144 lines
5.2 KiB
TypeScript
144 lines
5.2 KiB
TypeScript
/* global binding */
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import * as events from 'events';
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import { IPC_MESSAGES } from '@electron/internal/common/ipc-messages';
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import type * as ipcRendererUtilsModule from '@electron/internal/renderer/ipc-renderer-internal-utils';
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import type * as ipcRendererInternalModule from '@electron/internal/renderer/ipc-renderer-internal';
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const { EventEmitter } = events;
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process._linkedBinding = binding.get;
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const v8Util = process._linkedBinding('electron_common_v8_util');
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// Expose Buffer shim as a hidden value. This is used by C++ code to
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// deserialize Buffer instances sent from browser process.
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v8Util.setHiddenValue(global, 'Buffer', Buffer);
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// The process object created by webpack is not an event emitter, fix it so
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// the API is more compatible with non-sandboxed renderers.
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for (const prop of Object.keys(EventEmitter.prototype) as (keyof typeof process)[]) {
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if (Object.prototype.hasOwnProperty.call(process, prop)) {
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delete process[prop];
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}
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}
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Object.setPrototypeOf(process, EventEmitter.prototype);
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const { ipcRendererInternal } = require('@electron/internal/renderer/ipc-renderer-internal') as typeof ipcRendererInternalModule;
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const ipcRendererUtils = require('@electron/internal/renderer/ipc-renderer-internal-utils') as typeof ipcRendererUtilsModule;
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const { preloadScripts, process: processProps } = ipcRendererUtils.invokeSync(IPC_MESSAGES.BROWSER_SANDBOX_LOAD);
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const electron = require('electron');
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const loadedModules = new Map<string, any>([
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['electron', electron],
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['electron/common', electron],
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['electron/renderer', electron],
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['events', events]
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]);
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const loadableModules = new Map<string, Function>([
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['timers', () => require('timers')],
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['url', () => require('url')]
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]);
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// ElectronSandboxedRendererClient will look for the "lifecycle" hidden object when
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v8Util.setHiddenValue(global, 'lifecycle', {
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onLoaded () {
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(process as events.EventEmitter).emit('loaded');
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},
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onExit () {
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(process as events.EventEmitter).emit('exit');
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},
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onDocumentStart () {
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(process as events.EventEmitter).emit('document-start');
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},
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onDocumentEnd () {
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(process as events.EventEmitter).emit('document-end');
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}
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});
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// Pass different process object to the preload script.
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const preloadProcess: NodeJS.Process = new EventEmitter() as any;
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Object.assign(preloadProcess, binding.process);
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Object.assign(preloadProcess, processProps);
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Object.assign(process, binding.process);
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Object.assign(process, processProps);
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process.getProcessMemoryInfo = preloadProcess.getProcessMemoryInfo = () => {
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return ipcRendererInternal.invoke<Electron.ProcessMemoryInfo>(IPC_MESSAGES.BROWSER_GET_PROCESS_MEMORY_INFO);
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};
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Object.defineProperty(preloadProcess, 'noDeprecation', {
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get () {
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return process.noDeprecation;
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},
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set (value) {
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process.noDeprecation = value;
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}
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});
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process.on('loaded', () => (preloadProcess as events.EventEmitter).emit('loaded'));
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process.on('exit', () => (preloadProcess as events.EventEmitter).emit('exit'));
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(process as events.EventEmitter).on('document-start', () => (preloadProcess as events.EventEmitter).emit('document-start'));
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(process as events.EventEmitter).on('document-end', () => (preloadProcess as events.EventEmitter).emit('document-end'));
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// This is the `require` function that will be visible to the preload script
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function preloadRequire (module: string) {
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if (loadedModules.has(module)) {
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return loadedModules.get(module);
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}
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if (loadableModules.has(module)) {
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const loadedModule = loadableModules.get(module)!();
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loadedModules.set(module, loadedModule);
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return loadedModule;
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}
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throw new Error(`module not found: ${module}`);
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}
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// Process command line arguments.
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const { hasSwitch } = process._linkedBinding('electron_common_command_line');
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// Similar to nodes --expose-internals flag, this exposes _linkedBinding so
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// that tests can call it to get access to some test only bindings
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if (hasSwitch('unsafely-expose-electron-internals-for-testing')) {
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preloadProcess._linkedBinding = process._linkedBinding;
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}
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// Common renderer initialization
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require('@electron/internal/renderer/common-init');
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// Wrap the script into a function executed in global scope. It won't have
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// access to the current scope, so we'll expose a few objects as arguments:
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//
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// - `require`: The `preloadRequire` function
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// - `process`: The `preloadProcess` object
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// - `Buffer`: Shim of `Buffer` implementation
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// - `global`: The window object, which is aliased to `global` by webpack.
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function runPreloadScript (preloadSrc: string) {
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const preloadWrapperSrc = `(function(require, process, Buffer, global, setImmediate, clearImmediate, exports) {
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${preloadSrc}
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})`;
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// eval in window scope
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const preloadFn = binding.createPreloadScript(preloadWrapperSrc);
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const { setImmediate, clearImmediate } = require('timers');
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preloadFn(preloadRequire, preloadProcess, Buffer, global, setImmediate, clearImmediate, {});
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}
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for (const { preloadPath, preloadSrc, preloadError } of preloadScripts) {
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try {
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if (preloadSrc) {
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runPreloadScript(preloadSrc);
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} else if (preloadError) {
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throw preloadError;
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}
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} catch (error) {
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console.error(`Unable to load preload script: ${preloadPath}`);
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console.error(error);
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ipcRendererInternal.send(IPC_MESSAGES.BROWSER_PRELOAD_ERROR, preloadPath, error);
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}
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}
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