'use strict'; const { ArrayPrototypeForEach, ArrayPrototypeIncludes, ObjectDefineProperty, ObjectPrototypeHasOwnProperty, SafeMap, SafeSet, StringPrototypeCharCodeAt, StringPrototypeIncludes, StringPrototypeSlice, StringPrototypeSplit, StringPrototypeStartsWith, } = primordials; const { ERR_INVALID_ARG_TYPE, } = require('internal/errors').codes; const { BuiltinModule } = require('internal/bootstrap/realm'); const { validateString } = require('internal/validators'); const fs = require('fs'); // Import all of `fs` so that it can be monkey-patched. const internalFS = require('internal/fs/utils'); const path = require('path'); const { pathToFileURL, fileURLToPath } = require('internal/url'); const assert = require('internal/assert'); const { getOptionValue } = require('internal/options'); const { setOwnProperty } = require('internal/util'); const { inspect } = require('internal/util/inspect'); const { canParse: URLCanParse } = internalBinding('url'); let debug = require('internal/util/debuglog').debuglog('module', (fn) => { debug = fn; }); /** @typedef {import('internal/modules/cjs/loader.js').Module} Module */ /** * Cache for storing resolved real paths of modules. * In order to minimize unnecessary lstat() calls, this cache is a list of known-real paths. * Set to an empty Map to reset. * @type {Map} */ const realpathCache = new SafeMap(); /** * Resolves the path of a given `require` specifier, following symlinks. * @param {string} requestPath The `require` specifier */ function toRealPath(requestPath) { return fs.realpathSync(requestPath, { [internalFS.realpathCacheKey]: realpathCache, }); } /** @type {Set} */ let cjsConditions; /** * Define the conditions that apply to the CommonJS loader. */ function initializeCjsConditions() { const userConditions = getOptionValue('--conditions'); const noAddons = getOptionValue('--no-addons'); const addonConditions = noAddons ? [] : ['node-addons']; // TODO: Use this set when resolving pkg#exports conditions in loader.js. cjsConditions = new SafeSet([ 'require', 'node', ...addonConditions, ...userConditions, ]); } /** * Get the conditions that apply to the CommonJS loader. */ function getCjsConditions() { if (cjsConditions === undefined) { initializeCjsConditions(); } return cjsConditions; } /** * Provide one of Node.js' public modules to user code. * @param {string} id - The identifier/specifier of the builtin module to load * @param {string} request - The module requiring or importing the builtin module */ function loadBuiltinModule(id, request) { if (!BuiltinModule.canBeRequiredByUsers(id)) { return; } /** @type {import('internal/bootstrap/realm.js').BuiltinModule} */ const mod = BuiltinModule.map.get(id); debug('load built-in module %s', request); // compileForPublicLoader() throws if canBeRequiredByUsers is false: mod.compileForPublicLoader(); return mod; } /** @type {Module} */ let $Module = null; /** * Import the Module class on first use. */ function lazyModule() { $Module = $Module || require('internal/modules/cjs/loader').Module; return $Module; } /** * Create the module-scoped `require` function to pass into CommonJS modules. * @param {Module} mod - The module to create the `require` function for. * @typedef {(specifier: string) => unknown} RequireFunction */ function makeRequireFunction(mod) { // lazy due to cycle const Module = lazyModule(); if (mod instanceof Module !== true) { throw new ERR_INVALID_ARG_TYPE('mod', 'Module', mod); } function require(path) { return mod.require(path); } /** * The `resolve` method that gets attached to module-scope `require`. * @param {string} request * @param {Parameters[3]} options */ function resolve(request, options) { validateString(request, 'request'); return Module._resolveFilename(request, mod, false, options); } require.resolve = resolve; /** * The `paths` method that gets attached to module-scope `require`. * @param {string} request */ function paths(request) { validateString(request, 'request'); return Module._resolveLookupPaths(request, mod); } resolve.paths = paths; setOwnProperty(require, 'main', process.mainModule); // Enable support to add extra extension types. require.extensions = Module._extensions; require.cache = Module._cache; return require; } /** * Remove byte order marker. This catches EF BB BF (the UTF-8 BOM) * because the buffer-to-string conversion in `fs.readFileSync()` * translates it to FEFF, the UTF-16 BOM. * @param {string} content */ function stripBOM(content) { if (StringPrototypeCharCodeAt(content) === 0xFEFF) { content = StringPrototypeSlice(content, 1); } return content; } /** * Add built-in modules to a global or REPL scope object. * @param {Record} object - The object such as `globalThis` to add the built-in modules to. * @param {string} dummyModuleName - The label representing the set of built-in modules to add. */ function addBuiltinLibsToObject(object, dummyModuleName) { // Make built-in modules available directly (loaded lazily). const Module = require('internal/modules/cjs/loader').Module; const { builtinModules } = Module; // To require built-in modules in user-land and ignore modules whose // `canBeRequiredByUsers` is false. So we create a dummy module object and not // use `require()` directly. const dummyModule = new Module(dummyModuleName); ArrayPrototypeForEach(builtinModules, (name) => { // Neither add underscored modules, nor ones that contain slashes (e.g., // 'fs/promises') or ones that are already defined. if (StringPrototypeStartsWith(name, '_') || StringPrototypeIncludes(name, '/') || ObjectPrototypeHasOwnProperty(object, name)) { return; } // Goals of this mechanism are: // - Lazy loading of built-in modules // - Having all built-in modules available as non-enumerable properties // - Allowing the user to re-assign these variables as if there were no // pre-existing globals with the same name. const setReal = (val) => { // Deleting the property before re-assigning it disables the // getter/setter mechanism. delete object[name]; object[name] = val; }; ObjectDefineProperty(object, name, { __proto__: null, get: () => { const lib = dummyModule.require(name); try { // Override the current getter/setter and set up a new // non-enumerable property. ObjectDefineProperty(object, name, { __proto__: null, get: () => lib, set: setReal, configurable: true, enumerable: false, }); } catch { // If the property is no longer configurable, ignore the error. } return lib; }, set: setReal, configurable: true, enumerable: false, }); }); } /** * Normalize the referrer name as a URL. * If it's a string containing an absolute path or a URL it's normalized as * a URL string. * Otherwise it's returned as undefined. * @param {string | null | undefined} referrerName * @returns {string | undefined} */ function normalizeReferrerURL(referrerName) { if (referrerName === null || referrerName === undefined) { return undefined; } if (typeof referrerName === 'string') { if (path.isAbsolute(referrerName)) { return pathToFileURL(referrerName).href; } if (StringPrototypeStartsWith(referrerName, 'file://') || URLCanParse(referrerName)) { return referrerName; } return undefined; } assert.fail('Unreachable code reached by ' + inspect(referrerName)); } /** * @param {string|undefined} url URL to convert to filename */ function urlToFilename(url) { if (url && StringPrototypeStartsWith(url, 'file://')) { return fileURLToPath(url); } return url; } // Whether we have started executing any user-provided CJS code. // This is set right before we call the wrapped CJS code (not after, // in case we are half-way in the execution when internals check this). // Used for internal assertions. let _hasStartedUserCJSExecution = false; // Similar to _hasStartedUserCJSExecution but for ESM. This is set // right before ESM evaluation in the default ESM loader. We do not // update this during vm SourceTextModule execution because at that point // some user code must already have been run to execute code via vm // there is little value checking whether any user JS code is run anyway. let _hasStartedUserESMExecution = false; /** * Load a public built-in module. ID may or may not be prefixed by `node:` and * will be normalized. * @param {string} id ID of the built-in to be loaded. * @returns {object|undefined} exports of the built-in. Undefined if the built-in * does not exist. */ function getBuiltinModule(id) { validateString(id, 'id'); const normalizedId = BuiltinModule.normalizeRequirableId(id); return normalizedId ? require(normalizedId) : undefined; } let parseTS; function lazyLoadTSParser() { parseTS ??= require('internal/deps/amaro/dist/index').transformSync; return parseTS; } /** * Performs type-stripping to TypeScript source code. * @param {string} source TypeScript code to parse. * @returns {string} JavaScript code. */ function tsParse(source) { if (!source || typeof source !== 'string') { return ''; } const transformSync = lazyLoadTSParser(); const { code } = transformSync(source, { __proto__: null, mode: 'strip-only' }); return code; } function isUnderNodeModules(filename) { const resolvedPath = path.resolve(filename); const normalizedPath = path.normalize(resolvedPath); const splitPath = StringPrototypeSplit(normalizedPath, path.sep); return ArrayPrototypeIncludes(splitPath, 'node_modules'); } module.exports = { addBuiltinLibsToObject, getBuiltinModule, getCjsConditions, initializeCjsConditions, isUnderNodeModules, loadBuiltinModule, makeRequireFunction, normalizeReferrerURL, tsParse, stripBOM, toRealPath, hasStartedUserCJSExecution() { return _hasStartedUserCJSExecution; }, setHasStartedUserCJSExecution() { _hasStartedUserCJSExecution = true; }, hasStartedUserESMExecution() { return _hasStartedUserESMExecution; }, setHasStartedUserESMExecution() { _hasStartedUserESMExecution = true; }, urlToFilename, };