/******/ (() => { // webpackBootstrap /******/ var __webpack_modules__ = ({ /***/ 7351: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; 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; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.issue = exports.issueCommand = void 0; const os = __importStar(__nccwpck_require__(2037)); const utils_1 = __nccwpck_require__(5278); /** * 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 utils_1.toCommandValue(s) .replace(/%/g, '%25') .replace(/\r/g, '%0D') .replace(/\n/g, '%0A'); } function escapeProperty(s) { return 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 /***/ }), /***/ 2186: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; 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.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__(7351); const file_command_1 = __nccwpck_require__(717); const utils_1 = __nccwpck_require__(5278); const os = __importStar(__nccwpck_require__(2037)); const path = __importStar(__nccwpck_require__(1017)); const oidc_utils_1 = __nccwpck_require__(8041); /** * 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 || (exports.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 = utils_1.toCommandValue(val); process.env[name] = convertedVal; const filePath = process.env['GITHUB_ENV'] || ''; if (filePath) { return file_command_1.issueFileCommand('ENV', file_command_1.prepareKeyValueMessage(name, val)); } 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) { 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) { file_command_1.issueFileCommand('PATH', inputPath); } else { 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 file_command_1.issueFileCommand('OUTPUT', file_command_1.prepareKeyValueMessage(name, value)); } process.stdout.write(os.EOL); command_1.issueCommand('set-output', { name }, 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) { 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) { 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 = {}) { command_1.issueCommand('error', 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 = {}) { command_1.issueCommand('warning', 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 = {}) { command_1.issueCommand('notice', 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) { command_1.issue('group', name); } exports.startGroup = startGroup; /** * End an output group. */ function endGroup() { 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 file_command_1.issueFileCommand('STATE', file_command_1.prepareKeyValueMessage(name, value)); } command_1.issueCommand('save-state', { name }, 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__(1327); Object.defineProperty(exports, "summary", ({ enumerable: true, get: function () { return summary_1.summary; } })); /** * @deprecated use core.summary */ var summary_2 = __nccwpck_require__(1327); Object.defineProperty(exports, "markdownSummary", ({ enumerable: true, get: function () { return summary_2.markdownSummary; } })); /** * Path exports */ var path_utils_1 = __nccwpck_require__(2981); 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; } })); //# sourceMappingURL=core.js.map /***/ }), /***/ 717: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; // For internal use, subject to change. 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; }; 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 fs = __importStar(__nccwpck_require__(7147)); const os = __importStar(__nccwpck_require__(2037)); const uuid_1 = __nccwpck_require__(8974); const utils_1 = __nccwpck_require__(5278); 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: ${filePath}`); } fs.appendFileSync(filePath, `${utils_1.toCommandValue(message)}${os.EOL}`, { encoding: 'utf8' }); } exports.issueFileCommand = issueFileCommand; function prepareKeyValueMessage(key, value) { const delimiter = `ghadelimiter_${uuid_1.v4()}`; const convertedValue = 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 /***/ }), /***/ 8041: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; 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__(6255); const auth_1 = __nccwpck_require__(5526); const core_1 = __nccwpck_require__(2186); 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: ${error.result.message}`); }); const id_token = (_a = res.result) === null || _a === void 0 ? void 0 : _a.value; if (!id_token) { throw new Error('Response json body do not have ID Token field'); } return id_token; }); } static getIDToken(audience) { return __awaiter(this, void 0, void 0, function* () { try { // New ID Token is requested from action service let id_token_url = OidcClient.getIDTokenUrl(); if (audience) { const encodedAudience = encodeURIComponent(audience); id_token_url = `${id_token_url}&audience=${encodedAudience}`; } core_1.debug(`ID token url is ${id_token_url}`); const id_token = yield OidcClient.getCall(id_token_url); 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 /***/ }), /***/ 2981: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; 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; }; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.toPlatformPath = exports.toWin32Path = exports.toPosixPath = void 0; const path = __importStar(__nccwpck_require__(1017)); /** * 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 /***/ }), /***/ 1327: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; 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__(2037); const fs_1 = __nccwpck_require__(7147); 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 /***/ }), /***/ 5278: /***/ ((__unused_webpack_module, exports) => { "use strict"; // 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 /***/ }), /***/ 8974: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); Object.defineProperty(exports, "v1", ({ enumerable: true, get: function () { return _v.default; } })); Object.defineProperty(exports, "v3", ({ enumerable: true, get: function () { return _v2.default; } })); Object.defineProperty(exports, "v4", ({ enumerable: true, get: function () { return _v3.default; } })); Object.defineProperty(exports, "v5", ({ enumerable: true, get: function () { return _v4.default; } })); Object.defineProperty(exports, "NIL", ({ enumerable: true, get: function () { return _nil.default; } })); Object.defineProperty(exports, "version", ({ enumerable: true, get: function () { return _version.default; } })); Object.defineProperty(exports, "validate", ({ enumerable: true, get: function () { return _validate.default; } })); Object.defineProperty(exports, "stringify", ({ enumerable: true, get: function () { return _stringify.default; } })); Object.defineProperty(exports, "parse", ({ enumerable: true, get: function () { return _parse.default; } })); var _v = _interopRequireDefault(__nccwpck_require__(1595)); var _v2 = _interopRequireDefault(__nccwpck_require__(6993)); var _v3 = _interopRequireDefault(__nccwpck_require__(1472)); var _v4 = _interopRequireDefault(__nccwpck_require__(6217)); var _nil = _interopRequireDefault(__nccwpck_require__(2381)); var _version = _interopRequireDefault(__nccwpck_require__(427)); var _validate = _interopRequireDefault(__nccwpck_require__(2609)); var _stringify = _interopRequireDefault(__nccwpck_require__(1458)); var _parse = _interopRequireDefault(__nccwpck_require__(6385)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } /***/ }), /***/ 5842: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _crypto = _interopRequireDefault(__nccwpck_require__(6113)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function md5(bytes) { if (Array.isArray(bytes)) { bytes = Buffer.from(bytes); } else if (typeof bytes === 'string') { bytes = Buffer.from(bytes, 'utf8'); } return _crypto.default.createHash('md5').update(bytes).digest(); } var _default = md5; exports["default"] = _default; /***/ }), /***/ 2381: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _default = '00000000-0000-0000-0000-000000000000'; exports["default"] = _default; /***/ }), /***/ 6385: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _validate = _interopRequireDefault(__nccwpck_require__(2609)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function parse(uuid) { if (!(0, _validate.default)(uuid)) { throw TypeError('Invalid UUID'); } let v; const arr = new Uint8Array(16); // Parse ########-....-....-....-............ arr[0] = (v = parseInt(uuid.slice(0, 8), 16)) >>> 24; arr[1] = v >>> 16 & 0xff; arr[2] = v >>> 8 & 0xff; arr[3] = v & 0xff; // Parse ........-####-....-....-............ arr[4] = (v = parseInt(uuid.slice(9, 13), 16)) >>> 8; arr[5] = v & 0xff; // Parse ........-....-####-....-............ arr[6] = (v = parseInt(uuid.slice(14, 18), 16)) >>> 8; arr[7] = v & 0xff; // Parse ........-....-....-####-............ arr[8] = (v = parseInt(uuid.slice(19, 23), 16)) >>> 8; arr[9] = v & 0xff; // Parse ........-....-....-....-############ // (Use "/" to avoid 32-bit truncation when bit-shifting high-order bytes) arr[10] = (v = parseInt(uuid.slice(24, 36), 16)) / 0x10000000000 & 0xff; arr[11] = v / 0x100000000 & 0xff; arr[12] = v >>> 24 & 0xff; arr[13] = v >>> 16 & 0xff; arr[14] = v >>> 8 & 0xff; arr[15] = v & 0xff; return arr; } var _default = parse; exports["default"] = _default; /***/ }), /***/ 6230: /***/ ((__unused_webpack_module, exports) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _default = /^(?:[0-9a-f]{8}-[0-9a-f]{4}-[1-5][0-9a-f]{3}-[89ab][0-9a-f]{3}-[0-9a-f]{12}|00000000-0000-0000-0000-000000000000)$/i; exports["default"] = _default; /***/ }), /***/ 9784: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = rng; var _crypto = _interopRequireDefault(__nccwpck_require__(6113)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } const rnds8Pool = new Uint8Array(256); // # of random values to pre-allocate let poolPtr = rnds8Pool.length; function rng() { if (poolPtr > rnds8Pool.length - 16) { _crypto.default.randomFillSync(rnds8Pool); poolPtr = 0; } return rnds8Pool.slice(poolPtr, poolPtr += 16); } /***/ }), /***/ 8844: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _crypto = _interopRequireDefault(__nccwpck_require__(6113)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function sha1(bytes) { if (Array.isArray(bytes)) { bytes = Buffer.from(bytes); } else if (typeof bytes === 'string') { bytes = Buffer.from(bytes, 'utf8'); } return _crypto.default.createHash('sha1').update(bytes).digest(); } var _default = sha1; exports["default"] = _default; /***/ }), /***/ 1458: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _validate = _interopRequireDefault(__nccwpck_require__(2609)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } /** * Convert array of 16 byte values to UUID string format of the form: * XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX */ const byteToHex = []; for (let i = 0; i < 256; ++i) { byteToHex.push((i + 0x100).toString(16).substr(1)); } function stringify(arr, offset = 0) { // Note: Be careful editing this code! It's been tuned for performance // and works in ways you may not expect. See https://github.com/uuidjs/uuid/pull/434 const uuid = (byteToHex[arr[offset + 0]] + byteToHex[arr[offset + 1]] + byteToHex[arr[offset + 2]] + byteToHex[arr[offset + 3]] + '-' + byteToHex[arr[offset + 4]] + byteToHex[arr[offset + 5]] + '-' + byteToHex[arr[offset + 6]] + byteToHex[arr[offset + 7]] + '-' + byteToHex[arr[offset + 8]] + byteToHex[arr[offset + 9]] + '-' + byteToHex[arr[offset + 10]] + byteToHex[arr[offset + 11]] + byteToHex[arr[offset + 12]] + byteToHex[arr[offset + 13]] + byteToHex[arr[offset + 14]] + byteToHex[arr[offset + 15]]).toLowerCase(); // Consistency check for valid UUID. If this throws, it's likely due to one // of the following: // - One or more input array values don't map to a hex octet (leading to // "undefined" in the uuid) // - Invalid input values for the RFC `version` or `variant` fields if (!(0, _validate.default)(uuid)) { throw TypeError('Stringified UUID is invalid'); } return uuid; } var _default = stringify; exports["default"] = _default; /***/ }), /***/ 1595: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _rng = _interopRequireDefault(__nccwpck_require__(9784)); var _stringify = _interopRequireDefault(__nccwpck_require__(1458)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } // **`v1()` - Generate time-based UUID** // // Inspired by https://github.com/LiosK/UUID.js // and http://docs.python.org/library/uuid.html let _nodeId; let _clockseq; // Previous uuid creation time let _lastMSecs = 0; let _lastNSecs = 0; // See https://github.com/uuidjs/uuid for API details function v1(options, buf, offset) { let i = buf && offset || 0; const b = buf || new Array(16); options = options || {}; let node = options.node || _nodeId; let clockseq = options.clockseq !== undefined ? options.clockseq : _clockseq; // node and clockseq need to be initialized to random values if they're not // specified. We do this lazily to minimize issues related to insufficient // system entropy. See #189 if (node == null || clockseq == null) { const seedBytes = options.random || (options.rng || _rng.default)(); if (node == null) { // Per 4.5, create and 48-bit node id, (47 random bits + multicast bit = 1) node = _nodeId = [seedBytes[0] | 0x01, seedBytes[1], seedBytes[2], seedBytes[3], seedBytes[4], seedBytes[5]]; } if (clockseq == null) { // Per 4.2.2, randomize (14 bit) clockseq clockseq = _clockseq = (seedBytes[6] << 8 | seedBytes[7]) & 0x3fff; } } // UUID timestamps are 100 nano-second units since the Gregorian epoch, // (1582-10-15 00:00). JSNumbers aren't precise enough for this, so // time is handled internally as 'msecs' (integer milliseconds) and 'nsecs' // (100-nanoseconds offset from msecs) since unix epoch, 1970-01-01 00:00. let msecs = options.msecs !== undefined ? options.msecs : Date.now(); // Per 4.2.1.2, use count of uuid's generated during the current clock // cycle to simulate higher resolution clock let nsecs = options.nsecs !== undefined ? options.nsecs : _lastNSecs + 1; // Time since last uuid creation (in msecs) const dt = msecs - _lastMSecs + (nsecs - _lastNSecs) / 10000; // Per 4.2.1.2, Bump clockseq on clock regression if (dt < 0 && options.clockseq === undefined) { clockseq = clockseq + 1 & 0x3fff; } // Reset nsecs if clock regresses (new clockseq) or we've moved onto a new // time interval if ((dt < 0 || msecs > _lastMSecs) && options.nsecs === undefined) { nsecs = 0; } // Per 4.2.1.2 Throw error if too many uuids are requested if (nsecs >= 10000) { throw new Error("uuid.v1(): Can't create more than 10M uuids/sec"); } _lastMSecs = msecs; _lastNSecs = nsecs; _clockseq = clockseq; // Per 4.1.4 - Convert from unix epoch to Gregorian epoch msecs += 12219292800000; // `time_low` const tl = ((msecs & 0xfffffff) * 10000 + nsecs) % 0x100000000; b[i++] = tl >>> 24 & 0xff; b[i++] = tl >>> 16 & 0xff; b[i++] = tl >>> 8 & 0xff; b[i++] = tl & 0xff; // `time_mid` const tmh = msecs / 0x100000000 * 10000 & 0xfffffff; b[i++] = tmh >>> 8 & 0xff; b[i++] = tmh & 0xff; // `time_high_and_version` b[i++] = tmh >>> 24 & 0xf | 0x10; // include version b[i++] = tmh >>> 16 & 0xff; // `clock_seq_hi_and_reserved` (Per 4.2.2 - include variant) b[i++] = clockseq >>> 8 | 0x80; // `clock_seq_low` b[i++] = clockseq & 0xff; // `node` for (let n = 0; n < 6; ++n) { b[i + n] = node[n]; } return buf || (0, _stringify.default)(b); } var _default = v1; exports["default"] = _default; /***/ }), /***/ 6993: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _v = _interopRequireDefault(__nccwpck_require__(5920)); var _md = _interopRequireDefault(__nccwpck_require__(5842)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } const v3 = (0, _v.default)('v3', 0x30, _md.default); var _default = v3; exports["default"] = _default; /***/ }), /***/ 5920: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = _default; exports.URL = exports.DNS = void 0; var _stringify = _interopRequireDefault(__nccwpck_require__(1458)); var _parse = _interopRequireDefault(__nccwpck_require__(6385)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function stringToBytes(str) { str = unescape(encodeURIComponent(str)); // UTF8 escape const bytes = []; for (let i = 0; i < str.length; ++i) { bytes.push(str.charCodeAt(i)); } return bytes; } const DNS = '6ba7b810-9dad-11d1-80b4-00c04fd430c8'; exports.DNS = DNS; const URL = '6ba7b811-9dad-11d1-80b4-00c04fd430c8'; exports.URL = URL; function _default(name, version, hashfunc) { function generateUUID(value, namespace, buf, offset) { if (typeof value === 'string') { value = stringToBytes(value); } if (typeof namespace === 'string') { namespace = (0, _parse.default)(namespace); } if (namespace.length !== 16) { throw TypeError('Namespace must be array-like (16 iterable integer values, 0-255)'); } // Compute hash of namespace and value, Per 4.3 // Future: Use spread syntax when supported on all platforms, e.g. `bytes = // hashfunc([...namespace, ... value])` let bytes = new Uint8Array(16 + value.length); bytes.set(namespace); bytes.set(value, namespace.length); bytes = hashfunc(bytes); bytes[6] = bytes[6] & 0x0f | version; bytes[8] = bytes[8] & 0x3f | 0x80; if (buf) { offset = offset || 0; for (let i = 0; i < 16; ++i) { buf[offset + i] = bytes[i]; } return buf; } return (0, _stringify.default)(bytes); } // Function#name is not settable on some platforms (#270) try { generateUUID.name = name; // eslint-disable-next-line no-empty } catch (err) {} // For CommonJS default export support generateUUID.DNS = DNS; generateUUID.URL = URL; return generateUUID; } /***/ }), /***/ 1472: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _rng = _interopRequireDefault(__nccwpck_require__(9784)); var _stringify = _interopRequireDefault(__nccwpck_require__(1458)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function v4(options, buf, offset) { options = options || {}; const rnds = options.random || (options.rng || _rng.default)(); // Per 4.4, set bits for version and `clock_seq_hi_and_reserved` rnds[6] = rnds[6] & 0x0f | 0x40; rnds[8] = rnds[8] & 0x3f | 0x80; // Copy bytes to buffer, if provided if (buf) { offset = offset || 0; for (let i = 0; i < 16; ++i) { buf[offset + i] = rnds[i]; } return buf; } return (0, _stringify.default)(rnds); } var _default = v4; exports["default"] = _default; /***/ }), /***/ 6217: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _v = _interopRequireDefault(__nccwpck_require__(5920)); var _sha = _interopRequireDefault(__nccwpck_require__(8844)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } const v5 = (0, _v.default)('v5', 0x50, _sha.default); var _default = v5; exports["default"] = _default; /***/ }), /***/ 2609: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _regex = _interopRequireDefault(__nccwpck_require__(6230)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function validate(uuid) { return typeof uuid === 'string' && _regex.default.test(uuid); } var _default = validate; exports["default"] = _default; /***/ }), /***/ 427: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports["default"] = void 0; var _validate = _interopRequireDefault(__nccwpck_require__(2609)); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } function version(uuid) { if (!(0, _validate.default)(uuid)) { throw TypeError('Invalid UUID'); } return parseInt(uuid.substr(14, 1), 16); } var _default = version; exports["default"] = _default; /***/ }), /***/ 5526: /***/ (function(__unused_webpack_module, exports) { "use strict"; 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 /***/ }), /***/ 6255: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; /* eslint-disable @typescript-eslint/no-explicit-any */ 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.HttpClient = exports.isHttps = exports.HttpClientResponse = exports.HttpClientError = exports.getProxyUrl = exports.MediaTypes = exports.Headers = exports.HttpCodes = void 0; const http = __importStar(__nccwpck_require__(3685)); const https = __importStar(__nccwpck_require__(5687)); const pm = __importStar(__nccwpck_require__(9835)); const tunnel = __importStar(__nccwpck_require__(4294)); 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 || (exports.HttpCodes = {})); var Headers; (function (Headers) { Headers["Accept"] = "accept"; Headers["ContentType"] = "content-type"; })(Headers = exports.Headers || (exports.Headers = {})); var MediaTypes; (function (MediaTypes) { MediaTypes["ApplicationJson"] = "application/json"; })(MediaTypes = exports.MediaTypes || (exports.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()); }); })); }); } } 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); } _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 (this._keepAlive && !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 reusing agent across request and tunneling agent isn't assigned create a new agent if (this._keepAlive && !agent) { const options = { keepAlive: this._keepAlive, maxSockets }; agent = usingSsl ? new https.Agent(options) : new http.Agent(options); this._agent = agent; } // if not using private agent and tunnel agent isn't setup then use global agent if (!agent) { agent = usingSsl ? https.globalAgent : http.globalAgent; } 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; } _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 /***/ }), /***/ 9835: /***/ ((__unused_webpack_module, exports) => { "use strict"; 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) { return new URL(proxyVar); } else { return undefined; } } exports.getProxyUrl = getProxyUrl; function checkBypass(reqUrl) { if (!reqUrl.hostname) { return false; } 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 (upperReqHosts.some(x => x === upperNoProxyItem)) { return true; } } return false; } exports.checkBypass = checkBypass; //# sourceMappingURL=proxy.js.map /***/ }), /***/ 7760: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { /*! node-domexception. MIT License. Jimmy Wärting */ if (!globalThis.DOMException) { try { const { MessageChannel } = __nccwpck_require__(1267), port = new MessageChannel().port1, ab = new ArrayBuffer() port.postMessage(ab, [ab, ab]) } catch (err) { err.constructor.name === 'DOMException' && ( globalThis.DOMException = err.constructor ) } } module.exports = globalThis.DOMException /***/ }), /***/ 4294: /***/ ((module, __unused_webpack_exports, __nccwpck_require__) => { module.exports = __nccwpck_require__(4219); /***/ }), /***/ 4219: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; var net = __nccwpck_require__(1808); var tls = __nccwpck_require__(4404); var http = __nccwpck_require__(3685); var https = __nccwpck_require__(5687); var events = __nccwpck_require__(2361); var assert = __nccwpck_require__(9491); var util = __nccwpck_require__(3837); 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(/:.*$/, '') : options.host }); // 0 is dummy port for v0.6 var secureSocket = tls.connect(0, tlsOptions); self.sockets[self.sockets.indexOf(socket)] = secureSocket; cb(secureSocket); }); } function toOptions(host, port, localAddress) { if (typeof host === 'string') { // since v0.10 return { host: host, port: port, localAddress: localAddress }; } return host; // for v0.11 or later } function mergeOptions(target) { for (var i = 1, len = arguments.length; i < len; ++i) { var overrides = arguments[i]; if (typeof overrides === 'object') { var keys = Object.keys(overrides); for (var j = 0, keyLen = keys.length; j < keyLen; ++j) { var k = keys[j]; if (overrides[k] !== undefined) { target[k] = overrides[k]; } } } } return target; } var debug; if (process.env.NODE_DEBUG && /\btunnel\b/.test(process.env.NODE_DEBUG)) { debug = function() { var args = Array.prototype.slice.call(arguments); if (typeof args[0] === 'string') { args[0] = 'TUNNEL: ' + args[0]; } else { args.unshift('TUNNEL:'); } console.error.apply(console, args); } } else { debug = function() {}; } exports.debug = debug; // for test /***/ }), /***/ 1452: /***/ (function(__unused_webpack_module, exports) { /** * web-streams-polyfill v3.2.1 */ (function (global, factory) { true ? factory(exports) : 0; }(this, (function (exports) { 'use strict'; /// const SymbolPolyfill = typeof Symbol === 'function' && typeof Symbol.iterator === 'symbol' ? Symbol : description => `Symbol(${description})`; /// function noop() { return undefined; } function getGlobals() { if (typeof self !== 'undefined') { return self; } else if (typeof window !== 'undefined') { return window; } else if (typeof global !== 'undefined') { return global; } return undefined; } const globals = getGlobals(); function typeIsObject(x) { return (typeof x === 'object' && x !== null) || typeof x === 'function'; } const rethrowAssertionErrorRejection = noop; const originalPromise = Promise; const originalPromiseThen = Promise.prototype.then; const originalPromiseResolve = Promise.resolve.bind(originalPromise); const originalPromiseReject = Promise.reject.bind(originalPromise); function newPromise(executor) { return new originalPromise(executor); } function promiseResolvedWith(value) { return originalPromiseResolve(value); } function promiseRejectedWith(reason) { return originalPromiseReject(reason); } function PerformPromiseThen(promise, onFulfilled, onRejected) { // There doesn't appear to be any way to correctly emulate the behaviour from JavaScript, so this is just an // approximation. return originalPromiseThen.call(promise, onFulfilled, onRejected); } function uponPromise(promise, onFulfilled, onRejected) { PerformPromiseThen(PerformPromiseThen(promise, onFulfilled, onRejected), undefined, rethrowAssertionErrorRejection); } function uponFulfillment(promise, onFulfilled) { uponPromise(promise, onFulfilled); } function uponRejection(promise, onRejected) { uponPromise(promise, undefined, onRejected); } function transformPromiseWith(promise, fulfillmentHandler, rejectionHandler) { return PerformPromiseThen(promise, fulfillmentHandler, rejectionHandler); } function setPromiseIsHandledToTrue(promise) { PerformPromiseThen(promise, undefined, rethrowAssertionErrorRejection); } const queueMicrotask = (() => { const globalQueueMicrotask = globals && globals.queueMicrotask; if (typeof globalQueueMicrotask === 'function') { return globalQueueMicrotask; } const resolvedPromise = promiseResolvedWith(undefined); return (fn) => PerformPromiseThen(resolvedPromise, fn); })(); function reflectCall(F, V, args) { if (typeof F !== 'function') { throw new TypeError('Argument is not a function'); } return Function.prototype.apply.call(F, V, args); } function promiseCall(F, V, args) { try { return promiseResolvedWith(reflectCall(F, V, args)); } catch (value) { return promiseRejectedWith(value); } } // Original from Chromium // https://chromium.googlesource.com/chromium/src/+/0aee4434a4dba42a42abaea9bfbc0cd196a63bc1/third_party/blink/renderer/core/streams/SimpleQueue.js const QUEUE_MAX_ARRAY_SIZE = 16384; /** * Simple queue structure. * * Avoids scalability issues with using a packed array directly by using * multiple arrays in a linked list and keeping the array size bounded. */ class SimpleQueue { constructor() { this._cursor = 0; this._size = 0; // _front and _back are always defined. this._front = { _elements: [], _next: undefined }; this._back = this._front; // The cursor is used to avoid calling Array.shift(). // It contains the index of the front element of the array inside the // front-most node. It is always in the range [0, QUEUE_MAX_ARRAY_SIZE). this._cursor = 0; // When there is only one node, size === elements.length - cursor. this._size = 0; } get length() { return this._size; } // For exception safety, this method is structured in order: // 1. Read state // 2. Calculate required state mutations // 3. Perform state mutations push(element) { const oldBack = this._back; let newBack = oldBack; if (oldBack._elements.length === QUEUE_MAX_ARRAY_SIZE - 1) { newBack = { _elements: [], _next: undefined }; } // push() is the mutation most likely to throw an exception, so it // goes first. oldBack._elements.push(element); if (newBack !== oldBack) { this._back = newBack; oldBack._next = newBack; } ++this._size; } // Like push(), shift() follows the read -> calculate -> mutate pattern for // exception safety. shift() { // must not be called on an empty queue const oldFront = this._front; let newFront = oldFront; const oldCursor = this._cursor; let newCursor = oldCursor + 1; const elements = oldFront._elements; const element = elements[oldCursor]; if (newCursor === QUEUE_MAX_ARRAY_SIZE) { newFront = oldFront._next; newCursor = 0; } // No mutations before this point. --this._size; this._cursor = newCursor; if (oldFront !== newFront) { this._front = newFront; } // Permit shifted element to be garbage collected. elements[oldCursor] = undefined; return element; } // The tricky thing about forEach() is that it can be called // re-entrantly. The queue may be mutated inside the callback. It is easy to // see that push() within the callback has no negative effects since the end // of the queue is checked for on every iteration. If shift() is called // repeatedly within the callback then the next iteration may return an // element that has been removed. In this case the callback will be called // with undefined values until we either "catch up" with elements that still // exist or reach the back of the queue. forEach(callback) { let i = this._cursor; let node = this._front; let elements = node._elements; while (i !== elements.length || node._next !== undefined) { if (i === elements.length) { node = node._next; elements = node._elements; i = 0; if (elements.length === 0) { break; } } callback(elements[i]); ++i; } } // Return the element that would be returned if shift() was called now, // without modifying the queue. peek() { // must not be called on an empty queue const front = this._front; const cursor = this._cursor; return front._elements[cursor]; } } function ReadableStreamReaderGenericInitialize(reader, stream) { reader._ownerReadableStream = stream; stream._reader = reader; if (stream._state === 'readable') { defaultReaderClosedPromiseInitialize(reader); } else if (stream._state === 'closed') { defaultReaderClosedPromiseInitializeAsResolved(reader); } else { defaultReaderClosedPromiseInitializeAsRejected(reader, stream._storedError); } } // A client of ReadableStreamDefaultReader and ReadableStreamBYOBReader may use these functions directly to bypass state // check. function ReadableStreamReaderGenericCancel(reader, reason) { const stream = reader._ownerReadableStream; return ReadableStreamCancel(stream, reason); } function ReadableStreamReaderGenericRelease(reader) { if (reader._ownerReadableStream._state === 'readable') { defaultReaderClosedPromiseReject(reader, new TypeError(`Reader was released and can no longer be used to monitor the stream's closedness`)); } else { defaultReaderClosedPromiseResetToRejected(reader, new TypeError(`Reader was released and can no longer be used to monitor the stream's closedness`)); } reader._ownerReadableStream._reader = undefined; reader._ownerReadableStream = undefined; } // Helper functions for the readers. function readerLockException(name) { return new TypeError('Cannot ' + name + ' a stream using a released reader'); } // Helper functions for the ReadableStreamDefaultReader. function defaultReaderClosedPromiseInitialize(reader) { reader._closedPromise = newPromise((resolve, reject) => { reader._closedPromise_resolve = resolve; reader._closedPromise_reject = reject; }); } function defaultReaderClosedPromiseInitializeAsRejected(reader, reason) { defaultReaderClosedPromiseInitialize(reader); defaultReaderClosedPromiseReject(reader, reason); } function defaultReaderClosedPromiseInitializeAsResolved(reader) { defaultReaderClosedPromiseInitialize(reader); defaultReaderClosedPromiseResolve(reader); } function defaultReaderClosedPromiseReject(reader, reason) { if (reader._closedPromise_reject === undefined) { return; } setPromiseIsHandledToTrue(reader._closedPromise); reader._closedPromise_reject(reason); reader._closedPromise_resolve = undefined; reader._closedPromise_reject = undefined; } function defaultReaderClosedPromiseResetToRejected(reader, reason) { defaultReaderClosedPromiseInitializeAsRejected(reader, reason); } function defaultReaderClosedPromiseResolve(reader) { if (reader._closedPromise_resolve === undefined) { return; } reader._closedPromise_resolve(undefined); reader._closedPromise_resolve = undefined; reader._closedPromise_reject = undefined; } const AbortSteps = SymbolPolyfill('[[AbortSteps]]'); const ErrorSteps = SymbolPolyfill('[[ErrorSteps]]'); const CancelSteps = SymbolPolyfill('[[CancelSteps]]'); const PullSteps = SymbolPolyfill('[[PullSteps]]'); /// // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Number/isFinite#Polyfill const NumberIsFinite = Number.isFinite || function (x) { return typeof x === 'number' && isFinite(x); }; /// // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Math/trunc#Polyfill const MathTrunc = Math.trunc || function (v) { return v < 0 ? Math.ceil(v) : Math.floor(v); }; // https://heycam.github.io/webidl/#idl-dictionaries function isDictionary(x) { return typeof x === 'object' || typeof x === 'function'; } function assertDictionary(obj, context) { if (obj !== undefined && !isDictionary(obj)) { throw new TypeError(`${context} is not an object.`); } } // https://heycam.github.io/webidl/#idl-callback-functions function assertFunction(x, context) { if (typeof x !== 'function') { throw new TypeError(`${context} is not a function.`); } } // https://heycam.github.io/webidl/#idl-object function isObject(x) { return (typeof x === 'object' && x !== null) || typeof x === 'function'; } function assertObject(x, context) { if (!isObject(x)) { throw new TypeError(`${context} is not an object.`); } } function assertRequiredArgument(x, position, context) { if (x === undefined) { throw new TypeError(`Parameter ${position} is required in '${context}'.`); } } function assertRequiredField(x, field, context) { if (x === undefined) { throw new TypeError(`${field} is required in '${context}'.`); } } // https://heycam.github.io/webidl/#idl-unrestricted-double function convertUnrestrictedDouble(value) { return Number(value); } function censorNegativeZero(x) { return x === 0 ? 0 : x; } function integerPart(x) { return censorNegativeZero(MathTrunc(x)); } // https://heycam.github.io/webidl/#idl-unsigned-long-long function convertUnsignedLongLongWithEnforceRange(value, context) { const lowerBound = 0; const upperBound = Number.MAX_SAFE_INTEGER; let x = Number(value); x = censorNegativeZero(x); if (!NumberIsFinite(x)) { throw new TypeError(`${context} is not a finite number`); } x = integerPart(x); if (x < lowerBound || x > upperBound) { throw new TypeError(`${context} is outside the accepted range of ${lowerBound} to ${upperBound}, inclusive`); } if (!NumberIsFinite(x) || x === 0) { return 0; } // TODO Use BigInt if supported? // let xBigInt = BigInt(integerPart(x)); // xBigInt = BigInt.asUintN(64, xBigInt); // return Number(xBigInt); return x; } function assertReadableStream(x, context) { if (!IsReadableStream(x)) { throw new TypeError(`${context} is not a ReadableStream.`); } } // Abstract operations for the ReadableStream. function AcquireReadableStreamDefaultReader(stream) { return new ReadableStreamDefaultReader(stream); } // ReadableStream API exposed for controllers. function ReadableStreamAddReadRequest(stream, readRequest) { stream._reader._readRequests.push(readRequest); } function ReadableStreamFulfillReadRequest(stream, chunk, done) { const reader = stream._reader; const readRequest = reader._readRequests.shift(); if (done) { readRequest._closeSteps(); } else { readRequest._chunkSteps(chunk); } } function ReadableStreamGetNumReadRequests(stream) { return stream._reader._readRequests.length; } function ReadableStreamHasDefaultReader(stream) { const reader = stream._reader; if (reader === undefined) { return false; } if (!IsReadableStreamDefaultReader(reader)) { return false; } return true; } /** * A default reader vended by a {@link ReadableStream}. * * @public */ class ReadableStreamDefaultReader { constructor(stream) { assertRequiredArgument(stream, 1, 'ReadableStreamDefaultReader'); assertReadableStream(stream, 'First parameter'); if (IsReadableStreamLocked(stream)) { throw new TypeError('This stream has already been locked for exclusive reading by another reader'); } ReadableStreamReaderGenericInitialize(this, stream); this._readRequests = new SimpleQueue(); } /** * Returns a promise that will be fulfilled when the stream becomes closed, * or rejected if the stream ever errors or the reader's lock is released before the stream finishes closing. */ get closed() { if (!IsReadableStreamDefaultReader(this)) { return promiseRejectedWith(defaultReaderBrandCheckException('closed')); } return this._closedPromise; } /** * If the reader is active, behaves the same as {@link ReadableStream.cancel | stream.cancel(reason)}. */ cancel(reason = undefined) { if (!IsReadableStreamDefaultReader(this)) { return promiseRejectedWith(defaultReaderBrandCheckException('cancel')); } if (this._ownerReadableStream === undefined) { return promiseRejectedWith(readerLockException('cancel')); } return ReadableStreamReaderGenericCancel(this, reason); } /** * Returns a promise that allows access to the next chunk from the stream's internal queue, if available. * * If reading a chunk causes the queue to become empty, more data will be pulled from the underlying source. */ read() { if (!IsReadableStreamDefaultReader(this)) { return promiseRejectedWith(defaultReaderBrandCheckException('read')); } if (this._ownerReadableStream === undefined) { return promiseRejectedWith(readerLockException('read from')); } let resolvePromise; let rejectPromise; const promise = newPromise((resolve, reject) => { resolvePromise = resolve; rejectPromise = reject; }); const readRequest = { _chunkSteps: chunk => resolvePromise({ value: chunk, done: false }), _closeSteps: () => resolvePromise({ value: undefined, done: true }), _errorSteps: e => rejectPromise(e) }; ReadableStreamDefaultReaderRead(this, readRequest); return promise; } /** * Releases the reader's lock on the corresponding stream. After the lock is released, the reader is no longer active. * If the associated stream is errored when the lock is released, the reader will appear errored in the same way * from now on; otherwise, the reader will appear closed. * * A reader's lock cannot be released while it still has a pending read request, i.e., if a promise returned by * the reader's {@link ReadableStreamDefaultReader.read | read()} method has not yet been settled. Attempting to * do so will throw a `TypeError` and leave the reader locked to the stream. */ releaseLock() { if (!IsReadableStreamDefaultReader(this)) { throw defaultReaderBrandCheckException('releaseLock'); } if (this._ownerReadableStream === undefined) { return; } if (this._readRequests.length > 0) { throw new TypeError('Tried to release a reader lock when that reader has pending read() calls un-settled'); } ReadableStreamReaderGenericRelease(this); } } Object.defineProperties(ReadableStreamDefaultReader.prototype, { cancel: { enumerable: true }, read: { enumerable: true }, releaseLock: { enumerable: true }, closed: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(ReadableStreamDefaultReader.prototype, SymbolPolyfill.toStringTag, { value: 'ReadableStreamDefaultReader', configurable: true }); } // Abstract operations for the readers. function IsReadableStreamDefaultReader(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_readRequests')) { return false; } return x instanceof ReadableStreamDefaultReader; } function ReadableStreamDefaultReaderRead(reader, readRequest) { const stream = reader._ownerReadableStream; stream._disturbed = true; if (stream._state === 'closed') { readRequest._closeSteps(); } else if (stream._state === 'errored') { readRequest._errorSteps(stream._storedError); } else { stream._readableStreamController[PullSteps](readRequest); } } // Helper functions for the ReadableStreamDefaultReader. function defaultReaderBrandCheckException(name) { return new TypeError(`ReadableStreamDefaultReader.prototype.${name} can only be used on a ReadableStreamDefaultReader`); } /// /* eslint-disable @typescript-eslint/no-empty-function */ const AsyncIteratorPrototype = Object.getPrototypeOf(Object.getPrototypeOf(async function* () { }).prototype); /// class ReadableStreamAsyncIteratorImpl { constructor(reader, preventCancel) { this._ongoingPromise = undefined; this._isFinished = false; this._reader = reader; this._preventCancel = preventCancel; } next() { const nextSteps = () => this._nextSteps(); this._ongoingPromise = this._ongoingPromise ? transformPromiseWith(this._ongoingPromise, nextSteps, nextSteps) : nextSteps(); return this._ongoingPromise; } return(value) { const returnSteps = () => this._returnSteps(value); return this._ongoingPromise ? transformPromiseWith(this._ongoingPromise, returnSteps, returnSteps) : returnSteps(); } _nextSteps() { if (this._isFinished) { return Promise.resolve({ value: undefined, done: true }); } const reader = this._reader; if (reader._ownerReadableStream === undefined) { return promiseRejectedWith(readerLockException('iterate')); } let resolvePromise; let rejectPromise; const promise = newPromise((resolve, reject) => { resolvePromise = resolve; rejectPromise = reject; }); const readRequest = { _chunkSteps: chunk => { this._ongoingPromise = undefined; // This needs to be delayed by one microtask, otherwise we stop pulling too early which breaks a test. // FIXME Is this a bug in the specification, or in the test? queueMicrotask(() => resolvePromise({ value: chunk, done: false })); }, _closeSteps: () => { this._ongoingPromise = undefined; this._isFinished = true; ReadableStreamReaderGenericRelease(reader); resolvePromise({ value: undefined, done: true }); }, _errorSteps: reason => { this._ongoingPromise = undefined; this._isFinished = true; ReadableStreamReaderGenericRelease(reader); rejectPromise(reason); } }; ReadableStreamDefaultReaderRead(reader, readRequest); return promise; } _returnSteps(value) { if (this._isFinished) { return Promise.resolve({ value, done: true }); } this._isFinished = true; const reader = this._reader; if (reader._ownerReadableStream === undefined) { return promiseRejectedWith(readerLockException('finish iterating')); } if (!this._preventCancel) { const result = ReadableStreamReaderGenericCancel(reader, value); ReadableStreamReaderGenericRelease(reader); return transformPromiseWith(result, () => ({ value, done: true })); } ReadableStreamReaderGenericRelease(reader); return promiseResolvedWith({ value, done: true }); } } const ReadableStreamAsyncIteratorPrototype = { next() { if (!IsReadableStreamAsyncIterator(this)) { return promiseRejectedWith(streamAsyncIteratorBrandCheckException('next')); } return this._asyncIteratorImpl.next(); }, return(value) { if (!IsReadableStreamAsyncIterator(this)) { return promiseRejectedWith(streamAsyncIteratorBrandCheckException('return')); } return this._asyncIteratorImpl.return(value); } }; if (AsyncIteratorPrototype !== undefined) { Object.setPrototypeOf(ReadableStreamAsyncIteratorPrototype, AsyncIteratorPrototype); } // Abstract operations for the ReadableStream. function AcquireReadableStreamAsyncIterator(stream, preventCancel) { const reader = AcquireReadableStreamDefaultReader(stream); const impl = new ReadableStreamAsyncIteratorImpl(reader, preventCancel); const iterator = Object.create(ReadableStreamAsyncIteratorPrototype); iterator._asyncIteratorImpl = impl; return iterator; } function IsReadableStreamAsyncIterator(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_asyncIteratorImpl')) { return false; } try { // noinspection SuspiciousTypeOfGuard return x._asyncIteratorImpl instanceof ReadableStreamAsyncIteratorImpl; } catch (_a) { return false; } } // Helper functions for the ReadableStream. function streamAsyncIteratorBrandCheckException(name) { return new TypeError(`ReadableStreamAsyncIterator.${name} can only be used on a ReadableSteamAsyncIterator`); } /// // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Number/isNaN#Polyfill const NumberIsNaN = Number.isNaN || function (x) { // eslint-disable-next-line no-self-compare return x !== x; }; function CreateArrayFromList(elements) { // We use arrays to represent lists, so this is basically a no-op. // Do a slice though just in case we happen to depend on the unique-ness. return elements.slice(); } function CopyDataBlockBytes(dest, destOffset, src, srcOffset, n) { new Uint8Array(dest).set(new Uint8Array(src, srcOffset, n), destOffset); } // Not implemented correctly function TransferArrayBuffer(O) { return O; } // Not implemented correctly // eslint-disable-next-line @typescript-eslint/no-unused-vars function IsDetachedBuffer(O) { return false; } function ArrayBufferSlice(buffer, begin, end) { // ArrayBuffer.prototype.slice is not available on IE10 // https://www.caniuse.com/mdn-javascript_builtins_arraybuffer_slice if (buffer.slice) { return buffer.slice(begin, end); } const length = end - begin; const slice = new ArrayBuffer(length); CopyDataBlockBytes(slice, 0, buffer, begin, length); return slice; } function IsNonNegativeNumber(v) { if (typeof v !== 'number') { return false; } if (NumberIsNaN(v)) { return false; } if (v < 0) { return false; } return true; } function CloneAsUint8Array(O) { const buffer = ArrayBufferSlice(O.buffer, O.byteOffset, O.byteOffset + O.byteLength); return new Uint8Array(buffer); } function DequeueValue(container) { const pair = container._queue.shift(); container._queueTotalSize -= pair.size; if (container._queueTotalSize < 0) { container._queueTotalSize = 0; } return pair.value; } function EnqueueValueWithSize(container, value, size) { if (!IsNonNegativeNumber(size) || size === Infinity) { throw new RangeError('Size must be a finite, non-NaN, non-negative number.'); } container._queue.push({ value, size }); container._queueTotalSize += size; } function PeekQueueValue(container) { const pair = container._queue.peek(); return pair.value; } function ResetQueue(container) { container._queue = new SimpleQueue(); container._queueTotalSize = 0; } /** * A pull-into request in a {@link ReadableByteStreamController}. * * @public */ class ReadableStreamBYOBRequest { constructor() { throw new TypeError('Illegal constructor'); } /** * Returns the view for writing in to, or `null` if the BYOB request has already been responded to. */ get view() { if (!IsReadableStreamBYOBRequest(this)) { throw byobRequestBrandCheckException('view'); } return this._view; } respond(bytesWritten) { if (!IsReadableStreamBYOBRequest(this)) { throw byobRequestBrandCheckException('respond'); } assertRequiredArgument(bytesWritten, 1, 'respond'); bytesWritten = convertUnsignedLongLongWithEnforceRange(bytesWritten, 'First parameter'); if (this._associatedReadableByteStreamController === undefined) { throw new TypeError('This BYOB request has been invalidated'); } if (IsDetachedBuffer(this._view.buffer)) ; ReadableByteStreamControllerRespond(this._associatedReadableByteStreamController, bytesWritten); } respondWithNewView(view) { if (!IsReadableStreamBYOBRequest(this)) { throw byobRequestBrandCheckException('respondWithNewView'); } assertRequiredArgument(view, 1, 'respondWithNewView'); if (!ArrayBuffer.isView(view)) { throw new TypeError('You can only respond with array buffer views'); } if (this._associatedReadableByteStreamController === undefined) { throw new TypeError('This BYOB request has been invalidated'); } if (IsDetachedBuffer(view.buffer)) ; ReadableByteStreamControllerRespondWithNewView(this._associatedReadableByteStreamController, view); } } Object.defineProperties(ReadableStreamBYOBRequest.prototype, { respond: { enumerable: true }, respondWithNewView: { enumerable: true }, view: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(ReadableStreamBYOBRequest.prototype, SymbolPolyfill.toStringTag, { value: 'ReadableStreamBYOBRequest', configurable: true }); } /** * Allows control of a {@link ReadableStream | readable byte stream}'s state and internal queue. * * @public */ class ReadableByteStreamController { constructor() { throw new TypeError('Illegal constructor'); } /** * Returns the current BYOB pull request, or `null` if there isn't one. */ get byobRequest() { if (!IsReadableByteStreamController(this)) { throw byteStreamControllerBrandCheckException('byobRequest'); } return ReadableByteStreamControllerGetBYOBRequest(this); } /** * Returns the desired size to fill the controlled stream's internal queue. It can be negative, if the queue is * over-full. An underlying byte source ought to use this information to determine when and how to apply backpressure. */ get desiredSize() { if (!IsReadableByteStreamController(this)) { throw byteStreamControllerBrandCheckException('desiredSize'); } return ReadableByteStreamControllerGetDesiredSize(this); } /** * Closes the controlled readable stream. Consumers will still be able to read any previously-enqueued chunks from * the stream, but once those are read, the stream will become closed. */ close() { if (!IsReadableByteStreamController(this)) { throw byteStreamControllerBrandCheckException('close'); } if (this._closeRequested) { throw new TypeError('The stream has already been closed; do not close it again!'); } const state = this._controlledReadableByteStream._state; if (state !== 'readable') { throw new TypeError(`The stream (in ${state} state) is not in the readable state and cannot be closed`); } ReadableByteStreamControllerClose(this); } enqueue(chunk) { if (!IsReadableByteStreamController(this)) { throw byteStreamControllerBrandCheckException('enqueue'); } assertRequiredArgument(chunk, 1, 'enqueue'); if (!ArrayBuffer.isView(chunk)) { throw new TypeError('chunk must be an array buffer view'); } if (chunk.byteLength === 0) { throw new TypeError('chunk must have non-zero byteLength'); } if (chunk.buffer.byteLength === 0) { throw new TypeError(`chunk's buffer must have non-zero byteLength`); } if (this._closeRequested) { throw new TypeError('stream is closed or draining'); } const state = this._controlledReadableByteStream._state; if (state !== 'readable') { throw new TypeError(`The stream (in ${state} state) is not in the readable state and cannot be enqueued to`); } ReadableByteStreamControllerEnqueue(this, chunk); } /** * Errors the controlled readable stream, making all future interactions with it fail with the given error `e`. */ error(e = undefined) { if (!IsReadableByteStreamController(this)) { throw byteStreamControllerBrandCheckException('error'); } ReadableByteStreamControllerError(this, e); } /** @internal */ [CancelSteps](reason) { ReadableByteStreamControllerClearPendingPullIntos(this); ResetQueue(this); const result = this._cancelAlgorithm(reason); ReadableByteStreamControllerClearAlgorithms(this); return result; } /** @internal */ [PullSteps](readRequest) { const stream = this._controlledReadableByteStream; if (this._queueTotalSize > 0) { const entry = this._queue.shift(); this._queueTotalSize -= entry.byteLength; ReadableByteStreamControllerHandleQueueDrain(this); const view = new Uint8Array(entry.buffer, entry.byteOffset, entry.byteLength); readRequest._chunkSteps(view); return; } const autoAllocateChunkSize = this._autoAllocateChunkSize; if (autoAllocateChunkSize !== undefined) { let buffer; try { buffer = new ArrayBuffer(autoAllocateChunkSize); } catch (bufferE) { readRequest._errorSteps(bufferE); return; } const pullIntoDescriptor = { buffer, bufferByteLength: autoAllocateChunkSize, byteOffset: 0, byteLength: autoAllocateChunkSize, bytesFilled: 0, elementSize: 1, viewConstructor: Uint8Array, readerType: 'default' }; this._pendingPullIntos.push(pullIntoDescriptor); } ReadableStreamAddReadRequest(stream, readRequest); ReadableByteStreamControllerCallPullIfNeeded(this); } } Object.defineProperties(ReadableByteStreamController.prototype, { close: { enumerable: true }, enqueue: { enumerable: true }, error: { enumerable: true }, byobRequest: { enumerable: true }, desiredSize: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(ReadableByteStreamController.prototype, SymbolPolyfill.toStringTag, { value: 'ReadableByteStreamController', configurable: true }); } // Abstract operations for the ReadableByteStreamController. function IsReadableByteStreamController(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_controlledReadableByteStream')) { return false; } return x instanceof ReadableByteStreamController; } function IsReadableStreamBYOBRequest(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_associatedReadableByteStreamController')) { return false; } return x instanceof ReadableStreamBYOBRequest; } function ReadableByteStreamControllerCallPullIfNeeded(controller) { const shouldPull = ReadableByteStreamControllerShouldCallPull(controller); if (!shouldPull) { return; } if (controller._pulling) { controller._pullAgain = true; return; } controller._pulling = true; // TODO: Test controller argument const pullPromise = controller._pullAlgorithm(); uponPromise(pullPromise, () => { controller._pulling = false; if (controller._pullAgain) { controller._pullAgain = false; ReadableByteStreamControllerCallPullIfNeeded(controller); } }, e => { ReadableByteStreamControllerError(controller, e); }); } function ReadableByteStreamControllerClearPendingPullIntos(controller) { ReadableByteStreamControllerInvalidateBYOBRequest(controller); controller._pendingPullIntos = new SimpleQueue(); } function ReadableByteStreamControllerCommitPullIntoDescriptor(stream, pullIntoDescriptor) { let done = false; if (stream._state === 'closed') { done = true; } const filledView = ReadableByteStreamControllerConvertPullIntoDescriptor(pullIntoDescriptor); if (pullIntoDescriptor.readerType === 'default') { ReadableStreamFulfillReadRequest(stream, filledView, done); } else { ReadableStreamFulfillReadIntoRequest(stream, filledView, done); } } function ReadableByteStreamControllerConvertPullIntoDescriptor(pullIntoDescriptor) { const bytesFilled = pullIntoDescriptor.bytesFilled; const elementSize = pullIntoDescriptor.elementSize; return new pullIntoDescriptor.viewConstructor(pullIntoDescriptor.buffer, pullIntoDescriptor.byteOffset, bytesFilled / elementSize); } function ReadableByteStreamControllerEnqueueChunkToQueue(controller, buffer, byteOffset, byteLength) { controller._queue.push({ buffer, byteOffset, byteLength }); controller._queueTotalSize += byteLength; } function ReadableByteStreamControllerFillPullIntoDescriptorFromQueue(controller, pullIntoDescriptor) { const elementSize = pullIntoDescriptor.elementSize; const currentAlignedBytes = pullIntoDescriptor.bytesFilled - pullIntoDescriptor.bytesFilled % elementSize; const maxBytesToCopy = Math.min(controller._queueTotalSize, pullIntoDescriptor.byteLength - pullIntoDescriptor.bytesFilled); const maxBytesFilled = pullIntoDescriptor.bytesFilled + maxBytesToCopy; const maxAlignedBytes = maxBytesFilled - maxBytesFilled % elementSize; let totalBytesToCopyRemaining = maxBytesToCopy; let ready = false; if (maxAlignedBytes > currentAlignedBytes) { totalBytesToCopyRemaining = maxAlignedBytes - pullIntoDescriptor.bytesFilled; ready = true; } const queue = controller._queue; while (totalBytesToCopyRemaining > 0) { const headOfQueue = queue.peek(); const bytesToCopy = Math.min(totalBytesToCopyRemaining, headOfQueue.byteLength); const destStart = pullIntoDescriptor.byteOffset + pullIntoDescriptor.bytesFilled; CopyDataBlockBytes(pullIntoDescriptor.buffer, destStart, headOfQueue.buffer, headOfQueue.byteOffset, bytesToCopy); if (headOfQueue.byteLength === bytesToCopy) { queue.shift(); } else { headOfQueue.byteOffset += bytesToCopy; headOfQueue.byteLength -= bytesToCopy; } controller._queueTotalSize -= bytesToCopy; ReadableByteStreamControllerFillHeadPullIntoDescriptor(controller, bytesToCopy, pullIntoDescriptor); totalBytesToCopyRemaining -= bytesToCopy; } return ready; } function ReadableByteStreamControllerFillHeadPullIntoDescriptor(controller, size, pullIntoDescriptor) { pullIntoDescriptor.bytesFilled += size; } function ReadableByteStreamControllerHandleQueueDrain(controller) { if (controller._queueTotalSize === 0 && controller._closeRequested) { ReadableByteStreamControllerClearAlgorithms(controller); ReadableStreamClose(controller._controlledReadableByteStream); } else { ReadableByteStreamControllerCallPullIfNeeded(controller); } } function ReadableByteStreamControllerInvalidateBYOBRequest(controller) { if (controller._byobRequest === null) { return; } controller._byobRequest._associatedReadableByteStreamController = undefined; controller._byobRequest._view = null; controller._byobRequest = null; } function ReadableByteStreamControllerProcessPullIntoDescriptorsUsingQueue(controller) { while (controller._pendingPullIntos.length > 0) { if (controller._queueTotalSize === 0) { return; } const pullIntoDescriptor = controller._pendingPullIntos.peek(); if (ReadableByteStreamControllerFillPullIntoDescriptorFromQueue(controller, pullIntoDescriptor)) { ReadableByteStreamControllerShiftPendingPullInto(controller); ReadableByteStreamControllerCommitPullIntoDescriptor(controller._controlledReadableByteStream, pullIntoDescriptor); } } } function ReadableByteStreamControllerPullInto(controller, view, readIntoRequest) { const stream = controller._controlledReadableByteStream; let elementSize = 1; if (view.constructor !== DataView) { elementSize = view.constructor.BYTES_PER_ELEMENT; } const ctor = view.constructor; // try { const buffer = TransferArrayBuffer(view.buffer); // } catch (e) { // readIntoRequest._errorSteps(e); // return; // } const pullIntoDescriptor = { buffer, bufferByteLength: buffer.byteLength, byteOffset: view.byteOffset, byteLength: view.byteLength, bytesFilled: 0, elementSize, viewConstructor: ctor, readerType: 'byob' }; if (controller._pendingPullIntos.length > 0) { controller._pendingPullIntos.push(pullIntoDescriptor); // No ReadableByteStreamControllerCallPullIfNeeded() call since: // - No change happens on desiredSize // - The source has already been notified of that there's at least 1 pending read(view) ReadableStreamAddReadIntoRequest(stream, readIntoRequest); return; } if (stream._state === 'closed') { const emptyView = new ctor(pullIntoDescriptor.buffer, pullIntoDescriptor.byteOffset, 0); readIntoRequest._closeSteps(emptyView); return; } if (controller._queueTotalSize > 0) { if (ReadableByteStreamControllerFillPullIntoDescriptorFromQueue(controller, pullIntoDescriptor)) { const filledView = ReadableByteStreamControllerConvertPullIntoDescriptor(pullIntoDescriptor); ReadableByteStreamControllerHandleQueueDrain(controller); readIntoRequest._chunkSteps(filledView); return; } if (controller._closeRequested) { const e = new TypeError('Insufficient bytes to fill elements in the given buffer'); ReadableByteStreamControllerError(controller, e); readIntoRequest._errorSteps(e); return; } } controller._pendingPullIntos.push(pullIntoDescriptor); ReadableStreamAddReadIntoRequest(stream, readIntoRequest); ReadableByteStreamControllerCallPullIfNeeded(controller); } function ReadableByteStreamControllerRespondInClosedState(controller, firstDescriptor) { const stream = controller._controlledReadableByteStream; if (ReadableStreamHasBYOBReader(stream)) { while (ReadableStreamGetNumReadIntoRequests(stream) > 0) { const pullIntoDescriptor = ReadableByteStreamControllerShiftPendingPullInto(controller); ReadableByteStreamControllerCommitPullIntoDescriptor(stream, pullIntoDescriptor); } } } function ReadableByteStreamControllerRespondInReadableState(controller, bytesWritten, pullIntoDescriptor) { ReadableByteStreamControllerFillHeadPullIntoDescriptor(controller, bytesWritten, pullIntoDescriptor); if (pullIntoDescriptor.bytesFilled < pullIntoDescriptor.elementSize) { return; } ReadableByteStreamControllerShiftPendingPullInto(controller); const remainderSize = pullIntoDescriptor.bytesFilled % pullIntoDescriptor.elementSize; if (remainderSize > 0) { const end = pullIntoDescriptor.byteOffset + pullIntoDescriptor.bytesFilled; const remainder = ArrayBufferSlice(pullIntoDescriptor.buffer, end - remainderSize, end); ReadableByteStreamControllerEnqueueChunkToQueue(controller, remainder, 0, remainder.byteLength); } pullIntoDescriptor.bytesFilled -= remainderSize; ReadableByteStreamControllerCommitPullIntoDescriptor(controller._controlledReadableByteStream, pullIntoDescriptor); ReadableByteStreamControllerProcessPullIntoDescriptorsUsingQueue(controller); } function ReadableByteStreamControllerRespondInternal(controller, bytesWritten) { const firstDescriptor = controller._pendingPullIntos.peek(); ReadableByteStreamControllerInvalidateBYOBRequest(controller); const state = controller._controlledReadableByteStream._state; if (state === 'closed') { ReadableByteStreamControllerRespondInClosedState(controller); } else { ReadableByteStreamControllerRespondInReadableState(controller, bytesWritten, firstDescriptor); } ReadableByteStreamControllerCallPullIfNeeded(controller); } function ReadableByteStreamControllerShiftPendingPullInto(controller) { const descriptor = controller._pendingPullIntos.shift(); return descriptor; } function ReadableByteStreamControllerShouldCallPull(controller) { const stream = controller._controlledReadableByteStream; if (stream._state !== 'readable') { return false; } if (controller._closeRequested) { return false; } if (!controller._started) { return false; } if (ReadableStreamHasDefaultReader(stream) && ReadableStreamGetNumReadRequests(stream) > 0) { return true; } if (ReadableStreamHasBYOBReader(stream) && ReadableStreamGetNumReadIntoRequests(stream) > 0) { return true; } const desiredSize = ReadableByteStreamControllerGetDesiredSize(controller); if (desiredSize > 0) { return true; } return false; } function ReadableByteStreamControllerClearAlgorithms(controller) { controller._pullAlgorithm = undefined; controller._cancelAlgorithm = undefined; } // A client of ReadableByteStreamController may use these functions directly to bypass state check. function ReadableByteStreamControllerClose(controller) { const stream = controller._controlledReadableByteStream; if (controller._closeRequested || stream._state !== 'readable') { return; } if (controller._queueTotalSize > 0) { controller._closeRequested = true; return; } if (controller._pendingPullIntos.length > 0) { const firstPendingPullInto = controller._pendingPullIntos.peek(); if (firstPendingPullInto.bytesFilled > 0) { const e = new TypeError('Insufficient bytes to fill elements in the given buffer'); ReadableByteStreamControllerError(controller, e); throw e; } } ReadableByteStreamControllerClearAlgorithms(controller); ReadableStreamClose(stream); } function ReadableByteStreamControllerEnqueue(controller, chunk) { const stream = controller._controlledReadableByteStream; if (controller._closeRequested || stream._state !== 'readable') { return; } const buffer = chunk.buffer; const byteOffset = chunk.byteOffset; const byteLength = chunk.byteLength; const transferredBuffer = TransferArrayBuffer(buffer); if (controller._pendingPullIntos.length > 0) { const firstPendingPullInto = controller._pendingPullIntos.peek(); if (IsDetachedBuffer(firstPendingPullInto.buffer)) ; firstPendingPullInto.buffer = TransferArrayBuffer(firstPendingPullInto.buffer); } ReadableByteStreamControllerInvalidateBYOBRequest(controller); if (ReadableStreamHasDefaultReader(stream)) { if (ReadableStreamGetNumReadRequests(stream) === 0) { ReadableByteStreamControllerEnqueueChunkToQueue(controller, transferredBuffer, byteOffset, byteLength); } else { if (controller._pendingPullIntos.length > 0) { ReadableByteStreamControllerShiftPendingPullInto(controller); } const transferredView = new Uint8Array(transferredBuffer, byteOffset, byteLength); ReadableStreamFulfillReadRequest(stream, transferredView, false); } } else if (ReadableStreamHasBYOBReader(stream)) { // TODO: Ideally in this branch detaching should happen only if the buffer is not consumed fully. ReadableByteStreamControllerEnqueueChunkToQueue(controller, transferredBuffer, byteOffset, byteLength); ReadableByteStreamControllerProcessPullIntoDescriptorsUsingQueue(controller); } else { ReadableByteStreamControllerEnqueueChunkToQueue(controller, transferredBuffer, byteOffset, byteLength); } ReadableByteStreamControllerCallPullIfNeeded(controller); } function ReadableByteStreamControllerError(controller, e) { const stream = controller._controlledReadableByteStream; if (stream._state !== 'readable') { return; } ReadableByteStreamControllerClearPendingPullIntos(controller); ResetQueue(controller); ReadableByteStreamControllerClearAlgorithms(controller); ReadableStreamError(stream, e); } function ReadableByteStreamControllerGetBYOBRequest(controller) { if (controller._byobRequest === null && controller._pendingPullIntos.length > 0) { const firstDescriptor = controller._pendingPullIntos.peek(); const view = new Uint8Array(firstDescriptor.buffer, firstDescriptor.byteOffset + firstDescriptor.bytesFilled, firstDescriptor.byteLength - firstDescriptor.bytesFilled); const byobRequest = Object.create(ReadableStreamBYOBRequest.prototype); SetUpReadableStreamBYOBRequest(byobRequest, controller, view); controller._byobRequest = byobRequest; } return controller._byobRequest; } function ReadableByteStreamControllerGetDesiredSize(controller) { const state = controller._controlledReadableByteStream._state; if (state === 'errored') { return null; } if (state === 'closed') { return 0; } return controller._strategyHWM - controller._queueTotalSize; } function ReadableByteStreamControllerRespond(controller, bytesWritten) { const firstDescriptor = controller._pendingPullIntos.peek(); const state = controller._controlledReadableByteStream._state; if (state === 'closed') { if (bytesWritten !== 0) { throw new TypeError('bytesWritten must be 0 when calling respond() on a closed stream'); } } else { if (bytesWritten === 0) { throw new TypeError('bytesWritten must be greater than 0 when calling respond() on a readable stream'); } if (firstDescriptor.bytesFilled + bytesWritten > firstDescriptor.byteLength) { throw new RangeError('bytesWritten out of range'); } } firstDescriptor.buffer = TransferArrayBuffer(firstDescriptor.buffer); ReadableByteStreamControllerRespondInternal(controller, bytesWritten); } function ReadableByteStreamControllerRespondWithNewView(controller, view) { const firstDescriptor = controller._pendingPullIntos.peek(); const state = controller._controlledReadableByteStream._state; if (state === 'closed') { if (view.byteLength !== 0) { throw new TypeError('The view\'s length must be 0 when calling respondWithNewView() on a closed stream'); } } else { if (view.byteLength === 0) { throw new TypeError('The view\'s length must be greater than 0 when calling respondWithNewView() on a readable stream'); } } if (firstDescriptor.byteOffset + firstDescriptor.bytesFilled !== view.byteOffset) { throw new RangeError('The region specified by view does not match byobRequest'); } if (firstDescriptor.bufferByteLength !== view.buffer.byteLength) { throw new RangeError('The buffer of view has different capacity than byobRequest'); } if (firstDescriptor.bytesFilled + view.byteLength > firstDescriptor.byteLength) { throw new RangeError('The region specified by view is larger than byobRequest'); } const viewByteLength = view.byteLength; firstDescriptor.buffer = TransferArrayBuffer(view.buffer); ReadableByteStreamControllerRespondInternal(controller, viewByteLength); } function SetUpReadableByteStreamController(stream, controller, startAlgorithm, pullAlgorithm, cancelAlgorithm, highWaterMark, autoAllocateChunkSize) { controller._controlledReadableByteStream = stream; controller._pullAgain = false; controller._pulling = false; controller._byobRequest = null; // Need to set the slots so that the assert doesn't fire. In the spec the slots already exist implicitly. controller._queue = controller._queueTotalSize = undefined; ResetQueue(controller); controller._closeRequested = false; controller._started = false; controller._strategyHWM = highWaterMark; controller._pullAlgorithm = pullAlgorithm; controller._cancelAlgorithm = cancelAlgorithm; controller._autoAllocateChunkSize = autoAllocateChunkSize; controller._pendingPullIntos = new SimpleQueue(); stream._readableStreamController = controller; const startResult = startAlgorithm(); uponPromise(promiseResolvedWith(startResult), () => { controller._started = true; ReadableByteStreamControllerCallPullIfNeeded(controller); }, r => { ReadableByteStreamControllerError(controller, r); }); } function SetUpReadableByteStreamControllerFromUnderlyingSource(stream, underlyingByteSource, highWaterMark) { const controller = Object.create(ReadableByteStreamController.prototype); let startAlgorithm = () => undefined; let pullAlgorithm = () => promiseResolvedWith(undefined); let cancelAlgorithm = () => promiseResolvedWith(undefined); if (underlyingByteSource.start !== undefined) { startAlgorithm = () => underlyingByteSource.start(controller); } if (underlyingByteSource.pull !== undefined) { pullAlgorithm = () => underlyingByteSource.pull(controller); } if (underlyingByteSource.cancel !== undefined) { cancelAlgorithm = reason => underlyingByteSource.cancel(reason); } const autoAllocateChunkSize = underlyingByteSource.autoAllocateChunkSize; if (autoAllocateChunkSize === 0) { throw new TypeError('autoAllocateChunkSize must be greater than 0'); } SetUpReadableByteStreamController(stream, controller, startAlgorithm, pullAlgorithm, cancelAlgorithm, highWaterMark, autoAllocateChunkSize); } function SetUpReadableStreamBYOBRequest(request, controller, view) { request._associatedReadableByteStreamController = controller; request._view = view; } // Helper functions for the ReadableStreamBYOBRequest. function byobRequestBrandCheckException(name) { return new TypeError(`ReadableStreamBYOBRequest.prototype.${name} can only be used on a ReadableStreamBYOBRequest`); } // Helper functions for the ReadableByteStreamController. function byteStreamControllerBrandCheckException(name) { return new TypeError(`ReadableByteStreamController.prototype.${name} can only be used on a ReadableByteStreamController`); } // Abstract operations for the ReadableStream. function AcquireReadableStreamBYOBReader(stream) { return new ReadableStreamBYOBReader(stream); } // ReadableStream API exposed for controllers. function ReadableStreamAddReadIntoRequest(stream, readIntoRequest) { stream._reader._readIntoRequests.push(readIntoRequest); } function ReadableStreamFulfillReadIntoRequest(stream, chunk, done) { const reader = stream._reader; const readIntoRequest = reader._readIntoRequests.shift(); if (done) { readIntoRequest._closeSteps(chunk); } else { readIntoRequest._chunkSteps(chunk); } } function ReadableStreamGetNumReadIntoRequests(stream) { return stream._reader._readIntoRequests.length; } function ReadableStreamHasBYOBReader(stream) { const reader = stream._reader; if (reader === undefined) { return false; } if (!IsReadableStreamBYOBReader(reader)) { return false; } return true; } /** * A BYOB reader vended by a {@link ReadableStream}. * * @public */ class ReadableStreamBYOBReader { constructor(stream) { assertRequiredArgument(stream, 1, 'ReadableStreamBYOBReader'); assertReadableStream(stream, 'First parameter'); if (IsReadableStreamLocked(stream)) { throw new TypeError('This stream has already been locked for exclusive reading by another reader'); } if (!IsReadableByteStreamController(stream._readableStreamController)) { throw new TypeError('Cannot construct a ReadableStreamBYOBReader for a stream not constructed with a byte ' + 'source'); } ReadableStreamReaderGenericInitialize(this, stream); this._readIntoRequests = new SimpleQueue(); } /** * Returns a promise that will be fulfilled when the stream becomes closed, or rejected if the stream ever errors or * the reader's lock is released before the stream finishes closing. */ get closed() { if (!IsReadableStreamBYOBReader(this)) { return promiseRejectedWith(byobReaderBrandCheckException('closed')); } return this._closedPromise; } /** * If the reader is active, behaves the same as {@link ReadableStream.cancel | stream.cancel(reason)}. */ cancel(reason = undefined) { if (!IsReadableStreamBYOBReader(this)) { return promiseRejectedWith(byobReaderBrandCheckException('cancel')); } if (this._ownerReadableStream === undefined) { return promiseRejectedWith(readerLockException('cancel')); } return ReadableStreamReaderGenericCancel(this, reason); } /** * Attempts to reads bytes into view, and returns a promise resolved with the result. * * If reading a chunk causes the queue to become empty, more data will be pulled from the underlying source. */ read(view) { if (!IsReadableStreamBYOBReader(this)) { return promiseRejectedWith(byobReaderBrandCheckException('read')); } if (!ArrayBuffer.isView(view)) { return promiseRejectedWith(new TypeError('view must be an array buffer view')); } if (view.byteLength === 0) { return promiseRejectedWith(new TypeError('view must have non-zero byteLength')); } if (view.buffer.byteLength === 0) { return promiseRejectedWith(new TypeError(`view's buffer must have non-zero byteLength`)); } if (IsDetachedBuffer(view.buffer)) ; if (this._ownerReadableStream === undefined) { return promiseRejectedWith(readerLockException('read from')); } let resolvePromise; let rejectPromise; const promise = newPromise((resolve, reject) => { resolvePromise = resolve; rejectPromise = reject; }); const readIntoRequest = { _chunkSteps: chunk => resolvePromise({ value: chunk, done: false }), _closeSteps: chunk => resolvePromise({ value: chunk, done: true }), _errorSteps: e => rejectPromise(e) }; ReadableStreamBYOBReaderRead(this, view, readIntoRequest); return promise; } /** * Releases the reader's lock on the corresponding stream. After the lock is released, the reader is no longer active. * If the associated stream is errored when the lock is released, the reader will appear errored in the same way * from now on; otherwise, the reader will appear closed. * * A reader's lock cannot be released while it still has a pending read request, i.e., if a promise returned by * the reader's {@link ReadableStreamBYOBReader.read | read()} method has not yet been settled. Attempting to * do so will throw a `TypeError` and leave the reader locked to the stream. */ releaseLock() { if (!IsReadableStreamBYOBReader(this)) { throw byobReaderBrandCheckException('releaseLock'); } if (this._ownerReadableStream === undefined) { return; } if (this._readIntoRequests.length > 0) { throw new TypeError('Tried to release a reader lock when that reader has pending read() calls un-settled'); } ReadableStreamReaderGenericRelease(this); } } Object.defineProperties(ReadableStreamBYOBReader.prototype, { cancel: { enumerable: true }, read: { enumerable: true }, releaseLock: { enumerable: true }, closed: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(ReadableStreamBYOBReader.prototype, SymbolPolyfill.toStringTag, { value: 'ReadableStreamBYOBReader', configurable: true }); } // Abstract operations for the readers. function IsReadableStreamBYOBReader(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_readIntoRequests')) { return false; } return x instanceof ReadableStreamBYOBReader; } function ReadableStreamBYOBReaderRead(reader, view, readIntoRequest) { const stream = reader._ownerReadableStream; stream._disturbed = true; if (stream._state === 'errored') { readIntoRequest._errorSteps(stream._storedError); } else { ReadableByteStreamControllerPullInto(stream._readableStreamController, view, readIntoRequest); } } // Helper functions for the ReadableStreamBYOBReader. function byobReaderBrandCheckException(name) { return new TypeError(`ReadableStreamBYOBReader.prototype.${name} can only be used on a ReadableStreamBYOBReader`); } function ExtractHighWaterMark(strategy, defaultHWM) { const { highWaterMark } = strategy; if (highWaterMark === undefined) { return defaultHWM; } if (NumberIsNaN(highWaterMark) || highWaterMark < 0) { throw new RangeError('Invalid highWaterMark'); } return highWaterMark; } function ExtractSizeAlgorithm(strategy) { const { size } = strategy; if (!size) { return () => 1; } return size; } function convertQueuingStrategy(init, context) { assertDictionary(init, context); const highWaterMark = init === null || init === void 0 ? void 0 : init.highWaterMark; const size = init === null || init === void 0 ? void 0 : init.size; return { highWaterMark: highWaterMark === undefined ? undefined : convertUnrestrictedDouble(highWaterMark), size: size === undefined ? undefined : convertQueuingStrategySize(size, `${context} has member 'size' that`) }; } function convertQueuingStrategySize(fn, context) { assertFunction(fn, context); return chunk => convertUnrestrictedDouble(fn(chunk)); } function convertUnderlyingSink(original, context) { assertDictionary(original, context); const abort = original === null || original === void 0 ? void 0 : original.abort; const close = original === null || original === void 0 ? void 0 : original.close; const start = original === null || original === void 0 ? void 0 : original.start; const type = original === null || original === void 0 ? void 0 : original.type; const write = original === null || original === void 0 ? void 0 : original.write; return { abort: abort === undefined ? undefined : convertUnderlyingSinkAbortCallback(abort, original, `${context} has member 'abort' that`), close: close === undefined ? undefined : convertUnderlyingSinkCloseCallback(close, original, `${context} has member 'close' that`), start: start === undefined ? undefined : convertUnderlyingSinkStartCallback(start, original, `${context} has member 'start' that`), write: write === undefined ? undefined : convertUnderlyingSinkWriteCallback(write, original, `${context} has member 'write' that`), type }; } function convertUnderlyingSinkAbortCallback(fn, original, context) { assertFunction(fn, context); return (reason) => promiseCall(fn, original, [reason]); } function convertUnderlyingSinkCloseCallback(fn, original, context) { assertFunction(fn, context); return () => promiseCall(fn, original, []); } function convertUnderlyingSinkStartCallback(fn, original, context) { assertFunction(fn, context); return (controller) => reflectCall(fn, original, [controller]); } function convertUnderlyingSinkWriteCallback(fn, original, context) { assertFunction(fn, context); return (chunk, controller) => promiseCall(fn, original, [chunk, controller]); } function assertWritableStream(x, context) { if (!IsWritableStream(x)) { throw new TypeError(`${context} is not a WritableStream.`); } } function isAbortSignal(value) { if (typeof value !== 'object' || value === null) { return false; } try { return typeof value.aborted === 'boolean'; } catch (_a) { // AbortSignal.prototype.aborted throws if its brand check fails return false; } } const supportsAbortController = typeof AbortController === 'function'; /** * Construct a new AbortController, if supported by the platform. * * @internal */ function createAbortController() { if (supportsAbortController) { return new AbortController(); } return undefined; } /** * A writable stream represents a destination for data, into which you can write. * * @public */ class WritableStream { constructor(rawUnderlyingSink = {}, rawStrategy = {}) { if (rawUnderlyingSink === undefined) { rawUnderlyingSink = null; } else { assertObject(rawUnderlyingSink, 'First parameter'); } const strategy = convertQueuingStrategy(rawStrategy, 'Second parameter'); const underlyingSink = convertUnderlyingSink(rawUnderlyingSink, 'First parameter'); InitializeWritableStream(this); const type = underlyingSink.type; if (type !== undefined) { throw new RangeError('Invalid type is specified'); } const sizeAlgorithm = ExtractSizeAlgorithm(strategy); const highWaterMark = ExtractHighWaterMark(strategy, 1); SetUpWritableStreamDefaultControllerFromUnderlyingSink(this, underlyingSink, highWaterMark, sizeAlgorithm); } /** * Returns whether or not the writable stream is locked to a writer. */ get locked() { if (!IsWritableStream(this)) { throw streamBrandCheckException$2('locked'); } return IsWritableStreamLocked(this); } /** * Aborts the stream, signaling that the producer can no longer successfully write to the stream and it is to be * immediately moved to an errored state, with any queued-up writes discarded. This will also execute any abort * mechanism of the underlying sink. * * The returned promise will fulfill if the stream shuts down successfully, or reject if the underlying sink signaled * that there was an error doing so. Additionally, it will reject with a `TypeError` (without attempting to cancel * the stream) if the stream is currently locked. */ abort(reason = undefined) { if (!IsWritableStream(this)) { return promiseRejectedWith(streamBrandCheckException$2('abort')); } if (IsWritableStreamLocked(this)) { return promiseRejectedWith(new TypeError('Cannot abort a stream that already has a writer')); } return WritableStreamAbort(this, reason); } /** * Closes the stream. The underlying sink will finish processing any previously-written chunks, before invoking its * close behavior. During this time any further attempts to write will fail (without erroring the stream). * * The method returns a promise that will fulfill if all remaining chunks are successfully written and the stream * successfully closes, or rejects if an error is encountered during this process. Additionally, it will reject with * a `TypeError` (without attempting to cancel the stream) if the stream is currently locked. */ close() { if (!IsWritableStream(this)) { return promiseRejectedWith(streamBrandCheckException$2('close')); } if (IsWritableStreamLocked(this)) { return promiseRejectedWith(new TypeError('Cannot close a stream that already has a writer')); } if (WritableStreamCloseQueuedOrInFlight(this)) { return promiseRejectedWith(new TypeError('Cannot close an already-closing stream')); } return WritableStreamClose(this); } /** * Creates a {@link WritableStreamDefaultWriter | writer} and locks the stream to the new writer. While the stream * is locked, no other writer can be acquired until this one is released. * * This functionality is especially useful for creating abstractions that desire the ability to write to a stream * without interruption or interleaving. By getting a writer for the stream, you can ensure nobody else can write at * the same time, which would cause the resulting written data to be unpredictable and probably useless. */ getWriter() { if (!IsWritableStream(this)) { throw streamBrandCheckException$2('getWriter'); } return AcquireWritableStreamDefaultWriter(this); } } Object.defineProperties(WritableStream.prototype, { abort: { enumerable: true }, close: { enumerable: true }, getWriter: { enumerable: true }, locked: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(WritableStream.prototype, SymbolPolyfill.toStringTag, { value: 'WritableStream', configurable: true }); } // Abstract operations for the WritableStream. function AcquireWritableStreamDefaultWriter(stream) { return new WritableStreamDefaultWriter(stream); } // Throws if and only if startAlgorithm throws. function CreateWritableStream(startAlgorithm, writeAlgorithm, closeAlgorithm, abortAlgorithm, highWaterMark = 1, sizeAlgorithm = () => 1) { const stream = Object.create(WritableStream.prototype); InitializeWritableStream(stream); const controller = Object.create(WritableStreamDefaultController.prototype); SetUpWritableStreamDefaultController(stream, controller, startAlgorithm, writeAlgorithm, closeAlgorithm, abortAlgorithm, highWaterMark, sizeAlgorithm); return stream; } function InitializeWritableStream(stream) { stream._state = 'writable'; // The error that will be reported by new method calls once the state becomes errored. Only set when [[state]] is // 'erroring' or 'errored'. May be set to an undefined value. stream._storedError = undefined; stream._writer = undefined; // Initialize to undefined first because the constructor of the controller checks this // variable to validate the caller. stream._writableStreamController = undefined; // This queue is placed here instead of the writer class in order to allow for passing a writer to the next data // producer without waiting for the queued writes to finish. stream._writeRequests = new SimpleQueue(); // Write requests are removed from _writeRequests when write() is called on the underlying sink. This prevents // them from being erroneously rejected on error. If a write() call is in-flight, the request is stored here. stream._inFlightWriteRequest = undefined; // The promise that was returned from writer.close(). Stored here because it may be fulfilled after the writer // has been detached. stream._closeRequest = undefined; // Close request is removed from _closeRequest when close() is called on the underlying sink. This prevents it // from being erroneously rejected on error. If a close() call is in-flight, the request is stored here. stream._inFlightCloseRequest = undefined; // The promise that was returned from writer.abort(). This may also be fulfilled after the writer has detached. stream._pendingAbortRequest = undefined; // The backpressure signal set by the controller. stream._backpressure = false; } function IsWritableStream(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_writableStreamController')) { return false; } return x instanceof WritableStream; } function IsWritableStreamLocked(stream) { if (stream._writer === undefined) { return false; } return true; } function WritableStreamAbort(stream, reason) { var _a; if (stream._state === 'closed' || stream._state === 'errored') { return promiseResolvedWith(undefined); } stream._writableStreamController._abortReason = reason; (_a = stream._writableStreamController._abortController) === null || _a === void 0 ? void 0 : _a.abort(); // TypeScript narrows the type of `stream._state` down to 'writable' | 'erroring', // but it doesn't know that signaling abort runs author code that might have changed the state. // Widen the type again by casting to WritableStreamState. const state = stream._state; if (state === 'closed' || state === 'errored') { return promiseResolvedWith(undefined); } if (stream._pendingAbortRequest !== undefined) { return stream._pendingAbortRequest._promise; } let wasAlreadyErroring = false; if (state === 'erroring') { wasAlreadyErroring = true; // reason will not be used, so don't keep a reference to it. reason = undefined; } const promise = newPromise((resolve, reject) => { stream._pendingAbortRequest = { _promise: undefined, _resolve: resolve, _reject: reject, _reason: reason, _wasAlreadyErroring: wasAlreadyErroring }; }); stream._pendingAbortRequest._promise = promise; if (!wasAlreadyErroring) { WritableStreamStartErroring(stream, reason); } return promise; } function WritableStreamClose(stream) { const state = stream._state; if (state === 'closed' || state === 'errored') { return promiseRejectedWith(new TypeError(`The stream (in ${state} state) is not in the writable state and cannot be closed`)); } const promise = newPromise((resolve, reject) => { const closeRequest = { _resolve: resolve, _reject: reject }; stream._closeRequest = closeRequest; }); const writer = stream._writer; if (writer !== undefined && stream._backpressure && state === 'writable') { defaultWriterReadyPromiseResolve(writer); } WritableStreamDefaultControllerClose(stream._writableStreamController); return promise; } // WritableStream API exposed for controllers. function WritableStreamAddWriteRequest(stream) { const promise = newPromise((resolve, reject) => { const writeRequest = { _resolve: resolve, _reject: reject }; stream._writeRequests.push(writeRequest); }); return promise; } function WritableStreamDealWithRejection(stream, error) { const state = stream._state; if (state === 'writable') { WritableStreamStartErroring(stream, error); return; } WritableStreamFinishErroring(stream); } function WritableStreamStartErroring(stream, reason) { const controller = stream._writableStreamController; stream._state = 'erroring'; stream._storedError = reason; const writer = stream._writer; if (writer !== undefined) { WritableStreamDefaultWriterEnsureReadyPromiseRejected(writer, reason); } if (!WritableStreamHasOperationMarkedInFlight(stream) && controller._started) { WritableStreamFinishErroring(stream); } } function WritableStreamFinishErroring(stream) { stream._state = 'errored'; stream._writableStreamController[ErrorSteps](); const storedError = stream._storedError; stream._writeRequests.forEach(writeRequest => { writeRequest._reject(storedError); }); stream._writeRequests = new SimpleQueue(); if (stream._pendingAbortRequest === undefined) { WritableStreamRejectCloseAndClosedPromiseIfNeeded(stream); return; } const abortRequest = stream._pendingAbortRequest; stream._pendingAbortRequest = undefined; if (abortRequest._wasAlreadyErroring) { abortRequest._reject(storedError); WritableStreamRejectCloseAndClosedPromiseIfNeeded(stream); return; } const promise = stream._writableStreamController[AbortSteps](abortRequest._reason); uponPromise(promise, () => { abortRequest._resolve(); WritableStreamRejectCloseAndClosedPromiseIfNeeded(stream); }, (reason) => { abortRequest._reject(reason); WritableStreamRejectCloseAndClosedPromiseIfNeeded(stream); }); } function WritableStreamFinishInFlightWrite(stream) { stream._inFlightWriteRequest._resolve(undefined); stream._inFlightWriteRequest = undefined; } function WritableStreamFinishInFlightWriteWithError(stream, error) { stream._inFlightWriteRequest._reject(error); stream._inFlightWriteRequest = undefined; WritableStreamDealWithRejection(stream, error); } function WritableStreamFinishInFlightClose(stream) { stream._inFlightCloseRequest._resolve(undefined); stream._inFlightCloseRequest = undefined; const state = stream._state; if (state === 'erroring') { // The error was too late to do anything, so it is ignored. stream._storedError = undefined; if (stream._pendingAbortRequest !== undefined) { stream._pendingAbortRequest._resolve(); stream._pendingAbortRequest = undefined; } } stream._state = 'closed'; const writer = stream._writer; if (writer !== undefined) { defaultWriterClosedPromiseResolve(writer); } } function WritableStreamFinishInFlightCloseWithError(stream, error) { stream._inFlightCloseRequest._reject(error); stream._inFlightCloseRequest = undefined; // Never execute sink abort() after sink close(). if (stream._pendingAbortRequest !== undefined) { stream._pendingAbortRequest._reject(error); stream._pendingAbortRequest = undefined; } WritableStreamDealWithRejection(stream, error); } // TODO(ricea): Fix alphabetical order. function WritableStreamCloseQueuedOrInFlight(stream) { if (stream._closeRequest === undefined && stream._inFlightCloseRequest === undefined) { return false; } return true; } function WritableStreamHasOperationMarkedInFlight(stream) { if (stream._inFlightWriteRequest === undefined && stream._inFlightCloseRequest === undefined) { return false; } return true; } function WritableStreamMarkCloseRequestInFlight(stream) { stream._inFlightCloseRequest = stream._closeRequest; stream._closeRequest = undefined; } function WritableStreamMarkFirstWriteRequestInFlight(stream) { stream._inFlightWriteRequest = stream._writeRequests.shift(); } function WritableStreamRejectCloseAndClosedPromiseIfNeeded(stream) { if (stream._closeRequest !== undefined) { stream._closeRequest._reject(stream._storedError); stream._closeRequest = undefined; } const writer = stream._writer; if (writer !== undefined) { defaultWriterClosedPromiseReject(writer, stream._storedError); } } function WritableStreamUpdateBackpressure(stream, backpressure) { const writer = stream._writer; if (writer !== undefined && backpressure !== stream._backpressure) { if (backpressure) { defaultWriterReadyPromiseReset(writer); } else { defaultWriterReadyPromiseResolve(writer); } } stream._backpressure = backpressure; } /** * A default writer vended by a {@link WritableStream}. * * @public */ class WritableStreamDefaultWriter { constructor(stream) { assertRequiredArgument(stream, 1, 'WritableStreamDefaultWriter'); assertWritableStream(stream, 'First parameter'); if (IsWritableStreamLocked(stream)) { throw new TypeError('This stream has already been locked for exclusive writing by another writer'); } this._ownerWritableStream = stream; stream._writer = this; const state = stream._state; if (state === 'writable') { if (!WritableStreamCloseQueuedOrInFlight(stream) && stream._backpressure) { defaultWriterReadyPromiseInitialize(this); } else { defaultWriterReadyPromiseInitializeAsResolved(this); } defaultWriterClosedPromiseInitialize(this); } else if (state === 'erroring') { defaultWriterReadyPromiseInitializeAsRejected(this, stream._storedError); defaultWriterClosedPromiseInitialize(this); } else if (state === 'closed') { defaultWriterReadyPromiseInitializeAsResolved(this); defaultWriterClosedPromiseInitializeAsResolved(this); } else { const storedError = stream._storedError; defaultWriterReadyPromiseInitializeAsRejected(this, storedError); defaultWriterClosedPromiseInitializeAsRejected(this, storedError); } } /** * Returns a promise that will be fulfilled when the stream becomes closed, or rejected if the stream ever errors or * the writer’s lock is released before the stream finishes closing. */ get closed() { if (!IsWritableStreamDefaultWriter(this)) { return promiseRejectedWith(defaultWriterBrandCheckException('closed')); } return this._closedPromise; } /** * Returns the desired size to fill the stream’s internal queue. It can be negative, if the queue is over-full. * A producer can use this information to determine the right amount of data to write. * * It will be `null` if the stream cannot be successfully written to (due to either being errored, or having an abort * queued up). It will return zero if the stream is closed. And the getter will throw an exception if invoked when * the writer’s lock is released. */ get desiredSize() { if (!IsWritableStreamDefaultWriter(this)) { throw defaultWriterBrandCheckException('desiredSize'); } if (this._ownerWritableStream === undefined) { throw defaultWriterLockException('desiredSize'); } return WritableStreamDefaultWriterGetDesiredSize(this); } /** * Returns a promise that will be fulfilled when the desired size to fill the stream’s internal queue transitions * from non-positive to positive, signaling that it is no longer applying backpressure. Once the desired size dips * back to zero or below, the getter will return a new promise that stays pending until the next transition. * * If the stream becomes errored or aborted, or the writer’s lock is released, the returned promise will become * rejected. */ get ready() { if (!IsWritableStreamDefaultWriter(this)) { return promiseRejectedWith(defaultWriterBrandCheckException('ready')); } return this._readyPromise; } /** * If the reader is active, behaves the same as {@link WritableStream.abort | stream.abort(reason)}. */ abort(reason = undefined) { if (!IsWritableStreamDefaultWriter(this)) { return promiseRejectedWith(defaultWriterBrandCheckException('abort')); } if (this._ownerWritableStream === undefined) { return promiseRejectedWith(defaultWriterLockException('abort')); } return WritableStreamDefaultWriterAbort(this, reason); } /** * If the reader is active, behaves the same as {@link WritableStream.close | stream.close()}. */ close() { if (!IsWritableStreamDefaultWriter(this)) { return promiseRejectedWith(defaultWriterBrandCheckException('close')); } const stream = this._ownerWritableStream; if (stream === undefined) { return promiseRejectedWith(defaultWriterLockException('close')); } if (WritableStreamCloseQueuedOrInFlight(stream)) { return promiseRejectedWith(new TypeError('Cannot close an already-closing stream')); } return WritableStreamDefaultWriterClose(this); } /** * Releases the writer’s lock on the corresponding stream. After the lock is released, the writer is no longer active. * If the associated stream is errored when the lock is released, the writer will appear errored in the same way from * now on; otherwise, the writer will appear closed. * * Note that the lock can still be released even if some ongoing writes have not yet finished (i.e. even if the * promises returned from previous calls to {@link WritableStreamDefaultWriter.write | write()} have not yet settled). * It’s not necessary to hold the lock on the writer for the duration of the write; the lock instead simply prevents * other producers from writing in an interleaved manner. */ releaseLock() { if (!IsWritableStreamDefaultWriter(this)) { throw defaultWriterBrandCheckException('releaseLock'); } const stream = this._ownerWritableStream; if (stream === undefined) { return; } WritableStreamDefaultWriterRelease(this); } write(chunk = undefined) { if (!IsWritableStreamDefaultWriter(this)) { return promiseRejectedWith(defaultWriterBrandCheckException('write')); } if (this._ownerWritableStream === undefined) { return promiseRejectedWith(defaultWriterLockException('write to')); } return WritableStreamDefaultWriterWrite(this, chunk); } } Object.defineProperties(WritableStreamDefaultWriter.prototype, { abort: { enumerable: true }, close: { enumerable: true }, releaseLock: { enumerable: true }, write: { enumerable: true }, closed: { enumerable: true }, desiredSize: { enumerable: true }, ready: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(WritableStreamDefaultWriter.prototype, SymbolPolyfill.toStringTag, { value: 'WritableStreamDefaultWriter', configurable: true }); } // Abstract operations for the WritableStreamDefaultWriter. function IsWritableStreamDefaultWriter(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_ownerWritableStream')) { return false; } return x instanceof WritableStreamDefaultWriter; } // A client of WritableStreamDefaultWriter may use these functions directly to bypass state check. function WritableStreamDefaultWriterAbort(writer, reason) { const stream = writer._ownerWritableStream; return WritableStreamAbort(stream, reason); } function WritableStreamDefaultWriterClose(writer) { const stream = writer._ownerWritableStream; return WritableStreamClose(stream); } function WritableStreamDefaultWriterCloseWithErrorPropagation(writer) { const stream = writer._ownerWritableStream; const state = stream._state; if (WritableStreamCloseQueuedOrInFlight(stream) || state === 'closed') { return promiseResolvedWith(undefined); } if (state === 'errored') { return promiseRejectedWith(stream._storedError); } return WritableStreamDefaultWriterClose(writer); } function WritableStreamDefaultWriterEnsureClosedPromiseRejected(writer, error) { if (writer._closedPromiseState === 'pending') { defaultWriterClosedPromiseReject(writer, error); } else { defaultWriterClosedPromiseResetToRejected(writer, error); } } function WritableStreamDefaultWriterEnsureReadyPromiseRejected(writer, error) { if (writer._readyPromiseState === 'pending') { defaultWriterReadyPromiseReject(writer, error); } else { defaultWriterReadyPromiseResetToRejected(writer, error); } } function WritableStreamDefaultWriterGetDesiredSize(writer) { const stream = writer._ownerWritableStream; const state = stream._state; if (state === 'errored' || state === 'erroring') { return null; } if (state === 'closed') { return 0; } return WritableStreamDefaultControllerGetDesiredSize(stream._writableStreamController); } function WritableStreamDefaultWriterRelease(writer) { const stream = writer._ownerWritableStream; const releasedError = new TypeError(`Writer was released and can no longer be used to monitor the stream's closedness`); WritableStreamDefaultWriterEnsureReadyPromiseRejected(writer, releasedError); // The state transitions to "errored" before the sink abort() method runs, but the writer.closed promise is not // rejected until afterwards. This means that simply testing state will not work. WritableStreamDefaultWriterEnsureClosedPromiseRejected(writer, releasedError); stream._writer = undefined; writer._ownerWritableStream = undefined; } function WritableStreamDefaultWriterWrite(writer, chunk) { const stream = writer._ownerWritableStream; const controller = stream._writableStreamController; const chunkSize = WritableStreamDefaultControllerGetChunkSize(controller, chunk); if (stream !== writer._ownerWritableStream) { return promiseRejectedWith(defaultWriterLockException('write to')); } const state = stream._state; if (state === 'errored') { return promiseRejectedWith(stream._storedError); } if (WritableStreamCloseQueuedOrInFlight(stream) || state === 'closed') { return promiseRejectedWith(new TypeError('The stream is closing or closed and cannot be written to')); } if (state === 'erroring') { return promiseRejectedWith(stream._storedError); } const promise = WritableStreamAddWriteRequest(stream); WritableStreamDefaultControllerWrite(controller, chunk, chunkSize); return promise; } const closeSentinel = {}; /** * Allows control of a {@link WritableStream | writable stream}'s state and internal queue. * * @public */ class WritableStreamDefaultController { constructor() { throw new TypeError('Illegal constructor'); } /** * The reason which was passed to `WritableStream.abort(reason)` when the stream was aborted. * * @deprecated * This property has been removed from the specification, see https://github.com/whatwg/streams/pull/1177. * Use {@link WritableStreamDefaultController.signal}'s `reason` instead. */ get abortReason() { if (!IsWritableStreamDefaultController(this)) { throw defaultControllerBrandCheckException$2('abortReason'); } return this._abortReason; } /** * An `AbortSignal` that can be used to abort the pending write or close operation when the stream is aborted. */ get signal() { if (!IsWritableStreamDefaultController(this)) { throw defaultControllerBrandCheckException$2('signal'); } if (this._abortController === undefined) { // Older browsers or older Node versions may not support `AbortController` or `AbortSignal`. // We don't want to bundle and ship an `AbortController` polyfill together with our polyfill, // so instead we only implement support for `signal` if we find a global `AbortController` constructor. throw new TypeError('WritableStreamDefaultController.prototype.signal is not supported'); } return this._abortController.signal; } /** * Closes the controlled writable stream, making all future interactions with it fail with the given error `e`. * * This method is rarely used, since usually it suffices to return a rejected promise from one of the underlying * sink's methods. However, it can be useful for suddenly shutting down a stream in response to an event outside the * normal lifecycle of interactions with the underlying sink. */ error(e = undefined) { if (!IsWritableStreamDefaultController(this)) { throw defaultControllerBrandCheckException$2('error'); } const state = this._controlledWritableStream._state; if (state !== 'writable') { // The stream is closed, errored or will be soon. The sink can't do anything useful if it gets an error here, so // just treat it as a no-op. return; } WritableStreamDefaultControllerError(this, e); } /** @internal */ [AbortSteps](reason) { const result = this._abortAlgorithm(reason); WritableStreamDefaultControllerClearAlgorithms(this); return result; } /** @internal */ [ErrorSteps]() { ResetQueue(this); } } Object.defineProperties(WritableStreamDefaultController.prototype, { abortReason: { enumerable: true }, signal: { enumerable: true }, error: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(WritableStreamDefaultController.prototype, SymbolPolyfill.toStringTag, { value: 'WritableStreamDefaultController', configurable: true }); } // Abstract operations implementing interface required by the WritableStream. function IsWritableStreamDefaultController(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_controlledWritableStream')) { return false; } return x instanceof WritableStreamDefaultController; } function SetUpWritableStreamDefaultController(stream, controller, startAlgorithm, writeAlgorithm, closeAlgorithm, abortAlgorithm, highWaterMark, sizeAlgorithm) { controller._controlledWritableStream = stream; stream._writableStreamController = controller; // Need to set the slots so that the assert doesn't fire. In the spec the slots already exist implicitly. controller._queue = undefined; controller._queueTotalSize = undefined; ResetQueue(controller); controller._abortReason = undefined; controller._abortController = createAbortController(); controller._started = false; controller._strategySizeAlgorithm = sizeAlgorithm; controller._strategyHWM = highWaterMark; controller._writeAlgorithm = writeAlgorithm; controller._closeAlgorithm = closeAlgorithm; controller._abortAlgorithm = abortAlgorithm; const backpressure = WritableStreamDefaultControllerGetBackpressure(controller); WritableStreamUpdateBackpressure(stream, backpressure); const startResult = startAlgorithm(); const startPromise = promiseResolvedWith(startResult); uponPromise(startPromise, () => { controller._started = true; WritableStreamDefaultControllerAdvanceQueueIfNeeded(controller); }, r => { controller._started = true; WritableStreamDealWithRejection(stream, r); }); } function SetUpWritableStreamDefaultControllerFromUnderlyingSink(stream, underlyingSink, highWaterMark, sizeAlgorithm) { const controller = Object.create(WritableStreamDefaultController.prototype); let startAlgorithm = () => undefined; let writeAlgorithm = () => promiseResolvedWith(undefined); let closeAlgorithm = () => promiseResolvedWith(undefined); let abortAlgorithm = () => promiseResolvedWith(undefined); if (underlyingSink.start !== undefined) { startAlgorithm = () => underlyingSink.start(controller); } if (underlyingSink.write !== undefined) { writeAlgorithm = chunk => underlyingSink.write(chunk, controller); } if (underlyingSink.close !== undefined) { closeAlgorithm = () => underlyingSink.close(); } if (underlyingSink.abort !== undefined) { abortAlgorithm = reason => underlyingSink.abort(reason); } SetUpWritableStreamDefaultController(stream, controller, startAlgorithm, writeAlgorithm, closeAlgorithm, abortAlgorithm, highWaterMark, sizeAlgorithm); } // ClearAlgorithms may be called twice. Erroring the same stream in multiple ways will often result in redundant calls. function WritableStreamDefaultControllerClearAlgorithms(controller) { controller._writeAlgorithm = undefined; controller._closeAlgorithm = undefined; controller._abortAlgorithm = undefined; controller._strategySizeAlgorithm = undefined; } function WritableStreamDefaultControllerClose(controller) { EnqueueValueWithSize(controller, closeSentinel, 0); WritableStreamDefaultControllerAdvanceQueueIfNeeded(controller); } function WritableStreamDefaultControllerGetChunkSize(controller, chunk) { try { return controller._strategySizeAlgorithm(chunk); } catch (chunkSizeE) { WritableStreamDefaultControllerErrorIfNeeded(controller, chunkSizeE); return 1; } } function WritableStreamDefaultControllerGetDesiredSize(controller) { return controller._strategyHWM - controller._queueTotalSize; } function WritableStreamDefaultControllerWrite(controller, chunk, chunkSize) { try { EnqueueValueWithSize(controller, chunk, chunkSize); } catch (enqueueE) { WritableStreamDefaultControllerErrorIfNeeded(controller, enqueueE); return; } const stream = controller._controlledWritableStream; if (!WritableStreamCloseQueuedOrInFlight(stream) && stream._state === 'writable') { const backpressure = WritableStreamDefaultControllerGetBackpressure(controller); WritableStreamUpdateBackpressure(stream, backpressure); } WritableStreamDefaultControllerAdvanceQueueIfNeeded(controller); } // Abstract operations for the WritableStreamDefaultController. function WritableStreamDefaultControllerAdvanceQueueIfNeeded(controller) { const stream = controller._controlledWritableStream; if (!controller._started) { return; } if (stream._inFlightWriteRequest !== undefined) { return; } const state = stream._state; if (state === 'erroring') { WritableStreamFinishErroring(stream); return; } if (controller._queue.length === 0) { return; } const value = PeekQueueValue(controller); if (value === closeSentinel) { WritableStreamDefaultControllerProcessClose(controller); } else { WritableStreamDefaultControllerProcessWrite(controller, value); } } function WritableStreamDefaultControllerErrorIfNeeded(controller, error) { if (controller._controlledWritableStream._state === 'writable') { WritableStreamDefaultControllerError(controller, error); } } function WritableStreamDefaultControllerProcessClose(controller) { const stream = controller._controlledWritableStream; WritableStreamMarkCloseRequestInFlight(stream); DequeueValue(controller); const sinkClosePromise = controller._closeAlgorithm(); WritableStreamDefaultControllerClearAlgorithms(controller); uponPromise(sinkClosePromise, () => { WritableStreamFinishInFlightClose(stream); }, reason => { WritableStreamFinishInFlightCloseWithError(stream, reason); }); } function WritableStreamDefaultControllerProcessWrite(controller, chunk) { const stream = controller._controlledWritableStream; WritableStreamMarkFirstWriteRequestInFlight(stream); const sinkWritePromise = controller._writeAlgorithm(chunk); uponPromise(sinkWritePromise, () => { WritableStreamFinishInFlightWrite(stream); const state = stream._state; DequeueValue(controller); if (!WritableStreamCloseQueuedOrInFlight(stream) && state === 'writable') { const backpressure = WritableStreamDefaultControllerGetBackpressure(controller); WritableStreamUpdateBackpressure(stream, backpressure); } WritableStreamDefaultControllerAdvanceQueueIfNeeded(controller); }, reason => { if (stream._state === 'writable') { WritableStreamDefaultControllerClearAlgorithms(controller); } WritableStreamFinishInFlightWriteWithError(stream, reason); }); } function WritableStreamDefaultControllerGetBackpressure(controller) { const desiredSize = WritableStreamDefaultControllerGetDesiredSize(controller); return desiredSize <= 0; } // A client of WritableStreamDefaultController may use these functions directly to bypass state check. function WritableStreamDefaultControllerError(controller, error) { const stream = controller._controlledWritableStream; WritableStreamDefaultControllerClearAlgorithms(controller); WritableStreamStartErroring(stream, error); } // Helper functions for the WritableStream. function streamBrandCheckException$2(name) { return new TypeError(`WritableStream.prototype.${name} can only be used on a WritableStream`); } // Helper functions for the WritableStreamDefaultController. function defaultControllerBrandCheckException$2(name) { return new TypeError(`WritableStreamDefaultController.prototype.${name} can only be used on a WritableStreamDefaultController`); } // Helper functions for the WritableStreamDefaultWriter. function defaultWriterBrandCheckException(name) { return new TypeError(`WritableStreamDefaultWriter.prototype.${name} can only be used on a WritableStreamDefaultWriter`); } function defaultWriterLockException(name) { return new TypeError('Cannot ' + name + ' a stream using a released writer'); } function defaultWriterClosedPromiseInitialize(writer) { writer._closedPromise = newPromise((resolve, reject) => { writer._closedPromise_resolve = resolve; writer._closedPromise_reject = reject; writer._closedPromiseState = 'pending'; }); } function defaultWriterClosedPromiseInitializeAsRejected(writer, reason) { defaultWriterClosedPromiseInitialize(writer); defaultWriterClosedPromiseReject(writer, reason); } function defaultWriterClosedPromiseInitializeAsResolved(writer) { defaultWriterClosedPromiseInitialize(writer); defaultWriterClosedPromiseResolve(writer); } function defaultWriterClosedPromiseReject(writer, reason) { if (writer._closedPromise_reject === undefined) { return; } setPromiseIsHandledToTrue(writer._closedPromise); writer._closedPromise_reject(reason); writer._closedPromise_resolve = undefined; writer._closedPromise_reject = undefined; writer._closedPromiseState = 'rejected'; } function defaultWriterClosedPromiseResetToRejected(writer, reason) { defaultWriterClosedPromiseInitializeAsRejected(writer, reason); } function defaultWriterClosedPromiseResolve(writer) { if (writer._closedPromise_resolve === undefined) { return; } writer._closedPromise_resolve(undefined); writer._closedPromise_resolve = undefined; writer._closedPromise_reject = undefined; writer._closedPromiseState = 'resolved'; } function defaultWriterReadyPromiseInitialize(writer) { writer._readyPromise = newPromise((resolve, reject) => { writer._readyPromise_resolve = resolve; writer._readyPromise_reject = reject; }); writer._readyPromiseState = 'pending'; } function defaultWriterReadyPromiseInitializeAsRejected(writer, reason) { defaultWriterReadyPromiseInitialize(writer); defaultWriterReadyPromiseReject(writer, reason); } function defaultWriterReadyPromiseInitializeAsResolved(writer) { defaultWriterReadyPromiseInitialize(writer); defaultWriterReadyPromiseResolve(writer); } function defaultWriterReadyPromiseReject(writer, reason) { if (writer._readyPromise_reject === undefined) { return; } setPromiseIsHandledToTrue(writer._readyPromise); writer._readyPromise_reject(reason); writer._readyPromise_resolve = undefined; writer._readyPromise_reject = undefined; writer._readyPromiseState = 'rejected'; } function defaultWriterReadyPromiseReset(writer) { defaultWriterReadyPromiseInitialize(writer); } function defaultWriterReadyPromiseResetToRejected(writer, reason) { defaultWriterReadyPromiseInitializeAsRejected(writer, reason); } function defaultWriterReadyPromiseResolve(writer) { if (writer._readyPromise_resolve === undefined) { return; } writer._readyPromise_resolve(undefined); writer._readyPromise_resolve = undefined; writer._readyPromise_reject = undefined; writer._readyPromiseState = 'fulfilled'; } /// const NativeDOMException = typeof DOMException !== 'undefined' ? DOMException : undefined; /// function isDOMExceptionConstructor(ctor) { if (!(typeof ctor === 'function' || typeof ctor === 'object')) { return false; } try { new ctor(); return true; } catch (_a) { return false; } } function createDOMExceptionPolyfill() { // eslint-disable-next-line no-shadow const ctor = function DOMException(message, name) { this.message = message || ''; this.name = name || 'Error'; if (Error.captureStackTrace) { Error.captureStackTrace(this, this.constructor); } }; ctor.prototype = Object.create(Error.prototype); Object.defineProperty(ctor.prototype, 'constructor', { value: ctor, writable: true, configurable: true }); return ctor; } // eslint-disable-next-line no-redeclare const DOMException$1 = isDOMExceptionConstructor(NativeDOMException) ? NativeDOMException : createDOMExceptionPolyfill(); function ReadableStreamPipeTo(source, dest, preventClose, preventAbort, preventCancel, signal) { const reader = AcquireReadableStreamDefaultReader(source); const writer = AcquireWritableStreamDefaultWriter(dest); source._disturbed = true; let shuttingDown = false; // This is used to keep track of the spec's requirement that we wait for ongoing writes during shutdown. let currentWrite = promiseResolvedWith(undefined); return newPromise((resolve, reject) => { let abortAlgorithm; if (signal !== undefined) { abortAlgorithm = () => { const error = new DOMException$1('Aborted', 'AbortError'); const actions = []; if (!preventAbort) { actions.push(() => { if (dest._state === 'writable') { return WritableStreamAbort(dest, error); } return promiseResolvedWith(undefined); }); } if (!preventCancel) { actions.push(() => { if (source._state === 'readable') { return ReadableStreamCancel(source, error); } return promiseResolvedWith(undefined); }); } shutdownWithAction(() => Promise.all(actions.map(action => action())), true, error); }; if (signal.aborted) { abortAlgorithm(); return; } signal.addEventListener('abort', abortAlgorithm); } // Using reader and writer, read all chunks from this and write them to dest // - Backpressure must be enforced // - Shutdown must stop all activity function pipeLoop() { return newPromise((resolveLoop, rejectLoop) => { function next(done) { if (done) { resolveLoop(); } else { // Use `PerformPromiseThen` instead of `uponPromise` to avoid // adding unnecessary `.catch(rethrowAssertionErrorRejection)` handlers PerformPromiseThen(pipeStep(), next, rejectLoop); } } next(false); }); } function pipeStep() { if (shuttingDown) { return promiseResolvedWith(true); } return PerformPromiseThen(writer._readyPromise, () => { return newPromise((resolveRead, rejectRead) => { ReadableStreamDefaultReaderRead(reader, { _chunkSteps: chunk => { currentWrite = PerformPromiseThen(WritableStreamDefaultWriterWrite(writer, chunk), undefined, noop); resolveRead(false); }, _closeSteps: () => resolveRead(true), _errorSteps: rejectRead }); }); }); } // Errors must be propagated forward isOrBecomesErrored(source, reader._closedPromise, storedError => { if (!preventAbort) { shutdownWithAction(() => WritableStreamAbort(dest, storedError), true, storedError); } else { shutdown(true, storedError); } }); // Errors must be propagated backward isOrBecomesErrored(dest, writer._closedPromise, storedError => { if (!preventCancel) { shutdownWithAction(() => ReadableStreamCancel(source, storedError), true, storedError); } else { shutdown(true, storedError); } }); // Closing must be propagated forward isOrBecomesClosed(source, reader._closedPromise, () => { if (!preventClose) { shutdownWithAction(() => WritableStreamDefaultWriterCloseWithErrorPropagation(writer)); } else { shutdown(); } }); // Closing must be propagated backward if (WritableStreamCloseQueuedOrInFlight(dest) || dest._state === 'closed') { const destClosed = new TypeError('the destination writable stream closed before all data could be piped to it'); if (!preventCancel) { shutdownWithAction(() => ReadableStreamCancel(source, destClosed), true, destClosed); } else { shutdown(true, destClosed); } } setPromiseIsHandledToTrue(pipeLoop()); function waitForWritesToFinish() { // Another write may have started while we were waiting on this currentWrite, so we have to be sure to wait // for that too. const oldCurrentWrite = currentWrite; return PerformPromiseThen(currentWrite, () => oldCurrentWrite !== currentWrite ? waitForWritesToFinish() : undefined); } function isOrBecomesErrored(stream, promise, action) { if (stream._state === 'errored') { action(stream._storedError); } else { uponRejection(promise, action); } } function isOrBecomesClosed(stream, promise, action) { if (stream._state === 'closed') { action(); } else { uponFulfillment(promise, action); } } function shutdownWithAction(action, originalIsError, originalError) { if (shuttingDown) { return; } shuttingDown = true; if (dest._state === 'writable' && !WritableStreamCloseQueuedOrInFlight(dest)) { uponFulfillment(waitForWritesToFinish(), doTheRest); } else { doTheRest(); } function doTheRest() { uponPromise(action(), () => finalize(originalIsError, originalError), newError => finalize(true, newError)); } } function shutdown(isError, error) { if (shuttingDown) { return; } shuttingDown = true; if (dest._state === 'writable' && !WritableStreamCloseQueuedOrInFlight(dest)) { uponFulfillment(waitForWritesToFinish(), () => finalize(isError, error)); } else { finalize(isError, error); } } function finalize(isError, error) { WritableStreamDefaultWriterRelease(writer); ReadableStreamReaderGenericRelease(reader); if (signal !== undefined) { signal.removeEventListener('abort', abortAlgorithm); } if (isError) { reject(error); } else { resolve(undefined); } } }); } /** * Allows control of a {@link ReadableStream | readable stream}'s state and internal queue. * * @public */ class ReadableStreamDefaultController { constructor() { throw new TypeError('Illegal constructor'); } /** * Returns the desired size to fill the controlled stream's internal queue. It can be negative, if the queue is * over-full. An underlying source ought to use this information to determine when and how to apply backpressure. */ get desiredSize() { if (!IsReadableStreamDefaultController(this)) { throw defaultControllerBrandCheckException$1('desiredSize'); } return ReadableStreamDefaultControllerGetDesiredSize(this); } /** * Closes the controlled readable stream. Consumers will still be able to read any previously-enqueued chunks from * the stream, but once those are read, the stream will become closed. */ close() { if (!IsReadableStreamDefaultController(this)) { throw defaultControllerBrandCheckException$1('close'); } if (!ReadableStreamDefaultControllerCanCloseOrEnqueue(this)) { throw new TypeError('The stream is not in a state that permits close'); } ReadableStreamDefaultControllerClose(this); } enqueue(chunk = undefined) { if (!IsReadableStreamDefaultController(this)) { throw defaultControllerBrandCheckException$1('enqueue'); } if (!ReadableStreamDefaultControllerCanCloseOrEnqueue(this)) { throw new TypeError('The stream is not in a state that permits enqueue'); } return ReadableStreamDefaultControllerEnqueue(this, chunk); } /** * Errors the controlled readable stream, making all future interactions with it fail with the given error `e`. */ error(e = undefined) { if (!IsReadableStreamDefaultController(this)) { throw defaultControllerBrandCheckException$1('error'); } ReadableStreamDefaultControllerError(this, e); } /** @internal */ [CancelSteps](reason) { ResetQueue(this); const result = this._cancelAlgorithm(reason); ReadableStreamDefaultControllerClearAlgorithms(this); return result; } /** @internal */ [PullSteps](readRequest) { const stream = this._controlledReadableStream; if (this._queue.length > 0) { const chunk = DequeueValue(this); if (this._closeRequested && this._queue.length === 0) { ReadableStreamDefaultControllerClearAlgorithms(this); ReadableStreamClose(stream); } else { ReadableStreamDefaultControllerCallPullIfNeeded(this); } readRequest._chunkSteps(chunk); } else { ReadableStreamAddReadRequest(stream, readRequest); ReadableStreamDefaultControllerCallPullIfNeeded(this); } } } Object.defineProperties(ReadableStreamDefaultController.prototype, { close: { enumerable: true }, enqueue: { enumerable: true }, error: { enumerable: true }, desiredSize: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(ReadableStreamDefaultController.prototype, SymbolPolyfill.toStringTag, { value: 'ReadableStreamDefaultController', configurable: true }); } // Abstract operations for the ReadableStreamDefaultController. function IsReadableStreamDefaultController(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_controlledReadableStream')) { return false; } return x instanceof ReadableStreamDefaultController; } function ReadableStreamDefaultControllerCallPullIfNeeded(controller) { const shouldPull = ReadableStreamDefaultControllerShouldCallPull(controller); if (!shouldPull) { return; } if (controller._pulling) { controller._pullAgain = true; return; } controller._pulling = true; const pullPromise = controller._pullAlgorithm(); uponPromise(pullPromise, () => { controller._pulling = false; if (controller._pullAgain) { controller._pullAgain = false; ReadableStreamDefaultControllerCallPullIfNeeded(controller); } }, e => { ReadableStreamDefaultControllerError(controller, e); }); } function ReadableStreamDefaultControllerShouldCallPull(controller) { const stream = controller._controlledReadableStream; if (!ReadableStreamDefaultControllerCanCloseOrEnqueue(controller)) { return false; } if (!controller._started) { return false; } if (IsReadableStreamLocked(stream) && ReadableStreamGetNumReadRequests(stream) > 0) { return true; } const desiredSize = ReadableStreamDefaultControllerGetDesiredSize(controller); if (desiredSize > 0) { return true; } return false; } function ReadableStreamDefaultControllerClearAlgorithms(controller) { controller._pullAlgorithm = undefined; controller._cancelAlgorithm = undefined; controller._strategySizeAlgorithm = undefined; } // A client of ReadableStreamDefaultController may use these functions directly to bypass state check. function ReadableStreamDefaultControllerClose(controller) { if (!ReadableStreamDefaultControllerCanCloseOrEnqueue(controller)) { return; } const stream = controller._controlledReadableStream; controller._closeRequested = true; if (controller._queue.length === 0) { ReadableStreamDefaultControllerClearAlgorithms(controller); ReadableStreamClose(stream); } } function ReadableStreamDefaultControllerEnqueue(controller, chunk) { if (!ReadableStreamDefaultControllerCanCloseOrEnqueue(controller)) { return; } const stream = controller._controlledReadableStream; if (IsReadableStreamLocked(stream) && ReadableStreamGetNumReadRequests(stream) > 0) { ReadableStreamFulfillReadRequest(stream, chunk, false); } else { let chunkSize; try { chunkSize = controller._strategySizeAlgorithm(chunk); } catch (chunkSizeE) { ReadableStreamDefaultControllerError(controller, chunkSizeE); throw chunkSizeE; } try { EnqueueValueWithSize(controller, chunk, chunkSize); } catch (enqueueE) { ReadableStreamDefaultControllerError(controller, enqueueE); throw enqueueE; } } ReadableStreamDefaultControllerCallPullIfNeeded(controller); } function ReadableStreamDefaultControllerError(controller, e) { const stream = controller._controlledReadableStream; if (stream._state !== 'readable') { return; } ResetQueue(controller); ReadableStreamDefaultControllerClearAlgorithms(controller); ReadableStreamError(stream, e); } function ReadableStreamDefaultControllerGetDesiredSize(controller) { const state = controller._controlledReadableStream._state; if (state === 'errored') { return null; } if (state === 'closed') { return 0; } return controller._strategyHWM - controller._queueTotalSize; } // This is used in the implementation of TransformStream. function ReadableStreamDefaultControllerHasBackpressure(controller) { if (ReadableStreamDefaultControllerShouldCallPull(controller)) { return false; } return true; } function ReadableStreamDefaultControllerCanCloseOrEnqueue(controller) { const state = controller._controlledReadableStream._state; if (!controller._closeRequested && state === 'readable') { return true; } return false; } function SetUpReadableStreamDefaultController(stream, controller, startAlgorithm, pullAlgorithm, cancelAlgorithm, highWaterMark, sizeAlgorithm) { controller._controlledReadableStream = stream; controller._queue = undefined; controller._queueTotalSize = undefined; ResetQueue(controller); controller._started = false; controller._closeRequested = false; controller._pullAgain = false; controller._pulling = false; controller._strategySizeAlgorithm = sizeAlgorithm; controller._strategyHWM = highWaterMark; controller._pullAlgorithm = pullAlgorithm; controller._cancelAlgorithm = cancelAlgorithm; stream._readableStreamController = controller; const startResult = startAlgorithm(); uponPromise(promiseResolvedWith(startResult), () => { controller._started = true; ReadableStreamDefaultControllerCallPullIfNeeded(controller); }, r => { ReadableStreamDefaultControllerError(controller, r); }); } function SetUpReadableStreamDefaultControllerFromUnderlyingSource(stream, underlyingSource, highWaterMark, sizeAlgorithm) { const controller = Object.create(ReadableStreamDefaultController.prototype); let startAlgorithm = () => undefined; let pullAlgorithm = () => promiseResolvedWith(undefined); let cancelAlgorithm = () => promiseResolvedWith(undefined); if (underlyingSource.start !== undefined) { startAlgorithm = () => underlyingSource.start(controller); } if (underlyingSource.pull !== undefined) { pullAlgorithm = () => underlyingSource.pull(controller); } if (underlyingSource.cancel !== undefined) { cancelAlgorithm = reason => underlyingSource.cancel(reason); } SetUpReadableStreamDefaultController(stream, controller, startAlgorithm, pullAlgorithm, cancelAlgorithm, highWaterMark, sizeAlgorithm); } // Helper functions for the ReadableStreamDefaultController. function defaultControllerBrandCheckException$1(name) { return new TypeError(`ReadableStreamDefaultController.prototype.${name} can only be used on a ReadableStreamDefaultController`); } function ReadableStreamTee(stream, cloneForBranch2) { if (IsReadableByteStreamController(stream._readableStreamController)) { return ReadableByteStreamTee(stream); } return ReadableStreamDefaultTee(stream); } function ReadableStreamDefaultTee(stream, cloneForBranch2) { const reader = AcquireReadableStreamDefaultReader(stream); let reading = false; let readAgain = false; let canceled1 = false; let canceled2 = false; let reason1; let reason2; let branch1; let branch2; let resolveCancelPromise; const cancelPromise = newPromise(resolve => { resolveCancelPromise = resolve; }); function pullAlgorithm() { if (reading) { readAgain = true; return promiseResolvedWith(undefined); } reading = true; const readRequest = { _chunkSteps: chunk => { // This needs to be delayed a microtask because it takes at least a microtask to detect errors (using // reader._closedPromise below), and we want errors in stream to error both branches immediately. We cannot let // successful synchronously-available reads get ahead of asynchronously-available errors. queueMicrotask(() => { readAgain = false; const chunk1 = chunk; const chunk2 = chunk; // There is no way to access the cloning code right now in the reference implementation. // If we add one then we'll need an implementation for serializable objects. // if (!canceled2 && cloneForBranch2) { // chunk2 = StructuredDeserialize(StructuredSerialize(chunk2)); // } if (!canceled1) { ReadableStreamDefaultControllerEnqueue(branch1._readableStreamController, chunk1); } if (!canceled2) { ReadableStreamDefaultControllerEnqueue(branch2._readableStreamController, chunk2); } reading = false; if (readAgain) { pullAlgorithm(); } }); }, _closeSteps: () => { reading = false; if (!canceled1) { ReadableStreamDefaultControllerClose(branch1._readableStreamController); } if (!canceled2) { ReadableStreamDefaultControllerClose(branch2._readableStreamController); } if (!canceled1 || !canceled2) { resolveCancelPromise(undefined); } }, _errorSteps: () => { reading = false; } }; ReadableStreamDefaultReaderRead(reader, readRequest); return promiseResolvedWith(undefined); } function cancel1Algorithm(reason) { canceled1 = true; reason1 = reason; if (canceled2) { const compositeReason = CreateArrayFromList([reason1, reason2]); const cancelResult = ReadableStreamCancel(stream, compositeReason); resolveCancelPromise(cancelResult); } return cancelPromise; } function cancel2Algorithm(reason) { canceled2 = true; reason2 = reason; if (canceled1) { const compositeReason = CreateArrayFromList([reason1, reason2]); const cancelResult = ReadableStreamCancel(stream, compositeReason); resolveCancelPromise(cancelResult); } return cancelPromise; } function startAlgorithm() { // do nothing } branch1 = CreateReadableStream(startAlgorithm, pullAlgorithm, cancel1Algorithm); branch2 = CreateReadableStream(startAlgorithm, pullAlgorithm, cancel2Algorithm); uponRejection(reader._closedPromise, (r) => { ReadableStreamDefaultControllerError(branch1._readableStreamController, r); ReadableStreamDefaultControllerError(branch2._readableStreamController, r); if (!canceled1 || !canceled2) { resolveCancelPromise(undefined); } }); return [branch1, branch2]; } function ReadableByteStreamTee(stream) { let reader = AcquireReadableStreamDefaultReader(stream); let reading = false; let readAgainForBranch1 = false; let readAgainForBranch2 = false; let canceled1 = false; let canceled2 = false; let reason1; let reason2; let branch1; let branch2; let resolveCancelPromise; const cancelPromise = newPromise(resolve => { resolveCancelPromise = resolve; }); function forwardReaderError(thisReader) { uponRejection(thisReader._closedPromise, r => { if (thisReader !== reader) { return; } ReadableByteStreamControllerError(branch1._readableStreamController, r); ReadableByteStreamControllerError(branch2._readableStreamController, r); if (!canceled1 || !canceled2) { resolveCancelPromise(undefined); } }); } function pullWithDefaultReader() { if (IsReadableStreamBYOBReader(reader)) { ReadableStreamReaderGenericRelease(reader); reader = AcquireReadableStreamDefaultReader(stream); forwardReaderError(reader); } const readRequest = { _chunkSteps: chunk => { // This needs to be delayed a microtask because it takes at least a microtask to detect errors (using // reader._closedPromise below), and we want errors in stream to error both branches immediately. We cannot let // successful synchronously-available reads get ahead of asynchronously-available errors. queueMicrotask(() => { readAgainForBranch1 = false; readAgainForBranch2 = false; const chunk1 = chunk; let chunk2 = chunk; if (!canceled1 && !canceled2) { try { chunk2 = CloneAsUint8Array(chunk); } catch (cloneE) { ReadableByteStreamControllerError(branch1._readableStreamController, cloneE); ReadableByteStreamControllerError(branch2._readableStreamController, cloneE); resolveCancelPromise(ReadableStreamCancel(stream, cloneE)); return; } } if (!canceled1) { ReadableByteStreamControllerEnqueue(branch1._readableStreamController, chunk1); } if (!canceled2) { ReadableByteStreamControllerEnqueue(branch2._readableStreamController, chunk2); } reading = false; if (readAgainForBranch1) { pull1Algorithm(); } else if (readAgainForBranch2) { pull2Algorithm(); } }); }, _closeSteps: () => { reading = false; if (!canceled1) { ReadableByteStreamControllerClose(branch1._readableStreamController); } if (!canceled2) { ReadableByteStreamControllerClose(branch2._readableStreamController); } if (branch1._readableStreamController._pendingPullIntos.length > 0) { ReadableByteStreamControllerRespond(branch1._readableStreamController, 0); } if (branch2._readableStreamController._pendingPullIntos.length > 0) { ReadableByteStreamControllerRespond(branch2._readableStreamController, 0); } if (!canceled1 || !canceled2) { resolveCancelPromise(undefined); } }, _errorSteps: () => { reading = false; } }; ReadableStreamDefaultReaderRead(reader, readRequest); } function pullWithBYOBReader(view, forBranch2) { if (IsReadableStreamDefaultReader(reader)) { ReadableStreamReaderGenericRelease(reader); reader = AcquireReadableStreamBYOBReader(stream); forwardReaderError(reader); } const byobBranch = forBranch2 ? branch2 : branch1; const otherBranch = forBranch2 ? branch1 : branch2; const readIntoRequest = { _chunkSteps: chunk => { // This needs to be delayed a microtask because it takes at least a microtask to detect errors (using // reader._closedPromise below), and we want errors in stream to error both branches immediately. We cannot let // successful synchronously-available reads get ahead of asynchronously-available errors. queueMicrotask(() => { readAgainForBranch1 = false; readAgainForBranch2 = false; const byobCanceled = forBranch2 ? canceled2 : canceled1; const otherCanceled = forBranch2 ? canceled1 : canceled2; if (!otherCanceled) { let clonedChunk; try { clonedChunk = CloneAsUint8Array(chunk); } catch (cloneE) { ReadableByteStreamControllerError(byobBranch._readableStreamController, cloneE); ReadableByteStreamControllerError(otherBranch._readableStreamController, cloneE); resolveCancelPromise(ReadableStreamCancel(stream, cloneE)); return; } if (!byobCanceled) { ReadableByteStreamControllerRespondWithNewView(byobBranch._readableStreamController, chunk); } ReadableByteStreamControllerEnqueue(otherBranch._readableStreamController, clonedChunk); } else if (!byobCanceled) { ReadableByteStreamControllerRespondWithNewView(byobBranch._readableStreamController, chunk); } reading = false; if (readAgainForBranch1) { pull1Algorithm(); } else if (readAgainForBranch2) { pull2Algorithm(); } }); }, _closeSteps: chunk => { reading = false; const byobCanceled = forBranch2 ? canceled2 : canceled1; const otherCanceled = forBranch2 ? canceled1 : canceled2; if (!byobCanceled) { ReadableByteStreamControllerClose(byobBranch._readableStreamController); } if (!otherCanceled) { ReadableByteStreamControllerClose(otherBranch._readableStreamController); } if (chunk !== undefined) { if (!byobCanceled) { ReadableByteStreamControllerRespondWithNewView(byobBranch._readableStreamController, chunk); } if (!otherCanceled && otherBranch._readableStreamController._pendingPullIntos.length > 0) { ReadableByteStreamControllerRespond(otherBranch._readableStreamController, 0); } } if (!byobCanceled || !otherCanceled) { resolveCancelPromise(undefined); } }, _errorSteps: () => { reading = false; } }; ReadableStreamBYOBReaderRead(reader, view, readIntoRequest); } function pull1Algorithm() { if (reading) { readAgainForBranch1 = true; return promiseResolvedWith(undefined); } reading = true; const byobRequest = ReadableByteStreamControllerGetBYOBRequest(branch1._readableStreamController); if (byobRequest === null) { pullWithDefaultReader(); } else { pullWithBYOBReader(byobRequest._view, false); } return promiseResolvedWith(undefined); } function pull2Algorithm() { if (reading) { readAgainForBranch2 = true; return promiseResolvedWith(undefined); } reading = true; const byobRequest = ReadableByteStreamControllerGetBYOBRequest(branch2._readableStreamController); if (byobRequest === null) { pullWithDefaultReader(); } else { pullWithBYOBReader(byobRequest._view, true); } return promiseResolvedWith(undefined); } function cancel1Algorithm(reason) { canceled1 = true; reason1 = reason; if (canceled2) { const compositeReason = CreateArrayFromList([reason1, reason2]); const cancelResult = ReadableStreamCancel(stream, compositeReason); resolveCancelPromise(cancelResult); } return cancelPromise; } function cancel2Algorithm(reason) { canceled2 = true; reason2 = reason; if (canceled1) { const compositeReason = CreateArrayFromList([reason1, reason2]); const cancelResult = ReadableStreamCancel(stream, compositeReason); resolveCancelPromise(cancelResult); } return cancelPromise; } function startAlgorithm() { return; } branch1 = CreateReadableByteStream(startAlgorithm, pull1Algorithm, cancel1Algorithm); branch2 = CreateReadableByteStream(startAlgorithm, pull2Algorithm, cancel2Algorithm); forwardReaderError(reader); return [branch1, branch2]; } function convertUnderlyingDefaultOrByteSource(source, context) { assertDictionary(source, context); const original = source; const autoAllocateChunkSize = original === null || original === void 0 ? void 0 : original.autoAllocateChunkSize; const cancel = original === null || original === void 0 ? void 0 : original.cancel; const pull = original === null || original === void 0 ? void 0 : original.pull; const start = original === null || original === void 0 ? void 0 : original.start; const type = original === null || original === void 0 ? void 0 : original.type; return { autoAllocateChunkSize: autoAllocateChunkSize === undefined ? undefined : convertUnsignedLongLongWithEnforceRange(autoAllocateChunkSize, `${context} has member 'autoAllocateChunkSize' that`), cancel: cancel === undefined ? undefined : convertUnderlyingSourceCancelCallback(cancel, original, `${context} has member 'cancel' that`), pull: pull === undefined ? undefined : convertUnderlyingSourcePullCallback(pull, original, `${context} has member 'pull' that`), start: start === undefined ? undefined : convertUnderlyingSourceStartCallback(start, original, `${context} has member 'start' that`), type: type === undefined ? undefined : convertReadableStreamType(type, `${context} has member 'type' that`) }; } function convertUnderlyingSourceCancelCallback(fn, original, context) { assertFunction(fn, context); return (reason) => promiseCall(fn, original, [reason]); } function convertUnderlyingSourcePullCallback(fn, original, context) { assertFunction(fn, context); return (controller) => promiseCall(fn, original, [controller]); } function convertUnderlyingSourceStartCallback(fn, original, context) { assertFunction(fn, context); return (controller) => reflectCall(fn, original, [controller]); } function convertReadableStreamType(type, context) { type = `${type}`; if (type !== 'bytes') { throw new TypeError(`${context} '${type}' is not a valid enumeration value for ReadableStreamType`); } return type; } function convertReaderOptions(options, context) { assertDictionary(options, context); const mode = options === null || options === void 0 ? void 0 : options.mode; return { mode: mode === undefined ? undefined : convertReadableStreamReaderMode(mode, `${context} has member 'mode' that`) }; } function convertReadableStreamReaderMode(mode, context) { mode = `${mode}`; if (mode !== 'byob') { throw new TypeError(`${context} '${mode}' is not a valid enumeration value for ReadableStreamReaderMode`); } return mode; } function convertIteratorOptions(options, context) { assertDictionary(options, context); const preventCancel = options === null || options === void 0 ? void 0 : options.preventCancel; return { preventCancel: Boolean(preventCancel) }; } function convertPipeOptions(options, context) { assertDictionary(options, context); const preventAbort = options === null || options === void 0 ? void 0 : options.preventAbort; const preventCancel = options === null || options === void 0 ? void 0 : options.preventCancel; const preventClose = options === null || options === void 0 ? void 0 : options.preventClose; const signal = options === null || options === void 0 ? void 0 : options.signal; if (signal !== undefined) { assertAbortSignal(signal, `${context} has member 'signal' that`); } return { preventAbort: Boolean(preventAbort), preventCancel: Boolean(preventCancel), preventClose: Boolean(preventClose), signal }; } function assertAbortSignal(signal, context) { if (!isAbortSignal(signal)) { throw new TypeError(`${context} is not an AbortSignal.`); } } function convertReadableWritablePair(pair, context) { assertDictionary(pair, context); const readable = pair === null || pair === void 0 ? void 0 : pair.readable; assertRequiredField(readable, 'readable', 'ReadableWritablePair'); assertReadableStream(readable, `${context} has member 'readable' that`); const writable = pair === null || pair === void 0 ? void 0 : pair.writable; assertRequiredField(writable, 'writable', 'ReadableWritablePair'); assertWritableStream(writable, `${context} has member 'writable' that`); return { readable, writable }; } /** * A readable stream represents a source of data, from which you can read. * * @public */ class ReadableStream { constructor(rawUnderlyingSource = {}, rawStrategy = {}) { if (rawUnderlyingSource === undefined) { rawUnderlyingSource = null; } else { assertObject(rawUnderlyingSource, 'First parameter'); } const strategy = convertQueuingStrategy(rawStrategy, 'Second parameter'); const underlyingSource = convertUnderlyingDefaultOrByteSource(rawUnderlyingSource, 'First parameter'); InitializeReadableStream(this); if (underlyingSource.type === 'bytes') { if (strategy.size !== undefined) { throw new RangeError('The strategy for a byte stream cannot have a size function'); } const highWaterMark = ExtractHighWaterMark(strategy, 0); SetUpReadableByteStreamControllerFromUnderlyingSource(this, underlyingSource, highWaterMark); } else { const sizeAlgorithm = ExtractSizeAlgorithm(strategy); const highWaterMark = ExtractHighWaterMark(strategy, 1); SetUpReadableStreamDefaultControllerFromUnderlyingSource(this, underlyingSource, highWaterMark, sizeAlgorithm); } } /** * Whether or not the readable stream is locked to a {@link ReadableStreamDefaultReader | reader}. */ get locked() { if (!IsReadableStream(this)) { throw streamBrandCheckException$1('locked'); } return IsReadableStreamLocked(this); } /** * Cancels the stream, signaling a loss of interest in the stream by a consumer. * * The supplied `reason` argument will be given to the underlying source's {@link UnderlyingSource.cancel | cancel()} * method, which might or might not use it. */ cancel(reason = undefined) { if (!IsReadableStream(this)) { return promiseRejectedWith(streamBrandCheckException$1('cancel')); } if (IsReadableStreamLocked(this)) { return promiseRejectedWith(new TypeError('Cannot cancel a stream that already has a reader')); } return ReadableStreamCancel(this, reason); } getReader(rawOptions = undefined) { if (!IsReadableStream(this)) { throw streamBrandCheckException$1('getReader'); } const options = convertReaderOptions(rawOptions, 'First parameter'); if (options.mode === undefined) { return AcquireReadableStreamDefaultReader(this); } return AcquireReadableStreamBYOBReader(this); } pipeThrough(rawTransform, rawOptions = {}) { if (!IsReadableStream(this)) { throw streamBrandCheckException$1('pipeThrough'); } assertRequiredArgument(rawTransform, 1, 'pipeThrough'); const transform = convertReadableWritablePair(rawTransform, 'First parameter'); const options = convertPipeOptions(rawOptions, 'Second parameter'); if (IsReadableStreamLocked(this)) { throw new TypeError('ReadableStream.prototype.pipeThrough cannot be used on a locked ReadableStream'); } if (IsWritableStreamLocked(transform.writable)) { throw new TypeError('ReadableStream.prototype.pipeThrough cannot be used on a locked WritableStream'); } const promise = ReadableStreamPipeTo(this, transform.writable, options.preventClose, options.preventAbort, options.preventCancel, options.signal); setPromiseIsHandledToTrue(promise); return transform.readable; } pipeTo(destination, rawOptions = {}) { if (!IsReadableStream(this)) { return promiseRejectedWith(streamBrandCheckException$1('pipeTo')); } if (destination === undefined) { return promiseRejectedWith(`Parameter 1 is required in 'pipeTo'.`); } if (!IsWritableStream(destination)) { return promiseRejectedWith(new TypeError(`ReadableStream.prototype.pipeTo's first argument must be a WritableStream`)); } let options; try { options = convertPipeOptions(rawOptions, 'Second parameter'); } catch (e) { return promiseRejectedWith(e); } if (IsReadableStreamLocked(this)) { return promiseRejectedWith(new TypeError('ReadableStream.prototype.pipeTo cannot be used on a locked ReadableStream')); } if (IsWritableStreamLocked(destination)) { return promiseRejectedWith(new TypeError('ReadableStream.prototype.pipeTo cannot be used on a locked WritableStream')); } return ReadableStreamPipeTo(this, destination, options.preventClose, options.preventAbort, options.preventCancel, options.signal); } /** * Tees this readable stream, returning a two-element array containing the two resulting branches as * new {@link ReadableStream} instances. * * Teeing a stream will lock it, preventing any other consumer from acquiring a reader. * To cancel the stream, cancel both of the resulting branches; a composite cancellation reason will then be * propagated to the stream's underlying source. * * Note that the chunks seen in each branch will be the same object. If the chunks are not immutable, * this could allow interference between the two branches. */ tee() { if (!IsReadableStream(this)) { throw streamBrandCheckException$1('tee'); } const branches = ReadableStreamTee(this); return CreateArrayFromList(branches); } values(rawOptions = undefined) { if (!IsReadableStream(this)) { throw streamBrandCheckException$1('values'); } const options = convertIteratorOptions(rawOptions, 'First parameter'); return AcquireReadableStreamAsyncIterator(this, options.preventCancel); } } Object.defineProperties(ReadableStream.prototype, { cancel: { enumerable: true }, getReader: { enumerable: true }, pipeThrough: { enumerable: true }, pipeTo: { enumerable: true }, tee: { enumerable: true }, values: { enumerable: true }, locked: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(ReadableStream.prototype, SymbolPolyfill.toStringTag, { value: 'ReadableStream', configurable: true }); } if (typeof SymbolPolyfill.asyncIterator === 'symbol') { Object.defineProperty(ReadableStream.prototype, SymbolPolyfill.asyncIterator, { value: ReadableStream.prototype.values, writable: true, configurable: true }); } // Abstract operations for the ReadableStream. // Throws if and only if startAlgorithm throws. function CreateReadableStream(startAlgorithm, pullAlgorithm, cancelAlgorithm, highWaterMark = 1, sizeAlgorithm = () => 1) { const stream = Object.create(ReadableStream.prototype); InitializeReadableStream(stream); const controller = Object.create(ReadableStreamDefaultController.prototype); SetUpReadableStreamDefaultController(stream, controller, startAlgorithm, pullAlgorithm, cancelAlgorithm, highWaterMark, sizeAlgorithm); return stream; } // Throws if and only if startAlgorithm throws. function CreateReadableByteStream(startAlgorithm, pullAlgorithm, cancelAlgorithm) { const stream = Object.create(ReadableStream.prototype); InitializeReadableStream(stream); const controller = Object.create(ReadableByteStreamController.prototype); SetUpReadableByteStreamController(stream, controller, startAlgorithm, pullAlgorithm, cancelAlgorithm, 0, undefined); return stream; } function InitializeReadableStream(stream) { stream._state = 'readable'; stream._reader = undefined; stream._storedError = undefined; stream._disturbed = false; } function IsReadableStream(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_readableStreamController')) { return false; } return x instanceof ReadableStream; } function IsReadableStreamLocked(stream) { if (stream._reader === undefined) { return false; } return true; } // ReadableStream API exposed for controllers. function ReadableStreamCancel(stream, reason) { stream._disturbed = true; if (stream._state === 'closed') { return promiseResolvedWith(undefined); } if (stream._state === 'errored') { return promiseRejectedWith(stream._storedError); } ReadableStreamClose(stream); const reader = stream._reader; if (reader !== undefined && IsReadableStreamBYOBReader(reader)) { reader._readIntoRequests.forEach(readIntoRequest => { readIntoRequest._closeSteps(undefined); }); reader._readIntoRequests = new SimpleQueue(); } const sourceCancelPromise = stream._readableStreamController[CancelSteps](reason); return transformPromiseWith(sourceCancelPromise, noop); } function ReadableStreamClose(stream) { stream._state = 'closed'; const reader = stream._reader; if (reader === undefined) { return; } defaultReaderClosedPromiseResolve(reader); if (IsReadableStreamDefaultReader(reader)) { reader._readRequests.forEach(readRequest => { readRequest._closeSteps(); }); reader._readRequests = new SimpleQueue(); } } function ReadableStreamError(stream, e) { stream._state = 'errored'; stream._storedError = e; const reader = stream._reader; if (reader === undefined) { return; } defaultReaderClosedPromiseReject(reader, e); if (IsReadableStreamDefaultReader(reader)) { reader._readRequests.forEach(readRequest => { readRequest._errorSteps(e); }); reader._readRequests = new SimpleQueue(); } else { reader._readIntoRequests.forEach(readIntoRequest => { readIntoRequest._errorSteps(e); }); reader._readIntoRequests = new SimpleQueue(); } } // Helper functions for the ReadableStream. function streamBrandCheckException$1(name) { return new TypeError(`ReadableStream.prototype.${name} can only be used on a ReadableStream`); } function convertQueuingStrategyInit(init, context) { assertDictionary(init, context); const highWaterMark = init === null || init === void 0 ? void 0 : init.highWaterMark; assertRequiredField(highWaterMark, 'highWaterMark', 'QueuingStrategyInit'); return { highWaterMark: convertUnrestrictedDouble(highWaterMark) }; } // The size function must not have a prototype property nor be a constructor const byteLengthSizeFunction = (chunk) => { return chunk.byteLength; }; try { Object.defineProperty(byteLengthSizeFunction, 'name', { value: 'size', configurable: true }); } catch (_a) { // This property is non-configurable in older browsers, so ignore if this throws. // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Function/name#browser_compatibility } /** * A queuing strategy that counts the number of bytes in each chunk. * * @public */ class ByteLengthQueuingStrategy { constructor(options) { assertRequiredArgument(options, 1, 'ByteLengthQueuingStrategy'); options = convertQueuingStrategyInit(options, 'First parameter'); this._byteLengthQueuingStrategyHighWaterMark = options.highWaterMark; } /** * Returns the high water mark provided to the constructor. */ get highWaterMark() { if (!IsByteLengthQueuingStrategy(this)) { throw byteLengthBrandCheckException('highWaterMark'); } return this._byteLengthQueuingStrategyHighWaterMark; } /** * Measures the size of `chunk` by returning the value of its `byteLength` property. */ get size() { if (!IsByteLengthQueuingStrategy(this)) { throw byteLengthBrandCheckException('size'); } return byteLengthSizeFunction; } } Object.defineProperties(ByteLengthQueuingStrategy.prototype, { highWaterMark: { enumerable: true }, size: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(ByteLengthQueuingStrategy.prototype, SymbolPolyfill.toStringTag, { value: 'ByteLengthQueuingStrategy', configurable: true }); } // Helper functions for the ByteLengthQueuingStrategy. function byteLengthBrandCheckException(name) { return new TypeError(`ByteLengthQueuingStrategy.prototype.${name} can only be used on a ByteLengthQueuingStrategy`); } function IsByteLengthQueuingStrategy(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_byteLengthQueuingStrategyHighWaterMark')) { return false; } return x instanceof ByteLengthQueuingStrategy; } // The size function must not have a prototype property nor be a constructor const countSizeFunction = () => { return 1; }; try { Object.defineProperty(countSizeFunction, 'name', { value: 'size', configurable: true }); } catch (_a) { // This property is non-configurable in older browsers, so ignore if this throws. // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Function/name#browser_compatibility } /** * A queuing strategy that counts the number of chunks. * * @public */ class CountQueuingStrategy { constructor(options) { assertRequiredArgument(options, 1, 'CountQueuingStrategy'); options = convertQueuingStrategyInit(options, 'First parameter'); this._countQueuingStrategyHighWaterMark = options.highWaterMark; } /** * Returns the high water mark provided to the constructor. */ get highWaterMark() { if (!IsCountQueuingStrategy(this)) { throw countBrandCheckException('highWaterMark'); } return this._countQueuingStrategyHighWaterMark; } /** * Measures the size of `chunk` by always returning 1. * This ensures that the total queue size is a count of the number of chunks in the queue. */ get size() { if (!IsCountQueuingStrategy(this)) { throw countBrandCheckException('size'); } return countSizeFunction; } } Object.defineProperties(CountQueuingStrategy.prototype, { highWaterMark: { enumerable: true }, size: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(CountQueuingStrategy.prototype, SymbolPolyfill.toStringTag, { value: 'CountQueuingStrategy', configurable: true }); } // Helper functions for the CountQueuingStrategy. function countBrandCheckException(name) { return new TypeError(`CountQueuingStrategy.prototype.${name} can only be used on a CountQueuingStrategy`); } function IsCountQueuingStrategy(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_countQueuingStrategyHighWaterMark')) { return false; } return x instanceof CountQueuingStrategy; } function convertTransformer(original, context) { assertDictionary(original, context); const flush = original === null || original === void 0 ? void 0 : original.flush; const readableType = original === null || original === void 0 ? void 0 : original.readableType; const start = original === null || original === void 0 ? void 0 : original.start; const transform = original === null || original === void 0 ? void 0 : original.transform; const writableType = original === null || original === void 0 ? void 0 : original.writableType; return { flush: flush === undefined ? undefined : convertTransformerFlushCallback(flush, original, `${context} has member 'flush' that`), readableType, start: start === undefined ? undefined : convertTransformerStartCallback(start, original, `${context} has member 'start' that`), transform: transform === undefined ? undefined : convertTransformerTransformCallback(transform, original, `${context} has member 'transform' that`), writableType }; } function convertTransformerFlushCallback(fn, original, context) { assertFunction(fn, context); return (controller) => promiseCall(fn, original, [controller]); } function convertTransformerStartCallback(fn, original, context) { assertFunction(fn, context); return (controller) => reflectCall(fn, original, [controller]); } function convertTransformerTransformCallback(fn, original, context) { assertFunction(fn, context); return (chunk, controller) => promiseCall(fn, original, [chunk, controller]); } // Class TransformStream /** * A transform stream consists of a pair of streams: a {@link WritableStream | writable stream}, * known as its writable side, and a {@link ReadableStream | readable stream}, known as its readable side. * In a manner specific to the transform stream in question, writes to the writable side result in new data being * made available for reading from the readable side. * * @public */ class TransformStream { constructor(rawTransformer = {}, rawWritableStrategy = {}, rawReadableStrategy = {}) { if (rawTransformer === undefined) { rawTransformer = null; } const writableStrategy = convertQueuingStrategy(rawWritableStrategy, 'Second parameter'); const readableStrategy = convertQueuingStrategy(rawReadableStrategy, 'Third parameter'); const transformer = convertTransformer(rawTransformer, 'First parameter'); if (transformer.readableType !== undefined) { throw new RangeError('Invalid readableType specified'); } if (transformer.writableType !== undefined) { throw new RangeError('Invalid writableType specified'); } const readableHighWaterMark = ExtractHighWaterMark(readableStrategy, 0); const readableSizeAlgorithm = ExtractSizeAlgorithm(readableStrategy); const writableHighWaterMark = ExtractHighWaterMark(writableStrategy, 1); const writableSizeAlgorithm = ExtractSizeAlgorithm(writableStrategy); let startPromise_resolve; const startPromise = newPromise(resolve => { startPromise_resolve = resolve; }); InitializeTransformStream(this, startPromise, writableHighWaterMark, writableSizeAlgorithm, readableHighWaterMark, readableSizeAlgorithm); SetUpTransformStreamDefaultControllerFromTransformer(this, transformer); if (transformer.start !== undefined) { startPromise_resolve(transformer.start(this._transformStreamController)); } else { startPromise_resolve(undefined); } } /** * The readable side of the transform stream. */ get readable() { if (!IsTransformStream(this)) { throw streamBrandCheckException('readable'); } return this._readable; } /** * The writable side of the transform stream. */ get writable() { if (!IsTransformStream(this)) { throw streamBrandCheckException('writable'); } return this._writable; } } Object.defineProperties(TransformStream.prototype, { readable: { enumerable: true }, writable: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(TransformStream.prototype, SymbolPolyfill.toStringTag, { value: 'TransformStream', configurable: true }); } function InitializeTransformStream(stream, startPromise, writableHighWaterMark, writableSizeAlgorithm, readableHighWaterMark, readableSizeAlgorithm) { function startAlgorithm() { return startPromise; } function writeAlgorithm(chunk) { return TransformStreamDefaultSinkWriteAlgorithm(stream, chunk); } function abortAlgorithm(reason) { return TransformStreamDefaultSinkAbortAlgorithm(stream, reason); } function closeAlgorithm() { return TransformStreamDefaultSinkCloseAlgorithm(stream); } stream._writable = CreateWritableStream(startAlgorithm, writeAlgorithm, closeAlgorithm, abortAlgorithm, writableHighWaterMark, writableSizeAlgorithm); function pullAlgorithm() { return TransformStreamDefaultSourcePullAlgorithm(stream); } function cancelAlgorithm(reason) { TransformStreamErrorWritableAndUnblockWrite(stream, reason); return promiseResolvedWith(undefined); } stream._readable = CreateReadableStream(startAlgorithm, pullAlgorithm, cancelAlgorithm, readableHighWaterMark, readableSizeAlgorithm); // The [[backpressure]] slot is set to undefined so that it can be initialised by TransformStreamSetBackpressure. stream._backpressure = undefined; stream._backpressureChangePromise = undefined; stream._backpressureChangePromise_resolve = undefined; TransformStreamSetBackpressure(stream, true); stream._transformStreamController = undefined; } function IsTransformStream(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_transformStreamController')) { return false; } return x instanceof TransformStream; } // This is a no-op if both sides are already errored. function TransformStreamError(stream, e) { ReadableStreamDefaultControllerError(stream._readable._readableStreamController, e); TransformStreamErrorWritableAndUnblockWrite(stream, e); } function TransformStreamErrorWritableAndUnblockWrite(stream, e) { TransformStreamDefaultControllerClearAlgorithms(stream._transformStreamController); WritableStreamDefaultControllerErrorIfNeeded(stream._writable._writableStreamController, e); if (stream._backpressure) { // Pretend that pull() was called to permit any pending write() calls to complete. TransformStreamSetBackpressure() // cannot be called from enqueue() or pull() once the ReadableStream is errored, so this will will be the final time // _backpressure is set. TransformStreamSetBackpressure(stream, false); } } function TransformStreamSetBackpressure(stream, backpressure) { // Passes also when called during construction. if (stream._backpressureChangePromise !== undefined) { stream._backpressureChangePromise_resolve(); } stream._backpressureChangePromise = newPromise(resolve => { stream._backpressureChangePromise_resolve = resolve; }); stream._backpressure = backpressure; } // Class TransformStreamDefaultController /** * Allows control of the {@link ReadableStream} and {@link WritableStream} of the associated {@link TransformStream}. * * @public */ class TransformStreamDefaultController { constructor() { throw new TypeError('Illegal constructor'); } /** * Returns the desired size to fill the readable side’s internal queue. It can be negative, if the queue is over-full. */ get desiredSize() { if (!IsTransformStreamDefaultController(this)) { throw defaultControllerBrandCheckException('desiredSize'); } const readableController = this._controlledTransformStream._readable._readableStreamController; return ReadableStreamDefaultControllerGetDesiredSize(readableController); } enqueue(chunk = undefined) { if (!IsTransformStreamDefaultController(this)) { throw defaultControllerBrandCheckException('enqueue'); } TransformStreamDefaultControllerEnqueue(this, chunk); } /** * Errors both the readable side and the writable side of the controlled transform stream, making all future * interactions with it fail with the given error `e`. Any chunks queued for transformation will be discarded. */ error(reason = undefined) { if (!IsTransformStreamDefaultController(this)) { throw defaultControllerBrandCheckException('error'); } TransformStreamDefaultControllerError(this, reason); } /** * Closes the readable side and errors the writable side of the controlled transform stream. This is useful when the * transformer only needs to consume a portion of the chunks written to the writable side. */ terminate() { if (!IsTransformStreamDefaultController(this)) { throw defaultControllerBrandCheckException('terminate'); } TransformStreamDefaultControllerTerminate(this); } } Object.defineProperties(TransformStreamDefaultController.prototype, { enqueue: { enumerable: true }, error: { enumerable: true }, terminate: { enumerable: true }, desiredSize: { enumerable: true } }); if (typeof SymbolPolyfill.toStringTag === 'symbol') { Object.defineProperty(TransformStreamDefaultController.prototype, SymbolPolyfill.toStringTag, { value: 'TransformStreamDefaultController', configurable: true }); } // Transform Stream Default Controller Abstract Operations function IsTransformStreamDefaultController(x) { if (!typeIsObject(x)) { return false; } if (!Object.prototype.hasOwnProperty.call(x, '_controlledTransformStream')) { return false; } return x instanceof TransformStreamDefaultController; } function SetUpTransformStreamDefaultController(stream, controller, transformAlgorithm, flushAlgorithm) { controller._controlledTransformStream = stream; stream._transformStreamController = controller; controller._transformAlgorithm = transformAlgorithm; controller._flushAlgorithm = flushAlgorithm; } function SetUpTransformStreamDefaultControllerFromTransformer(stream, transformer) { const controller = Object.create(TransformStreamDefaultController.prototype); let transformAlgorithm = (chunk) => { try { TransformStreamDefaultControllerEnqueue(controller, chunk); return promiseResolvedWith(undefined); } catch (transformResultE) { return promiseRejectedWith(transformResultE); } }; let flushAlgorithm = () => promiseResolvedWith(undefined); if (transformer.transform !== undefined) { transformAlgorithm = chunk => transformer.transform(chunk, controller); } if (transformer.flush !== undefined) { flushAlgorithm = () => transformer.flush(controller); } SetUpTransformStreamDefaultController(stream, controller, transformAlgorithm, flushAlgorithm); } function TransformStreamDefaultControllerClearAlgorithms(controller) { controller._transformAlgorithm = undefined; controller._flushAlgorithm = undefined; } function TransformStreamDefaultControllerEnqueue(controller, chunk) { const stream = controller._controlledTransformStream; const readableController = stream._readable._readableStreamController; if (!ReadableStreamDefaultControllerCanCloseOrEnqueue(readableController)) { throw new TypeError('Readable side is not in a state that permits enqueue'); } // We throttle transform invocations based on the backpressure of the ReadableStream, but we still // accept TransformStreamDefaultControllerEnqueue() calls. try { ReadableStreamDefaultControllerEnqueue(readableController, chunk); } catch (e) { // This happens when readableStrategy.size() throws. TransformStreamErrorWritableAndUnblockWrite(stream, e); throw stream._readable._storedError; } const backpressure = ReadableStreamDefaultControllerHasBackpressure(readableController); if (backpressure !== stream._backpressure) { TransformStreamSetBackpressure(stream, true); } } function TransformStreamDefaultControllerError(controller, e) { TransformStreamError(controller._controlledTransformStream, e); } function TransformStreamDefaultControllerPerformTransform(controller, chunk) { const transformPromise = controller._transformAlgorithm(chunk); return transformPromiseWith(transformPromise, undefined, r => { TransformStreamError(controller._controlledTransformStream, r); throw r; }); } function TransformStreamDefaultControllerTerminate(controller) { const stream = controller._controlledTransformStream; const readableController = stream._readable._readableStreamController; ReadableStreamDefaultControllerClose(readableController); const error = new TypeError('TransformStream terminated'); TransformStreamErrorWritableAndUnblockWrite(stream, error); } // TransformStreamDefaultSink Algorithms function TransformStreamDefaultSinkWriteAlgorithm(stream, chunk) { const controller = stream._transformStreamController; if (stream._backpressure) { const backpressureChangePromise = stream._backpressureChangePromise; return transformPromiseWith(backpressureChangePromise, () => { const writable = stream._writable; const state = writable._state; if (state === 'erroring') { throw writable._storedError; } return TransformStreamDefaultControllerPerformTransform(controller, chunk); }); } return TransformStreamDefaultControllerPerformTransform(controller, chunk); } function TransformStreamDefaultSinkAbortAlgorithm(stream, reason) { // abort() is not called synchronously, so it is possible for abort() to be called when the stream is already // errored. TransformStreamError(stream, reason); return promiseResolvedWith(undefined); } function TransformStreamDefaultSinkCloseAlgorithm(stream) { // stream._readable cannot change after construction, so caching it across a call to user code is safe. const readable = stream._readable; const controller = stream._transformStreamController; const flushPromise = controller._flushAlgorithm(); TransformStreamDefaultControllerClearAlgorithms(controller); // Return a promise that is fulfilled with undefined on success. return transformPromiseWith(flushPromise, () => { if (readable._state === 'errored') { throw readable._storedError; } ReadableStreamDefaultControllerClose(readable._readableStreamController); }, r => { TransformStreamError(stream, r); throw readable._storedError; }); } // TransformStreamDefaultSource Algorithms function TransformStreamDefaultSourcePullAlgorithm(stream) { // Invariant. Enforced by the promises returned by start() and pull(). TransformStreamSetBackpressure(stream, false); // Prevent the next pull() call until there is backpressure. return stream._backpressureChangePromise; } // Helper functions for the TransformStreamDefaultController. function defaultControllerBrandCheckException(name) { return new TypeError(`TransformStreamDefaultController.prototype.${name} can only be used on a TransformStreamDefaultController`); } // Helper functions for the TransformStream. function streamBrandCheckException(name) { return new TypeError(`TransformStream.prototype.${name} can only be used on a TransformStream`); } exports.ByteLengthQueuingStrategy = ByteLengthQueuingStrategy; exports.CountQueuingStrategy = CountQueuingStrategy; exports.ReadableByteStreamController = ReadableByteStreamController; exports.ReadableStream = ReadableStream; exports.ReadableStreamBYOBReader = ReadableStreamBYOBReader; exports.ReadableStreamBYOBRequest = ReadableStreamBYOBRequest; exports.ReadableStreamDefaultController = ReadableStreamDefaultController; exports.ReadableStreamDefaultReader = ReadableStreamDefaultReader; exports.TransformStream = TransformStream; exports.TransformStreamDefaultController = TransformStreamDefaultController; exports.WritableStream = WritableStream; exports.WritableStreamDefaultController = WritableStreamDefaultController; exports.WritableStreamDefaultWriter = WritableStreamDefaultWriter; Object.defineProperty(exports, '__esModule', { value: true }); }))); //# sourceMappingURL=ponyfill.es2018.js.map /***/ }), /***/ 9047: /***/ ((__unused_webpack_module, exports, __nccwpck_require__) => { "use strict"; Object.defineProperty(exports, "__esModule", ({ value: true })); exports.http = void 0; const fetch = __nccwpck_require__(4429); var https = __nccwpck_require__(5687); class Http { make(url, headers, body, ignoreCertificate) { return new Promise((resolve, reject) => { fetch(url, this.getOptions('post', headers, body, ignoreCertificate)).then((res) => resolve(res)); }); } getOptions(method, headers, body, ignoreCertificate) { const options = { headers: headers ? JSON.parse(headers) : {}, method }; if (body) { options.body = body; } if (ignoreCertificate) { options.agent = new https.Agent({ rejectUnauthorized: false }); } options.headers['content-type'] = 'application/json'; return options; } } exports.http = new Http(); /***/ }), /***/ 399: /***/ (function(__unused_webpack_module, exports, __nccwpck_require__) { "use strict"; 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 })); const core = __nccwpck_require__(2186); const http_1 = __nccwpck_require__(9047); function run() { return __awaiter(this, void 0, void 0, function* () { const url = core.getInput('url') ? core.getInput('url') : process.env.WEBHOOK_URL ? process.env.WEBHOOK_URL : ''; const headers = core.getInput('headers') ? core.getInput('headers') : process.env.headers ? process.env.headers : null; const body = core.getInput('body') ? core.getInput('body') : process.env.data ? process.env.data : null; const insecure = core.getInput('insecure') ? core.getInput('insecure') == 'true' : process.env.insecure ? process.env.insecure == 'true' : false; if (!url) { core.setFailed('A url is required to run this action.'); throw new Error('A url is required to run this action.'); } core.info(`Sending webhook request to ${url}`); http_1.http .make(url, headers, body, insecure) .then(res => { if (res.status >= 400) { error(res.status); return; } }) .catch(err => { core.info(`Error: ${err}`); error(err.status); return; }); }); } function error(statusCode) { core.setFailed(`Received status code: ${statusCode}`); throw new Error(`Request failed with status code: ${statusCode}`); } run(); /***/ }), /***/ 9491: /***/ ((module) => { "use strict"; module.exports = require("assert"); /***/ }), /***/ 4300: /***/ ((module) => { "use strict"; module.exports = require("buffer"); /***/ }), /***/ 6113: /***/ ((module) => { "use strict"; module.exports = require("crypto"); /***/ }), /***/ 2361: /***/ ((module) => { "use strict"; module.exports = require("events"); /***/ }), /***/ 7147: /***/ ((module) => { "use strict"; module.exports = require("fs"); /***/ }), /***/ 3685: /***/ ((module) => { "use strict"; module.exports = require("http"); /***/ }), /***/ 5687: /***/ ((module) => { "use strict"; module.exports = require("https"); /***/ }), /***/ 1808: /***/ ((module) => { "use strict"; module.exports = require("net"); /***/ }), /***/ 7742: /***/ ((module) => { "use strict"; module.exports = require("node:process"); /***/ }), /***/ 2477: /***/ ((module) => { "use strict"; module.exports = require("node:stream/web"); /***/ }), /***/ 2037: /***/ ((module) => { "use strict"; module.exports = require("os"); /***/ }), /***/ 1017: /***/ ((module) => { "use strict"; module.exports = require("path"); /***/ }), /***/ 4404: /***/ ((module) => { "use strict"; module.exports = require("tls"); /***/ }), /***/ 3837: /***/ ((module) => { "use strict"; module.exports = require("util"); /***/ }), /***/ 1267: /***/ ((module) => { "use strict"; module.exports = require("worker_threads"); /***/ }), /***/ 8572: /***/ ((__unused_webpack_module, __unused_webpack_exports, __nccwpck_require__) => { /* c8 ignore start */ // 64 KiB (same size chrome slice theirs blob into Uint8array's) const POOL_SIZE = 65536 if (!globalThis.ReadableStream) { // `node:stream/web` got introduced in v16.5.0 as experimental // and it's preferred over the polyfilled version. So we also // suppress the warning that gets emitted by NodeJS for using it. try { const process = __nccwpck_require__(7742) const { emitWarning } = process try { process.emitWarning = () => {} Object.assign(globalThis, __nccwpck_require__(2477)) process.emitWarning = emitWarning } catch (error) { process.emitWarning = emitWarning throw error } } catch (error) { // fallback to polyfill implementation Object.assign(globalThis, __nccwpck_require__(1452)) } } try { // Don't use node: prefix for this, require+node: is not supported until node v14.14 // Only `import()` can use prefix in 12.20 and later const { Blob } = __nccwpck_require__(4300) if (Blob && !Blob.prototype.stream) { Blob.prototype.stream = function name (params) { let position = 0 const blob = this return new ReadableStream({ type: 'bytes', async pull (ctrl) { const chunk = blob.slice(position, Math.min(blob.size, position + POOL_SIZE)) const buffer = await chunk.arrayBuffer() position += buffer.byteLength ctrl.enqueue(new Uint8Array(buffer)) if (position === blob.size) { ctrl.close() } } }) } } } catch (error) {} /* c8 ignore end */ /***/ }), /***/ 3213: /***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __nccwpck_require__) => { "use strict"; /* harmony export */ __nccwpck_require__.d(__webpack_exports__, { /* harmony export */ "Z": () => (__WEBPACK_DEFAULT_EXPORT__) /* harmony export */ }); /* unused harmony export File */ /* harmony import */ var _index_js__WEBPACK_IMPORTED_MODULE_0__ = __nccwpck_require__(1410); const _File = class File extends _index_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z { #lastModified = 0 #name = '' /** * @param {*[]} fileBits * @param {string} fileName * @param {{lastModified?: number, type?: string}} options */// @ts-ignore constructor (fileBits, fileName, options = {}) { if (arguments.length < 2) { throw new TypeError(`Failed to construct 'File': 2 arguments required, but only ${arguments.length} present.`) } super(fileBits, options) if (options === null) options = {} // Simulate WebIDL type casting for NaN value in lastModified option. const lastModified = options.lastModified === undefined ? Date.now() : Number(options.lastModified) if (!Number.isNaN(lastModified)) { this.#lastModified = lastModified } this.#name = String(fileName) } get name () { return this.#name } get lastModified () { return this.#lastModified } get [Symbol.toStringTag] () { return 'File' } static [Symbol.hasInstance] (object) { return !!object && object instanceof _index_js__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z && /^(File)$/.test(object[Symbol.toStringTag]) } } /** @type {typeof globalThis.File} */// @ts-ignore const File = _File /* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (File); /***/ }), /***/ 2777: /***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __nccwpck_require__) => { "use strict"; // EXPORTS __nccwpck_require__.d(__webpack_exports__, { "t6": () => (/* reexport */ fetch_blob/* default */.Z), "$B": () => (/* reexport */ file/* default */.Z), "xB": () => (/* binding */ blobFrom), "SX": () => (/* binding */ blobFromSync), "e2": () => (/* binding */ fileFrom), "RA": () => (/* binding */ fileFromSync) }); // UNUSED EXPORTS: default ;// CONCATENATED MODULE: external "node:fs" const external_node_fs_namespaceObject = require("node:fs"); ;// CONCATENATED MODULE: external "node:path" const external_node_path_namespaceObject = require("node:path"); // EXTERNAL MODULE: ./node_modules/node-domexception/index.js var node_domexception = __nccwpck_require__(7760); // EXTERNAL MODULE: ./node_modules/fetch-blob/file.js var file = __nccwpck_require__(3213); // EXTERNAL MODULE: ./node_modules/fetch-blob/index.js var fetch_blob = __nccwpck_require__(1410); ;// CONCATENATED MODULE: ./node_modules/fetch-blob/from.js const { stat } = external_node_fs_namespaceObject.promises /** * @param {string} path filepath on the disk * @param {string} [type] mimetype to use */ const blobFromSync = (path, type) => fromBlob((0,external_node_fs_namespaceObject.statSync)(path), path, type) /** * @param {string} path filepath on the disk * @param {string} [type] mimetype to use * @returns {Promise} */ const blobFrom = (path, type) => stat(path).then(stat => fromBlob(stat, path, type)) /** * @param {string} path filepath on the disk * @param {string} [type] mimetype to use * @returns {Promise} */ const fileFrom = (path, type) => stat(path).then(stat => fromFile(stat, path, type)) /** * @param {string} path filepath on the disk * @param {string} [type] mimetype to use */ const fileFromSync = (path, type) => fromFile((0,external_node_fs_namespaceObject.statSync)(path), path, type) // @ts-ignore const fromBlob = (stat, path, type = '') => new fetch_blob/* default */.Z([new BlobDataItem({ path, size: stat.size, lastModified: stat.mtimeMs, start: 0 })], { type }) // @ts-ignore const fromFile = (stat, path, type = '') => new file/* default */.Z([new BlobDataItem({ path, size: stat.size, lastModified: stat.mtimeMs, start: 0 })], (0,external_node_path_namespaceObject.basename)(path), { type, lastModified: stat.mtimeMs }) /** * This is a blob backed up by a file on the disk * with minium requirement. Its wrapped around a Blob as a blobPart * so you have no direct access to this. * * @private */ class BlobDataItem { #path #start constructor (options) { this.#path = options.path this.#start = options.start this.size = options.size this.lastModified = options.lastModified } /** * Slicing arguments is first validated and formatted * to not be out of range by Blob.prototype.slice */ slice (start, end) { return new BlobDataItem({ path: this.#path, lastModified: this.lastModified, size: end - start, start: this.#start + start }) } async * stream () { const { mtimeMs } = await stat(this.#path) if (mtimeMs > this.lastModified) { throw new node_domexception('The requested file could not be read, typically due to permission problems that have occurred after a reference to a file was acquired.', 'NotReadableError') } yield * (0,external_node_fs_namespaceObject.createReadStream)(this.#path, { start: this.#start, end: this.#start + this.size - 1 }) } get [Symbol.toStringTag] () { return 'Blob' } } /* harmony default export */ const from = ((/* unused pure expression or super */ null && (blobFromSync))); /***/ }), /***/ 1410: /***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __nccwpck_require__) => { "use strict"; /* harmony export */ __nccwpck_require__.d(__webpack_exports__, { /* harmony export */ "Z": () => (__WEBPACK_DEFAULT_EXPORT__) /* harmony export */ }); /* unused harmony export Blob */ /* harmony import */ var _streams_cjs__WEBPACK_IMPORTED_MODULE_0__ = __nccwpck_require__(8572); /*! fetch-blob. MIT License. Jimmy Wärting */ // TODO (jimmywarting): in the feature use conditional loading with top level await (requires 14.x) // Node has recently added whatwg stream into core // 64 KiB (same size chrome slice theirs blob into Uint8array's) const POOL_SIZE = 65536 /** @param {(Blob | Uint8Array)[]} parts */ async function * toIterator (parts, clone = true) { for (const part of parts) { if ('stream' in part) { yield * (/** @type {AsyncIterableIterator} */ (part.stream())) } else if (ArrayBuffer.isView(part)) { if (clone) { let position = part.byteOffset const end = part.byteOffset + part.byteLength while (position !== end) { const size = Math.min(end - position, POOL_SIZE) const chunk = part.buffer.slice(position, position + size) position += chunk.byteLength yield new Uint8Array(chunk) } } else { yield part } /* c8 ignore next 10 */ } else { // For blobs that have arrayBuffer but no stream method (nodes buffer.Blob) let position = 0, b = (/** @type {Blob} */ (part)) while (position !== b.size) { const chunk = b.slice(position, Math.min(b.size, position + POOL_SIZE)) const buffer = await chunk.arrayBuffer() position += buffer.byteLength yield new Uint8Array(buffer) } } } } const _Blob = class Blob { /** @type {Array.<(Blob|Uint8Array)>} */ #parts = [] #type = '' #size = 0 #endings = 'transparent' /** * The Blob() constructor returns a new Blob object. The content * of the blob consists of the concatenation of the values given * in the parameter array. * * @param {*} blobParts * @param {{ type?: string, endings?: string }} [options] */ constructor (blobParts = [], options = {}) { if (typeof blobParts !== 'object' || blobParts === null) { throw new TypeError('Failed to construct \'Blob\': The provided value cannot be converted to a sequence.') } if (typeof blobParts[Symbol.iterator] !== 'function') { throw new TypeError('Failed to construct \'Blob\': The object must have a callable @@iterator property.') } if (typeof options !== 'object' && typeof options !== 'function') { throw new TypeError('Failed to construct \'Blob\': parameter 2 cannot convert to dictionary.') } if (options === null) options = {} const encoder = new TextEncoder() for (const element of blobParts) { let part if (ArrayBuffer.isView(element)) { part = new Uint8Array(element.buffer.slice(element.byteOffset, element.byteOffset + element.byteLength)) } else if (element instanceof ArrayBuffer) { part = new Uint8Array(element.slice(0)) } else if (element instanceof Blob) { part = element } else { part = encoder.encode(`${element}`) } this.#size += ArrayBuffer.isView(part) ? part.byteLength : part.size this.#parts.push(part) } this.#endings = `${options.endings === undefined ? 'transparent' : options.endings}` const type = options.type === undefined ? '' : String(options.type) this.#type = /^[\x20-\x7E]*$/.test(type) ? type : '' } /** * The Blob interface's size property returns the * size of the Blob in bytes. */ get size () { return this.#size } /** * The type property of a Blob object returns the MIME type of the file. */ get type () { return this.#type } /** * The text() method in the Blob interface returns a Promise * that resolves with a string containing the contents of * the blob, interpreted as UTF-8. * * @return {Promise} */ async text () { // More optimized than using this.arrayBuffer() // that requires twice as much ram const decoder = new TextDecoder() let str = '' for await (const part of toIterator(this.#parts, false)) { str += decoder.decode(part, { stream: true }) } // Remaining str += decoder.decode() return str } /** * The arrayBuffer() method in the Blob interface returns a * Promise that resolves with the contents of the blob as * binary data contained in an ArrayBuffer. * * @return {Promise} */ async arrayBuffer () { // Easier way... Just a unnecessary overhead // const view = new Uint8Array(this.size); // await this.stream().getReader({mode: 'byob'}).read(view); // return view.buffer; const data = new Uint8Array(this.size) let offset = 0 for await (const chunk of toIterator(this.#parts, false)) { data.set(chunk, offset) offset += chunk.length } return data.buffer } stream () { const it = toIterator(this.#parts, true) return new globalThis.ReadableStream({ // @ts-ignore type: 'bytes', async pull (ctrl) { const chunk = await it.next() chunk.done ? ctrl.close() : ctrl.enqueue(chunk.value) }, async cancel () { await it.return() } }) } /** * The Blob interface's slice() method creates and returns a * new Blob object which contains data from a subset of the * blob on which it's called. * * @param {number} [start] * @param {number} [end] * @param {string} [type] */ slice (start = 0, end = this.size, type = '') { const { size } = this let relativeStart = start < 0 ? Math.max(size + start, 0) : Math.min(start, size) let relativeEnd = end < 0 ? Math.max(size + end, 0) : Math.min(end, size) const span = Math.max(relativeEnd - relativeStart, 0) const parts = this.#parts const blobParts = [] let added = 0 for (const part of parts) { // don't add the overflow to new blobParts if (added >= span) { break } const size = ArrayBuffer.isView(part) ? part.byteLength : part.size if (relativeStart && size <= relativeStart) { // Skip the beginning and change the relative // start & end position as we skip the unwanted parts relativeStart -= size relativeEnd -= size } else { let chunk if (ArrayBuffer.isView(part)) { chunk = part.subarray(relativeStart, Math.min(size, relativeEnd)) added += chunk.byteLength } else { chunk = part.slice(relativeStart, Math.min(size, relativeEnd)) added += chunk.size } relativeEnd -= size blobParts.push(chunk) relativeStart = 0 // All next sequential parts should start at 0 } } const blob = new Blob([], { type: String(type).toLowerCase() }) blob.#size = span blob.#parts = blobParts return blob } get [Symbol.toStringTag] () { return 'Blob' } static [Symbol.hasInstance] (object) { return ( object && typeof object === 'object' && typeof object.constructor === 'function' && ( typeof object.stream === 'function' || typeof object.arrayBuffer === 'function' ) && /^(Blob|File)$/.test(object[Symbol.toStringTag]) ) } } Object.defineProperties(_Blob.prototype, { size: { enumerable: true }, type: { enumerable: true }, slice: { enumerable: true } }) /** @type {typeof globalThis.Blob} */ const Blob = _Blob /* harmony default export */ const __WEBPACK_DEFAULT_EXPORT__ = (Blob); /***/ }), /***/ 8010: /***/ ((__unused_webpack___webpack_module__, __webpack_exports__, __nccwpck_require__) => { "use strict"; /* harmony export */ __nccwpck_require__.d(__webpack_exports__, { /* harmony export */ "Ct": () => (/* binding */ FormData), /* harmony export */ "au": () => (/* binding */ formDataToBlob) /* harmony export */ }); /* unused harmony export File */ /* harmony import */ var fetch_blob__WEBPACK_IMPORTED_MODULE_0__ = __nccwpck_require__(1410); /* harmony import */ var fetch_blob_file_js__WEBPACK_IMPORTED_MODULE_1__ = __nccwpck_require__(3213); /*! formdata-polyfill. MIT License. Jimmy Wärting */ var {toStringTag:t,iterator:i,hasInstance:h}=Symbol, r=Math.random, m='append,set,get,getAll,delete,keys,values,entries,forEach,constructor'.split(','), f=(a,b,c)=>(a+='',/^(Blob|File)$/.test(b && b[t])?[(c=c!==void 0?c+'':b[t]=='File'?b.name:'blob',a),b.name!==c||b[t]=='blob'?new fetch_blob_file_js__WEBPACK_IMPORTED_MODULE_1__/* ["default"] */ .Z([b],c,b):b]:[a,b+'']), e=(c,f)=>(f?c:c.replace(/\r?\n|\r/g,'\r\n')).replace(/\n/g,'%0A').replace(/\r/g,'%0D').replace(/"/g,'%22'), x=(n, a, e)=>{if(a.lengthtypeof o[m]!='function')} append(...a){x('append',arguments,2);this.#d.push(f(...a))} delete(a){x('delete',arguments,1);a+='';this.#d=this.#d.filter(([b])=>b!==a)} get(a){x('get',arguments,1);a+='';for(var b=this.#d,l=b.length,c=0;cc[0]===a&&b.push(c[1]));return b} has(a){x('has',arguments,1);a+='';return this.#d.some(b=>b[0]===a)} forEach(a,b){x('forEach',arguments,1);for(var [c,d]of this)a.call(b,d,c,this)} set(...a){x('set',arguments,2);var b=[],c=!0;a=f(...a);this.#d.forEach(d=>{d[0]===a[0]?c&&(c=!b.push(a)):b.push(d)});c&&b.push(a);this.#d=b} *entries(){yield*this.#d} *keys(){for(var[a]of this)yield a} *values(){for(var[,a]of this)yield a}} /** @param {FormData} F */ function formDataToBlob (F,B=fetch_blob__WEBPACK_IMPORTED_MODULE_0__/* ["default"] */ .Z){ var b=`${r()}${r()}`.replace(/\./g, '').slice(-28).padStart(32, '-'),c=[],p=`--${b}\r\nContent-Disposition: form-data; name="` F.forEach((v,n)=>typeof v=='string' ?c.push(p+e(n)+`"\r\n\r\n${v.replace(/\r(?!\n)|(? { "use strict"; // ESM COMPAT FLAG __nccwpck_require__.r(__webpack_exports__); // EXPORTS __nccwpck_require__.d(__webpack_exports__, { "AbortError": () => (/* reexport */ AbortError), "Blob": () => (/* reexport */ from/* Blob */.t6), "FetchError": () => (/* reexport */ FetchError), "File": () => (/* reexport */ from/* File */.$B), "FormData": () => (/* reexport */ esm_min/* FormData */.Ct), "Headers": () => (/* reexport */ Headers), "Request": () => (/* reexport */ Request), "Response": () => (/* reexport */ Response), "blobFrom": () => (/* reexport */ from/* blobFrom */.xB), "blobFromSync": () => (/* reexport */ from/* blobFromSync */.SX), "default": () => (/* binding */ fetch), "fileFrom": () => (/* reexport */ from/* fileFrom */.e2), "fileFromSync": () => (/* reexport */ from/* fileFromSync */.RA), "isRedirect": () => (/* reexport */ isRedirect) }); ;// CONCATENATED MODULE: external "node:http" const external_node_http_namespaceObject = require("node:http"); ;// CONCATENATED MODULE: external "node:https" const external_node_https_namespaceObject = require("node:https"); ;// CONCATENATED MODULE: external "node:zlib" const external_node_zlib_namespaceObject = require("node:zlib"); ;// CONCATENATED MODULE: external "node:stream" const external_node_stream_namespaceObject = require("node:stream"); ;// CONCATENATED MODULE: external "node:buffer" const external_node_buffer_namespaceObject = require("node:buffer"); ;// CONCATENATED MODULE: ./node_modules/data-uri-to-buffer/dist/index.js /** * Returns a `Buffer` instance from the given data URI `uri`. * * @param {String} uri Data URI to turn into a Buffer instance * @returns {Buffer} Buffer instance from Data URI * @api public */ function dataUriToBuffer(uri) { if (!/^data:/i.test(uri)) { throw new TypeError('`uri` does not appear to be a Data URI (must begin with "data:")'); } // strip newlines uri = uri.replace(/\r?\n/g, ''); // split the URI up into the "metadata" and the "data" portions const firstComma = uri.indexOf(','); if (firstComma === -1 || firstComma <= 4) { throw new TypeError('malformed data: URI'); } // remove the "data:" scheme and parse the metadata const meta = uri.substring(5, firstComma).split(';'); let charset = ''; let base64 = false; const type = meta[0] || 'text/plain'; let typeFull = type; for (let i = 1; i < meta.length; i++) { if (meta[i] === 'base64') { base64 = true; } else { typeFull += `;${meta[i]}`; if (meta[i].indexOf('charset=') === 0) { charset = meta[i].substring(8); } } } // defaults to US-ASCII only if type is not provided if (!meta[0] && !charset.length) { typeFull += ';charset=US-ASCII'; charset = 'US-ASCII'; } // get the encoded data portion and decode URI-encoded chars const encoding = base64 ? 'base64' : 'ascii'; const data = unescape(uri.substring(firstComma + 1)); const buffer = Buffer.from(data, encoding); // set `.type` and `.typeFull` properties to MIME type buffer.type = type; buffer.typeFull = typeFull; // set the `.charset` property buffer.charset = charset; return buffer; } /* harmony default export */ const dist = (dataUriToBuffer); //# sourceMappingURL=index.js.map ;// CONCATENATED MODULE: external "node:util" const external_node_util_namespaceObject = require("node:util"); // EXTERNAL MODULE: ./node_modules/fetch-blob/index.js var fetch_blob = __nccwpck_require__(1410); // EXTERNAL MODULE: ./node_modules/formdata-polyfill/esm.min.js var esm_min = __nccwpck_require__(8010); ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/errors/base.js class FetchBaseError extends Error { constructor(message, type) { super(message); // Hide custom error implementation details from end-users Error.captureStackTrace(this, this.constructor); this.type = type; } get name() { return this.constructor.name; } get [Symbol.toStringTag]() { return this.constructor.name; } } ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/errors/fetch-error.js /** * @typedef {{ address?: string, code: string, dest?: string, errno: number, info?: object, message: string, path?: string, port?: number, syscall: string}} SystemError */ /** * FetchError interface for operational errors */ class FetchError extends FetchBaseError { /** * @param {string} message - Error message for human * @param {string} [type] - Error type for machine * @param {SystemError} [systemError] - For Node.js system error */ constructor(message, type, systemError) { super(message, type); // When err.type is `system`, err.erroredSysCall contains system error and err.code contains system error code if (systemError) { // eslint-disable-next-line no-multi-assign this.code = this.errno = systemError.code; this.erroredSysCall = systemError.syscall; } } } ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/utils/is.js /** * Is.js * * Object type checks. */ const NAME = Symbol.toStringTag; /** * Check if `obj` is a URLSearchParams object * ref: https://github.com/node-fetch/node-fetch/issues/296#issuecomment-307598143 * @param {*} object - Object to check for * @return {boolean} */ const isURLSearchParameters = object => { return ( 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' && typeof object.sort === 'function' && object[NAME] === 'URLSearchParams' ); }; /** * Check if `object` is a W3C `Blob` object (which `File` inherits from) * @param {*} object - Object to check for * @return {boolean} */ const isBlob = object => { return ( object && typeof object === 'object' && typeof object.arrayBuffer === 'function' && typeof object.type === 'string' && typeof object.stream === 'function' && typeof object.constructor === 'function' && /^(Blob|File)$/.test(object[NAME]) ); }; /** * Check if `obj` is an instance of AbortSignal. * @param {*} object - Object to check for * @return {boolean} */ const isAbortSignal = object => { return ( typeof object === 'object' && ( object[NAME] === 'AbortSignal' || object[NAME] === 'EventTarget' ) ); }; /** * isDomainOrSubdomain reports whether sub is a subdomain (or exact match) of * the parent domain. * * Both domains must already be in canonical form. * @param {string|URL} original * @param {string|URL} destination */ const isDomainOrSubdomain = (destination, original) => { const orig = new URL(original).hostname; const dest = new URL(destination).hostname; return orig === dest || orig.endsWith(`.${dest}`); }; /** * isSameProtocol reports whether the two provided URLs use the same protocol. * * Both domains must already be in canonical form. * @param {string|URL} original * @param {string|URL} destination */ const isSameProtocol = (destination, original) => { const orig = new URL(original).protocol; const dest = new URL(destination).protocol; return orig === dest; }; ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/body.js /** * Body.js * * Body interface provides common methods for Request and Response */ const pipeline = (0,external_node_util_namespaceObject.promisify)(external_node_stream_namespaceObject.pipeline); const INTERNALS = Symbol('Body internals'); /** * Body mixin * * Ref: https://fetch.spec.whatwg.org/#body * * @param Stream body Readable stream * @param Object opts Response options * @return Void */ class Body { constructor(body, { size = 0 } = {}) { let boundary = null; if (body === null) { // Body is undefined or null body = null; } else if (isURLSearchParameters(body)) { // Body is a URLSearchParams body = external_node_buffer_namespaceObject.Buffer.from(body.toString()); } else if (isBlob(body)) { // Body is blob } else if (external_node_buffer_namespaceObject.Buffer.isBuffer(body)) { // Body is Buffer } else if (external_node_util_namespaceObject.types.isAnyArrayBuffer(body)) { // Body is ArrayBuffer body = external_node_buffer_namespaceObject.Buffer.from(body); } else if (ArrayBuffer.isView(body)) { // Body is ArrayBufferView body = external_node_buffer_namespaceObject.Buffer.from(body.buffer, body.byteOffset, body.byteLength); } else if (body instanceof external_node_stream_namespaceObject) { // Body is stream } else if (body instanceof esm_min/* FormData */.Ct) { // Body is FormData body = (0,esm_min/* formDataToBlob */.au)(body); boundary = body.type.split('=')[1]; } else { // None of the above // coerce to string then buffer body = external_node_buffer_namespaceObject.Buffer.from(String(body)); } let stream = body; if (external_node_buffer_namespaceObject.Buffer.isBuffer(body)) { stream = external_node_stream_namespaceObject.Readable.from(body); } else if (isBlob(body)) { stream = external_node_stream_namespaceObject.Readable.from(body.stream()); } this[INTERNALS] = { body, stream, boundary, disturbed: false, error: null }; this.size = size; if (body instanceof external_node_stream_namespaceObject) { body.on('error', error_ => { const error = error_ instanceof FetchBaseError ? error_ : new FetchError(`Invalid response body while trying to fetch ${this.url}: ${error_.message}`, 'system', error_); this[INTERNALS].error = error; }); } } get body() { return this[INTERNALS].stream; } get bodyUsed() { return this[INTERNALS].disturbed; } /** * Decode response as ArrayBuffer * * @return Promise */ async arrayBuffer() { const {buffer, byteOffset, byteLength} = await consumeBody(this); return buffer.slice(byteOffset, byteOffset + byteLength); } async formData() { const ct = this.headers.get('content-type'); if (ct.startsWith('application/x-www-form-urlencoded')) { const formData = new esm_min/* FormData */.Ct(); const parameters = new URLSearchParams(await this.text()); for (const [name, value] of parameters) { formData.append(name, value); } return formData; } const {toFormData} = await __nccwpck_require__.e(/* import() */ 37).then(__nccwpck_require__.bind(__nccwpck_require__, 4037)); return toFormData(this.body, ct); } /** * Return raw response as Blob * * @return Promise */ async blob() { const ct = (this.headers && this.headers.get('content-type')) || (this[INTERNALS].body && this[INTERNALS].body.type) || ''; const buf = await this.arrayBuffer(); return new fetch_blob/* default */.Z([buf], { type: ct }); } /** * Decode response as json * * @return Promise */ async json() { const text = await this.text(); return JSON.parse(text); } /** * Decode response as text * * @return Promise */ async text() { const buffer = await consumeBody(this); return new TextDecoder().decode(buffer); } /** * Decode response as buffer (non-spec api) * * @return Promise */ buffer() { return consumeBody(this); } } Body.prototype.buffer = (0,external_node_util_namespaceObject.deprecate)(Body.prototype.buffer, 'Please use \'response.arrayBuffer()\' instead of \'response.buffer()\'', 'node-fetch#buffer'); // In browsers, all properties are enumerable. Object.defineProperties(Body.prototype, { body: {enumerable: true}, bodyUsed: {enumerable: true}, arrayBuffer: {enumerable: true}, blob: {enumerable: true}, json: {enumerable: true}, text: {enumerable: true}, data: {get: (0,external_node_util_namespaceObject.deprecate)(() => {}, 'data doesn\'t exist, use json(), text(), arrayBuffer(), or body instead', 'https://github.com/node-fetch/node-fetch/issues/1000 (response)')} }); /** * Consume and convert an entire Body to a Buffer. * * Ref: https://fetch.spec.whatwg.org/#concept-body-consume-body * * @return Promise */ async function consumeBody(data) { if (data[INTERNALS].disturbed) { throw new TypeError(`body used already for: ${data.url}`); } data[INTERNALS].disturbed = true; if (data[INTERNALS].error) { throw data[INTERNALS].error; } const {body} = data; // Body is null if (body === null) { return external_node_buffer_namespaceObject.Buffer.alloc(0); } /* c8 ignore next 3 */ if (!(body instanceof external_node_stream_namespaceObject)) { return external_node_buffer_namespaceObject.Buffer.alloc(0); } // Body is stream // get ready to actually consume the body const accum = []; let accumBytes = 0; try { for await (const chunk of body) { if (data.size > 0 && accumBytes + chunk.length > data.size) { const error = new FetchError(`content size at ${data.url} over limit: ${data.size}`, 'max-size'); body.destroy(error); throw error; } accumBytes += chunk.length; accum.push(chunk); } } catch (error) { const error_ = error instanceof FetchBaseError ? error : new FetchError(`Invalid response body while trying to fetch ${data.url}: ${error.message}`, 'system', error); throw error_; } if (body.readableEnded === true || body._readableState.ended === true) { try { if (accum.every(c => typeof c === 'string')) { return external_node_buffer_namespaceObject.Buffer.from(accum.join('')); } return external_node_buffer_namespaceObject.Buffer.concat(accum, accumBytes); } catch (error) { throw new FetchError(`Could not create Buffer from response body for ${data.url}: ${error.message}`, 'system', error); } } else { throw new FetchError(`Premature close of server response while trying to fetch ${data.url}`); } } /** * Clone body given Res/Req instance * * @param Mixed instance Response or Request instance * @param String highWaterMark highWaterMark for both PassThrough body streams * @return Mixed */ const clone = (instance, highWaterMark) => { let p1; let p2; let {body} = instance[INTERNALS]; // Don't allow cloning a used body if (instance.bodyUsed) { throw new Error('cannot clone body after it is used'); } // Check that body is a stream and not form-data object // note: we can't clone the form-data object without having it as a dependency if ((body instanceof external_node_stream_namespaceObject) && (typeof body.getBoundary !== 'function')) { // Tee instance body p1 = new external_node_stream_namespaceObject.PassThrough({highWaterMark}); p2 = new external_node_stream_namespaceObject.PassThrough({highWaterMark}); body.pipe(p1); body.pipe(p2); // Set instance body to teed body and return the other teed body instance[INTERNALS].stream = p1; body = p2; } return body; }; const getNonSpecFormDataBoundary = (0,external_node_util_namespaceObject.deprecate)( body => body.getBoundary(), 'form-data doesn\'t follow the spec and requires special treatment. Use alternative package', 'https://github.com/node-fetch/node-fetch/issues/1167' ); /** * Performs the operation "extract a `Content-Type` value from |object|" as * specified in the specification: * https://fetch.spec.whatwg.org/#concept-bodyinit-extract * * This function assumes that instance.body is present. * * @param {any} body Any options.body input * @returns {string | null} */ const extractContentType = (body, request) => { // Body is null or undefined if (body === null) { return null; } // Body is string if (typeof body === 'string') { return 'text/plain;charset=UTF-8'; } // Body is a URLSearchParams if (isURLSearchParameters(body)) { return 'application/x-www-form-urlencoded;charset=UTF-8'; } // Body is blob if (isBlob(body)) { return body.type || null; } // Body is a Buffer (Buffer, ArrayBuffer or ArrayBufferView) if (external_node_buffer_namespaceObject.Buffer.isBuffer(body) || external_node_util_namespaceObject.types.isAnyArrayBuffer(body) || ArrayBuffer.isView(body)) { return null; } if (body instanceof esm_min/* FormData */.Ct) { return `multipart/form-data; boundary=${request[INTERNALS].boundary}`; } // Detect form data input from form-data module if (body && typeof body.getBoundary === 'function') { return `multipart/form-data;boundary=${getNonSpecFormDataBoundary(body)}`; } // Body is stream - can't really do much about this if (body instanceof external_node_stream_namespaceObject) { return null; } // Body constructor defaults other things to string return 'text/plain;charset=UTF-8'; }; /** * The Fetch Standard treats this as if "total bytes" is a property on the body. * For us, we have to explicitly get it with a function. * * ref: https://fetch.spec.whatwg.org/#concept-body-total-bytes * * @param {any} obj.body Body object from the Body instance. * @returns {number | null} */ const getTotalBytes = request => { const {body} = request[INTERNALS]; // Body is null or undefined if (body === null) { return 0; } // Body is Blob if (isBlob(body)) { return body.size; } // Body is Buffer if (external_node_buffer_namespaceObject.Buffer.isBuffer(body)) { return body.length; } // Detect form data input from form-data module if (body && typeof body.getLengthSync === 'function') { return body.hasKnownLength && body.hasKnownLength() ? body.getLengthSync() : null; } // Body is stream return null; }; /** * Write a Body to a Node.js WritableStream (e.g. http.Request) object. * * @param {Stream.Writable} dest The stream to write to. * @param obj.body Body object from the Body instance. * @returns {Promise} */ const writeToStream = async (dest, {body}) => { if (body === null) { // Body is null dest.end(); } else { // Body is stream await pipeline(body, dest); } }; ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/headers.js /** * Headers.js * * Headers class offers convenient helpers */ /* c8 ignore next 9 */ const validateHeaderName = typeof external_node_http_namespaceObject.validateHeaderName === 'function' ? external_node_http_namespaceObject.validateHeaderName : name => { if (!/^[\^`\-\w!#$%&'*+.|~]+$/.test(name)) { const error = new TypeError(`Header name must be a valid HTTP token [${name}]`); Object.defineProperty(error, 'code', {value: 'ERR_INVALID_HTTP_TOKEN'}); throw error; } }; /* c8 ignore next 9 */ const validateHeaderValue = typeof external_node_http_namespaceObject.validateHeaderValue === 'function' ? external_node_http_namespaceObject.validateHeaderValue : (name, value) => { if (/[^\t\u0020-\u007E\u0080-\u00FF]/.test(value)) { const error = new TypeError(`Invalid character in header content ["${name}"]`); Object.defineProperty(error, 'code', {value: 'ERR_INVALID_CHAR'}); throw error; } }; /** * @typedef {Headers | Record | Iterable | Iterable>} HeadersInit */ /** * This Fetch API interface allows you to perform various actions on HTTP request and response headers. * These actions include retrieving, setting, adding to, and removing. * A Headers object has an associated header list, which is initially empty and consists of zero or more name and value pairs. * You can add to this using methods like append() (see Examples.) * In all methods of this interface, header names are matched by case-insensitive byte sequence. * */ class Headers extends URLSearchParams { /** * Headers class * * @constructor * @param {HeadersInit} [init] - Response headers */ constructor(init) { // Validate and normalize init object in [name, value(s)][] /** @type {string[][]} */ let result = []; if (init instanceof Headers) { const raw = init.raw(); for (const [name, values] of Object.entries(raw)) { result.push(...values.map(value => [name, value])); } } else if (init == null) { // eslint-disable-line no-eq-null, eqeqeq // No op } else if (typeof init === 'object' && !external_node_util_namespaceObject.types.isBoxedPrimitive(init)) { const method = init[Symbol.iterator]; // eslint-disable-next-line no-eq-null, eqeqeq if (method == null) { // Record result.push(...Object.entries(init)); } else { if (typeof method !== 'function') { throw new TypeError('Header pairs must be iterable'); } // Sequence> // Note: per spec we have to first exhaust the lists then process them result = [...init] .map(pair => { if ( typeof pair !== 'object' || external_node_util_namespaceObject.types.isBoxedPrimitive(pair) ) { throw new TypeError('Each header pair must be an iterable object'); } return [...pair]; }).map(pair => { if (pair.length !== 2) { throw new TypeError('Each header pair must be a name/value tuple'); } return [...pair]; }); } } else { throw new TypeError('Failed to construct \'Headers\': The provided value is not of type \'(sequence> or record)'); } // Validate and lowercase result = result.length > 0 ? result.map(([name, value]) => { validateHeaderName(name); validateHeaderValue(name, String(value)); return [String(name).toLowerCase(), String(value)]; }) : undefined; super(result); // Returning a Proxy that will lowercase key names, validate parameters and sort keys // eslint-disable-next-line no-constructor-return return new Proxy(this, { get(target, p, receiver) { switch (p) { case 'append': case 'set': return (name, value) => { validateHeaderName(name); validateHeaderValue(name, String(value)); return URLSearchParams.prototype[p].call( target, String(name).toLowerCase(), String(value) ); }; case 'delete': case 'has': case 'getAll': return name => { validateHeaderName(name); return URLSearchParams.prototype[p].call( target, String(name).toLowerCase() ); }; case 'keys': return () => { target.sort(); return new Set(URLSearchParams.prototype.keys.call(target)).keys(); }; default: return Reflect.get(target, p, receiver); } } }); /* c8 ignore next */ } get [Symbol.toStringTag]() { return this.constructor.name; } toString() { return Object.prototype.toString.call(this); } get(name) { const values = this.getAll(name); if (values.length === 0) { return null; } let value = values.join(', '); if (/^content-encoding$/i.test(name)) { value = value.toLowerCase(); } return value; } forEach(callback, thisArg = undefined) { for (const name of this.keys()) { Reflect.apply(callback, thisArg, [this.get(name), name, this]); } } * values() { for (const name of this.keys()) { yield this.get(name); } } /** * @type {() => IterableIterator<[string, string]>} */ * entries() { for (const name of this.keys()) { yield [name, this.get(name)]; } } [Symbol.iterator]() { return this.entries(); } /** * Node-fetch non-spec method * returning all headers and their values as array * @returns {Record} */ raw() { return [...this.keys()].reduce((result, key) => { result[key] = this.getAll(key); return result; }, {}); } /** * For better console.log(headers) and also to convert Headers into Node.js Request compatible format */ [Symbol.for('nodejs.util.inspect.custom')]() { return [...this.keys()].reduce((result, key) => { const values = this.getAll(key); // Http.request() only supports string as Host header. // This hack makes specifying custom Host header possible. if (key === 'host') { result[key] = values[0]; } else { result[key] = values.length > 1 ? values : values[0]; } return result; }, {}); } } /** * Re-shaping object for Web IDL tests * Only need to do it for overridden methods */ Object.defineProperties( Headers.prototype, ['get', 'entries', 'forEach', 'values'].reduce((result, property) => { result[property] = {enumerable: true}; return result; }, {}) ); /** * Create a Headers object from an http.IncomingMessage.rawHeaders, ignoring those that do * not conform to HTTP grammar productions. * @param {import('http').IncomingMessage['rawHeaders']} headers */ function fromRawHeaders(headers = []) { return new Headers( headers // Split into pairs .reduce((result, value, index, array) => { if (index % 2 === 0) { result.push(array.slice(index, index + 2)); } return result; }, []) .filter(([name, value]) => { try { validateHeaderName(name); validateHeaderValue(name, String(value)); return true; } catch { return false; } }) ); } ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/utils/is-redirect.js const redirectStatus = new Set([301, 302, 303, 307, 308]); /** * Redirect code matching * * @param {number} code - Status code * @return {boolean} */ const isRedirect = code => { return redirectStatus.has(code); }; ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/response.js /** * Response.js * * Response class provides content decoding */ const response_INTERNALS = Symbol('Response internals'); /** * Response class * * Ref: https://fetch.spec.whatwg.org/#response-class * * @param Stream body Readable stream * @param Object opts Response options * @return Void */ class Response extends Body { constructor(body = null, options = {}) { super(body, options); // eslint-disable-next-line no-eq-null, eqeqeq, no-negated-condition const status = options.status != null ? options.status : 200; const headers = new Headers(options.headers); if (body !== null && !headers.has('Content-Type')) { const contentType = extractContentType(body, this); if (contentType) { headers.append('Content-Type', contentType); } } this[response_INTERNALS] = { type: 'default', url: options.url, status, statusText: options.statusText || '', headers, counter: options.counter, highWaterMark: options.highWaterMark }; } get type() { return this[response_INTERNALS].type; } get url() { return this[response_INTERNALS].url || ''; } get status() { return this[response_INTERNALS].status; } /** * Convenience property representing if the request ended normally */ get ok() { return this[response_INTERNALS].status >= 200 && this[response_INTERNALS].status < 300; } get redirected() { return this[response_INTERNALS].counter > 0; } get statusText() { return this[response_INTERNALS].statusText; } get headers() { return this[response_INTERNALS].headers; } get highWaterMark() { return this[response_INTERNALS].highWaterMark; } /** * Clone this response * * @return Response */ clone() { return new Response(clone(this, this.highWaterMark), { type: this.type, url: this.url, status: this.status, statusText: this.statusText, headers: this.headers, ok: this.ok, redirected: this.redirected, size: this.size, highWaterMark: this.highWaterMark }); } /** * @param {string} url The URL that the new response is to originate from. * @param {number} status An optional status code for the response (e.g., 302.) * @returns {Response} A Response object. */ static redirect(url, status = 302) { if (!isRedirect(status)) { throw new RangeError('Failed to execute "redirect" on "response": Invalid status code'); } return new Response(null, { headers: { location: new URL(url).toString() }, status }); } static error() { const response = new Response(null, {status: 0, statusText: ''}); response[response_INTERNALS].type = 'error'; return response; } get [Symbol.toStringTag]() { return 'Response'; } } Object.defineProperties(Response.prototype, { type: {enumerable: true}, url: {enumerable: true}, status: {enumerable: true}, ok: {enumerable: true}, redirected: {enumerable: true}, statusText: {enumerable: true}, headers: {enumerable: true}, clone: {enumerable: true} }); ;// CONCATENATED MODULE: external "node:url" const external_node_url_namespaceObject = require("node:url"); ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/utils/get-search.js const getSearch = parsedURL => { if (parsedURL.search) { return parsedURL.search; } const lastOffset = parsedURL.href.length - 1; const hash = parsedURL.hash || (parsedURL.href[lastOffset] === '#' ? '#' : ''); return parsedURL.href[lastOffset - hash.length] === '?' ? '?' : ''; }; ;// CONCATENATED MODULE: external "node:net" const external_node_net_namespaceObject = require("node:net"); ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/utils/referrer.js /** * @external URL * @see {@link https://developer.mozilla.org/en-US/docs/Web/API/URL|URL} */ /** * @module utils/referrer * @private */ /** * @see {@link https://w3c.github.io/webappsec-referrer-policy/#strip-url|Referrer Policy §8.4. Strip url for use as a referrer} * @param {string} URL * @param {boolean} [originOnly=false] */ function stripURLForUseAsAReferrer(url, originOnly = false) { // 1. If url is null, return no referrer. if (url == null) { // eslint-disable-line no-eq-null, eqeqeq return 'no-referrer'; } url = new URL(url); // 2. If url's scheme is a local scheme, then return no referrer. if (/^(about|blob|data):$/.test(url.protocol)) { return 'no-referrer'; } // 3. Set url's username to the empty string. url.username = ''; // 4. Set url's password to null. // Note: `null` appears to be a mistake as this actually results in the password being `"null"`. url.password = ''; // 5. Set url's fragment to null. // Note: `null` appears to be a mistake as this actually results in the fragment being `"#null"`. url.hash = ''; // 6. If the origin-only flag is true, then: if (originOnly) { // 6.1. Set url's path to null. // Note: `null` appears to be a mistake as this actually results in the path being `"/null"`. url.pathname = ''; // 6.2. Set url's query to null. // Note: `null` appears to be a mistake as this actually results in the query being `"?null"`. url.search = ''; } // 7. Return url. return url; } /** * @see {@link https://w3c.github.io/webappsec-referrer-policy/#enumdef-referrerpolicy|enum ReferrerPolicy} */ const ReferrerPolicy = new Set([ '', 'no-referrer', 'no-referrer-when-downgrade', 'same-origin', 'origin', 'strict-origin', 'origin-when-cross-origin', 'strict-origin-when-cross-origin', 'unsafe-url' ]); /** * @see {@link https://w3c.github.io/webappsec-referrer-policy/#default-referrer-policy|default referrer policy} */ const DEFAULT_REFERRER_POLICY = 'strict-origin-when-cross-origin'; /** * @see {@link https://w3c.github.io/webappsec-referrer-policy/#referrer-policies|Referrer Policy §3. Referrer Policies} * @param {string} referrerPolicy * @returns {string} referrerPolicy */ function validateReferrerPolicy(referrerPolicy) { if (!ReferrerPolicy.has(referrerPolicy)) { throw new TypeError(`Invalid referrerPolicy: ${referrerPolicy}`); } return referrerPolicy; } /** * @see {@link https://w3c.github.io/webappsec-secure-contexts/#is-origin-trustworthy|Referrer Policy §3.2. Is origin potentially trustworthy?} * @param {external:URL} url * @returns `true`: "Potentially Trustworthy", `false`: "Not Trustworthy" */ function isOriginPotentiallyTrustworthy(url) { // 1. If origin is an opaque origin, return "Not Trustworthy". // Not applicable // 2. Assert: origin is a tuple origin. // Not for implementations // 3. If origin's scheme is either "https" or "wss", return "Potentially Trustworthy". if (/^(http|ws)s:$/.test(url.protocol)) { return true; } // 4. If origin's host component matches one of the CIDR notations 127.0.0.0/8 or ::1/128 [RFC4632], return "Potentially Trustworthy". const hostIp = url.host.replace(/(^\[)|(]$)/g, ''); const hostIPVersion = (0,external_node_net_namespaceObject.isIP)(hostIp); if (hostIPVersion === 4 && /^127\./.test(hostIp)) { return true; } if (hostIPVersion === 6 && /^(((0+:){7})|(::(0+:){0,6}))0*1$/.test(hostIp)) { return true; } // 5. If origin's host component is "localhost" or falls within ".localhost", and the user agent conforms to the name resolution rules in [let-localhost-be-localhost], return "Potentially Trustworthy". // We are returning FALSE here because we cannot ensure conformance to // let-localhost-be-loalhost (https://tools.ietf.org/html/draft-west-let-localhost-be-localhost) if (url.host === 'localhost' || url.host.endsWith('.localhost')) { return false; } // 6. If origin's scheme component is file, return "Potentially Trustworthy". if (url.protocol === 'file:') { return true; } // 7. If origin's scheme component is one which the user agent considers to be authenticated, return "Potentially Trustworthy". // Not supported // 8. If origin has been configured as a trustworthy origin, return "Potentially Trustworthy". // Not supported // 9. Return "Not Trustworthy". return false; } /** * @see {@link https://w3c.github.io/webappsec-secure-contexts/#is-url-trustworthy|Referrer Policy §3.3. Is url potentially trustworthy?} * @param {external:URL} url * @returns `true`: "Potentially Trustworthy", `false`: "Not Trustworthy" */ function isUrlPotentiallyTrustworthy(url) { // 1. If url is "about:blank" or "about:srcdoc", return "Potentially Trustworthy". if (/^about:(blank|srcdoc)$/.test(url)) { return true; } // 2. If url's scheme is "data", return "Potentially Trustworthy". if (url.protocol === 'data:') { return true; } // Note: The origin of blob: and filesystem: URLs is the origin of the context in which they were // created. Therefore, blobs created in a trustworthy origin will themselves be potentially // trustworthy. if (/^(blob|filesystem):$/.test(url.protocol)) { return true; } // 3. Return the result of executing §3.2 Is origin potentially trustworthy? on url's origin. return isOriginPotentiallyTrustworthy(url); } /** * Modifies the referrerURL to enforce any extra security policy considerations. * @see {@link https://w3c.github.io/webappsec-referrer-policy/#determine-requests-referrer|Referrer Policy §8.3. Determine request's Referrer}, step 7 * @callback module:utils/referrer~referrerURLCallback * @param {external:URL} referrerURL * @returns {external:URL} modified referrerURL */ /** * Modifies the referrerOrigin to enforce any extra security policy considerations. * @see {@link https://w3c.github.io/webappsec-referrer-policy/#determine-requests-referrer|Referrer Policy §8.3. Determine request's Referrer}, step 7 * @callback module:utils/referrer~referrerOriginCallback * @param {external:URL} referrerOrigin * @returns {external:URL} modified referrerOrigin */ /** * @see {@link https://w3c.github.io/webappsec-referrer-policy/#determine-requests-referrer|Referrer Policy §8.3. Determine request's Referrer} * @param {Request} request * @param {object} o * @param {module:utils/referrer~referrerURLCallback} o.referrerURLCallback * @param {module:utils/referrer~referrerOriginCallback} o.referrerOriginCallback * @returns {external:URL} Request's referrer */ function determineRequestsReferrer(request, {referrerURLCallback, referrerOriginCallback} = {}) { // There are 2 notes in the specification about invalid pre-conditions. We return null, here, for // these cases: // > Note: If request's referrer is "no-referrer", Fetch will not call into this algorithm. // > Note: If request's referrer policy is the empty string, Fetch will not call into this // > algorithm. if (request.referrer === 'no-referrer' || request.referrerPolicy === '') { return null; } // 1. Let policy be request's associated referrer policy. const policy = request.referrerPolicy; // 2. Let environment be request's client. // not applicable to node.js // 3. Switch on request's referrer: if (request.referrer === 'about:client') { return 'no-referrer'; } // "a URL": Let referrerSource be request's referrer. const referrerSource = request.referrer; // 4. Let request's referrerURL be the result of stripping referrerSource for use as a referrer. let referrerURL = stripURLForUseAsAReferrer(referrerSource); // 5. Let referrerOrigin be the result of stripping referrerSource for use as a referrer, with the // origin-only flag set to true. let referrerOrigin = stripURLForUseAsAReferrer(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; } // 7. The user agent MAY alter referrerURL or referrerOrigin at this point to enforce arbitrary // policy considerations in the interests of minimizing data leakage. For example, the user // agent could strip the URL down to an origin, modify its host, replace it with an empty // string, etc. if (referrerURLCallback) { referrerURL = referrerURLCallback(referrerURL); } if (referrerOriginCallback) { referrerOrigin = referrerOriginCallback(referrerOrigin); } // 8.Execute the statements corresponding to the value of policy: const currentURL = new URL(request.url); switch (policy) { case 'no-referrer': return 'no-referrer'; case 'origin': return referrerOrigin; case 'unsafe-url': return referrerURL; case 'strict-origin': // 1. 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'; } // 2. Return referrerOrigin. return referrerOrigin.toString(); case 'strict-origin-when-cross-origin': // 1. If the origin of referrerURL and the origin of request's current URL are the same, then // return referrerURL. if (referrerURL.origin === currentURL.origin) { 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 'same-origin': // 1. If the origin of referrerURL and the origin of request's current URL are the same, then // return referrerURL. if (referrerURL.origin === currentURL.origin) { return referrerURL; } // 2. Return no referrer. return 'no-referrer'; case 'origin-when-cross-origin': // 1. If the origin of referrerURL and the origin of request's current URL are the same, then // return referrerURL. if (referrerURL.origin === currentURL.origin) { return referrerURL; } // Return referrerOrigin. return referrerOrigin; case 'no-referrer-when-downgrade': // 1. 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'; } // 2. Return referrerURL. return referrerURL; default: throw new TypeError(`Invalid referrerPolicy: ${policy}`); } } /** * @see {@link https://w3c.github.io/webappsec-referrer-policy/#parse-referrer-policy-from-header|Referrer Policy §8.1. Parse a referrer policy from a Referrer-Policy header} * @param {Headers} headers Response headers * @returns {string} policy */ function parseReferrerPolicyFromHeader(headers) { // 1. Let policy-tokens be the result of extracting header list values given `Referrer-Policy` // and response’s header list. const policyTokens = (headers.get('referrer-policy') || '').split(/[,\s]+/); // 2. Let policy be the empty string. let policy = ''; // 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. // Note: This algorithm loops over multiple policy values to allow deployment of new policy // values with fallbacks for older user agents, as described in § 11.1 Unknown Policy Values. for (const token of policyTokens) { if (token && ReferrerPolicy.has(token)) { policy = token; } } // 4. Return policy. return policy; } ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/request.js /** * Request.js * * Request class contains server only options * * All spec algorithm step numbers are based on https://fetch.spec.whatwg.org/commit-snapshots/ae716822cb3a61843226cd090eefc6589446c1d2/. */ const request_INTERNALS = Symbol('Request internals'); /** * Check if `obj` is an instance of Request. * * @param {*} object * @return {boolean} */ const isRequest = object => { return ( typeof object === 'object' && typeof object[request_INTERNALS] === 'object' ); }; const doBadDataWarn = (0,external_node_util_namespaceObject.deprecate)(() => {}, '.data is not a valid RequestInit property, use .body instead', 'https://github.com/node-fetch/node-fetch/issues/1000 (request)'); /** * Request class * * Ref: https://fetch.spec.whatwg.org/#request-class * * @param Mixed input Url or Request instance * @param Object init Custom options * @return Void */ class Request extends Body { constructor(input, init = {}) { let parsedURL; // Normalize input and force URL to be encoded as UTF-8 (https://github.com/node-fetch/node-fetch/issues/245) if (isRequest(input)) { parsedURL = new URL(input.url); } else { parsedURL = new URL(input); input = {}; } if (parsedURL.username !== '' || parsedURL.password !== '') { throw new TypeError(`${parsedURL} is an url with embedded credentials.`); } let method = init.method || input.method || 'GET'; if (/^(delete|get|head|options|post|put)$/i.test(method)) { method = method.toUpperCase(); } if (!isRequest(init) && 'data' in init) { doBadDataWarn(); } // eslint-disable-next-line no-eq-null, eqeqeq if ((init.body != null || (isRequest(input) && input.body !== null)) && (method === 'GET' || method === 'HEAD')) { throw new TypeError('Request with GET/HEAD method cannot have body'); } const inputBody = init.body ? init.body : (isRequest(input) && input.body !== null ? clone(input) : null); super(inputBody, { size: init.size || input.size || 0 }); const headers = new Headers(init.headers || input.headers || {}); if (inputBody !== null && !headers.has('Content-Type')) { const contentType = extractContentType(inputBody, this); if (contentType) { headers.set('Content-Type', contentType); } } let signal = isRequest(input) ? input.signal : null; if ('signal' in init) { signal = init.signal; } // eslint-disable-next-line no-eq-null, eqeqeq if (signal != null && !isAbortSignal(signal)) { throw new TypeError('Expected signal to be an instanceof AbortSignal or EventTarget'); } // §5.4, Request constructor steps, step 15.1 // eslint-disable-next-line no-eq-null, eqeqeq let referrer = init.referrer == null ? input.referrer : init.referrer; if (referrer === '') { // §5.4, Request constructor steps, step 15.2 referrer = 'no-referrer'; } else if (referrer) { // §5.4, Request constructor steps, step 15.3.1, 15.3.2 const parsedReferrer = new URL(referrer); // §5.4, Request constructor steps, step 15.3.3, 15.3.4 referrer = /^about:(\/\/)?client$/.test(parsedReferrer) ? 'client' : parsedReferrer; } else { referrer = undefined; } this[request_INTERNALS] = { method, redirect: init.redirect || input.redirect || 'follow', headers, parsedURL, signal, referrer }; // Node-fetch-only options this.follow = init.follow === undefined ? (input.follow === undefined ? 20 : input.follow) : init.follow; this.compress = init.compress === undefined ? (input.compress === undefined ? true : input.compress) : init.compress; this.counter = init.counter || input.counter || 0; this.agent = init.agent || input.agent; this.highWaterMark = init.highWaterMark || input.highWaterMark || 16384; this.insecureHTTPParser = init.insecureHTTPParser || input.insecureHTTPParser || false; // §5.4, Request constructor steps, step 16. // Default is empty string per https://fetch.spec.whatwg.org/#concept-request-referrer-policy this.referrerPolicy = init.referrerPolicy || input.referrerPolicy || ''; } /** @returns {string} */ get method() { return this[request_INTERNALS].method; } /** @returns {string} */ get url() { return (0,external_node_url_namespaceObject.format)(this[request_INTERNALS].parsedURL); } /** @returns {Headers} */ get headers() { return this[request_INTERNALS].headers; } get redirect() { return this[request_INTERNALS].redirect; } /** @returns {AbortSignal} */ get signal() { return this[request_INTERNALS].signal; } // https://fetch.spec.whatwg.org/#dom-request-referrer get referrer() { if (this[request_INTERNALS].referrer === 'no-referrer') { return ''; } if (this[request_INTERNALS].referrer === 'client') { return 'about:client'; } if (this[request_INTERNALS].referrer) { return this[request_INTERNALS].referrer.toString(); } return undefined; } get referrerPolicy() { return this[request_INTERNALS].referrerPolicy; } set referrerPolicy(referrerPolicy) { this[request_INTERNALS].referrerPolicy = validateReferrerPolicy(referrerPolicy); } /** * Clone this request * * @return Request */ clone() { return new Request(this); } get [Symbol.toStringTag]() { return 'Request'; } } Object.defineProperties(Request.prototype, { method: {enumerable: true}, url: {enumerable: true}, headers: {enumerable: true}, redirect: {enumerable: true}, clone: {enumerable: true}, signal: {enumerable: true}, referrer: {enumerable: true}, referrerPolicy: {enumerable: true} }); /** * Convert a Request to Node.js http request options. * * @param {Request} request - A Request instance * @return The options object to be passed to http.request */ const getNodeRequestOptions = request => { const {parsedURL} = request[request_INTERNALS]; const headers = new Headers(request[request_INTERNALS].headers); // Fetch step 1.3 if (!headers.has('Accept')) { headers.set('Accept', '*/*'); } // HTTP-network-or-cache fetch steps 2.4-2.7 let contentLengthValue = null; if (request.body === null && /^(post|put)$/i.test(request.method)) { contentLengthValue = '0'; } if (request.body !== null) { const totalBytes = getTotalBytes(request); // Set Content-Length if totalBytes is a number (that is not NaN) if (typeof totalBytes === 'number' && !Number.isNaN(totalBytes)) { contentLengthValue = String(totalBytes); } } if (contentLengthValue) { headers.set('Content-Length', contentLengthValue); } // 4.1. Main fetch, step 2.6 // > If request's referrer policy is the empty string, then set request's referrer policy to the // > default referrer policy. if (request.referrerPolicy === '') { request.referrerPolicy = DEFAULT_REFERRER_POLICY; } // 4.1. Main fetch, step 2.7 // > If request's referrer is not "no-referrer", set request's referrer to the result of invoking // > determine request's referrer. if (request.referrer && request.referrer !== 'no-referrer') { request[request_INTERNALS].referrer = determineRequestsReferrer(request); } else { request[request_INTERNALS].referrer = 'no-referrer'; } // 4.5. HTTP-network-or-cache fetch, step 6.9 // > If httpRequest's referrer is a URL, then append `Referer`/httpRequest's referrer, serialized // > and isomorphic encoded, to httpRequest's header list. if (request[request_INTERNALS].referrer instanceof URL) { headers.set('Referer', request.referrer); } // HTTP-network-or-cache fetch step 2.11 if (!headers.has('User-Agent')) { headers.set('User-Agent', 'node-fetch'); } // HTTP-network-or-cache fetch step 2.15 if (request.compress && !headers.has('Accept-Encoding')) { headers.set('Accept-Encoding', 'gzip, deflate, br'); } let {agent} = request; if (typeof agent === 'function') { agent = agent(parsedURL); } if (!headers.has('Connection') && !agent) { headers.set('Connection', 'close'); } // HTTP-network fetch step 4.2 // chunked encoding is handled by Node.js const search = getSearch(parsedURL); // Pass the full URL directly to request(), but overwrite the following // options: const options = { // Overwrite search to retain trailing ? (issue #776) path: parsedURL.pathname + search, // The following options are not expressed in the URL method: request.method, headers: headers[Symbol.for('nodejs.util.inspect.custom')](), insecureHTTPParser: request.insecureHTTPParser, agent }; return { /** @type {URL} */ parsedURL, options }; }; ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/errors/abort-error.js /** * AbortError interface for cancelled requests */ class AbortError extends FetchBaseError { constructor(message, type = 'aborted') { super(message, type); } } // EXTERNAL MODULE: ./node_modules/fetch-blob/from.js + 2 modules var from = __nccwpck_require__(2777); ;// CONCATENATED MODULE: ./node_modules/node-fetch/src/index.js /** * Index.js * * a request API compatible with window.fetch * * All spec algorithm step numbers are based on https://fetch.spec.whatwg.org/commit-snapshots/ae716822cb3a61843226cd090eefc6589446c1d2/. */ const supportedSchemas = new Set(['data:', 'http:', 'https:']); /** * Fetch function * * @param {string | URL | import('./request').default} url - Absolute url or Request instance * @param {*} [options_] - Fetch options * @return {Promise} */ async function fetch(url, options_) { return new Promise((resolve, reject) => { // Build request object const request = new Request(url, options_); const {parsedURL, options} = getNodeRequestOptions(request); if (!supportedSchemas.has(parsedURL.protocol)) { throw new TypeError(`node-fetch cannot load ${url}. URL scheme "${parsedURL.protocol.replace(/:$/, '')}" is not supported.`); } if (parsedURL.protocol === 'data:') { const data = dist(request.url); const response = new Response(data, {headers: {'Content-Type': data.typeFull}}); resolve(response); return; } // Wrap http.request into fetch const send = (parsedURL.protocol === 'https:' ? external_node_https_namespaceObject : external_node_http_namespaceObject).request; const {signal} = request; let response = null; const abort = () => { const error = new AbortError('The operation was aborted.'); reject(error); if (request.body && request.body instanceof external_node_stream_namespaceObject.Readable) { request.body.destroy(error); } if (!response || !response.body) { return; } response.body.emit('error', error); }; if (signal && signal.aborted) { abort(); return; } const abortAndFinalize = () => { abort(); finalize(); }; // Send request const request_ = send(parsedURL.toString(), options); if (signal) { signal.addEventListener('abort', abortAndFinalize); } const finalize = () => { request_.abort(); if (signal) { signal.removeEventListener('abort', abortAndFinalize); } }; request_.on('error', error => { reject(new FetchError(`request to ${request.url} failed, reason: ${error.message}`, 'system', error)); finalize(); }); fixResponseChunkedTransferBadEnding(request_, error => { if (response && response.body) { response.body.destroy(error); } }); /* c8 ignore next 18 */ if (process.version < 'v14') { // Before Node.js 14, pipeline() does not fully support async iterators and does not always // properly handle when the socket close/end events are out of order. request_.on('socket', s => { let endedWithEventsCount; s.prependListener('end', () => { endedWithEventsCount = s._eventsCount; }); s.prependListener('close', hadError => { // if end happened before close but the socket didn't emit an error, do it now if (response && endedWithEventsCount < s._eventsCount && !hadError) { const error = new Error('Premature close'); error.code = 'ERR_STREAM_PREMATURE_CLOSE'; response.body.emit('error', error); } }); }); } request_.on('response', response_ => { request_.setTimeout(0); const headers = fromRawHeaders(response_.rawHeaders); // HTTP fetch step 5 if (isRedirect(response_.statusCode)) { // HTTP fetch step 5.2 const location = headers.get('Location'); // HTTP fetch step 5.3 let locationURL = null; try { locationURL = location === null ? null : new URL(location, request.url); } catch { // error here can only be invalid URL in Location: header // do not throw when options.redirect == manual // let the user extract the errorneous redirect URL if (request.redirect !== 'manual') { reject(new FetchError(`uri requested responds with an invalid redirect URL: ${location}`, 'invalid-redirect')); finalize(); return; } } // HTTP fetch step 5.5 switch (request.redirect) { case 'error': reject(new FetchError(`uri requested responds with a redirect, redirect mode is set to error: ${request.url}`, 'no-redirect')); finalize(); return; case 'manual': // Nothing to do break; case 'follow': { // HTTP-redirect fetch step 2 if (locationURL === null) { break; } // HTTP-redirect fetch step 5 if (request.counter >= request.follow) { reject(new FetchError(`maximum redirect reached at: ${request.url}`, 'max-redirect')); finalize(); return; } // HTTP-redirect fetch step 6 (counter increment) // Create a new Request object. const requestOptions = { headers: new Headers(request.headers), follow: request.follow, counter: request.counter + 1, agent: request.agent, compress: request.compress, method: request.method, body: clone(request), signal: request.signal, size: request.size, referrer: request.referrer, referrerPolicy: request.referrerPolicy }; // when forwarding sensitive headers like "Authorization", // "WWW-Authenticate", and "Cookie" to untrusted targets, // headers will be ignored when following a redirect to a domain // that is not a subdomain match or exact match of the initial domain. // For example, a redirect from "foo.com" to either "foo.com" or "sub.foo.com" // will forward the sensitive headers, but a redirect to "bar.com" will not. // headers will also be ignored when following a redirect to a domain using // a different protocol. For example, a redirect from "https://foo.com" to "http://foo.com" // will not forward the sensitive headers if (!isDomainOrSubdomain(request.url, locationURL) || !isSameProtocol(request.url, locationURL)) { for (const name of ['authorization', 'www-authenticate', 'cookie', 'cookie2']) { requestOptions.headers.delete(name); } } // HTTP-redirect fetch step 9 if (response_.statusCode !== 303 && request.body && options_.body instanceof external_node_stream_namespaceObject.Readable) { reject(new FetchError('Cannot follow redirect with body being a readable stream', 'unsupported-redirect')); finalize(); return; } // HTTP-redirect fetch step 11 if (response_.statusCode === 303 || ((response_.statusCode === 301 || response_.statusCode === 302) && request.method === 'POST')) { requestOptions.method = 'GET'; requestOptions.body = undefined; requestOptions.headers.delete('content-length'); } // HTTP-redirect fetch step 14 const responseReferrerPolicy = parseReferrerPolicyFromHeader(headers); if (responseReferrerPolicy) { requestOptions.referrerPolicy = responseReferrerPolicy; } // HTTP-redirect fetch step 15 resolve(fetch(new Request(locationURL, requestOptions))); finalize(); return; } default: return reject(new TypeError(`Redirect option '${request.redirect}' is not a valid value of RequestRedirect`)); } } // Prepare response if (signal) { response_.once('end', () => { signal.removeEventListener('abort', abortAndFinalize); }); } let body = (0,external_node_stream_namespaceObject.pipeline)(response_, new external_node_stream_namespaceObject.PassThrough(), error => { if (error) { reject(error); } }); // see https://github.com/nodejs/node/pull/29376 /* c8 ignore next 3 */ if (process.version < 'v12.10') { response_.on('aborted', abortAndFinalize); } const responseOptions = { url: request.url, status: response_.statusCode, statusText: response_.statusMessage, headers, size: request.size, counter: request.counter, highWaterMark: request.highWaterMark }; // HTTP-network fetch step 12.1.1.3 const codings = headers.get('Content-Encoding'); // HTTP-network fetch step 12.1.1.4: handle content codings // in following scenarios we ignore compression support // 1. compression support is disabled // 2. HEAD request // 3. no Content-Encoding header // 4. no content response (204) // 5. content not modified response (304) if (!request.compress || request.method === 'HEAD' || codings === null || response_.statusCode === 204 || response_.statusCode === 304) { response = new Response(body, responseOptions); resolve(response); return; } // For Node v6+ // 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. const zlibOptions = { flush: external_node_zlib_namespaceObject.Z_SYNC_FLUSH, finishFlush: external_node_zlib_namespaceObject.Z_SYNC_FLUSH }; // For gzip if (codings === 'gzip' || codings === 'x-gzip') { body = (0,external_node_stream_namespaceObject.pipeline)(body, external_node_zlib_namespaceObject.createGunzip(zlibOptions), error => { if (error) { reject(error); } }); response = new Response(body, responseOptions); resolve(response); return; } // For deflate if (codings === 'deflate' || codings === 'x-deflate') { // Handle the infamous raw deflate response from old servers // a hack for old IIS and Apache servers const raw = (0,external_node_stream_namespaceObject.pipeline)(response_, new external_node_stream_namespaceObject.PassThrough(), error => { if (error) { reject(error); } }); raw.once('data', chunk => { // See http://stackoverflow.com/questions/37519828 if ((chunk[0] & 0x0F) === 0x08) { body = (0,external_node_stream_namespaceObject.pipeline)(body, external_node_zlib_namespaceObject.createInflate(), error => { if (error) { reject(error); } }); } else { body = (0,external_node_stream_namespaceObject.pipeline)(body, external_node_zlib_namespaceObject.createInflateRaw(), error => { if (error) { reject(error); } }); } response = new Response(body, responseOptions); resolve(response); }); raw.once('end', () => { // Some old IIS servers return zero-length OK deflate responses, so // 'data' is never emitted. See https://github.com/node-fetch/node-fetch/pull/903 if (!response) { response = new Response(body, responseOptions); resolve(response); } }); return; } // For br if (codings === 'br') { body = (0,external_node_stream_namespaceObject.pipeline)(body, external_node_zlib_namespaceObject.createBrotliDecompress(), error => { if (error) { reject(error); } }); response = new Response(body, responseOptions); resolve(response); return; } // Otherwise, use response as-is response = new Response(body, responseOptions); resolve(response); }); // eslint-disable-next-line promise/prefer-await-to-then writeToStream(request_, request).catch(reject); }); } function fixResponseChunkedTransferBadEnding(request, errorCallback) { const LAST_CHUNK = external_node_buffer_namespaceObject.Buffer.from('0\r\n\r\n'); let isChunkedTransfer = false; let properLastChunkReceived = false; let previousChunk; request.on('response', response => { const {headers} = response; isChunkedTransfer = headers['transfer-encoding'] === 'chunked' && !headers['content-length']; }); request.on('socket', socket => { const onSocketClose = () => { if (isChunkedTransfer && !properLastChunkReceived) { const error = new Error('Premature close'); error.code = 'ERR_STREAM_PREMATURE_CLOSE'; errorCallback(error); } }; const onData = buf => { properLastChunkReceived = external_node_buffer_namespaceObject.Buffer.compare(buf.slice(-5), LAST_CHUNK) === 0; // Sometimes final 0-length chunk and end of message code are in separate packets if (!properLastChunkReceived && previousChunk) { properLastChunkReceived = ( external_node_buffer_namespaceObject.Buffer.compare(previousChunk.slice(-3), LAST_CHUNK.slice(0, 3)) === 0 && external_node_buffer_namespaceObject.Buffer.compare(buf.slice(-2), LAST_CHUNK.slice(3)) === 0 ); } previousChunk = buf; }; socket.prependListener('close', onSocketClose); socket.on('data', onData); request.on('close', () => { socket.removeListener('close', onSocketClose); socket.removeListener('data', onData); }); }); } /***/ }) /******/ }); /************************************************************************/ /******/ // The module cache /******/ var __webpack_module_cache__ = {}; /******/ /******/ // The require function /******/ function __nccwpck_require__(moduleId) { /******/ // Check if module is in cache /******/ var cachedModule = __webpack_module_cache__[moduleId]; /******/ if (cachedModule !== undefined) { /******/ return cachedModule.exports; /******/ } /******/ // Create a new module (and put it into the cache) /******/ var module = __webpack_module_cache__[moduleId] = { /******/ // no module.id needed /******/ // no module.loaded needed /******/ exports: {} /******/ }; /******/ /******/ // Execute the module function /******/ var threw = true; /******/ try { /******/ __webpack_modules__[moduleId].call(module.exports, module, module.exports, __nccwpck_require__); /******/ threw = false; /******/ } finally { /******/ if(threw) delete __webpack_module_cache__[moduleId]; /******/ } /******/ /******/ // Return the exports of the module /******/ return module.exports; /******/ } /******/ /******/ // expose the modules object (__webpack_modules__) /******/ __nccwpck_require__.m = __webpack_modules__; /******/ /************************************************************************/ /******/ /* webpack/runtime/define property getters */ /******/ (() => { /******/ // define getter functions for harmony exports /******/ __nccwpck_require__.d = (exports, definition) => { /******/ for(var key in definition) { /******/ if(__nccwpck_require__.o(definition, key) && !__nccwpck_require__.o(exports, key)) { /******/ Object.defineProperty(exports, key, { enumerable: true, get: definition[key] }); /******/ } /******/ } /******/ }; /******/ })(); /******/ /******/ /* webpack/runtime/ensure chunk */ /******/ (() => { /******/ __nccwpck_require__.f = {}; /******/ // This file contains only the entry chunk. /******/ // The chunk loading function for additional chunks /******/ __nccwpck_require__.e = (chunkId) => { /******/ return Promise.all(Object.keys(__nccwpck_require__.f).reduce((promises, key) => { /******/ __nccwpck_require__.f[key](chunkId, promises); /******/ return promises; /******/ }, [])); /******/ }; /******/ })(); /******/ /******/ /* webpack/runtime/get javascript chunk filename */ /******/ (() => { /******/ // This function allow to reference async chunks /******/ __nccwpck_require__.u = (chunkId) => { /******/ // return url for filenames based on template /******/ return "" + chunkId + ".index.js"; /******/ }; /******/ })(); /******/ /******/ /* webpack/runtime/hasOwnProperty shorthand */ /******/ (() => { /******/ __nccwpck_require__.o = (obj, prop) => (Object.prototype.hasOwnProperty.call(obj, prop)) /******/ })(); /******/ /******/ /* webpack/runtime/make namespace object */ /******/ (() => { /******/ // define __esModule on exports /******/ __nccwpck_require__.r = (exports) => { /******/ if(typeof Symbol !== 'undefined' && Symbol.toStringTag) { /******/ Object.defineProperty(exports, Symbol.toStringTag, { value: 'Module' }); /******/ } /******/ Object.defineProperty(exports, '__esModule', { value: true }); /******/ }; /******/ })(); /******/ /******/ /* webpack/runtime/compat */ /******/ /******/ if (typeof __nccwpck_require__ !== 'undefined') __nccwpck_require__.ab = __dirname + "/"; /******/ /******/ /* webpack/runtime/require chunk loading */ /******/ (() => { /******/ // no baseURI /******/ /******/ // object to store loaded chunks /******/ // "1" means "loaded", otherwise not loaded yet /******/ var installedChunks = { /******/ 179: 1 /******/ }; /******/ /******/ // no on chunks loaded /******/ /******/ var installChunk = (chunk) => { /******/ var moreModules = chunk.modules, chunkIds = chunk.ids, runtime = chunk.runtime; /******/ for(var moduleId in moreModules) { /******/ if(__nccwpck_require__.o(moreModules, moduleId)) { /******/ __nccwpck_require__.m[moduleId] = moreModules[moduleId]; /******/ } /******/ } /******/ if(runtime) runtime(__nccwpck_require__); /******/ for(var i = 0; i < chunkIds.length; i++) /******/ installedChunks[chunkIds[i]] = 1; /******/ /******/ }; /******/ /******/ // require() chunk loading for javascript /******/ __nccwpck_require__.f.require = (chunkId, promises) => { /******/ // "1" is the signal for "already loaded" /******/ if(!installedChunks[chunkId]) { /******/ if(true) { // all chunks have JS /******/ installChunk(require("./" + __nccwpck_require__.u(chunkId))); /******/ } else installedChunks[chunkId] = 1; /******/ } /******/ }; /******/ /******/ // no external install chunk /******/ /******/ // no HMR /******/ /******/ // no HMR manifest /******/ })(); /******/ /************************************************************************/ /******/ /******/ // startup /******/ // Load entry module and return exports /******/ // This entry module is referenced by other modules so it can't be inlined /******/ var __webpack_exports__ = __nccwpck_require__(399); /******/ module.exports = __webpack_exports__; /******/ /******/ })() ;