'use strict'; Object.defineProperty(exports, '__esModule', { value: true }); exports.createTranspilingRequire = createTranspilingRequire; exports.default = void 0; function _crypto() { const data = require('crypto'); _crypto = function() { return data; }; return data; } function path() { const data = _interopRequireWildcard(require('path')); path = function() { return data; }; return data; } function _jestUtil() { const data = require('jest-util'); _jestUtil = function() { return data; }; return data; } function fs() { const data = _interopRequireWildcard(require('graceful-fs')); fs = function() { return data; }; return data; } function _core() { const data = require('@babel/core'); _core = function() { return data; }; return data; } function _babelPluginIstanbul() { const data = _interopRequireDefault(require('babel-plugin-istanbul')); _babelPluginIstanbul = function() { return data; }; return data; } function _convertSourceMap() { const data = require('convert-source-map'); _convertSourceMap = function() { return data; }; return data; } function _jestHasteMap() { const data = _interopRequireDefault(require('jest-haste-map')); _jestHasteMap = function() { return data; }; return data; } function _fastJsonStableStringify() { const data = _interopRequireDefault(require('fast-json-stable-stringify')); _fastJsonStableStringify = function() { return data; }; return data; } function _slash() { const data = _interopRequireDefault(require('slash')); _slash = function() { return data; }; return data; } function _writeFileAtomic() { const data = require('write-file-atomic'); _writeFileAtomic = function() { return data; }; return data; } function _realpathNative() { const data = require('realpath-native'); _realpathNative = function() { return data; }; return data; } function _pirates() { const data = require('pirates'); _pirates = function() { return data; }; return data; } var _shouldInstrument = _interopRequireDefault(require('./shouldInstrument')); var _enhanceUnexpectedTokenMessage = _interopRequireDefault( require('./enhanceUnexpectedTokenMessage') ); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : {default: obj}; } function _getRequireWildcardCache() { if (typeof WeakMap !== 'function') return null; var cache = new WeakMap(); _getRequireWildcardCache = function() { return cache; }; return cache; } function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } if (obj === null || (typeof obj !== 'object' && typeof obj !== 'function')) { return {default: obj}; } var cache = _getRequireWildcardCache(); if (cache && cache.has(obj)) { return cache.get(obj); } var newObj = {}; var hasPropertyDescriptor = Object.defineProperty && Object.getOwnPropertyDescriptor; for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = hasPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : null; if (desc && (desc.get || desc.set)) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } newObj.default = obj; if (cache) { cache.set(obj, newObj); } return newObj; } 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; } // Use `require` to avoid TS rootDir const {version: VERSION} = require('../package.json'); // This data structure is used to avoid recalculating some data every time that // we need to transform a file. Since ScriptTransformer is instantiated for each // file we need to keep this object in the local scope of this module. const projectCaches = new Map(); // To reset the cache for specific changesets (rather than package version). const CACHE_VERSION = '1'; async function waitForPromiseWithCleanup(promise, cleanup) { try { await promise; } finally { cleanup(); } } class ScriptTransformer { constructor(config) { _defineProperty(this, '_cache', void 0); _defineProperty(this, '_config', void 0); _defineProperty(this, '_transformCache', void 0); _defineProperty(this, '_transformConfigCache', void 0); this._config = config; this._transformCache = new Map(); this._transformConfigCache = new Map(); const configString = (0, _fastJsonStableStringify().default)(this._config); let projectCache = projectCaches.get(configString); if (!projectCache) { projectCache = { configString, ignorePatternsRegExp: calcIgnorePatternRegExp(this._config), transformRegExp: calcTransformRegExp(this._config), transformedFiles: new Map() }; projectCaches.set(configString, projectCache); } this._cache = projectCache; } _getCacheKey(fileData, filename, instrument) { const configString = this._cache.configString; const transformer = this._getTransformer(filename); if (transformer && typeof transformer.getCacheKey === 'function') { return (0, _crypto().createHash)('md5') .update( transformer.getCacheKey(fileData, filename, configString, { config: this._config, instrument, rootDir: this._config.rootDir }) ) .update(CACHE_VERSION) .digest('hex'); } else { return (0, _crypto().createHash)('md5') .update(fileData) .update(configString) .update(instrument ? 'instrument' : '') .update(filename) .update(CACHE_VERSION) .digest('hex'); } } _getFileCachePath(filename, content, instrument) { const baseCacheDir = _jestHasteMap().default.getCacheFilePath( this._config.cacheDirectory, 'jest-transform-cache-' + this._config.name, VERSION ); const cacheKey = this._getCacheKey(content, filename, instrument); // Create sub folders based on the cacheKey to avoid creating one // directory with many files. const cacheDir = path().join(baseCacheDir, cacheKey[0] + cacheKey[1]); const cacheFilenamePrefix = path() .basename(filename, path().extname(filename)) .replace(/\W/g, ''); const cachePath = (0, _slash().default)( path().join(cacheDir, cacheFilenamePrefix + '_' + cacheKey) ); (0, _jestUtil().createDirectory)(cacheDir); return cachePath; } _getTransformPath(filename) { const transformRegExp = this._cache.transformRegExp; if (!transformRegExp) { return undefined; } for (let i = 0; i < transformRegExp.length; i++) { if (transformRegExp[i][0].test(filename)) { const transformPath = transformRegExp[i][1]; this._transformConfigCache.set(transformPath, transformRegExp[i][2]); return transformPath; } } return undefined; } _getTransformer(filename) { let transform = null; if (!this._config.transform || !this._config.transform.length) { return null; } const transformPath = this._getTransformPath(filename); if (transformPath) { const transformer = this._transformCache.get(transformPath); if (transformer != null) { return transformer; } transform = require(transformPath); if (!transform) { throw new TypeError('Jest: a transform must export something.'); } const transformerConfig = this._transformConfigCache.get(transformPath); if (typeof transform.createTransformer === 'function') { transform = transform.createTransformer(transformerConfig); } if (typeof transform.process !== 'function') { throw new TypeError( 'Jest: a transform must export a `process` function.' ); } this._transformCache.set(transformPath, transform); } return transform; } _instrumentFile(filename, content) { const result = (0, _core().transformSync)(content, { auxiliaryCommentBefore: ' istanbul ignore next ', babelrc: false, caller: { name: '@jest/transform', supportsStaticESM: false }, configFile: false, filename, plugins: [ [ _babelPluginIstanbul().default, { compact: false, // files outside `cwd` will not be instrumented cwd: this._config.rootDir, exclude: [], useInlineSourceMaps: false } ] ] }); if (result) { const {code} = result; if (code) { return code; } } return content; } _getRealPath(filepath) { try { return (0, _realpathNative().sync)(filepath) || filepath; } catch (err) { return filepath; } } // We don't want to expose transformers to the outside - this function is just // to warm up `this._transformCache` preloadTransformer(filepath) { this._getTransformer(filepath); } transformSource(filepath, content, instrument) { const filename = this._getRealPath(filepath); const transform = this._getTransformer(filename); const cacheFilePath = this._getFileCachePath(filename, content, instrument); let sourceMapPath = cacheFilePath + '.map'; // Ignore cache if `config.cache` is set (--no-cache) let code = this._config.cache ? readCodeCacheFile(cacheFilePath) : null; const shouldCallTransform = transform && this.shouldTransform(filename); // That means that the transform has a custom instrumentation // logic and will handle it based on `config.collectCoverage` option const transformWillInstrument = shouldCallTransform && transform && transform.canInstrument; // If we handle the coverage instrumentation, we should try to map code // coverage against original source with any provided source map const mapCoverage = instrument && !transformWillInstrument; if (code) { // This is broken: we return the code, and a path for the source map // directly from the cache. But, nothing ensures the source map actually // matches that source code. They could have gotten out-of-sync in case // two separate processes write concurrently to the same cache files. return { code, mapCoverage, sourceMapPath }; } let transformed = { code: content, map: null }; if (transform && shouldCallTransform) { const processed = transform.process(content, filename, this._config, { instrument }); if (typeof processed === 'string') { transformed.code = processed; } else if (processed != null && typeof processed.code === 'string') { transformed = processed; } else { throw new TypeError( "Jest: a transform's `process` function must return a string, " + 'or an object with `code` key containing this string.' ); } } if (!transformed.map) { try { //Could be a potential freeze here. //See: https://github.com/facebook/jest/pull/5177#discussion_r158883570 const inlineSourceMap = (0, _convertSourceMap().fromSource)( transformed.code ); if (inlineSourceMap) { transformed.map = inlineSourceMap.toJSON(); } } catch (e) { const transformPath = this._getTransformPath(filename); console.warn( `jest-transform: The source map produced for the file ${filename} ` + `by ${transformPath} was invalid. Proceeding without source ` + 'mapping for that file.' ); } } if (!transformWillInstrument && instrument) { code = this._instrumentFile(filename, transformed.code); } else { code = transformed.code; } if (transformed.map) { const sourceMapContent = typeof transformed.map === 'string' ? transformed.map : JSON.stringify(transformed.map); writeCacheFile(sourceMapPath, sourceMapContent); } else { sourceMapPath = null; } writeCodeCacheFile(cacheFilePath, code); return { code, mapCoverage, sourceMapPath }; } _transformAndBuildScript(filename, options, instrument, fileSource) { const isInternalModule = !!(options && options.isInternalModule); const isCoreModule = !!(options && options.isCoreModule); const content = stripShebang( fileSource || fs().readFileSync(filename, 'utf8') ); let code = content; let sourceMapPath = null; let mapCoverage = false; const willTransform = !isInternalModule && !isCoreModule && (this.shouldTransform(filename) || instrument); try { if (willTransform) { const transformedSource = this.transformSource( filename, content, instrument ); code = transformedSource.code; sourceMapPath = transformedSource.sourceMapPath; mapCoverage = transformedSource.mapCoverage; } return { code, mapCoverage, originalCode: content, sourceMapPath }; } catch (e) { throw (0, _enhanceUnexpectedTokenMessage.default)(e); } } transform(filename, options, fileSource) { let scriptCacheKey = undefined; let instrument = false; if (!options.isCoreModule) { instrument = options.coverageProvider === 'babel' && (0, _shouldInstrument.default)(filename, options, this._config); scriptCacheKey = getScriptCacheKey(filename, instrument); const result = this._cache.transformedFiles.get(scriptCacheKey); if (result) { return result; } } const result = this._transformAndBuildScript( filename, options, instrument, fileSource ); if (scriptCacheKey) { this._cache.transformedFiles.set(scriptCacheKey, result); } return result; } transformJson(filename, options, fileSource) { const isInternalModule = options.isInternalModule; const isCoreModule = options.isCoreModule; const willTransform = !isInternalModule && !isCoreModule && this.shouldTransform(filename); if (willTransform) { const {code: transformedJsonSource} = this.transformSource( filename, fileSource, false ); return transformedJsonSource; } return fileSource; } requireAndTranspileModule(moduleName, callback) { // Load the transformer to avoid a cycle where we need to load a // transformer in order to transform it in the require hooks this.preloadTransformer(moduleName); let transforming = false; const revertHook = (0, _pirates().addHook)( (code, filename) => { try { transforming = true; return this.transformSource(filename, code, false).code || code; } finally { transforming = false; } }, { exts: this._config.moduleFileExtensions.map(ext => `.${ext}`), ignoreNodeModules: false, matcher: filename => { if (transforming) { // Don't transform any dependency required by the transformer itself return false; } return this.shouldTransform(filename); } } ); const module = require(moduleName); if (!callback) { revertHook(); return module; } try { const cbResult = callback(module); if ((0, _jestUtil().isPromise)(cbResult)) { return waitForPromiseWithCleanup(cbResult, revertHook).then( () => module ); } } finally { revertHook(); } return module; } /** * @deprecated use `this.shouldTransform` instead */ // @ts-ignore: Unused and private - remove in Jest 25 _shouldTransform(filename) { return this.shouldTransform(filename); } shouldTransform(filename) { const ignoreRegexp = this._cache.ignorePatternsRegExp; const isIgnored = ignoreRegexp ? ignoreRegexp.test(filename) : false; return ( !!this._config.transform && !!this._config.transform.length && !isIgnored ); } } exports.default = ScriptTransformer; function createTranspilingRequire(config) { const transformer = new ScriptTransformer(config); return function requireAndTranspileModule( resolverPath, applyInteropRequireDefault = false ) { const transpiledModule = transformer.requireAndTranspileModule( resolverPath ); return applyInteropRequireDefault ? (0, _jestUtil().interopRequireDefault)(transpiledModule).default : transpiledModule; }; } const removeFile = path => { try { fs().unlinkSync(path); } catch (e) {} }; const stripShebang = content => { // If the file data starts with a shebang remove it. Leaves the empty line // to keep stack trace line numbers correct. if (content.startsWith('#!')) { return content.replace(/^#!.*/, ''); } else { return content; } }; /** * This is like `writeCacheFile` but with an additional sanity checksum. We * cannot use the same technique for source maps because we expose source map * cache file paths directly to callsites, with the expectation they can read * it right away. This is not a great system, because source map cache file * could get corrupted, out-of-sync, etc. */ function writeCodeCacheFile(cachePath, code) { const checksum = (0, _crypto().createHash)('md5') .update(code) .digest('hex'); writeCacheFile(cachePath, checksum + '\n' + code); } /** * Read counterpart of `writeCodeCacheFile`. We verify that the content of the * file matches the checksum, in case some kind of corruption happened. This * could happen if an older version of `jest-runtime` writes non-atomically to * the same cache, for example. */ function readCodeCacheFile(cachePath) { const content = readCacheFile(cachePath); if (content == null) { return null; } const code = content.substr(33); const checksum = (0, _crypto().createHash)('md5') .update(code) .digest('hex'); if (checksum === content.substr(0, 32)) { return code; } return null; } /** * Writing to the cache atomically relies on 'rename' being atomic on most * file systems. Doing atomic write reduces the risk of corruption by avoiding * two processes to write to the same file at the same time. It also reduces * the risk of reading a file that's being overwritten at the same time. */ const writeCacheFile = (cachePath, fileData) => { try { (0, _writeFileAtomic().sync)(cachePath, fileData, { encoding: 'utf8' }); } catch (e) { if (cacheWriteErrorSafeToIgnore(e, cachePath)) { return; } e.message = 'jest: failed to cache transform results in: ' + cachePath + '\nFailure message: ' + e.message; removeFile(cachePath); throw e; } }; /** * On Windows, renames are not atomic, leading to EPERM exceptions when two * processes attempt to rename to the same target file at the same time. * If the target file exists we can be reasonably sure another process has * legitimately won a cache write race and ignore the error. */ const cacheWriteErrorSafeToIgnore = (e, cachePath) => process.platform === 'win32' && e.code === 'EPERM' && fs().existsSync(cachePath); const readCacheFile = cachePath => { if (!fs().existsSync(cachePath)) { return null; } let fileData; try { fileData = fs().readFileSync(cachePath, 'utf8'); } catch (e) { e.message = 'jest: failed to read cache file: ' + cachePath + '\nFailure message: ' + e.message; removeFile(cachePath); throw e; } if (fileData == null) { // We must have somehow created the file but failed to write to it, // let's delete it and retry. removeFile(cachePath); } return fileData; }; const getScriptCacheKey = (filename, instrument) => { const mtime = fs().statSync(filename).mtime; return filename + '_' + mtime.getTime() + (instrument ? '_instrumented' : ''); }; const calcIgnorePatternRegExp = config => { if ( !config.transformIgnorePatterns || config.transformIgnorePatterns.length === 0 ) { return undefined; } return new RegExp(config.transformIgnorePatterns.join('|')); }; const calcTransformRegExp = config => { if (!config.transform.length) { return undefined; } const transformRegexp = []; for (let i = 0; i < config.transform.length; i++) { transformRegexp.push([ new RegExp(config.transform[i][0]), config.transform[i][1], config.transform[i][2] ]); } return transformRegexp; };