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Updating Applications

There are several ways to provide automatic updates to your Electron application. The easiest and officially supported one is taking advantage of the built-in Squirrel framework and Electron's autoUpdater module.


The Electron team maintains, a free and open-source webservice that Electron apps can use to self-update. The service is designed for Electron apps that meet the following criteria:

The easiest way to use this service is by installing update-electron-app, a Node.js module preconfigured for use with

Install the module using your Node.js package manager of choice:

npm install update-electron-app

Then, invoke the updater from your app's main process file:


By default, this module will check for updates at app startup, then every ten minutes. When an update is found, it will automatically be downloaded in the background. When the download completes, a dialog is displayed allowing the user to restart the app.

If you need to customize your configuration, you can pass options to update-electron-app or use the update service directly.

Using other update services

If you're developing a private Electron application, or if you're not publishing releases to GitHub Releases, it may be necessary to run your own update server.

Step 1: Deploying an update server

Depending on your needs, you can choose from one of these:

  • Hazel – Update server for private or open-source apps which can be deployed for free on Vercel. It pulls from GitHub Releases and leverages the power of GitHub's CDN.
  • Nuts – Also uses GitHub Releases, but caches app updates on disk and supports private repositories.
  • electron-release-server – Provides a dashboard for handling releases and does not require releases to originate on GitHub.
  • Nucleus – A complete update server for Electron apps maintained by Atlassian. Supports multiple applications and channels; uses a static file store to minify server cost.

Once you've deployed your update server, you can instrument your app code to receive and apply the updates with Electron's autoUpdater module.

Step 2: Receiving updates in your app

First, import the required modules in your main process code. The following code might vary for different server software, but it works like described when using Hazel.

Check your execution environment!

Please ensure that the code below will only be executed in your packaged app, and not in development. You can use the app.isPackaged API to check the environment.

const { app, autoUpdater, dialog } = require('electron')

Next, construct the URL of the update server feed and tell autoUpdater about it:

const server = ''
const url = `${server}/update/${process.platform}/${app.getVersion()}`

autoUpdater.setFeedURL({ url })

As the final step, check for updates. The example below will check every minute:

setInterval(() => {
}, 60000)

Once your application is packaged, it will receive an update for each new GitHub Release that you publish.

Step 3: Notifying users when updates are available

Now that you've configured the basic update mechanism for your application, you need to ensure that the user will get notified when there's an update. This can be achieved using the autoUpdater API events:

autoUpdater.on('update-downloaded', (event, releaseNotes, releaseName) => {
const dialogOpts = {
type: 'info',
buttons: ['Restart', 'Later'],
title: 'Application Update',
message: process.platform === 'win32' ? releaseNotes : releaseName,
'A new version has been downloaded. Restart the application to apply the updates.'

dialog.showMessageBox(dialogOpts).then((returnValue) => {
if (returnValue.response === 0) autoUpdater.quitAndInstall()

Also make sure that errors are being handled. Here's an example for logging them to stderr:

autoUpdater.on('error', (message) => {
console.error('There was a problem updating the application')
Handling updates manually

Because the requests made by autoUpdate aren't under your direct control, you may find situations that are difficult to handle (such as if the update server is behind authentication). The url field supports the file:// protocol, which means that with some effort, you can sidestep the server-communication aspect of the process by loading your update from a local directory. Here's an example of how this could work.