Current File : /home/vacivi36/vittasync.vacivitta.com.br/vittasync/node/lib/internal/bootstrap/realm.js
// This file is executed in every realm that is created by Node.js, including
// the context of main thread, worker threads, and ShadowRealms.
// Only per-realm internal states and bindings should be bootstrapped in this
// file and no globals should be exposed to the user code.
//
// 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 bootstrapped 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_BINDING_CONTEXT_AWARE_CPP() with the flag
// NM_F_LINKED.
// - internalBinding(): the private internal C++ binding loader, inaccessible
// from user land unless through `require('internal/test/binding')`.
// These C++ bindings are created using NODE_BINDING_CONTEXT_AWARE_INTERNAL()
// and have their nm_flags set to NM_F_INTERNAL.
//
// Internal JavaScript module loader:
// - BuiltinModule: 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/realm') 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::RunBootstrapping()
/* global process, getLinkedBinding, getInternalBinding, primordials */
const {
ArrayFrom,
ArrayPrototypeFilter,
ArrayPrototypeIncludes,
ArrayPrototypeMap,
ArrayPrototypePush,
ArrayPrototypeSlice,
Error,
ObjectDefineProperty,
ObjectKeys,
ObjectPrototypeHasOwnProperty,
ObjectSetPrototypeOf,
ReflectGet,
SafeMap,
SafeSet,
String,
StringPrototypeStartsWith,
StringPrototypeSlice,
TypeError,
} = primordials;
// Set up process.moduleLoadList.
const moduleLoadList = [];
ObjectDefineProperty(process, 'moduleLoadList', {
__proto__: null,
value: moduleLoadList,
configurable: true,
enumerable: true,
writable: false,
});
// processBindingAllowList contains the name of bindings that are allowed
// for access via process.binding(). This is used to provide a transition
// path for modules that are being moved over to internalBinding.
// Certain bindings may not actually correspond to an internalBinding any
// more, we just implement them as legacy wrappers instead. See the
// legacyWrapperList.
const processBindingAllowList = new SafeSet([
'buffer',
'cares_wrap',
'config',
'constants',
'contextify',
'fs',
'fs_event_wrap',
'icu',
'inspector',
'js_stream',
'os',
'pipe_wrap',
'process_wrap',
'spawn_sync',
'stream_wrap',
'tcp_wrap',
'tls_wrap',
'tty_wrap',
'udp_wrap',
'uv',
'zlib',
]);
const runtimeDeprecatedList = new SafeSet([
'async_wrap',
'crypto',
'http_parser',
'signal_wrap',
'url',
'v8',
]);
const legacyWrapperList = new SafeSet([
'natives',
'util',
]);
// The code bellow assumes that the two lists must not contain any modules
// beginning with "internal/".
// Modules that can only be imported via the node: scheme.
const schemelessBlockList = new SafeSet([
'sea',
'test',
'test/reporters',
]);
// Modules that will only be enabled at run time.
const experimentalModuleList = new SafeSet();
// Set up process.binding() and process._linkedBinding().
{
const bindingObj = { __proto__: null };
process.binding = function binding(module) {
module = String(module);
const mod = bindingObj[module];
if (typeof mod === 'object') {
return mod;
}
// Deprecated specific process.binding() modules, but not all, allow
// selective fallback to internalBinding for the deprecated ones.
if (runtimeDeprecatedList.has(module)) {
process.emitWarning(
`Access to process.binding('${module}') is deprecated.`,
'DeprecationWarning',
'DEP0111');
return internalBinding(module);
}
if (legacyWrapperList.has(module)) {
return requireBuiltin('internal/legacy/processbinding')[module]();
}
if (processBindingAllowList.has(module)) {
return internalBinding(module);
}
// eslint-disable-next-line no-restricted-syntax
throw new Error(`No such module: ${module}`);
};
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.
* @type {import('typings/globals').internalBinding}
*/
let internalBinding;
{
const bindingObj = { __proto__: null };
// eslint-disable-next-line no-global-assign
internalBinding = function internalBinding(module) {
let mod = bindingObj[module];
if (typeof mod !== 'object') {
mod = bindingObj[module] = getInternalBinding(module);
ArrayPrototypePush(moduleLoadList, `Internal Binding ${module}`);
}
return mod;
};
}
const selfId = 'internal/bootstrap/realm';
const {
builtinIds,
compileFunction,
setInternalLoaders,
} = internalBinding('builtins');
const { ModuleWrap } = internalBinding('module_wrap');
ObjectSetPrototypeOf(ModuleWrap.prototype, null);
const getOwn = (target, property, receiver) => {
return ObjectPrototypeHasOwnProperty(target, property) ?
ReflectGet(target, property, receiver) :
undefined;
};
const publicBuiltinIds = builtinIds
.filter((id) =>
!StringPrototypeStartsWith(id, 'internal/') &&
!experimentalModuleList.has(id),
);
// Do not expose the loaders to user land even with --expose-internals.
const internalBuiltinIds = builtinIds
.filter((id) => StringPrototypeStartsWith(id, 'internal/') && id !== selfId);
// When --expose-internals is on we'll add the internal builtin ids to these.
let canBeRequiredByUsersList = new SafeSet(publicBuiltinIds);
let canBeRequiredByUsersWithoutSchemeList =
new SafeSet(publicBuiltinIds.filter((id) => !schemelessBlockList.has(id)));
/**
* An internal abstraction for the built-in JavaScript modules of Node.js.
* Be careful not to expose this to user land unless --expose-internals is
* used, in which case there is no compatibility guarantee about this class.
*/
class BuiltinModule {
/**
* A map from the module IDs to the module instances.
* @type {Map<string, BuiltinModule>}
*/
static map = new SafeMap(
ArrayPrototypeMap(builtinIds, (id) => [id, new BuiltinModule(id)]),
);
constructor(id) {
this.filename = `${id}.js`;
this.id = id;
// The CJS exports object of the module.
this.exports = {};
// States used to work around circular dependencies.
this.loaded = false;
this.loading = false;
// The following properties are used by the ESM implementation and only
// initialized when the built-in module is loaded by users.
/**
* The C++ ModuleWrap binding used to interface with the ESM implementation.
* @type {ModuleWrap|undefined}
*/
this.module = undefined;
/**
* Exported names for the ESM imports.
* @type {string[]|undefined}
*/
this.exportKeys = undefined;
}
static allowRequireByUsers(id) {
if (id === selfId) {
// No code because this is an assertion against bugs.
// eslint-disable-next-line no-restricted-syntax
throw new Error(`Should not allow ${id}`);
}
canBeRequiredByUsersList.add(id);
if (!schemelessBlockList.has(id)) {
canBeRequiredByUsersWithoutSchemeList.add(id);
}
}
static setRealmAllowRequireByUsers(ids) {
canBeRequiredByUsersList =
new SafeSet(ArrayPrototypeFilter(ids, (id) => ArrayPrototypeIncludes(publicBuiltinIds, id)));
canBeRequiredByUsersWithoutSchemeList =
new SafeSet(ArrayPrototypeFilter(ids, (id) => !schemelessBlockList.has(id)));
}
// To be called during pre-execution when --expose-internals is on.
// Enables the user-land module loader to access internal modules.
static exposeInternals() {
for (let i = 0; i < internalBuiltinIds.length; ++i) {
BuiltinModule.allowRequireByUsers(internalBuiltinIds[i]);
}
}
static exists(id) {
return BuiltinModule.map.has(id);
}
static canBeRequiredByUsers(id) {
return canBeRequiredByUsersList.has(id);
}
static canBeRequiredWithoutScheme(id) {
return canBeRequiredByUsersWithoutSchemeList.has(id);
}
static normalizeRequirableId(id) {
if (StringPrototypeStartsWith(id, 'node:')) {
const normalizedId = StringPrototypeSlice(id, 5);
if (BuiltinModule.canBeRequiredByUsers(normalizedId)) {
return normalizedId;
}
} else if (BuiltinModule.canBeRequiredWithoutScheme(id)) {
return id;
}
return undefined;
}
static isBuiltin(id) {
return BuiltinModule.canBeRequiredWithoutScheme(id) || (
typeof id === 'string' &&
StringPrototypeStartsWith(id, 'node:') &&
BuiltinModule.canBeRequiredByUsers(StringPrototypeSlice(id, 5))
);
}
static getCanBeRequiredByUsersWithoutSchemeList() {
return ArrayFrom(canBeRequiredByUsersWithoutSchemeList);
}
static getSchemeOnlyModuleNames() {
return ArrayFrom(schemelessBlockList);
}
// Used by user-land module loaders to compile and load builtins.
compileForPublicLoader() {
if (!BuiltinModule.canBeRequiredByUsers(this.id)) {
// No code because this is an assertion against bugs
// eslint-disable-next-line no-restricted-syntax
throw new Error(`Should not compile ${this.id} for public use`);
}
this.compileForInternalLoader();
if (!this.exportKeys) {
// When using --expose-internals, we do not want to reflect the named
// exports from core modules as this can trigger unnecessary getters.
const internal = StringPrototypeStartsWith(this.id, 'internal/');
this.exportKeys = internal ? [] : ObjectKeys(this.exports);
}
return this.exports;
}
getESMFacade() {
if (this.module) return this.module;
const url = `node:${this.id}`;
const builtin = this;
const exportsKeys = ArrayPrototypeSlice(this.exportKeys);
if (!ArrayPrototypeIncludes(exportsKeys, 'default')) {
ArrayPrototypePush(exportsKeys, 'default');
}
this.module = new ModuleWrap(
url, undefined, exportsKeys,
function() {
builtin.syncExports();
this.setExport('default', builtin.exports);
});
// Ensure immediate sync execution to capture exports now
this.module.instantiate();
this.module.evaluate(-1, false);
return this.module;
}
// 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 updates when this function is
// called so that APMs and other behavior are supported.
syncExports() {
const names = this.exportKeys;
if (this.module) {
for (let i = 0; i < names.length; i++) {
const exportName = names[i];
if (exportName === 'default') continue;
this.module.setExport(exportName,
getOwn(this.exports, exportName, this.exports));
}
}
}
compileForInternalLoader() {
if (this.loaded || this.loading) {
return this.exports;
}
const id = this.id;
this.loading = true;
try {
const requireFn = StringPrototypeStartsWith(this.id, 'internal/deps/') ?
requireWithFallbackInDeps : requireBuiltin;
const fn = compileFunction(id);
// Arguments must match the parameters specified in
// BuiltinLoader::LookupAndCompile().
fn(this.exports, requireFn, this, process, internalBinding, primordials);
this.loaded = true;
} finally {
this.loading = false;
}
// "NativeModule" is a legacy name of "BuiltinModule". We keep it
// here to avoid breaking users who parse process.moduleLoadList.
ArrayPrototypePush(moduleLoadList, `NativeModule ${id}`);
return this.exports;
}
}
// Think of this as module.exports in this file even though it is not
// written in CommonJS style.
const loaderExports = {
internalBinding,
BuiltinModule,
require: requireBuiltin,
};
function requireBuiltin(id) {
if (id === selfId) {
return loaderExports;
}
const mod = BuiltinModule.map.get(id);
// Can't load the internal errors module from here, have to use a raw error.
// eslint-disable-next-line no-restricted-syntax
if (!mod) throw new TypeError(`Missing internal module '${id}'`);
return mod.compileForInternalLoader();
}
// Allow internal modules from dependencies to require
// other modules from dependencies by providing fallbacks.
function requireWithFallbackInDeps(request) {
if (StringPrototypeStartsWith(request, 'node:')) {
request = StringPrototypeSlice(request, 5);
} else if (!BuiltinModule.map.has(request)) {
request = `internal/deps/${request}`;
}
return requireBuiltin(request);
}
function setupPrepareStackTrace() {
const {
setEnhanceStackForFatalException,
setPrepareStackTraceCallback,
} = internalBinding('errors');
const {
prepareStackTraceCallback,
ErrorPrepareStackTrace,
fatalExceptionStackEnhancers: {
beforeInspector,
afterInspector,
},
} = requireBuiltin('internal/errors');
// Tell our PrepareStackTraceCallback passed to the V8 API
// to call prepareStackTrace().
setPrepareStackTraceCallback(prepareStackTraceCallback);
// Set the function used to enhance the error stack for printing
setEnhanceStackForFatalException(beforeInspector, afterInspector);
// Setup the default Error.prepareStackTrace.
ObjectDefineProperty(Error, 'prepareStackTrace', {
__proto__: null,
writable: true,
enumerable: false,
configurable: true,
value: ErrorPrepareStackTrace,
});
}
// Store the internal loaders in C++.
setInternalLoaders(internalBinding, requireBuiltin);
// Setup per-realm bindings.
setupPrepareStackTrace();
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