/******/ (() => { // webpackBootstrap
/******/ var __webpack_modules__ = ({
/***/ 5890:
/***/ (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.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k);
__setModuleDefault(result, mod);
return result;
};
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.FileFinder = void 0;
const glob = __importStar(__nccwpck_require__(2162));
const fs_1 = __nccwpck_require__(5747);
const core_1 = __nccwpck_require__(3199);
const path = __importStar(__nccwpck_require__(5622));
const util_1 = __nccwpck_require__(1669);
const stats = util_1.promisify(fs_1.stat);
class FileFinder {
constructor(searchPath, globOptions) {
this.searchPath = searchPath;
this.globOptions = globOptions || FileFinder.DefaultGlobOptions;
}
findFiles() {
return __awaiter(this, void 0, void 0, function* () {
const searchResults = [];
const globber = yield glob.create(this.searchPath, this.globOptions);
const rawSearchResults = yield globber.glob();
/*
Files are saved with case insensitivity. Uploading both a.txt and A.txt will files to be overwritten
Detect any files that could be overwritten for user awareness
*/
const set = new Set();
/*
Directories will be rejected if attempted to be uploaded. This includes just empty
directories so filter any directories out from the raw search results
*/
for (const searchResult of rawSearchResults) {
const fileStats = yield stats(searchResult);
// isDirectory() returns false for symlinks if using fs.lstat(), make sure to use fs.stat() instead
if (!fileStats.isDirectory()) {
core_1.debug(`File:${searchResult} was found using the provided searchPath`);
searchResults.push(searchResult);
// detect any files that would be overwritten because of case insensitivity
if (set.has(searchResult.toLowerCase())) {
core_1.info(`Uploads are case insensitive: ${searchResult} was detected that it will be overwritten by another file with the same path`);
}
else {
set.add(searchResult.toLowerCase());
}
}
else {
core_1.debug(`Removing ${searchResult} from rawSearchResults because it is a directory`);
}
}
// Calculate the root directory for the artifact using the search paths that were utilized
const searchPaths = globber.getSearchPaths();
if (searchPaths.length > 1) {
core_1.info(`Multiple search paths detected. Calculating the least common ancestor of all paths`);
const lcaSearchPath = this.getMultiPathLCA(searchPaths);
core_1.info(`The least common ancestor is ${lcaSearchPath}. This will be the root directory of the artifact`);
return {
filesToUpload: searchResults,
rootDirectory: lcaSearchPath
};
}
/*
Special case for a single file artifact that is uploaded without a directory or wildcard pattern. The directory structure is
not preserved and the root directory will be the single files parent directory
*/
if (searchResults.length === 1 && searchPaths[0] === searchResults[0]) {
return {
filesToUpload: searchResults,
rootDirectory: path.dirname(searchResults[0])
};
}
return {
filesToUpload: searchResults,
rootDirectory: searchPaths[0]
};
});
}
getMultiPathLCA(searchPaths) {
if (searchPaths.length < 2) {
throw new Error('At least two search paths must be provided');
}
const commonPaths = new Array();
const splitPaths = new Array();
let smallestPathLength = Number.MAX_SAFE_INTEGER;
// split each of the search paths using the platform specific separator
for (const searchPath of searchPaths) {
core_1.debug(`Using search path ${searchPath}`);
const splitSearchPath = path.normalize(searchPath).split(path.sep);
// keep track of the smallest path length so that we don't accidentally later go out of bounds
smallestPathLength = Math.min(smallestPathLength, splitSearchPath.length);
splitPaths.push(splitSearchPath);
}
// on Unix-like file systems, the file separator exists at the beginning of the file path, make sure to preserve it
if (searchPaths[0].startsWith(path.sep)) {
commonPaths.push(path.sep);
}
let splitIndex = 0;
// function to check if the paths are the same at a specific index
function isPathTheSame() {
const compare = splitPaths[0][splitIndex];
for (let i = 1; i < splitPaths.length; i++) {
if (compare !== splitPaths[i][splitIndex]) {
// a non-common index has been reached
return false;
}
}
return true;
}
// loop over all the search paths until there is a non-common ancestor or we go out of bounds
while (splitIndex < smallestPathLength) {
if (!isPathTheSame()) {
break;
}
// if all are the same, add to the end result & increment the index
commonPaths.push(splitPaths[0][splitIndex]);
splitIndex++;
}
return path.join(...commonPaths);
}
}
exports.FileFinder = FileFinder;
FileFinder.DefaultGlobOptions = {
followSymbolicLinks: true,
implicitDescendants: true,
omitBrokenSymbolicLinks: true
};
//# sourceMappingURL=FileFinder.js.map
/***/ }),
/***/ 9662:
/***/ (function(__unused_webpack_module, exports, __nccwpck_require__) {
"use strict";
var __importDefault = (this && this.__importDefault) || function (mod) {
return (mod && mod.__esModule) ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.Inputs = void 0;
const core_1 = __importDefault(__nccwpck_require__(3199));
const NoFileOption_1 = __nccwpck_require__(3443);
class Inputs {
static get ArtifactName() {
return core_1.default.getInput("name");
}
static get ArtifactPath() {
return core_1.default.getInput("path");
}
static get Retention() {
return core_1.default.getInput("retention-days");
}
static get Endpoint() {
return core_1.default.getInput("nextcloud-url");
}
static get Username() {
return core_1.default.getInput("nextcloud-username");
}
static get Password() {
return core_1.default.getInput("nextcloud-password");
}
static get NoFileBehvaior() {
const notFoundAction = core_1.default.getInput("if-no-files-found");
const noFileBehavior = NoFileOption_1.NoFileOption[notFoundAction];
if (!noFileBehavior) {
core_1.default.setFailed(`Unrecognized ${"ifNoFilesFound"} input. Provided: ${notFoundAction}. Available options: ${Object.keys(NoFileOption_1.NoFileOption)}`);
}
return noFileBehavior;
}
}
exports.Inputs = Inputs;
//# sourceMappingURL=Inputs.js.map
/***/ }),
/***/ 3443:
/***/ ((__unused_webpack_module, exports) => {
"use strict";
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.NoFileOption = void 0;
var NoFileOption;
(function (NoFileOption) {
/**
* Default. Output a warning but do not fail the action
*/
NoFileOption["warn"] = "warn";
/**
* Fail the action with an error message
*/
NoFileOption["error"] = "error";
/**
* Do not output any warnings or errors, the action does not fail
*/
NoFileOption["ignore"] = "ignore";
})(NoFileOption = exports.NoFileOption || (exports.NoFileOption = {}));
//# sourceMappingURL=NoFileOption.js.map
/***/ }),
/***/ 5658:
/***/ (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());
});
};
var __importDefault = (this && this.__importDefault) || function (mod) {
return (mod && mod.__esModule) ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.NextcloudArtifact = void 0;
const core_1 = __importDefault(__nccwpck_require__(3199));
const FileFinder_1 = __nccwpck_require__(5890);
const Inputs_1 = __nccwpck_require__(9662);
const NextcloudClient_1 = __nccwpck_require__(6059);
const NoFileOption_1 = __nccwpck_require__(3443);
class NextcloudArtifact {
constructor(name, path, errorBehavior) {
this.name = name;
this.path = path;
this.errorBehavior = errorBehavior;
}
run() {
return __awaiter(this, void 0, void 0, function* () {
const fileFinder = new FileFinder_1.FileFinder(this.path);
const files = yield fileFinder.findFiles();
if (files.filesToUpload.length > 0) {
yield this.uploadFiles(files);
}
else {
this.logNoFilesFound();
}
});
}
uploadFiles(files) {
return __awaiter(this, void 0, void 0, function* () {
this.logUpload(files.filesToUpload.length, files.rootDirectory);
const client = new NextcloudClient_1.NextcloudClient(Inputs_1.Inputs.Endpoint, this.name, files.rootDirectory);
yield client.uploadFiles(files.filesToUpload);
});
}
logUpload(fileCount, rootDirectory) {
const s = fileCount === 1 ? '' : 's';
core_1.default.info(`With the provided path, there will be ${fileCount} file${s} uploaded`);
core_1.default.debug(`Root artifact directory is ${rootDirectory}`);
if (fileCount > 10000) {
core_1.default.warning(`There are over 10,000 files in this artifact, consider create an archive before upload to improve the upload performance.`);
}
}
logNoFilesFound() {
const errorMessage = `No files were found with the provided path: ${this.path}. No artifacts will be uploaded.`;
switch (this.errorBehavior) {
case NoFileOption_1.NoFileOption.warn: {
core_1.default.warning(errorMessage);
break;
}
case NoFileOption_1.NoFileOption.error: {
core_1.default.setFailed(errorMessage);
break;
}
case NoFileOption_1.NoFileOption.ignore: {
core_1.default.info(errorMessage);
break;
}
}
}
}
exports.NextcloudArtifact = NextcloudArtifact;
//# sourceMappingURL=NextcloudArtifact.js.map
/***/ }),
/***/ 6059:
/***/ (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.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k);
__setModuleDefault(result, mod);
return result;
};
var __awaiter = (this && this.__awaiter) || function (thisArg, _arguments, P, generator) {
function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); }
return new (P || (P = Promise))(function (resolve, reject) {
function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } }
function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } }
function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); }
step((generator = generator.apply(thisArg, _arguments || [])).next());
});
};
var __importDefault = (this && this.__importDefault) || function (mod) {
return (mod && mod.__esModule) ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.NextcloudClient = void 0;
const fsSync = __importStar(__nccwpck_require__(5747));
const path = __importStar(__nccwpck_require__(5622));
const core_1 = __importDefault(__nccwpck_require__(3199));
const os = __importStar(__nccwpck_require__(2087));
const crypto_1 = __nccwpck_require__(6417);
const archiver = __importStar(__nccwpck_require__(6280));
const node_fetch_1 = __importDefault(__nccwpck_require__(8100));
const Inputs_1 = __nccwpck_require__(9662);
const btoa_1 = __importDefault(__nccwpck_require__(8159));
const fs = fsSync.promises;
class NextcloudClient {
constructor(endpoint, artifact, rootDirectory) {
this.endpoint = endpoint;
this.artifact = artifact;
this.rootDirectory = rootDirectory;
this.guid = crypto_1.randomUUID();
this.headers = { 'Authorization': 'Basic ' + btoa_1.default(`${Inputs_1.Inputs.Username}:${Inputs_1.Inputs.Password}`) };
}
uploadFiles(files) {
return __awaiter(this, void 0, void 0, function* () {
const spec = this.uploadSpec(files);
var zip = yield this.zipFiles(spec);
const path = yield this.upload(zip);
yield this.shareFile(path);
});
}
uploadSpec(files) {
const specifications = [];
if (!fsSync.existsSync(this.rootDirectory)) {
throw new Error(`this.rootDirectory ${this.rootDirectory} does not exist`);
}
if (!fsSync.lstatSync(this.rootDirectory).isDirectory()) {
throw new Error(`this.rootDirectory ${this.rootDirectory} is not a valid directory`);
}
// Normalize and resolve, this allows for either absolute or relative paths to be used
let root = path.normalize(this.rootDirectory);
root = path.resolve(root);
/*
Example to demonstrate behavior
Input:
artifactName: my-artifact
rootDirectory: '/home/user/files/plz-upload'
artifactFiles: [
'/home/user/files/plz-upload/file1.txt',
'/home/user/files/plz-upload/file2.txt',
'/home/user/files/plz-upload/dir/file3.txt'
]
Output:
specifications: [
['/home/user/files/plz-upload/file1.txt', 'my-artifact/file1.txt'],
['/home/user/files/plz-upload/file1.txt', 'my-artifact/file2.txt'],
['/home/user/files/plz-upload/file1.txt', 'my-artifact/dir/file3.txt']
]
*/
for (let file of files) {
if (!fsSync.existsSync(file)) {
throw new Error(`File ${file} does not exist`);
}
if (!fsSync.lstatSync(file).isDirectory()) {
// Normalize and resolve, this allows for either absolute or relative paths to be used
file = path.normalize(file);
file = path.resolve(file);
if (!file.startsWith(root)) {
throw new Error(`The rootDirectory: ${root} is not a parent directory of the file: ${file}`);
}
// Check for forbidden characters in file paths that will be rejected during upload
const uploadPath = file.replace(root, '');
/*
uploadFilePath denotes where the file will be uploaded in the file container on the server. During a run, if multiple artifacts are uploaded, they will all
be saved in the same container. The artifact name is used as the root directory in the container to separate and distinguish uploaded artifacts
path.join handles all the following cases and would return 'artifact-name/file-to-upload.txt
join('artifact-name/', 'file-to-upload.txt')
join('artifact-name/', '/file-to-upload.txt')
join('artifact-name', 'file-to-upload.txt')
join('artifact-name', '/file-to-upload.txt')
*/
specifications.push({
absolutePath: file,
uploadPath: path.join(this.artifact, uploadPath)
});
}
else {
// Directories are rejected by the server during upload
core_1.default.debug(`Removing ${file} from rawSearchResults because it is a directory`);
}
}
return specifications;
}
zipFiles(specs) {
return __awaiter(this, void 0, void 0, function* () {
const tempArtifactDir = path.join(os.tmpdir(), this.guid);
const artifactPath = path.join(tempArtifactDir, `artifact-${this.artifact}`);
yield fs.mkdir(artifactPath, { recursive: true });
for (let spec of specs) {
yield fs.copyFile(spec.absolutePath, path.join(artifactPath, spec.uploadPath));
}
const archivePath = path.join(artifactPath, `${this.artifact}.zip`);
yield this.zip(path.join(artifactPath, this.artifact), archivePath);
return archivePath;
});
}
zip(dirpath, destpath) {
return __awaiter(this, void 0, void 0, function* () {
const archive = archiver.create('zip', { zlib: { level: 9 } });
const stream = fsSync.createWriteStream(destpath);
archive.directory(dirpath, false)
.on('error', e => Promise.reject())
.on('close', () => Promise.resolve())
.pipe(stream);
return archive.finalize();
});
}
upload(file) {
return __awaiter(this, void 0, void 0, function* () {
const filePath = `/artifacts/${this.guid}/${this.artifact}`;
const url = this.endpoint + `/remote.php/dav/files/${Inputs_1.Inputs.Username}` + filePath;
const stream = fsSync.createReadStream(file);
const res = yield node_fetch_1.default(url, {
method: 'PUT',
body: stream,
headers: this.headers
});
core_1.default.debug(yield res.json());
return filePath;
});
}
shareFile(nextcloudPath) {
return __awaiter(this, void 0, void 0, function* () {
const url = this.endpoint + `/ocs/v2.php/apps/files_sharing/api/v1/shares`;
const body = {
path: nextcloudPath,
shareType: 3,
publicUpload: "false",
permissions: 1,
};
const res = yield node_fetch_1.default(url, {
method: 'PUT',
headers: this.headers,
body: JSON.stringify(body),
});
core_1.default.debug(yield res.json());
});
}
}
exports.NextcloudClient = NextcloudClient;
//# sourceMappingURL=NextcloudClient.js.map
/***/ }),
/***/ 6552:
/***/ (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__(2087));
const utils_1 = __nccwpck_require__(2916);
/**
* 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
/***/ }),
/***/ 3199:
/***/ (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.getState = exports.saveState = exports.group = exports.endGroup = exports.startGroup = exports.info = exports.warning = exports.error = exports.debug = exports.isDebug = exports.setFailed = exports.setCommandEcho = exports.setOutput = exports.getBooleanInput = exports.getInput = exports.addPath = exports.setSecret = exports.exportVariable = exports.ExitCode = void 0;
const command_1 = __nccwpck_require__(6552);
const file_command_1 = __nccwpck_require__(8674);
const utils_1 = __nccwpck_require__(2916);
const os = __importStar(__nccwpck_require__(2087));
const path = __importStar(__nccwpck_require__(5622));
/**
* 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) {
const delimiter = '_GitHubActionsFileCommandDelimeter_';
const commandValue = `${name}<<${delimiter}${os.EOL}${convertedVal}${os.EOL}${delimiter}`;
file_command_1.issueCommand('ENV', commandValue);
}
else {
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.issueCommand('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 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) {
process.stdout.write(os.EOL);
command_1.issueCommand('set-output', { name }, 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()
*/
function error(message) {
command_1.issue('error', message instanceof Error ? message.toString() : message);
}
exports.error = error;
/**
* Adds an warning issue
* @param message warning issue message. Errors will be converted to string via toString()
*/
function warning(message) {
command_1.issue('warning', message instanceof Error ? message.toString() : message);
}
exports.warning = warning;
/**
* 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) {
command_1.issueCommand('save-state', { name }, 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;
//# sourceMappingURL=core.js.map
/***/ }),
/***/ 8674:
/***/ (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.issueCommand = void 0;
// We use any as a valid input type
/* eslint-disable @typescript-eslint/no-explicit-any */
const fs = __importStar(__nccwpck_require__(5747));
const os = __importStar(__nccwpck_require__(2087));
const utils_1 = __nccwpck_require__(2916);
function issueCommand(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.issueCommand = issueCommand;
//# sourceMappingURL=file-command.js.map
/***/ }),
/***/ 2916:
/***/ ((__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.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;
//# sourceMappingURL=utils.js.map
/***/ }),
/***/ 2162:
/***/ (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.create = void 0;
const internal_globber_1 = __nccwpck_require__(2041);
/**
* Constructs a globber
*
* @param patterns Patterns separated by newlines
* @param options Glob options
*/
function create(patterns, options) {
return __awaiter(this, void 0, void 0, function* () {
return yield internal_globber_1.DefaultGlobber.create(patterns, options);
});
}
exports.create = create;
//# sourceMappingURL=glob.js.map
/***/ }),
/***/ 5052:
/***/ (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.getOptions = void 0;
const core = __importStar(__nccwpck_require__(3199));
/**
* Returns a copy with defaults filled in.
*/
function getOptions(copy) {
const result = {
followSymbolicLinks: true,
implicitDescendants: true,
omitBrokenSymbolicLinks: true
};
if (copy) {
if (typeof copy.followSymbolicLinks === 'boolean') {
result.followSymbolicLinks = copy.followSymbolicLinks;
core.debug(`followSymbolicLinks '${result.followSymbolicLinks}'`);
}
if (typeof copy.implicitDescendants === 'boolean') {
result.implicitDescendants = copy.implicitDescendants;
core.debug(`implicitDescendants '${result.implicitDescendants}'`);
}
if (typeof copy.omitBrokenSymbolicLinks === 'boolean') {
result.omitBrokenSymbolicLinks = copy.omitBrokenSymbolicLinks;
core.debug(`omitBrokenSymbolicLinks '${result.omitBrokenSymbolicLinks}'`);
}
}
return result;
}
exports.getOptions = getOptions;
//# sourceMappingURL=internal-glob-options-helper.js.map
/***/ }),
/***/ 2041:
/***/ (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());
});
};
var __asyncValues = (this && this.__asyncValues) || function (o) {
if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined.");
var m = o[Symbol.asyncIterator], i;
return m ? m.call(o) : (o = typeof __values === "function" ? __values(o) : o[Symbol.iterator](), i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i);
function verb(n) { i[n] = o[n] && function (v) { return new Promise(function (resolve, reject) { v = o[n](v), settle(resolve, reject, v.done, v.value); }); }; }
function settle(resolve, reject, d, v) { Promise.resolve(v).then(function(v) { resolve({ value: v, done: d }); }, reject); }
};
var __await = (this && this.__await) || function (v) { return this instanceof __await ? (this.v = v, this) : new __await(v); }
var __asyncGenerator = (this && this.__asyncGenerator) || function (thisArg, _arguments, generator) {
if (!Symbol.asyncIterator) throw new TypeError("Symbol.asyncIterator is not defined.");
var g = generator.apply(thisArg, _arguments || []), i, q = [];
return i = {}, verb("next"), verb("throw"), verb("return"), i[Symbol.asyncIterator] = function () { return this; }, i;
function verb(n) { if (g[n]) i[n] = function (v) { return new Promise(function (a, b) { q.push([n, v, a, b]) > 1 || resume(n, v); }); }; }
function resume(n, v) { try { step(g[n](v)); } catch (e) { settle(q[0][3], e); } }
function step(r) { r.value instanceof __await ? Promise.resolve(r.value.v).then(fulfill, reject) : settle(q[0][2], r); }
function fulfill(value) { resume("next", value); }
function reject(value) { resume("throw", value); }
function settle(f, v) { if (f(v), q.shift(), q.length) resume(q[0][0], q[0][1]); }
};
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.DefaultGlobber = void 0;
const core = __importStar(__nccwpck_require__(3199));
const fs = __importStar(__nccwpck_require__(5747));
const globOptionsHelper = __importStar(__nccwpck_require__(5052));
const path = __importStar(__nccwpck_require__(5622));
const patternHelper = __importStar(__nccwpck_require__(8899));
const internal_match_kind_1 = __nccwpck_require__(7049);
const internal_pattern_1 = __nccwpck_require__(8005);
const internal_search_state_1 = __nccwpck_require__(4252);
const IS_WINDOWS = process.platform === 'win32';
class DefaultGlobber {
constructor(options) {
this.patterns = [];
this.searchPaths = [];
this.options = globOptionsHelper.getOptions(options);
}
getSearchPaths() {
// Return a copy
return this.searchPaths.slice();
}
glob() {
var e_1, _a;
return __awaiter(this, void 0, void 0, function* () {
const result = [];
try {
for (var _b = __asyncValues(this.globGenerator()), _c; _c = yield _b.next(), !_c.done;) {
const itemPath = _c.value;
result.push(itemPath);
}
}
catch (e_1_1) { e_1 = { error: e_1_1 }; }
finally {
try {
if (_c && !_c.done && (_a = _b.return)) yield _a.call(_b);
}
finally { if (e_1) throw e_1.error; }
}
return result;
});
}
globGenerator() {
return __asyncGenerator(this, arguments, function* globGenerator_1() {
// Fill in defaults options
const options = globOptionsHelper.getOptions(this.options);
// Implicit descendants?
const patterns = [];
for (const pattern of this.patterns) {
patterns.push(pattern);
if (options.implicitDescendants &&
(pattern.trailingSeparator ||
pattern.segments[pattern.segments.length - 1] !== '**')) {
patterns.push(new internal_pattern_1.Pattern(pattern.negate, true, pattern.segments.concat('**')));
}
}
// Push the search paths
const stack = [];
for (const searchPath of patternHelper.getSearchPaths(patterns)) {
core.debug(`Search path '${searchPath}'`);
// Exists?
try {
// Intentionally using lstat. Detection for broken symlink
// will be performed later (if following symlinks).
yield __await(fs.promises.lstat(searchPath));
}
catch (err) {
if (err.code === 'ENOENT') {
continue;
}
throw err;
}
stack.unshift(new internal_search_state_1.SearchState(searchPath, 1));
}
// Search
const traversalChain = []; // used to detect cycles
while (stack.length) {
// Pop
const item = stack.pop();
// Match?
const match = patternHelper.match(patterns, item.path);
const partialMatch = !!match || patternHelper.partialMatch(patterns, item.path);
if (!match && !partialMatch) {
continue;
}
// Stat
const stats = yield __await(DefaultGlobber.stat(item, options, traversalChain)
// Broken symlink, or symlink cycle detected, or no longer exists
);
// Broken symlink, or symlink cycle detected, or no longer exists
if (!stats) {
continue;
}
// Directory
if (stats.isDirectory()) {
// Matched
if (match & internal_match_kind_1.MatchKind.Directory) {
yield yield __await(item.path);
}
// Descend?
else if (!partialMatch) {
continue;
}
// Push the child items in reverse
const childLevel = item.level + 1;
const childItems = (yield __await(fs.promises.readdir(item.path))).map(x => new internal_search_state_1.SearchState(path.join(item.path, x), childLevel));
stack.push(...childItems.reverse());
}
// File
else if (match & internal_match_kind_1.MatchKind.File) {
yield yield __await(item.path);
}
}
});
}
/**
* Constructs a DefaultGlobber
*/
static create(patterns, options) {
return __awaiter(this, void 0, void 0, function* () {
const result = new DefaultGlobber(options);
if (IS_WINDOWS) {
patterns = patterns.replace(/\r\n/g, '\n');
patterns = patterns.replace(/\r/g, '\n');
}
const lines = patterns.split('\n').map(x => x.trim());
for (const line of lines) {
// Empty or comment
if (!line || line.startsWith('#')) {
continue;
}
// Pattern
else {
result.patterns.push(new internal_pattern_1.Pattern(line));
}
}
result.searchPaths.push(...patternHelper.getSearchPaths(result.patterns));
return result;
});
}
static stat(item, options, traversalChain) {
return __awaiter(this, void 0, void 0, function* () {
// Note:
// `stat` returns info about the target of a symlink (or symlink chain)
// `lstat` returns info about a symlink itself
let stats;
if (options.followSymbolicLinks) {
try {
// Use `stat` (following symlinks)
stats = yield fs.promises.stat(item.path);
}
catch (err) {
if (err.code === 'ENOENT') {
if (options.omitBrokenSymbolicLinks) {
core.debug(`Broken symlink '${item.path}'`);
return undefined;
}
throw new Error(`No information found for the path '${item.path}'. This may indicate a broken symbolic link.`);
}
throw err;
}
}
else {
// Use `lstat` (not following symlinks)
stats = yield fs.promises.lstat(item.path);
}
// Note, isDirectory() returns false for the lstat of a symlink
if (stats.isDirectory() && options.followSymbolicLinks) {
// Get the realpath
const realPath = yield fs.promises.realpath(item.path);
// Fixup the traversal chain to match the item level
while (traversalChain.length >= item.level) {
traversalChain.pop();
}
// Test for a cycle
if (traversalChain.some((x) => x === realPath)) {
core.debug(`Symlink cycle detected for path '${item.path}' and realpath '${realPath}'`);
return undefined;
}
// Update the traversal chain
traversalChain.push(realPath);
}
return stats;
});
}
}
exports.DefaultGlobber = DefaultGlobber;
//# sourceMappingURL=internal-globber.js.map
/***/ }),
/***/ 7049:
/***/ ((__unused_webpack_module, exports) => {
"use strict";
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.MatchKind = void 0;
/**
* Indicates whether a pattern matches a path
*/
var MatchKind;
(function (MatchKind) {
/** Not matched */
MatchKind[MatchKind["None"] = 0] = "None";
/** Matched if the path is a directory */
MatchKind[MatchKind["Directory"] = 1] = "Directory";
/** Matched if the path is a regular file */
MatchKind[MatchKind["File"] = 2] = "File";
/** Matched */
MatchKind[MatchKind["All"] = 3] = "All";
})(MatchKind = exports.MatchKind || (exports.MatchKind = {}));
//# sourceMappingURL=internal-match-kind.js.map
/***/ }),
/***/ 8913:
/***/ (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 __importDefault = (this && this.__importDefault) || function (mod) {
return (mod && mod.__esModule) ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.safeTrimTrailingSeparator = exports.normalizeSeparators = exports.hasRoot = exports.hasAbsoluteRoot = exports.ensureAbsoluteRoot = exports.dirname = void 0;
const path = __importStar(__nccwpck_require__(5622));
const assert_1 = __importDefault(__nccwpck_require__(2357));
const IS_WINDOWS = process.platform === 'win32';
/**
* Similar to path.dirname except normalizes the path separators and slightly better handling for Windows UNC paths.
*
* For example, on Linux/macOS:
* - `/ => /`
* - `/hello => /`
*
* For example, on Windows:
* - `C:\ => C:\`
* - `C:\hello => C:\`
* - `C: => C:`
* - `C:hello => C:`
* - `\ => \`
* - `\hello => \`
* - `\\hello => \\hello`
* - `\\hello\world => \\hello\world`
*/
function dirname(p) {
// Normalize slashes and trim unnecessary trailing slash
p = safeTrimTrailingSeparator(p);
// Windows UNC root, e.g. \\hello or \\hello\world
if (IS_WINDOWS && /^\\\\[^\\]+(\\[^\\]+)?$/.test(p)) {
return p;
}
// Get dirname
let result = path.dirname(p);
// Trim trailing slash for Windows UNC root, e.g. \\hello\world\
if (IS_WINDOWS && /^\\\\[^\\]+\\[^\\]+\\$/.test(result)) {
result = safeTrimTrailingSeparator(result);
}
return result;
}
exports.dirname = dirname;
/**
* Roots the path if not already rooted. On Windows, relative roots like `\`
* or `C:` are expanded based on the current working directory.
*/
function ensureAbsoluteRoot(root, itemPath) {
assert_1.default(root, `ensureAbsoluteRoot parameter 'root' must not be empty`);
assert_1.default(itemPath, `ensureAbsoluteRoot parameter 'itemPath' must not be empty`);
// Already rooted
if (hasAbsoluteRoot(itemPath)) {
return itemPath;
}
// Windows
if (IS_WINDOWS) {
// Check for itemPath like C: or C:foo
if (itemPath.match(/^[A-Z]:[^\\/]|^[A-Z]:$/i)) {
let cwd = process.cwd();
assert_1.default(cwd.match(/^[A-Z]:\\/i), `Expected current directory to start with an absolute drive root. Actual '${cwd}'`);
// Drive letter matches cwd? Expand to cwd
if (itemPath[0].toUpperCase() === cwd[0].toUpperCase()) {
// Drive only, e.g. C:
if (itemPath.length === 2) {
// Preserve specified drive letter case (upper or lower)
return `${itemPath[0]}:\\${cwd.substr(3)}`;
}
// Drive + path, e.g. C:foo
else {
if (!cwd.endsWith('\\')) {
cwd += '\\';
}
// Preserve specified drive letter case (upper or lower)
return `${itemPath[0]}:\\${cwd.substr(3)}${itemPath.substr(2)}`;
}
}
// Different drive
else {
return `${itemPath[0]}:\\${itemPath.substr(2)}`;
}
}
// Check for itemPath like \ or \foo
else if (normalizeSeparators(itemPath).match(/^\\$|^\\[^\\]/)) {
const cwd = process.cwd();
assert_1.default(cwd.match(/^[A-Z]:\\/i), `Expected current directory to start with an absolute drive root. Actual '${cwd}'`);
return `${cwd[0]}:\\${itemPath.substr(1)}`;
}
}
assert_1.default(hasAbsoluteRoot(root), `ensureAbsoluteRoot parameter 'root' must have an absolute root`);
// Otherwise ensure root ends with a separator
if (root.endsWith('/') || (IS_WINDOWS && root.endsWith('\\'))) {
// Intentionally empty
}
else {
// Append separator
root += path.sep;
}
return root + itemPath;
}
exports.ensureAbsoluteRoot = ensureAbsoluteRoot;
/**
* On Linux/macOS, true if path starts with `/`. On Windows, true for paths like:
* `\\hello\share` and `C:\hello` (and using alternate separator).
*/
function hasAbsoluteRoot(itemPath) {
assert_1.default(itemPath, `hasAbsoluteRoot parameter 'itemPath' must not be empty`);
// Normalize separators
itemPath = normalizeSeparators(itemPath);
// Windows
if (IS_WINDOWS) {
// E.g. \\hello\share or C:\hello
return itemPath.startsWith('\\\\') || /^[A-Z]:\\/i.test(itemPath);
}
// E.g. /hello
return itemPath.startsWith('/');
}
exports.hasAbsoluteRoot = hasAbsoluteRoot;
/**
* On Linux/macOS, true if path starts with `/`. On Windows, true for paths like:
* `\`, `\hello`, `\\hello\share`, `C:`, and `C:\hello` (and using alternate separator).
*/
function hasRoot(itemPath) {
assert_1.default(itemPath, `isRooted parameter 'itemPath' must not be empty`);
// Normalize separators
itemPath = normalizeSeparators(itemPath);
// Windows
if (IS_WINDOWS) {
// E.g. \ or \hello or \\hello
// E.g. C: or C:\hello
return itemPath.startsWith('\\') || /^[A-Z]:/i.test(itemPath);
}
// E.g. /hello
return itemPath.startsWith('/');
}
exports.hasRoot = hasRoot;
/**
* Removes redundant slashes and converts `/` to `\` on Windows
*/
function normalizeSeparators(p) {
p = p || '';
// Windows
if (IS_WINDOWS) {
// Convert slashes on Windows
p = p.replace(/\//g, '\\');
// Remove redundant slashes
const isUnc = /^\\\\+[^\\]/.test(p); // e.g. \\hello
return (isUnc ? '\\' : '') + p.replace(/\\\\+/g, '\\'); // preserve leading \\ for UNC
}
// Remove redundant slashes
return p.replace(/\/\/+/g, '/');
}
exports.normalizeSeparators = normalizeSeparators;
/**
* Normalizes the path separators and trims the trailing separator (when safe).
* For example, `/foo/ => /foo` but `/ => /`
*/
function safeTrimTrailingSeparator(p) {
// Short-circuit if empty
if (!p) {
return '';
}
// Normalize separators
p = normalizeSeparators(p);
// No trailing slash
if (!p.endsWith(path.sep)) {
return p;
}
// Check '/' on Linux/macOS and '\' on Windows
if (p === path.sep) {
return p;
}
// On Windows check if drive root. E.g. C:\
if (IS_WINDOWS && /^[A-Z]:\\$/i.test(p)) {
return p;
}
// Otherwise trim trailing slash
return p.substr(0, p.length - 1);
}
exports.safeTrimTrailingSeparator = safeTrimTrailingSeparator;
//# sourceMappingURL=internal-path-helper.js.map
/***/ }),
/***/ 9259:
/***/ (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 __importDefault = (this && this.__importDefault) || function (mod) {
return (mod && mod.__esModule) ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.Path = void 0;
const path = __importStar(__nccwpck_require__(5622));
const pathHelper = __importStar(__nccwpck_require__(8913));
const assert_1 = __importDefault(__nccwpck_require__(2357));
const IS_WINDOWS = process.platform === 'win32';
/**
* Helper class for parsing paths into segments
*/
class Path {
/**
* Constructs a Path
* @param itemPath Path or array of segments
*/
constructor(itemPath) {
this.segments = [];
// String
if (typeof itemPath === 'string') {
assert_1.default(itemPath, `Parameter 'itemPath' must not be empty`);
// Normalize slashes and trim unnecessary trailing slash
itemPath = pathHelper.safeTrimTrailingSeparator(itemPath);
// Not rooted
if (!pathHelper.hasRoot(itemPath)) {
this.segments = itemPath.split(path.sep);
}
// Rooted
else {
// Add all segments, while not at the root
let remaining = itemPath;
let dir = pathHelper.dirname(remaining);
while (dir !== remaining) {
// Add the segment
const basename = path.basename(remaining);
this.segments.unshift(basename);
// Truncate the last segment
remaining = dir;
dir = pathHelper.dirname(remaining);
}
// Remainder is the root
this.segments.unshift(remaining);
}
}
// Array
else {
// Must not be empty
assert_1.default(itemPath.length > 0, `Parameter 'itemPath' must not be an empty array`);
// Each segment
for (let i = 0; i < itemPath.length; i++) {
let segment = itemPath[i];
// Must not be empty
assert_1.default(segment, `Parameter 'itemPath' must not contain any empty segments`);
// Normalize slashes
segment = pathHelper.normalizeSeparators(itemPath[i]);
// Root segment
if (i === 0 && pathHelper.hasRoot(segment)) {
segment = pathHelper.safeTrimTrailingSeparator(segment);
assert_1.default(segment === pathHelper.dirname(segment), `Parameter 'itemPath' root segment contains information for multiple segments`);
this.segments.push(segment);
}
// All other segments
else {
// Must not contain slash
assert_1.default(!segment.includes(path.sep), `Parameter 'itemPath' contains unexpected path separators`);
this.segments.push(segment);
}
}
}
}
/**
* Converts the path to it's string representation
*/
toString() {
// First segment
let result = this.segments[0];
// All others
let skipSlash = result.endsWith(path.sep) || (IS_WINDOWS && /^[A-Z]:$/i.test(result));
for (let i = 1; i < this.segments.length; i++) {
if (skipSlash) {
skipSlash = false;
}
else {
result += path.sep;
}
result += this.segments[i];
}
return result;
}
}
exports.Path = Path;
//# sourceMappingURL=internal-path.js.map
/***/ }),
/***/ 8899:
/***/ (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.partialMatch = exports.match = exports.getSearchPaths = void 0;
const pathHelper = __importStar(__nccwpck_require__(8913));
const internal_match_kind_1 = __nccwpck_require__(7049);
const IS_WINDOWS = process.platform === 'win32';
/**
* Given an array of patterns, returns an array of paths to search.
* Duplicates and paths under other included paths are filtered out.
*/
function getSearchPaths(patterns) {
// Ignore negate patterns
patterns = patterns.filter(x => !x.negate);
// Create a map of all search paths
const searchPathMap = {};
for (const pattern of patterns) {
const key = IS_WINDOWS
? pattern.searchPath.toUpperCase()
: pattern.searchPath;
searchPathMap[key] = 'candidate';
}
const result = [];
for (const pattern of patterns) {
// Check if already included
const key = IS_WINDOWS
? pattern.searchPath.toUpperCase()
: pattern.searchPath;
if (searchPathMap[key] === 'included') {
continue;
}
// Check for an ancestor search path
let foundAncestor = false;
let tempKey = key;
let parent = pathHelper.dirname(tempKey);
while (parent !== tempKey) {
if (searchPathMap[parent]) {
foundAncestor = true;
break;
}
tempKey = parent;
parent = pathHelper.dirname(tempKey);
}
// Include the search pattern in the result
if (!foundAncestor) {
result.push(pattern.searchPath);
searchPathMap[key] = 'included';
}
}
return result;
}
exports.getSearchPaths = getSearchPaths;
/**
* Matches the patterns against the path
*/
function match(patterns, itemPath) {
let result = internal_match_kind_1.MatchKind.None;
for (const pattern of patterns) {
if (pattern.negate) {
result &= ~pattern.match(itemPath);
}
else {
result |= pattern.match(itemPath);
}
}
return result;
}
exports.match = match;
/**
* Checks whether to descend further into the directory
*/
function partialMatch(patterns, itemPath) {
return patterns.some(x => !x.negate && x.partialMatch(itemPath));
}
exports.partialMatch = partialMatch;
//# sourceMappingURL=internal-pattern-helper.js.map
/***/ }),
/***/ 8005:
/***/ (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 __importDefault = (this && this.__importDefault) || function (mod) {
return (mod && mod.__esModule) ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.Pattern = void 0;
const os = __importStar(__nccwpck_require__(2087));
const path = __importStar(__nccwpck_require__(5622));
const pathHelper = __importStar(__nccwpck_require__(8913));
const assert_1 = __importDefault(__nccwpck_require__(2357));
const minimatch_1 = __nccwpck_require__(8083);
const internal_match_kind_1 = __nccwpck_require__(7049);
const internal_path_1 = __nccwpck_require__(9259);
const IS_WINDOWS = process.platform === 'win32';
class Pattern {
constructor(patternOrNegate, isImplicitPattern = false, segments, homedir) {
/**
* Indicates whether matches should be excluded from the result set
*/
this.negate = false;
// Pattern overload
let pattern;
if (typeof patternOrNegate === 'string') {
pattern = patternOrNegate.trim();
}
// Segments overload
else {
// Convert to pattern
segments = segments || [];
assert_1.default(segments.length, `Parameter 'segments' must not empty`);
const root = Pattern.getLiteral(segments[0]);
assert_1.default(root && pathHelper.hasAbsoluteRoot(root), `Parameter 'segments' first element must be a root path`);
pattern = new internal_path_1.Path(segments).toString().trim();
if (patternOrNegate) {
pattern = `!${pattern}`;
}
}
// Negate
while (pattern.startsWith('!')) {
this.negate = !this.negate;
pattern = pattern.substr(1).trim();
}
// Normalize slashes and ensures absolute root
pattern = Pattern.fixupPattern(pattern, homedir);
// Segments
this.segments = new internal_path_1.Path(pattern).segments;
// Trailing slash indicates the pattern should only match directories, not regular files
this.trailingSeparator = pathHelper
.normalizeSeparators(pattern)
.endsWith(path.sep);
pattern = pathHelper.safeTrimTrailingSeparator(pattern);
// Search path (literal path prior to the first glob segment)
let foundGlob = false;
const searchSegments = this.segments
.map(x => Pattern.getLiteral(x))
.filter(x => !foundGlob && !(foundGlob = x === ''));
this.searchPath = new internal_path_1.Path(searchSegments).toString();
// Root RegExp (required when determining partial match)
this.rootRegExp = new RegExp(Pattern.regExpEscape(searchSegments[0]), IS_WINDOWS ? 'i' : '');
this.isImplicitPattern = isImplicitPattern;
// Create minimatch
const minimatchOptions = {
dot: true,
nobrace: true,
nocase: IS_WINDOWS,
nocomment: true,
noext: true,
nonegate: true
};
pattern = IS_WINDOWS ? pattern.replace(/\\/g, '/') : pattern;
this.minimatch = new minimatch_1.Minimatch(pattern, minimatchOptions);
}
/**
* Matches the pattern against the specified path
*/
match(itemPath) {
// Last segment is globstar?
if (this.segments[this.segments.length - 1] === '**') {
// Normalize slashes
itemPath = pathHelper.normalizeSeparators(itemPath);
// Append a trailing slash. Otherwise Minimatch will not match the directory immediately
// preceding the globstar. For example, given the pattern `/foo/**`, Minimatch returns
// false for `/foo` but returns true for `/foo/`. Append a trailing slash to handle that quirk.
if (!itemPath.endsWith(path.sep) && this.isImplicitPattern === false) {
// Note, this is safe because the constructor ensures the pattern has an absolute root.
// For example, formats like C: and C:foo on Windows are resolved to an absolute root.
itemPath = `${itemPath}${path.sep}`;
}
}
else {
// Normalize slashes and trim unnecessary trailing slash
itemPath = pathHelper.safeTrimTrailingSeparator(itemPath);
}
// Match
if (this.minimatch.match(itemPath)) {
return this.trailingSeparator ? internal_match_kind_1.MatchKind.Directory : internal_match_kind_1.MatchKind.All;
}
return internal_match_kind_1.MatchKind.None;
}
/**
* Indicates whether the pattern may match descendants of the specified path
*/
partialMatch(itemPath) {
// Normalize slashes and trim unnecessary trailing slash
itemPath = pathHelper.safeTrimTrailingSeparator(itemPath);
// matchOne does not handle root path correctly
if (pathHelper.dirname(itemPath) === itemPath) {
return this.rootRegExp.test(itemPath);
}
return this.minimatch.matchOne(itemPath.split(IS_WINDOWS ? /\\+/ : /\/+/), this.minimatch.set[0], true);
}
/**
* Escapes glob patterns within a path
*/
static globEscape(s) {
return (IS_WINDOWS ? s : s.replace(/\\/g, '\\\\')) // escape '\' on Linux/macOS
.replace(/(\[)(?=[^/]+\])/g, '[[]') // escape '[' when ']' follows within the path segment
.replace(/\?/g, '[?]') // escape '?'
.replace(/\*/g, '[*]'); // escape '*'
}
/**
* Normalizes slashes and ensures absolute root
*/
static fixupPattern(pattern, homedir) {
// Empty
assert_1.default(pattern, 'pattern cannot be empty');
// Must not contain `.` segment, unless first segment
// Must not contain `..` segment
const literalSegments = new internal_path_1.Path(pattern).segments.map(x => Pattern.getLiteral(x));
assert_1.default(literalSegments.every((x, i) => (x !== '.' || i === 0) && x !== '..'), `Invalid pattern '${pattern}'. Relative pathing '.' and '..' is not allowed.`);
// Must not contain globs in root, e.g. Windows UNC path \\foo\b*r
assert_1.default(!pathHelper.hasRoot(pattern) || literalSegments[0], `Invalid pattern '${pattern}'. Root segment must not contain globs.`);
// Normalize slashes
pattern = pathHelper.normalizeSeparators(pattern);
// Replace leading `.` segment
if (pattern === '.' || pattern.startsWith(`.${path.sep}`)) {
pattern = Pattern.globEscape(process.cwd()) + pattern.substr(1);
}
// Replace leading `~` segment
else if (pattern === '~' || pattern.startsWith(`~${path.sep}`)) {
homedir = homedir || os.homedir();
assert_1.default(homedir, 'Unable to determine HOME directory');
assert_1.default(pathHelper.hasAbsoluteRoot(homedir), `Expected HOME directory to be a rooted path. Actual '${homedir}'`);
pattern = Pattern.globEscape(homedir) + pattern.substr(1);
}
// Replace relative drive root, e.g. pattern is C: or C:foo
else if (IS_WINDOWS &&
(pattern.match(/^[A-Z]:$/i) || pattern.match(/^[A-Z]:[^\\]/i))) {
let root = pathHelper.ensureAbsoluteRoot('C:\\dummy-root', pattern.substr(0, 2));
if (pattern.length > 2 && !root.endsWith('\\')) {
root += '\\';
}
pattern = Pattern.globEscape(root) + pattern.substr(2);
}
// Replace relative root, e.g. pattern is \ or \foo
else if (IS_WINDOWS && (pattern === '\\' || pattern.match(/^\\[^\\]/))) {
let root = pathHelper.ensureAbsoluteRoot('C:\\dummy-root', '\\');
if (!root.endsWith('\\')) {
root += '\\';
}
pattern = Pattern.globEscape(root) + pattern.substr(1);
}
// Otherwise ensure absolute root
else {
pattern = pathHelper.ensureAbsoluteRoot(Pattern.globEscape(process.cwd()), pattern);
}
return pathHelper.normalizeSeparators(pattern);
}
/**
* Attempts to unescape a pattern segment to create a literal path segment.
* Otherwise returns empty string.
*/
static getLiteral(segment) {
let literal = '';
for (let i = 0; i < segment.length; i++) {
const c = segment[i];
// Escape
if (c === '\\' && !IS_WINDOWS && i + 1 < segment.length) {
literal += segment[++i];
continue;
}
// Wildcard
else if (c === '*' || c === '?') {
return '';
}
// Character set
else if (c === '[' && i + 1 < segment.length) {
let set = '';
let closed = -1;
for (let i2 = i + 1; i2 < segment.length; i2++) {
const c2 = segment[i2];
// Escape
if (c2 === '\\' && !IS_WINDOWS && i2 + 1 < segment.length) {
set += segment[++i2];
continue;
}
// Closed
else if (c2 === ']') {
closed = i2;
break;
}
// Otherwise
else {
set += c2;
}
}
// Closed?
if (closed >= 0) {
// Cannot convert
if (set.length > 1) {
return '';
}
// Convert to literal
if (set) {
literal += set;
i = closed;
continue;
}
}
// Otherwise fall thru
}
// Append
literal += c;
}
return literal;
}
/**
* Escapes regexp special characters
* https://javascript.info/regexp-escaping
*/
static regExpEscape(s) {
return s.replace(/[[\\^$.|?*+()]/g, '\\$&');
}
}
exports.Pattern = Pattern;
//# sourceMappingURL=internal-pattern.js.map
/***/ }),
/***/ 4252:
/***/ ((__unused_webpack_module, exports) => {
"use strict";
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.SearchState = void 0;
class SearchState {
constructor(path, level) {
this.path = path;
this.level = level;
}
}
exports.SearchState = SearchState;
//# sourceMappingURL=internal-search-state.js.map
/***/ }),
/***/ 7631:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* archiver-utils
*
* Copyright (c) 2012-2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-archiver/blob/master/LICENSE-MIT
*/
var fs = __nccwpck_require__(1150);
var path = __nccwpck_require__(5622);
var flatten = __nccwpck_require__(5151);
var difference = __nccwpck_require__(3663);
var union = __nccwpck_require__(6819);
var isPlainObject = __nccwpck_require__(84);
var glob = __nccwpck_require__(3208);
var file = module.exports = {};
var pathSeparatorRe = /[\/\\]/g;
// Process specified wildcard glob patterns or filenames against a
// callback, excluding and uniquing files in the result set.
var processPatterns = function(patterns, fn) {
// Filepaths to return.
var result = [];
// Iterate over flattened patterns array.
flatten(patterns).forEach(function(pattern) {
// If the first character is ! it should be omitted
var exclusion = pattern.indexOf('!') === 0;
// If the pattern is an exclusion, remove the !
if (exclusion) { pattern = pattern.slice(1); }
// Find all matching files for this pattern.
var matches = fn(pattern);
if (exclusion) {
// If an exclusion, remove matching files.
result = difference(result, matches);
} else {
// Otherwise add matching files.
result = union(result, matches);
}
});
return result;
};
// True if the file path exists.
file.exists = function() {
var filepath = path.join.apply(path, arguments);
return fs.existsSync(filepath);
};
// Return an array of all file paths that match the given wildcard patterns.
file.expand = function(...args) {
// If the first argument is an options object, save those options to pass
// into the File.prototype.glob.sync method.
var options = isPlainObject(args[0]) ? args.shift() : {};
// Use the first argument if it's an Array, otherwise convert the arguments
// object to an array and use that.
var patterns = Array.isArray(args[0]) ? args[0] : args;
// Return empty set if there are no patterns or filepaths.
if (patterns.length === 0) { return []; }
// Return all matching filepaths.
var matches = processPatterns(patterns, function(pattern) {
// Find all matching files for this pattern.
return glob.sync(pattern, options);
});
// Filter result set?
if (options.filter) {
matches = matches.filter(function(filepath) {
filepath = path.join(options.cwd || '', filepath);
try {
if (typeof options.filter === 'function') {
return options.filter(filepath);
} else {
// If the file is of the right type and exists, this should work.
return fs.statSync(filepath)[options.filter]();
}
} catch(e) {
// Otherwise, it's probably not the right type.
return false;
}
});
}
return matches;
};
// Build a multi task "files" object dynamically.
file.expandMapping = function(patterns, destBase, options) {
options = Object.assign({
rename: function(destBase, destPath) {
return path.join(destBase || '', destPath);
}
}, options);
var files = [];
var fileByDest = {};
// Find all files matching pattern, using passed-in options.
file.expand(options, patterns).forEach(function(src) {
var destPath = src;
// Flatten?
if (options.flatten) {
destPath = path.basename(destPath);
}
// Change the extension?
if (options.ext) {
destPath = destPath.replace(/(\.[^\/]*)?$/, options.ext);
}
// Generate destination filename.
var dest = options.rename(destBase, destPath, options);
// Prepend cwd to src path if necessary.
if (options.cwd) { src = path.join(options.cwd, src); }
// Normalize filepaths to be unix-style.
dest = dest.replace(pathSeparatorRe, '/');
src = src.replace(pathSeparatorRe, '/');
// Map correct src path to dest path.
if (fileByDest[dest]) {
// If dest already exists, push this src onto that dest's src array.
fileByDest[dest].src.push(src);
} else {
// Otherwise create a new src-dest file mapping object.
files.push({
src: [src],
dest: dest,
});
// And store a reference for later use.
fileByDest[dest] = files[files.length - 1];
}
});
return files;
};
// reusing bits of grunt's multi-task source normalization
file.normalizeFilesArray = function(data) {
var files = [];
data.forEach(function(obj) {
var prop;
if ('src' in obj || 'dest' in obj) {
files.push(obj);
}
});
if (files.length === 0) {
return [];
}
files = _(files).chain().forEach(function(obj) {
if (!('src' in obj) || !obj.src) { return; }
// Normalize .src properties to flattened array.
if (Array.isArray(obj.src)) {
obj.src = flatten(obj.src);
} else {
obj.src = [obj.src];
}
}).map(function(obj) {
// Build options object, removing unwanted properties.
var expandOptions = Object.assign({}, obj);
delete expandOptions.src;
delete expandOptions.dest;
// Expand file mappings.
if (obj.expand) {
return file.expandMapping(obj.src, obj.dest, expandOptions).map(function(mapObj) {
// Copy obj properties to result.
var result = Object.assign({}, obj);
// Make a clone of the orig obj available.
result.orig = Object.assign({}, obj);
// Set .src and .dest, processing both as templates.
result.src = mapObj.src;
result.dest = mapObj.dest;
// Remove unwanted properties.
['expand', 'cwd', 'flatten', 'rename', 'ext'].forEach(function(prop) {
delete result[prop];
});
return result;
});
}
// Copy obj properties to result, adding an .orig property.
var result = Object.assign({}, obj);
// Make a clone of the orig obj available.
result.orig = Object.assign({}, obj);
if ('src' in result) {
// Expose an expand-on-demand getter method as .src.
Object.defineProperty(result, 'src', {
enumerable: true,
get: function fn() {
var src;
if (!('result' in fn)) {
src = obj.src;
// If src is an array, flatten it. Otherwise, make it into an array.
src = Array.isArray(src) ? flatten(src) : [src];
// Expand src files, memoizing result.
fn.result = file.expand(expandOptions, src);
}
return fn.result;
}
});
}
if ('dest' in result) {
result.dest = obj.dest;
}
return result;
}).flatten().value();
return files;
};
/***/ }),
/***/ 590:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* archiver-utils
*
* Copyright (c) 2015 Chris Talkington.
* Licensed under the MIT license.
* https://github.com/archiverjs/archiver-utils/blob/master/LICENSE
*/
var fs = __nccwpck_require__(1150);
var path = __nccwpck_require__(5622);
var nutil = __nccwpck_require__(1669);
var lazystream = __nccwpck_require__(8784);
var normalizePath = __nccwpck_require__(8389);
var defaults = __nccwpck_require__(2640);
var Stream = __nccwpck_require__(2413).Stream;
var PassThrough = __nccwpck_require__(8514).PassThrough;
var utils = module.exports = {};
utils.file = __nccwpck_require__(7631);
function assertPath(path) {
if (typeof path !== 'string') {
throw new TypeError('Path must be a string. Received ' + nutils.inspect(path));
}
}
utils.collectStream = function(source, callback) {
var collection = [];
var size = 0;
source.on('error', callback);
source.on('data', function(chunk) {
collection.push(chunk);
size += chunk.length;
});
source.on('end', function() {
var buf = new Buffer(size);
var offset = 0;
collection.forEach(function(data) {
data.copy(buf, offset);
offset += data.length;
});
callback(null, buf);
});
};
utils.dateify = function(dateish) {
dateish = dateish || new Date();
if (dateish instanceof Date) {
dateish = dateish;
} else if (typeof dateish === 'string') {
dateish = new Date(dateish);
} else {
dateish = new Date();
}
return dateish;
};
// this is slightly different from lodash version
utils.defaults = function(object, source, guard) {
var args = arguments;
args[0] = args[0] || {};
return defaults(...args);
};
utils.isStream = function(source) {
return source instanceof Stream;
};
utils.lazyReadStream = function(filepath) {
return new lazystream.Readable(function() {
return fs.createReadStream(filepath);
});
};
utils.normalizeInputSource = function(source) {
if (source === null) {
return new Buffer(0);
} else if (typeof source === 'string') {
return new Buffer(source);
} else if (utils.isStream(source) && !source._readableState) {
var normalized = new PassThrough();
source.pipe(normalized);
return normalized;
}
return source;
};
utils.sanitizePath = function(filepath) {
return normalizePath(filepath, false).replace(/^\w+:/, '').replace(/^(\.\.\/|\/)+/, '');
};
utils.trailingSlashIt = function(str) {
return str.slice(-1) !== '/' ? str + '/' : str;
};
utils.unixifyPath = function(filepath) {
return normalizePath(filepath, false).replace(/^\w+:/, '');
};
utils.walkdir = function(dirpath, base, callback) {
var results = [];
if (typeof base === 'function') {
callback = base;
base = dirpath;
}
fs.readdir(dirpath, function(err, list) {
var i = 0;
var file;
var filepath;
if (err) {
return callback(err);
}
(function next() {
file = list[i++];
if (!file) {
return callback(null, results);
}
filepath = path.join(dirpath, file);
fs.stat(filepath, function(err, stats) {
results.push({
path: filepath,
relative: path.relative(base, filepath).replace(/\\/g, '/'),
stats: stats
});
if (stats && stats.isDirectory()) {
utils.walkdir(filepath, base, function(err, res) {
res.forEach(function(dirEntry) {
results.push(dirEntry);
});
next();
});
} else {
next();
}
});
})();
});
};
/***/ }),
/***/ 5585:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// a duplex stream is just a stream that is both readable and writable.
// Since JS doesn't have multiple prototypal inheritance, this class
// prototypally inherits from Readable, and then parasitically from
// Writable.
/**/
var pna = __nccwpck_require__(1491);
/**/
/**/
var objectKeys = Object.keys || function (obj) {
var keys = [];
for (var key in obj) {
keys.push(key);
}return keys;
};
/**/
module.exports = Duplex;
/**/
var util = Object.create(__nccwpck_require__(1960));
util.inherits = __nccwpck_require__(9424);
/**/
var Readable = __nccwpck_require__(2784);
var Writable = __nccwpck_require__(4825);
util.inherits(Duplex, Readable);
{
// avoid scope creep, the keys array can then be collected
var keys = objectKeys(Writable.prototype);
for (var v = 0; v < keys.length; v++) {
var method = keys[v];
if (!Duplex.prototype[method]) Duplex.prototype[method] = Writable.prototype[method];
}
}
function Duplex(options) {
if (!(this instanceof Duplex)) return new Duplex(options);
Readable.call(this, options);
Writable.call(this, options);
if (options && options.readable === false) this.readable = false;
if (options && options.writable === false) this.writable = false;
this.allowHalfOpen = true;
if (options && options.allowHalfOpen === false) this.allowHalfOpen = false;
this.once('end', onend);
}
Object.defineProperty(Duplex.prototype, 'writableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function () {
return this._writableState.highWaterMark;
}
});
// the no-half-open enforcer
function onend() {
// if we allow half-open state, or if the writable side ended,
// then we're ok.
if (this.allowHalfOpen || this._writableState.ended) return;
// no more data can be written.
// But allow more writes to happen in this tick.
pna.nextTick(onEndNT, this);
}
function onEndNT(self) {
self.end();
}
Object.defineProperty(Duplex.prototype, 'destroyed', {
get: function () {
if (this._readableState === undefined || this._writableState === undefined) {
return false;
}
return this._readableState.destroyed && this._writableState.destroyed;
},
set: function (value) {
// we ignore the value if the stream
// has not been initialized yet
if (this._readableState === undefined || this._writableState === undefined) {
return;
}
// backward compatibility, the user is explicitly
// managing destroyed
this._readableState.destroyed = value;
this._writableState.destroyed = value;
}
});
Duplex.prototype._destroy = function (err, cb) {
this.push(null);
this.end();
pna.nextTick(cb, err);
};
/***/ }),
/***/ 5693:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// a passthrough stream.
// basically just the most minimal sort of Transform stream.
// Every written chunk gets output as-is.
module.exports = PassThrough;
var Transform = __nccwpck_require__(1265);
/**/
var util = Object.create(__nccwpck_require__(1960));
util.inherits = __nccwpck_require__(9424);
/**/
util.inherits(PassThrough, Transform);
function PassThrough(options) {
if (!(this instanceof PassThrough)) return new PassThrough(options);
Transform.call(this, options);
}
PassThrough.prototype._transform = function (chunk, encoding, cb) {
cb(null, chunk);
};
/***/ }),
/***/ 2784:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
/**/
var pna = __nccwpck_require__(1491);
/**/
module.exports = Readable;
/**/
var isArray = __nccwpck_require__(8308);
/**/
/**/
var Duplex;
/**/
Readable.ReadableState = ReadableState;
/**/
var EE = __nccwpck_require__(8614).EventEmitter;
var EElistenerCount = function (emitter, type) {
return emitter.listeners(type).length;
};
/**/
/**/
var Stream = __nccwpck_require__(413);
/**/
/**/
var Buffer = __nccwpck_require__(7677).Buffer;
var OurUint8Array = global.Uint8Array || function () {};
function _uint8ArrayToBuffer(chunk) {
return Buffer.from(chunk);
}
function _isUint8Array(obj) {
return Buffer.isBuffer(obj) || obj instanceof OurUint8Array;
}
/**/
/**/
var util = Object.create(__nccwpck_require__(1960));
util.inherits = __nccwpck_require__(9424);
/**/
/**/
var debugUtil = __nccwpck_require__(1669);
var debug = void 0;
if (debugUtil && debugUtil.debuglog) {
debug = debugUtil.debuglog('stream');
} else {
debug = function () {};
}
/**/
var BufferList = __nccwpck_require__(5266);
var destroyImpl = __nccwpck_require__(7181);
var StringDecoder;
util.inherits(Readable, Stream);
var kProxyEvents = ['error', 'close', 'destroy', 'pause', 'resume'];
function prependListener(emitter, event, fn) {
// Sadly this is not cacheable as some libraries bundle their own
// event emitter implementation with them.
if (typeof emitter.prependListener === 'function') return emitter.prependListener(event, fn);
// This is a hack to make sure that our error handler is attached before any
// userland ones. NEVER DO THIS. This is here only because this code needs
// to continue to work with older versions of Node.js that do not include
// the prependListener() method. The goal is to eventually remove this hack.
if (!emitter._events || !emitter._events[event]) emitter.on(event, fn);else if (isArray(emitter._events[event])) emitter._events[event].unshift(fn);else emitter._events[event] = [fn, emitter._events[event]];
}
function ReadableState(options, stream) {
Duplex = Duplex || __nccwpck_require__(5585);
options = options || {};
// Duplex streams are both readable and writable, but share
// the same options object.
// However, some cases require setting options to different
// values for the readable and the writable sides of the duplex stream.
// These options can be provided separately as readableXXX and writableXXX.
var isDuplex = stream instanceof Duplex;
// object stream flag. Used to make read(n) ignore n and to
// make all the buffer merging and length checks go away
this.objectMode = !!options.objectMode;
if (isDuplex) this.objectMode = this.objectMode || !!options.readableObjectMode;
// the point at which it stops calling _read() to fill the buffer
// Note: 0 is a valid value, means "don't call _read preemptively ever"
var hwm = options.highWaterMark;
var readableHwm = options.readableHighWaterMark;
var defaultHwm = this.objectMode ? 16 : 16 * 1024;
if (hwm || hwm === 0) this.highWaterMark = hwm;else if (isDuplex && (readableHwm || readableHwm === 0)) this.highWaterMark = readableHwm;else this.highWaterMark = defaultHwm;
// cast to ints.
this.highWaterMark = Math.floor(this.highWaterMark);
// A linked list is used to store data chunks instead of an array because the
// linked list can remove elements from the beginning faster than
// array.shift()
this.buffer = new BufferList();
this.length = 0;
this.pipes = null;
this.pipesCount = 0;
this.flowing = null;
this.ended = false;
this.endEmitted = false;
this.reading = false;
// a flag to be able to tell if the event 'readable'/'data' is emitted
// immediately, or on a later tick. We set this to true at first, because
// any actions that shouldn't happen until "later" should generally also
// not happen before the first read call.
this.sync = true;
// whenever we return null, then we set a flag to say
// that we're awaiting a 'readable' event emission.
this.needReadable = false;
this.emittedReadable = false;
this.readableListening = false;
this.resumeScheduled = false;
// has it been destroyed
this.destroyed = false;
// Crypto is kind of old and crusty. Historically, its default string
// encoding is 'binary' so we have to make this configurable.
// Everything else in the universe uses 'utf8', though.
this.defaultEncoding = options.defaultEncoding || 'utf8';
// the number of writers that are awaiting a drain event in .pipe()s
this.awaitDrain = 0;
// if true, a maybeReadMore has been scheduled
this.readingMore = false;
this.decoder = null;
this.encoding = null;
if (options.encoding) {
if (!StringDecoder) StringDecoder = __nccwpck_require__(6298)/* .StringDecoder */ .s;
this.decoder = new StringDecoder(options.encoding);
this.encoding = options.encoding;
}
}
function Readable(options) {
Duplex = Duplex || __nccwpck_require__(5585);
if (!(this instanceof Readable)) return new Readable(options);
this._readableState = new ReadableState(options, this);
// legacy
this.readable = true;
if (options) {
if (typeof options.read === 'function') this._read = options.read;
if (typeof options.destroy === 'function') this._destroy = options.destroy;
}
Stream.call(this);
}
Object.defineProperty(Readable.prototype, 'destroyed', {
get: function () {
if (this._readableState === undefined) {
return false;
}
return this._readableState.destroyed;
},
set: function (value) {
// we ignore the value if the stream
// has not been initialized yet
if (!this._readableState) {
return;
}
// backward compatibility, the user is explicitly
// managing destroyed
this._readableState.destroyed = value;
}
});
Readable.prototype.destroy = destroyImpl.destroy;
Readable.prototype._undestroy = destroyImpl.undestroy;
Readable.prototype._destroy = function (err, cb) {
this.push(null);
cb(err);
};
// Manually shove something into the read() buffer.
// This returns true if the highWaterMark has not been hit yet,
// similar to how Writable.write() returns true if you should
// write() some more.
Readable.prototype.push = function (chunk, encoding) {
var state = this._readableState;
var skipChunkCheck;
if (!state.objectMode) {
if (typeof chunk === 'string') {
encoding = encoding || state.defaultEncoding;
if (encoding !== state.encoding) {
chunk = Buffer.from(chunk, encoding);
encoding = '';
}
skipChunkCheck = true;
}
} else {
skipChunkCheck = true;
}
return readableAddChunk(this, chunk, encoding, false, skipChunkCheck);
};
// Unshift should *always* be something directly out of read()
Readable.prototype.unshift = function (chunk) {
return readableAddChunk(this, chunk, null, true, false);
};
function readableAddChunk(stream, chunk, encoding, addToFront, skipChunkCheck) {
var state = stream._readableState;
if (chunk === null) {
state.reading = false;
onEofChunk(stream, state);
} else {
var er;
if (!skipChunkCheck) er = chunkInvalid(state, chunk);
if (er) {
stream.emit('error', er);
} else if (state.objectMode || chunk && chunk.length > 0) {
if (typeof chunk !== 'string' && !state.objectMode && Object.getPrototypeOf(chunk) !== Buffer.prototype) {
chunk = _uint8ArrayToBuffer(chunk);
}
if (addToFront) {
if (state.endEmitted) stream.emit('error', new Error('stream.unshift() after end event'));else addChunk(stream, state, chunk, true);
} else if (state.ended) {
stream.emit('error', new Error('stream.push() after EOF'));
} else {
state.reading = false;
if (state.decoder && !encoding) {
chunk = state.decoder.write(chunk);
if (state.objectMode || chunk.length !== 0) addChunk(stream, state, chunk, false);else maybeReadMore(stream, state);
} else {
addChunk(stream, state, chunk, false);
}
}
} else if (!addToFront) {
state.reading = false;
}
}
return needMoreData(state);
}
function addChunk(stream, state, chunk, addToFront) {
if (state.flowing && state.length === 0 && !state.sync) {
stream.emit('data', chunk);
stream.read(0);
} else {
// update the buffer info.
state.length += state.objectMode ? 1 : chunk.length;
if (addToFront) state.buffer.unshift(chunk);else state.buffer.push(chunk);
if (state.needReadable) emitReadable(stream);
}
maybeReadMore(stream, state);
}
function chunkInvalid(state, chunk) {
var er;
if (!_isUint8Array(chunk) && typeof chunk !== 'string' && chunk !== undefined && !state.objectMode) {
er = new TypeError('Invalid non-string/buffer chunk');
}
return er;
}
// if it's past the high water mark, we can push in some more.
// Also, if we have no data yet, we can stand some
// more bytes. This is to work around cases where hwm=0,
// such as the repl. Also, if the push() triggered a
// readable event, and the user called read(largeNumber) such that
// needReadable was set, then we ought to push more, so that another
// 'readable' event will be triggered.
function needMoreData(state) {
return !state.ended && (state.needReadable || state.length < state.highWaterMark || state.length === 0);
}
Readable.prototype.isPaused = function () {
return this._readableState.flowing === false;
};
// backwards compatibility.
Readable.prototype.setEncoding = function (enc) {
if (!StringDecoder) StringDecoder = __nccwpck_require__(6298)/* .StringDecoder */ .s;
this._readableState.decoder = new StringDecoder(enc);
this._readableState.encoding = enc;
return this;
};
// Don't raise the hwm > 8MB
var MAX_HWM = 0x800000;
function computeNewHighWaterMark(n) {
if (n >= MAX_HWM) {
n = MAX_HWM;
} else {
// Get the next highest power of 2 to prevent increasing hwm excessively in
// tiny amounts
n--;
n |= n >>> 1;
n |= n >>> 2;
n |= n >>> 4;
n |= n >>> 8;
n |= n >>> 16;
n++;
}
return n;
}
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function howMuchToRead(n, state) {
if (n <= 0 || state.length === 0 && state.ended) return 0;
if (state.objectMode) return 1;
if (n !== n) {
// Only flow one buffer at a time
if (state.flowing && state.length) return state.buffer.head.data.length;else return state.length;
}
// If we're asking for more than the current hwm, then raise the hwm.
if (n > state.highWaterMark) state.highWaterMark = computeNewHighWaterMark(n);
if (n <= state.length) return n;
// Don't have enough
if (!state.ended) {
state.needReadable = true;
return 0;
}
return state.length;
}
// you can override either this method, or the async _read(n) below.
Readable.prototype.read = function (n) {
debug('read', n);
n = parseInt(n, 10);
var state = this._readableState;
var nOrig = n;
if (n !== 0) state.emittedReadable = false;
// if we're doing read(0) to trigger a readable event, but we
// already have a bunch of data in the buffer, then just trigger
// the 'readable' event and move on.
if (n === 0 && state.needReadable && (state.length >= state.highWaterMark || state.ended)) {
debug('read: emitReadable', state.length, state.ended);
if (state.length === 0 && state.ended) endReadable(this);else emitReadable(this);
return null;
}
n = howMuchToRead(n, state);
// if we've ended, and we're now clear, then finish it up.
if (n === 0 && state.ended) {
if (state.length === 0) endReadable(this);
return null;
}
// All the actual chunk generation logic needs to be
// *below* the call to _read. The reason is that in certain
// synthetic stream cases, such as passthrough streams, _read
// may be a completely synchronous operation which may change
// the state of the read buffer, providing enough data when
// before there was *not* enough.
//
// So, the steps are:
// 1. Figure out what the state of things will be after we do
// a read from the buffer.
//
// 2. If that resulting state will trigger a _read, then call _read.
// Note that this may be asynchronous, or synchronous. Yes, it is
// deeply ugly to write APIs this way, but that still doesn't mean
// that the Readable class should behave improperly, as streams are
// designed to be sync/async agnostic.
// Take note if the _read call is sync or async (ie, if the read call
// has returned yet), so that we know whether or not it's safe to emit
// 'readable' etc.
//
// 3. Actually pull the requested chunks out of the buffer and return.
// if we need a readable event, then we need to do some reading.
var doRead = state.needReadable;
debug('need readable', doRead);
// if we currently have less than the highWaterMark, then also read some
if (state.length === 0 || state.length - n < state.highWaterMark) {
doRead = true;
debug('length less than watermark', doRead);
}
// however, if we've ended, then there's no point, and if we're already
// reading, then it's unnecessary.
if (state.ended || state.reading) {
doRead = false;
debug('reading or ended', doRead);
} else if (doRead) {
debug('do read');
state.reading = true;
state.sync = true;
// if the length is currently zero, then we *need* a readable event.
if (state.length === 0) state.needReadable = true;
// call internal read method
this._read(state.highWaterMark);
state.sync = false;
// If _read pushed data synchronously, then `reading` will be false,
// and we need to re-evaluate how much data we can return to the user.
if (!state.reading) n = howMuchToRead(nOrig, state);
}
var ret;
if (n > 0) ret = fromList(n, state);else ret = null;
if (ret === null) {
state.needReadable = true;
n = 0;
} else {
state.length -= n;
}
if (state.length === 0) {
// If we have nothing in the buffer, then we want to know
// as soon as we *do* get something into the buffer.
if (!state.ended) state.needReadable = true;
// If we tried to read() past the EOF, then emit end on the next tick.
if (nOrig !== n && state.ended) endReadable(this);
}
if (ret !== null) this.emit('data', ret);
return ret;
};
function onEofChunk(stream, state) {
if (state.ended) return;
if (state.decoder) {
var chunk = state.decoder.end();
if (chunk && chunk.length) {
state.buffer.push(chunk);
state.length += state.objectMode ? 1 : chunk.length;
}
}
state.ended = true;
// emit 'readable' now to make sure it gets picked up.
emitReadable(stream);
}
// Don't emit readable right away in sync mode, because this can trigger
// another read() call => stack overflow. This way, it might trigger
// a nextTick recursion warning, but that's not so bad.
function emitReadable(stream) {
var state = stream._readableState;
state.needReadable = false;
if (!state.emittedReadable) {
debug('emitReadable', state.flowing);
state.emittedReadable = true;
if (state.sync) pna.nextTick(emitReadable_, stream);else emitReadable_(stream);
}
}
function emitReadable_(stream) {
debug('emit readable');
stream.emit('readable');
flow(stream);
}
// at this point, the user has presumably seen the 'readable' event,
// and called read() to consume some data. that may have triggered
// in turn another _read(n) call, in which case reading = true if
// it's in progress.
// However, if we're not ended, or reading, and the length < hwm,
// then go ahead and try to read some more preemptively.
function maybeReadMore(stream, state) {
if (!state.readingMore) {
state.readingMore = true;
pna.nextTick(maybeReadMore_, stream, state);
}
}
function maybeReadMore_(stream, state) {
var len = state.length;
while (!state.reading && !state.flowing && !state.ended && state.length < state.highWaterMark) {
debug('maybeReadMore read 0');
stream.read(0);
if (len === state.length)
// didn't get any data, stop spinning.
break;else len = state.length;
}
state.readingMore = false;
}
// abstract method. to be overridden in specific implementation classes.
// call cb(er, data) where data is <= n in length.
// for virtual (non-string, non-buffer) streams, "length" is somewhat
// arbitrary, and perhaps not very meaningful.
Readable.prototype._read = function (n) {
this.emit('error', new Error('_read() is not implemented'));
};
Readable.prototype.pipe = function (dest, pipeOpts) {
var src = this;
var state = this._readableState;
switch (state.pipesCount) {
case 0:
state.pipes = dest;
break;
case 1:
state.pipes = [state.pipes, dest];
break;
default:
state.pipes.push(dest);
break;
}
state.pipesCount += 1;
debug('pipe count=%d opts=%j', state.pipesCount, pipeOpts);
var doEnd = (!pipeOpts || pipeOpts.end !== false) && dest !== process.stdout && dest !== process.stderr;
var endFn = doEnd ? onend : unpipe;
if (state.endEmitted) pna.nextTick(endFn);else src.once('end', endFn);
dest.on('unpipe', onunpipe);
function onunpipe(readable, unpipeInfo) {
debug('onunpipe');
if (readable === src) {
if (unpipeInfo && unpipeInfo.hasUnpiped === false) {
unpipeInfo.hasUnpiped = true;
cleanup();
}
}
}
function onend() {
debug('onend');
dest.end();
}
// when the dest drains, it reduces the awaitDrain counter
// on the source. This would be more elegant with a .once()
// handler in flow(), but adding and removing repeatedly is
// too slow.
var ondrain = pipeOnDrain(src);
dest.on('drain', ondrain);
var cleanedUp = false;
function cleanup() {
debug('cleanup');
// cleanup event handlers once the pipe is broken
dest.removeListener('close', onclose);
dest.removeListener('finish', onfinish);
dest.removeListener('drain', ondrain);
dest.removeListener('error', onerror);
dest.removeListener('unpipe', onunpipe);
src.removeListener('end', onend);
src.removeListener('end', unpipe);
src.removeListener('data', ondata);
cleanedUp = true;
// if the reader is waiting for a drain event from this
// specific writer, then it would cause it to never start
// flowing again.
// So, if this is awaiting a drain, then we just call it now.
// If we don't know, then assume that we are waiting for one.
if (state.awaitDrain && (!dest._writableState || dest._writableState.needDrain)) ondrain();
}
// If the user pushes more data while we're writing to dest then we'll end up
// in ondata again. However, we only want to increase awaitDrain once because
// dest will only emit one 'drain' event for the multiple writes.
// => Introduce a guard on increasing awaitDrain.
var increasedAwaitDrain = false;
src.on('data', ondata);
function ondata(chunk) {
debug('ondata');
increasedAwaitDrain = false;
var ret = dest.write(chunk);
if (false === ret && !increasedAwaitDrain) {
// If the user unpiped during `dest.write()`, it is possible
// to get stuck in a permanently paused state if that write
// also returned false.
// => Check whether `dest` is still a piping destination.
if ((state.pipesCount === 1 && state.pipes === dest || state.pipesCount > 1 && indexOf(state.pipes, dest) !== -1) && !cleanedUp) {
debug('false write response, pause', src._readableState.awaitDrain);
src._readableState.awaitDrain++;
increasedAwaitDrain = true;
}
src.pause();
}
}
// if the dest has an error, then stop piping into it.
// however, don't suppress the throwing behavior for this.
function onerror(er) {
debug('onerror', er);
unpipe();
dest.removeListener('error', onerror);
if (EElistenerCount(dest, 'error') === 0) dest.emit('error', er);
}
// Make sure our error handler is attached before userland ones.
prependListener(dest, 'error', onerror);
// Both close and finish should trigger unpipe, but only once.
function onclose() {
dest.removeListener('finish', onfinish);
unpipe();
}
dest.once('close', onclose);
function onfinish() {
debug('onfinish');
dest.removeListener('close', onclose);
unpipe();
}
dest.once('finish', onfinish);
function unpipe() {
debug('unpipe');
src.unpipe(dest);
}
// tell the dest that it's being piped to
dest.emit('pipe', src);
// start the flow if it hasn't been started already.
if (!state.flowing) {
debug('pipe resume');
src.resume();
}
return dest;
};
function pipeOnDrain(src) {
return function () {
var state = src._readableState;
debug('pipeOnDrain', state.awaitDrain);
if (state.awaitDrain) state.awaitDrain--;
if (state.awaitDrain === 0 && EElistenerCount(src, 'data')) {
state.flowing = true;
flow(src);
}
};
}
Readable.prototype.unpipe = function (dest) {
var state = this._readableState;
var unpipeInfo = { hasUnpiped: false };
// if we're not piping anywhere, then do nothing.
if (state.pipesCount === 0) return this;
// just one destination. most common case.
if (state.pipesCount === 1) {
// passed in one, but it's not the right one.
if (dest && dest !== state.pipes) return this;
if (!dest) dest = state.pipes;
// got a match.
state.pipes = null;
state.pipesCount = 0;
state.flowing = false;
if (dest) dest.emit('unpipe', this, unpipeInfo);
return this;
}
// slow case. multiple pipe destinations.
if (!dest) {
// remove all.
var dests = state.pipes;
var len = state.pipesCount;
state.pipes = null;
state.pipesCount = 0;
state.flowing = false;
for (var i = 0; i < len; i++) {
dests[i].emit('unpipe', this, unpipeInfo);
}return this;
}
// try to find the right one.
var index = indexOf(state.pipes, dest);
if (index === -1) return this;
state.pipes.splice(index, 1);
state.pipesCount -= 1;
if (state.pipesCount === 1) state.pipes = state.pipes[0];
dest.emit('unpipe', this, unpipeInfo);
return this;
};
// set up data events if they are asked for
// Ensure readable listeners eventually get something
Readable.prototype.on = function (ev, fn) {
var res = Stream.prototype.on.call(this, ev, fn);
if (ev === 'data') {
// Start flowing on next tick if stream isn't explicitly paused
if (this._readableState.flowing !== false) this.resume();
} else if (ev === 'readable') {
var state = this._readableState;
if (!state.endEmitted && !state.readableListening) {
state.readableListening = state.needReadable = true;
state.emittedReadable = false;
if (!state.reading) {
pna.nextTick(nReadingNextTick, this);
} else if (state.length) {
emitReadable(this);
}
}
}
return res;
};
Readable.prototype.addListener = Readable.prototype.on;
function nReadingNextTick(self) {
debug('readable nexttick read 0');
self.read(0);
}
// pause() and resume() are remnants of the legacy readable stream API
// If the user uses them, then switch into old mode.
Readable.prototype.resume = function () {
var state = this._readableState;
if (!state.flowing) {
debug('resume');
state.flowing = true;
resume(this, state);
}
return this;
};
function resume(stream, state) {
if (!state.resumeScheduled) {
state.resumeScheduled = true;
pna.nextTick(resume_, stream, state);
}
}
function resume_(stream, state) {
if (!state.reading) {
debug('resume read 0');
stream.read(0);
}
state.resumeScheduled = false;
state.awaitDrain = 0;
stream.emit('resume');
flow(stream);
if (state.flowing && !state.reading) stream.read(0);
}
Readable.prototype.pause = function () {
debug('call pause flowing=%j', this._readableState.flowing);
if (false !== this._readableState.flowing) {
debug('pause');
this._readableState.flowing = false;
this.emit('pause');
}
return this;
};
function flow(stream) {
var state = stream._readableState;
debug('flow', state.flowing);
while (state.flowing && stream.read() !== null) {}
}
// wrap an old-style stream as the async data source.
// This is *not* part of the readable stream interface.
// It is an ugly unfortunate mess of history.
Readable.prototype.wrap = function (stream) {
var _this = this;
var state = this._readableState;
var paused = false;
stream.on('end', function () {
debug('wrapped end');
if (state.decoder && !state.ended) {
var chunk = state.decoder.end();
if (chunk && chunk.length) _this.push(chunk);
}
_this.push(null);
});
stream.on('data', function (chunk) {
debug('wrapped data');
if (state.decoder) chunk = state.decoder.write(chunk);
// don't skip over falsy values in objectMode
if (state.objectMode && (chunk === null || chunk === undefined)) return;else if (!state.objectMode && (!chunk || !chunk.length)) return;
var ret = _this.push(chunk);
if (!ret) {
paused = true;
stream.pause();
}
});
// proxy all the other methods.
// important when wrapping filters and duplexes.
for (var i in stream) {
if (this[i] === undefined && typeof stream[i] === 'function') {
this[i] = function (method) {
return function () {
return stream[method].apply(stream, arguments);
};
}(i);
}
}
// proxy certain important events.
for (var n = 0; n < kProxyEvents.length; n++) {
stream.on(kProxyEvents[n], this.emit.bind(this, kProxyEvents[n]));
}
// when we try to consume some more bytes, simply unpause the
// underlying stream.
this._read = function (n) {
debug('wrapped _read', n);
if (paused) {
paused = false;
stream.resume();
}
};
return this;
};
Object.defineProperty(Readable.prototype, 'readableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function () {
return this._readableState.highWaterMark;
}
});
// exposed for testing purposes only.
Readable._fromList = fromList;
// Pluck off n bytes from an array of buffers.
// Length is the combined lengths of all the buffers in the list.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function fromList(n, state) {
// nothing buffered
if (state.length === 0) return null;
var ret;
if (state.objectMode) ret = state.buffer.shift();else if (!n || n >= state.length) {
// read it all, truncate the list
if (state.decoder) ret = state.buffer.join('');else if (state.buffer.length === 1) ret = state.buffer.head.data;else ret = state.buffer.concat(state.length);
state.buffer.clear();
} else {
// read part of list
ret = fromListPartial(n, state.buffer, state.decoder);
}
return ret;
}
// Extracts only enough buffered data to satisfy the amount requested.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function fromListPartial(n, list, hasStrings) {
var ret;
if (n < list.head.data.length) {
// slice is the same for buffers and strings
ret = list.head.data.slice(0, n);
list.head.data = list.head.data.slice(n);
} else if (n === list.head.data.length) {
// first chunk is a perfect match
ret = list.shift();
} else {
// result spans more than one buffer
ret = hasStrings ? copyFromBufferString(n, list) : copyFromBuffer(n, list);
}
return ret;
}
// Copies a specified amount of characters from the list of buffered data
// chunks.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function copyFromBufferString(n, list) {
var p = list.head;
var c = 1;
var ret = p.data;
n -= ret.length;
while (p = p.next) {
var str = p.data;
var nb = n > str.length ? str.length : n;
if (nb === str.length) ret += str;else ret += str.slice(0, n);
n -= nb;
if (n === 0) {
if (nb === str.length) {
++c;
if (p.next) list.head = p.next;else list.head = list.tail = null;
} else {
list.head = p;
p.data = str.slice(nb);
}
break;
}
++c;
}
list.length -= c;
return ret;
}
// Copies a specified amount of bytes from the list of buffered data chunks.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function copyFromBuffer(n, list) {
var ret = Buffer.allocUnsafe(n);
var p = list.head;
var c = 1;
p.data.copy(ret);
n -= p.data.length;
while (p = p.next) {
var buf = p.data;
var nb = n > buf.length ? buf.length : n;
buf.copy(ret, ret.length - n, 0, nb);
n -= nb;
if (n === 0) {
if (nb === buf.length) {
++c;
if (p.next) list.head = p.next;else list.head = list.tail = null;
} else {
list.head = p;
p.data = buf.slice(nb);
}
break;
}
++c;
}
list.length -= c;
return ret;
}
function endReadable(stream) {
var state = stream._readableState;
// If we get here before consuming all the bytes, then that is a
// bug in node. Should never happen.
if (state.length > 0) throw new Error('"endReadable()" called on non-empty stream');
if (!state.endEmitted) {
state.ended = true;
pna.nextTick(endReadableNT, state, stream);
}
}
function endReadableNT(state, stream) {
// Check that we didn't get one last unshift.
if (!state.endEmitted && state.length === 0) {
state.endEmitted = true;
stream.readable = false;
stream.emit('end');
}
}
function indexOf(xs, x) {
for (var i = 0, l = xs.length; i < l; i++) {
if (xs[i] === x) return i;
}
return -1;
}
/***/ }),
/***/ 1265:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// a transform stream is a readable/writable stream where you do
// something with the data. Sometimes it's called a "filter",
// but that's not a great name for it, since that implies a thing where
// some bits pass through, and others are simply ignored. (That would
// be a valid example of a transform, of course.)
//
// While the output is causally related to the input, it's not a
// necessarily symmetric or synchronous transformation. For example,
// a zlib stream might take multiple plain-text writes(), and then
// emit a single compressed chunk some time in the future.
//
// Here's how this works:
//
// The Transform stream has all the aspects of the readable and writable
// stream classes. When you write(chunk), that calls _write(chunk,cb)
// internally, and returns false if there's a lot of pending writes
// buffered up. When you call read(), that calls _read(n) until
// there's enough pending readable data buffered up.
//
// In a transform stream, the written data is placed in a buffer. When
// _read(n) is called, it transforms the queued up data, calling the
// buffered _write cb's as it consumes chunks. If consuming a single
// written chunk would result in multiple output chunks, then the first
// outputted bit calls the readcb, and subsequent chunks just go into
// the read buffer, and will cause it to emit 'readable' if necessary.
//
// This way, back-pressure is actually determined by the reading side,
// since _read has to be called to start processing a new chunk. However,
// a pathological inflate type of transform can cause excessive buffering
// here. For example, imagine a stream where every byte of input is
// interpreted as an integer from 0-255, and then results in that many
// bytes of output. Writing the 4 bytes {ff,ff,ff,ff} would result in
// 1kb of data being output. In this case, you could write a very small
// amount of input, and end up with a very large amount of output. In
// such a pathological inflating mechanism, there'd be no way to tell
// the system to stop doing the transform. A single 4MB write could
// cause the system to run out of memory.
//
// However, even in such a pathological case, only a single written chunk
// would be consumed, and then the rest would wait (un-transformed) until
// the results of the previous transformed chunk were consumed.
module.exports = Transform;
var Duplex = __nccwpck_require__(5585);
/**/
var util = Object.create(__nccwpck_require__(1960));
util.inherits = __nccwpck_require__(9424);
/**/
util.inherits(Transform, Duplex);
function afterTransform(er, data) {
var ts = this._transformState;
ts.transforming = false;
var cb = ts.writecb;
if (!cb) {
return this.emit('error', new Error('write callback called multiple times'));
}
ts.writechunk = null;
ts.writecb = null;
if (data != null) // single equals check for both `null` and `undefined`
this.push(data);
cb(er);
var rs = this._readableState;
rs.reading = false;
if (rs.needReadable || rs.length < rs.highWaterMark) {
this._read(rs.highWaterMark);
}
}
function Transform(options) {
if (!(this instanceof Transform)) return new Transform(options);
Duplex.call(this, options);
this._transformState = {
afterTransform: afterTransform.bind(this),
needTransform: false,
transforming: false,
writecb: null,
writechunk: null,
writeencoding: null
};
// start out asking for a readable event once data is transformed.
this._readableState.needReadable = true;
// we have implemented the _read method, and done the other things
// that Readable wants before the first _read call, so unset the
// sync guard flag.
this._readableState.sync = false;
if (options) {
if (typeof options.transform === 'function') this._transform = options.transform;
if (typeof options.flush === 'function') this._flush = options.flush;
}
// When the writable side finishes, then flush out anything remaining.
this.on('prefinish', prefinish);
}
function prefinish() {
var _this = this;
if (typeof this._flush === 'function') {
this._flush(function (er, data) {
done(_this, er, data);
});
} else {
done(this, null, null);
}
}
Transform.prototype.push = function (chunk, encoding) {
this._transformState.needTransform = false;
return Duplex.prototype.push.call(this, chunk, encoding);
};
// This is the part where you do stuff!
// override this function in implementation classes.
// 'chunk' is an input chunk.
//
// Call `push(newChunk)` to pass along transformed output
// to the readable side. You may call 'push' zero or more times.
//
// Call `cb(err)` when you are done with this chunk. If you pass
// an error, then that'll put the hurt on the whole operation. If you
// never call cb(), then you'll never get another chunk.
Transform.prototype._transform = function (chunk, encoding, cb) {
throw new Error('_transform() is not implemented');
};
Transform.prototype._write = function (chunk, encoding, cb) {
var ts = this._transformState;
ts.writecb = cb;
ts.writechunk = chunk;
ts.writeencoding = encoding;
if (!ts.transforming) {
var rs = this._readableState;
if (ts.needTransform || rs.needReadable || rs.length < rs.highWaterMark) this._read(rs.highWaterMark);
}
};
// Doesn't matter what the args are here.
// _transform does all the work.
// That we got here means that the readable side wants more data.
Transform.prototype._read = function (n) {
var ts = this._transformState;
if (ts.writechunk !== null && ts.writecb && !ts.transforming) {
ts.transforming = true;
this._transform(ts.writechunk, ts.writeencoding, ts.afterTransform);
} else {
// mark that we need a transform, so that any data that comes in
// will get processed, now that we've asked for it.
ts.needTransform = true;
}
};
Transform.prototype._destroy = function (err, cb) {
var _this2 = this;
Duplex.prototype._destroy.call(this, err, function (err2) {
cb(err2);
_this2.emit('close');
});
};
function done(stream, er, data) {
if (er) return stream.emit('error', er);
if (data != null) // single equals check for both `null` and `undefined`
stream.push(data);
// if there's nothing in the write buffer, then that means
// that nothing more will ever be provided
if (stream._writableState.length) throw new Error('Calling transform done when ws.length != 0');
if (stream._transformState.transforming) throw new Error('Calling transform done when still transforming');
return stream.push(null);
}
/***/ }),
/***/ 4825:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// A bit simpler than readable streams.
// Implement an async ._write(chunk, encoding, cb), and it'll handle all
// the drain event emission and buffering.
/**/
var pna = __nccwpck_require__(1491);
/**/
module.exports = Writable;
/* */
function WriteReq(chunk, encoding, cb) {
this.chunk = chunk;
this.encoding = encoding;
this.callback = cb;
this.next = null;
}
// It seems a linked list but it is not
// there will be only 2 of these for each stream
function CorkedRequest(state) {
var _this = this;
this.next = null;
this.entry = null;
this.finish = function () {
onCorkedFinish(_this, state);
};
}
/* */
/**/
var asyncWrite = !process.browser && ['v0.10', 'v0.9.'].indexOf(process.version.slice(0, 5)) > -1 ? setImmediate : pna.nextTick;
/**/
/**/
var Duplex;
/**/
Writable.WritableState = WritableState;
/**/
var util = Object.create(__nccwpck_require__(1960));
util.inherits = __nccwpck_require__(9424);
/**/
/**/
var internalUtil = {
deprecate: __nccwpck_require__(9461)
};
/**/
/**/
var Stream = __nccwpck_require__(413);
/**/
/**/
var Buffer = __nccwpck_require__(7677).Buffer;
var OurUint8Array = global.Uint8Array || function () {};
function _uint8ArrayToBuffer(chunk) {
return Buffer.from(chunk);
}
function _isUint8Array(obj) {
return Buffer.isBuffer(obj) || obj instanceof OurUint8Array;
}
/**/
var destroyImpl = __nccwpck_require__(7181);
util.inherits(Writable, Stream);
function nop() {}
function WritableState(options, stream) {
Duplex = Duplex || __nccwpck_require__(5585);
options = options || {};
// Duplex streams are both readable and writable, but share
// the same options object.
// However, some cases require setting options to different
// values for the readable and the writable sides of the duplex stream.
// These options can be provided separately as readableXXX and writableXXX.
var isDuplex = stream instanceof Duplex;
// object stream flag to indicate whether or not this stream
// contains buffers or objects.
this.objectMode = !!options.objectMode;
if (isDuplex) this.objectMode = this.objectMode || !!options.writableObjectMode;
// the point at which write() starts returning false
// Note: 0 is a valid value, means that we always return false if
// the entire buffer is not flushed immediately on write()
var hwm = options.highWaterMark;
var writableHwm = options.writableHighWaterMark;
var defaultHwm = this.objectMode ? 16 : 16 * 1024;
if (hwm || hwm === 0) this.highWaterMark = hwm;else if (isDuplex && (writableHwm || writableHwm === 0)) this.highWaterMark = writableHwm;else this.highWaterMark = defaultHwm;
// cast to ints.
this.highWaterMark = Math.floor(this.highWaterMark);
// if _final has been called
this.finalCalled = false;
// drain event flag.
this.needDrain = false;
// at the start of calling end()
this.ending = false;
// when end() has been called, and returned
this.ended = false;
// when 'finish' is emitted
this.finished = false;
// has it been destroyed
this.destroyed = false;
// should we decode strings into buffers before passing to _write?
// this is here so that some node-core streams can optimize string
// handling at a lower level.
var noDecode = options.decodeStrings === false;
this.decodeStrings = !noDecode;
// Crypto is kind of old and crusty. Historically, its default string
// encoding is 'binary' so we have to make this configurable.
// Everything else in the universe uses 'utf8', though.
this.defaultEncoding = options.defaultEncoding || 'utf8';
// not an actual buffer we keep track of, but a measurement
// of how much we're waiting to get pushed to some underlying
// socket or file.
this.length = 0;
// a flag to see when we're in the middle of a write.
this.writing = false;
// when true all writes will be buffered until .uncork() call
this.corked = 0;
// a flag to be able to tell if the onwrite cb is called immediately,
// or on a later tick. We set this to true at first, because any
// actions that shouldn't happen until "later" should generally also
// not happen before the first write call.
this.sync = true;
// a flag to know if we're processing previously buffered items, which
// may call the _write() callback in the same tick, so that we don't
// end up in an overlapped onwrite situation.
this.bufferProcessing = false;
// the callback that's passed to _write(chunk,cb)
this.onwrite = function (er) {
onwrite(stream, er);
};
// the callback that the user supplies to write(chunk,encoding,cb)
this.writecb = null;
// the amount that is being written when _write is called.
this.writelen = 0;
this.bufferedRequest = null;
this.lastBufferedRequest = null;
// number of pending user-supplied write callbacks
// this must be 0 before 'finish' can be emitted
this.pendingcb = 0;
// emit prefinish if the only thing we're waiting for is _write cbs
// This is relevant for synchronous Transform streams
this.prefinished = false;
// True if the error was already emitted and should not be thrown again
this.errorEmitted = false;
// count buffered requests
this.bufferedRequestCount = 0;
// allocate the first CorkedRequest, there is always
// one allocated and free to use, and we maintain at most two
this.corkedRequestsFree = new CorkedRequest(this);
}
WritableState.prototype.getBuffer = function getBuffer() {
var current = this.bufferedRequest;
var out = [];
while (current) {
out.push(current);
current = current.next;
}
return out;
};
(function () {
try {
Object.defineProperty(WritableState.prototype, 'buffer', {
get: internalUtil.deprecate(function () {
return this.getBuffer();
}, '_writableState.buffer is deprecated. Use _writableState.getBuffer ' + 'instead.', 'DEP0003')
});
} catch (_) {}
})();
// Test _writableState for inheritance to account for Duplex streams,
// whose prototype chain only points to Readable.
var realHasInstance;
if (typeof Symbol === 'function' && Symbol.hasInstance && typeof Function.prototype[Symbol.hasInstance] === 'function') {
realHasInstance = Function.prototype[Symbol.hasInstance];
Object.defineProperty(Writable, Symbol.hasInstance, {
value: function (object) {
if (realHasInstance.call(this, object)) return true;
if (this !== Writable) return false;
return object && object._writableState instanceof WritableState;
}
});
} else {
realHasInstance = function (object) {
return object instanceof this;
};
}
function Writable(options) {
Duplex = Duplex || __nccwpck_require__(5585);
// Writable ctor is applied to Duplexes, too.
// `realHasInstance` is necessary because using plain `instanceof`
// would return false, as no `_writableState` property is attached.
// Trying to use the custom `instanceof` for Writable here will also break the
// Node.js LazyTransform implementation, which has a non-trivial getter for
// `_writableState` that would lead to infinite recursion.
if (!realHasInstance.call(Writable, this) && !(this instanceof Duplex)) {
return new Writable(options);
}
this._writableState = new WritableState(options, this);
// legacy.
this.writable = true;
if (options) {
if (typeof options.write === 'function') this._write = options.write;
if (typeof options.writev === 'function') this._writev = options.writev;
if (typeof options.destroy === 'function') this._destroy = options.destroy;
if (typeof options.final === 'function') this._final = options.final;
}
Stream.call(this);
}
// Otherwise people can pipe Writable streams, which is just wrong.
Writable.prototype.pipe = function () {
this.emit('error', new Error('Cannot pipe, not readable'));
};
function writeAfterEnd(stream, cb) {
var er = new Error('write after end');
// TODO: defer error events consistently everywhere, not just the cb
stream.emit('error', er);
pna.nextTick(cb, er);
}
// Checks that a user-supplied chunk is valid, especially for the particular
// mode the stream is in. Currently this means that `null` is never accepted
// and undefined/non-string values are only allowed in object mode.
function validChunk(stream, state, chunk, cb) {
var valid = true;
var er = false;
if (chunk === null) {
er = new TypeError('May not write null values to stream');
} else if (typeof chunk !== 'string' && chunk !== undefined && !state.objectMode) {
er = new TypeError('Invalid non-string/buffer chunk');
}
if (er) {
stream.emit('error', er);
pna.nextTick(cb, er);
valid = false;
}
return valid;
}
Writable.prototype.write = function (chunk, encoding, cb) {
var state = this._writableState;
var ret = false;
var isBuf = !state.objectMode && _isUint8Array(chunk);
if (isBuf && !Buffer.isBuffer(chunk)) {
chunk = _uint8ArrayToBuffer(chunk);
}
if (typeof encoding === 'function') {
cb = encoding;
encoding = null;
}
if (isBuf) encoding = 'buffer';else if (!encoding) encoding = state.defaultEncoding;
if (typeof cb !== 'function') cb = nop;
if (state.ended) writeAfterEnd(this, cb);else if (isBuf || validChunk(this, state, chunk, cb)) {
state.pendingcb++;
ret = writeOrBuffer(this, state, isBuf, chunk, encoding, cb);
}
return ret;
};
Writable.prototype.cork = function () {
var state = this._writableState;
state.corked++;
};
Writable.prototype.uncork = function () {
var state = this._writableState;
if (state.corked) {
state.corked--;
if (!state.writing && !state.corked && !state.finished && !state.bufferProcessing && state.bufferedRequest) clearBuffer(this, state);
}
};
Writable.prototype.setDefaultEncoding = function setDefaultEncoding(encoding) {
// node::ParseEncoding() requires lower case.
if (typeof encoding === 'string') encoding = encoding.toLowerCase();
if (!(['hex', 'utf8', 'utf-8', 'ascii', 'binary', 'base64', 'ucs2', 'ucs-2', 'utf16le', 'utf-16le', 'raw'].indexOf((encoding + '').toLowerCase()) > -1)) throw new TypeError('Unknown encoding: ' + encoding);
this._writableState.defaultEncoding = encoding;
return this;
};
function decodeChunk(state, chunk, encoding) {
if (!state.objectMode && state.decodeStrings !== false && typeof chunk === 'string') {
chunk = Buffer.from(chunk, encoding);
}
return chunk;
}
Object.defineProperty(Writable.prototype, 'writableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function () {
return this._writableState.highWaterMark;
}
});
// if we're already writing something, then just put this
// in the queue, and wait our turn. Otherwise, call _write
// If we return false, then we need a drain event, so set that flag.
function writeOrBuffer(stream, state, isBuf, chunk, encoding, cb) {
if (!isBuf) {
var newChunk = decodeChunk(state, chunk, encoding);
if (chunk !== newChunk) {
isBuf = true;
encoding = 'buffer';
chunk = newChunk;
}
}
var len = state.objectMode ? 1 : chunk.length;
state.length += len;
var ret = state.length < state.highWaterMark;
// we must ensure that previous needDrain will not be reset to false.
if (!ret) state.needDrain = true;
if (state.writing || state.corked) {
var last = state.lastBufferedRequest;
state.lastBufferedRequest = {
chunk: chunk,
encoding: encoding,
isBuf: isBuf,
callback: cb,
next: null
};
if (last) {
last.next = state.lastBufferedRequest;
} else {
state.bufferedRequest = state.lastBufferedRequest;
}
state.bufferedRequestCount += 1;
} else {
doWrite(stream, state, false, len, chunk, encoding, cb);
}
return ret;
}
function doWrite(stream, state, writev, len, chunk, encoding, cb) {
state.writelen = len;
state.writecb = cb;
state.writing = true;
state.sync = true;
if (writev) stream._writev(chunk, state.onwrite);else stream._write(chunk, encoding, state.onwrite);
state.sync = false;
}
function onwriteError(stream, state, sync, er, cb) {
--state.pendingcb;
if (sync) {
// defer the callback if we are being called synchronously
// to avoid piling up things on the stack
pna.nextTick(cb, er);
// this can emit finish, and it will always happen
// after error
pna.nextTick(finishMaybe, stream, state);
stream._writableState.errorEmitted = true;
stream.emit('error', er);
} else {
// the caller expect this to happen before if
// it is async
cb(er);
stream._writableState.errorEmitted = true;
stream.emit('error', er);
// this can emit finish, but finish must
// always follow error
finishMaybe(stream, state);
}
}
function onwriteStateUpdate(state) {
state.writing = false;
state.writecb = null;
state.length -= state.writelen;
state.writelen = 0;
}
function onwrite(stream, er) {
var state = stream._writableState;
var sync = state.sync;
var cb = state.writecb;
onwriteStateUpdate(state);
if (er) onwriteError(stream, state, sync, er, cb);else {
// Check if we're actually ready to finish, but don't emit yet
var finished = needFinish(state);
if (!finished && !state.corked && !state.bufferProcessing && state.bufferedRequest) {
clearBuffer(stream, state);
}
if (sync) {
/**/
asyncWrite(afterWrite, stream, state, finished, cb);
/**/
} else {
afterWrite(stream, state, finished, cb);
}
}
}
function afterWrite(stream, state, finished, cb) {
if (!finished) onwriteDrain(stream, state);
state.pendingcb--;
cb();
finishMaybe(stream, state);
}
// Must force callback to be called on nextTick, so that we don't
// emit 'drain' before the write() consumer gets the 'false' return
// value, and has a chance to attach a 'drain' listener.
function onwriteDrain(stream, state) {
if (state.length === 0 && state.needDrain) {
state.needDrain = false;
stream.emit('drain');
}
}
// if there's something in the buffer waiting, then process it
function clearBuffer(stream, state) {
state.bufferProcessing = true;
var entry = state.bufferedRequest;
if (stream._writev && entry && entry.next) {
// Fast case, write everything using _writev()
var l = state.bufferedRequestCount;
var buffer = new Array(l);
var holder = state.corkedRequestsFree;
holder.entry = entry;
var count = 0;
var allBuffers = true;
while (entry) {
buffer[count] = entry;
if (!entry.isBuf) allBuffers = false;
entry = entry.next;
count += 1;
}
buffer.allBuffers = allBuffers;
doWrite(stream, state, true, state.length, buffer, '', holder.finish);
// doWrite is almost always async, defer these to save a bit of time
// as the hot path ends with doWrite
state.pendingcb++;
state.lastBufferedRequest = null;
if (holder.next) {
state.corkedRequestsFree = holder.next;
holder.next = null;
} else {
state.corkedRequestsFree = new CorkedRequest(state);
}
state.bufferedRequestCount = 0;
} else {
// Slow case, write chunks one-by-one
while (entry) {
var chunk = entry.chunk;
var encoding = entry.encoding;
var cb = entry.callback;
var len = state.objectMode ? 1 : chunk.length;
doWrite(stream, state, false, len, chunk, encoding, cb);
entry = entry.next;
state.bufferedRequestCount--;
// if we didn't call the onwrite immediately, then
// it means that we need to wait until it does.
// also, that means that the chunk and cb are currently
// being processed, so move the buffer counter past them.
if (state.writing) {
break;
}
}
if (entry === null) state.lastBufferedRequest = null;
}
state.bufferedRequest = entry;
state.bufferProcessing = false;
}
Writable.prototype._write = function (chunk, encoding, cb) {
cb(new Error('_write() is not implemented'));
};
Writable.prototype._writev = null;
Writable.prototype.end = function (chunk, encoding, cb) {
var state = this._writableState;
if (typeof chunk === 'function') {
cb = chunk;
chunk = null;
encoding = null;
} else if (typeof encoding === 'function') {
cb = encoding;
encoding = null;
}
if (chunk !== null && chunk !== undefined) this.write(chunk, encoding);
// .end() fully uncorks
if (state.corked) {
state.corked = 1;
this.uncork();
}
// ignore unnecessary end() calls.
if (!state.ending && !state.finished) endWritable(this, state, cb);
};
function needFinish(state) {
return state.ending && state.length === 0 && state.bufferedRequest === null && !state.finished && !state.writing;
}
function callFinal(stream, state) {
stream._final(function (err) {
state.pendingcb--;
if (err) {
stream.emit('error', err);
}
state.prefinished = true;
stream.emit('prefinish');
finishMaybe(stream, state);
});
}
function prefinish(stream, state) {
if (!state.prefinished && !state.finalCalled) {
if (typeof stream._final === 'function') {
state.pendingcb++;
state.finalCalled = true;
pna.nextTick(callFinal, stream, state);
} else {
state.prefinished = true;
stream.emit('prefinish');
}
}
}
function finishMaybe(stream, state) {
var need = needFinish(state);
if (need) {
prefinish(stream, state);
if (state.pendingcb === 0) {
state.finished = true;
stream.emit('finish');
}
}
return need;
}
function endWritable(stream, state, cb) {
state.ending = true;
finishMaybe(stream, state);
if (cb) {
if (state.finished) pna.nextTick(cb);else stream.once('finish', cb);
}
state.ended = true;
stream.writable = false;
}
function onCorkedFinish(corkReq, state, err) {
var entry = corkReq.entry;
corkReq.entry = null;
while (entry) {
var cb = entry.callback;
state.pendingcb--;
cb(err);
entry = entry.next;
}
if (state.corkedRequestsFree) {
state.corkedRequestsFree.next = corkReq;
} else {
state.corkedRequestsFree = corkReq;
}
}
Object.defineProperty(Writable.prototype, 'destroyed', {
get: function () {
if (this._writableState === undefined) {
return false;
}
return this._writableState.destroyed;
},
set: function (value) {
// we ignore the value if the stream
// has not been initialized yet
if (!this._writableState) {
return;
}
// backward compatibility, the user is explicitly
// managing destroyed
this._writableState.destroyed = value;
}
});
Writable.prototype.destroy = destroyImpl.destroy;
Writable.prototype._undestroy = destroyImpl.undestroy;
Writable.prototype._destroy = function (err, cb) {
this.end();
cb(err);
};
/***/ }),
/***/ 5266:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } }
var Buffer = __nccwpck_require__(7677).Buffer;
var util = __nccwpck_require__(1669);
function copyBuffer(src, target, offset) {
src.copy(target, offset);
}
module.exports = function () {
function BufferList() {
_classCallCheck(this, BufferList);
this.head = null;
this.tail = null;
this.length = 0;
}
BufferList.prototype.push = function push(v) {
var entry = { data: v, next: null };
if (this.length > 0) this.tail.next = entry;else this.head = entry;
this.tail = entry;
++this.length;
};
BufferList.prototype.unshift = function unshift(v) {
var entry = { data: v, next: this.head };
if (this.length === 0) this.tail = entry;
this.head = entry;
++this.length;
};
BufferList.prototype.shift = function shift() {
if (this.length === 0) return;
var ret = this.head.data;
if (this.length === 1) this.head = this.tail = null;else this.head = this.head.next;
--this.length;
return ret;
};
BufferList.prototype.clear = function clear() {
this.head = this.tail = null;
this.length = 0;
};
BufferList.prototype.join = function join(s) {
if (this.length === 0) return '';
var p = this.head;
var ret = '' + p.data;
while (p = p.next) {
ret += s + p.data;
}return ret;
};
BufferList.prototype.concat = function concat(n) {
if (this.length === 0) return Buffer.alloc(0);
if (this.length === 1) return this.head.data;
var ret = Buffer.allocUnsafe(n >>> 0);
var p = this.head;
var i = 0;
while (p) {
copyBuffer(p.data, ret, i);
i += p.data.length;
p = p.next;
}
return ret;
};
return BufferList;
}();
if (util && util.inspect && util.inspect.custom) {
module.exports.prototype[util.inspect.custom] = function () {
var obj = util.inspect({ length: this.length });
return this.constructor.name + ' ' + obj;
};
}
/***/ }),
/***/ 7181:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
/**/
var pna = __nccwpck_require__(1491);
/**/
// undocumented cb() API, needed for core, not for public API
function destroy(err, cb) {
var _this = this;
var readableDestroyed = this._readableState && this._readableState.destroyed;
var writableDestroyed = this._writableState && this._writableState.destroyed;
if (readableDestroyed || writableDestroyed) {
if (cb) {
cb(err);
} else if (err && (!this._writableState || !this._writableState.errorEmitted)) {
pna.nextTick(emitErrorNT, this, err);
}
return this;
}
// we set destroyed to true before firing error callbacks in order
// to make it re-entrance safe in case destroy() is called within callbacks
if (this._readableState) {
this._readableState.destroyed = true;
}
// if this is a duplex stream mark the writable part as destroyed as well
if (this._writableState) {
this._writableState.destroyed = true;
}
this._destroy(err || null, function (err) {
if (!cb && err) {
pna.nextTick(emitErrorNT, _this, err);
if (_this._writableState) {
_this._writableState.errorEmitted = true;
}
} else if (cb) {
cb(err);
}
});
return this;
}
function undestroy() {
if (this._readableState) {
this._readableState.destroyed = false;
this._readableState.reading = false;
this._readableState.ended = false;
this._readableState.endEmitted = false;
}
if (this._writableState) {
this._writableState.destroyed = false;
this._writableState.ended = false;
this._writableState.ending = false;
this._writableState.finished = false;
this._writableState.errorEmitted = false;
}
}
function emitErrorNT(self, err) {
self.emit('error', err);
}
module.exports = {
destroy: destroy,
undestroy: undestroy
};
/***/ }),
/***/ 413:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
module.exports = __nccwpck_require__(2413);
/***/ }),
/***/ 8514:
/***/ ((module, exports, __nccwpck_require__) => {
var Stream = __nccwpck_require__(2413);
if (process.env.READABLE_STREAM === 'disable' && Stream) {
module.exports = Stream;
exports = module.exports = Stream.Readable;
exports.Readable = Stream.Readable;
exports.Writable = Stream.Writable;
exports.Duplex = Stream.Duplex;
exports.Transform = Stream.Transform;
exports.PassThrough = Stream.PassThrough;
exports.Stream = Stream;
} else {
exports = module.exports = __nccwpck_require__(2784);
exports.Stream = Stream || exports;
exports.Readable = exports;
exports.Writable = __nccwpck_require__(4825);
exports.Duplex = __nccwpck_require__(5585);
exports.Transform = __nccwpck_require__(1265);
exports.PassThrough = __nccwpck_require__(5693);
}
/***/ }),
/***/ 6280:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* Archiver Vending
*
* @ignore
* @license [MIT]{@link https://github.com/archiverjs/node-archiver/blob/master/LICENSE}
* @copyright (c) 2012-2014 Chris Talkington, contributors.
*/
var Archiver = __nccwpck_require__(9283);
var formats = {};
/**
* Dispenses a new Archiver instance.
*
* @constructor
* @param {String} format The archive format to use.
* @param {Object} options See [Archiver]{@link Archiver}
* @return {Archiver}
*/
var vending = function(format, options) {
return vending.create(format, options);
};
/**
* Creates a new Archiver instance.
*
* @param {String} format The archive format to use.
* @param {Object} options See [Archiver]{@link Archiver}
* @return {Archiver}
*/
vending.create = function(format, options) {
if (formats[format]) {
var instance = new Archiver(format, options);
instance.setFormat(format);
instance.setModule(new formats[format](options));
return instance;
} else {
throw new Error('create(' + format + '): format not registered');
}
};
/**
* Registers a format for use with archiver.
*
* @param {String} format The name of the format.
* @param {Function} module The function for archiver to interact with.
* @return void
*/
vending.registerFormat = function(format, module) {
if (formats[format]) {
throw new Error('register(' + format + '): format already registered');
}
if (typeof module !== 'function') {
throw new Error('register(' + format + '): format module invalid');
}
if (typeof module.prototype.append !== 'function' || typeof module.prototype.finalize !== 'function') {
throw new Error('register(' + format + '): format module missing methods');
}
formats[format] = module;
};
/**
* Check if the format is already registered.
*
* @param {String} format the name of the format.
* @return boolean
*/
vending.isRegisteredFormat = function (format) {
if (formats[format]) {
return true;
}
return false;
};
vending.registerFormat('zip', __nccwpck_require__(8064));
vending.registerFormat('tar', __nccwpck_require__(6903));
vending.registerFormat('json', __nccwpck_require__(4681));
module.exports = vending;
/***/ }),
/***/ 9283:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* Archiver Core
*
* @ignore
* @license [MIT]{@link https://github.com/archiverjs/node-archiver/blob/master/LICENSE}
* @copyright (c) 2012-2014 Chris Talkington, contributors.
*/
var fs = __nccwpck_require__(5747);
var glob = __nccwpck_require__(4812);
var async = __nccwpck_require__(7716);
var path = __nccwpck_require__(5622);
var util = __nccwpck_require__(590);
var inherits = __nccwpck_require__(1669).inherits;
var ArchiverError = __nccwpck_require__(1782);
var Transform = __nccwpck_require__(7544).Transform;
var win32 = process.platform === 'win32';
/**
* @constructor
* @param {String} format The archive format to use.
* @param {(CoreOptions|TransformOptions)} options See also {@link ZipOptions} and {@link TarOptions}.
*/
var Archiver = function(format, options) {
if (!(this instanceof Archiver)) {
return new Archiver(format, options);
}
if (typeof format !== 'string') {
options = format;
format = 'zip';
}
options = this.options = util.defaults(options, {
highWaterMark: 1024 * 1024,
statConcurrency: 4
});
Transform.call(this, options);
this._format = false;
this._module = false;
this._pending = 0;
this._pointer = 0;
this._entriesCount = 0;
this._entriesProcessedCount = 0;
this._fsEntriesTotalBytes = 0;
this._fsEntriesProcessedBytes = 0;
this._queue = async.queue(this._onQueueTask.bind(this), 1);
this._queue.drain(this._onQueueDrain.bind(this));
this._statQueue = async.queue(this._onStatQueueTask.bind(this), options.statConcurrency);
this._statQueue.drain(this._onQueueDrain.bind(this));
this._state = {
aborted: false,
finalize: false,
finalizing: false,
finalized: false,
modulePiped: false
};
this._streams = [];
};
inherits(Archiver, Transform);
/**
* Internal logic for `abort`.
*
* @private
* @return void
*/
Archiver.prototype._abort = function() {
this._state.aborted = true;
this._queue.kill();
this._statQueue.kill();
if (this._queue.idle()) {
this._shutdown();
}
};
/**
* Internal helper for appending files.
*
* @private
* @param {String} filepath The source filepath.
* @param {EntryData} data The entry data.
* @return void
*/
Archiver.prototype._append = function(filepath, data) {
data = data || {};
var task = {
source: null,
filepath: filepath
};
if (!data.name) {
data.name = filepath;
}
data.sourcePath = filepath;
task.data = data;
this._entriesCount++;
if (data.stats && data.stats instanceof fs.Stats) {
task = this._updateQueueTaskWithStats(task, data.stats);
if (task) {
if (data.stats.size) {
this._fsEntriesTotalBytes += data.stats.size;
}
this._queue.push(task);
}
} else {
this._statQueue.push(task);
}
};
/**
* Internal logic for `finalize`.
*
* @private
* @return void
*/
Archiver.prototype._finalize = function() {
if (this._state.finalizing || this._state.finalized || this._state.aborted) {
return;
}
this._state.finalizing = true;
this._moduleFinalize();
this._state.finalizing = false;
this._state.finalized = true;
};
/**
* Checks the various state variables to determine if we can `finalize`.
*
* @private
* @return {Boolean}
*/
Archiver.prototype._maybeFinalize = function() {
if (this._state.finalizing || this._state.finalized || this._state.aborted) {
return false;
}
if (this._state.finalize && this._pending === 0 && this._queue.idle() && this._statQueue.idle()) {
this._finalize();
return true;
}
return false;
};
/**
* Appends an entry to the module.
*
* @private
* @fires Archiver#entry
* @param {(Buffer|Stream)} source
* @param {EntryData} data
* @param {Function} callback
* @return void
*/
Archiver.prototype._moduleAppend = function(source, data, callback) {
if (this._state.aborted) {
callback();
return;
}
this._module.append(source, data, function(err) {
this._task = null;
if (this._state.aborted) {
this._shutdown();
return;
}
if (err) {
this.emit('error', err);
setImmediate(callback);
return;
}
/**
* Fires when the entry's input has been processed and appended to the archive.
*
* @event Archiver#entry
* @type {EntryData}
*/
this.emit('entry', data);
this._entriesProcessedCount++;
if (data.stats && data.stats.size) {
this._fsEntriesProcessedBytes += data.stats.size;
}
/**
* @event Archiver#progress
* @type {ProgressData}
*/
this.emit('progress', {
entries: {
total: this._entriesCount,
processed: this._entriesProcessedCount
},
fs: {
totalBytes: this._fsEntriesTotalBytes,
processedBytes: this._fsEntriesProcessedBytes
}
});
setImmediate(callback);
}.bind(this));
};
/**
* Finalizes the module.
*
* @private
* @return void
*/
Archiver.prototype._moduleFinalize = function() {
if (typeof this._module.finalize === 'function') {
this._module.finalize();
} else if (typeof this._module.end === 'function') {
this._module.end();
} else {
this.emit('error', new ArchiverError('NOENDMETHOD'));
}
};
/**
* Pipes the module to our internal stream with error bubbling.
*
* @private
* @return void
*/
Archiver.prototype._modulePipe = function() {
this._module.on('error', this._onModuleError.bind(this));
this._module.pipe(this);
this._state.modulePiped = true;
};
/**
* Determines if the current module supports a defined feature.
*
* @private
* @param {String} key
* @return {Boolean}
*/
Archiver.prototype._moduleSupports = function(key) {
if (!this._module.supports || !this._module.supports[key]) {
return false;
}
return this._module.supports[key];
};
/**
* Unpipes the module from our internal stream.
*
* @private
* @return void
*/
Archiver.prototype._moduleUnpipe = function() {
this._module.unpipe(this);
this._state.modulePiped = false;
};
/**
* Normalizes entry data with fallbacks for key properties.
*
* @private
* @param {Object} data
* @param {fs.Stats} stats
* @return {Object}
*/
Archiver.prototype._normalizeEntryData = function(data, stats) {
data = util.defaults(data, {
type: 'file',
name: null,
date: null,
mode: null,
prefix: null,
sourcePath: null,
stats: false
});
if (stats && data.stats === false) {
data.stats = stats;
}
var isDir = data.type === 'directory';
if (data.name) {
if (typeof data.prefix === 'string' && '' !== data.prefix) {
data.name = data.prefix + '/' + data.name;
data.prefix = null;
}
data.name = util.sanitizePath(data.name);
if (data.type !== 'symlink' && data.name.slice(-1) === '/') {
isDir = true;
data.type = 'directory';
} else if (isDir) {
data.name += '/';
}
}
// 511 === 0777; 493 === 0755; 438 === 0666; 420 === 0644
if (typeof data.mode === 'number') {
if (win32) {
data.mode &= 511;
} else {
data.mode &= 4095
}
} else if (data.stats && data.mode === null) {
if (win32) {
data.mode = data.stats.mode & 511;
} else {
data.mode = data.stats.mode & 4095;
}
// stat isn't reliable on windows; force 0755 for dir
if (win32 && isDir) {
data.mode = 493;
}
} else if (data.mode === null) {
data.mode = isDir ? 493 : 420;
}
if (data.stats && data.date === null) {
data.date = data.stats.mtime;
} else {
data.date = util.dateify(data.date);
}
return data;
};
/**
* Error listener that re-emits error on to our internal stream.
*
* @private
* @param {Error} err
* @return void
*/
Archiver.prototype._onModuleError = function(err) {
/**
* @event Archiver#error
* @type {ErrorData}
*/
this.emit('error', err);
};
/**
* Checks the various state variables after queue has drained to determine if
* we need to `finalize`.
*
* @private
* @return void
*/
Archiver.prototype._onQueueDrain = function() {
if (this._state.finalizing || this._state.finalized || this._state.aborted) {
return;
}
if (this._state.finalize && this._pending === 0 && this._queue.idle() && this._statQueue.idle()) {
this._finalize();
}
};
/**
* Appends each queue task to the module.
*
* @private
* @param {Object} task
* @param {Function} callback
* @return void
*/
Archiver.prototype._onQueueTask = function(task, callback) {
var fullCallback = () => {
if(task.data.callback) {
task.data.callback();
}
callback();
}
if (this._state.finalizing || this._state.finalized || this._state.aborted) {
fullCallback();
return;
}
this._task = task;
this._moduleAppend(task.source, task.data, fullCallback);
};
/**
* Performs a file stat and reinjects the task back into the queue.
*
* @private
* @param {Object} task
* @param {Function} callback
* @return void
*/
Archiver.prototype._onStatQueueTask = function(task, callback) {
if (this._state.finalizing || this._state.finalized || this._state.aborted) {
callback();
return;
}
fs.lstat(task.filepath, function(err, stats) {
if (this._state.aborted) {
setImmediate(callback);
return;
}
if (err) {
this._entriesCount--;
/**
* @event Archiver#warning
* @type {ErrorData}
*/
this.emit('warning', err);
setImmediate(callback);
return;
}
task = this._updateQueueTaskWithStats(task, stats);
if (task) {
if (stats.size) {
this._fsEntriesTotalBytes += stats.size;
}
this._queue.push(task);
}
setImmediate(callback);
}.bind(this));
};
/**
* Unpipes the module and ends our internal stream.
*
* @private
* @return void
*/
Archiver.prototype._shutdown = function() {
this._moduleUnpipe();
this.end();
};
/**
* Tracks the bytes emitted by our internal stream.
*
* @private
* @param {Buffer} chunk
* @param {String} encoding
* @param {Function} callback
* @return void
*/
Archiver.prototype._transform = function(chunk, encoding, callback) {
if (chunk) {
this._pointer += chunk.length;
}
callback(null, chunk);
};
/**
* Updates and normalizes a queue task using stats data.
*
* @private
* @param {Object} task
* @param {fs.Stats} stats
* @return {Object}
*/
Archiver.prototype._updateQueueTaskWithStats = function(task, stats) {
if (stats.isFile()) {
task.data.type = 'file';
task.data.sourceType = 'stream';
task.source = util.lazyReadStream(task.filepath);
} else if (stats.isDirectory() && this._moduleSupports('directory')) {
task.data.name = util.trailingSlashIt(task.data.name);
task.data.type = 'directory';
task.data.sourcePath = util.trailingSlashIt(task.filepath);
task.data.sourceType = 'buffer';
task.source = Buffer.concat([]);
} else if (stats.isSymbolicLink() && this._moduleSupports('symlink')) {
var linkPath = fs.readlinkSync(task.filepath);
var dirName = path.dirname(task.filepath);
task.data.type = 'symlink';
task.data.linkname = path.relative(dirName, path.resolve(dirName, linkPath));
task.data.sourceType = 'buffer';
task.source = Buffer.concat([]);
} else {
if (stats.isDirectory()) {
this.emit('warning', new ArchiverError('DIRECTORYNOTSUPPORTED', task.data));
} else if (stats.isSymbolicLink()) {
this.emit('warning', new ArchiverError('SYMLINKNOTSUPPORTED', task.data));
} else {
this.emit('warning', new ArchiverError('ENTRYNOTSUPPORTED', task.data));
}
return null;
}
task.data = this._normalizeEntryData(task.data, stats);
return task;
};
/**
* Aborts the archiving process, taking a best-effort approach, by:
*
* - removing any pending queue tasks
* - allowing any active queue workers to finish
* - detaching internal module pipes
* - ending both sides of the Transform stream
*
* It will NOT drain any remaining sources.
*
* @return {this}
*/
Archiver.prototype.abort = function() {
if (this._state.aborted || this._state.finalized) {
return this;
}
this._abort();
return this;
};
/**
* Appends an input source (text string, buffer, or stream) to the instance.
*
* When the instance has received, processed, and emitted the input, the `entry`
* event is fired.
*
* @fires Archiver#entry
* @param {(Buffer|Stream|String)} source The input source.
* @param {EntryData} data See also {@link ZipEntryData} and {@link TarEntryData}.
* @return {this}
*/
Archiver.prototype.append = function(source, data) {
if (this._state.finalize || this._state.aborted) {
this.emit('error', new ArchiverError('QUEUECLOSED'));
return this;
}
data = this._normalizeEntryData(data);
if (typeof data.name !== 'string' || data.name.length === 0) {
this.emit('error', new ArchiverError('ENTRYNAMEREQUIRED'));
return this;
}
if (data.type === 'directory' && !this._moduleSupports('directory')) {
this.emit('error', new ArchiverError('DIRECTORYNOTSUPPORTED', { name: data.name }));
return this;
}
source = util.normalizeInputSource(source);
if (Buffer.isBuffer(source)) {
data.sourceType = 'buffer';
} else if (util.isStream(source)) {
data.sourceType = 'stream';
} else {
this.emit('error', new ArchiverError('INPUTSTEAMBUFFERREQUIRED', { name: data.name }));
return this;
}
this._entriesCount++;
this._queue.push({
data: data,
source: source
});
return this;
};
/**
* Appends a directory and its files, recursively, given its dirpath.
*
* @param {String} dirpath The source directory path.
* @param {String} destpath The destination path within the archive.
* @param {(EntryData|Function)} data See also [ZipEntryData]{@link ZipEntryData} and
* [TarEntryData]{@link TarEntryData}.
* @return {this}
*/
Archiver.prototype.directory = function(dirpath, destpath, data) {
if (this._state.finalize || this._state.aborted) {
this.emit('error', new ArchiverError('QUEUECLOSED'));
return this;
}
if (typeof dirpath !== 'string' || dirpath.length === 0) {
this.emit('error', new ArchiverError('DIRECTORYDIRPATHREQUIRED'));
return this;
}
this._pending++;
if (destpath === false) {
destpath = '';
} else if (typeof destpath !== 'string'){
destpath = dirpath;
}
var dataFunction = false;
if (typeof data === 'function') {
dataFunction = data;
data = {};
} else if (typeof data !== 'object') {
data = {};
}
var globOptions = {
stat: true,
dot: true
};
function onGlobEnd() {
this._pending--;
this._maybeFinalize();
}
function onGlobError(err) {
this.emit('error', err);
}
function onGlobMatch(match){
globber.pause();
var ignoreMatch = false;
var entryData = Object.assign({}, data);
entryData.name = match.relative;
entryData.prefix = destpath;
entryData.stats = match.stat;
entryData.callback = globber.resume.bind(globber);
try {
if (dataFunction) {
entryData = dataFunction(entryData);
if (entryData === false) {
ignoreMatch = true;
} else if (typeof entryData !== 'object') {
throw new ArchiverError('DIRECTORYFUNCTIONINVALIDDATA', { dirpath: dirpath });
}
}
} catch(e) {
this.emit('error', e);
return;
}
if (ignoreMatch) {
globber.resume();
return;
}
this._append(match.absolute, entryData);
}
var globber = glob(dirpath, globOptions);
globber.on('error', onGlobError.bind(this));
globber.on('match', onGlobMatch.bind(this));
globber.on('end', onGlobEnd.bind(this));
return this;
};
/**
* Appends a file given its filepath using a
* [lazystream]{@link https://github.com/jpommerening/node-lazystream} wrapper to
* prevent issues with open file limits.
*
* When the instance has received, processed, and emitted the file, the `entry`
* event is fired.
*
* @param {String} filepath The source filepath.
* @param {EntryData} data See also [ZipEntryData]{@link ZipEntryData} and
* [TarEntryData]{@link TarEntryData}.
* @return {this}
*/
Archiver.prototype.file = function(filepath, data) {
if (this._state.finalize || this._state.aborted) {
this.emit('error', new ArchiverError('QUEUECLOSED'));
return this;
}
if (typeof filepath !== 'string' || filepath.length === 0) {
this.emit('error', new ArchiverError('FILEFILEPATHREQUIRED'));
return this;
}
this._append(filepath, data);
return this;
};
/**
* Appends multiple files that match a glob pattern.
*
* @param {String} pattern The [glob pattern]{@link https://github.com/isaacs/minimatch} to match.
* @param {Object} options See [node-readdir-glob]{@link https://github.com/yqnn/node-readdir-glob#options}.
* @param {EntryData} data See also [ZipEntryData]{@link ZipEntryData} and
* [TarEntryData]{@link TarEntryData}.
* @return {this}
*/
Archiver.prototype.glob = function(pattern, options, data) {
this._pending++;
options = util.defaults(options, {
stat: true,
pattern: pattern
});
function onGlobEnd() {
this._pending--;
this._maybeFinalize();
}
function onGlobError(err) {
this.emit('error', err);
}
function onGlobMatch(match){
globber.pause();
var entryData = Object.assign({}, data);
entryData.callback = globber.resume.bind(globber);
entryData.stats = match.stat;
entryData.name = match.relative;
this._append(match.absolute, entryData);
}
var globber = glob(options.cwd || '.', options);
globber.on('error', onGlobError.bind(this));
globber.on('match', onGlobMatch.bind(this));
globber.on('end', onGlobEnd.bind(this));
return this;
};
/**
* Finalizes the instance and prevents further appending to the archive
* structure (queue will continue til drained).
*
* The `end`, `close` or `finish` events on the destination stream may fire
* right after calling this method so you should set listeners beforehand to
* properly detect stream completion.
*
* @return {Promise}
*/
Archiver.prototype.finalize = function() {
if (this._state.aborted) {
var abortedError = new ArchiverError('ABORTED');
this.emit('error', abortedError);
return Promise.reject(abortedError);
}
if (this._state.finalize) {
var finalizingError = new ArchiverError('FINALIZING');
this.emit('error', finalizingError);
return Promise.reject(finalizingError);
}
this._state.finalize = true;
if (this._pending === 0 && this._queue.idle() && this._statQueue.idle()) {
this._finalize();
}
var self = this;
return new Promise(function(resolve, reject) {
var errored;
self._module.on('end', function() {
if (!errored) {
resolve();
}
})
self._module.on('error', function(err) {
errored = true;
reject(err);
})
})
};
/**
* Sets the module format name used for archiving.
*
* @param {String} format The name of the format.
* @return {this}
*/
Archiver.prototype.setFormat = function(format) {
if (this._format) {
this.emit('error', new ArchiverError('FORMATSET'));
return this;
}
this._format = format;
return this;
};
/**
* Sets the module used for archiving.
*
* @param {Function} module The function for archiver to interact with.
* @return {this}
*/
Archiver.prototype.setModule = function(module) {
if (this._state.aborted) {
this.emit('error', new ArchiverError('ABORTED'));
return this;
}
if (this._state.module) {
this.emit('error', new ArchiverError('MODULESET'));
return this;
}
this._module = module;
this._modulePipe();
return this;
};
/**
* Appends a symlink to the instance.
*
* This does NOT interact with filesystem and is used for programmatically creating symlinks.
*
* @param {String} filepath The symlink path (within archive).
* @param {String} target The target path (within archive).
* @param {Number} mode Sets the entry permissions.
* @return {this}
*/
Archiver.prototype.symlink = function(filepath, target, mode) {
if (this._state.finalize || this._state.aborted) {
this.emit('error', new ArchiverError('QUEUECLOSED'));
return this;
}
if (typeof filepath !== 'string' || filepath.length === 0) {
this.emit('error', new ArchiverError('SYMLINKFILEPATHREQUIRED'));
return this;
}
if (typeof target !== 'string' || target.length === 0) {
this.emit('error', new ArchiverError('SYMLINKTARGETREQUIRED', { filepath: filepath }));
return this;
}
if (!this._moduleSupports('symlink')) {
this.emit('error', new ArchiverError('SYMLINKNOTSUPPORTED', { filepath: filepath }));
return this;
}
var data = {};
data.type = 'symlink';
data.name = filepath.replace(/\\/g, '/');
data.linkname = target.replace(/\\/g, '/');
data.sourceType = 'buffer';
if (typeof mode === "number") {
data.mode = mode;
}
this._entriesCount++;
this._queue.push({
data: data,
source: Buffer.concat([])
});
return this;
};
/**
* Returns the current length (in bytes) that has been emitted.
*
* @return {Number}
*/
Archiver.prototype.pointer = function() {
return this._pointer;
};
/**
* Middleware-like helper that has yet to be fully implemented.
*
* @private
* @param {Function} plugin
* @return {this}
*/
Archiver.prototype.use = function(plugin) {
this._streams.push(plugin);
return this;
};
module.exports = Archiver;
/**
* @typedef {Object} CoreOptions
* @global
* @property {Number} [statConcurrency=4] Sets the number of workers used to
* process the internal fs stat queue.
*/
/**
* @typedef {Object} TransformOptions
* @property {Boolean} [allowHalfOpen=true] If set to false, then the stream
* will automatically end the readable side when the writable side ends and vice
* versa.
* @property {Boolean} [readableObjectMode=false] Sets objectMode for readable
* side of the stream. Has no effect if objectMode is true.
* @property {Boolean} [writableObjectMode=false] Sets objectMode for writable
* side of the stream. Has no effect if objectMode is true.
* @property {Boolean} [decodeStrings=true] Whether or not to decode strings
* into Buffers before passing them to _write(). `Writable`
* @property {String} [encoding=NULL] If specified, then buffers will be decoded
* to strings using the specified encoding. `Readable`
* @property {Number} [highWaterMark=16kb] The maximum number of bytes to store
* in the internal buffer before ceasing to read from the underlying resource.
* `Readable` `Writable`
* @property {Boolean} [objectMode=false] Whether this stream should behave as a
* stream of objects. Meaning that stream.read(n) returns a single value instead
* of a Buffer of size n. `Readable` `Writable`
*/
/**
* @typedef {Object} EntryData
* @property {String} name Sets the entry name including internal path.
* @property {(String|Date)} [date=NOW()] Sets the entry date.
* @property {Number} [mode=D:0755/F:0644] Sets the entry permissions.
* @property {String} [prefix] Sets a path prefix for the entry name. Useful
* when working with methods like `directory` or `glob`.
* @property {fs.Stats} [stats] Sets the fs stat data for this entry allowing
* for reduction of fs stat calls when stat data is already known.
*/
/**
* @typedef {Object} ErrorData
* @property {String} message The message of the error.
* @property {String} code The error code assigned to this error.
* @property {String} data Additional data provided for reporting or debugging (where available).
*/
/**
* @typedef {Object} ProgressData
* @property {Object} entries
* @property {Number} entries.total Number of entries that have been appended.
* @property {Number} entries.processed Number of entries that have been processed.
* @property {Object} fs
* @property {Number} fs.totalBytes Number of bytes that have been appended. Calculated asynchronously and might not be accurate: it growth while entries are added. (based on fs.Stats)
* @property {Number} fs.processedBytes Number of bytes that have been processed. (based on fs.Stats)
*/
/***/ }),
/***/ 1782:
/***/ ((module, exports, __nccwpck_require__) => {
/**
* Archiver Core
*
* @ignore
* @license [MIT]{@link https://github.com/archiverjs/node-archiver/blob/master/LICENSE}
* @copyright (c) 2012-2014 Chris Talkington, contributors.
*/
var util = __nccwpck_require__(1669);
const ERROR_CODES = {
'ABORTED': 'archive was aborted',
'DIRECTORYDIRPATHREQUIRED': 'diretory dirpath argument must be a non-empty string value',
'DIRECTORYFUNCTIONINVALIDDATA': 'invalid data returned by directory custom data function',
'ENTRYNAMEREQUIRED': 'entry name must be a non-empty string value',
'FILEFILEPATHREQUIRED': 'file filepath argument must be a non-empty string value',
'FINALIZING': 'archive already finalizing',
'QUEUECLOSED': 'queue closed',
'NOENDMETHOD': 'no suitable finalize/end method defined by module',
'DIRECTORYNOTSUPPORTED': 'support for directory entries not defined by module',
'FORMATSET': 'archive format already set',
'INPUTSTEAMBUFFERREQUIRED': 'input source must be valid Stream or Buffer instance',
'MODULESET': 'module already set',
'SYMLINKNOTSUPPORTED': 'support for symlink entries not defined by module',
'SYMLINKFILEPATHREQUIRED': 'symlink filepath argument must be a non-empty string value',
'SYMLINKTARGETREQUIRED': 'symlink target argument must be a non-empty string value',
'ENTRYNOTSUPPORTED': 'entry not supported'
};
function ArchiverError(code, data) {
Error.captureStackTrace(this, this.constructor);
//this.name = this.constructor.name;
this.message = ERROR_CODES[code] || code;
this.code = code;
this.data = data;
}
util.inherits(ArchiverError, Error);
exports = module.exports = ArchiverError;
/***/ }),
/***/ 4681:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* JSON Format Plugin
*
* @module plugins/json
* @license [MIT]{@link https://github.com/archiverjs/node-archiver/blob/master/LICENSE}
* @copyright (c) 2012-2014 Chris Talkington, contributors.
*/
var inherits = __nccwpck_require__(1669).inherits;
var Transform = __nccwpck_require__(7544).Transform;
var crc32 = __nccwpck_require__(1262);
var util = __nccwpck_require__(590);
/**
* @constructor
* @param {(JsonOptions|TransformOptions)} options
*/
var Json = function(options) {
if (!(this instanceof Json)) {
return new Json(options);
}
options = this.options = util.defaults(options, {});
Transform.call(this, options);
this.supports = {
directory: true,
symlink: true
};
this.files = [];
};
inherits(Json, Transform);
/**
* [_transform description]
*
* @private
* @param {Buffer} chunk
* @param {String} encoding
* @param {Function} callback
* @return void
*/
Json.prototype._transform = function(chunk, encoding, callback) {
callback(null, chunk);
};
/**
* [_writeStringified description]
*
* @private
* @return void
*/
Json.prototype._writeStringified = function() {
var fileString = JSON.stringify(this.files);
this.write(fileString);
};
/**
* [append description]
*
* @param {(Buffer|Stream)} source
* @param {EntryData} data
* @param {Function} callback
* @return void
*/
Json.prototype.append = function(source, data, callback) {
var self = this;
data.crc32 = 0;
function onend(err, sourceBuffer) {
if (err) {
callback(err);
return;
}
data.size = sourceBuffer.length || 0;
data.crc32 = crc32.unsigned(sourceBuffer);
self.files.push(data);
callback(null, data);
}
if (data.sourceType === 'buffer') {
onend(null, source);
} else if (data.sourceType === 'stream') {
util.collectStream(source, onend);
}
};
/**
* [finalize description]
*
* @return void
*/
Json.prototype.finalize = function() {
this._writeStringified();
this.end();
};
module.exports = Json;
/**
* @typedef {Object} JsonOptions
* @global
*/
/***/ }),
/***/ 6903:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* TAR Format Plugin
*
* @module plugins/tar
* @license [MIT]{@link https://github.com/archiverjs/node-archiver/blob/master/LICENSE}
* @copyright (c) 2012-2014 Chris Talkington, contributors.
*/
var zlib = __nccwpck_require__(8761);
var engine = __nccwpck_require__(5897);
var util = __nccwpck_require__(590);
/**
* @constructor
* @param {TarOptions} options
*/
var Tar = function(options) {
if (!(this instanceof Tar)) {
return new Tar(options);
}
options = this.options = util.defaults(options, {
gzip: false
});
if (typeof options.gzipOptions !== 'object') {
options.gzipOptions = {};
}
this.supports = {
directory: true,
symlink: true
};
this.engine = engine.pack(options);
this.compressor = false;
if (options.gzip) {
this.compressor = zlib.createGzip(options.gzipOptions);
this.compressor.on('error', this._onCompressorError.bind(this));
}
};
/**
* [_onCompressorError description]
*
* @private
* @param {Error} err
* @return void
*/
Tar.prototype._onCompressorError = function(err) {
this.engine.emit('error', err);
};
/**
* [append description]
*
* @param {(Buffer|Stream)} source
* @param {TarEntryData} data
* @param {Function} callback
* @return void
*/
Tar.prototype.append = function(source, data, callback) {
var self = this;
data.mtime = data.date;
function append(err, sourceBuffer) {
if (err) {
callback(err);
return;
}
self.engine.entry(data, sourceBuffer, function(err) {
callback(err, data);
});
}
if (data.sourceType === 'buffer') {
append(null, source);
} else if (data.sourceType === 'stream' && data.stats) {
data.size = data.stats.size;
var entry = self.engine.entry(data, function(err) {
callback(err, data);
});
source.pipe(entry);
} else if (data.sourceType === 'stream') {
util.collectStream(source, append);
}
};
/**
* [finalize description]
*
* @return void
*/
Tar.prototype.finalize = function() {
this.engine.finalize();
};
/**
* [on description]
*
* @return this.engine
*/
Tar.prototype.on = function() {
return this.engine.on.apply(this.engine, arguments);
};
/**
* [pipe description]
*
* @param {String} destination
* @param {Object} options
* @return this.engine
*/
Tar.prototype.pipe = function(destination, options) {
if (this.compressor) {
return this.engine.pipe.apply(this.engine, [this.compressor]).pipe(destination, options);
} else {
return this.engine.pipe.apply(this.engine, arguments);
}
};
/**
* [unpipe description]
*
* @return this.engine
*/
Tar.prototype.unpipe = function() {
if (this.compressor) {
return this.compressor.unpipe.apply(this.compressor, arguments);
} else {
return this.engine.unpipe.apply(this.engine, arguments);
}
};
module.exports = Tar;
/**
* @typedef {Object} TarOptions
* @global
* @property {Boolean} [gzip=false] Compress the tar archive using gzip.
* @property {Object} [gzipOptions] Passed to [zlib]{@link https://nodejs.org/api/zlib.html#zlib_class_options}
* to control compression.
* @property {*} [*] See [tar-stream]{@link https://github.com/mafintosh/tar-stream} documentation for additional properties.
*/
/**
* @typedef {Object} TarEntryData
* @global
* @property {String} name Sets the entry name including internal path.
* @property {(String|Date)} [date=NOW()] Sets the entry date.
* @property {Number} [mode=D:0755/F:0644] Sets the entry permissions.
* @property {String} [prefix] Sets a path prefix for the entry name. Useful
* when working with methods like `directory` or `glob`.
* @property {fs.Stats} [stats] Sets the fs stat data for this entry allowing
* for reduction of fs stat calls when stat data is already known.
*/
/**
* TarStream Module
* @external TarStream
* @see {@link https://github.com/mafintosh/tar-stream}
*/
/***/ }),
/***/ 8064:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* ZIP Format Plugin
*
* @module plugins/zip
* @license [MIT]{@link https://github.com/archiverjs/node-archiver/blob/master/LICENSE}
* @copyright (c) 2012-2014 Chris Talkington, contributors.
*/
var engine = __nccwpck_require__(6723);
var util = __nccwpck_require__(590);
/**
* @constructor
* @param {ZipOptions} [options]
* @param {String} [options.comment] Sets the zip archive comment.
* @param {Boolean} [options.forceLocalTime=false] Forces the archive to contain local file times instead of UTC.
* @param {Boolean} [options.forceZip64=false] Forces the archive to contain ZIP64 headers.
* @param {Boolean} [options.namePrependSlash=false] Prepends a forward slash to archive file paths.
* @param {Boolean} [options.store=false] Sets the compression method to STORE.
* @param {Object} [options.zlib] Passed to [zlib]{@link https://nodejs.org/api/zlib.html#zlib_class_options}
*/
var Zip = function(options) {
if (!(this instanceof Zip)) {
return new Zip(options);
}
options = this.options = util.defaults(options, {
comment: '',
forceUTC: false,
namePrependSlash: false,
store: false
});
this.supports = {
directory: true,
symlink: true
};
this.engine = new engine(options);
};
/**
* @param {(Buffer|Stream)} source
* @param {ZipEntryData} data
* @param {String} data.name Sets the entry name including internal path.
* @param {(String|Date)} [data.date=NOW()] Sets the entry date.
* @param {Number} [data.mode=D:0755/F:0644] Sets the entry permissions.
* @param {String} [data.prefix] Sets a path prefix for the entry name. Useful
* when working with methods like `directory` or `glob`.
* @param {fs.Stats} [data.stats] Sets the fs stat data for this entry allowing
* for reduction of fs stat calls when stat data is already known.
* @param {Boolean} [data.store=ZipOptions.store] Sets the compression method to STORE.
* @param {Function} callback
* @return void
*/
Zip.prototype.append = function(source, data, callback) {
this.engine.entry(source, data, callback);
};
/**
* @return void
*/
Zip.prototype.finalize = function() {
this.engine.finalize();
};
/**
* @return this.engine
*/
Zip.prototype.on = function() {
return this.engine.on.apply(this.engine, arguments);
};
/**
* @return this.engine
*/
Zip.prototype.pipe = function() {
return this.engine.pipe.apply(this.engine, arguments);
};
/**
* @return this.engine
*/
Zip.prototype.unpipe = function() {
return this.engine.unpipe.apply(this.engine, arguments);
};
module.exports = Zip;
/**
* @typedef {Object} ZipOptions
* @global
* @property {String} [comment] Sets the zip archive comment.
* @property {Boolean} [forceLocalTime=false] Forces the archive to contain local file times instead of UTC.
* @property {Boolean} [forceZip64=false] Forces the archive to contain ZIP64 headers.
* @prpperty {Boolean} [namePrependSlash=false] Prepends a forward slash to archive file paths.
* @property {Boolean} [store=false] Sets the compression method to STORE.
* @property {Object} [zlib] Passed to [zlib]{@link https://nodejs.org/api/zlib.html#zlib_class_options}
* to control compression.
* @property {*} [*] See [zip-stream]{@link https://archiverjs.com/zip-stream/ZipStream.html} documentation for current list of properties.
*/
/**
* @typedef {Object} ZipEntryData
* @global
* @property {String} name Sets the entry name including internal path.
* @property {(String|Date)} [date=NOW()] Sets the entry date.
* @property {Number} [mode=D:0755/F:0644] Sets the entry permissions.
* @property {Boolean} [namePrependSlash=ZipOptions.namePrependSlash] Prepends a forward slash to archive file paths.
* @property {String} [prefix] Sets a path prefix for the entry name. Useful
* when working with methods like `directory` or `glob`.
* @property {fs.Stats} [stats] Sets the fs stat data for this entry allowing
* for reduction of fs stat calls when stat data is already known.
* @property {Boolean} [store=ZipOptions.store] Sets the compression method to STORE.
*/
/**
* ZipStream Module
* @external ZipStream
* @see {@link https://www.archiverjs.com/zip-stream/ZipStream.html}
*/
/***/ }),
/***/ 7716:
/***/ (function(__unused_webpack_module, exports) {
(function (global, factory) {
true ? factory(exports) :
0;
}(this, (function (exports) { 'use strict';
/**
* Creates a continuation function with some arguments already applied.
*
* Useful as a shorthand when combined with other control flow functions. Any
* arguments passed to the returned function are added to the arguments
* originally passed to apply.
*
* @name apply
* @static
* @memberOf module:Utils
* @method
* @category Util
* @param {Function} fn - The function you want to eventually apply all
* arguments to. Invokes with (arguments...).
* @param {...*} arguments... - Any number of arguments to automatically apply
* when the continuation is called.
* @returns {Function} the partially-applied function
* @example
*
* // using apply
* async.parallel([
* async.apply(fs.writeFile, 'testfile1', 'test1'),
* async.apply(fs.writeFile, 'testfile2', 'test2')
* ]);
*
*
* // the same process without using apply
* async.parallel([
* function(callback) {
* fs.writeFile('testfile1', 'test1', callback);
* },
* function(callback) {
* fs.writeFile('testfile2', 'test2', callback);
* }
* ]);
*
* // It's possible to pass any number of additional arguments when calling the
* // continuation:
*
* node> var fn = async.apply(sys.puts, 'one');
* node> fn('two', 'three');
* one
* two
* three
*/
function apply(fn, ...args) {
return (...callArgs) => fn(...args,...callArgs);
}
function initialParams (fn) {
return function (...args/*, callback*/) {
var callback = args.pop();
return fn.call(this, args, callback);
};
}
/* istanbul ignore file */
var hasSetImmediate = typeof setImmediate === 'function' && setImmediate;
var hasNextTick = typeof process === 'object' && typeof process.nextTick === 'function';
function fallback(fn) {
setTimeout(fn, 0);
}
function wrap(defer) {
return (fn, ...args) => defer(() => fn(...args));
}
var _defer;
if (hasSetImmediate) {
_defer = setImmediate;
} else if (hasNextTick) {
_defer = process.nextTick;
} else {
_defer = fallback;
}
var setImmediate$1 = wrap(_defer);
/**
* Take a sync function and make it async, passing its return value to a
* callback. This is useful for plugging sync functions into a waterfall,
* series, or other async functions. Any arguments passed to the generated
* function will be passed to the wrapped function (except for the final
* callback argument). Errors thrown will be passed to the callback.
*
* If the function passed to `asyncify` returns a Promise, that promises's
* resolved/rejected state will be used to call the callback, rather than simply
* the synchronous return value.
*
* This also means you can asyncify ES2017 `async` functions.
*
* @name asyncify
* @static
* @memberOf module:Utils
* @method
* @alias wrapSync
* @category Util
* @param {Function} func - The synchronous function, or Promise-returning
* function to convert to an {@link AsyncFunction}.
* @returns {AsyncFunction} An asynchronous wrapper of the `func`. To be
* invoked with `(args..., callback)`.
* @example
*
* // passing a regular synchronous function
* async.waterfall([
* async.apply(fs.readFile, filename, "utf8"),
* async.asyncify(JSON.parse),
* function (data, next) {
* // data is the result of parsing the text.
* // If there was a parsing error, it would have been caught.
* }
* ], callback);
*
* // passing a function returning a promise
* async.waterfall([
* async.apply(fs.readFile, filename, "utf8"),
* async.asyncify(function (contents) {
* return db.model.create(contents);
* }),
* function (model, next) {
* // `model` is the instantiated model object.
* // If there was an error, this function would be skipped.
* }
* ], callback);
*
* // es2017 example, though `asyncify` is not needed if your JS environment
* // supports async functions out of the box
* var q = async.queue(async.asyncify(async function(file) {
* var intermediateStep = await processFile(file);
* return await somePromise(intermediateStep)
* }));
*
* q.push(files);
*/
function asyncify(func) {
if (isAsync(func)) {
return function (...args/*, callback*/) {
const callback = args.pop();
const promise = func.apply(this, args);
return handlePromise(promise, callback)
}
}
return initialParams(function (args, callback) {
var result;
try {
result = func.apply(this, args);
} catch (e) {
return callback(e);
}
// if result is Promise object
if (result && typeof result.then === 'function') {
return handlePromise(result, callback)
} else {
callback(null, result);
}
});
}
function handlePromise(promise, callback) {
return promise.then(value => {
invokeCallback(callback, null, value);
}, err => {
invokeCallback(callback, err && err.message ? err : new Error(err));
});
}
function invokeCallback(callback, error, value) {
try {
callback(error, value);
} catch (err) {
setImmediate$1(e => { throw e }, err);
}
}
function isAsync(fn) {
return fn[Symbol.toStringTag] === 'AsyncFunction';
}
function isAsyncGenerator(fn) {
return fn[Symbol.toStringTag] === 'AsyncGenerator';
}
function isAsyncIterable(obj) {
return typeof obj[Symbol.asyncIterator] === 'function';
}
function wrapAsync(asyncFn) {
if (typeof asyncFn !== 'function') throw new Error('expected a function')
return isAsync(asyncFn) ? asyncify(asyncFn) : asyncFn;
}
// conditionally promisify a function.
// only return a promise if a callback is omitted
function awaitify (asyncFn, arity = asyncFn.length) {
if (!arity) throw new Error('arity is undefined')
function awaitable (...args) {
if (typeof args[arity - 1] === 'function') {
return asyncFn.apply(this, args)
}
return new Promise((resolve, reject) => {
args[arity - 1] = (err, ...cbArgs) => {
if (err) return reject(err)
resolve(cbArgs.length > 1 ? cbArgs : cbArgs[0]);
};
asyncFn.apply(this, args);
})
}
return awaitable
}
function applyEach (eachfn) {
return function applyEach(fns, ...callArgs) {
const go = awaitify(function (callback) {
var that = this;
return eachfn(fns, (fn, cb) => {
wrapAsync(fn).apply(that, callArgs.concat(cb));
}, callback);
});
return go;
};
}
function _asyncMap(eachfn, arr, iteratee, callback) {
arr = arr || [];
var results = [];
var counter = 0;
var _iteratee = wrapAsync(iteratee);
return eachfn(arr, (value, _, iterCb) => {
var index = counter++;
_iteratee(value, (err, v) => {
results[index] = v;
iterCb(err);
});
}, err => {
callback(err, results);
});
}
function isArrayLike(value) {
return value &&
typeof value.length === 'number' &&
value.length >= 0 &&
value.length % 1 === 0;
}
// A temporary value used to identify if the loop should be broken.
// See #1064, #1293
const breakLoop = {};
function once(fn) {
function wrapper (...args) {
if (fn === null) return;
var callFn = fn;
fn = null;
callFn.apply(this, args);
}
Object.assign(wrapper, fn);
return wrapper
}
function getIterator (coll) {
return coll[Symbol.iterator] && coll[Symbol.iterator]();
}
function createArrayIterator(coll) {
var i = -1;
var len = coll.length;
return function next() {
return ++i < len ? {value: coll[i], key: i} : null;
}
}
function createES2015Iterator(iterator) {
var i = -1;
return function next() {
var item = iterator.next();
if (item.done)
return null;
i++;
return {value: item.value, key: i};
}
}
function createObjectIterator(obj) {
var okeys = obj ? Object.keys(obj) : [];
var i = -1;
var len = okeys.length;
return function next() {
var key = okeys[++i];
return i < len ? {value: obj[key], key} : null;
};
}
function createIterator(coll) {
if (isArrayLike(coll)) {
return createArrayIterator(coll);
}
var iterator = getIterator(coll);
return iterator ? createES2015Iterator(iterator) : createObjectIterator(coll);
}
function onlyOnce(fn) {
return function (...args) {
if (fn === null) throw new Error("Callback was already called.");
var callFn = fn;
fn = null;
callFn.apply(this, args);
};
}
// for async generators
function asyncEachOfLimit(generator, limit, iteratee, callback) {
let done = false;
let canceled = false;
let awaiting = false;
let running = 0;
let idx = 0;
function replenish() {
//console.log('replenish')
if (running >= limit || awaiting || done) return
//console.log('replenish awaiting')
awaiting = true;
generator.next().then(({value, done: iterDone}) => {
//console.log('got value', value)
if (canceled || done) return
awaiting = false;
if (iterDone) {
done = true;
if (running <= 0) {
//console.log('done nextCb')
callback(null);
}
return;
}
running++;
iteratee(value, idx, iterateeCallback);
idx++;
replenish();
}).catch(handleError);
}
function iterateeCallback(err, result) {
//console.log('iterateeCallback')
running -= 1;
if (canceled) return
if (err) return handleError(err)
if (err === false) {
done = true;
canceled = true;
return
}
if (result === breakLoop || (done && running <= 0)) {
done = true;
//console.log('done iterCb')
return callback(null);
}
replenish();
}
function handleError(err) {
if (canceled) return
awaiting = false;
done = true;
callback(err);
}
replenish();
}
var eachOfLimit = (limit) => {
return (obj, iteratee, callback) => {
callback = once(callback);
if (limit <= 0) {
throw new RangeError('concurrency limit cannot be less than 1')
}
if (!obj) {
return callback(null);
}
if (isAsyncGenerator(obj)) {
return asyncEachOfLimit(obj, limit, iteratee, callback)
}
if (isAsyncIterable(obj)) {
return asyncEachOfLimit(obj[Symbol.asyncIterator](), limit, iteratee, callback)
}
var nextElem = createIterator(obj);
var done = false;
var canceled = false;
var running = 0;
var looping = false;
function iterateeCallback(err, value) {
if (canceled) return
running -= 1;
if (err) {
done = true;
callback(err);
}
else if (err === false) {
done = true;
canceled = true;
}
else if (value === breakLoop || (done && running <= 0)) {
done = true;
return callback(null);
}
else if (!looping) {
replenish();
}
}
function replenish () {
looping = true;
while (running < limit && !done) {
var elem = nextElem();
if (elem === null) {
done = true;
if (running <= 0) {
callback(null);
}
return;
}
running += 1;
iteratee(elem.value, elem.key, onlyOnce(iterateeCallback));
}
looping = false;
}
replenish();
};
};
/**
* The same as [`eachOf`]{@link module:Collections.eachOf} but runs a maximum of `limit` async operations at a
* time.
*
* @name eachOfLimit
* @static
* @memberOf module:Collections
* @method
* @see [async.eachOf]{@link module:Collections.eachOf}
* @alias forEachOfLimit
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {number} limit - The maximum number of async operations at a time.
* @param {AsyncFunction} iteratee - An async function to apply to each
* item in `coll`. The `key` is the item's key, or index in the case of an
* array.
* Invoked with (item, key, callback).
* @param {Function} [callback] - A callback which is called when all
* `iteratee` functions have finished, or an error occurs. Invoked with (err).
* @returns {Promise} a promise, if a callback is omitted
*/
function eachOfLimit$1(coll, limit, iteratee, callback) {
return eachOfLimit(limit)(coll, wrapAsync(iteratee), callback);
}
var eachOfLimit$2 = awaitify(eachOfLimit$1, 4);
// eachOf implementation optimized for array-likes
function eachOfArrayLike(coll, iteratee, callback) {
callback = once(callback);
var index = 0,
completed = 0,
{length} = coll,
canceled = false;
if (length === 0) {
callback(null);
}
function iteratorCallback(err, value) {
if (err === false) {
canceled = true;
}
if (canceled === true) return
if (err) {
callback(err);
} else if ((++completed === length) || value === breakLoop) {
callback(null);
}
}
for (; index < length; index++) {
iteratee(coll[index], index, onlyOnce(iteratorCallback));
}
}
// a generic version of eachOf which can handle array, object, and iterator cases.
function eachOfGeneric (coll, iteratee, callback) {
return eachOfLimit$2(coll, Infinity, iteratee, callback);
}
/**
* Like [`each`]{@link module:Collections.each}, except that it passes the key (or index) as the second argument
* to the iteratee.
*
* @name eachOf
* @static
* @memberOf module:Collections
* @method
* @alias forEachOf
* @category Collection
* @see [async.each]{@link module:Collections.each}
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - A function to apply to each
* item in `coll`.
* The `key` is the item's key, or index in the case of an array.
* Invoked with (item, key, callback).
* @param {Function} [callback] - A callback which is called when all
* `iteratee` functions have finished, or an error occurs. Invoked with (err).
* @returns {Promise} a promise, if a callback is omitted
* @example
*
* var obj = {dev: "/dev.json", test: "/test.json", prod: "/prod.json"};
* var configs = {};
*
* async.forEachOf(obj, function (value, key, callback) {
* fs.readFile(__dirname + value, "utf8", function (err, data) {
* if (err) return callback(err);
* try {
* configs[key] = JSON.parse(data);
* } catch (e) {
* return callback(e);
* }
* callback();
* });
* }, function (err) {
* if (err) console.error(err.message);
* // configs is now a map of JSON data
* doSomethingWith(configs);
* });
*/
function eachOf(coll, iteratee, callback) {
var eachOfImplementation = isArrayLike(coll) ? eachOfArrayLike : eachOfGeneric;
return eachOfImplementation(coll, wrapAsync(iteratee), callback);
}
var eachOf$1 = awaitify(eachOf, 3);
/**
* Produces a new collection of values by mapping each value in `coll` through
* the `iteratee` function. The `iteratee` is called with an item from `coll`
* and a callback for when it has finished processing. Each of these callback
* takes 2 arguments: an `error`, and the transformed item from `coll`. If
* `iteratee` passes an error to its callback, the main `callback` (for the
* `map` function) is immediately called with the error.
*
* Note, that since this function applies the `iteratee` to each item in
* parallel, there is no guarantee that the `iteratee` functions will complete
* in order. However, the results array will be in the same order as the
* original `coll`.
*
* If `map` is passed an Object, the results will be an Array. The results
* will roughly be in the order of the original Objects' keys (but this can
* vary across JavaScript engines).
*
* @name map
* @static
* @memberOf module:Collections
* @method
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async function to apply to each item in
* `coll`.
* The iteratee should complete with the transformed item.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called when all `iteratee`
* functions have finished, or an error occurs. Results is an Array of the
* transformed items from the `coll`. Invoked with (err, results).
* @returns {Promise} a promise, if no callback is passed
* @example
*
* async.map(['file1','file2','file3'], fs.stat, function(err, results) {
* // results is now an array of stats for each file
* });
*/
function map (coll, iteratee, callback) {
return _asyncMap(eachOf$1, coll, iteratee, callback)
}
var map$1 = awaitify(map, 3);
/**
* Applies the provided arguments to each function in the array, calling
* `callback` after all functions have completed. If you only provide the first
* argument, `fns`, then it will return a function which lets you pass in the
* arguments as if it were a single function call. If more arguments are
* provided, `callback` is required while `args` is still optional. The results
* for each of the applied async functions are passed to the final callback
* as an array.
*
* @name applyEach
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @param {Array|Iterable|AsyncIterable|Object} fns - A collection of {@link AsyncFunction}s
* to all call with the same arguments
* @param {...*} [args] - any number of separate arguments to pass to the
* function.
* @param {Function} [callback] - the final argument should be the callback,
* called when all functions have completed processing.
* @returns {AsyncFunction} - Returns a function that takes no args other than
* an optional callback, that is the result of applying the `args` to each
* of the functions.
* @example
*
* const appliedFn = async.applyEach([enableSearch, updateSchema], 'bucket')
*
* appliedFn((err, results) => {
* // results[0] is the results for `enableSearch`
* // results[1] is the results for `updateSchema`
* });
*
* // partial application example:
* async.each(
* buckets,
* async (bucket) => async.applyEach([enableSearch, updateSchema], bucket)(),
* callback
* );
*/
var applyEach$1 = applyEach(map$1);
/**
* The same as [`eachOf`]{@link module:Collections.eachOf} but runs only a single async operation at a time.
*
* @name eachOfSeries
* @static
* @memberOf module:Collections
* @method
* @see [async.eachOf]{@link module:Collections.eachOf}
* @alias forEachOfSeries
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async function to apply to each item in
* `coll`.
* Invoked with (item, key, callback).
* @param {Function} [callback] - A callback which is called when all `iteratee`
* functions have finished, or an error occurs. Invoked with (err).
* @returns {Promise} a promise, if a callback is omitted
*/
function eachOfSeries(coll, iteratee, callback) {
return eachOfLimit$2(coll, 1, iteratee, callback)
}
var eachOfSeries$1 = awaitify(eachOfSeries, 3);
/**
* The same as [`map`]{@link module:Collections.map} but runs only a single async operation at a time.
*
* @name mapSeries
* @static
* @memberOf module:Collections
* @method
* @see [async.map]{@link module:Collections.map}
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async function to apply to each item in
* `coll`.
* The iteratee should complete with the transformed item.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called when all `iteratee`
* functions have finished, or an error occurs. Results is an array of the
* transformed items from the `coll`. Invoked with (err, results).
* @returns {Promise} a promise, if no callback is passed
*/
function mapSeries (coll, iteratee, callback) {
return _asyncMap(eachOfSeries$1, coll, iteratee, callback)
}
var mapSeries$1 = awaitify(mapSeries, 3);
/**
* The same as [`applyEach`]{@link module:ControlFlow.applyEach} but runs only a single async operation at a time.
*
* @name applyEachSeries
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.applyEach]{@link module:ControlFlow.applyEach}
* @category Control Flow
* @param {Array|Iterable|AsyncIterable|Object} fns - A collection of {@link AsyncFunction}s to all
* call with the same arguments
* @param {...*} [args] - any number of separate arguments to pass to the
* function.
* @param {Function} [callback] - the final argument should be the callback,
* called when all functions have completed processing.
* @returns {AsyncFunction} - A function, that when called, is the result of
* appling the `args` to the list of functions. It takes no args, other than
* a callback.
*/
var applyEachSeries = applyEach(mapSeries$1);
const PROMISE_SYMBOL = Symbol('promiseCallback');
function promiseCallback () {
let resolve, reject;
function callback (err, ...args) {
if (err) return reject(err)
resolve(args.length > 1 ? args : args[0]);
}
callback[PROMISE_SYMBOL] = new Promise((res, rej) => {
resolve = res,
reject = rej;
});
return callback
}
/**
* Determines the best order for running the {@link AsyncFunction}s in `tasks`, based on
* their requirements. Each function can optionally depend on other functions
* being completed first, and each function is run as soon as its requirements
* are satisfied.
*
* If any of the {@link AsyncFunction}s pass an error to their callback, the `auto` sequence
* will stop. Further tasks will not execute (so any other functions depending
* on it will not run), and the main `callback` is immediately called with the
* error.
*
* {@link AsyncFunction}s also receive an object containing the results of functions which
* have completed so far as the first argument, if they have dependencies. If a
* task function has no dependencies, it will only be passed a callback.
*
* @name auto
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @param {Object} tasks - An object. Each of its properties is either a
* function or an array of requirements, with the {@link AsyncFunction} itself the last item
* in the array. The object's key of a property serves as the name of the task
* defined by that property, i.e. can be used when specifying requirements for
* other tasks. The function receives one or two arguments:
* * a `results` object, containing the results of the previously executed
* functions, only passed if the task has any dependencies,
* * a `callback(err, result)` function, which must be called when finished,
* passing an `error` (which can be `null`) and the result of the function's
* execution.
* @param {number} [concurrency=Infinity] - An optional `integer` for
* determining the maximum number of tasks that can be run in parallel. By
* default, as many as possible.
* @param {Function} [callback] - An optional callback which is called when all
* the tasks have been completed. It receives the `err` argument if any `tasks`
* pass an error to their callback. Results are always returned; however, if an
* error occurs, no further `tasks` will be performed, and the results object
* will only contain partial results. Invoked with (err, results).
* @returns {Promise} a promise, if a callback is not passed
* @example
*
* async.auto({
* // this function will just be passed a callback
* readData: async.apply(fs.readFile, 'data.txt', 'utf-8'),
* showData: ['readData', function(results, cb) {
* // results.readData is the file's contents
* // ...
* }]
* }, callback);
*
* async.auto({
* get_data: function(callback) {
* console.log('in get_data');
* // async code to get some data
* callback(null, 'data', 'converted to array');
* },
* make_folder: function(callback) {
* console.log('in make_folder');
* // async code to create a directory to store a file in
* // this is run at the same time as getting the data
* callback(null, 'folder');
* },
* write_file: ['get_data', 'make_folder', function(results, callback) {
* console.log('in write_file', JSON.stringify(results));
* // once there is some data and the directory exists,
* // write the data to a file in the directory
* callback(null, 'filename');
* }],
* email_link: ['write_file', function(results, callback) {
* console.log('in email_link', JSON.stringify(results));
* // once the file is written let's email a link to it...
* // results.write_file contains the filename returned by write_file.
* callback(null, {'file':results.write_file, 'email':'user@example.com'});
* }]
* }, function(err, results) {
* console.log('err = ', err);
* console.log('results = ', results);
* });
*/
function auto(tasks, concurrency, callback) {
if (typeof concurrency !== 'number') {
// concurrency is optional, shift the args.
callback = concurrency;
concurrency = null;
}
callback = once(callback || promiseCallback());
var numTasks = Object.keys(tasks).length;
if (!numTasks) {
return callback(null);
}
if (!concurrency) {
concurrency = numTasks;
}
var results = {};
var runningTasks = 0;
var canceled = false;
var hasError = false;
var listeners = Object.create(null);
var readyTasks = [];
// for cycle detection:
var readyToCheck = []; // tasks that have been identified as reachable
// without the possibility of returning to an ancestor task
var uncheckedDependencies = {};
Object.keys(tasks).forEach(key => {
var task = tasks[key];
if (!Array.isArray(task)) {
// no dependencies
enqueueTask(key, [task]);
readyToCheck.push(key);
return;
}
var dependencies = task.slice(0, task.length - 1);
var remainingDependencies = dependencies.length;
if (remainingDependencies === 0) {
enqueueTask(key, task);
readyToCheck.push(key);
return;
}
uncheckedDependencies[key] = remainingDependencies;
dependencies.forEach(dependencyName => {
if (!tasks[dependencyName]) {
throw new Error('async.auto task `' + key +
'` has a non-existent dependency `' +
dependencyName + '` in ' +
dependencies.join(', '));
}
addListener(dependencyName, () => {
remainingDependencies--;
if (remainingDependencies === 0) {
enqueueTask(key, task);
}
});
});
});
checkForDeadlocks();
processQueue();
function enqueueTask(key, task) {
readyTasks.push(() => runTask(key, task));
}
function processQueue() {
if (canceled) return
if (readyTasks.length === 0 && runningTasks === 0) {
return callback(null, results);
}
while(readyTasks.length && runningTasks < concurrency) {
var run = readyTasks.shift();
run();
}
}
function addListener(taskName, fn) {
var taskListeners = listeners[taskName];
if (!taskListeners) {
taskListeners = listeners[taskName] = [];
}
taskListeners.push(fn);
}
function taskComplete(taskName) {
var taskListeners = listeners[taskName] || [];
taskListeners.forEach(fn => fn());
processQueue();
}
function runTask(key, task) {
if (hasError) return;
var taskCallback = onlyOnce((err, ...result) => {
runningTasks--;
if (err === false) {
canceled = true;
return
}
if (result.length < 2) {
[result] = result;
}
if (err) {
var safeResults = {};
Object.keys(results).forEach(rkey => {
safeResults[rkey] = results[rkey];
});
safeResults[key] = result;
hasError = true;
listeners = Object.create(null);
if (canceled) return
callback(err, safeResults);
} else {
results[key] = result;
taskComplete(key);
}
});
runningTasks++;
var taskFn = wrapAsync(task[task.length - 1]);
if (task.length > 1) {
taskFn(results, taskCallback);
} else {
taskFn(taskCallback);
}
}
function checkForDeadlocks() {
// Kahn's algorithm
// https://en.wikipedia.org/wiki/Topological_sorting#Kahn.27s_algorithm
// http://connalle.blogspot.com/2013/10/topological-sortingkahn-algorithm.html
var currentTask;
var counter = 0;
while (readyToCheck.length) {
currentTask = readyToCheck.pop();
counter++;
getDependents(currentTask).forEach(dependent => {
if (--uncheckedDependencies[dependent] === 0) {
readyToCheck.push(dependent);
}
});
}
if (counter !== numTasks) {
throw new Error(
'async.auto cannot execute tasks due to a recursive dependency'
);
}
}
function getDependents(taskName) {
var result = [];
Object.keys(tasks).forEach(key => {
const task = tasks[key];
if (Array.isArray(task) && task.indexOf(taskName) >= 0) {
result.push(key);
}
});
return result;
}
return callback[PROMISE_SYMBOL]
}
var FN_ARGS = /^(?:async\s+)?(?:function)?\s*\w*\s*\(\s*([^)]+)\s*\)(?:\s*{)/;
var ARROW_FN_ARGS = /^(?:async\s+)?\(?\s*([^)=]+)\s*\)?(?:\s*=>)/;
var FN_ARG_SPLIT = /,/;
var FN_ARG = /(=.+)?(\s*)$/;
var STRIP_COMMENTS = /((\/\/.*$)|(\/\*[\s\S]*?\*\/))/mg;
function parseParams(func) {
const src = func.toString().replace(STRIP_COMMENTS, '');
let match = src.match(FN_ARGS);
if (!match) {
match = src.match(ARROW_FN_ARGS);
}
if (!match) throw new Error('could not parse args in autoInject\nSource:\n' + src)
let [, args] = match;
return args
.replace(/\s/g, '')
.split(FN_ARG_SPLIT)
.map((arg) => arg.replace(FN_ARG, '').trim());
}
/**
* A dependency-injected version of the [async.auto]{@link module:ControlFlow.auto} function. Dependent
* tasks are specified as parameters to the function, after the usual callback
* parameter, with the parameter names matching the names of the tasks it
* depends on. This can provide even more readable task graphs which can be
* easier to maintain.
*
* If a final callback is specified, the task results are similarly injected,
* specified as named parameters after the initial error parameter.
*
* The autoInject function is purely syntactic sugar and its semantics are
* otherwise equivalent to [async.auto]{@link module:ControlFlow.auto}.
*
* @name autoInject
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.auto]{@link module:ControlFlow.auto}
* @category Control Flow
* @param {Object} tasks - An object, each of whose properties is an {@link AsyncFunction} of
* the form 'func([dependencies...], callback). The object's key of a property
* serves as the name of the task defined by that property, i.e. can be used
* when specifying requirements for other tasks.
* * The `callback` parameter is a `callback(err, result)` which must be called
* when finished, passing an `error` (which can be `null`) and the result of
* the function's execution. The remaining parameters name other tasks on
* which the task is dependent, and the results from those tasks are the
* arguments of those parameters.
* @param {Function} [callback] - An optional callback which is called when all
* the tasks have been completed. It receives the `err` argument if any `tasks`
* pass an error to their callback, and a `results` object with any completed
* task results, similar to `auto`.
* @returns {Promise} a promise, if no callback is passed
* @example
*
* // The example from `auto` can be rewritten as follows:
* async.autoInject({
* get_data: function(callback) {
* // async code to get some data
* callback(null, 'data', 'converted to array');
* },
* make_folder: function(callback) {
* // async code to create a directory to store a file in
* // this is run at the same time as getting the data
* callback(null, 'folder');
* },
* write_file: function(get_data, make_folder, callback) {
* // once there is some data and the directory exists,
* // write the data to a file in the directory
* callback(null, 'filename');
* },
* email_link: function(write_file, callback) {
* // once the file is written let's email a link to it...
* // write_file contains the filename returned by write_file.
* callback(null, {'file':write_file, 'email':'user@example.com'});
* }
* }, function(err, results) {
* console.log('err = ', err);
* console.log('email_link = ', results.email_link);
* });
*
* // If you are using a JS minifier that mangles parameter names, `autoInject`
* // will not work with plain functions, since the parameter names will be
* // collapsed to a single letter identifier. To work around this, you can
* // explicitly specify the names of the parameters your task function needs
* // in an array, similar to Angular.js dependency injection.
*
* // This still has an advantage over plain `auto`, since the results a task
* // depends on are still spread into arguments.
* async.autoInject({
* //...
* write_file: ['get_data', 'make_folder', function(get_data, make_folder, callback) {
* callback(null, 'filename');
* }],
* email_link: ['write_file', function(write_file, callback) {
* callback(null, {'file':write_file, 'email':'user@example.com'});
* }]
* //...
* }, function(err, results) {
* console.log('err = ', err);
* console.log('email_link = ', results.email_link);
* });
*/
function autoInject(tasks, callback) {
var newTasks = {};
Object.keys(tasks).forEach(key => {
var taskFn = tasks[key];
var params;
var fnIsAsync = isAsync(taskFn);
var hasNoDeps =
(!fnIsAsync && taskFn.length === 1) ||
(fnIsAsync && taskFn.length === 0);
if (Array.isArray(taskFn)) {
params = [...taskFn];
taskFn = params.pop();
newTasks[key] = params.concat(params.length > 0 ? newTask : taskFn);
} else if (hasNoDeps) {
// no dependencies, use the function as-is
newTasks[key] = taskFn;
} else {
params = parseParams(taskFn);
if ((taskFn.length === 0 && !fnIsAsync) && params.length === 0) {
throw new Error("autoInject task functions require explicit parameters.");
}
// remove callback param
if (!fnIsAsync) params.pop();
newTasks[key] = params.concat(newTask);
}
function newTask(results, taskCb) {
var newArgs = params.map(name => results[name]);
newArgs.push(taskCb);
wrapAsync(taskFn)(...newArgs);
}
});
return auto(newTasks, callback);
}
// Simple doubly linked list (https://en.wikipedia.org/wiki/Doubly_linked_list) implementation
// used for queues. This implementation assumes that the node provided by the user can be modified
// to adjust the next and last properties. We implement only the minimal functionality
// for queue support.
class DLL {
constructor() {
this.head = this.tail = null;
this.length = 0;
}
removeLink(node) {
if (node.prev) node.prev.next = node.next;
else this.head = node.next;
if (node.next) node.next.prev = node.prev;
else this.tail = node.prev;
node.prev = node.next = null;
this.length -= 1;
return node;
}
empty () {
while(this.head) this.shift();
return this;
}
insertAfter(node, newNode) {
newNode.prev = node;
newNode.next = node.next;
if (node.next) node.next.prev = newNode;
else this.tail = newNode;
node.next = newNode;
this.length += 1;
}
insertBefore(node, newNode) {
newNode.prev = node.prev;
newNode.next = node;
if (node.prev) node.prev.next = newNode;
else this.head = newNode;
node.prev = newNode;
this.length += 1;
}
unshift(node) {
if (this.head) this.insertBefore(this.head, node);
else setInitial(this, node);
}
push(node) {
if (this.tail) this.insertAfter(this.tail, node);
else setInitial(this, node);
}
shift() {
return this.head && this.removeLink(this.head);
}
pop() {
return this.tail && this.removeLink(this.tail);
}
toArray() {
return [...this]
}
*[Symbol.iterator] () {
var cur = this.head;
while (cur) {
yield cur.data;
cur = cur.next;
}
}
remove (testFn) {
var curr = this.head;
while(curr) {
var {next} = curr;
if (testFn(curr)) {
this.removeLink(curr);
}
curr = next;
}
return this;
}
}
function setInitial(dll, node) {
dll.length = 1;
dll.head = dll.tail = node;
}
function queue(worker, concurrency, payload) {
if (concurrency == null) {
concurrency = 1;
}
else if(concurrency === 0) {
throw new RangeError('Concurrency must not be zero');
}
var _worker = wrapAsync(worker);
var numRunning = 0;
var workersList = [];
const events = {
error: [],
drain: [],
saturated: [],
unsaturated: [],
empty: []
};
function on (event, handler) {
events[event].push(handler);
}
function once (event, handler) {
const handleAndRemove = (...args) => {
off(event, handleAndRemove);
handler(...args);
};
events[event].push(handleAndRemove);
}
function off (event, handler) {
if (!event) return Object.keys(events).forEach(ev => events[ev] = [])
if (!handler) return events[event] = []
events[event] = events[event].filter(ev => ev !== handler);
}
function trigger (event, ...args) {
events[event].forEach(handler => handler(...args));
}
var processingScheduled = false;
function _insert(data, insertAtFront, rejectOnError, callback) {
if (callback != null && typeof callback !== 'function') {
throw new Error('task callback must be a function');
}
q.started = true;
var res, rej;
function promiseCallback (err, ...args) {
// we don't care about the error, let the global error handler
// deal with it
if (err) return rejectOnError ? rej(err) : res()
if (args.length <= 1) return res(args[0])
res(args);
}
var item = {
data,
callback: rejectOnError ?
promiseCallback :
(callback || promiseCallback)
};
if (insertAtFront) {
q._tasks.unshift(item);
} else {
q._tasks.push(item);
}
if (!processingScheduled) {
processingScheduled = true;
setImmediate$1(() => {
processingScheduled = false;
q.process();
});
}
if (rejectOnError || !callback) {
return new Promise((resolve, reject) => {
res = resolve;
rej = reject;
})
}
}
function _createCB(tasks) {
return function (err, ...args) {
numRunning -= 1;
for (var i = 0, l = tasks.length; i < l; i++) {
var task = tasks[i];
var index = workersList.indexOf(task);
if (index === 0) {
workersList.shift();
} else if (index > 0) {
workersList.splice(index, 1);
}
task.callback(err, ...args);
if (err != null) {
trigger('error', err, task.data);
}
}
if (numRunning <= (q.concurrency - q.buffer) ) {
trigger('unsaturated');
}
if (q.idle()) {
trigger('drain');
}
q.process();
};
}
function _maybeDrain(data) {
if (data.length === 0 && q.idle()) {
// call drain immediately if there are no tasks
setImmediate$1(() => trigger('drain'));
return true
}
return false
}
const eventMethod = (name) => (handler) => {
if (!handler) {
return new Promise((resolve, reject) => {
once(name, (err, data) => {
if (err) return reject(err)
resolve(data);
});
})
}
off(name);
on(name, handler);
};
var isProcessing = false;
var q = {
_tasks: new DLL(),
*[Symbol.iterator] () {
yield* q._tasks[Symbol.iterator]();
},
concurrency,
payload,
buffer: concurrency / 4,
started: false,
paused: false,
push (data, callback) {
if (Array.isArray(data)) {
if (_maybeDrain(data)) return
return data.map(datum => _insert(datum, false, false, callback))
}
return _insert(data, false, false, callback);
},
pushAsync (data, callback) {
if (Array.isArray(data)) {
if (_maybeDrain(data)) return
return data.map(datum => _insert(datum, false, true, callback))
}
return _insert(data, false, true, callback);
},
kill () {
off();
q._tasks.empty();
},
unshift (data, callback) {
if (Array.isArray(data)) {
if (_maybeDrain(data)) return
return data.map(datum => _insert(datum, true, false, callback))
}
return _insert(data, true, false, callback);
},
unshiftAsync (data, callback) {
if (Array.isArray(data)) {
if (_maybeDrain(data)) return
return data.map(datum => _insert(datum, true, true, callback))
}
return _insert(data, true, true, callback);
},
remove (testFn) {
q._tasks.remove(testFn);
},
process () {
// Avoid trying to start too many processing operations. This can occur
// when callbacks resolve synchronously (#1267).
if (isProcessing) {
return;
}
isProcessing = true;
while(!q.paused && numRunning < q.concurrency && q._tasks.length){
var tasks = [], data = [];
var l = q._tasks.length;
if (q.payload) l = Math.min(l, q.payload);
for (var i = 0; i < l; i++) {
var node = q._tasks.shift();
tasks.push(node);
workersList.push(node);
data.push(node.data);
}
numRunning += 1;
if (q._tasks.length === 0) {
trigger('empty');
}
if (numRunning === q.concurrency) {
trigger('saturated');
}
var cb = onlyOnce(_createCB(tasks));
_worker(data, cb);
}
isProcessing = false;
},
length () {
return q._tasks.length;
},
running () {
return numRunning;
},
workersList () {
return workersList;
},
idle() {
return q._tasks.length + numRunning === 0;
},
pause () {
q.paused = true;
},
resume () {
if (q.paused === false) { return; }
q.paused = false;
setImmediate$1(q.process);
}
};
// define these as fixed properties, so people get useful errors when updating
Object.defineProperties(q, {
saturated: {
writable: false,
value: eventMethod('saturated')
},
unsaturated: {
writable: false,
value: eventMethod('unsaturated')
},
empty: {
writable: false,
value: eventMethod('empty')
},
drain: {
writable: false,
value: eventMethod('drain')
},
error: {
writable: false,
value: eventMethod('error')
},
});
return q;
}
/**
* Creates a `cargo` object with the specified payload. Tasks added to the
* cargo will be processed altogether (up to the `payload` limit). If the
* `worker` is in progress, the task is queued until it becomes available. Once
* the `worker` has completed some tasks, each callback of those tasks is
* called. Check out [these](https://camo.githubusercontent.com/6bbd36f4cf5b35a0f11a96dcd2e97711ffc2fb37/68747470733a2f2f662e636c6f75642e6769746875622e636f6d2f6173736574732f313637363837312f36383130382f62626330636662302d356632392d313165322d393734662d3333393763363464633835382e676966) [animations](https://camo.githubusercontent.com/f4810e00e1c5f5f8addbe3e9f49064fd5d102699/68747470733a2f2f662e636c6f75642e6769746875622e636f6d2f6173736574732f313637363837312f36383130312f38346339323036362d356632392d313165322d383134662d3964336430323431336266642e676966)
* for how `cargo` and `queue` work.
*
* While [`queue`]{@link module:ControlFlow.queue} passes only one task to one of a group of workers
* at a time, cargo passes an array of tasks to a single worker, repeating
* when the worker is finished.
*
* @name cargo
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.queue]{@link module:ControlFlow.queue}
* @category Control Flow
* @param {AsyncFunction} worker - An asynchronous function for processing an array
* of queued tasks. Invoked with `(tasks, callback)`.
* @param {number} [payload=Infinity] - An optional `integer` for determining
* how many tasks should be processed per round; if omitted, the default is
* unlimited.
* @returns {module:ControlFlow.QueueObject} A cargo object to manage the tasks. Callbacks can
* attached as certain properties to listen for specific events during the
* lifecycle of the cargo and inner queue.
* @example
*
* // create a cargo object with payload 2
* var cargo = async.cargo(function(tasks, callback) {
* for (var i=0; i {
_iteratee(memo, x, (err, v) => {
memo = v;
iterCb(err);
});
}, err => callback(err, memo));
}
var reduce$1 = awaitify(reduce, 4);
/**
* Version of the compose function that is more natural to read. Each function
* consumes the return value of the previous function. It is the equivalent of
* [compose]{@link module:ControlFlow.compose} with the arguments reversed.
*
* Each function is executed with the `this` binding of the composed function.
*
* @name seq
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.compose]{@link module:ControlFlow.compose}
* @category Control Flow
* @param {...AsyncFunction} functions - the asynchronous functions to compose
* @returns {Function} a function that composes the `functions` in order
* @example
*
* // Requires lodash (or underscore), express3 and dresende's orm2.
* // Part of an app, that fetches cats of the logged user.
* // This example uses `seq` function to avoid overnesting and error
* // handling clutter.
* app.get('/cats', function(request, response) {
* var User = request.models.User;
* async.seq(
* _.bind(User.get, User), // 'User.get' has signature (id, callback(err, data))
* function(user, fn) {
* user.getCats(fn); // 'getCats' has signature (callback(err, data))
* }
* )(req.session.user_id, function (err, cats) {
* if (err) {
* console.error(err);
* response.json({ status: 'error', message: err.message });
* } else {
* response.json({ status: 'ok', message: 'Cats found', data: cats });
* }
* });
* });
*/
function seq(...functions) {
var _functions = functions.map(wrapAsync);
return function (...args) {
var that = this;
var cb = args[args.length - 1];
if (typeof cb == 'function') {
args.pop();
} else {
cb = promiseCallback();
}
reduce$1(_functions, args, (newargs, fn, iterCb) => {
fn.apply(that, newargs.concat((err, ...nextargs) => {
iterCb(err, nextargs);
}));
},
(err, results) => cb(err, ...results));
return cb[PROMISE_SYMBOL]
};
}
/**
* Creates a function which is a composition of the passed asynchronous
* functions. Each function consumes the return value of the function that
* follows. Composing functions `f()`, `g()`, and `h()` would produce the result
* of `f(g(h()))`, only this version uses callbacks to obtain the return values.
*
* If the last argument to the composed function is not a function, a promise
* is returned when you call it.
*
* Each function is executed with the `this` binding of the composed function.
*
* @name compose
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @param {...AsyncFunction} functions - the asynchronous functions to compose
* @returns {Function} an asynchronous function that is the composed
* asynchronous `functions`
* @example
*
* function add1(n, callback) {
* setTimeout(function () {
* callback(null, n + 1);
* }, 10);
* }
*
* function mul3(n, callback) {
* setTimeout(function () {
* callback(null, n * 3);
* }, 10);
* }
*
* var add1mul3 = async.compose(mul3, add1);
* add1mul3(4, function (err, result) {
* // result now equals 15
* });
*/
function compose(...args) {
return seq(...args.reverse());
}
/**
* The same as [`map`]{@link module:Collections.map} but runs a maximum of `limit` async operations at a time.
*
* @name mapLimit
* @static
* @memberOf module:Collections
* @method
* @see [async.map]{@link module:Collections.map}
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {number} limit - The maximum number of async operations at a time.
* @param {AsyncFunction} iteratee - An async function to apply to each item in
* `coll`.
* The iteratee should complete with the transformed item.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called when all `iteratee`
* functions have finished, or an error occurs. Results is an array of the
* transformed items from the `coll`. Invoked with (err, results).
* @returns {Promise} a promise, if no callback is passed
*/
function mapLimit (coll, limit, iteratee, callback) {
return _asyncMap(eachOfLimit(limit), coll, iteratee, callback)
}
var mapLimit$1 = awaitify(mapLimit, 4);
/**
* The same as [`concat`]{@link module:Collections.concat} but runs a maximum of `limit` async operations at a time.
*
* @name concatLimit
* @static
* @memberOf module:Collections
* @method
* @see [async.concat]{@link module:Collections.concat}
* @category Collection
* @alias flatMapLimit
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {number} limit - The maximum number of async operations at a time.
* @param {AsyncFunction} iteratee - A function to apply to each item in `coll`,
* which should use an array as its result. Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished, or an error occurs. Results is an array
* containing the concatenated results of the `iteratee` function. Invoked with
* (err, results).
* @returns A Promise, if no callback is passed
*/
function concatLimit(coll, limit, iteratee, callback) {
var _iteratee = wrapAsync(iteratee);
return mapLimit$1(coll, limit, (val, iterCb) => {
_iteratee(val, (err, ...args) => {
if (err) return iterCb(err);
return iterCb(err, args);
});
}, (err, mapResults) => {
var result = [];
for (var i = 0; i < mapResults.length; i++) {
if (mapResults[i]) {
result = result.concat(...mapResults[i]);
}
}
return callback(err, result);
});
}
var concatLimit$1 = awaitify(concatLimit, 4);
/**
* Applies `iteratee` to each item in `coll`, concatenating the results. Returns
* the concatenated list. The `iteratee`s are called in parallel, and the
* results are concatenated as they return. The results array will be returned in
* the original order of `coll` passed to the `iteratee` function.
*
* @name concat
* @static
* @memberOf module:Collections
* @method
* @category Collection
* @alias flatMap
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - A function to apply to each item in `coll`,
* which should use an array as its result. Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished, or an error occurs. Results is an array
* containing the concatenated results of the `iteratee` function. Invoked with
* (err, results).
* @returns A Promise, if no callback is passed
* @example
*
* async.concat(['dir1','dir2','dir3'], fs.readdir, function(err, files) {
* // files is now a list of filenames that exist in the 3 directories
* });
*/
function concat(coll, iteratee, callback) {
return concatLimit$1(coll, Infinity, iteratee, callback)
}
var concat$1 = awaitify(concat, 3);
/**
* The same as [`concat`]{@link module:Collections.concat} but runs only a single async operation at a time.
*
* @name concatSeries
* @static
* @memberOf module:Collections
* @method
* @see [async.concat]{@link module:Collections.concat}
* @category Collection
* @alias flatMapSeries
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - A function to apply to each item in `coll`.
* The iteratee should complete with an array an array of results.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished, or an error occurs. Results is an array
* containing the concatenated results of the `iteratee` function. Invoked with
* (err, results).
* @returns A Promise, if no callback is passed
*/
function concatSeries(coll, iteratee, callback) {
return concatLimit$1(coll, 1, iteratee, callback)
}
var concatSeries$1 = awaitify(concatSeries, 3);
/**
* Returns a function that when called, calls-back with the values provided.
* Useful as the first function in a [`waterfall`]{@link module:ControlFlow.waterfall}, or for plugging values in to
* [`auto`]{@link module:ControlFlow.auto}.
*
* @name constant
* @static
* @memberOf module:Utils
* @method
* @category Util
* @param {...*} arguments... - Any number of arguments to automatically invoke
* callback with.
* @returns {AsyncFunction} Returns a function that when invoked, automatically
* invokes the callback with the previous given arguments.
* @example
*
* async.waterfall([
* async.constant(42),
* function (value, next) {
* // value === 42
* },
* //...
* ], callback);
*
* async.waterfall([
* async.constant(filename, "utf8"),
* fs.readFile,
* function (fileData, next) {
* //...
* }
* //...
* ], callback);
*
* async.auto({
* hostname: async.constant("https://server.net/"),
* port: findFreePort,
* launchServer: ["hostname", "port", function (options, cb) {
* startServer(options, cb);
* }],
* //...
* }, callback);
*/
function constant(...args) {
return function (...ignoredArgs/*, callback*/) {
var callback = ignoredArgs.pop();
return callback(null, ...args);
};
}
function _createTester(check, getResult) {
return (eachfn, arr, _iteratee, cb) => {
var testPassed = false;
var testResult;
const iteratee = wrapAsync(_iteratee);
eachfn(arr, (value, _, callback) => {
iteratee(value, (err, result) => {
if (err || err === false) return callback(err);
if (check(result) && !testResult) {
testPassed = true;
testResult = getResult(true, value);
return callback(null, breakLoop);
}
callback();
});
}, err => {
if (err) return cb(err);
cb(null, testPassed ? testResult : getResult(false));
});
};
}
/**
* Returns the first value in `coll` that passes an async truth test. The
* `iteratee` is applied in parallel, meaning the first iteratee to return
* `true` will fire the detect `callback` with that result. That means the
* result might not be the first item in the original `coll` (in terms of order)
* that passes the test.
* If order within the original `coll` is important, then look at
* [`detectSeries`]{@link module:Collections.detectSeries}.
*
* @name detect
* @static
* @memberOf module:Collections
* @method
* @alias find
* @category Collections
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - A truth test to apply to each item in `coll`.
* The iteratee must complete with a boolean value as its result.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called as soon as any
* iteratee returns `true`, or after all the `iteratee` functions have finished.
* Result will be the first item in the array that passes the truth test
* (iteratee) or the value `undefined` if none passed. Invoked with
* (err, result).
* @returns A Promise, if no callback is passed
* @example
*
* async.detect(['file1','file2','file3'], function(filePath, callback) {
* fs.access(filePath, function(err) {
* callback(null, !err)
* });
* }, function(err, result) {
* // result now equals the first file in the list that exists
* });
*/
function detect(coll, iteratee, callback) {
return _createTester(bool => bool, (res, item) => item)(eachOf$1, coll, iteratee, callback)
}
var detect$1 = awaitify(detect, 3);
/**
* The same as [`detect`]{@link module:Collections.detect} but runs a maximum of `limit` async operations at a
* time.
*
* @name detectLimit
* @static
* @memberOf module:Collections
* @method
* @see [async.detect]{@link module:Collections.detect}
* @alias findLimit
* @category Collections
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {number} limit - The maximum number of async operations at a time.
* @param {AsyncFunction} iteratee - A truth test to apply to each item in `coll`.
* The iteratee must complete with a boolean value as its result.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called as soon as any
* iteratee returns `true`, or after all the `iteratee` functions have finished.
* Result will be the first item in the array that passes the truth test
* (iteratee) or the value `undefined` if none passed. Invoked with
* (err, result).
* @returns a Promise if no callback is passed
*/
function detectLimit(coll, limit, iteratee, callback) {
return _createTester(bool => bool, (res, item) => item)(eachOfLimit(limit), coll, iteratee, callback)
}
var detectLimit$1 = awaitify(detectLimit, 4);
/**
* The same as [`detect`]{@link module:Collections.detect} but runs only a single async operation at a time.
*
* @name detectSeries
* @static
* @memberOf module:Collections
* @method
* @see [async.detect]{@link module:Collections.detect}
* @alias findSeries
* @category Collections
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - A truth test to apply to each item in `coll`.
* The iteratee must complete with a boolean value as its result.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called as soon as any
* iteratee returns `true`, or after all the `iteratee` functions have finished.
* Result will be the first item in the array that passes the truth test
* (iteratee) or the value `undefined` if none passed. Invoked with
* (err, result).
* @returns a Promise if no callback is passed
*/
function detectSeries(coll, iteratee, callback) {
return _createTester(bool => bool, (res, item) => item)(eachOfLimit(1), coll, iteratee, callback)
}
var detectSeries$1 = awaitify(detectSeries, 3);
function consoleFunc(name) {
return (fn, ...args) => wrapAsync(fn)(...args, (err, ...resultArgs) => {
if (typeof console === 'object') {
if (err) {
if (console.error) {
console.error(err);
}
} else if (console[name]) {
resultArgs.forEach(x => console[name](x));
}
}
})
}
/**
* Logs the result of an [`async` function]{@link AsyncFunction} to the
* `console` using `console.dir` to display the properties of the resulting object.
* Only works in Node.js or in browsers that support `console.dir` and
* `console.error` (such as FF and Chrome).
* If multiple arguments are returned from the async function,
* `console.dir` is called on each argument in order.
*
* @name dir
* @static
* @memberOf module:Utils
* @method
* @category Util
* @param {AsyncFunction} function - The function you want to eventually apply
* all arguments to.
* @param {...*} arguments... - Any number of arguments to apply to the function.
* @example
*
* // in a module
* var hello = function(name, callback) {
* setTimeout(function() {
* callback(null, {hello: name});
* }, 1000);
* };
*
* // in the node repl
* node> async.dir(hello, 'world');
* {hello: 'world'}
*/
var dir = consoleFunc('dir');
/**
* The post-check version of [`whilst`]{@link module:ControlFlow.whilst}. To reflect the difference in
* the order of operations, the arguments `test` and `iteratee` are switched.
*
* `doWhilst` is to `whilst` as `do while` is to `while` in plain JavaScript.
*
* @name doWhilst
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.whilst]{@link module:ControlFlow.whilst}
* @category Control Flow
* @param {AsyncFunction} iteratee - A function which is called each time `test`
* passes. Invoked with (callback).
* @param {AsyncFunction} test - asynchronous truth test to perform after each
* execution of `iteratee`. Invoked with (...args, callback), where `...args` are the
* non-error args from the previous callback of `iteratee`.
* @param {Function} [callback] - A callback which is called after the test
* function has failed and repeated execution of `iteratee` has stopped.
* `callback` will be passed an error and any arguments passed to the final
* `iteratee`'s callback. Invoked with (err, [results]);
* @returns {Promise} a promise, if no callback is passed
*/
function doWhilst(iteratee, test, callback) {
callback = onlyOnce(callback);
var _fn = wrapAsync(iteratee);
var _test = wrapAsync(test);
var results;
function next(err, ...args) {
if (err) return callback(err);
if (err === false) return;
results = args;
_test(...args, check);
}
function check(err, truth) {
if (err) return callback(err);
if (err === false) return;
if (!truth) return callback(null, ...results);
_fn(next);
}
return check(null, true);
}
var doWhilst$1 = awaitify(doWhilst, 3);
/**
* Like ['doWhilst']{@link module:ControlFlow.doWhilst}, except the `test` is inverted. Note the
* argument ordering differs from `until`.
*
* @name doUntil
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.doWhilst]{@link module:ControlFlow.doWhilst}
* @category Control Flow
* @param {AsyncFunction} iteratee - An async function which is called each time
* `test` fails. Invoked with (callback).
* @param {AsyncFunction} test - asynchronous truth test to perform after each
* execution of `iteratee`. Invoked with (...args, callback), where `...args` are the
* non-error args from the previous callback of `iteratee`
* @param {Function} [callback] - A callback which is called after the test
* function has passed and repeated execution of `iteratee` has stopped. `callback`
* will be passed an error and any arguments passed to the final `iteratee`'s
* callback. Invoked with (err, [results]);
* @returns {Promise} a promise, if no callback is passed
*/
function doUntil(iteratee, test, callback) {
const _test = wrapAsync(test);
return doWhilst$1(iteratee, (...args) => {
const cb = args.pop();
_test(...args, (err, truth) => cb (err, !truth));
}, callback);
}
function _withoutIndex(iteratee) {
return (value, index, callback) => iteratee(value, callback);
}
/**
* Applies the function `iteratee` to each item in `coll`, in parallel.
* The `iteratee` is called with an item from the list, and a callback for when
* it has finished. If the `iteratee` passes an error to its `callback`, the
* main `callback` (for the `each` function) is immediately called with the
* error.
*
* Note, that since this function applies `iteratee` to each item in parallel,
* there is no guarantee that the iteratee functions will complete in order.
*
* @name each
* @static
* @memberOf module:Collections
* @method
* @alias forEach
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async function to apply to
* each item in `coll`. Invoked with (item, callback).
* The array index is not passed to the iteratee.
* If you need the index, use `eachOf`.
* @param {Function} [callback] - A callback which is called when all
* `iteratee` functions have finished, or an error occurs. Invoked with (err).
* @returns {Promise} a promise, if a callback is omitted
* @example
*
* // assuming openFiles is an array of file names and saveFile is a function
* // to save the modified contents of that file:
*
* async.each(openFiles, saveFile, function(err){
* // if any of the saves produced an error, err would equal that error
* });
*
* // assuming openFiles is an array of file names
* async.each(openFiles, function(file, callback) {
*
* // Perform operation on file here.
* console.log('Processing file ' + file);
*
* if( file.length > 32 ) {
* console.log('This file name is too long');
* callback('File name too long');
* } else {
* // Do work to process file here
* console.log('File processed');
* callback();
* }
* }, function(err) {
* // if any of the file processing produced an error, err would equal that error
* if( err ) {
* // One of the iterations produced an error.
* // All processing will now stop.
* console.log('A file failed to process');
* } else {
* console.log('All files have been processed successfully');
* }
* });
*/
function eachLimit(coll, iteratee, callback) {
return eachOf$1(coll, _withoutIndex(wrapAsync(iteratee)), callback);
}
var each = awaitify(eachLimit, 3);
/**
* The same as [`each`]{@link module:Collections.each} but runs a maximum of `limit` async operations at a time.
*
* @name eachLimit
* @static
* @memberOf module:Collections
* @method
* @see [async.each]{@link module:Collections.each}
* @alias forEachLimit
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {number} limit - The maximum number of async operations at a time.
* @param {AsyncFunction} iteratee - An async function to apply to each item in
* `coll`.
* The array index is not passed to the iteratee.
* If you need the index, use `eachOfLimit`.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called when all
* `iteratee` functions have finished, or an error occurs. Invoked with (err).
* @returns {Promise} a promise, if a callback is omitted
*/
function eachLimit$1(coll, limit, iteratee, callback) {
return eachOfLimit(limit)(coll, _withoutIndex(wrapAsync(iteratee)), callback);
}
var eachLimit$2 = awaitify(eachLimit$1, 4);
/**
* The same as [`each`]{@link module:Collections.each} but runs only a single async operation at a time.
*
* Note, that unlike [`each`]{@link module:Collections.each}, this function applies iteratee to each item
* in series and therefore the iteratee functions will complete in order.
* @name eachSeries
* @static
* @memberOf module:Collections
* @method
* @see [async.each]{@link module:Collections.each}
* @alias forEachSeries
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async function to apply to each
* item in `coll`.
* The array index is not passed to the iteratee.
* If you need the index, use `eachOfSeries`.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called when all
* `iteratee` functions have finished, or an error occurs. Invoked with (err).
* @returns {Promise} a promise, if a callback is omitted
*/
function eachSeries(coll, iteratee, callback) {
return eachLimit$2(coll, 1, iteratee, callback)
}
var eachSeries$1 = awaitify(eachSeries, 3);
/**
* Wrap an async function and ensure it calls its callback on a later tick of
* the event loop. If the function already calls its callback on a next tick,
* no extra deferral is added. This is useful for preventing stack overflows
* (`RangeError: Maximum call stack size exceeded`) and generally keeping
* [Zalgo](http://blog.izs.me/post/59142742143/designing-apis-for-asynchrony)
* contained. ES2017 `async` functions are returned as-is -- they are immune
* to Zalgo's corrupting influences, as they always resolve on a later tick.
*
* @name ensureAsync
* @static
* @memberOf module:Utils
* @method
* @category Util
* @param {AsyncFunction} fn - an async function, one that expects a node-style
* callback as its last argument.
* @returns {AsyncFunction} Returns a wrapped function with the exact same call
* signature as the function passed in.
* @example
*
* function sometimesAsync(arg, callback) {
* if (cache[arg]) {
* return callback(null, cache[arg]); // this would be synchronous!!
* } else {
* doSomeIO(arg, callback); // this IO would be asynchronous
* }
* }
*
* // this has a risk of stack overflows if many results are cached in a row
* async.mapSeries(args, sometimesAsync, done);
*
* // this will defer sometimesAsync's callback if necessary,
* // preventing stack overflows
* async.mapSeries(args, async.ensureAsync(sometimesAsync), done);
*/
function ensureAsync(fn) {
if (isAsync(fn)) return fn;
return function (...args/*, callback*/) {
var callback = args.pop();
var sync = true;
args.push((...innerArgs) => {
if (sync) {
setImmediate$1(() => callback(...innerArgs));
} else {
callback(...innerArgs);
}
});
fn.apply(this, args);
sync = false;
};
}
/**
* Returns `true` if every element in `coll` satisfies an async test. If any
* iteratee call returns `false`, the main `callback` is immediately called.
*
* @name every
* @static
* @memberOf module:Collections
* @method
* @alias all
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async truth test to apply to each item
* in the collection in parallel.
* The iteratee must complete with a boolean result value.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished. Result will be either `true` or `false`
* depending on the values of the async tests. Invoked with (err, result).
* @returns {Promise} a promise, if no callback provided
* @example
*
* async.every(['file1','file2','file3'], function(filePath, callback) {
* fs.access(filePath, function(err) {
* callback(null, !err)
* });
* }, function(err, result) {
* // if result is true then every file exists
* });
*/
function every(coll, iteratee, callback) {
return _createTester(bool => !bool, res => !res)(eachOf$1, coll, iteratee, callback)
}
var every$1 = awaitify(every, 3);
/**
* The same as [`every`]{@link module:Collections.every} but runs a maximum of `limit` async operations at a time.
*
* @name everyLimit
* @static
* @memberOf module:Collections
* @method
* @see [async.every]{@link module:Collections.every}
* @alias allLimit
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {number} limit - The maximum number of async operations at a time.
* @param {AsyncFunction} iteratee - An async truth test to apply to each item
* in the collection in parallel.
* The iteratee must complete with a boolean result value.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished. Result will be either `true` or `false`
* depending on the values of the async tests. Invoked with (err, result).
* @returns {Promise} a promise, if no callback provided
*/
function everyLimit(coll, limit, iteratee, callback) {
return _createTester(bool => !bool, res => !res)(eachOfLimit(limit), coll, iteratee, callback)
}
var everyLimit$1 = awaitify(everyLimit, 4);
/**
* The same as [`every`]{@link module:Collections.every} but runs only a single async operation at a time.
*
* @name everySeries
* @static
* @memberOf module:Collections
* @method
* @see [async.every]{@link module:Collections.every}
* @alias allSeries
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async truth test to apply to each item
* in the collection in series.
* The iteratee must complete with a boolean result value.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished. Result will be either `true` or `false`
* depending on the values of the async tests. Invoked with (err, result).
* @returns {Promise} a promise, if no callback provided
*/
function everySeries(coll, iteratee, callback) {
return _createTester(bool => !bool, res => !res)(eachOfSeries$1, coll, iteratee, callback)
}
var everySeries$1 = awaitify(everySeries, 3);
function filterArray(eachfn, arr, iteratee, callback) {
var truthValues = new Array(arr.length);
eachfn(arr, (x, index, iterCb) => {
iteratee(x, (err, v) => {
truthValues[index] = !!v;
iterCb(err);
});
}, err => {
if (err) return callback(err);
var results = [];
for (var i = 0; i < arr.length; i++) {
if (truthValues[i]) results.push(arr[i]);
}
callback(null, results);
});
}
function filterGeneric(eachfn, coll, iteratee, callback) {
var results = [];
eachfn(coll, (x, index, iterCb) => {
iteratee(x, (err, v) => {
if (err) return iterCb(err);
if (v) {
results.push({index, value: x});
}
iterCb(err);
});
}, err => {
if (err) return callback(err);
callback(null, results
.sort((a, b) => a.index - b.index)
.map(v => v.value));
});
}
function _filter(eachfn, coll, iteratee, callback) {
var filter = isArrayLike(coll) ? filterArray : filterGeneric;
return filter(eachfn, coll, wrapAsync(iteratee), callback);
}
/**
* Returns a new array of all the values in `coll` which pass an async truth
* test. This operation is performed in parallel, but the results array will be
* in the same order as the original.
*
* @name filter
* @static
* @memberOf module:Collections
* @method
* @alias select
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {Function} iteratee - A truth test to apply to each item in `coll`.
* The `iteratee` is passed a `callback(err, truthValue)`, which must be called
* with a boolean argument once it has completed. Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished. Invoked with (err, results).
* @returns {Promise} a promise, if no callback provided
* @example
*
* async.filter(['file1','file2','file3'], function(filePath, callback) {
* fs.access(filePath, function(err) {
* callback(null, !err)
* });
* }, function(err, results) {
* // results now equals an array of the existing files
* });
*/
function filter (coll, iteratee, callback) {
return _filter(eachOf$1, coll, iteratee, callback)
}
var filter$1 = awaitify(filter, 3);
/**
* The same as [`filter`]{@link module:Collections.filter} but runs a maximum of `limit` async operations at a
* time.
*
* @name filterLimit
* @static
* @memberOf module:Collections
* @method
* @see [async.filter]{@link module:Collections.filter}
* @alias selectLimit
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {number} limit - The maximum number of async operations at a time.
* @param {Function} iteratee - A truth test to apply to each item in `coll`.
* The `iteratee` is passed a `callback(err, truthValue)`, which must be called
* with a boolean argument once it has completed. Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished. Invoked with (err, results).
* @returns {Promise} a promise, if no callback provided
*/
function filterLimit (coll, limit, iteratee, callback) {
return _filter(eachOfLimit(limit), coll, iteratee, callback)
}
var filterLimit$1 = awaitify(filterLimit, 4);
/**
* The same as [`filter`]{@link module:Collections.filter} but runs only a single async operation at a time.
*
* @name filterSeries
* @static
* @memberOf module:Collections
* @method
* @see [async.filter]{@link module:Collections.filter}
* @alias selectSeries
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {Function} iteratee - A truth test to apply to each item in `coll`.
* The `iteratee` is passed a `callback(err, truthValue)`, which must be called
* with a boolean argument once it has completed. Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished. Invoked with (err, results)
* @returns {Promise} a promise, if no callback provided
*/
function filterSeries (coll, iteratee, callback) {
return _filter(eachOfSeries$1, coll, iteratee, callback)
}
var filterSeries$1 = awaitify(filterSeries, 3);
/**
* Calls the asynchronous function `fn` with a callback parameter that allows it
* to call itself again, in series, indefinitely.
* If an error is passed to the callback then `errback` is called with the
* error, and execution stops, otherwise it will never be called.
*
* @name forever
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @param {AsyncFunction} fn - an async function to call repeatedly.
* Invoked with (next).
* @param {Function} [errback] - when `fn` passes an error to it's callback,
* this function will be called, and execution stops. Invoked with (err).
* @returns {Promise} a promise that rejects if an error occurs and an errback
* is not passed
* @example
*
* async.forever(
* function(next) {
* // next is suitable for passing to things that need a callback(err [, whatever]);
* // it will result in this function being called again.
* },
* function(err) {
* // if next is called with a value in its first parameter, it will appear
* // in here as 'err', and execution will stop.
* }
* );
*/
function forever(fn, errback) {
var done = onlyOnce(errback);
var task = wrapAsync(ensureAsync(fn));
function next(err) {
if (err) return done(err);
if (err === false) return;
task(next);
}
return next();
}
var forever$1 = awaitify(forever, 2);
/**
* The same as [`groupBy`]{@link module:Collections.groupBy} but runs a maximum of `limit` async operations at a time.
*
* @name groupByLimit
* @static
* @memberOf module:Collections
* @method
* @see [async.groupBy]{@link module:Collections.groupBy}
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {number} limit - The maximum number of async operations at a time.
* @param {AsyncFunction} iteratee - An async function to apply to each item in
* `coll`.
* The iteratee should complete with a `key` to group the value under.
* Invoked with (value, callback).
* @param {Function} [callback] - A callback which is called when all `iteratee`
* functions have finished, or an error occurs. Result is an `Object` whoses
* properties are arrays of values which returned the corresponding key.
* @returns {Promise} a promise, if no callback is passed
*/
function groupByLimit(coll, limit, iteratee, callback) {
var _iteratee = wrapAsync(iteratee);
return mapLimit$1(coll, limit, (val, iterCb) => {
_iteratee(val, (err, key) => {
if (err) return iterCb(err);
return iterCb(err, {key, val});
});
}, (err, mapResults) => {
var result = {};
// from MDN, handle object having an `hasOwnProperty` prop
var {hasOwnProperty} = Object.prototype;
for (var i = 0; i < mapResults.length; i++) {
if (mapResults[i]) {
var {key} = mapResults[i];
var {val} = mapResults[i];
if (hasOwnProperty.call(result, key)) {
result[key].push(val);
} else {
result[key] = [val];
}
}
}
return callback(err, result);
});
}
var groupByLimit$1 = awaitify(groupByLimit, 4);
/**
* Returns a new object, where each value corresponds to an array of items, from
* `coll`, that returned the corresponding key. That is, the keys of the object
* correspond to the values passed to the `iteratee` callback.
*
* Note: Since this function applies the `iteratee` to each item in parallel,
* there is no guarantee that the `iteratee` functions will complete in order.
* However, the values for each key in the `result` will be in the same order as
* the original `coll`. For Objects, the values will roughly be in the order of
* the original Objects' keys (but this can vary across JavaScript engines).
*
* @name groupBy
* @static
* @memberOf module:Collections
* @method
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async function to apply to each item in
* `coll`.
* The iteratee should complete with a `key` to group the value under.
* Invoked with (value, callback).
* @param {Function} [callback] - A callback which is called when all `iteratee`
* functions have finished, or an error occurs. Result is an `Object` whoses
* properties are arrays of values which returned the corresponding key.
* @returns {Promise} a promise, if no callback is passed
* @example
*
* async.groupBy(['userId1', 'userId2', 'userId3'], function(userId, callback) {
* db.findById(userId, function(err, user) {
* if (err) return callback(err);
* return callback(null, user.age);
* });
* }, function(err, result) {
* // result is object containing the userIds grouped by age
* // e.g. { 30: ['userId1', 'userId3'], 42: ['userId2']};
* });
*/
function groupBy (coll, iteratee, callback) {
return groupByLimit$1(coll, Infinity, iteratee, callback)
}
/**
* The same as [`groupBy`]{@link module:Collections.groupBy} but runs only a single async operation at a time.
*
* @name groupBySeries
* @static
* @memberOf module:Collections
* @method
* @see [async.groupBy]{@link module:Collections.groupBy}
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async function to apply to each item in
* `coll`.
* The iteratee should complete with a `key` to group the value under.
* Invoked with (value, callback).
* @param {Function} [callback] - A callback which is called when all `iteratee`
* functions have finished, or an error occurs. Result is an `Object` whoses
* properties are arrays of values which returned the corresponding key.
* @returns {Promise} a promise, if no callback is passed
*/
function groupBySeries (coll, iteratee, callback) {
return groupByLimit$1(coll, 1, iteratee, callback)
}
/**
* Logs the result of an `async` function to the `console`. Only works in
* Node.js or in browsers that support `console.log` and `console.error` (such
* as FF and Chrome). If multiple arguments are returned from the async
* function, `console.log` is called on each argument in order.
*
* @name log
* @static
* @memberOf module:Utils
* @method
* @category Util
* @param {AsyncFunction} function - The function you want to eventually apply
* all arguments to.
* @param {...*} arguments... - Any number of arguments to apply to the function.
* @example
*
* // in a module
* var hello = function(name, callback) {
* setTimeout(function() {
* callback(null, 'hello ' + name);
* }, 1000);
* };
*
* // in the node repl
* node> async.log(hello, 'world');
* 'hello world'
*/
var log = consoleFunc('log');
/**
* The same as [`mapValues`]{@link module:Collections.mapValues} but runs a maximum of `limit` async operations at a
* time.
*
* @name mapValuesLimit
* @static
* @memberOf module:Collections
* @method
* @see [async.mapValues]{@link module:Collections.mapValues}
* @category Collection
* @param {Object} obj - A collection to iterate over.
* @param {number} limit - The maximum number of async operations at a time.
* @param {AsyncFunction} iteratee - A function to apply to each value and key
* in `coll`.
* The iteratee should complete with the transformed value as its result.
* Invoked with (value, key, callback).
* @param {Function} [callback] - A callback which is called when all `iteratee`
* functions have finished, or an error occurs. `result` is a new object consisting
* of each key from `obj`, with each transformed value on the right-hand side.
* Invoked with (err, result).
* @returns {Promise} a promise, if no callback is passed
*/
function mapValuesLimit(obj, limit, iteratee, callback) {
callback = once(callback);
var newObj = {};
var _iteratee = wrapAsync(iteratee);
return eachOfLimit(limit)(obj, (val, key, next) => {
_iteratee(val, key, (err, result) => {
if (err) return next(err);
newObj[key] = result;
next(err);
});
}, err => callback(err, newObj));
}
var mapValuesLimit$1 = awaitify(mapValuesLimit, 4);
/**
* A relative of [`map`]{@link module:Collections.map}, designed for use with objects.
*
* Produces a new Object by mapping each value of `obj` through the `iteratee`
* function. The `iteratee` is called each `value` and `key` from `obj` and a
* callback for when it has finished processing. Each of these callbacks takes
* two arguments: an `error`, and the transformed item from `obj`. If `iteratee`
* passes an error to its callback, the main `callback` (for the `mapValues`
* function) is immediately called with the error.
*
* Note, the order of the keys in the result is not guaranteed. The keys will
* be roughly in the order they complete, (but this is very engine-specific)
*
* @name mapValues
* @static
* @memberOf module:Collections
* @method
* @category Collection
* @param {Object} obj - A collection to iterate over.
* @param {AsyncFunction} iteratee - A function to apply to each value and key
* in `coll`.
* The iteratee should complete with the transformed value as its result.
* Invoked with (value, key, callback).
* @param {Function} [callback] - A callback which is called when all `iteratee`
* functions have finished, or an error occurs. `result` is a new object consisting
* of each key from `obj`, with each transformed value on the right-hand side.
* Invoked with (err, result).
* @returns {Promise} a promise, if no callback is passed
* @example
*
* async.mapValues({
* f1: 'file1',
* f2: 'file2',
* f3: 'file3'
* }, function (file, key, callback) {
* fs.stat(file, callback);
* }, function(err, result) {
* // result is now a map of stats for each file, e.g.
* // {
* // f1: [stats for file1],
* // f2: [stats for file2],
* // f3: [stats for file3]
* // }
* });
*/
function mapValues(obj, iteratee, callback) {
return mapValuesLimit$1(obj, Infinity, iteratee, callback)
}
/**
* The same as [`mapValues`]{@link module:Collections.mapValues} but runs only a single async operation at a time.
*
* @name mapValuesSeries
* @static
* @memberOf module:Collections
* @method
* @see [async.mapValues]{@link module:Collections.mapValues}
* @category Collection
* @param {Object} obj - A collection to iterate over.
* @param {AsyncFunction} iteratee - A function to apply to each value and key
* in `coll`.
* The iteratee should complete with the transformed value as its result.
* Invoked with (value, key, callback).
* @param {Function} [callback] - A callback which is called when all `iteratee`
* functions have finished, or an error occurs. `result` is a new object consisting
* of each key from `obj`, with each transformed value on the right-hand side.
* Invoked with (err, result).
* @returns {Promise} a promise, if no callback is passed
*/
function mapValuesSeries(obj, iteratee, callback) {
return mapValuesLimit$1(obj, 1, iteratee, callback)
}
/**
* Caches the results of an async function. When creating a hash to store
* function results against, the callback is omitted from the hash and an
* optional hash function can be used.
*
* **Note: if the async function errs, the result will not be cached and
* subsequent calls will call the wrapped function.**
*
* If no hash function is specified, the first argument is used as a hash key,
* which may work reasonably if it is a string or a data type that converts to a
* distinct string. Note that objects and arrays will not behave reasonably.
* Neither will cases where the other arguments are significant. In such cases,
* specify your own hash function.
*
* The cache of results is exposed as the `memo` property of the function
* returned by `memoize`.
*
* @name memoize
* @static
* @memberOf module:Utils
* @method
* @category Util
* @param {AsyncFunction} fn - The async function to proxy and cache results from.
* @param {Function} hasher - An optional function for generating a custom hash
* for storing results. It has all the arguments applied to it apart from the
* callback, and must be synchronous.
* @returns {AsyncFunction} a memoized version of `fn`
* @example
*
* var slow_fn = function(name, callback) {
* // do something
* callback(null, result);
* };
* var fn = async.memoize(slow_fn);
*
* // fn can now be used as if it were slow_fn
* fn('some name', function() {
* // callback
* });
*/
function memoize(fn, hasher = v => v) {
var memo = Object.create(null);
var queues = Object.create(null);
var _fn = wrapAsync(fn);
var memoized = initialParams((args, callback) => {
var key = hasher(...args);
if (key in memo) {
setImmediate$1(() => callback(null, ...memo[key]));
} else if (key in queues) {
queues[key].push(callback);
} else {
queues[key] = [callback];
_fn(...args, (err, ...resultArgs) => {
// #1465 don't memoize if an error occurred
if (!err) {
memo[key] = resultArgs;
}
var q = queues[key];
delete queues[key];
for (var i = 0, l = q.length; i < l; i++) {
q[i](err, ...resultArgs);
}
});
}
});
memoized.memo = memo;
memoized.unmemoized = fn;
return memoized;
}
/**
* Calls `callback` on a later loop around the event loop. In Node.js this just
* calls `process.nextTick`. In the browser it will use `setImmediate` if
* available, otherwise `setTimeout(callback, 0)`, which means other higher
* priority events may precede the execution of `callback`.
*
* This is used internally for browser-compatibility purposes.
*
* @name nextTick
* @static
* @memberOf module:Utils
* @method
* @see [async.setImmediate]{@link module:Utils.setImmediate}
* @category Util
* @param {Function} callback - The function to call on a later loop around
* the event loop. Invoked with (args...).
* @param {...*} args... - any number of additional arguments to pass to the
* callback on the next tick.
* @example
*
* var call_order = [];
* async.nextTick(function() {
* call_order.push('two');
* // call_order now equals ['one','two']
* });
* call_order.push('one');
*
* async.setImmediate(function (a, b, c) {
* // a, b, and c equal 1, 2, and 3
* }, 1, 2, 3);
*/
var _defer$1;
if (hasNextTick) {
_defer$1 = process.nextTick;
} else if (hasSetImmediate) {
_defer$1 = setImmediate;
} else {
_defer$1 = fallback;
}
var nextTick = wrap(_defer$1);
var parallel = awaitify((eachfn, tasks, callback) => {
var results = isArrayLike(tasks) ? [] : {};
eachfn(tasks, (task, key, taskCb) => {
wrapAsync(task)((err, ...result) => {
if (result.length < 2) {
[result] = result;
}
results[key] = result;
taskCb(err);
});
}, err => callback(err, results));
}, 3);
/**
* Run the `tasks` collection of functions in parallel, without waiting until
* the previous function has completed. If any of the functions pass an error to
* its callback, the main `callback` is immediately called with the value of the
* error. Once the `tasks` have completed, the results are passed to the final
* `callback` as an array.
*
* **Note:** `parallel` is about kicking-off I/O tasks in parallel, not about
* parallel execution of code. If your tasks do not use any timers or perform
* any I/O, they will actually be executed in series. Any synchronous setup
* sections for each task will happen one after the other. JavaScript remains
* single-threaded.
*
* **Hint:** Use [`reflect`]{@link module:Utils.reflect} to continue the
* execution of other tasks when a task fails.
*
* It is also possible to use an object instead of an array. Each property will
* be run as a function and the results will be passed to the final `callback`
* as an object instead of an array. This can be a more readable way of handling
* results from {@link async.parallel}.
*
* @name parallel
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @param {Array|Iterable|AsyncIterable|Object} tasks - A collection of
* [async functions]{@link AsyncFunction} to run.
* Each async function can complete with any number of optional `result` values.
* @param {Function} [callback] - An optional callback to run once all the
* functions have completed successfully. This function gets a results array
* (or object) containing all the result arguments passed to the task callbacks.
* Invoked with (err, results).
* @returns {Promise} a promise, if a callback is not passed
*
* @example
* async.parallel([
* function(callback) {
* setTimeout(function() {
* callback(null, 'one');
* }, 200);
* },
* function(callback) {
* setTimeout(function() {
* callback(null, 'two');
* }, 100);
* }
* ],
* // optional callback
* function(err, results) {
* // the results array will equal ['one','two'] even though
* // the second function had a shorter timeout.
* });
*
* // an example using an object instead of an array
* async.parallel({
* one: function(callback) {
* setTimeout(function() {
* callback(null, 1);
* }, 200);
* },
* two: function(callback) {
* setTimeout(function() {
* callback(null, 2);
* }, 100);
* }
* }, function(err, results) {
* // results is now equals to: {one: 1, two: 2}
* });
*/
function parallel$1(tasks, callback) {
return parallel(eachOf$1, tasks, callback);
}
/**
* The same as [`parallel`]{@link module:ControlFlow.parallel} but runs a maximum of `limit` async operations at a
* time.
*
* @name parallelLimit
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.parallel]{@link module:ControlFlow.parallel}
* @category Control Flow
* @param {Array|Iterable|AsyncIterable|Object} tasks - A collection of
* [async functions]{@link AsyncFunction} to run.
* Each async function can complete with any number of optional `result` values.
* @param {number} limit - The maximum number of async operations at a time.
* @param {Function} [callback] - An optional callback to run once all the
* functions have completed successfully. This function gets a results array
* (or object) containing all the result arguments passed to the task callbacks.
* Invoked with (err, results).
* @returns {Promise} a promise, if a callback is not passed
*/
function parallelLimit(tasks, limit, callback) {
return parallel(eachOfLimit(limit), tasks, callback);
}
/**
* A queue of tasks for the worker function to complete.
* @typedef {Iterable} QueueObject
* @memberOf module:ControlFlow
* @property {Function} length - a function returning the number of items
* waiting to be processed. Invoke with `queue.length()`.
* @property {boolean} started - a boolean indicating whether or not any
* items have been pushed and processed by the queue.
* @property {Function} running - a function returning the number of items
* currently being processed. Invoke with `queue.running()`.
* @property {Function} workersList - a function returning the array of items
* currently being processed. Invoke with `queue.workersList()`.
* @property {Function} idle - a function returning false if there are items
* waiting or being processed, or true if not. Invoke with `queue.idle()`.
* @property {number} concurrency - an integer for determining how many `worker`
* functions should be run in parallel. This property can be changed after a
* `queue` is created to alter the concurrency on-the-fly.
* @property {number} payload - an integer that specifies how many items are
* passed to the worker function at a time. only applies if this is a
* [cargo]{@link module:ControlFlow.cargo} object
* @property {AsyncFunction} push - add a new task to the `queue`. Calls `callback`
* once the `worker` has finished processing the task. Instead of a single task,
* a `tasks` array can be submitted. The respective callback is used for every
* task in the list. Invoke with `queue.push(task, [callback])`,
* @property {AsyncFunction} unshift - add a new task to the front of the `queue`.
* Invoke with `queue.unshift(task, [callback])`.
* @property {AsyncFunction} pushAsync - the same as `q.push`, except this returns
* a promise that rejects if an error occurs.
* @property {AsyncFunction} unshirtAsync - the same as `q.unshift`, except this returns
* a promise that rejects if an error occurs.
* @property {Function} remove - remove items from the queue that match a test
* function. The test function will be passed an object with a `data` property,
* and a `priority` property, if this is a
* [priorityQueue]{@link module:ControlFlow.priorityQueue} object.
* Invoked with `queue.remove(testFn)`, where `testFn` is of the form
* `function ({data, priority}) {}` and returns a Boolean.
* @property {Function} saturated - a function that sets a callback that is
* called when the number of running workers hits the `concurrency` limit, and
* further tasks will be queued. If the callback is omitted, `q.saturated()`
* returns a promise for the next occurrence.
* @property {Function} unsaturated - a function that sets a callback that is
* called when the number of running workers is less than the `concurrency` &
* `buffer` limits, and further tasks will not be queued. If the callback is
* omitted, `q.unsaturated()` returns a promise for the next occurrence.
* @property {number} buffer - A minimum threshold buffer in order to say that
* the `queue` is `unsaturated`.
* @property {Function} empty - a function that sets a callback that is called
* when the last item from the `queue` is given to a `worker`. If the callback
* is omitted, `q.empty()` returns a promise for the next occurrence.
* @property {Function} drain - a function that sets a callback that is called
* when the last item from the `queue` has returned from the `worker`. If the
* callback is omitted, `q.drain()` returns a promise for the next occurrence.
* @property {Function} error - a function that sets a callback that is called
* when a task errors. Has the signature `function(error, task)`. If the
* callback is omitted, `error()` returns a promise that rejects on the next
* error.
* @property {boolean} paused - a boolean for determining whether the queue is
* in a paused state.
* @property {Function} pause - a function that pauses the processing of tasks
* until `resume()` is called. Invoke with `queue.pause()`.
* @property {Function} resume - a function that resumes the processing of
* queued tasks when the queue is paused. Invoke with `queue.resume()`.
* @property {Function} kill - a function that removes the `drain` callback and
* empties remaining tasks from the queue forcing it to go idle. No more tasks
* should be pushed to the queue after calling this function. Invoke with `queue.kill()`.
*
* @example
* const q = aync.queue(worker, 2)
* q.push(item1)
* q.push(item2)
* q.push(item3)
* // queues are iterable, spread into an array to inspect
* const items = [...q] // [item1, item2, item3]
* // or use for of
* for (let item of q) {
* console.log(item)
* }
*
* q.drain(() => {
* console.log('all done')
* })
* // or
* await q.drain()
*/
/**
* Creates a `queue` object with the specified `concurrency`. Tasks added to the
* `queue` are processed in parallel (up to the `concurrency` limit). If all
* `worker`s are in progress, the task is queued until one becomes available.
* Once a `worker` completes a `task`, that `task`'s callback is called.
*
* @name queue
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @param {AsyncFunction} worker - An async function for processing a queued task.
* If you want to handle errors from an individual task, pass a callback to
* `q.push()`. Invoked with (task, callback).
* @param {number} [concurrency=1] - An `integer` for determining how many
* `worker` functions should be run in parallel. If omitted, the concurrency
* defaults to `1`. If the concurrency is `0`, an error is thrown.
* @returns {module:ControlFlow.QueueObject} A queue object to manage the tasks. Callbacks can be
* attached as certain properties to listen for specific events during the
* lifecycle of the queue.
* @example
*
* // create a queue object with concurrency 2
* var q = async.queue(function(task, callback) {
* console.log('hello ' + task.name);
* callback();
* }, 2);
*
* // assign a callback
* q.drain(function() {
* console.log('all items have been processed');
* });
* // or await the end
* await q.drain()
*
* // assign an error callback
* q.error(function(err, task) {
* console.error('task experienced an error');
* });
*
* // add some items to the queue
* q.push({name: 'foo'}, function(err) {
* console.log('finished processing foo');
* });
* // callback is optional
* q.push({name: 'bar'});
*
* // add some items to the queue (batch-wise)
* q.push([{name: 'baz'},{name: 'bay'},{name: 'bax'}], function(err) {
* console.log('finished processing item');
* });
*
* // add some items to the front of the queue
* q.unshift({name: 'bar'}, function (err) {
* console.log('finished processing bar');
* });
*/
function queue$1 (worker, concurrency) {
var _worker = wrapAsync(worker);
return queue((items, cb) => {
_worker(items[0], cb);
}, concurrency, 1);
}
// Binary min-heap implementation used for priority queue.
// Implementation is stable, i.e. push time is considered for equal priorities
class Heap {
constructor() {
this.heap = [];
this.pushCount = Number.MIN_SAFE_INTEGER;
}
get length() {
return this.heap.length;
}
empty () {
this.heap = [];
return this;
}
percUp(index) {
let p;
while (index > 0 && smaller(this.heap[index], this.heap[p=parent(index)])) {
let t = this.heap[index];
this.heap[index] = this.heap[p];
this.heap[p] = t;
index = p;
}
}
percDown(index) {
let l;
while ((l=leftChi(index)) < this.heap.length) {
if (l+1 < this.heap.length && smaller(this.heap[l+1], this.heap[l])) {
l = l+1;
}
if (smaller(this.heap[index], this.heap[l])) {
break;
}
let t = this.heap[index];
this.heap[index] = this.heap[l];
this.heap[l] = t;
index = l;
}
}
push(node) {
node.pushCount = ++this.pushCount;
this.heap.push(node);
this.percUp(this.heap.length-1);
}
unshift(node) {
return this.heap.push(node);
}
shift() {
let [top] = this.heap;
this.heap[0] = this.heap[this.heap.length-1];
this.heap.pop();
this.percDown(0);
return top;
}
toArray() {
return [...this];
}
*[Symbol.iterator] () {
for (let i = 0; i < this.heap.length; i++) {
yield this.heap[i].data;
}
}
remove (testFn) {
let j = 0;
for (let i = 0; i < this.heap.length; i++) {
if (!testFn(this.heap[i])) {
this.heap[j] = this.heap[i];
j++;
}
}
this.heap.splice(j);
for (let i = parent(this.heap.length-1); i >= 0; i--) {
this.percDown(i);
}
return this;
}
}
function leftChi(i) {
return (i<<1)+1;
}
function parent(i) {
return ((i+1)>>1)-1;
}
function smaller(x, y) {
if (x.priority !== y.priority) {
return x.priority < y.priority;
}
else {
return x.pushCount < y.pushCount;
}
}
/**
* The same as [async.queue]{@link module:ControlFlow.queue} only tasks are assigned a priority and
* completed in ascending priority order.
*
* @name priorityQueue
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.queue]{@link module:ControlFlow.queue}
* @category Control Flow
* @param {AsyncFunction} worker - An async function for processing a queued task.
* If you want to handle errors from an individual task, pass a callback to
* `q.push()`.
* Invoked with (task, callback).
* @param {number} concurrency - An `integer` for determining how many `worker`
* functions should be run in parallel. If omitted, the concurrency defaults to
* `1`. If the concurrency is `0`, an error is thrown.
* @returns {module:ControlFlow.QueueObject} A priorityQueue object to manage the tasks. There are two
* differences between `queue` and `priorityQueue` objects:
* * `push(task, priority, [callback])` - `priority` should be a number. If an
* array of `tasks` is given, all tasks will be assigned the same priority.
* * The `unshift` method was removed.
*/
function priorityQueue(worker, concurrency) {
// Start with a normal queue
var q = queue$1(worker, concurrency);
q._tasks = new Heap();
// Override push to accept second parameter representing priority
q.push = function(data, priority = 0, callback = () => {}) {
if (typeof callback !== 'function') {
throw new Error('task callback must be a function');
}
q.started = true;
if (!Array.isArray(data)) {
data = [data];
}
if (data.length === 0 && q.idle()) {
// call drain immediately if there are no tasks
return setImmediate$1(() => q.drain());
}
for (var i = 0, l = data.length; i < l; i++) {
var item = {
data: data[i],
priority,
callback
};
q._tasks.push(item);
}
setImmediate$1(q.process);
};
// Remove unshift function
delete q.unshift;
return q;
}
/**
* Runs the `tasks` array of functions in parallel, without waiting until the
* previous function has completed. Once any of the `tasks` complete or pass an
* error to its callback, the main `callback` is immediately called. It's
* equivalent to `Promise.race()`.
*
* @name race
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @param {Array} tasks - An array containing [async functions]{@link AsyncFunction}
* to run. Each function can complete with an optional `result` value.
* @param {Function} callback - A callback to run once any of the functions have
* completed. This function gets an error or result from the first function that
* completed. Invoked with (err, result).
* @returns undefined
* @example
*
* async.race([
* function(callback) {
* setTimeout(function() {
* callback(null, 'one');
* }, 200);
* },
* function(callback) {
* setTimeout(function() {
* callback(null, 'two');
* }, 100);
* }
* ],
* // main callback
* function(err, result) {
* // the result will be equal to 'two' as it finishes earlier
* });
*/
function race(tasks, callback) {
callback = once(callback);
if (!Array.isArray(tasks)) return callback(new TypeError('First argument to race must be an array of functions'));
if (!tasks.length) return callback();
for (var i = 0, l = tasks.length; i < l; i++) {
wrapAsync(tasks[i])(callback);
}
}
var race$1 = awaitify(race, 2);
/**
* Same as [`reduce`]{@link module:Collections.reduce}, only operates on `array` in reverse order.
*
* @name reduceRight
* @static
* @memberOf module:Collections
* @method
* @see [async.reduce]{@link module:Collections.reduce}
* @alias foldr
* @category Collection
* @param {Array} array - A collection to iterate over.
* @param {*} memo - The initial state of the reduction.
* @param {AsyncFunction} iteratee - A function applied to each item in the
* array to produce the next step in the reduction.
* The `iteratee` should complete with the next state of the reduction.
* If the iteratee complete with an error, the reduction is stopped and the
* main `callback` is immediately called with the error.
* Invoked with (memo, item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished. Result is the reduced value. Invoked with
* (err, result).
* @returns {Promise} a promise, if no callback is passed
*/
function reduceRight (array, memo, iteratee, callback) {
var reversed = [...array].reverse();
return reduce$1(reversed, memo, iteratee, callback);
}
/**
* Wraps the async function in another function that always completes with a
* result object, even when it errors.
*
* The result object has either the property `error` or `value`.
*
* @name reflect
* @static
* @memberOf module:Utils
* @method
* @category Util
* @param {AsyncFunction} fn - The async function you want to wrap
* @returns {Function} - A function that always passes null to it's callback as
* the error. The second argument to the callback will be an `object` with
* either an `error` or a `value` property.
* @example
*
* async.parallel([
* async.reflect(function(callback) {
* // do some stuff ...
* callback(null, 'one');
* }),
* async.reflect(function(callback) {
* // do some more stuff but error ...
* callback('bad stuff happened');
* }),
* async.reflect(function(callback) {
* // do some more stuff ...
* callback(null, 'two');
* })
* ],
* // optional callback
* function(err, results) {
* // values
* // results[0].value = 'one'
* // results[1].error = 'bad stuff happened'
* // results[2].value = 'two'
* });
*/
function reflect(fn) {
var _fn = wrapAsync(fn);
return initialParams(function reflectOn(args, reflectCallback) {
args.push((error, ...cbArgs) => {
let retVal = {};
if (error) {
retVal.error = error;
}
if (cbArgs.length > 0){
var value = cbArgs;
if (cbArgs.length <= 1) {
[value] = cbArgs;
}
retVal.value = value;
}
reflectCallback(null, retVal);
});
return _fn.apply(this, args);
});
}
/**
* A helper function that wraps an array or an object of functions with `reflect`.
*
* @name reflectAll
* @static
* @memberOf module:Utils
* @method
* @see [async.reflect]{@link module:Utils.reflect}
* @category Util
* @param {Array|Object|Iterable} tasks - The collection of
* [async functions]{@link AsyncFunction} to wrap in `async.reflect`.
* @returns {Array} Returns an array of async functions, each wrapped in
* `async.reflect`
* @example
*
* let tasks = [
* function(callback) {
* setTimeout(function() {
* callback(null, 'one');
* }, 200);
* },
* function(callback) {
* // do some more stuff but error ...
* callback(new Error('bad stuff happened'));
* },
* function(callback) {
* setTimeout(function() {
* callback(null, 'two');
* }, 100);
* }
* ];
*
* async.parallel(async.reflectAll(tasks),
* // optional callback
* function(err, results) {
* // values
* // results[0].value = 'one'
* // results[1].error = Error('bad stuff happened')
* // results[2].value = 'two'
* });
*
* // an example using an object instead of an array
* let tasks = {
* one: function(callback) {
* setTimeout(function() {
* callback(null, 'one');
* }, 200);
* },
* two: function(callback) {
* callback('two');
* },
* three: function(callback) {
* setTimeout(function() {
* callback(null, 'three');
* }, 100);
* }
* };
*
* async.parallel(async.reflectAll(tasks),
* // optional callback
* function(err, results) {
* // values
* // results.one.value = 'one'
* // results.two.error = 'two'
* // results.three.value = 'three'
* });
*/
function reflectAll(tasks) {
var results;
if (Array.isArray(tasks)) {
results = tasks.map(reflect);
} else {
results = {};
Object.keys(tasks).forEach(key => {
results[key] = reflect.call(this, tasks[key]);
});
}
return results;
}
function reject(eachfn, arr, _iteratee, callback) {
const iteratee = wrapAsync(_iteratee);
return _filter(eachfn, arr, (value, cb) => {
iteratee(value, (err, v) => {
cb(err, !v);
});
}, callback);
}
/**
* The opposite of [`filter`]{@link module:Collections.filter}. Removes values that pass an `async` truth test.
*
* @name reject
* @static
* @memberOf module:Collections
* @method
* @see [async.filter]{@link module:Collections.filter}
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {Function} iteratee - An async truth test to apply to each item in
* `coll`.
* The should complete with a boolean value as its `result`.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished. Invoked with (err, results).
* @returns {Promise} a promise, if no callback is passed
* @example
*
* async.reject(['file1','file2','file3'], function(filePath, callback) {
* fs.access(filePath, function(err) {
* callback(null, !err)
* });
* }, function(err, results) {
* // results now equals an array of missing files
* createFiles(results);
* });
*/
function reject$1 (coll, iteratee, callback) {
return reject(eachOf$1, coll, iteratee, callback)
}
var reject$2 = awaitify(reject$1, 3);
/**
* The same as [`reject`]{@link module:Collections.reject} but runs a maximum of `limit` async operations at a
* time.
*
* @name rejectLimit
* @static
* @memberOf module:Collections
* @method
* @see [async.reject]{@link module:Collections.reject}
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {number} limit - The maximum number of async operations at a time.
* @param {Function} iteratee - An async truth test to apply to each item in
* `coll`.
* The should complete with a boolean value as its `result`.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished. Invoked with (err, results).
* @returns {Promise} a promise, if no callback is passed
*/
function rejectLimit (coll, limit, iteratee, callback) {
return reject(eachOfLimit(limit), coll, iteratee, callback)
}
var rejectLimit$1 = awaitify(rejectLimit, 4);
/**
* The same as [`reject`]{@link module:Collections.reject} but runs only a single async operation at a time.
*
* @name rejectSeries
* @static
* @memberOf module:Collections
* @method
* @see [async.reject]{@link module:Collections.reject}
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {Function} iteratee - An async truth test to apply to each item in
* `coll`.
* The should complete with a boolean value as its `result`.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished. Invoked with (err, results).
* @returns {Promise} a promise, if no callback is passed
*/
function rejectSeries (coll, iteratee, callback) {
return reject(eachOfSeries$1, coll, iteratee, callback)
}
var rejectSeries$1 = awaitify(rejectSeries, 3);
function constant$1(value) {
return function () {
return value;
}
}
/**
* Attempts to get a successful response from `task` no more than `times` times
* before returning an error. If the task is successful, the `callback` will be
* passed the result of the successful task. If all attempts fail, the callback
* will be passed the error and result (if any) of the final attempt.
*
* @name retry
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @see [async.retryable]{@link module:ControlFlow.retryable}
* @param {Object|number} [opts = {times: 5, interval: 0}| 5] - Can be either an
* object with `times` and `interval` or a number.
* * `times` - The number of attempts to make before giving up. The default
* is `5`.
* * `interval` - The time to wait between retries, in milliseconds. The
* default is `0`. The interval may also be specified as a function of the
* retry count (see example).
* * `errorFilter` - An optional synchronous function that is invoked on
* erroneous result. If it returns `true` the retry attempts will continue;
* if the function returns `false` the retry flow is aborted with the current
* attempt's error and result being returned to the final callback.
* Invoked with (err).
* * If `opts` is a number, the number specifies the number of times to retry,
* with the default interval of `0`.
* @param {AsyncFunction} task - An async function to retry.
* Invoked with (callback).
* @param {Function} [callback] - An optional callback which is called when the
* task has succeeded, or after the final failed attempt. It receives the `err`
* and `result` arguments of the last attempt at completing the `task`. Invoked
* with (err, results).
* @returns {Promise} a promise if no callback provided
*
* @example
*
* // The `retry` function can be used as a stand-alone control flow by passing
* // a callback, as shown below:
*
* // try calling apiMethod 3 times
* async.retry(3, apiMethod, function(err, result) {
* // do something with the result
* });
*
* // try calling apiMethod 3 times, waiting 200 ms between each retry
* async.retry({times: 3, interval: 200}, apiMethod, function(err, result) {
* // do something with the result
* });
*
* // try calling apiMethod 10 times with exponential backoff
* // (i.e. intervals of 100, 200, 400, 800, 1600, ... milliseconds)
* async.retry({
* times: 10,
* interval: function(retryCount) {
* return 50 * Math.pow(2, retryCount);
* }
* }, apiMethod, function(err, result) {
* // do something with the result
* });
*
* // try calling apiMethod the default 5 times no delay between each retry
* async.retry(apiMethod, function(err, result) {
* // do something with the result
* });
*
* // try calling apiMethod only when error condition satisfies, all other
* // errors will abort the retry control flow and return to final callback
* async.retry({
* errorFilter: function(err) {
* return err.message === 'Temporary error'; // only retry on a specific error
* }
* }, apiMethod, function(err, result) {
* // do something with the result
* });
*
* // to retry individual methods that are not as reliable within other
* // control flow functions, use the `retryable` wrapper:
* async.auto({
* users: api.getUsers.bind(api),
* payments: async.retryable(3, api.getPayments.bind(api))
* }, function(err, results) {
* // do something with the results
* });
*
*/
const DEFAULT_TIMES = 5;
const DEFAULT_INTERVAL = 0;
function retry(opts, task, callback) {
var options = {
times: DEFAULT_TIMES,
intervalFunc: constant$1(DEFAULT_INTERVAL)
};
if (arguments.length < 3 && typeof opts === 'function') {
callback = task || promiseCallback();
task = opts;
} else {
parseTimes(options, opts);
callback = callback || promiseCallback();
}
if (typeof task !== 'function') {
throw new Error("Invalid arguments for async.retry");
}
var _task = wrapAsync(task);
var attempt = 1;
function retryAttempt() {
_task((err, ...args) => {
if (err === false) return
if (err && attempt++ < options.times &&
(typeof options.errorFilter != 'function' ||
options.errorFilter(err))) {
setTimeout(retryAttempt, options.intervalFunc(attempt - 1));
} else {
callback(err, ...args);
}
});
}
retryAttempt();
return callback[PROMISE_SYMBOL]
}
function parseTimes(acc, t) {
if (typeof t === 'object') {
acc.times = +t.times || DEFAULT_TIMES;
acc.intervalFunc = typeof t.interval === 'function' ?
t.interval :
constant$1(+t.interval || DEFAULT_INTERVAL);
acc.errorFilter = t.errorFilter;
} else if (typeof t === 'number' || typeof t === 'string') {
acc.times = +t || DEFAULT_TIMES;
} else {
throw new Error("Invalid arguments for async.retry");
}
}
/**
* A close relative of [`retry`]{@link module:ControlFlow.retry}. This method
* wraps a task and makes it retryable, rather than immediately calling it
* with retries.
*
* @name retryable
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.retry]{@link module:ControlFlow.retry}
* @category Control Flow
* @param {Object|number} [opts = {times: 5, interval: 0}| 5] - optional
* options, exactly the same as from `retry`, except for a `opts.arity` that
* is the arity of the `task` function, defaulting to `task.length`
* @param {AsyncFunction} task - the asynchronous function to wrap.
* This function will be passed any arguments passed to the returned wrapper.
* Invoked with (...args, callback).
* @returns {AsyncFunction} The wrapped function, which when invoked, will
* retry on an error, based on the parameters specified in `opts`.
* This function will accept the same parameters as `task`.
* @example
*
* async.auto({
* dep1: async.retryable(3, getFromFlakyService),
* process: ["dep1", async.retryable(3, function (results, cb) {
* maybeProcessData(results.dep1, cb);
* })]
* }, callback);
*/
function retryable (opts, task) {
if (!task) {
task = opts;
opts = null;
}
let arity = (opts && opts.arity) || task.length;
if (isAsync(task)) {
arity += 1;
}
var _task = wrapAsync(task);
return initialParams((args, callback) => {
if (args.length < arity - 1 || callback == null) {
args.push(callback);
callback = promiseCallback();
}
function taskFn(cb) {
_task(...args, cb);
}
if (opts) retry(opts, taskFn, callback);
else retry(taskFn, callback);
return callback[PROMISE_SYMBOL]
});
}
/**
* Run the functions in the `tasks` collection in series, each one running once
* the previous function has completed. If any functions in the series pass an
* error to its callback, no more functions are run, and `callback` is
* immediately called with the value of the error. Otherwise, `callback`
* receives an array of results when `tasks` have completed.
*
* It is also possible to use an object instead of an array. Each property will
* be run as a function, and the results will be passed to the final `callback`
* as an object instead of an array. This can be a more readable way of handling
* results from {@link async.series}.
*
* **Note** that while many implementations preserve the order of object
* properties, the [ECMAScript Language Specification](http://www.ecma-international.org/ecma-262/5.1/#sec-8.6)
* explicitly states that
*
* > The mechanics and order of enumerating the properties is not specified.
*
* So if you rely on the order in which your series of functions are executed,
* and want this to work on all platforms, consider using an array.
*
* @name series
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @param {Array|Iterable|AsyncIterable|Object} tasks - A collection containing
* [async functions]{@link AsyncFunction} to run in series.
* Each function can complete with any number of optional `result` values.
* @param {Function} [callback] - An optional callback to run once all the
* functions have completed. This function gets a results array (or object)
* containing all the result arguments passed to the `task` callbacks. Invoked
* with (err, result).
* @return {Promise} a promise, if no callback is passed
* @example
* async.series([
* function(callback) {
* // do some stuff ...
* callback(null, 'one');
* },
* function(callback) {
* // do some more stuff ...
* callback(null, 'two');
* }
* ],
* // optional callback
* function(err, results) {
* // results is now equal to ['one', 'two']
* });
*
* async.series({
* one: function(callback) {
* setTimeout(function() {
* callback(null, 1);
* }, 200);
* },
* two: function(callback){
* setTimeout(function() {
* callback(null, 2);
* }, 100);
* }
* }, function(err, results) {
* // results is now equal to: {one: 1, two: 2}
* });
*/
function series(tasks, callback) {
return parallel(eachOfSeries$1, tasks, callback);
}
/**
* Returns `true` if at least one element in the `coll` satisfies an async test.
* If any iteratee call returns `true`, the main `callback` is immediately
* called.
*
* @name some
* @static
* @memberOf module:Collections
* @method
* @alias any
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async truth test to apply to each item
* in the collections in parallel.
* The iteratee should complete with a boolean `result` value.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called as soon as any
* iteratee returns `true`, or after all the iteratee functions have finished.
* Result will be either `true` or `false` depending on the values of the async
* tests. Invoked with (err, result).
* @returns {Promise} a promise, if no callback provided
* @example
*
* async.some(['file1','file2','file3'], function(filePath, callback) {
* fs.access(filePath, function(err) {
* callback(null, !err)
* });
* }, function(err, result) {
* // if result is true then at least one of the files exists
* });
*/
function some(coll, iteratee, callback) {
return _createTester(Boolean, res => res)(eachOf$1, coll, iteratee, callback)
}
var some$1 = awaitify(some, 3);
/**
* The same as [`some`]{@link module:Collections.some} but runs a maximum of `limit` async operations at a time.
*
* @name someLimit
* @static
* @memberOf module:Collections
* @method
* @see [async.some]{@link module:Collections.some}
* @alias anyLimit
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {number} limit - The maximum number of async operations at a time.
* @param {AsyncFunction} iteratee - An async truth test to apply to each item
* in the collections in parallel.
* The iteratee should complete with a boolean `result` value.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called as soon as any
* iteratee returns `true`, or after all the iteratee functions have finished.
* Result will be either `true` or `false` depending on the values of the async
* tests. Invoked with (err, result).
* @returns {Promise} a promise, if no callback provided
*/
function someLimit(coll, limit, iteratee, callback) {
return _createTester(Boolean, res => res)(eachOfLimit(limit), coll, iteratee, callback)
}
var someLimit$1 = awaitify(someLimit, 4);
/**
* The same as [`some`]{@link module:Collections.some} but runs only a single async operation at a time.
*
* @name someSeries
* @static
* @memberOf module:Collections
* @method
* @see [async.some]{@link module:Collections.some}
* @alias anySeries
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async truth test to apply to each item
* in the collections in series.
* The iteratee should complete with a boolean `result` value.
* Invoked with (item, callback).
* @param {Function} [callback] - A callback which is called as soon as any
* iteratee returns `true`, or after all the iteratee functions have finished.
* Result will be either `true` or `false` depending on the values of the async
* tests. Invoked with (err, result).
* @returns {Promise} a promise, if no callback provided
*/
function someSeries(coll, iteratee, callback) {
return _createTester(Boolean, res => res)(eachOfSeries$1, coll, iteratee, callback)
}
var someSeries$1 = awaitify(someSeries, 3);
/**
* Sorts a list by the results of running each `coll` value through an async
* `iteratee`.
*
* @name sortBy
* @static
* @memberOf module:Collections
* @method
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {AsyncFunction} iteratee - An async function to apply to each item in
* `coll`.
* The iteratee should complete with a value to use as the sort criteria as
* its `result`.
* Invoked with (item, callback).
* @param {Function} callback - A callback which is called after all the
* `iteratee` functions have finished, or an error occurs. Results is the items
* from the original `coll` sorted by the values returned by the `iteratee`
* calls. Invoked with (err, results).
* @returns {Promise} a promise, if no callback passed
* @example
*
* async.sortBy(['file1','file2','file3'], function(file, callback) {
* fs.stat(file, function(err, stats) {
* callback(err, stats.mtime);
* });
* }, function(err, results) {
* // results is now the original array of files sorted by
* // modified date
* });
*
* // By modifying the callback parameter the
* // sorting order can be influenced:
*
* // ascending order
* async.sortBy([1,9,3,5], function(x, callback) {
* callback(null, x);
* }, function(err,result) {
* // result callback
* });
*
* // descending order
* async.sortBy([1,9,3,5], function(x, callback) {
* callback(null, x*-1); //<- x*-1 instead of x, turns the order around
* }, function(err,result) {
* // result callback
* });
*/
function sortBy (coll, iteratee, callback) {
var _iteratee = wrapAsync(iteratee);
return map$1(coll, (x, iterCb) => {
_iteratee(x, (err, criteria) => {
if (err) return iterCb(err);
iterCb(err, {value: x, criteria});
});
}, (err, results) => {
if (err) return callback(err);
callback(null, results.sort(comparator).map(v => v.value));
});
function comparator(left, right) {
var a = left.criteria, b = right.criteria;
return a < b ? -1 : a > b ? 1 : 0;
}
}
var sortBy$1 = awaitify(sortBy, 3);
/**
* Sets a time limit on an asynchronous function. If the function does not call
* its callback within the specified milliseconds, it will be called with a
* timeout error. The code property for the error object will be `'ETIMEDOUT'`.
*
* @name timeout
* @static
* @memberOf module:Utils
* @method
* @category Util
* @param {AsyncFunction} asyncFn - The async function to limit in time.
* @param {number} milliseconds - The specified time limit.
* @param {*} [info] - Any variable you want attached (`string`, `object`, etc)
* to timeout Error for more information..
* @returns {AsyncFunction} Returns a wrapped function that can be used with any
* of the control flow functions.
* Invoke this function with the same parameters as you would `asyncFunc`.
* @example
*
* function myFunction(foo, callback) {
* doAsyncTask(foo, function(err, data) {
* // handle errors
* if (err) return callback(err);
*
* // do some stuff ...
*
* // return processed data
* return callback(null, data);
* });
* }
*
* var wrapped = async.timeout(myFunction, 1000);
*
* // call `wrapped` as you would `myFunction`
* wrapped({ bar: 'bar' }, function(err, data) {
* // if `myFunction` takes < 1000 ms to execute, `err`
* // and `data` will have their expected values
*
* // else `err` will be an Error with the code 'ETIMEDOUT'
* });
*/
function timeout(asyncFn, milliseconds, info) {
var fn = wrapAsync(asyncFn);
return initialParams((args, callback) => {
var timedOut = false;
var timer;
function timeoutCallback() {
var name = asyncFn.name || 'anonymous';
var error = new Error('Callback function "' + name + '" timed out.');
error.code = 'ETIMEDOUT';
if (info) {
error.info = info;
}
timedOut = true;
callback(error);
}
args.push((...cbArgs) => {
if (!timedOut) {
callback(...cbArgs);
clearTimeout(timer);
}
});
// setup timer and call original function
timer = setTimeout(timeoutCallback, milliseconds);
fn(...args);
});
}
function range(size) {
var result = Array(size);
while (size--) {
result[size] = size;
}
return result;
}
/**
* The same as [times]{@link module:ControlFlow.times} but runs a maximum of `limit` async operations at a
* time.
*
* @name timesLimit
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.times]{@link module:ControlFlow.times}
* @category Control Flow
* @param {number} count - The number of times to run the function.
* @param {number} limit - The maximum number of async operations at a time.
* @param {AsyncFunction} iteratee - The async function to call `n` times.
* Invoked with the iteration index and a callback: (n, next).
* @param {Function} callback - see [async.map]{@link module:Collections.map}.
* @returns {Promise} a promise, if no callback is provided
*/
function timesLimit(count, limit, iteratee, callback) {
var _iteratee = wrapAsync(iteratee);
return mapLimit$1(range(count), limit, _iteratee, callback);
}
/**
* Calls the `iteratee` function `n` times, and accumulates results in the same
* manner you would use with [map]{@link module:Collections.map}.
*
* @name times
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.map]{@link module:Collections.map}
* @category Control Flow
* @param {number} n - The number of times to run the function.
* @param {AsyncFunction} iteratee - The async function to call `n` times.
* Invoked with the iteration index and a callback: (n, next).
* @param {Function} callback - see {@link module:Collections.map}.
* @returns {Promise} a promise, if no callback is provided
* @example
*
* // Pretend this is some complicated async factory
* var createUser = function(id, callback) {
* callback(null, {
* id: 'user' + id
* });
* };
*
* // generate 5 users
* async.times(5, function(n, next) {
* createUser(n, function(err, user) {
* next(err, user);
* });
* }, function(err, users) {
* // we should now have 5 users
* });
*/
function times (n, iteratee, callback) {
return timesLimit(n, Infinity, iteratee, callback)
}
/**
* The same as [times]{@link module:ControlFlow.times} but runs only a single async operation at a time.
*
* @name timesSeries
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.times]{@link module:ControlFlow.times}
* @category Control Flow
* @param {number} n - The number of times to run the function.
* @param {AsyncFunction} iteratee - The async function to call `n` times.
* Invoked with the iteration index and a callback: (n, next).
* @param {Function} callback - see {@link module:Collections.map}.
* @returns {Promise} a promise, if no callback is provided
*/
function timesSeries (n, iteratee, callback) {
return timesLimit(n, 1, iteratee, callback)
}
/**
* A relative of `reduce`. Takes an Object or Array, and iterates over each
* element in parallel, each step potentially mutating an `accumulator` value.
* The type of the accumulator defaults to the type of collection passed in.
*
* @name transform
* @static
* @memberOf module:Collections
* @method
* @category Collection
* @param {Array|Iterable|AsyncIterable|Object} coll - A collection to iterate over.
* @param {*} [accumulator] - The initial state of the transform. If omitted,
* it will default to an empty Object or Array, depending on the type of `coll`
* @param {AsyncFunction} iteratee - A function applied to each item in the
* collection that potentially modifies the accumulator.
* Invoked with (accumulator, item, key, callback).
* @param {Function} [callback] - A callback which is called after all the
* `iteratee` functions have finished. Result is the transformed accumulator.
* Invoked with (err, result).
* @returns {Promise} a promise, if no callback provided
* @example
*
* async.transform([1,2,3], function(acc, item, index, callback) {
* // pointless async:
* process.nextTick(function() {
* acc[index] = item * 2
* callback(null)
* });
* }, function(err, result) {
* // result is now equal to [2, 4, 6]
* });
*
* @example
*
* async.transform({a: 1, b: 2, c: 3}, function (obj, val, key, callback) {
* setImmediate(function () {
* obj[key] = val * 2;
* callback();
* })
* }, function (err, result) {
* // result is equal to {a: 2, b: 4, c: 6}
* })
*/
function transform (coll, accumulator, iteratee, callback) {
if (arguments.length <= 3 && typeof accumulator === 'function') {
callback = iteratee;
iteratee = accumulator;
accumulator = Array.isArray(coll) ? [] : {};
}
callback = once(callback || promiseCallback());
var _iteratee = wrapAsync(iteratee);
eachOf$1(coll, (v, k, cb) => {
_iteratee(accumulator, v, k, cb);
}, err => callback(err, accumulator));
return callback[PROMISE_SYMBOL]
}
/**
* It runs each task in series but stops whenever any of the functions were
* successful. If one of the tasks were successful, the `callback` will be
* passed the result of the successful task. If all tasks fail, the callback
* will be passed the error and result (if any) of the final attempt.
*
* @name tryEach
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @param {Array|Iterable|AsyncIterable|Object} tasks - A collection containing functions to
* run, each function is passed a `callback(err, result)` it must call on
* completion with an error `err` (which can be `null`) and an optional `result`
* value.
* @param {Function} [callback] - An optional callback which is called when one
* of the tasks has succeeded, or all have failed. It receives the `err` and
* `result` arguments of the last attempt at completing the `task`. Invoked with
* (err, results).
* @returns {Promise} a promise, if no callback is passed
* @example
* async.tryEach([
* function getDataFromFirstWebsite(callback) {
* // Try getting the data from the first website
* callback(err, data);
* },
* function getDataFromSecondWebsite(callback) {
* // First website failed,
* // Try getting the data from the backup website
* callback(err, data);
* }
* ],
* // optional callback
* function(err, results) {
* Now do something with the data.
* });
*
*/
function tryEach(tasks, callback) {
var error = null;
var result;
return eachSeries$1(tasks, (task, taskCb) => {
wrapAsync(task)((err, ...args) => {
if (err === false) return taskCb(err);
if (args.length < 2) {
[result] = args;
} else {
result = args;
}
error = err;
taskCb(err ? null : {});
});
}, () => callback(error, result));
}
var tryEach$1 = awaitify(tryEach);
/**
* Undoes a [memoize]{@link module:Utils.memoize}d function, reverting it to the original,
* unmemoized form. Handy for testing.
*
* @name unmemoize
* @static
* @memberOf module:Utils
* @method
* @see [async.memoize]{@link module:Utils.memoize}
* @category Util
* @param {AsyncFunction} fn - the memoized function
* @returns {AsyncFunction} a function that calls the original unmemoized function
*/
function unmemoize(fn) {
return (...args) => {
return (fn.unmemoized || fn)(...args);
};
}
/**
* Repeatedly call `iteratee`, while `test` returns `true`. Calls `callback` when
* stopped, or an error occurs.
*
* @name whilst
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @param {AsyncFunction} test - asynchronous truth test to perform before each
* execution of `iteratee`. Invoked with ().
* @param {AsyncFunction} iteratee - An async function which is called each time
* `test` passes. Invoked with (callback).
* @param {Function} [callback] - A callback which is called after the test
* function has failed and repeated execution of `iteratee` has stopped. `callback`
* will be passed an error and any arguments passed to the final `iteratee`'s
* callback. Invoked with (err, [results]);
* @returns {Promise} a promise, if no callback is passed
* @example
*
* var count = 0;
* async.whilst(
* function test(cb) { cb(null, count < 5); },
* function iter(callback) {
* count++;
* setTimeout(function() {
* callback(null, count);
* }, 1000);
* },
* function (err, n) {
* // 5 seconds have passed, n = 5
* }
* );
*/
function whilst(test, iteratee, callback) {
callback = onlyOnce(callback);
var _fn = wrapAsync(iteratee);
var _test = wrapAsync(test);
var results = [];
function next(err, ...rest) {
if (err) return callback(err);
results = rest;
if (err === false) return;
_test(check);
}
function check(err, truth) {
if (err) return callback(err);
if (err === false) return;
if (!truth) return callback(null, ...results);
_fn(next);
}
return _test(check);
}
var whilst$1 = awaitify(whilst, 3);
/**
* Repeatedly call `iteratee` until `test` returns `true`. Calls `callback` when
* stopped, or an error occurs. `callback` will be passed an error and any
* arguments passed to the final `iteratee`'s callback.
*
* The inverse of [whilst]{@link module:ControlFlow.whilst}.
*
* @name until
* @static
* @memberOf module:ControlFlow
* @method
* @see [async.whilst]{@link module:ControlFlow.whilst}
* @category Control Flow
* @param {AsyncFunction} test - asynchronous truth test to perform before each
* execution of `iteratee`. Invoked with (callback).
* @param {AsyncFunction} iteratee - An async function which is called each time
* `test` fails. Invoked with (callback).
* @param {Function} [callback] - A callback which is called after the test
* function has passed and repeated execution of `iteratee` has stopped. `callback`
* will be passed an error and any arguments passed to the final `iteratee`'s
* callback. Invoked with (err, [results]);
* @returns {Promise} a promise, if a callback is not passed
*
* @example
* const results = []
* let finished = false
* async.until(function test(page, cb) {
* cb(null, finished)
* }, function iter(next) {
* fetchPage(url, (err, body) => {
* if (err) return next(err)
* results = results.concat(body.objects)
* finished = !!body.next
* next(err)
* })
* }, function done (err) {
* // all pages have been fetched
* })
*/
function until(test, iteratee, callback) {
const _test = wrapAsync(test);
return whilst$1((cb) => _test((err, truth) => cb (err, !truth)), iteratee, callback);
}
/**
* Runs the `tasks` array of functions in series, each passing their results to
* the next in the array. However, if any of the `tasks` pass an error to their
* own callback, the next function is not executed, and the main `callback` is
* immediately called with the error.
*
* @name waterfall
* @static
* @memberOf module:ControlFlow
* @method
* @category Control Flow
* @param {Array} tasks - An array of [async functions]{@link AsyncFunction}
* to run.
* Each function should complete with any number of `result` values.
* The `result` values will be passed as arguments, in order, to the next task.
* @param {Function} [callback] - An optional callback to run once all the
* functions have completed. This will be passed the results of the last task's
* callback. Invoked with (err, [results]).
* @returns undefined
* @example
*
* async.waterfall([
* function(callback) {
* callback(null, 'one', 'two');
* },
* function(arg1, arg2, callback) {
* // arg1 now equals 'one' and arg2 now equals 'two'
* callback(null, 'three');
* },
* function(arg1, callback) {
* // arg1 now equals 'three'
* callback(null, 'done');
* }
* ], function (err, result) {
* // result now equals 'done'
* });
*
* // Or, with named functions:
* async.waterfall([
* myFirstFunction,
* mySecondFunction,
* myLastFunction,
* ], function (err, result) {
* // result now equals 'done'
* });
* function myFirstFunction(callback) {
* callback(null, 'one', 'two');
* }
* function mySecondFunction(arg1, arg2, callback) {
* // arg1 now equals 'one' and arg2 now equals 'two'
* callback(null, 'three');
* }
* function myLastFunction(arg1, callback) {
* // arg1 now equals 'three'
* callback(null, 'done');
* }
*/
function waterfall (tasks, callback) {
callback = once(callback);
if (!Array.isArray(tasks)) return callback(new Error('First argument to waterfall must be an array of functions'));
if (!tasks.length) return callback();
var taskIndex = 0;
function nextTask(args) {
var task = wrapAsync(tasks[taskIndex++]);
task(...args, onlyOnce(next));
}
function next(err, ...args) {
if (err === false) return
if (err || taskIndex === tasks.length) {
return callback(err, ...args);
}
nextTask(args);
}
nextTask([]);
}
var waterfall$1 = awaitify(waterfall);
/**
* An "async function" in the context of Async is an asynchronous function with
* a variable number of parameters, with the final parameter being a callback.
* (`function (arg1, arg2, ..., callback) {}`)
* The final callback is of the form `callback(err, results...)`, which must be
* called once the function is completed. The callback should be called with a
* Error as its first argument to signal that an error occurred.
* Otherwise, if no error occurred, it should be called with `null` as the first
* argument, and any additional `result` arguments that may apply, to signal
* successful completion.
* The callback must be called exactly once, ideally on a later tick of the
* JavaScript event loop.
*
* This type of function is also referred to as a "Node-style async function",
* or a "continuation passing-style function" (CPS). Most of the methods of this
* library are themselves CPS/Node-style async functions, or functions that
* return CPS/Node-style async functions.
*
* Wherever we accept a Node-style async function, we also directly accept an
* [ES2017 `async` function]{@link https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Statements/async_function}.
* In this case, the `async` function will not be passed a final callback
* argument, and any thrown error will be used as the `err` argument of the
* implicit callback, and the return value will be used as the `result` value.
* (i.e. a `rejected` of the returned Promise becomes the `err` callback
* argument, and a `resolved` value becomes the `result`.)
*
* Note, due to JavaScript limitations, we can only detect native `async`
* functions and not transpilied implementations.
* Your environment must have `async`/`await` support for this to work.
* (e.g. Node > v7.6, or a recent version of a modern browser).
* If you are using `async` functions through a transpiler (e.g. Babel), you
* must still wrap the function with [asyncify]{@link module:Utils.asyncify},
* because the `async function` will be compiled to an ordinary function that
* returns a promise.
*
* @typedef {Function} AsyncFunction
* @static
*/
var index = {
apply,
applyEach: applyEach$1,
applyEachSeries,
asyncify,
auto,
autoInject,
cargo,
cargoQueue: cargo$1,
compose,
concat: concat$1,
concatLimit: concatLimit$1,
concatSeries: concatSeries$1,
constant,
detect: detect$1,
detectLimit: detectLimit$1,
detectSeries: detectSeries$1,
dir,
doUntil,
doWhilst: doWhilst$1,
each,
eachLimit: eachLimit$2,
eachOf: eachOf$1,
eachOfLimit: eachOfLimit$2,
eachOfSeries: eachOfSeries$1,
eachSeries: eachSeries$1,
ensureAsync,
every: every$1,
everyLimit: everyLimit$1,
everySeries: everySeries$1,
filter: filter$1,
filterLimit: filterLimit$1,
filterSeries: filterSeries$1,
forever: forever$1,
groupBy,
groupByLimit: groupByLimit$1,
groupBySeries,
log,
map: map$1,
mapLimit: mapLimit$1,
mapSeries: mapSeries$1,
mapValues,
mapValuesLimit: mapValuesLimit$1,
mapValuesSeries,
memoize,
nextTick,
parallel: parallel$1,
parallelLimit,
priorityQueue,
queue: queue$1,
race: race$1,
reduce: reduce$1,
reduceRight,
reflect,
reflectAll,
reject: reject$2,
rejectLimit: rejectLimit$1,
rejectSeries: rejectSeries$1,
retry,
retryable,
seq,
series,
setImmediate: setImmediate$1,
some: some$1,
someLimit: someLimit$1,
someSeries: someSeries$1,
sortBy: sortBy$1,
timeout,
times,
timesLimit,
timesSeries,
transform,
tryEach: tryEach$1,
unmemoize,
until,
waterfall: waterfall$1,
whilst: whilst$1,
// aliases
all: every$1,
allLimit: everyLimit$1,
allSeries: everySeries$1,
any: some$1,
anyLimit: someLimit$1,
anySeries: someSeries$1,
find: detect$1,
findLimit: detectLimit$1,
findSeries: detectSeries$1,
flatMap: concat$1,
flatMapLimit: concatLimit$1,
flatMapSeries: concatSeries$1,
forEach: each,
forEachSeries: eachSeries$1,
forEachLimit: eachLimit$2,
forEachOf: eachOf$1,
forEachOfSeries: eachOfSeries$1,
forEachOfLimit: eachOfLimit$2,
inject: reduce$1,
foldl: reduce$1,
foldr: reduceRight,
select: filter$1,
selectLimit: filterLimit$1,
selectSeries: filterSeries$1,
wrapSync: asyncify,
during: whilst$1,
doDuring: doWhilst$1
};
exports.default = index;
exports.apply = apply;
exports.applyEach = applyEach$1;
exports.applyEachSeries = applyEachSeries;
exports.asyncify = asyncify;
exports.auto = auto;
exports.autoInject = autoInject;
exports.cargo = cargo;
exports.cargoQueue = cargo$1;
exports.compose = compose;
exports.concat = concat$1;
exports.concatLimit = concatLimit$1;
exports.concatSeries = concatSeries$1;
exports.constant = constant;
exports.detect = detect$1;
exports.detectLimit = detectLimit$1;
exports.detectSeries = detectSeries$1;
exports.dir = dir;
exports.doUntil = doUntil;
exports.doWhilst = doWhilst$1;
exports.each = each;
exports.eachLimit = eachLimit$2;
exports.eachOf = eachOf$1;
exports.eachOfLimit = eachOfLimit$2;
exports.eachOfSeries = eachOfSeries$1;
exports.eachSeries = eachSeries$1;
exports.ensureAsync = ensureAsync;
exports.every = every$1;
exports.everyLimit = everyLimit$1;
exports.everySeries = everySeries$1;
exports.filter = filter$1;
exports.filterLimit = filterLimit$1;
exports.filterSeries = filterSeries$1;
exports.forever = forever$1;
exports.groupBy = groupBy;
exports.groupByLimit = groupByLimit$1;
exports.groupBySeries = groupBySeries;
exports.log = log;
exports.map = map$1;
exports.mapLimit = mapLimit$1;
exports.mapSeries = mapSeries$1;
exports.mapValues = mapValues;
exports.mapValuesLimit = mapValuesLimit$1;
exports.mapValuesSeries = mapValuesSeries;
exports.memoize = memoize;
exports.nextTick = nextTick;
exports.parallel = parallel$1;
exports.parallelLimit = parallelLimit;
exports.priorityQueue = priorityQueue;
exports.queue = queue$1;
exports.race = race$1;
exports.reduce = reduce$1;
exports.reduceRight = reduceRight;
exports.reflect = reflect;
exports.reflectAll = reflectAll;
exports.reject = reject$2;
exports.rejectLimit = rejectLimit$1;
exports.rejectSeries = rejectSeries$1;
exports.retry = retry;
exports.retryable = retryable;
exports.seq = seq;
exports.series = series;
exports.setImmediate = setImmediate$1;
exports.some = some$1;
exports.someLimit = someLimit$1;
exports.someSeries = someSeries$1;
exports.sortBy = sortBy$1;
exports.timeout = timeout;
exports.times = times;
exports.timesLimit = timesLimit;
exports.timesSeries = timesSeries;
exports.transform = transform;
exports.tryEach = tryEach$1;
exports.unmemoize = unmemoize;
exports.until = until;
exports.waterfall = waterfall$1;
exports.whilst = whilst$1;
exports.all = every$1;
exports.allLimit = everyLimit$1;
exports.allSeries = everySeries$1;
exports.any = some$1;
exports.anyLimit = someLimit$1;
exports.anySeries = someSeries$1;
exports.find = detect$1;
exports.findLimit = detectLimit$1;
exports.findSeries = detectSeries$1;
exports.flatMap = concat$1;
exports.flatMapLimit = concatLimit$1;
exports.flatMapSeries = concatSeries$1;
exports.forEach = each;
exports.forEachSeries = eachSeries$1;
exports.forEachLimit = eachLimit$2;
exports.forEachOf = eachOf$1;
exports.forEachOfSeries = eachOfSeries$1;
exports.forEachOfLimit = eachOfLimit$2;
exports.inject = reduce$1;
exports.foldl = reduce$1;
exports.foldr = reduceRight;
exports.select = filter$1;
exports.selectLimit = filterLimit$1;
exports.selectSeries = filterSeries$1;
exports.wrapSync = asyncify;
exports.during = whilst$1;
exports.doDuring = doWhilst$1;
Object.defineProperty(exports, '__esModule', { value: true });
})));
/***/ }),
/***/ 2453:
/***/ ((module) => {
"use strict";
module.exports = balanced;
function balanced(a, b, str) {
if (a instanceof RegExp) a = maybeMatch(a, str);
if (b instanceof RegExp) b = maybeMatch(b, str);
var r = range(a, b, str);
return r && {
start: r[0],
end: r[1],
pre: str.slice(0, r[0]),
body: str.slice(r[0] + a.length, r[1]),
post: str.slice(r[1] + b.length)
};
}
function maybeMatch(reg, str) {
var m = str.match(reg);
return m ? m[0] : null;
}
balanced.range = range;
function range(a, b, str) {
var begs, beg, left, right, result;
var ai = str.indexOf(a);
var bi = str.indexOf(b, ai + 1);
var i = ai;
if (ai >= 0 && bi > 0) {
if(a===b) {
return [ai, bi];
}
begs = [];
left = str.length;
while (i >= 0 && !result) {
if (i == ai) {
begs.push(i);
ai = str.indexOf(a, i + 1);
} else if (begs.length == 1) {
result = [ begs.pop(), bi ];
} else {
beg = begs.pop();
if (beg < left) {
left = beg;
right = bi;
}
bi = str.indexOf(b, i + 1);
}
i = ai < bi && ai >= 0 ? ai : bi;
}
if (begs.length) {
result = [ left, right ];
}
}
return result;
}
/***/ }),
/***/ 8920:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
const { Buffer } = __nccwpck_require__(4293)
const symbol = Symbol.for('BufferList')
function BufferList (buf) {
if (!(this instanceof BufferList)) {
return new BufferList(buf)
}
BufferList._init.call(this, buf)
}
BufferList._init = function _init (buf) {
Object.defineProperty(this, symbol, { value: true })
this._bufs = []
this.length = 0
if (buf) {
this.append(buf)
}
}
BufferList.prototype._new = function _new (buf) {
return new BufferList(buf)
}
BufferList.prototype._offset = function _offset (offset) {
if (offset === 0) {
return [0, 0]
}
let tot = 0
for (let i = 0; i < this._bufs.length; i++) {
const _t = tot + this._bufs[i].length
if (offset < _t || i === this._bufs.length - 1) {
return [i, offset - tot]
}
tot = _t
}
}
BufferList.prototype._reverseOffset = function (blOffset) {
const bufferId = blOffset[0]
let offset = blOffset[1]
for (let i = 0; i < bufferId; i++) {
offset += this._bufs[i].length
}
return offset
}
BufferList.prototype.get = function get (index) {
if (index > this.length || index < 0) {
return undefined
}
const offset = this._offset(index)
return this._bufs[offset[0]][offset[1]]
}
BufferList.prototype.slice = function slice (start, end) {
if (typeof start === 'number' && start < 0) {
start += this.length
}
if (typeof end === 'number' && end < 0) {
end += this.length
}
return this.copy(null, 0, start, end)
}
BufferList.prototype.copy = function copy (dst, dstStart, srcStart, srcEnd) {
if (typeof srcStart !== 'number' || srcStart < 0) {
srcStart = 0
}
if (typeof srcEnd !== 'number' || srcEnd > this.length) {
srcEnd = this.length
}
if (srcStart >= this.length) {
return dst || Buffer.alloc(0)
}
if (srcEnd <= 0) {
return dst || Buffer.alloc(0)
}
const copy = !!dst
const off = this._offset(srcStart)
const len = srcEnd - srcStart
let bytes = len
let bufoff = (copy && dstStart) || 0
let start = off[1]
// copy/slice everything
if (srcStart === 0 && srcEnd === this.length) {
if (!copy) {
// slice, but full concat if multiple buffers
return this._bufs.length === 1
? this._bufs[0]
: Buffer.concat(this._bufs, this.length)
}
// copy, need to copy individual buffers
for (let i = 0; i < this._bufs.length; i++) {
this._bufs[i].copy(dst, bufoff)
bufoff += this._bufs[i].length
}
return dst
}
// easy, cheap case where it's a subset of one of the buffers
if (bytes <= this._bufs[off[0]].length - start) {
return copy
? this._bufs[off[0]].copy(dst, dstStart, start, start + bytes)
: this._bufs[off[0]].slice(start, start + bytes)
}
if (!copy) {
// a slice, we need something to copy in to
dst = Buffer.allocUnsafe(len)
}
for (let i = off[0]; i < this._bufs.length; i++) {
const l = this._bufs[i].length - start
if (bytes > l) {
this._bufs[i].copy(dst, bufoff, start)
bufoff += l
} else {
this._bufs[i].copy(dst, bufoff, start, start + bytes)
bufoff += l
break
}
bytes -= l
if (start) {
start = 0
}
}
// safeguard so that we don't return uninitialized memory
if (dst.length > bufoff) return dst.slice(0, bufoff)
return dst
}
BufferList.prototype.shallowSlice = function shallowSlice (start, end) {
start = start || 0
end = typeof end !== 'number' ? this.length : end
if (start < 0) {
start += this.length
}
if (end < 0) {
end += this.length
}
if (start === end) {
return this._new()
}
const startOffset = this._offset(start)
const endOffset = this._offset(end)
const buffers = this._bufs.slice(startOffset[0], endOffset[0] + 1)
if (endOffset[1] === 0) {
buffers.pop()
} else {
buffers[buffers.length - 1] = buffers[buffers.length - 1].slice(0, endOffset[1])
}
if (startOffset[1] !== 0) {
buffers[0] = buffers[0].slice(startOffset[1])
}
return this._new(buffers)
}
BufferList.prototype.toString = function toString (encoding, start, end) {
return this.slice(start, end).toString(encoding)
}
BufferList.prototype.consume = function consume (bytes) {
// first, normalize the argument, in accordance with how Buffer does it
bytes = Math.trunc(bytes)
// do nothing if not a positive number
if (Number.isNaN(bytes) || bytes <= 0) return this
while (this._bufs.length) {
if (bytes >= this._bufs[0].length) {
bytes -= this._bufs[0].length
this.length -= this._bufs[0].length
this._bufs.shift()
} else {
this._bufs[0] = this._bufs[0].slice(bytes)
this.length -= bytes
break
}
}
return this
}
BufferList.prototype.duplicate = function duplicate () {
const copy = this._new()
for (let i = 0; i < this._bufs.length; i++) {
copy.append(this._bufs[i])
}
return copy
}
BufferList.prototype.append = function append (buf) {
if (buf == null) {
return this
}
if (buf.buffer) {
// append a view of the underlying ArrayBuffer
this._appendBuffer(Buffer.from(buf.buffer, buf.byteOffset, buf.byteLength))
} else if (Array.isArray(buf)) {
for (let i = 0; i < buf.length; i++) {
this.append(buf[i])
}
} else if (this._isBufferList(buf)) {
// unwrap argument into individual BufferLists
for (let i = 0; i < buf._bufs.length; i++) {
this.append(buf._bufs[i])
}
} else {
// coerce number arguments to strings, since Buffer(number) does
// uninitialized memory allocation
if (typeof buf === 'number') {
buf = buf.toString()
}
this._appendBuffer(Buffer.from(buf))
}
return this
}
BufferList.prototype._appendBuffer = function appendBuffer (buf) {
this._bufs.push(buf)
this.length += buf.length
}
BufferList.prototype.indexOf = function (search, offset, encoding) {
if (encoding === undefined && typeof offset === 'string') {
encoding = offset
offset = undefined
}
if (typeof search === 'function' || Array.isArray(search)) {
throw new TypeError('The "value" argument must be one of type string, Buffer, BufferList, or Uint8Array.')
} else if (typeof search === 'number') {
search = Buffer.from([search])
} else if (typeof search === 'string') {
search = Buffer.from(search, encoding)
} else if (this._isBufferList(search)) {
search = search.slice()
} else if (Array.isArray(search.buffer)) {
search = Buffer.from(search.buffer, search.byteOffset, search.byteLength)
} else if (!Buffer.isBuffer(search)) {
search = Buffer.from(search)
}
offset = Number(offset || 0)
if (isNaN(offset)) {
offset = 0
}
if (offset < 0) {
offset = this.length + offset
}
if (offset < 0) {
offset = 0
}
if (search.length === 0) {
return offset > this.length ? this.length : offset
}
const blOffset = this._offset(offset)
let blIndex = blOffset[0] // index of which internal buffer we're working on
let buffOffset = blOffset[1] // offset of the internal buffer we're working on
// scan over each buffer
for (; blIndex < this._bufs.length; blIndex++) {
const buff = this._bufs[blIndex]
while (buffOffset < buff.length) {
const availableWindow = buff.length - buffOffset
if (availableWindow >= search.length) {
const nativeSearchResult = buff.indexOf(search, buffOffset)
if (nativeSearchResult !== -1) {
return this._reverseOffset([blIndex, nativeSearchResult])
}
buffOffset = buff.length - search.length + 1 // end of native search window
} else {
const revOffset = this._reverseOffset([blIndex, buffOffset])
if (this._match(revOffset, search)) {
return revOffset
}
buffOffset++
}
}
buffOffset = 0
}
return -1
}
BufferList.prototype._match = function (offset, search) {
if (this.length - offset < search.length) {
return false
}
for (let searchOffset = 0; searchOffset < search.length; searchOffset++) {
if (this.get(offset + searchOffset) !== search[searchOffset]) {
return false
}
}
return true
}
;(function () {
const methods = {
readDoubleBE: 8,
readDoubleLE: 8,
readFloatBE: 4,
readFloatLE: 4,
readInt32BE: 4,
readInt32LE: 4,
readUInt32BE: 4,
readUInt32LE: 4,
readInt16BE: 2,
readInt16LE: 2,
readUInt16BE: 2,
readUInt16LE: 2,
readInt8: 1,
readUInt8: 1,
readIntBE: null,
readIntLE: null,
readUIntBE: null,
readUIntLE: null
}
for (const m in methods) {
(function (m) {
if (methods[m] === null) {
BufferList.prototype[m] = function (offset, byteLength) {
return this.slice(offset, offset + byteLength)[m](0, byteLength)
}
} else {
BufferList.prototype[m] = function (offset = 0) {
return this.slice(offset, offset + methods[m])[m](0)
}
}
}(m))
}
}())
// Used internally by the class and also as an indicator of this object being
// a `BufferList`. It's not possible to use `instanceof BufferList` in a browser
// environment because there could be multiple different copies of the
// BufferList class and some `BufferList`s might be `BufferList`s.
BufferList.prototype._isBufferList = function _isBufferList (b) {
return b instanceof BufferList || BufferList.isBufferList(b)
}
BufferList.isBufferList = function isBufferList (b) {
return b != null && b[symbol]
}
module.exports = BufferList
/***/ }),
/***/ 5805:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
const DuplexStream = __nccwpck_require__(7544).Duplex
const inherits = __nccwpck_require__(9424)
const BufferList = __nccwpck_require__(8920)
function BufferListStream (callback) {
if (!(this instanceof BufferListStream)) {
return new BufferListStream(callback)
}
if (typeof callback === 'function') {
this._callback = callback
const piper = function piper (err) {
if (this._callback) {
this._callback(err)
this._callback = null
}
}.bind(this)
this.on('pipe', function onPipe (src) {
src.on('error', piper)
})
this.on('unpipe', function onUnpipe (src) {
src.removeListener('error', piper)
})
callback = null
}
BufferList._init.call(this, callback)
DuplexStream.call(this)
}
inherits(BufferListStream, DuplexStream)
Object.assign(BufferListStream.prototype, BufferList.prototype)
BufferListStream.prototype._new = function _new (callback) {
return new BufferListStream(callback)
}
BufferListStream.prototype._write = function _write (buf, encoding, callback) {
this._appendBuffer(buf)
if (typeof callback === 'function') {
callback()
}
}
BufferListStream.prototype._read = function _read (size) {
if (!this.length) {
return this.push(null)
}
size = Math.min(size, this.length)
this.push(this.slice(0, size))
this.consume(size)
}
BufferListStream.prototype.end = function end (chunk) {
DuplexStream.prototype.end.call(this, chunk)
if (this._callback) {
this._callback(null, this.slice())
this._callback = null
}
}
BufferListStream.prototype._destroy = function _destroy (err, cb) {
this._bufs.length = 0
this.length = 0
cb(err)
}
BufferListStream.prototype._isBufferList = function _isBufferList (b) {
return b instanceof BufferListStream || b instanceof BufferList || BufferListStream.isBufferList(b)
}
BufferListStream.isBufferList = BufferList.isBufferList
module.exports = BufferListStream
module.exports.BufferListStream = BufferListStream
module.exports.BufferList = BufferList
/***/ }),
/***/ 5525:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
var concatMap = __nccwpck_require__(2517);
var balanced = __nccwpck_require__(2453);
module.exports = expandTop;
var escSlash = '\0SLASH'+Math.random()+'\0';
var escOpen = '\0OPEN'+Math.random()+'\0';
var escClose = '\0CLOSE'+Math.random()+'\0';
var escComma = '\0COMMA'+Math.random()+'\0';
var escPeriod = '\0PERIOD'+Math.random()+'\0';
function numeric(str) {
return parseInt(str, 10) == str
? parseInt(str, 10)
: str.charCodeAt(0);
}
function escapeBraces(str) {
return str.split('\\\\').join(escSlash)
.split('\\{').join(escOpen)
.split('\\}').join(escClose)
.split('\\,').join(escComma)
.split('\\.').join(escPeriod);
}
function unescapeBraces(str) {
return str.split(escSlash).join('\\')
.split(escOpen).join('{')
.split(escClose).join('}')
.split(escComma).join(',')
.split(escPeriod).join('.');
}
// Basically just str.split(","), but handling cases
// where we have nested braced sections, which should be
// treated as individual members, like {a,{b,c},d}
function parseCommaParts(str) {
if (!str)
return [''];
var parts = [];
var m = balanced('{', '}', str);
if (!m)
return str.split(',');
var pre = m.pre;
var body = m.body;
var post = m.post;
var p = pre.split(',');
p[p.length-1] += '{' + body + '}';
var postParts = parseCommaParts(post);
if (post.length) {
p[p.length-1] += postParts.shift();
p.push.apply(p, postParts);
}
parts.push.apply(parts, p);
return parts;
}
function expandTop(str) {
if (!str)
return [];
// I don't know why Bash 4.3 does this, but it does.
// Anything starting with {} will have the first two bytes preserved
// but *only* at the top level, so {},a}b will not expand to anything,
// but a{},b}c will be expanded to [a}c,abc].
// One could argue that this is a bug in Bash, but since the goal of
// this module is to match Bash's rules, we escape a leading {}
if (str.substr(0, 2) === '{}') {
str = '\\{\\}' + str.substr(2);
}
return expand(escapeBraces(str), true).map(unescapeBraces);
}
function identity(e) {
return e;
}
function embrace(str) {
return '{' + str + '}';
}
function isPadded(el) {
return /^-?0\d/.test(el);
}
function lte(i, y) {
return i <= y;
}
function gte(i, y) {
return i >= y;
}
function expand(str, isTop) {
var expansions = [];
var m = balanced('{', '}', str);
if (!m || /\$$/.test(m.pre)) return [str];
var isNumericSequence = /^-?\d+\.\.-?\d+(?:\.\.-?\d+)?$/.test(m.body);
var isAlphaSequence = /^[a-zA-Z]\.\.[a-zA-Z](?:\.\.-?\d+)?$/.test(m.body);
var isSequence = isNumericSequence || isAlphaSequence;
var isOptions = m.body.indexOf(',') >= 0;
if (!isSequence && !isOptions) {
// {a},b}
if (m.post.match(/,.*\}/)) {
str = m.pre + '{' + m.body + escClose + m.post;
return expand(str);
}
return [str];
}
var n;
if (isSequence) {
n = m.body.split(/\.\./);
} else {
n = parseCommaParts(m.body);
if (n.length === 1) {
// x{{a,b}}y ==> x{a}y x{b}y
n = expand(n[0], false).map(embrace);
if (n.length === 1) {
var post = m.post.length
? expand(m.post, false)
: [''];
return post.map(function(p) {
return m.pre + n[0] + p;
});
}
}
}
// at this point, n is the parts, and we know it's not a comma set
// with a single entry.
// no need to expand pre, since it is guaranteed to be free of brace-sets
var pre = m.pre;
var post = m.post.length
? expand(m.post, false)
: [''];
var N;
if (isSequence) {
var x = numeric(n[0]);
var y = numeric(n[1]);
var width = Math.max(n[0].length, n[1].length)
var incr = n.length == 3
? Math.abs(numeric(n[2]))
: 1;
var test = lte;
var reverse = y < x;
if (reverse) {
incr *= -1;
test = gte;
}
var pad = n.some(isPadded);
N = [];
for (var i = x; test(i, y); i += incr) {
var c;
if (isAlphaSequence) {
c = String.fromCharCode(i);
if (c === '\\')
c = '';
} else {
c = String(i);
if (pad) {
var need = width - c.length;
if (need > 0) {
var z = new Array(need + 1).join('0');
if (i < 0)
c = '-' + z + c.slice(1);
else
c = z + c;
}
}
}
N.push(c);
}
} else {
N = concatMap(n, function(el) { return expand(el, false) });
}
for (var j = 0; j < N.length; j++) {
for (var k = 0; k < post.length; k++) {
var expansion = pre + N[j] + post[k];
if (!isTop || isSequence || expansion)
expansions.push(expansion);
}
}
return expansions;
}
/***/ }),
/***/ 8159:
/***/ ((module) => {
(function () {
"use strict";
function btoa(str) {
var buffer;
if (str instanceof Buffer) {
buffer = str;
} else {
buffer = Buffer.from(str.toString(), 'binary');
}
return buffer.toString('base64');
}
module.exports = btoa;
}());
/***/ }),
/***/ 1262:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
var Buffer = __nccwpck_require__(4293).Buffer;
var CRC_TABLE = [
0x00000000, 0x77073096, 0xee0e612c, 0x990951ba, 0x076dc419,
0x706af48f, 0xe963a535, 0x9e6495a3, 0x0edb8832, 0x79dcb8a4,
0xe0d5e91e, 0x97d2d988, 0x09b64c2b, 0x7eb17cbd, 0xe7b82d07,
0x90bf1d91, 0x1db71064, 0x6ab020f2, 0xf3b97148, 0x84be41de,
0x1adad47d, 0x6ddde4eb, 0xf4d4b551, 0x83d385c7, 0x136c9856,
0x646ba8c0, 0xfd62f97a, 0x8a65c9ec, 0x14015c4f, 0x63066cd9,
0xfa0f3d63, 0x8d080df5, 0x3b6e20c8, 0x4c69105e, 0xd56041e4,
0xa2677172, 0x3c03e4d1, 0x4b04d447, 0xd20d85fd, 0xa50ab56b,
0x35b5a8fa, 0x42b2986c, 0xdbbbc9d6, 0xacbcf940, 0x32d86ce3,
0x45df5c75, 0xdcd60dcf, 0xabd13d59, 0x26d930ac, 0x51de003a,
0xc8d75180, 0xbfd06116, 0x21b4f4b5, 0x56b3c423, 0xcfba9599,
0xb8bda50f, 0x2802b89e, 0x5f058808, 0xc60cd9b2, 0xb10be924,
0x2f6f7c87, 0x58684c11, 0xc1611dab, 0xb6662d3d, 0x76dc4190,
0x01db7106, 0x98d220bc, 0xefd5102a, 0x71b18589, 0x06b6b51f,
0x9fbfe4a5, 0xe8b8d433, 0x7807c9a2, 0x0f00f934, 0x9609a88e,
0xe10e9818, 0x7f6a0dbb, 0x086d3d2d, 0x91646c97, 0xe6635c01,
0x6b6b51f4, 0x1c6c6162, 0x856530d8, 0xf262004e, 0x6c0695ed,
0x1b01a57b, 0x8208f4c1, 0xf50fc457, 0x65b0d9c6, 0x12b7e950,
0x8bbeb8ea, 0xfcb9887c, 0x62dd1ddf, 0x15da2d49, 0x8cd37cf3,
0xfbd44c65, 0x4db26158, 0x3ab551ce, 0xa3bc0074, 0xd4bb30e2,
0x4adfa541, 0x3dd895d7, 0xa4d1c46d, 0xd3d6f4fb, 0x4369e96a,
0x346ed9fc, 0xad678846, 0xda60b8d0, 0x44042d73, 0x33031de5,
0xaa0a4c5f, 0xdd0d7cc9, 0x5005713c, 0x270241aa, 0xbe0b1010,
0xc90c2086, 0x5768b525, 0x206f85b3, 0xb966d409, 0xce61e49f,
0x5edef90e, 0x29d9c998, 0xb0d09822, 0xc7d7a8b4, 0x59b33d17,
0x2eb40d81, 0xb7bd5c3b, 0xc0ba6cad, 0xedb88320, 0x9abfb3b6,
0x03b6e20c, 0x74b1d29a, 0xead54739, 0x9dd277af, 0x04db2615,
0x73dc1683, 0xe3630b12, 0x94643b84, 0x0d6d6a3e, 0x7a6a5aa8,
0xe40ecf0b, 0x9309ff9d, 0x0a00ae27, 0x7d079eb1, 0xf00f9344,
0x8708a3d2, 0x1e01f268, 0x6906c2fe, 0xf762575d, 0x806567cb,
0x196c3671, 0x6e6b06e7, 0xfed41b76, 0x89d32be0, 0x10da7a5a,
0x67dd4acc, 0xf9b9df6f, 0x8ebeeff9, 0x17b7be43, 0x60b08ed5,
0xd6d6a3e8, 0xa1d1937e, 0x38d8c2c4, 0x4fdff252, 0xd1bb67f1,
0xa6bc5767, 0x3fb506dd, 0x48b2364b, 0xd80d2bda, 0xaf0a1b4c,
0x36034af6, 0x41047a60, 0xdf60efc3, 0xa867df55, 0x316e8eef,
0x4669be79, 0xcb61b38c, 0xbc66831a, 0x256fd2a0, 0x5268e236,
0xcc0c7795, 0xbb0b4703, 0x220216b9, 0x5505262f, 0xc5ba3bbe,
0xb2bd0b28, 0x2bb45a92, 0x5cb36a04, 0xc2d7ffa7, 0xb5d0cf31,
0x2cd99e8b, 0x5bdeae1d, 0x9b64c2b0, 0xec63f226, 0x756aa39c,
0x026d930a, 0x9c0906a9, 0xeb0e363f, 0x72076785, 0x05005713,
0x95bf4a82, 0xe2b87a14, 0x7bb12bae, 0x0cb61b38, 0x92d28e9b,
0xe5d5be0d, 0x7cdcefb7, 0x0bdbdf21, 0x86d3d2d4, 0xf1d4e242,
0x68ddb3f8, 0x1fda836e, 0x81be16cd, 0xf6b9265b, 0x6fb077e1,
0x18b74777, 0x88085ae6, 0xff0f6a70, 0x66063bca, 0x11010b5c,
0x8f659eff, 0xf862ae69, 0x616bffd3, 0x166ccf45, 0xa00ae278,
0xd70dd2ee, 0x4e048354, 0x3903b3c2, 0xa7672661, 0xd06016f7,
0x4969474d, 0x3e6e77db, 0xaed16a4a, 0xd9d65adc, 0x40df0b66,
0x37d83bf0, 0xa9bcae53, 0xdebb9ec5, 0x47b2cf7f, 0x30b5ffe9,
0xbdbdf21c, 0xcabac28a, 0x53b39330, 0x24b4a3a6, 0xbad03605,
0xcdd70693, 0x54de5729, 0x23d967bf, 0xb3667a2e, 0xc4614ab8,
0x5d681b02, 0x2a6f2b94, 0xb40bbe37, 0xc30c8ea1, 0x5a05df1b,
0x2d02ef8d
];
if (typeof Int32Array !== 'undefined') {
CRC_TABLE = new Int32Array(CRC_TABLE);
}
function ensureBuffer(input) {
if (Buffer.isBuffer(input)) {
return input;
}
var hasNewBufferAPI =
typeof Buffer.alloc === "function" &&
typeof Buffer.from === "function";
if (typeof input === "number") {
return hasNewBufferAPI ? Buffer.alloc(input) : new Buffer(input);
}
else if (typeof input === "string") {
return hasNewBufferAPI ? Buffer.from(input) : new Buffer(input);
}
else {
throw new Error("input must be buffer, number, or string, received " +
typeof input);
}
}
function bufferizeInt(num) {
var tmp = ensureBuffer(4);
tmp.writeInt32BE(num, 0);
return tmp;
}
function _crc32(buf, previous) {
buf = ensureBuffer(buf);
if (Buffer.isBuffer(previous)) {
previous = previous.readUInt32BE(0);
}
var crc = ~~previous ^ -1;
for (var n = 0; n < buf.length; n++) {
crc = CRC_TABLE[(crc ^ buf[n]) & 0xff] ^ (crc >>> 8);
}
return (crc ^ -1);
}
function crc32() {
return bufferizeInt(_crc32.apply(null, arguments));
}
crc32.signed = function () {
return _crc32.apply(null, arguments);
};
crc32.unsigned = function () {
return _crc32.apply(null, arguments) >>> 0;
};
module.exports = crc32;
/***/ }),
/***/ 5223:
/***/ ((module) => {
/**
* node-compress-commons
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-compress-commons/blob/master/LICENSE-MIT
*/
var ArchiveEntry = module.exports = function() {};
ArchiveEntry.prototype.getName = function() {};
ArchiveEntry.prototype.getSize = function() {};
ArchiveEntry.prototype.getLastModifiedDate = function() {};
ArchiveEntry.prototype.isDirectory = function() {};
/***/ }),
/***/ 2843:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* node-compress-commons
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-compress-commons/blob/master/LICENSE-MIT
*/
var inherits = __nccwpck_require__(1669).inherits;
var Transform = __nccwpck_require__(7544).Transform;
var ArchiveEntry = __nccwpck_require__(5223);
var util = __nccwpck_require__(7163);
var ArchiveOutputStream = module.exports = function(options) {
if (!(this instanceof ArchiveOutputStream)) {
return new ArchiveOutputStream(options);
}
Transform.call(this, options);
this.offset = 0;
this._archive = {
finish: false,
finished: false,
processing: false
};
};
inherits(ArchiveOutputStream, Transform);
ArchiveOutputStream.prototype._appendBuffer = function(zae, source, callback) {
// scaffold only
};
ArchiveOutputStream.prototype._appendStream = function(zae, source, callback) {
// scaffold only
};
ArchiveOutputStream.prototype._emitErrorCallback = function(err) {
if (err) {
this.emit('error', err);
}
};
ArchiveOutputStream.prototype._finish = function(ae) {
// scaffold only
};
ArchiveOutputStream.prototype._normalizeEntry = function(ae) {
// scaffold only
};
ArchiveOutputStream.prototype._transform = function(chunk, encoding, callback) {
callback(null, chunk);
};
ArchiveOutputStream.prototype.entry = function(ae, source, callback) {
source = source || null;
if (typeof callback !== 'function') {
callback = this._emitErrorCallback.bind(this);
}
if (!(ae instanceof ArchiveEntry)) {
callback(new Error('not a valid instance of ArchiveEntry'));
return;
}
if (this._archive.finish || this._archive.finished) {
callback(new Error('unacceptable entry after finish'));
return;
}
if (this._archive.processing) {
callback(new Error('already processing an entry'));
return;
}
this._archive.processing = true;
this._normalizeEntry(ae);
this._entry = ae;
source = util.normalizeInputSource(source);
if (Buffer.isBuffer(source)) {
this._appendBuffer(ae, source, callback);
} else if (util.isStream(source)) {
this._appendStream(ae, source, callback);
} else {
this._archive.processing = false;
callback(new Error('input source must be valid Stream or Buffer instance'));
return;
}
return this;
};
ArchiveOutputStream.prototype.finish = function() {
if (this._archive.processing) {
this._archive.finish = true;
return;
}
this._finish();
};
ArchiveOutputStream.prototype.getBytesWritten = function() {
return this.offset;
};
ArchiveOutputStream.prototype.write = function(chunk, cb) {
if (chunk) {
this.offset += chunk.length;
}
return Transform.prototype.write.call(this, chunk, cb);
};
/***/ }),
/***/ 4117:
/***/ ((module) => {
/**
* node-compress-commons
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-compress-commons/blob/master/LICENSE-MIT
*/
module.exports = {
WORD: 4,
DWORD: 8,
EMPTY: Buffer.alloc(0),
SHORT: 2,
SHORT_MASK: 0xffff,
SHORT_SHIFT: 16,
SHORT_ZERO: Buffer.from(Array(2)),
LONG: 4,
LONG_ZERO: Buffer.from(Array(4)),
MIN_VERSION_INITIAL: 10,
MIN_VERSION_DATA_DESCRIPTOR: 20,
MIN_VERSION_ZIP64: 45,
VERSION_MADEBY: 45,
METHOD_STORED: 0,
METHOD_DEFLATED: 8,
PLATFORM_UNIX: 3,
PLATFORM_FAT: 0,
SIG_LFH: 0x04034b50,
SIG_DD: 0x08074b50,
SIG_CFH: 0x02014b50,
SIG_EOCD: 0x06054b50,
SIG_ZIP64_EOCD: 0x06064B50,
SIG_ZIP64_EOCD_LOC: 0x07064B50,
ZIP64_MAGIC_SHORT: 0xffff,
ZIP64_MAGIC: 0xffffffff,
ZIP64_EXTRA_ID: 0x0001,
ZLIB_NO_COMPRESSION: 0,
ZLIB_BEST_SPEED: 1,
ZLIB_BEST_COMPRESSION: 9,
ZLIB_DEFAULT_COMPRESSION: -1,
MODE_MASK: 0xFFF,
DEFAULT_FILE_MODE: 33188, // 010644 = -rw-r--r-- = S_IFREG | S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH
DEFAULT_DIR_MODE: 16877, // 040755 = drwxr-xr-x = S_IFDIR | S_IRWXU | S_IRGRP | S_IXGRP | S_IROTH | S_IXOTH
EXT_FILE_ATTR_DIR: 1106051088, // 010173200020 = drwxr-xr-x = (((S_IFDIR | 0755) << 16) | S_DOS_D)
EXT_FILE_ATTR_FILE: 2175008800, // 020151000040 = -rw-r--r-- = (((S_IFREG | 0644) << 16) | S_DOS_A) >>> 0
// Unix file types
S_IFMT: 61440, // 0170000 type of file mask
S_IFIFO: 4096, // 010000 named pipe (fifo)
S_IFCHR: 8192, // 020000 character special
S_IFDIR: 16384, // 040000 directory
S_IFBLK: 24576, // 060000 block special
S_IFREG: 32768, // 0100000 regular
S_IFLNK: 40960, // 0120000 symbolic link
S_IFSOCK: 49152, // 0140000 socket
// DOS file type flags
S_DOS_A: 32, // 040 Archive
S_DOS_D: 16, // 020 Directory
S_DOS_V: 8, // 010 Volume
S_DOS_S: 4, // 04 System
S_DOS_H: 2, // 02 Hidden
S_DOS_R: 1 // 01 Read Only
};
/***/ }),
/***/ 3049:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* node-compress-commons
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-compress-commons/blob/master/LICENSE-MIT
*/
var zipUtil = __nccwpck_require__(8926);
var DATA_DESCRIPTOR_FLAG = 1 << 3;
var ENCRYPTION_FLAG = 1 << 0;
var NUMBER_OF_SHANNON_FANO_TREES_FLAG = 1 << 2;
var SLIDING_DICTIONARY_SIZE_FLAG = 1 << 1;
var STRONG_ENCRYPTION_FLAG = 1 << 6;
var UFT8_NAMES_FLAG = 1 << 11;
var GeneralPurposeBit = module.exports = function() {
if (!(this instanceof GeneralPurposeBit)) {
return new GeneralPurposeBit();
}
this.descriptor = false;
this.encryption = false;
this.utf8 = false;
this.numberOfShannonFanoTrees = 0;
this.strongEncryption = false;
this.slidingDictionarySize = 0;
return this;
};
GeneralPurposeBit.prototype.encode = function() {
return zipUtil.getShortBytes(
(this.descriptor ? DATA_DESCRIPTOR_FLAG : 0) |
(this.utf8 ? UFT8_NAMES_FLAG : 0) |
(this.encryption ? ENCRYPTION_FLAG : 0) |
(this.strongEncryption ? STRONG_ENCRYPTION_FLAG : 0)
);
};
GeneralPurposeBit.prototype.parse = function(buf, offset) {
var flag = zipUtil.getShortBytesValue(buf, offset);
var gbp = new GeneralPurposeBit();
gbp.useDataDescriptor((flag & DATA_DESCRIPTOR_FLAG) !== 0);
gbp.useUTF8ForNames((flag & UFT8_NAMES_FLAG) !== 0);
gbp.useStrongEncryption((flag & STRONG_ENCRYPTION_FLAG) !== 0);
gbp.useEncryption((flag & ENCRYPTION_FLAG) !== 0);
gbp.setSlidingDictionarySize((flag & SLIDING_DICTIONARY_SIZE_FLAG) !== 0 ? 8192 : 4096);
gbp.setNumberOfShannonFanoTrees((flag & NUMBER_OF_SHANNON_FANO_TREES_FLAG) !== 0 ? 3 : 2);
return gbp;
};
GeneralPurposeBit.prototype.setNumberOfShannonFanoTrees = function(n) {
this.numberOfShannonFanoTrees = n;
};
GeneralPurposeBit.prototype.getNumberOfShannonFanoTrees = function() {
return this.numberOfShannonFanoTrees;
};
GeneralPurposeBit.prototype.setSlidingDictionarySize = function(n) {
this.slidingDictionarySize = n;
};
GeneralPurposeBit.prototype.getSlidingDictionarySize = function() {
return this.slidingDictionarySize;
};
GeneralPurposeBit.prototype.useDataDescriptor = function(b) {
this.descriptor = b;
};
GeneralPurposeBit.prototype.usesDataDescriptor = function() {
return this.descriptor;
};
GeneralPurposeBit.prototype.useEncryption = function(b) {
this.encryption = b;
};
GeneralPurposeBit.prototype.usesEncryption = function() {
return this.encryption;
};
GeneralPurposeBit.prototype.useStrongEncryption = function(b) {
this.strongEncryption = b;
};
GeneralPurposeBit.prototype.usesStrongEncryption = function() {
return this.strongEncryption;
};
GeneralPurposeBit.prototype.useUTF8ForNames = function(b) {
this.utf8 = b;
};
GeneralPurposeBit.prototype.usesUTF8ForNames = function() {
return this.utf8;
};
/***/ }),
/***/ 2789:
/***/ ((module) => {
/**
* node-compress-commons
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-compress-commons/blob/master/LICENSE-MIT
*/
module.exports = {
/**
* Bits used for permissions (and sticky bit)
*/
PERM_MASK: 4095, // 07777
/**
* Bits used to indicate the filesystem object type.
*/
FILE_TYPE_FLAG: 61440, // 0170000
/**
* Indicates symbolic links.
*/
LINK_FLAG: 40960, // 0120000
/**
* Indicates plain files.
*/
FILE_FLAG: 32768, // 0100000
/**
* Indicates directories.
*/
DIR_FLAG: 16384, // 040000
// ----------------------------------------------------------
// somewhat arbitrary choices that are quite common for shared
// installations
// -----------------------------------------------------------
/**
* Default permissions for symbolic links.
*/
DEFAULT_LINK_PERM: 511, // 0777
/**
* Default permissions for directories.
*/
DEFAULT_DIR_PERM: 493, // 0755
/**
* Default permissions for plain files.
*/
DEFAULT_FILE_PERM: 420 // 0644
};
/***/ }),
/***/ 8926:
/***/ ((module) => {
/**
* node-compress-commons
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-compress-commons/blob/master/LICENSE-MIT
*/
var util = module.exports = {};
util.dateToDos = function(d, forceLocalTime) {
forceLocalTime = forceLocalTime || false;
var year = forceLocalTime ? d.getFullYear() : d.getUTCFullYear();
if (year < 1980) {
return 2162688; // 1980-1-1 00:00:00
} else if (year >= 2044) {
return 2141175677; // 2043-12-31 23:59:58
}
var val = {
year: year,
month: forceLocalTime ? d.getMonth() : d.getUTCMonth(),
date: forceLocalTime ? d.getDate() : d.getUTCDate(),
hours: forceLocalTime ? d.getHours() : d.getUTCHours(),
minutes: forceLocalTime ? d.getMinutes() : d.getUTCMinutes(),
seconds: forceLocalTime ? d.getSeconds() : d.getUTCSeconds()
};
return ((val.year - 1980) << 25) | ((val.month + 1) << 21) | (val.date << 16) |
(val.hours << 11) | (val.minutes << 5) | (val.seconds / 2);
};
util.dosToDate = function(dos) {
return new Date(((dos >> 25) & 0x7f) + 1980, ((dos >> 21) & 0x0f) - 1, (dos >> 16) & 0x1f, (dos >> 11) & 0x1f, (dos >> 5) & 0x3f, (dos & 0x1f) << 1);
};
util.fromDosTime = function(buf) {
return util.dosToDate(buf.readUInt32LE(0));
};
util.getEightBytes = function(v) {
var buf = Buffer.alloc(8);
buf.writeUInt32LE(v % 0x0100000000, 0);
buf.writeUInt32LE((v / 0x0100000000) | 0, 4);
return buf;
};
util.getShortBytes = function(v) {
var buf = Buffer.alloc(2);
buf.writeUInt16LE((v & 0xFFFF) >>> 0, 0);
return buf;
};
util.getShortBytesValue = function(buf, offset) {
return buf.readUInt16LE(offset);
};
util.getLongBytes = function(v) {
var buf = Buffer.alloc(4);
buf.writeUInt32LE((v & 0xFFFFFFFF) >>> 0, 0);
return buf;
};
util.getLongBytesValue = function(buf, offset) {
return buf.readUInt32LE(offset);
};
util.toDosTime = function(d) {
return util.getLongBytes(util.dateToDos(d));
};
/***/ }),
/***/ 4857:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* node-compress-commons
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-compress-commons/blob/master/LICENSE-MIT
*/
var inherits = __nccwpck_require__(1669).inherits;
var normalizePath = __nccwpck_require__(8389);
var ArchiveEntry = __nccwpck_require__(5223);
var GeneralPurposeBit = __nccwpck_require__(3049);
var UnixStat = __nccwpck_require__(2789);
var constants = __nccwpck_require__(4117);
var zipUtil = __nccwpck_require__(8926);
var ZipArchiveEntry = module.exports = function(name) {
if (!(this instanceof ZipArchiveEntry)) {
return new ZipArchiveEntry(name);
}
ArchiveEntry.call(this);
this.platform = constants.PLATFORM_FAT;
this.method = -1;
this.name = null;
this.size = 0;
this.csize = 0;
this.gpb = new GeneralPurposeBit();
this.crc = 0;
this.time = -1;
this.minver = constants.MIN_VERSION_INITIAL;
this.mode = -1;
this.extra = null;
this.exattr = 0;
this.inattr = 0;
this.comment = null;
if (name) {
this.setName(name);
}
};
inherits(ZipArchiveEntry, ArchiveEntry);
/**
* Returns the extra fields related to the entry.
*
* @returns {Buffer}
*/
ZipArchiveEntry.prototype.getCentralDirectoryExtra = function() {
return this.getExtra();
};
/**
* Returns the comment set for the entry.
*
* @returns {string}
*/
ZipArchiveEntry.prototype.getComment = function() {
return this.comment !== null ? this.comment : '';
};
/**
* Returns the compressed size of the entry.
*
* @returns {number}
*/
ZipArchiveEntry.prototype.getCompressedSize = function() {
return this.csize;
};
/**
* Returns the CRC32 digest for the entry.
*
* @returns {number}
*/
ZipArchiveEntry.prototype.getCrc = function() {
return this.crc;
};
/**
* Returns the external file attributes for the entry.
*
* @returns {number}
*/
ZipArchiveEntry.prototype.getExternalAttributes = function() {
return this.exattr;
};
/**
* Returns the extra fields related to the entry.
*
* @returns {Buffer}
*/
ZipArchiveEntry.prototype.getExtra = function() {
return this.extra !== null ? this.extra : constants.EMPTY;
};
/**
* Returns the general purpose bits related to the entry.
*
* @returns {GeneralPurposeBit}
*/
ZipArchiveEntry.prototype.getGeneralPurposeBit = function() {
return this.gpb;
};
/**
* Returns the internal file attributes for the entry.
*
* @returns {number}
*/
ZipArchiveEntry.prototype.getInternalAttributes = function() {
return this.inattr;
};
/**
* Returns the last modified date of the entry.
*
* @returns {number}
*/
ZipArchiveEntry.prototype.getLastModifiedDate = function() {
return this.getTime();
};
/**
* Returns the extra fields related to the entry.
*
* @returns {Buffer}
*/
ZipArchiveEntry.prototype.getLocalFileDataExtra = function() {
return this.getExtra();
};
/**
* Returns the compression method used on the entry.
*
* @returns {number}
*/
ZipArchiveEntry.prototype.getMethod = function() {
return this.method;
};
/**
* Returns the filename of the entry.
*
* @returns {string}
*/
ZipArchiveEntry.prototype.getName = function() {
return this.name;
};
/**
* Returns the platform on which the entry was made.
*
* @returns {number}
*/
ZipArchiveEntry.prototype.getPlatform = function() {
return this.platform;
};
/**
* Returns the size of the entry.
*
* @returns {number}
*/
ZipArchiveEntry.prototype.getSize = function() {
return this.size;
};
/**
* Returns a date object representing the last modified date of the entry.
*
* @returns {number|Date}
*/
ZipArchiveEntry.prototype.getTime = function() {
return this.time !== -1 ? zipUtil.dosToDate(this.time) : -1;
};
/**
* Returns the DOS timestamp for the entry.
*
* @returns {number}
*/
ZipArchiveEntry.prototype.getTimeDos = function() {
return this.time !== -1 ? this.time : 0;
};
/**
* Returns the UNIX file permissions for the entry.
*
* @returns {number}
*/
ZipArchiveEntry.prototype.getUnixMode = function() {
return this.platform !== constants.PLATFORM_UNIX ? 0 : ((this.getExternalAttributes() >> constants.SHORT_SHIFT) & constants.SHORT_MASK);
};
/**
* Returns the version of ZIP needed to extract the entry.
*
* @returns {number}
*/
ZipArchiveEntry.prototype.getVersionNeededToExtract = function() {
return this.minver;
};
/**
* Sets the comment of the entry.
*
* @param comment
*/
ZipArchiveEntry.prototype.setComment = function(comment) {
if (Buffer.byteLength(comment) !== comment.length) {
this.getGeneralPurposeBit().useUTF8ForNames(true);
}
this.comment = comment;
};
/**
* Sets the compressed size of the entry.
*
* @param size
*/
ZipArchiveEntry.prototype.setCompressedSize = function(size) {
if (size < 0) {
throw new Error('invalid entry compressed size');
}
this.csize = size;
};
/**
* Sets the checksum of the entry.
*
* @param crc
*/
ZipArchiveEntry.prototype.setCrc = function(crc) {
if (crc < 0) {
throw new Error('invalid entry crc32');
}
this.crc = crc;
};
/**
* Sets the external file attributes of the entry.
*
* @param attr
*/
ZipArchiveEntry.prototype.setExternalAttributes = function(attr) {
this.exattr = attr >>> 0;
};
/**
* Sets the extra fields related to the entry.
*
* @param extra
*/
ZipArchiveEntry.prototype.setExtra = function(extra) {
this.extra = extra;
};
/**
* Sets the general purpose bits related to the entry.
*
* @param gpb
*/
ZipArchiveEntry.prototype.setGeneralPurposeBit = function(gpb) {
if (!(gpb instanceof GeneralPurposeBit)) {
throw new Error('invalid entry GeneralPurposeBit');
}
this.gpb = gpb;
};
/**
* Sets the internal file attributes of the entry.
*
* @param attr
*/
ZipArchiveEntry.prototype.setInternalAttributes = function(attr) {
this.inattr = attr;
};
/**
* Sets the compression method of the entry.
*
* @param method
*/
ZipArchiveEntry.prototype.setMethod = function(method) {
if (method < 0) {
throw new Error('invalid entry compression method');
}
this.method = method;
};
/**
* Sets the name of the entry.
*
* @param name
* @param prependSlash
*/
ZipArchiveEntry.prototype.setName = function(name, prependSlash = false) {
name = normalizePath(name, false)
.replace(/^\w+:/, '')
.replace(/^(\.\.\/|\/)+/, '');
if (prependSlash) {
name = `/${name}`;
}
if (Buffer.byteLength(name) !== name.length) {
this.getGeneralPurposeBit().useUTF8ForNames(true);
}
this.name = name;
};
/**
* Sets the platform on which the entry was made.
*
* @param platform
*/
ZipArchiveEntry.prototype.setPlatform = function(platform) {
this.platform = platform;
};
/**
* Sets the size of the entry.
*
* @param size
*/
ZipArchiveEntry.prototype.setSize = function(size) {
if (size < 0) {
throw new Error('invalid entry size');
}
this.size = size;
};
/**
* Sets the time of the entry.
*
* @param time
* @param forceLocalTime
*/
ZipArchiveEntry.prototype.setTime = function(time, forceLocalTime) {
if (!(time instanceof Date)) {
throw new Error('invalid entry time');
}
this.time = zipUtil.dateToDos(time, forceLocalTime);
};
/**
* Sets the UNIX file permissions for the entry.
*
* @param mode
*/
ZipArchiveEntry.prototype.setUnixMode = function(mode) {
mode |= this.isDirectory() ? constants.S_IFDIR : constants.S_IFREG;
var extattr = 0;
extattr |= (mode << constants.SHORT_SHIFT) | (this.isDirectory() ? constants.S_DOS_D : constants.S_DOS_A);
this.setExternalAttributes(extattr);
this.mode = mode & constants.MODE_MASK;
this.platform = constants.PLATFORM_UNIX;
};
/**
* Sets the version of ZIP needed to extract this entry.
*
* @param minver
*/
ZipArchiveEntry.prototype.setVersionNeededToExtract = function(minver) {
this.minver = minver;
};
/**
* Returns true if this entry represents a directory.
*
* @returns {boolean}
*/
ZipArchiveEntry.prototype.isDirectory = function() {
return this.getName().slice(-1) === '/';
};
/**
* Returns true if this entry represents a unix symlink,
* in which case the entry's content contains the target path
* for the symlink.
*
* @returns {boolean}
*/
ZipArchiveEntry.prototype.isUnixSymlink = function() {
return (this.getUnixMode() & UnixStat.FILE_TYPE_FLAG) === UnixStat.LINK_FLAG;
};
/**
* Returns true if this entry is using the ZIP64 extension of ZIP.
*
* @returns {boolean}
*/
ZipArchiveEntry.prototype.isZip64 = function() {
return this.csize > constants.ZIP64_MAGIC || this.size > constants.ZIP64_MAGIC;
};
/***/ }),
/***/ 6884:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* node-compress-commons
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-compress-commons/blob/master/LICENSE-MIT
*/
var inherits = __nccwpck_require__(1669).inherits;
var crc32 = __nccwpck_require__(1262);
var {CRC32Stream} = __nccwpck_require__(830);
var {DeflateCRC32Stream} = __nccwpck_require__(830);
var ArchiveOutputStream = __nccwpck_require__(2843);
var ZipArchiveEntry = __nccwpck_require__(4857);
var GeneralPurposeBit = __nccwpck_require__(3049);
var constants = __nccwpck_require__(4117);
var util = __nccwpck_require__(7163);
var zipUtil = __nccwpck_require__(8926);
var ZipArchiveOutputStream = module.exports = function(options) {
if (!(this instanceof ZipArchiveOutputStream)) {
return new ZipArchiveOutputStream(options);
}
options = this.options = this._defaults(options);
ArchiveOutputStream.call(this, options);
this._entry = null;
this._entries = [];
this._archive = {
centralLength: 0,
centralOffset: 0,
comment: '',
finish: false,
finished: false,
processing: false,
forceZip64: options.forceZip64,
forceLocalTime: options.forceLocalTime
};
};
inherits(ZipArchiveOutputStream, ArchiveOutputStream);
ZipArchiveOutputStream.prototype._afterAppend = function(ae) {
this._entries.push(ae);
if (ae.getGeneralPurposeBit().usesDataDescriptor()) {
this._writeDataDescriptor(ae);
}
this._archive.processing = false;
this._entry = null;
if (this._archive.finish && !this._archive.finished) {
this._finish();
}
};
ZipArchiveOutputStream.prototype._appendBuffer = function(ae, source, callback) {
if (source.length === 0) {
ae.setMethod(constants.METHOD_STORED);
}
var method = ae.getMethod();
if (method === constants.METHOD_STORED) {
ae.setSize(source.length);
ae.setCompressedSize(source.length);
ae.setCrc(crc32.unsigned(source));
}
this._writeLocalFileHeader(ae);
if (method === constants.METHOD_STORED) {
this.write(source);
this._afterAppend(ae);
callback(null, ae);
return;
} else if (method === constants.METHOD_DEFLATED) {
this._smartStream(ae, callback).end(source);
return;
} else {
callback(new Error('compression method ' + method + ' not implemented'));
return;
}
};
ZipArchiveOutputStream.prototype._appendStream = function(ae, source, callback) {
ae.getGeneralPurposeBit().useDataDescriptor(true);
ae.setVersionNeededToExtract(constants.MIN_VERSION_DATA_DESCRIPTOR);
this._writeLocalFileHeader(ae);
var smart = this._smartStream(ae, callback);
source.once('error', function(err) {
smart.emit('error', err);
smart.end();
})
source.pipe(smart);
};
ZipArchiveOutputStream.prototype._defaults = function(o) {
if (typeof o !== 'object') {
o = {};
}
if (typeof o.zlib !== 'object') {
o.zlib = {};
}
if (typeof o.zlib.level !== 'number') {
o.zlib.level = constants.ZLIB_BEST_SPEED;
}
o.forceZip64 = !!o.forceZip64;
o.forceLocalTime = !!o.forceLocalTime;
return o;
};
ZipArchiveOutputStream.prototype._finish = function() {
this._archive.centralOffset = this.offset;
this._entries.forEach(function(ae) {
this._writeCentralFileHeader(ae);
}.bind(this));
this._archive.centralLength = this.offset - this._archive.centralOffset;
if (this.isZip64()) {
this._writeCentralDirectoryZip64();
}
this._writeCentralDirectoryEnd();
this._archive.processing = false;
this._archive.finish = true;
this._archive.finished = true;
this.end();
};
ZipArchiveOutputStream.prototype._normalizeEntry = function(ae) {
if (ae.getMethod() === -1) {
ae.setMethod(constants.METHOD_DEFLATED);
}
if (ae.getMethod() === constants.METHOD_DEFLATED) {
ae.getGeneralPurposeBit().useDataDescriptor(true);
ae.setVersionNeededToExtract(constants.MIN_VERSION_DATA_DESCRIPTOR);
}
if (ae.getTime() === -1) {
ae.setTime(new Date(), this._archive.forceLocalTime);
}
ae._offsets = {
file: 0,
data: 0,
contents: 0,
};
};
ZipArchiveOutputStream.prototype._smartStream = function(ae, callback) {
var deflate = ae.getMethod() === constants.METHOD_DEFLATED;
var process = deflate ? new DeflateCRC32Stream(this.options.zlib) : new CRC32Stream();
var error = null;
function handleStuff() {
var digest = process.digest().readUInt32BE(0);
ae.setCrc(digest);
ae.setSize(process.size());
ae.setCompressedSize(process.size(true));
this._afterAppend(ae);
callback(error, ae);
}
process.once('end', handleStuff.bind(this));
process.once('error', function(err) {
error = err;
});
process.pipe(this, { end: false });
return process;
};
ZipArchiveOutputStream.prototype._writeCentralDirectoryEnd = function() {
var records = this._entries.length;
var size = this._archive.centralLength;
var offset = this._archive.centralOffset;
if (this.isZip64()) {
records = constants.ZIP64_MAGIC_SHORT;
size = constants.ZIP64_MAGIC;
offset = constants.ZIP64_MAGIC;
}
// signature
this.write(zipUtil.getLongBytes(constants.SIG_EOCD));
// disk numbers
this.write(constants.SHORT_ZERO);
this.write(constants.SHORT_ZERO);
// number of entries
this.write(zipUtil.getShortBytes(records));
this.write(zipUtil.getShortBytes(records));
// length and location of CD
this.write(zipUtil.getLongBytes(size));
this.write(zipUtil.getLongBytes(offset));
// archive comment
var comment = this.getComment();
var commentLength = Buffer.byteLength(comment);
this.write(zipUtil.getShortBytes(commentLength));
this.write(comment);
};
ZipArchiveOutputStream.prototype._writeCentralDirectoryZip64 = function() {
// signature
this.write(zipUtil.getLongBytes(constants.SIG_ZIP64_EOCD));
// size of the ZIP64 EOCD record
this.write(zipUtil.getEightBytes(44));
// version made by
this.write(zipUtil.getShortBytes(constants.MIN_VERSION_ZIP64));
// version to extract
this.write(zipUtil.getShortBytes(constants.MIN_VERSION_ZIP64));
// disk numbers
this.write(constants.LONG_ZERO);
this.write(constants.LONG_ZERO);
// number of entries
this.write(zipUtil.getEightBytes(this._entries.length));
this.write(zipUtil.getEightBytes(this._entries.length));
// length and location of CD
this.write(zipUtil.getEightBytes(this._archive.centralLength));
this.write(zipUtil.getEightBytes(this._archive.centralOffset));
// extensible data sector
// not implemented at this time
// end of central directory locator
this.write(zipUtil.getLongBytes(constants.SIG_ZIP64_EOCD_LOC));
// disk number holding the ZIP64 EOCD record
this.write(constants.LONG_ZERO);
// relative offset of the ZIP64 EOCD record
this.write(zipUtil.getEightBytes(this._archive.centralOffset + this._archive.centralLength));
// total number of disks
this.write(zipUtil.getLongBytes(1));
};
ZipArchiveOutputStream.prototype._writeCentralFileHeader = function(ae) {
var gpb = ae.getGeneralPurposeBit();
var method = ae.getMethod();
var offsets = ae._offsets;
var size = ae.getSize();
var compressedSize = ae.getCompressedSize();
if (ae.isZip64() || offsets.file > constants.ZIP64_MAGIC) {
size = constants.ZIP64_MAGIC;
compressedSize = constants.ZIP64_MAGIC;
ae.setVersionNeededToExtract(constants.MIN_VERSION_ZIP64);
var extraBuf = Buffer.concat([
zipUtil.getShortBytes(constants.ZIP64_EXTRA_ID),
zipUtil.getShortBytes(24),
zipUtil.getEightBytes(ae.getSize()),
zipUtil.getEightBytes(ae.getCompressedSize()),
zipUtil.getEightBytes(offsets.file)
], 28);
ae.setExtra(extraBuf);
}
// signature
this.write(zipUtil.getLongBytes(constants.SIG_CFH));
// version made by
this.write(zipUtil.getShortBytes((ae.getPlatform() << 8) | constants.VERSION_MADEBY));
// version to extract and general bit flag
this.write(zipUtil.getShortBytes(ae.getVersionNeededToExtract()));
this.write(gpb.encode());
// compression method
this.write(zipUtil.getShortBytes(method));
// datetime
this.write(zipUtil.getLongBytes(ae.getTimeDos()));
// crc32 checksum
this.write(zipUtil.getLongBytes(ae.getCrc()));
// sizes
this.write(zipUtil.getLongBytes(compressedSize));
this.write(zipUtil.getLongBytes(size));
var name = ae.getName();
var comment = ae.getComment();
var extra = ae.getCentralDirectoryExtra();
if (gpb.usesUTF8ForNames()) {
name = Buffer.from(name);
comment = Buffer.from(comment);
}
// name length
this.write(zipUtil.getShortBytes(name.length));
// extra length
this.write(zipUtil.getShortBytes(extra.length));
// comments length
this.write(zipUtil.getShortBytes(comment.length));
// disk number start
this.write(constants.SHORT_ZERO);
// internal attributes
this.write(zipUtil.getShortBytes(ae.getInternalAttributes()));
// external attributes
this.write(zipUtil.getLongBytes(ae.getExternalAttributes()));
// relative offset of LFH
if (offsets.file > constants.ZIP64_MAGIC) {
this.write(zipUtil.getLongBytes(constants.ZIP64_MAGIC));
} else {
this.write(zipUtil.getLongBytes(offsets.file));
}
// name
this.write(name);
// extra
this.write(extra);
// comment
this.write(comment);
};
ZipArchiveOutputStream.prototype._writeDataDescriptor = function(ae) {
// signature
this.write(zipUtil.getLongBytes(constants.SIG_DD));
// crc32 checksum
this.write(zipUtil.getLongBytes(ae.getCrc()));
// sizes
if (ae.isZip64()) {
this.write(zipUtil.getEightBytes(ae.getCompressedSize()));
this.write(zipUtil.getEightBytes(ae.getSize()));
} else {
this.write(zipUtil.getLongBytes(ae.getCompressedSize()));
this.write(zipUtil.getLongBytes(ae.getSize()));
}
};
ZipArchiveOutputStream.prototype._writeLocalFileHeader = function(ae) {
var gpb = ae.getGeneralPurposeBit();
var method = ae.getMethod();
var name = ae.getName();
var extra = ae.getLocalFileDataExtra();
if (ae.isZip64()) {
gpb.useDataDescriptor(true);
ae.setVersionNeededToExtract(constants.MIN_VERSION_ZIP64);
}
if (gpb.usesUTF8ForNames()) {
name = Buffer.from(name);
}
ae._offsets.file = this.offset;
// signature
this.write(zipUtil.getLongBytes(constants.SIG_LFH));
// version to extract and general bit flag
this.write(zipUtil.getShortBytes(ae.getVersionNeededToExtract()));
this.write(gpb.encode());
// compression method
this.write(zipUtil.getShortBytes(method));
// datetime
this.write(zipUtil.getLongBytes(ae.getTimeDos()));
ae._offsets.data = this.offset;
// crc32 checksum and sizes
if (gpb.usesDataDescriptor()) {
this.write(constants.LONG_ZERO);
this.write(constants.LONG_ZERO);
this.write(constants.LONG_ZERO);
} else {
this.write(zipUtil.getLongBytes(ae.getCrc()));
this.write(zipUtil.getLongBytes(ae.getCompressedSize()));
this.write(zipUtil.getLongBytes(ae.getSize()));
}
// name length
this.write(zipUtil.getShortBytes(name.length));
// extra length
this.write(zipUtil.getShortBytes(extra.length));
// name
this.write(name);
// extra
this.write(extra);
ae._offsets.contents = this.offset;
};
ZipArchiveOutputStream.prototype.getComment = function(comment) {
return this._archive.comment !== null ? this._archive.comment : '';
};
ZipArchiveOutputStream.prototype.isZip64 = function() {
return this._archive.forceZip64 || this._entries.length > constants.ZIP64_MAGIC_SHORT || this._archive.centralLength > constants.ZIP64_MAGIC || this._archive.centralOffset > constants.ZIP64_MAGIC;
};
ZipArchiveOutputStream.prototype.setComment = function(comment) {
this._archive.comment = comment;
};
/***/ }),
/***/ 1462:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* node-compress-commons
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-compress-commons/blob/master/LICENSE-MIT
*/
module.exports = {
ArchiveEntry: __nccwpck_require__(5223),
ZipArchiveEntry: __nccwpck_require__(4857),
ArchiveOutputStream: __nccwpck_require__(2843),
ZipArchiveOutputStream: __nccwpck_require__(6884)
};
/***/ }),
/***/ 7163:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* node-compress-commons
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-compress-commons/blob/master/LICENSE-MIT
*/
var Stream = __nccwpck_require__(2413).Stream;
var PassThrough = __nccwpck_require__(7544).PassThrough;
var util = module.exports = {};
util.isStream = function(source) {
return source instanceof Stream;
};
util.normalizeInputSource = function(source) {
if (source === null) {
return Buffer.alloc(0);
} else if (typeof source === 'string') {
return Buffer.from(source);
} else if (util.isStream(source) && !source._readableState) {
var normalized = new PassThrough();
source.pipe(normalized);
return normalized;
}
return source;
};
/***/ }),
/***/ 2517:
/***/ ((module) => {
module.exports = function (xs, fn) {
var res = [];
for (var i = 0; i < xs.length; i++) {
var x = fn(xs[i], i);
if (isArray(x)) res.push.apply(res, x);
else res.push(x);
}
return res;
};
var isArray = Array.isArray || function (xs) {
return Object.prototype.toString.call(xs) === '[object Array]';
};
/***/ }),
/***/ 1960:
/***/ ((__unused_webpack_module, exports) => {
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// NOTE: These type checking functions intentionally don't use `instanceof`
// because it is fragile and can be easily faked with `Object.create()`.
function isArray(arg) {
if (Array.isArray) {
return Array.isArray(arg);
}
return objectToString(arg) === '[object Array]';
}
exports.isArray = isArray;
function isBoolean(arg) {
return typeof arg === 'boolean';
}
exports.isBoolean = isBoolean;
function isNull(arg) {
return arg === null;
}
exports.isNull = isNull;
function isNullOrUndefined(arg) {
return arg == null;
}
exports.isNullOrUndefined = isNullOrUndefined;
function isNumber(arg) {
return typeof arg === 'number';
}
exports.isNumber = isNumber;
function isString(arg) {
return typeof arg === 'string';
}
exports.isString = isString;
function isSymbol(arg) {
return typeof arg === 'symbol';
}
exports.isSymbol = isSymbol;
function isUndefined(arg) {
return arg === void 0;
}
exports.isUndefined = isUndefined;
function isRegExp(re) {
return objectToString(re) === '[object RegExp]';
}
exports.isRegExp = isRegExp;
function isObject(arg) {
return typeof arg === 'object' && arg !== null;
}
exports.isObject = isObject;
function isDate(d) {
return objectToString(d) === '[object Date]';
}
exports.isDate = isDate;
function isError(e) {
return (objectToString(e) === '[object Error]' || e instanceof Error);
}
exports.isError = isError;
function isFunction(arg) {
return typeof arg === 'function';
}
exports.isFunction = isFunction;
function isPrimitive(arg) {
return arg === null ||
typeof arg === 'boolean' ||
typeof arg === 'number' ||
typeof arg === 'string' ||
typeof arg === 'symbol' || // ES6 symbol
typeof arg === 'undefined';
}
exports.isPrimitive = isPrimitive;
exports.isBuffer = Buffer.isBuffer;
function objectToString(o) {
return Object.prototype.toString.call(o);
}
/***/ }),
/***/ 5892:
/***/ ((__unused_webpack_module, exports) => {
/* crc32.js (C) 2014-present SheetJS -- http://sheetjs.com */
/* vim: set ts=2: */
/*exported CRC32 */
var CRC32;
(function (factory) {
/*jshint ignore:start */
/*eslint-disable */
if(typeof DO_NOT_EXPORT_CRC === 'undefined') {
if(true) {
factory(exports);
} else {}
} else {
factory(CRC32 = {});
}
/*eslint-enable */
/*jshint ignore:end */
}(function(CRC32) {
CRC32.version = '1.2.0';
/* see perf/crc32table.js */
/*global Int32Array */
function signed_crc_table() {
var c = 0, table = new Array(256);
for(var n =0; n != 256; ++n){
c = n;
c = ((c&1) ? (-306674912 ^ (c >>> 1)) : (c >>> 1));
c = ((c&1) ? (-306674912 ^ (c >>> 1)) : (c >>> 1));
c = ((c&1) ? (-306674912 ^ (c >>> 1)) : (c >>> 1));
c = ((c&1) ? (-306674912 ^ (c >>> 1)) : (c >>> 1));
c = ((c&1) ? (-306674912 ^ (c >>> 1)) : (c >>> 1));
c = ((c&1) ? (-306674912 ^ (c >>> 1)) : (c >>> 1));
c = ((c&1) ? (-306674912 ^ (c >>> 1)) : (c >>> 1));
c = ((c&1) ? (-306674912 ^ (c >>> 1)) : (c >>> 1));
table[n] = c;
}
return typeof Int32Array !== 'undefined' ? new Int32Array(table) : table;
}
var T = signed_crc_table();
function crc32_bstr(bstr, seed) {
var C = seed ^ -1, L = bstr.length - 1;
for(var i = 0; i < L;) {
C = (C>>>8) ^ T[(C^bstr.charCodeAt(i++))&0xFF];
C = (C>>>8) ^ T[(C^bstr.charCodeAt(i++))&0xFF];
}
if(i === L) C = (C>>>8) ^ T[(C ^ bstr.charCodeAt(i))&0xFF];
return C ^ -1;
}
function crc32_buf(buf, seed) {
if(buf.length > 10000) return crc32_buf_8(buf, seed);
var C = seed ^ -1, L = buf.length - 3;
for(var i = 0; i < L;) {
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
}
while(i < L+3) C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
return C ^ -1;
}
function crc32_buf_8(buf, seed) {
var C = seed ^ -1, L = buf.length - 7;
for(var i = 0; i < L;) {
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
}
while(i < L+7) C = (C>>>8) ^ T[(C^buf[i++])&0xFF];
return C ^ -1;
}
function crc32_str(str, seed) {
var C = seed ^ -1;
for(var i = 0, L=str.length, c, d; i < L;) {
c = str.charCodeAt(i++);
if(c < 0x80) {
C = (C>>>8) ^ T[(C ^ c)&0xFF];
} else if(c < 0x800) {
C = (C>>>8) ^ T[(C ^ (192|((c>>6)&31)))&0xFF];
C = (C>>>8) ^ T[(C ^ (128|(c&63)))&0xFF];
} else if(c >= 0xD800 && c < 0xE000) {
c = (c&1023)+64; d = str.charCodeAt(i++)&1023;
C = (C>>>8) ^ T[(C ^ (240|((c>>8)&7)))&0xFF];
C = (C>>>8) ^ T[(C ^ (128|((c>>2)&63)))&0xFF];
C = (C>>>8) ^ T[(C ^ (128|((d>>6)&15)|((c&3)<<4)))&0xFF];
C = (C>>>8) ^ T[(C ^ (128|(d&63)))&0xFF];
} else {
C = (C>>>8) ^ T[(C ^ (224|((c>>12)&15)))&0xFF];
C = (C>>>8) ^ T[(C ^ (128|((c>>6)&63)))&0xFF];
C = (C>>>8) ^ T[(C ^ (128|(c&63)))&0xFF];
}
}
return C ^ -1;
}
CRC32.table = T;
// $FlowIgnore
CRC32.bstr = crc32_bstr;
// $FlowIgnore
CRC32.buf = crc32_buf;
// $FlowIgnore
CRC32.str = crc32_str;
}));
/***/ }),
/***/ 4056:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
/**
* node-crc32-stream
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-crc32-stream/blob/master/LICENSE-MIT
*/
const {Transform} = __nccwpck_require__(7544);
const crc32 = __nccwpck_require__(5892);
class CRC32Stream extends Transform {
constructor(options) {
super(options);
this.checksum = Buffer.allocUnsafe(4);
this.checksum.writeInt32BE(0, 0);
this.rawSize = 0;
}
_transform(chunk, encoding, callback) {
if (chunk) {
this.checksum = crc32.buf(chunk, this.checksum) >>> 0;
this.rawSize += chunk.length;
}
callback(null, chunk);
}
digest(encoding) {
const checksum = Buffer.allocUnsafe(4);
checksum.writeUInt32BE(this.checksum >>> 0, 0);
return encoding ? checksum.toString(encoding) : checksum;
}
hex() {
return this.digest('hex').toUpperCase();
}
size() {
return this.rawSize;
}
}
module.exports = CRC32Stream;
/***/ }),
/***/ 2777:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
/**
* node-crc32-stream
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-crc32-stream/blob/master/LICENSE-MIT
*/
const {DeflateRaw} = __nccwpck_require__(8761);
const crc32 = __nccwpck_require__(5892);
class DeflateCRC32Stream extends DeflateRaw {
constructor(options) {
super(options);
this.checksum = Buffer.allocUnsafe(4);
this.checksum.writeInt32BE(0, 0);
this.rawSize = 0;
this.compressedSize = 0;
}
push(chunk, encoding) {
if (chunk) {
this.compressedSize += chunk.length;
}
return super.push(chunk, encoding);
}
_transform(chunk, encoding, callback) {
if (chunk) {
this.checksum = crc32.buf(chunk, this.checksum) >>> 0;
this.rawSize += chunk.length;
}
super._transform(chunk, encoding, callback)
}
digest(encoding) {
const checksum = Buffer.allocUnsafe(4);
checksum.writeUInt32BE(this.checksum >>> 0, 0);
return encoding ? checksum.toString(encoding) : checksum;
}
hex() {
return this.digest('hex').toUpperCase();
}
size(compressed = false) {
if (compressed) {
return this.compressedSize;
} else {
return this.rawSize;
}
}
}
module.exports = DeflateCRC32Stream;
/***/ }),
/***/ 830:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
/**
* node-crc32-stream
*
* Copyright (c) 2014 Chris Talkington, contributors.
* Licensed under the MIT license.
* https://github.com/archiverjs/node-crc32-stream/blob/master/LICENSE-MIT
*/
module.exports = {
CRC32Stream: __nccwpck_require__(4056),
DeflateCRC32Stream: __nccwpck_require__(2777)
}
/***/ }),
/***/ 4965:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
var once = __nccwpck_require__(4742);
var noop = function() {};
var isRequest = function(stream) {
return stream.setHeader && typeof stream.abort === 'function';
};
var isChildProcess = function(stream) {
return stream.stdio && Array.isArray(stream.stdio) && stream.stdio.length === 3
};
var eos = function(stream, opts, callback) {
if (typeof opts === 'function') return eos(stream, null, opts);
if (!opts) opts = {};
callback = once(callback || noop);
var ws = stream._writableState;
var rs = stream._readableState;
var readable = opts.readable || (opts.readable !== false && stream.readable);
var writable = opts.writable || (opts.writable !== false && stream.writable);
var cancelled = false;
var onlegacyfinish = function() {
if (!stream.writable) onfinish();
};
var onfinish = function() {
writable = false;
if (!readable) callback.call(stream);
};
var onend = function() {
readable = false;
if (!writable) callback.call(stream);
};
var onexit = function(exitCode) {
callback.call(stream, exitCode ? new Error('exited with error code: ' + exitCode) : null);
};
var onerror = function(err) {
callback.call(stream, err);
};
var onclose = function() {
process.nextTick(onclosenexttick);
};
var onclosenexttick = function() {
if (cancelled) return;
if (readable && !(rs && (rs.ended && !rs.destroyed))) return callback.call(stream, new Error('premature close'));
if (writable && !(ws && (ws.ended && !ws.destroyed))) return callback.call(stream, new Error('premature close'));
};
var onrequest = function() {
stream.req.on('finish', onfinish);
};
if (isRequest(stream)) {
stream.on('complete', onfinish);
stream.on('abort', onclose);
if (stream.req) onrequest();
else stream.on('request', onrequest);
} else if (writable && !ws) { // legacy streams
stream.on('end', onlegacyfinish);
stream.on('close', onlegacyfinish);
}
if (isChildProcess(stream)) stream.on('exit', onexit);
stream.on('end', onend);
stream.on('finish', onfinish);
if (opts.error !== false) stream.on('error', onerror);
stream.on('close', onclose);
return function() {
cancelled = true;
stream.removeListener('complete', onfinish);
stream.removeListener('abort', onclose);
stream.removeListener('request', onrequest);
if (stream.req) stream.req.removeListener('finish', onfinish);
stream.removeListener('end', onlegacyfinish);
stream.removeListener('close', onlegacyfinish);
stream.removeListener('finish', onfinish);
stream.removeListener('exit', onexit);
stream.removeListener('end', onend);
stream.removeListener('error', onerror);
stream.removeListener('close', onclose);
};
};
module.exports = eos;
/***/ }),
/***/ 3268:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
module.exports = __nccwpck_require__(5747).constants || __nccwpck_require__(7619)
/***/ }),
/***/ 2097:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
module.exports = realpath
realpath.realpath = realpath
realpath.sync = realpathSync
realpath.realpathSync = realpathSync
realpath.monkeypatch = monkeypatch
realpath.unmonkeypatch = unmonkeypatch
var fs = __nccwpck_require__(5747)
var origRealpath = fs.realpath
var origRealpathSync = fs.realpathSync
var version = process.version
var ok = /^v[0-5]\./.test(version)
var old = __nccwpck_require__(1400)
function newError (er) {
return er && er.syscall === 'realpath' && (
er.code === 'ELOOP' ||
er.code === 'ENOMEM' ||
er.code === 'ENAMETOOLONG'
)
}
function realpath (p, cache, cb) {
if (ok) {
return origRealpath(p, cache, cb)
}
if (typeof cache === 'function') {
cb = cache
cache = null
}
origRealpath(p, cache, function (er, result) {
if (newError(er)) {
old.realpath(p, cache, cb)
} else {
cb(er, result)
}
})
}
function realpathSync (p, cache) {
if (ok) {
return origRealpathSync(p, cache)
}
try {
return origRealpathSync(p, cache)
} catch (er) {
if (newError(er)) {
return old.realpathSync(p, cache)
} else {
throw er
}
}
}
function monkeypatch () {
fs.realpath = realpath
fs.realpathSync = realpathSync
}
function unmonkeypatch () {
fs.realpath = origRealpath
fs.realpathSync = origRealpathSync
}
/***/ }),
/***/ 1400:
/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => {
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
var pathModule = __nccwpck_require__(5622);
var isWindows = process.platform === 'win32';
var fs = __nccwpck_require__(5747);
// JavaScript implementation of realpath, ported from node pre-v6
var DEBUG = process.env.NODE_DEBUG && /fs/.test(process.env.NODE_DEBUG);
function rethrow() {
// Only enable in debug mode. A backtrace uses ~1000 bytes of heap space and
// is fairly slow to generate.
var callback;
if (DEBUG) {
var backtrace = new Error;
callback = debugCallback;
} else
callback = missingCallback;
return callback;
function debugCallback(err) {
if (err) {
backtrace.message = err.message;
err = backtrace;
missingCallback(err);
}
}
function missingCallback(err) {
if (err) {
if (process.throwDeprecation)
throw err; // Forgot a callback but don't know where? Use NODE_DEBUG=fs
else if (!process.noDeprecation) {
var msg = 'fs: missing callback ' + (err.stack || err.message);
if (process.traceDeprecation)
console.trace(msg);
else
console.error(msg);
}
}
}
}
function maybeCallback(cb) {
return typeof cb === 'function' ? cb : rethrow();
}
var normalize = pathModule.normalize;
// Regexp that finds the next partion of a (partial) path
// result is [base_with_slash, base], e.g. ['somedir/', 'somedir']
if (isWindows) {
var nextPartRe = /(.*?)(?:[\/\\]+|$)/g;
} else {
var nextPartRe = /(.*?)(?:[\/]+|$)/g;
}
// Regex to find the device root, including trailing slash. E.g. 'c:\\'.
if (isWindows) {
var splitRootRe = /^(?:[a-zA-Z]:|[\\\/]{2}[^\\\/]+[\\\/][^\\\/]+)?[\\\/]*/;
} else {
var splitRootRe = /^[\/]*/;
}
exports.realpathSync = function realpathSync(p, cache) {
// make p is absolute
p = pathModule.resolve(p);
if (cache && Object.prototype.hasOwnProperty.call(cache, p)) {
return cache[p];
}
var original = p,
seenLinks = {},
knownHard = {};
// current character position in p
var pos;
// the partial path so far, including a trailing slash if any
var current;
// the partial path without a trailing slash (except when pointing at a root)
var base;
// the partial path scanned in the previous round, with slash
var previous;
start();
function start() {
// Skip over roots
var m = splitRootRe.exec(p);
pos = m[0].length;
current = m[0];
base = m[0];
previous = '';
// On windows, check that the root exists. On unix there is no need.
if (isWindows && !knownHard[base]) {
fs.lstatSync(base);
knownHard[base] = true;
}
}
// walk down the path, swapping out linked pathparts for their real
// values
// NB: p.length changes.
while (pos < p.length) {
// find the next part
nextPartRe.lastIndex = pos;
var result = nextPartRe.exec(p);
previous = current;
current += result[0];
base = previous + result[1];
pos = nextPartRe.lastIndex;
// continue if not a symlink
if (knownHard[base] || (cache && cache[base] === base)) {
continue;
}
var resolvedLink;
if (cache && Object.prototype.hasOwnProperty.call(cache, base)) {
// some known symbolic link. no need to stat again.
resolvedLink = cache[base];
} else {
var stat = fs.lstatSync(base);
if (!stat.isSymbolicLink()) {
knownHard[base] = true;
if (cache) cache[base] = base;
continue;
}
// read the link if it wasn't read before
// dev/ino always return 0 on windows, so skip the check.
var linkTarget = null;
if (!isWindows) {
var id = stat.dev.toString(32) + ':' + stat.ino.toString(32);
if (seenLinks.hasOwnProperty(id)) {
linkTarget = seenLinks[id];
}
}
if (linkTarget === null) {
fs.statSync(base);
linkTarget = fs.readlinkSync(base);
}
resolvedLink = pathModule.resolve(previous, linkTarget);
// track this, if given a cache.
if (cache) cache[base] = resolvedLink;
if (!isWindows) seenLinks[id] = linkTarget;
}
// resolve the link, then start over
p = pathModule.resolve(resolvedLink, p.slice(pos));
start();
}
if (cache) cache[original] = p;
return p;
};
exports.realpath = function realpath(p, cache, cb) {
if (typeof cb !== 'function') {
cb = maybeCallback(cache);
cache = null;
}
// make p is absolute
p = pathModule.resolve(p);
if (cache && Object.prototype.hasOwnProperty.call(cache, p)) {
return process.nextTick(cb.bind(null, null, cache[p]));
}
var original = p,
seenLinks = {},
knownHard = {};
// current character position in p
var pos;
// the partial path so far, including a trailing slash if any
var current;
// the partial path without a trailing slash (except when pointing at a root)
var base;
// the partial path scanned in the previous round, with slash
var previous;
start();
function start() {
// Skip over roots
var m = splitRootRe.exec(p);
pos = m[0].length;
current = m[0];
base = m[0];
previous = '';
// On windows, check that the root exists. On unix there is no need.
if (isWindows && !knownHard[base]) {
fs.lstat(base, function(err) {
if (err) return cb(err);
knownHard[base] = true;
LOOP();
});
} else {
process.nextTick(LOOP);
}
}
// walk down the path, swapping out linked pathparts for their real
// values
function LOOP() {
// stop if scanned past end of path
if (pos >= p.length) {
if (cache) cache[original] = p;
return cb(null, p);
}
// find the next part
nextPartRe.lastIndex = pos;
var result = nextPartRe.exec(p);
previous = current;
current += result[0];
base = previous + result[1];
pos = nextPartRe.lastIndex;
// continue if not a symlink
if (knownHard[base] || (cache && cache[base] === base)) {
return process.nextTick(LOOP);
}
if (cache && Object.prototype.hasOwnProperty.call(cache, base)) {
// known symbolic link. no need to stat again.
return gotResolvedLink(cache[base]);
}
return fs.lstat(base, gotStat);
}
function gotStat(err, stat) {
if (err) return cb(err);
// if not a symlink, skip to the next path part
if (!stat.isSymbolicLink()) {
knownHard[base] = true;
if (cache) cache[base] = base;
return process.nextTick(LOOP);
}
// stat & read the link if not read before
// call gotTarget as soon as the link target is known
// dev/ino always return 0 on windows, so skip the check.
if (!isWindows) {
var id = stat.dev.toString(32) + ':' + stat.ino.toString(32);
if (seenLinks.hasOwnProperty(id)) {
return gotTarget(null, seenLinks[id], base);
}
}
fs.stat(base, function(err) {
if (err) return cb(err);
fs.readlink(base, function(err, target) {
if (!isWindows) seenLinks[id] = target;
gotTarget(err, target);
});
});
}
function gotTarget(err, target, base) {
if (err) return cb(err);
var resolvedLink = pathModule.resolve(previous, target);
if (cache) cache[base] = resolvedLink;
gotResolvedLink(resolvedLink);
}
function gotResolvedLink(resolvedLink) {
// resolve the link, then start over
p = pathModule.resolve(resolvedLink, p.slice(pos));
start();
}
};
/***/ }),
/***/ 925:
/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => {
exports.setopts = setopts
exports.ownProp = ownProp
exports.makeAbs = makeAbs
exports.finish = finish
exports.mark = mark
exports.isIgnored = isIgnored
exports.childrenIgnored = childrenIgnored
function ownProp (obj, field) {
return Object.prototype.hasOwnProperty.call(obj, field)
}
var path = __nccwpck_require__(5622)
var minimatch = __nccwpck_require__(8083)
var isAbsolute = __nccwpck_require__(2598)
var Minimatch = minimatch.Minimatch
function alphasort (a, b) {
return a.localeCompare(b, 'en')
}
function setupIgnores (self, options) {
self.ignore = options.ignore || []
if (!Array.isArray(self.ignore))
self.ignore = [self.ignore]
if (self.ignore.length) {
self.ignore = self.ignore.map(ignoreMap)
}
}
// ignore patterns are always in dot:true mode.
function ignoreMap (pattern) {
var gmatcher = null
if (pattern.slice(-3) === '/**') {
var gpattern = pattern.replace(/(\/\*\*)+$/, '')
gmatcher = new Minimatch(gpattern, { dot: true })
}
return {
matcher: new Minimatch(pattern, { dot: true }),
gmatcher: gmatcher
}
}
function setopts (self, pattern, options) {
if (!options)
options = {}
// base-matching: just use globstar for that.
if (options.matchBase && -1 === pattern.indexOf("/")) {
if (options.noglobstar) {
throw new Error("base matching requires globstar")
}
pattern = "**/" + pattern
}
self.silent = !!options.silent
self.pattern = pattern
self.strict = options.strict !== false
self.realpath = !!options.realpath
self.realpathCache = options.realpathCache || Object.create(null)
self.follow = !!options.follow
self.dot = !!options.dot
self.mark = !!options.mark
self.nodir = !!options.nodir
if (self.nodir)
self.mark = true
self.sync = !!options.sync
self.nounique = !!options.nounique
self.nonull = !!options.nonull
self.nosort = !!options.nosort
self.nocase = !!options.nocase
self.stat = !!options.stat
self.noprocess = !!options.noprocess
self.absolute = !!options.absolute
self.maxLength = options.maxLength || Infinity
self.cache = options.cache || Object.create(null)
self.statCache = options.statCache || Object.create(null)
self.symlinks = options.symlinks || Object.create(null)
setupIgnores(self, options)
self.changedCwd = false
var cwd = process.cwd()
if (!ownProp(options, "cwd"))
self.cwd = cwd
else {
self.cwd = path.resolve(options.cwd)
self.changedCwd = self.cwd !== cwd
}
self.root = options.root || path.resolve(self.cwd, "/")
self.root = path.resolve(self.root)
if (process.platform === "win32")
self.root = self.root.replace(/\\/g, "/")
// TODO: is an absolute `cwd` supposed to be resolved against `root`?
// e.g. { cwd: '/test', root: __dirname } === path.join(__dirname, '/test')
self.cwdAbs = isAbsolute(self.cwd) ? self.cwd : makeAbs(self, self.cwd)
if (process.platform === "win32")
self.cwdAbs = self.cwdAbs.replace(/\\/g, "/")
self.nomount = !!options.nomount
// disable comments and negation in Minimatch.
// Note that they are not supported in Glob itself anyway.
options.nonegate = true
options.nocomment = true
self.minimatch = new Minimatch(pattern, options)
self.options = self.minimatch.options
}
function finish (self) {
var nou = self.nounique
var all = nou ? [] : Object.create(null)
for (var i = 0, l = self.matches.length; i < l; i ++) {
var matches = self.matches[i]
if (!matches || Object.keys(matches).length === 0) {
if (self.nonull) {
// do like the shell, and spit out the literal glob
var literal = self.minimatch.globSet[i]
if (nou)
all.push(literal)
else
all[literal] = true
}
} else {
// had matches
var m = Object.keys(matches)
if (nou)
all.push.apply(all, m)
else
m.forEach(function (m) {
all[m] = true
})
}
}
if (!nou)
all = Object.keys(all)
if (!self.nosort)
all = all.sort(alphasort)
// at *some* point we statted all of these
if (self.mark) {
for (var i = 0; i < all.length; i++) {
all[i] = self._mark(all[i])
}
if (self.nodir) {
all = all.filter(function (e) {
var notDir = !(/\/$/.test(e))
var c = self.cache[e] || self.cache[makeAbs(self, e)]
if (notDir && c)
notDir = c !== 'DIR' && !Array.isArray(c)
return notDir
})
}
}
if (self.ignore.length)
all = all.filter(function(m) {
return !isIgnored(self, m)
})
self.found = all
}
function mark (self, p) {
var abs = makeAbs(self, p)
var c = self.cache[abs]
var m = p
if (c) {
var isDir = c === 'DIR' || Array.isArray(c)
var slash = p.slice(-1) === '/'
if (isDir && !slash)
m += '/'
else if (!isDir && slash)
m = m.slice(0, -1)
if (m !== p) {
var mabs = makeAbs(self, m)
self.statCache[mabs] = self.statCache[abs]
self.cache[mabs] = self.cache[abs]
}
}
return m
}
// lotta situps...
function makeAbs (self, f) {
var abs = f
if (f.charAt(0) === '/') {
abs = path.join(self.root, f)
} else if (isAbsolute(f) || f === '') {
abs = f
} else if (self.changedCwd) {
abs = path.resolve(self.cwd, f)
} else {
abs = path.resolve(f)
}
if (process.platform === 'win32')
abs = abs.replace(/\\/g, '/')
return abs
}
// Return true, if pattern ends with globstar '**', for the accompanying parent directory.
// Ex:- If node_modules/** is the pattern, add 'node_modules' to ignore list along with it's contents
function isIgnored (self, path) {
if (!self.ignore.length)
return false
return self.ignore.some(function(item) {
return item.matcher.match(path) || !!(item.gmatcher && item.gmatcher.match(path))
})
}
function childrenIgnored (self, path) {
if (!self.ignore.length)
return false
return self.ignore.some(function(item) {
return !!(item.gmatcher && item.gmatcher.match(path))
})
}
/***/ }),
/***/ 3208:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
// Approach:
//
// 1. Get the minimatch set
// 2. For each pattern in the set, PROCESS(pattern, false)
// 3. Store matches per-set, then uniq them
//
// PROCESS(pattern, inGlobStar)
// Get the first [n] items from pattern that are all strings
// Join these together. This is PREFIX.
// If there is no more remaining, then stat(PREFIX) and
// add to matches if it succeeds. END.
//
// If inGlobStar and PREFIX is symlink and points to dir
// set ENTRIES = []
// else readdir(PREFIX) as ENTRIES
// If fail, END
//
// with ENTRIES
// If pattern[n] is GLOBSTAR
// // handle the case where the globstar match is empty
// // by pruning it out, and testing the resulting pattern
// PROCESS(pattern[0..n] + pattern[n+1 .. $], false)
// // handle other cases.
// for ENTRY in ENTRIES (not dotfiles)
// // attach globstar + tail onto the entry
// // Mark that this entry is a globstar match
// PROCESS(pattern[0..n] + ENTRY + pattern[n .. $], true)
//
// else // not globstar
// for ENTRY in ENTRIES (not dotfiles, unless pattern[n] is dot)
// Test ENTRY against pattern[n]
// If fails, continue
// If passes, PROCESS(pattern[0..n] + item + pattern[n+1 .. $])
//
// Caveat:
// Cache all stats and readdirs results to minimize syscall. Since all
// we ever care about is existence and directory-ness, we can just keep
// `true` for files, and [children,...] for directories, or `false` for
// things that don't exist.
module.exports = glob
var fs = __nccwpck_require__(5747)
var rp = __nccwpck_require__(2097)
var minimatch = __nccwpck_require__(8083)
var Minimatch = minimatch.Minimatch
var inherits = __nccwpck_require__(9424)
var EE = __nccwpck_require__(8614).EventEmitter
var path = __nccwpck_require__(5622)
var assert = __nccwpck_require__(2357)
var isAbsolute = __nccwpck_require__(2598)
var globSync = __nccwpck_require__(25)
var common = __nccwpck_require__(925)
var setopts = common.setopts
var ownProp = common.ownProp
var inflight = __nccwpck_require__(8179)
var util = __nccwpck_require__(1669)
var childrenIgnored = common.childrenIgnored
var isIgnored = common.isIgnored
var once = __nccwpck_require__(4742)
function glob (pattern, options, cb) {
if (typeof options === 'function') cb = options, options = {}
if (!options) options = {}
if (options.sync) {
if (cb)
throw new TypeError('callback provided to sync glob')
return globSync(pattern, options)
}
return new Glob(pattern, options, cb)
}
glob.sync = globSync
var GlobSync = glob.GlobSync = globSync.GlobSync
// old api surface
glob.glob = glob
function extend (origin, add) {
if (add === null || typeof add !== 'object') {
return origin
}
var keys = Object.keys(add)
var i = keys.length
while (i--) {
origin[keys[i]] = add[keys[i]]
}
return origin
}
glob.hasMagic = function (pattern, options_) {
var options = extend({}, options_)
options.noprocess = true
var g = new Glob(pattern, options)
var set = g.minimatch.set
if (!pattern)
return false
if (set.length > 1)
return true
for (var j = 0; j < set[0].length; j++) {
if (typeof set[0][j] !== 'string')
return true
}
return false
}
glob.Glob = Glob
inherits(Glob, EE)
function Glob (pattern, options, cb) {
if (typeof options === 'function') {
cb = options
options = null
}
if (options && options.sync) {
if (cb)
throw new TypeError('callback provided to sync glob')
return new GlobSync(pattern, options)
}
if (!(this instanceof Glob))
return new Glob(pattern, options, cb)
setopts(this, pattern, options)
this._didRealPath = false
// process each pattern in the minimatch set
var n = this.minimatch.set.length
// The matches are stored as {: true,...} so that
// duplicates are automagically pruned.
// Later, we do an Object.keys() on these.
// Keep them as a list so we can fill in when nonull is set.
this.matches = new Array(n)
if (typeof cb === 'function') {
cb = once(cb)
this.on('error', cb)
this.on('end', function (matches) {
cb(null, matches)
})
}
var self = this
this._processing = 0
this._emitQueue = []
this._processQueue = []
this.paused = false
if (this.noprocess)
return this
if (n === 0)
return done()
var sync = true
for (var i = 0; i < n; i ++) {
this._process(this.minimatch.set[i], i, false, done)
}
sync = false
function done () {
--self._processing
if (self._processing <= 0) {
if (sync) {
process.nextTick(function () {
self._finish()
})
} else {
self._finish()
}
}
}
}
Glob.prototype._finish = function () {
assert(this instanceof Glob)
if (this.aborted)
return
if (this.realpath && !this._didRealpath)
return this._realpath()
common.finish(this)
this.emit('end', this.found)
}
Glob.prototype._realpath = function () {
if (this._didRealpath)
return
this._didRealpath = true
var n = this.matches.length
if (n === 0)
return this._finish()
var self = this
for (var i = 0; i < this.matches.length; i++)
this._realpathSet(i, next)
function next () {
if (--n === 0)
self._finish()
}
}
Glob.prototype._realpathSet = function (index, cb) {
var matchset = this.matches[index]
if (!matchset)
return cb()
var found = Object.keys(matchset)
var self = this
var n = found.length
if (n === 0)
return cb()
var set = this.matches[index] = Object.create(null)
found.forEach(function (p, i) {
// If there's a problem with the stat, then it means that
// one or more of the links in the realpath couldn't be
// resolved. just return the abs value in that case.
p = self._makeAbs(p)
rp.realpath(p, self.realpathCache, function (er, real) {
if (!er)
set[real] = true
else if (er.syscall === 'stat')
set[p] = true
else
self.emit('error', er) // srsly wtf right here
if (--n === 0) {
self.matches[index] = set
cb()
}
})
})
}
Glob.prototype._mark = function (p) {
return common.mark(this, p)
}
Glob.prototype._makeAbs = function (f) {
return common.makeAbs(this, f)
}
Glob.prototype.abort = function () {
this.aborted = true
this.emit('abort')
}
Glob.prototype.pause = function () {
if (!this.paused) {
this.paused = true
this.emit('pause')
}
}
Glob.prototype.resume = function () {
if (this.paused) {
this.emit('resume')
this.paused = false
if (this._emitQueue.length) {
var eq = this._emitQueue.slice(0)
this._emitQueue.length = 0
for (var i = 0; i < eq.length; i ++) {
var e = eq[i]
this._emitMatch(e[0], e[1])
}
}
if (this._processQueue.length) {
var pq = this._processQueue.slice(0)
this._processQueue.length = 0
for (var i = 0; i < pq.length; i ++) {
var p = pq[i]
this._processing--
this._process(p[0], p[1], p[2], p[3])
}
}
}
}
Glob.prototype._process = function (pattern, index, inGlobStar, cb) {
assert(this instanceof Glob)
assert(typeof cb === 'function')
if (this.aborted)
return
this._processing++
if (this.paused) {
this._processQueue.push([pattern, index, inGlobStar, cb])
return
}
//console.error('PROCESS %d', this._processing, pattern)
// Get the first [n] parts of pattern that are all strings.
var n = 0
while (typeof pattern[n] === 'string') {
n ++
}
// now n is the index of the first one that is *not* a string.
// see if there's anything else
var prefix
switch (n) {
// if not, then this is rather simple
case pattern.length:
this._processSimple(pattern.join('/'), index, cb)
return
case 0:
// pattern *starts* with some non-trivial item.
// going to readdir(cwd), but not include the prefix in matches.
prefix = null
break
default:
// pattern has some string bits in the front.
// whatever it starts with, whether that's 'absolute' like /foo/bar,
// or 'relative' like '../baz'
prefix = pattern.slice(0, n).join('/')
break
}
var remain = pattern.slice(n)
// get the list of entries.
var read
if (prefix === null)
read = '.'
else if (isAbsolute(prefix) || isAbsolute(pattern.join('/'))) {
if (!prefix || !isAbsolute(prefix))
prefix = '/' + prefix
read = prefix
} else
read = prefix
var abs = this._makeAbs(read)
//if ignored, skip _processing
if (childrenIgnored(this, read))
return cb()
var isGlobStar = remain[0] === minimatch.GLOBSTAR
if (isGlobStar)
this._processGlobStar(prefix, read, abs, remain, index, inGlobStar, cb)
else
this._processReaddir(prefix, read, abs, remain, index, inGlobStar, cb)
}
Glob.prototype._processReaddir = function (prefix, read, abs, remain, index, inGlobStar, cb) {
var self = this
this._readdir(abs, inGlobStar, function (er, entries) {
return self._processReaddir2(prefix, read, abs, remain, index, inGlobStar, entries, cb)
})
}
Glob.prototype._processReaddir2 = function (prefix, read, abs, remain, index, inGlobStar, entries, cb) {
// if the abs isn't a dir, then nothing can match!
if (!entries)
return cb()
// It will only match dot entries if it starts with a dot, or if
// dot is set. Stuff like @(.foo|.bar) isn't allowed.
var pn = remain[0]
var negate = !!this.minimatch.negate
var rawGlob = pn._glob
var dotOk = this.dot || rawGlob.charAt(0) === '.'
var matchedEntries = []
for (var i = 0; i < entries.length; i++) {
var e = entries[i]
if (e.charAt(0) !== '.' || dotOk) {
var m
if (negate && !prefix) {
m = !e.match(pn)
} else {
m = e.match(pn)
}
if (m)
matchedEntries.push(e)
}
}
//console.error('prd2', prefix, entries, remain[0]._glob, matchedEntries)
var len = matchedEntries.length
// If there are no matched entries, then nothing matches.
if (len === 0)
return cb()
// if this is the last remaining pattern bit, then no need for
// an additional stat *unless* the user has specified mark or
// stat explicitly. We know they exist, since readdir returned
// them.
if (remain.length === 1 && !this.mark && !this.stat) {
if (!this.matches[index])
this.matches[index] = Object.create(null)
for (var i = 0; i < len; i ++) {
var e = matchedEntries[i]
if (prefix) {
if (prefix !== '/')
e = prefix + '/' + e
else
e = prefix + e
}
if (e.charAt(0) === '/' && !this.nomount) {
e = path.join(this.root, e)
}
this._emitMatch(index, e)
}
// This was the last one, and no stats were needed
return cb()
}
// now test all matched entries as stand-ins for that part
// of the pattern.
remain.shift()
for (var i = 0; i < len; i ++) {
var e = matchedEntries[i]
var newPattern
if (prefix) {
if (prefix !== '/')
e = prefix + '/' + e
else
e = prefix + e
}
this._process([e].concat(remain), index, inGlobStar, cb)
}
cb()
}
Glob.prototype._emitMatch = function (index, e) {
if (this.aborted)
return
if (isIgnored(this, e))
return
if (this.paused) {
this._emitQueue.push([index, e])
return
}
var abs = isAbsolute(e) ? e : this._makeAbs(e)
if (this.mark)
e = this._mark(e)
if (this.absolute)
e = abs
if (this.matches[index][e])
return
if (this.nodir) {
var c = this.cache[abs]
if (c === 'DIR' || Array.isArray(c))
return
}
this.matches[index][e] = true
var st = this.statCache[abs]
if (st)
this.emit('stat', e, st)
this.emit('match', e)
}
Glob.prototype._readdirInGlobStar = function (abs, cb) {
if (this.aborted)
return
// follow all symlinked directories forever
// just proceed as if this is a non-globstar situation
if (this.follow)
return this._readdir(abs, false, cb)
var lstatkey = 'lstat\0' + abs
var self = this
var lstatcb = inflight(lstatkey, lstatcb_)
if (lstatcb)
fs.lstat(abs, lstatcb)
function lstatcb_ (er, lstat) {
if (er && er.code === 'ENOENT')
return cb()
var isSym = lstat && lstat.isSymbolicLink()
self.symlinks[abs] = isSym
// If it's not a symlink or a dir, then it's definitely a regular file.
// don't bother doing a readdir in that case.
if (!isSym && lstat && !lstat.isDirectory()) {
self.cache[abs] = 'FILE'
cb()
} else
self._readdir(abs, false, cb)
}
}
Glob.prototype._readdir = function (abs, inGlobStar, cb) {
if (this.aborted)
return
cb = inflight('readdir\0'+abs+'\0'+inGlobStar, cb)
if (!cb)
return
//console.error('RD %j %j', +inGlobStar, abs)
if (inGlobStar && !ownProp(this.symlinks, abs))
return this._readdirInGlobStar(abs, cb)
if (ownProp(this.cache, abs)) {
var c = this.cache[abs]
if (!c || c === 'FILE')
return cb()
if (Array.isArray(c))
return cb(null, c)
}
var self = this
fs.readdir(abs, readdirCb(this, abs, cb))
}
function readdirCb (self, abs, cb) {
return function (er, entries) {
if (er)
self._readdirError(abs, er, cb)
else
self._readdirEntries(abs, entries, cb)
}
}
Glob.prototype._readdirEntries = function (abs, entries, cb) {
if (this.aborted)
return
// if we haven't asked to stat everything, then just
// assume that everything in there exists, so we can avoid
// having to stat it a second time.
if (!this.mark && !this.stat) {
for (var i = 0; i < entries.length; i ++) {
var e = entries[i]
if (abs === '/')
e = abs + e
else
e = abs + '/' + e
this.cache[e] = true
}
}
this.cache[abs] = entries
return cb(null, entries)
}
Glob.prototype._readdirError = function (f, er, cb) {
if (this.aborted)
return
// handle errors, and cache the information
switch (er.code) {
case 'ENOTSUP': // https://github.com/isaacs/node-glob/issues/205
case 'ENOTDIR': // totally normal. means it *does* exist.
var abs = this._makeAbs(f)
this.cache[abs] = 'FILE'
if (abs === this.cwdAbs) {
var error = new Error(er.code + ' invalid cwd ' + this.cwd)
error.path = this.cwd
error.code = er.code
this.emit('error', error)
this.abort()
}
break
case 'ENOENT': // not terribly unusual
case 'ELOOP':
case 'ENAMETOOLONG':
case 'UNKNOWN':
this.cache[this._makeAbs(f)] = false
break
default: // some unusual error. Treat as failure.
this.cache[this._makeAbs(f)] = false
if (this.strict) {
this.emit('error', er)
// If the error is handled, then we abort
// if not, we threw out of here
this.abort()
}
if (!this.silent)
console.error('glob error', er)
break
}
return cb()
}
Glob.prototype._processGlobStar = function (prefix, read, abs, remain, index, inGlobStar, cb) {
var self = this
this._readdir(abs, inGlobStar, function (er, entries) {
self._processGlobStar2(prefix, read, abs, remain, index, inGlobStar, entries, cb)
})
}
Glob.prototype._processGlobStar2 = function (prefix, read, abs, remain, index, inGlobStar, entries, cb) {
//console.error('pgs2', prefix, remain[0], entries)
// no entries means not a dir, so it can never have matches
// foo.txt/** doesn't match foo.txt
if (!entries)
return cb()
// test without the globstar, and with every child both below
// and replacing the globstar.
var remainWithoutGlobStar = remain.slice(1)
var gspref = prefix ? [ prefix ] : []
var noGlobStar = gspref.concat(remainWithoutGlobStar)
// the noGlobStar pattern exits the inGlobStar state
this._process(noGlobStar, index, false, cb)
var isSym = this.symlinks[abs]
var len = entries.length
// If it's a symlink, and we're in a globstar, then stop
if (isSym && inGlobStar)
return cb()
for (var i = 0; i < len; i++) {
var e = entries[i]
if (e.charAt(0) === '.' && !this.dot)
continue
// these two cases enter the inGlobStar state
var instead = gspref.concat(entries[i], remainWithoutGlobStar)
this._process(instead, index, true, cb)
var below = gspref.concat(entries[i], remain)
this._process(below, index, true, cb)
}
cb()
}
Glob.prototype._processSimple = function (prefix, index, cb) {
// XXX review this. Shouldn't it be doing the mounting etc
// before doing stat? kinda weird?
var self = this
this._stat(prefix, function (er, exists) {
self._processSimple2(prefix, index, er, exists, cb)
})
}
Glob.prototype._processSimple2 = function (prefix, index, er, exists, cb) {
//console.error('ps2', prefix, exists)
if (!this.matches[index])
this.matches[index] = Object.create(null)
// If it doesn't exist, then just mark the lack of results
if (!exists)
return cb()
if (prefix && isAbsolute(prefix) && !this.nomount) {
var trail = /[\/\\]$/.test(prefix)
if (prefix.charAt(0) === '/') {
prefix = path.join(this.root, prefix)
} else {
prefix = path.resolve(this.root, prefix)
if (trail)
prefix += '/'
}
}
if (process.platform === 'win32')
prefix = prefix.replace(/\\/g, '/')
// Mark this as a match
this._emitMatch(index, prefix)
cb()
}
// Returns either 'DIR', 'FILE', or false
Glob.prototype._stat = function (f, cb) {
var abs = this._makeAbs(f)
var needDir = f.slice(-1) === '/'
if (f.length > this.maxLength)
return cb()
if (!this.stat && ownProp(this.cache, abs)) {
var c = this.cache[abs]
if (Array.isArray(c))
c = 'DIR'
// It exists, but maybe not how we need it
if (!needDir || c === 'DIR')
return cb(null, c)
if (needDir && c === 'FILE')
return cb()
// otherwise we have to stat, because maybe c=true
// if we know it exists, but not what it is.
}
var exists
var stat = this.statCache[abs]
if (stat !== undefined) {
if (stat === false)
return cb(null, stat)
else {
var type = stat.isDirectory() ? 'DIR' : 'FILE'
if (needDir && type === 'FILE')
return cb()
else
return cb(null, type, stat)
}
}
var self = this
var statcb = inflight('stat\0' + abs, lstatcb_)
if (statcb)
fs.lstat(abs, statcb)
function lstatcb_ (er, lstat) {
if (lstat && lstat.isSymbolicLink()) {
// If it's a symlink, then treat it as the target, unless
// the target does not exist, then treat it as a file.
return fs.stat(abs, function (er, stat) {
if (er)
self._stat2(f, abs, null, lstat, cb)
else
self._stat2(f, abs, er, stat, cb)
})
} else {
self._stat2(f, abs, er, lstat, cb)
}
}
}
Glob.prototype._stat2 = function (f, abs, er, stat, cb) {
if (er && (er.code === 'ENOENT' || er.code === 'ENOTDIR')) {
this.statCache[abs] = false
return cb()
}
var needDir = f.slice(-1) === '/'
this.statCache[abs] = stat
if (abs.slice(-1) === '/' && stat && !stat.isDirectory())
return cb(null, false, stat)
var c = true
if (stat)
c = stat.isDirectory() ? 'DIR' : 'FILE'
this.cache[abs] = this.cache[abs] || c
if (needDir && c === 'FILE')
return cb()
return cb(null, c, stat)
}
/***/ }),
/***/ 25:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
module.exports = globSync
globSync.GlobSync = GlobSync
var fs = __nccwpck_require__(5747)
var rp = __nccwpck_require__(2097)
var minimatch = __nccwpck_require__(8083)
var Minimatch = minimatch.Minimatch
var Glob = __nccwpck_require__(3208).Glob
var util = __nccwpck_require__(1669)
var path = __nccwpck_require__(5622)
var assert = __nccwpck_require__(2357)
var isAbsolute = __nccwpck_require__(2598)
var common = __nccwpck_require__(925)
var setopts = common.setopts
var ownProp = common.ownProp
var childrenIgnored = common.childrenIgnored
var isIgnored = common.isIgnored
function globSync (pattern, options) {
if (typeof options === 'function' || arguments.length === 3)
throw new TypeError('callback provided to sync glob\n'+
'See: https://github.com/isaacs/node-glob/issues/167')
return new GlobSync(pattern, options).found
}
function GlobSync (pattern, options) {
if (!pattern)
throw new Error('must provide pattern')
if (typeof options === 'function' || arguments.length === 3)
throw new TypeError('callback provided to sync glob\n'+
'See: https://github.com/isaacs/node-glob/issues/167')
if (!(this instanceof GlobSync))
return new GlobSync(pattern, options)
setopts(this, pattern, options)
if (this.noprocess)
return this
var n = this.minimatch.set.length
this.matches = new Array(n)
for (var i = 0; i < n; i ++) {
this._process(this.minimatch.set[i], i, false)
}
this._finish()
}
GlobSync.prototype._finish = function () {
assert(this instanceof GlobSync)
if (this.realpath) {
var self = this
this.matches.forEach(function (matchset, index) {
var set = self.matches[index] = Object.create(null)
for (var p in matchset) {
try {
p = self._makeAbs(p)
var real = rp.realpathSync(p, self.realpathCache)
set[real] = true
} catch (er) {
if (er.syscall === 'stat')
set[self._makeAbs(p)] = true
else
throw er
}
}
})
}
common.finish(this)
}
GlobSync.prototype._process = function (pattern, index, inGlobStar) {
assert(this instanceof GlobSync)
// Get the first [n] parts of pattern that are all strings.
var n = 0
while (typeof pattern[n] === 'string') {
n ++
}
// now n is the index of the first one that is *not* a string.
// See if there's anything else
var prefix
switch (n) {
// if not, then this is rather simple
case pattern.length:
this._processSimple(pattern.join('/'), index)
return
case 0:
// pattern *starts* with some non-trivial item.
// going to readdir(cwd), but not include the prefix in matches.
prefix = null
break
default:
// pattern has some string bits in the front.
// whatever it starts with, whether that's 'absolute' like /foo/bar,
// or 'relative' like '../baz'
prefix = pattern.slice(0, n).join('/')
break
}
var remain = pattern.slice(n)
// get the list of entries.
var read
if (prefix === null)
read = '.'
else if (isAbsolute(prefix) || isAbsolute(pattern.join('/'))) {
if (!prefix || !isAbsolute(prefix))
prefix = '/' + prefix
read = prefix
} else
read = prefix
var abs = this._makeAbs(read)
//if ignored, skip processing
if (childrenIgnored(this, read))
return
var isGlobStar = remain[0] === minimatch.GLOBSTAR
if (isGlobStar)
this._processGlobStar(prefix, read, abs, remain, index, inGlobStar)
else
this._processReaddir(prefix, read, abs, remain, index, inGlobStar)
}
GlobSync.prototype._processReaddir = function (prefix, read, abs, remain, index, inGlobStar) {
var entries = this._readdir(abs, inGlobStar)
// if the abs isn't a dir, then nothing can match!
if (!entries)
return
// It will only match dot entries if it starts with a dot, or if
// dot is set. Stuff like @(.foo|.bar) isn't allowed.
var pn = remain[0]
var negate = !!this.minimatch.negate
var rawGlob = pn._glob
var dotOk = this.dot || rawGlob.charAt(0) === '.'
var matchedEntries = []
for (var i = 0; i < entries.length; i++) {
var e = entries[i]
if (e.charAt(0) !== '.' || dotOk) {
var m
if (negate && !prefix) {
m = !e.match(pn)
} else {
m = e.match(pn)
}
if (m)
matchedEntries.push(e)
}
}
var len = matchedEntries.length
// If there are no matched entries, then nothing matches.
if (len === 0)
return
// if this is the last remaining pattern bit, then no need for
// an additional stat *unless* the user has specified mark or
// stat explicitly. We know they exist, since readdir returned
// them.
if (remain.length === 1 && !this.mark && !this.stat) {
if (!this.matches[index])
this.matches[index] = Object.create(null)
for (var i = 0; i < len; i ++) {
var e = matchedEntries[i]
if (prefix) {
if (prefix.slice(-1) !== '/')
e = prefix + '/' + e
else
e = prefix + e
}
if (e.charAt(0) === '/' && !this.nomount) {
e = path.join(this.root, e)
}
this._emitMatch(index, e)
}
// This was the last one, and no stats were needed
return
}
// now test all matched entries as stand-ins for that part
// of the pattern.
remain.shift()
for (var i = 0; i < len; i ++) {
var e = matchedEntries[i]
var newPattern
if (prefix)
newPattern = [prefix, e]
else
newPattern = [e]
this._process(newPattern.concat(remain), index, inGlobStar)
}
}
GlobSync.prototype._emitMatch = function (index, e) {
if (isIgnored(this, e))
return
var abs = this._makeAbs(e)
if (this.mark)
e = this._mark(e)
if (this.absolute) {
e = abs
}
if (this.matches[index][e])
return
if (this.nodir) {
var c = this.cache[abs]
if (c === 'DIR' || Array.isArray(c))
return
}
this.matches[index][e] = true
if (this.stat)
this._stat(e)
}
GlobSync.prototype._readdirInGlobStar = function (abs) {
// follow all symlinked directories forever
// just proceed as if this is a non-globstar situation
if (this.follow)
return this._readdir(abs, false)
var entries
var lstat
var stat
try {
lstat = fs.lstatSync(abs)
} catch (er) {
if (er.code === 'ENOENT') {
// lstat failed, doesn't exist
return null
}
}
var isSym = lstat && lstat.isSymbolicLink()
this.symlinks[abs] = isSym
// If it's not a symlink or a dir, then it's definitely a regular file.
// don't bother doing a readdir in that case.
if (!isSym && lstat && !lstat.isDirectory())
this.cache[abs] = 'FILE'
else
entries = this._readdir(abs, false)
return entries
}
GlobSync.prototype._readdir = function (abs, inGlobStar) {
var entries
if (inGlobStar && !ownProp(this.symlinks, abs))
return this._readdirInGlobStar(abs)
if (ownProp(this.cache, abs)) {
var c = this.cache[abs]
if (!c || c === 'FILE')
return null
if (Array.isArray(c))
return c
}
try {
return this._readdirEntries(abs, fs.readdirSync(abs))
} catch (er) {
this._readdirError(abs, er)
return null
}
}
GlobSync.prototype._readdirEntries = function (abs, entries) {
// if we haven't asked to stat everything, then just
// assume that everything in there exists, so we can avoid
// having to stat it a second time.
if (!this.mark && !this.stat) {
for (var i = 0; i < entries.length; i ++) {
var e = entries[i]
if (abs === '/')
e = abs + e
else
e = abs + '/' + e
this.cache[e] = true
}
}
this.cache[abs] = entries
// mark and cache dir-ness
return entries
}
GlobSync.prototype._readdirError = function (f, er) {
// handle errors, and cache the information
switch (er.code) {
case 'ENOTSUP': // https://github.com/isaacs/node-glob/issues/205
case 'ENOTDIR': // totally normal. means it *does* exist.
var abs = this._makeAbs(f)
this.cache[abs] = 'FILE'
if (abs === this.cwdAbs) {
var error = new Error(er.code + ' invalid cwd ' + this.cwd)
error.path = this.cwd
error.code = er.code
throw error
}
break
case 'ENOENT': // not terribly unusual
case 'ELOOP':
case 'ENAMETOOLONG':
case 'UNKNOWN':
this.cache[this._makeAbs(f)] = false
break
default: // some unusual error. Treat as failure.
this.cache[this._makeAbs(f)] = false
if (this.strict)
throw er
if (!this.silent)
console.error('glob error', er)
break
}
}
GlobSync.prototype._processGlobStar = function (prefix, read, abs, remain, index, inGlobStar) {
var entries = this._readdir(abs, inGlobStar)
// no entries means not a dir, so it can never have matches
// foo.txt/** doesn't match foo.txt
if (!entries)
return
// test without the globstar, and with every child both below
// and replacing the globstar.
var remainWithoutGlobStar = remain.slice(1)
var gspref = prefix ? [ prefix ] : []
var noGlobStar = gspref.concat(remainWithoutGlobStar)
// the noGlobStar pattern exits the inGlobStar state
this._process(noGlobStar, index, false)
var len = entries.length
var isSym = this.symlinks[abs]
// If it's a symlink, and we're in a globstar, then stop
if (isSym && inGlobStar)
return
for (var i = 0; i < len; i++) {
var e = entries[i]
if (e.charAt(0) === '.' && !this.dot)
continue
// these two cases enter the inGlobStar state
var instead = gspref.concat(entries[i], remainWithoutGlobStar)
this._process(instead, index, true)
var below = gspref.concat(entries[i], remain)
this._process(below, index, true)
}
}
GlobSync.prototype._processSimple = function (prefix, index) {
// XXX review this. Shouldn't it be doing the mounting etc
// before doing stat? kinda weird?
var exists = this._stat(prefix)
if (!this.matches[index])
this.matches[index] = Object.create(null)
// If it doesn't exist, then just mark the lack of results
if (!exists)
return
if (prefix && isAbsolute(prefix) && !this.nomount) {
var trail = /[\/\\]$/.test(prefix)
if (prefix.charAt(0) === '/') {
prefix = path.join(this.root, prefix)
} else {
prefix = path.resolve(this.root, prefix)
if (trail)
prefix += '/'
}
}
if (process.platform === 'win32')
prefix = prefix.replace(/\\/g, '/')
// Mark this as a match
this._emitMatch(index, prefix)
}
// Returns either 'DIR', 'FILE', or false
GlobSync.prototype._stat = function (f) {
var abs = this._makeAbs(f)
var needDir = f.slice(-1) === '/'
if (f.length > this.maxLength)
return false
if (!this.stat && ownProp(this.cache, abs)) {
var c = this.cache[abs]
if (Array.isArray(c))
c = 'DIR'
// It exists, but maybe not how we need it
if (!needDir || c === 'DIR')
return c
if (needDir && c === 'FILE')
return false
// otherwise we have to stat, because maybe c=true
// if we know it exists, but not what it is.
}
var exists
var stat = this.statCache[abs]
if (!stat) {
var lstat
try {
lstat = fs.lstatSync(abs)
} catch (er) {
if (er && (er.code === 'ENOENT' || er.code === 'ENOTDIR')) {
this.statCache[abs] = false
return false
}
}
if (lstat && lstat.isSymbolicLink()) {
try {
stat = fs.statSync(abs)
} catch (er) {
stat = lstat
}
} else {
stat = lstat
}
}
this.statCache[abs] = stat
var c = true
if (stat)
c = stat.isDirectory() ? 'DIR' : 'FILE'
this.cache[abs] = this.cache[abs] || c
if (needDir && c === 'FILE')
return false
return c
}
GlobSync.prototype._mark = function (p) {
return common.mark(this, p)
}
GlobSync.prototype._makeAbs = function (f) {
return common.makeAbs(this, f)
}
/***/ }),
/***/ 6118:
/***/ ((module) => {
"use strict";
module.exports = clone
var getPrototypeOf = Object.getPrototypeOf || function (obj) {
return obj.__proto__
}
function clone (obj) {
if (obj === null || typeof obj !== 'object')
return obj
if (obj instanceof Object)
var copy = { __proto__: getPrototypeOf(obj) }
else
var copy = Object.create(null)
Object.getOwnPropertyNames(obj).forEach(function (key) {
Object.defineProperty(copy, key, Object.getOwnPropertyDescriptor(obj, key))
})
return copy
}
/***/ }),
/***/ 1150:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
var fs = __nccwpck_require__(5747)
var polyfills = __nccwpck_require__(1772)
var legacy = __nccwpck_require__(7139)
var clone = __nccwpck_require__(6118)
var util = __nccwpck_require__(1669)
/* istanbul ignore next - node 0.x polyfill */
var gracefulQueue
var previousSymbol
/* istanbul ignore else - node 0.x polyfill */
if (typeof Symbol === 'function' && typeof Symbol.for === 'function') {
gracefulQueue = Symbol.for('graceful-fs.queue')
// This is used in testing by future versions
previousSymbol = Symbol.for('graceful-fs.previous')
} else {
gracefulQueue = '___graceful-fs.queue'
previousSymbol = '___graceful-fs.previous'
}
function noop () {}
function publishQueue(context, queue) {
Object.defineProperty(context, gracefulQueue, {
get: function() {
return queue
}
})
}
var debug = noop
if (util.debuglog)
debug = util.debuglog('gfs4')
else if (/\bgfs4\b/i.test(process.env.NODE_DEBUG || ''))
debug = function() {
var m = util.format.apply(util, arguments)
m = 'GFS4: ' + m.split(/\n/).join('\nGFS4: ')
console.error(m)
}
// Once time initialization
if (!fs[gracefulQueue]) {
// This queue can be shared by multiple loaded instances
var queue = global[gracefulQueue] || []
publishQueue(fs, queue)
// Patch fs.close/closeSync to shared queue version, because we need
// to retry() whenever a close happens *anywhere* in the program.
// This is essential when multiple graceful-fs instances are
// in play at the same time.
fs.close = (function (fs$close) {
function close (fd, cb) {
return fs$close.call(fs, fd, function (err) {
// This function uses the graceful-fs shared queue
if (!err) {
retry()
}
if (typeof cb === 'function')
cb.apply(this, arguments)
})
}
Object.defineProperty(close, previousSymbol, {
value: fs$close
})
return close
})(fs.close)
fs.closeSync = (function (fs$closeSync) {
function closeSync (fd) {
// This function uses the graceful-fs shared queue
fs$closeSync.apply(fs, arguments)
retry()
}
Object.defineProperty(closeSync, previousSymbol, {
value: fs$closeSync
})
return closeSync
})(fs.closeSync)
if (/\bgfs4\b/i.test(process.env.NODE_DEBUG || '')) {
process.on('exit', function() {
debug(fs[gracefulQueue])
__nccwpck_require__(2357).equal(fs[gracefulQueue].length, 0)
})
}
}
if (!global[gracefulQueue]) {
publishQueue(global, fs[gracefulQueue]);
}
module.exports = patch(clone(fs))
if (process.env.TEST_GRACEFUL_FS_GLOBAL_PATCH && !fs.__patched) {
module.exports = patch(fs)
fs.__patched = true;
}
function patch (fs) {
// Everything that references the open() function needs to be in here
polyfills(fs)
fs.gracefulify = patch
fs.createReadStream = createReadStream
fs.createWriteStream = createWriteStream
var fs$readFile = fs.readFile
fs.readFile = readFile
function readFile (path, options, cb) {
if (typeof options === 'function')
cb = options, options = null
return go$readFile(path, options, cb)
function go$readFile (path, options, cb) {
return fs$readFile(path, options, function (err) {
if (err && (err.code === 'EMFILE' || err.code === 'ENFILE'))
enqueue([go$readFile, [path, options, cb]])
else {
if (typeof cb === 'function')
cb.apply(this, arguments)
retry()
}
})
}
}
var fs$writeFile = fs.writeFile
fs.writeFile = writeFile
function writeFile (path, data, options, cb) {
if (typeof options === 'function')
cb = options, options = null
return go$writeFile(path, data, options, cb)
function go$writeFile (path, data, options, cb) {
return fs$writeFile(path, data, options, function (err) {
if (err && (err.code === 'EMFILE' || err.code === 'ENFILE'))
enqueue([go$writeFile, [path, data, options, cb]])
else {
if (typeof cb === 'function')
cb.apply(this, arguments)
retry()
}
})
}
}
var fs$appendFile = fs.appendFile
if (fs$appendFile)
fs.appendFile = appendFile
function appendFile (path, data, options, cb) {
if (typeof options === 'function')
cb = options, options = null
return go$appendFile(path, data, options, cb)
function go$appendFile (path, data, options, cb) {
return fs$appendFile(path, data, options, function (err) {
if (err && (err.code === 'EMFILE' || err.code === 'ENFILE'))
enqueue([go$appendFile, [path, data, options, cb]])
else {
if (typeof cb === 'function')
cb.apply(this, arguments)
retry()
}
})
}
}
var fs$copyFile = fs.copyFile
if (fs$copyFile)
fs.copyFile = copyFile
function copyFile (src, dest, flags, cb) {
if (typeof flags === 'function') {
cb = flags
flags = 0
}
return fs$copyFile(src, dest, flags, function (err) {
if (err && (err.code === 'EMFILE' || err.code === 'ENFILE'))
enqueue([fs$copyFile, [src, dest, flags, cb]])
else {
if (typeof cb === 'function')
cb.apply(this, arguments)
retry()
}
})
}
var fs$readdir = fs.readdir
fs.readdir = readdir
function readdir (path, options, cb) {
var args = [path]
if (typeof options !== 'function') {
args.push(options)
} else {
cb = options
}
args.push(go$readdir$cb)
return go$readdir(args)
function go$readdir$cb (err, files) {
if (files && files.sort)
files.sort()
if (err && (err.code === 'EMFILE' || err.code === 'ENFILE'))
enqueue([go$readdir, [args]])
else {
if (typeof cb === 'function')
cb.apply(this, arguments)
retry()
}
}
}
function go$readdir (args) {
return fs$readdir.apply(fs, args)
}
if (process.version.substr(0, 4) === 'v0.8') {
var legStreams = legacy(fs)
ReadStream = legStreams.ReadStream
WriteStream = legStreams.WriteStream
}
var fs$ReadStream = fs.ReadStream
if (fs$ReadStream) {
ReadStream.prototype = Object.create(fs$ReadStream.prototype)
ReadStream.prototype.open = ReadStream$open
}
var fs$WriteStream = fs.WriteStream
if (fs$WriteStream) {
WriteStream.prototype = Object.create(fs$WriteStream.prototype)
WriteStream.prototype.open = WriteStream$open
}
Object.defineProperty(fs, 'ReadStream', {
get: function () {
return ReadStream
},
set: function (val) {
ReadStream = val
},
enumerable: true,
configurable: true
})
Object.defineProperty(fs, 'WriteStream', {
get: function () {
return WriteStream
},
set: function (val) {
WriteStream = val
},
enumerable: true,
configurable: true
})
// legacy names
var FileReadStream = ReadStream
Object.defineProperty(fs, 'FileReadStream', {
get: function () {
return FileReadStream
},
set: function (val) {
FileReadStream = val
},
enumerable: true,
configurable: true
})
var FileWriteStream = WriteStream
Object.defineProperty(fs, 'FileWriteStream', {
get: function () {
return FileWriteStream
},
set: function (val) {
FileWriteStream = val
},
enumerable: true,
configurable: true
})
function ReadStream (path, options) {
if (this instanceof ReadStream)
return fs$ReadStream.apply(this, arguments), this
else
return ReadStream.apply(Object.create(ReadStream.prototype), arguments)
}
function ReadStream$open () {
var that = this
open(that.path, that.flags, that.mode, function (err, fd) {
if (err) {
if (that.autoClose)
that.destroy()
that.emit('error', err)
} else {
that.fd = fd
that.emit('open', fd)
that.read()
}
})
}
function WriteStream (path, options) {
if (this instanceof WriteStream)
return fs$WriteStream.apply(this, arguments), this
else
return WriteStream.apply(Object.create(WriteStream.prototype), arguments)
}
function WriteStream$open () {
var that = this
open(that.path, that.flags, that.mode, function (err, fd) {
if (err) {
that.destroy()
that.emit('error', err)
} else {
that.fd = fd
that.emit('open', fd)
}
})
}
function createReadStream (path, options) {
return new fs.ReadStream(path, options)
}
function createWriteStream (path, options) {
return new fs.WriteStream(path, options)
}
var fs$open = fs.open
fs.open = open
function open (path, flags, mode, cb) {
if (typeof mode === 'function')
cb = mode, mode = null
return go$open(path, flags, mode, cb)
function go$open (path, flags, mode, cb) {
return fs$open(path, flags, mode, function (err, fd) {
if (err && (err.code === 'EMFILE' || err.code === 'ENFILE'))
enqueue([go$open, [path, flags, mode, cb]])
else {
if (typeof cb === 'function')
cb.apply(this, arguments)
retry()
}
})
}
}
return fs
}
function enqueue (elem) {
debug('ENQUEUE', elem[0].name, elem[1])
fs[gracefulQueue].push(elem)
}
function retry () {
var elem = fs[gracefulQueue].shift()
if (elem) {
debug('RETRY', elem[0].name, elem[1])
elem[0].apply(null, elem[1])
}
}
/***/ }),
/***/ 7139:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
var Stream = __nccwpck_require__(2413).Stream
module.exports = legacy
function legacy (fs) {
return {
ReadStream: ReadStream,
WriteStream: WriteStream
}
function ReadStream (path, options) {
if (!(this instanceof ReadStream)) return new ReadStream(path, options);
Stream.call(this);
var self = this;
this.path = path;
this.fd = null;
this.readable = true;
this.paused = false;
this.flags = 'r';
this.mode = 438; /*=0666*/
this.bufferSize = 64 * 1024;
options = options || {};
// Mixin options into this
var keys = Object.keys(options);
for (var index = 0, length = keys.length; index < length; index++) {
var key = keys[index];
this[key] = options[key];
}
if (this.encoding) this.setEncoding(this.encoding);
if (this.start !== undefined) {
if ('number' !== typeof this.start) {
throw TypeError('start must be a Number');
}
if (this.end === undefined) {
this.end = Infinity;
} else if ('number' !== typeof this.end) {
throw TypeError('end must be a Number');
}
if (this.start > this.end) {
throw new Error('start must be <= end');
}
this.pos = this.start;
}
if (this.fd !== null) {
process.nextTick(function() {
self._read();
});
return;
}
fs.open(this.path, this.flags, this.mode, function (err, fd) {
if (err) {
self.emit('error', err);
self.readable = false;
return;
}
self.fd = fd;
self.emit('open', fd);
self._read();
})
}
function WriteStream (path, options) {
if (!(this instanceof WriteStream)) return new WriteStream(path, options);
Stream.call(this);
this.path = path;
this.fd = null;
this.writable = true;
this.flags = 'w';
this.encoding = 'binary';
this.mode = 438; /*=0666*/
this.bytesWritten = 0;
options = options || {};
// Mixin options into this
var keys = Object.keys(options);
for (var index = 0, length = keys.length; index < length; index++) {
var key = keys[index];
this[key] = options[key];
}
if (this.start !== undefined) {
if ('number' !== typeof this.start) {
throw TypeError('start must be a Number');
}
if (this.start < 0) {
throw new Error('start must be >= zero');
}
this.pos = this.start;
}
this.busy = false;
this._queue = [];
if (this.fd === null) {
this._open = fs.open;
this._queue.push([this._open, this.path, this.flags, this.mode, undefined]);
this.flush();
}
}
}
/***/ }),
/***/ 1772:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
var constants = __nccwpck_require__(7619)
var origCwd = process.cwd
var cwd = null
var platform = process.env.GRACEFUL_FS_PLATFORM || process.platform
process.cwd = function() {
if (!cwd)
cwd = origCwd.call(process)
return cwd
}
try {
process.cwd()
} catch (er) {}
// This check is needed until node.js 12 is required
if (typeof process.chdir === 'function') {
var chdir = process.chdir
process.chdir = function (d) {
cwd = null
chdir.call(process, d)
}
if (Object.setPrototypeOf) Object.setPrototypeOf(process.chdir, chdir)
}
module.exports = patch
function patch (fs) {
// (re-)implement some things that are known busted or missing.
// lchmod, broken prior to 0.6.2
// back-port the fix here.
if (constants.hasOwnProperty('O_SYMLINK') &&
process.version.match(/^v0\.6\.[0-2]|^v0\.5\./)) {
patchLchmod(fs)
}
// lutimes implementation, or no-op
if (!fs.lutimes) {
patchLutimes(fs)
}
// https://github.com/isaacs/node-graceful-fs/issues/4
// Chown should not fail on einval or eperm if non-root.
// It should not fail on enosys ever, as this just indicates
// that a fs doesn't support the intended operation.
fs.chown = chownFix(fs.chown)
fs.fchown = chownFix(fs.fchown)
fs.lchown = chownFix(fs.lchown)
fs.chmod = chmodFix(fs.chmod)
fs.fchmod = chmodFix(fs.fchmod)
fs.lchmod = chmodFix(fs.lchmod)
fs.chownSync = chownFixSync(fs.chownSync)
fs.fchownSync = chownFixSync(fs.fchownSync)
fs.lchownSync = chownFixSync(fs.lchownSync)
fs.chmodSync = chmodFixSync(fs.chmodSync)
fs.fchmodSync = chmodFixSync(fs.fchmodSync)
fs.lchmodSync = chmodFixSync(fs.lchmodSync)
fs.stat = statFix(fs.stat)
fs.fstat = statFix(fs.fstat)
fs.lstat = statFix(fs.lstat)
fs.statSync = statFixSync(fs.statSync)
fs.fstatSync = statFixSync(fs.fstatSync)
fs.lstatSync = statFixSync(fs.lstatSync)
// if lchmod/lchown do not exist, then make them no-ops
if (!fs.lchmod) {
fs.lchmod = function (path, mode, cb) {
if (cb) process.nextTick(cb)
}
fs.lchmodSync = function () {}
}
if (!fs.lchown) {
fs.lchown = function (path, uid, gid, cb) {
if (cb) process.nextTick(cb)
}
fs.lchownSync = function () {}
}
// on Windows, A/V software can lock the directory, causing this
// to fail with an EACCES or EPERM if the directory contains newly
// created files. Try again on failure, for up to 60 seconds.
// Set the timeout this long because some Windows Anti-Virus, such as Parity
// bit9, may lock files for up to a minute, causing npm package install
// failures. Also, take care to yield the scheduler. Windows scheduling gives
// CPU to a busy looping process, which can cause the program causing the lock
// contention to be starved of CPU by node, so the contention doesn't resolve.
if (platform === "win32") {
fs.rename = (function (fs$rename) { return function (from, to, cb) {
var start = Date.now()
var backoff = 0;
fs$rename(from, to, function CB (er) {
if (er
&& (er.code === "EACCES" || er.code === "EPERM")
&& Date.now() - start < 60000) {
setTimeout(function() {
fs.stat(to, function (stater, st) {
if (stater && stater.code === "ENOENT")
fs$rename(from, to, CB);
else
cb(er)
})
}, backoff)
if (backoff < 100)
backoff += 10;
return;
}
if (cb) cb(er)
})
}})(fs.rename)
}
// if read() returns EAGAIN, then just try it again.
fs.read = (function (fs$read) {
function read (fd, buffer, offset, length, position, callback_) {
var callback
if (callback_ && typeof callback_ === 'function') {
var eagCounter = 0
callback = function (er, _, __) {
if (er && er.code === 'EAGAIN' && eagCounter < 10) {
eagCounter ++
return fs$read.call(fs, fd, buffer, offset, length, position, callback)
}
callback_.apply(this, arguments)
}
}
return fs$read.call(fs, fd, buffer, offset, length, position, callback)
}
// This ensures `util.promisify` works as it does for native `fs.read`.
if (Object.setPrototypeOf) Object.setPrototypeOf(read, fs$read)
return read
})(fs.read)
fs.readSync = (function (fs$readSync) { return function (fd, buffer, offset, length, position) {
var eagCounter = 0
while (true) {
try {
return fs$readSync.call(fs, fd, buffer, offset, length, position)
} catch (er) {
if (er.code === 'EAGAIN' && eagCounter < 10) {
eagCounter ++
continue
}
throw er
}
}
}})(fs.readSync)
function patchLchmod (fs) {
fs.lchmod = function (path, mode, callback) {
fs.open( path
, constants.O_WRONLY | constants.O_SYMLINK
, mode
, function (err, fd) {
if (err) {
if (callback) callback(err)
return
}
// prefer to return the chmod error, if one occurs,
// but still try to close, and report closing errors if they occur.
fs.fchmod(fd, mode, function (err) {
fs.close(fd, function(err2) {
if (callback) callback(err || err2)
})
})
})
}
fs.lchmodSync = function (path, mode) {
var fd = fs.openSync(path, constants.O_WRONLY | constants.O_SYMLINK, mode)
// prefer to return the chmod error, if one occurs,
// but still try to close, and report closing errors if they occur.
var threw = true
var ret
try {
ret = fs.fchmodSync(fd, mode)
threw = false
} finally {
if (threw) {
try {
fs.closeSync(fd)
} catch (er) {}
} else {
fs.closeSync(fd)
}
}
return ret
}
}
function patchLutimes (fs) {
if (constants.hasOwnProperty("O_SYMLINK")) {
fs.lutimes = function (path, at, mt, cb) {
fs.open(path, constants.O_SYMLINK, function (er, fd) {
if (er) {
if (cb) cb(er)
return
}
fs.futimes(fd, at, mt, function (er) {
fs.close(fd, function (er2) {
if (cb) cb(er || er2)
})
})
})
}
fs.lutimesSync = function (path, at, mt) {
var fd = fs.openSync(path, constants.O_SYMLINK)
var ret
var threw = true
try {
ret = fs.futimesSync(fd, at, mt)
threw = false
} finally {
if (threw) {
try {
fs.closeSync(fd)
} catch (er) {}
} else {
fs.closeSync(fd)
}
}
return ret
}
} else {
fs.lutimes = function (_a, _b, _c, cb) { if (cb) process.nextTick(cb) }
fs.lutimesSync = function () {}
}
}
function chmodFix (orig) {
if (!orig) return orig
return function (target, mode, cb) {
return orig.call(fs, target, mode, function (er) {
if (chownErOk(er)) er = null
if (cb) cb.apply(this, arguments)
})
}
}
function chmodFixSync (orig) {
if (!orig) return orig
return function (target, mode) {
try {
return orig.call(fs, target, mode)
} catch (er) {
if (!chownErOk(er)) throw er
}
}
}
function chownFix (orig) {
if (!orig) return orig
return function (target, uid, gid, cb) {
return orig.call(fs, target, uid, gid, function (er) {
if (chownErOk(er)) er = null
if (cb) cb.apply(this, arguments)
})
}
}
function chownFixSync (orig) {
if (!orig) return orig
return function (target, uid, gid) {
try {
return orig.call(fs, target, uid, gid)
} catch (er) {
if (!chownErOk(er)) throw er
}
}
}
function statFix (orig) {
if (!orig) return orig
// Older versions of Node erroneously returned signed integers for
// uid + gid.
return function (target, options, cb) {
if (typeof options === 'function') {
cb = options
options = null
}
function callback (er, stats) {
if (stats) {
if (stats.uid < 0) stats.uid += 0x100000000
if (stats.gid < 0) stats.gid += 0x100000000
}
if (cb) cb.apply(this, arguments)
}
return options ? orig.call(fs, target, options, callback)
: orig.call(fs, target, callback)
}
}
function statFixSync (orig) {
if (!orig) return orig
// Older versions of Node erroneously returned signed integers for
// uid + gid.
return function (target, options) {
var stats = options ? orig.call(fs, target, options)
: orig.call(fs, target)
if (stats.uid < 0) stats.uid += 0x100000000
if (stats.gid < 0) stats.gid += 0x100000000
return stats;
}
}
// ENOSYS means that the fs doesn't support the op. Just ignore
// that, because it doesn't matter.
//
// if there's no getuid, or if getuid() is something other
// than 0, and the error is EINVAL or EPERM, then just ignore
// it.
//
// This specific case is a silent failure in cp, install, tar,
// and most other unix tools that manage permissions.
//
// When running as root, or if other types of errors are
// encountered, then it's strict.
function chownErOk (er) {
if (!er)
return true
if (er.code === "ENOSYS")
return true
var nonroot = !process.getuid || process.getuid() !== 0
if (nonroot) {
if (er.code === "EINVAL" || er.code === "EPERM")
return true
}
return false
}
}
/***/ }),
/***/ 8179:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
var wrappy = __nccwpck_require__(6923)
var reqs = Object.create(null)
var once = __nccwpck_require__(4742)
module.exports = wrappy(inflight)
function inflight (key, cb) {
if (reqs[key]) {
reqs[key].push(cb)
return null
} else {
reqs[key] = [cb]
return makeres(key)
}
}
function makeres (key) {
return once(function RES () {
var cbs = reqs[key]
var len = cbs.length
var args = slice(arguments)
// XXX It's somewhat ambiguous whether a new callback added in this
// pass should be queued for later execution if something in the
// list of callbacks throws, or if it should just be discarded.
// However, it's such an edge case that it hardly matters, and either
// choice is likely as surprising as the other.
// As it happens, we do go ahead and schedule it for later execution.
try {
for (var i = 0; i < len; i++) {
cbs[i].apply(null, args)
}
} finally {
if (cbs.length > len) {
// added more in the interim.
// de-zalgo, just in case, but don't call again.
cbs.splice(0, len)
process.nextTick(function () {
RES.apply(null, args)
})
} else {
delete reqs[key]
}
}
})
}
function slice (args) {
var length = args.length
var array = []
for (var i = 0; i < length; i++) array[i] = args[i]
return array
}
/***/ }),
/***/ 9424:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
try {
var util = __nccwpck_require__(1669);
/* istanbul ignore next */
if (typeof util.inherits !== 'function') throw '';
module.exports = util.inherits;
} catch (e) {
/* istanbul ignore next */
module.exports = __nccwpck_require__(7372);
}
/***/ }),
/***/ 7372:
/***/ ((module) => {
if (typeof Object.create === 'function') {
// implementation from standard node.js 'util' module
module.exports = function inherits(ctor, superCtor) {
if (superCtor) {
ctor.super_ = superCtor
ctor.prototype = Object.create(superCtor.prototype, {
constructor: {
value: ctor,
enumerable: false,
writable: true,
configurable: true
}
})
}
};
} else {
// old school shim for old browsers
module.exports = function inherits(ctor, superCtor) {
if (superCtor) {
ctor.super_ = superCtor
var TempCtor = function () {}
TempCtor.prototype = superCtor.prototype
ctor.prototype = new TempCtor()
ctor.prototype.constructor = ctor
}
}
}
/***/ }),
/***/ 8308:
/***/ ((module) => {
var toString = {}.toString;
module.exports = Array.isArray || function (arr) {
return toString.call(arr) == '[object Array]';
};
/***/ }),
/***/ 8784:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
var util = __nccwpck_require__(1669);
var PassThrough = __nccwpck_require__(802);
module.exports = {
Readable: Readable,
Writable: Writable
};
util.inherits(Readable, PassThrough);
util.inherits(Writable, PassThrough);
// Patch the given method of instance so that the callback
// is executed once, before the actual method is called the
// first time.
function beforeFirstCall(instance, method, callback) {
instance[method] = function() {
delete instance[method];
callback.apply(this, arguments);
return this[method].apply(this, arguments);
};
}
function Readable(fn, options) {
if (!(this instanceof Readable))
return new Readable(fn, options);
PassThrough.call(this, options);
beforeFirstCall(this, '_read', function() {
var source = fn.call(this, options);
var emit = this.emit.bind(this, 'error');
source.on('error', emit);
source.pipe(this);
});
this.emit('readable');
}
function Writable(fn, options) {
if (!(this instanceof Writable))
return new Writable(fn, options);
PassThrough.call(this, options);
beforeFirstCall(this, '_write', function() {
var destination = fn.call(this, options);
var emit = this.emit.bind(this, 'error');
destination.on('error', emit);
this.pipe(destination);
});
this.emit('writable');
}
/***/ }),
/***/ 6275:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// a duplex stream is just a stream that is both readable and writable.
// Since JS doesn't have multiple prototypal inheritance, this class
// prototypally inherits from Readable, and then parasitically from
// Writable.
/**/
var pna = __nccwpck_require__(1491);
/**/
/**/
var objectKeys = Object.keys || function (obj) {
var keys = [];
for (var key in obj) {
keys.push(key);
}return keys;
};
/**/
module.exports = Duplex;
/**/
var util = Object.create(__nccwpck_require__(1960));
util.inherits = __nccwpck_require__(9424);
/**/
var Readable = __nccwpck_require__(1512);
var Writable = __nccwpck_require__(6787);
util.inherits(Duplex, Readable);
{
// avoid scope creep, the keys array can then be collected
var keys = objectKeys(Writable.prototype);
for (var v = 0; v < keys.length; v++) {
var method = keys[v];
if (!Duplex.prototype[method]) Duplex.prototype[method] = Writable.prototype[method];
}
}
function Duplex(options) {
if (!(this instanceof Duplex)) return new Duplex(options);
Readable.call(this, options);
Writable.call(this, options);
if (options && options.readable === false) this.readable = false;
if (options && options.writable === false) this.writable = false;
this.allowHalfOpen = true;
if (options && options.allowHalfOpen === false) this.allowHalfOpen = false;
this.once('end', onend);
}
Object.defineProperty(Duplex.prototype, 'writableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function () {
return this._writableState.highWaterMark;
}
});
// the no-half-open enforcer
function onend() {
// if we allow half-open state, or if the writable side ended,
// then we're ok.
if (this.allowHalfOpen || this._writableState.ended) return;
// no more data can be written.
// But allow more writes to happen in this tick.
pna.nextTick(onEndNT, this);
}
function onEndNT(self) {
self.end();
}
Object.defineProperty(Duplex.prototype, 'destroyed', {
get: function () {
if (this._readableState === undefined || this._writableState === undefined) {
return false;
}
return this._readableState.destroyed && this._writableState.destroyed;
},
set: function (value) {
// we ignore the value if the stream
// has not been initialized yet
if (this._readableState === undefined || this._writableState === undefined) {
return;
}
// backward compatibility, the user is explicitly
// managing destroyed
this._readableState.destroyed = value;
this._writableState.destroyed = value;
}
});
Duplex.prototype._destroy = function (err, cb) {
this.push(null);
this.end();
pna.nextTick(cb, err);
};
/***/ }),
/***/ 7498:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// a passthrough stream.
// basically just the most minimal sort of Transform stream.
// Every written chunk gets output as-is.
module.exports = PassThrough;
var Transform = __nccwpck_require__(3298);
/**/
var util = Object.create(__nccwpck_require__(1960));
util.inherits = __nccwpck_require__(9424);
/**/
util.inherits(PassThrough, Transform);
function PassThrough(options) {
if (!(this instanceof PassThrough)) return new PassThrough(options);
Transform.call(this, options);
}
PassThrough.prototype._transform = function (chunk, encoding, cb) {
cb(null, chunk);
};
/***/ }),
/***/ 1512:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
/**/
var pna = __nccwpck_require__(1491);
/**/
module.exports = Readable;
/**/
var isArray = __nccwpck_require__(8308);
/**/
/**/
var Duplex;
/**/
Readable.ReadableState = ReadableState;
/**/
var EE = __nccwpck_require__(8614).EventEmitter;
var EElistenerCount = function (emitter, type) {
return emitter.listeners(type).length;
};
/**/
/**/
var Stream = __nccwpck_require__(9658);
/**/
/**/
var Buffer = __nccwpck_require__(7677).Buffer;
var OurUint8Array = global.Uint8Array || function () {};
function _uint8ArrayToBuffer(chunk) {
return Buffer.from(chunk);
}
function _isUint8Array(obj) {
return Buffer.isBuffer(obj) || obj instanceof OurUint8Array;
}
/**/
/**/
var util = Object.create(__nccwpck_require__(1960));
util.inherits = __nccwpck_require__(9424);
/**/
/**/
var debugUtil = __nccwpck_require__(1669);
var debug = void 0;
if (debugUtil && debugUtil.debuglog) {
debug = debugUtil.debuglog('stream');
} else {
debug = function () {};
}
/**/
var BufferList = __nccwpck_require__(1023);
var destroyImpl = __nccwpck_require__(4269);
var StringDecoder;
util.inherits(Readable, Stream);
var kProxyEvents = ['error', 'close', 'destroy', 'pause', 'resume'];
function prependListener(emitter, event, fn) {
// Sadly this is not cacheable as some libraries bundle their own
// event emitter implementation with them.
if (typeof emitter.prependListener === 'function') return emitter.prependListener(event, fn);
// This is a hack to make sure that our error handler is attached before any
// userland ones. NEVER DO THIS. This is here only because this code needs
// to continue to work with older versions of Node.js that do not include
// the prependListener() method. The goal is to eventually remove this hack.
if (!emitter._events || !emitter._events[event]) emitter.on(event, fn);else if (isArray(emitter._events[event])) emitter._events[event].unshift(fn);else emitter._events[event] = [fn, emitter._events[event]];
}
function ReadableState(options, stream) {
Duplex = Duplex || __nccwpck_require__(6275);
options = options || {};
// Duplex streams are both readable and writable, but share
// the same options object.
// However, some cases require setting options to different
// values for the readable and the writable sides of the duplex stream.
// These options can be provided separately as readableXXX and writableXXX.
var isDuplex = stream instanceof Duplex;
// object stream flag. Used to make read(n) ignore n and to
// make all the buffer merging and length checks go away
this.objectMode = !!options.objectMode;
if (isDuplex) this.objectMode = this.objectMode || !!options.readableObjectMode;
// the point at which it stops calling _read() to fill the buffer
// Note: 0 is a valid value, means "don't call _read preemptively ever"
var hwm = options.highWaterMark;
var readableHwm = options.readableHighWaterMark;
var defaultHwm = this.objectMode ? 16 : 16 * 1024;
if (hwm || hwm === 0) this.highWaterMark = hwm;else if (isDuplex && (readableHwm || readableHwm === 0)) this.highWaterMark = readableHwm;else this.highWaterMark = defaultHwm;
// cast to ints.
this.highWaterMark = Math.floor(this.highWaterMark);
// A linked list is used to store data chunks instead of an array because the
// linked list can remove elements from the beginning faster than
// array.shift()
this.buffer = new BufferList();
this.length = 0;
this.pipes = null;
this.pipesCount = 0;
this.flowing = null;
this.ended = false;
this.endEmitted = false;
this.reading = false;
// a flag to be able to tell if the event 'readable'/'data' is emitted
// immediately, or on a later tick. We set this to true at first, because
// any actions that shouldn't happen until "later" should generally also
// not happen before the first read call.
this.sync = true;
// whenever we return null, then we set a flag to say
// that we're awaiting a 'readable' event emission.
this.needReadable = false;
this.emittedReadable = false;
this.readableListening = false;
this.resumeScheduled = false;
// has it been destroyed
this.destroyed = false;
// Crypto is kind of old and crusty. Historically, its default string
// encoding is 'binary' so we have to make this configurable.
// Everything else in the universe uses 'utf8', though.
this.defaultEncoding = options.defaultEncoding || 'utf8';
// the number of writers that are awaiting a drain event in .pipe()s
this.awaitDrain = 0;
// if true, a maybeReadMore has been scheduled
this.readingMore = false;
this.decoder = null;
this.encoding = null;
if (options.encoding) {
if (!StringDecoder) StringDecoder = __nccwpck_require__(6298)/* .StringDecoder */ .s;
this.decoder = new StringDecoder(options.encoding);
this.encoding = options.encoding;
}
}
function Readable(options) {
Duplex = Duplex || __nccwpck_require__(6275);
if (!(this instanceof Readable)) return new Readable(options);
this._readableState = new ReadableState(options, this);
// legacy
this.readable = true;
if (options) {
if (typeof options.read === 'function') this._read = options.read;
if (typeof options.destroy === 'function') this._destroy = options.destroy;
}
Stream.call(this);
}
Object.defineProperty(Readable.prototype, 'destroyed', {
get: function () {
if (this._readableState === undefined) {
return false;
}
return this._readableState.destroyed;
},
set: function (value) {
// we ignore the value if the stream
// has not been initialized yet
if (!this._readableState) {
return;
}
// backward compatibility, the user is explicitly
// managing destroyed
this._readableState.destroyed = value;
}
});
Readable.prototype.destroy = destroyImpl.destroy;
Readable.prototype._undestroy = destroyImpl.undestroy;
Readable.prototype._destroy = function (err, cb) {
this.push(null);
cb(err);
};
// Manually shove something into the read() buffer.
// This returns true if the highWaterMark has not been hit yet,
// similar to how Writable.write() returns true if you should
// write() some more.
Readable.prototype.push = function (chunk, encoding) {
var state = this._readableState;
var skipChunkCheck;
if (!state.objectMode) {
if (typeof chunk === 'string') {
encoding = encoding || state.defaultEncoding;
if (encoding !== state.encoding) {
chunk = Buffer.from(chunk, encoding);
encoding = '';
}
skipChunkCheck = true;
}
} else {
skipChunkCheck = true;
}
return readableAddChunk(this, chunk, encoding, false, skipChunkCheck);
};
// Unshift should *always* be something directly out of read()
Readable.prototype.unshift = function (chunk) {
return readableAddChunk(this, chunk, null, true, false);
};
function readableAddChunk(stream, chunk, encoding, addToFront, skipChunkCheck) {
var state = stream._readableState;
if (chunk === null) {
state.reading = false;
onEofChunk(stream, state);
} else {
var er;
if (!skipChunkCheck) er = chunkInvalid(state, chunk);
if (er) {
stream.emit('error', er);
} else if (state.objectMode || chunk && chunk.length > 0) {
if (typeof chunk !== 'string' && !state.objectMode && Object.getPrototypeOf(chunk) !== Buffer.prototype) {
chunk = _uint8ArrayToBuffer(chunk);
}
if (addToFront) {
if (state.endEmitted) stream.emit('error', new Error('stream.unshift() after end event'));else addChunk(stream, state, chunk, true);
} else if (state.ended) {
stream.emit('error', new Error('stream.push() after EOF'));
} else {
state.reading = false;
if (state.decoder && !encoding) {
chunk = state.decoder.write(chunk);
if (state.objectMode || chunk.length !== 0) addChunk(stream, state, chunk, false);else maybeReadMore(stream, state);
} else {
addChunk(stream, state, chunk, false);
}
}
} else if (!addToFront) {
state.reading = false;
}
}
return needMoreData(state);
}
function addChunk(stream, state, chunk, addToFront) {
if (state.flowing && state.length === 0 && !state.sync) {
stream.emit('data', chunk);
stream.read(0);
} else {
// update the buffer info.
state.length += state.objectMode ? 1 : chunk.length;
if (addToFront) state.buffer.unshift(chunk);else state.buffer.push(chunk);
if (state.needReadable) emitReadable(stream);
}
maybeReadMore(stream, state);
}
function chunkInvalid(state, chunk) {
var er;
if (!_isUint8Array(chunk) && typeof chunk !== 'string' && chunk !== undefined && !state.objectMode) {
er = new TypeError('Invalid non-string/buffer chunk');
}
return er;
}
// if it's past the high water mark, we can push in some more.
// Also, if we have no data yet, we can stand some
// more bytes. This is to work around cases where hwm=0,
// such as the repl. Also, if the push() triggered a
// readable event, and the user called read(largeNumber) such that
// needReadable was set, then we ought to push more, so that another
// 'readable' event will be triggered.
function needMoreData(state) {
return !state.ended && (state.needReadable || state.length < state.highWaterMark || state.length === 0);
}
Readable.prototype.isPaused = function () {
return this._readableState.flowing === false;
};
// backwards compatibility.
Readable.prototype.setEncoding = function (enc) {
if (!StringDecoder) StringDecoder = __nccwpck_require__(6298)/* .StringDecoder */ .s;
this._readableState.decoder = new StringDecoder(enc);
this._readableState.encoding = enc;
return this;
};
// Don't raise the hwm > 8MB
var MAX_HWM = 0x800000;
function computeNewHighWaterMark(n) {
if (n >= MAX_HWM) {
n = MAX_HWM;
} else {
// Get the next highest power of 2 to prevent increasing hwm excessively in
// tiny amounts
n--;
n |= n >>> 1;
n |= n >>> 2;
n |= n >>> 4;
n |= n >>> 8;
n |= n >>> 16;
n++;
}
return n;
}
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function howMuchToRead(n, state) {
if (n <= 0 || state.length === 0 && state.ended) return 0;
if (state.objectMode) return 1;
if (n !== n) {
// Only flow one buffer at a time
if (state.flowing && state.length) return state.buffer.head.data.length;else return state.length;
}
// If we're asking for more than the current hwm, then raise the hwm.
if (n > state.highWaterMark) state.highWaterMark = computeNewHighWaterMark(n);
if (n <= state.length) return n;
// Don't have enough
if (!state.ended) {
state.needReadable = true;
return 0;
}
return state.length;
}
// you can override either this method, or the async _read(n) below.
Readable.prototype.read = function (n) {
debug('read', n);
n = parseInt(n, 10);
var state = this._readableState;
var nOrig = n;
if (n !== 0) state.emittedReadable = false;
// if we're doing read(0) to trigger a readable event, but we
// already have a bunch of data in the buffer, then just trigger
// the 'readable' event and move on.
if (n === 0 && state.needReadable && (state.length >= state.highWaterMark || state.ended)) {
debug('read: emitReadable', state.length, state.ended);
if (state.length === 0 && state.ended) endReadable(this);else emitReadable(this);
return null;
}
n = howMuchToRead(n, state);
// if we've ended, and we're now clear, then finish it up.
if (n === 0 && state.ended) {
if (state.length === 0) endReadable(this);
return null;
}
// All the actual chunk generation logic needs to be
// *below* the call to _read. The reason is that in certain
// synthetic stream cases, such as passthrough streams, _read
// may be a completely synchronous operation which may change
// the state of the read buffer, providing enough data when
// before there was *not* enough.
//
// So, the steps are:
// 1. Figure out what the state of things will be after we do
// a read from the buffer.
//
// 2. If that resulting state will trigger a _read, then call _read.
// Note that this may be asynchronous, or synchronous. Yes, it is
// deeply ugly to write APIs this way, but that still doesn't mean
// that the Readable class should behave improperly, as streams are
// designed to be sync/async agnostic.
// Take note if the _read call is sync or async (ie, if the read call
// has returned yet), so that we know whether or not it's safe to emit
// 'readable' etc.
//
// 3. Actually pull the requested chunks out of the buffer and return.
// if we need a readable event, then we need to do some reading.
var doRead = state.needReadable;
debug('need readable', doRead);
// if we currently have less than the highWaterMark, then also read some
if (state.length === 0 || state.length - n < state.highWaterMark) {
doRead = true;
debug('length less than watermark', doRead);
}
// however, if we've ended, then there's no point, and if we're already
// reading, then it's unnecessary.
if (state.ended || state.reading) {
doRead = false;
debug('reading or ended', doRead);
} else if (doRead) {
debug('do read');
state.reading = true;
state.sync = true;
// if the length is currently zero, then we *need* a readable event.
if (state.length === 0) state.needReadable = true;
// call internal read method
this._read(state.highWaterMark);
state.sync = false;
// If _read pushed data synchronously, then `reading` will be false,
// and we need to re-evaluate how much data we can return to the user.
if (!state.reading) n = howMuchToRead(nOrig, state);
}
var ret;
if (n > 0) ret = fromList(n, state);else ret = null;
if (ret === null) {
state.needReadable = true;
n = 0;
} else {
state.length -= n;
}
if (state.length === 0) {
// If we have nothing in the buffer, then we want to know
// as soon as we *do* get something into the buffer.
if (!state.ended) state.needReadable = true;
// If we tried to read() past the EOF, then emit end on the next tick.
if (nOrig !== n && state.ended) endReadable(this);
}
if (ret !== null) this.emit('data', ret);
return ret;
};
function onEofChunk(stream, state) {
if (state.ended) return;
if (state.decoder) {
var chunk = state.decoder.end();
if (chunk && chunk.length) {
state.buffer.push(chunk);
state.length += state.objectMode ? 1 : chunk.length;
}
}
state.ended = true;
// emit 'readable' now to make sure it gets picked up.
emitReadable(stream);
}
// Don't emit readable right away in sync mode, because this can trigger
// another read() call => stack overflow. This way, it might trigger
// a nextTick recursion warning, but that's not so bad.
function emitReadable(stream) {
var state = stream._readableState;
state.needReadable = false;
if (!state.emittedReadable) {
debug('emitReadable', state.flowing);
state.emittedReadable = true;
if (state.sync) pna.nextTick(emitReadable_, stream);else emitReadable_(stream);
}
}
function emitReadable_(stream) {
debug('emit readable');
stream.emit('readable');
flow(stream);
}
// at this point, the user has presumably seen the 'readable' event,
// and called read() to consume some data. that may have triggered
// in turn another _read(n) call, in which case reading = true if
// it's in progress.
// However, if we're not ended, or reading, and the length < hwm,
// then go ahead and try to read some more preemptively.
function maybeReadMore(stream, state) {
if (!state.readingMore) {
state.readingMore = true;
pna.nextTick(maybeReadMore_, stream, state);
}
}
function maybeReadMore_(stream, state) {
var len = state.length;
while (!state.reading && !state.flowing && !state.ended && state.length < state.highWaterMark) {
debug('maybeReadMore read 0');
stream.read(0);
if (len === state.length)
// didn't get any data, stop spinning.
break;else len = state.length;
}
state.readingMore = false;
}
// abstract method. to be overridden in specific implementation classes.
// call cb(er, data) where data is <= n in length.
// for virtual (non-string, non-buffer) streams, "length" is somewhat
// arbitrary, and perhaps not very meaningful.
Readable.prototype._read = function (n) {
this.emit('error', new Error('_read() is not implemented'));
};
Readable.prototype.pipe = function (dest, pipeOpts) {
var src = this;
var state = this._readableState;
switch (state.pipesCount) {
case 0:
state.pipes = dest;
break;
case 1:
state.pipes = [state.pipes, dest];
break;
default:
state.pipes.push(dest);
break;
}
state.pipesCount += 1;
debug('pipe count=%d opts=%j', state.pipesCount, pipeOpts);
var doEnd = (!pipeOpts || pipeOpts.end !== false) && dest !== process.stdout && dest !== process.stderr;
var endFn = doEnd ? onend : unpipe;
if (state.endEmitted) pna.nextTick(endFn);else src.once('end', endFn);
dest.on('unpipe', onunpipe);
function onunpipe(readable, unpipeInfo) {
debug('onunpipe');
if (readable === src) {
if (unpipeInfo && unpipeInfo.hasUnpiped === false) {
unpipeInfo.hasUnpiped = true;
cleanup();
}
}
}
function onend() {
debug('onend');
dest.end();
}
// when the dest drains, it reduces the awaitDrain counter
// on the source. This would be more elegant with a .once()
// handler in flow(), but adding and removing repeatedly is
// too slow.
var ondrain = pipeOnDrain(src);
dest.on('drain', ondrain);
var cleanedUp = false;
function cleanup() {
debug('cleanup');
// cleanup event handlers once the pipe is broken
dest.removeListener('close', onclose);
dest.removeListener('finish', onfinish);
dest.removeListener('drain', ondrain);
dest.removeListener('error', onerror);
dest.removeListener('unpipe', onunpipe);
src.removeListener('end', onend);
src.removeListener('end', unpipe);
src.removeListener('data', ondata);
cleanedUp = true;
// if the reader is waiting for a drain event from this
// specific writer, then it would cause it to never start
// flowing again.
// So, if this is awaiting a drain, then we just call it now.
// If we don't know, then assume that we are waiting for one.
if (state.awaitDrain && (!dest._writableState || dest._writableState.needDrain)) ondrain();
}
// If the user pushes more data while we're writing to dest then we'll end up
// in ondata again. However, we only want to increase awaitDrain once because
// dest will only emit one 'drain' event for the multiple writes.
// => Introduce a guard on increasing awaitDrain.
var increasedAwaitDrain = false;
src.on('data', ondata);
function ondata(chunk) {
debug('ondata');
increasedAwaitDrain = false;
var ret = dest.write(chunk);
if (false === ret && !increasedAwaitDrain) {
// If the user unpiped during `dest.write()`, it is possible
// to get stuck in a permanently paused state if that write
// also returned false.
// => Check whether `dest` is still a piping destination.
if ((state.pipesCount === 1 && state.pipes === dest || state.pipesCount > 1 && indexOf(state.pipes, dest) !== -1) && !cleanedUp) {
debug('false write response, pause', src._readableState.awaitDrain);
src._readableState.awaitDrain++;
increasedAwaitDrain = true;
}
src.pause();
}
}
// if the dest has an error, then stop piping into it.
// however, don't suppress the throwing behavior for this.
function onerror(er) {
debug('onerror', er);
unpipe();
dest.removeListener('error', onerror);
if (EElistenerCount(dest, 'error') === 0) dest.emit('error', er);
}
// Make sure our error handler is attached before userland ones.
prependListener(dest, 'error', onerror);
// Both close and finish should trigger unpipe, but only once.
function onclose() {
dest.removeListener('finish', onfinish);
unpipe();
}
dest.once('close', onclose);
function onfinish() {
debug('onfinish');
dest.removeListener('close', onclose);
unpipe();
}
dest.once('finish', onfinish);
function unpipe() {
debug('unpipe');
src.unpipe(dest);
}
// tell the dest that it's being piped to
dest.emit('pipe', src);
// start the flow if it hasn't been started already.
if (!state.flowing) {
debug('pipe resume');
src.resume();
}
return dest;
};
function pipeOnDrain(src) {
return function () {
var state = src._readableState;
debug('pipeOnDrain', state.awaitDrain);
if (state.awaitDrain) state.awaitDrain--;
if (state.awaitDrain === 0 && EElistenerCount(src, 'data')) {
state.flowing = true;
flow(src);
}
};
}
Readable.prototype.unpipe = function (dest) {
var state = this._readableState;
var unpipeInfo = { hasUnpiped: false };
// if we're not piping anywhere, then do nothing.
if (state.pipesCount === 0) return this;
// just one destination. most common case.
if (state.pipesCount === 1) {
// passed in one, but it's not the right one.
if (dest && dest !== state.pipes) return this;
if (!dest) dest = state.pipes;
// got a match.
state.pipes = null;
state.pipesCount = 0;
state.flowing = false;
if (dest) dest.emit('unpipe', this, unpipeInfo);
return this;
}
// slow case. multiple pipe destinations.
if (!dest) {
// remove all.
var dests = state.pipes;
var len = state.pipesCount;
state.pipes = null;
state.pipesCount = 0;
state.flowing = false;
for (var i = 0; i < len; i++) {
dests[i].emit('unpipe', this, unpipeInfo);
}return this;
}
// try to find the right one.
var index = indexOf(state.pipes, dest);
if (index === -1) return this;
state.pipes.splice(index, 1);
state.pipesCount -= 1;
if (state.pipesCount === 1) state.pipes = state.pipes[0];
dest.emit('unpipe', this, unpipeInfo);
return this;
};
// set up data events if they are asked for
// Ensure readable listeners eventually get something
Readable.prototype.on = function (ev, fn) {
var res = Stream.prototype.on.call(this, ev, fn);
if (ev === 'data') {
// Start flowing on next tick if stream isn't explicitly paused
if (this._readableState.flowing !== false) this.resume();
} else if (ev === 'readable') {
var state = this._readableState;
if (!state.endEmitted && !state.readableListening) {
state.readableListening = state.needReadable = true;
state.emittedReadable = false;
if (!state.reading) {
pna.nextTick(nReadingNextTick, this);
} else if (state.length) {
emitReadable(this);
}
}
}
return res;
};
Readable.prototype.addListener = Readable.prototype.on;
function nReadingNextTick(self) {
debug('readable nexttick read 0');
self.read(0);
}
// pause() and resume() are remnants of the legacy readable stream API
// If the user uses them, then switch into old mode.
Readable.prototype.resume = function () {
var state = this._readableState;
if (!state.flowing) {
debug('resume');
state.flowing = true;
resume(this, state);
}
return this;
};
function resume(stream, state) {
if (!state.resumeScheduled) {
state.resumeScheduled = true;
pna.nextTick(resume_, stream, state);
}
}
function resume_(stream, state) {
if (!state.reading) {
debug('resume read 0');
stream.read(0);
}
state.resumeScheduled = false;
state.awaitDrain = 0;
stream.emit('resume');
flow(stream);
if (state.flowing && !state.reading) stream.read(0);
}
Readable.prototype.pause = function () {
debug('call pause flowing=%j', this._readableState.flowing);
if (false !== this._readableState.flowing) {
debug('pause');
this._readableState.flowing = false;
this.emit('pause');
}
return this;
};
function flow(stream) {
var state = stream._readableState;
debug('flow', state.flowing);
while (state.flowing && stream.read() !== null) {}
}
// wrap an old-style stream as the async data source.
// This is *not* part of the readable stream interface.
// It is an ugly unfortunate mess of history.
Readable.prototype.wrap = function (stream) {
var _this = this;
var state = this._readableState;
var paused = false;
stream.on('end', function () {
debug('wrapped end');
if (state.decoder && !state.ended) {
var chunk = state.decoder.end();
if (chunk && chunk.length) _this.push(chunk);
}
_this.push(null);
});
stream.on('data', function (chunk) {
debug('wrapped data');
if (state.decoder) chunk = state.decoder.write(chunk);
// don't skip over falsy values in objectMode
if (state.objectMode && (chunk === null || chunk === undefined)) return;else if (!state.objectMode && (!chunk || !chunk.length)) return;
var ret = _this.push(chunk);
if (!ret) {
paused = true;
stream.pause();
}
});
// proxy all the other methods.
// important when wrapping filters and duplexes.
for (var i in stream) {
if (this[i] === undefined && typeof stream[i] === 'function') {
this[i] = function (method) {
return function () {
return stream[method].apply(stream, arguments);
};
}(i);
}
}
// proxy certain important events.
for (var n = 0; n < kProxyEvents.length; n++) {
stream.on(kProxyEvents[n], this.emit.bind(this, kProxyEvents[n]));
}
// when we try to consume some more bytes, simply unpause the
// underlying stream.
this._read = function (n) {
debug('wrapped _read', n);
if (paused) {
paused = false;
stream.resume();
}
};
return this;
};
Object.defineProperty(Readable.prototype, 'readableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function () {
return this._readableState.highWaterMark;
}
});
// exposed for testing purposes only.
Readable._fromList = fromList;
// Pluck off n bytes from an array of buffers.
// Length is the combined lengths of all the buffers in the list.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function fromList(n, state) {
// nothing buffered
if (state.length === 0) return null;
var ret;
if (state.objectMode) ret = state.buffer.shift();else if (!n || n >= state.length) {
// read it all, truncate the list
if (state.decoder) ret = state.buffer.join('');else if (state.buffer.length === 1) ret = state.buffer.head.data;else ret = state.buffer.concat(state.length);
state.buffer.clear();
} else {
// read part of list
ret = fromListPartial(n, state.buffer, state.decoder);
}
return ret;
}
// Extracts only enough buffered data to satisfy the amount requested.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function fromListPartial(n, list, hasStrings) {
var ret;
if (n < list.head.data.length) {
// slice is the same for buffers and strings
ret = list.head.data.slice(0, n);
list.head.data = list.head.data.slice(n);
} else if (n === list.head.data.length) {
// first chunk is a perfect match
ret = list.shift();
} else {
// result spans more than one buffer
ret = hasStrings ? copyFromBufferString(n, list) : copyFromBuffer(n, list);
}
return ret;
}
// Copies a specified amount of characters from the list of buffered data
// chunks.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function copyFromBufferString(n, list) {
var p = list.head;
var c = 1;
var ret = p.data;
n -= ret.length;
while (p = p.next) {
var str = p.data;
var nb = n > str.length ? str.length : n;
if (nb === str.length) ret += str;else ret += str.slice(0, n);
n -= nb;
if (n === 0) {
if (nb === str.length) {
++c;
if (p.next) list.head = p.next;else list.head = list.tail = null;
} else {
list.head = p;
p.data = str.slice(nb);
}
break;
}
++c;
}
list.length -= c;
return ret;
}
// Copies a specified amount of bytes from the list of buffered data chunks.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function copyFromBuffer(n, list) {
var ret = Buffer.allocUnsafe(n);
var p = list.head;
var c = 1;
p.data.copy(ret);
n -= p.data.length;
while (p = p.next) {
var buf = p.data;
var nb = n > buf.length ? buf.length : n;
buf.copy(ret, ret.length - n, 0, nb);
n -= nb;
if (n === 0) {
if (nb === buf.length) {
++c;
if (p.next) list.head = p.next;else list.head = list.tail = null;
} else {
list.head = p;
p.data = buf.slice(nb);
}
break;
}
++c;
}
list.length -= c;
return ret;
}
function endReadable(stream) {
var state = stream._readableState;
// If we get here before consuming all the bytes, then that is a
// bug in node. Should never happen.
if (state.length > 0) throw new Error('"endReadable()" called on non-empty stream');
if (!state.endEmitted) {
state.ended = true;
pna.nextTick(endReadableNT, state, stream);
}
}
function endReadableNT(state, stream) {
// Check that we didn't get one last unshift.
if (!state.endEmitted && state.length === 0) {
state.endEmitted = true;
stream.readable = false;
stream.emit('end');
}
}
function indexOf(xs, x) {
for (var i = 0, l = xs.length; i < l; i++) {
if (xs[i] === x) return i;
}
return -1;
}
/***/ }),
/***/ 3298:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// a transform stream is a readable/writable stream where you do
// something with the data. Sometimes it's called a "filter",
// but that's not a great name for it, since that implies a thing where
// some bits pass through, and others are simply ignored. (That would
// be a valid example of a transform, of course.)
//
// While the output is causally related to the input, it's not a
// necessarily symmetric or synchronous transformation. For example,
// a zlib stream might take multiple plain-text writes(), and then
// emit a single compressed chunk some time in the future.
//
// Here's how this works:
//
// The Transform stream has all the aspects of the readable and writable
// stream classes. When you write(chunk), that calls _write(chunk,cb)
// internally, and returns false if there's a lot of pending writes
// buffered up. When you call read(), that calls _read(n) until
// there's enough pending readable data buffered up.
//
// In a transform stream, the written data is placed in a buffer. When
// _read(n) is called, it transforms the queued up data, calling the
// buffered _write cb's as it consumes chunks. If consuming a single
// written chunk would result in multiple output chunks, then the first
// outputted bit calls the readcb, and subsequent chunks just go into
// the read buffer, and will cause it to emit 'readable' if necessary.
//
// This way, back-pressure is actually determined by the reading side,
// since _read has to be called to start processing a new chunk. However,
// a pathological inflate type of transform can cause excessive buffering
// here. For example, imagine a stream where every byte of input is
// interpreted as an integer from 0-255, and then results in that many
// bytes of output. Writing the 4 bytes {ff,ff,ff,ff} would result in
// 1kb of data being output. In this case, you could write a very small
// amount of input, and end up with a very large amount of output. In
// such a pathological inflating mechanism, there'd be no way to tell
// the system to stop doing the transform. A single 4MB write could
// cause the system to run out of memory.
//
// However, even in such a pathological case, only a single written chunk
// would be consumed, and then the rest would wait (un-transformed) until
// the results of the previous transformed chunk were consumed.
module.exports = Transform;
var Duplex = __nccwpck_require__(6275);
/**/
var util = Object.create(__nccwpck_require__(1960));
util.inherits = __nccwpck_require__(9424);
/**/
util.inherits(Transform, Duplex);
function afterTransform(er, data) {
var ts = this._transformState;
ts.transforming = false;
var cb = ts.writecb;
if (!cb) {
return this.emit('error', new Error('write callback called multiple times'));
}
ts.writechunk = null;
ts.writecb = null;
if (data != null) // single equals check for both `null` and `undefined`
this.push(data);
cb(er);
var rs = this._readableState;
rs.reading = false;
if (rs.needReadable || rs.length < rs.highWaterMark) {
this._read(rs.highWaterMark);
}
}
function Transform(options) {
if (!(this instanceof Transform)) return new Transform(options);
Duplex.call(this, options);
this._transformState = {
afterTransform: afterTransform.bind(this),
needTransform: false,
transforming: false,
writecb: null,
writechunk: null,
writeencoding: null
};
// start out asking for a readable event once data is transformed.
this._readableState.needReadable = true;
// we have implemented the _read method, and done the other things
// that Readable wants before the first _read call, so unset the
// sync guard flag.
this._readableState.sync = false;
if (options) {
if (typeof options.transform === 'function') this._transform = options.transform;
if (typeof options.flush === 'function') this._flush = options.flush;
}
// When the writable side finishes, then flush out anything remaining.
this.on('prefinish', prefinish);
}
function prefinish() {
var _this = this;
if (typeof this._flush === 'function') {
this._flush(function (er, data) {
done(_this, er, data);
});
} else {
done(this, null, null);
}
}
Transform.prototype.push = function (chunk, encoding) {
this._transformState.needTransform = false;
return Duplex.prototype.push.call(this, chunk, encoding);
};
// This is the part where you do stuff!
// override this function in implementation classes.
// 'chunk' is an input chunk.
//
// Call `push(newChunk)` to pass along transformed output
// to the readable side. You may call 'push' zero or more times.
//
// Call `cb(err)` when you are done with this chunk. If you pass
// an error, then that'll put the hurt on the whole operation. If you
// never call cb(), then you'll never get another chunk.
Transform.prototype._transform = function (chunk, encoding, cb) {
throw new Error('_transform() is not implemented');
};
Transform.prototype._write = function (chunk, encoding, cb) {
var ts = this._transformState;
ts.writecb = cb;
ts.writechunk = chunk;
ts.writeencoding = encoding;
if (!ts.transforming) {
var rs = this._readableState;
if (ts.needTransform || rs.needReadable || rs.length < rs.highWaterMark) this._read(rs.highWaterMark);
}
};
// Doesn't matter what the args are here.
// _transform does all the work.
// That we got here means that the readable side wants more data.
Transform.prototype._read = function (n) {
var ts = this._transformState;
if (ts.writechunk !== null && ts.writecb && !ts.transforming) {
ts.transforming = true;
this._transform(ts.writechunk, ts.writeencoding, ts.afterTransform);
} else {
// mark that we need a transform, so that any data that comes in
// will get processed, now that we've asked for it.
ts.needTransform = true;
}
};
Transform.prototype._destroy = function (err, cb) {
var _this2 = this;
Duplex.prototype._destroy.call(this, err, function (err2) {
cb(err2);
_this2.emit('close');
});
};
function done(stream, er, data) {
if (er) return stream.emit('error', er);
if (data != null) // single equals check for both `null` and `undefined`
stream.push(data);
// if there's nothing in the write buffer, then that means
// that nothing more will ever be provided
if (stream._writableState.length) throw new Error('Calling transform done when ws.length != 0');
if (stream._transformState.transforming) throw new Error('Calling transform done when still transforming');
return stream.push(null);
}
/***/ }),
/***/ 6787:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// A bit simpler than readable streams.
// Implement an async ._write(chunk, encoding, cb), and it'll handle all
// the drain event emission and buffering.
/**/
var pna = __nccwpck_require__(1491);
/**/
module.exports = Writable;
/* */
function WriteReq(chunk, encoding, cb) {
this.chunk = chunk;
this.encoding = encoding;
this.callback = cb;
this.next = null;
}
// It seems a linked list but it is not
// there will be only 2 of these for each stream
function CorkedRequest(state) {
var _this = this;
this.next = null;
this.entry = null;
this.finish = function () {
onCorkedFinish(_this, state);
};
}
/* */
/**/
var asyncWrite = !process.browser && ['v0.10', 'v0.9.'].indexOf(process.version.slice(0, 5)) > -1 ? setImmediate : pna.nextTick;
/**/
/**/
var Duplex;
/**/
Writable.WritableState = WritableState;
/**/
var util = Object.create(__nccwpck_require__(1960));
util.inherits = __nccwpck_require__(9424);
/**/
/**/
var internalUtil = {
deprecate: __nccwpck_require__(9461)
};
/**/
/**/
var Stream = __nccwpck_require__(9658);
/**/
/**/
var Buffer = __nccwpck_require__(7677).Buffer;
var OurUint8Array = global.Uint8Array || function () {};
function _uint8ArrayToBuffer(chunk) {
return Buffer.from(chunk);
}
function _isUint8Array(obj) {
return Buffer.isBuffer(obj) || obj instanceof OurUint8Array;
}
/**/
var destroyImpl = __nccwpck_require__(4269);
util.inherits(Writable, Stream);
function nop() {}
function WritableState(options, stream) {
Duplex = Duplex || __nccwpck_require__(6275);
options = options || {};
// Duplex streams are both readable and writable, but share
// the same options object.
// However, some cases require setting options to different
// values for the readable and the writable sides of the duplex stream.
// These options can be provided separately as readableXXX and writableXXX.
var isDuplex = stream instanceof Duplex;
// object stream flag to indicate whether or not this stream
// contains buffers or objects.
this.objectMode = !!options.objectMode;
if (isDuplex) this.objectMode = this.objectMode || !!options.writableObjectMode;
// the point at which write() starts returning false
// Note: 0 is a valid value, means that we always return false if
// the entire buffer is not flushed immediately on write()
var hwm = options.highWaterMark;
var writableHwm = options.writableHighWaterMark;
var defaultHwm = this.objectMode ? 16 : 16 * 1024;
if (hwm || hwm === 0) this.highWaterMark = hwm;else if (isDuplex && (writableHwm || writableHwm === 0)) this.highWaterMark = writableHwm;else this.highWaterMark = defaultHwm;
// cast to ints.
this.highWaterMark = Math.floor(this.highWaterMark);
// if _final has been called
this.finalCalled = false;
// drain event flag.
this.needDrain = false;
// at the start of calling end()
this.ending = false;
// when end() has been called, and returned
this.ended = false;
// when 'finish' is emitted
this.finished = false;
// has it been destroyed
this.destroyed = false;
// should we decode strings into buffers before passing to _write?
// this is here so that some node-core streams can optimize string
// handling at a lower level.
var noDecode = options.decodeStrings === false;
this.decodeStrings = !noDecode;
// Crypto is kind of old and crusty. Historically, its default string
// encoding is 'binary' so we have to make this configurable.
// Everything else in the universe uses 'utf8', though.
this.defaultEncoding = options.defaultEncoding || 'utf8';
// not an actual buffer we keep track of, but a measurement
// of how much we're waiting to get pushed to some underlying
// socket or file.
this.length = 0;
// a flag to see when we're in the middle of a write.
this.writing = false;
// when true all writes will be buffered until .uncork() call
this.corked = 0;
// a flag to be able to tell if the onwrite cb is called immediately,
// or on a later tick. We set this to true at first, because any
// actions that shouldn't happen until "later" should generally also
// not happen before the first write call.
this.sync = true;
// a flag to know if we're processing previously buffered items, which
// may call the _write() callback in the same tick, so that we don't
// end up in an overlapped onwrite situation.
this.bufferProcessing = false;
// the callback that's passed to _write(chunk,cb)
this.onwrite = function (er) {
onwrite(stream, er);
};
// the callback that the user supplies to write(chunk,encoding,cb)
this.writecb = null;
// the amount that is being written when _write is called.
this.writelen = 0;
this.bufferedRequest = null;
this.lastBufferedRequest = null;
// number of pending user-supplied write callbacks
// this must be 0 before 'finish' can be emitted
this.pendingcb = 0;
// emit prefinish if the only thing we're waiting for is _write cbs
// This is relevant for synchronous Transform streams
this.prefinished = false;
// True if the error was already emitted and should not be thrown again
this.errorEmitted = false;
// count buffered requests
this.bufferedRequestCount = 0;
// allocate the first CorkedRequest, there is always
// one allocated and free to use, and we maintain at most two
this.corkedRequestsFree = new CorkedRequest(this);
}
WritableState.prototype.getBuffer = function getBuffer() {
var current = this.bufferedRequest;
var out = [];
while (current) {
out.push(current);
current = current.next;
}
return out;
};
(function () {
try {
Object.defineProperty(WritableState.prototype, 'buffer', {
get: internalUtil.deprecate(function () {
return this.getBuffer();
}, '_writableState.buffer is deprecated. Use _writableState.getBuffer ' + 'instead.', 'DEP0003')
});
} catch (_) {}
})();
// Test _writableState for inheritance to account for Duplex streams,
// whose prototype chain only points to Readable.
var realHasInstance;
if (typeof Symbol === 'function' && Symbol.hasInstance && typeof Function.prototype[Symbol.hasInstance] === 'function') {
realHasInstance = Function.prototype[Symbol.hasInstance];
Object.defineProperty(Writable, Symbol.hasInstance, {
value: function (object) {
if (realHasInstance.call(this, object)) return true;
if (this !== Writable) return false;
return object && object._writableState instanceof WritableState;
}
});
} else {
realHasInstance = function (object) {
return object instanceof this;
};
}
function Writable(options) {
Duplex = Duplex || __nccwpck_require__(6275);
// Writable ctor is applied to Duplexes, too.
// `realHasInstance` is necessary because using plain `instanceof`
// would return false, as no `_writableState` property is attached.
// Trying to use the custom `instanceof` for Writable here will also break the
// Node.js LazyTransform implementation, which has a non-trivial getter for
// `_writableState` that would lead to infinite recursion.
if (!realHasInstance.call(Writable, this) && !(this instanceof Duplex)) {
return new Writable(options);
}
this._writableState = new WritableState(options, this);
// legacy.
this.writable = true;
if (options) {
if (typeof options.write === 'function') this._write = options.write;
if (typeof options.writev === 'function') this._writev = options.writev;
if (typeof options.destroy === 'function') this._destroy = options.destroy;
if (typeof options.final === 'function') this._final = options.final;
}
Stream.call(this);
}
// Otherwise people can pipe Writable streams, which is just wrong.
Writable.prototype.pipe = function () {
this.emit('error', new Error('Cannot pipe, not readable'));
};
function writeAfterEnd(stream, cb) {
var er = new Error('write after end');
// TODO: defer error events consistently everywhere, not just the cb
stream.emit('error', er);
pna.nextTick(cb, er);
}
// Checks that a user-supplied chunk is valid, especially for the particular
// mode the stream is in. Currently this means that `null` is never accepted
// and undefined/non-string values are only allowed in object mode.
function validChunk(stream, state, chunk, cb) {
var valid = true;
var er = false;
if (chunk === null) {
er = new TypeError('May not write null values to stream');
} else if (typeof chunk !== 'string' && chunk !== undefined && !state.objectMode) {
er = new TypeError('Invalid non-string/buffer chunk');
}
if (er) {
stream.emit('error', er);
pna.nextTick(cb, er);
valid = false;
}
return valid;
}
Writable.prototype.write = function (chunk, encoding, cb) {
var state = this._writableState;
var ret = false;
var isBuf = !state.objectMode && _isUint8Array(chunk);
if (isBuf && !Buffer.isBuffer(chunk)) {
chunk = _uint8ArrayToBuffer(chunk);
}
if (typeof encoding === 'function') {
cb = encoding;
encoding = null;
}
if (isBuf) encoding = 'buffer';else if (!encoding) encoding = state.defaultEncoding;
if (typeof cb !== 'function') cb = nop;
if (state.ended) writeAfterEnd(this, cb);else if (isBuf || validChunk(this, state, chunk, cb)) {
state.pendingcb++;
ret = writeOrBuffer(this, state, isBuf, chunk, encoding, cb);
}
return ret;
};
Writable.prototype.cork = function () {
var state = this._writableState;
state.corked++;
};
Writable.prototype.uncork = function () {
var state = this._writableState;
if (state.corked) {
state.corked--;
if (!state.writing && !state.corked && !state.finished && !state.bufferProcessing && state.bufferedRequest) clearBuffer(this, state);
}
};
Writable.prototype.setDefaultEncoding = function setDefaultEncoding(encoding) {
// node::ParseEncoding() requires lower case.
if (typeof encoding === 'string') encoding = encoding.toLowerCase();
if (!(['hex', 'utf8', 'utf-8', 'ascii', 'binary', 'base64', 'ucs2', 'ucs-2', 'utf16le', 'utf-16le', 'raw'].indexOf((encoding + '').toLowerCase()) > -1)) throw new TypeError('Unknown encoding: ' + encoding);
this._writableState.defaultEncoding = encoding;
return this;
};
function decodeChunk(state, chunk, encoding) {
if (!state.objectMode && state.decodeStrings !== false && typeof chunk === 'string') {
chunk = Buffer.from(chunk, encoding);
}
return chunk;
}
Object.defineProperty(Writable.prototype, 'writableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function () {
return this._writableState.highWaterMark;
}
});
// if we're already writing something, then just put this
// in the queue, and wait our turn. Otherwise, call _write
// If we return false, then we need a drain event, so set that flag.
function writeOrBuffer(stream, state, isBuf, chunk, encoding, cb) {
if (!isBuf) {
var newChunk = decodeChunk(state, chunk, encoding);
if (chunk !== newChunk) {
isBuf = true;
encoding = 'buffer';
chunk = newChunk;
}
}
var len = state.objectMode ? 1 : chunk.length;
state.length += len;
var ret = state.length < state.highWaterMark;
// we must ensure that previous needDrain will not be reset to false.
if (!ret) state.needDrain = true;
if (state.writing || state.corked) {
var last = state.lastBufferedRequest;
state.lastBufferedRequest = {
chunk: chunk,
encoding: encoding,
isBuf: isBuf,
callback: cb,
next: null
};
if (last) {
last.next = state.lastBufferedRequest;
} else {
state.bufferedRequest = state.lastBufferedRequest;
}
state.bufferedRequestCount += 1;
} else {
doWrite(stream, state, false, len, chunk, encoding, cb);
}
return ret;
}
function doWrite(stream, state, writev, len, chunk, encoding, cb) {
state.writelen = len;
state.writecb = cb;
state.writing = true;
state.sync = true;
if (writev) stream._writev(chunk, state.onwrite);else stream._write(chunk, encoding, state.onwrite);
state.sync = false;
}
function onwriteError(stream, state, sync, er, cb) {
--state.pendingcb;
if (sync) {
// defer the callback if we are being called synchronously
// to avoid piling up things on the stack
pna.nextTick(cb, er);
// this can emit finish, and it will always happen
// after error
pna.nextTick(finishMaybe, stream, state);
stream._writableState.errorEmitted = true;
stream.emit('error', er);
} else {
// the caller expect this to happen before if
// it is async
cb(er);
stream._writableState.errorEmitted = true;
stream.emit('error', er);
// this can emit finish, but finish must
// always follow error
finishMaybe(stream, state);
}
}
function onwriteStateUpdate(state) {
state.writing = false;
state.writecb = null;
state.length -= state.writelen;
state.writelen = 0;
}
function onwrite(stream, er) {
var state = stream._writableState;
var sync = state.sync;
var cb = state.writecb;
onwriteStateUpdate(state);
if (er) onwriteError(stream, state, sync, er, cb);else {
// Check if we're actually ready to finish, but don't emit yet
var finished = needFinish(state);
if (!finished && !state.corked && !state.bufferProcessing && state.bufferedRequest) {
clearBuffer(stream, state);
}
if (sync) {
/**/
asyncWrite(afterWrite, stream, state, finished, cb);
/**/
} else {
afterWrite(stream, state, finished, cb);
}
}
}
function afterWrite(stream, state, finished, cb) {
if (!finished) onwriteDrain(stream, state);
state.pendingcb--;
cb();
finishMaybe(stream, state);
}
// Must force callback to be called on nextTick, so that we don't
// emit 'drain' before the write() consumer gets the 'false' return
// value, and has a chance to attach a 'drain' listener.
function onwriteDrain(stream, state) {
if (state.length === 0 && state.needDrain) {
state.needDrain = false;
stream.emit('drain');
}
}
// if there's something in the buffer waiting, then process it
function clearBuffer(stream, state) {
state.bufferProcessing = true;
var entry = state.bufferedRequest;
if (stream._writev && entry && entry.next) {
// Fast case, write everything using _writev()
var l = state.bufferedRequestCount;
var buffer = new Array(l);
var holder = state.corkedRequestsFree;
holder.entry = entry;
var count = 0;
var allBuffers = true;
while (entry) {
buffer[count] = entry;
if (!entry.isBuf) allBuffers = false;
entry = entry.next;
count += 1;
}
buffer.allBuffers = allBuffers;
doWrite(stream, state, true, state.length, buffer, '', holder.finish);
// doWrite is almost always async, defer these to save a bit of time
// as the hot path ends with doWrite
state.pendingcb++;
state.lastBufferedRequest = null;
if (holder.next) {
state.corkedRequestsFree = holder.next;
holder.next = null;
} else {
state.corkedRequestsFree = new CorkedRequest(state);
}
state.bufferedRequestCount = 0;
} else {
// Slow case, write chunks one-by-one
while (entry) {
var chunk = entry.chunk;
var encoding = entry.encoding;
var cb = entry.callback;
var len = state.objectMode ? 1 : chunk.length;
doWrite(stream, state, false, len, chunk, encoding, cb);
entry = entry.next;
state.bufferedRequestCount--;
// if we didn't call the onwrite immediately, then
// it means that we need to wait until it does.
// also, that means that the chunk and cb are currently
// being processed, so move the buffer counter past them.
if (state.writing) {
break;
}
}
if (entry === null) state.lastBufferedRequest = null;
}
state.bufferedRequest = entry;
state.bufferProcessing = false;
}
Writable.prototype._write = function (chunk, encoding, cb) {
cb(new Error('_write() is not implemented'));
};
Writable.prototype._writev = null;
Writable.prototype.end = function (chunk, encoding, cb) {
var state = this._writableState;
if (typeof chunk === 'function') {
cb = chunk;
chunk = null;
encoding = null;
} else if (typeof encoding === 'function') {
cb = encoding;
encoding = null;
}
if (chunk !== null && chunk !== undefined) this.write(chunk, encoding);
// .end() fully uncorks
if (state.corked) {
state.corked = 1;
this.uncork();
}
// ignore unnecessary end() calls.
if (!state.ending && !state.finished) endWritable(this, state, cb);
};
function needFinish(state) {
return state.ending && state.length === 0 && state.bufferedRequest === null && !state.finished && !state.writing;
}
function callFinal(stream, state) {
stream._final(function (err) {
state.pendingcb--;
if (err) {
stream.emit('error', err);
}
state.prefinished = true;
stream.emit('prefinish');
finishMaybe(stream, state);
});
}
function prefinish(stream, state) {
if (!state.prefinished && !state.finalCalled) {
if (typeof stream._final === 'function') {
state.pendingcb++;
state.finalCalled = true;
pna.nextTick(callFinal, stream, state);
} else {
state.prefinished = true;
stream.emit('prefinish');
}
}
}
function finishMaybe(stream, state) {
var need = needFinish(state);
if (need) {
prefinish(stream, state);
if (state.pendingcb === 0) {
state.finished = true;
stream.emit('finish');
}
}
return need;
}
function endWritable(stream, state, cb) {
state.ending = true;
finishMaybe(stream, state);
if (cb) {
if (state.finished) pna.nextTick(cb);else stream.once('finish', cb);
}
state.ended = true;
stream.writable = false;
}
function onCorkedFinish(corkReq, state, err) {
var entry = corkReq.entry;
corkReq.entry = null;
while (entry) {
var cb = entry.callback;
state.pendingcb--;
cb(err);
entry = entry.next;
}
if (state.corkedRequestsFree) {
state.corkedRequestsFree.next = corkReq;
} else {
state.corkedRequestsFree = corkReq;
}
}
Object.defineProperty(Writable.prototype, 'destroyed', {
get: function () {
if (this._writableState === undefined) {
return false;
}
return this._writableState.destroyed;
},
set: function (value) {
// we ignore the value if the stream
// has not been initialized yet
if (!this._writableState) {
return;
}
// backward compatibility, the user is explicitly
// managing destroyed
this._writableState.destroyed = value;
}
});
Writable.prototype.destroy = destroyImpl.destroy;
Writable.prototype._undestroy = destroyImpl.undestroy;
Writable.prototype._destroy = function (err, cb) {
this.end();
cb(err);
};
/***/ }),
/***/ 1023:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } }
var Buffer = __nccwpck_require__(7677).Buffer;
var util = __nccwpck_require__(1669);
function copyBuffer(src, target, offset) {
src.copy(target, offset);
}
module.exports = function () {
function BufferList() {
_classCallCheck(this, BufferList);
this.head = null;
this.tail = null;
this.length = 0;
}
BufferList.prototype.push = function push(v) {
var entry = { data: v, next: null };
if (this.length > 0) this.tail.next = entry;else this.head = entry;
this.tail = entry;
++this.length;
};
BufferList.prototype.unshift = function unshift(v) {
var entry = { data: v, next: this.head };
if (this.length === 0) this.tail = entry;
this.head = entry;
++this.length;
};
BufferList.prototype.shift = function shift() {
if (this.length === 0) return;
var ret = this.head.data;
if (this.length === 1) this.head = this.tail = null;else this.head = this.head.next;
--this.length;
return ret;
};
BufferList.prototype.clear = function clear() {
this.head = this.tail = null;
this.length = 0;
};
BufferList.prototype.join = function join(s) {
if (this.length === 0) return '';
var p = this.head;
var ret = '' + p.data;
while (p = p.next) {
ret += s + p.data;
}return ret;
};
BufferList.prototype.concat = function concat(n) {
if (this.length === 0) return Buffer.alloc(0);
if (this.length === 1) return this.head.data;
var ret = Buffer.allocUnsafe(n >>> 0);
var p = this.head;
var i = 0;
while (p) {
copyBuffer(p.data, ret, i);
i += p.data.length;
p = p.next;
}
return ret;
};
return BufferList;
}();
if (util && util.inspect && util.inspect.custom) {
module.exports.prototype[util.inspect.custom] = function () {
var obj = util.inspect({ length: this.length });
return this.constructor.name + ' ' + obj;
};
}
/***/ }),
/***/ 4269:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
/**/
var pna = __nccwpck_require__(1491);
/**/
// undocumented cb() API, needed for core, not for public API
function destroy(err, cb) {
var _this = this;
var readableDestroyed = this._readableState && this._readableState.destroyed;
var writableDestroyed = this._writableState && this._writableState.destroyed;
if (readableDestroyed || writableDestroyed) {
if (cb) {
cb(err);
} else if (err && (!this._writableState || !this._writableState.errorEmitted)) {
pna.nextTick(emitErrorNT, this, err);
}
return this;
}
// we set destroyed to true before firing error callbacks in order
// to make it re-entrance safe in case destroy() is called within callbacks
if (this._readableState) {
this._readableState.destroyed = true;
}
// if this is a duplex stream mark the writable part as destroyed as well
if (this._writableState) {
this._writableState.destroyed = true;
}
this._destroy(err || null, function (err) {
if (!cb && err) {
pna.nextTick(emitErrorNT, _this, err);
if (_this._writableState) {
_this._writableState.errorEmitted = true;
}
} else if (cb) {
cb(err);
}
});
return this;
}
function undestroy() {
if (this._readableState) {
this._readableState.destroyed = false;
this._readableState.reading = false;
this._readableState.ended = false;
this._readableState.endEmitted = false;
}
if (this._writableState) {
this._writableState.destroyed = false;
this._writableState.ended = false;
this._writableState.ending = false;
this._writableState.finished = false;
this._writableState.errorEmitted = false;
}
}
function emitErrorNT(self, err) {
self.emit('error', err);
}
module.exports = {
destroy: destroy,
undestroy: undestroy
};
/***/ }),
/***/ 9658:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
module.exports = __nccwpck_require__(2413);
/***/ }),
/***/ 802:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
module.exports = __nccwpck_require__(6054).PassThrough
/***/ }),
/***/ 6054:
/***/ ((module, exports, __nccwpck_require__) => {
var Stream = __nccwpck_require__(2413);
if (process.env.READABLE_STREAM === 'disable' && Stream) {
module.exports = Stream;
exports = module.exports = Stream.Readable;
exports.Readable = Stream.Readable;
exports.Writable = Stream.Writable;
exports.Duplex = Stream.Duplex;
exports.Transform = Stream.Transform;
exports.PassThrough = Stream.PassThrough;
exports.Stream = Stream;
} else {
exports = module.exports = __nccwpck_require__(1512);
exports.Stream = Stream || exports;
exports.Readable = exports;
exports.Writable = __nccwpck_require__(6787);
exports.Duplex = __nccwpck_require__(6275);
exports.Transform = __nccwpck_require__(3298);
exports.PassThrough = __nccwpck_require__(7498);
}
/***/ }),
/***/ 2640:
/***/ ((module) => {
/**
* lodash (Custom Build)
* Build: `lodash modularize exports="npm" -o ./`
* Copyright jQuery Foundation and other contributors
* Released under MIT license
* Based on Underscore.js 1.8.3
* Copyright Jeremy Ashkenas, DocumentCloud and Investigative Reporters & Editors
*/
/** Used as references for various `Number` constants. */
var MAX_SAFE_INTEGER = 9007199254740991;
/** `Object#toString` result references. */
var argsTag = '[object Arguments]',
funcTag = '[object Function]',
genTag = '[object GeneratorFunction]';
/** Used to detect unsigned integer values. */
var reIsUint = /^(?:0|[1-9]\d*)$/;
/**
* A faster alternative to `Function#apply`, this function invokes `func`
* with the `this` binding of `thisArg` and the arguments of `args`.
*
* @private
* @param {Function} func The function to invoke.
* @param {*} thisArg The `this` binding of `func`.
* @param {Array} args The arguments to invoke `func` with.
* @returns {*} Returns the result of `func`.
*/
function apply(func, thisArg, args) {
switch (args.length) {
case 0: return func.call(thisArg);
case 1: return func.call(thisArg, args[0]);
case 2: return func.call(thisArg, args[0], args[1]);
case 3: return func.call(thisArg, args[0], args[1], args[2]);
}
return func.apply(thisArg, args);
}
/**
* The base implementation of `_.times` without support for iteratee shorthands
* or max array length checks.
*
* @private
* @param {number} n The number of times to invoke `iteratee`.
* @param {Function} iteratee The function invoked per iteration.
* @returns {Array} Returns the array of results.
*/
function baseTimes(n, iteratee) {
var index = -1,
result = Array(n);
while (++index < n) {
result[index] = iteratee(index);
}
return result;
}
/** Used for built-in method references. */
var objectProto = Object.prototype;
/** Used to check objects for own properties. */
var hasOwnProperty = objectProto.hasOwnProperty;
/**
* Used to resolve the
* [`toStringTag`](http://ecma-international.org/ecma-262/7.0/#sec-object.prototype.tostring)
* of values.
*/
var objectToString = objectProto.toString;
/** Built-in value references. */
var propertyIsEnumerable = objectProto.propertyIsEnumerable;
/* Built-in method references for those with the same name as other `lodash` methods. */
var nativeMax = Math.max;
/**
* Creates an array of the enumerable property names of the array-like `value`.
*
* @private
* @param {*} value The value to query.
* @param {boolean} inherited Specify returning inherited property names.
* @returns {Array} Returns the array of property names.
*/
function arrayLikeKeys(value, inherited) {
// Safari 8.1 makes `arguments.callee` enumerable in strict mode.
// Safari 9 makes `arguments.length` enumerable in strict mode.
var result = (isArray(value) || isArguments(value))
? baseTimes(value.length, String)
: [];
var length = result.length,
skipIndexes = !!length;
for (var key in value) {
if ((inherited || hasOwnProperty.call(value, key)) &&
!(skipIndexes && (key == 'length' || isIndex(key, length)))) {
result.push(key);
}
}
return result;
}
/**
* Used by `_.defaults` to customize its `_.assignIn` use.
*
* @private
* @param {*} objValue The destination value.
* @param {*} srcValue The source value.
* @param {string} key The key of the property to assign.
* @param {Object} object The parent object of `objValue`.
* @returns {*} Returns the value to assign.
*/
function assignInDefaults(objValue, srcValue, key, object) {
if (objValue === undefined ||
(eq(objValue, objectProto[key]) && !hasOwnProperty.call(object, key))) {
return srcValue;
}
return objValue;
}
/**
* Assigns `value` to `key` of `object` if the existing value is not equivalent
* using [`SameValueZero`](http://ecma-international.org/ecma-262/7.0/#sec-samevaluezero)
* for equality comparisons.
*
* @private
* @param {Object} object The object to modify.
* @param {string} key The key of the property to assign.
* @param {*} value The value to assign.
*/
function assignValue(object, key, value) {
var objValue = object[key];
if (!(hasOwnProperty.call(object, key) && eq(objValue, value)) ||
(value === undefined && !(key in object))) {
object[key] = value;
}
}
/**
* The base implementation of `_.keysIn` which doesn't treat sparse arrays as dense.
*
* @private
* @param {Object} object The object to query.
* @returns {Array} Returns the array of property names.
*/
function baseKeysIn(object) {
if (!isObject(object)) {
return nativeKeysIn(object);
}
var isProto = isPrototype(object),
result = [];
for (var key in object) {
if (!(key == 'constructor' && (isProto || !hasOwnProperty.call(object, key)))) {
result.push(key);
}
}
return result;
}
/**
* The base implementation of `_.rest` which doesn't validate or coerce arguments.
*
* @private
* @param {Function} func The function to apply a rest parameter to.
* @param {number} [start=func.length-1] The start position of the rest parameter.
* @returns {Function} Returns the new function.
*/
function baseRest(func, start) {
start = nativeMax(start === undefined ? (func.length - 1) : start, 0);
return function() {
var args = arguments,
index = -1,
length = nativeMax(args.length - start, 0),
array = Array(length);
while (++index < length) {
array[index] = args[start + index];
}
index = -1;
var otherArgs = Array(start + 1);
while (++index < start) {
otherArgs[index] = args[index];
}
otherArgs[start] = array;
return apply(func, this, otherArgs);
};
}
/**
* Copies properties of `source` to `object`.
*
* @private
* @param {Object} source The object to copy properties from.
* @param {Array} props The property identifiers to copy.
* @param {Object} [object={}] The object to copy properties to.
* @param {Function} [customizer] The function to customize copied values.
* @returns {Object} Returns `object`.
*/
function copyObject(source, props, object, customizer) {
object || (object = {});
var index = -1,
length = props.length;
while (++index < length) {
var key = props[index];
var newValue = customizer
? customizer(object[key], source[key], key, object, source)
: undefined;
assignValue(object, key, newValue === undefined ? source[key] : newValue);
}
return object;
}
/**
* Creates a function like `_.assign`.
*
* @private
* @param {Function} assigner The function to assign values.
* @returns {Function} Returns the new assigner function.
*/
function createAssigner(assigner) {
return baseRest(function(object, sources) {
var index = -1,
length = sources.length,
customizer = length > 1 ? sources[length - 1] : undefined,
guard = length > 2 ? sources[2] : undefined;
customizer = (assigner.length > 3 && typeof customizer == 'function')
? (length--, customizer)
: undefined;
if (guard && isIterateeCall(sources[0], sources[1], guard)) {
customizer = length < 3 ? undefined : customizer;
length = 1;
}
object = Object(object);
while (++index < length) {
var source = sources[index];
if (source) {
assigner(object, source, index, customizer);
}
}
return object;
});
}
/**
* Checks if `value` is a valid array-like index.
*
* @private
* @param {*} value The value to check.
* @param {number} [length=MAX_SAFE_INTEGER] The upper bounds of a valid index.
* @returns {boolean} Returns `true` if `value` is a valid index, else `false`.
*/
function isIndex(value, length) {
length = length == null ? MAX_SAFE_INTEGER : length;
return !!length &&
(typeof value == 'number' || reIsUint.test(value)) &&
(value > -1 && value % 1 == 0 && value < length);
}
/**
* Checks if the given arguments are from an iteratee call.
*
* @private
* @param {*} value The potential iteratee value argument.
* @param {*} index The potential iteratee index or key argument.
* @param {*} object The potential iteratee object argument.
* @returns {boolean} Returns `true` if the arguments are from an iteratee call,
* else `false`.
*/
function isIterateeCall(value, index, object) {
if (!isObject(object)) {
return false;
}
var type = typeof index;
if (type == 'number'
? (isArrayLike(object) && isIndex(index, object.length))
: (type == 'string' && index in object)
) {
return eq(object[index], value);
}
return false;
}
/**
* Checks if `value` is likely a prototype object.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a prototype, else `false`.
*/
function isPrototype(value) {
var Ctor = value && value.constructor,
proto = (typeof Ctor == 'function' && Ctor.prototype) || objectProto;
return value === proto;
}
/**
* This function is like
* [`Object.keys`](http://ecma-international.org/ecma-262/7.0/#sec-object.keys)
* except that it includes inherited enumerable properties.
*
* @private
* @param {Object} object The object to query.
* @returns {Array} Returns the array of property names.
*/
function nativeKeysIn(object) {
var result = [];
if (object != null) {
for (var key in Object(object)) {
result.push(key);
}
}
return result;
}
/**
* Performs a
* [`SameValueZero`](http://ecma-international.org/ecma-262/7.0/#sec-samevaluezero)
* comparison between two values to determine if they are equivalent.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to compare.
* @param {*} other The other value to compare.
* @returns {boolean} Returns `true` if the values are equivalent, else `false`.
* @example
*
* var object = { 'a': 1 };
* var other = { 'a': 1 };
*
* _.eq(object, object);
* // => true
*
* _.eq(object, other);
* // => false
*
* _.eq('a', 'a');
* // => true
*
* _.eq('a', Object('a'));
* // => false
*
* _.eq(NaN, NaN);
* // => true
*/
function eq(value, other) {
return value === other || (value !== value && other !== other);
}
/**
* Checks if `value` is likely an `arguments` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an `arguments` object,
* else `false`.
* @example
*
* _.isArguments(function() { return arguments; }());
* // => true
*
* _.isArguments([1, 2, 3]);
* // => false
*/
function isArguments(value) {
// Safari 8.1 makes `arguments.callee` enumerable in strict mode.
return isArrayLikeObject(value) && hasOwnProperty.call(value, 'callee') &&
(!propertyIsEnumerable.call(value, 'callee') || objectToString.call(value) == argsTag);
}
/**
* Checks if `value` is classified as an `Array` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an array, else `false`.
* @example
*
* _.isArray([1, 2, 3]);
* // => true
*
* _.isArray(document.body.children);
* // => false
*
* _.isArray('abc');
* // => false
*
* _.isArray(_.noop);
* // => false
*/
var isArray = Array.isArray;
/**
* Checks if `value` is array-like. A value is considered array-like if it's
* not a function and has a `value.length` that's an integer greater than or
* equal to `0` and less than or equal to `Number.MAX_SAFE_INTEGER`.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is array-like, else `false`.
* @example
*
* _.isArrayLike([1, 2, 3]);
* // => true
*
* _.isArrayLike(document.body.children);
* // => true
*
* _.isArrayLike('abc');
* // => true
*
* _.isArrayLike(_.noop);
* // => false
*/
function isArrayLike(value) {
return value != null && isLength(value.length) && !isFunction(value);
}
/**
* This method is like `_.isArrayLike` except that it also checks if `value`
* is an object.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an array-like object,
* else `false`.
* @example
*
* _.isArrayLikeObject([1, 2, 3]);
* // => true
*
* _.isArrayLikeObject(document.body.children);
* // => true
*
* _.isArrayLikeObject('abc');
* // => false
*
* _.isArrayLikeObject(_.noop);
* // => false
*/
function isArrayLikeObject(value) {
return isObjectLike(value) && isArrayLike(value);
}
/**
* Checks if `value` is classified as a `Function` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a function, else `false`.
* @example
*
* _.isFunction(_);
* // => true
*
* _.isFunction(/abc/);
* // => false
*/
function isFunction(value) {
// The use of `Object#toString` avoids issues with the `typeof` operator
// in Safari 8-9 which returns 'object' for typed array and other constructors.
var tag = isObject(value) ? objectToString.call(value) : '';
return tag == funcTag || tag == genTag;
}
/**
* Checks if `value` is a valid array-like length.
*
* **Note:** This method is loosely based on
* [`ToLength`](http://ecma-international.org/ecma-262/7.0/#sec-tolength).
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a valid length, else `false`.
* @example
*
* _.isLength(3);
* // => true
*
* _.isLength(Number.MIN_VALUE);
* // => false
*
* _.isLength(Infinity);
* // => false
*
* _.isLength('3');
* // => false
*/
function isLength(value) {
return typeof value == 'number' &&
value > -1 && value % 1 == 0 && value <= MAX_SAFE_INTEGER;
}
/**
* Checks if `value` is the
* [language type](http://www.ecma-international.org/ecma-262/7.0/#sec-ecmascript-language-types)
* of `Object`. (e.g. arrays, functions, objects, regexes, `new Number(0)`, and `new String('')`)
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an object, else `false`.
* @example
*
* _.isObject({});
* // => true
*
* _.isObject([1, 2, 3]);
* // => true
*
* _.isObject(_.noop);
* // => true
*
* _.isObject(null);
* // => false
*/
function isObject(value) {
var type = typeof value;
return !!value && (type == 'object' || type == 'function');
}
/**
* Checks if `value` is object-like. A value is object-like if it's not `null`
* and has a `typeof` result of "object".
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is object-like, else `false`.
* @example
*
* _.isObjectLike({});
* // => true
*
* _.isObjectLike([1, 2, 3]);
* // => true
*
* _.isObjectLike(_.noop);
* // => false
*
* _.isObjectLike(null);
* // => false
*/
function isObjectLike(value) {
return !!value && typeof value == 'object';
}
/**
* This method is like `_.assignIn` except that it accepts `customizer`
* which is invoked to produce the assigned values. If `customizer` returns
* `undefined`, assignment is handled by the method instead. The `customizer`
* is invoked with five arguments: (objValue, srcValue, key, object, source).
*
* **Note:** This method mutates `object`.
*
* @static
* @memberOf _
* @since 4.0.0
* @alias extendWith
* @category Object
* @param {Object} object The destination object.
* @param {...Object} sources The source objects.
* @param {Function} [customizer] The function to customize assigned values.
* @returns {Object} Returns `object`.
* @see _.assignWith
* @example
*
* function customizer(objValue, srcValue) {
* return _.isUndefined(objValue) ? srcValue : objValue;
* }
*
* var defaults = _.partialRight(_.assignInWith, customizer);
*
* defaults({ 'a': 1 }, { 'b': 2 }, { 'a': 3 });
* // => { 'a': 1, 'b': 2 }
*/
var assignInWith = createAssigner(function(object, source, srcIndex, customizer) {
copyObject(source, keysIn(source), object, customizer);
});
/**
* Assigns own and inherited enumerable string keyed properties of source
* objects to the destination object for all destination properties that
* resolve to `undefined`. Source objects are applied from left to right.
* Once a property is set, additional values of the same property are ignored.
*
* **Note:** This method mutates `object`.
*
* @static
* @since 0.1.0
* @memberOf _
* @category Object
* @param {Object} object The destination object.
* @param {...Object} [sources] The source objects.
* @returns {Object} Returns `object`.
* @see _.defaultsDeep
* @example
*
* _.defaults({ 'a': 1 }, { 'b': 2 }, { 'a': 3 });
* // => { 'a': 1, 'b': 2 }
*/
var defaults = baseRest(function(args) {
args.push(undefined, assignInDefaults);
return apply(assignInWith, undefined, args);
});
/**
* Creates an array of the own and inherited enumerable property names of `object`.
*
* **Note:** Non-object values are coerced to objects.
*
* @static
* @memberOf _
* @since 3.0.0
* @category Object
* @param {Object} object The object to query.
* @returns {Array} Returns the array of property names.
* @example
*
* function Foo() {
* this.a = 1;
* this.b = 2;
* }
*
* Foo.prototype.c = 3;
*
* _.keysIn(new Foo);
* // => ['a', 'b', 'c'] (iteration order is not guaranteed)
*/
function keysIn(object) {
return isArrayLike(object) ? arrayLikeKeys(object, true) : baseKeysIn(object);
}
module.exports = defaults;
/***/ }),
/***/ 3663:
/***/ ((module) => {
/**
* lodash (Custom Build)
* Build: `lodash modularize exports="npm" -o ./`
* Copyright jQuery Foundation and other contributors
* Released under MIT license
* Based on Underscore.js 1.8.3
* Copyright Jeremy Ashkenas, DocumentCloud and Investigative Reporters & Editors
*/
/** Used as the size to enable large array optimizations. */
var LARGE_ARRAY_SIZE = 200;
/** Used to stand-in for `undefined` hash values. */
var HASH_UNDEFINED = '__lodash_hash_undefined__';
/** Used as references for various `Number` constants. */
var MAX_SAFE_INTEGER = 9007199254740991;
/** `Object#toString` result references. */
var argsTag = '[object Arguments]',
funcTag = '[object Function]',
genTag = '[object GeneratorFunction]';
/**
* Used to match `RegExp`
* [syntax characters](http://ecma-international.org/ecma-262/7.0/#sec-patterns).
*/
var reRegExpChar = /[\\^$.*+?()[\]{}|]/g;
/** Used to detect host constructors (Safari). */
var reIsHostCtor = /^\[object .+?Constructor\]$/;
/** Detect free variable `global` from Node.js. */
var freeGlobal = typeof global == 'object' && global && global.Object === Object && global;
/** Detect free variable `self`. */
var freeSelf = typeof self == 'object' && self && self.Object === Object && self;
/** Used as a reference to the global object. */
var root = freeGlobal || freeSelf || Function('return this')();
/**
* A faster alternative to `Function#apply`, this function invokes `func`
* with the `this` binding of `thisArg` and the arguments of `args`.
*
* @private
* @param {Function} func The function to invoke.
* @param {*} thisArg The `this` binding of `func`.
* @param {Array} args The arguments to invoke `func` with.
* @returns {*} Returns the result of `func`.
*/
function apply(func, thisArg, args) {
switch (args.length) {
case 0: return func.call(thisArg);
case 1: return func.call(thisArg, args[0]);
case 2: return func.call(thisArg, args[0], args[1]);
case 3: return func.call(thisArg, args[0], args[1], args[2]);
}
return func.apply(thisArg, args);
}
/**
* A specialized version of `_.includes` for arrays without support for
* specifying an index to search from.
*
* @private
* @param {Array} [array] The array to inspect.
* @param {*} target The value to search for.
* @returns {boolean} Returns `true` if `target` is found, else `false`.
*/
function arrayIncludes(array, value) {
var length = array ? array.length : 0;
return !!length && baseIndexOf(array, value, 0) > -1;
}
/**
* This function is like `arrayIncludes` except that it accepts a comparator.
*
* @private
* @param {Array} [array] The array to inspect.
* @param {*} target The value to search for.
* @param {Function} comparator The comparator invoked per element.
* @returns {boolean} Returns `true` if `target` is found, else `false`.
*/
function arrayIncludesWith(array, value, comparator) {
var index = -1,
length = array ? array.length : 0;
while (++index < length) {
if (comparator(value, array[index])) {
return true;
}
}
return false;
}
/**
* A specialized version of `_.map` for arrays without support for iteratee
* shorthands.
*
* @private
* @param {Array} [array] The array to iterate over.
* @param {Function} iteratee The function invoked per iteration.
* @returns {Array} Returns the new mapped array.
*/
function arrayMap(array, iteratee) {
var index = -1,
length = array ? array.length : 0,
result = Array(length);
while (++index < length) {
result[index] = iteratee(array[index], index, array);
}
return result;
}
/**
* Appends the elements of `values` to `array`.
*
* @private
* @param {Array} array The array to modify.
* @param {Array} values The values to append.
* @returns {Array} Returns `array`.
*/
function arrayPush(array, values) {
var index = -1,
length = values.length,
offset = array.length;
while (++index < length) {
array[offset + index] = values[index];
}
return array;
}
/**
* The base implementation of `_.findIndex` and `_.findLastIndex` without
* support for iteratee shorthands.
*
* @private
* @param {Array} array The array to inspect.
* @param {Function} predicate The function invoked per iteration.
* @param {number} fromIndex The index to search from.
* @param {boolean} [fromRight] Specify iterating from right to left.
* @returns {number} Returns the index of the matched value, else `-1`.
*/
function baseFindIndex(array, predicate, fromIndex, fromRight) {
var length = array.length,
index = fromIndex + (fromRight ? 1 : -1);
while ((fromRight ? index-- : ++index < length)) {
if (predicate(array[index], index, array)) {
return index;
}
}
return -1;
}
/**
* The base implementation of `_.indexOf` without `fromIndex` bounds checks.
*
* @private
* @param {Array} array The array to inspect.
* @param {*} value The value to search for.
* @param {number} fromIndex The index to search from.
* @returns {number} Returns the index of the matched value, else `-1`.
*/
function baseIndexOf(array, value, fromIndex) {
if (value !== value) {
return baseFindIndex(array, baseIsNaN, fromIndex);
}
var index = fromIndex - 1,
length = array.length;
while (++index < length) {
if (array[index] === value) {
return index;
}
}
return -1;
}
/**
* The base implementation of `_.isNaN` without support for number objects.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is `NaN`, else `false`.
*/
function baseIsNaN(value) {
return value !== value;
}
/**
* The base implementation of `_.unary` without support for storing metadata.
*
* @private
* @param {Function} func The function to cap arguments for.
* @returns {Function} Returns the new capped function.
*/
function baseUnary(func) {
return function(value) {
return func(value);
};
}
/**
* Checks if a cache value for `key` exists.
*
* @private
* @param {Object} cache The cache to query.
* @param {string} key The key of the entry to check.
* @returns {boolean} Returns `true` if an entry for `key` exists, else `false`.
*/
function cacheHas(cache, key) {
return cache.has(key);
}
/**
* Gets the value at `key` of `object`.
*
* @private
* @param {Object} [object] The object to query.
* @param {string} key The key of the property to get.
* @returns {*} Returns the property value.
*/
function getValue(object, key) {
return object == null ? undefined : object[key];
}
/**
* Checks if `value` is a host object in IE < 9.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a host object, else `false`.
*/
function isHostObject(value) {
// Many host objects are `Object` objects that can coerce to strings
// despite having improperly defined `toString` methods.
var result = false;
if (value != null && typeof value.toString != 'function') {
try {
result = !!(value + '');
} catch (e) {}
}
return result;
}
/** Used for built-in method references. */
var arrayProto = Array.prototype,
funcProto = Function.prototype,
objectProto = Object.prototype;
/** Used to detect overreaching core-js shims. */
var coreJsData = root['__core-js_shared__'];
/** Used to detect methods masquerading as native. */
var maskSrcKey = (function() {
var uid = /[^.]+$/.exec(coreJsData && coreJsData.keys && coreJsData.keys.IE_PROTO || '');
return uid ? ('Symbol(src)_1.' + uid) : '';
}());
/** Used to resolve the decompiled source of functions. */
var funcToString = funcProto.toString;
/** Used to check objects for own properties. */
var hasOwnProperty = objectProto.hasOwnProperty;
/**
* Used to resolve the
* [`toStringTag`](http://ecma-international.org/ecma-262/7.0/#sec-object.prototype.tostring)
* of values.
*/
var objectToString = objectProto.toString;
/** Used to detect if a method is native. */
var reIsNative = RegExp('^' +
funcToString.call(hasOwnProperty).replace(reRegExpChar, '\\$&')
.replace(/hasOwnProperty|(function).*?(?=\\\()| for .+?(?=\\\])/g, '$1.*?') + '$'
);
/** Built-in value references. */
var Symbol = root.Symbol,
propertyIsEnumerable = objectProto.propertyIsEnumerable,
splice = arrayProto.splice,
spreadableSymbol = Symbol ? Symbol.isConcatSpreadable : undefined;
/* Built-in method references for those with the same name as other `lodash` methods. */
var nativeMax = Math.max;
/* Built-in method references that are verified to be native. */
var Map = getNative(root, 'Map'),
nativeCreate = getNative(Object, 'create');
/**
* Creates a hash object.
*
* @private
* @constructor
* @param {Array} [entries] The key-value pairs to cache.
*/
function Hash(entries) {
var index = -1,
length = entries ? entries.length : 0;
this.clear();
while (++index < length) {
var entry = entries[index];
this.set(entry[0], entry[1]);
}
}
/**
* Removes all key-value entries from the hash.
*
* @private
* @name clear
* @memberOf Hash
*/
function hashClear() {
this.__data__ = nativeCreate ? nativeCreate(null) : {};
}
/**
* Removes `key` and its value from the hash.
*
* @private
* @name delete
* @memberOf Hash
* @param {Object} hash The hash to modify.
* @param {string} key The key of the value to remove.
* @returns {boolean} Returns `true` if the entry was removed, else `false`.
*/
function hashDelete(key) {
return this.has(key) && delete this.__data__[key];
}
/**
* Gets the hash value for `key`.
*
* @private
* @name get
* @memberOf Hash
* @param {string} key The key of the value to get.
* @returns {*} Returns the entry value.
*/
function hashGet(key) {
var data = this.__data__;
if (nativeCreate) {
var result = data[key];
return result === HASH_UNDEFINED ? undefined : result;
}
return hasOwnProperty.call(data, key) ? data[key] : undefined;
}
/**
* Checks if a hash value for `key` exists.
*
* @private
* @name has
* @memberOf Hash
* @param {string} key The key of the entry to check.
* @returns {boolean} Returns `true` if an entry for `key` exists, else `false`.
*/
function hashHas(key) {
var data = this.__data__;
return nativeCreate ? data[key] !== undefined : hasOwnProperty.call(data, key);
}
/**
* Sets the hash `key` to `value`.
*
* @private
* @name set
* @memberOf Hash
* @param {string} key The key of the value to set.
* @param {*} value The value to set.
* @returns {Object} Returns the hash instance.
*/
function hashSet(key, value) {
var data = this.__data__;
data[key] = (nativeCreate && value === undefined) ? HASH_UNDEFINED : value;
return this;
}
// Add methods to `Hash`.
Hash.prototype.clear = hashClear;
Hash.prototype['delete'] = hashDelete;
Hash.prototype.get = hashGet;
Hash.prototype.has = hashHas;
Hash.prototype.set = hashSet;
/**
* Creates an list cache object.
*
* @private
* @constructor
* @param {Array} [entries] The key-value pairs to cache.
*/
function ListCache(entries) {
var index = -1,
length = entries ? entries.length : 0;
this.clear();
while (++index < length) {
var entry = entries[index];
this.set(entry[0], entry[1]);
}
}
/**
* Removes all key-value entries from the list cache.
*
* @private
* @name clear
* @memberOf ListCache
*/
function listCacheClear() {
this.__data__ = [];
}
/**
* Removes `key` and its value from the list cache.
*
* @private
* @name delete
* @memberOf ListCache
* @param {string} key The key of the value to remove.
* @returns {boolean} Returns `true` if the entry was removed, else `false`.
*/
function listCacheDelete(key) {
var data = this.__data__,
index = assocIndexOf(data, key);
if (index < 0) {
return false;
}
var lastIndex = data.length - 1;
if (index == lastIndex) {
data.pop();
} else {
splice.call(data, index, 1);
}
return true;
}
/**
* Gets the list cache value for `key`.
*
* @private
* @name get
* @memberOf ListCache
* @param {string} key The key of the value to get.
* @returns {*} Returns the entry value.
*/
function listCacheGet(key) {
var data = this.__data__,
index = assocIndexOf(data, key);
return index < 0 ? undefined : data[index][1];
}
/**
* Checks if a list cache value for `key` exists.
*
* @private
* @name has
* @memberOf ListCache
* @param {string} key The key of the entry to check.
* @returns {boolean} Returns `true` if an entry for `key` exists, else `false`.
*/
function listCacheHas(key) {
return assocIndexOf(this.__data__, key) > -1;
}
/**
* Sets the list cache `key` to `value`.
*
* @private
* @name set
* @memberOf ListCache
* @param {string} key The key of the value to set.
* @param {*} value The value to set.
* @returns {Object} Returns the list cache instance.
*/
function listCacheSet(key, value) {
var data = this.__data__,
index = assocIndexOf(data, key);
if (index < 0) {
data.push([key, value]);
} else {
data[index][1] = value;
}
return this;
}
// Add methods to `ListCache`.
ListCache.prototype.clear = listCacheClear;
ListCache.prototype['delete'] = listCacheDelete;
ListCache.prototype.get = listCacheGet;
ListCache.prototype.has = listCacheHas;
ListCache.prototype.set = listCacheSet;
/**
* Creates a map cache object to store key-value pairs.
*
* @private
* @constructor
* @param {Array} [entries] The key-value pairs to cache.
*/
function MapCache(entries) {
var index = -1,
length = entries ? entries.length : 0;
this.clear();
while (++index < length) {
var entry = entries[index];
this.set(entry[0], entry[1]);
}
}
/**
* Removes all key-value entries from the map.
*
* @private
* @name clear
* @memberOf MapCache
*/
function mapCacheClear() {
this.__data__ = {
'hash': new Hash,
'map': new (Map || ListCache),
'string': new Hash
};
}
/**
* Removes `key` and its value from the map.
*
* @private
* @name delete
* @memberOf MapCache
* @param {string} key The key of the value to remove.
* @returns {boolean} Returns `true` if the entry was removed, else `false`.
*/
function mapCacheDelete(key) {
return getMapData(this, key)['delete'](key);
}
/**
* Gets the map value for `key`.
*
* @private
* @name get
* @memberOf MapCache
* @param {string} key The key of the value to get.
* @returns {*} Returns the entry value.
*/
function mapCacheGet(key) {
return getMapData(this, key).get(key);
}
/**
* Checks if a map value for `key` exists.
*
* @private
* @name has
* @memberOf MapCache
* @param {string} key The key of the entry to check.
* @returns {boolean} Returns `true` if an entry for `key` exists, else `false`.
*/
function mapCacheHas(key) {
return getMapData(this, key).has(key);
}
/**
* Sets the map `key` to `value`.
*
* @private
* @name set
* @memberOf MapCache
* @param {string} key The key of the value to set.
* @param {*} value The value to set.
* @returns {Object} Returns the map cache instance.
*/
function mapCacheSet(key, value) {
getMapData(this, key).set(key, value);
return this;
}
// Add methods to `MapCache`.
MapCache.prototype.clear = mapCacheClear;
MapCache.prototype['delete'] = mapCacheDelete;
MapCache.prototype.get = mapCacheGet;
MapCache.prototype.has = mapCacheHas;
MapCache.prototype.set = mapCacheSet;
/**
*
* Creates an array cache object to store unique values.
*
* @private
* @constructor
* @param {Array} [values] The values to cache.
*/
function SetCache(values) {
var index = -1,
length = values ? values.length : 0;
this.__data__ = new MapCache;
while (++index < length) {
this.add(values[index]);
}
}
/**
* Adds `value` to the array cache.
*
* @private
* @name add
* @memberOf SetCache
* @alias push
* @param {*} value The value to cache.
* @returns {Object} Returns the cache instance.
*/
function setCacheAdd(value) {
this.__data__.set(value, HASH_UNDEFINED);
return this;
}
/**
* Checks if `value` is in the array cache.
*
* @private
* @name has
* @memberOf SetCache
* @param {*} value The value to search for.
* @returns {number} Returns `true` if `value` is found, else `false`.
*/
function setCacheHas(value) {
return this.__data__.has(value);
}
// Add methods to `SetCache`.
SetCache.prototype.add = SetCache.prototype.push = setCacheAdd;
SetCache.prototype.has = setCacheHas;
/**
* Gets the index at which the `key` is found in `array` of key-value pairs.
*
* @private
* @param {Array} array The array to inspect.
* @param {*} key The key to search for.
* @returns {number} Returns the index of the matched value, else `-1`.
*/
function assocIndexOf(array, key) {
var length = array.length;
while (length--) {
if (eq(array[length][0], key)) {
return length;
}
}
return -1;
}
/**
* The base implementation of methods like `_.difference` without support
* for excluding multiple arrays or iteratee shorthands.
*
* @private
* @param {Array} array The array to inspect.
* @param {Array} values The values to exclude.
* @param {Function} [iteratee] The iteratee invoked per element.
* @param {Function} [comparator] The comparator invoked per element.
* @returns {Array} Returns the new array of filtered values.
*/
function baseDifference(array, values, iteratee, comparator) {
var index = -1,
includes = arrayIncludes,
isCommon = true,
length = array.length,
result = [],
valuesLength = values.length;
if (!length) {
return result;
}
if (iteratee) {
values = arrayMap(values, baseUnary(iteratee));
}
if (comparator) {
includes = arrayIncludesWith;
isCommon = false;
}
else if (values.length >= LARGE_ARRAY_SIZE) {
includes = cacheHas;
isCommon = false;
values = new SetCache(values);
}
outer:
while (++index < length) {
var value = array[index],
computed = iteratee ? iteratee(value) : value;
value = (comparator || value !== 0) ? value : 0;
if (isCommon && computed === computed) {
var valuesIndex = valuesLength;
while (valuesIndex--) {
if (values[valuesIndex] === computed) {
continue outer;
}
}
result.push(value);
}
else if (!includes(values, computed, comparator)) {
result.push(value);
}
}
return result;
}
/**
* The base implementation of `_.flatten` with support for restricting flattening.
*
* @private
* @param {Array} array The array to flatten.
* @param {number} depth The maximum recursion depth.
* @param {boolean} [predicate=isFlattenable] The function invoked per iteration.
* @param {boolean} [isStrict] Restrict to values that pass `predicate` checks.
* @param {Array} [result=[]] The initial result value.
* @returns {Array} Returns the new flattened array.
*/
function baseFlatten(array, depth, predicate, isStrict, result) {
var index = -1,
length = array.length;
predicate || (predicate = isFlattenable);
result || (result = []);
while (++index < length) {
var value = array[index];
if (depth > 0 && predicate(value)) {
if (depth > 1) {
// Recursively flatten arrays (susceptible to call stack limits).
baseFlatten(value, depth - 1, predicate, isStrict, result);
} else {
arrayPush(result, value);
}
} else if (!isStrict) {
result[result.length] = value;
}
}
return result;
}
/**
* The base implementation of `_.isNative` without bad shim checks.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a native function,
* else `false`.
*/
function baseIsNative(value) {
if (!isObject(value) || isMasked(value)) {
return false;
}
var pattern = (isFunction(value) || isHostObject(value)) ? reIsNative : reIsHostCtor;
return pattern.test(toSource(value));
}
/**
* The base implementation of `_.rest` which doesn't validate or coerce arguments.
*
* @private
* @param {Function} func The function to apply a rest parameter to.
* @param {number} [start=func.length-1] The start position of the rest parameter.
* @returns {Function} Returns the new function.
*/
function baseRest(func, start) {
start = nativeMax(start === undefined ? (func.length - 1) : start, 0);
return function() {
var args = arguments,
index = -1,
length = nativeMax(args.length - start, 0),
array = Array(length);
while (++index < length) {
array[index] = args[start + index];
}
index = -1;
var otherArgs = Array(start + 1);
while (++index < start) {
otherArgs[index] = args[index];
}
otherArgs[start] = array;
return apply(func, this, otherArgs);
};
}
/**
* Gets the data for `map`.
*
* @private
* @param {Object} map The map to query.
* @param {string} key The reference key.
* @returns {*} Returns the map data.
*/
function getMapData(map, key) {
var data = map.__data__;
return isKeyable(key)
? data[typeof key == 'string' ? 'string' : 'hash']
: data.map;
}
/**
* Gets the native function at `key` of `object`.
*
* @private
* @param {Object} object The object to query.
* @param {string} key The key of the method to get.
* @returns {*} Returns the function if it's native, else `undefined`.
*/
function getNative(object, key) {
var value = getValue(object, key);
return baseIsNative(value) ? value : undefined;
}
/**
* Checks if `value` is a flattenable `arguments` object or array.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is flattenable, else `false`.
*/
function isFlattenable(value) {
return isArray(value) || isArguments(value) ||
!!(spreadableSymbol && value && value[spreadableSymbol]);
}
/**
* Checks if `value` is suitable for use as unique object key.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is suitable, else `false`.
*/
function isKeyable(value) {
var type = typeof value;
return (type == 'string' || type == 'number' || type == 'symbol' || type == 'boolean')
? (value !== '__proto__')
: (value === null);
}
/**
* Checks if `func` has its source masked.
*
* @private
* @param {Function} func The function to check.
* @returns {boolean} Returns `true` if `func` is masked, else `false`.
*/
function isMasked(func) {
return !!maskSrcKey && (maskSrcKey in func);
}
/**
* Converts `func` to its source code.
*
* @private
* @param {Function} func The function to process.
* @returns {string} Returns the source code.
*/
function toSource(func) {
if (func != null) {
try {
return funcToString.call(func);
} catch (e) {}
try {
return (func + '');
} catch (e) {}
}
return '';
}
/**
* Creates an array of `array` values not included in the other given arrays
* using [`SameValueZero`](http://ecma-international.org/ecma-262/7.0/#sec-samevaluezero)
* for equality comparisons. The order of result values is determined by the
* order they occur in the first array.
*
* **Note:** Unlike `_.pullAll`, this method returns a new array.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Array
* @param {Array} array The array to inspect.
* @param {...Array} [values] The values to exclude.
* @returns {Array} Returns the new array of filtered values.
* @see _.without, _.xor
* @example
*
* _.difference([2, 1], [2, 3]);
* // => [1]
*/
var difference = baseRest(function(array, values) {
return isArrayLikeObject(array)
? baseDifference(array, baseFlatten(values, 1, isArrayLikeObject, true))
: [];
});
/**
* Performs a
* [`SameValueZero`](http://ecma-international.org/ecma-262/7.0/#sec-samevaluezero)
* comparison between two values to determine if they are equivalent.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to compare.
* @param {*} other The other value to compare.
* @returns {boolean} Returns `true` if the values are equivalent, else `false`.
* @example
*
* var object = { 'a': 1 };
* var other = { 'a': 1 };
*
* _.eq(object, object);
* // => true
*
* _.eq(object, other);
* // => false
*
* _.eq('a', 'a');
* // => true
*
* _.eq('a', Object('a'));
* // => false
*
* _.eq(NaN, NaN);
* // => true
*/
function eq(value, other) {
return value === other || (value !== value && other !== other);
}
/**
* Checks if `value` is likely an `arguments` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an `arguments` object,
* else `false`.
* @example
*
* _.isArguments(function() { return arguments; }());
* // => true
*
* _.isArguments([1, 2, 3]);
* // => false
*/
function isArguments(value) {
// Safari 8.1 makes `arguments.callee` enumerable in strict mode.
return isArrayLikeObject(value) && hasOwnProperty.call(value, 'callee') &&
(!propertyIsEnumerable.call(value, 'callee') || objectToString.call(value) == argsTag);
}
/**
* Checks if `value` is classified as an `Array` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an array, else `false`.
* @example
*
* _.isArray([1, 2, 3]);
* // => true
*
* _.isArray(document.body.children);
* // => false
*
* _.isArray('abc');
* // => false
*
* _.isArray(_.noop);
* // => false
*/
var isArray = Array.isArray;
/**
* Checks if `value` is array-like. A value is considered array-like if it's
* not a function and has a `value.length` that's an integer greater than or
* equal to `0` and less than or equal to `Number.MAX_SAFE_INTEGER`.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is array-like, else `false`.
* @example
*
* _.isArrayLike([1, 2, 3]);
* // => true
*
* _.isArrayLike(document.body.children);
* // => true
*
* _.isArrayLike('abc');
* // => true
*
* _.isArrayLike(_.noop);
* // => false
*/
function isArrayLike(value) {
return value != null && isLength(value.length) && !isFunction(value);
}
/**
* This method is like `_.isArrayLike` except that it also checks if `value`
* is an object.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an array-like object,
* else `false`.
* @example
*
* _.isArrayLikeObject([1, 2, 3]);
* // => true
*
* _.isArrayLikeObject(document.body.children);
* // => true
*
* _.isArrayLikeObject('abc');
* // => false
*
* _.isArrayLikeObject(_.noop);
* // => false
*/
function isArrayLikeObject(value) {
return isObjectLike(value) && isArrayLike(value);
}
/**
* Checks if `value` is classified as a `Function` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a function, else `false`.
* @example
*
* _.isFunction(_);
* // => true
*
* _.isFunction(/abc/);
* // => false
*/
function isFunction(value) {
// The use of `Object#toString` avoids issues with the `typeof` operator
// in Safari 8-9 which returns 'object' for typed array and other constructors.
var tag = isObject(value) ? objectToString.call(value) : '';
return tag == funcTag || tag == genTag;
}
/**
* Checks if `value` is a valid array-like length.
*
* **Note:** This method is loosely based on
* [`ToLength`](http://ecma-international.org/ecma-262/7.0/#sec-tolength).
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a valid length, else `false`.
* @example
*
* _.isLength(3);
* // => true
*
* _.isLength(Number.MIN_VALUE);
* // => false
*
* _.isLength(Infinity);
* // => false
*
* _.isLength('3');
* // => false
*/
function isLength(value) {
return typeof value == 'number' &&
value > -1 && value % 1 == 0 && value <= MAX_SAFE_INTEGER;
}
/**
* Checks if `value` is the
* [language type](http://www.ecma-international.org/ecma-262/7.0/#sec-ecmascript-language-types)
* of `Object`. (e.g. arrays, functions, objects, regexes, `new Number(0)`, and `new String('')`)
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an object, else `false`.
* @example
*
* _.isObject({});
* // => true
*
* _.isObject([1, 2, 3]);
* // => true
*
* _.isObject(_.noop);
* // => true
*
* _.isObject(null);
* // => false
*/
function isObject(value) {
var type = typeof value;
return !!value && (type == 'object' || type == 'function');
}
/**
* Checks if `value` is object-like. A value is object-like if it's not `null`
* and has a `typeof` result of "object".
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is object-like, else `false`.
* @example
*
* _.isObjectLike({});
* // => true
*
* _.isObjectLike([1, 2, 3]);
* // => true
*
* _.isObjectLike(_.noop);
* // => false
*
* _.isObjectLike(null);
* // => false
*/
function isObjectLike(value) {
return !!value && typeof value == 'object';
}
module.exports = difference;
/***/ }),
/***/ 5151:
/***/ ((module) => {
/**
* lodash (Custom Build)
* Build: `lodash modularize exports="npm" -o ./`
* Copyright jQuery Foundation and other contributors
* Released under MIT license
* Based on Underscore.js 1.8.3
* Copyright Jeremy Ashkenas, DocumentCloud and Investigative Reporters & Editors
*/
/** Used as references for various `Number` constants. */
var MAX_SAFE_INTEGER = 9007199254740991;
/** `Object#toString` result references. */
var argsTag = '[object Arguments]',
funcTag = '[object Function]',
genTag = '[object GeneratorFunction]';
/** Detect free variable `global` from Node.js. */
var freeGlobal = typeof global == 'object' && global && global.Object === Object && global;
/** Detect free variable `self`. */
var freeSelf = typeof self == 'object' && self && self.Object === Object && self;
/** Used as a reference to the global object. */
var root = freeGlobal || freeSelf || Function('return this')();
/**
* Appends the elements of `values` to `array`.
*
* @private
* @param {Array} array The array to modify.
* @param {Array} values The values to append.
* @returns {Array} Returns `array`.
*/
function arrayPush(array, values) {
var index = -1,
length = values.length,
offset = array.length;
while (++index < length) {
array[offset + index] = values[index];
}
return array;
}
/** Used for built-in method references. */
var objectProto = Object.prototype;
/** Used to check objects for own properties. */
var hasOwnProperty = objectProto.hasOwnProperty;
/**
* Used to resolve the
* [`toStringTag`](http://ecma-international.org/ecma-262/7.0/#sec-object.prototype.tostring)
* of values.
*/
var objectToString = objectProto.toString;
/** Built-in value references. */
var Symbol = root.Symbol,
propertyIsEnumerable = objectProto.propertyIsEnumerable,
spreadableSymbol = Symbol ? Symbol.isConcatSpreadable : undefined;
/**
* The base implementation of `_.flatten` with support for restricting flattening.
*
* @private
* @param {Array} array The array to flatten.
* @param {number} depth The maximum recursion depth.
* @param {boolean} [predicate=isFlattenable] The function invoked per iteration.
* @param {boolean} [isStrict] Restrict to values that pass `predicate` checks.
* @param {Array} [result=[]] The initial result value.
* @returns {Array} Returns the new flattened array.
*/
function baseFlatten(array, depth, predicate, isStrict, result) {
var index = -1,
length = array.length;
predicate || (predicate = isFlattenable);
result || (result = []);
while (++index < length) {
var value = array[index];
if (depth > 0 && predicate(value)) {
if (depth > 1) {
// Recursively flatten arrays (susceptible to call stack limits).
baseFlatten(value, depth - 1, predicate, isStrict, result);
} else {
arrayPush(result, value);
}
} else if (!isStrict) {
result[result.length] = value;
}
}
return result;
}
/**
* Checks if `value` is a flattenable `arguments` object or array.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is flattenable, else `false`.
*/
function isFlattenable(value) {
return isArray(value) || isArguments(value) ||
!!(spreadableSymbol && value && value[spreadableSymbol]);
}
/**
* Flattens `array` a single level deep.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Array
* @param {Array} array The array to flatten.
* @returns {Array} Returns the new flattened array.
* @example
*
* _.flatten([1, [2, [3, [4]], 5]]);
* // => [1, 2, [3, [4]], 5]
*/
function flatten(array) {
var length = array ? array.length : 0;
return length ? baseFlatten(array, 1) : [];
}
/**
* Checks if `value` is likely an `arguments` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an `arguments` object,
* else `false`.
* @example
*
* _.isArguments(function() { return arguments; }());
* // => true
*
* _.isArguments([1, 2, 3]);
* // => false
*/
function isArguments(value) {
// Safari 8.1 makes `arguments.callee` enumerable in strict mode.
return isArrayLikeObject(value) && hasOwnProperty.call(value, 'callee') &&
(!propertyIsEnumerable.call(value, 'callee') || objectToString.call(value) == argsTag);
}
/**
* Checks if `value` is classified as an `Array` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an array, else `false`.
* @example
*
* _.isArray([1, 2, 3]);
* // => true
*
* _.isArray(document.body.children);
* // => false
*
* _.isArray('abc');
* // => false
*
* _.isArray(_.noop);
* // => false
*/
var isArray = Array.isArray;
/**
* Checks if `value` is array-like. A value is considered array-like if it's
* not a function and has a `value.length` that's an integer greater than or
* equal to `0` and less than or equal to `Number.MAX_SAFE_INTEGER`.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is array-like, else `false`.
* @example
*
* _.isArrayLike([1, 2, 3]);
* // => true
*
* _.isArrayLike(document.body.children);
* // => true
*
* _.isArrayLike('abc');
* // => true
*
* _.isArrayLike(_.noop);
* // => false
*/
function isArrayLike(value) {
return value != null && isLength(value.length) && !isFunction(value);
}
/**
* This method is like `_.isArrayLike` except that it also checks if `value`
* is an object.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an array-like object,
* else `false`.
* @example
*
* _.isArrayLikeObject([1, 2, 3]);
* // => true
*
* _.isArrayLikeObject(document.body.children);
* // => true
*
* _.isArrayLikeObject('abc');
* // => false
*
* _.isArrayLikeObject(_.noop);
* // => false
*/
function isArrayLikeObject(value) {
return isObjectLike(value) && isArrayLike(value);
}
/**
* Checks if `value` is classified as a `Function` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a function, else `false`.
* @example
*
* _.isFunction(_);
* // => true
*
* _.isFunction(/abc/);
* // => false
*/
function isFunction(value) {
// The use of `Object#toString` avoids issues with the `typeof` operator
// in Safari 8-9 which returns 'object' for typed array and other constructors.
var tag = isObject(value) ? objectToString.call(value) : '';
return tag == funcTag || tag == genTag;
}
/**
* Checks if `value` is a valid array-like length.
*
* **Note:** This method is loosely based on
* [`ToLength`](http://ecma-international.org/ecma-262/7.0/#sec-tolength).
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a valid length, else `false`.
* @example
*
* _.isLength(3);
* // => true
*
* _.isLength(Number.MIN_VALUE);
* // => false
*
* _.isLength(Infinity);
* // => false
*
* _.isLength('3');
* // => false
*/
function isLength(value) {
return typeof value == 'number' &&
value > -1 && value % 1 == 0 && value <= MAX_SAFE_INTEGER;
}
/**
* Checks if `value` is the
* [language type](http://www.ecma-international.org/ecma-262/7.0/#sec-ecmascript-language-types)
* of `Object`. (e.g. arrays, functions, objects, regexes, `new Number(0)`, and `new String('')`)
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an object, else `false`.
* @example
*
* _.isObject({});
* // => true
*
* _.isObject([1, 2, 3]);
* // => true
*
* _.isObject(_.noop);
* // => true
*
* _.isObject(null);
* // => false
*/
function isObject(value) {
var type = typeof value;
return !!value && (type == 'object' || type == 'function');
}
/**
* Checks if `value` is object-like. A value is object-like if it's not `null`
* and has a `typeof` result of "object".
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is object-like, else `false`.
* @example
*
* _.isObjectLike({});
* // => true
*
* _.isObjectLike([1, 2, 3]);
* // => true
*
* _.isObjectLike(_.noop);
* // => false
*
* _.isObjectLike(null);
* // => false
*/
function isObjectLike(value) {
return !!value && typeof value == 'object';
}
module.exports = flatten;
/***/ }),
/***/ 84:
/***/ ((module) => {
/**
* lodash (Custom Build)
* Build: `lodash modularize exports="npm" -o ./`
* Copyright jQuery Foundation and other contributors
* Released under MIT license
* Based on Underscore.js 1.8.3
* Copyright Jeremy Ashkenas, DocumentCloud and Investigative Reporters & Editors
*/
/** `Object#toString` result references. */
var objectTag = '[object Object]';
/**
* Checks if `value` is a host object in IE < 9.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a host object, else `false`.
*/
function isHostObject(value) {
// Many host objects are `Object` objects that can coerce to strings
// despite having improperly defined `toString` methods.
var result = false;
if (value != null && typeof value.toString != 'function') {
try {
result = !!(value + '');
} catch (e) {}
}
return result;
}
/**
* Creates a unary function that invokes `func` with its argument transformed.
*
* @private
* @param {Function} func The function to wrap.
* @param {Function} transform The argument transform.
* @returns {Function} Returns the new function.
*/
function overArg(func, transform) {
return function(arg) {
return func(transform(arg));
};
}
/** Used for built-in method references. */
var funcProto = Function.prototype,
objectProto = Object.prototype;
/** Used to resolve the decompiled source of functions. */
var funcToString = funcProto.toString;
/** Used to check objects for own properties. */
var hasOwnProperty = objectProto.hasOwnProperty;
/** Used to infer the `Object` constructor. */
var objectCtorString = funcToString.call(Object);
/**
* Used to resolve the
* [`toStringTag`](http://ecma-international.org/ecma-262/7.0/#sec-object.prototype.tostring)
* of values.
*/
var objectToString = objectProto.toString;
/** Built-in value references. */
var getPrototype = overArg(Object.getPrototypeOf, Object);
/**
* Checks if `value` is object-like. A value is object-like if it's not `null`
* and has a `typeof` result of "object".
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is object-like, else `false`.
* @example
*
* _.isObjectLike({});
* // => true
*
* _.isObjectLike([1, 2, 3]);
* // => true
*
* _.isObjectLike(_.noop);
* // => false
*
* _.isObjectLike(null);
* // => false
*/
function isObjectLike(value) {
return !!value && typeof value == 'object';
}
/**
* Checks if `value` is a plain object, that is, an object created by the
* `Object` constructor or one with a `[[Prototype]]` of `null`.
*
* @static
* @memberOf _
* @since 0.8.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a plain object, else `false`.
* @example
*
* function Foo() {
* this.a = 1;
* }
*
* _.isPlainObject(new Foo);
* // => false
*
* _.isPlainObject([1, 2, 3]);
* // => false
*
* _.isPlainObject({ 'x': 0, 'y': 0 });
* // => true
*
* _.isPlainObject(Object.create(null));
* // => true
*/
function isPlainObject(value) {
if (!isObjectLike(value) ||
objectToString.call(value) != objectTag || isHostObject(value)) {
return false;
}
var proto = getPrototype(value);
if (proto === null) {
return true;
}
var Ctor = hasOwnProperty.call(proto, 'constructor') && proto.constructor;
return (typeof Ctor == 'function' &&
Ctor instanceof Ctor && funcToString.call(Ctor) == objectCtorString);
}
module.exports = isPlainObject;
/***/ }),
/***/ 6819:
/***/ ((module) => {
/**
* lodash (Custom Build)
* Build: `lodash modularize exports="npm" -o ./`
* Copyright jQuery Foundation and other contributors
* Released under MIT license
* Based on Underscore.js 1.8.3
* Copyright Jeremy Ashkenas, DocumentCloud and Investigative Reporters & Editors
*/
/** Used as the size to enable large array optimizations. */
var LARGE_ARRAY_SIZE = 200;
/** Used to stand-in for `undefined` hash values. */
var HASH_UNDEFINED = '__lodash_hash_undefined__';
/** Used as references for various `Number` constants. */
var INFINITY = 1 / 0,
MAX_SAFE_INTEGER = 9007199254740991;
/** `Object#toString` result references. */
var argsTag = '[object Arguments]',
funcTag = '[object Function]',
genTag = '[object GeneratorFunction]';
/**
* Used to match `RegExp`
* [syntax characters](http://ecma-international.org/ecma-262/7.0/#sec-patterns).
*/
var reRegExpChar = /[\\^$.*+?()[\]{}|]/g;
/** Used to detect host constructors (Safari). */
var reIsHostCtor = /^\[object .+?Constructor\]$/;
/** Detect free variable `global` from Node.js. */
var freeGlobal = typeof global == 'object' && global && global.Object === Object && global;
/** Detect free variable `self`. */
var freeSelf = typeof self == 'object' && self && self.Object === Object && self;
/** Used as a reference to the global object. */
var root = freeGlobal || freeSelf || Function('return this')();
/**
* A faster alternative to `Function#apply`, this function invokes `func`
* with the `this` binding of `thisArg` and the arguments of `args`.
*
* @private
* @param {Function} func The function to invoke.
* @param {*} thisArg The `this` binding of `func`.
* @param {Array} args The arguments to invoke `func` with.
* @returns {*} Returns the result of `func`.
*/
function apply(func, thisArg, args) {
switch (args.length) {
case 0: return func.call(thisArg);
case 1: return func.call(thisArg, args[0]);
case 2: return func.call(thisArg, args[0], args[1]);
case 3: return func.call(thisArg, args[0], args[1], args[2]);
}
return func.apply(thisArg, args);
}
/**
* A specialized version of `_.includes` for arrays without support for
* specifying an index to search from.
*
* @private
* @param {Array} [array] The array to inspect.
* @param {*} target The value to search for.
* @returns {boolean} Returns `true` if `target` is found, else `false`.
*/
function arrayIncludes(array, value) {
var length = array ? array.length : 0;
return !!length && baseIndexOf(array, value, 0) > -1;
}
/**
* This function is like `arrayIncludes` except that it accepts a comparator.
*
* @private
* @param {Array} [array] The array to inspect.
* @param {*} target The value to search for.
* @param {Function} comparator The comparator invoked per element.
* @returns {boolean} Returns `true` if `target` is found, else `false`.
*/
function arrayIncludesWith(array, value, comparator) {
var index = -1,
length = array ? array.length : 0;
while (++index < length) {
if (comparator(value, array[index])) {
return true;
}
}
return false;
}
/**
* Appends the elements of `values` to `array`.
*
* @private
* @param {Array} array The array to modify.
* @param {Array} values The values to append.
* @returns {Array} Returns `array`.
*/
function arrayPush(array, values) {
var index = -1,
length = values.length,
offset = array.length;
while (++index < length) {
array[offset + index] = values[index];
}
return array;
}
/**
* The base implementation of `_.findIndex` and `_.findLastIndex` without
* support for iteratee shorthands.
*
* @private
* @param {Array} array The array to inspect.
* @param {Function} predicate The function invoked per iteration.
* @param {number} fromIndex The index to search from.
* @param {boolean} [fromRight] Specify iterating from right to left.
* @returns {number} Returns the index of the matched value, else `-1`.
*/
function baseFindIndex(array, predicate, fromIndex, fromRight) {
var length = array.length,
index = fromIndex + (fromRight ? 1 : -1);
while ((fromRight ? index-- : ++index < length)) {
if (predicate(array[index], index, array)) {
return index;
}
}
return -1;
}
/**
* The base implementation of `_.indexOf` without `fromIndex` bounds checks.
*
* @private
* @param {Array} array The array to inspect.
* @param {*} value The value to search for.
* @param {number} fromIndex The index to search from.
* @returns {number} Returns the index of the matched value, else `-1`.
*/
function baseIndexOf(array, value, fromIndex) {
if (value !== value) {
return baseFindIndex(array, baseIsNaN, fromIndex);
}
var index = fromIndex - 1,
length = array.length;
while (++index < length) {
if (array[index] === value) {
return index;
}
}
return -1;
}
/**
* The base implementation of `_.isNaN` without support for number objects.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is `NaN`, else `false`.
*/
function baseIsNaN(value) {
return value !== value;
}
/**
* Checks if a cache value for `key` exists.
*
* @private
* @param {Object} cache The cache to query.
* @param {string} key The key of the entry to check.
* @returns {boolean} Returns `true` if an entry for `key` exists, else `false`.
*/
function cacheHas(cache, key) {
return cache.has(key);
}
/**
* Gets the value at `key` of `object`.
*
* @private
* @param {Object} [object] The object to query.
* @param {string} key The key of the property to get.
* @returns {*} Returns the property value.
*/
function getValue(object, key) {
return object == null ? undefined : object[key];
}
/**
* Checks if `value` is a host object in IE < 9.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a host object, else `false`.
*/
function isHostObject(value) {
// Many host objects are `Object` objects that can coerce to strings
// despite having improperly defined `toString` methods.
var result = false;
if (value != null && typeof value.toString != 'function') {
try {
result = !!(value + '');
} catch (e) {}
}
return result;
}
/**
* Converts `set` to an array of its values.
*
* @private
* @param {Object} set The set to convert.
* @returns {Array} Returns the values.
*/
function setToArray(set) {
var index = -1,
result = Array(set.size);
set.forEach(function(value) {
result[++index] = value;
});
return result;
}
/** Used for built-in method references. */
var arrayProto = Array.prototype,
funcProto = Function.prototype,
objectProto = Object.prototype;
/** Used to detect overreaching core-js shims. */
var coreJsData = root['__core-js_shared__'];
/** Used to detect methods masquerading as native. */
var maskSrcKey = (function() {
var uid = /[^.]+$/.exec(coreJsData && coreJsData.keys && coreJsData.keys.IE_PROTO || '');
return uid ? ('Symbol(src)_1.' + uid) : '';
}());
/** Used to resolve the decompiled source of functions. */
var funcToString = funcProto.toString;
/** Used to check objects for own properties. */
var hasOwnProperty = objectProto.hasOwnProperty;
/**
* Used to resolve the
* [`toStringTag`](http://ecma-international.org/ecma-262/7.0/#sec-object.prototype.tostring)
* of values.
*/
var objectToString = objectProto.toString;
/** Used to detect if a method is native. */
var reIsNative = RegExp('^' +
funcToString.call(hasOwnProperty).replace(reRegExpChar, '\\$&')
.replace(/hasOwnProperty|(function).*?(?=\\\()| for .+?(?=\\\])/g, '$1.*?') + '$'
);
/** Built-in value references. */
var Symbol = root.Symbol,
propertyIsEnumerable = objectProto.propertyIsEnumerable,
splice = arrayProto.splice,
spreadableSymbol = Symbol ? Symbol.isConcatSpreadable : undefined;
/* Built-in method references for those with the same name as other `lodash` methods. */
var nativeMax = Math.max;
/* Built-in method references that are verified to be native. */
var Map = getNative(root, 'Map'),
Set = getNative(root, 'Set'),
nativeCreate = getNative(Object, 'create');
/**
* Creates a hash object.
*
* @private
* @constructor
* @param {Array} [entries] The key-value pairs to cache.
*/
function Hash(entries) {
var index = -1,
length = entries ? entries.length : 0;
this.clear();
while (++index < length) {
var entry = entries[index];
this.set(entry[0], entry[1]);
}
}
/**
* Removes all key-value entries from the hash.
*
* @private
* @name clear
* @memberOf Hash
*/
function hashClear() {
this.__data__ = nativeCreate ? nativeCreate(null) : {};
}
/**
* Removes `key` and its value from the hash.
*
* @private
* @name delete
* @memberOf Hash
* @param {Object} hash The hash to modify.
* @param {string} key The key of the value to remove.
* @returns {boolean} Returns `true` if the entry was removed, else `false`.
*/
function hashDelete(key) {
return this.has(key) && delete this.__data__[key];
}
/**
* Gets the hash value for `key`.
*
* @private
* @name get
* @memberOf Hash
* @param {string} key The key of the value to get.
* @returns {*} Returns the entry value.
*/
function hashGet(key) {
var data = this.__data__;
if (nativeCreate) {
var result = data[key];
return result === HASH_UNDEFINED ? undefined : result;
}
return hasOwnProperty.call(data, key) ? data[key] : undefined;
}
/**
* Checks if a hash value for `key` exists.
*
* @private
* @name has
* @memberOf Hash
* @param {string} key The key of the entry to check.
* @returns {boolean} Returns `true` if an entry for `key` exists, else `false`.
*/
function hashHas(key) {
var data = this.__data__;
return nativeCreate ? data[key] !== undefined : hasOwnProperty.call(data, key);
}
/**
* Sets the hash `key` to `value`.
*
* @private
* @name set
* @memberOf Hash
* @param {string} key The key of the value to set.
* @param {*} value The value to set.
* @returns {Object} Returns the hash instance.
*/
function hashSet(key, value) {
var data = this.__data__;
data[key] = (nativeCreate && value === undefined) ? HASH_UNDEFINED : value;
return this;
}
// Add methods to `Hash`.
Hash.prototype.clear = hashClear;
Hash.prototype['delete'] = hashDelete;
Hash.prototype.get = hashGet;
Hash.prototype.has = hashHas;
Hash.prototype.set = hashSet;
/**
* Creates an list cache object.
*
* @private
* @constructor
* @param {Array} [entries] The key-value pairs to cache.
*/
function ListCache(entries) {
var index = -1,
length = entries ? entries.length : 0;
this.clear();
while (++index < length) {
var entry = entries[index];
this.set(entry[0], entry[1]);
}
}
/**
* Removes all key-value entries from the list cache.
*
* @private
* @name clear
* @memberOf ListCache
*/
function listCacheClear() {
this.__data__ = [];
}
/**
* Removes `key` and its value from the list cache.
*
* @private
* @name delete
* @memberOf ListCache
* @param {string} key The key of the value to remove.
* @returns {boolean} Returns `true` if the entry was removed, else `false`.
*/
function listCacheDelete(key) {
var data = this.__data__,
index = assocIndexOf(data, key);
if (index < 0) {
return false;
}
var lastIndex = data.length - 1;
if (index == lastIndex) {
data.pop();
} else {
splice.call(data, index, 1);
}
return true;
}
/**
* Gets the list cache value for `key`.
*
* @private
* @name get
* @memberOf ListCache
* @param {string} key The key of the value to get.
* @returns {*} Returns the entry value.
*/
function listCacheGet(key) {
var data = this.__data__,
index = assocIndexOf(data, key);
return index < 0 ? undefined : data[index][1];
}
/**
* Checks if a list cache value for `key` exists.
*
* @private
* @name has
* @memberOf ListCache
* @param {string} key The key of the entry to check.
* @returns {boolean} Returns `true` if an entry for `key` exists, else `false`.
*/
function listCacheHas(key) {
return assocIndexOf(this.__data__, key) > -1;
}
/**
* Sets the list cache `key` to `value`.
*
* @private
* @name set
* @memberOf ListCache
* @param {string} key The key of the value to set.
* @param {*} value The value to set.
* @returns {Object} Returns the list cache instance.
*/
function listCacheSet(key, value) {
var data = this.__data__,
index = assocIndexOf(data, key);
if (index < 0) {
data.push([key, value]);
} else {
data[index][1] = value;
}
return this;
}
// Add methods to `ListCache`.
ListCache.prototype.clear = listCacheClear;
ListCache.prototype['delete'] = listCacheDelete;
ListCache.prototype.get = listCacheGet;
ListCache.prototype.has = listCacheHas;
ListCache.prototype.set = listCacheSet;
/**
* Creates a map cache object to store key-value pairs.
*
* @private
* @constructor
* @param {Array} [entries] The key-value pairs to cache.
*/
function MapCache(entries) {
var index = -1,
length = entries ? entries.length : 0;
this.clear();
while (++index < length) {
var entry = entries[index];
this.set(entry[0], entry[1]);
}
}
/**
* Removes all key-value entries from the map.
*
* @private
* @name clear
* @memberOf MapCache
*/
function mapCacheClear() {
this.__data__ = {
'hash': new Hash,
'map': new (Map || ListCache),
'string': new Hash
};
}
/**
* Removes `key` and its value from the map.
*
* @private
* @name delete
* @memberOf MapCache
* @param {string} key The key of the value to remove.
* @returns {boolean} Returns `true` if the entry was removed, else `false`.
*/
function mapCacheDelete(key) {
return getMapData(this, key)['delete'](key);
}
/**
* Gets the map value for `key`.
*
* @private
* @name get
* @memberOf MapCache
* @param {string} key The key of the value to get.
* @returns {*} Returns the entry value.
*/
function mapCacheGet(key) {
return getMapData(this, key).get(key);
}
/**
* Checks if a map value for `key` exists.
*
* @private
* @name has
* @memberOf MapCache
* @param {string} key The key of the entry to check.
* @returns {boolean} Returns `true` if an entry for `key` exists, else `false`.
*/
function mapCacheHas(key) {
return getMapData(this, key).has(key);
}
/**
* Sets the map `key` to `value`.
*
* @private
* @name set
* @memberOf MapCache
* @param {string} key The key of the value to set.
* @param {*} value The value to set.
* @returns {Object} Returns the map cache instance.
*/
function mapCacheSet(key, value) {
getMapData(this, key).set(key, value);
return this;
}
// Add methods to `MapCache`.
MapCache.prototype.clear = mapCacheClear;
MapCache.prototype['delete'] = mapCacheDelete;
MapCache.prototype.get = mapCacheGet;
MapCache.prototype.has = mapCacheHas;
MapCache.prototype.set = mapCacheSet;
/**
*
* Creates an array cache object to store unique values.
*
* @private
* @constructor
* @param {Array} [values] The values to cache.
*/
function SetCache(values) {
var index = -1,
length = values ? values.length : 0;
this.__data__ = new MapCache;
while (++index < length) {
this.add(values[index]);
}
}
/**
* Adds `value` to the array cache.
*
* @private
* @name add
* @memberOf SetCache
* @alias push
* @param {*} value The value to cache.
* @returns {Object} Returns the cache instance.
*/
function setCacheAdd(value) {
this.__data__.set(value, HASH_UNDEFINED);
return this;
}
/**
* Checks if `value` is in the array cache.
*
* @private
* @name has
* @memberOf SetCache
* @param {*} value The value to search for.
* @returns {number} Returns `true` if `value` is found, else `false`.
*/
function setCacheHas(value) {
return this.__data__.has(value);
}
// Add methods to `SetCache`.
SetCache.prototype.add = SetCache.prototype.push = setCacheAdd;
SetCache.prototype.has = setCacheHas;
/**
* Gets the index at which the `key` is found in `array` of key-value pairs.
*
* @private
* @param {Array} array The array to inspect.
* @param {*} key The key to search for.
* @returns {number} Returns the index of the matched value, else `-1`.
*/
function assocIndexOf(array, key) {
var length = array.length;
while (length--) {
if (eq(array[length][0], key)) {
return length;
}
}
return -1;
}
/**
* The base implementation of `_.flatten` with support for restricting flattening.
*
* @private
* @param {Array} array The array to flatten.
* @param {number} depth The maximum recursion depth.
* @param {boolean} [predicate=isFlattenable] The function invoked per iteration.
* @param {boolean} [isStrict] Restrict to values that pass `predicate` checks.
* @param {Array} [result=[]] The initial result value.
* @returns {Array} Returns the new flattened array.
*/
function baseFlatten(array, depth, predicate, isStrict, result) {
var index = -1,
length = array.length;
predicate || (predicate = isFlattenable);
result || (result = []);
while (++index < length) {
var value = array[index];
if (depth > 0 && predicate(value)) {
if (depth > 1) {
// Recursively flatten arrays (susceptible to call stack limits).
baseFlatten(value, depth - 1, predicate, isStrict, result);
} else {
arrayPush(result, value);
}
} else if (!isStrict) {
result[result.length] = value;
}
}
return result;
}
/**
* The base implementation of `_.isNative` without bad shim checks.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a native function,
* else `false`.
*/
function baseIsNative(value) {
if (!isObject(value) || isMasked(value)) {
return false;
}
var pattern = (isFunction(value) || isHostObject(value)) ? reIsNative : reIsHostCtor;
return pattern.test(toSource(value));
}
/**
* The base implementation of `_.rest` which doesn't validate or coerce arguments.
*
* @private
* @param {Function} func The function to apply a rest parameter to.
* @param {number} [start=func.length-1] The start position of the rest parameter.
* @returns {Function} Returns the new function.
*/
function baseRest(func, start) {
start = nativeMax(start === undefined ? (func.length - 1) : start, 0);
return function() {
var args = arguments,
index = -1,
length = nativeMax(args.length - start, 0),
array = Array(length);
while (++index < length) {
array[index] = args[start + index];
}
index = -1;
var otherArgs = Array(start + 1);
while (++index < start) {
otherArgs[index] = args[index];
}
otherArgs[start] = array;
return apply(func, this, otherArgs);
};
}
/**
* The base implementation of `_.uniqBy` without support for iteratee shorthands.
*
* @private
* @param {Array} array The array to inspect.
* @param {Function} [iteratee] The iteratee invoked per element.
* @param {Function} [comparator] The comparator invoked per element.
* @returns {Array} Returns the new duplicate free array.
*/
function baseUniq(array, iteratee, comparator) {
var index = -1,
includes = arrayIncludes,
length = array.length,
isCommon = true,
result = [],
seen = result;
if (comparator) {
isCommon = false;
includes = arrayIncludesWith;
}
else if (length >= LARGE_ARRAY_SIZE) {
var set = iteratee ? null : createSet(array);
if (set) {
return setToArray(set);
}
isCommon = false;
includes = cacheHas;
seen = new SetCache;
}
else {
seen = iteratee ? [] : result;
}
outer:
while (++index < length) {
var value = array[index],
computed = iteratee ? iteratee(value) : value;
value = (comparator || value !== 0) ? value : 0;
if (isCommon && computed === computed) {
var seenIndex = seen.length;
while (seenIndex--) {
if (seen[seenIndex] === computed) {
continue outer;
}
}
if (iteratee) {
seen.push(computed);
}
result.push(value);
}
else if (!includes(seen, computed, comparator)) {
if (seen !== result) {
seen.push(computed);
}
result.push(value);
}
}
return result;
}
/**
* Creates a set object of `values`.
*
* @private
* @param {Array} values The values to add to the set.
* @returns {Object} Returns the new set.
*/
var createSet = !(Set && (1 / setToArray(new Set([,-0]))[1]) == INFINITY) ? noop : function(values) {
return new Set(values);
};
/**
* Gets the data for `map`.
*
* @private
* @param {Object} map The map to query.
* @param {string} key The reference key.
* @returns {*} Returns the map data.
*/
function getMapData(map, key) {
var data = map.__data__;
return isKeyable(key)
? data[typeof key == 'string' ? 'string' : 'hash']
: data.map;
}
/**
* Gets the native function at `key` of `object`.
*
* @private
* @param {Object} object The object to query.
* @param {string} key The key of the method to get.
* @returns {*} Returns the function if it's native, else `undefined`.
*/
function getNative(object, key) {
var value = getValue(object, key);
return baseIsNative(value) ? value : undefined;
}
/**
* Checks if `value` is a flattenable `arguments` object or array.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is flattenable, else `false`.
*/
function isFlattenable(value) {
return isArray(value) || isArguments(value) ||
!!(spreadableSymbol && value && value[spreadableSymbol]);
}
/**
* Checks if `value` is suitable for use as unique object key.
*
* @private
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is suitable, else `false`.
*/
function isKeyable(value) {
var type = typeof value;
return (type == 'string' || type == 'number' || type == 'symbol' || type == 'boolean')
? (value !== '__proto__')
: (value === null);
}
/**
* Checks if `func` has its source masked.
*
* @private
* @param {Function} func The function to check.
* @returns {boolean} Returns `true` if `func` is masked, else `false`.
*/
function isMasked(func) {
return !!maskSrcKey && (maskSrcKey in func);
}
/**
* Converts `func` to its source code.
*
* @private
* @param {Function} func The function to process.
* @returns {string} Returns the source code.
*/
function toSource(func) {
if (func != null) {
try {
return funcToString.call(func);
} catch (e) {}
try {
return (func + '');
} catch (e) {}
}
return '';
}
/**
* Creates an array of unique values, in order, from all given arrays using
* [`SameValueZero`](http://ecma-international.org/ecma-262/7.0/#sec-samevaluezero)
* for equality comparisons.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Array
* @param {...Array} [arrays] The arrays to inspect.
* @returns {Array} Returns the new array of combined values.
* @example
*
* _.union([2], [1, 2]);
* // => [2, 1]
*/
var union = baseRest(function(arrays) {
return baseUniq(baseFlatten(arrays, 1, isArrayLikeObject, true));
});
/**
* Performs a
* [`SameValueZero`](http://ecma-international.org/ecma-262/7.0/#sec-samevaluezero)
* comparison between two values to determine if they are equivalent.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to compare.
* @param {*} other The other value to compare.
* @returns {boolean} Returns `true` if the values are equivalent, else `false`.
* @example
*
* var object = { 'a': 1 };
* var other = { 'a': 1 };
*
* _.eq(object, object);
* // => true
*
* _.eq(object, other);
* // => false
*
* _.eq('a', 'a');
* // => true
*
* _.eq('a', Object('a'));
* // => false
*
* _.eq(NaN, NaN);
* // => true
*/
function eq(value, other) {
return value === other || (value !== value && other !== other);
}
/**
* Checks if `value` is likely an `arguments` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an `arguments` object,
* else `false`.
* @example
*
* _.isArguments(function() { return arguments; }());
* // => true
*
* _.isArguments([1, 2, 3]);
* // => false
*/
function isArguments(value) {
// Safari 8.1 makes `arguments.callee` enumerable in strict mode.
return isArrayLikeObject(value) && hasOwnProperty.call(value, 'callee') &&
(!propertyIsEnumerable.call(value, 'callee') || objectToString.call(value) == argsTag);
}
/**
* Checks if `value` is classified as an `Array` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an array, else `false`.
* @example
*
* _.isArray([1, 2, 3]);
* // => true
*
* _.isArray(document.body.children);
* // => false
*
* _.isArray('abc');
* // => false
*
* _.isArray(_.noop);
* // => false
*/
var isArray = Array.isArray;
/**
* Checks if `value` is array-like. A value is considered array-like if it's
* not a function and has a `value.length` that's an integer greater than or
* equal to `0` and less than or equal to `Number.MAX_SAFE_INTEGER`.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is array-like, else `false`.
* @example
*
* _.isArrayLike([1, 2, 3]);
* // => true
*
* _.isArrayLike(document.body.children);
* // => true
*
* _.isArrayLike('abc');
* // => true
*
* _.isArrayLike(_.noop);
* // => false
*/
function isArrayLike(value) {
return value != null && isLength(value.length) && !isFunction(value);
}
/**
* This method is like `_.isArrayLike` except that it also checks if `value`
* is an object.
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an array-like object,
* else `false`.
* @example
*
* _.isArrayLikeObject([1, 2, 3]);
* // => true
*
* _.isArrayLikeObject(document.body.children);
* // => true
*
* _.isArrayLikeObject('abc');
* // => false
*
* _.isArrayLikeObject(_.noop);
* // => false
*/
function isArrayLikeObject(value) {
return isObjectLike(value) && isArrayLike(value);
}
/**
* Checks if `value` is classified as a `Function` object.
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a function, else `false`.
* @example
*
* _.isFunction(_);
* // => true
*
* _.isFunction(/abc/);
* // => false
*/
function isFunction(value) {
// The use of `Object#toString` avoids issues with the `typeof` operator
// in Safari 8-9 which returns 'object' for typed array and other constructors.
var tag = isObject(value) ? objectToString.call(value) : '';
return tag == funcTag || tag == genTag;
}
/**
* Checks if `value` is a valid array-like length.
*
* **Note:** This method is loosely based on
* [`ToLength`](http://ecma-international.org/ecma-262/7.0/#sec-tolength).
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is a valid length, else `false`.
* @example
*
* _.isLength(3);
* // => true
*
* _.isLength(Number.MIN_VALUE);
* // => false
*
* _.isLength(Infinity);
* // => false
*
* _.isLength('3');
* // => false
*/
function isLength(value) {
return typeof value == 'number' &&
value > -1 && value % 1 == 0 && value <= MAX_SAFE_INTEGER;
}
/**
* Checks if `value` is the
* [language type](http://www.ecma-international.org/ecma-262/7.0/#sec-ecmascript-language-types)
* of `Object`. (e.g. arrays, functions, objects, regexes, `new Number(0)`, and `new String('')`)
*
* @static
* @memberOf _
* @since 0.1.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is an object, else `false`.
* @example
*
* _.isObject({});
* // => true
*
* _.isObject([1, 2, 3]);
* // => true
*
* _.isObject(_.noop);
* // => true
*
* _.isObject(null);
* // => false
*/
function isObject(value) {
var type = typeof value;
return !!value && (type == 'object' || type == 'function');
}
/**
* Checks if `value` is object-like. A value is object-like if it's not `null`
* and has a `typeof` result of "object".
*
* @static
* @memberOf _
* @since 4.0.0
* @category Lang
* @param {*} value The value to check.
* @returns {boolean} Returns `true` if `value` is object-like, else `false`.
* @example
*
* _.isObjectLike({});
* // => true
*
* _.isObjectLike([1, 2, 3]);
* // => true
*
* _.isObjectLike(_.noop);
* // => false
*
* _.isObjectLike(null);
* // => false
*/
function isObjectLike(value) {
return !!value && typeof value == 'object';
}
/**
* This method returns `undefined`.
*
* @static
* @memberOf _
* @since 2.3.0
* @category Util
* @example
*
* _.times(2, _.noop);
* // => [undefined, undefined]
*/
function noop() {
// No operation performed.
}
module.exports = union;
/***/ }),
/***/ 8083:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
module.exports = minimatch
minimatch.Minimatch = Minimatch
var path = { sep: '/' }
try {
path = __nccwpck_require__(5622)
} catch (er) {}
var GLOBSTAR = minimatch.GLOBSTAR = Minimatch.GLOBSTAR = {}
var expand = __nccwpck_require__(5525)
var plTypes = {
'!': { open: '(?:(?!(?:', close: '))[^/]*?)'},
'?': { open: '(?:', close: ')?' },
'+': { open: '(?:', close: ')+' },
'*': { open: '(?:', close: ')*' },
'@': { open: '(?:', close: ')' }
}
// any single thing other than /
// don't need to escape / when using new RegExp()
var qmark = '[^/]'
// * => any number of characters
var star = qmark + '*?'
// ** when dots are allowed. Anything goes, except .. and .
// not (^ or / followed by one or two dots followed by $ or /),
// followed by anything, any number of times.
var twoStarDot = '(?:(?!(?:\\\/|^)(?:\\.{1,2})($|\\\/)).)*?'
// not a ^ or / followed by a dot,
// followed by anything, any number of times.
var twoStarNoDot = '(?:(?!(?:\\\/|^)\\.).)*?'
// characters that need to be escaped in RegExp.
var reSpecials = charSet('().*{}+?[]^$\\!')
// "abc" -> { a:true, b:true, c:true }
function charSet (s) {
return s.split('').reduce(function (set, c) {
set[c] = true
return set
}, {})
}
// normalizes slashes.
var slashSplit = /\/+/
minimatch.filter = filter
function filter (pattern, options) {
options = options || {}
return function (p, i, list) {
return minimatch(p, pattern, options)
}
}
function ext (a, b) {
a = a || {}
b = b || {}
var t = {}
Object.keys(b).forEach(function (k) {
t[k] = b[k]
})
Object.keys(a).forEach(function (k) {
t[k] = a[k]
})
return t
}
minimatch.defaults = function (def) {
if (!def || !Object.keys(def).length) return minimatch
var orig = minimatch
var m = function minimatch (p, pattern, options) {
return orig.minimatch(p, pattern, ext(def, options))
}
m.Minimatch = function Minimatch (pattern, options) {
return new orig.Minimatch(pattern, ext(def, options))
}
return m
}
Minimatch.defaults = function (def) {
if (!def || !Object.keys(def).length) return Minimatch
return minimatch.defaults(def).Minimatch
}
function minimatch (p, pattern, options) {
if (typeof pattern !== 'string') {
throw new TypeError('glob pattern string required')
}
if (!options) options = {}
// shortcut: comments match nothing.
if (!options.nocomment && pattern.charAt(0) === '#') {
return false
}
// "" only matches ""
if (pattern.trim() === '') return p === ''
return new Minimatch(pattern, options).match(p)
}
function Minimatch (pattern, options) {
if (!(this instanceof Minimatch)) {
return new Minimatch(pattern, options)
}
if (typeof pattern !== 'string') {
throw new TypeError('glob pattern string required')
}
if (!options) options = {}
pattern = pattern.trim()
// windows support: need to use /, not \
if (path.sep !== '/') {
pattern = pattern.split(path.sep).join('/')
}
this.options = options
this.set = []
this.pattern = pattern
this.regexp = null
this.negate = false
this.comment = false
this.empty = false
// make the set of regexps etc.
this.make()
}
Minimatch.prototype.debug = function () {}
Minimatch.prototype.make = make
function make () {
// don't do it more than once.
if (this._made) return
var pattern = this.pattern
var options = this.options
// empty patterns and comments match nothing.
if (!options.nocomment && pattern.charAt(0) === '#') {
this.comment = true
return
}
if (!pattern) {
this.empty = true
return
}
// step 1: figure out negation, etc.
this.parseNegate()
// step 2: expand braces
var set = this.globSet = this.braceExpand()
if (options.debug) this.debug = console.error
this.debug(this.pattern, set)
// step 3: now we have a set, so turn each one into a series of path-portion
// matching patterns.
// These will be regexps, except in the case of "**", which is
// set to the GLOBSTAR object for globstar behavior,
// and will not contain any / characters
set = this.globParts = set.map(function (s) {
return s.split(slashSplit)
})
this.debug(this.pattern, set)
// glob --> regexps
set = set.map(function (s, si, set) {
return s.map(this.parse, this)
}, this)
this.debug(this.pattern, set)
// filter out everything that didn't compile properly.
set = set.filter(function (s) {
return s.indexOf(false) === -1
})
this.debug(this.pattern, set)
this.set = set
}
Minimatch.prototype.parseNegate = parseNegate
function parseNegate () {
var pattern = this.pattern
var negate = false
var options = this.options
var negateOffset = 0
if (options.nonegate) return
for (var i = 0, l = pattern.length
; i < l && pattern.charAt(i) === '!'
; i++) {
negate = !negate
negateOffset++
}
if (negateOffset) this.pattern = pattern.substr(negateOffset)
this.negate = negate
}
// Brace expansion:
// a{b,c}d -> abd acd
// a{b,}c -> abc ac
// a{0..3}d -> a0d a1d a2d a3d
// a{b,c{d,e}f}g -> abg acdfg acefg
// a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg
//
// Invalid sets are not expanded.
// a{2..}b -> a{2..}b
// a{b}c -> a{b}c
minimatch.braceExpand = function (pattern, options) {
return braceExpand(pattern, options)
}
Minimatch.prototype.braceExpand = braceExpand
function braceExpand (pattern, options) {
if (!options) {
if (this instanceof Minimatch) {
options = this.options
} else {
options = {}
}
}
pattern = typeof pattern === 'undefined'
? this.pattern : pattern
if (typeof pattern === 'undefined') {
throw new TypeError('undefined pattern')
}
if (options.nobrace ||
!pattern.match(/\{.*\}/)) {
// shortcut. no need to expand.
return [pattern]
}
return expand(pattern)
}
// parse a component of the expanded set.
// At this point, no pattern may contain "/" in it
// so we're going to return a 2d array, where each entry is the full
// pattern, split on '/', and then turned into a regular expression.
// A regexp is made at the end which joins each array with an
// escaped /, and another full one which joins each regexp with |.
//
// Following the lead of Bash 4.1, note that "**" only has special meaning
// when it is the *only* thing in a path portion. Otherwise, any series
// of * is equivalent to a single *. Globstar behavior is enabled by
// default, and can be disabled by setting options.noglobstar.
Minimatch.prototype.parse = parse
var SUBPARSE = {}
function parse (pattern, isSub) {
if (pattern.length > 1024 * 64) {
throw new TypeError('pattern is too long')
}
var options = this.options
// shortcuts
if (!options.noglobstar && pattern === '**') return GLOBSTAR
if (pattern === '') return ''
var re = ''
var hasMagic = !!options.nocase
var escaping = false
// ? => one single character
var patternListStack = []
var negativeLists = []
var stateChar
var inClass = false
var reClassStart = -1
var classStart = -1
// . and .. never match anything that doesn't start with .,
// even when options.dot is set.
var patternStart = pattern.charAt(0) === '.' ? '' // anything
// not (start or / followed by . or .. followed by / or end)
: options.dot ? '(?!(?:^|\\\/)\\.{1,2}(?:$|\\\/))'
: '(?!\\.)'
var self = this
function clearStateChar () {
if (stateChar) {
// we had some state-tracking character
// that wasn't consumed by this pass.
switch (stateChar) {
case '*':
re += star
hasMagic = true
break
case '?':
re += qmark
hasMagic = true
break
default:
re += '\\' + stateChar
break
}
self.debug('clearStateChar %j %j', stateChar, re)
stateChar = false
}
}
for (var i = 0, len = pattern.length, c
; (i < len) && (c = pattern.charAt(i))
; i++) {
this.debug('%s\t%s %s %j', pattern, i, re, c)
// skip over any that are escaped.
if (escaping && reSpecials[c]) {
re += '\\' + c
escaping = false
continue
}
switch (c) {
case '/':
// completely not allowed, even escaped.
// Should already be path-split by now.
return false
case '\\':
clearStateChar()
escaping = true
continue
// the various stateChar values
// for the "extglob" stuff.
case '?':
case '*':
case '+':
case '@':
case '!':
this.debug('%s\t%s %s %j <-- stateChar', pattern, i, re, c)
// all of those are literals inside a class, except that
// the glob [!a] means [^a] in regexp
if (inClass) {
this.debug(' in class')
if (c === '!' && i === classStart + 1) c = '^'
re += c
continue
}
// if we already have a stateChar, then it means
// that there was something like ** or +? in there.
// Handle the stateChar, then proceed with this one.
self.debug('call clearStateChar %j', stateChar)
clearStateChar()
stateChar = c
// if extglob is disabled, then +(asdf|foo) isn't a thing.
// just clear the statechar *now*, rather than even diving into
// the patternList stuff.
if (options.noext) clearStateChar()
continue
case '(':
if (inClass) {
re += '('
continue
}
if (!stateChar) {
re += '\\('
continue
}
patternListStack.push({
type: stateChar,
start: i - 1,
reStart: re.length,
open: plTypes[stateChar].open,
close: plTypes[stateChar].close
})
// negation is (?:(?!js)[^/]*)
re += stateChar === '!' ? '(?:(?!(?:' : '(?:'
this.debug('plType %j %j', stateChar, re)
stateChar = false
continue
case ')':
if (inClass || !patternListStack.length) {
re += '\\)'
continue
}
clearStateChar()
hasMagic = true
var pl = patternListStack.pop()
// negation is (?:(?!js)[^/]*)
// The others are (?:)
re += pl.close
if (pl.type === '!') {
negativeLists.push(pl)
}
pl.reEnd = re.length
continue
case '|':
if (inClass || !patternListStack.length || escaping) {
re += '\\|'
escaping = false
continue
}
clearStateChar()
re += '|'
continue
// these are mostly the same in regexp and glob
case '[':
// swallow any state-tracking char before the [
clearStateChar()
if (inClass) {
re += '\\' + c
continue
}
inClass = true
classStart = i
reClassStart = re.length
re += c
continue
case ']':
// a right bracket shall lose its special
// meaning and represent itself in
// a bracket expression if it occurs
// first in the list. -- POSIX.2 2.8.3.2
if (i === classStart + 1 || !inClass) {
re += '\\' + c
escaping = false
continue
}
// handle the case where we left a class open.
// "[z-a]" is valid, equivalent to "\[z-a\]"
if (inClass) {
// split where the last [ was, make sure we don't have
// an invalid re. if so, re-walk the contents of the
// would-be class to re-translate any characters that
// were passed through as-is
// TODO: It would probably be faster to determine this
// without a try/catch and a new RegExp, but it's tricky
// to do safely. For now, this is safe and works.
var cs = pattern.substring(classStart + 1, i)
try {
RegExp('[' + cs + ']')
} catch (er) {
// not a valid class!
var sp = this.parse(cs, SUBPARSE)
re = re.substr(0, reClassStart) + '\\[' + sp[0] + '\\]'
hasMagic = hasMagic || sp[1]
inClass = false
continue
}
}
// finish up the class.
hasMagic = true
inClass = false
re += c
continue
default:
// swallow any state char that wasn't consumed
clearStateChar()
if (escaping) {
// no need
escaping = false
} else if (reSpecials[c]
&& !(c === '^' && inClass)) {
re += '\\'
}
re += c
} // switch
} // for
// handle the case where we left a class open.
// "[abc" is valid, equivalent to "\[abc"
if (inClass) {
// split where the last [ was, and escape it
// this is a huge pita. We now have to re-walk
// the contents of the would-be class to re-translate
// any characters that were passed through as-is
cs = pattern.substr(classStart + 1)
sp = this.parse(cs, SUBPARSE)
re = re.substr(0, reClassStart) + '\\[' + sp[0]
hasMagic = hasMagic || sp[1]
}
// handle the case where we had a +( thing at the *end*
// of the pattern.
// each pattern list stack adds 3 chars, and we need to go through
// and escape any | chars that were passed through as-is for the regexp.
// Go through and escape them, taking care not to double-escape any
// | chars that were already escaped.
for (pl = patternListStack.pop(); pl; pl = patternListStack.pop()) {
var tail = re.slice(pl.reStart + pl.open.length)
this.debug('setting tail', re, pl)
// maybe some even number of \, then maybe 1 \, followed by a |
tail = tail.replace(/((?:\\{2}){0,64})(\\?)\|/g, function (_, $1, $2) {
if (!$2) {
// the | isn't already escaped, so escape it.
$2 = '\\'
}
// need to escape all those slashes *again*, without escaping the
// one that we need for escaping the | character. As it works out,
// escaping an even number of slashes can be done by simply repeating
// it exactly after itself. That's why this trick works.
//
// I am sorry that you have to see this.
return $1 + $1 + $2 + '|'
})
this.debug('tail=%j\n %s', tail, tail, pl, re)
var t = pl.type === '*' ? star
: pl.type === '?' ? qmark
: '\\' + pl.type
hasMagic = true
re = re.slice(0, pl.reStart) + t + '\\(' + tail
}
// handle trailing things that only matter at the very end.
clearStateChar()
if (escaping) {
// trailing \\
re += '\\\\'
}
// only need to apply the nodot start if the re starts with
// something that could conceivably capture a dot
var addPatternStart = false
switch (re.charAt(0)) {
case '.':
case '[':
case '(': addPatternStart = true
}
// Hack to work around lack of negative lookbehind in JS
// A pattern like: *.!(x).!(y|z) needs to ensure that a name
// like 'a.xyz.yz' doesn't match. So, the first negative
// lookahead, has to look ALL the way ahead, to the end of
// the pattern.
for (var n = negativeLists.length - 1; n > -1; n--) {
var nl = negativeLists[n]
var nlBefore = re.slice(0, nl.reStart)
var nlFirst = re.slice(nl.reStart, nl.reEnd - 8)
var nlLast = re.slice(nl.reEnd - 8, nl.reEnd)
var nlAfter = re.slice(nl.reEnd)
nlLast += nlAfter
// Handle nested stuff like *(*.js|!(*.json)), where open parens
// mean that we should *not* include the ) in the bit that is considered
// "after" the negated section.
var openParensBefore = nlBefore.split('(').length - 1
var cleanAfter = nlAfter
for (i = 0; i < openParensBefore; i++) {
cleanAfter = cleanAfter.replace(/\)[+*?]?/, '')
}
nlAfter = cleanAfter
var dollar = ''
if (nlAfter === '' && isSub !== SUBPARSE) {
dollar = '$'
}
var newRe = nlBefore + nlFirst + nlAfter + dollar + nlLast
re = newRe
}
// if the re is not "" at this point, then we need to make sure
// it doesn't match against an empty path part.
// Otherwise a/* will match a/, which it should not.
if (re !== '' && hasMagic) {
re = '(?=.)' + re
}
if (addPatternStart) {
re = patternStart + re
}
// parsing just a piece of a larger pattern.
if (isSub === SUBPARSE) {
return [re, hasMagic]
}
// skip the regexp for non-magical patterns
// unescape anything in it, though, so that it'll be
// an exact match against a file etc.
if (!hasMagic) {
return globUnescape(pattern)
}
var flags = options.nocase ? 'i' : ''
try {
var regExp = new RegExp('^' + re + '$', flags)
} catch (er) {
// If it was an invalid regular expression, then it can't match
// anything. This trick looks for a character after the end of
// the string, which is of course impossible, except in multi-line
// mode, but it's not a /m regex.
return new RegExp('$.')
}
regExp._glob = pattern
regExp._src = re
return regExp
}
minimatch.makeRe = function (pattern, options) {
return new Minimatch(pattern, options || {}).makeRe()
}
Minimatch.prototype.makeRe = makeRe
function makeRe () {
if (this.regexp || this.regexp === false) return this.regexp
// at this point, this.set is a 2d array of partial
// pattern strings, or "**".
//
// It's better to use .match(). This function shouldn't
// be used, really, but it's pretty convenient sometimes,
// when you just want to work with a regex.
var set = this.set
if (!set.length) {
this.regexp = false
return this.regexp
}
var options = this.options
var twoStar = options.noglobstar ? star
: options.dot ? twoStarDot
: twoStarNoDot
var flags = options.nocase ? 'i' : ''
var re = set.map(function (pattern) {
return pattern.map(function (p) {
return (p === GLOBSTAR) ? twoStar
: (typeof p === 'string') ? regExpEscape(p)
: p._src
}).join('\\\/')
}).join('|')
// must match entire pattern
// ending in a * or ** will make it less strict.
re = '^(?:' + re + ')$'
// can match anything, as long as it's not this.
if (this.negate) re = '^(?!' + re + ').*$'
try {
this.regexp = new RegExp(re, flags)
} catch (ex) {
this.regexp = false
}
return this.regexp
}
minimatch.match = function (list, pattern, options) {
options = options || {}
var mm = new Minimatch(pattern, options)
list = list.filter(function (f) {
return mm.match(f)
})
if (mm.options.nonull && !list.length) {
list.push(pattern)
}
return list
}
Minimatch.prototype.match = match
function match (f, partial) {
this.debug('match', f, this.pattern)
// short-circuit in the case of busted things.
// comments, etc.
if (this.comment) return false
if (this.empty) return f === ''
if (f === '/' && partial) return true
var options = this.options
// windows: need to use /, not \
if (path.sep !== '/') {
f = f.split(path.sep).join('/')
}
// treat the test path as a set of pathparts.
f = f.split(slashSplit)
this.debug(this.pattern, 'split', f)
// just ONE of the pattern sets in this.set needs to match
// in order for it to be valid. If negating, then just one
// match means that we have failed.
// Either way, return on the first hit.
var set = this.set
this.debug(this.pattern, 'set', set)
// Find the basename of the path by looking for the last non-empty segment
var filename
var i
for (i = f.length - 1; i >= 0; i--) {
filename = f[i]
if (filename) break
}
for (i = 0; i < set.length; i++) {
var pattern = set[i]
var file = f
if (options.matchBase && pattern.length === 1) {
file = [filename]
}
var hit = this.matchOne(file, pattern, partial)
if (hit) {
if (options.flipNegate) return true
return !this.negate
}
}
// didn't get any hits. this is success if it's a negative
// pattern, failure otherwise.
if (options.flipNegate) return false
return this.negate
}
// set partial to true to test if, for example,
// "/a/b" matches the start of "/*/b/*/d"
// Partial means, if you run out of file before you run
// out of pattern, then that's fine, as long as all
// the parts match.
Minimatch.prototype.matchOne = function (file, pattern, partial) {
var options = this.options
this.debug('matchOne',
{ 'this': this, file: file, pattern: pattern })
this.debug('matchOne', file.length, pattern.length)
for (var fi = 0,
pi = 0,
fl = file.length,
pl = pattern.length
; (fi < fl) && (pi < pl)
; fi++, pi++) {
this.debug('matchOne loop')
var p = pattern[pi]
var f = file[fi]
this.debug(pattern, p, f)
// should be impossible.
// some invalid regexp stuff in the set.
if (p === false) return false
if (p === GLOBSTAR) {
this.debug('GLOBSTAR', [pattern, p, f])
// "**"
// a/**/b/**/c would match the following:
// a/b/x/y/z/c
// a/x/y/z/b/c
// a/b/x/b/x/c
// a/b/c
// To do this, take the rest of the pattern after
// the **, and see if it would match the file remainder.
// If so, return success.
// If not, the ** "swallows" a segment, and try again.
// This is recursively awful.
//
// a/**/b/**/c matching a/b/x/y/z/c
// - a matches a
// - doublestar
// - matchOne(b/x/y/z/c, b/**/c)
// - b matches b
// - doublestar
// - matchOne(x/y/z/c, c) -> no
// - matchOne(y/z/c, c) -> no
// - matchOne(z/c, c) -> no
// - matchOne(c, c) yes, hit
var fr = fi
var pr = pi + 1
if (pr === pl) {
this.debug('** at the end')
// a ** at the end will just swallow the rest.
// We have found a match.
// however, it will not swallow /.x, unless
// options.dot is set.
// . and .. are *never* matched by **, for explosively
// exponential reasons.
for (; fi < fl; fi++) {
if (file[fi] === '.' || file[fi] === '..' ||
(!options.dot && file[fi].charAt(0) === '.')) return false
}
return true
}
// ok, let's see if we can swallow whatever we can.
while (fr < fl) {
var swallowee = file[fr]
this.debug('\nglobstar while', file, fr, pattern, pr, swallowee)
// XXX remove this slice. Just pass the start index.
if (this.matchOne(file.slice(fr), pattern.slice(pr), partial)) {
this.debug('globstar found match!', fr, fl, swallowee)
// found a match.
return true
} else {
// can't swallow "." or ".." ever.
// can only swallow ".foo" when explicitly asked.
if (swallowee === '.' || swallowee === '..' ||
(!options.dot && swallowee.charAt(0) === '.')) {
this.debug('dot detected!', file, fr, pattern, pr)
break
}
// ** swallows a segment, and continue.
this.debug('globstar swallow a segment, and continue')
fr++
}
}
// no match was found.
// However, in partial mode, we can't say this is necessarily over.
// If there's more *pattern* left, then
if (partial) {
// ran out of file
this.debug('\n>>> no match, partial?', file, fr, pattern, pr)
if (fr === fl) return true
}
return false
}
// something other than **
// non-magic patterns just have to match exactly
// patterns with magic have been turned into regexps.
var hit
if (typeof p === 'string') {
if (options.nocase) {
hit = f.toLowerCase() === p.toLowerCase()
} else {
hit = f === p
}
this.debug('string match', p, f, hit)
} else {
hit = f.match(p)
this.debug('pattern match', p, f, hit)
}
if (!hit) return false
}
// Note: ending in / means that we'll get a final ""
// at the end of the pattern. This can only match a
// corresponding "" at the end of the file.
// If the file ends in /, then it can only match a
// a pattern that ends in /, unless the pattern just
// doesn't have any more for it. But, a/b/ should *not*
// match "a/b/*", even though "" matches against the
// [^/]*? pattern, except in partial mode, where it might
// simply not be reached yet.
// However, a/b/ should still satisfy a/*
// now either we fell off the end of the pattern, or we're done.
if (fi === fl && pi === pl) {
// ran out of pattern and filename at the same time.
// an exact hit!
return true
} else if (fi === fl) {
// ran out of file, but still had pattern left.
// this is ok if we're doing the match as part of
// a glob fs traversal.
return partial
} else if (pi === pl) {
// ran out of pattern, still have file left.
// this is only acceptable if we're on the very last
// empty segment of a file with a trailing slash.
// a/* should match a/b/
var emptyFileEnd = (fi === fl - 1) && (file[fi] === '')
return emptyFileEnd
}
// should be unreachable.
throw new Error('wtf?')
}
// replace stuff like \* with *
function globUnescape (s) {
return s.replace(/\\(.)/g, '$1')
}
function regExpEscape (s) {
return s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&')
}
/***/ }),
/***/ 8100:
/***/ ((module, exports, __nccwpck_require__) => {
"use strict";
Object.defineProperty(exports, "__esModule", ({ value: true }));
function _interopDefault (ex) { return (ex && (typeof ex === 'object') && 'default' in ex) ? ex['default'] : ex; }
var Stream = _interopDefault(__nccwpck_require__(2413));
var http = _interopDefault(__nccwpck_require__(8605));
var Url = _interopDefault(__nccwpck_require__(8835));
var https = _interopDefault(__nccwpck_require__(7211));
var zlib = _interopDefault(__nccwpck_require__(8761));
// Based on https://github.com/tmpvar/jsdom/blob/aa85b2abf07766ff7bf5c1f6daafb3726f2f2db5/lib/jsdom/living/blob.js
// fix for "Readable" isn't a named export issue
const Readable = Stream.Readable;
const BUFFER = Symbol('buffer');
const TYPE = Symbol('type');
class Blob {
constructor() {
this[TYPE] = '';
const blobParts = arguments[0];
const options = arguments[1];
const buffers = [];
let size = 0;
if (blobParts) {
const a = blobParts;
const length = Number(a.length);
for (let i = 0; i < length; i++) {
const element = a[i];
let buffer;
if (element instanceof Buffer) {
buffer = element;
} else if (ArrayBuffer.isView(element)) {
buffer = Buffer.from(element.buffer, element.byteOffset, element.byteLength);
} else if (element instanceof ArrayBuffer) {
buffer = Buffer.from(element);
} else if (element instanceof Blob) {
buffer = element[BUFFER];
} else {
buffer = Buffer.from(typeof element === 'string' ? element : String(element));
}
size += buffer.length;
buffers.push(buffer);
}
}
this[BUFFER] = Buffer.concat(buffers);
let type = options && options.type !== undefined && String(options.type).toLowerCase();
if (type && !/[^\u0020-\u007E]/.test(type)) {
this[TYPE] = type;
}
}
get size() {
return this[BUFFER].length;
}
get type() {
return this[TYPE];
}
text() {
return Promise.resolve(this[BUFFER].toString());
}
arrayBuffer() {
const buf = this[BUFFER];
const ab = buf.buffer.slice(buf.byteOffset, buf.byteOffset + buf.byteLength);
return Promise.resolve(ab);
}
stream() {
const readable = new Readable();
readable._read = function () {};
readable.push(this[BUFFER]);
readable.push(null);
return readable;
}
toString() {
return '[object Blob]';
}
slice() {
const size = this.size;
const start = arguments[0];
const end = arguments[1];
let relativeStart, relativeEnd;
if (start === undefined) {
relativeStart = 0;
} else if (start < 0) {
relativeStart = Math.max(size + start, 0);
} else {
relativeStart = Math.min(start, size);
}
if (end === undefined) {
relativeEnd = size;
} else if (end < 0) {
relativeEnd = Math.max(size + end, 0);
} else {
relativeEnd = Math.min(end, size);
}
const span = Math.max(relativeEnd - relativeStart, 0);
const buffer = this[BUFFER];
const slicedBuffer = buffer.slice(relativeStart, relativeStart + span);
const blob = new Blob([], { type: arguments[2] });
blob[BUFFER] = slicedBuffer;
return blob;
}
}
Object.defineProperties(Blob.prototype, {
size: { enumerable: true },
type: { enumerable: true },
slice: { enumerable: true }
});
Object.defineProperty(Blob.prototype, Symbol.toStringTag, {
value: 'Blob',
writable: false,
enumerable: false,
configurable: true
});
/**
* fetch-error.js
*
* FetchError interface for operational errors
*/
/**
* Create FetchError instance
*
* @param String message Error message for human
* @param String type Error type for machine
* @param String systemError For Node.js system error
* @return FetchError
*/
function FetchError(message, type, systemError) {
Error.call(this, message);
this.message = message;
this.type = type;
// when err.type is `system`, err.code contains system error code
if (systemError) {
this.code = this.errno = systemError.code;
}
// hide custom error implementation details from end-users
Error.captureStackTrace(this, this.constructor);
}
FetchError.prototype = Object.create(Error.prototype);
FetchError.prototype.constructor = FetchError;
FetchError.prototype.name = 'FetchError';
let convert;
try {
convert = __nccwpck_require__(1181).convert;
} catch (e) {}
const INTERNALS = Symbol('Body internals');
// fix an issue where "PassThrough" isn't a named export for node <10
const PassThrough = Stream.PassThrough;
/**
* Body mixin
*
* Ref: https://fetch.spec.whatwg.org/#body
*
* @param Stream body Readable stream
* @param Object opts Response options
* @return Void
*/
function Body(body) {
var _this = this;
var _ref = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {},
_ref$size = _ref.size;
let size = _ref$size === undefined ? 0 : _ref$size;
var _ref$timeout = _ref.timeout;
let timeout = _ref$timeout === undefined ? 0 : _ref$timeout;
if (body == null) {
// body is undefined or null
body = null;
} else if (isURLSearchParams(body)) {
// body is a URLSearchParams
body = Buffer.from(body.toString());
} else if (isBlob(body)) ; else if (Buffer.isBuffer(body)) ; else if (Object.prototype.toString.call(body) === '[object ArrayBuffer]') {
// body is ArrayBuffer
body = Buffer.from(body);
} else if (ArrayBuffer.isView(body)) {
// body is ArrayBufferView
body = Buffer.from(body.buffer, body.byteOffset, body.byteLength);
} else if (body instanceof Stream) ; else {
// none of the above
// coerce to string then buffer
body = Buffer.from(String(body));
}
this[INTERNALS] = {
body,
disturbed: false,
error: null
};
this.size = size;
this.timeout = timeout;
if (body instanceof Stream) {
body.on('error', function (err) {
const error = err.name === 'AbortError' ? err : new FetchError(`Invalid response body while trying to fetch ${_this.url}: ${err.message}`, 'system', err);
_this[INTERNALS].error = error;
});
}
}
Body.prototype = {
get body() {
return this[INTERNALS].body;
},
get bodyUsed() {
return this[INTERNALS].disturbed;
},
/**
* Decode response as ArrayBuffer
*
* @return Promise
*/
arrayBuffer() {
return consumeBody.call(this).then(function (buf) {
return buf.buffer.slice(buf.byteOffset, buf.byteOffset + buf.byteLength);
});
},
/**
* Return raw response as Blob
*
* @return Promise
*/
blob() {
let ct = this.headers && this.headers.get('content-type') || '';
return consumeBody.call(this).then(function (buf) {
return Object.assign(
// Prevent copying
new Blob([], {
type: ct.toLowerCase()
}), {
[BUFFER]: buf
});
});
},
/**
* Decode response as json
*
* @return Promise
*/
json() {
var _this2 = this;
return consumeBody.call(this).then(function (buffer) {
try {
return JSON.parse(buffer.toString());
} catch (err) {
return Body.Promise.reject(new FetchError(`invalid json response body at ${_this2.url} reason: ${err.message}`, 'invalid-json'));
}
});
},
/**
* Decode response as text
*
* @return Promise
*/
text() {
return consumeBody.call(this).then(function (buffer) {
return buffer.toString();
});
},
/**
* Decode response as buffer (non-spec api)
*
* @return Promise
*/
buffer() {
return consumeBody.call(this);
},
/**
* Decode response as text, while automatically detecting the encoding and
* trying to decode to UTF-8 (non-spec api)
*
* @return Promise
*/
textConverted() {
var _this3 = this;
return consumeBody.call(this).then(function (buffer) {
return convertBody(buffer, _this3.headers);
});
}
};
// 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 }
});
Body.mixIn = function (proto) {
for (const name of Object.getOwnPropertyNames(Body.prototype)) {
// istanbul ignore else: future proof
if (!(name in proto)) {
const desc = Object.getOwnPropertyDescriptor(Body.prototype, name);
Object.defineProperty(proto, name, desc);
}
}
};
/**
* Consume and convert an entire Body to a Buffer.
*
* Ref: https://fetch.spec.whatwg.org/#concept-body-consume-body
*
* @return Promise
*/
function consumeBody() {
var _this4 = this;
if (this[INTERNALS].disturbed) {
return Body.Promise.reject(new TypeError(`body used already for: ${this.url}`));
}
this[INTERNALS].disturbed = true;
if (this[INTERNALS].error) {
return Body.Promise.reject(this[INTERNALS].error);
}
let body = this.body;
// body is null
if (body === null) {
return Body.Promise.resolve(Buffer.alloc(0));
}
// body is blob
if (isBlob(body)) {
body = body.stream();
}
// body is buffer
if (Buffer.isBuffer(body)) {
return Body.Promise.resolve(body);
}
// istanbul ignore if: should never happen
if (!(body instanceof Stream)) {
return Body.Promise.resolve(Buffer.alloc(0));
}
// body is stream
// get ready to actually consume the body
let accum = [];
let accumBytes = 0;
let abort = false;
return new Body.Promise(function (resolve, reject) {
let resTimeout;
// allow timeout on slow response body
if (_this4.timeout) {
resTimeout = setTimeout(function () {
abort = true;
reject(new FetchError(`Response timeout while trying to fetch ${_this4.url} (over ${_this4.timeout}ms)`, 'body-timeout'));
}, _this4.timeout);
}
// handle stream errors
body.on('error', function (err) {
if (err.name === 'AbortError') {
// if the request was aborted, reject with this Error
abort = true;
reject(err);
} else {
// other errors, such as incorrect content-encoding
reject(new FetchError(`Invalid response body while trying to fetch ${_this4.url}: ${err.message}`, 'system', err));
}
});
body.on('data', function (chunk) {
if (abort || chunk === null) {
return;
}
if (_this4.size && accumBytes + chunk.length > _this4.size) {
abort = true;
reject(new FetchError(`content size at ${_this4.url} over limit: ${_this4.size}`, 'max-size'));
return;
}
accumBytes += chunk.length;
accum.push(chunk);
});
body.on('end', function () {
if (abort) {
return;
}
clearTimeout(resTimeout);
try {
resolve(Buffer.concat(accum, accumBytes));
} catch (err) {
// handle streams that have accumulated too much data (issue #414)
reject(new FetchError(`Could not create Buffer from response body for ${_this4.url}: ${err.message}`, 'system', err));
}
});
});
}
/**
* Detect buffer encoding and convert to target encoding
* ref: http://www.w3.org/TR/2011/WD-html5-20110113/parsing.html#determining-the-character-encoding
*
* @param Buffer buffer Incoming buffer
* @param String encoding Target encoding
* @return String
*/
function convertBody(buffer, headers) {
if (typeof convert !== 'function') {
throw new Error('The package `encoding` must be installed to use the textConverted() function');
}
const ct = headers.get('content-type');
let charset = 'utf-8';
let res, str;
// header
if (ct) {
res = /charset=([^;]*)/i.exec(ct);
}
// no charset in content type, peek at response body for at most 1024 bytes
str = buffer.slice(0, 1024).toString();
// html5
if (!res && str) {
res = / 0 && arguments[0] !== undefined ? arguments[0] : undefined;
this[MAP] = Object.create(null);
if (init instanceof Headers) {
const rawHeaders = init.raw();
const headerNames = Object.keys(rawHeaders);
for (const headerName of headerNames) {
for (const value of rawHeaders[headerName]) {
this.append(headerName, value);
}
}
return;
}
// We don't worry about converting prop to ByteString here as append()
// will handle it.
if (init == null) ; else if (typeof init === 'object') {
const method = init[Symbol.iterator];
if (method != null) {
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
const pairs = [];
for (const pair of init) {
if (typeof pair !== 'object' || typeof pair[Symbol.iterator] !== 'function') {
throw new TypeError('Each header pair must be iterable');
}
pairs.push(Array.from(pair));
}
for (const pair of pairs) {
if (pair.length !== 2) {
throw new TypeError('Each header pair must be a name/value tuple');
}
this.append(pair[0], pair[1]);
}
} else {
// record
for (const key of Object.keys(init)) {
const value = init[key];
this.append(key, value);
}
}
} else {
throw new TypeError('Provided initializer must be an object');
}
}
/**
* Return combined header value given name
*
* @param String name Header name
* @return Mixed
*/
get(name) {
name = `${name}`;
validateName(name);
const key = find(this[MAP], name);
if (key === undefined) {
return null;
}
return this[MAP][key].join(', ');
}
/**
* Iterate over all headers
*
* @param Function callback Executed for each item with parameters (value, name, thisArg)
* @param Boolean thisArg `this` context for callback function
* @return Void
*/
forEach(callback) {
let thisArg = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : undefined;
let pairs = getHeaders(this);
let i = 0;
while (i < pairs.length) {
var _pairs$i = pairs[i];
const name = _pairs$i[0],
value = _pairs$i[1];
callback.call(thisArg, value, name, this);
pairs = getHeaders(this);
i++;
}
}
/**
* Overwrite header values given name
*
* @param String name Header name
* @param String value Header value
* @return Void
*/
set(name, value) {
name = `${name}`;
value = `${value}`;
validateName(name);
validateValue(value);
const key = find(this[MAP], name);
this[MAP][key !== undefined ? key : name] = [value];
}
/**
* Append a value onto existing header
*
* @param String name Header name
* @param String value Header value
* @return Void
*/
append(name, value) {
name = `${name}`;
value = `${value}`;
validateName(name);
validateValue(value);
const key = find(this[MAP], name);
if (key !== undefined) {
this[MAP][key].push(value);
} else {
this[MAP][name] = [value];
}
}
/**
* Check for header name existence
*
* @param String name Header name
* @return Boolean
*/
has(name) {
name = `${name}`;
validateName(name);
return find(this[MAP], name) !== undefined;
}
/**
* Delete all header values given name
*
* @param String name Header name
* @return Void
*/
delete(name) {
name = `${name}`;
validateName(name);
const key = find(this[MAP], name);
if (key !== undefined) {
delete this[MAP][key];
}
}
/**
* Return raw headers (non-spec api)
*
* @return Object
*/
raw() {
return this[MAP];
}
/**
* Get an iterator on keys.
*
* @return Iterator
*/
keys() {
return createHeadersIterator(this, 'key');
}
/**
* Get an iterator on values.
*
* @return Iterator
*/
values() {
return createHeadersIterator(this, 'value');
}
/**
* Get an iterator on entries.
*
* This is the default iterator of the Headers object.
*
* @return Iterator
*/
[Symbol.iterator]() {
return createHeadersIterator(this, 'key+value');
}
}
Headers.prototype.entries = Headers.prototype[Symbol.iterator];
Object.defineProperty(Headers.prototype, Symbol.toStringTag, {
value: 'Headers',
writable: false,
enumerable: false,
configurable: true
});
Object.defineProperties(Headers.prototype, {
get: { enumerable: true },
forEach: { enumerable: true },
set: { enumerable: true },
append: { enumerable: true },
has: { enumerable: true },
delete: { enumerable: true },
keys: { enumerable: true },
values: { enumerable: true },
entries: { enumerable: true }
});
function getHeaders(headers) {
let kind = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 'key+value';
const keys = Object.keys(headers[MAP]).sort();
return keys.map(kind === 'key' ? function (k) {
return k.toLowerCase();
} : kind === 'value' ? function (k) {
return headers[MAP][k].join(', ');
} : function (k) {
return [k.toLowerCase(), headers[MAP][k].join(', ')];
});
}
const INTERNAL = Symbol('internal');
function createHeadersIterator(target, kind) {
const iterator = Object.create(HeadersIteratorPrototype);
iterator[INTERNAL] = {
target,
kind,
index: 0
};
return iterator;
}
const HeadersIteratorPrototype = Object.setPrototypeOf({
next() {
// istanbul ignore if
if (!this || Object.getPrototypeOf(this) !== HeadersIteratorPrototype) {
throw new TypeError('Value of `this` is not a HeadersIterator');
}
var _INTERNAL = this[INTERNAL];
const target = _INTERNAL.target,
kind = _INTERNAL.kind,
index = _INTERNAL.index;
const values = getHeaders(target, kind);
const len = values.length;
if (index >= len) {
return {
value: undefined,
done: true
};
}
this[INTERNAL].index = index + 1;
return {
value: values[index],
done: false
};
}
}, Object.getPrototypeOf(Object.getPrototypeOf([][Symbol.iterator]())));
Object.defineProperty(HeadersIteratorPrototype, Symbol.toStringTag, {
value: 'HeadersIterator',
writable: false,
enumerable: false,
configurable: true
});
/**
* Export the Headers object in a form that Node.js can consume.
*
* @param Headers headers
* @return Object
*/
function exportNodeCompatibleHeaders(headers) {
const obj = Object.assign({ __proto__: null }, headers[MAP]);
// http.request() only supports string as Host header. This hack makes
// specifying custom Host header possible.
const hostHeaderKey = find(headers[MAP], 'Host');
if (hostHeaderKey !== undefined) {
obj[hostHeaderKey] = obj[hostHeaderKey][0];
}
return obj;
}
/**
* Create a Headers object from an object of headers, ignoring those that do
* not conform to HTTP grammar productions.
*
* @param Object obj Object of headers
* @return Headers
*/
function createHeadersLenient(obj) {
const headers = new Headers();
for (const name of Object.keys(obj)) {
if (invalidTokenRegex.test(name)) {
continue;
}
if (Array.isArray(obj[name])) {
for (const val of obj[name]) {
if (invalidHeaderCharRegex.test(val)) {
continue;
}
if (headers[MAP][name] === undefined) {
headers[MAP][name] = [val];
} else {
headers[MAP][name].push(val);
}
}
} else if (!invalidHeaderCharRegex.test(obj[name])) {
headers[MAP][name] = [obj[name]];
}
}
return headers;
}
const INTERNALS$1 = Symbol('Response internals');
// fix an issue where "STATUS_CODES" aren't a named export for node <10
const STATUS_CODES = http.STATUS_CODES;
/**
* Response class
*
* @param Stream body Readable stream
* @param Object opts Response options
* @return Void
*/
class Response {
constructor() {
let body = arguments.length > 0 && arguments[0] !== undefined ? arguments[0] : null;
let opts = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
Body.call(this, body, opts);
const status = opts.status || 200;
const headers = new Headers(opts.headers);
if (body != null && !headers.has('Content-Type')) {
const contentType = extractContentType(body);
if (contentType) {
headers.append('Content-Type', contentType);
}
}
this[INTERNALS$1] = {
url: opts.url,
status,
statusText: opts.statusText || STATUS_CODES[status],
headers,
counter: opts.counter
};
}
get url() {
return this[INTERNALS$1].url || '';
}
get status() {
return this[INTERNALS$1].status;
}
/**
* Convenience property representing if the request ended normally
*/
get ok() {
return this[INTERNALS$1].status >= 200 && this[INTERNALS$1].status < 300;
}
get redirected() {
return this[INTERNALS$1].counter > 0;
}
get statusText() {
return this[INTERNALS$1].statusText;
}
get headers() {
return this[INTERNALS$1].headers;
}
/**
* Clone this response
*
* @return Response
*/
clone() {
return new Response(clone(this), {
url: this.url,
status: this.status,
statusText: this.statusText,
headers: this.headers,
ok: this.ok,
redirected: this.redirected
});
}
}
Body.mixIn(Response.prototype);
Object.defineProperties(Response.prototype, {
url: { enumerable: true },
status: { enumerable: true },
ok: { enumerable: true },
redirected: { enumerable: true },
statusText: { enumerable: true },
headers: { enumerable: true },
clone: { enumerable: true }
});
Object.defineProperty(Response.prototype, Symbol.toStringTag, {
value: 'Response',
writable: false,
enumerable: false,
configurable: true
});
const INTERNALS$2 = Symbol('Request internals');
// fix an issue where "format", "parse" aren't a named export for node <10
const parse_url = Url.parse;
const format_url = Url.format;
const streamDestructionSupported = 'destroy' in Stream.Readable.prototype;
/**
* Check if a value is an instance of Request.
*
* @param Mixed input
* @return Boolean
*/
function isRequest(input) {
return typeof input === 'object' && typeof input[INTERNALS$2] === 'object';
}
function isAbortSignal(signal) {
const proto = signal && typeof signal === 'object' && Object.getPrototypeOf(signal);
return !!(proto && proto.constructor.name === 'AbortSignal');
}
/**
* Request class
*
* @param Mixed input Url or Request instance
* @param Object init Custom options
* @return Void
*/
class Request {
constructor(input) {
let init = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {};
let parsedURL;
// normalize input
if (!isRequest(input)) {
if (input && input.href) {
// in order to support Node.js' Url objects; though WHATWG's URL objects
// will fall into this branch also (since their `toString()` will return
// `href` property anyway)
parsedURL = parse_url(input.href);
} else {
// coerce input to a string before attempting to parse
parsedURL = parse_url(`${input}`);
}
input = {};
} else {
parsedURL = parse_url(input.url);
}
let method = init.method || input.method || 'GET';
method = method.toUpperCase();
if ((init.body != null || isRequest(input) && input.body !== null) && (method === 'GET' || method === 'HEAD')) {
throw new TypeError('Request with GET/HEAD method cannot have body');
}
let inputBody = init.body != null ? init.body : isRequest(input) && input.body !== null ? clone(input) : null;
Body.call(this, inputBody, {
timeout: init.timeout || input.timeout || 0,
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);
if (contentType) {
headers.append('Content-Type', contentType);
}
}
let signal = isRequest(input) ? input.signal : null;
if ('signal' in init) signal = init.signal;
if (signal != null && !isAbortSignal(signal)) {
throw new TypeError('Expected signal to be an instanceof AbortSignal');
}
this[INTERNALS$2] = {
method,
redirect: init.redirect || input.redirect || 'follow',
headers,
parsedURL,
signal
};
// node-fetch-only options
this.follow = init.follow !== undefined ? init.follow : input.follow !== undefined ? input.follow : 20;
this.compress = init.compress !== undefined ? init.compress : input.compress !== undefined ? input.compress : true;
this.counter = init.counter || input.counter || 0;
this.agent = init.agent || input.agent;
}
get method() {
return this[INTERNALS$2].method;
}
get url() {
return format_url(this[INTERNALS$2].parsedURL);
}
get headers() {
return this[INTERNALS$2].headers;
}
get redirect() {
return this[INTERNALS$2].redirect;
}
get signal() {
return this[INTERNALS$2].signal;
}
/**
* Clone this request
*
* @return Request
*/
clone() {
return new Request(this);
}
}
Body.mixIn(Request.prototype);
Object.defineProperty(Request.prototype, Symbol.toStringTag, {
value: 'Request',
writable: false,
enumerable: false,
configurable: true
});
Object.defineProperties(Request.prototype, {
method: { enumerable: true },
url: { enumerable: true },
headers: { enumerable: true },
redirect: { enumerable: true },
clone: { enumerable: true },
signal: { enumerable: true }
});
/**
* Convert a Request to Node.js http request options.
*
* @param Request A Request instance
* @return Object The options object to be passed to http.request
*/
function getNodeRequestOptions(request) {
const parsedURL = request[INTERNALS$2].parsedURL;
const headers = new Headers(request[INTERNALS$2].headers);
// fetch step 1.3
if (!headers.has('Accept')) {
headers.set('Accept', '*/*');
}
// Basic fetch
if (!parsedURL.protocol || !parsedURL.hostname) {
throw new TypeError('Only absolute URLs are supported');
}
if (!/^https?:$/.test(parsedURL.protocol)) {
throw new TypeError('Only HTTP(S) protocols are supported');
}
if (request.signal && request.body instanceof Stream.Readable && !streamDestructionSupported) {
throw new Error('Cancellation of streamed requests with AbortSignal is not supported in node < 8');
}
// 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);
if (typeof totalBytes === 'number') {
contentLengthValue = String(totalBytes);
}
}
if (contentLengthValue) {
headers.set('Content-Length', contentLengthValue);
}
// HTTP-network-or-cache fetch step 2.11
if (!headers.has('User-Agent')) {
headers.set('User-Agent', 'node-fetch/1.0 (+https://github.com/bitinn/node-fetch)');
}
// HTTP-network-or-cache fetch step 2.15
if (request.compress && !headers.has('Accept-Encoding')) {
headers.set('Accept-Encoding', 'gzip,deflate');
}
let agent = request.agent;
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
return Object.assign({}, parsedURL, {
method: request.method,
headers: exportNodeCompatibleHeaders(headers),
agent
});
}
/**
* abort-error.js
*
* AbortError interface for cancelled requests
*/
/**
* Create AbortError instance
*
* @param String message Error message for human
* @return AbortError
*/
function AbortError(message) {
Error.call(this, message);
this.type = 'aborted';
this.message = message;
// hide custom error implementation details from end-users
Error.captureStackTrace(this, this.constructor);
}
AbortError.prototype = Object.create(Error.prototype);
AbortError.prototype.constructor = AbortError;
AbortError.prototype.name = 'AbortError';
// fix an issue where "PassThrough", "resolve" aren't a named export for node <10
const PassThrough$1 = Stream.PassThrough;
const resolve_url = Url.resolve;
/**
* Fetch function
*
* @param Mixed url Absolute url or Request instance
* @param Object opts Fetch options
* @return Promise
*/
function fetch(url, opts) {
// allow custom promise
if (!fetch.Promise) {
throw new Error('native promise missing, set fetch.Promise to your favorite alternative');
}
Body.Promise = fetch.Promise;
// wrap http.request into fetch
return new fetch.Promise(function (resolve, reject) {
// build request object
const request = new Request(url, opts);
const options = getNodeRequestOptions(request);
const send = (options.protocol === 'https:' ? https : http).request;
const signal = request.signal;
let response = null;
const abort = function abort() {
let error = new AbortError('The user aborted a request.');
reject(error);
if (request.body && request.body instanceof Stream.Readable) {
request.body.destroy(error);
}
if (!response || !response.body) return;
response.body.emit('error', error);
};
if (signal && signal.aborted) {
abort();
return;
}
const abortAndFinalize = function abortAndFinalize() {
abort();
finalize();
};
// send request
const req = send(options);
let reqTimeout;
if (signal) {
signal.addEventListener('abort', abortAndFinalize);
}
function finalize() {
req.abort();
if (signal) signal.removeEventListener('abort', abortAndFinalize);
clearTimeout(reqTimeout);
}
if (request.timeout) {
req.once('socket', function (socket) {
reqTimeout = setTimeout(function () {
reject(new FetchError(`network timeout at: ${request.url}`, 'request-timeout'));
finalize();
}, request.timeout);
});
}
req.on('error', function (err) {
reject(new FetchError(`request to ${request.url} failed, reason: ${err.message}`, 'system', err));
finalize();
});
req.on('response', function (res) {
clearTimeout(reqTimeout);
const headers = createHeadersLenient(res.headers);
// HTTP fetch step 5
if (fetch.isRedirect(res.statusCode)) {
// HTTP fetch step 5.2
const location = headers.get('Location');
// HTTP fetch step 5.3
const locationURL = location === null ? null : resolve_url(request.url, location);
// 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':
// node-fetch-specific step: make manual redirect a bit easier to use by setting the Location header value to the resolved URL.
if (locationURL !== null) {
// handle corrupted header
try {
headers.set('Location', locationURL);
} catch (err) {
// istanbul ignore next: nodejs server prevent invalid response headers, we can't test this through normal request
reject(err);
}
}
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 requestOpts = {
headers: new Headers(request.headers),
follow: request.follow,
counter: request.counter + 1,
agent: request.agent,
compress: request.compress,
method: request.method,
body: request.body,
signal: request.signal,
timeout: request.timeout,
size: request.size
};
// HTTP-redirect fetch step 9
if (res.statusCode !== 303 && request.body && getTotalBytes(request) === null) {
reject(new FetchError('Cannot follow redirect with body being a readable stream', 'unsupported-redirect'));
finalize();
return;
}
// HTTP-redirect fetch step 11
if (res.statusCode === 303 || (res.statusCode === 301 || res.statusCode === 302) && request.method === 'POST') {
requestOpts.method = 'GET';
requestOpts.body = undefined;
requestOpts.headers.delete('content-length');
}
// HTTP-redirect fetch step 15
resolve(fetch(new Request(locationURL, requestOpts)));
finalize();
return;
}
}
// prepare response
res.once('end', function () {
if (signal) signal.removeEventListener('abort', abortAndFinalize);
});
let body = res.pipe(new PassThrough$1());
const response_options = {
url: request.url,
status: res.statusCode,
statusText: res.statusMessage,
headers: headers,
size: request.size,
timeout: request.timeout,
counter: request.counter
};
// 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 || res.statusCode === 204 || res.statusCode === 304) {
response = new Response(body, response_options);
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: zlib.Z_SYNC_FLUSH,
finishFlush: zlib.Z_SYNC_FLUSH
};
// for gzip
if (codings == 'gzip' || codings == 'x-gzip') {
body = body.pipe(zlib.createGunzip(zlibOptions));
response = new Response(body, response_options);
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 = res.pipe(new PassThrough$1());
raw.once('data', function (chunk) {
// see http://stackoverflow.com/questions/37519828
if ((chunk[0] & 0x0F) === 0x08) {
body = body.pipe(zlib.createInflate());
} else {
body = body.pipe(zlib.createInflateRaw());
}
response = new Response(body, response_options);
resolve(response);
});
return;
}
// for br
if (codings == 'br' && typeof zlib.createBrotliDecompress === 'function') {
body = body.pipe(zlib.createBrotliDecompress());
response = new Response(body, response_options);
resolve(response);
return;
}
// otherwise, use response as-is
response = new Response(body, response_options);
resolve(response);
});
writeToStream(req, request);
});
}
/**
* Redirect code matching
*
* @param Number code Status code
* @return Boolean
*/
fetch.isRedirect = function (code) {
return code === 301 || code === 302 || code === 303 || code === 307 || code === 308;
};
// expose Promise
fetch.Promise = global.Promise;
module.exports = exports = fetch;
Object.defineProperty(exports, "__esModule", ({ value: true }));
exports.default = exports;
exports.Headers = Headers;
exports.Request = Request;
exports.Response = Response;
exports.FetchError = FetchError;
/***/ }),
/***/ 8389:
/***/ ((module) => {
/*!
* normalize-path
*
* Copyright (c) 2014-2018, Jon Schlinkert.
* Released under the MIT License.
*/
module.exports = function(path, stripTrailing) {
if (typeof path !== 'string') {
throw new TypeError('expected path to be a string');
}
if (path === '\\' || path === '/') return '/';
var len = path.length;
if (len <= 1) return path;
// ensure that win32 namespaces has two leading slashes, so that the path is
// handled properly by the win32 version of path.parse() after being normalized
// https://msdn.microsoft.com/library/windows/desktop/aa365247(v=vs.85).aspx#namespaces
var prefix = '';
if (len > 4 && path[3] === '\\') {
var ch = path[2];
if ((ch === '?' || ch === '.') && path.slice(0, 2) === '\\\\') {
path = path.slice(2);
prefix = '//';
}
}
var segs = path.split(/[/\\]+/);
if (stripTrailing !== false && segs[segs.length - 1] === '') {
segs.pop();
}
return prefix + segs.join('/');
};
/***/ }),
/***/ 4742:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
var wrappy = __nccwpck_require__(6923)
module.exports = wrappy(once)
module.exports.strict = wrappy(onceStrict)
once.proto = once(function () {
Object.defineProperty(Function.prototype, 'once', {
value: function () {
return once(this)
},
configurable: true
})
Object.defineProperty(Function.prototype, 'onceStrict', {
value: function () {
return onceStrict(this)
},
configurable: true
})
})
function once (fn) {
var f = function () {
if (f.called) return f.value
f.called = true
return f.value = fn.apply(this, arguments)
}
f.called = false
return f
}
function onceStrict (fn) {
var f = function () {
if (f.called)
throw new Error(f.onceError)
f.called = true
return f.value = fn.apply(this, arguments)
}
var name = fn.name || 'Function wrapped with `once`'
f.onceError = name + " shouldn't be called more than once"
f.called = false
return f
}
/***/ }),
/***/ 2598:
/***/ ((module) => {
"use strict";
function posix(path) {
return path.charAt(0) === '/';
}
function win32(path) {
// https://github.com/nodejs/node/blob/b3fcc245fb25539909ef1d5eaa01dbf92e168633/lib/path.js#L56
var splitDeviceRe = /^([a-zA-Z]:|[\\\/]{2}[^\\\/]+[\\\/]+[^\\\/]+)?([\\\/])?([\s\S]*?)$/;
var result = splitDeviceRe.exec(path);
var device = result[1] || '';
var isUnc = Boolean(device && device.charAt(1) !== ':');
// UNC paths are always absolute
return Boolean(result[2] || isUnc);
}
module.exports = process.platform === 'win32' ? win32 : posix;
module.exports.posix = posix;
module.exports.win32 = win32;
/***/ }),
/***/ 1491:
/***/ ((module) => {
"use strict";
if (typeof process === 'undefined' ||
!process.version ||
process.version.indexOf('v0.') === 0 ||
process.version.indexOf('v1.') === 0 && process.version.indexOf('v1.8.') !== 0) {
module.exports = { nextTick: nextTick };
} else {
module.exports = process
}
function nextTick(fn, arg1, arg2, arg3) {
if (typeof fn !== 'function') {
throw new TypeError('"callback" argument must be a function');
}
var len = arguments.length;
var args, i;
switch (len) {
case 0:
case 1:
return process.nextTick(fn);
case 2:
return process.nextTick(function afterTickOne() {
fn.call(null, arg1);
});
case 3:
return process.nextTick(function afterTickTwo() {
fn.call(null, arg1, arg2);
});
case 4:
return process.nextTick(function afterTickThree() {
fn.call(null, arg1, arg2, arg3);
});
default:
args = new Array(len - 1);
i = 0;
while (i < args.length) {
args[i++] = arguments[i];
}
return process.nextTick(function afterTick() {
fn.apply(null, args);
});
}
}
/***/ }),
/***/ 9745:
/***/ ((module) => {
"use strict";
const codes = {};
function createErrorType(code, message, Base) {
if (!Base) {
Base = Error
}
function getMessage (arg1, arg2, arg3) {
if (typeof message === 'string') {
return message
} else {
return message(arg1, arg2, arg3)
}
}
class NodeError extends Base {
constructor (arg1, arg2, arg3) {
super(getMessage(arg1, arg2, arg3));
}
}
NodeError.prototype.name = Base.name;
NodeError.prototype.code = code;
codes[code] = NodeError;
}
// https://github.com/nodejs/node/blob/v10.8.0/lib/internal/errors.js
function oneOf(expected, thing) {
if (Array.isArray(expected)) {
const len = expected.length;
expected = expected.map((i) => String(i));
if (len > 2) {
return `one of ${thing} ${expected.slice(0, len - 1).join(', ')}, or ` +
expected[len - 1];
} else if (len === 2) {
return `one of ${thing} ${expected[0]} or ${expected[1]}`;
} else {
return `of ${thing} ${expected[0]}`;
}
} else {
return `of ${thing} ${String(expected)}`;
}
}
// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/String/startsWith
function startsWith(str, search, pos) {
return str.substr(!pos || pos < 0 ? 0 : +pos, search.length) === search;
}
// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/String/endsWith
function endsWith(str, search, this_len) {
if (this_len === undefined || this_len > str.length) {
this_len = str.length;
}
return str.substring(this_len - search.length, this_len) === search;
}
// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/String/includes
function includes(str, search, start) {
if (typeof start !== 'number') {
start = 0;
}
if (start + search.length > str.length) {
return false;
} else {
return str.indexOf(search, start) !== -1;
}
}
createErrorType('ERR_INVALID_OPT_VALUE', function (name, value) {
return 'The value "' + value + '" is invalid for option "' + name + '"'
}, TypeError);
createErrorType('ERR_INVALID_ARG_TYPE', function (name, expected, actual) {
// determiner: 'must be' or 'must not be'
let determiner;
if (typeof expected === 'string' && startsWith(expected, 'not ')) {
determiner = 'must not be';
expected = expected.replace(/^not /, '');
} else {
determiner = 'must be';
}
let msg;
if (endsWith(name, ' argument')) {
// For cases like 'first argument'
msg = `The ${name} ${determiner} ${oneOf(expected, 'type')}`;
} else {
const type = includes(name, '.') ? 'property' : 'argument';
msg = `The "${name}" ${type} ${determiner} ${oneOf(expected, 'type')}`;
}
msg += `. Received type ${typeof actual}`;
return msg;
}, TypeError);
createErrorType('ERR_STREAM_PUSH_AFTER_EOF', 'stream.push() after EOF');
createErrorType('ERR_METHOD_NOT_IMPLEMENTED', function (name) {
return 'The ' + name + ' method is not implemented'
});
createErrorType('ERR_STREAM_PREMATURE_CLOSE', 'Premature close');
createErrorType('ERR_STREAM_DESTROYED', function (name) {
return 'Cannot call ' + name + ' after a stream was destroyed';
});
createErrorType('ERR_MULTIPLE_CALLBACK', 'Callback called multiple times');
createErrorType('ERR_STREAM_CANNOT_PIPE', 'Cannot pipe, not readable');
createErrorType('ERR_STREAM_WRITE_AFTER_END', 'write after end');
createErrorType('ERR_STREAM_NULL_VALUES', 'May not write null values to stream', TypeError);
createErrorType('ERR_UNKNOWN_ENCODING', function (arg) {
return 'Unknown encoding: ' + arg
}, TypeError);
createErrorType('ERR_STREAM_UNSHIFT_AFTER_END_EVENT', 'stream.unshift() after end event');
module.exports.q = codes;
/***/ }),
/***/ 5777:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// a duplex stream is just a stream that is both readable and writable.
// Since JS doesn't have multiple prototypal inheritance, this class
// prototypally inherits from Readable, and then parasitically from
// Writable.
/**/
var objectKeys = Object.keys || function (obj) {
var keys = [];
for (var key in obj) {
keys.push(key);
}
return keys;
};
/**/
module.exports = Duplex;
var Readable = __nccwpck_require__(8774);
var Writable = __nccwpck_require__(7190);
__nccwpck_require__(9424)(Duplex, Readable);
{
// Allow the keys array to be GC'ed.
var keys = objectKeys(Writable.prototype);
for (var v = 0; v < keys.length; v++) {
var method = keys[v];
if (!Duplex.prototype[method]) Duplex.prototype[method] = Writable.prototype[method];
}
}
function Duplex(options) {
if (!(this instanceof Duplex)) return new Duplex(options);
Readable.call(this, options);
Writable.call(this, options);
this.allowHalfOpen = true;
if (options) {
if (options.readable === false) this.readable = false;
if (options.writable === false) this.writable = false;
if (options.allowHalfOpen === false) {
this.allowHalfOpen = false;
this.once('end', onend);
}
}
}
Object.defineProperty(Duplex.prototype, 'writableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
return this._writableState.highWaterMark;
}
});
Object.defineProperty(Duplex.prototype, 'writableBuffer', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
return this._writableState && this._writableState.getBuffer();
}
});
Object.defineProperty(Duplex.prototype, 'writableLength', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
return this._writableState.length;
}
}); // the no-half-open enforcer
function onend() {
// If the writable side ended, then we're ok.
if (this._writableState.ended) return; // no more data can be written.
// But allow more writes to happen in this tick.
process.nextTick(onEndNT, this);
}
function onEndNT(self) {
self.end();
}
Object.defineProperty(Duplex.prototype, 'destroyed', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
if (this._readableState === undefined || this._writableState === undefined) {
return false;
}
return this._readableState.destroyed && this._writableState.destroyed;
},
set: function set(value) {
// we ignore the value if the stream
// has not been initialized yet
if (this._readableState === undefined || this._writableState === undefined) {
return;
} // backward compatibility, the user is explicitly
// managing destroyed
this._readableState.destroyed = value;
this._writableState.destroyed = value;
}
});
/***/ }),
/***/ 6646:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// a passthrough stream.
// basically just the most minimal sort of Transform stream.
// Every written chunk gets output as-is.
module.exports = PassThrough;
var Transform = __nccwpck_require__(6354);
__nccwpck_require__(9424)(PassThrough, Transform);
function PassThrough(options) {
if (!(this instanceof PassThrough)) return new PassThrough(options);
Transform.call(this, options);
}
PassThrough.prototype._transform = function (chunk, encoding, cb) {
cb(null, chunk);
};
/***/ }),
/***/ 8774:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
module.exports = Readable;
/**/
var Duplex;
/**/
Readable.ReadableState = ReadableState;
/**/
var EE = __nccwpck_require__(8614).EventEmitter;
var EElistenerCount = function EElistenerCount(emitter, type) {
return emitter.listeners(type).length;
};
/**/
/**/
var Stream = __nccwpck_require__(515);
/**/
var Buffer = __nccwpck_require__(4293).Buffer;
var OurUint8Array = global.Uint8Array || function () {};
function _uint8ArrayToBuffer(chunk) {
return Buffer.from(chunk);
}
function _isUint8Array(obj) {
return Buffer.isBuffer(obj) || obj instanceof OurUint8Array;
}
/**/
var debugUtil = __nccwpck_require__(1669);
var debug;
if (debugUtil && debugUtil.debuglog) {
debug = debugUtil.debuglog('stream');
} else {
debug = function debug() {};
}
/**/
var BufferList = __nccwpck_require__(4016);
var destroyImpl = __nccwpck_require__(6473);
var _require = __nccwpck_require__(5591),
getHighWaterMark = _require.getHighWaterMark;
var _require$codes = __nccwpck_require__(9745)/* .codes */ .q,
ERR_INVALID_ARG_TYPE = _require$codes.ERR_INVALID_ARG_TYPE,
ERR_STREAM_PUSH_AFTER_EOF = _require$codes.ERR_STREAM_PUSH_AFTER_EOF,
ERR_METHOD_NOT_IMPLEMENTED = _require$codes.ERR_METHOD_NOT_IMPLEMENTED,
ERR_STREAM_UNSHIFT_AFTER_END_EVENT = _require$codes.ERR_STREAM_UNSHIFT_AFTER_END_EVENT; // Lazy loaded to improve the startup performance.
var StringDecoder;
var createReadableStreamAsyncIterator;
var from;
__nccwpck_require__(9424)(Readable, Stream);
var errorOrDestroy = destroyImpl.errorOrDestroy;
var kProxyEvents = ['error', 'close', 'destroy', 'pause', 'resume'];
function prependListener(emitter, event, fn) {
// Sadly this is not cacheable as some libraries bundle their own
// event emitter implementation with them.
if (typeof emitter.prependListener === 'function') return emitter.prependListener(event, fn); // This is a hack to make sure that our error handler is attached before any
// userland ones. NEVER DO THIS. This is here only because this code needs
// to continue to work with older versions of Node.js that do not include
// the prependListener() method. The goal is to eventually remove this hack.
if (!emitter._events || !emitter._events[event]) emitter.on(event, fn);else if (Array.isArray(emitter._events[event])) emitter._events[event].unshift(fn);else emitter._events[event] = [fn, emitter._events[event]];
}
function ReadableState(options, stream, isDuplex) {
Duplex = Duplex || __nccwpck_require__(5777);
options = options || {}; // Duplex streams are both readable and writable, but share
// the same options object.
// However, some cases require setting options to different
// values for the readable and the writable sides of the duplex stream.
// These options can be provided separately as readableXXX and writableXXX.
if (typeof isDuplex !== 'boolean') isDuplex = stream instanceof Duplex; // object stream flag. Used to make read(n) ignore n and to
// make all the buffer merging and length checks go away
this.objectMode = !!options.objectMode;
if (isDuplex) this.objectMode = this.objectMode || !!options.readableObjectMode; // the point at which it stops calling _read() to fill the buffer
// Note: 0 is a valid value, means "don't call _read preemptively ever"
this.highWaterMark = getHighWaterMark(this, options, 'readableHighWaterMark', isDuplex); // A linked list is used to store data chunks instead of an array because the
// linked list can remove elements from the beginning faster than
// array.shift()
this.buffer = new BufferList();
this.length = 0;
this.pipes = null;
this.pipesCount = 0;
this.flowing = null;
this.ended = false;
this.endEmitted = false;
this.reading = false; // a flag to be able to tell if the event 'readable'/'data' is emitted
// immediately, or on a later tick. We set this to true at first, because
// any actions that shouldn't happen until "later" should generally also
// not happen before the first read call.
this.sync = true; // whenever we return null, then we set a flag to say
// that we're awaiting a 'readable' event emission.
this.needReadable = false;
this.emittedReadable = false;
this.readableListening = false;
this.resumeScheduled = false;
this.paused = true; // Should close be emitted on destroy. Defaults to true.
this.emitClose = options.emitClose !== false; // Should .destroy() be called after 'end' (and potentially 'finish')
this.autoDestroy = !!options.autoDestroy; // has it been destroyed
this.destroyed = false; // Crypto is kind of old and crusty. Historically, its default string
// encoding is 'binary' so we have to make this configurable.
// Everything else in the universe uses 'utf8', though.
this.defaultEncoding = options.defaultEncoding || 'utf8'; // the number of writers that are awaiting a drain event in .pipe()s
this.awaitDrain = 0; // if true, a maybeReadMore has been scheduled
this.readingMore = false;
this.decoder = null;
this.encoding = null;
if (options.encoding) {
if (!StringDecoder) StringDecoder = __nccwpck_require__(6298)/* .StringDecoder */ .s;
this.decoder = new StringDecoder(options.encoding);
this.encoding = options.encoding;
}
}
function Readable(options) {
Duplex = Duplex || __nccwpck_require__(5777);
if (!(this instanceof Readable)) return new Readable(options); // Checking for a Stream.Duplex instance is faster here instead of inside
// the ReadableState constructor, at least with V8 6.5
var isDuplex = this instanceof Duplex;
this._readableState = new ReadableState(options, this, isDuplex); // legacy
this.readable = true;
if (options) {
if (typeof options.read === 'function') this._read = options.read;
if (typeof options.destroy === 'function') this._destroy = options.destroy;
}
Stream.call(this);
}
Object.defineProperty(Readable.prototype, 'destroyed', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
if (this._readableState === undefined) {
return false;
}
return this._readableState.destroyed;
},
set: function set(value) {
// we ignore the value if the stream
// has not been initialized yet
if (!this._readableState) {
return;
} // backward compatibility, the user is explicitly
// managing destroyed
this._readableState.destroyed = value;
}
});
Readable.prototype.destroy = destroyImpl.destroy;
Readable.prototype._undestroy = destroyImpl.undestroy;
Readable.prototype._destroy = function (err, cb) {
cb(err);
}; // Manually shove something into the read() buffer.
// This returns true if the highWaterMark has not been hit yet,
// similar to how Writable.write() returns true if you should
// write() some more.
Readable.prototype.push = function (chunk, encoding) {
var state = this._readableState;
var skipChunkCheck;
if (!state.objectMode) {
if (typeof chunk === 'string') {
encoding = encoding || state.defaultEncoding;
if (encoding !== state.encoding) {
chunk = Buffer.from(chunk, encoding);
encoding = '';
}
skipChunkCheck = true;
}
} else {
skipChunkCheck = true;
}
return readableAddChunk(this, chunk, encoding, false, skipChunkCheck);
}; // Unshift should *always* be something directly out of read()
Readable.prototype.unshift = function (chunk) {
return readableAddChunk(this, chunk, null, true, false);
};
function readableAddChunk(stream, chunk, encoding, addToFront, skipChunkCheck) {
debug('readableAddChunk', chunk);
var state = stream._readableState;
if (chunk === null) {
state.reading = false;
onEofChunk(stream, state);
} else {
var er;
if (!skipChunkCheck) er = chunkInvalid(state, chunk);
if (er) {
errorOrDestroy(stream, er);
} else if (state.objectMode || chunk && chunk.length > 0) {
if (typeof chunk !== 'string' && !state.objectMode && Object.getPrototypeOf(chunk) !== Buffer.prototype) {
chunk = _uint8ArrayToBuffer(chunk);
}
if (addToFront) {
if (state.endEmitted) errorOrDestroy(stream, new ERR_STREAM_UNSHIFT_AFTER_END_EVENT());else addChunk(stream, state, chunk, true);
} else if (state.ended) {
errorOrDestroy(stream, new ERR_STREAM_PUSH_AFTER_EOF());
} else if (state.destroyed) {
return false;
} else {
state.reading = false;
if (state.decoder && !encoding) {
chunk = state.decoder.write(chunk);
if (state.objectMode || chunk.length !== 0) addChunk(stream, state, chunk, false);else maybeReadMore(stream, state);
} else {
addChunk(stream, state, chunk, false);
}
}
} else if (!addToFront) {
state.reading = false;
maybeReadMore(stream, state);
}
} // We can push more data if we are below the highWaterMark.
// Also, if we have no data yet, we can stand some more bytes.
// This is to work around cases where hwm=0, such as the repl.
return !state.ended && (state.length < state.highWaterMark || state.length === 0);
}
function addChunk(stream, state, chunk, addToFront) {
if (state.flowing && state.length === 0 && !state.sync) {
state.awaitDrain = 0;
stream.emit('data', chunk);
} else {
// update the buffer info.
state.length += state.objectMode ? 1 : chunk.length;
if (addToFront) state.buffer.unshift(chunk);else state.buffer.push(chunk);
if (state.needReadable) emitReadable(stream);
}
maybeReadMore(stream, state);
}
function chunkInvalid(state, chunk) {
var er;
if (!_isUint8Array(chunk) && typeof chunk !== 'string' && chunk !== undefined && !state.objectMode) {
er = new ERR_INVALID_ARG_TYPE('chunk', ['string', 'Buffer', 'Uint8Array'], chunk);
}
return er;
}
Readable.prototype.isPaused = function () {
return this._readableState.flowing === false;
}; // backwards compatibility.
Readable.prototype.setEncoding = function (enc) {
if (!StringDecoder) StringDecoder = __nccwpck_require__(6298)/* .StringDecoder */ .s;
var decoder = new StringDecoder(enc);
this._readableState.decoder = decoder; // If setEncoding(null), decoder.encoding equals utf8
this._readableState.encoding = this._readableState.decoder.encoding; // Iterate over current buffer to convert already stored Buffers:
var p = this._readableState.buffer.head;
var content = '';
while (p !== null) {
content += decoder.write(p.data);
p = p.next;
}
this._readableState.buffer.clear();
if (content !== '') this._readableState.buffer.push(content);
this._readableState.length = content.length;
return this;
}; // Don't raise the hwm > 1GB
var MAX_HWM = 0x40000000;
function computeNewHighWaterMark(n) {
if (n >= MAX_HWM) {
// TODO(ronag): Throw ERR_VALUE_OUT_OF_RANGE.
n = MAX_HWM;
} else {
// Get the next highest power of 2 to prevent increasing hwm excessively in
// tiny amounts
n--;
n |= n >>> 1;
n |= n >>> 2;
n |= n >>> 4;
n |= n >>> 8;
n |= n >>> 16;
n++;
}
return n;
} // This function is designed to be inlinable, so please take care when making
// changes to the function body.
function howMuchToRead(n, state) {
if (n <= 0 || state.length === 0 && state.ended) return 0;
if (state.objectMode) return 1;
if (n !== n) {
// Only flow one buffer at a time
if (state.flowing && state.length) return state.buffer.head.data.length;else return state.length;
} // If we're asking for more than the current hwm, then raise the hwm.
if (n > state.highWaterMark) state.highWaterMark = computeNewHighWaterMark(n);
if (n <= state.length) return n; // Don't have enough
if (!state.ended) {
state.needReadable = true;
return 0;
}
return state.length;
} // you can override either this method, or the async _read(n) below.
Readable.prototype.read = function (n) {
debug('read', n);
n = parseInt(n, 10);
var state = this._readableState;
var nOrig = n;
if (n !== 0) state.emittedReadable = false; // if we're doing read(0) to trigger a readable event, but we
// already have a bunch of data in the buffer, then just trigger
// the 'readable' event and move on.
if (n === 0 && state.needReadable && ((state.highWaterMark !== 0 ? state.length >= state.highWaterMark : state.length > 0) || state.ended)) {
debug('read: emitReadable', state.length, state.ended);
if (state.length === 0 && state.ended) endReadable(this);else emitReadable(this);
return null;
}
n = howMuchToRead(n, state); // if we've ended, and we're now clear, then finish it up.
if (n === 0 && state.ended) {
if (state.length === 0) endReadable(this);
return null;
} // All the actual chunk generation logic needs to be
// *below* the call to _read. The reason is that in certain
// synthetic stream cases, such as passthrough streams, _read
// may be a completely synchronous operation which may change
// the state of the read buffer, providing enough data when
// before there was *not* enough.
//
// So, the steps are:
// 1. Figure out what the state of things will be after we do
// a read from the buffer.
//
// 2. If that resulting state will trigger a _read, then call _read.
// Note that this may be asynchronous, or synchronous. Yes, it is
// deeply ugly to write APIs this way, but that still doesn't mean
// that the Readable class should behave improperly, as streams are
// designed to be sync/async agnostic.
// Take note if the _read call is sync or async (ie, if the read call
// has returned yet), so that we know whether or not it's safe to emit
// 'readable' etc.
//
// 3. Actually pull the requested chunks out of the buffer and return.
// if we need a readable event, then we need to do some reading.
var doRead = state.needReadable;
debug('need readable', doRead); // if we currently have less than the highWaterMark, then also read some
if (state.length === 0 || state.length - n < state.highWaterMark) {
doRead = true;
debug('length less than watermark', doRead);
} // however, if we've ended, then there's no point, and if we're already
// reading, then it's unnecessary.
if (state.ended || state.reading) {
doRead = false;
debug('reading or ended', doRead);
} else if (doRead) {
debug('do read');
state.reading = true;
state.sync = true; // if the length is currently zero, then we *need* a readable event.
if (state.length === 0) state.needReadable = true; // call internal read method
this._read(state.highWaterMark);
state.sync = false; // If _read pushed data synchronously, then `reading` will be false,
// and we need to re-evaluate how much data we can return to the user.
if (!state.reading) n = howMuchToRead(nOrig, state);
}
var ret;
if (n > 0) ret = fromList(n, state);else ret = null;
if (ret === null) {
state.needReadable = state.length <= state.highWaterMark;
n = 0;
} else {
state.length -= n;
state.awaitDrain = 0;
}
if (state.length === 0) {
// If we have nothing in the buffer, then we want to know
// as soon as we *do* get something into the buffer.
if (!state.ended) state.needReadable = true; // If we tried to read() past the EOF, then emit end on the next tick.
if (nOrig !== n && state.ended) endReadable(this);
}
if (ret !== null) this.emit('data', ret);
return ret;
};
function onEofChunk(stream, state) {
debug('onEofChunk');
if (state.ended) return;
if (state.decoder) {
var chunk = state.decoder.end();
if (chunk && chunk.length) {
state.buffer.push(chunk);
state.length += state.objectMode ? 1 : chunk.length;
}
}
state.ended = true;
if (state.sync) {
// if we are sync, wait until next tick to emit the data.
// Otherwise we risk emitting data in the flow()
// the readable code triggers during a read() call
emitReadable(stream);
} else {
// emit 'readable' now to make sure it gets picked up.
state.needReadable = false;
if (!state.emittedReadable) {
state.emittedReadable = true;
emitReadable_(stream);
}
}
} // Don't emit readable right away in sync mode, because this can trigger
// another read() call => stack overflow. This way, it might trigger
// a nextTick recursion warning, but that's not so bad.
function emitReadable(stream) {
var state = stream._readableState;
debug('emitReadable', state.needReadable, state.emittedReadable);
state.needReadable = false;
if (!state.emittedReadable) {
debug('emitReadable', state.flowing);
state.emittedReadable = true;
process.nextTick(emitReadable_, stream);
}
}
function emitReadable_(stream) {
var state = stream._readableState;
debug('emitReadable_', state.destroyed, state.length, state.ended);
if (!state.destroyed && (state.length || state.ended)) {
stream.emit('readable');
state.emittedReadable = false;
} // The stream needs another readable event if
// 1. It is not flowing, as the flow mechanism will take
// care of it.
// 2. It is not ended.
// 3. It is below the highWaterMark, so we can schedule
// another readable later.
state.needReadable = !state.flowing && !state.ended && state.length <= state.highWaterMark;
flow(stream);
} // at this point, the user has presumably seen the 'readable' event,
// and called read() to consume some data. that may have triggered
// in turn another _read(n) call, in which case reading = true if
// it's in progress.
// However, if we're not ended, or reading, and the length < hwm,
// then go ahead and try to read some more preemptively.
function maybeReadMore(stream, state) {
if (!state.readingMore) {
state.readingMore = true;
process.nextTick(maybeReadMore_, stream, state);
}
}
function maybeReadMore_(stream, state) {
// Attempt to read more data if we should.
//
// The conditions for reading more data are (one of):
// - Not enough data buffered (state.length < state.highWaterMark). The loop
// is responsible for filling the buffer with enough data if such data
// is available. If highWaterMark is 0 and we are not in the flowing mode
// we should _not_ attempt to buffer any extra data. We'll get more data
// when the stream consumer calls read() instead.
// - No data in the buffer, and the stream is in flowing mode. In this mode
// the loop below is responsible for ensuring read() is called. Failing to
// call read here would abort the flow and there's no other mechanism for
// continuing the flow if the stream consumer has just subscribed to the
// 'data' event.
//
// In addition to the above conditions to keep reading data, the following
// conditions prevent the data from being read:
// - The stream has ended (state.ended).
// - There is already a pending 'read' operation (state.reading). This is a
// case where the the stream has called the implementation defined _read()
// method, but they are processing the call asynchronously and have _not_
// called push() with new data. In this case we skip performing more
// read()s. The execution ends in this method again after the _read() ends
// up calling push() with more data.
while (!state.reading && !state.ended && (state.length < state.highWaterMark || state.flowing && state.length === 0)) {
var len = state.length;
debug('maybeReadMore read 0');
stream.read(0);
if (len === state.length) // didn't get any data, stop spinning.
break;
}
state.readingMore = false;
} // abstract method. to be overridden in specific implementation classes.
// call cb(er, data) where data is <= n in length.
// for virtual (non-string, non-buffer) streams, "length" is somewhat
// arbitrary, and perhaps not very meaningful.
Readable.prototype._read = function (n) {
errorOrDestroy(this, new ERR_METHOD_NOT_IMPLEMENTED('_read()'));
};
Readable.prototype.pipe = function (dest, pipeOpts) {
var src = this;
var state = this._readableState;
switch (state.pipesCount) {
case 0:
state.pipes = dest;
break;
case 1:
state.pipes = [state.pipes, dest];
break;
default:
state.pipes.push(dest);
break;
}
state.pipesCount += 1;
debug('pipe count=%d opts=%j', state.pipesCount, pipeOpts);
var doEnd = (!pipeOpts || pipeOpts.end !== false) && dest !== process.stdout && dest !== process.stderr;
var endFn = doEnd ? onend : unpipe;
if (state.endEmitted) process.nextTick(endFn);else src.once('end', endFn);
dest.on('unpipe', onunpipe);
function onunpipe(readable, unpipeInfo) {
debug('onunpipe');
if (readable === src) {
if (unpipeInfo && unpipeInfo.hasUnpiped === false) {
unpipeInfo.hasUnpiped = true;
cleanup();
}
}
}
function onend() {
debug('onend');
dest.end();
} // when the dest drains, it reduces the awaitDrain counter
// on the source. This would be more elegant with a .once()
// handler in flow(), but adding and removing repeatedly is
// too slow.
var ondrain = pipeOnDrain(src);
dest.on('drain', ondrain);
var cleanedUp = false;
function cleanup() {
debug('cleanup'); // cleanup event handlers once the pipe is broken
dest.removeListener('close', onclose);
dest.removeListener('finish', onfinish);
dest.removeListener('drain', ondrain);
dest.removeListener('error', onerror);
dest.removeListener('unpipe', onunpipe);
src.removeListener('end', onend);
src.removeListener('end', unpipe);
src.removeListener('data', ondata);
cleanedUp = true; // if the reader is waiting for a drain event from this
// specific writer, then it would cause it to never start
// flowing again.
// So, if this is awaiting a drain, then we just call it now.
// If we don't know, then assume that we are waiting for one.
if (state.awaitDrain && (!dest._writableState || dest._writableState.needDrain)) ondrain();
}
src.on('data', ondata);
function ondata(chunk) {
debug('ondata');
var ret = dest.write(chunk);
debug('dest.write', ret);
if (ret === false) {
// If the user unpiped during `dest.write()`, it is possible
// to get stuck in a permanently paused state if that write
// also returned false.
// => Check whether `dest` is still a piping destination.
if ((state.pipesCount === 1 && state.pipes === dest || state.pipesCount > 1 && indexOf(state.pipes, dest) !== -1) && !cleanedUp) {
debug('false write response, pause', state.awaitDrain);
state.awaitDrain++;
}
src.pause();
}
} // if the dest has an error, then stop piping into it.
// however, don't suppress the throwing behavior for this.
function onerror(er) {
debug('onerror', er);
unpipe();
dest.removeListener('error', onerror);
if (EElistenerCount(dest, 'error') === 0) errorOrDestroy(dest, er);
} // Make sure our error handler is attached before userland ones.
prependListener(dest, 'error', onerror); // Both close and finish should trigger unpipe, but only once.
function onclose() {
dest.removeListener('finish', onfinish);
unpipe();
}
dest.once('close', onclose);
function onfinish() {
debug('onfinish');
dest.removeListener('close', onclose);
unpipe();
}
dest.once('finish', onfinish);
function unpipe() {
debug('unpipe');
src.unpipe(dest);
} // tell the dest that it's being piped to
dest.emit('pipe', src); // start the flow if it hasn't been started already.
if (!state.flowing) {
debug('pipe resume');
src.resume();
}
return dest;
};
function pipeOnDrain(src) {
return function pipeOnDrainFunctionResult() {
var state = src._readableState;
debug('pipeOnDrain', state.awaitDrain);
if (state.awaitDrain) state.awaitDrain--;
if (state.awaitDrain === 0 && EElistenerCount(src, 'data')) {
state.flowing = true;
flow(src);
}
};
}
Readable.prototype.unpipe = function (dest) {
var state = this._readableState;
var unpipeInfo = {
hasUnpiped: false
}; // if we're not piping anywhere, then do nothing.
if (state.pipesCount === 0) return this; // just one destination. most common case.
if (state.pipesCount === 1) {
// passed in one, but it's not the right one.
if (dest && dest !== state.pipes) return this;
if (!dest) dest = state.pipes; // got a match.
state.pipes = null;
state.pipesCount = 0;
state.flowing = false;
if (dest) dest.emit('unpipe', this, unpipeInfo);
return this;
} // slow case. multiple pipe destinations.
if (!dest) {
// remove all.
var dests = state.pipes;
var len = state.pipesCount;
state.pipes = null;
state.pipesCount = 0;
state.flowing = false;
for (var i = 0; i < len; i++) {
dests[i].emit('unpipe', this, {
hasUnpiped: false
});
}
return this;
} // try to find the right one.
var index = indexOf(state.pipes, dest);
if (index === -1) return this;
state.pipes.splice(index, 1);
state.pipesCount -= 1;
if (state.pipesCount === 1) state.pipes = state.pipes[0];
dest.emit('unpipe', this, unpipeInfo);
return this;
}; // set up data events if they are asked for
// Ensure readable listeners eventually get something
Readable.prototype.on = function (ev, fn) {
var res = Stream.prototype.on.call(this, ev, fn);
var state = this._readableState;
if (ev === 'data') {
// update readableListening so that resume() may be a no-op
// a few lines down. This is needed to support once('readable').
state.readableListening = this.listenerCount('readable') > 0; // Try start flowing on next tick if stream isn't explicitly paused
if (state.flowing !== false) this.resume();
} else if (ev === 'readable') {
if (!state.endEmitted && !state.readableListening) {
state.readableListening = state.needReadable = true;
state.flowing = false;
state.emittedReadable = false;
debug('on readable', state.length, state.reading);
if (state.length) {
emitReadable(this);
} else if (!state.reading) {
process.nextTick(nReadingNextTick, this);
}
}
}
return res;
};
Readable.prototype.addListener = Readable.prototype.on;
Readable.prototype.removeListener = function (ev, fn) {
var res = Stream.prototype.removeListener.call(this, ev, fn);
if (ev === 'readable') {
// We need to check if there is someone still listening to
// readable and reset the state. However this needs to happen
// after readable has been emitted but before I/O (nextTick) to
// support once('readable', fn) cycles. This means that calling
// resume within the same tick will have no
// effect.
process.nextTick(updateReadableListening, this);
}
return res;
};
Readable.prototype.removeAllListeners = function (ev) {
var res = Stream.prototype.removeAllListeners.apply(this, arguments);
if (ev === 'readable' || ev === undefined) {
// We need to check if there is someone still listening to
// readable and reset the state. However this needs to happen
// after readable has been emitted but before I/O (nextTick) to
// support once('readable', fn) cycles. This means that calling
// resume within the same tick will have no
// effect.
process.nextTick(updateReadableListening, this);
}
return res;
};
function updateReadableListening(self) {
var state = self._readableState;
state.readableListening = self.listenerCount('readable') > 0;
if (state.resumeScheduled && !state.paused) {
// flowing needs to be set to true now, otherwise
// the upcoming resume will not flow.
state.flowing = true; // crude way to check if we should resume
} else if (self.listenerCount('data') > 0) {
self.resume();
}
}
function nReadingNextTick(self) {
debug('readable nexttick read 0');
self.read(0);
} // pause() and resume() are remnants of the legacy readable stream API
// If the user uses them, then switch into old mode.
Readable.prototype.resume = function () {
var state = this._readableState;
if (!state.flowing) {
debug('resume'); // we flow only if there is no one listening
// for readable, but we still have to call
// resume()
state.flowing = !state.readableListening;
resume(this, state);
}
state.paused = false;
return this;
};
function resume(stream, state) {
if (!state.resumeScheduled) {
state.resumeScheduled = true;
process.nextTick(resume_, stream, state);
}
}
function resume_(stream, state) {
debug('resume', state.reading);
if (!state.reading) {
stream.read(0);
}
state.resumeScheduled = false;
stream.emit('resume');
flow(stream);
if (state.flowing && !state.reading) stream.read(0);
}
Readable.prototype.pause = function () {
debug('call pause flowing=%j', this._readableState.flowing);
if (this._readableState.flowing !== false) {
debug('pause');
this._readableState.flowing = false;
this.emit('pause');
}
this._readableState.paused = true;
return this;
};
function flow(stream) {
var state = stream._readableState;
debug('flow', state.flowing);
while (state.flowing && stream.read() !== null) {
;
}
} // wrap an old-style stream as the async data source.
// This is *not* part of the readable stream interface.
// It is an ugly unfortunate mess of history.
Readable.prototype.wrap = function (stream) {
var _this = this;
var state = this._readableState;
var paused = false;
stream.on('end', function () {
debug('wrapped end');
if (state.decoder && !state.ended) {
var chunk = state.decoder.end();
if (chunk && chunk.length) _this.push(chunk);
}
_this.push(null);
});
stream.on('data', function (chunk) {
debug('wrapped data');
if (state.decoder) chunk = state.decoder.write(chunk); // don't skip over falsy values in objectMode
if (state.objectMode && (chunk === null || chunk === undefined)) return;else if (!state.objectMode && (!chunk || !chunk.length)) return;
var ret = _this.push(chunk);
if (!ret) {
paused = true;
stream.pause();
}
}); // proxy all the other methods.
// important when wrapping filters and duplexes.
for (var i in stream) {
if (this[i] === undefined && typeof stream[i] === 'function') {
this[i] = function methodWrap(method) {
return function methodWrapReturnFunction() {
return stream[method].apply(stream, arguments);
};
}(i);
}
} // proxy certain important events.
for (var n = 0; n < kProxyEvents.length; n++) {
stream.on(kProxyEvents[n], this.emit.bind(this, kProxyEvents[n]));
} // when we try to consume some more bytes, simply unpause the
// underlying stream.
this._read = function (n) {
debug('wrapped _read', n);
if (paused) {
paused = false;
stream.resume();
}
};
return this;
};
if (typeof Symbol === 'function') {
Readable.prototype[Symbol.asyncIterator] = function () {
if (createReadableStreamAsyncIterator === undefined) {
createReadableStreamAsyncIterator = __nccwpck_require__(1445);
}
return createReadableStreamAsyncIterator(this);
};
}
Object.defineProperty(Readable.prototype, 'readableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
return this._readableState.highWaterMark;
}
});
Object.defineProperty(Readable.prototype, 'readableBuffer', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
return this._readableState && this._readableState.buffer;
}
});
Object.defineProperty(Readable.prototype, 'readableFlowing', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
return this._readableState.flowing;
},
set: function set(state) {
if (this._readableState) {
this._readableState.flowing = state;
}
}
}); // exposed for testing purposes only.
Readable._fromList = fromList;
Object.defineProperty(Readable.prototype, 'readableLength', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
return this._readableState.length;
}
}); // Pluck off n bytes from an array of buffers.
// Length is the combined lengths of all the buffers in the list.
// This function is designed to be inlinable, so please take care when making
// changes to the function body.
function fromList(n, state) {
// nothing buffered
if (state.length === 0) return null;
var ret;
if (state.objectMode) ret = state.buffer.shift();else if (!n || n >= state.length) {
// read it all, truncate the list
if (state.decoder) ret = state.buffer.join('');else if (state.buffer.length === 1) ret = state.buffer.first();else ret = state.buffer.concat(state.length);
state.buffer.clear();
} else {
// read part of list
ret = state.buffer.consume(n, state.decoder);
}
return ret;
}
function endReadable(stream) {
var state = stream._readableState;
debug('endReadable', state.endEmitted);
if (!state.endEmitted) {
state.ended = true;
process.nextTick(endReadableNT, state, stream);
}
}
function endReadableNT(state, stream) {
debug('endReadableNT', state.endEmitted, state.length); // Check that we didn't get one last unshift.
if (!state.endEmitted && state.length === 0) {
state.endEmitted = true;
stream.readable = false;
stream.emit('end');
if (state.autoDestroy) {
// In case of duplex streams we need a way to detect
// if the writable side is ready for autoDestroy as well
var wState = stream._writableState;
if (!wState || wState.autoDestroy && wState.finished) {
stream.destroy();
}
}
}
}
if (typeof Symbol === 'function') {
Readable.from = function (iterable, opts) {
if (from === undefined) {
from = __nccwpck_require__(1764);
}
return from(Readable, iterable, opts);
};
}
function indexOf(xs, x) {
for (var i = 0, l = xs.length; i < l; i++) {
if (xs[i] === x) return i;
}
return -1;
}
/***/ }),
/***/ 6354:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// a transform stream is a readable/writable stream where you do
// something with the data. Sometimes it's called a "filter",
// but that's not a great name for it, since that implies a thing where
// some bits pass through, and others are simply ignored. (That would
// be a valid example of a transform, of course.)
//
// While the output is causally related to the input, it's not a
// necessarily symmetric or synchronous transformation. For example,
// a zlib stream might take multiple plain-text writes(), and then
// emit a single compressed chunk some time in the future.
//
// Here's how this works:
//
// The Transform stream has all the aspects of the readable and writable
// stream classes. When you write(chunk), that calls _write(chunk,cb)
// internally, and returns false if there's a lot of pending writes
// buffered up. When you call read(), that calls _read(n) until
// there's enough pending readable data buffered up.
//
// In a transform stream, the written data is placed in a buffer. When
// _read(n) is called, it transforms the queued up data, calling the
// buffered _write cb's as it consumes chunks. If consuming a single
// written chunk would result in multiple output chunks, then the first
// outputted bit calls the readcb, and subsequent chunks just go into
// the read buffer, and will cause it to emit 'readable' if necessary.
//
// This way, back-pressure is actually determined by the reading side,
// since _read has to be called to start processing a new chunk. However,
// a pathological inflate type of transform can cause excessive buffering
// here. For example, imagine a stream where every byte of input is
// interpreted as an integer from 0-255, and then results in that many
// bytes of output. Writing the 4 bytes {ff,ff,ff,ff} would result in
// 1kb of data being output. In this case, you could write a very small
// amount of input, and end up with a very large amount of output. In
// such a pathological inflating mechanism, there'd be no way to tell
// the system to stop doing the transform. A single 4MB write could
// cause the system to run out of memory.
//
// However, even in such a pathological case, only a single written chunk
// would be consumed, and then the rest would wait (un-transformed) until
// the results of the previous transformed chunk were consumed.
module.exports = Transform;
var _require$codes = __nccwpck_require__(9745)/* .codes */ .q,
ERR_METHOD_NOT_IMPLEMENTED = _require$codes.ERR_METHOD_NOT_IMPLEMENTED,
ERR_MULTIPLE_CALLBACK = _require$codes.ERR_MULTIPLE_CALLBACK,
ERR_TRANSFORM_ALREADY_TRANSFORMING = _require$codes.ERR_TRANSFORM_ALREADY_TRANSFORMING,
ERR_TRANSFORM_WITH_LENGTH_0 = _require$codes.ERR_TRANSFORM_WITH_LENGTH_0;
var Duplex = __nccwpck_require__(5777);
__nccwpck_require__(9424)(Transform, Duplex);
function afterTransform(er, data) {
var ts = this._transformState;
ts.transforming = false;
var cb = ts.writecb;
if (cb === null) {
return this.emit('error', new ERR_MULTIPLE_CALLBACK());
}
ts.writechunk = null;
ts.writecb = null;
if (data != null) // single equals check for both `null` and `undefined`
this.push(data);
cb(er);
var rs = this._readableState;
rs.reading = false;
if (rs.needReadable || rs.length < rs.highWaterMark) {
this._read(rs.highWaterMark);
}
}
function Transform(options) {
if (!(this instanceof Transform)) return new Transform(options);
Duplex.call(this, options);
this._transformState = {
afterTransform: afterTransform.bind(this),
needTransform: false,
transforming: false,
writecb: null,
writechunk: null,
writeencoding: null
}; // start out asking for a readable event once data is transformed.
this._readableState.needReadable = true; // we have implemented the _read method, and done the other things
// that Readable wants before the first _read call, so unset the
// sync guard flag.
this._readableState.sync = false;
if (options) {
if (typeof options.transform === 'function') this._transform = options.transform;
if (typeof options.flush === 'function') this._flush = options.flush;
} // When the writable side finishes, then flush out anything remaining.
this.on('prefinish', prefinish);
}
function prefinish() {
var _this = this;
if (typeof this._flush === 'function' && !this._readableState.destroyed) {
this._flush(function (er, data) {
done(_this, er, data);
});
} else {
done(this, null, null);
}
}
Transform.prototype.push = function (chunk, encoding) {
this._transformState.needTransform = false;
return Duplex.prototype.push.call(this, chunk, encoding);
}; // This is the part where you do stuff!
// override this function in implementation classes.
// 'chunk' is an input chunk.
//
// Call `push(newChunk)` to pass along transformed output
// to the readable side. You may call 'push' zero or more times.
//
// Call `cb(err)` when you are done with this chunk. If you pass
// an error, then that'll put the hurt on the whole operation. If you
// never call cb(), then you'll never get another chunk.
Transform.prototype._transform = function (chunk, encoding, cb) {
cb(new ERR_METHOD_NOT_IMPLEMENTED('_transform()'));
};
Transform.prototype._write = function (chunk, encoding, cb) {
var ts = this._transformState;
ts.writecb = cb;
ts.writechunk = chunk;
ts.writeencoding = encoding;
if (!ts.transforming) {
var rs = this._readableState;
if (ts.needTransform || rs.needReadable || rs.length < rs.highWaterMark) this._read(rs.highWaterMark);
}
}; // Doesn't matter what the args are here.
// _transform does all the work.
// That we got here means that the readable side wants more data.
Transform.prototype._read = function (n) {
var ts = this._transformState;
if (ts.writechunk !== null && !ts.transforming) {
ts.transforming = true;
this._transform(ts.writechunk, ts.writeencoding, ts.afterTransform);
} else {
// mark that we need a transform, so that any data that comes in
// will get processed, now that we've asked for it.
ts.needTransform = true;
}
};
Transform.prototype._destroy = function (err, cb) {
Duplex.prototype._destroy.call(this, err, function (err2) {
cb(err2);
});
};
function done(stream, er, data) {
if (er) return stream.emit('error', er);
if (data != null) // single equals check for both `null` and `undefined`
stream.push(data); // TODO(BridgeAR): Write a test for these two error cases
// if there's nothing in the write buffer, then that means
// that nothing more will ever be provided
if (stream._writableState.length) throw new ERR_TRANSFORM_WITH_LENGTH_0();
if (stream._transformState.transforming) throw new ERR_TRANSFORM_ALREADY_TRANSFORMING();
return stream.push(null);
}
/***/ }),
/***/ 7190:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// A bit simpler than readable streams.
// Implement an async ._write(chunk, encoding, cb), and it'll handle all
// the drain event emission and buffering.
module.exports = Writable;
/* */
function WriteReq(chunk, encoding, cb) {
this.chunk = chunk;
this.encoding = encoding;
this.callback = cb;
this.next = null;
} // It seems a linked list but it is not
// there will be only 2 of these for each stream
function CorkedRequest(state) {
var _this = this;
this.next = null;
this.entry = null;
this.finish = function () {
onCorkedFinish(_this, state);
};
}
/* */
/**/
var Duplex;
/**/
Writable.WritableState = WritableState;
/**/
var internalUtil = {
deprecate: __nccwpck_require__(9461)
};
/**/
/**/
var Stream = __nccwpck_require__(515);
/**/
var Buffer = __nccwpck_require__(4293).Buffer;
var OurUint8Array = global.Uint8Array || function () {};
function _uint8ArrayToBuffer(chunk) {
return Buffer.from(chunk);
}
function _isUint8Array(obj) {
return Buffer.isBuffer(obj) || obj instanceof OurUint8Array;
}
var destroyImpl = __nccwpck_require__(6473);
var _require = __nccwpck_require__(5591),
getHighWaterMark = _require.getHighWaterMark;
var _require$codes = __nccwpck_require__(9745)/* .codes */ .q,
ERR_INVALID_ARG_TYPE = _require$codes.ERR_INVALID_ARG_TYPE,
ERR_METHOD_NOT_IMPLEMENTED = _require$codes.ERR_METHOD_NOT_IMPLEMENTED,
ERR_MULTIPLE_CALLBACK = _require$codes.ERR_MULTIPLE_CALLBACK,
ERR_STREAM_CANNOT_PIPE = _require$codes.ERR_STREAM_CANNOT_PIPE,
ERR_STREAM_DESTROYED = _require$codes.ERR_STREAM_DESTROYED,
ERR_STREAM_NULL_VALUES = _require$codes.ERR_STREAM_NULL_VALUES,
ERR_STREAM_WRITE_AFTER_END = _require$codes.ERR_STREAM_WRITE_AFTER_END,
ERR_UNKNOWN_ENCODING = _require$codes.ERR_UNKNOWN_ENCODING;
var errorOrDestroy = destroyImpl.errorOrDestroy;
__nccwpck_require__(9424)(Writable, Stream);
function nop() {}
function WritableState(options, stream, isDuplex) {
Duplex = Duplex || __nccwpck_require__(5777);
options = options || {}; // Duplex streams are both readable and writable, but share
// the same options object.
// However, some cases require setting options to different
// values for the readable and the writable sides of the duplex stream,
// e.g. options.readableObjectMode vs. options.writableObjectMode, etc.
if (typeof isDuplex !== 'boolean') isDuplex = stream instanceof Duplex; // object stream flag to indicate whether or not this stream
// contains buffers or objects.
this.objectMode = !!options.objectMode;
if (isDuplex) this.objectMode = this.objectMode || !!options.writableObjectMode; // the point at which write() starts returning false
// Note: 0 is a valid value, means that we always return false if
// the entire buffer is not flushed immediately on write()
this.highWaterMark = getHighWaterMark(this, options, 'writableHighWaterMark', isDuplex); // if _final has been called
this.finalCalled = false; // drain event flag.
this.needDrain = false; // at the start of calling end()
this.ending = false; // when end() has been called, and returned
this.ended = false; // when 'finish' is emitted
this.finished = false; // has it been destroyed
this.destroyed = false; // should we decode strings into buffers before passing to _write?
// this is here so that some node-core streams can optimize string
// handling at a lower level.
var noDecode = options.decodeStrings === false;
this.decodeStrings = !noDecode; // Crypto is kind of old and crusty. Historically, its default string
// encoding is 'binary' so we have to make this configurable.
// Everything else in the universe uses 'utf8', though.
this.defaultEncoding = options.defaultEncoding || 'utf8'; // not an actual buffer we keep track of, but a measurement
// of how much we're waiting to get pushed to some underlying
// socket or file.
this.length = 0; // a flag to see when we're in the middle of a write.
this.writing = false; // when true all writes will be buffered until .uncork() call
this.corked = 0; // a flag to be able to tell if the onwrite cb is called immediately,
// or on a later tick. We set this to true at first, because any
// actions that shouldn't happen until "later" should generally also
// not happen before the first write call.
this.sync = true; // a flag to know if we're processing previously buffered items, which
// may call the _write() callback in the same tick, so that we don't
// end up in an overlapped onwrite situation.
this.bufferProcessing = false; // the callback that's passed to _write(chunk,cb)
this.onwrite = function (er) {
onwrite(stream, er);
}; // the callback that the user supplies to write(chunk,encoding,cb)
this.writecb = null; // the amount that is being written when _write is called.
this.writelen = 0;
this.bufferedRequest = null;
this.lastBufferedRequest = null; // number of pending user-supplied write callbacks
// this must be 0 before 'finish' can be emitted
this.pendingcb = 0; // emit prefinish if the only thing we're waiting for is _write cbs
// This is relevant for synchronous Transform streams
this.prefinished = false; // True if the error was already emitted and should not be thrown again
this.errorEmitted = false; // Should close be emitted on destroy. Defaults to true.
this.emitClose = options.emitClose !== false; // Should .destroy() be called after 'finish' (and potentially 'end')
this.autoDestroy = !!options.autoDestroy; // count buffered requests
this.bufferedRequestCount = 0; // allocate the first CorkedRequest, there is always
// one allocated and free to use, and we maintain at most two
this.corkedRequestsFree = new CorkedRequest(this);
}
WritableState.prototype.getBuffer = function getBuffer() {
var current = this.bufferedRequest;
var out = [];
while (current) {
out.push(current);
current = current.next;
}
return out;
};
(function () {
try {
Object.defineProperty(WritableState.prototype, 'buffer', {
get: internalUtil.deprecate(function writableStateBufferGetter() {
return this.getBuffer();
}, '_writableState.buffer is deprecated. Use _writableState.getBuffer ' + 'instead.', 'DEP0003')
});
} catch (_) {}
})(); // Test _writableState for inheritance to account for Duplex streams,
// whose prototype chain only points to Readable.
var realHasInstance;
if (typeof Symbol === 'function' && Symbol.hasInstance && typeof Function.prototype[Symbol.hasInstance] === 'function') {
realHasInstance = Function.prototype[Symbol.hasInstance];
Object.defineProperty(Writable, Symbol.hasInstance, {
value: function value(object) {
if (realHasInstance.call(this, object)) return true;
if (this !== Writable) return false;
return object && object._writableState instanceof WritableState;
}
});
} else {
realHasInstance = function realHasInstance(object) {
return object instanceof this;
};
}
function Writable(options) {
Duplex = Duplex || __nccwpck_require__(5777); // Writable ctor is applied to Duplexes, too.
// `realHasInstance` is necessary because using plain `instanceof`
// would return false, as no `_writableState` property is attached.
// Trying to use the custom `instanceof` for Writable here will also break the
// Node.js LazyTransform implementation, which has a non-trivial getter for
// `_writableState` that would lead to infinite recursion.
// Checking for a Stream.Duplex instance is faster here instead of inside
// the WritableState constructor, at least with V8 6.5
var isDuplex = this instanceof Duplex;
if (!isDuplex && !realHasInstance.call(Writable, this)) return new Writable(options);
this._writableState = new WritableState(options, this, isDuplex); // legacy.
this.writable = true;
if (options) {
if (typeof options.write === 'function') this._write = options.write;
if (typeof options.writev === 'function') this._writev = options.writev;
if (typeof options.destroy === 'function') this._destroy = options.destroy;
if (typeof options.final === 'function') this._final = options.final;
}
Stream.call(this);
} // Otherwise people can pipe Writable streams, which is just wrong.
Writable.prototype.pipe = function () {
errorOrDestroy(this, new ERR_STREAM_CANNOT_PIPE());
};
function writeAfterEnd(stream, cb) {
var er = new ERR_STREAM_WRITE_AFTER_END(); // TODO: defer error events consistently everywhere, not just the cb
errorOrDestroy(stream, er);
process.nextTick(cb, er);
} // Checks that a user-supplied chunk is valid, especially for the particular
// mode the stream is in. Currently this means that `null` is never accepted
// and undefined/non-string values are only allowed in object mode.
function validChunk(stream, state, chunk, cb) {
var er;
if (chunk === null) {
er = new ERR_STREAM_NULL_VALUES();
} else if (typeof chunk !== 'string' && !state.objectMode) {
er = new ERR_INVALID_ARG_TYPE('chunk', ['string', 'Buffer'], chunk);
}
if (er) {
errorOrDestroy(stream, er);
process.nextTick(cb, er);
return false;
}
return true;
}
Writable.prototype.write = function (chunk, encoding, cb) {
var state = this._writableState;
var ret = false;
var isBuf = !state.objectMode && _isUint8Array(chunk);
if (isBuf && !Buffer.isBuffer(chunk)) {
chunk = _uint8ArrayToBuffer(chunk);
}
if (typeof encoding === 'function') {
cb = encoding;
encoding = null;
}
if (isBuf) encoding = 'buffer';else if (!encoding) encoding = state.defaultEncoding;
if (typeof cb !== 'function') cb = nop;
if (state.ending) writeAfterEnd(this, cb);else if (isBuf || validChunk(this, state, chunk, cb)) {
state.pendingcb++;
ret = writeOrBuffer(this, state, isBuf, chunk, encoding, cb);
}
return ret;
};
Writable.prototype.cork = function () {
this._writableState.corked++;
};
Writable.prototype.uncork = function () {
var state = this._writableState;
if (state.corked) {
state.corked--;
if (!state.writing && !state.corked && !state.bufferProcessing && state.bufferedRequest) clearBuffer(this, state);
}
};
Writable.prototype.setDefaultEncoding = function setDefaultEncoding(encoding) {
// node::ParseEncoding() requires lower case.
if (typeof encoding === 'string') encoding = encoding.toLowerCase();
if (!(['hex', 'utf8', 'utf-8', 'ascii', 'binary', 'base64', 'ucs2', 'ucs-2', 'utf16le', 'utf-16le', 'raw'].indexOf((encoding + '').toLowerCase()) > -1)) throw new ERR_UNKNOWN_ENCODING(encoding);
this._writableState.defaultEncoding = encoding;
return this;
};
Object.defineProperty(Writable.prototype, 'writableBuffer', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
return this._writableState && this._writableState.getBuffer();
}
});
function decodeChunk(state, chunk, encoding) {
if (!state.objectMode && state.decodeStrings !== false && typeof chunk === 'string') {
chunk = Buffer.from(chunk, encoding);
}
return chunk;
}
Object.defineProperty(Writable.prototype, 'writableHighWaterMark', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
return this._writableState.highWaterMark;
}
}); // if we're already writing something, then just put this
// in the queue, and wait our turn. Otherwise, call _write
// If we return false, then we need a drain event, so set that flag.
function writeOrBuffer(stream, state, isBuf, chunk, encoding, cb) {
if (!isBuf) {
var newChunk = decodeChunk(state, chunk, encoding);
if (chunk !== newChunk) {
isBuf = true;
encoding = 'buffer';
chunk = newChunk;
}
}
var len = state.objectMode ? 1 : chunk.length;
state.length += len;
var ret = state.length < state.highWaterMark; // we must ensure that previous needDrain will not be reset to false.
if (!ret) state.needDrain = true;
if (state.writing || state.corked) {
var last = state.lastBufferedRequest;
state.lastBufferedRequest = {
chunk: chunk,
encoding: encoding,
isBuf: isBuf,
callback: cb,
next: null
};
if (last) {
last.next = state.lastBufferedRequest;
} else {
state.bufferedRequest = state.lastBufferedRequest;
}
state.bufferedRequestCount += 1;
} else {
doWrite(stream, state, false, len, chunk, encoding, cb);
}
return ret;
}
function doWrite(stream, state, writev, len, chunk, encoding, cb) {
state.writelen = len;
state.writecb = cb;
state.writing = true;
state.sync = true;
if (state.destroyed) state.onwrite(new ERR_STREAM_DESTROYED('write'));else if (writev) stream._writev(chunk, state.onwrite);else stream._write(chunk, encoding, state.onwrite);
state.sync = false;
}
function onwriteError(stream, state, sync, er, cb) {
--state.pendingcb;
if (sync) {
// defer the callback if we are being called synchronously
// to avoid piling up things on the stack
process.nextTick(cb, er); // this can emit finish, and it will always happen
// after error
process.nextTick(finishMaybe, stream, state);
stream._writableState.errorEmitted = true;
errorOrDestroy(stream, er);
} else {
// the caller expect this to happen before if
// it is async
cb(er);
stream._writableState.errorEmitted = true;
errorOrDestroy(stream, er); // this can emit finish, but finish must
// always follow error
finishMaybe(stream, state);
}
}
function onwriteStateUpdate(state) {
state.writing = false;
state.writecb = null;
state.length -= state.writelen;
state.writelen = 0;
}
function onwrite(stream, er) {
var state = stream._writableState;
var sync = state.sync;
var cb = state.writecb;
if (typeof cb !== 'function') throw new ERR_MULTIPLE_CALLBACK();
onwriteStateUpdate(state);
if (er) onwriteError(stream, state, sync, er, cb);else {
// Check if we're actually ready to finish, but don't emit yet
var finished = needFinish(state) || stream.destroyed;
if (!finished && !state.corked && !state.bufferProcessing && state.bufferedRequest) {
clearBuffer(stream, state);
}
if (sync) {
process.nextTick(afterWrite, stream, state, finished, cb);
} else {
afterWrite(stream, state, finished, cb);
}
}
}
function afterWrite(stream, state, finished, cb) {
if (!finished) onwriteDrain(stream, state);
state.pendingcb--;
cb();
finishMaybe(stream, state);
} // Must force callback to be called on nextTick, so that we don't
// emit 'drain' before the write() consumer gets the 'false' return
// value, and has a chance to attach a 'drain' listener.
function onwriteDrain(stream, state) {
if (state.length === 0 && state.needDrain) {
state.needDrain = false;
stream.emit('drain');
}
} // if there's something in the buffer waiting, then process it
function clearBuffer(stream, state) {
state.bufferProcessing = true;
var entry = state.bufferedRequest;
if (stream._writev && entry && entry.next) {
// Fast case, write everything using _writev()
var l = state.bufferedRequestCount;
var buffer = new Array(l);
var holder = state.corkedRequestsFree;
holder.entry = entry;
var count = 0;
var allBuffers = true;
while (entry) {
buffer[count] = entry;
if (!entry.isBuf) allBuffers = false;
entry = entry.next;
count += 1;
}
buffer.allBuffers = allBuffers;
doWrite(stream, state, true, state.length, buffer, '', holder.finish); // doWrite is almost always async, defer these to save a bit of time
// as the hot path ends with doWrite
state.pendingcb++;
state.lastBufferedRequest = null;
if (holder.next) {
state.corkedRequestsFree = holder.next;
holder.next = null;
} else {
state.corkedRequestsFree = new CorkedRequest(state);
}
state.bufferedRequestCount = 0;
} else {
// Slow case, write chunks one-by-one
while (entry) {
var chunk = entry.chunk;
var encoding = entry.encoding;
var cb = entry.callback;
var len = state.objectMode ? 1 : chunk.length;
doWrite(stream, state, false, len, chunk, encoding, cb);
entry = entry.next;
state.bufferedRequestCount--; // if we didn't call the onwrite immediately, then
// it means that we need to wait until it does.
// also, that means that the chunk and cb are currently
// being processed, so move the buffer counter past them.
if (state.writing) {
break;
}
}
if (entry === null) state.lastBufferedRequest = null;
}
state.bufferedRequest = entry;
state.bufferProcessing = false;
}
Writable.prototype._write = function (chunk, encoding, cb) {
cb(new ERR_METHOD_NOT_IMPLEMENTED('_write()'));
};
Writable.prototype._writev = null;
Writable.prototype.end = function (chunk, encoding, cb) {
var state = this._writableState;
if (typeof chunk === 'function') {
cb = chunk;
chunk = null;
encoding = null;
} else if (typeof encoding === 'function') {
cb = encoding;
encoding = null;
}
if (chunk !== null && chunk !== undefined) this.write(chunk, encoding); // .end() fully uncorks
if (state.corked) {
state.corked = 1;
this.uncork();
} // ignore unnecessary end() calls.
if (!state.ending) endWritable(this, state, cb);
return this;
};
Object.defineProperty(Writable.prototype, 'writableLength', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
return this._writableState.length;
}
});
function needFinish(state) {
return state.ending && state.length === 0 && state.bufferedRequest === null && !state.finished && !state.writing;
}
function callFinal(stream, state) {
stream._final(function (err) {
state.pendingcb--;
if (err) {
errorOrDestroy(stream, err);
}
state.prefinished = true;
stream.emit('prefinish');
finishMaybe(stream, state);
});
}
function prefinish(stream, state) {
if (!state.prefinished && !state.finalCalled) {
if (typeof stream._final === 'function' && !state.destroyed) {
state.pendingcb++;
state.finalCalled = true;
process.nextTick(callFinal, stream, state);
} else {
state.prefinished = true;
stream.emit('prefinish');
}
}
}
function finishMaybe(stream, state) {
var need = needFinish(state);
if (need) {
prefinish(stream, state);
if (state.pendingcb === 0) {
state.finished = true;
stream.emit('finish');
if (state.autoDestroy) {
// In case of duplex streams we need a way to detect
// if the readable side is ready for autoDestroy as well
var rState = stream._readableState;
if (!rState || rState.autoDestroy && rState.endEmitted) {
stream.destroy();
}
}
}
}
return need;
}
function endWritable(stream, state, cb) {
state.ending = true;
finishMaybe(stream, state);
if (cb) {
if (state.finished) process.nextTick(cb);else stream.once('finish', cb);
}
state.ended = true;
stream.writable = false;
}
function onCorkedFinish(corkReq, state, err) {
var entry = corkReq.entry;
corkReq.entry = null;
while (entry) {
var cb = entry.callback;
state.pendingcb--;
cb(err);
entry = entry.next;
} // reuse the free corkReq.
state.corkedRequestsFree.next = corkReq;
}
Object.defineProperty(Writable.prototype, 'destroyed', {
// making it explicit this property is not enumerable
// because otherwise some prototype manipulation in
// userland will fail
enumerable: false,
get: function get() {
if (this._writableState === undefined) {
return false;
}
return this._writableState.destroyed;
},
set: function set(value) {
// we ignore the value if the stream
// has not been initialized yet
if (!this._writableState) {
return;
} // backward compatibility, the user is explicitly
// managing destroyed
this._writableState.destroyed = value;
}
});
Writable.prototype.destroy = destroyImpl.destroy;
Writable.prototype._undestroy = destroyImpl.undestroy;
Writable.prototype._destroy = function (err, cb) {
cb(err);
};
/***/ }),
/***/ 1445:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
var _Object$setPrototypeO;
function _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; }
var finished = __nccwpck_require__(7332);
var kLastResolve = Symbol('lastResolve');
var kLastReject = Symbol('lastReject');
var kError = Symbol('error');
var kEnded = Symbol('ended');
var kLastPromise = Symbol('lastPromise');
var kHandlePromise = Symbol('handlePromise');
var kStream = Symbol('stream');
function createIterResult(value, done) {
return {
value: value,
done: done
};
}
function readAndResolve(iter) {
var resolve = iter[kLastResolve];
if (resolve !== null) {
var data = iter[kStream].read(); // we defer if data is null
// we can be expecting either 'end' or
// 'error'
if (data !== null) {
iter[kLastPromise] = null;
iter[kLastResolve] = null;
iter[kLastReject] = null;
resolve(createIterResult(data, false));
}
}
}
function onReadable(iter) {
// we wait for the next tick, because it might
// emit an error with process.nextTick
process.nextTick(readAndResolve, iter);
}
function wrapForNext(lastPromise, iter) {
return function (resolve, reject) {
lastPromise.then(function () {
if (iter[kEnded]) {
resolve(createIterResult(undefined, true));
return;
}
iter[kHandlePromise](resolve, reject);
}, reject);
};
}
var AsyncIteratorPrototype = Object.getPrototypeOf(function () {});
var ReadableStreamAsyncIteratorPrototype = Object.setPrototypeOf((_Object$setPrototypeO = {
get stream() {
return this[kStream];
},
next: function next() {
var _this = this;
// if we have detected an error in the meanwhile
// reject straight away
var error = this[kError];
if (error !== null) {
return Promise.reject(error);
}
if (this[kEnded]) {
return Promise.resolve(createIterResult(undefined, true));
}
if (this[kStream].destroyed) {
// We need to defer via nextTick because if .destroy(err) is
// called, the error will be emitted via nextTick, and
// we cannot guarantee that there is no error lingering around
// waiting to be emitted.
return new Promise(function (resolve, reject) {
process.nextTick(function () {
if (_this[kError]) {
reject(_this[kError]);
} else {
resolve(createIterResult(undefined, true));
}
});
});
} // if we have multiple next() calls
// we will wait for the previous Promise to finish
// this logic is optimized to support for await loops,
// where next() is only called once at a time
var lastPromise = this[kLastPromise];
var promise;
if (lastPromise) {
promise = new Promise(wrapForNext(lastPromise, this));
} else {
// fast path needed to support multiple this.push()
// without triggering the next() queue
var data = this[kStream].read();
if (data !== null) {
return Promise.resolve(createIterResult(data, false));
}
promise = new Promise(this[kHandlePromise]);
}
this[kLastPromise] = promise;
return promise;
}
}, _defineProperty(_Object$setPrototypeO, Symbol.asyncIterator, function () {
return this;
}), _defineProperty(_Object$setPrototypeO, "return", function _return() {
var _this2 = this;
// destroy(err, cb) is a private API
// we can guarantee we have that here, because we control the
// Readable class this is attached to
return new Promise(function (resolve, reject) {
_this2[kStream].destroy(null, function (err) {
if (err) {
reject(err);
return;
}
resolve(createIterResult(undefined, true));
});
});
}), _Object$setPrototypeO), AsyncIteratorPrototype);
var createReadableStreamAsyncIterator = function createReadableStreamAsyncIterator(stream) {
var _Object$create;
var iterator = Object.create(ReadableStreamAsyncIteratorPrototype, (_Object$create = {}, _defineProperty(_Object$create, kStream, {
value: stream,
writable: true
}), _defineProperty(_Object$create, kLastResolve, {
value: null,
writable: true
}), _defineProperty(_Object$create, kLastReject, {
value: null,
writable: true
}), _defineProperty(_Object$create, kError, {
value: null,
writable: true
}), _defineProperty(_Object$create, kEnded, {
value: stream._readableState.endEmitted,
writable: true
}), _defineProperty(_Object$create, kHandlePromise, {
value: function value(resolve, reject) {
var data = iterator[kStream].read();
if (data) {
iterator[kLastPromise] = null;
iterator[kLastResolve] = null;
iterator[kLastReject] = null;
resolve(createIterResult(data, false));
} else {
iterator[kLastResolve] = resolve;
iterator[kLastReject] = reject;
}
},
writable: true
}), _Object$create));
iterator[kLastPromise] = null;
finished(stream, function (err) {
if (err && err.code !== 'ERR_STREAM_PREMATURE_CLOSE') {
var reject = iterator[kLastReject]; // reject if we are waiting for data in the Promise
// returned by next() and store the error
if (reject !== null) {
iterator[kLastPromise] = null;
iterator[kLastResolve] = null;
iterator[kLastReject] = null;
reject(err);
}
iterator[kError] = err;
return;
}
var resolve = iterator[kLastResolve];
if (resolve !== null) {
iterator[kLastPromise] = null;
iterator[kLastResolve] = null;
iterator[kLastReject] = null;
resolve(createIterResult(undefined, true));
}
iterator[kEnded] = true;
});
stream.on('readable', onReadable.bind(null, iterator));
return iterator;
};
module.exports = createReadableStreamAsyncIterator;
/***/ }),
/***/ 4016:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
function ownKeys(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); keys.push.apply(keys, symbols); } return keys; }
function _objectSpread(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
function _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; }
function _classCallCheck(instance, Constructor) { if (!(instance instanceof Constructor)) { throw new TypeError("Cannot call a class as a function"); } }
function _defineProperties(target, props) { for (var i = 0; i < props.length; i++) { var descriptor = props[i]; descriptor.enumerable = descriptor.enumerable || false; descriptor.configurable = true; if ("value" in descriptor) descriptor.writable = true; Object.defineProperty(target, descriptor.key, descriptor); } }
function _createClass(Constructor, protoProps, staticProps) { if (protoProps) _defineProperties(Constructor.prototype, protoProps); if (staticProps) _defineProperties(Constructor, staticProps); return Constructor; }
var _require = __nccwpck_require__(4293),
Buffer = _require.Buffer;
var _require2 = __nccwpck_require__(1669),
inspect = _require2.inspect;
var custom = inspect && inspect.custom || 'inspect';
function copyBuffer(src, target, offset) {
Buffer.prototype.copy.call(src, target, offset);
}
module.exports =
/*#__PURE__*/
function () {
function BufferList() {
_classCallCheck(this, BufferList);
this.head = null;
this.tail = null;
this.length = 0;
}
_createClass(BufferList, [{
key: "push",
value: function push(v) {
var entry = {
data: v,
next: null
};
if (this.length > 0) this.tail.next = entry;else this.head = entry;
this.tail = entry;
++this.length;
}
}, {
key: "unshift",
value: function unshift(v) {
var entry = {
data: v,
next: this.head
};
if (this.length === 0) this.tail = entry;
this.head = entry;
++this.length;
}
}, {
key: "shift",
value: function shift() {
if (this.length === 0) return;
var ret = this.head.data;
if (this.length === 1) this.head = this.tail = null;else this.head = this.head.next;
--this.length;
return ret;
}
}, {
key: "clear",
value: function clear() {
this.head = this.tail = null;
this.length = 0;
}
}, {
key: "join",
value: function join(s) {
if (this.length === 0) return '';
var p = this.head;
var ret = '' + p.data;
while (p = p.next) {
ret += s + p.data;
}
return ret;
}
}, {
key: "concat",
value: function concat(n) {
if (this.length === 0) return Buffer.alloc(0);
var ret = Buffer.allocUnsafe(n >>> 0);
var p = this.head;
var i = 0;
while (p) {
copyBuffer(p.data, ret, i);
i += p.data.length;
p = p.next;
}
return ret;
} // Consumes a specified amount of bytes or characters from the buffered data.
}, {
key: "consume",
value: function consume(n, hasStrings) {
var ret;
if (n < this.head.data.length) {
// `slice` is the same for buffers and strings.
ret = this.head.data.slice(0, n);
this.head.data = this.head.data.slice(n);
} else if (n === this.head.data.length) {
// First chunk is a perfect match.
ret = this.shift();
} else {
// Result spans more than one buffer.
ret = hasStrings ? this._getString(n) : this._getBuffer(n);
}
return ret;
}
}, {
key: "first",
value: function first() {
return this.head.data;
} // Consumes a specified amount of characters from the buffered data.
}, {
key: "_getString",
value: function _getString(n) {
var p = this.head;
var c = 1;
var ret = p.data;
n -= ret.length;
while (p = p.next) {
var str = p.data;
var nb = n > str.length ? str.length : n;
if (nb === str.length) ret += str;else ret += str.slice(0, n);
n -= nb;
if (n === 0) {
if (nb === str.length) {
++c;
if (p.next) this.head = p.next;else this.head = this.tail = null;
} else {
this.head = p;
p.data = str.slice(nb);
}
break;
}
++c;
}
this.length -= c;
return ret;
} // Consumes a specified amount of bytes from the buffered data.
}, {
key: "_getBuffer",
value: function _getBuffer(n) {
var ret = Buffer.allocUnsafe(n);
var p = this.head;
var c = 1;
p.data.copy(ret);
n -= p.data.length;
while (p = p.next) {
var buf = p.data;
var nb = n > buf.length ? buf.length : n;
buf.copy(ret, ret.length - n, 0, nb);
n -= nb;
if (n === 0) {
if (nb === buf.length) {
++c;
if (p.next) this.head = p.next;else this.head = this.tail = null;
} else {
this.head = p;
p.data = buf.slice(nb);
}
break;
}
++c;
}
this.length -= c;
return ret;
} // Make sure the linked list only shows the minimal necessary information.
}, {
key: custom,
value: function value(_, options) {
return inspect(this, _objectSpread({}, options, {
// Only inspect one level.
depth: 0,
// It should not recurse.
customInspect: false
}));
}
}]);
return BufferList;
}();
/***/ }),
/***/ 6473:
/***/ ((module) => {
"use strict";
// undocumented cb() API, needed for core, not for public API
function destroy(err, cb) {
var _this = this;
var readableDestroyed = this._readableState && this._readableState.destroyed;
var writableDestroyed = this._writableState && this._writableState.destroyed;
if (readableDestroyed || writableDestroyed) {
if (cb) {
cb(err);
} else if (err) {
if (!this._writableState) {
process.nextTick(emitErrorNT, this, err);
} else if (!this._writableState.errorEmitted) {
this._writableState.errorEmitted = true;
process.nextTick(emitErrorNT, this, err);
}
}
return this;
} // we set destroyed to true before firing error callbacks in order
// to make it re-entrance safe in case destroy() is called within callbacks
if (this._readableState) {
this._readableState.destroyed = true;
} // if this is a duplex stream mark the writable part as destroyed as well
if (this._writableState) {
this._writableState.destroyed = true;
}
this._destroy(err || null, function (err) {
if (!cb && err) {
if (!_this._writableState) {
process.nextTick(emitErrorAndCloseNT, _this, err);
} else if (!_this._writableState.errorEmitted) {
_this._writableState.errorEmitted = true;
process.nextTick(emitErrorAndCloseNT, _this, err);
} else {
process.nextTick(emitCloseNT, _this);
}
} else if (cb) {
process.nextTick(emitCloseNT, _this);
cb(err);
} else {
process.nextTick(emitCloseNT, _this);
}
});
return this;
}
function emitErrorAndCloseNT(self, err) {
emitErrorNT(self, err);
emitCloseNT(self);
}
function emitCloseNT(self) {
if (self._writableState && !self._writableState.emitClose) return;
if (self._readableState && !self._readableState.emitClose) return;
self.emit('close');
}
function undestroy() {
if (this._readableState) {
this._readableState.destroyed = false;
this._readableState.reading = false;
this._readableState.ended = false;
this._readableState.endEmitted = false;
}
if (this._writableState) {
this._writableState.destroyed = false;
this._writableState.ended = false;
this._writableState.ending = false;
this._writableState.finalCalled = false;
this._writableState.prefinished = false;
this._writableState.finished = false;
this._writableState.errorEmitted = false;
}
}
function emitErrorNT(self, err) {
self.emit('error', err);
}
function errorOrDestroy(stream, err) {
// We have tests that rely on errors being emitted
// in the same tick, so changing this is semver major.
// For now when you opt-in to autoDestroy we allow
// the error to be emitted nextTick. In a future
// semver major update we should change the default to this.
var rState = stream._readableState;
var wState = stream._writableState;
if (rState && rState.autoDestroy || wState && wState.autoDestroy) stream.destroy(err);else stream.emit('error', err);
}
module.exports = {
destroy: destroy,
undestroy: undestroy,
errorOrDestroy: errorOrDestroy
};
/***/ }),
/***/ 7332:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Ported from https://github.com/mafintosh/end-of-stream with
// permission from the author, Mathias Buus (@mafintosh).
var ERR_STREAM_PREMATURE_CLOSE = __nccwpck_require__(9745)/* .codes.ERR_STREAM_PREMATURE_CLOSE */ .q.ERR_STREAM_PREMATURE_CLOSE;
function once(callback) {
var called = false;
return function () {
if (called) return;
called = true;
for (var _len = arguments.length, args = new Array(_len), _key = 0; _key < _len; _key++) {
args[_key] = arguments[_key];
}
callback.apply(this, args);
};
}
function noop() {}
function isRequest(stream) {
return stream.setHeader && typeof stream.abort === 'function';
}
function eos(stream, opts, callback) {
if (typeof opts === 'function') return eos(stream, null, opts);
if (!opts) opts = {};
callback = once(callback || noop);
var readable = opts.readable || opts.readable !== false && stream.readable;
var writable = opts.writable || opts.writable !== false && stream.writable;
var onlegacyfinish = function onlegacyfinish() {
if (!stream.writable) onfinish();
};
var writableEnded = stream._writableState && stream._writableState.finished;
var onfinish = function onfinish() {
writable = false;
writableEnded = true;
if (!readable) callback.call(stream);
};
var readableEnded = stream._readableState && stream._readableState.endEmitted;
var onend = function onend() {
readable = false;
readableEnded = true;
if (!writable) callback.call(stream);
};
var onerror = function onerror(err) {
callback.call(stream, err);
};
var onclose = function onclose() {
var err;
if (readable && !readableEnded) {
if (!stream._readableState || !stream._readableState.ended) err = new ERR_STREAM_PREMATURE_CLOSE();
return callback.call(stream, err);
}
if (writable && !writableEnded) {
if (!stream._writableState || !stream._writableState.ended) err = new ERR_STREAM_PREMATURE_CLOSE();
return callback.call(stream, err);
}
};
var onrequest = function onrequest() {
stream.req.on('finish', onfinish);
};
if (isRequest(stream)) {
stream.on('complete', onfinish);
stream.on('abort', onclose);
if (stream.req) onrequest();else stream.on('request', onrequest);
} else if (writable && !stream._writableState) {
// legacy streams
stream.on('end', onlegacyfinish);
stream.on('close', onlegacyfinish);
}
stream.on('end', onend);
stream.on('finish', onfinish);
if (opts.error !== false) stream.on('error', onerror);
stream.on('close', onclose);
return function () {
stream.removeListener('complete', onfinish);
stream.removeListener('abort', onclose);
stream.removeListener('request', onrequest);
if (stream.req) stream.req.removeListener('finish', onfinish);
stream.removeListener('end', onlegacyfinish);
stream.removeListener('close', onlegacyfinish);
stream.removeListener('finish', onfinish);
stream.removeListener('end', onend);
stream.removeListener('error', onerror);
stream.removeListener('close', onclose);
};
}
module.exports = eos;
/***/ }),
/***/ 1764:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
function asyncGeneratorStep(gen, resolve, reject, _next, _throw, key, arg) { try { var info = gen[key](arg); var value = info.value; } catch (error) { reject(error); return; } if (info.done) { resolve(value); } else { Promise.resolve(value).then(_next, _throw); } }
function _asyncToGenerator(fn) { return function () { var self = this, args = arguments; return new Promise(function (resolve, reject) { var gen = fn.apply(self, args); function _next(value) { asyncGeneratorStep(gen, resolve, reject, _next, _throw, "next", value); } function _throw(err) { asyncGeneratorStep(gen, resolve, reject, _next, _throw, "throw", err); } _next(undefined); }); }; }
function ownKeys(object, enumerableOnly) { var keys = Object.keys(object); if (Object.getOwnPropertySymbols) { var symbols = Object.getOwnPropertySymbols(object); if (enumerableOnly) symbols = symbols.filter(function (sym) { return Object.getOwnPropertyDescriptor(object, sym).enumerable; }); keys.push.apply(keys, symbols); } return keys; }
function _objectSpread(target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i] != null ? arguments[i] : {}; if (i % 2) { ownKeys(Object(source), true).forEach(function (key) { _defineProperty(target, key, source[key]); }); } else if (Object.getOwnPropertyDescriptors) { Object.defineProperties(target, Object.getOwnPropertyDescriptors(source)); } else { ownKeys(Object(source)).forEach(function (key) { Object.defineProperty(target, key, Object.getOwnPropertyDescriptor(source, key)); }); } } return target; }
function _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; }
var ERR_INVALID_ARG_TYPE = __nccwpck_require__(9745)/* .codes.ERR_INVALID_ARG_TYPE */ .q.ERR_INVALID_ARG_TYPE;
function from(Readable, iterable, opts) {
var iterator;
if (iterable && typeof iterable.next === 'function') {
iterator = iterable;
} else if (iterable && iterable[Symbol.asyncIterator]) iterator = iterable[Symbol.asyncIterator]();else if (iterable && iterable[Symbol.iterator]) iterator = iterable[Symbol.iterator]();else throw new ERR_INVALID_ARG_TYPE('iterable', ['Iterable'], iterable);
var readable = new Readable(_objectSpread({
objectMode: true
}, opts)); // Reading boolean to protect against _read
// being called before last iteration completion.
var reading = false;
readable._read = function () {
if (!reading) {
reading = true;
next();
}
};
function next() {
return _next2.apply(this, arguments);
}
function _next2() {
_next2 = _asyncToGenerator(function* () {
try {
var _ref = yield iterator.next(),
value = _ref.value,
done = _ref.done;
if (done) {
readable.push(null);
} else if (readable.push((yield value))) {
next();
} else {
reading = false;
}
} catch (err) {
readable.destroy(err);
}
});
return _next2.apply(this, arguments);
}
return readable;
}
module.exports = from;
/***/ }),
/***/ 999:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
// Ported from https://github.com/mafintosh/pump with
// permission from the author, Mathias Buus (@mafintosh).
var eos;
function once(callback) {
var called = false;
return function () {
if (called) return;
called = true;
callback.apply(void 0, arguments);
};
}
var _require$codes = __nccwpck_require__(9745)/* .codes */ .q,
ERR_MISSING_ARGS = _require$codes.ERR_MISSING_ARGS,
ERR_STREAM_DESTROYED = _require$codes.ERR_STREAM_DESTROYED;
function noop(err) {
// Rethrow the error if it exists to avoid swallowing it
if (err) throw err;
}
function isRequest(stream) {
return stream.setHeader && typeof stream.abort === 'function';
}
function destroyer(stream, reading, writing, callback) {
callback = once(callback);
var closed = false;
stream.on('close', function () {
closed = true;
});
if (eos === undefined) eos = __nccwpck_require__(7332);
eos(stream, {
readable: reading,
writable: writing
}, function (err) {
if (err) return callback(err);
closed = true;
callback();
});
var destroyed = false;
return function (err) {
if (closed) return;
if (destroyed) return;
destroyed = true; // request.destroy just do .end - .abort is what we want
if (isRequest(stream)) return stream.abort();
if (typeof stream.destroy === 'function') return stream.destroy();
callback(err || new ERR_STREAM_DESTROYED('pipe'));
};
}
function call(fn) {
fn();
}
function pipe(from, to) {
return from.pipe(to);
}
function popCallback(streams) {
if (!streams.length) return noop;
if (typeof streams[streams.length - 1] !== 'function') return noop;
return streams.pop();
}
function pipeline() {
for (var _len = arguments.length, streams = new Array(_len), _key = 0; _key < _len; _key++) {
streams[_key] = arguments[_key];
}
var callback = popCallback(streams);
if (Array.isArray(streams[0])) streams = streams[0];
if (streams.length < 2) {
throw new ERR_MISSING_ARGS('streams');
}
var error;
var destroys = streams.map(function (stream, i) {
var reading = i < streams.length - 1;
var writing = i > 0;
return destroyer(stream, reading, writing, function (err) {
if (!error) error = err;
if (err) destroys.forEach(call);
if (reading) return;
destroys.forEach(call);
callback(error);
});
});
return streams.reduce(pipe);
}
module.exports = pipeline;
/***/ }),
/***/ 5591:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
"use strict";
var ERR_INVALID_OPT_VALUE = __nccwpck_require__(9745)/* .codes.ERR_INVALID_OPT_VALUE */ .q.ERR_INVALID_OPT_VALUE;
function highWaterMarkFrom(options, isDuplex, duplexKey) {
return options.highWaterMark != null ? options.highWaterMark : isDuplex ? options[duplexKey] : null;
}
function getHighWaterMark(state, options, duplexKey, isDuplex) {
var hwm = highWaterMarkFrom(options, isDuplex, duplexKey);
if (hwm != null) {
if (!(isFinite(hwm) && Math.floor(hwm) === hwm) || hwm < 0) {
var name = isDuplex ? duplexKey : 'highWaterMark';
throw new ERR_INVALID_OPT_VALUE(name, hwm);
}
return Math.floor(hwm);
} // Default value
return state.objectMode ? 16 : 16 * 1024;
}
module.exports = {
getHighWaterMark: getHighWaterMark
};
/***/ }),
/***/ 515:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
module.exports = __nccwpck_require__(2413);
/***/ }),
/***/ 7544:
/***/ ((module, exports, __nccwpck_require__) => {
var Stream = __nccwpck_require__(2413);
if (process.env.READABLE_STREAM === 'disable' && Stream) {
module.exports = Stream.Readable;
Object.assign(module.exports, Stream);
module.exports.Stream = Stream;
} else {
exports = module.exports = __nccwpck_require__(8774);
exports.Stream = Stream || exports;
exports.Readable = exports;
exports.Writable = __nccwpck_require__(7190);
exports.Duplex = __nccwpck_require__(5777);
exports.Transform = __nccwpck_require__(6354);
exports.PassThrough = __nccwpck_require__(6646);
exports.finished = __nccwpck_require__(7332);
exports.pipeline = __nccwpck_require__(999);
}
/***/ }),
/***/ 4812:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
module.exports = readdirGlob;
const fs = __nccwpck_require__(5747);
const { EventEmitter } = __nccwpck_require__(8614);
const { Minimatch } = __nccwpck_require__(8083);
const { resolve } = __nccwpck_require__(5622);
function readdir(dir, strict) {
return new Promise((resolve, reject) => {
fs.readdir(dir, {withFileTypes: true} ,(err, files) => {
if(err) {
switch (err.code) {
case 'ENOTDIR': // Not a directory
if(strict) {
reject(err);
} else {
resolve([]);
}
break;
case 'ENOTSUP': // Operation not supported
case 'ENOENT': // No such file or directory
case 'ENAMETOOLONG': // Filename too long
case 'UNKNOWN':
resolve([]);
break;
case 'ELOOP': // Too many levels of symbolic links
default:
reject(err);
break;
}
} else {
resolve(files);
}
});
});
}
function stat(file, followSyslinks) {
return new Promise((resolve, reject) => {
const statFunc = followSyslinks ? fs.stat : fs.lstat;
statFunc(file, (err, stats) => {
if(err) {
switch (err.code) {
case 'ENOENT':
if(followSyslinks) {
// Fallback to lstat to handle broken links as files
resolve(stat(file, false));
} else {
resolve(null);
}
break;
default:
resolve(null);
break;
}
} else {
resolve(stats);
}
});
});
}
async function* exploreWalkAsync(dir, path, followSyslinks, useStat, shouldSkip, strict) {
let files = await readdir(path + dir, strict);
for(const file of files) {
let name = file.name;
if(name === undefined) {
// undefined file.name means the `withFileTypes` options is not supported by node
// we have to call the stat function to know if file is directory or not.
name = file;
useStat = true;
}
const filename = dir + '/' + name;
const relative = filename.slice(1); // Remove the leading /
const absolute = path + '/' + relative;
let stats = null;
if(useStat || followSyslinks) {
stats = await stat(absolute, followSyslinks);
}
if(!stats && file.name !== undefined) {
stats = file;
}
if(stats === null) {
stats = { isDirectory: () => false };
}
if(stats.isDirectory()) {
if(!shouldSkip(relative)) {
yield {relative, absolute, stats};
yield* exploreWalkAsync(filename, path, followSyslinks, useStat, shouldSkip, false);
}
} else {
yield {relative, absolute, stats};
}
}
}
async function* explore(path, followSyslinks, useStat, shouldSkip) {
yield* exploreWalkAsync('', path, followSyslinks, useStat, shouldSkip, true);
}
function readOptions(options) {
return {
pattern: options.pattern,
dot: !!options.dot,
noglobstar: !!options.noglobstar,
matchBase: !!options.matchBase,
nocase: !!options.nocase,
ignore: options.ignore,
skip: options.skip,
follow: !!options.follow,
stat: !!options.stat,
nodir: !!options.nodir,
mark: !!options.mark,
silent: !!options.silent,
absolute: !!options.absolute
};
}
class ReaddirGlob extends EventEmitter {
constructor(cwd, options, cb) {
super();
if(typeof options === 'function') {
cb = options;
options = null;
}
this.options = readOptions(options || {});
this.matchers = [];
if(this.options.pattern) {
const matchers = Array.isArray(this.options.pattern) ? this.options.pattern : [this.options.pattern];
this.matchers = matchers.map( m =>
new Minimatch(m, {
dot: this.options.dot,
noglobstar:this.options.noglobstar,
matchBase:this.options.matchBase,
nocase:this.options.nocase
})
);
}
this.ignoreMatchers = [];
if(this.options.ignore) {
const ignorePatterns = Array.isArray(this.options.ignore) ? this.options.ignore : [this.options.ignore];
this.ignoreMatchers = ignorePatterns.map( ignore =>
new Minimatch(ignore, {dot: true})
);
}
this.skipMatchers = [];
if(this.options.skip) {
const skipPatterns = Array.isArray(this.options.skip) ? this.options.skip : [this.options.skip];
this.skipMatchers = skipPatterns.map( skip =>
new Minimatch(skip, {dot: true})
);
}
this.iterator = explore(resolve(cwd || '.'), this.options.follow, this.options.stat, this._shouldSkipDirectory.bind(this));
this.paused = false;
this.inactive = false;
this.aborted = false;
if(cb) {
this._matches = [];
this.on('match', match => this._matches.push(this.options.absolute ? match.absolute : match.relative));
this.on('error', err => cb(err));
this.on('end', () => cb(null, this._matches));
}
setTimeout( () => this._next(), 0);
}
_shouldSkipDirectory(relative) {
//console.log(relative, this.skipMatchers.some(m => m.match(relative)));
return this.skipMatchers.some(m => m.match(relative));
}
_fileMatches(relative, isDirectory) {
const file = relative + (isDirectory ? '/' : '');
return (this.matchers.length === 0 || this.matchers.some(m => m.match(file)))
&& !this.ignoreMatchers.some(m => m.match(file))
&& (!this.options.nodir || !isDirectory);
}
_next() {
if(!this.paused && !this.aborted) {
this.iterator.next()
.then((obj)=> {
if(!obj.done) {
const isDirectory = obj.value.stats.isDirectory();
if(this._fileMatches(obj.value.relative, isDirectory )) {
let relative = obj.value.relative;
let absolute = obj.value.absolute;
if(this.options.mark && isDirectory) {
relative += '/';
absolute += '/';
}
if(this.options.stat) {
this.emit('match', {relative, absolute, stat:obj.value.stats});
} else {
this.emit('match', {relative, absolute});
}
}
this._next(this.iterator);
} else {
this.emit('end');
}
})
.catch((err) => {
this.abort();
this.emit('error', err);
if(!err.code && !this.options.silent) {
console.error(err);
}
});
} else {
this.inactive = true;
}
}
abort() {
this.aborted = true;
}
pause() {
this.paused = true;
}
resume() {
this.paused = false;
if(this.inactive) {
this.inactive = false;
this._next();
}
}
}
function readdirGlob(pattern, options, cb) {
return new ReaddirGlob(pattern, options, cb);
}
readdirGlob.ReaddirGlob = ReaddirGlob;
/***/ }),
/***/ 7677:
/***/ ((module, exports, __nccwpck_require__) => {
/* eslint-disable node/no-deprecated-api */
var buffer = __nccwpck_require__(4293)
var Buffer = buffer.Buffer
// alternative to using Object.keys for old browsers
function copyProps (src, dst) {
for (var key in src) {
dst[key] = src[key]
}
}
if (Buffer.from && Buffer.alloc && Buffer.allocUnsafe && Buffer.allocUnsafeSlow) {
module.exports = buffer
} else {
// Copy properties from require('buffer')
copyProps(buffer, exports)
exports.Buffer = SafeBuffer
}
function SafeBuffer (arg, encodingOrOffset, length) {
return Buffer(arg, encodingOrOffset, length)
}
// Copy static methods from Buffer
copyProps(Buffer, SafeBuffer)
SafeBuffer.from = function (arg, encodingOrOffset, length) {
if (typeof arg === 'number') {
throw new TypeError('Argument must not be a number')
}
return Buffer(arg, encodingOrOffset, length)
}
SafeBuffer.alloc = function (size, fill, encoding) {
if (typeof size !== 'number') {
throw new TypeError('Argument must be a number')
}
var buf = Buffer(size)
if (fill !== undefined) {
if (typeof encoding === 'string') {
buf.fill(fill, encoding)
} else {
buf.fill(fill)
}
} else {
buf.fill(0)
}
return buf
}
SafeBuffer.allocUnsafe = function (size) {
if (typeof size !== 'number') {
throw new TypeError('Argument must be a number')
}
return Buffer(size)
}
SafeBuffer.allocUnsafeSlow = function (size) {
if (typeof size !== 'number') {
throw new TypeError('Argument must be a number')
}
return buffer.SlowBuffer(size)
}
/***/ }),
/***/ 6298:
/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => {
"use strict";
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
/**/
var Buffer = __nccwpck_require__(7677).Buffer;
/**/
var isEncoding = Buffer.isEncoding || function (encoding) {
encoding = '' + encoding;
switch (encoding && encoding.toLowerCase()) {
case 'hex':case 'utf8':case 'utf-8':case 'ascii':case 'binary':case 'base64':case 'ucs2':case 'ucs-2':case 'utf16le':case 'utf-16le':case 'raw':
return true;
default:
return false;
}
};
function _normalizeEncoding(enc) {
if (!enc) return 'utf8';
var retried;
while (true) {
switch (enc) {
case 'utf8':
case 'utf-8':
return 'utf8';
case 'ucs2':
case 'ucs-2':
case 'utf16le':
case 'utf-16le':
return 'utf16le';
case 'latin1':
case 'binary':
return 'latin1';
case 'base64':
case 'ascii':
case 'hex':
return enc;
default:
if (retried) return; // undefined
enc = ('' + enc).toLowerCase();
retried = true;
}
}
};
// Do not cache `Buffer.isEncoding` when checking encoding names as some
// modules monkey-patch it to support additional encodings
function normalizeEncoding(enc) {
var nenc = _normalizeEncoding(enc);
if (typeof nenc !== 'string' && (Buffer.isEncoding === isEncoding || !isEncoding(enc))) throw new Error('Unknown encoding: ' + enc);
return nenc || enc;
}
// StringDecoder provides an interface for efficiently splitting a series of
// buffers into a series of JS strings without breaking apart multi-byte
// characters.
exports.s = StringDecoder;
function StringDecoder(encoding) {
this.encoding = normalizeEncoding(encoding);
var nb;
switch (this.encoding) {
case 'utf16le':
this.text = utf16Text;
this.end = utf16End;
nb = 4;
break;
case 'utf8':
this.fillLast = utf8FillLast;
nb = 4;
break;
case 'base64':
this.text = base64Text;
this.end = base64End;
nb = 3;
break;
default:
this.write = simpleWrite;
this.end = simpleEnd;
return;
}
this.lastNeed = 0;
this.lastTotal = 0;
this.lastChar = Buffer.allocUnsafe(nb);
}
StringDecoder.prototype.write = function (buf) {
if (buf.length === 0) return '';
var r;
var i;
if (this.lastNeed) {
r = this.fillLast(buf);
if (r === undefined) return '';
i = this.lastNeed;
this.lastNeed = 0;
} else {
i = 0;
}
if (i < buf.length) return r ? r + this.text(buf, i) : this.text(buf, i);
return r || '';
};
StringDecoder.prototype.end = utf8End;
// Returns only complete characters in a Buffer
StringDecoder.prototype.text = utf8Text;
// Attempts to complete a partial non-UTF-8 character using bytes from a Buffer
StringDecoder.prototype.fillLast = function (buf) {
if (this.lastNeed <= buf.length) {
buf.copy(this.lastChar, this.lastTotal - this.lastNeed, 0, this.lastNeed);
return this.lastChar.toString(this.encoding, 0, this.lastTotal);
}
buf.copy(this.lastChar, this.lastTotal - this.lastNeed, 0, buf.length);
this.lastNeed -= buf.length;
};
// Checks the type of a UTF-8 byte, whether it's ASCII, a leading byte, or a
// continuation byte. If an invalid byte is detected, -2 is returned.
function utf8CheckByte(byte) {
if (byte <= 0x7F) return 0;else if (byte >> 5 === 0x06) return 2;else if (byte >> 4 === 0x0E) return 3;else if (byte >> 3 === 0x1E) return 4;
return byte >> 6 === 0x02 ? -1 : -2;
}
// Checks at most 3 bytes at the end of a Buffer in order to detect an
// incomplete multi-byte UTF-8 character. The total number of bytes (2, 3, or 4)
// needed to complete the UTF-8 character (if applicable) are returned.
function utf8CheckIncomplete(self, buf, i) {
var j = buf.length - 1;
if (j < i) return 0;
var nb = utf8CheckByte(buf[j]);
if (nb >= 0) {
if (nb > 0) self.lastNeed = nb - 1;
return nb;
}
if (--j < i || nb === -2) return 0;
nb = utf8CheckByte(buf[j]);
if (nb >= 0) {
if (nb > 0) self.lastNeed = nb - 2;
return nb;
}
if (--j < i || nb === -2) return 0;
nb = utf8CheckByte(buf[j]);
if (nb >= 0) {
if (nb > 0) {
if (nb === 2) nb = 0;else self.lastNeed = nb - 3;
}
return nb;
}
return 0;
}
// Validates as many continuation bytes for a multi-byte UTF-8 character as
// needed or are available. If we see a non-continuation byte where we expect
// one, we "replace" the validated continuation bytes we've seen so far with
// a single UTF-8 replacement character ('\ufffd'), to match v8's UTF-8 decoding
// behavior. The continuation byte check is included three times in the case
// where all of the continuation bytes for a character exist in the same buffer.
// It is also done this way as a slight performance increase instead of using a
// loop.
function utf8CheckExtraBytes(self, buf, p) {
if ((buf[0] & 0xC0) !== 0x80) {
self.lastNeed = 0;
return '\ufffd';
}
if (self.lastNeed > 1 && buf.length > 1) {
if ((buf[1] & 0xC0) !== 0x80) {
self.lastNeed = 1;
return '\ufffd';
}
if (self.lastNeed > 2 && buf.length > 2) {
if ((buf[2] & 0xC0) !== 0x80) {
self.lastNeed = 2;
return '\ufffd';
}
}
}
}
// Attempts to complete a multi-byte UTF-8 character using bytes from a Buffer.
function utf8FillLast(buf) {
var p = this.lastTotal - this.lastNeed;
var r = utf8CheckExtraBytes(this, buf, p);
if (r !== undefined) return r;
if (this.lastNeed <= buf.length) {
buf.copy(this.lastChar, p, 0, this.lastNeed);
return this.lastChar.toString(this.encoding, 0, this.lastTotal);
}
buf.copy(this.lastChar, p, 0, buf.length);
this.lastNeed -= buf.length;
}
// Returns all complete UTF-8 characters in a Buffer. If the Buffer ended on a
// partial character, the character's bytes are buffered until the required
// number of bytes are available.
function utf8Text(buf, i) {
var total = utf8CheckIncomplete(this, buf, i);
if (!this.lastNeed) return buf.toString('utf8', i);
this.lastTotal = total;
var end = buf.length - (total - this.lastNeed);
buf.copy(this.lastChar, 0, end);
return buf.toString('utf8', i, end);
}
// For UTF-8, a replacement character is added when ending on a partial
// character.
function utf8End(buf) {
var r = buf && buf.length ? this.write(buf) : '';
if (this.lastNeed) return r + '\ufffd';
return r;
}
// UTF-16LE typically needs two bytes per character, but even if we have an even
// number of bytes available, we need to check if we end on a leading/high
// surrogate. In that case, we need to wait for the next two bytes in order to
// decode the last character properly.
function utf16Text(buf, i) {
if ((buf.length - i) % 2 === 0) {
var r = buf.toString('utf16le', i);
if (r) {
var c = r.charCodeAt(r.length - 1);
if (c >= 0xD800 && c <= 0xDBFF) {
this.lastNeed = 2;
this.lastTotal = 4;
this.lastChar[0] = buf[buf.length - 2];
this.lastChar[1] = buf[buf.length - 1];
return r.slice(0, -1);
}
}
return r;
}
this.lastNeed = 1;
this.lastTotal = 2;
this.lastChar[0] = buf[buf.length - 1];
return buf.toString('utf16le', i, buf.length - 1);
}
// For UTF-16LE we do not explicitly append special replacement characters if we
// end on a partial character, we simply let v8 handle that.
function utf16End(buf) {
var r = buf && buf.length ? this.write(buf) : '';
if (this.lastNeed) {
var end = this.lastTotal - this.lastNeed;
return r + this.lastChar.toString('utf16le', 0, end);
}
return r;
}
function base64Text(buf, i) {
var n = (buf.length - i) % 3;
if (n === 0) return buf.toString('base64', i);
this.lastNeed = 3 - n;
this.lastTotal = 3;
if (n === 1) {
this.lastChar[0] = buf[buf.length - 1];
} else {
this.lastChar[0] = buf[buf.length - 2];
this.lastChar[1] = buf[buf.length - 1];
}
return buf.toString('base64', i, buf.length - n);
}
function base64End(buf) {
var r = buf && buf.length ? this.write(buf) : '';
if (this.lastNeed) return r + this.lastChar.toString('base64', 0, 3 - this.lastNeed);
return r;
}
// Pass bytes on through for single-byte encodings (e.g. ascii, latin1, hex)
function simpleWrite(buf) {
return buf.toString(this.encoding);
}
function simpleEnd(buf) {
return buf && buf.length ? this.write(buf) : '';
}
/***/ }),
/***/ 1580:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
var util = __nccwpck_require__(1669)
var bl = __nccwpck_require__(5805)
var headers = __nccwpck_require__(3394)
var Writable = __nccwpck_require__(7544).Writable
var PassThrough = __nccwpck_require__(7544).PassThrough
var noop = function () {}
var overflow = function (size) {
size &= 511
return size && 512 - size
}
var emptyStream = function (self, offset) {
var s = new Source(self, offset)
s.end()
return s
}
var mixinPax = function (header, pax) {
if (pax.path) header.name = pax.path
if (pax.linkpath) header.linkname = pax.linkpath
if (pax.size) header.size = parseInt(pax.size, 10)
header.pax = pax
return header
}
var Source = function (self, offset) {
this._parent = self
this.offset = offset
PassThrough.call(this, { autoDestroy: false })
}
util.inherits(Source, PassThrough)
Source.prototype.destroy = function (err) {
this._parent.destroy(err)
}
var Extract = function (opts) {
if (!(this instanceof Extract)) return new Extract(opts)
Writable.call(this, opts)
opts = opts || {}
this._offset = 0
this._buffer = bl()
this._missing = 0
this._partial = false
this._onparse = noop
this._header = null
this._stream = null
this._overflow = null
this._cb = null
this._locked = false
this._destroyed = false
this._pax = null
this._paxGlobal = null
this._gnuLongPath = null
this._gnuLongLinkPath = null
var self = this
var b = self._buffer
var oncontinue = function () {
self._continue()
}
var onunlock = function (err) {
self._locked = false
if (err) return self.destroy(err)
if (!self._stream) oncontinue()
}
var onstreamend = function () {
self._stream = null
var drain = overflow(self._header.size)
if (drain) self._parse(drain, ondrain)
else self._parse(512, onheader)
if (!self._locked) oncontinue()
}
var ondrain = function () {
self._buffer.consume(overflow(self._header.size))
self._parse(512, onheader)
oncontinue()
}
var onpaxglobalheader = function () {
var size = self._header.size
self._paxGlobal = headers.decodePax(b.slice(0, size))
b.consume(size)
onstreamend()
}
var onpaxheader = function () {
var size = self._header.size
self._pax = headers.decodePax(b.slice(0, size))
if (self._paxGlobal) self._pax = Object.assign({}, self._paxGlobal, self._pax)
b.consume(size)
onstreamend()
}
var ongnulongpath = function () {
var size = self._header.size
this._gnuLongPath = headers.decodeLongPath(b.slice(0, size), opts.filenameEncoding)
b.consume(size)
onstreamend()
}
var ongnulonglinkpath = function () {
var size = self._header.size
this._gnuLongLinkPath = headers.decodeLongPath(b.slice(0, size), opts.filenameEncoding)
b.consume(size)
onstreamend()
}
var onheader = function () {
var offset = self._offset
var header
try {
header = self._header = headers.decode(b.slice(0, 512), opts.filenameEncoding, opts.allowUnknownFormat)
} catch (err) {
self.emit('error', err)
}
b.consume(512)
if (!header) {
self._parse(512, onheader)
oncontinue()
return
}
if (header.type === 'gnu-long-path') {
self._parse(header.size, ongnulongpath)
oncontinue()
return
}
if (header.type === 'gnu-long-link-path') {
self._parse(header.size, ongnulonglinkpath)
oncontinue()
return
}
if (header.type === 'pax-global-header') {
self._parse(header.size, onpaxglobalheader)
oncontinue()
return
}
if (header.type === 'pax-header') {
self._parse(header.size, onpaxheader)
oncontinue()
return
}
if (self._gnuLongPath) {
header.name = self._gnuLongPath
self._gnuLongPath = null
}
if (self._gnuLongLinkPath) {
header.linkname = self._gnuLongLinkPath
self._gnuLongLinkPath = null
}
if (self._pax) {
self._header = header = mixinPax(header, self._pax)
self._pax = null
}
self._locked = true
if (!header.size || header.type === 'directory') {
self._parse(512, onheader)
self.emit('entry', header, emptyStream(self, offset), onunlock)
return
}
self._stream = new Source(self, offset)
self.emit('entry', header, self._stream, onunlock)
self._parse(header.size, onstreamend)
oncontinue()
}
this._onheader = onheader
this._parse(512, onheader)
}
util.inherits(Extract, Writable)
Extract.prototype.destroy = function (err) {
if (this._destroyed) return
this._destroyed = true
if (err) this.emit('error', err)
this.emit('close')
if (this._stream) this._stream.emit('close')
}
Extract.prototype._parse = function (size, onparse) {
if (this._destroyed) return
this._offset += size
this._missing = size
if (onparse === this._onheader) this._partial = false
this._onparse = onparse
}
Extract.prototype._continue = function () {
if (this._destroyed) return
var cb = this._cb
this._cb = noop
if (this._overflow) this._write(this._overflow, undefined, cb)
else cb()
}
Extract.prototype._write = function (data, enc, cb) {
if (this._destroyed) return
var s = this._stream
var b = this._buffer
var missing = this._missing
if (data.length) this._partial = true
// we do not reach end-of-chunk now. just forward it
if (data.length < missing) {
this._missing -= data.length
this._overflow = null
if (s) return s.write(data, cb)
b.append(data)
return cb()
}
// end-of-chunk. the parser should call cb.
this._cb = cb
this._missing = 0
var overflow = null
if (data.length > missing) {
overflow = data.slice(missing)
data = data.slice(0, missing)
}
if (s) s.end(data)
else b.append(data)
this._overflow = overflow
this._onparse()
}
Extract.prototype._final = function (cb) {
if (this._partial) return this.destroy(new Error('Unexpected end of data'))
cb()
}
module.exports = Extract
/***/ }),
/***/ 3394:
/***/ ((__unused_webpack_module, exports) => {
var alloc = Buffer.alloc
var ZEROS = '0000000000000000000'
var SEVENS = '7777777777777777777'
var ZERO_OFFSET = '0'.charCodeAt(0)
var USTAR_MAGIC = Buffer.from('ustar\x00', 'binary')
var USTAR_VER = Buffer.from('00', 'binary')
var GNU_MAGIC = Buffer.from('ustar\x20', 'binary')
var GNU_VER = Buffer.from('\x20\x00', 'binary')
var MASK = parseInt('7777', 8)
var MAGIC_OFFSET = 257
var VERSION_OFFSET = 263
var clamp = function (index, len, defaultValue) {
if (typeof index !== 'number') return defaultValue
index = ~~index // Coerce to integer.
if (index >= len) return len
if (index >= 0) return index
index += len
if (index >= 0) return index
return 0
}
var toType = function (flag) {
switch (flag) {
case 0:
return 'file'
case 1:
return 'link'
case 2:
return 'symlink'
case 3:
return 'character-device'
case 4:
return 'block-device'
case 5:
return 'directory'
case 6:
return 'fifo'
case 7:
return 'contiguous-file'
case 72:
return 'pax-header'
case 55:
return 'pax-global-header'
case 27:
return 'gnu-long-link-path'
case 28:
case 30:
return 'gnu-long-path'
}
return null
}
var toTypeflag = function (flag) {
switch (flag) {
case 'file':
return 0
case 'link':
return 1
case 'symlink':
return 2
case 'character-device':
return 3
case 'block-device':
return 4
case 'directory':
return 5
case 'fifo':
return 6
case 'contiguous-file':
return 7
case 'pax-header':
return 72
}
return 0
}
var indexOf = function (block, num, offset, end) {
for (; offset < end; offset++) {
if (block[offset] === num) return offset
}
return end
}
var cksum = function (block) {
var sum = 8 * 32
for (var i = 0; i < 148; i++) sum += block[i]
for (var j = 156; j < 512; j++) sum += block[j]
return sum
}
var encodeOct = function (val, n) {
val = val.toString(8)
if (val.length > n) return SEVENS.slice(0, n) + ' '
else return ZEROS.slice(0, n - val.length) + val + ' '
}
/* Copied from the node-tar repo and modified to meet
* tar-stream coding standard.
*
* Source: https://github.com/npm/node-tar/blob/51b6627a1f357d2eb433e7378e5f05e83b7aa6cd/lib/header.js#L349
*/
function parse256 (buf) {
// first byte MUST be either 80 or FF
// 80 for positive, FF for 2's comp
var positive
if (buf[0] === 0x80) positive = true
else if (buf[0] === 0xFF) positive = false
else return null
// build up a base-256 tuple from the least sig to the highest
var tuple = []
for (var i = buf.length - 1; i > 0; i--) {
var byte = buf[i]
if (positive) tuple.push(byte)
else tuple.push(0xFF - byte)
}
var sum = 0
var l = tuple.length
for (i = 0; i < l; i++) {
sum += tuple[i] * Math.pow(256, i)
}
return positive ? sum : -1 * sum
}
var decodeOct = function (val, offset, length) {
val = val.slice(offset, offset + length)
offset = 0
// If prefixed with 0x80 then parse as a base-256 integer
if (val[offset] & 0x80) {
return parse256(val)
} else {
// Older versions of tar can prefix with spaces
while (offset < val.length && val[offset] === 32) offset++
var end = clamp(indexOf(val, 32, offset, val.length), val.length, val.length)
while (offset < end && val[offset] === 0) offset++
if (end === offset) return 0
return parseInt(val.slice(offset, end).toString(), 8)
}
}
var decodeStr = function (val, offset, length, encoding) {
return val.slice(offset, indexOf(val, 0, offset, offset + length)).toString(encoding)
}
var addLength = function (str) {
var len = Buffer.byteLength(str)
var digits = Math.floor(Math.log(len) / Math.log(10)) + 1
if (len + digits >= Math.pow(10, digits)) digits++
return (len + digits) + str
}
exports.decodeLongPath = function (buf, encoding) {
return decodeStr(buf, 0, buf.length, encoding)
}
exports.encodePax = function (opts) { // TODO: encode more stuff in pax
var result = ''
if (opts.name) result += addLength(' path=' + opts.name + '\n')
if (opts.linkname) result += addLength(' linkpath=' + opts.linkname + '\n')
var pax = opts.pax
if (pax) {
for (var key in pax) {
result += addLength(' ' + key + '=' + pax[key] + '\n')
}
}
return Buffer.from(result)
}
exports.decodePax = function (buf) {
var result = {}
while (buf.length) {
var i = 0
while (i < buf.length && buf[i] !== 32) i++
var len = parseInt(buf.slice(0, i).toString(), 10)
if (!len) return result
var b = buf.slice(i + 1, len - 1).toString()
var keyIndex = b.indexOf('=')
if (keyIndex === -1) return result
result[b.slice(0, keyIndex)] = b.slice(keyIndex + 1)
buf = buf.slice(len)
}
return result
}
exports.encode = function (opts) {
var buf = alloc(512)
var name = opts.name
var prefix = ''
if (opts.typeflag === 5 && name[name.length - 1] !== '/') name += '/'
if (Buffer.byteLength(name) !== name.length) return null // utf-8
while (Buffer.byteLength(name) > 100) {
var i = name.indexOf('/')
if (i === -1) return null
prefix += prefix ? '/' + name.slice(0, i) : name.slice(0, i)
name = name.slice(i + 1)
}
if (Buffer.byteLength(name) > 100 || Buffer.byteLength(prefix) > 155) return null
if (opts.linkname && Buffer.byteLength(opts.linkname) > 100) return null
buf.write(name)
buf.write(encodeOct(opts.mode & MASK, 6), 100)
buf.write(encodeOct(opts.uid, 6), 108)
buf.write(encodeOct(opts.gid, 6), 116)
buf.write(encodeOct(opts.size, 11), 124)
buf.write(encodeOct((opts.mtime.getTime() / 1000) | 0, 11), 136)
buf[156] = ZERO_OFFSET + toTypeflag(opts.type)
if (opts.linkname) buf.write(opts.linkname, 157)
USTAR_MAGIC.copy(buf, MAGIC_OFFSET)
USTAR_VER.copy(buf, VERSION_OFFSET)
if (opts.uname) buf.write(opts.uname, 265)
if (opts.gname) buf.write(opts.gname, 297)
buf.write(encodeOct(opts.devmajor || 0, 6), 329)
buf.write(encodeOct(opts.devminor || 0, 6), 337)
if (prefix) buf.write(prefix, 345)
buf.write(encodeOct(cksum(buf), 6), 148)
return buf
}
exports.decode = function (buf, filenameEncoding, allowUnknownFormat) {
var typeflag = buf[156] === 0 ? 0 : buf[156] - ZERO_OFFSET
var name = decodeStr(buf, 0, 100, filenameEncoding)
var mode = decodeOct(buf, 100, 8)
var uid = decodeOct(buf, 108, 8)
var gid = decodeOct(buf, 116, 8)
var size = decodeOct(buf, 124, 12)
var mtime = decodeOct(buf, 136, 12)
var type = toType(typeflag)
var linkname = buf[157] === 0 ? null : decodeStr(buf, 157, 100, filenameEncoding)
var uname = decodeStr(buf, 265, 32)
var gname = decodeStr(buf, 297, 32)
var devmajor = decodeOct(buf, 329, 8)
var devminor = decodeOct(buf, 337, 8)
var c = cksum(buf)
// checksum is still initial value if header was null.
if (c === 8 * 32) return null
// valid checksum
if (c !== decodeOct(buf, 148, 8)) throw new Error('Invalid tar header. Maybe the tar is corrupted or it needs to be gunzipped?')
if (USTAR_MAGIC.compare(buf, MAGIC_OFFSET, MAGIC_OFFSET + 6) === 0) {
// ustar (posix) format.
// prepend prefix, if present.
if (buf[345]) name = decodeStr(buf, 345, 155, filenameEncoding) + '/' + name
} else if (GNU_MAGIC.compare(buf, MAGIC_OFFSET, MAGIC_OFFSET + 6) === 0 &&
GNU_VER.compare(buf, VERSION_OFFSET, VERSION_OFFSET + 2) === 0) {
// 'gnu'/'oldgnu' format. Similar to ustar, but has support for incremental and
// multi-volume tarballs.
} else {
if (!allowUnknownFormat) {
throw new Error('Invalid tar header: unknown format.')
}
}
// to support old tar versions that use trailing / to indicate dirs
if (typeflag === 0 && name && name[name.length - 1] === '/') typeflag = 5
return {
name,
mode,
uid,
gid,
size,
mtime: new Date(1000 * mtime),
type,
linkname,
uname,
gname,
devmajor,
devminor
}
}
/***/ }),
/***/ 5897:
/***/ ((__unused_webpack_module, exports, __nccwpck_require__) => {
exports.extract = __nccwpck_require__(1580)
exports.pack = __nccwpck_require__(7522)
/***/ }),
/***/ 7522:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
var constants = __nccwpck_require__(3268)
var eos = __nccwpck_require__(4965)
var inherits = __nccwpck_require__(9424)
var alloc = Buffer.alloc
var Readable = __nccwpck_require__(7544).Readable
var Writable = __nccwpck_require__(7544).Writable
var StringDecoder = __nccwpck_require__(4304).StringDecoder
var headers = __nccwpck_require__(3394)
var DMODE = parseInt('755', 8)
var FMODE = parseInt('644', 8)
var END_OF_TAR = alloc(1024)
var noop = function () {}
var overflow = function (self, size) {
size &= 511
if (size) self.push(END_OF_TAR.slice(0, 512 - size))
}
function modeToType (mode) {
switch (mode & constants.S_IFMT) {
case constants.S_IFBLK: return 'block-device'
case constants.S_IFCHR: return 'character-device'
case constants.S_IFDIR: return 'directory'
case constants.S_IFIFO: return 'fifo'
case constants.S_IFLNK: return 'symlink'
}
return 'file'
}
var Sink = function (to) {
Writable.call(this)
this.written = 0
this._to = to
this._destroyed = false
}
inherits(Sink, Writable)
Sink.prototype._write = function (data, enc, cb) {
this.written += data.length
if (this._to.push(data)) return cb()
this._to._drain = cb
}
Sink.prototype.destroy = function () {
if (this._destroyed) return
this._destroyed = true
this.emit('close')
}
var LinkSink = function () {
Writable.call(this)
this.linkname = ''
this._decoder = new StringDecoder('utf-8')
this._destroyed = false
}
inherits(LinkSink, Writable)
LinkSink.prototype._write = function (data, enc, cb) {
this.linkname += this._decoder.write(data)
cb()
}
LinkSink.prototype.destroy = function () {
if (this._destroyed) return
this._destroyed = true
this.emit('close')
}
var Void = function () {
Writable.call(this)
this._destroyed = false
}
inherits(Void, Writable)
Void.prototype._write = function (data, enc, cb) {
cb(new Error('No body allowed for this entry'))
}
Void.prototype.destroy = function () {
if (this._destroyed) return
this._destroyed = true
this.emit('close')
}
var Pack = function (opts) {
if (!(this instanceof Pack)) return new Pack(opts)
Readable.call(this, opts)
this._drain = noop
this._finalized = false
this._finalizing = false
this._destroyed = false
this._stream = null
}
inherits(Pack, Readable)
Pack.prototype.entry = function (header, buffer, callback) {
if (this._stream) throw new Error('already piping an entry')
if (this._finalized || this._destroyed) return
if (typeof buffer === 'function') {
callback = buffer
buffer = null
}
if (!callback) callback = noop
var self = this
if (!header.size || header.type === 'symlink') header.size = 0
if (!header.type) header.type = modeToType(header.mode)
if (!header.mode) header.mode = header.type === 'directory' ? DMODE : FMODE
if (!header.uid) header.uid = 0
if (!header.gid) header.gid = 0
if (!header.mtime) header.mtime = new Date()
if (typeof buffer === 'string') buffer = Buffer.from(buffer)
if (Buffer.isBuffer(buffer)) {
header.size = buffer.length
this._encode(header)
var ok = this.push(buffer)
overflow(self, header.size)
if (ok) process.nextTick(callback)
else this._drain = callback
return new Void()
}
if (header.type === 'symlink' && !header.linkname) {
var linkSink = new LinkSink()
eos(linkSink, function (err) {
if (err) { // stream was closed
self.destroy()
return callback(err)
}
header.linkname = linkSink.linkname
self._encode(header)
callback()
})
return linkSink
}
this._encode(header)
if (header.type !== 'file' && header.type !== 'contiguous-file') {
process.nextTick(callback)
return new Void()
}
var sink = new Sink(this)
this._stream = sink
eos(sink, function (err) {
self._stream = null
if (err) { // stream was closed
self.destroy()
return callback(err)
}
if (sink.written !== header.size) { // corrupting tar
self.destroy()
return callback(new Error('size mismatch'))
}
overflow(self, header.size)
if (self._finalizing) self.finalize()
callback()
})
return sink
}
Pack.prototype.finalize = function () {
if (this._stream) {
this._finalizing = true
return
}
if (this._finalized) return
this._finalized = true
this.push(END_OF_TAR)
this.push(null)
}
Pack.prototype.destroy = function (err) {
if (this._destroyed) return
this._destroyed = true
if (err) this.emit('error', err)
this.emit('close')
if (this._stream && this._stream.destroy) this._stream.destroy()
}
Pack.prototype._encode = function (header) {
if (!header.pax) {
var buf = headers.encode(header)
if (buf) {
this.push(buf)
return
}
}
this._encodePax(header)
}
Pack.prototype._encodePax = function (header) {
var paxHeader = headers.encodePax({
name: header.name,
linkname: header.linkname,
pax: header.pax
})
var newHeader = {
name: 'PaxHeader',
mode: header.mode,
uid: header.uid,
gid: header.gid,
size: paxHeader.length,
mtime: header.mtime,
type: 'pax-header',
linkname: header.linkname && 'PaxHeader',
uname: header.uname,
gname: header.gname,
devmajor: header.devmajor,
devminor: header.devminor
}
this.push(headers.encode(newHeader))
this.push(paxHeader)
overflow(this, paxHeader.length)
newHeader.size = header.size
newHeader.type = header.type
this.push(headers.encode(newHeader))
}
Pack.prototype._read = function (n) {
var drain = this._drain
this._drain = noop
drain()
}
module.exports = Pack
/***/ }),
/***/ 9461:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* For Node.js, simply re-export the core `util.deprecate` function.
*/
module.exports = __nccwpck_require__(1669).deprecate;
/***/ }),
/***/ 6923:
/***/ ((module) => {
// Returns a wrapper function that returns a wrapped callback
// The wrapper function should do some stuff, and return a
// presumably different callback function.
// This makes sure that own properties are retained, so that
// decorations and such are not lost along the way.
module.exports = wrappy
function wrappy (fn, cb) {
if (fn && cb) return wrappy(fn)(cb)
if (typeof fn !== 'function')
throw new TypeError('need wrapper function')
Object.keys(fn).forEach(function (k) {
wrapper[k] = fn[k]
})
return wrapper
function wrapper() {
var args = new Array(arguments.length)
for (var i = 0; i < args.length; i++) {
args[i] = arguments[i]
}
var ret = fn.apply(this, args)
var cb = args[args.length-1]
if (typeof ret === 'function' && ret !== cb) {
Object.keys(cb).forEach(function (k) {
ret[k] = cb[k]
})
}
return ret
}
}
/***/ }),
/***/ 6723:
/***/ ((module, __unused_webpack_exports, __nccwpck_require__) => {
/**
* ZipStream
*
* @ignore
* @license [MIT]{@link https://github.com/archiverjs/node-zip-stream/blob/master/LICENSE}
* @copyright (c) 2014 Chris Talkington, contributors.
*/
var inherits = __nccwpck_require__(1669).inherits;
var ZipArchiveOutputStream = __nccwpck_require__(1462).ZipArchiveOutputStream;
var ZipArchiveEntry = __nccwpck_require__(1462).ZipArchiveEntry;
var util = __nccwpck_require__(590);
/**
* @constructor
* @extends external:ZipArchiveOutputStream
* @param {Object} [options]
* @param {String} [options.comment] Sets the zip archive comment.
* @param {Boolean} [options.forceLocalTime=false] Forces the archive to contain local file times instead of UTC.
* @param {Boolean} [options.forceZip64=false] Forces the archive to contain ZIP64 headers.
* @param {Boolean} [options.store=false] Sets the compression method to STORE.
* @param {Object} [options.zlib] Passed to [zlib]{@link https://nodejs.org/api/zlib.html#zlib_class_options}
* to control compression.
*/
var ZipStream = module.exports = function(options) {
if (!(this instanceof ZipStream)) {
return new ZipStream(options);
}
options = this.options = options || {};
options.zlib = options.zlib || {};
ZipArchiveOutputStream.call(this, options);
if (typeof options.level === 'number' && options.level >= 0) {
options.zlib.level = options.level;
delete options.level;
}
if (!options.forceZip64 && typeof options.zlib.level === 'number' && options.zlib.level === 0) {
options.store = true;
}
options.namePrependSlash = options.namePrependSlash || false;
if (options.comment && options.comment.length > 0) {
this.setComment(options.comment);
}
};
inherits(ZipStream, ZipArchiveOutputStream);
/**
* Normalizes entry data with fallbacks for key properties.
*
* @private
* @param {Object} data
* @return {Object}
*/
ZipStream.prototype._normalizeFileData = function(data) {
data = util.defaults(data, {
type: 'file',
name: null,
namePrependSlash: this.options.namePrependSlash,
linkname: null,
date: null,
mode: null,
store: this.options.store,
comment: ''
});
var isDir = data.type === 'directory';
var isSymlink = data.type === 'symlink';
if (data.name) {
data.name = util.sanitizePath(data.name);
if (!isSymlink && data.name.slice(-1) === '/') {
isDir = true;
data.type = 'directory';
} else if (isDir) {
data.name += '/';
}
}
if (isDir || isSymlink) {
data.store = true;
}
data.date = util.dateify(data.date);
return data;
};
/**
* Appends an entry given an input source (text string, buffer, or stream).
*
* @param {(Buffer|Stream|String)} source The input source.
* @param {Object} data
* @param {String} data.name Sets the entry name including internal path.
* @param {String} [data.comment] Sets the entry comment.
* @param {(String|Date)} [data.date=NOW()] Sets the entry date.
* @param {Number} [data.mode=D:0755/F:0644] Sets the entry permissions.
* @param {Boolean} [data.store=options.store] Sets the compression method to STORE.
* @param {String} [data.type=file] Sets the entry type. Defaults to `directory`
* if name ends with trailing slash.
* @param {Function} callback
* @return this
*/
ZipStream.prototype.entry = function(source, data, callback) {
if (typeof callback !== 'function') {
callback = this._emitErrorCallback.bind(this);
}
data = this._normalizeFileData(data);
if (data.type !== 'file' && data.type !== 'directory' && data.type !== 'symlink') {
callback(new Error(data.type + ' entries not currently supported'));
return;
}
if (typeof data.name !== 'string' || data.name.length === 0) {
callback(new Error('entry name must be a non-empty string value'));
return;
}
if (data.type === 'symlink' && typeof data.linkname !== 'string') {
callback(new Error('entry linkname must be a non-empty string value when type equals symlink'));
return;
}
var entry = new ZipArchiveEntry(data.name);
entry.setTime(data.date, this.options.forceLocalTime);
if (data.namePrependSlash) {
entry.setName(data.name, true);
}
if (data.store) {
entry.setMethod(0);
}
if (data.comment.length > 0) {
entry.setComment(data.comment);
}
if (data.type === 'symlink' && typeof data.mode !== 'number') {
data.mode = 40960; // 0120000
}
if (typeof data.mode === 'number') {
if (data.type === 'symlink') {
data.mode |= 40960;
}
entry.setUnixMode(data.mode);
}
if (data.type === 'symlink' && typeof data.linkname === 'string') {
source = Buffer.from(data.linkname);
}
return ZipArchiveOutputStream.prototype.entry.call(this, entry, source, callback);
};
/**
* Finalizes the instance and prevents further appending to the archive
* structure (queue will continue til drained).
*
* @return void
*/
ZipStream.prototype.finalize = function() {
this.finish();
};
/**
* Returns the current number of bytes written to this stream.
* @function ZipStream#getBytesWritten
* @returns {Number}
*/
/**
* Compress Commons ZipArchiveOutputStream
* @external ZipArchiveOutputStream
* @see {@link https://github.com/archiverjs/node-compress-commons}
*/
/***/ }),
/***/ 1181:
/***/ ((module) => {
module.exports = eval("require")("encoding");
/***/ }),
/***/ 2357:
/***/ ((module) => {
"use strict";
module.exports = require("assert");;
/***/ }),
/***/ 4293:
/***/ ((module) => {
"use strict";
module.exports = require("buffer");;
/***/ }),
/***/ 7619:
/***/ ((module) => {
"use strict";
module.exports = require("constants");;
/***/ }),
/***/ 6417:
/***/ ((module) => {
"use strict";
module.exports = require("crypto");;
/***/ }),
/***/ 8614:
/***/ ((module) => {
"use strict";
module.exports = require("events");;
/***/ }),
/***/ 5747:
/***/ ((module) => {
"use strict";
module.exports = require("fs");;
/***/ }),
/***/ 8605:
/***/ ((module) => {
"use strict";
module.exports = require("http");;
/***/ }),
/***/ 7211:
/***/ ((module) => {
"use strict";
module.exports = require("https");;
/***/ }),
/***/ 2087:
/***/ ((module) => {
"use strict";
module.exports = require("os");;
/***/ }),
/***/ 5622:
/***/ ((module) => {
"use strict";
module.exports = require("path");;
/***/ }),
/***/ 2413:
/***/ ((module) => {
"use strict";
module.exports = require("stream");;
/***/ }),
/***/ 4304:
/***/ ((module) => {
"use strict";
module.exports = require("string_decoder");;
/***/ }),
/***/ 8835:
/***/ ((module) => {
"use strict";
module.exports = require("url");;
/***/ }),
/***/ 1669:
/***/ ((module) => {
"use strict";
module.exports = require("util");;
/***/ }),
/***/ 8761:
/***/ ((module) => {
"use strict";
module.exports = require("zlib");;
/***/ })
/******/ });
/************************************************************************/
/******/ // 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;
/******/ }
/******/
/************************************************************************/
/******/ /* webpack/runtime/compat */
/******/
/******/ if (typeof __nccwpck_require__ !== 'undefined') __nccwpck_require__.ab = __dirname + "/";/************************************************************************/
var __webpack_exports__ = {};
// This entry need to be wrapped in an IIFE because it need to be in strict mode.
(() => {
"use strict";
var exports = __webpack_exports__;
Object.defineProperty(exports, "__esModule", ({ value: true }));
const Inputs_1 = __nccwpck_require__(9662);
const NextcloudArtifact_1 = __nccwpck_require__(5658);
var artifact = new NextcloudArtifact_1.NextcloudArtifact(Inputs_1.Inputs.ArtifactName, Inputs_1.Inputs.ArtifactPath, Inputs_1.Inputs.NoFileBehvaior);
artifact.run();
//# sourceMappingURL=nextcloud-artifacts.js.map
})();
module.exports = __webpack_exports__;
/******/ })()
;