottom) / 2 : bottom;
        ctx.strokeStyle = ctx.fillStyle;
        ctx.beginPath();
        ctx.lineWidth = opts.decorationWidth || 2;
        ctx.moveTo(left, yDecoration);
        ctx.lineTo(right, yDecoration);
        ctx.stroke();
    }
}
function drawBackdrop(ctx, opts) {
    const oldColor = ctx.fillStyle;
    ctx.fillStyle = opts.color;
    ctx.fillRect(opts.left, opts.top, opts.width, opts.height);
    ctx.fillStyle = oldColor;
}
/**
 * Render text onto the canvas
 */ function renderText(ctx, text, x, y, font, opts = {}) {
    const lines = isArray(text) ? text : [
        text
    ];
    const stroke = opts.strokeWidth > 0 && opts.strokeColor !== '';
    let i, line;
    ctx.save();
    ctx.font = font.string;
    setRenderOpts(ctx, opts);
    for(i = 0; i < lines.length; ++i){
        line = lines[i];
        if (opts.backdrop) {
            drawBackdrop(ctx, opts.backdrop);
        }
        if (stroke) {
            if (opts.strokeColor) {
                ctx.strokeStyle = opts.strokeColor;
            }
            if (!isNullOrUndef(opts.strokeWidth)) {
                ctx.lineWidth = opts.strokeWidth;
            }
            ctx.strokeText(line, x, y, opts.maxWidth);
        }
        ctx.fillText(line, x, y, opts.maxWidth);
        decorateText(ctx, x, y, line, opts);
        y += Number(font.lineHeight);
    }
    ctx.restore();
}
/**
 * Add a path of a rectangle with rounded corners to the current sub-path
 * @param ctx - Context
 * @param rect - Bounding rect
 */ function addRoundedRectPath(ctx, rect) {
    const { x , y , w , h , radius  } = rect;
    // top left arc
    ctx.arc(x + radius.topLeft, y + radius.topLeft, radius.topLeft, 1.5 * PI, PI, true);
    // line from top left to bottom left
    ctx.lineTo(x, y + h - radius.bottomLeft);
    // bottom left arc
    ctx.arc(x + radius.bottomLeft, y + h - radius.bottomLeft, radius.bottomLeft, PI, HALF_PI, true);
    // line from bottom left to bottom right
    ctx.lineTo(x + w - radius.bottomRight, y + h);
    // bottom right arc
    ctx.arc(x + w - radius.bottomRight, y + h - radius.bottomRight, radius.bottomRight, HALF_PI, 0, true);
    // line from bottom right to top right
    ctx.lineTo(x + w, y + radius.topRight);
    // top right arc
    ctx.arc(x + w - radius.topRight, y + radius.topRight, radius.topRight, 0, -HALF_PI, true);
    // line from top right to top left
    ctx.lineTo(x + radius.topLeft, y);
}

const LINE_HEIGHT = /^(normal|(\d+(?:\.\d+)?)(px|em|%)?)$/;
const FONT_STYLE = /^(normal|italic|initial|inherit|unset|(oblique( -?[0-9]?[0-9]deg)?))$/;
/**
 * @alias Chart.helpers.options
 * @namespace
 */ /**
 * Converts the given line height `value` in pixels for a specific font `size`.
 * @param value - The lineHeight to parse (eg. 1.6, '14px', '75%', '1.6em').
 * @param size - The font size (in pixels) used to resolve relative `value`.
 * @returns The effective line height in pixels (size * 1.2 if value is invalid).
 * @see https://developer.mozilla.org/en-US/docs/Web/CSS/line-height
 * @since 2.7.0
 */ function toLineHeight(value, size) {
    const matches = ('' + value).match(LINE_HEIGHT);
    if (!matches || matches[1] === 'normal') {
        return size * 1.2;
    }
    value = +matches[2];
    switch(matches[3]){
        case 'px':
            return value;
        case '%':
            value /= 100;
            break;
    }
    return size * value;
}
const numberOrZero = (v)=>+v || 0;
function _readValueToProps(value, props) {
    const ret = {};
    const objProps = isObject(props);
    const keys = objProps ? Object.keys(props) : props;
    const read = isObject(value) ? objProps ? (prop)=>valueOrDefault(value[prop], value[props[prop]]) : (prop)=>value[prop] : ()=>value;
    for (const prop of keys){
        ret[prop] = numberOrZero(read(prop));
    }
    return ret;
}
/**
 * Converts the given value into a TRBL object.
 * @param value - If a number, set the value to all TRBL component,
 *  else, if an object, use defined properties and sets undefined ones to 0.
 *  x / y are shorthands for same value for left/right and top/bottom.
 * @returns The padding values (top, right, bottom, left)
 * @since 3.0.0
 */ function toTRBL(value) {
    return _readValueToProps(value, {
        top: 'y',
        right: 'x',
        bottom: 'y',
        left: 'x'
    });
}
/**
 * Converts the given value into a TRBL corners object (similar with css border-radius).
 * @param value - If a number, set the value to all TRBL corner components,
 *  else, if an object, use defined properties and sets undefined ones to 0.
 * @returns The TRBL corner values (topLeft, topRight, bottomLeft, bottomRight)
 * @since 3.0.0
 */ function toTRBLCorners(value) {
    return _readValueToProps(value, [
        'topLeft',
        'topRight',
        'bottomLeft',
        'bottomRight'
    ]);
}
/**
 * Converts the given value into a padding object with pre-computed width/height.
 * @param value - If a number, set the value to all TRBL component,
 *  else, if an object, use defined properties and sets undefined ones to 0.
 *  x / y are shorthands for same value for left/right and top/bottom.
 * @returns The padding values (top, right, bottom, left, width, height)
 * @since 2.7.0
 */ function toPadding(value) {
    const obj = toTRBL(value);
    obj.width = obj.left + obj.right;
    obj.height = obj.top + obj.bottom;
    return obj;
}
/**
 * Parses font options and returns the font object.
 * @param options - A object that contains font options to be parsed.
 * @param fallback - A object that contains fallback font options.
 * @return The font object.
 * @private
 */ function toFont(options, fallback) {
    options = options || {};
    fallback = fallback || defaults.font;
    let size = valueOrDefault(options.size, fallback.size);
    if (typeof size === 'string') {
        size = parseInt(size, 10);
    }
    let style = valueOrDefault(options.style, fallback.style);
    if (style && !('' + style).match(FONT_STYLE)) {
        console.warn('Invalid font style specified: "' + style + '"');
        style = undefined;
    }
    const font = {
        family: valueOrDefault(options.family, fallback.family),
        lineHeight: toLineHeight(valueOrDefault(options.lineHeight, fallback.lineHeight), size),
        size,
        style,
        weight: valueOrDefault(options.weight, fallback.weight),
        string: ''
    };
    font.string = toFontString(font);
    return font;
}
/**
 * Evaluates the given `inputs` sequentially and returns the first defined value.
 * @param inputs - An array of values, falling back to the last value.
 * @param context - If defined and the current value is a function, the value
 * is called with `context` as first argument and the result becomes the new input.
 * @param index - If defined and the current value is an array, the value
 * at `index` become the new input.
 * @param info - object to return information about resolution in
 * @param info.cacheable - Will be set to `false` if option is not cacheable.
 * @since 2.7.0
 */ function resolve(inputs, context, index, info) {
    let cacheable = true;
    let i, ilen, value;
    for(i = 0, ilen = inputs.length; i < ilen; ++i){
        value = inputs[i];
        if (value === undefined) {
            continue;
        }
        if (context !== undefined && typeof value === 'function') {
            value = value(context);
            cacheable = false;
        }
        if (index !== undefined && isArray(value)) {
            value = value[index % value.length];
            cacheable = false;
        }
        if (value !== undefined) {
            if (info && !cacheable) {
                info.cacheable = false;
            }
            return value;
        }
    }
}
/**
 * @param minmax
 * @param grace
 * @param beginAtZero
 * @private
 */ function _addGrace(minmax, grace, beginAtZero) {
    const { min , max  } = minmax;
    const change = toDimension(grace, (max - min) / 2);
    const keepZero = (value, add)=>beginAtZero && value === 0 ? 0 : value + add;
    return {
        min: keepZero(min, -Math.abs(change)),
        max: keepZero(max, change)
    };
}
function createContext(parentContext, context) {
    return Object.assign(Object.create(parentContext), context);
}

/**
 * Creates a Proxy for resolving raw values for options.
 * @param scopes - The option scopes to look for values, in resolution order
 * @param prefixes - The prefixes for values, in resolution order.
 * @param rootScopes - The root option scopes
 * @param fallback - Parent scopes fallback
 * @param getTarget - callback for getting the target for changed values
 * @returns Proxy
 * @private
 */ function _createResolver(scopes, prefixes = [
    ''
], rootScopes, fallback, getTarget = ()=>scopes[0]) {
    const finalRootScopes = rootScopes || scopes;
    if (typeof fallback === 'undefined') {
        fallback = _resolve('_fallback', scopes);
    }
    const cache = {
        [Symbol.toStringTag]: 'Object',
        _cacheable: true,
        _scopes: scopes,
        _rootScopes: finalRootScopes,
        _fallback: fallback,
        _getTarget: getTarget,
        override: (scope)=>_createResolver([
                scope,
                ...scopes
            ], prefixes, finalRootScopes, fallback)
    };
    return new Proxy(cache, {
        /**
     * A trap for the delete operator.
     */ deleteProperty (target, prop) {
            delete target[prop]; // remove from cache
            delete target._keys; // remove cached keys
            delete scopes[0][prop]; // remove from top level scope
            return true;
        },
        /**
     * A trap for getting property values.
     */ get (target, prop) {
            return _cached(target, prop, ()=>_resolveWithPrefixes(prop, prefixes, scopes, target));
        },
        /**
     * A trap for Object.getOwnPropertyDescriptor.
     * Also used by Object.hasOwnProperty.
     */ getOwnPropertyDescriptor (target, prop) {
            return Reflect.getOwnPropertyDescriptor(target._scopes[0], prop);
        },
        /**
     * A trap for Object.getPrototypeOf.
     */ getPrototypeOf () {
            return Reflect.getPrototypeOf(scopes[0]);
        },
        /**
     * A trap for the in operator.
     */ has (target, prop) {
            return getKeysFromAllScopes(target).includes(prop);
        },
        /**
     * A trap for Object.getOwnPropertyNames and Object.getOwnPropertySymbols.
     */ ownKeys (target) {
            return getKeysFromAllScopes(target);
        },
        /**
     * A trap for setting property values.
     */ set (target, prop, value) {
            const storage = target._storage || (target._storage = getTarget());
            target[prop] = storage[prop] = value; // set to top level scope + cache
            delete target._keys; // remove cached keys
            return true;
        }
    });
}
/**
 * Returns an Proxy for resolving option values with context.
 * @param proxy - The Proxy returned by `_createResolver`
 * @param context - Context object for scriptable/indexable options
 * @param subProxy - The proxy provided for scriptable options
 * @param descriptorDefaults - Defaults for descriptors
 * @private
 */ function _attachContext(proxy, context, subProxy, descriptorDefaults) {
    const cache = {
        _cacheable: false,
        _proxy: proxy,
        _context: context,
        _subProxy: subProxy,
        _stack: new Set(),
        _descriptors: _descriptors(proxy, descriptorDefaults),
        setContext: (ctx)=>_attachContext(proxy, ctx, subProxy, descriptorDefaults),
        override: (scope)=>_attachContext(proxy.override(scope), context, subProxy, descriptorDefaults)
    };
    return new Proxy(cache, {
        /**
     * A trap for the delete operator.
     */ deleteProperty (target, prop) {
            delete target[prop]; // remove from cache
            delete proxy[prop]; // remove from proxy
            return true;
        },
        /**
     * A trap for getting property values.
     */ get (target, prop, receiver) {
            return _cached(target, prop, ()=>_resolveWithContext(target, prop, receiver));
        },
        /**
     * A trap for Object.getOwnPropertyDescriptor.
     * Also used by Object.hasOwnProperty.
     */ getOwnPropertyDescriptor (target, prop) {
            return target._descriptors.allKeys ? Reflect.has(proxy, prop) ? {
                enumerable: true,
                configurable: true
            } : undefined : Reflect.getOwnPropertyDescriptor(proxy, prop);
        },
        /**
     * A trap for Object.getPrototypeOf.
     */ getPrototypeOf () {
            return Reflect.getPrototypeOf(proxy);
        },
        /**
     * A trap for the in operator.
     */ has (target, prop) {
            return Reflect.has(proxy, prop);
        },
        /**
     * A trap for Object.getOwnPropertyNames and Object.getOwnPropertySymbols.
     */ ownKeys () {
            return Reflect.ownKeys(proxy);
        },
        /**
     * A trap for setting property values.
     */ set (target, prop, value) {
            proxy[prop] = value; // set to proxy
            delete target[prop]; // remove from cache
            return true;
        }
    });
}
/**
 * @private
 */ function _descriptors(proxy, defaults = {
    scriptable: true,
    indexable: true
}) {
    const { _scriptable =defaults.scriptable , _indexable =defaults.indexable , _allKeys =defaults.allKeys  } = proxy;
    return {
        allKeys: _allKeys,
        scriptable: _scriptable,
        indexable: _indexable,
        isScriptable: isFunction(_scriptable) ? _scriptable : ()=>_scriptable,
        isIndexable: isFunction(_indexable) ? _indexable : ()=>_indexable
    };
}
const readKey = (prefix, name)=>prefix ? prefix + _capitalize(name) : name;
const needsSubResolver = (prop, value)=>isObject(value) && prop !== 'adapters' && (Object.getPrototypeOf(value) === null || value.constructor === Object);
function _cached(target, prop, resolve) {
    if (Object.prototype.hasOwnProperty.call(target, prop) || prop === 'constructor') {
        return target[prop];
    }
    const value = resolve();
    // cache the resolved value
    target[prop] = value;
    return value;
}
function _resolveWithContext(target, prop, receiver) {
    const { _proxy , _context , _subProxy , _descriptors: descriptors  } = target;
    let value = _proxy[prop]; // resolve from proxy
    // resolve with context
    if (isFunction(value) && descriptors.isScriptable(prop)) {
        value = _resolveScriptable(prop, value, target, receiver);
    }
    if (isArray(value) && value.length) {
        value = _resolveArray(prop, value, target, descriptors.isIndexable);
    }
    if (needsSubResolver(prop, value)) {
        // if the resolved value is an object, create a sub resolver for it
        value = _attachContext(value, _context, _subProxy && _subProxy[prop], descriptors);
    }
    return value;
}
function _resolveScriptable(prop, getValue, target, receiver) {
    const { _proxy , _context , _subProxy , _stack  } = target;
    if (_stack.has(prop)) {
        throw new Error('Recursion detected: ' + Array.from(_stack).join('->') + '->' + prop);
    }
    _stack.add(prop);
    let value = getValue(_context, _subProxy || receiver);
    _stack.delete(prop);
    if (needsSubResolver(prop, value)) {
        // When scriptable option returns an object, create a resolver on that.
        value = createSubResolver(_proxy._scopes, _proxy, prop, value);
    }
    return value;
}
function _resolveArray(prop, value, target, isIndexable) {
    const { _proxy , _context , _subProxy , _descriptors: descriptors  } = target;
    if (typeof _context.index !== 'undefined' && isIndexable(prop)) {
        return value[_context.index % value.length];
    } else if (isObject(value[0])) {
        // Array of objects, return array or resolvers
        const arr = value;
        const scopes = _proxy._scopes.filter((s)=>s !== arr);
        value = [];
        for (const item of arr){
            const resolver = createSubResolver(scopes, _proxy, prop, item);
            value.push(_attachContext(resolver, _context, _subProxy && _subProxy[prop], descriptors));
        }
    }
    return value;
}
function resolveFallback(fallback, prop, value) {
    return isFunction(fallback) ? fallback(prop, value) : fallback;
}
const getScope = (key, parent)=>key === true ? parent : typeof key === 'string' ? resolveObjectKey(parent, key) : undefined;
function addScopes(set, parentScopes, key, parentFallback, value) {
    for (const parent of parentScopes){
        const scope = getScope(key, parent);
        if (scope) {
            set.add(scope);
            const fallback = resolveFallback(scope._fallback, key, value);
            if (typeof fallback !== 'undefined' && fallback !== key && fallback !== parentFallback) {
                // When we reach the descriptor that defines a new _fallback, return that.
                // The fallback will resume to that new scope.
                return fallback;
            }
        } else if (scope === false && typeof parentFallback !== 'undefined' && key !== parentFallback) {
            // Fallback to `false` results to `false`, when falling back to different key.
            // For example `interaction` from `hover` or `plugins.tooltip` and `animation` from `animations`
            return null;
        }
    }
    return false;
}
function createSubResolver(parentScopes, resolver, prop, value) {
    const rootScopes = resolver._rootScopes;
    const fallback = resolveFallback(resolver._fallback, prop, value);
    const allScopes = [
        ...parentScopes,
        ...rootScopes
    ];
    const set = new Set();
    set.add(value);
    let key = addScopesFromKey(set, allScopes, prop, fallback || prop, value);
    if (key === null) {
        return false;
    }
    if (typeof fallback !== 'undefined' && fallback !== prop) {
        key = addScopesFromKey(set, allScopes, fallback, key, value);
        if (key === null) {
            return false;
        }
    }
    return _createResolver(Array.from(set), [
        ''
    ], rootScopes, fallback, ()=>subGetTarget(resolver, prop, value));
}
function addScopesFromKey(set, allScopes, key, fallback, item) {
    while(key){
        key = addScopes(set, allScopes, key, fallback, item);
    }
    return key;
}
function subGetTarget(resolver, prop, value) {
    const parent = resolver._getTarget();
    if (!(prop in parent)) {
        parent[prop] = {};
    }
    const target = parent[prop];
    if (isArray(target) && isObject(value)) {
        // For array of objects, the object is used to store updated values
        return value;
    }
    return target || {};
}
function _resolveWithPrefixes(prop, prefixes, scopes, proxy) {
    let value;
    for (const prefix of prefixes){
        value = _resolve(readKey(prefix, prop), scopes);
        if (typeof value !== 'undefined') {
            return needsSubResolver(prop, value) ? createSubResolver(scopes, proxy, prop, value) : value;
        }
    }
}
function _resolve(key, scopes) {
    for (const scope of scopes){
        if (!scope) {
            continue;
        }
        const value = scope[key];
        if (typeof value !== 'undefined') {
            return value;
        }
    }
}
function getKeysFromAllScopes(target) {
    let keys = target._keys;
    if (!keys) {
        keys = target._keys = resolveKeysFromAllScopes(target._scopes);
    }
    return keys;
}
function resolveKeysFromAllScopes(scopes) {
    const set = new Set();
    for (const scope of scopes){
        for (const key of Object.keys(scope).filter((k)=>!k.startsWith('_'))){
            set.add(key);
        }
    }
    return Array.from(set);
}
function _parseObjectDataRadialScale(meta, data, start, count) {
    const { iScale  } = meta;
    const { key ='r'  } = this._parsing;
    const parsed = new Array(count);
    let i, ilen, index, item;
    for(i = 0, ilen = count; i < ilen; ++i){
        index = i + start;
        item = data[index];
        parsed[i] = {
            r: iScale.parse(resolveObjectKey(item, key), index)
        };
    }
    return parsed;
}

const EPSILON = Number.EPSILON || 1e-14;
const getPoint = (points, i)=>i < points.length && !points[i].skip && points[i];
const getValueAxis = (indexAxis)=>indexAxis === 'x' ? 'y' : 'x';
function splineCurve(firstPoint, middlePoint, afterPoint, t) {
    // Props to Rob Spencer at scaled innovation for his post on splining between points
    // http://scaledinnovation.com/analytics/splines/aboutSplines.html
    // This function must also respect "skipped" points
    const previous = firstPoint.skip ? middlePoint : firstPoint;
    const current = middlePoint;
    const next = afterPoint.skip ? middlePoint : afterPoint;
    const d01 = distanceBetweenPoints(current, previous);
    const d12 = distanceBetweenPoints(next, current);
    let s01 = d01 / (d01 + d12);
    let s12 = d12 / (d01 + d12);
    // If all points are the same, s01 & s02 will be inf
    s01 = isNaN(s01) ? 0 : s01;
    s12 = isNaN(s12) ? 0 : s12;
    const fa = t * s01; // scaling factor for triangle Ta
    const fb = t * s12;
    return {
        previous: {
            x: current.x - fa * (next.x - previous.x),
            y: current.y - fa * (next.y - previous.y)
        },
        next: {
            x: current.x + fb * (next.x - previous.x),
            y: current.y + fb * (next.y - previous.y)
        }
    };
}
/**
 * Adjust tangents to ensure monotonic properties
 */ function monotoneAdjust(points, deltaK, mK) {
    const pointsLen = points.length;
    let alphaK, betaK, tauK, squaredMagnitude, pointCurrent;
    let pointAfter = getPoint(points, 0);
    for(let i = 0; i < pointsLen - 1; ++i){
        pointCurrent = pointAfter;
        pointAfter = getPoint(points, i + 1);
        if (!pointCurrent || !pointAfter) {
            continue;
        }
        if (almostEquals(deltaK[i], 0, EPSILON)) {
            mK[i] = mK[i + 1] = 0;
            continue;
        }
        alphaK = mK[i] / deltaK[i];
        betaK = mK[i + 1] / deltaK[i];
        squaredMagnitude = Math.pow(alphaK, 2) + Math.pow(betaK, 2);
        if (squaredMagnitude <= 9) {
            continue;
        }
        tauK = 3 / Math.sqrt(squaredMagnitude);
        mK[i] = alphaK * tauK * deltaK[i];
        mK[i + 1] = betaK * tauK * deltaK[i];
    }
}
function monotoneCompute(points, mK, indexAxis = 'x') {
    const valueAxis = getValueAxis(indexAxis);
    const pointsLen = points.length;
    let delta, pointBefore, pointCurrent;
    let pointAfter = getPoint(points, 0);
    for(let i = 0; i < pointsLen; ++i){
        pointBefore = pointCurrent;
        pointCurrent = pointAfter;
        pointAfter = getPoint(points, i + 1);
        if (!pointCurrent) {
            continue;
        }
        const iPixel = pointCurrent[indexAxis];
        const vPixel = pointCurrent[valueAxis];
        if (pointBefore) {
            delta = (iPixel - pointBefore[indexAxis]) / 3;
            pointCurrent[`cp1${indexAxis}`] = iPixel - delta;
            pointCurrent[`cp1${valueAxis}`] = vPixel - delta * mK[i];
        }
        if (pointAfter) {
            delta = (pointAfter[indexAxis] - iPixel) / 3;
            pointCurrent[`cp2${indexAxis}`] = iPixel + delta;
            pointCurrent[`cp2${valueAxis}`] = vPixel + delta * mK[i];
        }
    }
}
/**
 * This function calculates Bézier control points in a similar way than |splineCurve|,
 * but preserves monotonicity of the provided data and ensures no local extremums are added
 * between the dataset discrete points due to the interpolation.
 * See : https://en.wikipedia.org/wiki/Monotone_cubic_interpolation
 */ function splineCurveMonotone(points, indexAxis = 'x') {
    const valueAxis = getValueAxis(indexAxis);
    const pointsLen = points.length;
    const deltaK = Array(pointsLen).fill(0);
    const mK = Array(pointsLen);
    // Calculate slopes (deltaK) and initialize tangents (mK)
    let i, pointBefore, pointCurrent;
    let pointAfter = getPoint(points, 0);
    for(i = 0; i < pointsLen; ++i){
        pointBefore = pointCurrent;
        pointCurrent = pointAfter;
        pointAfter = getPoint(points, i + 1);
        if (!pointCurrent) {
            continue;
        }
        if (pointAfter) {
            const slopeDelta = pointAfter[indexAxis] - pointCurrent[indexAxis];
            // In the case of two points that appear at the same x pixel, slopeDeltaX is 0
            deltaK[i] = slopeDelta !== 0 ? (pointAfter[valueAxis] - pointCurrent[valueAxis]) / slopeDelta : 0;
        }
        mK[i] = !pointBefore ? deltaK[i] : !pointAfter ? deltaK[i - 1] : sign(deltaK[i - 1]) !== sign(deltaK[i]) ? 0 : (deltaK[i - 1] + deltaK[i]) / 2;
    }
    monotoneAdjust(points, deltaK, mK);
    monotoneCompute(points, mK, indexAxis);
}
function capControlPoint(pt, min, max) {
    return Math.max(Math.min(pt, max), min);
}
function capBezierPoints(points, area) {
    let i, ilen, point, inArea, inAreaPrev;
    let inAreaNext = _isPointInArea(points[0], area);
    for(i = 0, ilen = points.length; i < ilen; ++i){
        inAreaPrev = inArea;
        inArea = inAreaNext;
        inAreaNext = i < ilen - 1 && _isPointInArea(points[i + 1], area);
        if (!inArea) {
            continue;
        }
        point = points[i];
        if (inAreaPrev) {
            point.cp1x = capControlPoint(point.cp1x, area.left, area.right);
            point.cp1y = capControlPoint(point.cp1y, area.top, area.bottom);
        }
        if (inAreaNext) {
            point.cp2x = capControlPoint(point.cp2x, area.left, area.right);
            point.cp2y = capControlPoint(point.cp2y, area.top, area.bottom);
        }
    }
}
/**
 * @private
 */ function _updateBezierControlPoints(points, options, area, loop, indexAxis) {
    let i, ilen, point, controlPoints;
    // Only consider points that are drawn in case the spanGaps option is used
    if (options.spanGaps) {
        points = points.filter((pt)=>!pt.skip);
    }
    if (options.cubicInterpolationMode === 'monotone') {
        splineCurveMonotone(points, indexAxis);
    } else {
        let prev = loop ? points[points.length - 1] : points[0];
        for(i = 0, ilen = points.length; i < ilen; ++i){
            point = points[i];
            controlPoints = splineCurve(prev, point, points[Math.min(i + 1, ilen - (loop ? 0 : 1)) % ilen], options.tension);
            point.cp1x = controlPoints.previous.x;
            point.cp1y = controlPoints.previous.y;
            point.cp2x = controlPoints.next.x;
            point.cp2y = controlPoints.next.y;
            prev = point;
        }
    }
    if (options.capBezierPoints) {
        capBezierPoints(points, area);
    }
}

/**
 * @private
 */ function _isDomSupported() {
    return typeof window !== 'undefined' && typeof document !== 'undefined';
}
/**
 * @private
 */ function _getParentNode(domNode) {
    let parent = domNode.parentNode;
    if (parent && parent.toString() === '[object ShadowRoot]') {
        parent = parent.host;
    }
    return parent;
}
/**
 * convert max-width/max-height values that may be percentages into a number
 * @private
 */ function parseMaxStyle(styleValue, node, parentProperty) {
    let valueInPixels;
    if (typeof styleValue === 'string') {
        valueInPixels = parseInt(styleValue, 10);
        if (styleValue.indexOf('%') !== -1) {
            // percentage * size in dimension
            valueInPixels = valueInPixels / 100 * node.parentNode[parentProperty];
        }
    } else {
        valueInPixels = styleValue;
    }
    return valueInPixels;
}
const getComputedStyle = (element)=>element.ownerDocument.defaultView.getComputedStyle(element, null);
function getStyle(el, property) {
    return getComputedStyle(el).getPropertyValue(property);
}
const positions = [
    'top',
    'right',
    'bottom',
    'left'
];
function getPositionedStyle(styles, style, suffix) {
    const result = {};
    suffix = suffix ? '-' + suffix : '';
    for(let i = 0; i < 4; i++){
        const pos = positions[i];
        result[pos] = parseFloat(styles[style + '-' + pos + suffix]) || 0;
    }
    result.width = result.left + result.right;
    result.height = result.top + result.bottom;
    return result;
}
const useOffsetPos = (x, y, target)=>(x > 0 || y > 0) && (!target || !target.shadowRoot);
/**
 * @param e
 * @param canvas
 * @returns Canvas position
 */ function getCanvasPosition(e, canvas) {
    const touches = e.touches;
    const source = touches && touches.length ? touches[0] : e;
    const { offsetX , offsetY  } = source;
    let box = false;
    let x, y;
    if (useOffsetPos(offsetX, offsetY, e.target)) {
        x = offsetX;
        y = offsetY;
    } else {
        const rect = canvas.getBoundingClientRect();
        x = source.clientX - rect.left;
        y = source.clientY - rect.top;
        box = true;
    }
    return {
        x,
        y,
        box
    };
}
/**
 * Gets an event's x, y coordinates, relative to the chart area
 * @param event
 * @param chart
 * @returns x and y coordinates of the event
 */ function getRelativePosition(event, chart) {
    if ('native' in event) {
        return event;
    }
    const { canvas , currentDevicePixelRatio  } = chart;
    const style = getComputedStyle(canvas);
    const borderBox = style.boxSizing === 'border-box';
    const paddings = getPositionedStyle(style, 'padding');
    const borders = getPositionedStyle(style, 'border', 'width');
    const { x , y , box  } = getCanvasPosition(event, canvas);
    const xOffset = paddings.left + (box && borders.left);
    const yOffset = paddings.top + (box && borders.top);
    let { width , height  } = chart;
    if (borderBox) {
        width -= paddings.width + borders.width;
        height -= paddings.height + borders.height;
    }
    return {
        x: Math.round((x - xOffset) / width * canvas.width / currentDevicePixelRatio),
        y: Math.round((y - yOffset) / height * canvas.height / currentDevicePixelRatio)
    };
}
function getContainerSize(canvas, width, height) {
    let maxWidth, maxHeight;
    if (width === undefined || height === undefined) {
        const container = canvas && _getParentNode(canvas);
        if (!container) {
            width = canvas.clientWidth;
            height = canvas.clientHeight;
        } else {
            const rect = container.getBoundingClientRect(); // this is the border box of the container
            const containerStyle = getComputedStyle(container);
            const containerBorder = getPositionedStyle(containerStyle, 'border', 'width');
            const containerPadding = getPositionedStyle(containerStyle, 'padding');
            width = rect.width - containerPadding.width - containerBorder.width;
            height = rect.height - containerPadding.height - containerBorder.height;
            maxWidth = parseMaxStyle(containerStyle.maxWidth, container, 'clientWidth');
            maxHeight = parseMaxStyle(containerStyle.maxHeight, container, 'clientHeight');
        }
    }
    return {
        width,
        height,
        maxWidth: maxWidth || INFINITY,
        maxHeight: maxHeight || INFINITY
    };
}
const round1 = (v)=>Math.round(v * 10) / 10;
// eslint-disable-next-line complexity
function getMaximumSize(canvas, bbWidth, bbHeight, aspectRatio) {
    const style = getComputedStyle(canvas);
    const margins = getPositionedStyle(style, 'margin');
    const maxWidth = parseMaxStyle(style.maxWidth, canvas, 'clientWidth') || INFINITY;
    const maxHeight = parseMaxStyle(style.maxHeight, canvas, 'clientHeight') || INFINITY;
    const containerSize = getContainerSize(canvas, bbWidth, bbHeight);
    let { width , height  } = containerSize;
    if (style.boxSizing === 'content-box') {
        const borders = getPositionedStyle(style, 'border', 'width');
        const paddings = getPositionedStyle(style, 'padding');
        width -= paddings.width + borders.width;
        height -= paddings.height + borders.height;
    }
    width = Math.max(0, width - margins.width);
    height = Math.max(0, aspectRatio ? width / aspectRatio : height - margins.height);
    width = round1(Math.min(width, maxWidth, containerSize.maxWidth));
    height = round1(Math.min(height, maxHeight, containerSize.maxHeight));
    if (width && !height) {
        // https://github.com/chartjs/Chart.js/issues/4659
        // If the canvas has width, but no height, default to aspectRatio of 2 (canvas default)
        height = round1(width / 2);
    }
    const maintainHeight = bbWidth !== undefined || bbHeight !== undefined;
    if (maintainHeight && aspectRatio && containerSize.height && height > containerSize.height) {
        height = containerSize.height;
        width = round1(Math.floor(height * aspectRatio));
    }
    return {
        width,
        height
    };
}
/**
 * @param chart
 * @param forceRatio
 * @param forceStyle
 * @returns True if the canvas context size or transformation has changed.
 */ function retinaScale(chart, forceRatio, forceStyle) {
    const pixelRatio = forceRatio || 1;
    const deviceHeight = Math.floor(chart.height * pixelRatio);
    const deviceWidth = Math.floor(chart.width * pixelRatio);
    chart.height = Math.floor(chart.height);
    chart.width = Math.floor(chart.width);
    const canvas = chart.canvas;
    // If no style has been set on the canvas, the render size is used as display size,
    // making the chart visually bigger, so let's enforce it to the "correct" values.
    // See https://github.com/chartjs/Chart.js/issues/3575
    if (canvas.style && (forceStyle || !canvas.style.height && !canvas.style.width)) {
        canvas.style.height = `${chart.height}px`;
        canvas.style.width = `${chart.width}px`;
    }
    if (chart.currentDevicePixelRatio !== pixelRatio || canvas.height !== deviceHeight || canvas.width !== deviceWidth) {
        chart.currentDevicePixelRatio = pixelRatio;
        canvas.height = deviceHeight;
        canvas.width = deviceWidth;
        chart.ctx.setTransform(pixelRatio, 0, 0, pixelRatio, 0, 0);
        return true;
    }
    return false;
}
/**
 * Detects support for options object argument in addEventListener.
 * https://developer.mozilla.org/en-US/docs/Web/API/EventTarget/addEventListener#Safely_detecting_option_support
 * @private
 */ const supportsEventListenerOptions = function() {
    let passiveSupported = false;
    try {
        const options = {
            get passive () {
                passiveSupported = true;
                return false;
            }
        };
        if (_isDomSupported()) {
            window.addEventListener('test', null, options);
            window.removeEventListener('test', null, options);
        }
    } catch (e) {
    // continue regardless of error
    }
    return passiveSupported;
}();
/**
 * The "used" size is the final value of a dimension property after all calculations have
 * been performed. This method uses the computed style of `element` but returns undefined
 * if the computed style is not expressed in pixels. That can happen in some cases where
 * `element` has a size relative to its parent and this last one is not yet displayed,
 * for example because of `display: none` on a parent node.
 * @see https://developer.mozilla.org/en-US/docs/Web/CSS/used_value
 * @returns Size in pixels or undefined if unknown.
 */ function readUsedSize(element, property) {
    const value = getStyle(element, property);
    const matches = value && value.match(/^(\d+)(\.\d+)?px$/);
    return matches ? +matches[1] : undefined;
}

/**
 * @private
 */ function _pointInLine(p1, p2, t, mode) {
    return {
        x: p1.x + t * (p2.x - p1.x),
        y: p1.y + t * (p2.y - p1.y)
    };
}
/**
 * @private
 */ function _steppedInterpolation(p1, p2, t, mode) {
    return {
        x: p1.x + t * (p2.x - p1.x),
        y: mode === 'middle' ? t < 0.5 ? p1.y : p2.y : mode === 'after' ? t < 1 ? p1.y : p2.y : t > 0 ? p2.y : p1.y
    };
}
/**
 * @private
 */ function _bezierInterpolation(p1, p2, t, mode) {
    const cp1 = {
        x: p1.cp2x,
        y: p1.cp2y
    };
    const cp2 = {
        x: p2.cp1x,
        y: p2.cp1y
    };
    const a = _pointInLine(p1, cp1, t);
    const b = _pointInLine(cp1, cp2, t);
    const c = _pointInLine(cp2, p2, t);
    const d = _pointInLine(a, b, t);
    const e = _pointInLine(b, c, t);
    return _pointInLine(d, e, t);
}

const getRightToLeftAdapter = function(rectX, width) {
    return {
        x (x) {
            return rectX + rectX + width - x;
        },
        setWidth (w) {
            width = w;
        },
        textAlign (align) {
            if (align === 'center') {
                return align;
            }
            return align === 'right' ? 'left' : 'right';
        },
        xPlus (x, value) {
            return x - value;
        },
        leftForLtr (x, itemWidth) {
            return x - itemWidth;
        }
    };
};
const getLeftToRightAdapter = function() {
    return {
        x (x) {
            return x;
        },
        setWidth (w) {},
        textAlign (align) {
            return align;
        },
        xPlus (x, value) {
            return x + value;
        },
        leftForLtr (x, _itemWidth) {
            return x;
        }
    };
};
function getRtlAdapter(rtl, rectX, width) {
    return rtl ? getRightToLeftAdapter(rectX, width) : getLeftToRightAdapter();
}
function overrideTextDirection(ctx, direction) {
    let style, original;
    if (direction === 'ltr' || direction === 'rtl') {
        style = ctx.canvas.style;
        original = [
            style.getPropertyValue('direction'),
            style.getPropertyPriority('direction')
        ];
        style.setProperty('direction', direction, 'important');
        ctx.prevTextDirection = original;
    }
}
function restoreTextDirection(ctx, original) {
    if (original !== undefined) {
        delete ctx.prevTextDirection;
        ctx.canvas.style.setProperty('direction', original[0], original[1]);
    }
}

function propertyFn(property) {
    if (property === 'angle') {
        return {
            between: _angleBetween,
            compare: _angleDiff,
            normalize: _normalizeAngle
        };
    }
    return {
        between: _isBetween,
        compare: (a, b)=>a - b,
        normalize: (x)=>x
    };
}
function normalizeSegment({ start , end , count , loop , style  }) {
    return {
        start: start % count,
        end: end % count,
        loop: loop && (end - start + 1) % count === 0,
        style
    };
}
function getSegment(segment, points, bounds) {
    const { property , start: startBound , end: endBound  } = bounds;
    const { between , normalize  } = propertyFn(property);
    const count = points.length;
    let { start , end , loop  } = segment;
    let i, ilen;
    if (loop) {
        start += count;
        end += count;
        for(i = 0, ilen = count; i < ilen; ++i){
            if (!between(normalize(points[start % count][property]), startBound, endBound)) {
                break;
            }
            start--;
            end--;
        }
        start %= count;
        end %= count;
    }
    if (end < start) {
        end += count;
    }
    return {
        start,
        end,
        loop,
        style: segment.style
    };
}
 function _boundSegment(segment, points, bounds) {
    if (!bounds) {
        return [
            segment
        ];
    }
    const { property , start: startBound , end: endBound  } = bounds;
    const count = points.length;
    const { compare , between , normalize  } = propertyFn(property);
    const { start , end , loop , style  } = getSegment(segment, points, bounds);
    const result = [];
    let inside = false;
    let subStart = null;
    let value, point, prevValue;
    const startIsBefore = ()=>between(startBound, prevValue, value) && compare(startBound, prevValue) !== 0;
    const endIsBefore = ()=>compare(endBound, value) === 0 || between(endBound, prevValue, value);
    const shouldStart = ()=>inside || startIsBefore();
    const shouldStop = ()=>!inside || endIsBefore();
    for(let i = start, prev = start; i <= end; ++i){
        point = points[i % count];
        if (point.skip) {
            continue;
        }
        value = normalize(point[property]);
        if (value === prevValue) {
            continue;
        }
        inside = between(value, startBound, endBound);
        if (subStart === null && shouldStart()) {
            subStart = compare(value, startBound) === 0 ? i : prev;
        }
        if (subStart !== null && shouldStop()) {
            result.push(normalizeSegment({
                start: subStart,
                end: i,
                loop,
                count,
                style
            }));
            subStart = null;
        }
        prev = i;
        prevValue = value;
    }
    if (subStart !== null) {
        result.push(normalizeSegment({
            start: subStart,
            end,
            loop,
            count,
            style
        }));
    }
    return result;
}
 function _boundSegments(line, bounds) {
    const result = [];
    const segments = line.segments;
    for(let i = 0; i < segments.length; i++){
        const sub = _boundSegment(segments[i], line.points, bounds);
        if (sub.length) {
            result.push(...sub);
        }
    }
    return result;
}
 function findStartAndEnd(points, count, loop, spanGaps) {
    let start = 0;
    let end = count - 1;
    if (loop && !spanGaps) {
        while(start < count && !points[start].skip){
            start++;
        }
    }
    while(start < count && points[start].skip){
        start++;
    }
    start %= count;
    if (loop) {
        end += start;
    }
    while(end > start && points[end % count].skip){
        end--;
    }
    end %= count;
    return {
        start,
        end
    };
}
 function solidSegments(points, start, max, loop) {
    const count = points.length;
    const result = [];
    let last = start;
    let prev = points[start];
    let end;
    for(end = start + 1; end <= max; ++end){
        const cur = points[end % count];
        if (cur.skip || cur.stop) {
            if (!prev.skip) {
                loop = false;
                result.push({
                    start: start % count,
                    end: (end - 1) % count,
                    loop
                });
                start = last = cur.stop ? end : null;
            }
        } else {
            last = end;
            if (prev.skip) {
                start = end;
            }
        }
        prev = cur;
    }
    if (last !== null) {
        result.push({
            start: start % count,
            end: last % count,
            loop
        });
    }
    return result;
}
 function _computeSegments(line, segmentOptions) {
    const points = line.points;
    const spanGaps = line.options.spanGaps;
    const count = points.length;
    if (!count) {
        return [];
    }
    const loop = !!line._loop;
    const { start , end  } = findStartAndEnd(points, count, loop, spanGaps);
    if (spanGaps === true) {
        return splitByStyles(line, [
            {
                start,
                end,
                loop
            }
        ], points, segmentOptions);
    }
    const max = end < start ? end + count : end;
    const completeLoop = !!line._fullLoop && start === 0 && end === count - 1;
    return splitByStyles(line, solidSegments(points, start, max, completeLoop), points, segmentOptions);
}
 function splitByStyles(line, segments, points, segmentOptions) {
    if (!segmentOptions || !segmentOptions.setContext || !points) {
        return segments;
    }
    return doSplitByStyles(line, segments, points, segmentOptions);
}
 function doSplitByStyles(line, segments, points, segmentOptions) {
    const chartContext = line._chart.getContext();
    const baseStyle = readStyle(line.options);
    const { _datasetIndex: datasetIndex , options: { spanGaps  }  } = line;
    const count = points.length;
    const result = [];
    let prevStyle = baseStyle;
    let start = segments[0].start;
    let i = start;
    function addStyle(s, e, l, st) {
        const dir = spanGaps ? -1 : 1;
        if (s === e) {
            return;
        }
        s += count;
        while(points[s % count].skip){
            s -= dir;
        }
        while(points[e % count].skip){
            e += dir;
        }
        if (s % count !== e % count) {
            result.push({
                start: s % count,
                end: e % count,
                loop: l,
                style: st
            });
            prevStyle = st;
            start = e % count;
        }
    }
    for (const segment of segments){
        start = spanGaps ? start : segment.start;
        let prev = points[start % count];
        let style;
        for(i = start + 1; i <= segment.end; i++){
            const pt = points[i % count];
            style = readStyle(segmentOptions.setContext(createContext(chartContext, {
                type: 'segment',
                p0: prev,
                p1: pt,
                p0DataIndex: (i - 1) % count,
                p1DataIndex: i % count,
                datasetIndex
            })));
            if (styleChanged(style, prevStyle)) {
                addStyle(start, i - 1, segment.loop, prevStyle);
            }
            prev = pt;
            prevStyle = style;
        }
        if (start < i - 1) {
            addStyle(start, i - 1, segment.loop, prevStyle);
        }
    }
    return result;
}
function readStyle(options) {
    return {
        backgroundColor: options.backgroundColor,
        borderCapStyle: options.borderCapStyle,
        borderDash: options.borderDash,
        borderDashOffset: options.borderDashOffset,
        borderJoinStyle: options.borderJoinStyle,
        borderWidth: options.borderWidth,
        borderColor: options.borderColor
    };
}
function styleChanged(style, prevStyle) {
    if (!prevStyle) {
        return false;
    }
    const cache = [];
    const replacer = function(key, value) {
        if (!isPatternOrGradient(value)) {
            return value;
        }
        if (!cache.includes(value)) {
            cache.push(value);
        }
        return cache.indexOf(value);
    };
    return JSON.stringify(style, replacer) !== JSON.stringify(prevStyle, replacer);
}

function getSizeForArea(scale, chartArea, field) {
    return scale.options.clip ? scale[field] : chartArea[field];
}
function getDatasetArea(meta, chartArea) {
    const { xScale , yScale  } = meta;
    if (xScale && yScale) {
        return {
            left: getSizeForArea(xScale, chartArea, 'left'),
            right: getSizeForArea(xScale, chartArea, 'right'),
            top: getSizeForArea(yScale, chartArea, 'top'),
            bottom: getSizeForArea(yScale, chartArea, 'bottom')
        };
    }
    return chartArea;
}
function getDatasetClipArea(chart, meta) {
    const clip = meta._clip;
    if (clip.disabled) {
        return false;
    }
    const area = getDatasetArea(meta, chart.chartArea);
    return {
        left: clip.left === false ? 0 : area.left - (clip.left === true ? 0 : clip.left),
        right: clip.right === false ? chart.width : area.right + (clip.right === true ? 0 : clip.right),
        top: clip.top === false ? 0 : area.top - (clip.top === true ? 0 : clip.top),
        bottom: clip.bottom === false ? chart.height : area.bottom + (clip.bottom === true ? 0 : clip.bottom)
    };
}


//# sourceMappingURL=helpers.dataset.js.map

;// CONCATENATED MODULE: ./node_modules/chart.js/dist/chart.js
/*!
 * Chart.js v4.5.0
 * https://www.chartjs.org
 * (c) 2025 Chart.js Contributors
 * Released under the MIT License
 */



class Animator {
    constructor(){
        this._request = null;
        this._charts = new Map();
        this._running = false;
        this._lastDate = undefined;
    }
 _notify(chart, anims, date, type) {
        const callbacks = anims.listeners[type];
        const numSteps = anims.duration;
        callbacks.forEach((fn)=>fn({
                chart,
                initial: anims.initial,
                numSteps,
                currentStep: Math.min(date - anims.start, numSteps)
            }));
    }
 _refresh() {
        if (this._request) {
            return;
        }
        this._running = true;
        this._request = requestAnimFrame.call(window, ()=>{
            this._update();
            this._request = null;
            if (this._running) {
                this._refresh();
            }
        });
    }
 _update(date = Date.now()) {
        let remaining = 0;
        this._charts.forEach((anims, chart)=>{
            if (!anims.running || !anims.items.length) {
                return;
            }
            const items = anims.items;
            let i = items.length - 1;
            let draw = false;
            let item;
            for(; i >= 0; --i){
                item = items[i];
                if (item._active) {
                    if (item._total > anims.duration) {
                        anims.duration = item._total;
                    }
                    item.tick(date);
                    draw = true;
                } else {
                    items[i] = items[items.length - 1];
                    items.pop();
                }
            }
            if (draw) {
                chart.draw();
                this._notify(chart, anims, date, 'progress');
            }
            if (!items.length) {
                anims.running = false;
                this._notify(chart, anims, date, 'complete');
                anims.initial = false;
            }
            remaining += items.length;
        });
        this._lastDate = date;
        if (remaining === 0) {
            this._running = false;
        }
    }
 _getAnims(chart) {
        const charts = this._charts;
        let anims = charts.get(chart);
        if (!anims) {
            anims = {
                running: false,
                initial: true,
                items: [],
                listeners: {
                    complete: [],
                    progress: []
                }
            };
            charts.set(chart, anims);
        }
        return anims;
    }
 listen(chart, event, cb) {
        this._getAnims(chart).listeners[event].push(cb);
    }
 add(chart, items) {
        if (!items || !items.length) {
            return;
        }
        this._getAnims(chart).items.push(...items);
    }
 has(chart) {
        return this._getAnims(chart).items.length > 0;
    }
 start(chart) {
        const anims = this._charts.get(chart);
        if (!anims) {
            return;
        }
        anims.running = true;
        anims.start = Date.now();
        anims.duration = anims.items.reduce((acc, cur)=>Math.max(acc, cur._duration), 0);
        this._refresh();
    }
    running(chart) {
        if (!this._running) {
            return false;
        }
        const anims = this._charts.get(chart);
        if (!anims || !anims.running || !anims.items.length) {
            return false;
        }
        return true;
    }
 stop(chart) {
        const anims = this._charts.get(chart);
        if (!anims || !anims.items.length) {
            return;
        }
        const items = anims.items;
        let i = items.length - 1;
        for(; i >= 0; --i){
            items[i].cancel();
        }
        anims.items = [];
        this._notify(chart, anims, Date.now(), 'complete');
    }
 remove(chart) {
        return this._charts.delete(chart);
    }
}
var animator = /* #__PURE__ */ new Animator();

const transparent = 'transparent';
const interpolators = {
    boolean (from, to, factor) {
        return factor > 0.5 ? to : from;
    },
 color (from, to, factor) {
        const c0 = color(from || transparent);
        const c1 = c0.valid && color(to || transparent);
        return c1 && c1.valid ? c1.mix(c0, factor).hexString() : to;
    },
    number (from, to, factor) {
        return from + (to - from) * factor;
    }
};
class Animation {
    constructor(cfg, target, prop, to){
        const currentValue = target[prop];
        to = resolve([
            cfg.to,
            to,
            currentValue,
            cfg.from
        ]);
        const from = resolve([
            cfg.from,
            currentValue,
            to
        ]);
        this._active = true;
        this._fn = cfg.fn || interpolators[cfg.type || typeof from];
        this._easing = effects[cfg.easing] || effects.linear;
        this._start = Math.floor(Date.now() + (cfg.delay || 0));
        this._duration = this._total = Math.floor(cfg.duration);
        this._loop = !!cfg.loop;
        this._target = target;
        this._prop = prop;
        this._from = from;
        this._to = to;
        this._promises = undefined;
    }
    active() {
        return this._active;
    }
    update(cfg, to, date) {
        if (this._active) {
            this._notify(false);
            const currentValue = this._target[this._prop];
            const elapsed = date - this._start;
            const remain = this._duration - elapsed;
            this._start = date;
            this._duration = Math.floor(Math.max(remain, cfg.duration));
            this._total += elapsed;
            this._loop = !!cfg.loop;
            this._to = resolve([
                cfg.to,
                to,
                currentValue,
                cfg.from
            ]);
            this._from = resolve([
                cfg.from,
                currentValue,
                to
            ]);
        }
    }
    cancel() {
        if (this._active) {
            this.tick(Date.now());
            this._active = false;
            this._notify(false);
        }
    }
    tick(date) {
        const elapsed = date - this._start;
        const duration = this._duration;
        const prop = this._prop;
        const from = this._from;
        const loop = this._loop;
        const to = this._to;
        let factor;
        this._active = from !== to && (loop || elapsed < duration);
        if (!this._active) {
            this._target[prop] = to;
            this._notify(true);
            return;
        }
        if (elapsed < 0) {
            this._target[prop] = from;
            return;
        }
        factor = elapsed / duration % 2;
        factor = loop && factor > 1 ? 2 - factor : factor;
        factor = this._easing(Math.min(1, Math.max(0, factor)));
        this._target[prop] = this._fn(from, to, factor);
    }
    wait() {
        const promises = this._promises || (this._promises = []);
        return new Promise((res, rej)=>{
            promises.push({
                res,
                rej
            });
        });
    }
    _notify(resolved) {
        const method = resolved ? 'res' : 'rej';
        const promises = this._promises || [];
        for(let i = 0; i < promises.length; i++){
            promises[i][method]();
        }
    }
}

class Animations {
    constructor(chart, config){
        this._chart = chart;
        this._properties = new Map();
        this.configure(config);
    }
    configure(config) {
        if (!isObject(config)) {
            return;
        }
        const animationOptions = Object.keys(defaults.animation);
        const animatedProps = this._properties;
        Object.getOwnPropertyNames(config).forEach((key)=>{
            const cfg = config[key];
            if (!isObject(cfg)) {
                return;
            }
            const resolved = {};
            for (const option of animationOptions){
                resolved[option] = cfg[option];
            }
            (isArray(cfg.properties) && cfg.properties || [
                key
            ]).forEach((prop)=>{
                if (prop === key || !animatedProps.has(prop)) {
                    animatedProps.set(prop, resolved);
                }
            });
        });
    }
 _animateOptions(target, values) {
        const newOptions = values.options;
        const options = resolveTargetOptions(target, newOptions);
        if (!options) {
            return [];
        }
        const animations = this._createAnimations(options, newOptions);
        if (newOptions.$shared) {
            awaitAll(target.options.$animations, newOptions).then(()=>{
                target.options = newOptions;
            }, ()=>{
            });
        }
        return animations;
    }
 _createAnimations(target, values) {
        const animatedProps = this._properties;
        const animations = [];
        const running = target.$animations || (target.$animations = {});
        const props = Object.keys(values);
        const date = Date.now();
        let i;
        for(i = props.length - 1; i >= 0; --i){
            const prop = props[i];
            if (prop.charAt(0) === '$') {
                continue;
            }
            if (prop === 'options') {
                animations.push(...this._animateOptions(target, values));
                continue;
            }
            const value = values[prop];
            let animation = running[prop];
            const cfg = animatedProps.get(prop);
            if (animation) {
                if (cfg && animation.active()) {
                    animation.update(cfg, value, date);
                    continue;
                } else {
                    animation.cancel();
                }
            }
            if (!cfg || !cfg.duration) {
                target[prop] = value;
                continue;
            }
            running[prop] = animation = new Animation(cfg, target, prop, value);
            animations.push(animation);
        }
        return animations;
    }
 update(target, values) {
        if (this._properties.size === 0) {
            Object.assign(target, values);
            return;
        }
        const animations = this._createAnimations(target, values);
        if (animations.length) {
            animator.add(this._chart, animations);
            return true;
        }
    }
}
function awaitAll(animations, properties) {
    const running = [];
    const keys = Object.keys(properties);
    for(let i = 0; i < keys.length; i++){
        const anim = animations[keys[i]];
        if (anim && anim.active()) {
            running.push(anim.wait());
        }
    }
    return Promise.all(running);
}
function resolveTargetOptions(target, newOptions) {
    if (!newOptions) {
        return;
    }
    let options = target.options;
    if (!options) {
        target.options = newOptions;
        return;
    }
    if (options.$shared) {
        target.options = options = Object.assign({}, options, {
            $shared: false,
            $animations: {}
        });
    }
    return options;
}

function scaleClip(scale, allowedOverflow) {
    const opts = scale && scale.options || {};
    const reverse = opts.reverse;
    const min = opts.min === undefined ? allowedOverflow : 0;
    const max = opts.max === undefined ? allowedOverflow : 0;
    return {
        start: reverse ? max : min,
        end: reverse ? min : max
    };
}
function defaultClip(xScale, yScale, allowedOverflow) {
    if (allowedOverflow === false) {
        return false;
    }
    const x = scaleClip(xScale, allowedOverflow);
    const y = scaleClip(yScale, allowedOverflow);
    return {
        top: y.end,
        right: x.end,
        bottom: y.start,
        left: x.start
    };
}
function toClip(value) {
    let t, r, b, l;
    if (isObject(value)) {
        t = value.top;
        r = value.right;
        b = value.bottom;
        l = value.left;
    } else {
        t = r = b = l = value;
    }
    return {
        top: t,
        right: r,
        bottom: b,
        left: l,
        disabled: value === false
    };
}
function getSortedDatasetIndices(chart, filterVisible) {
    const keys = [];
    const metasets = chart._getSortedDatasetMetas(filterVisible);
    let i, ilen;
    for(i = 0, ilen = metasets.length; i < ilen; ++i){
        keys.push(metasets[i].index);
    }
    return keys;
}
function applyStack(stack, value, dsIndex, options = {}) {
    const keys = stack.keys;
    const singleMode = options.mode === 'single';
    let i, ilen, datasetIndex, otherValue;
    if (value === null) {
        return;
    }
    let found = false;
    for(i = 0, ilen = keys.length; i < ilen; ++i){
        datasetIndex = +keys[i];
        if (datasetIndex === dsIndex) {
            found = true;
            if (options.all) {
                continue;
            }
            break;
        }
        otherValue = stack.values[datasetIndex];
        if (isNumberFinite(otherValue) && (singleMode || value === 0 || sign(value) === sign(otherValue))) {
            value += otherValue;
        }
    }
    if (!found && !options.all) {
        return 0;
    }
    return value;
}
function convertObjectDataToArray(data, meta) {
    const { iScale , vScale  } = meta;
    const iAxisKey = iScale.axis === 'x' ? 'x' : 'y';
    const vAxisKey = vScale.axis === 'x' ? 'x' : 'y';
    const keys = Object.keys(data);
    const adata = new Array(keys.length);
    let i, ilen, key;
    for(i = 0, ilen = keys.length; i < ilen; ++i){
        key = keys[i];
        adata[i] = {
            [iAxisKey]: key,
            [vAxisKey]: data[key]
        };
    }
    return adata;
}
function isStacked(scale, meta) {
    const stacked = scale && scale.options.stacked;
    return stacked || stacked === undefined && meta.stack !== undefined;
}
function getStackKey(indexScale, valueScale, meta) {
    return `${indexScale.id}.${valueScale.id}.${meta.stack || meta.type}`;
}
function getUserBounds(scale) {
    const { min , max , minDefined , maxDefined  } = scale.getUserBounds();
    return {
        min: minDefined ? min : Number.NEGATIVE_INFINITY,
        max: maxDefined ? max : Number.POSITIVE_INFINITY
    };
}
function getOrCreateStack(stacks, stackKey, indexValue) {
    const subStack = stacks[stackKey] || (stacks[stackKey] = {});
    return subStack[indexValue] || (subStack[indexValue] = {});
}
function getLastIndexInStack(stack, vScale, positive, type) {
    for (const meta of vScale.getMatchingVisibleMetas(type).reverse()){
        const value = stack[meta.index];
        if (positive && value > 0 || !positive && value < 0) {
            return meta.index;
        }
    }
    return null;
}
function updateStacks(controller, parsed) {
    const { chart , _cachedMeta: meta  } = controller;
    const stacks = chart._stacks || (chart._stacks = {});
    const { iScale , vScale , index: datasetIndex  } = meta;
    const iAxis = iScale.axis;
    const vAxis = vScale.axis;
    const key = getStackKey(iScale, vScale, meta);
    const ilen = parsed.length;
    let stack;
    for(let i = 0; i < ilen; ++i){
        const item = parsed[i];
        const { [iAxis]: index , [vAxis]: value  } = item;
        const itemStacks = item._stacks || (item._stacks = {});
        stack = itemStacks[vAxis] = getOrCreateStack(stacks, key, index);
        stack[datasetIndex] = value;
        stack._top = getLastIndexInStack(stack, vScale, true, meta.type);
        stack._bottom = getLastIndexInStack(stack, vScale, false, meta.type);
        const visualValues = stack._visualValues || (stack._visualValues = {});
        visualValues[datasetIndex] = value;
    }
}
function getFirstScaleId(chart, axis) {
    const scales = chart.scales;
    return Object.keys(scales).filter((key)=>scales[key].axis === axis).shift();
}
function createDatasetContext(parent, index) {
    return createContext(parent, {
        active: false,
        dataset: undefined,
        datasetIndex: index,
        index,
        mode: 'default',
        type: 'dataset'
    });
}
function createDataContext(parent, index, element) {
    return createContext(parent, {
        active: false,
        dataIndex: index,
        parsed: undefined,
        raw: undefined,
        element,
        index,
        mode: 'default',
        type: 'data'
    });
}
function clearStacks(meta, items) {
    const datasetIndex = meta.controller.index;
    const axis = meta.vScale && meta.vScale.axis;
    if (!axis) {
        return;
    }
    items = items || meta._parsed;
    for (const parsed of items){
        const stacks = parsed._stacks;
        if (!stacks || stacks[axis] === undefined || stacks[axis][datasetIndex] === undefined) {
            return;
        }
        delete stacks[axis][datasetIndex];
        if (stacks[axis]._visualValues !== undefined && stacks[axis]._visualValues[datasetIndex] !== undefined) {
            delete stacks[axis]._visualValues[datasetIndex];
        }
    }
}
const isDirectUpdateMode = (mode)=>mode === 'reset' || mode === 'none';
const cloneIfNotShared = (cached, shared)=>shared ? cached : Object.assign({}, cached);
const createStack = (canStack, meta, chart)=>canStack && !meta.hidden && meta._stacked && {
        keys: getSortedDatasetIndices(chart, true),
        values: null
    };
class DatasetController {
 static defaults = {};
 static datasetElementType = null;
 static dataElementType = null;
 constructor(chart, datasetIndex){
        this.chart = chart;
        this._ctx = chart.ctx;
        this.index = datasetIndex;
        this._cachedDataOpts = {};
        this._cachedMeta = this.getMeta();
        this._type = this._cachedMeta.type;
        this.options = undefined;
         this._parsing = false;
        this._data = undefined;
        this._objectData = undefined;
        this._sharedOptions = undefined;
        this._drawStart = undefined;
        this._drawCount = undefined;
        this.enableOptionSharing = false;
        this.supportsDecimation = false;
        this.$context = undefined;
        this._syncList = [];
        this.datasetElementType = new.target.datasetElementType;
        this.dataElementType = new.target.dataElementType;
        this.initialize();
    }
    initialize() {
        const meta = this._cachedMeta;
        this.configure();
        this.linkScales();
        meta._stacked = isStacked(meta.vScale, meta);
        this.addElements();
        if (this.options.fill && !this.chart.isPluginEnabled('filler')) {
            console.warn("Tried to use the 'fill' option without the 'Filler' plugin enabled. Please import and register the 'Filler' plugin and make sure it is not disabled in the options");
        }
    }
    updateIndex(datasetIndex) {
        if (this.index !== datasetIndex) {
            clearStacks(this._cachedMeta);
        }
        this.index = datasetIndex;
    }
    linkScales() {
        const chart = this.chart;
        const meta = this._cachedMeta;
        const dataset = this.getDataset();
        const chooseId = (axis, x, y, r)=>axis === 'x' ? x : axis === 'r' ? r : y;
        const xid = meta.xAxisID = valueOrDefault(dataset.xAxisID, getFirstScaleId(chart, 'x'));
        const yid = meta.yAxisID = valueOrDefault(dataset.yAxisID, getFirstScaleId(chart, 'y'));
        const rid = meta.rAxisID = valueOrDefault(dataset.rAxisID, getFirstScaleId(chart, 'r'));
        const indexAxis = meta.indexAxis;
        const iid = meta.iAxisID = chooseId(indexAxis, xid, yid, rid);
        const vid = meta.vAxisID = chooseId(indexAxis, yid, xid, rid);
        meta.xScale = this.getScaleForId(xid);
        meta.yScale = this.getScaleForId(yid);
        meta.rScale = this.getScaleForId(rid);
        meta.iScale = this.getScaleForId(iid);
        meta.vScale = this.getScaleForId(vid);
    }
    getDataset() {
        return this.chart.data.datasets[this.index];
    }
    getMeta() {
        return this.chart.getDatasetMeta(this.index);
    }
 getScaleForId(scaleID) {
        return this.chart.scales[scaleID];
    }
 _getOtherScale(scale) {
        const meta = this._cachedMeta;
        return scale === meta.iScale ? meta.vScale : meta.iScale;
    }
    reset() {
        this._update('reset');
    }
 _destroy() {
        const meta = this._cachedMeta;
        if (this._data) {
            unlistenArrayEvents(this._data, this);
        }
        if (meta._stacked) {
            clearStacks(meta);
        }
    }
 _dataCheck() {
        const dataset = this.getDataset();
        const data = dataset.data || (dataset.data = []);
        const _data = this._data;
        if (isObject(data)) {
            const meta = this._cachedMeta;
            this._data = convertObjectDataToArray(data, meta);
        } else if (_data !== data) {
            if (_data) {
                unlistenArrayEvents(_data, this);
                const meta = this._cachedMeta;
                clearStacks(meta);
                meta._parsed = [];
            }
            if (data && Object.isExtensible(data)) {
                listenArrayEvents(data, this);
            }
            this._syncList = [];
            this._data = data;
        }
    }
    addElements() {
        const meta = this._cachedMeta;
        this._dataCheck();
        if (this.datasetElementType) {
            meta.dataset = new this.datasetElementType();
        }
    }
    buildOrUpdateElements(resetNewElements) {
        const meta = this._cachedMeta;
        const dataset = this.getDataset();
        let stackChanged = false;
        this._dataCheck();
        const oldStacked = meta._stacked;
        meta._stacked = isStacked(meta.vScale, meta);
        if (meta.stack !== dataset.stack) {
            stackChanged = true;
            clearStacks(meta);
            meta.stack = dataset.stack;
        }
        this._resyncElements(resetNewElements);
        if (stackChanged || oldStacked !== meta._stacked) {
            updateStacks(this, meta._parsed);
            meta._stacked = isStacked(meta.vScale, meta);
        }
    }
 configure() {
        const config = this.chart.config;
        const scopeKeys = config.datasetScopeKeys(this._type);
        const scopes = config.getOptionScopes(this.getDataset(), scopeKeys, true);
        this.options = config.createResolver(scopes, this.getContext());
        this._parsing = this.options.parsing;
        this._cachedDataOpts = {};
    }
 parse(start, count) {
        const { _cachedMeta: meta , _data: data  } = this;
        const { iScale , _stacked  } = meta;
        const iAxis = iScale.axis;
        let sorted = start === 0 && count === data.length ? true : meta._sorted;
        let prev = start > 0 && meta._parsed[start - 1];
        let i, cur, parsed;
        if (this._parsing === false) {
            meta._parsed = data;
            meta._sorted = true;
            parsed = data;
        } else {
            if (isArray(data[start])) {
                parsed = this.parseArrayData(meta, data, start, count);
            } else if (isObject(data[start])) {
                parsed = this.parseObjectData(meta, data, start, count);
            } else {
                parsed = this.parsePrimitiveData(meta, data, start, count);
            }
            const isNotInOrderComparedToPrev = ()=>cur[iAxis] === null || prev && cur[iAxis] < prev[iAxis];
            for(i = 0; i < count; ++i){
                meta._parsed[i + start] = cur = parsed[i];
                if (sorted) {
                    if (isNotInOrderComparedToPrev()) {
                        sorted = false;
                    }
                    prev = cur;
                }
            }
            meta._sorted = sorted;
        }
        if (_stacked) {
            updateStacks(this, parsed);
        }
    }
 parsePrimitiveData(meta, data, start, count) {
        const { iScale , vScale  } = meta;
        const iAxis = iScale.axis;
        const vAxis = vScale.axis;
        const labels = iScale.getLabels();
        const singleScale = iScale === vScale;
        const parsed = new Array(count);
        let i, ilen, index;
        for(i = 0, ilen = count; i < ilen; ++i){
            index = i + start;
            parsed[i] = {
                [iAxis]: singleScale || iScale.parse(labels[index], index),
                [vAxis]: vScale.parse(data[index], index)
            };
        }
        return parsed;
    }
 parseArrayData(meta, data, start, count) {
        const { xScale , yScale  } = meta;
        const parsed = new Array(count);
        let i, ilen, index, item;
        for(i = 0, ilen = count; i < ilen; ++i){
            index = i + start;
            item = data[index];
            parsed[i] = {
                x: xScale.parse(item[0], index),
                y: yScale.parse(item[1], index)
            };
        }
        return parsed;
    }
 parseObjectData(meta, data, start, count) {
        const { xScale , yScale  } = meta;
        const { xAxisKey ='x' , yAxisKey ='y'  } = this._parsing;
        const parsed = new Array(count);
        let i, ilen, index, item;
        for(i = 0, ilen = count; i < ilen; ++i){
            index = i + start;
            item = data[index];
            parsed[i] = {
                x: xScale.parse(resolveObjectKey(item, xAxisKey), index),
                y: yScale.parse(resolveObjectKey(item, yAxisKey), index)
            };
        }
        return parsed;
    }
 getParsed(index) {
        return this._cachedMeta._parsed[index];
    }
 getDataElement(index) {
        return this._cachedMeta.data[index];
    }
 applyStack(scale, parsed, mode) {
        const chart = this.chart;
        const meta = this._cachedMeta;
        const value = parsed[scale.axis];
        const stack = {
            keys: getSortedDatasetIndices(chart, true),
            values: parsed._stacks[scale.axis]._visualValues
        };
        return applyStack(stack, value, meta.index, {
            mode
        });
    }
 updateRangeFromParsed(range, scale, parsed, stack) {
        const parsedValue = parsed[scale.axis];
        let value = parsedValue === null ? NaN : parsedValue;
        const values = stack && parsed._stacks[scale.axis];
        if (stack && values) {
            stack.values = values;
            value = applyStack(stack, parsedValue, this._cachedMeta.index);
        }
        range.min = Math.min(range.min, value);
        range.max = Math.max(range.max, value);
    }
 getMinMax(scale, canStack) {
        const meta = this._cachedMeta;
        const _parsed = meta._parsed;
        const sorted = meta._sorted && scale === meta.iScale;
        const ilen = _parsed.length;
        const otherScale = this._getOtherScale(scale);
        const stack = createStack(canStack, meta, this.chart);
        const range = {
            min: Number.POSITIVE_INFINITY,
            max: Number.NEGATIVE_INFINITY
        };
        const { min: otherMin , max: otherMax  } = getUserBounds(otherScale);
        let i, parsed;
        function _skip() {
            parsed = _parsed[i];
            const otherValue = parsed[otherScale.axis];
            return !isNumberFinite(parsed[scale.axis]) || otherMin > otherValue || otherMax < otherValue;
        }
        for(i = 0; i < ilen; ++i){
            if (_skip()) {
                continue;
            }
            this.updateRangeFromParsed(range, scale, parsed, stack);
            if (sorted) {
                break;
            }
        }
        if (sorted) {
            for(i = ilen - 1; i >= 0; --i){
                if (_skip()) {
                    continue;
                }
                this.updateRangeFromParsed(range, scale, parsed, stack);
                break;
            }
        }
        return range;
    }
    getAllParsedValues(scale) {
        const parsed = this._cachedMeta._parsed;
        const values = [];
        let i, ilen, value;
        for(i = 0, ilen = parsed.length; i < ilen; ++i){
            value = parsed[i][scale.axis];
            if (isNumberFinite(value)) {
                values.push(value);
            }
        }
        return values;
    }
 getMaxOverflow() {
        return false;
    }
 getLabelAndValue(index) {
        const meta = this._cachedMeta;
        const iScale = meta.iScale;
        const vScale = meta.vScale;
        const parsed = this.getParsed(index);
        return {
            label: iScale ? '' + iScale.getLabelForValue(parsed[iScale.axis]) : '',
            value: vScale ? '' + vScale.getLabelForValue(parsed[vScale.axis]) : ''
        };
    }
 _update(mode) {
        const meta = this._cachedMeta;
        this.update(mode || 'default');
        meta._clip = toClip(valueOrDefault(this.options.clip, defaultClip(meta.xScale, meta.yScale, this.getMaxOverflow())));
    }
 update(mode) {}
    draw() {
        const ctx = this._ctx;
        const chart = this.chart;
        const meta = this._cachedMeta;
        const elements = meta.data || [];
        const area = chart.chartArea;
        const active = [];
        const start = this._drawStart || 0;
        const count = this._drawCount || elements.length - start;
        const drawActiveElementsOnTop = this.options.drawActiveElementsOnTop;
        let i;
        if (meta.dataset) {
            meta.dataset.draw(ctx, area, start, count);
        }
        for(i = start; i < start + count; ++i){
            const element = elements[i];
            if (element.hidden) {
                continue;
            }
            if (element.active && drawActiveElementsOnTop) {
                active.push(element);
            } else {
                element.draw(ctx, area);
            }
        }
        for(i = 0; i < active.length; ++i){
            active[i].draw(ctx, area);
        }
    }
 getStyle(index, active) {
        const mode = active ? 'active' : 'default';
        return index === undefined && this._cachedMeta.dataset ? this.resolveDatasetElementOptions(mode) : this.resolveDataElementOptions(index || 0, mode);
    }
 getContext(index, active, mode) {
        const dataset = this.getDataset();
        let context;
        if (index >= 0 && index < this._cachedMeta.data.length) {
            const element = this._cachedMeta.data[index];
            context = element.$context || (element.$context = createDataContext(this.getContext(), index, element));
            context.parsed = this.getParsed(index);
            context.raw = dataset.data[index];
            context.index = context.dataIndex = index;
        } else {
            context = this.$context || (this.$context = createDatasetContext(this.chart.getContext(), this.index));
            context.dataset = dataset;
            context.index = context.datasetIndex = this.index;
        }
        context.active = !!active;
        context.mode = mode;
        return context;
    }
 resolveDatasetElementOptions(mode) {
        return this._resolveElementOptions(this.datasetElementType.id, mode);
    }
 resolveDataElementOptions(index, mode) {
        return this._resolveElementOptions(this.dataElementType.id, mode, index);
    }
 _resolveElementOptions(elementType, mode = 'default', index) {
        const active = mode === 'active';
        const cache = this._cachedDataOpts;
        const cacheKey = elementType + '-' + mode;
        const cached = cache[cacheKey];
        const sharing = this.enableOptionSharing && defined(index);
        if (cached) {
            return cloneIfNotShared(cached, sharing);
        }
        const config = this.chart.config;
        const scopeKeys = config.datasetElementScopeKeys(this._type, elementType);
        const prefixes = active ? [
            `${elementType}Hover`,
            'hover',
            elementType,
            ''
        ] : [
            elementType,
            ''
        ];
        const scopes = config.getOptionScopes(this.getDataset(), scopeKeys);
        const names = Object.keys(defaults.elements[elementType]);
        const context = ()=>this.getContext(index, active, mode);
        const values = config.resolveNamedOptions(scopes, names, context, prefixes);
        if (values.$shared) {
            values.$shared = sharing;
            cache[cacheKey] = Object.freeze(cloneIfNotShared(values, sharing));
        }
        return values;
    }
 _resolveAnimations(index, transition, active) {
        const chart = this.chart;
        const cache = this._cachedDataOpts;
        const cacheKey = `animation-${transition}`;
        const cached = cache[cacheKey];
        if (cached) {
            return cached;
        }
        let options;
        if (chart.options.animation !== false) {
            const config = this.chart.config;
            const scopeKeys = config.datasetAnimationScopeKeys(this._type, transition);
            const scopes = config.getOptionScopes(this.getDataset(), scopeKeys);
            options = config.createResolver(scopes, this.getContext(index, active, transition));
        }
        const animations = new Animations(chart, options && options.animations);
        if (options && options._cacheable) {
            cache[cacheKey] = Object.freeze(animations);
        }
        return animations;
    }
 getSharedOptions(options) {
        if (!options.$shared) {
            return;
        }
        return this._sharedOptions || (this._sharedOptions = Object.assign({}, options));
    }
 includeOptions(mode, sharedOptions) {
        return !sharedOptions || isDirectUpdateMode(mode) || this.chart._animationsDisabled;
    }
 _getSharedOptions(start, mode) {
        const firstOpts = this.resolveDataElementOptions(start, mode);
        const previouslySharedOptions = this._sharedOptions;
        const sharedOptions = this.getSharedOptions(firstOpts);
        const includeOptions = this.includeOptions(mode, sharedOptions) || sharedOptions !== previouslySharedOptions;
        this.updateSharedOptions(sharedOptions, mode, firstOpts);
        return {
            sharedOptions,
            includeOptions
        };
    }
 updateElement(element, index, properties, mode) {
        if (isDirectUpdateMode(mode)) {
            Object.assign(element, properties);
        } else {
            this._resolveAnimations(index, mode).update(element, properties);
        }
    }
 updateSharedOptions(sharedOptions, mode, newOptions) {
        if (sharedOptions && !isDirectUpdateMode(mode)) {
            this._resolveAnimations(undefined, mode).update(sharedOptions, newOptions);
        }
    }
 _setStyle(element, index, mode, active) {
        element.active = active;
        const options = this.getStyle(index, active);
        this._resolveAnimations(index, mode, active).update(element, {
            options: !active && this.getSharedOptions(options) || options
        });
    }
    removeHoverStyle(element, datasetIndex, index) {
        this._setStyle(element, index, 'active', false);
    }
    setHoverStyle(element, datasetIndex, index) {
        this._setStyle(element, index, 'active', true);
    }
 _removeDatasetHoverStyle() {
        const element = this._cachedMeta.dataset;
        if (element) {
            this._setStyle(element, undefined, 'active', false);
        }
    }
 _setDatasetHoverStyle() {
        const element = this._cachedMeta.dataset;
        if (element) {
            this._setStyle(element, undefined, 'active', true);
        }
    }
 _resyncElements(resetNewElements) {
        const data = this._data;
        const elements = this._cachedMeta.data;
        for (const [method, arg1, arg2] of this._syncList){
            this[method](arg1, arg2);
        }
        this._syncList = [];
        const numMeta = elements.length;
        const numData = data.length;
        const count = Math.min(numData, numMeta);
        if (count) {
            this.parse(0, count);
        }
        if (numData > numMeta) {
            this._insertElements(numMeta, numData - numMeta, resetNewElements);
        } else if (numData < numMeta) {
            this._removeElements(numData, numMeta - numData);
        }
    }
 _insertElements(start, count, resetNewElements = true) {
        const meta = this._cachedMeta;
        const data = meta.data;
        const end = start + count;
        let i;
        const move = (arr)=>{
            arr.length += count;
            for(i = arr.length - 1; i >= end; i--){
                arr[i] = arr[i - count];
            }
        };
        move(data);
        for(i = start; i < end; ++i){
            data[i] = new this.dataElementType();
        }
        if (this._parsing) {
            move(meta._parsed);
        }
        this.parse(start, count);
        if (resetNewElements) {
            this.updateElements(data, start, count, 'reset');
        }
    }
    updateElements(element, start, count, mode) {}
 _removeElements(start, count) {
        const meta = this._cachedMeta;
        if (this._parsing) {
            const removed = meta._parsed.splice(start, count);
            if (meta._stacked) {
                clearStacks(meta, removed);
            }
        }
        meta.data.splice(start, count);
    }
 _sync(args) {
        if (this._parsing) {
            this._syncList.push(args);
        } else {
            const [method, arg1, arg2] = args;
            this[method](arg1, arg2);
        }
        this.chart._dataChanges.push([
            this.index,
            ...args
        ]);
    }
    _onDataPush() {
        const count = arguments.length;
        this._sync([
            '_insertElements',
            this.getDataset().data.length - count,
            count
        ]);
    }
    _onDataPop() {
        this._sync([
            '_removeElements',
            this._cachedMeta.data.length - 1,
            1
        ]);
    }
    _onDataShift() {
        this._sync([
            '_removeElements',
            0,
            1
        ]);
    }
    _onDataSplice(start, count) {
        if (count) {
            this._sync([
                '_removeElements',
                start,
                count
            ]);
        }
        const newCount = arguments.length - 2;
        if (newCount) {
            this._sync([
                '_insertElements',
                start,
                newCount
            ]);
        }
    }
    _onDataUnshift() {
        this._sync([
            '_insertElements',
            0,
            arguments.length
        ]);
    }
}

function getAllScaleValues(scale, type) {
    if (!scale._cache.$bar) {
        const visibleMetas = scale.getMatchingVisibleMetas(type);
        let values = [];
        for(let i = 0, ilen = visibleMetas.length; i < ilen; i++){
            values = values.concat(visibleMetas[i].controller.getAllParsedValues(scale));
        }
        scale._cache.$bar = _arrayUnique(values.sort((a, b)=>a - b));
    }
    return scale._cache.$bar;
}
 function computeMinSampleSize(meta) {
    const scale = meta.iScale;
    const values = getAllScaleValues(scale, meta.type);
    let min = scale._length;
    let i, ilen, curr, prev;
    const updateMinAndPrev = ()=>{
        if (curr === 32767 || curr === -32768) {
            return;
        }
        if (defined(prev)) {
            min = Math.min(min, Math.abs(curr - prev) || min);
        }
        prev = curr;
    };
    for(i = 0, ilen = values.length; i < ilen; ++i){
        curr = scale.getPixelForValue(values[i]);
        updateMinAndPrev();
    }
    prev = undefined;
    for(i = 0, ilen = scale.ticks.length; i < ilen; ++i){
        curr = scale.getPixelForTick(i);
        updateMinAndPrev();
    }
    return min;
}
 function computeFitCategoryTraits(index, ruler, options, stackCount) {
    const thickness = options.barThickness;
    let size, ratio;
    if (isNullOrUndef(thickness)) {
        size = ruler.min * options.categoryPercentage;
        ratio = options.barPercentage;
    } else {
        size = thickness * stackCount;
        ratio = 1;
    }
    return {
        chunk: size / stackCount,
        ratio,
        start: ruler.pixels[index] - size / 2
    };
}
 function computeFlexCategoryTraits(index, ruler, options, stackCount) {
    const pixels = ruler.pixels;
    const curr = pixels[index];
    let prev = index > 0 ? pixels[index - 1] : null;
    let next = index < pixels.length - 1 ? pixels[index + 1] : null;
    const percent = options.categoryPercentage;
    if (prev === null) {
        prev = curr - (next === null ? ruler.end - ruler.start : next - curr);
    }
    if (next === null) {
        next = curr + curr - prev;
    }
    const start = curr - (curr - Math.min(prev, next)) / 2 * percent;
    const size = Math.abs(next - prev) / 2 * percent;
    return {
        chunk: size / stackCount,
        ratio: options.barPercentage,
        start
    };
}
function parseFloatBar(entry, item, vScale, i) {
    const startValue = vScale.parse(entry[0], i);
    const endValue = vScale.parse(entry[1], i);
    const min = Math.min(startValue, endValue);
    const max = Math.max(startValue, endValue);
    let barStart = min;
    let barEnd = max;
    if (Math.abs(min) > Math.abs(max)) {
        barStart = max;
        barEnd = min;
    }
    item[vScale.axis] = barEnd;
    item._custom = {
        barStart,
        barEnd,
        start: startValue,
        end: endValue,
        min,
        max
    };
}
function parseValue(entry, item, vScale, i) {
    if (isArray(entry)) {
        parseFloatBar(entry, item, vScale, i);
    } else {
        item[vScale.axis] = vScale.parse(entry, i);
    }
    return item;
}
function parseArrayOrPrimitive(meta, data, start, count) {
    const iScale = meta.iScale;
    const vScale = meta.vScale;
    const labels = iScale.getLabels();
    const singleScale = iScale === vScale;
    const parsed = [];
    let i, ilen, item, entry;
    for(i = start, ilen = start + count; i < ilen; ++i){
        entry = data[i];
        item = {};
        item[iScale.axis] = singleScale || iScale.parse(labels[i], i);
        parsed.push(parseValue(entry, item, vScale, i));
    }
    return parsed;
}
function isFloatBar(custom) {
    return custom && custom.barStart !== undefined && custom.barEnd !== undefined;
}
function barSign(size, vScale, actualBase) {
    if (size !== 0) {
        return sign(size);
    }
    return (vScale.isHorizontal() ? 1 : -1) * (vScale.min >= actualBase ? 1 : -1);
}
function borderProps(properties) {
    let reverse, start, end, top, bottom;
    if (properties.horizontal) {
        reverse = properties.base > properties.x;
        start = 'left';
        end = 'right';
    } else {
        reverse = properties.base < properties.y;
        start = 'bottom';
        end = 'top';
    }
    if (reverse) {
        top = 'end';
        bottom = 'start';
    } else {
        top = 'start';
        bottom = 'end';
    }
    return {
        start,
        end,
        reverse,
        top,
        bottom
    };
}
function setBorderSkipped(properties, options, stack, index) {
    let edge = options.borderSkipped;
    const res = {};
    if (!edge) {
        properties.borderSkipped = res;
        return;
    }
    if (edge === true) {
        properties.borderSkipped = {
            top: true,
            right: true,
            bottom: true,
            left: true
        };
        return;
    }
    const { start , end , reverse , top , bottom  } = borderProps(properties);
    if (edge === 'middle' && stack) {
        properties.enableBorderRadius = true;
        if ((stack._top || 0) === index) {
            edge = top;
        } else if ((stack._bottom || 0) === index) {
            edge = bottom;
        } else {
            res[parseEdge(bottom, start, end, reverse)] = true;
            edge = top;
        }
    }
    res[parseEdge(edge, start, end, reverse)] = true;
    properties.borderSkipped = res;
}
function parseEdge(edge, a, b, reverse) {
    if (reverse) {
        edge = swap(edge, a, b);
        edge = startEnd(edge, b, a);
    } else {
        edge = startEnd(edge, a, b);
    }
    return edge;
}
function swap(orig, v1, v2) {
    return orig === v1 ? v2 : orig === v2 ? v1 : orig;
}
function startEnd(v, start, end) {
    return v === 'start' ? start : v === 'end' ? end : v;
}
function setInflateAmount(properties, { inflateAmount  }, ratio) {
    properties.inflateAmount = inflateAmount === 'auto' ? ratio === 1 ? 0.33 : 0 : inflateAmount;
}
class BarController extends DatasetController {
    static id = 'bar';
 static defaults = {
        datasetElementType: false,
        dataElementType: 'bar',
        categoryPercentage: 0.8,
        barPercentage: 0.9,
        grouped: true,
        animations: {
            numbers: {
                type: 'number',
                properties: [
                    'x',
                    'y',
                    'base',
                    'width',
                    'height'
                ]
            }
        }
    };
 static overrides = {
        scales: {
            _index_: {
                type: 'category',
                offset: true,
                grid: {
                    offset: true
                }
            },
            _value_: {
                type: 'linear',
                beginAtZero: true
            }
        }
    };
 parsePrimitiveData(meta, data, start, count) {
        return parseArrayOrPrimitive(meta, data, start, count);
    }
 parseArrayData(meta, data, start, count) {
        return parseArrayOrPrimitive(meta, data, start, count);
    }
 parseObjectData(meta, data, start, count) {
        const { iScale , vScale  } = meta;
        const { xAxisKey ='x' , yAxisKey ='y'  } = this._parsing;
        const iAxisKey = iScale.axis === 'x' ? xAxisKey : yAxisKey;
        const vAxisKey = vScale.axis === 'x' ? xAxisKey : yAxisKey;
        const parsed = [];
        let i, ilen, item, obj;
        for(i = start, ilen = start + count; i < ilen; ++i){
            obj = data[i];
            item = {};
            item[iScale.axis] = iScale.parse(resolveObjectKey(obj, iAxisKey), i);
            parsed.push(parseValue(resolveObjectKey(obj, vAxisKey), item, vScale, i));
        }
        return parsed;
    }
 updateRangeFromParsed(range, scale, parsed, stack) {
        super.updateRangeFromParsed(range, scale, parsed, stack);
        const custom = parsed._custom;
        if (custom && scale === this._cachedMeta.vScale) {
            range.min = Math.min(range.min, custom.min);
            range.max = Math.max(range.max, custom.max);
        }
    }
 getMaxOverflow() {
        return 0;
    }
 getLabelAndValue(index) {
        const meta = this._cachedMeta;
        const { iScale , vScale  } = meta;
        const parsed = this.getParsed(index);
        const custom = parsed._custom;
        const value = isFloatBar(custom) ? '[' + custom.start + ', ' + custom.end + ']' : '' + vScale.getLabelForValue(parsed[vScale.axis]);
        return {
            label: '' + iScale.getLabelForValue(parsed[iScale.axis]),
            value
        };
    }
    initialize() {
        this.enableOptionSharing = true;
        super.initialize();
        const meta = this._cachedMeta;
        meta.stack = this.getDataset().stack;
    }
    update(mode) {
        const meta = this._cachedMeta;
        this.updateElements(meta.data, 0, meta.data.length, mode);
    }
    updateElements(bars, start, count, mode) {
        const reset = mode === 'reset';
        const { index , _cachedMeta: { vScale  }  } = this;
        const base = vScale.getBasePixel();
        const horizontal = vScale.isHorizontal();
        const ruler = this._getRuler();
        const { sharedOptions , includeOptions  } = this._getSharedOptions(start, mode);
        for(let i = start; i < start + count; i++){
            const parsed = this.getParsed(i);
            const vpixels = reset || isNullOrUndef(parsed[vScale.axis]) ? {
                base,
                head: base
            } : this._calculateBarValuePixels(i);
            const ipixels = this._calculateBarIndexPixels(i, ruler);
            const stack = (parsed._stacks || {})[vScale.axis];
            const properties = {
                horizontal,
                base: vpixels.base,
                enableBorderRadius: !stack || isFloatBar(parsed._custom) || index === stack._top || index === stack._bottom,
                x: horizontal ? vpixels.head : ipixels.center,
                y: horizontal ? ipixels.center : vpixels.head,
                height: horizontal ? ipixels.size : Math.abs(vpixels.size),
                width: horizontal ? Math.abs(vpixels.size) : ipixels.size
            };
            if (includeOptions) {
                properties.options = sharedOptions || this.resolveDataElementOptions(i, bars[i].active ? 'active' : mode);
            }
            const options = properties.options || bars[i].options;
            setBorderSkipped(properties, options, stack, index);
            setInflateAmount(properties, options, ruler.ratio);
            this.updateElement(bars[i], i, properties, mode);
        }
    }
 _getStacks(last, dataIndex) {
        const { iScale  } = this._cachedMeta;
        const metasets = iScale.getMatchingVisibleMetas(this._type).filter((meta)=>meta.controller.options.grouped);
        const stacked = iScale.options.stacked;
        const stacks = [];
        const currentParsed = this._cachedMeta.controller.getParsed(dataIndex);
        const iScaleValue = currentParsed && currentParsed[iScale.axis];
        const skipNull = (meta)=>{
            const parsed = meta._parsed.find((item)=>item[iScale.axis] === iScaleValue);
            const val = parsed && parsed[meta.vScale.axis];
            if (isNullOrUndef(val) || isNaN(val)) {
                return true;
            }
        };
        for (const meta of metasets){
            if (dataIndex !== undefined && skipNull(meta)) {
                continue;
            }
            if (stacked === false || stacks.indexOf(meta.stack) === -1 || stacked === undefined && meta.stack === undefined) {
                stacks.push(meta.stack);
            }
            if (meta.index === last) {
                break;
            }
        }
        if (!stacks.length) {
            stacks.push(undefined);
        }
        return stacks;
    }
 _getStackCount(index) {
        return this._getStacks(undefined, index).length;
    }
    _getAxisCount() {
        return this._getAxis().length;
    }
    getFirstScaleIdForIndexAxis() {
        const scales = this.chart.scales;
        const indexScaleId = this.chart.options.indexAxis;
        return Object.keys(scales).filter((key)=>scales[key].axis === indexScaleId).shift();
    }
    _getAxis() {
        const axis = {};
        const firstScaleAxisId = this.getFirstScaleIdForIndexAxis();
        for (const dataset of this.chart.data.datasets){
            axis[valueOrDefault(this.chart.options.indexAxis === 'x' ? dataset.xAxisID : dataset.yAxisID, firstScaleAxisId)] = true;
        }
        return Object.keys(axis);
    }
 _getStackIndex(datasetIndex, name, dataIndex) {
        const stacks = this._getStacks(datasetIndex, dataIndex);
        const index = name !== undefined ? stacks.indexOf(name) : -1;
        return index === -1 ? stacks.length - 1 : index;
    }
 _getRuler() {
        const opts = this.options;
        const meta = this._cachedMeta;
        const iScale = meta.iScale;
        const pixels = [];
        let i, ilen;
        for(i = 0, ilen = meta.data.length; i < ilen; ++i){
            pixels.push(iScale.getPixelForValue(this.getParsed(i)[iScale.axis], i));
        }
        const barThickness = opts.barThickness;
        const min = barThickness || computeMinSampleSize(meta);
        return {
            min,
            pixels,
            start: iScale._startPixel,
            end: iScale._endPixel,
            stackCount: this._getStackCount(),
            scale: iScale,
            grouped: opts.grouped,
            ratio: barThickness ? 1 : opts.categoryPercentage * opts.barPercentage
        };
    }
 _calculateBarValuePixels(index) {
        const { _cachedMeta: { vScale , _stacked , index: datasetIndex  } , options: { base: baseValue , minBarLength  }  } = this;
        const actualBase = baseValue || 0;
        const parsed = this.getParsed(index);
        const custom = parsed._custom;
        const floating = isFloatBar(custom);
        let value = parsed[vScale.axis];
        let start = 0;
        let length = _stacked ? this.applyStack(vScale, parsed, _stacked) : value;
        let head, size;
        if (length !== value) {
            start = length - value;
            length = value;
        }
        if (floating) {
            value = custom.barStart;
            length = custom.barEnd - custom.barStart;
            if (value !== 0 && sign(value) !== sign(custom.barEnd)) {
                start = 0;
            }
            start += value;
        }
        const startValue = !isNullOrUndef(baseValue) && !floating ? baseValue : start;
        let base = vScale.getPixelForValue(startValue);
        if (this.chart.getDataVisibility(index)) {
            head = vScale.getPixelForValue(start + length);
        } else {
            head = base;
        }
        size = head - base;
        if (Math.abs(size) < minBarLength) {
            size = barSign(size, vScale, actualBase) * minBarLength;
            if (value === actualBase) {
                base -= size / 2;
            }
            const startPixel = vScale.getPixelForDecimal(0);
            const endPixel = vScale.getPixelForDecimal(1);
            const min = Math.min(startPixel, endPixel);
            const max = Math.max(startPixel, endPixel);
            base = Math.max(Math.min(base, max), min);
            head = base + size;
            if (_stacked && !floating) {
                parsed._stacks[vScale.axis]._visualValues[datasetIndex] = vScale.getValueForPixel(head) - vScale.getValueForPixel(base);
            }
        }
        if (base === vScale.getPixelForValue(actualBase)) {
            const halfGrid = sign(size) * vScale.getLineWidthForValue(actualBase) / 2;
            base += halfGrid;
            size -= halfGrid;
        }
        return {
            size,
            base,
            head,
            center: head + size / 2
        };
    }
 _calculateBarIndexPixels(index, ruler) {
        const scale = ruler.scale;
        const options = this.options;
        const skipNull = options.skipNull;
        const maxBarThickness = valueOrDefault(options.maxBarThickness, Infinity);
        let center, size;
        const axisCount = this._getAxisCount();
        if (ruler.grouped) {
            const stackCount = skipNull ? this._getStackCount(index) : ruler.stackCount;
            const range = options.barThickness === 'flex' ? computeFlexCategoryTraits(index, ruler, options, stackCount * axisCount) : computeFitCategoryTraits(index, ruler, options, stackCount * axisCount);
            const axisID = this.chart.options.indexAxis === 'x' ? this.getDataset().xAxisID : this.getDataset().yAxisID;
            const axisNumber = this._getAxis().indexOf(valueOrDefault(axisID, this.getFirstScaleIdForIndexAxis()));
            const stackIndex = this._getStackIndex(this.index, this._cachedMeta.stack, skipNull ? index : undefined) + axisNumber;
            center = range.start + range.chunk * stackIndex + range.chunk / 2;
            size = Math.min(maxBarThickness, range.chunk * range.ratio);
        } else {
            center = scale.getPixelForValue(this.getParsed(index)[scale.axis], index);
            size = Math.min(maxBarThickness, ruler.min * ruler.ratio);
        }
        return {
            base: center - size / 2,
            head: center + size / 2,
            center,
            size
        };
    }
    draw() {
        const meta = this._cachedMeta;
        const vScale = meta.vScale;
        const rects = meta.data;
        const ilen = rects.length;
        let i = 0;
        for(; i < ilen; ++i){
            if (this.getParsed(i)[vScale.axis] !== null && !rects[i].hidden) {
                rects[i].draw(this._ctx);
            }
        }
    }
}

class BubbleController extends DatasetController {
    static id = 'bubble';
 static defaults = {
        datasetElementType: false,
        dataElementType: 'point',
        animations: {
            numbers: {
                type: 'number',
                properties: [
                    'x',
                    'y',
                    'borderWidth',
                    'radius'
                ]
            }
        }
    };
 static overrides = {
        scales: {
            x: {
                type: 'linear'
            },
            y: {
                type: 'linear'
            }
        }
    };
    initialize() {
        this.enableOptionSharing = true;
        super.initialize();
    }
 parsePrimitiveData(meta, data, start, count) {
        const parsed = super.parsePrimitiveData(meta, data, start, count);
        for(let i = 0; i < parsed.length; i++){
            parsed[i]._custom = this.resolveDataElementOptions(i + start).radius;
        }
        return parsed;
    }
 parseArrayData(meta, data, start, count) {
        const parsed = super.parseArrayData(meta, data, start, count);
        for(let i = 0; i < parsed.length; i++){
            const item = data[start + i];
            parsed[i]._custom = valueOrDefault(item[2], this.resolveDataElementOptions(i + start).radius);
        }
        return parsed;
    }
 parseObjectData(meta, data, start, count) {
        const parsed = super.parseObjectData(meta, data, start, count);
        for(let i = 0; i < parsed.length; i++){
            const item = data[start + i];
            parsed[i]._custom = valueOrDefault(item && item.r && +item.r, this.resolveDataElementOptions(i + start).radius);
        }
        return parsed;
    }
 getMaxOverflow() {
        const data = this._cachedMeta.data;
        let max = 0;
        for(let i = data.length - 1; i >= 0; --i){
            max = Math.max(max, data[i].size(this.resolveDataElementOptions(i)) / 2);
        }
        return max > 0 && max;
    }
 getLabelAndValue(index) {
        const meta = this._cachedMeta;
        const labels = this.chart.data.labels || [];
        const { xScale , yScale  } = meta;
        const parsed = this.getParsed(index);
        const x = xScale.getLabelForValue(parsed.x);
        const y = yScale.getLabelForValue(parsed.y);
        const r = parsed._custom;
        return {
            label: labels[index] || '',
            value: '(' + x + ', ' + y + (r ? ', ' + r : '') + ')'
        };
    }
    update(mode) {
        const points = this._cachedMeta.data;
        this.updateElements(points, 0, points.length, mode);
    }
    updateElements(points, start, count, mode) {
        const reset = mode === 'reset';
        const { iScale , vScale  } = this._cachedMeta;
        const { sharedOptions , includeOptions  } = this._getSharedOptions(start, mode);
        const iAxis = iScale.axis;
        const vAxis = vScale.axis;
        for(let i = start; i < start + count; i++){
            const point = points[i];
            const parsed = !reset && this.getParsed(i);
            const properties = {};
            const iPixel = properties[iAxis] = reset ? iScale.getPixelForDecimal(0.5) : iScale.getPixelForValue(parsed[iAxis]);
            const vPixel = properties[vAxis] = reset ? vScale.getBasePixel() : vScale.getPixelForValue(parsed[vAxis]);
            properties.skip = isNaN(iPixel) || isNaN(vPixel);
            if (includeOptions) {
                properties.options = sharedOptions || this.resolveDataElementOptions(i, point.active ? 'active' : mode);
                if (reset) {
                    properties.options.radius = 0;
                }
            }
            this.updateElement(point, i, properties, mode);
        }
    }
 resolveDataElementOptions(index, mode) {
        const parsed = this.getParsed(index);
        let values = super.resolveDataElementOptions(index, mode);
        if (values.$shared) {
            values = Object.assign({}, values, {
                $shared: false
            });
        }
        const radius = values.radius;
        if (mode !== 'active') {
            values.radius = 0;
        }
        values.radius += valueOrDefault(parsed && parsed._custom, radius);
        return values;
    }
}

function getRatioAndOffset(rotation, circumference, cutout) {
    let ratioX = 1;
    let ratioY = 1;
    let offsetX = 0;
    let offsetY = 0;
    if (circumference < TAU) {
        const startAngle = rotation;
        const endAngle = startAngle + circumference;
        const startX = Math.cos(startAngle);
        const startY = Math.sin(startAngle);
        const endX = Math.cos(endAngle);
        const endY = Math.sin(endAngle);
        const calcMax = (angle, a, b)=>_angleBetween(angle, startAngle, endAngle, true) ? 1 : Math.max(a, a * cutout, b, b * cutout);
        const calcMin = (angle, a, b)=>_angleBetween(angle, startAngle, endAngle, true) ? -1 : Math.min(a, a * cutout, b, b * cutout);
        const maxX = calcMax(0, startX, endX);
        const maxY = calcMax(HALF_PI, startY, endY);
        const minX = calcMin(PI, startX, endX);
        const minY = calcMin(PI + HALF_PI, startY, endY);
        ratioX = (maxX - minX) / 2;
        ratioY = (maxY - minY) / 2;
        offsetX = -(maxX + minX) / 2;
        offsetY = -(maxY + minY) / 2;
    }
    return {
        ratioX,
        ratioY,
        offsetX,
        offsetY
    };
}
class DoughnutController extends DatasetController {
    static id = 'doughnut';
 static defaults = {
        datasetElementType: false,
        dataElementType: 'arc',
        animation: {
            animateRotate: true,
            animateScale: false
        },
        animations: {
            numbers: {
                type: 'number',
                properties: [
                    'circumference',
                    'endAngle',
                    'innerRadius',
                    'outerRadius',
                    'startAngle',
                    'x',
                    'y',
                    'offset',
                    'borderWidth',
                    'spacing'
                ]
            }
        },
        cutout: '50%',
        rotation: 0,
        circumference: 360,
        radius: '100%',
        spacing: 0,
        indexAxis: 'r'
    };
    static descriptors = {
        _scriptable: (name)=>name !== 'spacing',
        _indexable: (name)=>name !== 'spacing' && !name.startsWith('borderDash') && !name.startsWith('hoverBorderDash')
    };
 static overrides = {
        aspectRatio: 1,
        plugins: {
            legend: {
                labels: {
                    generateLabels (chart) {
                        const data = chart.data;
                        if (data.labels.length && data.datasets.length) {
                            const { labels: { pointStyle , color  }  } = chart.legend.options;
                            return data.labels.map((label, i)=>{
                                const meta = chart.getDatasetMeta(0);
                                const style = meta.controller.getStyle(i);
                                return {
                                    text: label,
                                    fillStyle: style.backgroundColor,
                                    strokeStyle: style.borderColor,
                                    fontColor: color,
                                    lineWidth: style.borderWidth,
                                    pointStyle: pointStyle,
                                    hidden: !chart.getDataVisibility(i),
                                    index: i
                                };
                            });
                        }
                        return [];
                    }
                },
                onClick (e, legendItem, legend) {
                    legend.chart.toggleDataVisibility(legendItem.index);
                    legend.chart.update();
                }
            }
        }
    };
    constructor(chart, datasetIndex){
        super(chart, datasetIndex);
        this.enableOptionSharing = true;
        this.innerRadius = undefined;
        this.outerRadius = undefined;
        this.offsetX = undefined;
        this.offsetY = undefined;
    }
    linkScales() {}
 parse(start, count) {
        const data = this.getDataset().data;
        const meta = this._cachedMeta;
        if (this._parsing === false) {
            meta._parsed = data;
        } else {
            let getter = (i)=>+data[i];
            if (isObject(data[start])) {
                const { key ='value'  } = this._parsing;
                getter = (i)=>+resolveObjectKey(data[i], key);
            }
            let i, ilen;
            for(i = start, ilen = start + count; i < ilen; ++i){
                meta._parsed[i] = getter(i);
            }
        }
    }
 _getRotation() {
        return toRadians(this.options.rotation - 90);
    }
 _getCircumference() {
        return toRadians(this.options.circumference);
    }
 _getRotationExtents() {
        let min = TAU;
        let max = -TAU;
        for(let i = 0; i < this.chart.data.datasets.length; ++i){
            if (this.chart.isDatasetVisible(i) && this.chart.getDatasetMeta(i).type === this._type) {
                const controller = this.chart.getDatasetMeta(i).controller;
                const rotation = controller._getRotation();
                const circumference = controller._getCircumference();
                min = Math.min(min, rotation);
                max = Math.max(max, rotation + circumference);
            }
        }
        return {
            rotation: min,
            circumference: max - min
        };
    }
 update(mode) {
        const chart = this.chart;
        const { chartArea  } = chart;
        const meta = this._cachedMeta;
        const arcs = meta.data;
        const spacing = this.getMaxBorderWidth() + this.getMaxOffset(arcs) + this.options.spacing;
        const maxSize = Math.max((Math.min(chartArea.width, chartArea.height) - spacing) / 2, 0);
        const cutout = Math.min(toPercentage(this.options.cutout, maxSize), 1);
        const chartWeight = this._getRingWeight(this.index);
        const { circumference , rotation  } = this._getRotationExtents();
        const { ratioX , ratioY , offsetX , offsetY  } = getRatioAndOffset(rotation, circumference, cutout);
        const maxWidth = (chartArea.width - spacing) / ratioX;
        const maxHeight = (chartArea.height - spacing) / ratioY;
        const maxRadius = Math.max(Math.min(maxWidth, maxHeight) / 2, 0);
        const outerRadius = toDimension(this.options.radius, maxRadius);
        const innerRadius = Math.max(outerRadius * cutout, 0);
        const radiusLength = (outerRadius - innerRadius) / this._getVisibleDatasetWeightTotal();
        this.offsetX = offsetX * outerRadius;
        this.offsetY = offsetY * outerRadius;
        meta.total = this.calculateTotal();
        this.outerRadius = outerRadius - radiusLength * this._getRingWeightOffset(this.index);
        this.innerRadius = Math.max(this.outerRadius - radiusLength * chartWeight, 0);
        this.updateElements(arcs, 0, arcs.length, mode);
    }
 _circumference(i, reset) {
        const opts = this.options;
        const meta = this._cachedMeta;
        const circumference = this._getCircumference();
        if (reset && opts.animation.animateRotate || !this.chart.getDataVisibility(i) || meta._parsed[i] === null || meta.data[i].hidden) {
            return 0;
        }
        return this.calculateCircumference(meta._parsed[i] * circumference / TAU);
    }
    updateElements(arcs, start, count, mode) {
        const reset = mode === 'reset';
        const chart = this.chart;
        const chartArea = chart.chartArea;
        const opts = chart.options;
        const animationOpts = opts.animation;
        const centerX = (chartArea.left + chartArea.right) / 2;
        const centerY = (chartArea.top + chartArea.bottom) / 2;
        const animateScale = reset && animationOpts.animateScale;
        const innerRadius = animateScale ? 0 : this.innerRadius;
        const outerRadius = animateScale ? 0 : this.outerRadius;
        const { sharedOptions , includeOptions  } = this._getSharedOptions(start, mode);
        let startAngle = this._getRotation();
        let i;
        for(i = 0; i < start; ++i){
            startAngle += this._circumference(i, reset);
        }
        for(i = start; i < start + count; ++i){
            const circumference = this._circumference(i, reset);
            const arc = arcs[i];
            const properties = {
                x: centerX + this.offsetX,
                y: centerY + this.offsetY,
                startAngle,
                endAngle: startAngle + circumference,
                circumference,
                outerRadius,
                innerRadius
            };
            if (includeOptions) {
                properties.options = sharedOptions || this.resolveDataElementOptions(i, arc.active ? 'active' : mode);
            }
            startAngle += circumference;
            this.updateElement(arc, i, properties, mode);
        }
    }
    calculateTotal() {
        const meta = this._cachedMeta;
        const metaData = meta.data;
        let total = 0;
        let i;
        for(i = 0; i < metaData.length; i++){
            const value = meta._parsed[i];
            if (value !== null && !isNaN(value) && this.chart.getDataVisibility(i) && !metaData[i].hidden) {
                total += Math.abs(value);
            }
        }
        return total;
    }
    calculateCircumference(value) {
        const total = this._cachedMeta.total;
        if (total > 0 && !isNaN(value)) {
            return TAU * (Math.abs(value) / total);
        }
        return 0;
    }
    getLabelAndValue(index) {
        const meta = this._cachedMeta;
        const chart = this.chart;
        const labels = chart.data.labels || [];
        const value = formatNumber(meta._parsed[index], chart.options.locale);
        return {
            label: labels[index] || '',
            value
        };
    }
    getMaxBorderWidth(arcs) {
        let max = 0;
        const chart = this.chart;
        let i, ilen, meta, controller, options;
        if (!arcs) {
            for(i = 0, ilen = chart.data.datasets.length; i < ilen; ++i){
                if (chart.isDatasetVisible(i)) {
                    meta = chart.getDatasetMeta(i);
                    arcs = meta.data;
                    controller = meta.controller;
                    break;
                }
            }
        }
        if (!arcs) {
            return 0;
        }
        for(i = 0, ilen = arcs.length; i < ilen; ++i){
            options = controller.resolveDataElementOptions(i);
            if (options.borderAlign !== 'inner') {
                max = Math.max(max, options.borderWidth || 0, options.hoverBorderWidth || 0);
            }
        }
        return max;
    }
    getMaxOffset(arcs) {
        let max = 0;
        for(let i = 0, ilen = arcs.length; i < ilen; ++i){
            const options = this.resolveDataElementOptions(i);
            max = Math.max(max, options.offset || 0, options.hoverOffset || 0);
        }
        return max;
    }
 _getRingWeightOffset(datasetIndex) {
        let ringWeightOffset = 0;
        for(let i = 0; i < datasetIndex; ++i){
            if (this.chart.isDatasetVisible(i)) {
                ringWeightOffset += this._getRingWeight(i);
            }
        }
        return ringWeightOffset;
    }
 _getRingWeight(datasetIndex) {
        return Math.max(valueOrDefault(this.chart.data.datasets[datasetIndex].weight, 1), 0);
    }
 _getVisibleDatasetWeightTotal() {
        return this._getRingWeightOffset(this.chart.data.datasets.length) || 1;
    }
}

class LineController extends DatasetController {
    static id = 'line';
 static defaults = {
        datasetElementType: 'line',
        dataElementType: 'point',
        showLine: true,
        spanGaps: false
    };
 static overrides = {
        scales: {
            _index_: {
                type: 'category'
            },
            _value_: {
                type: 'linear'
            }
        }
    };
    initialize() {
        this.enableOptionSharing = true;
        this.supportsDecimation = true;
        super.initialize();
    }
    update(mode) {
        const meta = this._cachedMeta;
        const { dataset: line , data: points = [] , _dataset  } = meta;
        const animationsDisabled = this.chart._animationsDisabled;
        let { start , count  } = _getStartAndCountOfVisiblePoints(meta, points, animationsDisabled);
        this._drawStart = start;
        this._drawCount = count;
        if (_scaleRangesChanged(meta)) {
            start = 0;
            count = points.length;
        }
        line._chart = this.chart;
        line._datasetIndex = this.index;
        line._decimated = !!_dataset._decimated;
        line.points = points;
        const options = this.resolveDatasetElementOptions(mode);
        if (!this.options.showLine) {
            options.borderWidth = 0;
        }
        options.segment = this.options.segment;
        this.updateElement(line, undefined, {
            animated: !animationsDisabled,
            options
        }, mode);
        this.updateElements(points, start, count, mode);
    }
    updateElements(points, start, count, mode) {
        const reset = mode === 'reset';
        const { iScale , vScale , _stacked , _dataset  } = this._cachedMeta;
        const { sharedOptions , includeOptions  } = this._getSharedOptions(start, mode);
        const iAxis = iScale.axis;
        const vAxis = vScale.axis;
        const { spanGaps , segment  } = this.options;
        const maxGapLength = isNumber(spanGaps) ? spanGaps : Number.POSITIVE_INFINITY;
        const directUpdate = this.chart._animationsDisabled || reset || mode === 'none';
        const end = start + count;
        const pointsCount = points.length;
        let prevParsed = start > 0 && this.getParsed(start - 1);
        for(let i = 0; i < pointsCount; ++i){
            const point = points[i];
            const properties = directUpdate ? point : {};
            if (i < start || i >= end) {
                properties.skip = true;
                continue;
            }
            const parsed = this.getParsed(i);
            const nullData = isNullOrUndef(parsed[vAxis]);
            const iPixel = properties[iAxis] = iScale.getPixelForValue(parsed[iAxis], i);
            const vPixel = properties[vAxis] = reset || nullData ? vScale.getBasePixel() : vScale.getPixelForValue(_stacked ? this.applyStack(vScale, parsed, _stacked) : parsed[vAxis], i);
            properties.skip = isNaN(iPixel) || isNaN(vPixel) || nullData;
            properties.stop = i > 0 && Math.abs(parsed[iAxis] - prevParsed[iAxis]) > maxGapLength;
            if (segment) {
                properties.parsed = parsed;
                properties.raw = _dataset.data[i];
            }
            if (includeOptions) {
                properties.options = sharedOptions || this.resolveDataElementOptions(i, point.active ? 'active' : mode);
            }
            if (!directUpdate) {
                this.updateElement(point, i, properties, mode);
            }
            prevParsed = parsed;
        }
    }
 getMaxOverflow() {
        const meta = this._cachedMeta;
        const dataset = meta.dataset;
        const border = dataset.options && dataset.options.borderWidth || 0;
        const data = meta.data || [];
        if (!data.length) {
            return border;
        }
        const firstPoint = data[0].size(this.resolveDataElementOptions(0));
        const lastPoint = data[data.length - 1].size(this.resolveDataElementOptions(data.length - 1));
        return Math.max(border, firstPoint, lastPoint) / 2;
    }
    draw() {
        const meta = this._cachedMeta;
        meta.dataset.updateControlPoints(this.chart.chartArea, meta.iScale.axis);
        super.draw();
    }
}

class PolarAreaController extends DatasetController {
    static id = 'polarArea';
 static defaults = {
        dataElementType: 'arc',
        animation: {
            animateRotate: true,
            animateScale: true
        },
        animations: {
            numbers: {
                type: 'number',
                properties: [
                    'x',
                    'y',
                    'startAngle',
                    'endAngle',
                    'innerRadius',
                    'outerRadius'
                ]
            }
        },
        indexAxis: 'r',
        startAngle: 0
    };
 static overrides = {
        aspectRatio: 1,
        plugins: {
            legend: {
                labels: {
                    generateLabels (chart) {
                        const data = chart.data;
                        if (data.labels.length && data.datasets.length) {
                            const { labels: { pointStyle , color  }  } = chart.legend.options;
                            return data.labels.map((label, i)=>{
                                const meta = chart.getDatasetMeta(0);
                                const style = meta.controller.getStyle(i);
                                return {
                                    text: label,
                                    fillStyle: style.backgroundColor,
                                    strokeStyle: style.borderColor,
                                    fontColor: color,
                                    lineWidth: style.borderWidth,
                                    pointStyle: pointStyle,
                                    hidden: !chart.getDataVisibility(i),
                                    index: i
                                };
                            });
                        }
                        return [];
                    }
                },
                onClick (e, legendItem, legend) {
                    legend.chart.toggleDataVisibility(legendItem.index);
                    legend.chart.update();
                }
            }
        },
        scales: {
            r: {
                type: 'radialLinear',
                angleLines: {
                    display: false
                },
                beginAtZero: true,
                grid: {
                    circular: true
                },
                pointLabels: {
                    display: false
                },
                startAngle: 0
            }
        }
    };
    constructor(chart, datasetIndex){
        super(chart, datasetIndex);
        this.innerRadius = undefined;
        this.outerRadius = undefined;
    }
    getLabelAndValue(index) {
        const meta = this._cachedMeta;
        const chart = this.chart;
        const labels = chart.data.labels || [];
        const value = formatNumber(meta._parsed[index].r, chart.options.locale);
        return {
            label: labels[index] || '',
            value
        };
    }
    parseObjectData(meta, data, start, count) {
        return _parseObjectDataRadialScale.bind(this)(meta, data, start, count);
    }
    update(mode) {
        const arcs = this._cachedMeta.data;
        this._updateRadius();
        this.updateElements(arcs, 0, arcs.length, mode);
    }
 getMinMax() {
        const meta = this._cachedMeta;
        const range = {
            min: Number.POSITIVE_INFINITY,
            max: Number.NEGATIVE_INFINITY
        };
        meta.data.forEach((element, index)=>{
            const parsed = this.getParsed(index).r;
            if (!isNaN(parsed) && this.chart.getDataVisibility(index)) {
                if (parsed < range.min) {
                    range.min = parsed;
                }
                if (parsed > range.max) {
                    range.max = parsed;
                }
            }
        });
        return range;
    }
 _updateRadius() {
        const chart = this.chart;
        const chartArea = chart.chartArea;
        const opts = chart.options;
        const minSize = Math.min(chartArea.right - chartArea.left, chartArea.bottom - chartArea.top);
        const outerRadius = Math.max(minSize / 2, 0);
        const innerRadius = Math.max(opts.cutoutPercentage ? outerRadius / 100 * opts.cutoutPercentage : 1, 0);
        const radiusLength = (outerRadius - innerRadius) / chart.getVisibleDatasetCount();
        this.outerRadius = outerRadius - radiusLength * this.index;
        this.innerRadius = this.outerRadius - radiusLength;
    }
    updateElements(arcs, start, count, mode) {
        const reset = mode === 'reset';
        const chart = this.chart;
        const opts = chart.options;
        const animationOpts = opts.animation;
        const scale = this._cachedMeta.rScale;
        const centerX = scale.xCenter;
        const centerY = scale.yCenter;
        const datasetStartAngle = scale.getIndexAngle(0) - 0.5 * PI;
        let angle = datasetStartAngle;
        let i;
        const defaultAngle = 360 / this.countVisibleElements();
        for(i = 0; i < start; ++i){
            angle += this._computeAngle(i, mode, defaultAngle);
        }
        for(i = start; i < start + count; i++){
            const arc = arcs[i];
            let startAngle = angle;
            let endAngle = angle + this._computeAngle(i, mode, defaultAngle);
            let outerRadius = chart.getDataVisibility(i) ? scale.getDistanceFromCenterForValue(this.getParsed(i).r) : 0;
            angle = endAngle;
            if (reset) {
                if (animationOpts.animateScale) {
                    outerRadius = 0;
                }
                if (animationOpts.animateRotate) {
                    startAngle = endAngle = datasetStartAngle;
                }
            }
            const properties = {
                x: centerX,
                y: centerY,
                innerRadius: 0,
                outerRadius,
                startAngle,
                endAngle,
                options: this.resolveDataElementOptions(i, arc.active ? 'active' : mode)
            };
            this.updateElement(arc, i, properties, mode);
        }
    }
    countVisibleElements() {
        const meta = this._cachedMeta;
        let count = 0;
        meta.data.forEach((element, index)=>{
            if (!isNaN(this.getParsed(index).r) && this.chart.getDataVisibility(index)) {
                count++;
            }
        });
        return count;
    }
 _computeAngle(index, mode, defaultAngle) {
        return this.chart.getDataVisibility(index) ? toRadians(this.resolveDataElementOptions(index, mode).angle || defaultAngle) : 0;
    }
}

class PieController extends DoughnutController {
    static id = 'pie';
 static defaults = {
        cutout: 0,
        rotation: 0,
        circumference: 360,
        radius: '100%'
    };
}

class RadarController extends DatasetController {
    static id = 'radar';
 static defaults = {
        datasetElementType: 'line',
        dataElementType: 'point',
        indexAxis: 'r',
        showLine: true,
        elements: {
            line: {
                fill: 'start'
            }
        }
    };
 static overrides = {
        aspectRatio: 1,
        scales: {
            r: {
                type: 'radialLinear'
            }
        }
    };
 getLabelAndValue(index) {
        const vScale = this._cachedMeta.vScale;
        const parsed = this.getParsed(index);
        return {
            label: vScale.getLabels()[index],
            value: '' + vScale.getLabelForValue(parsed[vScale.axis])
        };
    }
    parseObjectData(meta, data, start, count) {
        return _parseObjectDataRadialScale.bind(this)(meta, data, start, count);
    }
    update(mode) {
        const meta = this._cachedMeta;
        const line = meta.dataset;
        const points = meta.data || [];
        const labels = meta.iScale.getLabels();
        line.points = points;
        if (mode !== 'resize') {
            const options = this.resolveDatasetElementOptions(mode);
            if (!this.options.showLine) {
                options.borderWidth = 0;
            }
            const properties = {
                _loop: true,
                _fullLoop: labels.length === points.length,
                options
            };
            this.updateElement(line, undefined, properties, mode);
        }
        this.updateElements(points, 0, points.length, mode);
    }
    updateElements(points, start, count, mode) {
        const scale = this._cachedMeta.rScale;
        const reset = mode === 'reset';
        for(let i = start; i < start + count; i++){
            const point = points[i];
            const options = this.resolveDataElementOptions(i, point.active ? 'active' : mode);
            const pointPosition = scale.getPointPositionForValue(i, this.getParsed(i).r);
            const x = reset ? scale.xCenter : pointPosition.x;
            const y = reset ? scale.yCenter : pointPosition.y;
            const properties = {
                x,
                y,
                angle: pointPosition.angle,
                skip: isNaN(x) || isNaN(y),
                options
            };
            this.updateElement(point, i, properties, mode);
        }
    }
}

class ScatterController extends DatasetController {
    static id = 'scatter';
 static defaults = {
        datasetElementType: false,
        dataElementType: 'point',
        showLine: false,
        fill: false
    };
 static overrides = {
        interaction: {
            mode: 'point'
        },
        scales: {
            x: {
                type: 'linear'
            },
            y: {
                type: 'linear'
            }
        }
    };
 getLabelAndValue(index) {
        const meta = this._cachedMeta;
        const labels = this.chart.data.labels || [];
        const { xScale , yScale  } = meta;
        const parsed = this.getParsed(index);
        const x = xScale.getLabelForValue(parsed.x);
        const y = yScale.getLabelForValue(parsed.y);
        return {
            label: labels[index] || '',
            value: '(' + x + ', ' + y + ')'
        };
    }
    update(mode) {
        const meta = this._cachedMeta;
        const { data: points = []  } = meta;
        const animationsDisabled = this.chart._animationsDisabled;
        let { start , count  } = _getStartAndCountOfVisiblePoints(meta, points, animationsDisabled);
        this._drawStart = start;
        this._drawCount = count;
        if (_scaleRangesChanged(meta)) {
            start = 0;
            count = points.length;
        }
        if (this.options.showLine) {
            if (!this.datasetElementType) {
                this.addElements();
            }
            const { dataset: line , _dataset  } = meta;
            line._chart = this.chart;
            line._datasetIndex = this.index;
            line._decimated = !!_dataset._decimated;
            line.points = points;
            const options = this.resolveDatasetElementOptions(mode);
            options.segment = this.options.segment;
            this.updateElement(line, undefined, {
                animated: !animationsDisabled,
                options
            }, mode);
        } else if (this.datasetElementType) {
            delete meta.dataset;
            this.datasetElementType = false;
        }
        this.updateElements(points, start, count, mode);
    }
    addElements() {
        const { showLine  } = this.options;
        if (!this.datasetElementType && showLine) {
            this.datasetElementType = this.chart.registry.getElement('line');
        }
        super.addElements();
    }
    updateElements(points, start, count, mode) {
        const reset = mode === 'reset';
        const { iScale , vScale , _stacked , _dataset  } = this._cachedMeta;
        const firstOpts = this.resolveDataElementOptions(start, mode);
        const sharedOptions = this.getSharedOptions(firstOpts);
        const includeOptions = this.includeOptions(mode, sharedOptions);
        const iAxis = iScale.axis;
        const vAxis = vScale.axis;
        const { spanGaps , segment  } = this.options;
        const maxGapLength = isNumber(spanGaps) ? spanGaps : Number.POSITIVE_INFINITY;
        const directUpdate = this.chart._animationsDisabled || reset || mode === 'none';
        let prevParsed = start > 0 && this.getParsed(start - 1);
        for(let i = start; i < start + count; ++i){
            const point = points[i];
            const parsed = this.getParsed(i);
            const properties = directUpdate ? point : {};
            const nullData = isNullOrUndef(parsed[vAxis]);
            const iPixel = properties[iAxis] = iScale.getPixelForValue(parsed[iAxis], i);
            const vPixel = properties[vAxis] = reset || nullData ? vScale.getBasePixel() : vScale.getPixelForValue(_stacked ? this.applyStack(vScale, parsed, _stacked) : parsed[vAxis], i);
            properties.skip = isNaN(iPixel) || isNaN(vPixel) || nullData;
            properties.stop = i > 0 && Math.abs(parsed[iAxis] - prevParsed[iAxis]) > maxGapLength;
            if (segment) {
                properties.parsed = parsed;
                properties.raw = _dataset.data[i];
            }
            if (includeOptions) {
                properties.options = sharedOptions || this.resolveDataElementOptions(i, point.active ? 'active' : mode);
            }
            if (!directUpdate) {
                this.updateElement(point, i, properties, mode);
            }
            prevParsed = parsed;
        }
        this.updateSharedOptions(sharedOptions, mode, firstOpts);
    }
 getMaxOverflow() {
        const meta = this._cachedMeta;
        const data = meta.data || [];
        if (!this.options.showLine) {
            let max = 0;
            for(let i = data.length - 1; i >= 0; --i){
                max = Math.max(max, data[i].size(this.resolveDataElementOptions(i)) / 2);
            }
            return max > 0 && max;
        }
        const dataset = meta.dataset;
        const border = dataset.options && dataset.options.borderWidth || 0;
        if (!data.length) {
            return border;
        }
        const firstPoint = data[0].size(this.resolveDataElementOptions(0));
        const lastPoint = data[data.length - 1].size(this.resolveDataElementOptions(data.length - 1));
        return Math.max(border, firstPoint, lastPoint) / 2;
    }
}

var controllers = /*#__PURE__*/Object.freeze({
__proto__: null,
BarController: BarController,
BubbleController: BubbleController,
DoughnutController: DoughnutController,
LineController: LineController,
PieController: PieController,
PolarAreaController: PolarAreaController,
RadarController: RadarController,
ScatterController: ScatterController
});

/**
 * @namespace Chart._adapters
 * @since 2.8.0
 * @private
 */ function chart_abstract() {
    throw new Error('This method is not implemented: Check that a complete date adapter is provided.');
}
/**
 * Date adapter (current used by the time scale)
 * @namespace Chart._adapters._date
 * @memberof Chart._adapters
 * @private
 */ class DateAdapterBase {
    /**
   * Override default date adapter methods.
   * Accepts type parameter to define options type.
   * @example
   * Chart._adapters._date.override<{myAdapterOption: string}>({
   *   init() {
   *     console.log(this.options.myAdapterOption);
   *   }
   * })
   */ static override(members) {
        Object.assign(DateAdapterBase.prototype, members);
    }
    options;
    constructor(options){
        this.options = options || {};
    }
    // eslint-disable-next-line @typescript-eslint/no-empty-function
    init() {}
    formats() {
        return chart_abstract();
    }
    parse() {
        return chart_abstract();
    }
    format() {
        return chart_abstract();
    }
    add() {
        return chart_abstract();
    }
    diff() {
        return chart_abstract();
    }
    startOf() {
        return chart_abstract();
    }
    endOf() {
        return chart_abstract();
    }
}
var adapters = {
    _date: DateAdapterBase
};

function binarySearch(metaset, axis, value, intersect) {
    const { controller , data , _sorted  } = metaset;
    const iScale = controller._cachedMeta.iScale;
    const spanGaps = metaset.dataset ? metaset.dataset.options ? metaset.dataset.options.spanGaps : null : null;
    if (iScale && axis === iScale.axis && axis !== 'r' && _sorted && data.length) {
        const lookupMethod = iScale._reversePixels ? _rlookupByKey : _lookupByKey;
        if (!intersect) {
            const result = lookupMethod(data, axis, value);
            if (spanGaps) {
                const { vScale  } = controller._cachedMeta;
                const { _parsed  } = metaset;
                const distanceToDefinedLo = _parsed.slice(0, result.lo + 1).reverse().findIndex((point)=>!isNullOrUndef(point[vScale.axis]));
                result.lo -= Math.max(0, distanceToDefinedLo);
                const distanceToDefinedHi = _parsed.slice(result.hi).findIndex((point)=>!isNullOrUndef(point[vScale.axis]));
                result.hi += Math.max(0, distanceToDefinedHi);
            }
            return result;
        } else if (controller._sharedOptions) {
            const el = data[0];
            const range = typeof el.getRange === 'function' && el.getRange(axis);
            if (range) {
                const start = lookupMethod(data, axis, value - range);
                const end = lookupMethod(data, axis, value + range);
                return {
                    lo: start.lo,
                    hi: end.hi
                };
            }
        }
    }
    return {
        lo: 0,
        hi: data.length - 1
    };
}
 function evaluateInteractionItems(chart, axis, position, handler, intersect) {
    const metasets = chart.getSortedVisibleDatasetMetas();
    const value = position[axis];
    for(let i = 0, ilen = metasets.length; i < ilen; ++i){
        const { index , data  } = metasets[i];
        const { lo , hi  } = binarySearch(metasets[i], axis, value, intersect);
        for(let j = lo; j <= hi; ++j){
            const element = data[j];
            if (!element.skip) {
                handler(element, index, j);
            }
        }
    }
}
 function getDistanceMetricForAxis(axis) {
    const useX = axis.indexOf('x') !== -1;
    const useY = axis.indexOf('y') !== -1;
    return function(pt1, pt2) {
        const deltaX = useX ? Math.abs(pt1.x - pt2.x) : 0;
        const deltaY = useY ? Math.abs(pt1.y - pt2.y) : 0;
        return Math.sqrt(Math.pow(deltaX, 2) + Math.pow(deltaY, 2));
    };
}
 function getIntersectItems(chart, position, axis, useFinalPosition, includeInvisible) {
    const items = [];
    if (!includeInvisible && !chart.isPointInArea(position)) {
        return items;
    }
    const evaluationFunc = function(element, datasetIndex, index) {
        if (!includeInvisible && !_isPointInArea(element, chart.chartArea, 0)) {
            return;
        }
        if (element.inRange(position.x, position.y, useFinalPosition)) {
            items.push({
                element,
                datasetIndex,
                index
            });
        }
    };
    evaluateInteractionItems(chart, axis, position, evaluationFunc, true);
    return items;
}
 function getNearestRadialItems(chart, position, axis, useFinalPosition) {
    let items = [];
    function evaluationFunc(element, datasetIndex, index) {
        const { startAngle , endAngle  } = element.getProps([
            'startAngle',
            'endAngle'
        ], useFinalPosition);
        const { angle  } = getAngleFromPoint(element, {
            x: position.x,
            y: position.y
        });
        if (_angleBetween(angle, startAngle, endAngle)) {
            items.push({
                element,
                datasetIndex,
                index
            });
        }
    }
    evaluateInteractionItems(chart, axis, position, evaluationFunc);
    return items;
}
 function getNearestCartesianItems(chart, position, axis, intersect, useFinalPosition, includeInvisible) {
    let items = [];
    const distanceMetric = getDistanceMetricForAxis(axis);
    let minDistance = Number.POSITIVE_INFINITY;
    function evaluationFunc(element, datasetIndex, index) {
        const inRange = element.inRange(position.x, position.y, useFinalPosition);
        if (intersect && !inRange) {
            return;
        }
        const center = element.getCenterPoint(useFinalPosition);
        const pointInArea = !!includeInvisible || chart.isPointInArea(center);
        if (!pointInArea && !inRange) {
            return;
        }
        const distance = distanceMetric(position, center);
        if (distance < minDistance) {
            items = [
                {
                    element,
                    datasetIndex,
                    index
                }
            ];
            minDistance = distance;
        } else if (distance === minDistance) {
            items.push({
                element,
                datasetIndex,
                index
            });
        }
    }
    evaluateInteractionItems(chart, axis, position, evaluationFunc);
    return items;
}
 function getNearestItems(chart, position, axis, intersect, useFinalPosition, includeInvisible) {
    if (!includeInvisible && !chart.isPointInArea(position)) {
        return [];
    }
    return axis === 'r' && !intersect ? getNearestRadialItems(chart, position, axis, useFinalPosition) : getNearestCartesianItems(chart, position, axis, intersect, useFinalPosition, includeInvisible);
}
 function getAxisItems(chart, position, axis, intersect, useFinalPosition) {
    const items = [];
    const rangeMethod = axis === 'x' ? 'inXRange' : 'inYRange';
    let intersectsItem = false;
    evaluateInteractionItems(chart, axis, position, (element, datasetIndex, index)=>{
        if (element[rangeMethod] && element[rangeMethod](position[axis], useFinalPosition)) {
            items.push({
                element,
                datasetIndex,
                index
            });
            intersectsItem = intersectsItem || element.inRange(position.x, position.y, useFinalPosition);
        }
    });
    if (intersect && !intersectsItem) {
        return [];
    }
    return items;
}
 var Interaction = {
    evaluateInteractionItems,
    modes: {
 index (chart, e, options, useFinalPosition) {
            const position = getRelativePosition(e, chart);
            const axis = options.axis || 'x';
            const includeInvisible = options.includeInvisible || false;
            const items = options.intersect ? getIntersectItems(chart, position, axis, useFinalPosition, includeInvisible) : getNearestItems(chart, position, axis, false, useFinalPosition, includeInvisible);
            const elements = [];
            if (!items.length) {
                return [];
            }
            chart.getSortedVisibleDatasetMetas().forEach((meta)=>{
                const index = items[0].index;
                const element = meta.data[index];
                if (element && !element.skip) {
                    elements.push({
                        element,
                        datasetIndex: meta.index,
                        index
                    });
                }
            });
            return elements;
        },
 dataset (chart, e, options, useFinalPosition) {
            const position = getRelativePosition(e, chart);
            const axis = options.axis || 'xy';
            const includeInvisible = options.includeInvisible || false;
            let items = options.intersect ? getIntersectItems(chart, position, axis, useFinalPosition, includeInvisible) : getNearestItems(chart, position, axis, false, useFinalPosition, includeInvisible);
            if (items.length > 0) {
                const datasetIndex = items[0].datasetIndex;
                const data = chart.getDatasetMeta(datasetIndex).data;
                items = [];
                for(let i = 0; i < data.length; ++i){
                    items.push({
                        element: data[i],
                        datasetIndex,
                        index: i
                    });
                }
            }
            return items;
        },
 point (chart, e, options, useFinalPosition) {
            const position = getRelativePosition(e, chart);
            const axis = options.axis || 'xy';
            const includeInvisible = options.includeInvisible || false;
            return getIntersectItems(chart, position, axis, useFinalPosition, includeInvisible);
        },
 nearest (chart, e, options, useFinalPosition) {
            const position = getRelativePosition(e, chart);
            const axis = options.axis || 'xy';
            const includeInvisible = options.includeInvisible || false;
            return getNearestItems(chart, position, axis, options.intersect, useFinalPosition, includeInvisible);
        },
 x (chart, e, options, useFinalPosition) {
            const position = getRelativePosition(e, chart);
            return getAxisItems(chart, position, 'x', options.intersect, useFinalPosition);
        },
 y (chart, e, options, useFinalPosition) {
            const position = getRelativePosition(e, chart);
            return getAxisItems(chart, position, 'y', options.intersect, useFinalPosition);
        }
    }
};

const STATIC_POSITIONS = [
    'left',
    'top',
    'right',
    'bottom'
];
function filterByPosition(array, position) {
    return array.filter((v)=>v.pos === position);
}
function filterDynamicPositionByAxis(array, axis) {
    return array.filter((v)=>STATIC_POSITIONS.indexOf(v.pos) === -1 && v.box.axis === axis);
}
function sortByWeight(array, reverse) {
    return array.sort((a, b)=>{
        const v0 = reverse ? b : a;
        const v1 = reverse ? a : b;
        return v0.weight === v1.weight ? v0.index - v1.index : v0.weight - v1.weight;
    });
}
function wrapBoxes(boxes) {
    const layoutBoxes = [];
    let i, ilen, box, pos, stack, stackWeight;
    for(i = 0, ilen = (boxes || []).length; i < ilen; ++i){
        box = boxes[i];
        ({ position: pos , options: { stack , stackWeight =1  }  } = box);
        layoutBoxes.push({
            index: i,
            box,
            pos,
            horizontal: box.isHorizontal(),
            weight: box.weight,
            stack: stack && pos + stack,
            stackWeight
        });
    }
    return layoutBoxes;
}
function buildStacks(layouts) {
    const stacks = {};
    for (const wrap of layouts){
        const { stack , pos , stackWeight  } = wrap;
        if (!stack || !STATIC_POSITIONS.includes(pos)) {
            continue;
        }
        const _stack = stacks[stack] || (stacks[stack] = {
            count: 0,
            placed: 0,
            weight: 0,
            size: 0
        });
        _stack.count++;
        _stack.weight += stackWeight;
    }
    return stacks;
}
 function setLayoutDims(layouts, params) {
    const stacks = buildStacks(layouts);
    const { vBoxMaxWidth , hBoxMaxHeight  } = params;
    let i, ilen, layout;
    for(i = 0, ilen = layouts.length; i < ilen; ++i){
        layout = layouts[i];
        const { fullSize  } = layout.box;
        const stack = stacks[layout.stack];
        const factor = stack && layout.stackWeight / stack.weight;
        if (layout.horizontal) {
            layout.width = factor ? factor * vBoxMaxWidth : fullSize && params.availableWidth;
            layout.height = hBoxMaxHeight;
        } else {
            layout.width = vBoxMaxWidth;
            layout.height = factor ? factor * hBoxMaxHeight : fullSize && params.availableHeight;
        }
    }
    return stacks;
}
function buildLayoutBoxes(boxes) {
    const layoutBoxes = wrapBoxes(boxes);
    const fullSize = sortByWeight(layoutBoxes.filter((wrap)=>wrap.box.fullSize), true);
    const left = sortByWeight(filterByPosition(layoutBoxes, 'left'), true);
    const right = sortByWeight(filterByPosition(layoutBoxes, 'right'));
    const top = sortByWeight(filterByPosition(layoutBoxes, 'top'), true);
    const bottom = sortByWeight(filterByPosition(layoutBoxes, 'bottom'));
    const centerHorizontal = filterDynamicPositionByAxis(layoutBoxes, 'x');
    const centerVertical = filterDynamicPositionByAxis(layoutBoxes, 'y');
    return {
        fullSize,
        leftAndTop: left.concat(top),
        rightAndBottom: right.concat(centerVertical).concat(bottom).concat(centerHorizontal),
        chartArea: filterByPosition(layoutBoxes, 'chartArea'),
        vertical: left.concat(right).concat(centerVertical),
        horizontal: top.concat(bottom).concat(centerHorizontal)
    };
}
function getCombinedMax(maxPadding, chartArea, a, b) {
    return Math.max(maxPadding[a], chartArea[a]) + Math.max(maxPadding[b], chartArea[b]);
}
function updateMaxPadding(maxPadding, boxPadding) {
    maxPadding.top = Math.max(maxPadding.top, boxPadding.top);
    maxPadding.left = Math.max(maxPadding.left, boxPadding.left);
    maxPadding.bottom = Math.max(maxPadding.bottom, boxPadding.bottom);
    maxPadding.right = Math.max(maxPadding.right, boxPadding.right);
}
function updateDims(chartArea, params, layout, stacks) {
    const { pos , box  } = layout;
    const maxPadding = chartArea.maxPadding;
    if (!isObject(pos)) {
        if (layout.size) {
            chartArea[pos] -= layout.size;
        }
        const stack = stacks[layout.stack] || {
            size: 0,
            count: 1
        };
        stack.size = Math.max(stack.size, layout.horizontal ? box.height : box.width);
        layout.size = stack.size / stack.count;
        chartArea[pos] += layout.size;
    }
    if (box.getPadding) {
        updateMaxPadding(maxPadding, box.getPadding());
    }
    const newWidth = Math.max(0, params.outerWidth - getCombinedMax(maxPadding, chartArea, 'left', 'right'));
    const newHeight = Math.max(0, params.outerHeight - getCombinedMax(maxPadding, chartArea, 'top', 'bottom'));
    const widthChanged = newWidth !== chartArea.w;
    const heightChanged = newHeight !== chartArea.h;
    chartArea.w = newWidth;
    chartArea.h = newHeight;
    return layout.horizontal ? {
        same: widthChanged,
        other: heightChanged
    } : {
        same: heightChanged,
        other: widthChanged
    };
}
function handleMaxPadding(chartArea) {
    const maxPadding = chartArea.maxPadding;
    function updatePos(pos) {
        const change = Math.max(maxPadding[pos] - chartArea[pos], 0);
        chartArea[pos] += change;
        return change;
    }
    chartArea.y += updatePos('top');
    chartArea.x += updatePos('left');
    updatePos('right');
    updatePos('bottom');
}
function getMargins(horizontal, chartArea) {
    const maxPadding = chartArea.maxPadding;
    function marginForPositions(positions) {
        const margin = {
            left: 0,
            top: 0,
            right: 0,
            bottom: 0
        };
        positions.forEach((pos)=>{
            margin[pos] = Math.max(chartArea[pos], maxPadding[pos]);
        });
        return margin;
    }
    return horizontal ? marginForPositions([
        'left',
        'right'
    ]) : marginForPositions([
        'top',
        'bottom'
    ]);
}
function fitBoxes(boxes, chartArea, params, stacks) {
    const refitBoxes = [];
    let i, ilen, layout, box, refit, changed;
    for(i = 0, ilen = boxes.length, refit = 0; i < ilen; ++i){
        layout = boxes[i];
        box = layout.box;
        box.update(layout.width || chartArea.w, layout.height || chartArea.h, getMargins(layout.horizontal, chartArea));
        const { same , other  } = updateDims(chartArea, params, layout, stacks);
        refit |= same && refitBoxes.length;
        changed = changed || other;
        if (!box.fullSize) {
            refitBoxes.push(layout);
        }
    }
    return refit && fitBoxes(refitBoxes, chartArea, params, stacks) || changed;
}
function setBoxDims(box, left, top, width, height) {
    box.top = top;
    box.left = left;
    box.right = left + width;
    box.bottom = top + height;
    box.width = width;
    box.height = height;
}
function placeBoxes(boxes, chartArea, params, stacks) {
    const userPadding = params.padding;
    let { x , y  } = chartArea;
    for (const layout of boxes){
        const box = layout.box;
        const stack = stacks[layout.stack] || {
            count: 1,
            placed: 0,
            weight: 1
        };
        const weight = layout.stackWeight / stack.weight || 1;
        if (layout.horizontal) {
            const width = chartArea.w * weight;
            const height = stack.size || box.height;
            if (defined(stack.start)) {
                y = stack.start;
            }
            if (box.fullSize) {
                setBoxDims(box, userPadding.left, y, params.outerWidth - userPadding.right - userPadding.left, height);
            } else {
                setBoxDims(box, chartArea.left + stack.placed, y, width, height);
            }
            stack.start = y;
            stack.placed += width;
            y = box.bottom;
        } else {
            const height = chartArea.h * weight;
            const width = stack.size || box.width;
            if (defined(stack.start)) {
                x = stack.start;
            }
            if (box.fullSize) {
                setBoxDims(box, x, userPadding.top, width, params.outerHeight - userPadding.bottom - userPadding.top);
            } else {
                setBoxDims(box, x, chartArea.top + stack.placed, width, height);
            }
            stack.start = x;
            stack.placed += height;
            x = box.right;
        }
    }
    chartArea.x = x;
    chartArea.y = y;
}
var layouts = {
 addBox (chart, item) {
        if (!chart.boxes) {
            chart.boxes = [];
        }
        item.fullSize = item.fullSize || false;
        item.position = item.position || 'top';
        item.weight = item.weight || 0;
        item._layers = item._layers || function() {
            return [
                {
                    z: 0,
                    draw (chartArea) {
                        item.draw(chartArea);
                    }
                }
            ];
        };
        chart.boxes.push(item);
    },
 removeBox (chart, layoutItem) {
        const index = chart.boxes ? chart.boxes.indexOf(layoutItem) : -1;
        if (index !== -1) {
            chart.boxes.splice(index, 1);
        }
    },
 configure (chart, item, options) {
        item.fullSize = options.fullSize;
        item.position = options.position;
        item.weight = options.weight;
    },
 update (chart, width, height, minPadding) {
        if (!chart) {
            return;
        }
        const padding = toPadding(chart.options.layout.padding);
        const availableWidth = Math.max(width - padding.width, 0);
        const availableHeight = Math.max(height - padding.height, 0);
        const boxes = buildLayoutBoxes(chart.boxes);
        const verticalBoxes = boxes.vertical;
        const horizontalBoxes = boxes.horizontal;
        each(chart.boxes, (box)=>{
            if (typeof box.beforeLayout === 'function') {
                box.beforeLayout();
            }
        });
        const visibleVerticalBoxCount = verticalBoxes.reduce((total, wrap)=>wrap.box.options && wrap.box.options.display === false ? total : total + 1, 0) || 1;
        const params = Object.freeze({
            outerWidth: width,
            outerHeight: height,
            padding,
            availableWidth,
            availableHeight,
            vBoxMaxWidth: availableWidth / 2 / visibleVerticalBoxCount,
            hBoxMaxHeight: availableHeight / 2
        });
        const maxPadding = Object.assign({}, padding);
        updateMaxPadding(maxPadding, toPadding(minPadding));
        const chartArea = Object.assign({
            maxPadding,
            w: availableWidth,
            h: availableHeight,
            x: padding.left,
            y: padding.top
        }, padding);
        const stacks = setLayoutDims(verticalBoxes.concat(horizontalBoxes), params);
        fitBoxes(boxes.fullSize, chartArea, params, stacks);
        fitBoxes(verticalBoxes, chartArea, params, stacks);
        if (fitBoxes(horizontalBoxes, chartArea, params, stacks)) {
            fitBoxes(verticalBoxes, chartArea, params, stacks);
        }
        handleMaxPadding(chartArea);
        placeBoxes(boxes.leftAndTop, chartArea, params, stacks);
        chartArea.x += chartArea.w;
        chartArea.y += chartArea.h;
        placeBoxes(boxes.rightAndBottom, chartArea, params, stacks);
        chart.chartArea = {
            left: chartArea.left,
            top: chartArea.top,
            right: chartArea.left + chartArea.w,
            bottom: chartArea.top + chartArea.h,
            height: chartArea.h,
            width: chartArea.w
        };
        each(boxes.chartArea, (layout)=>{
            const box = layout.box;
            Object.assign(box, chart.chartArea);
            box.update(chartArea.w, chartArea.h, {
                left: 0,
                top: 0,
                right: 0,
                bottom: 0
            });
        });
    }
};

class BasePlatform {
 acquireContext(canvas, aspectRatio) {}
 releaseContext(context) {
        return false;
    }
 addEventListener(chart, type, listener) {}
 removeEventListener(chart, type, listener) {}
 getDevicePixelRatio() {
        return 1;
    }
 getMaximumSize(element, width, height, aspectRatio) {
        width = Math.max(0, width || element.width);
        height = height || element.height;
        return {
            width,
            height: Math.max(0, aspectRatio ? Math.floor(width / aspectRatio) : height)
        };
    }
 isAttached(canvas) {
        return true;
    }
 updateConfig(config) {
    }
}

class BasicPlatform extends BasePlatform {
    acquireContext(item) {
        return item && item.getContext && item.getContext('2d') || null;
    }
    updateConfig(config) {
        config.options.animation = false;
    }
}

const EXPANDO_KEY = '$chartjs';
 const EVENT_TYPES = {
    touchstart: 'mousedown',
    touchmove: 'mousemove',
    touchend: 'mouseup',
    pointerenter: 'mouseenter',
    pointerdown: 'mousedown',
    pointermove: 'mousemove',
    pointerup: 'mouseup',
    pointerleave: 'mouseout',
    pointerout: 'mouseout'
};
const isNullOrEmpty = (value)=>value === null || value === '';
 function initCanvas(canvas, aspectRatio) {
    const style = canvas.style;
    const renderHeight = canvas.getAttribute('height');
    const renderWidth = canvas.getAttribute('width');
    canvas[EXPANDO_KEY] = {
        initial: {
            height: renderHeight,
            width: renderWidth,
            style: {
                display: style.display,
                height: style.height,
                width: style.width
            }
        }
    };
    style.display = style.display || 'block';
    style.boxSizing = style.boxSizing || 'border-box';
    if (isNullOrEmpty(renderWidth)) {
        const displayWidth = readUsedSize(canvas, 'width');
        if (displayWidth !== undefined) {
            canvas.width = displayWidth;
        }
    }
    if (isNullOrEmpty(renderHeight)) {
        if (canvas.style.height === '') {
            canvas.height = canvas.width / (aspectRatio || 2);
        } else {
            const displayHeight = readUsedSize(canvas, 'height');
            if (displayHeight !== undefined) {
                canvas.height = displayHeight;
            }
        }
    }
    return canvas;
}
const eventListenerOptions = supportsEventListenerOptions ? {
    passive: true
} : false;
function addListener(node, type, listener) {
    if (node) {
        node.addEventListener(type, listener, eventListenerOptions);
    }
}
function removeListener(chart, type, listener) {
    if (chart && chart.canvas) {
        chart.canvas.removeEventListener(type, listener, eventListenerOptions);
    }
}
function fromNativeEvent(event, chart) {
    const type = EVENT_TYPES[event.type] || event.type;
    const { x , y  } = getRelativePosition(event, chart);
    return {
        type,
        chart,
        native: event,
        x: x !== undefined ? x : null,
        y: y !== undefined ? y : null
    };
}
function nodeListContains(nodeList, canvas) {
    for (const node of nodeList){
        if (node === canvas || node.contains(canvas)) {
            return true;
        }
    }
}
function createAttachObserver(chart, type, listener) {
    const canvas = chart.canvas;
    const observer = new MutationObserver((entries)=>{
        let trigger = false;
        for (const entry of entries){
            trigger = trigger || nodeListContains(entry.addedNodes, canvas);
            trigger = trigger && !nodeListContains(entry.removedNodes, canvas);
        }
        if (trigger) {
            listener();
        }
    });
    observer.observe(document, {
        childList: true,
        subtree: true
    });
    return observer;
}
function createDetachObserver(chart, type, listener) {
    const canvas = chart.canvas;
    const observer = new MutationObserver((entries)=>{
        let trigger = false;
        for (const entry of entries){
            trigger = trigger || nodeListContains(entry.removedNodes, canvas);
            trigger = trigger && !nodeListContains(entry.addedNodes, canvas);
        }
        if (trigger) {
            listener();
        }
    });
    observer.observe(document, {
        childList: true,
        subtree: true
    });
    return observer;
}
const drpListeningCharts = new Map();
let oldDevicePixelRatio = 0;
function onWindowResize() {
    const dpr = window.devicePixelRatio;
    if (dpr === oldDevicePixelRatio) {
        return;
    }
    oldDevicePixelRatio = dpr;
    drpListeningCharts.forEach((resize, chart)=>{
        if (chart.currentDevicePixelRatio !== dpr) {
            resize();
        }
    });
}
function listenDevicePixelRatioChanges(chart, resize) {
    if (!drpListeningCharts.size) {
        window.addEventListener('resize', onWindowResize);
    }
    drpListeningCharts.set(chart, resize);
}
function unlistenDevicePixelRatioChanges(chart) {
    drpListeningCharts.delete(chart);
    if (!drpListeningCharts.size) {
        window.removeEventListener('resize', onWindowResize);
    }
}
function createResizeObserver(chart, type, listener) {
    const canvas = chart.canvas;
    const container = canvas && _getParentNode(canvas);
    if (!container) {
        return;
    }
    const resize = throttled((width, height)=>{
        const w = container.clientWidth;
        listener(width, height);
        if (w < container.clientWidth) {
            listener();
        }
    }, window);
    const observer = new ResizeObserver((entries)=>{
        const entry = entries[0];
        const width = entry.contentRect.width;
        const height = entry.contentRect.height;
        if (width === 0 && height === 0) {
            return;
        }
        resize(width, height);
    });
    observer.observe(container);
    listenDevicePixelRatioChanges(chart, resize);
    return observer;
}
function releaseObserver(chart, type, observer) {
    if (observer) {
        observer.disconnect();
    }
    if (type === 'resize') {
        unlistenDevicePixelRatioChanges(chart);
    }
}
function createProxyAndListen(chart, type, listener) {
    const canvas = chart.canvas;
    const proxy = throttled((event)=>{
        if (chart.ctx !== null) {
            listener(fromNativeEvent(event, chart));
        }
    }, chart);
    addListener(canvas, type, proxy);
    return proxy;
}
 class DomPlatform extends BasePlatform {
 acquireContext(canvas, aspectRatio) {
        const context = canvas && canvas.getContext && canvas.getContext('2d');
        if (context && context.canvas === canvas) {
            initCanvas(canvas, aspectRatio);
            return context;
        }
        return null;
    }
 releaseContext(context) {
        const canvas = context.canvas;
        if (!canvas[EXPANDO_KEY]) {
            return false;
        }
        const initial = canvas[EXPANDO_KEY].initial;
        [
            'height',
            'width'
        ].forEach((prop)=>{
            const value = initial[prop];
            if (isNullOrUndef(value)) {
                canvas.removeAttribute(prop);
            } else {
                canvas.setAttribute(prop, value);
            }
        });
        const style = initial.style || {};
        Object.keys(style).forEach((key)=>{
            canvas.style[key] = style[key];
        });
        canvas.width = canvas.width;
        delete canvas[EXPANDO_KEY];
        return true;
    }
 addEventListener(chart, type, listener) {
        this.removeEventListener(chart, type);
        const proxies = chart.$proxies || (chart.$proxies = {});
        const handlers = {
            attach: createAttachObserver,
            detach: createDetachObserver,
            resize: createResizeObserver
        };
        const handler = handlers[type] || createProxyAndListen;
        proxies[type] = handler(chart, type, listener);
    }
 removeEventListener(chart, type) {
        const proxies = chart.$proxies || (chart.$proxies = {});
        const proxy = proxies[type];
        if (!proxy) {
            return;
        }
        const handlers = {
            attach: releaseObserver,
            detach: releaseObserver,
            resize: releaseObserver
        };
        const handler = handlers[type] || removeListener;
        handler(chart, type, proxy);
        proxies[type] = undefined;
    }
    getDevicePixelRatio() {
        return window.devicePixelRatio;
    }
 getMaximumSize(canvas, width, height, aspectRatio) {
        return getMaximumSize(canvas, width, height, aspectRatio);
    }
 isAttached(canvas) {
        const container = canvas && _getParentNode(canvas);
        return !!(container && container.isConnected);
    }
}

function _detectPlatform(canvas) {
    if (!_isDomSupported() || typeof OffscreenCanvas !== 'undefined' && canvas instanceof OffscreenCanvas) {
        return BasicPlatform;
    }
    return DomPlatform;
}

class Element {
    static defaults = {};
    static defaultRoutes = undefined;
    x;
    y;
    active = false;
    options;
    $animations;
    tooltipPosition(useFinalPosition) {
        const { x , y  } = this.getProps([
            'x',
            'y'
        ], useFinalPosition);
        return {
            x,
            y
        };
    }
    hasValue() {
        return isNumber(this.x) && isNumber(this.y);
    }
    getProps(props, final) {
        const anims = this.$animations;
        if (!final || !anims) {
            // let's not create an object, if not needed
            return this;
        }
        const ret = {};
        props.forEach((prop)=>{
            ret[prop] = anims[prop] && anims[prop].active() ? anims[prop]._to : this[prop];
        });
        return ret;
    }
}

function autoSkip(scale, ticks) {
    const tickOpts = scale.options.ticks;
    const determinedMaxTicks = determineMaxTicks(scale);
    const ticksLimit = Math.min(tickOpts.maxTicksLimit || determinedMaxTicks, determinedMaxTicks);
    const majorIndices = tickOpts.major.enabled ? getMajorIndices(ticks) : [];
    const numMajorIndices = majorIndices.length;
    const first = majorIndices[0];
    const last = majorIndices[numMajorIndices - 1];
    const newTicks = [];
    if (numMajorIndices > ticksLimit) {
        skipMajors(ticks, newTicks, majorIndices, numMajorIndices / ticksLimit);
        return newTicks;
    }
    const spacing = calculateSpacing(majorIndices, ticks, ticksLimit);
    if (numMajorIndices > 0) {
        let i, ilen;
        const avgMajorSpacing = numMajorIndices > 1 ? Math.round((last - first) / (numMajorIndices - 1)) : null;
        skip(ticks, newTicks, spacing, isNullOrUndef(avgMajorSpacing) ? 0 : first - avgMajorSpacing, first);
        for(i = 0, ilen = numMajorIndices - 1; i < ilen; i++){
            skip(ticks, newTicks, spacing, majorIndices[i], majorIndices[i + 1]);
        }
        skip(ticks, newTicks, spacing, last, isNullOrUndef(avgMajorSpacing) ? ticks.length : last + avgMajorSpacing);
        return newTicks;
    }
    skip(ticks, newTicks, spacing);
    return newTicks;
}
function determineMaxTicks(scale) {
    const offset = scale.options.offset;
    const tickLength = scale._tickSize();
    const maxScale = scale._length / tickLength + (offset ? 0 : 1);
    const maxChart = scale._maxLength / tickLength;
    return Math.floor(Math.min(maxScale, maxChart));
}
 function calculateSpacing(majorIndices, ticks, ticksLimit) {
    const evenMajorSpacing = getEvenSpacing(majorIndices);
    const spacing = ticks.length / ticksLimit;
    if (!evenMajorSpacing) {
        return Math.max(spacing, 1);
    }
    const factors = _factorize(evenMajorSpacing);
    for(let i = 0, ilen = factors.length - 1; i < ilen; i++){
        const factor = factors[i];
        if (factor > spacing) {
            return factor;
        }
    }
    return Math.max(spacing, 1);
}
 function getMajorIndices(ticks) {
    const result = [];
    let i, ilen;
    for(i = 0, ilen = ticks.length; i < ilen; i++){
        if (ticks[i].major) {
            result.push(i);
        }
    }
    return result;
}
 function skipMajors(ticks, newTicks, majorIndices, spacing) {
    let count = 0;
    let next = majorIndices[0];
    let i;
    spacing = Math.ceil(spacing);
    for(i = 0; i < ticks.length; i++){
        if (i === next) {
            newTicks.push(ticks[i]);
            count++;
            next = majorIndices[count * spacing];
        }
    }
}
 function skip(ticks, newTicks, spacing, majorStart, majorEnd) {
    const start = valueOrDefault(majorStart, 0);
    const end = Math.min(valueOrDefault(majorEnd, ticks.length), ticks.length);
    let count = 0;
    let length, i, next;
    spacing = Math.ceil(spacing);
    if (majorEnd) {
        length = majorEnd - majorStart;
        spacing = length / Math.floor(length / spacing);
    }
    next = start;
    while(next < 0){
        count++;
        next = Math.round(start + count * spacing);
    }
    for(i = Math.max(start, 0); i < end; i++){
        if (i === next) {
            newTicks.push(ticks[i]);
            count++;
            next = Math.round(start + count * spacing);
        }
    }
}
 function getEvenSpacing(arr) {
    const len = arr.length;
    let i, diff;
    if (len < 2) {
        return false;
    }
    for(diff = arr[0], i = 1; i < len; ++i){
        if (arr[i] - arr[i - 1] !== diff) {
            return false;
        }
    }
    return diff;
}

const reverseAlign = (align)=>align === 'left' ? 'right' : align === 'right' ? 'left' : align;
const offsetFromEdge = (scale, edge, offset)=>edge === 'top' || edge === 'left' ? scale[edge] + offset : scale[edge] - offset;
const getTicksLimit = (ticksLength, maxTicksLimit)=>Math.min(maxTicksLimit || ticksLength, ticksLength);
 function sample(arr, numItems) {
    const result = [];
    const increment = arr.length / numItems;
    const len = arr.length;
    let i = 0;
    for(; i < len; i += increment){
        result.push(arr[Math.floor(i)]);
    }
    return result;
}
 function getPixelForGridLine(scale, index, offsetGridLines) {
    const length = scale.ticks.length;
    const validIndex = Math.min(index, length - 1);
    const start = scale._startPixel;
    const end = scale._endPixel;
    const epsilon = 1e-6;
    let lineValue = scale.getPixelForTick(validIndex);
    let offset;
    if (offsetGridLines) {
        if (length === 1) {
            offset = Math.max(lineValue - start, end - lineValue);
        } else if (index === 0) {
            offset = (scale.getPixelForTick(1) - lineValue) / 2;
        } else {
            offset = (lineValue - scale.getPixelForTick(validIndex - 1)) / 2;
        }
        lineValue += validIndex < index ? offset : -offset;
        if (lineValue < start - epsilon || lineValue > end + epsilon) {
            return;
        }
    }
    return lineValue;
}
 function garbageCollect(caches, length) {
    each(caches, (cache)=>{
        const gc = cache.gc;
        const gcLen = gc.length / 2;
        let i;
        if (gcLen > length) {
            for(i = 0; i < gcLen; ++i){
                delete cache.data[gc[i]];
            }
            gc.splice(0, gcLen);
        }
    });
}
 function getTickMarkLength(options) {
    return options.drawTicks ? options.tickLength : 0;
}
 function getTitleHeight(options, fallback) {
    if (!options.display) {
        return 0;
    }
    const font = toFont(options.font, fallback);
    const padding = toPadding(options.padding);
    const lines = isArray(options.text) ? options.text.length : 1;
    return lines * font.lineHeight + padding.height;
}
function createScaleContext(parent, scale) {
    return createContext(parent, {
        scale,
        type: 'scale'
    });
}
function createTickContext(parent, index, tick) {
    return createContext(parent, {
        tick,
        index,
        type: 'tick'
    });
}
function titleAlign(align, position, reverse) {
     let ret = _toLeftRightCenter(align);
    if (reverse && position !== 'right' || !reverse && position === 'right') {
        ret = reverseAlign(ret);
    }
    return ret;
}
function titleArgs(scale, offset, position, align) {
    const { top , left , bottom , right , chart  } = scale;
    const { chartArea , scales  } = chart;
    let rotation = 0;
    let maxWidth, titleX, titleY;
    const height = bottom - top;
    const width = right - left;
    if (scale.isHorizontal()) {
        titleX = _alignStartEnd(align, left, right);
        if (isObject(position)) {
            const positionAxisID = Object.keys(position)[0];
            const value = position[positionAxisID];
            titleY = scales[positionAxisID].getPixelForValue(value) + height - offset;
        } else if (position === 'center') {
            titleY = (chartArea.bottom + chartArea.top) / 2 + height - offset;
        } else {
            titleY = offsetFromEdge(scale, position, offset);
        }
        maxWidth = right - left;
    } else {
        if (isObject(position)) {
            const positionAxisID = Object.keys(position)[0];
            const value = position[positionAxisID];
            titleX = scales[positionAxisID].getPixelForValue(value) - width + offset;
        } else if (position === 'center') {
            titleX = (chartArea.left + chartArea.right) / 2 - width + offset;
        } else {
            titleX = offsetFromEdge(scale, position, offset);
        }
        titleY = _alignStartEnd(align, bottom, top);
        rotation = position === 'left' ? -HALF_PI : HALF_PI;
    }
    return {
        titleX,
        titleY,
        maxWidth,
        rotation
    };
}
class Scale extends Element {
    constructor(cfg){
        super();
         this.id = cfg.id;
         this.type = cfg.type;
         this.options = undefined;
         this.ctx = cfg.ctx;
         this.chart = cfg.chart;
         this.top = undefined;
         this.bottom = undefined;
         this.left = undefined;
         this.right = undefined;
         this.width = undefined;
         this.height = undefined;
        this._margins = {
            left: 0,
            right: 0,
            top: 0,
            bottom: 0
        };
         this.maxWidth = undefined;
         this.maxHeight = undefined;
         this.paddingTop = undefined;
         this.paddingBottom = undefined;
         this.paddingLeft = undefined;
         this.paddingRight = undefined;
         this.axis = undefined;
         this.labelRotation = undefined;
        this.min = undefined;
        this.max = undefined;
        this._range = undefined;
         this.ticks = [];
         this._gridLineItems = null;
         this._labelItems = null;
         this._labelSizes = null;
        this._length = 0;
        this._maxLength = 0;
        this._longestTextCache = {};
         this._startPixel = undefined;
         this._endPixel = undefined;
        this._reversePixels = false;
        this._userMax = undefined;
        this._userMin = undefined;
        this._suggestedMax = undefined;
        this._suggestedMin = undefined;
        this._ticksLength = 0;
        this._borderValue = 0;
        this._cache = {};
        this._dataLimitsCached = false;
        this.$context = undefined;
    }
 init(options) {
        this.options = options.setContext(this.getContext());
        this.axis = options.axis;
        this._userMin = this.parse(options.min);
        this._userMax = this.parse(options.max);
        this._suggestedMin = this.parse(options.suggestedMin);
        this._suggestedMax = this.parse(options.suggestedMax);
    }
 parse(raw, index) {
        return raw;
    }
 getUserBounds() {
        let { _userMin , _userMax , _suggestedMin , _suggestedMax  } = this;
        _userMin = finiteOrDefault(_userMin, Number.POSITIVE_INFINITY);
        _userMax = finiteOrDefault(_userMax, Number.NEGATIVE_INFINITY);
        _suggestedMin = finiteOrDefault(_suggestedMin, Number.POSITIVE_INFINITY);
        _suggestedMax = finiteOrDefault(_suggestedMax, Number.NEGATIVE_INFINITY);
        return {
            min: finiteOrDefault(_userMin, _suggestedMin),
            max: finiteOrDefault(_userMax, _suggestedMax),
            minDefined: isNumberFinite(_userMin),
            maxDefined: isNumberFinite(_userMax)
        };
    }
 getMinMax(canStack) {
        let { min , max , minDefined , maxDefined  } = this.getUserBounds();
        let range;
        if (minDefined && maxDefined) {
            return {
                min,
                max
            };
        }
        const metas = this.getMatchingVisibleMetas();
        for(let i = 0, ilen = metas.length; i < ilen; ++i){
            range = metas[i].controller.getMinMax(this, canStack);
            if (!minDefined) {
                min = Math.min(min, range.min);
            }
            if (!maxDefined) {
                max = Math.max(max, range.max);
            }
        }
        min = maxDefined && min > max ? max : min;
        max = minDefined && min > max ? min : max;
        return {
            min: finiteOrDefault(min, finiteOrDefault(max, min)),
            max: finiteOrDefault(max, finiteOrDefault(min, max))
        };
    }
 getPadding() {
        return {
            left: this.paddingLeft || 0,
            top: this.paddingTop || 0,
            right: this.paddingRight || 0,
            bottom: this.paddingBottom || 0
        };
    }
 getTicks() {
        return this.ticks;
    }
 getLabels() {
        const data = this.chart.data;
        return this.options.labels || (this.isHorizontal() ? data.xLabels : data.yLabels) || data.labels || [];
    }
 getLabelItems(chartArea = this.chart.chartArea) {
        const items = this._labelItems || (this._labelItems = this._computeLabelItems(chartArea));
        return items;
    }
    beforeLayout() {
        this._cache = {};
        this._dataLimitsCached = false;
    }
    beforeUpdate() {
        callback(this.options.beforeUpdate, [
            this
        ]);
    }
 update(maxWidth, maxHeight, margins) {
        const { beginAtZero , grace , ticks: tickOpts  } = this.options;
        const sampleSize = tickOpts.sampleSize;
        this.beforeUpdate();
        this.maxWidth = maxWidth;
        this.maxHeight = maxHeight;
        this._margins = margins = Object.assign({
            left: 0,
            right: 0,
            top: 0,
            bottom: 0
        }, margins);
        this.ticks = null;
        this._labelSizes = null;
        this._gridLineItems = null;
        this._labelItems = null;
        this.beforeSetDimensions();
        this.setDimensions();
        this.afterSetDimensions();
        this._maxLength = this.isHorizontal() ? this.width + margins.left + margins.right : this.height + margins.top + margins.bottom;
        if (!this._dataLimitsCached) {
            this.beforeDataLimits();
            this.determineDataLimits();
            this.afterDataLimits();
            this._range = _addGrace(this, grace, beginAtZero);
            this._dataLimitsCached = true;
        }
        this.beforeBuildTicks();
        this.ticks = this.buildTicks() || [];
        this.afterBuildTicks();
        const samplingEnabled = sampleSize < this.ticks.length;
        this._convertTicksToLabels(samplingEnabled ? sample(this.ticks, sampleSize) : this.ticks);
        this.configure();
        this.beforeCalculateLabelRotation();
        this.calculateLabelRotation();
        this.afterCalculateLabelRotation();
        if (tickOpts.display && (tickOpts.autoSkip || tickOpts.source === 'auto')) {
            this.ticks = autoSkip(this, this.ticks);
            this._labelSizes = null;
            this.afterAutoSkip();
        }
        if (samplingEnabled) {
            this._convertTicksToLabels(this.ticks);
        }
        this.beforeFit();
        this.fit();
        this.afterFit();
        this.afterUpdate();
    }
 configure() {
        let reversePixels = this.options.reverse;
        let startPixel, endPixel;
        if (this.isHorizontal()) {
            startPixel = this.left;
            endPixel = this.right;
        } else {
            startPixel = this.top;
            endPixel = this.bottom;
            reversePixels = !reversePixels;
        }
        this._startPixel = startPixel;
        this._endPixel = endPixel;
        this._reversePixels = reversePixels;
        this._length = endPixel - startPixel;
        this._alignToPixels = this.options.alignToPixels;
    }
    afterUpdate() {
        callback(this.options.afterUpdate, [
            this
        ]);
    }
    beforeSetDimensions() {
        callback(this.options.beforeSetDimensions, [
            this
        ]);
    }
    setDimensions() {
        if (this.isHorizontal()) {
            this.width = this.maxWidth;
            this.left = 0;
            this.right = this.width;
        } else {
            this.height = this.maxHeight;
            this.top = 0;
            this.bottom = this.height;
        }
        this.paddingLeft = 0;
        this.paddingTop = 0;
        this.paddingRight = 0;
        this.paddingBottom = 0;
    }
    afterSetDimensions() {
        callback(this.options.afterSetDimensions, [
            this
        ]);
    }
    _callHooks(name) {
        this.chart.notifyPlugins(name, this.getContext());
        callback(this.options[name], [
            this
        ]);
    }
    beforeDataLimits() {
        this._callHooks('beforeDataLimits');
    }
    determineDataLimits() {}
    afterDataLimits() {
        this._callHooks('afterDataLimits');
    }
    beforeBuildTicks() {
        this._callHooks('beforeBuildTicks');
    }
 buildTicks() {
        return [];
    }
    afterBuildTicks() {
        this._callHooks('afterBuildTicks');
    }
    beforeTickToLabelConversion() {
        callback(this.options.beforeTickToLabelConversion, [
            this
        ]);
    }
 generateTickLabels(ticks) {
        const tickOpts = this.options.ticks;
        let i, ilen, tick;
        for(i = 0, ilen = ticks.length; i < ilen; i++){
            tick = ticks[i];
            tick.label = callback(tickOpts.callback, [
                tick.value,
                i,
                ticks
            ], this);
        }
    }
    afterTickToLabelConversion() {
        callback(this.options.afterTickToLabelConversion, [
            this
        ]);
    }
    beforeCalculateLabelRotation() {
        callback(this.options.beforeCalculateLabelRotation, [
            this
        ]);
    }
    calculateLabelRotation() {
        const options = this.options;
        const tickOpts = options.ticks;
        const numTicks = getTicksLimit(this.ticks.length, options.ticks.maxTicksLimit);
        const minRotation = tickOpts.minRotation || 0;
        const maxRotation = tickOpts.maxRotation;
        let labelRotation = minRotation;
        let tickWidth, maxHeight, maxLabelDiagonal;
        if (!this._isVisible() || !tickOpts.display || minRotation >= maxRotation || numTicks <= 1 || !this.isHorizontal()) {
            this.labelRotation = minRotation;
            return;
        }
        const labelSizes = this._getLabelSizes();
        const maxLabelWidth = labelSizes.widest.width;
        const maxLabelHeight = labelSizes.highest.height;
        const maxWidth = _limitValue(this.chart.width - maxLabelWidth, 0, this.maxWidth);
        tickWidth = options.offset ? this.maxWidth / numTicks : maxWidth / (numTicks - 1);
        if (maxLabelWidth + 6 > tickWidth) {
            tickWidth = maxWidth / (numTicks - (options.offset ? 0.5 : 1));
            maxHeight = this.maxHeight - getTickMarkLength(options.grid) - tickOpts.padding - getTitleHeight(options.title, this.chart.options.font);
            maxLabelDiagonal = Math.sqrt(maxLabelWidth * maxLabelWidth + maxLabelHeight * maxLabelHeight);
            labelRotation = toDegrees(Math.min(Math.asin(_limitValue((labelSizes.highest.height + 6) / tickWidth, -1, 1)), Math.asin(_limitValue(maxHeight / maxLabelDiagonal, -1, 1)) - Math.asin(_limitValue(maxLabelHeight / maxLabelDiagonal, -1, 1))));
            labelRotation = Math.max(minRotation, Math.min(maxRotation, labelRotation));
        }
        this.labelRotation = labelRotation;
    }
    afterCalculateLabelRotation() {
        callback(this.options.afterCalculateLabelRotation, [
            this
        ]);
    }
    afterAutoSkip() {}
    beforeFit() {
        callback(this.options.beforeFit, [
            this
        ]);
    }
    fit() {
        const minSize = {
            width: 0,
            height: 0
        };
        const { chart , options: { ticks: tickOpts , title: titleOpts , grid: gridOpts  }  } = this;
        const display = this._isVisible();
        const isHorizontal = this.isHorizontal();
        if (display) {
            const titleHeight = getTitleHeight(titleOpts, chart.options.font);
            if (isHorizontal) {
                minSize.width = this.maxWidth;
                minSize.height = getTickMarkLength(gridOpts) + titleHeight;
            } else {
                minSize.height = this.maxHeight;
                minSize.width = getTickMarkLength(gridOpts) + titleHeight;
            }
            if (tickOpts.display && this.ticks.length) {
                const { first , last , widest , highest  } = this._getLabelSizes();
                const tickPadding = tickOpts.padding * 2;
                const angleRadians = toRadians(this.labelRotation);
                const cos = Math.cos(angleRadians);
                const sin = Math.sin(angleRadians);
                if (isHorizontal) {
                    const labelHeight = tickOpts.mirror ? 0 : sin * widest.width + cos * highest.height;
                    minSize.height = Math.min(this.maxHeight, minSize.height + labelHeight + tickPadding);
                } else {
                    const labelWidth = tickOpts.mirror ? 0 : cos * widest.width + sin * highest.height;
                    minSize.width = Math.min(this.maxWidth, minSize.width + labelWidth + tickPadding);
                }
                this._calculatePadding(first, last, sin, cos);
            }
        }
        this._handleMargins();
        if (isHorizontal) {
            this.width = this._length = chart.width - this._margins.left - this._margins.right;
            this.height = minSize.height;
        } else {
            this.width = minSize.width;
            this.height = this._length = chart.height - this._margins.top - this._margins.bottom;
        }
    }
    _calculatePadding(first, last, sin, cos) {
        const { ticks: { align , padding  } , position  } = this.options;
        const isRotated = this.labelRotation !== 0;
        const labelsBelowTicks = position !== 'top' && this.axis === 'x';
        if (this.isHorizontal()) {
            const offsetLeft = this.getPixelForTick(0) - this.left;
            const offsetRight = this.right - this.getPixelForTick(this.ticks.length - 1);
            let paddingLeft = 0;
            let paddingRight = 0;
            if (isRotated) {
                if (labelsBelowTicks) {
                    paddingLeft = cos * first.width;
                    paddingRight = sin * last.height;
                } else {
                    paddingLeft = sin * first.height;
                    paddingRight = cos * last.width;
                }
            } else if (align === 'start') {
                paddingRight = last.width;
            } else if (align === 'end') {
                paddingLeft = first.width;
            } else if (align !== 'inner') {
                paddingLeft = first.width / 2;
                paddingRight = last.width / 2;
            }
            this.paddingLeft = Math.max((paddingLeft - offsetLeft + padding) * this.width / (this.width - offsetLeft), 0);
            this.paddingRight = Math.max((paddingRight - offsetRight + padding) * this.width / (this.width - offsetRight), 0);
        } else {
            let paddingTop = last.height / 2;
            let paddingBottom = first.height / 2;
            if (align === 'start') {
                paddingTop = 0;
                paddingBottom = first.height;
            } else if (align === 'end') {
                paddingTop = last.height;
                paddingBottom = 0;
            }
            this.paddingTop = paddingTop + padding;
            this.paddingBottom = paddingBottom + padding;
        }
    }
 _handleMargins() {
        if (this._margins) {
            this._margins.left = Math.max(this.paddingLeft, this._margins.left);
            this._margins.top = Math.max(this.paddingTop, this._margins.top);
            this._margins.right = Math.max(this.paddingRight, this._margins.right);
            this._margins.bottom = Math.max(this.paddingBottom, this._margins.bottom);
        }
    }
    afterFit() {
        callback(this.options.afterFit, [
            this
        ]);
    }
 isHorizontal() {
        const { axis , position  } = this.options;
        return position === 'top' || position === 'bottom' || axis === 'x';
    }
 isFullSize() {
        return this.options.fullSize;
    }
 _convertTicksToLabels(ticks) {
        this.beforeTickToLabelConversion();
        this.generateTickLabels(ticks);
        let i, ilen;
        for(i = 0, ilen = ticks.length; i < ilen; i++){
            if (isNullOrUndef(ticks[i].label)) {
                ticks.splice(i, 1);
                ilen--;
                i--;
            }
        }
        this.afterTickToLabelConversion();
    }
 _getLabelSizes() {
        let labelSizes = this._labelSizes;
        if (!labelSizes) {
            const sampleSize = this.options.ticks.sampleSize;
            let ticks = this.ticks;
            if (sampleSize < ticks.length) {
                ticks = sample(ticks, sampleSize);
            }
            this._labelSizes = labelSizes = this._computeLabelSizes(ticks, ticks.length, this.options.ticks.maxTicksLimit);
        }
        return labelSizes;
    }
 _computeLabelSizes(ticks, length, maxTicksLimit) {
        const { ctx , _longestTextCache: caches  } = this;
        const widths = [];
        const heights = [];
        const increment = Math.floor(length / getTicksLimit(length, maxTicksLimit));
        let widestLabelSize = 0;
        let highestLabelSize = 0;
        let i, j, jlen, label, tickFont, fontString, cache, lineHeight, width, height, nestedLabel;
        for(i = 0; i < length; i += increment){
            label = ticks[i].label;
            tickFont = this._resolveTickFontOptions(i);
            ctx.font = fontString = tickFont.string;
            cache = caches[fontString] = caches[fontString] || {
                data: {},
                gc: []
            };
            lineHeight = tickFont.lineHeight;
            width = height = 0;
            if (!isNullOrUndef(label) && !isArray(label)) {
                width = _measureText(ctx, cache.data, cache.gc, width, label);
                height = lineHeight;
            } else if (isArray(label)) {
                for(j = 0, jlen = label.length; j < jlen; ++j){
                    nestedLabel =  label[j];
                    if (!isNullOrUndef(nestedLabel) && !isArray(nestedLabel)) {
                        width = _measureText(ctx, cache.data, cache.gc, width, nestedLabel);
                        height += lineHeight;
                    }
                }
            }
            widths.push(width);
            heights.push(height);
            widestLabelSize = Math.max(width, widestLabelSize);
            highestLabelSize = Math.max(height, highestLabelSize);
        }
        garbageCollect(caches, length);
        const widest = widths.indexOf(widestLabelSize);
        const highest = heights.indexOf(highestLabelSize);
        const valueAt = (idx)=>({
                width: widths[idx] || 0,
                height: heights[idx] || 0
            });
        return {
            first: valueAt(0),
            last: valueAt(length - 1),
            widest: valueAt(widest),
            highest: valueAt(highest),
            widths,
            heights
        };
    }
 getLabelForValue(value) {
        return value;
    }
 getPixelForValue(value, index) {
        return NaN;
    }
 getValueForPixel(pixel) {}
 getPixelForTick(index) {
        const ticks = this.ticks;
        if (index < 0 || index > ticks.length - 1) {
            return null;
        }
        return this.getPixelForValue(ticks[index].value);
    }
 getPixelForDecimal(decimal) {
        if (this._reversePixels) {
            decimal = 1 - decimal;
        }
        const pixel = this._startPixel + decimal * this._length;
        return _int16Range(this._alignToPixels ? _alignPixel(this.chart, pixel, 0) : pixel);
    }
 getDecimalForPixel(pixel) {
        const decimal = (pixel - this._startPixel) / this._length;
        return this._reversePixels ? 1 - decimal : decimal;
    }
 getBasePixel() {
        return this.getPixelForValue(this.getBaseValue());
    }
 getBaseValue() {
        const { min , max  } = this;
        return min < 0 && max < 0 ? max : min > 0 && max > 0 ? min : 0;
    }
 getContext(index) {
        const ticks = this.ticks || [];
        if (index >= 0 && index < ticks.length) {
            const tick = ticks[index];
            return tick.$context || (tick.$context = createTickContext(this.getContext(), index, tick));
        }
        return this.$context || (this.$context = createScaleContext(this.chart.getContext(), this));
    }
 _tickSize() {
        const optionTicks = this.options.ticks;
        const rot = toRadians(this.labelRotation);
        const cos = Math.abs(Math.cos(rot));
        const sin = Math.abs(Math.sin(rot));
        const labelSizes = this._getLabelSizes();
        const padding = optionTicks.autoSkipPadding || 0;
        const w = labelSizes ? labelSizes.widest.width + padding : 0;
        const h = labelSizes ? labelSizes.highest.height + padding : 0;
        return this.isHorizontal() ? h * cos > w * sin ? w / cos : h / sin : h * sin < w * cos ? h / cos : w / sin;
    }
 _isVisible() {
        const display = this.options.display;
        if (display !== 'auto') {
            return !!display;
        }
        return this.getMatchingVisibleMetas().length > 0;
    }
 _computeGridLineItems(chartArea) {
        const axis = this.axis;
        const chart = this.chart;
        const options = this.options;
        const { grid , position , border  } = options;
        const offset = grid.offset;
        const isHorizontal = this.isHorizontal();
        const ticks = this.ticks;
        const ticksLength = ticks.length + (offset ? 1 : 0);
        const tl = getTickMarkLength(grid);
        const items = [];
        const borderOpts = border.setContext(this.getContext());
        const axisWidth = borderOpts.display ? borderOpts.width : 0;
        const axisHalfWidth = axisWidth / 2;
        const alignBorderValue = function(pixel) {
            return _alignPixel(chart, pixel, axisWidth);
        };
        let borderValue, i, lineValue, alignedLineValue;
        let tx1, ty1, tx2, ty2, x1, y1, x2, y2;
        if (position === 'top') {
            borderValue = alignBorderValue(this.bottom);
            ty1 = this.bottom - tl;
            ty2 = borderValue - axisHalfWidth;
            y1 = alignBorderValue(chartArea.top) + axisHalfWidth;
            y2 = chartArea.bottom;
        } else if (position === 'bottom') {
            borderValue = alignBorderValue(this.top);
            y1 = chartArea.top;
            y2 = alignBorderValue(chartArea.bottom) - axisHalfWidth;
            ty1 = borderValue + axisHalfWidth;
            ty2 = this.top + tl;
        } else if (position === 'left') {
            borderValue = alignBorderValue(this.right);
            tx1 = this.right - tl;
            tx2 = borderValue - axisHalfWidth;
            x1 = alignBorderValue(chartArea.left) + axisHalfWidth;
            x2 = chartArea.right;
        } else if (position === 'right') {
            borderValue = alignBorderValue(this.left);
            x1 = chartArea.left;
            x2 = alignBorderValue(chartArea.right) - axisHalfWidth;
            tx1 = borderValue + axisHalfWidth;
            tx2 = this.left + tl;
        } else if (axis === 'x') {
            if (position === 'center') {
                borderValue = alignBorderValue((chartArea.top + chartArea.bottom) / 2 + 0.5);
            } else if (isObject(position)) {
                const positionAxisID = Object.keys(position)[0];
                const value = position[positionAxisID];
                borderValue = alignBorderValue(this.chart.scales[positionAxisID].getPixelForValue(value));
            }
            y1 = chartArea.top;
            y2 = chartArea.bottom;
            ty1 = borderValue + axisHalfWidth;
            ty2 = ty1 + tl;
        } else if (axis === 'y') {
            if (position === 'center') {
                borderValue = alignBorderValue((chartArea.left + chartArea.right) / 2);
            } else if (isObject(position)) {
                const positionAxisID = Object.keys(position)[0];
                const value = position[positionAxisID];
                borderValue = alignBorderValue(this.chart.scales[positionAxisID].getPixelForValue(value));
            }
            tx1 = borderValue - axisHalfWidth;
            tx2 = tx1 - tl;
            x1 = chartArea.left;
            x2 = chartArea.right;
        }
        const limit = valueOrDefault(options.ticks.maxTicksLimit, ticksLength);
        const step = Math.max(1, Math.ceil(ticksLength / limit));
        for(i = 0; i < ticksLength; i += step){
            const context = this.getContext(i);
            const optsAtIndex = grid.setContext(context);
            const optsAtIndexBorder = border.setContext(context);
            const lineWidth = optsAtIndex.lineWidth;
            const lineColor = optsAtIndex.color;
            const borderDash = optsAtIndexBorder.dash || [];
            const borderDashOffset = optsAtIndexBorder.dashOffset;
            const tickWidth = optsAtIndex.tickWidth;
            const tickColor = optsAtIndex.tickColor;
            const tickBorderDash = optsAtIndex.tickBorderDash || [];
            const tickBorderDashOffset = optsAtIndex.tickBorderDashOffset;
            lineValue = getPixelForGridLine(this, i, offset);
            if (lineValue === undefined) {
                continue;
            }
            alignedLineValue = _alignPixel(chart, lineValue, lineWidth);
            if (isHorizontal) {
                tx1 = tx2 = x1 = x2 = alignedLineValue;
            } else {
                ty1 = ty2 = y1 = y2 = alignedLineValue;
            }
            items.push({
                tx1,
                ty1,
                tx2,
                ty2,
                x1,
                y1,
                x2,
                y2,
                width: lineWidth,
                color: lineColor,
                borderDash,
                borderDashOffset,
                tickWidth,
                tickColor,
                tickBorderDash,
                tickBorderDashOffset
            });
        }
        this._ticksLength = ticksLength;
        this._borderValue = borderValue;
        return items;
    }
 _computeLabelItems(chartArea) {
        const axis = this.axis;
        const options = this.options;
        const { position , ticks: optionTicks  } = options;
        const isHorizontal = this.isHorizontal();
        const ticks = this.ticks;
        const { align , crossAlign , padding , mirror  } = optionTicks;
        const tl = getTickMarkLength(options.grid);
        const tickAndPadding = tl + padding;
        const hTickAndPadding = mirror ? -padding : tickAndPadding;
        const rotation = -toRadians(this.labelRotation);
        const items = [];
        let i, ilen, tick, label, x, y, textAlign, pixel, font, lineHeight, lineCount, textOffset;
        let textBaseline = 'middle';
        if (position === 'top') {
            y = this.bottom - hTickAndPadding;
            textAlign = this._getXAxisLabelAlignment();
        } else if (position === 'bottom') {
            y = this.top + hTickAndPadding;
            textAlign = this._getXAxisLabelAlignment();
        } else if (position === 'left') {
            const ret = this._getYAxisLabelAlignment(tl);
            textAlign = ret.textAlign;
            x = ret.x;
        } else if (position === 'right') {
            const ret = this._getYAxisLabelAlignment(tl);
            textAlign = ret.textAlign;
            x = ret.x;
        } else if (axis === 'x') {
            if (position === 'center') {
                y = (chartArea.top + chartArea.bottom) / 2 + tickAndPadding;
            } else if (isObject(position)) {
                const positionAxisID = Object.keys(position)[0];
                const value = position[positionAxisID];
                y = this.chart.scales[positionAxisID].getPixelForValue(value) + tickAndPadding;
            }
            textAlign = this._getXAxisLabelAlignment();
        } else if (axis === 'y') {
            if (position === 'center') {
                x = (chartArea.left + chartArea.right) / 2 - tickAndPadding;
            } else if (isObject(position)) {
                const positionAxisID = Object.keys(position)[0];
                const value = position[positionAxisID];
                x = this.chart.scales[positionAxisID].getPixelForValue(value);
            }
            textAlign = this._getYAxisLabelAlignment(tl).textAlign;
        }
        if (axis === 'y') {
            if (align === 'start') {
                textBaseline = 'top';
            } else if (align === 'end') {
                textBaseline = 'bottom';
            }
        }
        const labelSizes = this._getLabelSizes();
        for(i = 0, ilen = ticks.length; i < ilen; ++i){
            tick = ticks[i];
            label = tick.label;
            const optsAtIndex = optionTicks.setContext(this.getContext(i));
            pixel = this.getPixelForTick(i) + optionTicks.labelOffset;
            font = this._resolveTickFontOptions(i);
            lineHeight = font.lineHeight;
            lineCount = isArray(label) ? label.length : 1;
            const halfCount = lineCount / 2;
            const color = optsAtIndex.color;
            const strokeColor = optsAtIndex.textStrokeColor;
            const strokeWidth = optsAtIndex.textStrokeWidth;
            let tickTextAlign = textAlign;
            if (isHorizontal) {
                x = pixel;
                if (textAlign === 'inner') {
                    if (i === ilen - 1) {
                        tickTextAlign = !this.options.reverse ? 'right' : 'left';
                    } else if (i === 0) {
                        tickTextAlign = !this.options.reverse ? 'left' : 'right';
                    } else {
                        tickTextAlign = 'center';
                    }
                }
                if (position === 'top') {
                    if (crossAlign === 'near' || rotation !== 0) {
                        textOffset = -lineCount * lineHeight + lineHeight / 2;
                    } else if (crossAlign === 'center') {
                        textOffset = -labelSizes.highest.height / 2 - halfCount * lineHeight + lineHeight;
                    } else {
                        textOffset = -labelSizes.highest.height + lineHeight / 2;
                    }
                } else {
                    if (crossAlign === 'near' || rotation !== 0) {
                        textOffset = lineHeight / 2;
                    } else if (crossAlign === 'center') {
                        textOffset = labelSizes.highest.height / 2 - halfCount * lineHeight;
                    } else {
                        textOffset = labelSizes.highest.height - lineCount * lineHeight;
                    }
                }
                if (mirror) {
                    textOffset *= -1;
                }
                if (rotation !== 0 && !optsAtIndex.showLabelBackdrop) {
                    x += lineHeight / 2 * Math.sin(rotation);
                }
            } else {
                y = pixel;
                textOffset = (1 - lineCount) * lineHeight / 2;
            }
            let backdrop;
            if (optsAtIndex.showLabelBackdrop) {
                const labelPadding = toPadding(optsAtIndex.backdropPadding);
                const height = labelSizes.heights[i];
                const width = labelSizes.widths[i];
                let top = textOffset - labelPadding.top;
                let left = 0 - labelPadding.left;
                switch(textBaseline){
                    case 'middle':
                        top -= height / 2;
                        break;
                    case 'bottom':
                        top -= height;
                        break;
                }
                switch(textAlign){
                    case 'center':
                        left -= width / 2;
                        break;
                    case 'right':
                        left -= width;
                        break;
                    case 'inner':
                        if (i === ilen - 1) {
                            left -= width;
                        } else if (i > 0) {
                            left -= width / 2;
                        }
                        break;
                }
                backdrop = {
                    left,
                    top,
                    width: width + labelPadding.width,
                    height: height + labelPadding.height,
                    color: optsAtIndex.backdropColor
                };
            }
            items.push({
                label,
                font,
                textOffset,
                options: {
                    rotation,
                    color,
                    strokeColor,
                    strokeWidth,
                    textAlign: tickTextAlign,
                    textBaseline,
                    translation: [
                        x,
                        y
                    ],
                    backdrop
                }
            });
        }
        return items;
    }
    _getXAxisLabelAlignment() {
        const { position , ticks  } = this.options;
        const rotation = -toRadians(this.labelRotation);
        if (rotation) {
            return position === 'top' ? 'left' : 'right';
        }
        let align = 'center';
        if (ticks.align === 'start') {
            align = 'left';
        } else if (ticks.align === 'end') {
            align = 'right';
        } else if (ticks.align === 'inner') {
            align = 'inner';
        }
        return align;
    }
    _getYAxisLabelAlignment(tl) {
        const { position , ticks: { crossAlign , mirror , padding  }  } = this.options;
        const labelSizes = this._getLabelSizes();
        const tickAndPadding = tl + padding;
        const widest = labelSizes.widest.width;
        let textAlign;
        let x;
        if (position === 'left') {
            if (mirror) {
                x = this.right + padding;
                if (crossAlign === 'near') {
                    textAlign = 'left';
                } else if (crossAlign === 'center') {
                    textAlign = 'center';
                    x += widest / 2;
                } else {
                    textAlign = 'right';
                    x += widest;
                }
            } else {
                x = this.right - tickAndPadding;
                if (crossAlign === 'near') {
                    textAlign = 'right';
                } else if (crossAlign === 'center') {
                    textAlign = 'center';
                    x -= widest / 2;
                } else {
                    textAlign = 'left';
                    x = this.left;
                }
            }
        } else if (position === 'right') {
            if (mirror) {
                x = this.left + padding;
                if (crossAlign === 'near') {
                    textAlign = 'right';
                } else if (crossAlign === 'center') {
                    textAlign = 'center';
                    x -= widest / 2;
                } else {
                    textAlign = 'left';
                    x -= widest;
                }
            } else {
                x = this.left + tickAndPadding;
                if (crossAlign === 'near') {
                    textAlign = 'left';
                } else if (crossAlign === 'center') {
                    textAlign = 'center';
                    x += widest / 2;
                } else {
                    textAlign = 'right';
                    x = this.right;
                }
            }
        } else {
            textAlign = 'right';
        }
        return {
            textAlign,
            x
        };
    }
 _computeLabelArea() {
        if (this.options.ticks.mirror) {
            return;
        }
        const chart = this.chart;
        const position = this.options.position;
        if (position === 'left' || position === 'right') {
            return {
                top: 0,
                left: this.left,
                bottom: chart.height,
                right: this.right
            };
        }
        if (position === 'top' || position === 'bottom') {
            return {
                top: this.top,
                left: 0,
                bottom: this.bottom,
                right: chart.width
            };
        }
    }
 drawBackground() {
        const { ctx , options: { backgroundColor  } , left , top , width , height  } = this;
        if (backgroundColor) {
            ctx.save();
            ctx.fillStyle = backgroundColor;
            ctx.fillRect(left, top, width, height);
            ctx.restore();
        }
    }
    getLineWidthForValue(value) {
        const grid = this.options.grid;
        if (!this._isVisible() || !grid.display) {
            return 0;
        }
        const ticks = this.ticks;
        const index = ticks.findIndex((t)=>t.value === value);
        if (index >= 0) {
            const opts = grid.setContext(this.getContext(index));
            return opts.lineWidth;
        }
        return 0;
    }
 drawGrid(chartArea) {
        const grid = this.options.grid;
        const ctx = this.ctx;
        const items = this._gridLineItems || (this._gridLineItems = this._computeGridLineItems(chartArea));
        let i, ilen;
        const drawLine = (p1, p2, style)=>{
            if (!style.width || !style.color) {
                return;
            }
            ctx.save();
            ctx.lineWidth = style.width;
            ctx.strokeStyle = style.color;
            ctx.setLineDash(style.borderDash || []);
            ctx.lineDashOffset = style.borderDashOffset;
            ctx.beginPath();
            ctx.moveTo(p1.x, p1.y);
            ctx.lineTo(p2.x, p2.y);
            ctx.stroke();
            ctx.restore();
        };
        if (grid.display) {
            for(i = 0, ilen = items.length; i < ilen; ++i){
                const item = items[i];
                if (grid.drawOnChartArea) {
                    drawLine({
                        x: item.x1,
                        y: item.y1
                    }, {
                        x: item.x2,
                        y: item.y2
                    }, item);
                }
                if (grid.drawTicks) {
                    drawLine({
                        x: item.tx1,
                        y: item.ty1
                    }, {
                        x: item.tx2,
                        y: item.ty2
                    }, {
                        color: item.tickColor,
                        width: item.tickWidth,
                        borderDash: item.tickBorderDash,
                        borderDashOffset: item.tickBorderDashOffset
                    });
                }
            }
        }
    }
 drawBorder() {
        const { chart , ctx , options: { border , grid  }  } = this;
        const borderOpts = border.setContext(this.getContext());
        const axisWidth = border.display ? borderOpts.width : 0;
        if (!axisWidth) {
            return;
        }
        const lastLineWidth = grid.setContext(this.getContext(0)).lineWidth;
        const borderValue = this._borderValue;
        let x1, x2, y1, y2;
        if (this.isHorizontal()) {
            x1 = _alignPixel(chart, this.left, axisWidth) - axisWidth / 2;
            x2 = _alignPixel(chart, this.right, lastLineWidth) + lastLineWidth / 2;
            y1 = y2 = borderValue;
        } else {
            y1 = _alignPixel(chart, this.top, axisWidth) - axisWidth / 2;
            y2 = _alignPixel(chart, this.bottom, lastLineWidth) + lastLineWidth / 2;
            x1 = x2 = borderValue;
        }
        ctx.save();
        ctx.lineWidth = borderOpts.width;
        ctx.strokeStyle = borderOpts.color;
        ctx.beginPath();
        ctx.moveTo(x1, y1);
        ctx.lineTo(x2, y2);
        ctx.stroke();
        ctx.restore();
    }
 drawLabels(chartArea) {
        const optionTicks = this.options.ticks;
        if (!optionTicks.display) {
            return;
        }
        const ctx = this.ctx;
        const area = this._computeLabelArea();
        if (area) {
            clipArea(ctx, area);
        }
        const items = this.getLabelItems(chartArea);
        for (const item of items){
            const renderTextOptions = item.options;
            const tickFont = item.font;
            const label = item.label;
            const y = item.textOffset;
            renderText(ctx, label, 0, y, tickFont, renderTextOptions);
        }
        if (area) {
            unclipArea(ctx);
        }
    }
 drawTitle() {
        const { ctx , options: { position , title , reverse  }  } = this;
        if (!title.display) {
            return;
        }
        const font = toFont(title.font);
        const padding = toPadding(title.padding);
        const align = title.align;
        let offset = font.lineHeight / 2;
        if (position === 'bottom' || position === 'center' || isObject(position)) {
            offset += padding.bottom;
            if (isArray(title.text)) {
                offset += font.lineHeight * (title.text.length - 1);
            }
        } else {
            offset += padding.top;
        }
        const { titleX , titleY , maxWidth , rotation  } = titleArgs(this, offset, position, align);
        renderText(ctx, title.text, 0, 0, font, {
            color: title.color,
            maxWidth,
            rotation,
            textAlign: titleAlign(align, position, reverse),
            textBaseline: 'middle',
            translation: [
                titleX,
                titleY
            ]
        });
    }
    draw(chartArea) {
        if (!this._isVisible()) {
            return;
        }
        this.drawBackground();
        this.drawGrid(chartArea);
        this.drawBorder();
        this.drawTitle();
        this.drawLabels(chartArea);
    }
 _layers() {
        const opts = this.options;
        const tz = opts.ticks && opts.ticks.z || 0;
        const gz = valueOrDefault(opts.grid && opts.grid.z, -1);
        const bz = valueOrDefault(opts.border && opts.border.z, 0);
        if (!this._isVisible() || this.draw !== Scale.prototype.draw) {
            return [
                {
                    z: tz,
                    draw: (chartArea)=>{
                        this.draw(chartArea);
                    }
                }
            ];
        }
        return [
            {
                z: gz,
                draw: (chartArea)=>{
                    this.drawBackground();
                    this.drawGrid(chartArea);
                    this.drawTitle();
                }
            },
            {
                z: bz,
                draw: ()=>{
                    this.drawBorder();
                }
            },
            {
                z: tz,
                draw: (chartArea)=>{
                    this.drawLabels(chartArea);
                }
            }
        ];
    }
 getMatchingVisibleMetas(type) {
        const metas = this.chart.getSortedVisibleDatasetMetas();
        const axisID = this.axis + 'AxisID';
        const result = [];
        let i, ilen;
        for(i = 0, ilen = metas.length; i < ilen; ++i){
            const meta = metas[i];
            if (meta[axisID] === this.id && (!type || meta.type === type)) {
                result.push(meta);
            }
        }
        return result;
    }
 _resolveTickFontOptions(index) {
        const opts = this.options.ticks.setContext(this.getContext(index));
        return toFont(opts.font);
    }
 _maxDigits() {
        const fontSize = this._resolveTickFontOptions(0).lineHeight;
        return (this.isHorizontal() ? this.width : this.height) / fontSize;
    }
}

class TypedRegistry {
    constructor(type, scope, override){
        this.type = type;
        this.scope = scope;
        this.override = override;
        this.items = Object.create(null);
    }
    isForType(type) {
        return Object.prototype.isPrototypeOf.call(this.type.prototype, type.prototype);
    }
 register(item) {
        const proto = Object.getPrototypeOf(item);
        let parentScope;
        if (isIChartComponent(proto)) {
            parentScope = this.register(proto);
        }
        const items = this.items;
        const id = item.id;
        const scope = this.scope + '.' + id;
        if (!id) {
            throw new Error('class does not have id: ' + item);
        }
        if (id in items) {
            return scope;
        }
        items[id] = item;
        registerDefaults(item, scope, parentScope);
        if (this.override) {
            defaults.override(item.id, item.overrides);
        }
        return scope;
    }
 get(id) {
        return this.items[id];
    }
 unregister(item) {
        const items = this.items;
        const id = item.id;
        const scope = this.scope;
        if (id in items) {
            delete items[id];
        }
        if (scope && id in defaults[scope]) {
            delete defaults[scope][id];
            if (this.override) {
                delete overrides[id];
            }
        }
    }
}
function registerDefaults(item, scope, parentScope) {
    const itemDefaults = merge(Object.create(null), [
        parentScope ? defaults.get(parentScope) : {},
        defaults.get(scope),
        item.defaults
    ]);
    defaults.set(scope, itemDefaults);
    if (item.defaultRoutes) {
        routeDefaults(scope, item.defaultRoutes);
    }
    if (item.descriptors) {
        defaults.describe(scope, item.descriptors);
    }
}
function routeDefaults(scope, routes) {
    Object.keys(routes).forEach((property)=>{
        const propertyParts = property.split('.');
        const sourceName = propertyParts.pop();
        const sourceScope = [
            scope
        ].concat(propertyParts).join('.');
        const parts = routes[property].split('.');
        const targetName = parts.pop();
        const targetScope = parts.join('.');
        defaults.route(sourceScope, sourceName, targetScope, targetName);
    });
}
function isIChartComponent(proto) {
    return 'id' in proto && 'defaults' in proto;
}

class Registry {
    constructor(){
        this.controllers = new TypedRegistry(DatasetController, 'datasets', true);
        this.elements = new TypedRegistry(Element, 'elements');
        this.plugins = new TypedRegistry(Object, 'plugins');
        this.scales = new TypedRegistry(Scale, 'scales');
        this._typedRegistries = [
            this.controllers,
            this.scales,
            this.elements
        ];
    }
 add(...args) {
        this._each('register', args);
    }
    remove(...args) {
        this._each('unregister', args);
    }
 addControllers(...args) {
        this._each('register', args, this.controllers);
    }
 addElements(...args) {
        this._each('register', args, this.elements);
    }
 addPlugins(...args) {
        this._each('register', args, this.plugins);
    }
 addScales(...args) {
        this._each('register', args, this.scales);
    }
 getController(id) {
        return this._get(id, this.controllers, 'controller');
    }
 getElement(id) {
        return this._get(id, this.elements, 'element');
    }
 getPlugin(id) {
        return this._get(id, this.plugins, 'plugin');
    }
 getScale(id) {
        return this._get(id, this.scales, 'scale');
    }
 removeControllers(...args) {
        this._each('unregister', args, this.controllers);
    }
 removeElements(...args) {
        this._each('unregister', args, this.elements);
    }
 removePlugins(...args) {
        this._each('unregister', args, this.plugins);
    }
 removeScales(...args) {
        this._each('unregister', args, this.scales);
    }
 _each(method, args, typedRegistry) {
        [
            ...args
        ].forEach((arg)=>{
            const reg = typedRegistry || this._getRegistryForType(arg);
            if (typedRegistry || reg.isForType(arg) || reg === this.plugins && arg.id) {
                this._exec(method, reg, arg);
            } else {
                each(arg, (item)=>{
                    const itemReg = typedRegistry || this._getRegistryForType(item);
                    this._exec(method, itemReg, item);
                });
            }
        });
    }
 _exec(method, registry, component) {
        const camelMethod = _capitalize(method);
        callback(component['before' + camelMethod], [], component);
        registry[method](component);
        callback(component['after' + camelMethod], [], component);
    }
 _getRegistryForType(type) {
        for(let i = 0; i < this._typedRegistries.length; i++){
            const reg = this._typedRegistries[i];
            if (reg.isForType(type)) {
                return reg;
            }
        }
        return this.plugins;
    }
 _get(id, typedRegistry, type) {
        const item = typedRegistry.get(id);
        if (item === undefined) {
            throw new Error('"' + id + '" is not a registered ' + type + '.');
        }
        return item;
    }
}
var registry = /* #__PURE__ */ new Registry();

class PluginService {
    constructor(){
        this._init = [];
    }
 notify(chart, hook, args, filter) {
        if (hook === 'beforeInit') {
            this._init = this._createDescriptors(chart, true);
            this._notify(this._init, chart, 'install');
        }
        const descriptors = filter ? this._descriptors(chart).filter(filter) : this._descriptors(chart);
        const result = this._notify(descriptors, chart, hook, args);
        if (hook === 'afterDestroy') {
            this._notify(descriptors, chart, 'stop');
            this._notify(this._init, chart, 'uninstall');
        }
        return result;
    }
 _notify(descriptors, chart, hook, args) {
        args = args || {};
        for (const descriptor of descriptors){
            const plugin = descriptor.plugin;
            const method = plugin[hook];
            const params = [
                chart,
                args,
                descriptor.options
            ];
            if (callback(method, params, plugin) === false && args.cancelable) {
                return false;
            }
        }
        return true;
    }
    invalidate() {
        if (!isNullOrUndef(this._cache)) {
            this._oldCache = this._cache;
            this._cache = undefined;
        }
    }
 _descriptors(chart) {
        if (this._cache) {
            return this._cache;
        }
        const descriptors = this._cache = this._createDescriptors(chart);
        this._notifyStateChanges(chart);
        return descriptors;
    }
    _createDescriptors(chart, all) {
        const config = chart && chart.config;
        const options = valueOrDefault(config.options && config.options.plugins, {});
        const plugins = allPlugins(config);
        return options === false && !all ? [] : createDescriptors(chart, plugins, options, all);
    }
 _notifyStateChanges(chart) {
        const previousDescriptors = this._oldCache || [];
        const descriptors = this._cache;
        const diff = (a, b)=>a.filter((x)=>!b.some((y)=>x.plugin.id === y.plugin.id));
        this._notify(diff(previousDescriptors, descriptors), chart, 'stop');
        this._notify(diff(descriptors, previousDescriptors), chart, 'start');
    }
}
 function allPlugins(config) {
    const localIds = {};
    const plugins = [];
    const keys = Object.keys(registry.plugins.items);
    for(let i = 0; i < keys.length; i++){
        plugins.push(registry.getPlugin(keys[i]));
    }
    const local = config.plugins || [];
    for(let i = 0; i < local.length; i++){
        const plugin = local[i];
        if (plugins.indexOf(plugin) === -1) {
            plugins.push(plugin);
            localIds[plugin.id] = true;
        }
    }
    return {
        plugins,
        localIds
    };
}
function getOpts(options, all) {
    if (!all && options === false) {
        return null;
    }
    if (options === true) {
        return {};
    }
    return options;
}
function createDescriptors(chart, { plugins , localIds  }, options, all) {
    const result = [];
    const context = chart.getContext();
    for (const plugin of plugins){
        const id = plugin.id;
        const opts = getOpts(options[id], all);
        if (opts === null) {
            continue;
        }
        result.push({
            plugin,
            options: pluginOpts(chart.config, {
                plugin,
                local: localIds[id]
            }, opts, context)
        });
    }
    return result;
}
function pluginOpts(config, { plugin , local  }, opts, context) {
    const keys = config.pluginScopeKeys(plugin);
    const scopes = config.getOptionScopes(opts, keys);
    if (local && plugin.defaults) {
        scopes.push(plugin.defaults);
    }
    return config.createResolver(scopes, context, [
        ''
    ], {
        scriptable: false,
        indexable: false,
        allKeys: true
    });
}

function getIndexAxis(type, options) {
    const datasetDefaults = defaults.datasets[type] || {};
    const datasetOptions = (options.datasets || {})[type] || {};
    return datasetOptions.indexAxis || options.indexAxis || datasetDefaults.indexAxis || 'x';
}
function getAxisFromDefaultScaleID(id, indexAxis) {
    let axis = id;
    if (id === '_index_') {
        axis = indexAxis;
    } else if (id === '_value_') {
        axis = indexAxis === 'x' ? 'y' : 'x';
    }
    return axis;
}
function getDefaultScaleIDFromAxis(axis, indexAxis) {
    return axis === indexAxis ? '_index_' : '_value_';
}
function idMatchesAxis(id) {
    if (id === 'x' || id === 'y' || id === 'r') {
        return id;
    }
}
function axisFromPosition(position) {
    if (position === 'top' || position === 'bottom') {
        return 'x';
    }
    if (position === 'left' || position === 'right') {
        return 'y';
    }
}
function determineAxis(id, ...scaleOptions) {
    if (idMatchesAxis(id)) {
        return id;
    }
    for (const opts of scaleOptions){
        const axis = opts.axis || axisFromPosition(opts.position) || id.length > 1 && idMatchesAxis(id[0].toLowerCase());
        if (axis) {
            return axis;
        }
    }
    throw new Error(`Cannot determine type of '${id}' axis. Please provide 'axis' or 'position' option.`);
}
function getAxisFromDataset(id, axis, dataset) {
    if (dataset[axis + 'AxisID'] === id) {
        return {
            axis
        };
    }
}
function retrieveAxisFromDatasets(id, config) {
    if (config.data && config.data.datasets) {
        const boundDs = config.data.datasets.filter((d)=>d.xAxisID === id || d.yAxisID === id);
        if (boundDs.length) {
            return getAxisFromDataset(id, 'x', boundDs[0]) || getAxisFromDataset(id, 'y', boundDs[0]);
        }
    }
    return {};
}
function mergeScaleConfig(config, options) {
    const chartDefaults = overrides[config.type] || {
        scales: {}
    };
    const configScales = options.scales || {};
    const chartIndexAxis = getIndexAxis(config.type, options);
    const scales = Object.create(null);
    Object.keys(configScales).forEach((id)=>{
        const scaleConf = configScales[id];
        if (!isObject(scaleConf)) {
            return console.error(`Invalid scale configuration for scale: ${id}`);
        }
        if (scaleConf._proxy) {
            return console.warn(`Ignoring resolver passed as options for scale: ${id}`);
        }
        const axis = determineAxis(id, scaleConf, retrieveAxisFromDatasets(id, config), defaults.scales[scaleConf.type]);
        const defaultId = getDefaultScaleIDFromAxis(axis, chartIndexAxis);
        const defaultScaleOptions = chartDefaults.scales || {};
        scales[id] = mergeIf(Object.create(null), [
            {
                axis
            },
            scaleConf,
            defaultScaleOptions[axis],
            defaultScaleOptions[defaultId]
        ]);
    });
    config.data.datasets.forEach((dataset)=>{
        const type = dataset.type || config.type;
        const indexAxis = dataset.indexAxis || getIndexAxis(type, options);
        const datasetDefaults = overrides[type] || {};
        const defaultScaleOptions = datasetDefaults.scales || {};
        Object.keys(defaultScaleOptions).forEach((defaultID)=>{
            const axis = getAxisFromDefaultScaleID(defaultID, indexAxis);
            const id = dataset[axis + 'AxisID'] || axis;
            scales[id] = scales[id] || Object.create(null);
            mergeIf(scales[id], [
                {
                    axis
                },
                configScales[id],
                defaultScaleOptions[defaultID]
            ]);
        });
    });
    Object.keys(scales).forEach((key)=>{
        const scale = scales[key];
        mergeIf(scale, [
            defaults.scales[scale.type],
            defaults.scale
        ]);
    });
    return scales;
}
function initOptions(config) {
    const options = config.options || (config.options = {});
    options.plugins = valueOrDefault(options.plugins, {});
    options.scales = mergeScaleConfig(config, options);
}
function initData(data) {
    data = data || {};
    data.datasets = data.datasets || [];
    data.labels = data.labels || [];
    return data;
}
function initConfig(config) {
    config = config || {};
    config.data = initData(config.data);
    initOptions(config);
    return config;
}
const keyCache = new Map();
const keysCached = new Set();
function cachedKeys(cacheKey, generate) {
    let keys = keyCache.get(cacheKey);
    if (!keys) {
        keys = generate();
        keyCache.set(cacheKey, keys);
        keysCached.add(keys);
    }
    return keys;
}
const addIfFound = (set, obj, key)=>{
    const opts = resolveObjectKey(obj, key);
    if (opts !== undefined) {
        set.add(opts);
    }
};
class Config {
    constructor(config){
        this._config = initConfig(config);
        this._scopeCache = new Map();
        this._resolverCache = new Map();
    }
    get platform() {
        return this._config.platform;
    }
    get type() {
        return this._config.type;
    }
    set type(type) {
        this._config.type = type;
    }
    get data() {
        return this._config.data;
    }
    set data(data) {
        this._config.data = initData(data);
    }
    get options() {
        return this._config.options;
    }
    set options(options) {
        this._config.options = options;
    }
    get plugins() {
        return this._config.plugins;
    }
    update() {
        const config = this._config;
        this.clearCache();
        initOptions(config);
    }
    clearCache() {
        this._scopeCache.clear();
        this._resolverCache.clear();
    }
 datasetScopeKeys(datasetType) {
        return cachedKeys(datasetType, ()=>[
                [
                    `datasets.${datasetType}`,
                    ''
                ]
            ]);
    }
 datasetAnimationScopeKeys(datasetType, transition) {
        return cachedKeys(`${datasetType}.transition.${transition}`, ()=>[
                [
                    `datasets.${datasetType}.transitions.${transition}`,
                    `transitions.${transition}`
                ],
                [
                    `datasets.${datasetType}`,
                    ''
                ]
            ]);
    }
 datasetElementScopeKeys(datasetType, elementType) {
        return cachedKeys(`${datasetType}-${elementType}`, ()=>[
                [
                    `datasets.${datasetType}.elements.${elementType}`,
                    `datasets.${datasetType}`,
                    `elements.${elementType}`,
                    ''
                ]
            ]);
    }
 pluginScopeKeys(plugin) {
        const id = plugin.id;
        const type = this.type;
        return cachedKeys(`${type}-plugin-${id}`, ()=>[
                [
                    `plugins.${id}`,
                    ...plugin.additionalOptionScopes || []
                ]
            ]);
    }
 _cachedScopes(mainScope, resetCache) {
        const _scopeCache = this._scopeCache;
        let cache = _scopeCache.get(mainScope);
        if (!cache || resetCache) {
            cache = new Map();
            _scopeCache.set(mainScope, cache);
        }
        return cache;
    }
 getOptionScopes(mainScope, keyLists, resetCache) {
        const { options , type  } = this;
        const cache = this._cachedScopes(mainScope, resetCache);
        const cached = cache.get(keyLists);
        if (cached) {
            return cached;
        }
        const scopes = new Set();
        keyLists.forEach((keys)=>{
            if (mainScope) {
                scopes.add(mainScope);
                keys.forEach((key)=>addIfFound(scopes, mainScope, key));
            }
            keys.forEach((key)=>addIfFound(scopes, options, key));
            keys.forEach((key)=>addIfFound(scopes, overrides[type] || {}, key));
            keys.forEach((key)=>addIfFound(scopes, defaults, key));
            keys.forEach((key)=>addIfFound(scopes, descriptors, key));
        });
        const array = Array.from(scopes);
        if (array.length === 0) {
            array.push(Object.create(null));
        }
        if (keysCached.has(keyLists)) {
            cache.set(keyLists, array);
        }
        return array;
    }
 chartOptionScopes() {
        const { options , type  } = this;
        return [
            options,
            overrides[type] || {},
            defaults.datasets[type] || {},
            {
                type
            },
            defaults,
            descriptors
        ];
    }
 resolveNamedOptions(scopes, names, context, prefixes = [
        ''
    ]) {
        const result = {
            $shared: true
        };
        const { resolver , subPrefixes  } = getResolver(this._resolverCache, scopes, prefixes);
        let options = resolver;
        if (needContext(resolver, names)) {
            result.$shared = false;
            context = isFunction(context) ? context() : context;
            const subResolver = this.createResolver(scopes, context, subPrefixes);
            options = _attachContext(resolver, context, subResolver);
        }
        for (const prop of names){
            result[prop] = options[prop];
        }
        return result;
    }
 createResolver(scopes, context, prefixes = [
        ''
    ], descriptorDefaults) {
        const { resolver  } = getResolver(this._resolverCache, scopes, prefixes);
        return isObject(context) ? _attachContext(resolver, context, undefined, descriptorDefaults) : resolver;
    }
}
function getResolver(resolverCache, scopes, prefixes) {
    let cache = resolverCache.get(scopes);
    if (!cache) {
        cache = new Map();
        resolverCache.set(scopes, cache);
    }
    const cacheKey = prefixes.join();
    let cached = cache.get(cacheKey);
    if (!cached) {
        const resolver = _createResolver(scopes, prefixes);
        cached = {
            resolver,
            subPrefixes: prefixes.filter((p)=>!p.toLowerCase().includes('hover'))
        };
        cache.set(cacheKey, cached);
    }
    return cached;
}
const hasFunction = (value)=>isObject(value) && Object.getOwnPropertyNames(value).some((key)=>isFunction(value[key]));
function needContext(proxy, names) {
    const { isScriptable , isIndexable  } = _descriptors(proxy);
    for (const prop of names){
        const scriptable = isScriptable(prop);
        const indexable = isIndexable(prop);
        const value = (indexable || scriptable) && proxy[prop];
        if (scriptable && (isFunction(value) || hasFunction(value)) || indexable && isArray(value)) {
            return true;
        }
    }
    return false;
}

var version = "4.5.0";

const KNOWN_POSITIONS = [
    'top',
    'bottom',
    'left',
    'right',
    'chartArea'
];
function positionIsHorizontal(position, axis) {
    return position === 'top' || position === 'bottom' || KNOWN_POSITIONS.indexOf(position) === -1 && axis === 'x';
}
function compare2Level(l1, l2) {
    return function(a, b) {
        return a[l1] === b[l1] ? a[l2] - b[l2] : a[l1] - b[l1];
    };
}
function onAnimationsComplete(context) {
    const chart = context.chart;
    const animationOptions = chart.options.animation;
    chart.notifyPlugins('afterRender');
    callback(animationOptions && animationOptions.onComplete, [
        context
    ], chart);
}
function onAnimationProgress(context) {
    const chart = context.chart;
    const animationOptions = chart.options.animation;
    callback(animationOptions && animationOptions.onProgress, [
        context
    ], chart);
}
 function getCanvas(item) {
    if (_isDomSupported() && typeof item === 'string') {
        item = document.getElementById(item);
    } else if (item && item.length) {
        item = item[0];
    }
    if (item && item.canvas) {
        item = item.canvas;
    }
    return item;
}
const instances = {};
const getChart = (key)=>{
    const canvas = getCanvas(key);
    return Object.values(instances).filter((c)=>c.canvas === canvas).pop();
};
function moveNumericKeys(obj, start, move) {
    const keys = Object.keys(obj);
    for (const key of keys){
        const intKey = +key;
        if (intKey >= start) {
            const value = obj[key];
            delete obj[key];
            if (move > 0 || intKey > start) {
                obj[intKey + move] = value;
            }
        }
    }
}
 function determineLastEvent(e, lastEvent, inChartArea, isClick) {
    if (!inChartArea || e.type === 'mouseout') {
        return null;
    }
    if (isClick) {
        return lastEvent;
    }
    return e;
}
class Chart {
    static defaults = defaults;
    static instances = instances;
    static overrides = overrides;
    static registry = registry;
    static version = version;
    static getChart = getChart;
    static register(...items) {
        registry.add(...items);
        invalidatePlugins();
    }
    static unregister(...items) {
        registry.remove(...items);
        invalidatePlugins();
    }
    constructor(item, userConfig){
        const config = this.config = new Config(userConfig);
        const initialCanvas = getCanvas(item);
        const existingChart = getChart(initialCanvas);
        if (existingChart) {
            throw new Error('Canvas is already in use. Chart with ID \'' + existingChart.id + '\'' + ' must be destroyed before the canvas with ID \'' + existingChart.canvas.id + '\' can be reused.');
        }
        const options = config.createResolver(config.chartOptionScopes(), this.getContext());
        this.platform = new (config.platform || _detectPlatform(initialCanvas))();
        this.platform.updateConfig(config);
        const context = this.platform.acquireContext(initialCanvas, options.aspectRatio);
        const canvas = context && context.canvas;
        const height = canvas && canvas.height;
        const width = canvas && canvas.width;
        this.id = uid();
        this.ctx = context;
        this.canvas = canvas;
        this.width = width;
        this.height = height;
        this._options = options;
        this._aspectRatio = this.aspectRatio;
        this._layers = [];
        this._metasets = [];
        this._stacks = undefined;
        this.boxes = [];
        this.currentDevicePixelRatio = undefined;
        this.chartArea = undefined;
        this._active = [];
        this._lastEvent = undefined;
        this._listeners = {};
         this._responsiveListeners = undefined;
        this._sortedMetasets = [];
        this.scales = {};
        this._plugins = new PluginService();
        this.$proxies = {};
        this._hiddenIndices = {};
        this.attached = false;
        this._animationsDisabled = undefined;
        this.$context = undefined;
        this._doResize = debounce((mode)=>this.update(mode), options.resizeDelay || 0);
        this._dataChanges = [];
        instances[this.id] = this;
        if (!context || !canvas) {
            console.error("Failed to create chart: can't acquire context from the given item");
            return;
        }
        animator.listen(this, 'complete', onAnimationsComplete);
        animator.listen(this, 'progress', onAnimationProgress);
        this._initialize();
        if (this.attached) {
            this.update();
        }
    }
    get aspectRatio() {
        const { options: { aspectRatio , maintainAspectRatio  } , width , height , _aspectRatio  } = this;
        if (!isNullOrUndef(aspectRatio)) {
            return aspectRatio;
        }
        if (maintainAspectRatio && _aspectRatio) {
            return _aspectRatio;
        }
        return height ? width / height : null;
    }
    get data() {
        return this.config.data;
    }
    set data(data) {
        this.config.data = data;
    }
    get options() {
        return this._options;
    }
    set options(options) {
        this.config.options = options;
    }
    get registry() {
        return registry;
    }
 _initialize() {
        this.notifyPlugins('beforeInit');
        if (this.options.responsive) {
            this.resize();
        } else {
            retinaScale(this, this.options.devicePixelRatio);
        }
        this.bindEvents();
        this.notifyPlugins('afterInit');
        return this;
    }
    clear() {
        clearCanvas(this.canvas, this.ctx);
        return this;
    }
    stop() {
        animator.stop(this);
        return this;
    }
 resize(width, height) {
        if (!animator.running(this)) {
            this._resize(width, height);
        } else {
            this._resizeBeforeDraw = {
                width,
                height
            };
        }
    }
    _resize(width, height) {
        const options = this.options;
        const canvas = this.canvas;
        const aspectRatio = options.maintainAspectRatio && this.aspectRatio;
        const newSize = this.platform.getMaximumSize(canvas, width, height, aspectRatio);
        const newRatio = options.devicePixelRatio || this.platform.getDevicePixelRatio();
        const mode = this.width ? 'resize' : 'attach';
        this.width = newSize.width;
        this.height = newSize.height;
        this._aspectRatio = this.aspectRatio;
        if (!retinaScale(this, newRatio, true)) {
            return;
        }
        this.notifyPlugins('resize', {
            size: newSize
        });
        callback(options.onResize, [
            this,
            newSize
        ], this);
        if (this.attached) {
            if (this._doResize(mode)) {
                this.render();
            }
        }
    }
    ensureScalesHaveIDs() {
        const options = this.options;
        const scalesOptions = options.scales || {};
        each(scalesOptions, (axisOptions, axisID)=>{
            axisOptions.id = axisID;
        });
    }
 buildOrUpdateScales() {
        const options = this.options;
        const scaleOpts = options.scales;
        const scales = this.scales;
        const updated = Object.keys(scales).reduce((obj, id)=>{
            obj[id] = false;
            return obj;
        }, {});
        let items = [];
        if (scaleOpts) {
            items = items.concat(Object.keys(scaleOpts).map((id)=>{
                const scaleOptions = scaleOpts[id];
                const axis = determineAxis(id, scaleOptions);
                const isRadial = axis === 'r';
                const isHorizontal = axis === 'x';
                return {
                    options: scaleOptions,
                    dposition: isRadial ? 'chartArea' : isHorizontal ? 'bottom' : 'left',
                    dtype: isRadial ? 'radialLinear' : isHorizontal ? 'category' : 'linear'
                };
            }));
        }
        each(items, (item)=>{
            const scaleOptions = item.options;
            const id = scaleOptions.id;
            const axis = determineAxis(id, scaleOptions);
            const scaleType = valueOrDefault(scaleOptions.type, item.dtype);
            if (scaleOptions.position === undefined || positionIsHorizontal(scaleOptions.position, axis) !== positionIsHorizontal(item.dposition)) {
                scaleOptions.position = item.dposition;
            }
            updated[id] = true;
            let scale = null;
            if (id in scales && scales[id].type === scaleType) {
                scale = scales[id];
            } else {
                const scaleClass = registry.getScale(scaleType);
                scale = new scaleClass({
                    id,
                    type: scaleType,
                    ctx: this.ctx,
                    chart: this
                });
                scales[scale.id] = scale;
            }
            scale.init(scaleOptions, options);
        });
        each(updated, (hasUpdated, id)=>{
            if (!hasUpdated) {
                delete scales[id];
            }
        });
        each(scales, (scale)=>{
            layouts.configure(this, scale, scale.options);
            layouts.addBox(this, scale);
        });
    }
 _updateMetasets() {
        const metasets = this._metasets;
        const numData = this.data.datasets.length;
        const numMeta = metasets.length;
        metasets.sort((a, b)=>a.index - b.index);
        if (numMeta > numData) {
            for(let i = numData; i < numMeta; ++i){
                this._destroyDatasetMeta(i);
            }
            metasets.splice(numData, numMeta - numData);
        }
        this._sortedMetasets = metasets.slice(0).sort(compare2Level('order', 'index'));
    }
 _removeUnreferencedMetasets() {
        const { _metasets: metasets , data: { datasets  }  } = this;
        if (metasets.length > datasets.length) {
            delete this._stacks;
        }
        metasets.forEach((meta, index)=>{
            if (datasets.filter((x)=>x === meta._dataset).length === 0) {
                this._destroyDatasetMeta(index);
            }
        });
    }
    buildOrUpdateControllers() {
        const newControllers = [];
        const datasets = this.data.datasets;
        let i, ilen;
        this._removeUnreferencedMetasets();
        for(i = 0, ilen = datasets.length; i < ilen; i++){
            const dataset = datasets[i];
            let meta = this.getDatasetMeta(i);
            const type = dataset.type || this.config.type;
            if (meta.type && meta.type !== type) {
                this._destroyDatasetMeta(i);
                meta = this.getDatasetMeta(i);
            }
            meta.type = type;
            meta.indexAxis = dataset.indexAxis || getIndexAxis(type, this.options);
            meta.order = dataset.order || 0;
            meta.index = i;
            meta.label = '' + dataset.label;
            meta.visible = this.isDatasetVisible(i);
            if (meta.controller) {
                meta.controller.updateIndex(i);
                meta.controller.linkScales();
            } else {
                const ControllerClass = registry.getController(type);
                const { datasetElementType , dataElementType  } = defaults.datasets[type];
                Object.assign(ControllerClass, {
                    dataElementType: registry.getElement(dataElementType),
                    datasetElementType: datasetElementType && registry.getElement(datasetElementType)
                });
                meta.controller = new ControllerClass(this, i);
                newControllers.push(meta.controller);
            }
        }
        this._updateMetasets();
        return newControllers;
    }
 _resetElements() {
        each(this.data.datasets, (dataset, datasetIndex)=>{
            this.getDatasetMeta(datasetIndex).controller.reset();
        }, this);
    }
 reset() {
        this._resetElements();
        this.notifyPlugins('reset');
    }
    update(mode) {
        const config = this.config;
        config.update();
        const options = this._options = config.createResolver(config.chartOptionScopes(), this.getContext());
        const animsDisabled = this._animationsDisabled = !options.animation;
        this._updateScales();
        this._checkEventBindings();
        this._updateHiddenIndices();
        this._plugins.invalidate();
        if (this.notifyPlugins('beforeUpdate', {
            mode,
            cancelable: true
        }) === false) {
            return;
        }
        const newControllers = this.buildOrUpdateControllers();
        this.notifyPlugins('beforeElementsUpdate');
        let minPadding = 0;
        for(let i = 0, ilen = this.data.datasets.length; i < ilen; i++){
            const { controller  } = this.getDatasetMeta(i);
            const reset = !animsDisabled && newControllers.indexOf(controller) === -1;
            controller.buildOrUpdateElements(reset);
            minPadding = Math.max(+controller.getMaxOverflow(), minPadding);
        }
        minPadding = this._minPadding = options.layout.autoPadding ? minPadding : 0;
        this._updateLayout(minPadding);
        if (!animsDisabled) {
            each(newControllers, (controller)=>{
                controller.reset();
            });
        }
        this._updateDatasets(mode);
        this.notifyPlugins('afterUpdate', {
            mode
        });
        this._layers.sort(compare2Level('z', '_idx'));
        const { _active , _lastEvent  } = this;
        if (_lastEvent) {
            this._eventHandler(_lastEvent, true);
        } else if (_active.length) {
            this._updateHoverStyles(_active, _active, true);
        }
        this.render();
    }
 _updateScales() {
        each(this.scales, (scale)=>{
            layouts.removeBox(this, scale);
        });
        this.ensureScalesHaveIDs();
        this.buildOrUpdateScales();
    }
 _checkEventBindings() {
        const options = this.options;
        const existingEvents = new Set(Object.keys(this._listeners));
        const newEvents = new Set(options.events);
        if (!setsEqual(existingEvents, newEvents) || !!this._responsiveListeners !== options.responsive) {
            this.unbindEvents();
            this.bindEvents();
        }
    }
 _updateHiddenIndices() {
        const { _hiddenIndices  } = this;
        const changes = this._getUniformDataChanges() || [];
        for (const { method , start , count  } of changes){
            const move = method === '_removeElements' ? -count : count;
            moveNumericKeys(_hiddenIndices, start, move);
        }
    }
 _getUniformDataChanges() {
        const _dataChanges = this._dataChanges;
        if (!_dataChanges || !_dataChanges.length) {
            return;
        }
        this._dataChanges = [];
        const datasetCount = this.data.datasets.length;
        const makeSet = (idx)=>new Set(_dataChanges.filter((c)=>c[0] === idx).map((c, i)=>i + ',' + c.splice(1).join(',')));
        const changeSet = makeSet(0);
        for(let i = 1; i < datasetCount; i++){
            if (!setsEqual(changeSet, makeSet(i))) {
                return;
            }
        }
        return Array.from(changeSet).map((c)=>c.split(',')).map((a)=>({
                method: a[1],
                start: +a[2],
                count: +a[3]
            }));
    }
 _updateLayout(minPadding) {
        if (this.notifyPlugins('beforeLayout', {
            cancelable: true
        }) === false) {
            return;
        }
        layouts.update(this, this.width, this.height, minPadding);
        const area = this.chartArea;
        const noArea = area.width <= 0 || area.height <= 0;
        this._layers = [];
        each(this.boxes, (box)=>{
            if (noArea && box.position === 'chartArea') {
                return;
            }
            if (box.configure) {
                box.configure();
            }
            this._layers.push(...box._layers());
        }, this);
        this._layers.forEach((item, index)=>{
            item._idx = index;
        });
        this.notifyPlugins('afterLayout');
    }
 _updateDatasets(mode) {
        if (this.notifyPlugins('beforeDatasetsUpdate', {
            mode,
            cancelable: true
        }) === false) {
            return;
        }
        for(let i = 0, ilen = this.data.datasets.length; i < ilen; ++i){
            this.getDatasetMeta(i).controller.configure();
        }
        for(let i = 0, ilen = this.data.datasets.length; i < ilen; ++i){
            this._updateDataset(i, isFunction(mode) ? mode({
                datasetIndex: i
            }) : mode);
        }
        this.notifyPlugins('afterDatasetsUpdate', {
            mode
        });
    }
 _updateDataset(index, mode) {
        const meta = this.getDatasetMeta(index);
        const args = {
            meta,
            index,
            mode,
            cancelable: true
        };
        if (this.notifyPlugins('beforeDatasetUpdate', args) === false) {
            return;
        }
        meta.controller._update(mode);
        args.cancelable = false;
        this.notifyPlugins('afterDatasetUpdate', args);
    }
    render() {
        if (this.notifyPlugins('beforeRender', {
            cancelable: true
        }) === false) {
            return;
        }
        if (animator.has(this)) {
            if (this.attached && !animator.running(this)) {
                animator.start(this);
            }
        } else {
            this.draw();
            onAnimationsComplete({
                chart: this
            });
        }
    }
    draw() {
        let i;
        if (this._resizeBeforeDraw) {
            const { width , height  } = this._resizeBeforeDraw;
            this._resizeBeforeDraw = null;
            this._resize(width, height);
        }
        this.clear();
        if (this.width <= 0 || this.height <= 0) {
            return;
        }
        if (this.notifyPlugins('beforeDraw', {
            cancelable: true
        }) === false) {
            return;
        }
        const layers = this._layers;
        for(i = 0; i < layers.length && layers[i].z <= 0; ++i){
            layers[i].draw(this.chartArea);
        }
        this._drawDatasets();
        for(; i < layers.length; ++i){
            layers[i].draw(this.chartArea);
        }
        this.notifyPlugins('afterDraw');
    }
 _getSortedDatasetMetas(filterVisible) {
        const metasets = this._sortedMetasets;
        const result = [];
        let i, ilen;
        for(i = 0, ilen = metasets.length; i < ilen; ++i){
            const meta = metasets[i];
            if (!filterVisible || meta.visible) {
                result.push(meta);
            }
        }
        return result;
    }
 getSortedVisibleDatasetMetas() {
        return this._getSortedDatasetMetas(true);
    }
 _drawDatasets() {
        if (this.notifyPlugins('beforeDatasetsDraw', {
            cancelable: true
        }) === false) {
            return;
        }
        const metasets = this.getSortedVisibleDatasetMetas();
        for(let i = metasets.length - 1; i >= 0; --i){
            this._drawDataset(metasets[i]);
        }
        this.notifyPlugins('afterDatasetsDraw');
    }
 _drawDataset(meta) {
        const ctx = this.ctx;
        const args = {
            meta,
            index: meta.index,
            cancelable: true
        };
        const clip = getDatasetClipArea(this, meta);
        if (this.notifyPlugins('beforeDatasetDraw', args) === false) {
            return;
        }
        if (clip) {
            clipArea(ctx, clip);
        }
        meta.controller.draw();
        if (clip) {
            unclipArea(ctx);
        }
        args.cancelable = false;
        this.notifyPlugins('afterDatasetDraw', args);
    }
 isPointInArea(point) {
        return _isPointInArea(point, this.chartArea, this._minPadding);
    }
    getElementsAtEventForMode(e, mode, options, useFinalPosition) {
        const method = Interaction.modes[mode];
        if (typeof method === 'function') {
            return method(this, e, options, useFinalPosition);
        }
        return [];
    }
    getDatasetMeta(datasetIndex) {
        const dataset = this.data.datasets[datasetIndex];
        const metasets = this._metasets;
        let meta = metasets.filter((x)=>x && x._dataset === dataset).pop();
        if (!meta) {
            meta = {
                type: null,
                data: [],
                dataset: null,
                controller: null,
                hidden: null,
                xAxisID: null,
                yAxisID: null,
                order: dataset && dataset.order || 0,
                index: datasetIndex,
                _dataset: dataset,
                _parsed: [],
                _sorted: false
            };
            metasets.push(meta);
        }
        return meta;
    }
    getContext() {
        return this.$context || (this.$context = createContext(null, {
            chart: this,
            type: 'chart'
        }));
    }
    getVisibleDatasetCount() {
        return this.getSortedVisibleDatasetMetas().length;
    }
    isDatasetVisible(datasetIndex) {
        const dataset = this.data.datasets[datasetIndex];
        if (!dataset) {
            return false;
        }
        const meta = this.getDatasetMeta(datasetIndex);
        return typeof meta.hidden === 'boolean' ? !meta.hidden : !dataset.hidden;
    }
    setDatasetVisibility(datasetIndex, visible) {
        const meta = this.getDatasetMeta(datasetIndex);
        meta.hidden = !visible;
    }
    toggleDataVisibility(index) {
        this._hiddenIndices[index] = !this._hiddenIndices[index];
    }
    getDataVisibility(index) {
        return !this._hiddenIndices[index];
    }
 _updateVisibility(datasetIndex, dataIndex, visible) {
        const mode = visible ? 'show' : 'hide';
        const meta = this.getDatasetMeta(datasetIndex);
        const anims = meta.controller._resolveAnimations(undefined, mode);
        if (defined(dataIndex)) {
            meta.data[dataIndex].hidden = !visible;
            this.update();
        } else {
            this.setDatasetVisibility(datasetIndex, visible);
            anims.update(meta, {
                visible
            });
            this.update((ctx)=>ctx.datasetIndex === datasetIndex ? mode : undefined);
        }
    }
    hide(datasetIndex, dataIndex) {
        this._updateVisibility(datasetIndex, dataIndex, false);
    }
    show(datasetIndex, dataIndex) {
        this._updateVisibility(datasetIndex, dataIndex, true);
    }
 _destroyDatasetMeta(datasetIndex) {
        const meta = this._metasets[datasetIndex];
        if (meta && meta.controller) {
            meta.controller._destroy();
        }
        delete this._metasets[datasetIndex];
    }
    _stop() {
        let i, ilen;
        this.stop();
        animator.remove(this);
        for(i = 0, ilen = this.data.datasets.length; i < ilen; ++i){
            this._destroyDatasetMeta(i);
        }
    }
    destroy() {
        this.notifyPlugins('beforeDestroy');
        const { canvas , ctx  } = this;
        this._stop();
        this.config.clearCache();
        if (canvas) {
            this.unbindEvents();
            clearCanvas(canvas, ctx);
            this.platform.releaseContext(ctx);
            this.canvas = null;
            this.ctx = null;
        }
        delete instances[this.id];
        this.notifyPlugins('afterDestroy');
    }
    toBase64Image(...args) {
        return this.canvas.toDataURL(...args);
    }
 bindEvents() {
        this.bindUserEvents();
        if (this.options.responsive) {
            this.bindResponsiveEvents();
        } else {
            this.attached = true;
        }
    }
 bindUserEvents() {
        const listeners = this._listeners;
        const platform = this.platform;
        const _add = (type, listener)=>{
            platform.addEventListener(this, type, listener);
            listeners[type] = listener;
        };
        const listener = (e, x, y)=>{
            e.offsetX = x;
            e.offsetY = y;
            this._eventHandler(e);
        };
        each(this.options.events, (type)=>_add(type, listener));
    }
 bindResponsiveEvents() {
        if (!this._responsiveListeners) {
            this._responsiveListeners = {};
        }
        const listeners = this._responsiveListeners;
        const platform = this.platform;
        const _add = (type, listener)=>{
            platform.addEventListener(this, type, listener);
            listeners[type] = listener;
        };
        const _remove = (type, listener)=>{
            if (listeners[type]) {
                platform.removeEventListener(this, type, listener);
                delete listeners[type];
            }
        };
        const listener = (width, height)=>{
            if (this.canvas) {
                this.resize(width, height);
            }
        };
        let detached;
        const attached = ()=>{
            _remove('attach', attached);
            this.attached = true;
            this.resize();
            _add('resize', listener);
            _add('detach', detached);
        };
        detached = ()=>{
            this.attached = false;
            _remove('resize', listener);
            this._stop();
            this._resize(0, 0);
            _add('attach', attached);
        };
        if (platform.isAttached(this.canvas)) {
            attached();
        } else {
            detached();
        }
    }
 unbindEvents() {
        each(this._listeners, (listener, type)=>{
            this.platform.removeEventListener(this, type, listener);
        });
        this._listeners = {};
        each(this._responsiveListeners, (listener, type)=>{
            this.platform.removeEventListener(this, type, listener);
        });
        this._responsiveListeners = undefined;
    }
    updateHoverStyle(items, mode, enabled) {
        const prefix = enabled ? 'set' : 'remove';
        let meta, item, i, ilen;
        if (mode === 'dataset') {
            meta = this.getDatasetMeta(items[0].datasetIndex);
            meta.controller['_' + prefix + 'DatasetHoverStyle']();
        }
        for(i = 0, ilen = items.length; i < ilen; ++i){
            item = items[i];
            const controller = item && this.getDatasetMeta(item.datasetIndex).controller;
            if (controller) {
                controller[prefix + 'HoverStyle'](item.element, item.datasetIndex, item.index);
            }
        }
    }
 getActiveElements() {
        return this._active || [];
    }
 setActiveElements(activeElements) {
        const lastActive = this._active || [];
        const active = activeElements.map(({ datasetIndex , index  })=>{
            const meta = this.getDatasetMeta(datasetIndex);
            if (!meta) {
                throw new Error('No dataset found at index ' + datasetIndex);
            }
            return {
                datasetIndex,
                element: meta.data[index],
                index
            };
        });
        const changed = !_elementsEqual(active, lastActive);
        if (changed) {
            this._active = active;
            this._lastEvent = null;
            this._updateHoverStyles(active, lastActive);
        }
    }
 notifyPlugins(hook, args, filter) {
        return this._plugins.notify(this, hook, args, filter);
    }
 isPluginEnabled(pluginId) {
        return this._plugins._cache.filter((p)=>p.plugin.id === pluginId).length === 1;
    }
 _updateHoverStyles(active, lastActive, replay) {
        const hoverOptions = this.options.hover;
        const diff = (a, b)=>a.filter((x)=>!b.some((y)=>x.datasetIndex === y.datasetIndex && x.index === y.index));
        const deactivated = diff(lastActive, active);
        const activated = replay ? active : diff(active, lastActive);
        if (deactivated.length) {
            this.updateHoverStyle(deactivated, hoverOptions.mode, false);
        }
        if (activated.length && hoverOptions.mode) {
            this.updateHoverStyle(activated, hoverOptions.mode, true);
        }
    }
 _eventHandler(e, replay) {
        const args = {
            event: e,
            replay,
            cancelable: true,
            inChartArea: this.isPointInArea(e)
        };
        const eventFilter = (plugin)=>(plugin.options.events || this.options.events).includes(e.native.type);
        if (this.notifyPlugins('beforeEvent', args, eventFilter) === false) {
            return;
        }
        const changed = this._handleEvent(e, replay, args.inChartArea);
        args.cancelable = false;
        this.notifyPlugins('afterEvent', args, eventFilter);
        if (changed || args.changed) {
            this.render();
        }
        return this;
    }
 _handleEvent(e, replay, inChartArea) {
        const { _active: lastActive = [] , options  } = this;
        const useFinalPosition = replay;
        const active = this._getActiveElements(e, lastActive, inChartArea, useFinalPosition);
        const isClick = _isClickEvent(e);
        const lastEvent = determineLastEvent(e, this._lastEvent, inChartArea, isClick);
        if (inChartArea) {
            this._lastEvent = null;
            callback(options.onHover, [
                e,
                active,
                this
            ], this);
            if (isClick) {
                callback(options.onClick, [
                    e,
                    active,
                    this
                ], this);
            }
        }
        const changed = !_elementsEqual(active, lastActive);
        if (changed || replay) {
            this._active = active;
            this._updateHoverStyles(active, lastActive, replay);
        }
        this._lastEvent = lastEvent;
        return changed;
    }
 _getActiveElements(e, lastActive, inChartArea, useFinalPosition) {
        if (e.type === 'mouseout') {
            return [];
        }
        if (!inChartArea) {
            return lastActive;
        }
        const hoverOptions = this.options.hover;
        return this.getElementsAtEventForMode(e, hoverOptions.mode, hoverOptions, useFinalPosition);
    }
}
function invalidatePlugins() {
    return each(Chart.instances, (chart)=>chart._plugins.invalidate());
}

function clipSelf(ctx, element, endAngle) {
    const { startAngle , x , y , outerRadius , innerRadius , options  } = element;
    const { borderWidth , borderJoinStyle  } = options;
    const outerAngleClip = Math.min(borderWidth / outerRadius, _normalizeAngle(startAngle - endAngle));
    ctx.beginPath();
    ctx.arc(x, y, outerRadius - borderWidth / 2, startAngle + outerAngleClip / 2, endAngle - outerAngleClip / 2);
    if (innerRadius > 0) {
        const innerAngleClip = Math.min(borderWidth / innerRadius, _normalizeAngle(startAngle - endAngle));
        ctx.arc(x, y, innerRadius + borderWidth / 2, endAngle - innerAngleClip / 2, startAngle + innerAngleClip / 2, true);
    } else {
        const clipWidth = Math.min(borderWidth / 2, outerRadius * _normalizeAngle(startAngle - endAngle));
        if (borderJoinStyle === 'round') {
            ctx.arc(x, y, clipWidth, endAngle - PI / 2, startAngle + PI / 2, true);
        } else if (borderJoinStyle === 'bevel') {
            const r = 2 * clipWidth * clipWidth;
            const endX = -r * Math.cos(endAngle + PI / 2) + x;
            const endY = -r * Math.sin(endAngle + PI / 2) + y;
            const startX = r * Math.cos(startAngle + PI / 2) + x;
            const startY = r * Math.sin(startAngle + PI / 2) + y;
            ctx.lineTo(endX, endY);
            ctx.lineTo(startX, startY);
        }
    }
    ctx.closePath();
    ctx.moveTo(0, 0);
    ctx.rect(0, 0, ctx.canvas.width, ctx.canvas.height);
    ctx.clip('evenodd');
}
function clipArc(ctx, element, endAngle) {
    const { startAngle , pixelMargin , x , y , outerRadius , innerRadius  } = element;
    let angleMargin = pixelMargin / outerRadius;
    // Draw an inner border by clipping the arc and drawing a double-width border
    // Enlarge the clipping arc by 0.33 pixels to eliminate glitches between borders
    ctx.beginPath();
    ctx.arc(x, y, outerRadius, startAngle - angleMargin, endAngle + angleMargin);
    if (innerRadius > pixelMargin) {
        angleMargin = pixelMargin / innerRadius;
        ctx.arc(x, y, innerRadius, endAngle + angleMargin, startAngle - angleMargin, true);
    } else {
        ctx.arc(x, y, pixelMargin, endAngle + HALF_PI, startAngle - HALF_PI);
    }
    ctx.closePath();
    ctx.clip();
}
function toRadiusCorners(value) {
    return _readValueToProps(value, [
        'outerStart',
        'outerEnd',
        'innerStart',
        'innerEnd'
    ]);
}
/**
 * Parse border radius from the provided options
 */ function parseBorderRadius$1(arc, innerRadius, outerRadius, angleDelta) {
    const o = toRadiusCorners(arc.options.borderRadius);
    const halfThickness = (outerRadius - innerRadius) / 2;
    const innerLimit = Math.min(halfThickness, angleDelta * innerRadius / 2);
    // Outer limits are complicated. We want to compute the available angular distance at
    // a radius of outerRadius - borderRadius because for small angular distances, this term limits.
    // We compute at r = outerRadius - borderRadius because this circle defines the center of the border corners.
    //
    // If the borderRadius is large, that value can become negative.
    // This causes the outer borders to lose their radius entirely, which is rather unexpected. To solve that, if borderRadius > outerRadius
    // we know that the thickness term will dominate and compute the limits at that point
    const computeOuterLimit = (val)=>{
        const outerArcLimit = (outerRadius - Math.min(halfThickness, val)) * angleDelta / 2;
        return _limitValue(val, 0, Math.min(halfThickness, outerArcLimit));
    };
    return {
        outerStart: computeOuterLimit(o.outerStart),
        outerEnd: computeOuterLimit(o.outerEnd),
        innerStart: _limitValue(o.innerStart, 0, innerLimit),
        innerEnd: _limitValue(o.innerEnd, 0, innerLimit)
    };
}
/**
 * Convert (r, 𝜃) to (x, y)
 */ function rThetaToXY(r, theta, x, y) {
    return {
        x: x + r * Math.cos(theta),
        y: y + r * Math.sin(theta)
    };
}
/**
 * Path the arc, respecting border radius by separating into left and right halves.
 *
 *   Start      End
 *
 *    1--->a--->2    Outer
 *   /           \
 *   8           3
 *   |           |
 *   |           |
 *   7           4
 *   \           /
 *    6<---b<---5    Inner
 */ function pathArc(ctx, element, offset, spacing, end, circular) {
    const { x , y , startAngle: start , pixelMargin , innerRadius: innerR  } = element;
    const outerRadius = Math.max(element.outerRadius + spacing + offset - pixelMargin, 0);
    const innerRadius = innerR > 0 ? innerR + spacing + offset + pixelMargin : 0;
    let spacingOffset = 0;
    const alpha = end - start;
    if (spacing) {
        // When spacing is present, it is the same for all items
        // So we adjust the start and end angle of the arc such that
        // the distance is the same as it would be without the spacing
        const noSpacingInnerRadius = innerR > 0 ? innerR - spacing : 0;
        const noSpacingOuterRadius = outerRadius > 0 ? outerRadius - spacing : 0;
        const avNogSpacingRadius = (noSpacingInnerRadius + noSpacingOuterRadius) / 2;
        const adjustedAngle = avNogSpacingRadius !== 0 ? alpha * avNogSpacingRadius / (avNogSpacingRadius + spacing) : alpha;
        spacingOffset = (alpha - adjustedAngle) / 2;
    }
    const beta = Math.max(0.001, alpha * outerRadius - offset / PI) / outerRadius;
    const angleOffset = (alpha - beta) / 2;
    const startAngle = start + angleOffset + spacingOffset;
    const endAngle = end - angleOffset - spacingOffset;
    const { outerStart , outerEnd , innerStart , innerEnd  } = parseBorderRadius$1(element, innerRadius, outerRadius, endAngle - startAngle);
    const outerStartAdjustedRadius = outerRadius - outerStart;
    const outerEndAdjustedRadius = outerRadius - outerEnd;
    const outerStartAdjustedAngle = startAngle + outerStart / outerStartAdjustedRadius;
    const outerEndAdjustedAngle = endAngle - outerEnd / outerEndAdjustedRadius;
    const innerStartAdjustedRadius = innerRadius + innerStart;
    const innerEndAdjustedRadius = innerRadius + innerEnd;
    const innerStartAdjustedAngle = startAngle + innerStart / innerStartAdjustedRadius;
    const innerEndAdjustedAngle = endAngle - innerEnd / innerEndAdjustedRadius;
    ctx.beginPath();
    if (circular) {
        // The first arc segments from point 1 to point a to point 2
        const outerMidAdjustedAngle = (outerStartAdjustedAngle + outerEndAdjustedAngle) / 2;
        ctx.arc(x, y, outerRadius, outerStartAdjustedAngle, outerMidAdjustedAngle);
        ctx.arc(x, y, outerRadius, outerMidAdjustedAngle, outerEndAdjustedAngle);
        // The corner segment from point 2 to point 3
        if (outerEnd > 0) {
            const pCenter = rThetaToXY(outerEndAdjustedRadius, outerEndAdjustedAngle, x, y);
            ctx.arc(pCenter.x, pCenter.y, outerEnd, outerEndAdjustedAngle, endAngle + HALF_PI);
        }
        // The line from point 3 to point 4
        const p4 = rThetaToXY(innerEndAdjustedRadius, endAngle, x, y);
        ctx.lineTo(p4.x, p4.y);
        // The corner segment from point 4 to point 5
        if (innerEnd > 0) {
            const pCenter = rThetaToXY(innerEndAdjustedRadius, innerEndAdjustedAngle, x, y);
            ctx.arc(pCenter.x, pCenter.y, innerEnd, endAngle + HALF_PI, innerEndAdjustedAngle + Math.PI);
        }
        // The inner arc from point 5 to point b to point 6
        const innerMidAdjustedAngle = (endAngle - innerEnd / innerRadius + (startAngle + innerStart / innerRadius)) / 2;
        ctx.arc(x, y, innerRadius, endAngle - innerEnd / innerRadius, innerMidAdjustedAngle, true);
        ctx.arc(x, y, innerRadius, innerMidAdjustedAngle, startAngle + innerStart / innerRadius, true);
        // The corner segment from point 6 to point 7
        if (innerStart > 0) {
            const pCenter = rThetaToXY(innerStartAdjustedRadius, innerStartAdjustedAngle, x, y);
            ctx.arc(pCenter.x, pCenter.y, innerStart, innerStartAdjustedAngle + Math.PI, startAngle - HALF_PI);
        }
        // The line from point 7 to point 8
        const p8 = rThetaToXY(outerStartAdjustedRadius, startAngle, x, y);
        ctx.lineTo(p8.x, p8.y);
        // The corner segment from point 8 to point 1
        if (outerStart > 0) {
            const pCenter = rThetaToXY(outerStartAdjustedRadius, outerStartAdjustedAngle, x, y);
            ctx.arc(pCenter.x, pCenter.y, outerStart, startAngle - HALF_PI, outerStartAdjustedAngle);
        }
    } else {
        ctx.moveTo(x, y);
        const outerStartX = Math.cos(outerStartAdjustedAngle) * outerRadius + x;
        const outerStartY = Math.sin(outerStartAdjustedAngle) * outerRadius + y;
        ctx.lineTo(outerStartX, outerStartY);
        const outerEndX = Math.cos(outerEndAdjustedAngle) * outerRadius + x;
        const outerEndY = Math.sin(outerEndAdjustedAngle) * outerRadius + y;
        ctx.lineTo(outerEndX, outerEndY);
    }
    ctx.closePath();
}
function drawArc(ctx, element, offset, spacing, circular) {
    const { fullCircles , startAngle , circumference  } = element;
    let endAngle = element.endAngle;
    if (fullCircles) {
        pathArc(ctx, element, offset, spacing, endAngle, circular);
        for(let i = 0; i < fullCircles; ++i){
            ctx.fill();
        }
        if (!isNaN(circumference)) {
            endAngle = startAngle + (circumference % TAU || TAU);
        }
    }
    pathArc(ctx, element, offset, spacing, endAngle, circular);
    ctx.fill();
    return endAngle;
}
function drawBorder(ctx, element, offset, spacing, circular) {
    const { fullCircles , startAngle , circumference , options  } = element;
    const { borderWidth , borderJoinStyle , borderDash , borderDashOffset , borderRadius  } = options;
    const inner = options.borderAlign === 'inner';
    if (!borderWidth) {
        return;
    }
    ctx.setLineDash(borderDash || []);
    ctx.lineDashOffset = borderDashOffset;
    if (inner) {
        ctx.lineWidth = borderWidth * 2;
        ctx.lineJoin = borderJoinStyle || 'round';
    } else {
        ctx.lineWidth = borderWidth;
        ctx.lineJoin = borderJoinStyle || 'bevel';
    }
    let endAngle = element.endAngle;
    if (fullCircles) {
        pathArc(ctx, element, offset, spacing, endAngle, circular);
        for(let i = 0; i < fullCircles; ++i){
            ctx.stroke();
        }
        if (!isNaN(circumference)) {
            endAngle = startAngle + (circumference % TAU || TAU);
        }
    }
    if (inner) {
        clipArc(ctx, element, endAngle);
    }
    if (options.selfJoin && endAngle - startAngle >= PI && borderRadius === 0 && borderJoinStyle !== 'miter') {
        clipSelf(ctx, element, endAngle);
    }
    if (!fullCircles) {
        pathArc(ctx, element, offset, spacing, endAngle, circular);
        ctx.stroke();
    }
}
class ArcElement extends Element {
    static id = 'arc';
    static defaults = {
        borderAlign: 'center',
        borderColor: '#fff',
        borderDash: [],
        borderDashOffset: 0,
        borderJoinStyle: undefined,
        borderRadius: 0,
        borderWidth: 2,
        offset: 0,
        spacing: 0,
        angle: undefined,
        circular: true,
        selfJoin: false
    };
    static defaultRoutes = {
        backgroundColor: 'backgroundColor'
    };
    static descriptors = {
        _scriptable: true,
        _indexable: (name)=>name !== 'borderDash'
    };
    circumference;
    endAngle;
    fullCircles;
    innerRadius;
    outerRadius;
    pixelMargin;
    startAngle;
    constructor(cfg){
        super();
        this.options = undefined;
        this.circumference = undefined;
        this.startAngle = undefined;
        this.endAngle = undefined;
        this.innerRadius = undefined;
        this.outerRadius = undefined;
        this.pixelMargin = 0;
        this.fullCircles = 0;
        if (cfg) {
            Object.assign(this, cfg);
        }
    }
    inRange(chartX, chartY, useFinalPosition) {
        const point = this.getProps([
            'x',
            'y'
        ], useFinalPosition);
        const { angle , distance  } = getAngleFromPoint(point, {
            x: chartX,
            y: chartY
        });
        const { startAngle , endAngle , innerRadius , outerRadius , circumference  } = this.getProps([
            'startAngle',
            'endAngle',
            'innerRadius',
            'outerRadius',
            'circumference'
        ], useFinalPosition);
        const rAdjust = (this.options.spacing + this.options.borderWidth) / 2;
        const _circumference = valueOrDefault(circumference, endAngle - startAngle);
        const nonZeroBetween = _angleBetween(angle, startAngle, endAngle) && startAngle !== endAngle;
        const betweenAngles = _circumference >= TAU || nonZeroBetween;
        const withinRadius = _isBetween(distance, innerRadius + rAdjust, outerRadius + rAdjust);
        return betweenAngles && withinRadius;
    }
    getCenterPoint(useFinalPosition) {
        const { x , y , startAngle , endAngle , innerRadius , outerRadius  } = this.getProps([
            'x',
            'y',
            'startAngle',
            'endAngle',
            'innerRadius',
            'outerRadius'
        ], useFinalPosition);
        const { offset , spacing  } = this.options;
        const halfAngle = (startAngle + endAngle) / 2;
        const halfRadius = (innerRadius + outerRadius + spacing + offset) / 2;
        return {
            x: x + Math.cos(halfAngle) * halfRadius,
            y: y + Math.sin(halfAngle) * halfRadius
        };
    }
    tooltipPosition(useFinalPosition) {
        return this.getCenterPoint(useFinalPosition);
    }
    draw(ctx) {
        const { options , circumference  } = this;
        const offset = (options.offset || 0) / 4;
        const spacing = (options.spacing || 0) / 2;
        const circular = options.circular;
        this.pixelMargin = options.borderAlign === 'inner' ? 0.33 : 0;
        this.fullCircles = circumference > TAU ? Math.floor(circumference / TAU) : 0;
        if (circumference === 0 || this.innerRadius < 0 || this.outerRadius < 0) {
            return;
        }
        ctx.save();
        const halfAngle = (this.startAngle + this.endAngle) / 2;
        ctx.translate(Math.cos(halfAngle) * offset, Math.sin(halfAngle) * offset);
        const fix = 1 - Math.sin(Math.min(PI, circumference || 0));
        const radiusOffset = offset * fix;
        ctx.fillStyle = options.backgroundColor;
        ctx.strokeStyle = options.borderColor;
        drawArc(ctx, this, radiusOffset, spacing, circular);
        drawBorder(ctx, this, radiusOffset, spacing, circular);
        ctx.restore();
    }
}

function setStyle(ctx, options, style = options) {
    ctx.lineCap = valueOrDefault(style.borderCapStyle, options.borderCapStyle);
    ctx.setLineDash(valueOrDefault(style.borderDash, options.borderDash));
    ctx.lineDashOffset = valueOrDefault(style.borderDashOffset, options.borderDashOffset);
    ctx.lineJoin = valueOrDefault(style.borderJoinStyle, options.borderJoinStyle);
    ctx.lineWidth = valueOrDefault(style.borderWidth, options.borderWidth);
    ctx.strokeStyle = valueOrDefault(style.borderColor, options.borderColor);
}
function lineTo(ctx, previous, target) {
    ctx.lineTo(target.x, target.y);
}
 function getLineMethod(options) {
    if (options.stepped) {
        return _steppedLineTo;
    }
    if (options.tension || options.cubicInterpolationMode === 'monotone') {
        return _bezierCurveTo;
    }
    return lineTo;
}
function pathVars(points, segment, params = {}) {
    const count = points.length;
    const { start: paramsStart = 0 , end: paramsEnd = count - 1  } = params;
    const { start: segmentStart , end: segmentEnd  } = segment;
    const start = Math.max(paramsStart, segmentStart);
    const end = Math.min(paramsEnd, segmentEnd);
    const outside = paramsStart < segmentStart && paramsEnd < segmentStart || paramsStart > segmentEnd && paramsEnd > segmentEnd;
    return {
        count,
        start,
        loop: segment.loop,
        ilen: end < start && !outside ? count + end - start : end - start
    };
}
 function pathSegment(ctx, line, segment, params) {
    const { points , options  } = line;
    const { count , start , loop , ilen  } = pathVars(points, segment, params);
    const lineMethod = getLineMethod(options);
    let { move =true , reverse  } = params || {};
    let i, point, prev;
    for(i = 0; i <= ilen; ++i){
        point = points[(start + (reverse ? ilen - i : i)) % count];
        if (point.skip) {
            continue;
        } else if (move) {
            ctx.moveTo(point.x, point.y);
            move = false;
        } else {
            lineMethod(ctx, prev, point, reverse, options.stepped);
        }
        prev = point;
    }
    if (loop) {
        point = points[(start + (reverse ? ilen : 0)) % count];
        lineMethod(ctx, prev, point, reverse, options.stepped);
    }
    return !!loop;
}
 function fastPathSegment(ctx, line, segment, params) {
    const points = line.points;
    const { count , start , ilen  } = pathVars(points, segment, params);
    const { move =true , reverse  } = params || {};
    let avgX = 0;
    let countX = 0;
    let i, point, prevX, minY, maxY, lastY;
    const pointIndex = (index)=>(start + (reverse ? ilen - index : index)) % count;
    const drawX = ()=>{
        if (minY !== maxY) {
            ctx.lineTo(avgX, maxY);
            ctx.lineTo(avgX, minY);
            ctx.lineTo(avgX, lastY);
        }
    };
    if (move) {
        point = points[pointIndex(0)];
        ctx.moveTo(point.x, point.y);
    }
    for(i = 0; i <= ilen; ++i){
        point = points[pointIndex(i)];
        if (point.skip) {
            continue;
        }
        const x = point.x;
        const y = point.y;
        const truncX = x | 0;
        if (truncX === prevX) {
            if (y < minY) {
                minY = y;
            } else if (y > maxY) {
                maxY = y;
            }
            avgX = (countX * avgX + x) / ++countX;
        } else {
            drawX();
            ctx.lineTo(x, y);
            prevX = truncX;
            countX = 0;
            minY = maxY = y;
        }
        lastY = y;
    }
    drawX();
}
 function _getSegmentMethod(line) {
    const opts = line.options;
    const borderDash = opts.borderDash && opts.borderDash.length;
    const useFastPath = !line._decimated && !line._loop && !opts.tension && opts.cubicInterpolationMode !== 'monotone' && !opts.stepped && !borderDash;
    return useFastPath ? fastPathSegment : pathSegment;
}
 function _getInterpolationMethod(options) {
    if (options.stepped) {
        return _steppedInterpolation;
    }
    if (options.tension || options.cubicInterpolationMode === 'monotone') {
        return _bezierInterpolation;
    }
    return _pointInLine;
}
function strokePathWithCache(ctx, line, start, count) {
    let path = line._path;
    if (!path) {
        path = line._path = new Path2D();
        if (line.path(path, start, count)) {
            path.closePath();
        }
    }
    setStyle(ctx, line.options);
    ctx.stroke(path);
}
function strokePathDirect(ctx, line, start, count) {
    const { segments , options  } = line;
    const segmentMethod = _getSegmentMethod(line);
    for (const segment of segments){
        setStyle(ctx, options, segment.style);
        ctx.beginPath();
        if (segmentMethod(ctx, line, segment, {
            start,
            end: start + count - 1
        })) {
            ctx.closePath();
        }
        ctx.stroke();
    }
}
const usePath2D = typeof Path2D === 'function';
function draw(ctx, line, start, count) {
    if (usePath2D && !line.options.segment) {
        strokePathWithCache(ctx, line, start, count);
    } else {
        strokePathDirect(ctx, line, start, count);
    }
}
class LineElement extends Element {
    static id = 'line';
 static defaults = {
        borderCapStyle: 'butt',
        borderDash: [],
        borderDashOffset: 0,
        borderJoinStyle: 'miter',
        borderWidth: 3,
        capBezierPoints: true,
        cubicInterpolationMode: 'default',
        fill: false,
        spanGaps: false,
        stepped: false,
        tension: 0
    };
 static defaultRoutes = {
        backgroundColor: 'backgroundColor',
        borderColor: 'borderColor'
    };
    static descriptors = {
        _scriptable: true,
        _indexable: (name)=>name !== 'borderDash' && name !== 'fill'
    };
    constructor(cfg){
        super();
        this.animated = true;
        this.options = undefined;
        this._chart = undefined;
        this._loop = undefined;
        this._fullLoop = undefined;
        this._path = undefined;
        this._points = undefined;
        this._segments = undefined;
        this._decimated = false;
        this._pointsUpdated = false;
        this._datasetIndex = undefined;
        if (cfg) {
            Object.assign(this, cfg);
        }
    }
    updateControlPoints(chartArea, indexAxis) {
        const options = this.options;
        if ((options.tension || options.cubicInterpolationMode === 'monotone') && !options.stepped && !this._pointsUpdated) {
            const loop = options.spanGaps ? this._loop : this._fullLoop;
            _updateBezierControlPoints(this._points, options, chartArea, loop, indexAxis);
            this._pointsUpdated = true;
        }
    }
    set points(points) {
        this._points = points;
        delete this._segments;
        delete this._path;
        this._pointsUpdated = false;
    }
    get points() {
        return this._points;
    }
    get segments() {
        return this._segments || (this._segments = _computeSegments(this, this.options.segment));
    }
 first() {
        const segments = this.segments;
        const points = this.points;
        return segments.length && points[segments[0].start];
    }
 last() {
        const segments = this.segments;
        const points = this.points;
        const count = segments.length;
        return count && points[segments[count - 1].end];
    }
 interpolate(point, property) {
        const options = this.options;
        const value = point[property];
        const points = this.points;
        const segments = _boundSegments(this, {
            property,
            start: value,
            end: value
        });
        if (!segments.length) {
            return;
        }
        const result = [];
        const _interpolate = _getInterpolationMethod(options);
        let i, ilen;
        for(i = 0, ilen = segments.length; i < ilen; ++i){
            const { start , end  } = segments[i];
            const p1 = points[start];
            const p2 = points[end];
            if (p1 === p2) {
                result.push(p1);
                continue;
            }
            const t = Math.abs((value - p1[property]) / (p2[property] - p1[property]));
            const interpolated = _interpolate(p1, p2, t, options.stepped);
            interpolated[property] = point[property];
            result.push(interpolated);
        }
        return result.length === 1 ? result[0] : result;
    }
 pathSegment(ctx, segment, params) {
        const segmentMethod = _getSegmentMethod(this);
        return segmentMethod(ctx, this, segment, params);
    }
 path(ctx, start, count) {
        const segments = this.segments;
        const segmentMethod = _getSegmentMethod(this);
        let loop = this._loop;
        start = start || 0;
        count = count || this.points.length - start;
        for (const segment of segments){
            loop &= segmentMethod(ctx, this, segment, {
                start,
                end: start + count - 1
            });
        }
        return !!loop;
    }
 draw(ctx, chartArea, start, count) {
        const options = this.options || {};
        const points = this.points || [];
        if (points.length && options.borderWidth) {
            ctx.save();
            draw(ctx, this, start, count);
            ctx.restore();
        }
        if (this.animated) {
            this._pointsUpdated = false;
            this._path = undefined;
        }
    }
}

function inRange$1(el, pos, axis, useFinalPosition) {
    const options = el.options;
    const { [axis]: value  } = el.getProps([
        axis
    ], useFinalPosition);
    return Math.abs(pos - value) < options.radius + options.hitRadius;
}
class PointElement extends Element {
    static id = 'point';
    parsed;
    skip;
    stop;
    /**
   * @type {any}
   */ static defaults = {
        borderWidth: 1,
        hitRadius: 1,
        hoverBorderWidth: 1,
        hoverRadius: 4,
        pointStyle: 'circle',
        radius: 3,
        rotation: 0
    };
    /**
   * @type {any}
   */ static defaultRoutes = {
        backgroundColor: 'backgroundColor',
        borderColor: 'borderColor'
    };
    constructor(cfg){
        super();
        this.options = undefined;
        this.parsed = undefined;
        this.skip = undefined;
        this.stop = undefined;
        if (cfg) {
            Object.assign(this, cfg);
        }
    }
    inRange(mouseX, mouseY, useFinalPosition) {
        const options = this.options;
        const { x , y  } = this.getProps([
            'x',
            'y'
        ], useFinalPosition);
        return Math.pow(mouseX - x, 2) + Math.pow(mouseY - y, 2) < Math.pow(options.hitRadius + options.radius, 2);
    }
    inXRange(mouseX, useFinalPosition) {
        return inRange$1(this, mouseX, 'x', useFinalPosition);
    }
    inYRange(mouseY, useFinalPosition) {
        return inRange$1(this, mouseY, 'y', useFinalPosition);
    }
    getCenterPoint(useFinalPosition) {
        const { x , y  } = this.getProps([
            'x',
            'y'
        ], useFinalPosition);
        return {
            x,
            y
        };
    }
    size(options) {
        options = options || this.options || {};
        let radius = options.radius || 0;
        radius = Math.max(radius, radius && options.hoverRadius || 0);
        const borderWidth = radius && options.borderWidth || 0;
        return (radius + borderWidth) * 2;
    }
    draw(ctx, area) {
        const options = this.options;
        if (this.skip || options.radius < 0.1 || !_isPointInArea(this, area, this.size(options) / 2)) {
            return;
        }
        ctx.strokeStyle = options.borderColor;
        ctx.lineWidth = options.borderWidth;
        ctx.fillStyle = options.backgroundColor;
        drawPoint(ctx, options, this.x, this.y);
    }
    getRange() {
        const options = this.options || {};
        // @ts-expect-error Fallbacks should never be hit in practice
        return options.radius + options.hitRadius;
    }
}

function getBarBounds(bar, useFinalPosition) {
    const { x , y , base , width , height  } =  bar.getProps([
        'x',
        'y',
        'base',
        'width',
        'height'
    ], useFinalPosition);
    let left, right, top, bottom, half;
    if (bar.horizontal) {
        half = height / 2;
        left = Math.min(x, base);
        right = Math.max(x, base);
        top = y - half;
        bottom = y + half;
    } else {
        half = width / 2;
        left = x - half;
        right = x + half;
        top = Math.min(y, base);
        bottom = Math.max(y, base);
    }
    return {
        left,
        top,
        right,
        bottom
    };
}
function skipOrLimit(skip, value, min, max) {
    return skip ? 0 : _limitValue(value, min, max);
}
function parseBorderWidth(bar, maxW, maxH) {
    const value = bar.options.borderWidth;
    const skip = bar.borderSkipped;
    const o = toTRBL(value);
    return {
        t: skipOrLimit(skip.top, o.top, 0, maxH),
        r: skipOrLimit(skip.right, o.right, 0, maxW),
        b: skipOrLimit(skip.bottom, o.bottom, 0, maxH),
        l: skipOrLimit(skip.left, o.left, 0, maxW)
    };
}
function parseBorderRadius(bar, maxW, maxH) {
    const { enableBorderRadius  } = bar.getProps([
        'enableBorderRadius'
    ]);
    const value = bar.options.borderRadius;
    const o = toTRBLCorners(value);
    const maxR = Math.min(maxW, maxH);
    const skip = bar.borderSkipped;
    const enableBorder = enableBorderRadius || isObject(value);
    return {
        topLeft: skipOrLimit(!enableBorder || skip.top || skip.left, o.topLeft, 0, maxR),
        topRight: skipOrLimit(!enableBorder || skip.top || skip.right, o.topRight, 0, maxR),
        bottomLeft: skipOrLimit(!enableBorder || skip.bottom || skip.left, o.bottomLeft, 0, maxR),
        bottomRight: skipOrLimit(!enableBorder || skip.bottom || skip.right, o.bottomRight, 0, maxR)
    };
}
function boundingRects(bar) {
    const bounds = getBarBounds(bar);
    const width = bounds.right - bounds.left;
    const height = bounds.bottom - bounds.top;
    const border = parseBorderWidth(bar, width / 2, height / 2);
    const radius = parseBorderRadius(bar, width / 2, height / 2);
    return {
        outer: {
            x: bounds.left,
            y: bounds.top,
            w: width,
            h: height,
            radius
        },
        inner: {
            x: bounds.left + border.l,
            y: bounds.top + border.t,
            w: width - border.l - border.r,
            h: height - border.t - border.b,
            radius: {
                topLeft: Math.max(0, radius.topLeft - Math.max(border.t, border.l)),
                topRight: Math.max(0, radius.topRight - Math.max(border.t, border.r)),
                bottomLeft: Math.max(0, radius.bottomLeft - Math.max(border.b, border.l)),
                bottomRight: Math.max(0, radius.bottomRight - Math.max(border.b, border.r))
            }
        }
    };
}
function inRange(bar, x, y, useFinalPosition) {
    const skipX = x === null;
    const skipY = y === null;
    const skipBoth = skipX && skipY;
    const bounds = bar && !skipBoth && getBarBounds(bar, useFinalPosition);
    return bounds && (skipX || _isBetween(x, bounds.left, bounds.right)) && (skipY || _isBetween(y, bounds.top, bounds.bottom));
}
function hasRadius(radius) {
    return radius.topLeft || radius.topRight || radius.bottomLeft || radius.bottomRight;
}
 function addNormalRectPath(ctx, rect) {
    ctx.rect(rect.x, rect.y, rect.w, rect.h);
}
function inflateRect(rect, amount, refRect = {}) {
    const x = rect.x !== refRect.x ? -amount : 0;
    const y = rect.y !== refRect.y ? -amount : 0;
    const w = (rect.x + rect.w !== refRect.x + refRect.w ? amount : 0) - x;
    const h = (rect.y + rect.h !== refRect.y + refRect.h ? amount : 0) - y;
    return {
        x: rect.x + x,
        y: rect.y + y,
        w: rect.w + w,
        h: rect.h + h,
        radius: rect.radius
    };
}
class BarElement extends Element {
    static id = 'bar';
 static defaults = {
        borderSkipped: 'start',
        borderWidth: 0,
        borderRadius: 0,
        inflateAmount: 'auto',
        pointStyle: undefined
    };
 static defaultRoutes = {
        backgroundColor: 'backgroundColor',
        borderColor: 'borderColor'
    };
    constructor(cfg){
        super();
        this.options = undefined;
        this.horizontal = undefined;
        this.base = undefined;
        this.width = undefined;
        this.height = undefined;
        this.inflateAmount = undefined;
        if (cfg) {
            Object.assign(this, cfg);
        }
    }
    draw(ctx) {
        const { inflateAmount , options: { borderColor , backgroundColor  }  } = this;
        const { inner , outer  } = boundingRects(this);
        const addRectPath = hasRadius(outer.radius) ? addRoundedRectPath : addNormalRectPath;
        ctx.save();
        if (outer.w !== inner.w || outer.h !== inner.h) {
            ctx.beginPath();
            addRectPath(ctx, inflateRect(outer, inflateAmount, inner));
            ctx.clip();
            addRectPath(ctx, inflateRect(inner, -inflateAmount, outer));
            ctx.fillStyle = borderColor;
            ctx.fill('evenodd');
        }
        ctx.beginPath();
        addRectPath(ctx, inflateRect(inner, inflateAmount));
        ctx.fillStyle = backgroundColor;
        ctx.fill();
        ctx.restore();
    }
    inRange(mouseX, mouseY, useFinalPosition) {
        return inRange(this, mouseX, mouseY, useFinalPosition);
    }
    inXRange(mouseX, useFinalPosition) {
        return inRange(this, mouseX, null, useFinalPosition);
    }
    inYRange(mouseY, useFinalPosition) {
        return inRange(this, null, mouseY, useFinalPosition);
    }
    getCenterPoint(useFinalPosition) {
        const { x , y , base , horizontal  } =  this.getProps([
            'x',
            'y',
            'base',
            'horizontal'
        ], useFinalPosition);
        return {
            x: horizontal ? (x + base) / 2 : x,
            y: horizontal ? y : (y + base) / 2
        };
    }
    getRange(axis) {
        return axis === 'x' ? this.width / 2 : this.height / 2;
    }
}

var chart_elements = /*#__PURE__*/Object.freeze({
__proto__: null,
ArcElement: ArcElement,
BarElement: BarElement,
LineElement: LineElement,
PointElement: PointElement
});

const BORDER_COLORS = [
    'rgb(54, 162, 235)',
    'rgb(255, 99, 132)',
    'rgb(255, 159, 64)',
    'rgb(255, 205, 86)',
    'rgb(75, 192, 192)',
    'rgb(153, 102, 255)',
    'rgb(201, 203, 207)' // grey
];
// Border colors with 50% transparency
const BACKGROUND_COLORS = /* #__PURE__ */ BORDER_COLORS.map((color)=>color.replace('rgb(', 'rgba(').replace(')', ', 0.5)'));
function getBorderColor(i) {
    return BORDER_COLORS[i % BORDER_COLORS.length];
}
function getBackgroundColor(i) {
    return BACKGROUND_COLORS[i % BACKGROUND_COLORS.length];
}
function colorizeDefaultDataset(dataset, i) {
    dataset.borderColor = getBorderColor(i);
    dataset.backgroundColor = getBackgroundColor(i);
    return ++i;
}
function colorizeDoughnutDataset(dataset, i) {
    dataset.backgroundColor = dataset.data.map(()=>getBorderColor(i++));
    return i;
}
function colorizePolarAreaDataset(dataset, i) {
    dataset.backgroundColor = dataset.data.map(()=>getBackgroundColor(i++));
    return i;
}
function getColorizer(chart) {
    let i = 0;
    return (dataset, datasetIndex)=>{
        const controller = chart.getDatasetMeta(datasetIndex).controller;
        if (controller instanceof DoughnutController) {
            i = colorizeDoughnutDataset(dataset, i);
        } else if (controller instanceof PolarAreaController) {
            i = colorizePolarAreaDataset(dataset, i);
        } else if (controller) {
            i = colorizeDefaultDataset(dataset, i);
        }
    };
}
function containsColorsDefinitions(descriptors) {
    let k;
    for(k in descriptors){
        if (descriptors[k].borderColor || descriptors[k].backgroundColor) {
            return true;
        }
    }
    return false;
}
function containsColorsDefinition(descriptor) {
    return descriptor && (descriptor.borderColor || descriptor.backgroundColor);
}
function containsDefaultColorsDefenitions() {
    return defaults.borderColor !== 'rgba(0,0,0,0.1)' || defaults.backgroundColor !== 'rgba(0,0,0,0.1)';
}
var plugin_colors = {
    id: 'colors',
    defaults: {
        enabled: true,
        forceOverride: false
    },
    beforeLayout (chart, _args, options) {
        if (!options.enabled) {
            return;
        }
        const { data: { datasets  } , options: chartOptions  } = chart.config;
        const { elements  } = chartOptions;
        const containsColorDefenition = containsColorsDefinitions(datasets) || containsColorsDefinition(chartOptions) || elements && containsColorsDefinitions(elements) || containsDefaultColorsDefenitions();
        if (!options.forceOverride && containsColorDefenition) {
            return;
        }
        const colorizer = getColorizer(chart);
        datasets.forEach(colorizer);
    }
};

function lttbDecimation(data, start, count, availableWidth, options) {
 const samples = options.samples || availableWidth;
    if (samples >= count) {
        return data.slice(start, start + count);
    }
    const decimated = [];
    const bucketWidth = (count - 2) / (samples - 2);
    let sampledIndex = 0;
    const endIndex = start + count - 1;
    let a = start;
    let i, maxAreaPoint, maxArea, area, nextA;
    decimated[sampledIndex++] = data[a];
    for(i = 0; i < samples - 2; i++){
        let avgX = 0;
        let avgY = 0;
        let j;
        const avgRangeStart = Math.floor((i + 1) * bucketWidth) + 1 + start;
        const avgRangeEnd = Math.min(Math.floor((i + 2) * bucketWidth) + 1, count) + start;
        const avgRangeLength = avgRangeEnd - avgRangeStart;
        for(j = avgRangeStart; j < avgRangeEnd; j++){
            avgX += data[j].x;
            avgY += data[j].y;
        }
        avgX /= avgRangeLength;
        avgY /= avgRangeLength;
        const rangeOffs = Math.floor(i * bucketWidth) + 1 + start;
        const rangeTo = Math.min(Math.floor((i + 1) * bucketWidth) + 1, count) + start;
        const { x: pointAx , y: pointAy  } = data[a];
        maxArea = area = -1;
        for(j = rangeOffs; j < rangeTo; j++){
            area = 0.5 * Math.abs((pointAx - avgX) * (data[j].y - pointAy) - (pointAx - data[j].x) * (avgY - pointAy));
            if (area > maxArea) {
                maxArea = area;
                maxAreaPoint = data[j];
                nextA = j;
            }
        }
        decimated[sampledIndex++] = maxAreaPoint;
        a = nextA;
    }
    decimated[sampledIndex++] = data[endIndex];
    return decimated;
}
function minMaxDecimation(data, start, count, availableWidth) {
    let avgX = 0;
    let countX = 0;
    let i, point, x, y, prevX, minIndex, maxIndex, startIndex, minY, maxY;
    const decimated = [];
    const endIndex = start + count - 1;
    const xMin = data[start].x;
    const xMax = data[endIndex].x;
    const dx = xMax - xMin;
    for(i = start; i < start + count; ++i){
        point = data[i];
        x = (point.x - xMin) / dx * availableWidth;
        y = point.y;
        const truncX = x | 0;
        if (truncX === prevX) {
            if (y < minY) {
                minY = y;
                minIndex = i;
            } else if (y > maxY) {
                maxY = y;
                maxIndex = i;
            }
            avgX = (countX * avgX + point.x) / ++countX;
        } else {
            const lastIndex = i - 1;
            if (!isNullOrUndef(minIndex) && !isNullOrUndef(maxIndex)) {
                const intermediateIndex1 = Math.min(minIndex, maxIndex);
                const intermediateIndex2 = Math.max(minIndex, maxIndex);
                if (intermediateIndex1 !== startIndex && intermediateIndex1 !== lastIndex) {
                    decimated.push({
                        ...data[intermediateIndex1],
                        x: avgX
                    });
                }
                if (intermediateIndex2 !== startIndex && intermediateIndex2 !== lastIndex) {
                    decimated.push({
                        ...data[intermediateIndex2],
                        x: avgX
                    });
                }
            }
            if (i > 0 && lastIndex !== startIndex) {
                decimated.push(data[lastIndex]);
            }
            decimated.push(point);
            prevX = truncX;
            countX = 0;
            minY = maxY = y;
            minIndex = maxIndex = startIndex = i;
        }
    }
    return decimated;
}
function cleanDecimatedDataset(dataset) {
    if (dataset._decimated) {
        const data = dataset._data;
        delete dataset._decimated;
        delete dataset._data;
        Object.defineProperty(dataset, 'data', {
            configurable: true,
            enumerable: true,
            writable: true,
            value: data
        });
    }
}
function cleanDecimatedData(chart) {
    chart.data.datasets.forEach((dataset)=>{
        cleanDecimatedDataset(dataset);
    });
}
function getStartAndCountOfVisiblePointsSimplified(meta, points) {
    const pointCount = points.length;
    let start = 0;
    let count;
    const { iScale  } = meta;
    const { min , max , minDefined , maxDefined  } = iScale.getUserBounds();
    if (minDefined) {
        start = _limitValue(_lookupByKey(points, iScale.axis, min).lo, 0, pointCount - 1);
    }
    if (maxDefined) {
        count = _limitValue(_lookupByKey(points, iScale.axis, max).hi + 1, start, pointCount) - start;
    } else {
        count = pointCount - start;
    }
    return {
        start,
        count
    };
}
var plugin_decimation = {
    id: 'decimation',
    defaults: {
        algorithm: 'min-max',
        enabled: false
    },
    beforeElementsUpdate: (chart, args, options)=>{
        if (!options.enabled) {
            cleanDecimatedData(chart);
            return;
        }
        const availableWidth = chart.width;
        chart.data.datasets.forEach((dataset, datasetIndex)=>{
            const { _data , indexAxis  } = dataset;
            const meta = chart.getDatasetMeta(datasetIndex);
            const data = _data || dataset.data;
            if (resolve([
                indexAxis,
                chart.options.indexAxis
            ]) === 'y') {
                return;
            }
            if (!meta.controller.supportsDecimation) {
                return;
            }
            const xAxis = chart.scales[meta.xAxisID];
            if (xAxis.type !== 'linear' && xAxis.type !== 'time') {
                return;
            }
            if (chart.options.parsing) {
                return;
            }
            let { start , count  } = getStartAndCountOfVisiblePointsSimplified(meta, data);
            const threshold = options.threshold || 4 * availableWidth;
            if (count <= threshold) {
                cleanDecimatedDataset(dataset);
                return;
            }
            if (isNullOrUndef(_data)) {
                dataset._data = data;
                delete dataset.data;
                Object.defineProperty(dataset, 'data', {
                    configurable: true,
                    enumerable: true,
                    get: function() {
                        return this._decimated;
                    },
                    set: function(d) {
                        this._data = d;
                    }
                });
            }
            let decimated;
            switch(options.algorithm){
                case 'lttb':
                    decimated = lttbDecimation(data, start, count, availableWidth, options);
                    break;
                case 'min-max':
                    decimated = minMaxDecimation(data, start, count, availableWidth);
                    break;
                default:
                    throw new Error(`Unsupported decimation algorithm '${options.algorithm}'`);
            }
            dataset._decimated = decimated;
        });
    },
    destroy (chart) {
        cleanDecimatedData(chart);
    }
};

function _segments(line, target, property) {
    const segments = line.segments;
    const points = line.points;
    const tpoints = target.points;
    const parts = [];
    for (const segment of segments){
        let { start , end  } = segment;
        end = _findSegmentEnd(start, end, points);
        const bounds = _getBounds(property, points[start], points[end], segment.loop);
        if (!target.segments) {
            parts.push({
                source: segment,
                target: bounds,
                start: points[start],
                end: points[end]
            });
            continue;
        }
        const targetSegments = _boundSegments(target, bounds);
        for (const tgt of targetSegments){
            const subBounds = _getBounds(property, tpoints[tgt.start], tpoints[tgt.end], tgt.loop);
            const fillSources = _boundSegment(segment, points, subBounds);
            for (const fillSource of fillSources){
                parts.push({
                    source: fillSource,
                    target: tgt,
                    start: {
                        [property]: _getEdge(bounds, subBounds, 'start', Math.max)
                    },
                    end: {
                        [property]: _getEdge(bounds, subBounds, 'end', Math.min)
                    }
                });
            }
        }
    }
    return parts;
}
function _getBounds(property, first, last, loop) {
    if (loop) {
        return;
    }
    let start = first[property];
    let end = last[property];
    if (property === 'angle') {
        start = _normalizeAngle(start);
        end = _normalizeAngle(end);
    }
    return {
        property,
        start,
        end
    };
}
function _pointsFromSegments(boundary, line) {
    const { x =null , y =null  } = boundary || {};
    const linePoints = line.points;
    const points = [];
    line.segments.forEach(({ start , end  })=>{
        end = _findSegmentEnd(start, end, linePoints);
        const first = linePoints[start];
        const last = linePoints[end];
        if (y !== null) {
            points.push({
                x: first.x,
                y
            });
            points.push({
                x: last.x,
                y
            });
        } else if (x !== null) {
            points.push({
                x,
                y: first.y
            });
            points.push({
                x,
                y: last.y
            });
        }
    });
    return points;
}
function _findSegmentEnd(start, end, points) {
    for(; end > start; end--){
        const point = points[end];
        if (!isNaN(point.x) && !isNaN(point.y)) {
            break;
        }
    }
    return end;
}
function _getEdge(a, b, prop, fn) {
    if (a && b) {
        return fn(a[prop], b[prop]);
    }
    return a ? a[prop] : b ? b[prop] : 0;
}

function _createBoundaryLine(boundary, line) {
    let points = [];
    let _loop = false;
    if (isArray(boundary)) {
        _loop = true;
        points = boundary;
    } else {
        points = _pointsFromSegments(boundary, line);
    }
    return points.length ? new LineElement({
        points,
        options: {
            tension: 0
        },
        _loop,
        _fullLoop: _loop
    }) : null;
}
function _shouldApplyFill(source) {
    return source && source.fill !== false;
}

function _resolveTarget(sources, index, propagate) {
    const source = sources[index];
    let fill = source.fill;
    const visited = [
        index
    ];
    let target;
    if (!propagate) {
        return fill;
    }
    while(fill !== false && visited.indexOf(fill) === -1){
        if (!isNumberFinite(fill)) {
            return fill;
        }
        target = sources[fill];
        if (!target) {
            return false;
        }
        if (target.visible) {
            return fill;
        }
        visited.push(fill);
        fill = target.fill;
    }
    return false;
}
 function _decodeFill(line, index, count) {
     const fill = parseFillOption(line);
    if (isObject(fill)) {
        return isNaN(fill.value) ? false : fill;
    }
    let target = parseFloat(fill);
    if (isNumberFinite(target) && Math.floor(target) === target) {
        return decodeTargetIndex(fill[0], index, target, count);
    }
    return [
        'origin',
        'start',
        'end',
        'stack',
        'shape'
    ].indexOf(fill) >= 0 && fill;
}
function decodeTargetIndex(firstCh, index, target, count) {
    if (firstCh === '-' || firstCh === '+') {
        target = index + target;
    }
    if (target === index || target < 0 || target >= count) {
        return false;
    }
    return target;
}
 function _getTargetPixel(fill, scale) {
    let pixel = null;
    if (fill === 'start') {
        pixel = scale.bottom;
    } else if (fill === 'end') {
        pixel = scale.top;
    } else if (isObject(fill)) {
        pixel = scale.getPixelForValue(fill.value);
    } else if (scale.getBasePixel) {
        pixel = scale.getBasePixel();
    }
    return pixel;
}
 function _getTargetValue(fill, scale, startValue) {
    let value;
    if (fill === 'start') {
        value = startValue;
    } else if (fill === 'end') {
        value = scale.options.reverse ? scale.min : scale.max;
    } else if (isObject(fill)) {
        value = fill.value;
    } else {
        value = scale.getBaseValue();
    }
    return value;
}
 function parseFillOption(line) {
    const options = line.options;
    const fillOption = options.fill;
    let fill = valueOrDefault(fillOption && fillOption.target, fillOption);
    if (fill === undefined) {
        fill = !!options.backgroundColor;
    }
    if (fill === false || fill === null) {
        return false;
    }
    if (fill === true) {
        return 'origin';
    }
    return fill;
}

function _buildStackLine(source) {
    const { scale , index , line  } = source;
    const points = [];
    const segments = line.segments;
    const sourcePoints = line.points;
    const linesBelow = getLinesBelow(scale, index);
    linesBelow.push(_createBoundaryLine({
        x: null,
        y: scale.bottom
    }, line));
    for(let i = 0; i < segments.length; i++){
        const segment = segments[i];
        for(let j = segment.start; j <= segment.end; j++){
            addPointsBelow(points, sourcePoints[j], linesBelow);
        }
    }
    return new LineElement({
        points,
        options: {}
    });
}
 function getLinesBelow(scale, index) {
    const below = [];
    const metas = scale.getMatchingVisibleMetas('line');
    for(let i = 0; i < metas.length; i++){
        const meta = metas[i];
        if (meta.index === index) {
            break;
        }
        if (!meta.hidden) {
            below.unshift(meta.dataset);
        }
    }
    return below;
}
 function addPointsBelow(points, sourcePoint, linesBelow) {
    const postponed = [];
    for(let j = 0; j < linesBelow.length; j++){
        const line = linesBelow[j];
        const { first , last , point  } = findPoint(line, sourcePoint, 'x');
        if (!point || first && last) {
            continue;
        }
        if (first) {
            postponed.unshift(point);
        } else {
            points.push(point);
            if (!last) {
                break;
            }
        }
    }
    points.push(...postponed);
}
 function findPoint(line, sourcePoint, property) {
    const point = line.interpolate(sourcePoint, property);
    if (!point) {
        return {};
    }
    const pointValue = point[property];
    const segments = line.segments;
    const linePoints = line.points;
    let first = false;
    let last = false;
    for(let i = 0; i < segments.length; i++){
        const segment = segments[i];
        const firstValue = linePoints[segment.start][property];
        const lastValue = linePoints[segment.end][property];
        if (_isBetween(pointValue, firstValue, lastValue)) {
            first = pointValue === firstValue;
            last = pointValue === lastValue;
            break;
        }
    }
    return {
        first,
        last,
        point
    };
}

class simpleArc {
    constructor(opts){
        this.x = opts.x;
        this.y = opts.y;
        this.radius = opts.radius;
    }
    pathSegment(ctx, bounds, opts) {
        const { x , y , radius  } = this;
        bounds = bounds || {
            start: 0,
            end: TAU
        };
        ctx.arc(x, y, radius, bounds.end, bounds.start, true);
        return !opts.bounds;
    }
    interpolate(point) {
        const { x , y , radius  } = this;
        const angle = point.angle;
        return {
            x: x + Math.cos(angle) * radius,
            y: y + Math.sin(angle) * radius,
            angle
        };
    }
}

function _getTarget(source) {
    const { chart , fill , line  } = source;
    if (isNumberFinite(fill)) {
        return getLineByIndex(chart, fill);
    }
    if (fill === 'stack') {
        return _buildStackLine(source);
    }
    if (fill === 'shape') {
        return true;
    }
    const boundary = computeBoundary(source);
    if (boundary instanceof simpleArc) {
        return boundary;
    }
    return _createBoundaryLine(boundary, line);
}
 function getLineByIndex(chart, index) {
    const meta = chart.getDatasetMeta(index);
    const visible = meta && chart.isDatasetVisible(index);
    return visible ? meta.dataset : null;
}
function computeBoundary(source) {
    const scale = source.scale || {};
    if (scale.getPointPositionForValue) {
        return computeCircularBoundary(source);
    }
    return computeLinearBoundary(source);
}
function computeLinearBoundary(source) {
    const { scale ={} , fill  } = source;
    const pixel = _getTargetPixel(fill, scale);
    if (isNumberFinite(pixel)) {
        const horizontal = scale.isHorizontal();
        return {
            x: horizontal ? pixel : null,
            y: horizontal ? null : pixel
        };
    }
    return null;
}
function computeCircularBoundary(source) {
    const { scale , fill  } = source;
    const options = scale.options;
    const length = scale.getLabels().length;
    const start = options.reverse ? scale.max : scale.min;
    const value = _getTargetValue(fill, scale, start);
    const target = [];
    if (options.grid.circular) {
        const center = scale.getPointPositionForValue(0, start);
        return new simpleArc({
            x: center.x,
            y: center.y,
            radius: scale.getDistanceFromCenterForValue(value)
        });
    }
    for(let i = 0; i < length; ++i){
        target.push(scale.getPointPositionForValue(i, value));
    }
    return target;
}

function _drawfill(ctx, source, area) {
    const target = _getTarget(source);
    const { chart , index , line , scale , axis  } = source;
    const lineOpts = line.options;
    const fillOption = lineOpts.fill;
    const color = lineOpts.backgroundColor;
    const { above =color , below =color  } = fillOption || {};
    const meta = chart.getDatasetMeta(index);
    const clip = getDatasetClipArea(chart, meta);
    if (target && line.points.length) {
        clipArea(ctx, area);
        doFill(ctx, {
            line,
            target,
            above,
            below,
            area,
            scale,
            axis,
            clip
        });
        unclipArea(ctx);
    }
}
function doFill(ctx, cfg) {
    const { line , target , above , below , area , scale , clip  } = cfg;
    const property = line._loop ? 'angle' : cfg.axis;
    ctx.save();
    let fillColor = below;
    if (below !== above) {
        if (property === 'x') {
            clipVertical(ctx, target, area.top);
            fill(ctx, {
                line,
                target,
                color: above,
                scale,
                property,
                clip
            });
            ctx.restore();
            ctx.save();
            clipVertical(ctx, target, area.bottom);
        } else if (property === 'y') {
            clipHorizontal(ctx, target, area.left);
            fill(ctx, {
                line,
                target,
                color: below,
                scale,
                property,
                clip
            });
            ctx.restore();
            ctx.save();
            clipHorizontal(ctx, target, area.right);
            fillColor = above;
        }
    }
    fill(ctx, {
        line,
        target,
        color: fillColor,
        scale,
        property,
        clip
    });
    ctx.restore();
}
function clipVertical(ctx, target, clipY) {
    const { segments , points  } = target;
    let first = true;
    let lineLoop = false;
    ctx.beginPath();
    for (const segment of segments){
        const { start , end  } = segment;
        const firstPoint = points[start];
        const lastPoint = points[_findSegmentEnd(start, end, points)];
        if (first) {
            ctx.moveTo(firstPoint.x, firstPoint.y);
            first = false;
        } else {
            ctx.lineTo(firstPoint.x, clipY);
            ctx.lineTo(firstPoint.x, firstPoint.y);
        }
        lineLoop = !!target.pathSegment(ctx, segment, {
            move: lineLoop
        });
        if (lineLoop) {
            ctx.closePath();
        } else {
            ctx.lineTo(lastPoint.x, clipY);
        }
    }
    ctx.lineTo(target.first().x, clipY);
    ctx.closePath();
    ctx.clip();
}
function clipHorizontal(ctx, target, clipX) {
    const { segments , points  } = target;
    let first = true;
    let lineLoop = false;
    ctx.beginPath();
    for (const segment of segments){
        const { start , end  } = segment;
        const firstPoint = points[start];
        const lastPoint = points[_findSegmentEnd(start, end, points)];
        if (first) {
            ctx.moveTo(firstPoint.x, firstPoint.y);
            first = false;
        } else {
            ctx.lineTo(clipX, firstPoint.y);
            ctx.lineTo(firstPoint.x, firstPoint.y);
        }
        lineLoop = !!target.pathSegment(ctx, segment, {
            move: lineLoop
        });
        if (lineLoop) {
            ctx.closePath();
        } else {
            ctx.lineTo(clipX, lastPoint.y);
        }
    }
    ctx.lineTo(clipX, target.first().y);
    ctx.closePath();
    ctx.clip();
}
function fill(ctx, cfg) {
    const { line , target , property , color , scale , clip  } = cfg;
    const segments = _segments(line, target, property);
    for (const { source: src , target: tgt , start , end  } of segments){
        const { style: { backgroundColor =color  } = {}  } = src;
        const notShape = target !== true;
        ctx.save();
        ctx.fillStyle = backgroundColor;
        clipBounds(ctx, scale, clip, notShape && _getBounds(property, start, end));
        ctx.beginPath();
        const lineLoop = !!line.pathSegment(ctx, src);
        let loop;
        if (notShape) {
            if (lineLoop) {
                ctx.closePath();
            } else {
                interpolatedLineTo(ctx, target, end, property);
            }
            const targetLoop = !!target.pathSegment(ctx, tgt, {
                move: lineLoop,
                reverse: true
            });
            loop = lineLoop && targetLoop;
            if (!loop) {
                interpolatedLineTo(ctx, target, start, property);
            }
        }
        ctx.closePath();
        ctx.fill(loop ? 'evenodd' : 'nonzero');
        ctx.restore();
    }
}
function clipBounds(ctx, scale, clip, bounds) {
    const chartArea = scale.chart.chartArea;
    const { property , start , end  } = bounds || {};
    if (property === 'x' || property === 'y') {
        let left, top, right, bottom;
        if (property === 'x') {
            left = start;
            top = chartArea.top;
            right = end;
            bottom = chartArea.bottom;
        } else {
            left = chartArea.left;
            top = start;
            right = chartArea.right;
            bottom = end;
        }
        ctx.beginPath();
        if (clip) {
            left = Math.max(left, clip.left);
            right = Math.min(right, clip.right);
            top = Math.max(top, clip.top);
            bottom = Math.min(bottom, clip.bottom);
        }
        ctx.rect(left, top, right - left, bottom - top);
        ctx.clip();
    }
}
function interpolatedLineTo(ctx, target, point, property) {
    const interpolatedPoint = target.interpolate(point, property);
    if (interpolatedPoint) {
        ctx.lineTo(interpolatedPoint.x, interpolatedPoint.y);
    }
}

var index = {
    id: 'filler',
    afterDatasetsUpdate (chart, _args, options) {
        const count = (chart.data.datasets || []).length;
        const sources = [];
        let meta, i, line, source;
        for(i = 0; i < count; ++i){
            meta = chart.getDatasetMeta(i);
            line = meta.dataset;
            source = null;
            if (line && line.options && line instanceof LineElement) {
                source = {
                    visible: chart.isDatasetVisible(i),
                    index: i,
                    fill: _decodeFill(line, i, count),
                    chart,
                    axis: meta.controller.options.indexAxis,
                    scale: meta.vScale,
                    line
                };
            }
            meta.$filler = source;
            sources.push(source);
        }
        for(i = 0; i < count; ++i){
            source = sources[i];
            if (!source || source.fill === false) {
                continue;
            }
            source.fill = _resolveTarget(sources, i, options.propagate);
        }
    },
    beforeDraw (chart, _args, options) {
        const draw = options.drawTime === 'beforeDraw';
        const metasets = chart.getSortedVisibleDatasetMetas();
        const area = chart.chartArea;
        for(let i = metasets.length - 1; i >= 0; --i){
            const source = metasets[i].$filler;
            if (!source) {
                continue;
            }
            source.line.updateControlPoints(area, source.axis);
            if (draw && source.fill) {
                _drawfill(chart.ctx, source, area);
            }
        }
    },
    beforeDatasetsDraw (chart, _args, options) {
        if (options.drawTime !== 'beforeDatasetsDraw') {
            return;
        }
        const metasets = chart.getSortedVisibleDatasetMetas();
        for(let i = metasets.length - 1; i >= 0; --i){
            const source = metasets[i].$filler;
            if (_shouldApplyFill(source)) {
                _drawfill(chart.ctx, source, chart.chartArea);
            }
        }
    },
    beforeDatasetDraw (chart, args, options) {
        const source = args.meta.$filler;
        if (!_shouldApplyFill(source) || options.drawTime !== 'beforeDatasetDraw') {
            return;
        }
        _drawfill(chart.ctx, source, chart.chartArea);
    },
    defaults: {
        propagate: true,
        drawTime: 'beforeDatasetDraw'
    }
};

const getBoxSize = (labelOpts, fontSize)=>{
    let { boxHeight =fontSize , boxWidth =fontSize  } = labelOpts;
    if (labelOpts.usePointStyle) {
        boxHeight = Math.min(boxHeight, fontSize);
        boxWidth = labelOpts.pointStyleWidth || Math.min(boxWidth, fontSize);
    }
    return {
        boxWidth,
        boxHeight,
        itemHeight: Math.max(fontSize, boxHeight)
    };
};
const itemsEqual = (a, b)=>a !== null && b !== null && a.datasetIndex === b.datasetIndex && a.index === b.index;
class Legend extends Element {
 constructor(config){
        super();
        this._added = false;
        this.legendHitBoxes = [];
 this._hoveredItem = null;
        this.doughnutMode = false;
        this.chart = config.chart;
        this.options = config.options;
        this.ctx = config.ctx;
        this.legendItems = undefined;
        this.columnSizes = undefined;
        this.lineWidths = undefined;
        this.maxHeight = undefined;
        this.maxWidth = undefined;
        this.top = undefined;
        this.bottom = undefined;
        this.left = undefined;
        this.right = undefined;
        this.height = undefined;
        this.width = undefined;
        this._margins = undefined;
        this.position = undefined;
        this.weight = undefined;
        this.fullSize = undefined;
    }
    update(maxWidth, maxHeight, margins) {
        this.maxWidth = maxWidth;
        this.maxHeight = maxHeight;
        this._margins = margins;
        this.setDimensions();
        this.buildLabels();
        this.fit();
    }
    setDimensions() {
        if (this.isHorizontal()) {
            this.width = this.maxWidth;
            this.left = this._margins.left;
            this.right = this.width;
        } else {
            this.height = this.maxHeight;
            this.top = this._margins.top;
            this.bottom = this.height;
        }
    }
    buildLabels() {
        const labelOpts = this.options.labels || {};
        let legendItems = callback(labelOpts.generateLabels, [
            this.chart
        ], this) || [];
        if (labelOpts.filter) {
            legendItems = legendItems.filter((item)=>labelOpts.filter(item, this.chart.data));
        }
        if (labelOpts.sort) {
            legendItems = legendItems.sort((a, b)=>labelOpts.sort(a, b, this.chart.data));
        }
        if (this.options.reverse) {
            legendItems.reverse();
        }
        this.legendItems = legendItems;
    }
    fit() {
        const { options , ctx  } = this;
        if (!options.display) {
            this.width = this.height = 0;
            return;
        }
        const labelOpts = options.labels;
        const labelFont = toFont(labelOpts.font);
        const fontSize = labelFont.size;
        const titleHeight = this._computeTitleHeight();
        const { boxWidth , itemHeight  } = getBoxSize(labelOpts, fontSize);
        let width, height;
        ctx.font = labelFont.string;
        if (this.isHorizontal()) {
            width = this.maxWidth;
            height = this._fitRows(titleHeight, fontSize, boxWidth, itemHeight) + 10;
        } else {
            height = this.maxHeight;
            width = this._fitCols(titleHeight, labelFont, boxWidth, itemHeight) + 10;
        }
        this.width = Math.min(width, options.maxWidth || this.maxWidth);
        this.height = Math.min(height, options.maxHeight || this.maxHeight);
    }
 _fitRows(titleHeight, fontSize, boxWidth, itemHeight) {
        const { ctx , maxWidth , options: { labels: { padding  }  }  } = this;
        const hitboxes = this.legendHitBoxes = [];
        const lineWidths = this.lineWidths = [
            0
        ];
        const lineHeight = itemHeight + padding;
        let totalHeight = titleHeight;
        ctx.textAlign = 'left';
        ctx.textBaseline = 'middle';
        let row = -1;
        let top = -lineHeight;
        this.legendItems.forEach((legendItem, i)=>{
            const itemWidth = boxWidth + fontSize / 2 + ctx.measureText(legendItem.text).width;
            if (i === 0 || lineWidths[lineWidths.length - 1] + itemWidth + 2 * padding > maxWidth) {
                totalHeight += lineHeight;
                lineWidths[lineWidths.length - (i > 0 ? 0 : 1)] = 0;
                top += lineHeight;
                row++;
            }
            hitboxes[i] = {
                left: 0,
                top,
                row,
                width: itemWidth,
                height: itemHeight
            };
            lineWidths[lineWidths.length - 1] += itemWidth + padding;
        });
        return totalHeight;
    }
    _fitCols(titleHeight, labelFont, boxWidth, _itemHeight) {
        const { ctx , maxHeight , options: { labels: { padding  }  }  } = this;
        const hitboxes = this.legendHitBoxes = [];
        const columnSizes = this.columnSizes = [];
        const heightLimit = maxHeight - titleHeight;
        let totalWidth = padding;
        let currentColWidth = 0;
        let currentColHeight = 0;
        let left = 0;
        let col = 0;
        this.legendItems.forEach((legendItem, i)=>{
            const { itemWidth , itemHeight  } = calculateItemSize(boxWidth, labelFont, ctx, legendItem, _itemHeight);
            if (i > 0 && currentColHeight + itemHeight + 2 * padding > heightLimit) {
                totalWidth += currentColWidth + padding;
                columnSizes.push({
                    width: currentColWidth,
                    height: currentColHeight
                });
                left += currentColWidth + padding;
                col++;
                currentColWidth = currentColHeight = 0;
            }
            hitboxes[i] = {
                left,
                top: currentColHeight,
                col,
                width: itemWidth,
                height: itemHeight
            };
            currentColWidth = Math.max(currentColWidth, itemWidth);
            currentColHeight += itemHeight + padding;
        });
        totalWidth += currentColWidth;
        columnSizes.push({
            width: currentColWidth,
            height: currentColHeight
        });
        return totalWidth;
    }
    adjustHitBoxes() {
        if (!this.options.display) {
            return;
        }
        const titleHeight = this._computeTitleHeight();
        const { legendHitBoxes: hitboxes , options: { align , labels: { padding  } , rtl  }  } = this;
        const rtlHelper = getRtlAdapter(rtl, this.left, this.width);
        if (this.isHorizontal()) {
            let row = 0;
            let left = _alignStartEnd(align, this.left + padding, this.right - this.lineWidths[row]);
            for (const hitbox of hitboxes){
                if (row !== hitbox.row) {
                    row = hitbox.row;
                    left = _alignStartEnd(align, this.left + padding, this.right - this.lineWidths[row]);
                }
                hitbox.top += this.top + titleHeight + padding;
                hitbox.left = rtlHelper.leftForLtr(rtlHelper.x(left), hitbox.width);
                left += hitbox.width + padding;
            }
        } else {
            let col = 0;
            let top = _alignStartEnd(align, this.top + titleHeight + padding, this.bottom - this.columnSizes[col].height);
            for (const hitbox of hitboxes){
                if (hitbox.col !== col) {
                    col = hitbox.col;
                    top = _alignStartEnd(align, this.top + titleHeight + padding, this.bottom - this.columnSizes[col].height);
                }
                hitbox.top = top;
                hitbox.left += this.left + padding;
                hitbox.left = rtlHelper.leftForLtr(rtlHelper.x(hitbox.left), hitbox.width);
                top += hitbox.height + padding;
            }
        }
    }
    isHorizontal() {
        return this.options.position === 'top' || this.options.position === 'bottom';
    }
    draw() {
        if (this.options.display) {
            const ctx = this.ctx;
            clipArea(ctx, this);
            this._draw();
            unclipArea(ctx);
        }
    }
 _draw() {
        const { options: opts , columnSizes , lineWidths , ctx  } = this;
        const { align , labels: labelOpts  } = opts;
        const defaultColor = defaults.color;
        const rtlHelper = getRtlAdapter(opts.rtl, this.left, this.width);
        const labelFont = toFont(labelOpts.font);
        const { padding  } = labelOpts;
        const fontSize = labelFont.size;
        const halfFontSize = fontSize / 2;
        let cursor;
        this.drawTitle();
        ctx.textAlign = rtlHelper.textAlign('left');
        ctx.textBaseline = 'middle';
        ctx.lineWidth = 0.5;
        ctx.font = labelFont.string;
        const { boxWidth , boxHeight , itemHeight  } = getBoxSize(labelOpts, fontSize);
        const drawLegendBox = function(x, y, legendItem) {
            if (isNaN(boxWidth) || boxWidth <= 0 || isNaN(boxHeight) || boxHeight < 0) {
                return;
            }
            ctx.save();
            const lineWidth = valueOrDefault(legendItem.lineWidth, 1);
            ctx.fillStyle = valueOrDefault(legendItem.fillStyle, defaultColor);
            ctx.lineCap = valueOrDefault(legendItem.lineCap, 'butt');
            ctx.lineDashOffset = valueOrDefault(legendItem.lineDashOffset, 0);
            ctx.lineJoin = valueOrDefault(legendItem.lineJoin, 'miter');
            ctx.lineWidth = lineWidth;
            ctx.strokeStyle = valueOrDefault(legendItem.strokeStyle, defaultColor);
            ctx.setLineDash(valueOrDefault(legendItem.lineDash, []));
            if (labelOpts.usePointStyle) {
                const drawOptions = {
                    radius: boxHeight * Math.SQRT2 / 2,
                    pointStyle: legendItem.pointStyle,
                    rotation: legendItem.rotation,
                    borderWidth: lineWidth
                };
                const centerX = rtlHelper.xPlus(x, boxWidth / 2);
                const centerY = y + halfFontSize;
                drawPointLegend(ctx, drawOptions, centerX, centerY, labelOpts.pointStyleWidth && boxWidth);
            } else {
                const yBoxTop = y + Math.max((fontSize - boxHeight) / 2, 0);
                const xBoxLeft = rtlHelper.leftForLtr(x, boxWidth);
                const borderRadius = toTRBLCorners(legendItem.borderRadius);
                ctx.beginPath();
                if (Object.values(borderRadius).some((v)=>v !== 0)) {
                    addRoundedRectPath(ctx, {
                        x: xBoxLeft,
                        y: yBoxTop,
                        w: boxWidth,
                        h: boxHeight,
                        radius: borderRadius
                    });
                } else {
                    ctx.rect(xBoxLeft, yBoxTop, boxWidth, boxHeight);
                }
                ctx.fill();
                if (lineWidth !== 0) {
                    ctx.stroke();
                }
            }
            ctx.restore();
        };
        const fillText = function(x, y, legendItem) {
            renderText(ctx, legendItem.text, x, y + itemHeight / 2, labelFont, {
                strikethrough: legendItem.hidden,
                textAlign: rtlHelper.textAlign(legendItem.textAlign)
            });
        };
        const isHorizontal = this.isHorizontal();
        const titleHeight = this._computeTitleHeight();
        if (isHorizontal) {
            cursor = {
                x: _alignStartEnd(align, this.left + padding, this.right - lineWidths[0]),
                y: this.top + padding + titleHeight,
                line: 0
            };
        } else {
            cursor = {
                x: this.left + padding,
                y: _alignStartEnd(align, this.top + titleHeight + padding, this.bottom - columnSizes[0].height),
                line: 0
            };
        }
        overrideTextDirection(this.ctx, opts.textDirection);
        const lineHeight = itemHeight + padding;
        this.legendItems.forEach((legendItem, i)=>{
            ctx.strokeStyle = legendItem.fontColor;
            ctx.fillStyle = legendItem.fontColor;
            const textWidth = ctx.measureText(legendItem.text).width;
            const textAlign = rtlHelper.textAlign(legendItem.textAlign || (legendItem.textAlign = labelOpts.textAlign));
            const width = boxWidth + halfFontSize + textWidth;
            let x = cursor.x;
            let y = cursor.y;
            rtlHelper.setWidth(this.width);
            if (isHorizontal) {
                if (i > 0 && x + width + padding > this.right) {
                    y = cursor.y += lineHeight;
                    cursor.line++;
                    x = cursor.x = _alignStartEnd(align, this.left + padding, this.right - lineWidths[cursor.line]);
                }
            } else if (i > 0 && y + lineHeight > this.bottom) {
                x = cursor.x = x + columnSizes[cursor.line].width + padding;
                cursor.line++;
                y = cursor.y = _alignStartEnd(align, this.top + titleHeight + padding, this.bottom - columnSizes[cursor.line].height);
            }
            const realX = rtlHelper.x(x);
            drawLegendBox(realX, y, legendItem);
            x = _textX(textAlign, x + boxWidth + halfFontSize, isHorizontal ? x + width : this.right, opts.rtl);
            fillText(rtlHelper.x(x), y, legendItem);
            if (isHorizontal) {
                cursor.x += width + padding;
            } else if (typeof legendItem.text !== 'string') {
                const fontLineHeight = labelFont.lineHeight;
                cursor.y += calculateLegendItemHeight(legendItem, fontLineHeight) + padding;
            } else {
                cursor.y += lineHeight;
            }
        });
        restoreTextDirection(this.ctx, opts.textDirection);
    }
 drawTitle() {
        const opts = this.options;
        const titleOpts = opts.title;
        const titleFont = toFont(titleOpts.font);
        const titlePadding = toPadding(titleOpts.padding);
        if (!titleOpts.display) {
            return;
        }
        const rtlHelper = getRtlAdapter(opts.rtl, this.left, this.width);
        const ctx = this.ctx;
        const position = titleOpts.position;
        const halfFontSize = titleFont.size / 2;
        const topPaddingPlusHalfFontSize = titlePadding.top + halfFontSize;
        let y;
        let left = this.left;
        let maxWidth = this.width;
        if (this.isHorizontal()) {
            maxWidth = Math.max(...this.lineWidths);
            y = this.top + topPaddingPlusHalfFontSize;
            left = _alignStartEnd(opts.align, left, this.right - maxWidth);
        } else {
            const maxHeight = this.columnSizes.reduce((acc, size)=>Math.max(acc, size.height), 0);
            y = topPaddingPlusHalfFontSize + _alignStartEnd(opts.align, this.top, this.bottom - maxHeight - opts.labels.padding - this._computeTitleHeight());
        }
        const x = _alignStartEnd(position, left, left + maxWidth);
        ctx.textAlign = rtlHelper.textAlign(_toLeftRightCenter(position));
        ctx.textBaseline = 'middle';
        ctx.strokeStyle = titleOpts.color;
        ctx.fillStyle = titleOpts.color;
        ctx.font = titleFont.string;
        renderText(ctx, titleOpts.text, x, y, titleFont);
    }
 _computeTitleHeight() {
        const titleOpts = this.options.title;
        const titleFont = toFont(titleOpts.font);
        const titlePadding = toPadding(titleOpts.padding);
        return titleOpts.display ? titleFont.lineHeight + titlePadding.height : 0;
    }
 _getLegendItemAt(x, y) {
        let i, hitBox, lh;
        if (_isBetween(x, this.left, this.right) && _isBetween(y, this.top, this.bottom)) {
            lh = this.legendHitBoxes;
            for(i = 0; i < lh.length; ++i){
                hitBox = lh[i];
                if (_isBetween(x, hitBox.left, hitBox.left + hitBox.width) && _isBetween(y, hitBox.top, hitBox.top + hitBox.height)) {
                    return this.legendItems[i];
                }
            }
        }
        return null;
    }
 handleEvent(e) {
        const opts = this.options;
        if (!isListened(e.type, opts)) {
            return;
        }
        const hoveredItem = this._getLegendItemAt(e.x, e.y);
        if (e.type === 'mousemove' || e.type === 'mouseout') {
            const previous = this._hoveredItem;
            const sameItem = itemsEqual(previous, hoveredItem);
            if (previous && !sameItem) {
                callback(opts.onLeave, [
                    e,
                    previous,
                    this
                ], this);
            }
            this._hoveredItem = hoveredItem;
            if (hoveredItem && !sameItem) {
                callback(opts.onHover, [
                    e,
                    hoveredItem,
                    this
                ], this);
            }
        } else if (hoveredItem) {
            callback(opts.onClick, [
                e,
                hoveredItem,
                this
            ], this);
        }
    }
}
function calculateItemSize(boxWidth, labelFont, ctx, legendItem, _itemHeight) {
    const itemWidth = calculateItemWidth(legendItem, boxWidth, labelFont, ctx);
    const itemHeight = calculateItemHeight(_itemHeight, legendItem, labelFont.lineHeight);
    return {
        itemWidth,
        itemHeight
    };
}
function calculateItemWidth(legendItem, boxWidth, labelFont, ctx) {
    let legendItemText = legendItem.text;
    if (legendItemText && typeof legendItemText !== 'string') {
        legendItemText = legendItemText.reduce((a, b)=>a.length > b.length ? a : b);
    }
    return boxWidth + labelFont.size / 2 + ctx.measureText(legendItemText).width;
}
function calculateItemHeight(_itemHeight, legendItem, fontLineHeight) {
    let itemHeight = _itemHeight;
    if (typeof legendItem.text !== 'string') {
        itemHeight = calculateLegendItemHeight(legendItem, fontLineHeight);
    }
    return itemHeight;
}
function calculateLegendItemHeight(legendItem, fontLineHeight) {
    const labelHeight = legendItem.text ? legendItem.text.length : 0;
    return fontLineHeight * labelHeight;
}
function isListened(type, opts) {
    if ((type === 'mousemove' || type === 'mouseout') && (opts.onHover || opts.onLeave)) {
        return true;
    }
    if (opts.onClick && (type === 'click' || type === 'mouseup')) {
        return true;
    }
    return false;
}
var plugin_legend = {
    id: 'legend',
 _element: Legend,
    start (chart, _args, options) {
        const legend = chart.legend = new Legend({
            ctx: chart.ctx,
            options,
            chart
        });
        layouts.configure(chart, legend, options);
        layouts.addBox(chart, legend);
    },
    stop (chart) {
        layouts.removeBox(chart, chart.legend);
        delete chart.legend;
    },
    beforeUpdate (chart, _args, options) {
        const legend = chart.legend;
        layouts.configure(chart, legend, options);
        legend.options = options;
    },
    afterUpdate (chart) {
        const legend = chart.legend;
        legend.buildLabels();
        legend.adjustHitBoxes();
    },
    afterEvent (chart, args) {
        if (!args.replay) {
            chart.legend.handleEvent(args.event);
        }
    },
    defaults: {
        display: true,
        position: 'top',
        align: 'center',
        fullSize: true,
        reverse: false,
        weight: 1000,
        onClick (e, legendItem, legend) {
            const index = legendItem.datasetIndex;
            const ci = legend.chart;
            if (ci.isDatasetVisible(index)) {
                ci.hide(index);
                legendItem.hidden = true;
            } else {
                ci.show(index);
                legendItem.hidden = false;
            }
        },
        onHover: null,
        onLeave: null,
        labels: {
            color: (ctx)=>ctx.chart.options.color,
            boxWidth: 40,
            padding: 10,
            generateLabels (chart) {
                const datasets = chart.data.datasets;
                const { labels: { usePointStyle , pointStyle , textAlign , color , useBorderRadius , borderRadius  }  } = chart.legend.options;
                return chart._getSortedDatasetMetas().map((meta)=>{
                    const style = meta.controller.getStyle(usePointStyle ? 0 : undefined);
                    const borderWidth = toPadding(style.borderWidth);
                    return {
                        text: datasets[meta.index].label,
                        fillStyle: style.backgroundColor,
                        fontColor: color,
                        hidden: !meta.visible,
                        lineCap: style.borderCapStyle,
                        lineDash: style.borderDash,
                        lineDashOffset: style.borderDashOffset,
                        lineJoin: style.borderJoinStyle,
                        lineWidth: (borderWidth.width + borderWidth.height) / 4,
                        strokeStyle: style.borderColor,
                        pointStyle: pointStyle || style.pointStyle,
                        rotation: style.rotation,
                        textAlign: textAlign || style.textAlign,
                        borderRadius: useBorderRadius && (borderRadius || style.borderRadius),
                        datasetIndex: meta.index
                    };
                }, this);
            }
        },
        title: {
            color: (ctx)=>ctx.chart.options.color,
            display: false,
            position: 'center',
            text: ''
        }
    },
    descriptors: {
        _scriptable: (name)=>!name.startsWith('on'),
        labels: {
            _scriptable: (name)=>![
                    'generateLabels',
                    'filter',
                    'sort'
                ].includes(name)
        }
    }
};

class Title extends Element {
 constructor(config){
        super();
        this.chart = config.chart;
        this.options = config.options;
        this.ctx = config.ctx;
        this._padding = undefined;
        this.top = undefined;
        this.bottom = undefined;
        this.left = undefined;
        this.right = undefined;
        this.width = undefined;
        this.height = undefined;
        this.position = undefined;
        this.weight = undefined;
        this.fullSize = undefined;
    }
    update(maxWidth, maxHeight) {
        const opts = this.options;
        this.left = 0;
        this.top = 0;
        if (!opts.display) {
            this.width = this.height = this.right = this.bottom = 0;
            return;
        }
        this.width = this.right = maxWidth;
        this.height = this.bottom = maxHeight;
        const lineCount = isArray(opts.text) ? opts.text.length : 1;
        this._padding = toPadding(opts.padding);
        const textSize = lineCount * toFont(opts.font).lineHeight + this._padding.height;
        if (this.isHorizontal()) {
            this.height = textSize;
        } else {
            this.width = textSize;
        }
    }
    isHorizontal() {
        const pos = this.options.position;
        return pos === 'top' || pos === 'bottom';
    }
    _drawArgs(offset) {
        const { top , left , bottom , right , options  } = this;
        const align = options.align;
        let rotation = 0;
        let maxWidth, titleX, titleY;
        if (this.isHorizontal()) {
            titleX = _alignStartEnd(align, left, right);
            titleY = top + offset;
            maxWidth = right - left;
        } else {
            if (options.position === 'left') {
                titleX = left + offset;
                titleY = _alignStartEnd(align, bottom, top);
                rotation = PI * -0.5;
            } else {
                titleX = right - offset;
                titleY = _alignStartEnd(align, top, bottom);
                rotation = PI * 0.5;
            }
            maxWidth = bottom - top;
        }
        return {
            titleX,
            titleY,
            maxWidth,
            rotation
        };
    }
    draw() {
        const ctx = this.ctx;
        const opts = this.options;
        if (!opts.display) {
            return;
        }
        const fontOpts = toFont(opts.font);
        const lineHeight = fontOpts.lineHeight;
        const offset = lineHeight / 2 + this._padding.top;
        const { titleX , titleY , maxWidth , rotation  } = this._drawArgs(offset);
        renderText(ctx, opts.text, 0, 0, fontOpts, {
            color: opts.color,
            maxWidth,
            rotation,
            textAlign: _toLeftRightCenter(opts.align),
            textBaseline: 'middle',
            translation: [
                titleX,
                titleY
            ]
        });
    }
}
function createTitle(chart, titleOpts) {
    const title = new Title({
        ctx: chart.ctx,
        options: titleOpts,
        chart
    });
    layouts.configure(chart, title, titleOpts);
    layouts.addBox(chart, title);
    chart.titleBlock = title;
}
var plugin_title = {
    id: 'title',
 _element: Title,
    start (chart, _args, options) {
        createTitle(chart, options);
    },
    stop (chart) {
        const titleBlock = chart.titleBlock;
        layouts.removeBox(chart, titleBlock);
        delete chart.titleBlock;
    },
    beforeUpdate (chart, _args, options) {
        const title = chart.titleBlock;
        layouts.configure(chart, title, options);
        title.options = options;
    },
    defaults: {
        align: 'center',
        display: false,
        font: {
            weight: 'bold'
        },
        fullSize: true,
        padding: 10,
        position: 'top',
        text: '',
        weight: 2000
    },
    defaultRoutes: {
        color: 'color'
    },
    descriptors: {
        _scriptable: true,
        _indexable: false
    }
};

const chart_map = new WeakMap();
var plugin_subtitle = {
    id: 'subtitle',
    start (chart, _args, options) {
        const title = new Title({
            ctx: chart.ctx,
            options,
            chart
        });
        layouts.configure(chart, title, options);
        layouts.addBox(chart, title);
        chart_map.set(chart, title);
    },
    stop (chart) {
        layouts.removeBox(chart, chart_map.get(chart));
        chart_map.delete(chart);
    },
    beforeUpdate (chart, _args, options) {
        const title = chart_map.get(chart);
        layouts.configure(chart, title, options);
        title.options = options;
    },
    defaults: {
        align: 'center',
        display: false,
        font: {
            weight: 'normal'
        },
        fullSize: true,
        padding: 0,
        position: 'top',
        text: '',
        weight: 1500
    },
    defaultRoutes: {
        color: 'color'
    },
    descriptors: {
        _scriptable: true,
        _indexable: false
    }
};

const positioners = {
 average (items) {
        if (!items.length) {
            return false;
        }
        let i, len;
        let xSet = new Set();
        let y = 0;
        let count = 0;
        for(i = 0, len = items.length; i < len; ++i){
            const el = items[i].element;
            if (el && el.hasValue()) {
                const pos = el.tooltipPosition();
                xSet.add(pos.x);
                y += pos.y;
                ++count;
            }
        }
        if (count === 0 || xSet.size === 0) {
            return false;
        }
        const xAverage = [
            ...xSet
        ].reduce((a, b)=>a + b) / xSet.size;
        return {
            x: xAverage,
            y: y / count
        };
    },
 nearest (items, eventPosition) {
        if (!items.length) {
            return false;
        }
        let x = eventPosition.x;
        let y = eventPosition.y;
        let minDistance = Number.POSITIVE_INFINITY;
        let i, len, nearestElement;
        for(i = 0, len = items.length; i < len; ++i){
            const el = items[i].element;
            if (el && el.hasValue()) {
                const center = el.getCenterPoint();
                const d = distanceBetweenPoints(eventPosition, center);
                if (d < minDistance) {
                    minDistance = d;
                    nearestElement = el;
                }
            }
        }
        if (nearestElement) {
            const tp = nearestElement.tooltipPosition();
            x = tp.x;
            y = tp.y;
        }
        return {
            x,
            y
        };
    }
};
function pushOrConcat(base, toPush) {
    if (toPush) {
        if (isArray(toPush)) {
            Array.prototype.push.apply(base, toPush);
        } else {
            base.push(toPush);
        }
    }
    return base;
}
 function splitNewlines(str) {
    if ((typeof str === 'string' || str instanceof String) && str.indexOf('\n') > -1) {
        return str.split('\n');
    }
    return str;
}
 function createTooltipItem(chart, item) {
    const { element , datasetIndex , index  } = item;
    const controller = chart.getDatasetMeta(datasetIndex).controller;
    const { label , value  } = controller.getLabelAndValue(index);
    return {
        chart,
        label,
        parsed: controller.getParsed(index),
        raw: chart.data.datasets[datasetIndex].data[index],
        formattedValue: value,
        dataset: controller.getDataset(),
        dataIndex: index,
        datasetIndex,
        element
    };
}
 function getTooltipSize(tooltip, options) {
    const ctx = tooltip.chart.ctx;
    const { body , footer , title  } = tooltip;
    const { boxWidth , boxHeight  } = options;
    const bodyFont = toFont(options.bodyFont);
    const titleFont = toFont(options.titleFont);
    const footerFont = toFont(options.footerFont);
    const titleLineCount = title.length;
    const footerLineCount = footer.length;
    const bodyLineItemCount = body.length;
    const padding = toPadding(options.padding);
    let height = padding.height;
    let width = 0;
    let combinedBodyLength = body.reduce((count, bodyItem)=>count + bodyItem.before.length + bodyItem.lines.length + bodyItem.after.length, 0);
    combinedBodyLength += tooltip.beforeBody.length + tooltip.afterBody.length;
    if (titleLineCount) {
        height += titleLineCount * titleFont.lineHeight + (titleLineCount - 1) * options.titleSpacing + options.titleMarginBottom;
    }
    if (combinedBodyLength) {
        const bodyLineHeight = options.displayColors ? Math.max(boxHeight, bodyFont.lineHeight) : bodyFont.lineHeight;
        height += bodyLineItemCount * bodyLineHeight + (combinedBodyLength - bodyLineItemCount) * bodyFont.lineHeight + (combinedBodyLength - 1) * options.bodySpacing;
    }
    if (footerLineCount) {
        height += options.footerMarginTop + footerLineCount * footerFont.lineHeight + (footerLineCount - 1) * options.footerSpacing;
    }
    let widthPadding = 0;
    const maxLineWidth = function(line) {
        width = Math.max(width, ctx.measureText(line).width + widthPadding);
    };
    ctx.save();
    ctx.font = titleFont.string;
    each(tooltip.title, maxLineWidth);
    ctx.font = bodyFont.string;
    each(tooltip.beforeBody.concat(tooltip.afterBody), maxLineWidth);
    widthPadding = options.displayColors ? boxWidth + 2 + options.boxPadding : 0;
    each(body, (bodyItem)=>{
        each(bodyItem.before, maxLineWidth);
        each(bodyItem.lines, maxLineWidth);
        each(bodyItem.after, maxLineWidth);
    });
    widthPadding = 0;
    ctx.font = footerFont.string;
    each(tooltip.footer, maxLineWidth);
    ctx.restore();
    width += padding.width;
    return {
        width,
        height
    };
}
function determineYAlign(chart, size) {
    const { y , height  } = size;
    if (y < height / 2) {
        return 'top';
    } else if (y > chart.height - height / 2) {
        return 'bottom';
    }
    return 'center';
}
function doesNotFitWithAlign(xAlign, chart, options, size) {
    const { x , width  } = size;
    const caret = options.caretSize + options.caretPadding;
    if (xAlign === 'left' && x + width + caret > chart.width) {
        return true;
    }
    if (xAlign === 'right' && x - width - caret < 0) {
        return true;
    }
}
function determineXAlign(chart, options, size, yAlign) {
    const { x , width  } = size;
    const { width: chartWidth , chartArea: { left , right  }  } = chart;
    let xAlign = 'center';
    if (yAlign === 'center') {
        xAlign = x <= (left + right) / 2 ? 'left' : 'right';
    } else if (x <= width / 2) {
        xAlign = 'left';
    } else if (x >= chartWidth - width / 2) {
        xAlign = 'right';
    }
    if (doesNotFitWithAlign(xAlign, chart, options, size)) {
        xAlign = 'center';
    }
    return xAlign;
}
 function determineAlignment(chart, options, size) {
    const yAlign = size.yAlign || options.yAlign || determineYAlign(chart, size);
    return {
        xAlign: size.xAlign || options.xAlign || determineXAlign(chart, options, size, yAlign),
        yAlign
    };
}
function alignX(size, xAlign) {
    let { x , width  } = size;
    if (xAlign === 'right') {
        x -= width;
    } else if (xAlign === 'center') {
        x -= width / 2;
    }
    return x;
}
function alignY(size, yAlign, paddingAndSize) {
    let { y , height  } = size;
    if (yAlign === 'top') {
        y += paddingAndSize;
    } else if (yAlign === 'bottom') {
        y -= height + paddingAndSize;
    } else {
        y -= height / 2;
    }
    return y;
}
 function getBackgroundPoint(options, size, alignment, chart) {
    const { caretSize , caretPadding , cornerRadius  } = options;
    const { xAlign , yAlign  } = alignment;
    const paddingAndSize = caretSize + caretPadding;
    const { topLeft , topRight , bottomLeft , bottomRight  } = toTRBLCorners(cornerRadius);
    let x = alignX(size, xAlign);
    const y = alignY(size, yAlign, paddingAndSize);
    if (yAlign === 'center') {
        if (xAlign === 'left') {
            x += paddingAndSize;
        } else if (xAlign === 'right') {
            x -= paddingAndSize;
        }
    } else if (xAlign === 'left') {
        x -= Math.max(topLeft, bottomLeft) + caretSize;
    } else if (xAlign === 'right') {
        x += Math.max(topRight, bottomRight) + caretSize;
    }
    return {
        x: _limitValue(x, 0, chart.width - size.width),
        y: _limitValue(y, 0, chart.height - size.height)
    };
}
function getAlignedX(tooltip, align, options) {
    const padding = toPadding(options.padding);
    return align === 'center' ? tooltip.x + tooltip.width / 2 : align === 'right' ? tooltip.x + tooltip.width - padding.right : tooltip.x + padding.left;
}
 function getBeforeAfterBodyLines(callback) {
    return pushOrConcat([], splitNewlines(callback));
}
function createTooltipContext(parent, tooltip, tooltipItems) {
    return createContext(parent, {
        tooltip,
        tooltipItems,
        type: 'tooltip'
    });
}
function overrideCallbacks(callbacks, context) {
    const override = context && context.dataset && context.dataset.tooltip && context.dataset.tooltip.callbacks;
    return override ? callbacks.override(override) : callbacks;
}
const defaultCallbacks = {
    beforeTitle: noop,
    title (tooltipItems) {
        if (tooltipItems.length > 0) {
            const item = tooltipItems[0];
            const labels = item.chart.data.labels;
            const labelCount = labels ? labels.length : 0;
            if (this && this.options && this.options.mode === 'dataset') {
                return item.dataset.label || '';
            } else if (item.label) {
                return item.label;
            } else if (labelCount > 0 && item.dataIndex < labelCount) {
                return labels[item.dataIndex];
            }
        }
        return '';
    },
    afterTitle: noop,
    beforeBody: noop,
    beforeLabel: noop,
    label (tooltipItem) {
        if (this && this.options && this.options.mode === 'dataset') {
            return tooltipItem.label + ': ' + tooltipItem.formattedValue || tooltipItem.formattedValue;
        }
        let label = tooltipItem.dataset.label || '';
        if (label) {
            label += ': ';
        }
        const value = tooltipItem.formattedValue;
        if (!isNullOrUndef(value)) {
            label += value;
        }
        return label;
    },
    labelColor (tooltipItem) {
        const meta = tooltipItem.chart.getDatasetMeta(tooltipItem.datasetIndex);
        const options = meta.controller.getStyle(tooltipItem.dataIndex);
        return {
            borderColor: options.borderColor,
            backgroundColor: options.backgroundColor,
            borderWidth: options.borderWidth,
            borderDash: options.borderDash,
            borderDashOffset: options.borderDashOffset,
            borderRadius: 0
        };
    },
    labelTextColor () {
        return this.options.bodyColor;
    },
    labelPointStyle (tooltipItem) {
        const meta = tooltipItem.chart.getDatasetMeta(tooltipItem.datasetIndex);
        const options = meta.controller.getStyle(tooltipItem.dataIndex);
        return {
            pointStyle: options.pointStyle,
            rotation: options.rotation
        };
    },
    afterLabel: noop,
    afterBody: noop,
    beforeFooter: noop,
    footer: noop,
    afterFooter: noop
};
 function invokeCallbackWithFallback(callbacks, name, ctx, arg) {
    const result = callbacks[name].call(ctx, arg);
    if (typeof result === 'undefined') {
        return defaultCallbacks[name].call(ctx, arg);
    }
    return result;
}
class Tooltip extends Element {
 static positioners = positioners;
    constructor(config){
        super();
        this.opacity = 0;
        this._active = [];
        this._eventPosition = undefined;
        this._size = undefined;
        this._cachedAnimations = undefined;
        this._tooltipItems = [];
        this.$animations = undefined;
        this.$context = undefined;
        this.chart = config.chart;
        this.options = config.options;
        this.dataPoints = undefined;
        this.title = undefined;
        this.beforeBody = undefined;
        this.body = undefined;
        this.afterBody = undefined;
        this.footer = undefined;
        this.xAlign = undefined;
        this.yAlign = undefined;
        this.x = undefined;
        this.y = undefined;
        this.height = undefined;
        this.width = undefined;
        this.caretX = undefined;
        this.caretY = undefined;
        this.labelColors = undefined;
        this.labelPointStyles = undefined;
        this.labelTextColors = undefined;
    }
    initialize(options) {
        this.options = options;
        this._cachedAnimations = undefined;
        this.$context = undefined;
    }
 _resolveAnimations() {
        const cached = this._cachedAnimations;
        if (cached) {
            return cached;
        }
        const chart = this.chart;
        const options = this.options.setContext(this.getContext());
        const opts = options.enabled && chart.options.animation && options.animations;
        const animations = new Animations(this.chart, opts);
        if (opts._cacheable) {
            this._cachedAnimations = Object.freeze(animations);
        }
        return animations;
    }
 getContext() {
        return this.$context || (this.$context = createTooltipContext(this.chart.getContext(), this, this._tooltipItems));
    }
    getTitle(context, options) {
        const { callbacks  } = options;
        const beforeTitle = invokeCallbackWithFallback(callbacks, 'beforeTitle', this, context);
        const title = invokeCallbackWithFallback(callbacks, 'title', this, context);
        const afterTitle = invokeCallbackWithFallback(callbacks, 'afterTitle', this, context);
        let lines = [];
        lines = pushOrConcat(lines, splitNewlines(beforeTitle));
        lines = pushOrConcat(lines, splitNewlines(title));
        lines = pushOrConcat(lines, splitNewlines(afterTitle));
        return lines;
    }
    getBeforeBody(tooltipItems, options) {
        return getBeforeAfterBodyLines(invokeCallbackWithFallback(options.callbacks, 'beforeBody', this, tooltipItems));
    }
    getBody(tooltipItems, options) {
        const { callbacks  } = options;
        const bodyItems = [];
        each(tooltipItems, (context)=>{
            const bodyItem = {
                before: [],
                lines: [],
                after: []
            };
            const scoped = overrideCallbacks(callbacks, context);
            pushOrConcat(bodyItem.before, splitNewlines(invokeCallbackWithFallback(scoped, 'beforeLabel', this, context)));
            pushOrConcat(bodyItem.lines, invokeCallbackWithFallback(scoped, 'label', this, context));
            pushOrConcat(bodyItem.after, splitNewlines(invokeCallbackWithFallback(scoped, 'afterLabel', this, context)));
            bodyItems.push(bodyItem);
        });
        return bodyItems;
    }
    getAfterBody(tooltipItems, options) {
        return getBeforeAfterBodyLines(invokeCallbackWithFallback(options.callbacks, 'afterBody', this, tooltipItems));
    }
    getFooter(tooltipItems, options) {
        const { callbacks  } = options;
        const beforeFooter = invokeCallbackWithFallback(callbacks, 'beforeFooter', this, tooltipItems);
        const footer = invokeCallbackWithFallback(callbacks, 'footer', this, tooltipItems);
        const afterFooter = invokeCallbackWithFallback(callbacks, 'afterFooter', this, tooltipItems);
        let lines = [];
        lines = pushOrConcat(lines, splitNewlines(beforeFooter));
        lines = pushOrConcat(lines, splitNewlines(footer));
        lines = pushOrConcat(lines, splitNewlines(afterFooter));
        return lines;
    }
 _createItems(options) {
        const active = this._active;
        const data = this.chart.data;
        const labelColors = [];
        const labelPointStyles = [];
        const labelTextColors = [];
        let tooltipItems = [];
        let i, len;
        for(i = 0, len = active.length; i < len; ++i){
            tooltipItems.push(createTooltipItem(this.chart, active[i]));
        }
        if (options.filter) {
            tooltipItems = tooltipItems.filter((element, index, array)=>options.filter(element, index, array, data));
        }
        if (options.itemSort) {
            tooltipItems = tooltipItems.sort((a, b)=>options.itemSort(a, b, data));
        }
        each(tooltipItems, (context)=>{
            const scoped = overrideCallbacks(options.callbacks, context);
            labelColors.push(invokeCallbackWithFallback(scoped, 'labelColor', this, context));
            labelPointStyles.push(invokeCallbackWithFallback(scoped, 'labelPointStyle', this, context));
            labelTextColors.push(invokeCallbackWithFallback(scoped, 'labelTextColor', this, context));
        });
        this.labelColors = labelColors;
        this.labelPointStyles = labelPointStyles;
        this.labelTextColors = labelTextColors;
        this.dataPoints = tooltipItems;
        return tooltipItems;
    }
    update(changed, replay) {
        const options = this.options.setContext(this.getContext());
        const active = this._active;
        let properties;
        let tooltipItems = [];
        if (!active.length) {
            if (this.opacity !== 0) {
                properties = {
                    opacity: 0
                };
            }
        } else {
            const position = positioners[options.position].call(this, active, this._eventPosition);
            tooltipItems = this._createItems(options);
            this.title = this.getTitle(tooltipItems, options);
            this.beforeBody = this.getBeforeBody(tooltipItems, options);
            this.body = this.getBody(tooltipItems, options);
            this.afterBody = this.getAfterBody(tooltipItems, options);
            this.footer = this.getFooter(tooltipItems, options);
            const size = this._size = getTooltipSize(this, options);
            const positionAndSize = Object.assign({}, position, size);
            const alignment = determineAlignment(this.chart, options, positionAndSize);
            const backgroundPoint = getBackgroundPoint(options, positionAndSize, alignment, this.chart);
            this.xAlign = alignment.xAlign;
            this.yAlign = alignment.yAlign;
            properties = {
                opacity: 1,
                x: backgroundPoint.x,
                y: backgroundPoint.y,
                width: size.width,
                height: size.height,
                caretX: position.x,
                caretY: position.y
            };
        }
        this._tooltipItems = tooltipItems;
        this.$context = undefined;
        if (properties) {
            this._resolveAnimations().update(this, properties);
        }
        if (changed && options.external) {
            options.external.call(this, {
                chart: this.chart,
                tooltip: this,
                replay
            });
        }
    }
    drawCaret(tooltipPoint, ctx, size, options) {
        const caretPosition = this.getCaretPosition(tooltipPoint, size, options);
        ctx.lineTo(caretPosition.x1, caretPosition.y1);
        ctx.lineTo(caretPosition.x2, caretPosition.y2);
        ctx.lineTo(caretPosition.x3, caretPosition.y3);
    }
    getCaretPosition(tooltipPoint, size, options) {
        const { xAlign , yAlign  } = this;
        const { caretSize , cornerRadius  } = options;
        const { topLeft , topRight , bottomLeft , bottomRight  } = toTRBLCorners(cornerRadius);
        const { x: ptX , y: ptY  } = tooltipPoint;
        const { width , height  } = size;
        let x1, x2, x3, y1, y2, y3;
        if (yAlign === 'center') {
            y2 = ptY + height / 2;
            if (xAlign === 'left') {
                x1 = ptX;
                x2 = x1 - caretSize;
                y1 = y2 + caretSize;
                y3 = y2 - caretSize;
            } else {
                x1 = ptX + width;
                x2 = x1 + caretSize;
                y1 = y2 - caretSize;
                y3 = y2 + caretSize;
            }
            x3 = x1;
        } else {
            if (xAlign === 'left') {
                x2 = ptX + Math.max(topLeft, bottomLeft) + caretSize;
            } else if (xAlign === 'right') {
                x2 = ptX + width - Math.max(topRight, bottomRight) - caretSize;
            } else {
                x2 = this.caretX;
            }
            if (yAlign === 'top') {
                y1 = ptY;
                y2 = y1 - caretSize;
                x1 = x2 - caretSize;
                x3 = x2 + caretSize;
            } else {
                y1 = ptY + height;
                y2 = y1 + caretSize;
                x1 = x2 + caretSize;
                x3 = x2 - caretSize;
            }
            y3 = y1;
        }
        return {
            x1,
            x2,
            x3,
            y1,
            y2,
            y3
        };
    }
    drawTitle(pt, ctx, options) {
        const title = this.title;
        const length = title.length;
        let titleFont, titleSpacing, i;
        if (length) {
            const rtlHelper = getRtlAdapter(options.rtl, this.x, this.width);
            pt.x = getAlignedX(this, options.titleAlign, options);
            ctx.textAlign = rtlHelper.textAlign(options.titleAlign);
            ctx.textBaseline = 'middle';
            titleFont = toFont(options.titleFont);
            titleSpacing = options.titleSpacing;
            ctx.fillStyle = options.titleColor;
            ctx.font = titleFont.string;
            for(i = 0; i < length; ++i){
                ctx.fillText(title[i], rtlHelper.x(pt.x), pt.y + titleFont.lineHeight / 2);
                pt.y += titleFont.lineHeight + titleSpacing;
                if (i + 1 === length) {
                    pt.y += options.titleMarginBottom - titleSpacing;
                }
            }
        }
    }
 _drawColorBox(ctx, pt, i, rtlHelper, options) {
        const labelColor = this.labelColors[i];
        const labelPointStyle = this.labelPointStyles[i];
        const { boxHeight , boxWidth  } = options;
        const bodyFont = toFont(options.bodyFont);
        const colorX = getAlignedX(this, 'left', options);
        const rtlColorX = rtlHelper.x(colorX);
        const yOffSet = boxHeight < bodyFont.lineHeight ? (bodyFont.lineHeight - boxHeight) / 2 : 0;
        const colorY = pt.y + yOffSet;
        if (options.usePointStyle) {
            const drawOptions = {
                radius: Math.min(boxWidth, boxHeight) / 2,
                pointStyle: labelPointStyle.pointStyle,
                rotation: labelPointStyle.rotation,
                borderWidth: 1
            };
            const centerX = rtlHelper.leftForLtr(rtlColorX, boxWidth) + boxWidth / 2;
            const centerY = colorY + boxHeight / 2;
            ctx.strokeStyle = options.multiKeyBackground;
            ctx.fillStyle = options.multiKeyBackground;
            drawPoint(ctx, drawOptions, centerX, centerY);
            ctx.strokeStyle = labelColor.borderColor;
            ctx.fillStyle = labelColor.backgroundColor;
            drawPoint(ctx, drawOptions, centerX, centerY);
        } else {
            ctx.lineWidth = isObject(labelColor.borderWidth) ? Math.max(...Object.values(labelColor.borderWidth)) : labelColor.borderWidth || 1;
            ctx.strokeStyle = labelColor.borderColor;
            ctx.setLineDash(labelColor.borderDash || []);
            ctx.lineDashOffset = labelColor.borderDashOffset || 0;
            const outerX = rtlHelper.leftForLtr(rtlColorX, boxWidth);
            const innerX = rtlHelper.leftForLtr(rtlHelper.xPlus(rtlColorX, 1), boxWidth - 2);
            const borderRadius = toTRBLCorners(labelColor.borderRadius);
            if (Object.values(borderRadius).some((v)=>v !== 0)) {
                ctx.beginPath();
                ctx.fillStyle = options.multiKeyBackground;
                addRoundedRectPath(ctx, {
                    x: outerX,
                    y: colorY,
                    w: boxWidth,
                    h: boxHeight,
                    radius: borderRadius
                });
                ctx.fill();
                ctx.stroke();
                ctx.fillStyle = labelColor.backgroundColor;
                ctx.beginPath();
                addRoundedRectPath(ctx, {
                    x: innerX,
                    y: colorY + 1,
                    w: boxWidth - 2,
                    h: boxHeight - 2,
                    radius: borderRadius
                });
                ctx.fill();
            } else {
                ctx.fillStyle = options.multiKeyBackground;
                ctx.fillRect(outerX, colorY, boxWidth, boxHeight);
                ctx.strokeRect(outerX, colorY, boxWidth, boxHeight);
                ctx.fillStyle = labelColor.backgroundColor;
                ctx.fillRect(innerX, colorY + 1, boxWidth - 2, boxHeight - 2);
            }
        }
        ctx.fillStyle = this.labelTextColors[i];
    }
    drawBody(pt, ctx, options) {
        const { body  } = this;
        const { bodySpacing , bodyAlign , displayColors , boxHeight , boxWidth , boxPadding  } = options;
        const bodyFont = toFont(options.bodyFont);
        let bodyLineHeight = bodyFont.lineHeight;
        let xLinePadding = 0;
        const rtlHelper = getRtlAdapter(options.rtl, this.x, this.width);
        const fillLineOfText = function(line) {
            ctx.fillText(line, rtlHelper.x(pt.x + xLinePadding), pt.y + bodyLineHeight / 2);
            pt.y += bodyLineHeight + bodySpacing;
        };
        const bodyAlignForCalculation = rtlHelper.textAlign(bodyAlign);
        let bodyItem, textColor, lines, i, j, ilen, jlen;
        ctx.textAlign = bodyAlign;
        ctx.textBaseline = 'middle';
        ctx.font = bodyFont.string;
        pt.x = getAlignedX(this, bodyAlignForCalculation, options);
        ctx.fillStyle = options.bodyColor;
        each(this.beforeBody, fillLineOfText);
        xLinePadding = displayColors && bodyAlignForCalculation !== 'right' ? bodyAlign === 'center' ? boxWidth / 2 + boxPadding : boxWidth + 2 + boxPadding : 0;
        for(i = 0, ilen = body.length; i < ilen; ++i){
            bodyItem = body[i];
            textColor = this.labelTextColors[i];
            ctx.fillStyle = textColor;
            each(bodyItem.before, fillLineOfText);
            lines = bodyItem.lines;
            if (displayColors && lines.length) {
                this._drawColorBox(ctx, pt, i, rtlHelper, options);
                bodyLineHeight = Math.max(bodyFont.lineHeight, boxHeight);
            }
            for(j = 0, jlen = lines.length; j < jlen; ++j){
                fillLineOfText(lines[j]);
                bodyLineHeight = bodyFont.lineHeight;
            }
            each(bodyItem.after, fillLineOfText);
        }
        xLinePadding = 0;
        bodyLineHeight = bodyFont.lineHeight;
        each(this.afterBody, fillLineOfText);
        pt.y -= bodySpacing;
    }
    drawFooter(pt, ctx, options) {
        const footer = this.footer;
        const length = footer.length;
        let footerFont, i;
        if (length) {
            const rtlHelper = getRtlAdapter(options.rtl, this.x, this.width);
            pt.x = getAlignedX(this, options.footerAlign, options);
            pt.y += options.footerMarginTop;
            ctx.textAlign = rtlHelper.textAlign(options.footerAlign);
            ctx.textBaseline = 'middle';
            footerFont = toFont(options.footerFont);
            ctx.fillStyle = options.footerColor;
            ctx.font = footerFont.string;
            for(i = 0; i < length; ++i){
                ctx.fillText(footer[i], rtlHelper.x(pt.x), pt.y + footerFont.lineHeight / 2);
                pt.y += footerFont.lineHeight + options.footerSpacing;
            }
        }
    }
    drawBackground(pt, ctx, tooltipSize, options) {
        const { xAlign , yAlign  } = this;
        const { x , y  } = pt;
        const { width , height  } = tooltipSize;
        const { topLeft , topRight , bottomLeft , bottomRight  } = toTRBLCorners(options.cornerRadius);
        ctx.fillStyle = options.backgroundColor;
        ctx.strokeStyle = options.borderColor;
        ctx.lineWidth = options.borderWidth;
        ctx.beginPath();
        ctx.moveTo(x + topLeft, y);
        if (yAlign === 'top') {
            this.drawCaret(pt, ctx, tooltipSize, options);
        }
        ctx.lineTo(x + width - topRight, y);
        ctx.quadraticCurveTo(x + width, y, x + width, y + topRight);
        if (yAlign === 'center' && xAlign === 'right') {
            this.drawCaret(pt, ctx, tooltipSize, options);
        }
        ctx.lineTo(x + width, y + height - bottomRight);
        ctx.quadraticCurveTo(x + width, y + height, x + width - bottomRight, y + height);
        if (yAlign === 'bottom') {
            this.drawCaret(pt, ctx, tooltipSize, options);
        }
        ctx.lineTo(x + bottomLeft, y + height);
        ctx.quadraticCurveTo(x, y + height, x, y + height - bottomLeft);
        if (yAlign === 'center' && xAlign === 'left') {
            this.drawCaret(pt, ctx, tooltipSize, options);
        }
        ctx.lineTo(x, y + topLeft);
        ctx.quadraticCurveTo(x, y, x + topLeft, y);
        ctx.closePath();
        ctx.fill();
        if (options.borderWidth > 0) {
            ctx.stroke();
        }
    }
 _updateAnimationTarget(options) {
        const chart = this.chart;
        const anims = this.$animations;
        const animX = anims && anims.x;
        const animY = anims && anims.y;
        if (animX || animY) {
            const position = positioners[options.position].call(this, this._active, this._eventPosition);
            if (!position) {
                return;
            }
            const size = this._size = getTooltipSize(this, options);
            const positionAndSize = Object.assign({}, position, this._size);
            const alignment = determineAlignment(chart, options, positionAndSize);
            const point = getBackgroundPoint(options, positionAndSize, alignment, chart);
            if (animX._to !== point.x || animY._to !== point.y) {
                this.xAlign = alignment.xAlign;
                this.yAlign = alignment.yAlign;
                this.width = size.width;
                this.height = size.height;
                this.caretX = position.x;
                this.caretY = position.y;
                this._resolveAnimations().update(this, point);
            }
        }
    }
 _willRender() {
        return !!this.opacity;
    }
    draw(ctx) {
        const options = this.options.setContext(this.getContext());
        let opacity = this.opacity;
        if (!opacity) {
            return;
        }
        this._updateAnimationTarget(options);
        const tooltipSize = {
            width: this.width,
            height: this.height
        };
        const pt = {
            x: this.x,
            y: this.y
        };
        opacity = Math.abs(opacity) < 1e-3 ? 0 : opacity;
        const padding = toPadding(options.padding);
        const hasTooltipContent = this.title.length || this.beforeBody.length || this.body.length || this.afterBody.length || this.footer.length;
        if (options.enabled && hasTooltipContent) {
            ctx.save();
            ctx.globalAlpha = opacity;
            this.drawBackground(pt, ctx, tooltipSize, options);
            overrideTextDirection(ctx, options.textDirection);
            pt.y += padding.top;
            this.drawTitle(pt, ctx, options);
            this.drawBody(pt, ctx, options);
            this.drawFooter(pt, ctx, options);
            restoreTextDirection(ctx, options.textDirection);
            ctx.restore();
        }
    }
 getActiveElements() {
        return this._active || [];
    }
 setActiveElements(activeElements, eventPosition) {
        const lastActive = this._active;
        const active = activeElements.map(({ datasetIndex , index  })=>{
            const meta = this.chart.getDatasetMeta(datasetIndex);
            if (!meta) {
                throw new Error('Cannot find a dataset at index ' + datasetIndex);
            }
            return {
                datasetIndex,
                element: meta.data[index],
                index
            };
        });
        const changed = !_elementsEqual(lastActive, active);
        const positionChanged = this._positionChanged(active, eventPosition);
        if (changed || positionChanged) {
            this._active = active;
            this._eventPosition = eventPosition;
            this._ignoreReplayEvents = true;
            this.update(true);
        }
    }
 handleEvent(e, replay, inChartArea = true) {
        if (replay && this._ignoreReplayEvents) {
            return false;
        }
        this._ignoreReplayEvents = false;
        const options = this.options;
        const lastActive = this._active || [];
        const active = this._getActiveElements(e, lastActive, replay, inChartArea);
        const positionChanged = this._positionChanged(active, e);
        const changed = replay || !_elementsEqual(active, lastActive) || positionChanged;
        if (changed) {
            this._active = active;
            if (options.enabled || options.external) {
                this._eventPosition = {
                    x: e.x,
                    y: e.y
                };
                this.update(true, replay);
            }
        }
        return changed;
    }
 _getActiveElements(e, lastActive, replay, inChartArea) {
        const options = this.options;
        if (e.type === 'mouseout') {
            return [];
        }
        if (!inChartArea) {
            return lastActive.filter((i)=>this.chart.data.datasets[i.datasetIndex] && this.chart.getDatasetMeta(i.datasetIndex).controller.getParsed(i.index) !== undefined);
        }
        const active = this.chart.getElementsAtEventForMode(e, options.mode, options, replay);
        if (options.reverse) {
            active.reverse();
        }
        return active;
    }
 _positionChanged(active, e) {
        const { caretX , caretY , options  } = this;
        const position = positioners[options.position].call(this, active, e);
        return position !== false && (caretX !== position.x || caretY !== position.y);
    }
}
var plugin_tooltip = {
    id: 'tooltip',
    _element: Tooltip,
    positioners,
    afterInit (chart, _args, options) {
        if (options) {
            chart.tooltip = new Tooltip({
                chart,
                options
            });
        }
    },
    beforeUpdate (chart, _args, options) {
        if (chart.tooltip) {
            chart.tooltip.initialize(options);
        }
    },
    reset (chart, _args, options) {
        if (chart.tooltip) {
            chart.tooltip.initialize(options);
        }
    },
    afterDraw (chart) {
        const tooltip = chart.tooltip;
        if (tooltip && tooltip._willRender()) {
            const args = {
                tooltip
            };
            if (chart.notifyPlugins('beforeTooltipDraw', {
                ...args,
                cancelable: true
            }) === false) {
                return;
            }
            tooltip.draw(chart.ctx);
            chart.notifyPlugins('afterTooltipDraw', args);
        }
    },
    afterEvent (chart, args) {
        if (chart.tooltip) {
            const useFinalPosition = args.replay;
            if (chart.tooltip.handleEvent(args.event, useFinalPosition, args.inChartArea)) {
                args.changed = true;
            }
        }
    },
    defaults: {
        enabled: true,
        external: null,
        position: 'average',
        backgroundColor: 'rgba(0,0,0,0.8)',
        titleColor: '#fff',
        titleFont: {
            weight: 'bold'
        },
        titleSpacing: 2,
        titleMarginBottom: 6,
        titleAlign: 'left',
        bodyColor: '#fff',
        bodySpacing: 2,
        bodyFont: {},
        bodyAlign: 'left',
        footerColor: '#fff',
        footerSpacing: 2,
        footerMarginTop: 6,
        footerFont: {
            weight: 'bold'
        },
        footerAlign: 'left',
        padding: 6,
        caretPadding: 2,
        caretSize: 5,
        cornerRadius: 6,
        boxHeight: (ctx, opts)=>opts.bodyFont.size,
        boxWidth: (ctx, opts)=>opts.bodyFont.size,
        multiKeyBackground: '#fff',
        displayColors: true,
        boxPadding: 0,
        borderColor: 'rgba(0,0,0,0)',
        borderWidth: 0,
        animation: {
            duration: 400,
            easing: 'easeOutQuart'
        },
        animations: {
            numbers: {
                type: 'number',
                properties: [
                    'x',
                    'y',
                    'width',
                    'height',
                    'caretX',
                    'caretY'
                ]
            },
            opacity: {
                easing: 'linear',
                duration: 200
            }
        },
        callbacks: defaultCallbacks
    },
    defaultRoutes: {
        bodyFont: 'font',
        footerFont: 'font',
        titleFont: 'font'
    },
    descriptors: {
        _scriptable: (name)=>name !== 'filter' && name !== 'itemSort' && name !== 'external',
        _indexable: false,
        callbacks: {
            _scriptable: false,
            _indexable: false
        },
        animation: {
            _fallback: false
        },
        animations: {
            _fallback: 'animation'
        }
    },
    additionalOptionScopes: [
        'interaction'
    ]
};

var plugins = /*#__PURE__*/Object.freeze({
__proto__: null,
Colors: plugin_colors,
Decimation: plugin_decimation,
Filler: index,
Legend: plugin_legend,
SubTitle: plugin_subtitle,
Title: plugin_title,
Tooltip: plugin_tooltip
});

const addIfString = (labels, raw, index, addedLabels)=>{
    if (typeof raw === 'string') {
        index = labels.push(raw) - 1;
        addedLabels.unshift({
            index,
            label: raw
        });
    } else if (isNaN(raw)) {
        index = null;
    }
    return index;
};
function findOrAddLabel(labels, raw, index, addedLabels) {
    const first = labels.indexOf(raw);
    if (first === -1) {
        return addIfString(labels, raw, index, addedLabels);
    }
    const last = labels.lastIndexOf(raw);
    return first !== last ? index : first;
}
const validIndex = (index, max)=>index === null ? null : _limitValue(Math.round(index), 0, max);
function _getLabelForValue(value) {
    const labels = this.getLabels();
    if (value >= 0 && value < labels.length) {
        return labels[value];
    }
    return value;
}
class CategoryScale extends Scale {
    static id = 'category';
 static defaults = {
        ticks: {
            callback: _getLabelForValue
        }
    };
    constructor(cfg){
        super(cfg);
         this._startValue = undefined;
        this._valueRange = 0;
        this._addedLabels = [];
    }
    init(scaleOptions) {
        const added = this._addedLabels;
        if (added.length) {
            const labels = this.getLabels();
            for (const { index , label  } of added){
                if (labels[index] === label) {
                    labels.splice(index, 1);
                }
            }
            this._addedLabels = [];
        }
        super.init(scaleOptions);
    }
    parse(raw, index) {
        if (isNullOrUndef(raw)) {
            return null;
        }
        const labels = this.getLabels();
        index = isFinite(index) && labels[index] === raw ? index : findOrAddLabel(labels, raw, valueOrDefault(index, raw), this._addedLabels);
        return validIndex(index, labels.length - 1);
    }
    determineDataLimits() {
        const { minDefined , maxDefined  } = this.getUserBounds();
        let { min , max  } = this.getMinMax(true);
        if (this.options.bounds === 'ticks') {
            if (!minDefined) {
                min = 0;
            }
            if (!maxDefined) {
                max = this.getLabels().length - 1;
            }
        }
        this.min = min;
        this.max = max;
    }
    buildTicks() {
        const min = this.min;
        const max = this.max;
        const offset = this.options.offset;
        const ticks = [];
        let labels = this.getLabels();
        labels = min === 0 && max === labels.length - 1 ? labels : labels.slice(min, max + 1);
        this._valueRange = Math.max(labels.length - (offset ? 0 : 1), 1);
        this._startValue = this.min - (offset ? 0.5 : 0);
        for(let value = min; value <= max; value++){
            ticks.push({
                value
            });
        }
        return ticks;
    }
    getLabelForValue(value) {
        return _getLabelForValue.call(this, value);
    }
 configure() {
        super.configure();
        if (!this.isHorizontal()) {
            this._reversePixels = !this._reversePixels;
        }
    }
    getPixelForValue(value) {
        if (typeof value !== 'number') {
            value = this.parse(value);
        }
        return value === null ? NaN : this.getPixelForDecimal((value - this._startValue) / this._valueRange);
    }
    getPixelForTick(index) {
        const ticks = this.ticks;
        if (index < 0 || index > ticks.length - 1) {
            return null;
        }
        return this.getPixelForValue(ticks[index].value);
    }
    getValueForPixel(pixel) {
        return Math.round(this._startValue + this.getDecimalForPixel(pixel) * this._valueRange);
    }
    getBasePixel() {
        return this.bottom;
    }
}

function generateTicks$1(generationOptions, dataRange) {
    const ticks = [];
    const MIN_SPACING = 1e-14;
    const { bounds , step , min , max , precision , count , maxTicks , maxDigits , includeBounds  } = generationOptions;
    const unit = step || 1;
    const maxSpaces = maxTicks - 1;
    const { min: rmin , max: rmax  } = dataRange;
    const minDefined = !isNullOrUndef(min);
    const maxDefined = !isNullOrUndef(max);
    const countDefined = !isNullOrUndef(count);
    const minSpacing = (rmax - rmin) / (maxDigits + 1);
    let spacing = niceNum((rmax - rmin) / maxSpaces / unit) * unit;
    let factor, niceMin, niceMax, numSpaces;
    if (spacing < MIN_SPACING && !minDefined && !maxDefined) {
        return [
            {
                value: rmin
            },
            {
                value: rmax
            }
        ];
    }
    numSpaces = Math.ceil(rmax / spacing) - Math.floor(rmin / spacing);
    if (numSpaces > maxSpaces) {
        spacing = niceNum(numSpaces * spacing / maxSpaces / unit) * unit;
    }
    if (!isNullOrUndef(precision)) {
        factor = Math.pow(10, precision);
        spacing = Math.ceil(spacing * factor) / factor;
    }
    if (bounds === 'ticks') {
        niceMin = Math.floor(rmin / spacing) * spacing;
        niceMax = Math.ceil(rmax / spacing) * spacing;
    } else {
        niceMin = rmin;
        niceMax = rmax;
    }
    if (minDefined && maxDefined && step && almostWhole((max - min) / step, spacing / 1000)) {
        numSpaces = Math.round(Math.min((max - min) / spacing, maxTicks));
        spacing = (max - min) / numSpaces;
        niceMin = min;
        niceMax = max;
    } else if (countDefined) {
        niceMin = minDefined ? min : niceMin;
        niceMax = maxDefined ? max : niceMax;
        numSpaces = count - 1;
        spacing = (niceMax - niceMin) / numSpaces;
    } else {
        numSpaces = (niceMax - niceMin) / spacing;
        if (almostEquals(numSpaces, Math.round(numSpaces), spacing / 1000)) {
            numSpaces = Math.round(numSpaces);
        } else {
            numSpaces = Math.ceil(numSpaces);
        }
    }
    const decimalPlaces = Math.max(_decimalPlaces(spacing), _decimalPlaces(niceMin));
    factor = Math.pow(10, isNullOrUndef(precision) ? decimalPlaces : precision);
    niceMin = Math.round(niceMin * factor) / factor;
    niceMax = Math.round(niceMax * factor) / factor;
    let j = 0;
    if (minDefined) {
        if (includeBounds && niceMin !== min) {
            ticks.push({
                value: min
            });
            if (niceMin < min) {
                j++;
            }
            if (almostEquals(Math.round((niceMin + j * spacing) * factor) / factor, min, relativeLabelSize(min, minSpacing, generationOptions))) {
                j++;
            }
        } else if (niceMin < min) {
            j++;
        }
    }
    for(; j < numSpaces; ++j){
        const tickValue = Math.round((niceMin + j * spacing) * factor) / factor;
        if (maxDefined && tickValue > max) {
            break;
        }
        ticks.push({
            value: tickValue
        });
    }
    if (maxDefined && includeBounds && niceMax !== max) {
        if (ticks.length && almostEquals(ticks[ticks.length - 1].value, max, relativeLabelSize(max, minSpacing, generationOptions))) {
            ticks[ticks.length - 1].value = max;
        } else {
            ticks.push({
                value: max
            });
        }
    } else if (!maxDefined || niceMax === max) {
        ticks.push({
            value: niceMax
        });
    }
    return ticks;
}
function relativeLabelSize(value, minSpacing, { horizontal , minRotation  }) {
    const rad = toRadians(minRotation);
    const ratio = (horizontal ? Math.sin(rad) : Math.cos(rad)) || 0.001;
    const length = 0.75 * minSpacing * ('' + value).length;
    return Math.min(minSpacing / ratio, length);
}
class LinearScaleBase extends Scale {
    constructor(cfg){
        super(cfg);
         this.start = undefined;
         this.end = undefined;
         this._startValue = undefined;
         this._endValue = undefined;
        this._valueRange = 0;
    }
    parse(raw, index) {
        if (isNullOrUndef(raw)) {
            return null;
        }
        if ((typeof raw === 'number' || raw instanceof Number) && !isFinite(+raw)) {
            return null;
        }
        return +raw;
    }
    handleTickRangeOptions() {
        const { beginAtZero  } = this.options;
        const { minDefined , maxDefined  } = this.getUserBounds();
        let { min , max  } = this;
        const setMin = (v)=>min = minDefined ? min : v;
        const setMax = (v)=>max = maxDefined ? max : v;
        if (beginAtZero) {
            const minSign = sign(min);
            const maxSign = sign(max);
            if (minSign < 0 && maxSign < 0) {
                setMax(0);
            } else if (minSign > 0 && maxSign > 0) {
                setMin(0);
            }
        }
        if (min === max) {
            let offset = max === 0 ? 1 : Math.abs(max * 0.05);
            setMax(max + offset);
            if (!beginAtZero) {
                setMin(min - offset);
            }
        }
        this.min = min;
        this.max = max;
    }
    getTickLimit() {
        const tickOpts = this.options.ticks;
        let { maxTicksLimit , stepSize  } = tickOpts;
        let maxTicks;
        if (stepSize) {
            maxTicks = Math.ceil(this.max / stepSize) - Math.floor(this.min / stepSize) + 1;
            if (maxTicks > 1000) {
                console.warn(`scales.${this.id}.ticks.stepSize: ${stepSize} would result generating up to ${maxTicks} ticks. Limiting to 1000.`);
                maxTicks = 1000;
            }
        } else {
            maxTicks = this.computeTickLimit();
            maxTicksLimit = maxTicksLimit || 11;
        }
        if (maxTicksLimit) {
            maxTicks = Math.min(maxTicksLimit, maxTicks);
        }
        return maxTicks;
    }
 computeTickLimit() {
        return Number.POSITIVE_INFINITY;
    }
    buildTicks() {
        const opts = this.options;
        const tickOpts = opts.ticks;
        let maxTicks = this.getTickLimit();
        maxTicks = Math.max(2, maxTicks);
        const numericGeneratorOptions = {
            maxTicks,
            bounds: opts.bounds,
            min: opts.min,
            max: opts.max,
            precision: tickOpts.precision,
            step: tickOpts.stepSize,
            count: tickOpts.count,
            maxDigits: this._maxDigits(),
            horizontal: this.isHorizontal(),
            minRotation: tickOpts.minRotation || 0,
            includeBounds: tickOpts.includeBounds !== false
        };
        const dataRange = this._range || this;
        const ticks = generateTicks$1(numericGeneratorOptions, dataRange);
        if (opts.bounds === 'ticks') {
            _setMinAndMaxByKey(ticks, this, 'value');
        }
        if (opts.reverse) {
            ticks.reverse();
            this.start = this.max;
            this.end = this.min;
        } else {
            this.start = this.min;
            this.end = this.max;
        }
        return ticks;
    }
 configure() {
        const ticks = this.ticks;
        let start = this.min;
        let end = this.max;
        super.configure();
        if (this.options.offset && ticks.length) {
            const offset = (end - start) / Math.max(ticks.length - 1, 1) / 2;
            start -= offset;
            end += offset;
        }
        this._startValue = start;
        this._endValue = end;
        this._valueRange = end - start;
    }
    getLabelForValue(value) {
        return formatNumber(value, this.chart.options.locale, this.options.ticks.format);
    }
}

class LinearScale extends LinearScaleBase {
    static id = 'linear';
 static defaults = {
        ticks: {
            callback: Ticks.formatters.numeric
        }
    };
    determineDataLimits() {
        const { min , max  } = this.getMinMax(true);
        this.min = isNumberFinite(min) ? min : 0;
        this.max = isNumberFinite(max) ? max : 1;
        this.handleTickRangeOptions();
    }
 computeTickLimit() {
        const horizontal = this.isHorizontal();
        const length = horizontal ? this.width : this.height;
        const minRotation = toRadians(this.options.ticks.minRotation);
        const ratio = (horizontal ? Math.sin(minRotation) : Math.cos(minRotation)) || 0.001;
        const tickFont = this._resolveTickFontOptions(0);
        return Math.ceil(length / Math.min(40, tickFont.lineHeight / ratio));
    }
    getPixelForValue(value) {
        return value === null ? NaN : this.getPixelForDecimal((value - this._startValue) / this._valueRange);
    }
    getValueForPixel(pixel) {
        return this._startValue + this.getDecimalForPixel(pixel) * this._valueRange;
    }
}

const log10Floor = (v)=>Math.floor(log10(v));
const changeExponent = (v, m)=>Math.pow(10, log10Floor(v) + m);
function isMajor(tickVal) {
    const remain = tickVal / Math.pow(10, log10Floor(tickVal));
    return remain === 1;
}
function steps(min, max, rangeExp) {
    const rangeStep = Math.pow(10, rangeExp);
    const start = Math.floor(min / rangeStep);
    const end = Math.ceil(max / rangeStep);
    return end - start;
}
function startExp(min, max) {
    const range = max - min;
    let rangeExp = log10Floor(range);
    while(steps(min, max, rangeExp) > 10){
        rangeExp++;
    }
    while(steps(min, max, rangeExp) < 10){
        rangeExp--;
    }
    return Math.min(rangeExp, log10Floor(min));
}
 function generateTicks(generationOptions, { min , max  }) {
    min = finiteOrDefault(generationOptions.min, min);
    const ticks = [];
    const minExp = log10Floor(min);
    let exp = startExp(min, max);
    let precision = exp < 0 ? Math.pow(10, Math.abs(exp)) : 1;
    const stepSize = Math.pow(10, exp);
    const base = minExp > exp ? Math.pow(10, minExp) : 0;
    const start = Math.round((min - base) * precision) / precision;
    const offset = Math.floor((min - base) / stepSize / 10) * stepSize * 10;
    let significand = Math.floor((start - offset) / Math.pow(10, exp));
    let value = finiteOrDefault(generationOptions.min, Math.round((base + offset + significand * Math.pow(10, exp)) * precision) / precision);
    while(value < max){
        ticks.push({
            value,
            major: isMajor(value),
            significand
        });
        if (significand >= 10) {
            significand = significand < 15 ? 15 : 20;
        } else {
            significand++;
        }
        if (significand >= 20) {
            exp++;
            significand = 2;
            precision = exp >= 0 ? 1 : precision;
        }
        value = Math.round((base + offset + significand * Math.pow(10, exp)) * precision) / precision;
    }
    const lastTick = finiteOrDefault(generationOptions.max, value);
    ticks.push({
        value: lastTick,
        major: isMajor(lastTick),
        significand
    });
    return ticks;
}
class LogarithmicScale extends Scale {
    static id = 'logarithmic';
 static defaults = {
        ticks: {
            callback: Ticks.formatters.logarithmic,
            major: {
                enabled: true
            }
        }
    };
    constructor(cfg){
        super(cfg);
         this.start = undefined;
         this.end = undefined;
         this._startValue = undefined;
        this._valueRange = 0;
    }
    parse(raw, index) {
        const value = LinearScaleBase.prototype.parse.apply(this, [
            raw,
            index
        ]);
        if (value === 0) {
            this._zero = true;
            return undefined;
        }
        return isNumberFinite(value) && value > 0 ? value : null;
    }
    determineDataLimits() {
        const { min , max  } = this.getMinMax(true);
        this.min = isNumberFinite(min) ? Math.max(0, min) : null;
        this.max = isNumberFinite(max) ? Math.max(0, max) : null;
        if (this.options.beginAtZero) {
            this._zero = true;
        }
        if (this._zero && this.min !== this._suggestedMin && !isNumberFinite(this._userMin)) {
            this.min = min === changeExponent(this.min, 0) ? changeExponent(this.min, -1) : changeExponent(this.min, 0);
        }
        this.handleTickRangeOptions();
    }
    handleTickRangeOptions() {
        const { minDefined , maxDefined  } = this.getUserBounds();
        let min = this.min;
        let max = this.max;
        const setMin = (v)=>min = minDefined ? min : v;
        const setMax = (v)=>max = maxDefined ? max : v;
        if (min === max) {
            if (min <= 0) {
                setMin(1);
                setMax(10);
            } else {
                setMin(changeExponent(min, -1));
                setMax(changeExponent(max, +1));
            }
        }
        if (min <= 0) {
            setMin(changeExponent(max, -1));
        }
        if (max <= 0) {
            setMax(changeExponent(min, +1));
        }
        this.min = min;
        this.max = max;
    }
    buildTicks() {
        const opts = this.options;
        const generationOptions = {
            min: this._userMin,
            max: this._userMax
        };
        const ticks = generateTicks(generationOptions, this);
        if (opts.bounds === 'ticks') {
            _setMinAndMaxByKey(ticks, this, 'value');
        }
        if (opts.reverse) {
            ticks.reverse();
            this.start = this.max;
            this.end = this.min;
        } else {
            this.start = this.min;
            this.end = this.max;
        }
        return ticks;
    }
 getLabelForValue(value) {
        return value === undefined ? '0' : formatNumber(value, this.chart.options.locale, this.options.ticks.format);
    }
 configure() {
        const start = this.min;
        super.configure();
        this._startValue = log10(start);
        this._valueRange = log10(this.max) - log10(start);
    }
    getPixelForValue(value) {
        if (value === undefined || value === 0) {
            value = this.min;
        }
        if (value === null || isNaN(value)) {
            return NaN;
        }
        return this.getPixelForDecimal(value === this.min ? 0 : (log10(value) - this._startValue) / this._valueRange);
    }
    getValueForPixel(pixel) {
        const decimal = this.getDecimalForPixel(pixel);
        return Math.pow(10, this._startValue + decimal * this._valueRange);
    }
}

function getTickBackdropHeight(opts) {
    const tickOpts = opts.ticks;
    if (tickOpts.display && opts.display) {
        const padding = toPadding(tickOpts.backdropPadding);
        return valueOrDefault(tickOpts.font && tickOpts.font.size, defaults.font.size) + padding.height;
    }
    return 0;
}
function measureLabelSize(ctx, font, label) {
    label = isArray(label) ? label : [
        label
    ];
    return {
        w: _longestText(ctx, font.string, label),
        h: label.length * font.lineHeight
    };
}
function determineLimits(angle, pos, size, min, max) {
    if (angle === min || angle === max) {
        return {
            start: pos - size / 2,
            end: pos + size / 2
        };
    } else if (angle < min || angle > max) {
        return {
            start: pos - size,
            end: pos
        };
    }
    return {
        start: pos,
        end: pos + size
    };
}
 function fitWithPointLabels(scale) {
    const orig = {
        l: scale.left + scale._padding.left,
        r: scale.right - scale._padding.right,
        t: scale.top + scale._padding.top,
        b: scale.bottom - scale._padding.bottom
    };
    const limits = Object.assign({}, orig);
    const labelSizes = [];
    const padding = [];
    const valueCount = scale._pointLabels.length;
    const pointLabelOpts = scale.options.pointLabels;
    const additionalAngle = pointLabelOpts.centerPointLabels ? PI / valueCount : 0;
    for(let i = 0; i < valueCount; i++){
        const opts = pointLabelOpts.setContext(scale.getPointLabelContext(i));
        padding[i] = opts.padding;
        const pointPosition = scale.getPointPosition(i, scale.drawingArea + padding[i], additionalAngle);
        const plFont = toFont(opts.font);
        const textSize = measureLabelSize(scale.ctx, plFont, scale._pointLabels[i]);
        labelSizes[i] = textSize;
        const angleRadians = _normalizeAngle(scale.getIndexAngle(i) + additionalAngle);
        const angle = Math.round(toDegrees(angleRadians));
        const hLimits = determineLimits(angle, pointPosition.x, textSize.w, 0, 180);
        const vLimits = determineLimits(angle, pointPosition.y, textSize.h, 90, 270);
        updateLimits(limits, orig, angleRadians, hLimits, vLimits);
    }
    scale.setCenterPoint(orig.l - limits.l, limits.r - orig.r, orig.t - limits.t, limits.b - orig.b);
    scale._pointLabelItems = buildPointLabelItems(scale, labelSizes, padding);
}
function updateLimits(limits, orig, angle, hLimits, vLimits) {
    const sin = Math.abs(Math.sin(angle));
    const cos = Math.abs(Math.cos(angle));
    let x = 0;
    let y = 0;
    if (hLimits.start < orig.l) {
        x = (orig.l - hLimits.start) / sin;
        limits.l = Math.min(limits.l, orig.l - x);
    } else if (hLimits.end > orig.r) {
        x = (hLimits.end - orig.r) / sin;
        limits.r = Math.max(limits.r, orig.r + x);
    }
    if (vLimits.start < orig.t) {
        y = (orig.t - vLimits.start) / cos;
        limits.t = Math.min(limits.t, orig.t - y);
    } else if (vLimits.end > orig.b) {
        y = (vLimits.end - orig.b) / cos;
        limits.b = Math.max(limits.b, orig.b + y);
    }
}
function createPointLabelItem(scale, index, itemOpts) {
    const outerDistance = scale.drawingArea;
    const { extra , additionalAngle , padding , size  } = itemOpts;
    const pointLabelPosition = scale.getPointPosition(index, outerDistance + extra + padding, additionalAngle);
    const angle = Math.round(toDegrees(_normalizeAngle(pointLabelPosition.angle + HALF_PI)));
    const y = yForAngle(pointLabelPosition.y, size.h, angle);
    const textAlign = getTextAlignForAngle(angle);
    const left = leftForTextAlign(pointLabelPosition.x, size.w, textAlign);
    return {
        visible: true,
        x: pointLabelPosition.x,
        y,
        textAlign,
        left,
        top: y,
        right: left + size.w,
        bottom: y + size.h
    };
}
function isNotOverlapped(item, area) {
    if (!area) {
        return true;
    }
    const { left , top , right , bottom  } = item;
    const apexesInArea = _isPointInArea({
        x: left,
        y: top
    }, area) || _isPointInArea({
        x: left,
        y: bottom
    }, area) || _isPointInArea({
        x: right,
        y: top
    }, area) || _isPointInArea({
        x: right,
        y: bottom
    }, area);
    return !apexesInArea;
}
function buildPointLabelItems(scale, labelSizes, padding) {
    const items = [];
    const valueCount = scale._pointLabels.length;
    const opts = scale.options;
    const { centerPointLabels , display  } = opts.pointLabels;
    const itemOpts = {
        extra: getTickBackdropHeight(opts) / 2,
        additionalAngle: centerPointLabels ? PI / valueCount : 0
    };
    let area;
    for(let i = 0; i < valueCount; i++){
        itemOpts.padding = padding[i];
        itemOpts.size = labelSizes[i];
        const item = createPointLabelItem(scale, i, itemOpts);
        items.push(item);
        if (display === 'auto') {
            item.visible = isNotOverlapped(item, area);
            if (item.visible) {
                area = item;
            }
        }
    }
    return items;
}
function getTextAlignForAngle(angle) {
    if (angle === 0 || angle === 180) {
        return 'center';
    } else if (angle < 180) {
        return 'left';
    }
    return 'right';
}
function leftForTextAlign(x, w, align) {
    if (align === 'right') {
        x -= w;
    } else if (align === 'center') {
        x -= w / 2;
    }
    return x;
}
function yForAngle(y, h, angle) {
    if (angle === 90 || angle === 270) {
        y -= h / 2;
    } else if (angle > 270 || angle < 90) {
        y -= h;
    }
    return y;
}
function drawPointLabelBox(ctx, opts, item) {
    const { left , top , right , bottom  } = item;
    const { backdropColor  } = opts;
    if (!isNullOrUndef(backdropColor)) {
        const borderRadius = toTRBLCorners(opts.borderRadius);
        const padding = toPadding(opts.backdropPadding);
        ctx.fillStyle = backdropColor;
        const backdropLeft = left - padding.left;
        const backdropTop = top - padding.top;
        const backdropWidth = right - left + padding.width;
        const backdropHeight = bottom - top + padding.height;
        if (Object.values(borderRadius).some((v)=>v !== 0)) {
            ctx.beginPath();
            addRoundedRectPath(ctx, {
                x: backdropLeft,
                y: backdropTop,
                w: backdropWidth,
                h: backdropHeight,
                radius: borderRadius
            });
            ctx.fill();
        } else {
            ctx.fillRect(backdropLeft, backdropTop, backdropWidth, backdropHeight);
        }
    }
}
function drawPointLabels(scale, labelCount) {
    const { ctx , options: { pointLabels  }  } = scale;
    for(let i = labelCount - 1; i >= 0; i--){
        const item = scale._pointLabelItems[i];
        if (!item.visible) {
            continue;
        }
        const optsAtIndex = pointLabels.setContext(scale.getPointLabelContext(i));
        drawPointLabelBox(ctx, optsAtIndex, item);
        const plFont = toFont(optsAtIndex.font);
        const { x , y , textAlign  } = item;
        renderText(ctx, scale._pointLabels[i], x, y + plFont.lineHeight / 2, plFont, {
            color: optsAtIndex.color,
            textAlign: textAlign,
            textBaseline: 'middle'
        });
    }
}
function pathRadiusLine(scale, radius, circular, labelCount) {
    const { ctx  } = scale;
    if (circular) {
        ctx.arc(scale.xCenter, scale.yCenter, radius, 0, TAU);
    } else {
        let pointPosition = scale.getPointPosition(0, radius);
        ctx.moveTo(pointPosition.x, pointPosition.y);
        for(let i = 1; i < labelCount; i++){
            pointPosition = scale.getPointPosition(i, radius);
            ctx.lineTo(pointPosition.x, pointPosition.y);
        }
    }
}
function drawRadiusLine(scale, gridLineOpts, radius, labelCount, borderOpts) {
    const ctx = scale.ctx;
    const circular = gridLineOpts.circular;
    const { color , lineWidth  } = gridLineOpts;
    if (!circular && !labelCount || !color || !lineWidth || radius < 0) {
        return;
    }
    ctx.save();
    ctx.strokeStyle = color;
    ctx.lineWidth = lineWidth;
    ctx.setLineDash(borderOpts.dash || []);
    ctx.lineDashOffset = borderOpts.dashOffset;
    ctx.beginPath();
    pathRadiusLine(scale, radius, circular, labelCount);
    ctx.closePath();
    ctx.stroke();
    ctx.restore();
}
function createPointLabelContext(parent, index, label) {
    return createContext(parent, {
        label,
        index,
        type: 'pointLabel'
    });
}
class RadialLinearScale extends LinearScaleBase {
    static id = 'radialLinear';
 static defaults = {
        display: true,
        animate: true,
        position: 'chartArea',
        angleLines: {
            display: true,
            lineWidth: 1,
            borderDash: [],
            borderDashOffset: 0.0
        },
        grid: {
            circular: false
        },
        startAngle: 0,
        ticks: {
            showLabelBackdrop: true,
            callback: Ticks.formatters.numeric
        },
        pointLabels: {
            backdropColor: undefined,
            backdropPadding: 2,
            display: true,
            font: {
                size: 10
            },
            callback (label) {
                return label;
            },
            padding: 5,
            centerPointLabels: false
        }
    };
    static defaultRoutes = {
        'angleLines.color': 'borderColor',
        'pointLabels.color': 'color',
        'ticks.color': 'color'
    };
    static descriptors = {
        angleLines: {
            _fallback: 'grid'
        }
    };
    constructor(cfg){
        super(cfg);
         this.xCenter = undefined;
         this.yCenter = undefined;
         this.drawingArea = undefined;
         this._pointLabels = [];
        this._pointLabelItems = [];
    }
    setDimensions() {
        const padding = this._padding = toPadding(getTickBackdropHeight(this.options) / 2);
        const w = this.width = this.maxWidth - padding.width;
        const h = this.height = this.maxHeight - padding.height;
        this.xCenter = Math.floor(this.left + w / 2 + padding.left);
        this.yCenter = Math.floor(this.top + h / 2 + padding.top);
        this.drawingArea = Math.floor(Math.min(w, h) / 2);
    }
    determineDataLimits() {
        const { min , max  } = this.getMinMax(false);
        this.min = isNumberFinite(min) && !isNaN(min) ? min : 0;
        this.max = isNumberFinite(max) && !isNaN(max) ? max : 0;
        this.handleTickRangeOptions();
    }
 computeTickLimit() {
        return Math.ceil(this.drawingArea / getTickBackdropHeight(this.options));
    }
    generateTickLabels(ticks) {
        LinearScaleBase.prototype.generateTickLabels.call(this, ticks);
        this._pointLabels = this.getLabels().map((value, index)=>{
            const label = callback(this.options.pointLabels.callback, [
                value,
                index
            ], this);
            return label || label === 0 ? label : '';
        }).filter((v, i)=>this.chart.getDataVisibility(i));
    }
    fit() {
        const opts = this.options;
        if (opts.display && opts.pointLabels.display) {
            fitWithPointLabels(this);
        } else {
            this.setCenterPoint(0, 0, 0, 0);
        }
    }
    setCenterPoint(leftMovement, rightMovement, topMovement, bottomMovement) {
        this.xCenter += Math.floor((leftMovement - rightMovement) / 2);
        this.yCenter += Math.floor((topMovement - bottomMovement) / 2);
        this.drawingArea -= Math.min(this.drawingArea / 2, Math.max(leftMovement, rightMovement, topMovement, bottomMovement));
    }
    getIndexAngle(index) {
        const angleMultiplier = TAU / (this._pointLabels.length || 1);
        const startAngle = this.options.startAngle || 0;
        return _normalizeAngle(index * angleMultiplier + toRadians(startAngle));
    }
    getDistanceFromCenterForValue(value) {
        if (isNullOrUndef(value)) {
            return NaN;
        }
        const scalingFactor = this.drawingArea / (this.max - this.min);
        if (this.options.reverse) {
            return (this.max - value) * scalingFactor;
        }
        return (value - this.min) * scalingFactor;
    }
    getValueForDistanceFromCenter(distance) {
        if (isNullOrUndef(distance)) {
            return NaN;
        }
        const scaledDistance = distance / (this.drawingArea / (this.max - this.min));
        return this.options.reverse ? this.max - scaledDistance : this.min + scaledDistance;
    }
    getPointLabelContext(index) {
        const pointLabels = this._pointLabels || [];
        if (index >= 0 && index < pointLabels.length) {
            const pointLabel = pointLabels[index];
            return createPointLabelContext(this.getContext(), index, pointLabel);
        }
    }
    getPointPosition(index, distanceFromCenter, additionalAngle = 0) {
        const angle = this.getIndexAngle(index) - HALF_PI + additionalAngle;
        return {
            x: Math.cos(angle) * distanceFromCenter + this.xCenter,
            y: Math.sin(angle) * distanceFromCenter + this.yCenter,
            angle
        };
    }
    getPointPositionForValue(index, value) {
        return this.getPointPosition(index, this.getDistanceFromCenterForValue(value));
    }
    getBasePosition(index) {
        return this.getPointPositionForValue(index || 0, this.getBaseValue());
    }
    getPointLabelPosition(index) {
        const { left , top , right , bottom  } = this._pointLabelItems[index];
        return {
            left,
            top,
            right,
            bottom
        };
    }
 drawBackground() {
        const { backgroundColor , grid: { circular  }  } = this.options;
        if (backgroundColor) {
            const ctx = this.ctx;
            ctx.save();
            ctx.beginPath();
            pathRadiusLine(this, this.getDistanceFromCenterForValue(this._endValue), circular, this._pointLabels.length);
            ctx.closePath();
            ctx.fillStyle = backgroundColor;
            ctx.fill();
            ctx.restore();
        }
    }
 drawGrid() {
        const ctx = this.ctx;
        const opts = this.options;
        const { angleLines , grid , border  } = opts;
        const labelCount = this._pointLabels.length;
        let i, offset, position;
        if (opts.pointLabels.display) {
            drawPointLabels(this, labelCount);
        }
        if (grid.display) {
            this.ticks.forEach((tick, index)=>{
                if (index !== 0 || index === 0 && this.min < 0) {
                    offset = this.getDistanceFromCenterForValue(tick.value);
                    const context = this.getContext(index);
                    const optsAtIndex = grid.setContext(context);
                    const optsAtIndexBorder = border.setContext(context);
                    drawRadiusLine(this, optsAtIndex, offset, labelCount, optsAtIndexBorder);
                }
            });
        }
        if (angleLines.display) {
            ctx.save();
            for(i = labelCount - 1; i >= 0; i--){
                const optsAtIndex = angleLines.setContext(this.getPointLabelContext(i));
                const { color , lineWidth  } = optsAtIndex;
                if (!lineWidth || !color) {
                    continue;
                }
                ctx.lineWidth = lineWidth;
                ctx.strokeStyle = color;
                ctx.setLineDash(optsAtIndex.borderDash);
                ctx.lineDashOffset = optsAtIndex.borderDashOffset;
                offset = this.getDistanceFromCenterForValue(opts.reverse ? this.min : this.max);
                position = this.getPointPosition(i, offset);
                ctx.beginPath();
                ctx.moveTo(this.xCenter, this.yCenter);
                ctx.lineTo(position.x, position.y);
                ctx.stroke();
            }
            ctx.restore();
        }
    }
 drawBorder() {}
 drawLabels() {
        const ctx = this.ctx;
        const opts = this.options;
        const tickOpts = opts.ticks;
        if (!tickOpts.display) {
            return;
        }
        const startAngle = this.getIndexAngle(0);
        let offset, width;
        ctx.save();
        ctx.translate(this.xCenter, this.yCenter);
        ctx.rotate(startAngle);
        ctx.textAlign = 'center';
        ctx.textBaseline = 'middle';
        this.ticks.forEach((tick, index)=>{
            if (index === 0 && this.min >= 0 && !opts.reverse) {
                return;
            }
            const optsAtIndex = tickOpts.setContext(this.getContext(index));
            const tickFont = toFont(optsAtIndex.font);
            offset = this.getDistanceFromCenterForValue(this.ticks[index].value);
            if (optsAtIndex.showLabelBackdrop) {
                ctx.font = tickFont.string;
                width = ctx.measureText(tick.label).width;
                ctx.fillStyle = optsAtIndex.backdropColor;
                const padding = toPadding(optsAtIndex.backdropPadding);
                ctx.fillRect(-width / 2 - padding.left, -offset - tickFont.size / 2 - padding.top, width + padding.width, tickFont.size + padding.height);
            }
            renderText(ctx, tick.label, 0, -offset, tickFont, {
                color: optsAtIndex.color,
                strokeColor: optsAtIndex.textStrokeColor,
                strokeWidth: optsAtIndex.textStrokeWidth
            });
        });
        ctx.restore();
    }
 drawTitle() {}
}

const INTERVALS = {
    millisecond: {
        common: true,
        size: 1,
        steps: 1000
    },
    second: {
        common: true,
        size: 1000,
        steps: 60
    },
    minute: {
        common: true,
        size: 60000,
        steps: 60
    },
    hour: {
        common: true,
        size: 3600000,
        steps: 24
    },
    day: {
        common: true,
        size: 86400000,
        steps: 30
    },
    week: {
        common: false,
        size: 604800000,
        steps: 4
    },
    month: {
        common: true,
        size: 2.628e9,
        steps: 12
    },
    quarter: {
        common: false,
        size: 7.884e9,
        steps: 4
    },
    year: {
        common: true,
        size: 3.154e10
    }
};
 const UNITS =  /* #__PURE__ */ Object.keys(INTERVALS);
 function sorter(a, b) {
    return a - b;
}
 function parse(scale, input) {
    if (isNullOrUndef(input)) {
        return null;
    }
    const adapter = scale._adapter;
    const { parser , round , isoWeekday  } = scale._parseOpts;
    let value = input;
    if (typeof parser === 'function') {
        value = parser(value);
    }
    if (!isNumberFinite(value)) {
        value = typeof parser === 'string' ? adapter.parse(value, parser) : adapter.parse(value);
    }
    if (value === null) {
        return null;
    }
    if (round) {
        value = round === 'week' && (isNumber(isoWeekday) || isoWeekday === true) ? adapter.startOf(value, 'isoWeek', isoWeekday) : adapter.startOf(value, round);
    }
    return +value;
}
 function determineUnitForAutoTicks(minUnit, min, max, capacity) {
    const ilen = UNITS.length;
    for(let i = UNITS.indexOf(minUnit); i < ilen - 1; ++i){
        const interval = INTERVALS[UNITS[i]];
        const factor = interval.steps ? interval.steps : Number.MAX_SAFE_INTEGER;
        if (interval.common && Math.ceil((max - min) / (factor * interval.size)) <= capacity) {
            return UNITS[i];
        }
    }
    return UNITS[ilen - 1];
}
 function determineUnitForFormatting(scale, numTicks, minUnit, min, max) {
    for(let i = UNITS.length - 1; i >= UNITS.indexOf(minUnit); i--){
        const unit = UNITS[i];
        if (INTERVALS[unit].common && scale._adapter.diff(max, min, unit) >= numTicks - 1) {
            return unit;
        }
    }
    return UNITS[minUnit ? UNITS.indexOf(minUnit) : 0];
}
 function determineMajorUnit(unit) {
    for(let i = UNITS.indexOf(unit) + 1, ilen = UNITS.length; i < ilen; ++i){
        if (INTERVALS[UNITS[i]].common) {
            return UNITS[i];
        }
    }
}
 function addTick(ticks, time, timestamps) {
    if (!timestamps) {
        ticks[time] = true;
    } else if (timestamps.length) {
        const { lo , hi  } = _lookup(timestamps, time);
        const timestamp = timestamps[lo] >= time ? timestamps[lo] : timestamps[hi];
        ticks[timestamp] = true;
    }
}
 function setMajorTicks(scale, ticks, map, majorUnit) {
    const adapter = scale._adapter;
    const first = +adapter.startOf(ticks[0].value, majorUnit);
    const last = ticks[ticks.length - 1].value;
    let major, index;
    for(major = first; major <= last; major = +adapter.add(major, 1, majorUnit)){
        index = map[major];
        if (index >= 0) {
            ticks[index].major = true;
        }
    }
    return ticks;
}
 function ticksFromTimestamps(scale, values, majorUnit) {
    const ticks = [];
     const map = {};
    const ilen = values.length;
    let i, value;
    for(i = 0; i < ilen; ++i){
        value = values[i];
        map[value] = i;
        ticks.push({
            value,
            major: false
        });
    }
    return ilen === 0 || !majorUnit ? ticks : setMajorTicks(scale, ticks, map, majorUnit);
}
class TimeScale extends Scale {
    static id = 'time';
 static defaults = {
 bounds: 'data',
        adapters: {},
        time: {
            parser: false,
            unit: false,
            round: false,
            isoWeekday: false,
            minUnit: 'millisecond',
            displayFormats: {}
        },
        ticks: {
 source: 'auto',
            callback: false,
            major: {
                enabled: false
            }
        }
    };
 constructor(props){
        super(props);
         this._cache = {
            data: [],
            labels: [],
            all: []
        };
         this._unit = 'day';
         this._majorUnit = undefined;
        this._offsets = {};
        this._normalized = false;
        this._parseOpts = undefined;
    }
    init(scaleOpts, opts = {}) {
        const time = scaleOpts.time || (scaleOpts.time = {});
         const adapter = this._adapter = new adapters._date(scaleOpts.adapters.date);
        adapter.init(opts);
        mergeIf(time.displayFormats, adapter.formats());
        this._parseOpts = {
            parser: time.parser,
            round: time.round,
            isoWeekday: time.isoWeekday
        };
        super.init(scaleOpts);
        this._normalized = opts.normalized;
    }
 parse(raw, index) {
        if (raw === undefined) {
            return null;
        }
        return parse(this, raw);
    }
    beforeLayout() {
        super.beforeLayout();
        this._cache = {
            data: [],
            labels: [],
            all: []
        };
    }
    determineDataLimits() {
        const options = this.options;
        const adapter = this._adapter;
        const unit = options.time.unit || 'day';
        let { min , max , minDefined , maxDefined  } = this.getUserBounds();
 function _applyBounds(bounds) {
            if (!minDefined && !isNaN(bounds.min)) {
                min = Math.min(min, bounds.min);
            }
            if (!maxDefined && !isNaN(bounds.max)) {
                max = Math.max(max, bounds.max);
            }
        }
        if (!minDefined || !maxDefined) {
            _applyBounds(this._getLabelBounds());
            if (options.bounds !== 'ticks' || options.ticks.source !== 'labels') {
                _applyBounds(this.getMinMax(false));
            }
        }
        min = isNumberFinite(min) && !isNaN(min) ? min : +adapter.startOf(Date.now(), unit);
        max = isNumberFinite(max) && !isNaN(max) ? max : +adapter.endOf(Date.now(), unit) + 1;
        this.min = Math.min(min, max - 1);
        this.max = Math.max(min + 1, max);
    }
 _getLabelBounds() {
        const arr = this.getLabelTimestamps();
        let min = Number.POSITIVE_INFINITY;
        let max = Number.NEGATIVE_INFINITY;
        if (arr.length) {
            min = arr[0];
            max = arr[arr.length - 1];
        }
        return {
            min,
            max
        };
    }
 buildTicks() {
        const options = this.options;
        const timeOpts = options.time;
        const tickOpts = options.ticks;
        const timestamps = tickOpts.source === 'labels' ? this.getLabelTimestamps() : this._generate();
        if (options.bounds === 'ticks' && timestamps.length) {
            this.min = this._userMin || timestamps[0];
            this.max = this._userMax || timestamps[timestamps.length - 1];
        }
        const min = this.min;
        const max = this.max;
        const ticks = _filterBetween(timestamps, min, max);
        this._unit = timeOpts.unit || (tickOpts.autoSkip ? determineUnitForAutoTicks(timeOpts.minUnit, this.min, this.max, this._getLabelCapacity(min)) : determineUnitForFormatting(this, ticks.length, timeOpts.minUnit, this.min, this.max));
        this._majorUnit = !tickOpts.major.enabled || this._unit === 'year' ? undefined : determineMajorUnit(this._unit);
        this.initOffsets(timestamps);
        if (options.reverse) {
            ticks.reverse();
        }
        return ticksFromTimestamps(this, ticks, this._majorUnit);
    }
    afterAutoSkip() {
        if (this.options.offsetAfterAutoskip) {
            this.initOffsets(this.ticks.map((tick)=>+tick.value));
        }
    }
 initOffsets(timestamps = []) {
        let start = 0;
        let end = 0;
        let first, last;
        if (this.options.offset && timestamps.length) {
            first = this.getDecimalForValue(timestamps[0]);
            if (timestamps.length === 1) {
                start = 1 - first;
            } else {
                start = (this.getDecimalForValue(timestamps[1]) - first) / 2;
            }
            last = this.getDecimalForValue(timestamps[timestamps.length - 1]);
            if (timestamps.length === 1) {
                end = last;
            } else {
                end = (last - this.getDecimalForValue(timestamps[timestamps.length - 2])) / 2;
            }
        }
        const limit = timestamps.length < 3 ? 0.5 : 0.25;
        start = _limitValue(start, 0, limit);
        end = _limitValue(end, 0, limit);
        this._offsets = {
            start,
            end,
            factor: 1 / (start + 1 + end)
        };
    }
 _generate() {
        const adapter = this._adapter;
        const min = this.min;
        const max = this.max;
        const options = this.options;
        const timeOpts = options.time;
        const minor = timeOpts.unit || determineUnitForAutoTicks(timeOpts.minUnit, min, max, this._getLabelCapacity(min));
        const stepSize = valueOrDefault(options.ticks.stepSize, 1);
        const weekday = minor === 'week' ? timeOpts.isoWeekday : false;
        const hasWeekday = isNumber(weekday) || weekday === true;
        const ticks = {};
        let first = min;
        let time, count;
        if (hasWeekday) {
            first = +adapter.startOf(first, 'isoWeek', weekday);
        }
        first = +adapter.startOf(first, hasWeekday ? 'day' : minor);
        if (adapter.diff(max, min, minor) > 100000 * stepSize) {
            throw new Error(min + ' and ' + max + ' are too far apart with stepSize of ' + stepSize + ' ' + minor);
        }
        const timestamps = options.ticks.source === 'data' && this.getDataTimestamps();
        for(time = first, count = 0; time < max; time = +adapter.add(time, stepSize, minor), count++){
            addTick(ticks, time, timestamps);
        }
        if (time === max || options.bounds === 'ticks' || count === 1) {
            addTick(ticks, time, timestamps);
        }
        return Object.keys(ticks).sort(sorter).map((x)=>+x);
    }
 getLabelForValue(value) {
        const adapter = this._adapter;
        const timeOpts = this.options.time;
        if (timeOpts.tooltipFormat) {
            return adapter.format(value, timeOpts.tooltipFormat);
        }
        return adapter.format(value, timeOpts.displayFormats.datetime);
    }
 format(value, format) {
        const options = this.options;
        const formats = options.time.displayFormats;
        const unit = this._unit;
        const fmt = format || formats[unit];
        return this._adapter.format(value, fmt);
    }
 _tickFormatFunction(time, index, ticks, format) {
        const options = this.options;
        const formatter = options.ticks.callback;
        if (formatter) {
            return callback(formatter, [
                time,
                index,
                ticks
            ], this);
        }
        const formats = options.time.displayFormats;
        const unit = this._unit;
        const majorUnit = this._majorUnit;
        const minorFormat = unit && formats[unit];
        const majorFormat = majorUnit && formats[majorUnit];
        const tick = ticks[index];
        const major = majorUnit && majorFormat && tick && tick.major;
        return this._adapter.format(time, format || (major ? majorFormat : minorFormat));
    }
 generateTickLabels(ticks) {
        let i, ilen, tick;
        for(i = 0, ilen = ticks.length; i < ilen; ++i){
            tick = ticks[i];
            tick.label = this._tickFormatFunction(tick.value, i, ticks);
        }
    }
 getDecimalForValue(value) {
        return value === null ? NaN : (value - this.min) / (this.max - this.min);
    }
 getPixelForValue(value) {
        const offsets = this._offsets;
        const pos = this.getDecimalForValue(value);
        return this.getPixelForDecimal((offsets.start + pos) * offsets.factor);
    }
 getValueForPixel(pixel) {
        const offsets = this._offsets;
        const pos = this.getDecimalForPixel(pixel) / offsets.factor - offsets.end;
        return this.min + pos * (this.max - this.min);
    }
 _getLabelSize(label) {
        const ticksOpts = this.options.ticks;
        const tickLabelWidth = this.ctx.measureText(label).width;
        const angle = toRadians(this.isHorizontal() ? ticksOpts.maxRotation : ticksOpts.minRotation);
        const cosRotation = Math.cos(angle);
        const sinRotation = Math.sin(angle);
        const tickFontSize = this._resolveTickFontOptions(0).size;
        return {
            w: tickLabelWidth * cosRotation + tickFontSize * sinRotation,
            h: tickLabelWidth * sinRotation + tickFontSize * cosRotation
        };
    }
 _getLabelCapacity(exampleTime) {
        const timeOpts = this.options.time;
        const displayFormats = timeOpts.displayFormats;
        const format = displayFormats[timeOpts.unit] || displayFormats.millisecond;
        const exampleLabel = this._tickFormatFunction(exampleTime, 0, ticksFromTimestamps(this, [
            exampleTime
        ], this._majorUnit), format);
        const size = this._getLabelSize(exampleLabel);
        const capacity = Math.floor(this.isHorizontal() ? this.width / size.w : this.height / size.h) - 1;
        return capacity > 0 ? capacity : 1;
    }
 getDataTimestamps() {
        let timestamps = this._cache.data || [];
        let i, ilen;
        if (timestamps.length) {
            return timestamps;
        }
        const metas = this.getMatchingVisibleMetas();
        if (this._normalized && metas.length) {
            return this._cache.data = metas[0].controller.getAllParsedValues(this);
        }
        for(i = 0, ilen = metas.length; i < ilen; ++i){
            timestamps = timestamps.concat(metas[i].controller.getAllParsedValues(this));
        }
        return this._cache.data = this.normalize(timestamps);
    }
 getLabelTimestamps() {
        const timestamps = this._cache.labels || [];
        let i, ilen;
        if (timestamps.length) {
            return timestamps;
        }
        const labels = this.getLabels();
        for(i = 0, ilen = labels.length; i < ilen; ++i){
            timestamps.push(parse(this, labels[i]));
        }
        return this._cache.labels = this._normalized ? timestamps : this.normalize(timestamps);
    }
 normalize(values) {
        return _arrayUnique(values.sort(sorter));
    }
}

function chart_interpolate(table, val, reverse) {
    let lo = 0;
    let hi = table.length - 1;
    let prevSource, nextSource, prevTarget, nextTarget;
    if (reverse) {
        if (val >= table[lo].pos && val <= table[hi].pos) {
            ({ lo , hi  } = _lookupByKey(table, 'pos', val));
        }
        ({ pos: prevSource , time: prevTarget  } = table[lo]);
        ({ pos: nextSource , time: nextTarget  } = table[hi]);
    } else {
        if (val >= table[lo].time && val <= table[hi].time) {
            ({ lo , hi  } = _lookupByKey(table, 'time', val));
        }
        ({ time: prevSource , pos: prevTarget  } = table[lo]);
        ({ time: nextSource , pos: nextTarget  } = table[hi]);
    }
    const span = nextSource - prevSource;
    return span ? prevTarget + (nextTarget - prevTarget) * (val - prevSource) / span : prevTarget;
}
class TimeSeriesScale extends TimeScale {
    static id = 'timeseries';
 static defaults = TimeScale.defaults;
 constructor(props){
        super(props);
         this._table = [];
         this._minPos = undefined;
         this._tableRange = undefined;
    }
 initOffsets() {
        const timestamps = this._getTimestampsForTable();
        const table = this._table = this.buildLookupTable(timestamps);
        this._minPos = chart_interpolate(table, this.min);
        this._tableRange = chart_interpolate(table, this.max) - this._minPos;
        super.initOffsets(timestamps);
    }
 buildLookupTable(timestamps) {
        const { min , max  } = this;
        const items = [];
        const table = [];
        let i, ilen, prev, curr, next;
        for(i = 0, ilen = timestamps.length; i < ilen; ++i){
            curr = timestamps[i];
            if (curr >= min && curr <= max) {
                items.push(curr);
            }
        }
        if (items.length < 2) {
            return [
                {
                    time: min,
                    pos: 0
                },
                {
                    time: max,
                    pos: 1
                }
            ];
        }
        for(i = 0, ilen = items.length; i < ilen; ++i){
            next = items[i + 1];
            prev = items[i - 1];
            curr = items[i];
            if (Math.round((next + prev) / 2) !== curr) {
                table.push({
                    time: curr,
                    pos: i / (ilen - 1)
                });
            }
        }
        return table;
    }
 _generate() {
        const min = this.min;
        const max = this.max;
        let timestamps = super.getDataTimestamps();
        if (!timestamps.includes(min) || !timestamps.length) {
            timestamps.splice(0, 0, min);
        }
        if (!timestamps.includes(max) || timestamps.length === 1) {
            timestamps.push(max);
        }
        return timestamps.sort((a, b)=>a - b);
    }
 _getTimestampsForTable() {
        let timestamps = this._cache.all || [];
        if (timestamps.length) {
            return timestamps;
        }
        const data = this.getDataTimestamps();
        const label = this.getLabelTimestamps();
        if (data.length && label.length) {
            timestamps = this.normalize(data.concat(label));
        } else {
            timestamps = data.length ? data : label;
        }
        timestamps = this._cache.all = timestamps;
        return timestamps;
    }
 getDecimalForValue(value) {
        return (chart_interpolate(this._table, value) - this._minPos) / this._tableRange;
    }
 getValueForPixel(pixel) {
        const offsets = this._offsets;
        const decimal = this.getDecimalForPixel(pixel) / offsets.factor - offsets.end;
        return chart_interpolate(this._table, decimal * this._tableRange + this._minPos, true);
    }
}

var scales = /*#__PURE__*/Object.freeze({
__proto__: null,
CategoryScale: CategoryScale,
LinearScale: LinearScale,
LogarithmicScale: LogarithmicScale,
RadialLinearScale: RadialLinearScale,
TimeScale: TimeScale,
TimeSeriesScale: TimeSeriesScale
});

const registerables = [
    controllers,
    chart_elements,
    plugins,
    scales
];


//# sourceMappingURL=chart.js.map

// EXTERNAL MODULE: external "fs/promises"
var promises_ = __nccwpck_require__(1943);
// EXTERNAL MODULE: external "fs"
var external_fs_ = __nccwpck_require__(9896);
// EXTERNAL MODULE: ./node_modules/skia-canvas/lib/index.js
var lib = __nccwpck_require__(4711);
;// CONCATENATED MODULE: ./node_modules/skia-canvas/lib/index.mjs
//
// Skia Canvas — ES Module version
//



const {
  Canvas, CanvasGradient, CanvasPattern, CanvasTexture,
  Image, ImageData, loadImage, loadImageData,
  Path2D: lib_Path2D, DOMPoint, DOMMatrix, DOMRect,
  FontLibrary, TextMetrics,
  CanvasRenderingContext2D,
  App, Window,
} = lib



// EXTERNAL MODULE: ./node_modules/semver/index.js
var semver = __nccwpck_require__(2088);
;// CONCATENATED MODULE: ./dist/summaries/github.js




// Register all Chart.js controllers
Chart.register(...registerables);
function formatGitHubSummary(summary, platformMetrics) {
    let totalStars = 0;
    let totalForks = 0;
    let totalWatchers = 0;
    let totalIssues = 0;
    let totalOpenIssues = 0;
    let totalClosedIssues = 0;
    let totalDownloads = 0;
    let totalReleases = 0;
    summary += `| Repository | Stars | Forks | Watchers | Open Issues | Closed Issues | Total Issues | Release Downloads | Releases | Latest Release | Language |\n`;
    summary += `| --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- |\n`;
    for (const metric of platformMetrics) {
        const stars = metric.metrics?.stars || 0;
        const forks = metric.metrics?.forks || 0;
        const watchers = metric.metrics?.watchers || 0;
        const issues = metric.metrics?.totalIssues || 0;
        const openIssues = metric.metrics?.openIssues || 0;
        const closedIssues = metric.metrics?.closedIssues || 0;
        const downloads = metric.metrics?.totalReleaseDownloads || 0;
        const releases = metric.metrics?.releaseCount || 0;
        const latestRelease = metric.metrics?.latestRelease || 'N/A';
        const language = metric.metrics?.language || 'N/A';
        totalStars += stars;
        totalForks += forks;
        totalWatchers += watchers;
        totalIssues += issues;
        totalOpenIssues += openIssues;
        totalClosedIssues += closedIssues;
        totalDownloads += downloads;
        totalReleases += releases;
        summary += `| ${metric.name} | ${stars.toLocaleString()} | ${forks.toLocaleString()} | ${watchers.toLocaleString()} | ${openIssues.toLocaleString()} | ${closedIssues.toLocaleString()} | ${issues.toLocaleString()} | ${downloads.toLocaleString()} | ${releases.toLocaleString()} | ${latestRelease} | ${language} |\n`;
    }
    summary += `| **Total** | **${totalStars.toLocaleString()}** | **${totalForks.toLocaleString()}** | **${totalWatchers.toLocaleString()}** | **${totalOpenIssues.toLocaleString()}** | **${totalClosedIssues.toLocaleString()}** | **${totalIssues.toLocaleString()}** | **${totalDownloads.toLocaleString()}** | **${totalReleases.toLocaleString()}** | | |\n`;
    return summary;
}
async function addRepoDetails(summary, metrics) {
    summary += `#### Repository Details:\n\n`;
    for (const metric of metrics) {
        summary += `**${metric.name}**:\n`;
        summary += `- Last Activity: ${metric.metrics?.lastActivity?.toLocaleString() || 0} days ago\n`;
        summary += `- Repository Age: ${metric.metrics?.repositoryAge?.toLocaleString() || 0} days\n`;
        summary += `- Release Count: ${metric.metrics?.releaseCount?.toLocaleString() || 0}\n`;
        summary += `- Total Release Downloads: ${metric.metrics?.totalReleaseDownloads?.toLocaleString() || 0}\n`;
        summary += `- Latest Release: ${metric.metrics?.latestRelease || 'N/A'}\n`;
        summary += `- Latest Release Downloads: ${metric.metrics?.latestReleaseDownloads?.toLocaleString() || 0}\n`;
        summary += `- Views: ${metric.metrics?.viewsCount?.toLocaleString() || 0}\n`;
        summary += `- Unique Visitors: ${metric.metrics?.uniqueVisitors?.toLocaleString() || 0}\n`;
        summary += `- Clones: ${metric.metrics?.clonesCount?.toLocaleString() || 0}\n`;
        summary += `\n`;
    }
    summary += `\n\n`;
    const chatOutputPath = './charts/github';
    (0,external_fs_.mkdirSync)(chatOutputPath, { recursive: true });
    const svgOutputPathList = await createGitHubReleaseChart(metrics, chatOutputPath);
    for (const svgOutputPath of svgOutputPathList) {
        summary += `![${svgOutputPath}](${svgOutputPath})\n`;
    }
    return summary;
}
async function createGitHubReleaseChart(platformMetrics, outputPath) {
    const svgOutputPathList = [];
    for (const metric of platformMetrics) {
        // Only create charts if there's download data
        if (metric.metrics?.downloadRange && metric.metrics.downloadRange.length > 0) {
            const svgOutputPath = await createDownloadsPerReleaseChart(metric, outputPath);
            svgOutputPathList.push(svgOutputPath);
            const svgOutputPathCumulative = await createCumulativeDownloadsChart(metric, outputPath);
            svgOutputPathList.push(svgOutputPathCumulative);
            const svgOutputPathReleases = await createReleaseDownloadsChart(metric, outputPath);
            svgOutputPathList.push(svgOutputPathReleases);
        }
    }
    return svgOutputPathList;
}
function groupByReleaseCumulative(releaseRange) {
    const releases = {};
    for (const release of releaseRange.sort((a, b) => {
        return semver.compare((a.tagName || '0.0.0').trim(), (b.tagName || '0.0.0').trim());
    })) {
        if (!release.tagName) {
            continue;
        }
        if (!releases[release.tagName]) {
            releases[release.tagName] = { downloads: release.downloads, tagName: release.tagName || '' };
        }
        else {
            releases[release.tagName].downloads += release.downloads;
        }
    }
    let cumulativeDownloads = 0;
    for (const release of Object.keys(releases).sort((a, b) => {
        return semver.compare(a.trim(), b.trim());
    })) {
        cumulativeDownloads += releases[release].downloads;
        releases[release].downloads = cumulativeDownloads;
    }
    return releases;
}
async function createDownloadsPerReleaseChart(metric, outputPath) {
    const downloadsRange = metric.metrics?.downloadRange || [];
    const svgOutputPath = `${outputPath}/${metric.name.replace('/', '-')}-release-downloads.svg`;
    const sortedReleases = downloadsRange.sort((a, b) => {
        return semver.compare((a.tagName || '0.0.0').trim(), (b.tagName || '0.0.0').trim());
    });
    const canvas = new Canvas(1000, 800);
    const chart = new Chart(canvas, {
        type: 'bar',
        data: {
            labels: sortedReleases.map((release) => release.tagName),
            datasets: [{
                    label: `${metric.name} Release Downloads`,
                    data: sortedReleases.map((release) => release.downloads),
                    backgroundColor: 'rgba(54, 162, 235, 0.8)',
                    borderColor: 'rgba(54, 162, 235, 1)',
                    borderWidth: 1,
                }]
        },
        options: {
            responsive: true,
            plugins: {
                title: {
                    display: true,
                    text: `${metric.name} - Release Downloads`,
                    font: {
                        size: 16
                    }
                },
                legend: {
                    display: true
                }
            },
            scales: {
                x: {
                    title: {
                        display: true,
                        text: 'Release'
                    }
                },
                y: {
                    title: {
                        display: true,
                        text: 'Downloads'
                    },
                    beginAtZero: true
                }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    (0,external_fs_.writeFileSync)(svgOutputPath, svgBuffer);
    chart.destroy();
    return svgOutputPath;
}
async function createCumulativeDownloadsChart(metric, outputPath) {
    const downloadsRange = metric.metrics?.downloadRange || [];
    const svgOutputPath = `${outputPath}/${metric.name.replace('/', '-')}-cumulative-release-downloads.svg`;
    const groupedDownloads = groupByReleaseCumulative(downloadsRange);
    // Sort months chronologically
    const semVerSortedReleases = Object.keys(groupedDownloads).sort((a, b) => {
        return semver.compare(a.trim(), b.trim());
    });
    const canvas = new Canvas(1000, 800);
    const chart = new Chart(canvas, {
        type: 'line',
        data: {
            labels: semVerSortedReleases,
            datasets: [{
                    label: `${metric.name} Cumulative Downloads`,
                    data: semVerSortedReleases.map(release => groupedDownloads[release].downloads),
                    backgroundColor: 'rgba(75, 192, 192, 0.2)',
                    borderColor: 'rgba(75, 192, 192, 1)',
                    borderWidth: 3,
                    fill: true,
                    tension: 0.1
                }]
        },
        options: {
            responsive: true,
            plugins: {
                title: {
                    display: true,
                    text: `${metric.name} - Cumulative Release Downloads`,
                    font: {
                        size: 16
                    }
                },
                legend: {
                    display: true
                }
            },
            scales: {
                x: {
                    title: {
                        display: true,
                        text: 'Release'
                    }
                },
                y: {
                    title: {
                        display: true,
                        text: 'Downloads'
                    },
                    beginAtZero: true
                }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    (0,external_fs_.writeFileSync)(svgOutputPath, svgBuffer);
    chart.destroy();
    return svgOutputPath;
}
async function createReleaseDownloadsChart(metric, outputPath) {
    const downloadsRange = metric.metrics?.downloadRange || [];
    const svgOutputPath = `${outputPath}/${metric.name.replace('/', '-')}-top-release-downloads.svg`;
    // Sort releases by date (newest first for display)
    const sortedReleases = downloadsRange
        .filter((release) => release.tagName && release.downloads > 0)
        .sort((a, b) => b.downloads - a.downloads)
        .slice(0, 10) // Show top 10 releases
        .sort((a, b) => semver.compare((a.tagName || '0.0.0').trim(), (b.tagName || '0.0.0').trim()));
    if (sortedReleases.length === 0) {
        // Return empty chart if no releases
        return svgOutputPath;
    }
    const canvas = new Canvas(1200, 800);
    const chart = new Chart(canvas, {
        type: 'bar',
        data: {
            labels: sortedReleases.map((release) => release.tagName),
            datasets: [{
                    label: `${metric.name} Release Downloads`,
                    data: sortedReleases.map((release) => release.downloads),
                    backgroundColor: 'rgba(255, 99, 132, 0.8)',
                    borderColor: 'rgba(255, 99, 132, 1)',
                    borderWidth: 1,
                }]
        },
        options: {
            responsive: true,
            plugins: {
                title: {
                    display: true,
                    text: `${metric.name} - Top Release Downloads`,
                    font: {
                        size: 16
                    }
                },
                legend: {
                    display: true
                }
            },
            scales: {
                x: {
                    title: {
                        display: true,
                        text: 'Release Tag'
                    }
                },
                y: {
                    title: {
                        display: true,
                        text: 'Downloads'
                    },
                    beginAtZero: true
                }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    (0,external_fs_.writeFileSync)(svgOutputPath, svgBuffer);
    chart.destroy();
    return svgOutputPath;
}

// EXTERNAL MODULE: external "node:fs"
var external_node_fs_ = __nccwpck_require__(3024);
;// CONCATENATED MODULE: ./dist/summaries/npm.js



// Register all Chart.js controllers
Chart.register(...registerables);
function formatNpmSummary(summary, platformMetrics) {
    let totalDownloads = 0;
    let totalMonthlyDownloads = 0;
    let totalWeeklyDownloads = 0;
    let totalDailyDownloads = 0;
    summary += `| Package | Downloads | Monthly Downloads | Weekly Downloads | Daily Downloads |\n`;
    summary += `| --- | --- | --- | --- | --- |\n`;
    for (const metric of platformMetrics) {
        const downloads = metric.metrics?.downloadsTotal || 0;
        const monthlyDownloads = metric.metrics?.downloadsMonthly || 0;
        const weeklyDownloads = metric.metrics?.downloadsWeekly || 0;
        const dailyDownloads = metric.metrics?.downloadsDaily || 0;
        totalDownloads += downloads;
        totalMonthlyDownloads += monthlyDownloads;
        totalWeeklyDownloads += weeklyDownloads;
        totalDailyDownloads += dailyDownloads;
        summary += `| ${metric.name} | ${downloads.toLocaleString()} | ${monthlyDownloads.toLocaleString()} | ${weeklyDownloads.toLocaleString()} | ${dailyDownloads.toLocaleString()} |\n`;
    }
    summary += `| **Total** | **${totalDownloads.toLocaleString()}** | **${totalMonthlyDownloads.toLocaleString()}** | **${totalWeeklyDownloads.toLocaleString()}** | **${totalDailyDownloads.toLocaleString()}** | | | | |\n`;
    return summary;
}
// Convert a list of dates into a list of Months
function groupByMonth(dateRange) {
    const months = {};
    for (const range of dateRange) {
        const month = new Date(range.day).toLocaleDateString('en-US', { month: 'short', year: '2-digit' });
        if (!months[month]) {
            months[month] = range.downloads;
        }
        else {
            months[month] += range.downloads;
        }
    }
    return months;
}
function groupByMonthCumulative(dateRange) {
    const months = {};
    for (const range of dateRange) {
        const month = new Date(range.day).toLocaleDateString('en-US', { month: 'short', year: '2-digit' });
        if (!months[month]) {
            months[month] = range.downloads;
        }
        else {
            months[month] += range.downloads;
        }
    }
    let cumulativeDownloads = 0;
    for (const month in months) {
        cumulativeDownloads += months[month];
        months[month] = cumulativeDownloads;
    }
    return months;
}
async function createDownloadsPerMonthChart(metric, outputPath) {
    const downloadsRange = metric.metrics?.downloadsRange || [];
    const svgOutputPath = `${outputPath}/${metric.name}-new-downloads-by-month.svg`;
    const groupedDownloads = groupByMonth(downloadsRange);
    const canvas = new Canvas(1000, 800);
    const chart = new Chart(canvas, {
        type: 'line',
        data: {
            labels: Object.keys(groupedDownloads),
            datasets: [{
                    label: metric.name,
                    data: Object.values(groupedDownloads),
                    backgroundColor: 'rgba(75, 192, 192, 0.2)',
                    borderColor: 'rgba(75, 192, 192, 1)',
                    borderWidth: 3,
                    fill: true,
                    tension: 0.1
                }]
        },
        options: {
            scales: {
                x: {
                    time: {
                        unit: 'month',
                        displayFormats: {
                            month: 'MMM DD'
                        }
                    },
                    title: {
                        display: true,
                        text: 'Date'
                    }
                },
                y: {
                    title: {
                        display: true,
                        text: 'Downloads per month'
                    },
                }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    (0,external_node_fs_.writeFileSync)(svgOutputPath, svgBuffer);
    chart.destroy();
    return svgOutputPath;
}
async function npm_createCumulativeDownloadsChart(metric, outputPath) {
    const downloadsRange = metric.metrics?.downloadsRange || [];
    const svgOutputPath = `${outputPath}/${metric.name}-cumulative-downloads.svg`;
    const groupedDownloads = groupByMonthCumulative(downloadsRange);
    const canvas = new Canvas(1000, 800);
    const chart = new Chart(canvas, {
        type: 'line',
        data: {
            labels: Object.keys(groupedDownloads),
            datasets: [{
                    label: metric.name,
                    data: Object.values(groupedDownloads),
                    backgroundColor: 'rgba(75, 192, 192, 0.2)',
                    borderColor: 'rgba(75, 192, 192, 1)',
                    borderWidth: 3,
                    fill: true,
                    tension: 0.1
                }]
        },
        options: {
            scales: {
                x: {
                    time: {
                        unit: 'month',
                        displayFormats: {
                            month: 'MMM DD'
                        }
                    },
                    title: {
                        display: true,
                        text: 'Date'
                    }
                },
                y: {
                    title: {
                        display: true,
                        text: 'Downloads per month'
                    },
                }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    (0,external_node_fs_.writeFileSync)(svgOutputPath, svgBuffer);
    chart.destroy();
    return svgOutputPath;
}
async function createNpmChart(platformMetrics, outputPath) {
    const svgOutputPathList = [];
    for (const metric of platformMetrics) {
        const svgOutputPath = await createDownloadsPerMonthChart(metric, outputPath);
        svgOutputPathList.push(svgOutputPath);
        const svgOutputPathCumulative = await npm_createCumulativeDownloadsChart(metric, outputPath);
        svgOutputPathList.push(svgOutputPathCumulative);
    }
    return svgOutputPathList;
}
async function addNpmDetails(summary, platformMetrics) {
    const outputPath = './charts/npm';
    (0,external_node_fs_.mkdirSync)(outputPath, { recursive: true });
    const svgOutputPathList = await createNpmChart(platformMetrics, outputPath);
    for (const svgOutputPath of svgOutputPathList) {
        summary += `![${svgOutputPath}](${svgOutputPath})\n`;
    }
    return summary;
}

;// CONCATENATED MODULE: ./dist/summaries/powershell.js



// Register all Chart.js controllers
Chart.register(...registerables);
function formatPowerShellSummary(summary, platformMetrics) {
    let platformDownloadTotal = 0;
    let totalVersions = 0;
    summary += `| Module | Total Downloads | Latest Version | Version Downloads | Versions | Last Updated |\n`;
    summary += `| --- | --- | --- | --- | --- | --- |\n`;
    for (const metric of platformMetrics) {
        const lastUpdated = metric.metrics?.lastUpdated ? new Date(metric.metrics.lastUpdated).toLocaleDateString() : 'N/A';
        const latestVersion = metric.metrics?.latestVersion || 'N/A';
        const latestVersionDownloads = metric.metrics?.latestVersionDownloads || 0;
        const versionCount = metric.metrics?.versionCount || 0;
        summary += `| ${metric.name} | ${metric.metrics?.downloadsTotal?.toLocaleString() || 0} | ${latestVersion} | ${latestVersionDownloads.toLocaleString()} | ${versionCount} | ${lastUpdated} |\n`;
        platformDownloadTotal += metric.metrics?.downloadsTotal || 0;
        totalVersions += versionCount;
    }
    summary += `| **Total** | **${platformDownloadTotal.toLocaleString()}** | | | **${totalVersions}** | |\n`;
    return summary;
}
async function addPowerShellDetails(summary, platformMetrics) {
    summary += `#### PowerShell Module Details:\n\n`;
    for (const metric of platformMetrics) {
        summary += `**${metric.name}**:\n`;
        summary += `- Total Downloads: ${metric.metrics?.downloadsTotal?.toLocaleString() || 0}\n`;
        summary += `- Latest Version: ${metric.metrics?.latestVersion || 'N/A'}\n`;
        summary += `- Latest Version Downloads: ${metric.metrics?.latestVersionDownloads?.toLocaleString() || 0}\n`;
        summary += `- Version Count: ${metric.metrics?.versionCount || 0}\n`;
        summary += `- Last Updated: ${metric.metrics?.lastUpdated ? new Date(metric.metrics.lastUpdated).toLocaleDateString() : 'N/A'}\n`;
        summary += `- Package Size: ${metric.metrics?.packageSize ? `${Math.round(metric.metrics.packageSize / 1024)} KB` : 'N/A'}\n`;
        summary += `\n`;
    }
    summary += `\n\n`;
    const chartOutputPath = './charts/powershell';
    (0,external_fs_.mkdirSync)(chartOutputPath, { recursive: true });
    const svgOutputPathList = await createPowerShellCharts(platformMetrics, chartOutputPath);
    for (const svgOutputPath of svgOutputPathList) {
        summary += `![${svgOutputPath}](${svgOutputPath})\n`;
    }
    return summary;
}
async function createPowerShellCharts(platformMetrics, outputPath) {
    const svgOutputPathList = [];
    // Only create charts if there's download data
    const metricsWithData = platformMetrics.filter(metric => metric.metrics?.downloadsRange && metric.metrics.downloadsRange.length > 0);
    if (metricsWithData.length > 0) {
        const svgOutputPath = await createCombinedDownloadsChart(metricsWithData, outputPath);
        svgOutputPathList.push(svgOutputPath);
        const svgOutputPathCumulative = await createCombinedCumulativeDownloadsChart(metricsWithData, outputPath);
        svgOutputPathList.push(svgOutputPathCumulative);
    }
    return svgOutputPathList;
}
// Color palette for different modules
const powershell_colors = (/* unused pure expression or super */ null && ([
    'rgba(54, 162, 235, 0.8)',
    'rgba(255, 99, 132, 0.8)',
    'rgba(75, 192, 192, 0.8)',
    'rgba(255, 205, 86, 0.8)',
    'rgba(153, 102, 255, 0.8)',
    'rgba(255, 159, 64, 0.8)',
    'rgba(199, 199, 199, 0.8)',
    'rgba(83, 102, 255, 0.8)',
    'rgba(255, 99, 132, 0.8)',
    'rgba(54, 162, 235, 0.8)'
]));
const borderColors = (/* unused pure expression or super */ null && ([
    'rgba(54, 162, 235, 1)',
    'rgba(255, 99, 132, 1)',
    'rgba(75, 192, 192, 1)',
    'rgba(255, 205, 86, 1)',
    'rgba(153, 102, 255, 1)',
    'rgba(255, 159, 64, 1)',
    'rgba(199, 199, 199, 1)',
    'rgba(83, 102, 255, 1)',
    'rgba(255, 99, 132, 1)',
    'rgba(54, 162, 235, 1)'
]));
async function createCombinedDownloadsChart(metrics, outputPath) {
    const svgOutputPath = `${outputPath}/powershell-combined-downloads.svg`;
    // Get all unique dates across all modules for the x-axis
    const allDates = new Set();
    for (const metric of metrics) {
        const downloadsRange = metric.metrics?.downloadsRange || [];
        for (const download of downloadsRange) {
            allDates.add(download.day);
        }
    }
    // Sort all dates chronologically
    const sortedAllDates = Array.from(allDates).sort((a, b) => new Date(a).getTime() - new Date(b).getTime());
    // Create datasets for each module (one line per module)
    const data = [];
    for (const metric of metrics) {
        const downloadsRange = metric.metrics?.downloadsRange || [];
        for (const date of sortedAllDates) {
            const downloads = downloadsRange.filter(d => d.day === date).reduce((sum, d) => sum + d.downloads, 0);
            data.push(downloads);
        }
    }
    const labels = sortedAllDates.map(date => new Date(date).toLocaleDateString('en-US', {
        month: 'short',
        year: '2-digit',
        day: 'numeric'
    }));
    const canvas = new Canvas(1200, 800);
    const chart = new Chart(canvas, {
        type: 'line',
        data: {
            labels: labels,
            datasets: [{
                    data,
                    backgroundColor: 'rgba(54, 162, 235, 0.2)',
                    borderColor: 'rgba(54, 162, 235, 1)',
                    borderWidth: 3,
                    fill: true,
                    tension: 0.1
                }]
        },
        options: {
            responsive: true,
            plugins: {
                title: {
                    display: true,
                    text: 'PowerShell Modules - Downloads Over Time',
                    font: {
                        size: 16
                    }
                },
                legend: {
                    display: true
                }
            },
            scales: {
                x: {
                    title: {
                        display: true,
                        text: 'Release Date'
                    }
                },
                y: {
                    type: 'linear',
                    title: {
                        display: true,
                        text: 'Downloads'
                    },
                    beginAtZero: true,
                    ticks: {
                        stepSize: 1000
                    }
                }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    (0,external_fs_.writeFileSync)(svgOutputPath, svgBuffer);
    chart.destroy();
    return svgOutputPath;
}
async function createCombinedCumulativeDownloadsChart(metrics, outputPath) {
    const svgOutputPath = `${outputPath}/powershell-cumulative-downloads.svg`;
    // Get all unique dates across all modules for the x-axis
    const allDates = new Set();
    for (const metric of metrics) {
        const downloadsRange = metric.metrics?.downloadsRange || [];
        for (const download of downloadsRange) {
            allDates.add(download.day);
        }
    }
    // Sort all dates chronologically
    const sortedAllDates = Array.from(allDates).sort((a, b) => new Date(a).getTime() - new Date(b).getTime());
    const labels = sortedAllDates.map(date => new Date(date).toLocaleDateString('en-US', {
        month: 'short',
        year: '2-digit',
        day: 'numeric'
    }));
    const data = [];
    let runningTotal = 0;
    for (const date of sortedAllDates) {
        const downloads = metrics.reduce((sum, metric) => sum + (metric.metrics?.downloadsRange?.find(d => d.day === date)?.downloads || 0), 0);
        runningTotal += downloads;
        data.push(runningTotal);
    }
    const canvas = new Canvas(1200, 800);
    const chart = new Chart(canvas, {
        type: 'line',
        data: {
            labels: labels,
            datasets: [{
                    label: 'Cumulative Downloads',
                    data,
                    backgroundColor: 'rgba(54, 162, 235, 0.2)',
                    borderColor: 'rgba(54, 162, 235, 1)',
                    borderWidth: 3,
                    fill: true,
                    tension: 0.1
                }]
        },
        options: {
            responsive: true,
            plugins: {
                title: {
                    display: true,
                    text: 'PowerShell Modules - Cumulative Downloads',
                    font: {
                        size: 16
                    }
                },
                legend: {
                    display: true
                }
            },
            scales: {
                x: {
                    title: {
                        display: true,
                        text: 'Release Date'
                    }
                },
                y: {
                    title: {
                        display: true,
                        text: 'Cumulative Downloads'
                    },
                    beginAtZero: true,
                    ticks: {
                        stepSize: 5000
                    }
                }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    (0,external_fs_.writeFileSync)(svgOutputPath, svgBuffer);
    chart.destroy();
    return svgOutputPath;
}

;// CONCATENATED MODULE: ./dist/summaries/pypi.js



Chart.register(...registerables);
function formatPypiSummary(summary, platformMetrics) {
    summary += `| Package | Total Downloads | Monthly Downloads | Weekly Downloads | Daily Downloads | Version |\n`;
    summary += `| --- | --- | --- | --- | --- | --- |\n`;
    for (const metric of platformMetrics) {
        summary += `| ${metric.name} | ${metric.metrics?.downloadsTotal?.toLocaleString() || 0} | ${metric.metrics?.downloadsMonthly?.toLocaleString() || 0} | ${metric.metrics?.downloadsWeekly?.toLocaleString() || 0} | ${metric.metrics?.downloadsDaily?.toLocaleString() || 0} | ${metric.metrics?.version || 'N/A'} |\n`;
    }
    summary += `| **Total** | **${platformMetrics.reduce((sum, m) => sum + (m.metrics?.downloadsTotal || 0), 0).toLocaleString()}** | **${platformMetrics.reduce((sum, m) => sum + (m.metrics?.downloadsMonthly || 0), 0).toLocaleString()}** | **${platformMetrics.reduce((sum, m) => sum + (m.metrics?.downloadsWeekly || 0), 0).toLocaleString()}** | **${platformMetrics.reduce((sum, m) => sum + (m.metrics?.downloadsDaily || 0), 0).toLocaleString()}** | | |\n`;
    return summary;
}
function toIsoMonth(dateStr) {
    // input expected YYYY-MM-DD; fallback to Date parse if needed
    const iso = dateStr?.slice(0, 7);
    if (iso && /\d{4}-\d{2}/.test(iso))
        return iso;
    const d = new Date(dateStr);
    const y = d.getFullYear();
    const m = String(d.getMonth() + 1).padStart(2, '0');
    return `${y}-${m}`;
}
function displayMonthLabel(isoMonth) {
    const [y, m] = isoMonth.split('-');
    const d = new Date(Number(y), Number(m) - 1, 1);
    return d.toLocaleDateString('en-US', { month: 'short', year: '2-digit' });
}
function aggregateMonthlyTotals(points) {
    const totals = {};
    for (const p of points) {
        const iso = toIsoMonth(p.date);
        totals[iso] = (totals[iso] || 0) + p.downloads;
    }
    const labelsIso = Object.keys(totals).sort();
    const labels = labelsIso.map(displayMonthLabel);
    const data = labelsIso.map(l => totals[l]);
    return { labels, data };
}
function aggregateMonthlyByCategory(points) {
    const labelIsoSet = new Set();
    const categoryMap = {};
    for (const p of points) {
        const iso = toIsoMonth(p.date);
        labelIsoSet.add(iso);
        if (!categoryMap[p.category])
            categoryMap[p.category] = {};
        categoryMap[p.category][iso] = (categoryMap[p.category][iso] || 0) + p.downloads;
    }
    const labelsIso = Array.from(labelIsoSet).sort();
    const labels = labelsIso.map(displayMonthLabel);
    return { labelsIso, labels, categoryMap };
}
async function createOverallDownloadsChart(metric, outputPath) {
    // Prefer server-prepared chart JSON if present
    const server = metric.metrics?.overallChart;
    let labels;
    let datasets;
    if (server && server.labels && server.labels.length && server.datasets && server.datasets.length) {
        labels = server.labels;
        const colorFor = (label, idx) => {
            const l = (label || '').toLowerCase();
            if (l.includes('without'))
                return { stroke: '#2563eb', fill: '#2563eb33' }; // blue
            if (l.includes('with'))
                return { stroke: '#64748b', fill: '#64748b33' }; // slate
            const palette = ['#2563eb', '#16a34a', '#f59e0b', '#ef4444', '#7c3aed'];
            const i = idx ?? 0;
            return { stroke: palette[i % palette.length], fill: palette[i % palette.length] + '33' };
        };
        datasets = server.datasets.map((ds, i) => {
            const c = colorFor(ds.label, i);
            return {
                ...ds,
                borderColor: c.stroke,
                backgroundColor: c.fill,
                borderWidth: 3,
                fill: true,
                tension: 0.1,
            };
        });
    }
    else {
        const series = metric.metrics?.overallSeries || [];
        const agg = aggregateMonthlyTotals(series.map(p => ({ date: p.date, downloads: p.downloads })));
        labels = agg.labels;
        datasets = [{
                label: `${metric.name} downloads per month`,
                data: agg.data,
                backgroundColor: 'rgba(54, 162, 235, 0.2)',
                borderColor: 'rgba(54, 162, 235, 1)',
                borderWidth: 3,
                fill: true,
                tension: 0.1
            }];
    }
    const canvas = new Canvas(1000, 800);
    const chart = new Chart(canvas, {
        type: 'line',
        data: { labels, datasets },
        options: {
            plugins: {
                legend: { display: true, position: 'bottom' },
                title: { display: true, text: `${metric.name} overall downloads` }
            },
            scales: {
                x: { title: { display: true, text: 'Month' } },
                y: { title: { display: true, text: 'Downloads' } }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    const svgPath = `${outputPath}/${metric.name}-pypi-overall.svg`;
    (0,external_node_fs_.writeFileSync)(svgPath, svgBuffer);
    chart.destroy();
    return svgPath;
}
// Time-series: Python major over time (line)
async function createPythonMajorChart(metric, outputPath) {
    // Prefer server chart JSON if present
    const server = metric.metrics?.pythonMajorChart;
    let labels;
    let datasets;
    if (server && server.labels && server.labels.length && server.datasets && server.datasets.length) {
        const palette = ['#2563eb', '#16a34a', '#f59e0b', '#ef4444', '#7c3aed', '#0891b2', '#dc2626', '#0ea5e9'];
        labels = server.labels;
        datasets = server.datasets
            .filter(ds => !/unknown/i.test(ds.label))
            .map((ds, idx) => ({
            ...ds,
            borderColor: palette[idx % palette.length],
            backgroundColor: palette[idx % palette.length] + '33',
            borderWidth: 2,
            fill: false,
        }));
    }
    else {
        const points = metric.metrics?.pythonMajorSeries || [];
        const { labelsIso, labels: lbls, categoryMap } = aggregateMonthlyByCategory(points);
        labels = lbls;
        const sortedCategories = Object.keys(categoryMap).filter(k => !/unknown/i.test(k)).sort((a, b) => Number(a) - Number(b));
        const palette = ['#2563eb', '#16a34a', '#f59e0b', '#ef4444', '#7c3aed', '#0891b2', '#dc2626', '#0ea5e9'];
        datasets = sortedCategories.map((category, idx) => ({
            label: `Python ${category}`,
            data: labelsIso.map(l => categoryMap[category][l] || 0),
            borderColor: palette[idx % palette.length],
            backgroundColor: palette[idx % palette.length] + '33',
            borderWidth: 2,
            fill: false,
        }));
    }
    const canvas = new Canvas(1000, 800);
    const chart = new Chart(canvas, {
        type: 'line',
        data: { labels, datasets },
        options: {
            plugins: {
                legend: { position: 'bottom' },
                title: { display: true, text: `${metric.name} downloads by Python major version` }
            },
            scales: {
                x: { title: { display: true, text: 'Month' } },
                y: { title: { display: true, text: 'Downloads' } }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    const svgPath = `${outputPath}/${metric.name}-pypi-python-major.svg`;
    (0,external_node_fs_.writeFileSync)(svgPath, svgBuffer);
    chart.destroy();
    return svgPath;
}
// Time-series: Python minor over time (line)
async function createPythonMinorChart(metric, outputPath) {
    // Prefer server chart JSON if present
    const server = metric.metrics?.pythonMinorChart;
    let labels;
    let datasets;
    if (server && server.labels && server.labels.length && server.datasets && server.datasets.length) {
        const palette = ['#1d4ed8', '#059669', '#d97706', '#dc2626', '#6d28d9', '#0e7490', '#b91c1c', '#0284c7'];
        labels = server.labels;
        datasets = server.datasets
            .filter(ds => !/unknown/i.test(ds.label))
            .map((ds, idx) => ({
            ...ds,
            borderColor: palette[idx % palette.length],
            backgroundColor: palette[idx % palette.length] + '33',
            borderWidth: 2,
            fill: false,
        }));
    }
    else {
        const points = metric.metrics?.pythonMinorSeries || [];
        const { labelsIso, labels: lbls, categoryMap } = aggregateMonthlyByCategory(points);
        labels = lbls;
        const sortedCategories = Object.keys(categoryMap).filter(k => !/unknown/i.test(k)).sort((a, b) => a.localeCompare(b, undefined, { numeric: true }));
        const palette = ['#1d4ed8', '#059669', '#d97706', '#dc2626', '#6d28d9', '#0e7490', '#b91c1c', '#0284c7'];
        datasets = sortedCategories.map((category, idx) => ({
            label: `Python ${category}`,
            data: labelsIso.map(l => categoryMap[category][l] || 0),
            borderColor: palette[idx % palette.length],
            backgroundColor: palette[idx % palette.length] + '33',
            borderWidth: 2,
            fill: false,
        }));
    }
    const canvas = new Canvas(1000, 800);
    const chart = new Chart(canvas, {
        type: 'line',
        data: { labels, datasets },
        options: {
            plugins: {
                legend: { position: 'bottom' },
                title: { display: true, text: `${metric.name} downloads by Python minor version` }
            },
            scales: {
                x: { title: { display: true, text: 'Month' } },
                y: { title: { display: true, text: 'Downloads' } }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    const svgPath = `${outputPath}/${metric.name}-pypi-python-minor.svg`;
    (0,external_node_fs_.writeFileSync)(svgPath, svgBuffer);
    chart.destroy();
    return svgPath;
}
// Time-series: Installer over time (line) - prefer server JSON
async function createInstallerChart(metric, outputPath) {
    const server = metric.metrics?.installerChart;
    let labels;
    let datasets;
    if (server && server.labels && server.labels.length && server.datasets && server.datasets.length) {
        const palette = ['#3b82f6', '#10b981', '#f59e0b', '#ef4444', '#a78bfa', '#22d3ee'];
        labels = server.labels;
        datasets = server.datasets.map((ds, idx) => ({
            ...ds,
            borderColor: palette[idx % palette.length],
            backgroundColor: palette[idx % palette.length] + '33',
            borderWidth: 2,
            fill: false,
        }));
    }
    else {
        const points = metric.metrics?.installerSeries || [];
        const { labelsIso, labels: lbls, categoryMap } = aggregateMonthlyByCategory(points);
        labels = lbls;
        const categories = Object.keys(categoryMap);
        const palette = ['#3b82f6', '#10b981', '#f59e0b', '#ef4444', '#a78bfa', '#22d3ee'];
        datasets = categories.map((category, idx) => ({
            label: category,
            data: labelsIso.map(l => categoryMap[category][l] || 0),
            borderColor: palette[idx % palette.length],
            backgroundColor: palette[idx % palette.length] + '33',
            borderWidth: 2,
            fill: false,
        }));
    }
    const canvas = new Canvas(1000, 800);
    const chart = new Chart(canvas, {
        type: 'line',
        data: { labels, datasets },
        options: {
            plugins: {
                legend: { position: 'bottom' },
                title: { display: true, text: `${metric.name} downloads by installer` }
            },
            scales: {
                x: { title: { display: true, text: 'Month' } },
                y: { title: { display: true, text: 'Downloads' } }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    const svgPath = `${outputPath}/${metric.name}-pypi-installer.svg`;
    (0,external_node_fs_.writeFileSync)(svgPath, svgBuffer);
    chart.destroy();
    return svgPath;
}
// Time-series: System over time (line) - prefer server JSON
async function createSystemChart(metric, outputPath) {
    const server = metric.metrics?.systemChart;
    let labels;
    let datasets;
    if (server && server.labels && server.labels.length && server.datasets && server.datasets.length) {
        const palette = ['#0ea5e9', '#22c55e', '#f97316', '#e11d48', '#8b5cf6', '#06b6d4'];
        labels = server.labels;
        datasets = server.datasets.map((ds, idx) => ({
            ...ds,
            borderColor: palette[idx % palette.length],
            backgroundColor: palette[idx % palette.length] + '33',
            borderWidth: 2,
            fill: false,
        }));
    }
    else {
        const points = metric.metrics?.systemSeries || [];
        const { labelsIso, labels: lbls, categoryMap } = aggregateMonthlyByCategory(points);
        labels = lbls;
        const sortedCategories = Object.keys(categoryMap).sort();
        const palette = ['#0ea5e9', '#22c55e', '#f97316', '#e11d48', '#8b5cf6', '#06b6d4'];
        datasets = sortedCategories.map((category, idx) => ({
            label: category,
            data: labelsIso.map(l => categoryMap[category][l] || 0),
            borderColor: palette[idx % palette.length],
            backgroundColor: palette[idx % palette.length] + '33',
            borderWidth: 2,
            fill: false,
        }));
    }
    const canvas = new Canvas(1000, 800);
    const chart = new Chart(canvas, {
        type: 'line',
        data: { labels, datasets },
        options: {
            plugins: {
                legend: { position: 'bottom' },
                title: { display: true, text: `${metric.name} downloads by OS` }
            },
            scales: {
                x: { title: { display: true, text: 'Month' } },
                y: { title: { display: true, text: 'Downloads' } }
            }
        }
    });
    const svgBuffer = await canvas.toBuffer('svg', { matte: 'white' });
    const svgPath = `${outputPath}/${metric.name}-pypi-system.svg`;
    (0,external_node_fs_.writeFileSync)(svgPath, svgBuffer);
    chart.destroy();
    return svgPath;
}
// Removed static bar chart generators per request
async function createPypiCharts(metrics, basePath) {
    const outputPaths = [];
    for (const metric of metrics) {
        const packagePath = `${basePath}`;
        (0,external_node_fs_.mkdirSync)(packagePath, { recursive: true });
        const overall = await createOverallDownloadsChart(metric, packagePath);
        outputPaths.push(overall);
        const pythonMajor = await createPythonMajorChart(metric, packagePath);
        outputPaths.push(pythonMajor);
        const pythonMinor = await createPythonMinorChart(metric, packagePath);
        outputPaths.push(pythonMinor);
        const installer = await createInstallerChart(metric, packagePath);
        outputPaths.push(installer);
        const system = await createSystemChart(metric, packagePath);
        outputPaths.push(system);
        // static bar charts removed
    }
    return outputPaths;
}
function addPypiDetails(summary, metrics) {
    summary += `#### Package Details:\n\n`;
    for (const metric of metrics) {
        summary += `**${metric.name}**:\n`;
        summary += `- Version: ${metric.metrics?.version || 'N/A'}\n`;
        if (metric.metrics?.latestReleaseDate)
            summary += `- Released: ${metric.metrics.latestReleaseDate}\n`;
        if (metric.metrics?.popularSystem)
            summary += `- Popular system: ${metric.metrics.popularSystem}\n`;
        if (metric.metrics?.popularInstaller)
            summary += `- Popular installer: ${metric.metrics.popularInstaller}\n`;
        summary += `- Releases: ${metric.metrics?.releases || 0}\n`;
        if (metric.metrics?.systemBreakdown) {
            summary += `- OS Usage Breakdown \n`;
            for (const [key, value] of Object.entries(metric.metrics?.systemBreakdown)) {
                summary += `  - ${key}: ${value}\n`;
            }
        }
        if (metric.metrics?.pythonVersionBreakdown) {
            summary += `- Python Version Breakdown \n`;
            for (const [key, value] of Object.entries(metric.metrics?.pythonVersionBreakdown)) {
                summary += `  - ${key}: ${value}\n`;
            }
        }
    }
    return summary;
}
async function addPypiCharts(summary, platformMetrics) {
    const outputPath = './charts/pypi';
    (0,external_node_fs_.mkdirSync)(outputPath, { recursive: true });
    summary += `\n\n`;
    const svgPaths = await createPypiCharts(platformMetrics, outputPath);
    for (const p of svgPaths) {
        summary += `![${p}](${p})\n`;
    }
    return summary;
}

;// CONCATENATED MODULE: ./dist/utils.js







Chart.register([
    CategoryScale,
    LineController,
    LineElement,
    LinearScale,
    PointElement,
    BarController,
    BarElement
]);
/**
 * Parse comma-separated inputs into arrays
 * @param input - The input string to parse
 * @returns An array of trimmed, non-empty items
 */
function parseCommaSeparatedInputs(input) {
    return input ? input.split(',').map(item => item.trim()).filter(item => item) : [];
}
function getInputs() {
    // Get all inputs from action.yml
    const npmPackages = core.getInput('npm-packages');
    const githubRepositories = core.getInput('github-repositories');
    const pypiPackages = core.getInput('pypi-packages');
    const powershellModules = core.getInput('powershell-modules');
    const jsonOutputPath = core.getInput('json-output-path');
    const updateReadme = core.getInput('update-readme').toLowerCase() === 'true';
    const commitMessage = core.getInput('commit-message');
    const readmePath = core.getInput('readme-path');
    return {
        npmPackages: parseCommaSeparatedInputs(npmPackages),
        githubRepositories: parseCommaSeparatedInputs(githubRepositories),
        pypiPackages: parseCommaSeparatedInputs(pypiPackages),
        powershellModules: parseCommaSeparatedInputs(powershellModules),
        jsonOutputPath,
        updateReadme,
        commitMessage,
        readmePath,
    };
}
const MetricsPlaceHolderRegex = /[\s\S]*/;
function formatSummary(summary) {
    return `\n${summary}\n`;
}
const PlatformMap = {
    "NPM": "JavaScript/TypeScript",
    "PyPI": "Python",
    "PowerShell Gallery": undefined,
    "GitHub": undefined,
};
async function createSummary(metrics) {
    const platforms = metrics.map(metric => metric.platform).filter((value, index, self) => self.indexOf(value) === index);
    console.log(platforms);
    console.log(metrics);
    let summary = `# Usage Statistics
    
Last updated: ${new Date().toLocaleString()}

Below are stats from artifacts tracked across ${platforms.slice(0, -1).join(', ')} and ${platforms.slice(-1)}.
    
`;
    for (const platform of platforms) {
        const platformMetrics = metrics.filter(metric => metric.platform === platform);
        const platformLanguage = PlatformMap[platform];
        summary += `### ${platform}${platformLanguage ? ` (${platformLanguage})` : ''}: \n\n`;
        switch (platform) {
            case "NPM":
                summary = formatNpmSummary(summary, platformMetrics);
                break;
            case "GitHub":
                summary = formatGitHubSummary(summary, platformMetrics);
                break;
            case "PyPI":
                summary = formatPypiSummary(summary, platformMetrics);
                break;
            case "PowerShell":
                summary = formatPowerShellSummary(summary, platformMetrics);
                break;
            default:
                let platformDownloadTotal = 0;
                summary += `| Package | Downloads |\n`;
                summary += `| --- | --- |\n`;
                for (const metric of platformMetrics) {
                    summary += `| ${metric.name} | ${metric.metrics?.downloadCount?.toLocaleString() || 0} |\n`;
                    platformDownloadTotal += metric.metrics?.downloadCount || 0;
                }
                summary += `| **Total** | **${platformDownloadTotal.toLocaleString()}** |\n`;
                break;
        }
        summary += `\n`;
        // Add detailed information for each platform
        switch (platform) {
            case "GitHub":
                summary = await addRepoDetails(summary, platformMetrics);
                break;
            case "PyPI":
                summary = addPypiDetails(summary, platformMetrics);
                summary = await addPypiCharts(summary, platformMetrics);
                break;
            case "NPM":
                summary = await addNpmDetails(summary, platformMetrics);
                break;
            case "PowerShell":
                summary = await addPowerShellDetails(summary, platformMetrics);
                break;
            default:
                break;
        }
        summary += '\n';
    }
    return summary;
}
async function updateRepositoryReadme(metrics, readmePath) {
    const currentReadme = await (0,promises_.readFile)(readmePath, 'utf8');
    const summary = await createSummary(metrics);
    const updatedReadme = currentReadme.replace(MetricsPlaceHolderRegex, formatSummary(summary));
    await (0,promises_.writeFile)(readmePath, updatedReadme);
}


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