// 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. 'use strict'; const { ArrayIsArray, ArrayPrototypeConcat, ArrayPrototypeFilter, ArrayPrototypeIncludes, ArrayPrototypeIndexOf, ArrayPrototypeJoin, ArrayPrototypePush, ArrayPrototypeSlice, ArrayPrototypeSplice, ArrayPrototypeUnshift, Boolean, Error, JSONParse, ObjectCreate, ObjectDefineProperty, ObjectFreeze, ObjectGetOwnPropertyDescriptor, ObjectGetPrototypeOf, ObjectKeys, ObjectPrototype, ObjectPrototypeHasOwnProperty, ObjectSetPrototypeOf, Proxy, ReflectApply, ReflectSet, RegExpPrototypeTest, SafeMap, SafeWeakMap, String, StringPrototypeCharAt, StringPrototypeCharCodeAt, StringPrototypeEndsWith, StringPrototypeLastIndexOf, StringPrototypeIndexOf, StringPrototypeMatch, StringPrototypeSlice, StringPrototypeSplit, StringPrototypeStartsWith, } = primordials; // Map used to store CJS parsing data. const cjsParseCache = new SafeWeakMap(); // Set first due to cycle with ESM loader functions. module.exports = { wrapSafe, Module, toRealPath, readPackageScope, cjsParseCache, get hasLoadedAnyUserCJSModule() { return hasLoadedAnyUserCJSModule; } }; const { NativeModule } = require('internal/bootstrap/loaders'); const { maybeCacheSourceMap, } = require('internal/source_map/source_map_cache'); const { pathToFileURL, fileURLToPath, isURLInstance } = require('internal/url'); const { deprecate } = require('internal/util'); const vm = require('vm'); const assert = require('internal/assert'); const fs = require('fs'); const internalFS = require('internal/fs/utils'); const path = require('path'); const { sep } = path; const { internalModuleStat } = internalBinding('fs'); const packageJsonReader = require('internal/modules/package_json_reader'); const { safeGetenv } = internalBinding('credentials'); const { makeRequireFunction, normalizeReferrerURL, stripBOM, cjsConditions, loadNativeModule } = require('internal/modules/cjs/helpers'); const { getOptionValue } = require('internal/options'); const preserveSymlinks = getOptionValue('--preserve-symlinks'); const preserveSymlinksMain = getOptionValue('--preserve-symlinks-main'); // Do not eagerly grab .manifest, it may be in TDZ const policy = getOptionValue('--experimental-policy') ? require('internal/process/policy') : null; const { compileFunction } = internalBinding('contextify'); // Whether any user-provided CJS modules had been loaded (executed). // Used for internal assertions. let hasLoadedAnyUserCJSModule = false; const { ERR_INVALID_ARG_VALUE, ERR_INVALID_OPT_VALUE, ERR_INVALID_MODULE_SPECIFIER, ERR_REQUIRE_ESM, ERR_UNKNOWN_BUILTIN_MODULE, } = require('internal/errors').codes; const { validateString } = require('internal/validators'); const pendingDeprecation = getOptionValue('--pending-deprecation'); const { CHAR_FORWARD_SLASH, CHAR_BACKWARD_SLASH, CHAR_COLON } = require('internal/constants'); const { isProxy } = require('internal/util/types'); const asyncESM = require('internal/process/esm_loader'); const { enrichCJSError } = require('internal/modules/esm/translators'); const { kEvaluated } = internalBinding('module_wrap'); const { encodedSepRegEx, packageExportsResolve, packageImportsResolve } = require('internal/modules/esm/resolve'); const isWindows = process.platform === 'win32'; const relativeResolveCache = ObjectCreate(null); let requireDepth = 0; let statCache = null; let isPreloading = false; function stat(filename) { filename = path.toNamespacedPath(filename); if (statCache !== null) { const result = statCache.get(filename); if (result !== undefined) return result; } const result = internalModuleStat(filename); if (statCache !== null) statCache.set(filename, result); return result; } function updateChildren(parent, child, scan) { const children = parent && parent.children; if (children && !(scan && ArrayPrototypeIncludes(children, child))) ArrayPrototypePush(children, child); } function Module(id = '', parent) { this.id = id; this.path = path.dirname(id); this.exports = {}; this.parent = parent; updateChildren(parent, this, false); this.filename = null; this.loaded = false; this.children = []; } const builtinModules = []; for (const { 0: id, 1: mod } of NativeModule.map) { if (mod.canBeRequiredByUsers) { ArrayPrototypePush(builtinModules, id); } } ObjectFreeze(builtinModules); Module.builtinModules = builtinModules; Module._cache = ObjectCreate(null); Module._pathCache = ObjectCreate(null); Module._extensions = ObjectCreate(null); let modulePaths = []; Module.globalPaths = []; let patched = false; // eslint-disable-next-line func-style let wrap = function(script) { return Module.wrapper[0] + script + Module.wrapper[1]; }; const wrapper = [ '(function (exports, require, module, __filename, __dirname) { ', '\n});', ]; let wrapperProxy = new Proxy(wrapper, { set(target, property, value, receiver) { patched = true; return ReflectSet(target, property, value, receiver); }, defineProperty(target, property, descriptor) { patched = true; return ObjectDefineProperty(target, property, descriptor); } }); ObjectDefineProperty(Module, 'wrap', { get() { return wrap; }, set(value) { patched = true; wrap = value; } }); ObjectDefineProperty(Module, 'wrapper', { get() { return wrapperProxy; }, set(value) { patched = true; wrapperProxy = value; } }); const isPreloadingDesc = { get() { return isPreloading; } }; ObjectDefineProperty(Module.prototype, 'isPreloading', isPreloadingDesc); ObjectDefineProperty(NativeModule.prototype, 'isPreloading', isPreloadingDesc); let debug = require('internal/util/debuglog').debuglog('module', (fn) => { debug = fn; }); Module._debug = deprecate(debug, 'Module._debug is deprecated.', 'DEP0077'); // Given a module name, and a list of paths to test, returns the first // matching file in the following precedence. // // require("a.") // -> a. // // require("a") // -> a // -> a. // -> a/index. const packageJsonCache = new SafeMap(); function readPackage(requestPath) { const jsonPath = path.resolve(requestPath, 'package.json'); const existing = packageJsonCache.get(jsonPath); if (existing !== undefined) return existing; const result = packageJsonReader.read(jsonPath); const json = result.containsKeys === false ? '{}' : result.string; if (json === undefined) { packageJsonCache.set(jsonPath, false); return false; } try { const parsed = JSONParse(json); const filtered = { name: parsed.name, main: parsed.main, exports: parsed.exports, imports: parsed.imports, type: parsed.type }; packageJsonCache.set(jsonPath, filtered); return filtered; } catch (e) { e.path = jsonPath; e.message = 'Error parsing ' + jsonPath + ': ' + e.message; throw e; } } function readPackageScope(checkPath) { const rootSeparatorIndex = StringPrototypeIndexOf(checkPath, sep); let separatorIndex; do { separatorIndex = StringPrototypeLastIndexOf(checkPath, sep); checkPath = StringPrototypeSlice(checkPath, 0, separatorIndex); if (StringPrototypeEndsWith(checkPath, sep + 'node_modules')) return false; const pjson = readPackage(checkPath + sep); if (pjson) return { data: pjson, path: checkPath, }; } while (separatorIndex > rootSeparatorIndex); return false; } function tryPackage(requestPath, exts, isMain, originalPath) { const pkg = readPackage(requestPath)?.main; if (!pkg) { return tryExtensions(path.resolve(requestPath, 'index'), exts, isMain); } const filename = path.resolve(requestPath, pkg); let actual = tryFile(filename, isMain) || tryExtensions(filename, exts, isMain) || tryExtensions(path.resolve(filename, 'index'), exts, isMain); if (actual === false) { actual = tryExtensions(path.resolve(requestPath, 'index'), exts, isMain); if (!actual) { // eslint-disable-next-line no-restricted-syntax const err = new Error( `Cannot find module '${filename}'. ` + 'Please verify that the package.json has a valid "main" entry' ); err.code = 'MODULE_NOT_FOUND'; err.path = path.resolve(requestPath, 'package.json'); err.requestPath = originalPath; // TODO(BridgeAR): Add the requireStack as well. throw err; } else if (pendingDeprecation) { const jsonPath = path.resolve(requestPath, 'package.json'); process.emitWarning( `Invalid 'main' field in '${jsonPath}' of '${pkg}'. ` + 'Please either fix that or report it to the module author', 'DeprecationWarning', 'DEP0128' ); } } return actual; } // In order to minimize unnecessary lstat() calls, // this cache is a list of known-real paths. // Set to an empty Map to reset. const realpathCache = new SafeMap(); // Check if the file exists and is not a directory // if using --preserve-symlinks and isMain is false, // keep symlinks intact, otherwise resolve to the // absolute realpath. function tryFile(requestPath, isMain) { const rc = stat(requestPath); if (rc !== 0) return; if (preserveSymlinks && !isMain) { return path.resolve(requestPath); } return toRealPath(requestPath); } function toRealPath(requestPath) { return fs.realpathSync(requestPath, { [internalFS.realpathCacheKey]: realpathCache }); } // Given a path, check if the file exists with any of the set extensions function tryExtensions(p, exts, isMain) { for (let i = 0; i < exts.length; i++) { const filename = tryFile(p + exts[i], isMain); if (filename) { return filename; } } return false; } // Find the longest (possibly multi-dot) extension registered in // Module._extensions function findLongestRegisteredExtension(filename) { const name = path.basename(filename); let currentExtension; let index; let startIndex = 0; while ((index = StringPrototypeIndexOf(name, '.', startIndex)) !== -1) { startIndex = index + 1; if (index === 0) continue; // Skip dotfiles like .gitignore currentExtension = StringPrototypeSlice(name, index); if (Module._extensions[currentExtension]) return currentExtension; } return '.js'; } function trySelfParentPath(parent) { if (!parent) return false; if (parent.filename) { return parent.filename; } else if (parent.id === '' || parent.id === 'internal/preload') { try { return process.cwd() + path.sep; } catch { return false; } } } function trySelf(parentPath, request) { if (!parentPath) return false; const { data: pkg, path: pkgPath } = readPackageScope(parentPath) || {}; if (!pkg || pkg.exports === undefined) return false; if (typeof pkg.name !== 'string') return false; let expansion; if (request === pkg.name) { expansion = '.'; } else if (StringPrototypeStartsWith(request, `${pkg.name}/`)) { expansion = '.' + StringPrototypeSlice(request, pkg.name.length); } else { return false; } try { return finalizeEsmResolution(packageExportsResolve( pathToFileURL(pkgPath + '/package.json'), expansion, pkg, pathToFileURL(parentPath), cjsConditions), request, parentPath, pkgPath); } catch (e) { if (e.code === 'ERR_MODULE_NOT_FOUND') throw createEsmNotFoundErr(request, pkgPath + '/package.json'); throw e; } } // This only applies to requests of a specific form: // 1. name/.* // 2. @scope/name/.* const EXPORTS_PATTERN = /^((?:@[^/\\%]+\/)?[^./\\%][^/\\%]*)(\/.*)?$/; function resolveExports(nmPath, request) { // The implementation's behavior is meant to mirror resolution in ESM. const { 1: name, 2: expansion = '' } = StringPrototypeMatch(request, EXPORTS_PATTERN) || []; if (!name) return; const pkgPath = path.resolve(nmPath, name); const pkg = readPackage(pkgPath); if (pkg && pkg.exports !== null && pkg.exports !== undefined) { try { return finalizeEsmResolution(packageExportsResolve( pathToFileURL(pkgPath + '/package.json'), '.' + expansion, pkg, null, cjsConditions), request, null, pkgPath); } catch (e) { if (e.code === 'ERR_MODULE_NOT_FOUND') throw createEsmNotFoundErr(request, pkgPath + '/package.json'); throw e; } } } const trailingSlashRegex = /(?:^|\/)\.?\.$/; Module._findPath = function(request, paths, isMain) { const absoluteRequest = path.isAbsolute(request); if (absoluteRequest) { paths = ['']; } else if (!paths || paths.length === 0) { return false; } const cacheKey = request + '\x00' + ArrayPrototypeJoin(paths, '\x00'); const entry = Module._pathCache[cacheKey]; if (entry) return entry; let exts; let trailingSlash = request.length > 0 && StringPrototypeCharCodeAt(request, request.length - 1) === CHAR_FORWARD_SLASH; if (!trailingSlash) { trailingSlash = RegExpPrototypeTest(trailingSlashRegex, request); } // For each path for (let i = 0; i < paths.length; i++) { // Don't search further if path doesn't exist const curPath = paths[i]; if (curPath && stat(curPath) < 1) continue; if (!absoluteRequest) { const exportsResolved = resolveExports(curPath, request); if (exportsResolved) return exportsResolved; } const basePath = path.resolve(curPath, request); let filename; const rc = stat(basePath); if (!trailingSlash) { if (rc === 0) { // File. if (!isMain) { if (preserveSymlinks) { filename = path.resolve(basePath); } else { filename = toRealPath(basePath); } } else if (preserveSymlinksMain) { // For the main module, we use the preserveSymlinksMain flag instead // mainly for backward compatibility, as the preserveSymlinks flag // historically has not applied to the main module. Most likely this // was intended to keep .bin/ binaries working, as following those // symlinks is usually required for the imports in the corresponding // files to resolve; that said, in some use cases following symlinks // causes bigger problems which is why the preserveSymlinksMain option // is needed. filename = path.resolve(basePath); } else { filename = toRealPath(basePath); } } if (!filename) { // Try it with each of the extensions if (exts === undefined) exts = ObjectKeys(Module._extensions); filename = tryExtensions(basePath, exts, isMain); } } if (!filename && rc === 1) { // Directory. // try it with each of the extensions at "index" if (exts === undefined) exts = ObjectKeys(Module._extensions); filename = tryPackage(basePath, exts, isMain, request); } if (filename) { Module._pathCache[cacheKey] = filename; return filename; } } return false; }; // 'node_modules' character codes reversed const nmChars = [ 115, 101, 108, 117, 100, 111, 109, 95, 101, 100, 111, 110 ]; const nmLen = nmChars.length; if (isWindows) { // 'from' is the __dirname of the module. Module._nodeModulePaths = function(from) { // Guarantee that 'from' is absolute. from = path.resolve(from); // note: this approach *only* works when the path is guaranteed // to be absolute. Doing a fully-edge-case-correct path.split // that works on both Windows and Posix is non-trivial. // return root node_modules when path is 'D:\\'. // path.resolve will make sure from.length >=3 in Windows. if (StringPrototypeCharCodeAt(from, from.length - 1) === CHAR_BACKWARD_SLASH && StringPrototypeCharCodeAt(from, from.length - 2) === CHAR_COLON) return [from + 'node_modules']; const paths = []; for (let i = from.length - 1, p = 0, last = from.length; i >= 0; --i) { const code = StringPrototypeCharCodeAt(from, i); // The path segment separator check ('\' and '/') was used to get // node_modules path for every path segment. // Use colon as an extra condition since we can get node_modules // path for drive root like 'C:\node_modules' and don't need to // parse drive name. if (code === CHAR_BACKWARD_SLASH || code === CHAR_FORWARD_SLASH || code === CHAR_COLON) { if (p !== nmLen) ArrayPrototypePush( paths, StringPrototypeSlice(from, 0, last) + '\\node_modules' ); last = i; p = 0; } else if (p !== -1) { if (nmChars[p] === code) { ++p; } else { p = -1; } } } return paths; }; } else { // posix // 'from' is the __dirname of the module. Module._nodeModulePaths = function(from) { // Guarantee that 'from' is absolute. from = path.resolve(from); // Return early not only to avoid unnecessary work, but to *avoid* returning // an array of two items for a root: [ '//node_modules', '/node_modules' ] if (from === '/') return ['/node_modules']; // note: this approach *only* works when the path is guaranteed // to be absolute. Doing a fully-edge-case-correct path.split // that works on both Windows and Posix is non-trivial. const paths = []; for (let i = from.length - 1, p = 0, last = from.length; i >= 0; --i) { const code = StringPrototypeCharCodeAt(from, i); if (code === CHAR_FORWARD_SLASH) { if (p !== nmLen) ArrayPrototypePush( paths, StringPrototypeSlice(from, 0, last) + '/node_modules' ); last = i; p = 0; } else if (p !== -1) { if (nmChars[p] === code) { ++p; } else { p = -1; } } } // Append /node_modules to handle root paths. ArrayPrototypePush(paths, '/node_modules'); return paths; }; } Module._resolveLookupPaths = function(request, parent) { if (NativeModule.canBeRequiredByUsers(request)) { debug('looking for %j in []', request); return null; } // Check for node modules paths. if (StringPrototypeCharAt(request, 0) !== '.' || (request.length > 1 && StringPrototypeCharAt(request, 1) !== '.' && StringPrototypeCharAt(request, 1) !== '/' && (!isWindows || StringPrototypeCharAt(request, 1) !== '\\'))) { let paths = modulePaths; if (parent != null && parent.paths && parent.paths.length) { paths = ArrayPrototypeConcat(parent.paths, paths); } debug('looking for %j in %j', request, paths); return paths.length > 0 ? paths : null; } // In REPL, parent.filename is null. if (!parent || !parent.id || !parent.filename) { // Make require('./path/to/foo') work - normally the path is taken // from realpath(__filename) but in REPL there is no filename const mainPaths = ['.']; debug('looking for %j in %j', request, mainPaths); return mainPaths; } debug('RELATIVE: requested: %s from parent.id %s', request, parent.id); const parentDir = [path.dirname(parent.filename)]; debug('looking for %j', parentDir); return parentDir; }; function emitCircularRequireWarning(prop) { process.emitWarning( `Accessing non-existent property '${String(prop)}' of module exports ` + 'inside circular dependency' ); } // A Proxy that can be used as the prototype of a module.exports object and // warns when non-existent properties are accessed. const CircularRequirePrototypeWarningProxy = new Proxy({}, { get(target, prop) { // Allow __esModule access in any case because it is used in the output // of transpiled code to determine whether something comes from an // ES module, and is not used as a regular key of `module.exports`. if (prop in target || prop === '__esModule') return target[prop]; emitCircularRequireWarning(prop); return undefined; }, getOwnPropertyDescriptor(target, prop) { if (ObjectPrototypeHasOwnProperty(target, prop) || prop === '__esModule') return ObjectGetOwnPropertyDescriptor(target, prop); emitCircularRequireWarning(prop); return undefined; } }); function getExportsForCircularRequire(module) { if (module.exports && !isProxy(module.exports) && ObjectGetPrototypeOf(module.exports) === ObjectPrototype && // Exclude transpiled ES6 modules / TypeScript code because those may // employ unusual patterns for accessing 'module.exports'. That should // be okay because ES6 modules have a different approach to circular // dependencies anyway. !module.exports.__esModule) { // This is later unset once the module is done loading. ObjectSetPrototypeOf( module.exports, CircularRequirePrototypeWarningProxy); } return module.exports; } // Check the cache for the requested file. // 1. If a module already exists in the cache: return its exports object. // 2. If the module is native: call // `NativeModule.prototype.compileForPublicLoader()` and return the exports. // 3. Otherwise, create a new module for the file and save it to the cache. // Then have it load the file contents before returning its exports // object. Module._load = function(request, parent, isMain) { let relResolveCacheIdentifier; if (parent) { debug('Module._load REQUEST %s parent: %s', request, parent.id); // Fast path for (lazy loaded) modules in the same directory. The indirect // caching is required to allow cache invalidation without changing the old // cache key names. relResolveCacheIdentifier = `${parent.path}\x00${request}`; const filename = relativeResolveCache[relResolveCacheIdentifier]; if (filename !== undefined) { const cachedModule = Module._cache[filename]; if (cachedModule !== undefined) { updateChildren(parent, cachedModule, true); if (!cachedModule.loaded) return getExportsForCircularRequire(cachedModule); return cachedModule.exports; } delete relativeResolveCache[relResolveCacheIdentifier]; } } const filename = Module._resolveFilename(request, parent, isMain); if (StringPrototypeStartsWith(filename, 'node:')) { // Slice 'node:' prefix const id = StringPrototypeSlice(filename, 5); const module = loadNativeModule(id, request); if (!module?.canBeRequiredByUsers) { throw new ERR_UNKNOWN_BUILTIN_MODULE(filename); } return module.exports; } const cachedModule = Module._cache[filename]; if (cachedModule !== undefined) { updateChildren(parent, cachedModule, true); if (!cachedModule.loaded) { const parseCachedModule = cjsParseCache.get(cachedModule); if (!parseCachedModule || parseCachedModule.loaded) return getExportsForCircularRequire(cachedModule); parseCachedModule.loaded = true; } else { return cachedModule.exports; } } const mod = loadNativeModule(filename, request); if (mod && mod.canBeRequiredByUsers) return mod.exports; // Don't call updateChildren(), Module constructor already does. const module = cachedModule || new Module(filename, parent); if (isMain) { process.mainModule = module; module.id = '.'; } Module._cache[filename] = module; if (parent !== undefined) { relativeResolveCache[relResolveCacheIdentifier] = filename; } let threw = true; try { module.load(filename); threw = false; } finally { if (threw) { delete Module._cache[filename]; if (parent !== undefined) { delete relativeResolveCache[relResolveCacheIdentifier]; const children = parent && parent.children; if (ArrayIsArray(children)) { const index = ArrayPrototypeIndexOf(children, module); if (index !== -1) { ArrayPrototypeSplice(children, index, 1); } } } } else if (module.exports && !isProxy(module.exports) && ObjectGetPrototypeOf(module.exports) === CircularRequirePrototypeWarningProxy) { ObjectSetPrototypeOf(module.exports, ObjectPrototype); } } return module.exports; }; Module._resolveFilename = function(request, parent, isMain, options) { if (StringPrototypeStartsWith(request, 'node:') || NativeModule.canBeRequiredByUsers(request)) { return request; } let paths; if (typeof options === 'object' && options !== null) { if (ArrayIsArray(options.paths)) { const isRelative = StringPrototypeStartsWith(request, './') || StringPrototypeStartsWith(request, '../') || ((isWindows && StringPrototypeStartsWith(request, '.\\')) || StringPrototypeStartsWith(request, '..\\')); if (isRelative) { paths = options.paths; } else { const fakeParent = new Module('', null); paths = []; for (let i = 0; i < options.paths.length; i++) { const path = options.paths[i]; fakeParent.paths = Module._nodeModulePaths(path); const lookupPaths = Module._resolveLookupPaths(request, fakeParent); for (let j = 0; j < lookupPaths.length; j++) { if (!ArrayPrototypeIncludes(paths, lookupPaths[j])) ArrayPrototypePush(paths, lookupPaths[j]); } } } } else if (options.paths === undefined) { paths = Module._resolveLookupPaths(request, parent); } else { throw new ERR_INVALID_OPT_VALUE('options.paths', options.paths); } } else { paths = Module._resolveLookupPaths(request, parent); } if (parent && parent.filename) { if (request[0] === '#') { const pkg = readPackageScope(parent.filename) || {}; if (pkg.data && pkg.data.imports !== null && pkg.data.imports !== undefined) { try { return finalizeEsmResolution( packageImportsResolve(request, pathToFileURL(parent.filename), cjsConditions), request, parent.filename, pkg.path); } catch (e) { if (e.code === 'ERR_MODULE_NOT_FOUND') throw createEsmNotFoundErr(request); throw e; } } } } // Try module self resolution first const parentPath = trySelfParentPath(parent); const selfResolved = trySelf(parentPath, request); if (selfResolved) { const cacheKey = request + '\x00' + (paths.length === 1 ? paths[0] : ArrayPrototypeJoin(paths, '\x00')); Module._pathCache[cacheKey] = selfResolved; return selfResolved; } // Look up the filename first, since that's the cache key. const filename = Module._findPath(request, paths, isMain, false); if (filename) return filename; const requireStack = []; for (let cursor = parent; cursor; cursor = cursor.parent) { ArrayPrototypePush(requireStack, cursor.filename || cursor.id); } let message = `Cannot find module '${request}'`; if (requireStack.length > 0) { message = message + '\nRequire stack:\n- ' + ArrayPrototypeJoin(requireStack, '\n- '); } // eslint-disable-next-line no-restricted-syntax const err = new Error(message); err.code = 'MODULE_NOT_FOUND'; err.requireStack = requireStack; throw err; }; function finalizeEsmResolution(match, request, parentPath, pkgPath) { const { resolved, exact } = match; if (RegExpPrototypeTest(encodedSepRegEx, resolved)) throw new ERR_INVALID_MODULE_SPECIFIER( resolved, 'must not include encoded "/" or "\\" characters', parentPath); const filename = fileURLToPath(resolved); let actual = tryFile(filename); if (!exact && !actual) { const exts = ObjectKeys(Module._extensions); actual = tryExtensions(filename, exts, false) || tryPackage(filename, exts, false, request); } if (actual) return actual; const err = createEsmNotFoundErr(filename, path.resolve(pkgPath, 'package.json')); throw err; } function createEsmNotFoundErr(request, path) { // eslint-disable-next-line no-restricted-syntax const err = new Error(`Cannot find module '${request}'`); err.code = 'MODULE_NOT_FOUND'; if (path) err.path = path; // TODO(BridgeAR): Add the requireStack as well. return err; } // Given a file name, pass it to the proper extension handler. Module.prototype.load = function(filename) { debug('load %j for module %j', filename, this.id); assert(!this.loaded); this.filename = filename; this.paths = Module._nodeModulePaths(path.dirname(filename)); const extension = findLongestRegisteredExtension(filename); // allow .mjs to be overridden if (StringPrototypeEndsWith(filename, '.mjs') && !Module._extensions['.mjs']) throw new ERR_REQUIRE_ESM(filename); Module._extensions[extension](this, filename); this.loaded = true; const ESMLoader = asyncESM.ESMLoader; // Create module entry at load time to snapshot exports correctly const exports = this.exports; // Preemptively cache if ((module?.module === undefined || module.module.getStatus() < kEvaluated) && !ESMLoader.cjsCache.has(this)) ESMLoader.cjsCache.set(this, exports); }; // Loads a module at the given file path. Returns that module's // `exports` property. Module.prototype.require = function(id) { validateString(id, 'id'); if (id === '') { throw new ERR_INVALID_ARG_VALUE('id', id, 'must be a non-empty string'); } requireDepth++; try { return Module._load(id, this, /* isMain */ false); } finally { requireDepth--; } }; // Resolved path to process.argv[1] will be lazily placed here // (needed for setting breakpoint when called with --inspect-brk) let resolvedArgv; let hasPausedEntry = false; function wrapSafe(filename, content, cjsModuleInstance) { if (patched) { const wrapper = Module.wrap(content); return vm.runInThisContext(wrapper, { filename, lineOffset: 0, displayErrors: true, importModuleDynamically: async (specifier) => { const loader = asyncESM.ESMLoader; return loader.import(specifier, normalizeReferrerURL(filename)); }, }); } let compiled; try { compiled = compileFunction( content, filename, 0, 0, undefined, false, undefined, [], [ 'exports', 'require', 'module', '__filename', '__dirname', ] ); } catch (err) { if (process.mainModule === cjsModuleInstance) enrichCJSError(err); throw err; } const { callbackMap } = internalBinding('module_wrap'); callbackMap.set(compiled.cacheKey, { importModuleDynamically: async (specifier) => { const loader = asyncESM.ESMLoader; return loader.import(specifier, normalizeReferrerURL(filename)); } }); return compiled.function; } // Run the file contents in the correct scope or sandbox. Expose // the correct helper variables (require, module, exports) to // the file. // Returns exception, if any. Module.prototype._compile = function(content, filename) { let moduleURL; let redirects; if (policy?.manifest) { moduleURL = pathToFileURL(filename); redirects = policy.manifest.getDependencyMapper(moduleURL); policy.manifest.assertIntegrity(moduleURL, content); } maybeCacheSourceMap(filename, content, this); const compiledWrapper = wrapSafe(filename, content, this); let inspectorWrapper = null; if (getOptionValue('--inspect-brk') && process._eval == null) { if (!resolvedArgv) { // We enter the repl if we're not given a filename argument. if (process.argv[1]) { try { resolvedArgv = Module._resolveFilename(process.argv[1], null, false); } catch { // We only expect this codepath to be reached in the case of a // preloaded module (it will fail earlier with the main entry) assert(ArrayIsArray(getOptionValue('--require'))); } } else { resolvedArgv = 'repl'; } } // Set breakpoint on module start if (resolvedArgv && !hasPausedEntry && filename === resolvedArgv) { hasPausedEntry = true; inspectorWrapper = internalBinding('inspector').callAndPauseOnStart; } } const dirname = path.dirname(filename); const require = makeRequireFunction(this, redirects); let result; const exports = this.exports; const thisValue = exports; const module = this; if (requireDepth === 0) statCache = new SafeMap(); if (inspectorWrapper) { result = inspectorWrapper(compiledWrapper, thisValue, exports, require, module, filename, dirname); } else { result = ReflectApply(compiledWrapper, thisValue, [exports, require, module, filename, dirname]); } hasLoadedAnyUserCJSModule = true; if (requireDepth === 0) statCache = null; return result; }; // Native extension for .js Module._extensions['.js'] = function(module, filename) { if (StringPrototypeEndsWith(filename, '.js')) { const pkg = readPackageScope(filename); // Function require shouldn't be used in ES modules. if (pkg && pkg.data && pkg.data.type === 'module') { const { parent } = module; const parentPath = parent && parent.filename; const packageJsonPath = path.resolve(pkg.path, 'package.json'); throw new ERR_REQUIRE_ESM(filename, parentPath, packageJsonPath); } } // If already analyzed the source, then it will be cached. const cached = cjsParseCache.get(module); let content; if (cached && cached.source) { content = cached.source; cached.source = undefined; } else { content = fs.readFileSync(filename, 'utf8'); } module._compile(content, filename); }; // Native extension for .json Module._extensions['.json'] = function(module, filename) { const content = fs.readFileSync(filename, 'utf8'); if (policy?.manifest) { const moduleURL = pathToFileURL(filename); policy.manifest.assertIntegrity(moduleURL, content); } try { module.exports = JSONParse(stripBOM(content)); } catch (err) { err.message = filename + ': ' + err.message; throw err; } }; // Native extension for .node Module._extensions['.node'] = function(module, filename) { if (policy?.manifest) { const content = fs.readFileSync(filename); const moduleURL = pathToFileURL(filename); policy.manifest.assertIntegrity(moduleURL, content); } // Be aware this doesn't use `content` return process.dlopen(module, path.toNamespacedPath(filename)); }; function createRequireFromPath(filename) { // Allow a directory to be passed as the filename const trailingSlash = StringPrototypeEndsWith(filename, '/') || (isWindows && StringPrototypeEndsWith(filename, '\\')); const proxyPath = trailingSlash ? path.join(filename, 'noop.js') : filename; const m = new Module(proxyPath); m.filename = proxyPath; m.paths = Module._nodeModulePaths(m.path); return makeRequireFunction(m, null); } Module.createRequireFromPath = deprecate( createRequireFromPath, 'Module.createRequireFromPath() is deprecated. ' + 'Use Module.createRequire() instead.', 'DEP0130' ); const createRequireError = 'must be a file URL object, file URL string, or ' + 'absolute path string'; function createRequire(filename) { let filepath; if (isURLInstance(filename) || (typeof filename === 'string' && !path.isAbsolute(filename))) { try { filepath = fileURLToPath(filename); } catch { throw new ERR_INVALID_ARG_VALUE('filename', filename, createRequireError); } } else if (typeof filename !== 'string') { throw new ERR_INVALID_ARG_VALUE('filename', filename, createRequireError); } else { filepath = filename; } return createRequireFromPath(filepath); } Module.createRequire = createRequire; Module._initPaths = function() { const homeDir = isWindows ? process.env.USERPROFILE : safeGetenv('HOME'); const nodePath = isWindows ? process.env.NODE_PATH : safeGetenv('NODE_PATH'); // process.execPath is $PREFIX/bin/node except on Windows where it is // $PREFIX\node.exe where $PREFIX is the root of the Node.js installation. const prefixDir = isWindows ? path.resolve(process.execPath, '..') : path.resolve(process.execPath, '..', '..'); let paths = [path.resolve(prefixDir, 'lib', 'node')]; if (homeDir) { ArrayPrototypeUnshift(paths, path.resolve(homeDir, '.node_libraries')); ArrayPrototypeUnshift(paths, path.resolve(homeDir, '.node_modules')); } if (nodePath) { paths = ArrayPrototypeConcat(ArrayPrototypeFilter( StringPrototypeSplit(nodePath, path.delimiter), Boolean ), paths); } modulePaths = paths; // Clone as a shallow copy, for introspection. Module.globalPaths = ArrayPrototypeSlice(modulePaths); }; Module._preloadModules = function(requests) { if (!ArrayIsArray(requests)) return; isPreloading = true; // Preloaded modules have a dummy parent module which is deemed to exist // in the current working directory. This seeds the search path for // preloaded modules. const parent = new Module('internal/preload', null); try { parent.paths = Module._nodeModulePaths(process.cwd()); } catch (e) { if (e.code !== 'ENOENT') { isPreloading = false; throw e; } } for (let n = 0; n < requests.length; n++) parent.require(requests[n]); isPreloading = false; }; Module.syncBuiltinESMExports = function syncBuiltinESMExports() { for (const mod of NativeModule.map.values()) { if (mod.canBeRequiredByUsers) { mod.syncExports(); } } }; // Backwards compatibility Module.Module = Module;