// This file creates the internal module & binding loaders used by built-in // modules. In contrast, user land modules are loaded using // lib/internal/modules/cjs/loader.js (CommonJS Modules) or // lib/internal/modules/esm/* (ES Modules). // // This file is compiled and run by node.cc before bootstrap/node.js // was called, therefore the loaders are bootstraped before we start to // actually bootstrap Node.js. It creates the following objects: // // C++ binding loaders: // - process.binding(): the legacy C++ binding loader, accessible from user land // because it is an object attached to the global process object. // These C++ bindings are created using NODE_BUILTIN_MODULE_CONTEXT_AWARE() // and have their nm_flags set to NM_F_BUILTIN. We do not make any guarantees // about the stability of these bindings, but still have to take care of // compatibility issues caused by them from time to time. // - process._linkedBinding(): intended to be used by embedders to add // additional C++ bindings in their applications. These C++ bindings // can be created using NODE_MODULE_CONTEXT_AWARE_CPP() with the flag // NM_F_LINKED. // - internalBinding(): the private internal C++ binding loader, inaccessible // from user land because they are only available from NativeModule.require(). // These C++ bindings are created using NODE_MODULE_CONTEXT_AWARE_INTERNAL() // and have their nm_flags set to NM_F_INTERNAL. // // Internal JavaScript module loader: // - NativeModule: a minimal module system used to load the JavaScript core // modules found in lib/**/*.js and deps/**/*.js. All core modules are // compiled into the node binary via node_javascript.cc generated by js2c.py, // so they can be loaded faster without the cost of I/O. This class makes the // lib/internal/*, deps/internal/* modules and internalBinding() available by // default to core modules, and lets the core modules require itself via // require('internal/bootstrap/loaders') even when this file is not written in // CommonJS style. // // Other objects: // - process.moduleLoadList: an array recording the bindings and the modules // loaded in the process and the order in which they are loaded. 'use strict'; // This file is compiled as if it's wrapped in a function with arguments // passed by node::LoadEnvironment() /* global process, getBinding, getLinkedBinding, getInternalBinding */ /* global debugBreak */ if (debugBreak) debugger; // eslint-disable-line no-debugger const { apply: ReflectApply, deleteProperty: ReflectDeleteProperty, get: ReflectGet, getOwnPropertyDescriptor: ReflectGetOwnPropertyDescriptor, has: ReflectHas, set: ReflectSet, } = Reflect; const { prototype: { hasOwnProperty: ObjectHasOwnProperty, }, create: ObjectCreate, defineProperty: ObjectDefineProperty, keys: ObjectKeys, } = Object; // Set up process.moduleLoadList. const moduleLoadList = []; ObjectDefineProperty(process, 'moduleLoadList', { value: moduleLoadList, configurable: true, enumerable: true, writable: false }); // internalBindingWhitelist contains the name of internalBinding modules // that are whitelisted for access via process.binding()... This is used // to provide a transition path for modules that are being moved over to // internalBinding. const internalBindingWhitelist = [ 'async_wrap', 'buffer', 'cares_wrap', 'config', 'constants', 'contextify', 'crypto', 'fs', 'fs_event_wrap', 'http_parser', 'icu', 'inspector', 'js_stream', 'natives', 'os', 'pipe_wrap', 'process_wrap', 'signal_wrap', 'spawn_sync', 'stream_wrap', 'tcp_wrap', 'tls_wrap', 'tty_wrap', 'udp_wrap', 'url', 'util', 'uv', 'v8', 'zlib' ]; // We will use a lazy loaded SafeSet in internalBindingWhitelistHas // for checking existence in this list. let internalBindingWhitelistSet; // Set up process.binding() and process._linkedBinding(). { const bindingObj = ObjectCreate(null); process.binding = function binding(module) { module = String(module); // Deprecated specific process.binding() modules, but not all, allow // selective fallback to internalBinding for the deprecated ones. if (internalBindingWhitelistHas(module)) { return internalBinding(module); } let mod = bindingObj[module]; if (typeof mod !== 'object') { mod = bindingObj[module] = getBinding(module); moduleLoadList.push(`Binding ${module}`); } return mod; }; process._linkedBinding = function _linkedBinding(module) { module = String(module); let mod = bindingObj[module]; if (typeof mod !== 'object') mod = bindingObj[module] = getLinkedBinding(module); return mod; }; } // Set up internalBinding() in the closure. let internalBinding; { const bindingObj = ObjectCreate(null); internalBinding = function internalBinding(module) { let mod = bindingObj[module]; if (typeof mod !== 'object') { mod = bindingObj[module] = getInternalBinding(module); moduleLoadList.push(`Internal Binding ${module}`); } return mod; }; } // Create this WeakMap in js-land because V8 has no C++ API for WeakMap. internalBinding('module_wrap').callbackMap = new WeakMap(); // Set up NativeModule. function NativeModule(id) { this.filename = `${id}.js`; this.id = id; this.exports = {}; this.reflect = undefined; this.exportKeys = undefined; this.loaded = false; this.loading = false; } const { source, compileFunction } = internalBinding('native_module'); NativeModule._source = source; NativeModule._cache = {}; const config = internalBinding('config'); // Think of this as module.exports in this file even though it is not // written in CommonJS style. const loaderExports = { internalBinding, NativeModule }; const loaderId = 'internal/bootstrap/loaders'; NativeModule.require = function(id) { if (id === loaderId) { return loaderExports; } const cached = NativeModule.getCached(id); if (cached && (cached.loaded || cached.loading)) { return cached.exports; } if (!NativeModule.exists(id)) { // Model the error off the internal/errors.js model, but // do not use that module given that it could actually be // the one causing the error if there's a bug in Node.js. // eslint-disable-next-line no-restricted-syntax const err = new Error(`No such built-in module: ${id}`); err.code = 'ERR_UNKNOWN_BUILTIN_MODULE'; err.name = 'Error [ERR_UNKNOWN_BUILTIN_MODULE]'; throw err; } moduleLoadList.push(`NativeModule ${id}`); const nativeModule = new NativeModule(id); nativeModule.cache(); nativeModule.compile(); return nativeModule.exports; }; NativeModule.isDepsModule = function(id) { return id.startsWith('node-inspect/') || id.startsWith('v8/'); }; NativeModule.requireForDeps = function(id) { if (!NativeModule.exists(id) || // TODO(TimothyGu): remove when DEP0084 reaches end of life. NativeModule.isDepsModule(id)) { id = `internal/deps/${id}`; } return NativeModule.require(id); }; NativeModule.getCached = function(id) { return NativeModule._cache[id]; }; NativeModule.exists = function(id) { return NativeModule._source.hasOwnProperty(id); }; if (config.exposeInternals) { NativeModule.nonInternalExists = function(id) { // Do not expose this to user land even with --expose-internals. if (id === loaderId) { return false; } return NativeModule.exists(id); }; NativeModule.isInternal = function(id) { // Do not expose this to user land even with --expose-internals. return id === loaderId; }; } else { NativeModule.nonInternalExists = function(id) { return NativeModule.exists(id) && !NativeModule.isInternal(id); }; NativeModule.isInternal = function(id) { return id.startsWith('internal/') || (id === 'worker_threads' && !config.experimentalWorker); }; } NativeModule.getSource = function(id) { return NativeModule._source[id]; }; const getOwn = (target, property, receiver) => { return ReflectApply(ObjectHasOwnProperty, target, [property]) ? ReflectGet(target, property, receiver) : undefined; }; // Provide named exports for all builtin libraries so that the libraries // may be imported in a nicer way for ESM users. The default export is left // as the entire namespace (module.exports) and wrapped in a proxy such // that APMs and other behavior are still left intact. NativeModule.prototype.proxifyExports = function() { this.exportKeys = ObjectKeys(this.exports); const update = (property, value) => { if (this.reflect !== undefined && ReflectApply(ObjectHasOwnProperty, this.reflect.exports, [property])) this.reflect.exports[property].set(value); }; const handler = { __proto__: null, defineProperty: (target, prop, descriptor) => { // Use `Object.defineProperty` instead of `Reflect.defineProperty` // to throw the appropriate error if something goes wrong. ObjectDefineProperty(target, prop, descriptor); if (typeof descriptor.get === 'function' && !ReflectHas(handler, 'get')) { handler.get = (target, prop, receiver) => { const value = ReflectGet(target, prop, receiver); if (ReflectApply(ObjectHasOwnProperty, target, [prop])) update(prop, value); return value; }; } update(prop, getOwn(target, prop)); return true; }, deleteProperty: (target, prop) => { if (ReflectDeleteProperty(target, prop)) { update(prop, undefined); return true; } return false; }, set: (target, prop, value, receiver) => { const descriptor = ReflectGetOwnPropertyDescriptor(target, prop); if (ReflectSet(target, prop, value, receiver)) { if (descriptor && typeof descriptor.set === 'function') { for (const key of this.exportKeys) { update(key, getOwn(target, key, receiver)); } } else { update(prop, getOwn(target, prop, receiver)); } return true; } return false; } }; this.exports = new Proxy(this.exports, handler); }; NativeModule.prototype.compile = function() { const id = this.id; this.loading = true; try { const requireFn = this.id.startsWith('internal/deps/') ? NativeModule.requireForDeps : NativeModule.require; const fn = compileFunction(id); fn(this.exports, requireFn, this, process, internalBinding); if (config.experimentalModules && !NativeModule.isInternal(this.id)) { this.proxifyExports(); } this.loaded = true; } finally { this.loading = false; } }; NativeModule.prototype.cache = function() { NativeModule._cache[this.id] = this; }; // Coverage must be turned on early, so that we can collect // it for Node.js' own internal libraries. if (process.env.NODE_V8_COVERAGE) { NativeModule.require('internal/process/coverage').setup(); } function internalBindingWhitelistHas(name) { if (!internalBindingWhitelistSet) { const { SafeSet } = NativeModule.require('internal/safe_globals'); internalBindingWhitelistSet = new SafeSet(internalBindingWhitelist); } return internalBindingWhitelistSet.has(name); } // This will be passed to internal/bootstrap/node.js. return loaderExports;