NPM module that builds Windows installers for Electron apps using Squirrel.
npm install --save-dev electron-winstaller
Require the package:
const electronInstaller = require('electron-winstaller');
Then do a build like so..
try {
await electronInstaller.createWindowsInstaller({
appDirectory: '/tmp/build/my-app-64',
outputDirectory: '/tmp/build/installer64',
authors: 'My App Inc.',
exe: 'myapp.exe'
});
console.log('It worked!');
} catch (e) {
console.log(`No dice: ${e.message}`);
}
After running you will have an .nupkg
, a
RELEASES
file, and a .exe
installer file in the outputDirectory
folder
for each multi task target given under the config entry.
There are several configuration settings supported:
Config Name | Required | Description |
---|---|---|
appDirectory |
Yes | The folder path of your Electron app |
outputDirectory |
No | The folder path to create the .exe installer in. Defaults to the installer folder at the project root. |
loadingGif |
No | The local path to a .gif file to display during install. |
authors |
Yes | The authors value for the nuget package metadata. Defaults to the author field from your app's package.json file when unspecified. |
owners |
No | The owners value for the nuget package metadata. Defaults to the authors field when unspecified. |
exe |
No | The name of your app's main .exe file. This uses the name field in your app's package.json file with an added .exe extension when unspecified. |
description |
No | The description value for the nuget package metadata. Defaults to the description field from your app's package.json file when unspecified. |
version |
No | The version value for the nuget package metadata. Defaults to the version field from your app's package.json file when unspecified. |
title |
No | The title value for the nuget package metadata. Defaults to the productName field and then the name field from your app's package.json file when unspecified. |
name |
No | Windows Application Model ID (appId). Defaults to the name field in your app's package.json file. |
certificateFile |
No | The path to an Authenticode Code Signing Certificate |
certificatePassword |
No | The password to decrypt the certificate given in certificateFile |
signWithParams |
No | Params to pass to signtool. Overrides certificateFile and certificatePassword . |
iconUrl |
No | A URL to an ICO file to use as the application icon (displayed in Control Panel > Programs and Features). Defaults to the Atom icon. |
setupIcon |
No | The ICO file to use as the icon for the generated Setup.exe |
skipUpdateIcon |
No | Disables setting the icon of Update.exe . This can solve installation errors with the following message: "This application could not be started", when the setup is built on a non-Windows system. |
setupExe |
No | The name to use for the generated Setup.exe file |
setupMsi |
No | The name to use for the generated Setup.msi file |
noMsi |
No | Should Squirrel.Windows create an MSI installer? |
noDelta |
No | Should Squirrel.Windows delta packages? (disable only if necessary, they are a Good Thing) |
remoteReleases |
No | A URL to your existing updates. If given, these will be downloaded to create delta updates |
remoteToken |
No | Authentication token for remote updates |
frameworkVersion |
No | Set the required .NET framework version, e.g. net461 |
windowsSign |
No | Use @electron/windows-sign for advanced codesigning. See documentation for details. |
For development / internal use, creating installers without a signature is okay, but for a production app you need to sign your application. Internet Explorer's SmartScreen filter will block your app from being downloaded, and many anti-virus vendors will consider your app as malware unless you obtain a valid cert.
Any certificate valid for "Authenticode Code Signing" will work here, but if you get the right kind of code certificate, you can also opt-in to Windows Error Reporting. This MSDN page has the latest links on where to get a WER-compatible certificate. The "Standard Code Signing" certificate is sufficient for this purpose.
Squirrel will spawn your app with command line flags on first run, updates, and uninstalls. it is very important that your app handle these events as early as possible, and quit immediately after handling them. Squirrel will give your app a short amount of time (~15sec) to apply these operations and quit.
The electron-squirrel-startup module will handle
the most common events for you, such as managing desktop shortcuts. Add the following to the top
of your main.js
and you're good to go:
if (require('electron-squirrel-startup')) return;
You should handle these events in your app's main
entry point with something
such as:
const app = require('app');
// this should be placed at top of main.js to handle setup events quickly
if (handleSquirrelEvent()) {
// squirrel event handled and app will exit in 1000ms, so don't do anything else
return;
}
function handleSquirrelEvent() {
if (process.argv.length === 1) {
return false;
}
const ChildProcess = require('child_process');
const path = require('path');
const appFolder = path.resolve(process.execPath, '..');
const rootAtomFolder = path.resolve(appFolder, '..');
const updateDotExe = path.resolve(path.join(rootAtomFolder, 'Update.exe'));
const exeName = path.basename(process.execPath);
const spawn = function(command, args) {
let spawnedProcess, error;
try {
spawnedProcess = ChildProcess.spawn(command, args, {detached: true});
} catch (error) {}
return spawnedProcess;
};
const spawnUpdate = function(args) {
return spawn(updateDotExe, args);
};
const squirrelEvent = process.argv[1];
switch (squirrelEvent) {
case '--squirrel-install':
case '--squirrel-updated':
// Optionally do things such as:
// - Add your .exe to the PATH
// - Write to the registry for things like file associations and
// explorer context menus
// Install desktop and start menu shortcuts
spawnUpdate(['--createShortcut', exeName]);
setTimeout(app.quit, 1000);
return true;
case '--squirrel-uninstall':
// Undo anything you did in the --squirrel-install and
// --squirrel-updated handlers
// Remove desktop and start menu shortcuts
spawnUpdate(['--removeShortcut', exeName]);
setTimeout(app.quit, 1000);
return true;
case '--squirrel-obsolete':
// This is called on the outgoing version of your app before
// we update to the new version - it's the opposite of
// --squirrel-updated
app.quit();
return true;
}
};
Notice that the first time the installer launches your app, your app will see a --squirrel-firstrun
flag. This allows you to do things like showing up a splash screen or presenting a settings UI. Another thing to be aware of is that, since the app is spawned by squirrel and squirrel acquires a file lock during installation, you won't be able to successfully check for app updates till a few seconds later when squirrel releases the lock.
Advanced codesigning with @electron/windows-sign
This package supports two different ways to codesign your application and the installer:
-
Modern: By passing a
windowsSign
option, which will be passed to @electron/windows-sign. This method allows full customization of the code-signing process - and supports more complicated scenarios like cloud-hosted EV certificates, custom sign pipelines, and per-file overrides. It also supports all existing "simple" codesigning scenarios, including just passing a certificate file and password. Please see https://github.com/@electron/windows-sign for all possible configuration options.When passing
windowsSign
, do not pass any other available parameters at the top level (likecertificateFile
,certificatePassword
, orsignWithParams
). -
Legacy: By passing the top-level settings (
certificateFile
,certificatePassword
, andsignWithParams
). For simple codesigning scenarios, there's no reason not to use this method - it'll work just as fine as the modern method.
You can get debug messages from this package by running with the environment variable DEBUG=electron-windows-installer:main
e.g.
DEBUG=electron-windows-installer:main node tasks/electron-winstaller.js