Fix incorrect highlight in an example snippet At the moment, the "Communicating between processes" `main.js` snippet highlights the line containing `})` when the relevant line is `ipcMain.handle('ping', () => 'pong')`.
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title | description | slug | hide_title |
---|---|---|---|
Using Preload Scripts | This guide will step you through the process of creating a barebones Hello World app in Electron, similar to electron/electron-quick-start. | tutorial-preload | false |
:::info Follow along the tutorial
This is part 3 of the Electron tutorial.
- Prerequisites
- Building your First App
- Using Preload Scripts
- Adding Features
- Packaging Your Application
- Publishing and Updating
:::
Learning goals
In this part of the tutorial, you will learn what a preload script is and how to use one to securely expose privileged APIs into the renderer process. You will also learn how to communicate between main and renderer processes with Electron's inter-process communication (IPC) modules.
What is a preload script?
Electron's main process is a Node.js environment that has full operating system access. On top of Electron modules, you can also access Node.js built-ins, as well as any packages installed via npm. On the other hand, renderer processes run web pages and do not run Node.js by default for security reasons.
To bridge Electron's different process types together, we will need to use a special script called a preload.
Augmenting the renderer with a preload script
A BrowserWindow's preload script runs in a context that has access to both the HTML DOM and a limited subset of Node.js and Electron APIs.
:::info Preload script sandboxing
From Electron 20 onwards, preload scripts are sandboxed by default and no longer have access
to a full Node.js environment. Practically, this means that you have a polyfilled require
function that only has access to a limited set of APIs.
Available API | Details |
---|---|
Electron modules | Renderer process modules |
Node.js modules | events , timers , url |
Polyfilled globals | Buffer , process , clearImmediate , setImmediate |
For more information, check out the Process Sandboxing guide.
:::
Preload scripts are injected before a web page loads in the renderer, similar to a Chrome extension's content scripts. To add features to your renderer that require privileged access, you can define global objects through the contextBridge API.
To demonstrate this concept, you will create a preload script that exposes your app's versions of Chrome, Node, and Electron into the renderer.
Add a new preload.js
script that exposes selected properties of Electron's process.versions
object to the renderer process in a versions
global variable.
const { contextBridge } = require('electron')
contextBridge.exposeInMainWorld('versions', {
node: () => process.versions.node,
chrome: () => process.versions.chrome,
electron: () => process.versions.electron,
// we can also expose variables, not just functions
})
To attach this script to your renderer process, pass its path to the
webPreferences.preload
option in the BrowserWindow constructor:
const { app, BrowserWindow } = require('electron')
const path = require('path')
const createWindow = () => {
const win = new BrowserWindow({
width: 800,
height: 600,
webPreferences: {
preload: path.join(__dirname, 'preload.js'),
},
})
win.loadFile('index.html')
}
app.whenReady().then(() => {
createWindow()
})
:::info
There are two Node.js concepts that are used here:
- The
__dirname
string points to the path of the currently executing script (in this case, your project's root folder). - The
path.join
API joins multiple path segments together, creating a combined path string that works across all platforms.
:::
At this point, the renderer has access to the versions
global, so let's display that
information in the window. This variable can be accessed via window.versions
or simply
versions
. Create a renderer.js
script that uses the document.getElementById
DOM API to replace the displayed text for the HTML element with info
as its id
property.
const information = document.getElementById('info')
information.innerText = `This app is using Chrome (v${versions.chrome()}), Node.js (v${versions.node()}), and Electron (v${versions.electron()})`
Then, modify your index.html
by adding a new element with info
as its id
property,
and attach your renderer.js
script:
<!DOCTYPE html>
<html>
<head>
<meta charset="UTF-8" />
<meta
http-equiv="Content-Security-Policy"
content="default-src 'self'; script-src 'self'"
/>
<meta
http-equiv="X-Content-Security-Policy"
content="default-src 'self'; script-src 'self'"
/>
<title>Hello from Electron renderer!</title>
</head>
<body>
<h1>Hello from Electron renderer!</h1>
<p>👋</p>
<p id="info"></p>
</body>
<script src="./renderer.js"></script>
</html>
After following the above steps, your app should look something like this:
And the code should look like this:
Communicating between processes
As we have mentioned above, Electron's main and renderer process have distinct responsibilities and are not interchangeable. This means it is not possible to access the Node.js APIs directly from the renderer process, nor the HTML Document Object Model (DOM) from the main process.
The solution for this problem is to use Electron's ipcMain
and ipcRenderer
modules for
inter-process communication (IPC). To send a message from your web page to the main process,
you can set up a main process handler with ipcMain.handle
and
then expose a function that calls ipcRenderer.invoke
to trigger the handler in your preload script.
To illustrate, we will add a global function to the renderer called ping()
that will return a string from the main process.
First, set up the invoke
call in your preload script:
const { contextBridge, ipcRenderer } = require('electron')
contextBridge.exposeInMainWorld('versions', {
node: () => process.versions.node,
chrome: () => process.versions.chrome,
electron: () => process.versions.electron,
ping: () => ipcRenderer.invoke('ping'),
// we can also expose variables, not just functions
})
:::caution IPC security
Notice how we wrap the ipcRenderer.invoke('ping')
call in a helper function rather
than expose the ipcRenderer
module directly via context bridge. You never want to
directly expose the entire ipcRenderer
module via preload. This would give your renderer
the ability to send arbitrary IPC messages to the main process, which becomes a powerful
attack vector for malicious code.
:::
Then, set up your handle
listener in the main process. We do this before
loading the HTML file so that the handler is guaranteed to be ready before
you send out the invoke
call from the renderer.
const { app, BrowserWindow, ipcMain } = require('electron')
const path = require('path')
const createWindow = () => {
const win = new BrowserWindow({
width: 800,
height: 600,
webPreferences: {
preload: path.join(__dirname, 'preload.js'),
},
})
ipcMain.handle('ping', () => 'pong')
win.loadFile('index.html')
}
app.whenReady().then(createWindow)
Once you have the sender and receiver set up, you can now send messages from the renderer
to the main process through the 'ping'
channel you just defined.
const func = async () => {
const response = await window.versions.ping()
console.log(response) // prints out 'pong'
}
func()
:::info
For more in-depth explanations on using the ipcRenderer
and ipcMain
modules,
check out the full Inter-Process Communication guide.
:::
Summary
A preload script contains code that runs before your web page is loaded into the browser
window. It has access to both DOM APIs and Node.js environment, and is often used to
expose privileged APIs to the renderer via the contextBridge
API.
Because the main and renderer processes have very different responsibilities, Electron apps often use the preload script to set up inter-process communication (IPC) interfaces to pass arbitrary messages between the two kinds of processes.
In the next part of the tutorial, we will be showing you resources on adding more functionality to your app, then teaching you distributing your app to users.