'use strict' /* eslint no-eval: "off" */ /* global binding, Buffer */ const events = require('events') const { EventEmitter } = events process.atomBinding = require('@electron/internal/common/atom-binding-setup')(binding.get, 'renderer') const v8Util = process.atomBinding('v8_util') // Expose browserify Buffer as a hidden value. This is used by C++ code to // deserialize Buffer instances sent from browser process. v8Util.setHiddenValue(global, 'Buffer', Buffer) // The `lib/renderer/api/ipc-renderer.js` module looks for the ipc object in the // "ipc" hidden value v8Util.setHiddenValue(global, 'ipc', new EventEmitter()) // The `lib/renderer/ipc-renderer-internal.js` module looks for the ipc object in the // "ipc-internal" hidden value v8Util.setHiddenValue(global, 'ipc-internal', new EventEmitter()) // The process object created by browserify is not an event emitter, fix it so // the API is more compatible with non-sandboxed renderers. for (const prop of Object.keys(EventEmitter.prototype)) { if (process.hasOwnProperty(prop)) { delete process[prop] } } Object.setPrototypeOf(process, EventEmitter.prototype) const ipcRenderer = require('@electron/internal/renderer/ipc-renderer-internal') const { preloadPath, preloadSrc, preloadError, isRemoteModuleEnabled, isWebViewTagEnabled, process: processProps } = ipcRenderer.sendSync('ELECTRON_BROWSER_SANDBOX_LOAD') process.isRemoteModuleEnabled = isRemoteModuleEnabled // The electron module depends on process.atomBinding const electron = require('electron') const remoteModules = new Set([ 'child_process', 'fs', 'os', 'path' ]) const loadedModules = new Map([ ['electron', electron], ['events', events], ['timers', require('timers')], ['url', require('url')] ]) // AtomSandboxedRendererClient will look for the "ipcNative" hidden object when // invoking the `onMessage`/`onExit` callbacks. const ipcNative = process.atomBinding('ipc') v8Util.setHiddenValue(global, 'ipcNative', ipcNative) ipcNative.onInternalMessage = function (channel, args, senderId) { ipcRenderer.emit(channel, { sender: ipcRenderer, senderId }, ...args) } ipcNative.onMessage = function (channel, args, senderId) { electron.ipcRenderer.emit(channel, { sender: electron.ipcRenderer, senderId }, ...args) } ipcNative.onExit = function () { process.emit('exit') } require('@electron/internal/renderer/web-frame-init')() // Pass different process object to the preload script(which should not have // access to things like `process.atomBinding`). const preloadProcess = new EventEmitter() Object.assign(preloadProcess, binding.process) Object.assign(preloadProcess, processProps) Object.assign(process, binding.process) Object.assign(process, processProps) Object.defineProperty(preloadProcess, 'noDeprecation', { get () { return process.noDeprecation }, set (value) { process.noDeprecation = value } }) process.on('exit', () => preloadProcess.emit('exit')) const { remoteRequire } = require('@electron/internal/renderer/remote') // This is the `require` function that will be visible to the preload script function preloadRequire (module) { if (loadedModules.has(module)) { return loadedModules.get(module) } if (remoteModules.has(module)) { electron.deprecate.warn(`require('${module}')`, `remote.require('${module}')`) return remoteRequire(module) } throw new Error('module not found') } // Process command line arguments. const { hasSwitch } = process.atomBinding('command_line') const isBackgroundPage = hasSwitch('background-page') const contextIsolation = hasSwitch('context-isolation') switch (window.location.protocol) { case 'chrome-devtools:': { // Override some inspector APIs. require('@electron/internal/renderer/inspector') break } case 'chrome-extension:': { // Inject the chrome.* APIs that chrome extensions require require('@electron/internal/renderer/chrome-api').injectTo(window.location.hostname, isBackgroundPage, window) break } } const guestInstanceId = binding.guestInstanceId && parseInt(binding.guestInstanceId) // Load webview tag implementation. require('@electron/internal/renderer/web-view/web-view-init')(contextIsolation, isWebViewTagEnabled, guestInstanceId) const errorUtils = require('@electron/internal/common/error-utils') // Wrap the script into a function executed in global scope. It won't have // access to the current scope, so we'll expose a few objects as arguments: // // - `require`: The `preloadRequire` function // - `process`: The `preloadProcess` object // - `Buffer`: Browserify `Buffer` implementation // - `global`: The window object, which is aliased to `global` by browserify. // // Browserify bundles can make use of an external require function as explained // in https://github.com/substack/node-browserify#multiple-bundles, so electron // apps can use multi-module preload scripts in sandboxed renderers. // // For example, the user can create a bundle with: // // $ browserify -x electron preload.js > renderer.js // // and any `require('electron')` calls in `preload.js` will work as expected // since browserify won't try to include `electron` in the bundle, falling back // to the `preloadRequire` function above. function runPreloadScript (preloadSrc) { const preloadWrapperSrc = `(function(require, process, Buffer, global, setImmediate, clearImmediate) { ${preloadSrc} })` // eval in window scope const preloadFn = binding.createPreloadScript(preloadWrapperSrc) const { setImmediate, clearImmediate } = require('timers') preloadFn(preloadRequire, preloadProcess, Buffer, global, setImmediate, clearImmediate) } try { if (preloadSrc) { runPreloadScript(preloadSrc) } else if (preloadError) { throw errorUtils.deserialize(preloadError) } } catch (error) { console.error(`Unable to load preload script: ${preloadPath}`) console.error(`${error}`) ipcRenderer.send('ELECTRON_BROWSER_PRELOAD_ERROR', preloadPath, errorUtils.serialize(error)) } // Warn about security issues require('@electron/internal/renderer/security-warnings')()