@electron/remote
is an Electron module that bridges
JavaScript objects from the main process to the renderer process. This lets you
access main-process-only objects as if they were available in the renderer
process.
⚠️ Warning! This module has many subtle pitfalls. There is almost always a better way to accomplish your task than using this module. For example,
ipcRenderer.invoke
can serve many common use cases.
@electron/remote
is a replacement for the built-in remote
module in
Electron, which is deprecated and will eventually be removed.
remote
NOTE:
@electron/remote
requires Electron 10 or higher.
There are three things you need to do to migrate from the built-in remote
module to @electron/remote
.
First, you need to install it from NPM:
$ npm install --save @electron/remote
Second, @electron/remote/main
must be initialized in the main
process before it can be used from the renderer:
// in the main process:
require('@electron/remote/main').initialize()
Third, require('electron').remote
in the renderer process must be
replaced with require('@electron/remote')
.
// in the renderer process:
// Before
const { BrowserWindow } = require('electron').remote
// After
const { BrowserWindow } = require('@electron/remote')
Note: Since this is requiring a module through npm rather than a built-in
module, if you’re using remote
from a sandboxed process, you’ll need to
configure your bundler appropriately to package the code of @electron/remote
in the preload script. Of course, using @electron/remote
makes the sandbox
much less effective.
Note: @electron/remote
respects the enableRemoteModule
WebPreferences
value. You must pass { webPreferences: { enableRemoteModule: true } }
to
the constructor of BrowserWindow
s that should be granted permission to use
@electron/remote
.
The remote
module provides a simple way to do inter-process communication
(IPC) between the renderer process (web page) and the main process.
In Electron, GUI-related modules (such as dialog
, menu
etc.) are only
available in the main process, not in the renderer process. In order to use them
from the renderer process, the ipc
module is necessary to send inter-process
messages to the main process. With the remote
module, you can invoke methods
of the main process object without explicitly sending inter-process messages,
similar to Java’s RMI. An example of creating a browser window from a
renderer process:
const { BrowserWindow } = require('@electron/remote')
let win = new BrowserWindow({ width: 800, height: 600 })
win.loadURL('https://github.com')
In order for this to work, you first need to initialize the main-process side of the remote module:
// in the main process:
require('@electron/remote/main').initialize()
Note: The remote module can be disabled for security reasons in the following contexts:
BrowserWindow
- by setting the enableRemoteModule
option to false
.<webview>
- by setting the enableremotemodule
attribute to false
.Each object (including functions) returned by the remote
module represents an
object in the main process (we call it a remote object or remote function).
When you invoke methods of a remote object, call a remote function, or create
a new object with the remote constructor (function), you are actually sending
synchronous inter-process messages.
In the example above, both BrowserWindow
and win
were remote objects and
new BrowserWindow
didn’t create a BrowserWindow
object in the renderer
process. Instead, it created a BrowserWindow
object in the main process and
returned the corresponding remote object in the renderer process, namely the
win
object.
Note: Only enumerable properties which are present when the remote object is first referenced are accessible via remote.
Note: Arrays and Buffers are copied over IPC when accessed via the remote
module. Modifying them in the renderer process does not modify them in the main
process and vice versa.
Electron makes sure that as long as the remote object in the renderer process lives (in other words, has not been garbage collected), the corresponding object in the main process will not be released. When the remote object has been garbage collected, the corresponding object in the main process will be dereferenced.
If the remote object is leaked in the renderer process (e.g. stored in a map but never freed), the corresponding object in the main process will also be leaked, so you should be very careful not to leak remote objects.
Primary value types like strings and numbers, however, are sent by copy.
Code in the main process can accept callbacks from the renderer - for instance
the remote
module - but you should be extremely careful when using this
feature.
First, in order to avoid deadlocks, the callbacks passed to the main process are called asynchronously. You should not expect the main process to get the return value of the passed callbacks.
For instance you can’t use a function from the renderer process in an
Array.map
called in the main process:
// main process mapNumbers.js
exports.withRendererCallback = (mapper) => {
return [1, 2, 3].map(mapper)
}
exports.withLocalCallback = () => {
return [1, 2, 3].map(x => x + 1)
}
// renderer process
const mapNumbers = require('@electron/remote').require('./mapNumbers')
const withRendererCb = mapNumbers.withRendererCallback(x => x + 1)
const withLocalCb = mapNumbers.withLocalCallback()
console.log(withRendererCb, withLocalCb)
// [undefined, undefined, undefined], [2, 3, 4]
As you can see, the renderer callback’s synchronous return value was not as expected, and didn’t match the return value of an identical callback that lives in the main process.
Second, the callbacks passed to the main process will persist until the main process garbage-collects them.
For example, the following code seems innocent at first glance. It installs a
callback for the close
event on a remote object:
require('@electron/remote').getCurrentWindow().on('close', () => {
// window was closed...
})
But remember the callback is referenced by the main process until you explicitly uninstall it. If you do not, each time you reload your window the callback will be installed again, leaking one callback for each restart.
To make things worse, since the context of previously installed callbacks has
been released, exceptions will be raised in the main process when the close
event is emitted.
To avoid this problem, ensure you clean up any references to renderer callbacks passed to the main process. This involves cleaning up event handlers, or ensuring the main process is explicitly told to dereference callbacks that came from a renderer process that is exiting.
The built-in modules in the main process are added as getters in the remote
module, so you can use them directly like the electron
module.
const app = require('@electron/remote').app
console.log(app)
The remote
module has the following methods:
remote.require(module)
module
StringReturns any
- The object returned by require(module)
in the main process.
Modules specified by their relative path will resolve relative to the entrypoint
of the main process.
e.g.
project/
├── main
│ ├── foo.js
│ └── index.js
├── package.json
└── renderer
└── index.js
// main process: main/index.js
const { app } = require('@electron/remote')
app.whenReady().then(() => { /* ... */ })
// some relative module: main/foo.js
module.exports = 'bar'
// renderer process: renderer/index.js
const foo = require('@electron/remote').require('./foo') // bar
remote.getCurrentWindow()
Returns BrowserWindow
- The window to which this web page belongs.
Note: Do not use removeAllListeners
on BrowserWindow
. Use of this can
remove all blur
listeners, disable click events on touch bar buttons, and other unintended
consequences.
remote.getCurrentWebContents()
Returns WebContents
- The web contents of this web page.
remote.getGlobal(name)
name
StringReturns any
- The global variable of name
(e.g. global[name]
) in the main
process.
remote.process
ReadonlyA NodeJS.Process
object. The process
object in the main process. This is the same as
remote.getGlobal('process')
but is cached.
Without filtering, @electron/remote
will provide access to any JavaScript
object that any renderer requests. In order to control what can be accessed,
@electron/remote
provides an opportunity to the app to return a custom result
for any of getGlobal
, require
, getCurrentWindow
, getCurrentWebContents
,
or any of the builtin module properties.
The following events will be emitted first on the app
Electron module, and
then on the specific WebContents
which requested the object. When emitted on
the app
module, the first parameter after the Event
object will be the
WebContents
which originated the request. If any handler calls
preventDefault
, the request will be denied. If a returnValue
parameter is
set on the result, then that value will be returned to the renderer instead of
the default.
Returns:
event
EventmoduleName
StringEmitted when remote.require()
is called in the renderer process of webContents
.
Calling event.preventDefault()
will prevent the module from being returned.
Custom value can be returned by setting event.returnValue
.
Returns:
event
EventglobalName
StringEmitted when remote.getGlobal()
is called in the renderer process of webContents
.
Calling event.preventDefault()
will prevent the global from being returned.
Custom value can be returned by setting event.returnValue
.
Returns:
event
EventmoduleName
StringEmitted when remote.getBuiltin()
is called in the renderer process of
webContents
, including when a builtin module is accessed as a property (e.g.
require("@electron/remote").BrowserWindow
).
Calling event.preventDefault()
will prevent the module from being returned.
Custom value can be returned by setting event.returnValue
.
Returns:
event
EventEmitted when remote.getCurrentWindow()
is called in the renderer process of webContents
.
Calling event.preventDefault()
will prevent the object from being returned.
Custom value can be returned by setting event.returnValue
.
Returns:
event
EventEmitted when remote.getCurrentWebContents()
is called in the renderer process of webContents
.
Calling event.preventDefault()
will prevent the object from being returned.
Custom value can be returned by setting event.returnValue
.