electron-development
Master Electron desktop app development with secure IPC, contextIsolation, preload scripts, multi-process architecture, electron-builder packaging, code signing, and auto-update.
Best use case
electron-development is best used when you need a repeatable AI agent workflow instead of a one-off prompt.
Master Electron desktop app development with secure IPC, contextIsolation, preload scripts, multi-process architecture, electron-builder packaging, code signing, and auto-update.
Teams using electron-development should expect a more consistent output, faster repeated execution, less prompt rewriting.
When to use this skill
- You want a reusable workflow that can be run more than once with consistent structure.
When not to use this skill
- You only need a quick one-off answer and do not need a reusable workflow.
- You cannot install or maintain the underlying files, dependencies, or repository context.
Installation
Claude Code / Cursor / Codex
Manual Installation
- Download SKILL.md from GitHub
- Place it in
.claude/skills/electron-development/SKILL.mdinside your project - Restart your AI agent — it will auto-discover the skill
How electron-development Compares
| Feature / Agent | electron-development | Standard Approach |
|---|---|---|
| Platform Support | Not specified | Limited / Varies |
| Context Awareness | High | Baseline |
| Installation Complexity | Unknown | N/A |
Frequently Asked Questions
What does this skill do?
Master Electron desktop app development with secure IPC, contextIsolation, preload scripts, multi-process architecture, electron-builder packaging, code signing, and auto-update.
Where can I find the source code?
You can find the source code on GitHub using the link provided at the top of the page.
SKILL.md Source
# Electron Development
You are a senior Electron engineer specializing in secure, production-grade desktop application architecture. You have deep expertise in Electron's multi-process model, IPC security patterns, native OS integration, application packaging, code signing, and auto-update strategies.
## Use this skill when
- Building new Electron desktop applications from scratch
- Securing an Electron app (contextIsolation, sandbox, CSP, nodeIntegration)
- Setting up IPC communication between main, renderer, and preload processes
- Packaging and distributing Electron apps with electron-builder or electron-forge
- Implementing auto-update with electron-updater
- Debugging main process issues or renderer crashes
- Managing multiple windows and application lifecycle
- Integrating native OS features (menus, tray, notifications, file system dialogs)
- Optimizing Electron app performance and bundle size
## Do not use this skill when
- Building web-only applications without desktop distribution → use `react-patterns`, `nextjs-best-practices`
- Building Tauri apps (Rust-based desktop alternative) → use `tauri-development` if available
- Building Chrome extensions → use `chrome-extension-developer`
- Implementing deep backend/server logic → use `nodejs-backend-patterns`
- Building mobile apps → use `react-native-architecture` or `flutter-expert`
## Instructions
1. Analyze the project structure and identify process boundaries.
2. Enforce security defaults: `contextIsolation: true`, `nodeIntegration: false`, `sandbox: true`.
3. Design IPC channels with explicit whitelisting in the preload script.
4. Implement, test, and build with appropriate tooling.
5. Validate against the Production Security Checklist before shipping.
---
## Core Expertise Areas
### 1. Project Structure & Architecture
**Recommended project layout:**
```
my-electron-app/
├── package.json
├── electron-builder.yml # or forge.config.ts
├── src/
│ ├── main/
│ │ ├── main.ts # Main process entry
│ │ ├── ipc-handlers.ts # IPC channel handlers
│ │ ├── menu.ts # Application menu
│ │ ├── tray.ts # System tray
│ │ └── updater.ts # Auto-update logic
│ ├── preload/
│ │ └── preload.ts # Bridge between main ↔ renderer
│ ├── renderer/
│ │ ├── index.html # Entry HTML
│ │ ├── App.tsx # UI root (React/Vue/Svelte/vanilla)
│ │ ├── components/
│ │ └── styles/
│ └── shared/
│ ├── constants.ts # IPC channel names, shared enums
│ └── types.ts # Shared TypeScript interfaces
├── resources/
│ ├── icon.png # App icon (1024x1024)
│ └── entitlements.mac.plist # macOS entitlements
├── tests/
│ ├── unit/
│ └── e2e/
└── tsconfig.json
```
**Key architectural principles:**
- **Separate entry points**: Main, preload, and renderer each have their own build configuration.
- **Shared types, not shared modules**: The `shared/` directory contains only types, constants, and enums — never executable code imported across process boundaries.
- **Keep main process lean**: Main should orchestrate windows, handle IPC, and manage app lifecycle. Business logic belongs in the renderer or dedicated worker processes.
---
### 2. Process Model (Main / Renderer / Preload / Utility)
Electron runs **multiple processes** that are isolated by design:
| Process | Role | Node.js Access | DOM Access |
|---------|------|----------------|------------|
| **Main** | App lifecycle, windows, native APIs, IPC hub | ✅ Full | ❌ None |
| **Renderer** | UI rendering, user interaction | ❌ None (by default) | ✅ Full |
| **Preload** | Secure bridge between main and renderer | ✅ Limited (via contextBridge) | ✅ Before page loads |
| **Utility** | CPU-intensive tasks, background work | ✅ Full | ❌ None |
**BrowserWindow with security defaults (MANDATORY):**
```typescript
import { BrowserWindow } from 'electron';
import path from 'node:path';
function createMainWindow(): BrowserWindow {
const win = new BrowserWindow({
width: 1200,
height: 800,
webPreferences: {
// ── SECURITY DEFAULTS (NEVER CHANGE THESE) ──
contextIsolation: true, // Isolates preload from renderer context
nodeIntegration: false, // Prevents require() in renderer
sandbox: true, // OS-level process sandboxing
// ── PRELOAD SCRIPT ──
preload: path.join(__dirname, '../preload/preload.js'),
// ── ADDITIONAL HARDENING ──
webSecurity: true, // Enforce same-origin policy
allowRunningInsecureContent: false,
experimentalFeatures: false,
},
});
// Content Security Policy
win.webContents.session.webRequest.onHeadersReceived((details, callback) => {
callback({
responseHeaders: {
...details.responseHeaders,
'Content-Security-Policy': [
"default-src 'self'; script-src 'self'; style-src 'self' 'unsafe-inline'; img-src 'self' data:; font-src 'self' data:;"
],
},
});
});
return win;
}
```
> ⚠️ **CRITICAL**: Never set `nodeIntegration: true` or `contextIsolation: false` in production. These settings expose the renderer to remote code execution (RCE) attacks through XSS vulnerabilities.
---
### 3. Secure IPC Communication
IPC is the **only** safe channel for communication between main and renderer processes. All IPC must flow through the preload script.
**Preload script (contextBridge + explicit whitelisting):**
```typescript
// src/preload/preload.ts
import { contextBridge, ipcRenderer } from 'electron';
// ── WHITELIST: Only expose specific channels ──
const ALLOWED_SEND_CHANNELS = [
'file:save',
'file:open',
'app:get-version',
'dialog:show-open',
] as const;
const ALLOWED_RECEIVE_CHANNELS = [
'file:saved',
'file:opened',
'app:version',
'update:available',
'update:progress',
'update:downloaded',
'update:error',
] as const;
type SendChannel = typeof ALLOWED_SEND_CHANNELS[number];
type ReceiveChannel = typeof ALLOWED_RECEIVE_CHANNELS[number];
contextBridge.exposeInMainWorld('electronAPI', {
// One-way: renderer → main
send: (channel: SendChannel, ...args: unknown[]) => {
if (ALLOWED_SEND_CHANNELS.includes(channel)) {
ipcRenderer.send(channel, ...args);
}
},
// Two-way: renderer → main → renderer (request/response)
invoke: (channel: SendChannel, ...args: unknown[]) => {
if (ALLOWED_SEND_CHANNELS.includes(channel)) {
return ipcRenderer.invoke(channel, ...args);
}
return Promise.reject(new Error(`Channel "${channel}" is not allowed`));
},
// One-way: main → renderer (subscriptions)
on: (channel: ReceiveChannel, callback: (...args: unknown[]) => void) => {
if (ALLOWED_RECEIVE_CHANNELS.includes(channel)) {
const listener = (_event: Electron.IpcRendererEvent, ...args: unknown[]) => callback(...args);
ipcRenderer.on(channel, listener);
return () => ipcRenderer.removeListener(channel, listener);
}
return () => {};
},
});
```
**Main process IPC handlers:**
```typescript
// src/main/ipc-handlers.ts
import { ipcMain, dialog, BrowserWindow } from 'electron';
import { readFile, writeFile } from 'node:fs/promises';
export function registerIpcHandlers(): void {
// invoke() pattern: returns a value to the renderer
ipcMain.handle('file:open', async () => {
const { canceled, filePaths } = await dialog.showOpenDialog({
properties: ['openFile'],
filters: [{ name: 'Text Files', extensions: ['txt', 'md'] }],
});
if (canceled || filePaths.length === 0) return null;
const content = await readFile(filePaths[0], 'utf-8');
return { path: filePaths[0], content };
});
ipcMain.handle('file:save', async (_event, filePath: string, content: string) => {
// VALIDATE INPUTS — never trust renderer data blindly
if (typeof filePath !== 'string' || typeof content !== 'string') {
throw new Error('Invalid arguments');
}
await writeFile(filePath, content, 'utf-8');
return { success: true };
});
ipcMain.handle('app:get-version', () => {
return process.versions.electron;
});
}
```
**Renderer usage (type-safe):**
```typescript
// src/renderer/App.tsx — or any renderer code
// The electronAPI is globally available via contextBridge
declare global {
interface Window {
electronAPI: {
send: (channel: string, ...args: unknown[]) => void;
invoke: (channel: string, ...args: unknown[]) => Promise<unknown>;
on: (channel: string, callback: (...args: unknown[]) => void) => () => void;
};
}
}
// Open a file via IPC
async function openFile() {
const result = await window.electronAPI.invoke('file:open');
if (result) {
console.log('File content:', result.content);
}
}
// Subscribe to updates from main process
const unsubscribe = window.electronAPI.on('update:available', (version) => {
console.log('Update available:', version);
});
// Cleanup on unmount
// unsubscribe();
```
**IPC Pattern Summary:**
| Pattern | Method | Use Case |
|---------|--------|----------|
| **Fire-and-forget** | `ipcRenderer.send()` → `ipcMain.on()` | Logging, telemetry, non-critical notifications |
| **Request/Response** | `ipcRenderer.invoke()` → `ipcMain.handle()` | File operations, dialogs, data queries |
| **Push to renderer** | `webContents.send()` → `ipcRenderer.on()` | Progress updates, download status, auto-update |
> ⚠️ **Never** use `ipcRenderer.sendSync()` in production — it blocks the renderer's event loop and freezes the UI.
---
### 4. Security Hardening
#### Production Security Checklist
```
── MANDATORY ──
[ ] contextIsolation: true
[ ] nodeIntegration: false
[ ] sandbox: true
[ ] webSecurity: true
[ ] allowRunningInsecureContent: false
── IPC ──
[ ] Preload uses contextBridge with explicit channel whitelisting
[ ] All IPC inputs are validated in the main process
[ ] No raw ipcRenderer exposed to renderer context
[ ] No use of ipcRenderer.sendSync()
── CONTENT ──
[ ] Content Security Policy (CSP) headers set on all windows
[ ] No use of eval(), new Function(), or innerHTML with untrusted data
[ ] Remote content (if any) loaded in separate BrowserView with restricted permissions
[ ] protocol.registerSchemesAsPrivileged() uses minimal permissions
── NAVIGATION ──
[ ] webContents 'will-navigate' event intercepted — block unexpected URLs
[ ] webContents 'new-window' event intercepted — prevent pop-up exploitation
[ ] No shell.openExternal() with unsanitized URLs
── PACKAGING ──
[ ] ASAR archive enabled (protects source from casual inspection)
[ ] No sensitive credentials or API keys bundled in the app
[ ] Code signing configured for both Windows and macOS
[ ] Auto-update uses HTTPS and verifies signatures
```
**Preventing Navigation Hijacking:**
```typescript
// In main process, after creating a BrowserWindow
win.webContents.on('will-navigate', (event, url) => {
const parsedUrl = new URL(url);
// Only allow navigation within your app
if (parsedUrl.origin !== 'http://localhost:5173') { // dev server
event.preventDefault();
console.warn(`Blocked navigation to: ${url}`);
}
});
// Prevent new windows from being opened
win.webContents.setWindowOpenHandler(({ url }) => {
try {
const externalUrl = new URL(url);
const allowedHosts = new Set(['example.com', 'docs.example.com']);
// Never forward raw renderer-controlled URLs to the OS.
// Unvalidated links can enable phishing or abuse platform URL handlers.
if (externalUrl.protocol === 'https:' && allowedHosts.has(externalUrl.hostname)) {
require('electron').shell.openExternal(externalUrl.toString());
} else {
console.warn(`Blocked external URL: ${url}`);
}
} catch {
console.warn(`Rejected invalid external URL: ${url}`);
}
return { action: 'deny' }; // Block all new Electron windows
});
```
**Custom Protocol Registration (secure):**
```typescript
import { protocol } from 'electron';
import path from 'node:path';
import { readFile } from 'node:fs/promises';
import { URL } from 'node:url';
// Register a custom protocol for loading local assets securely
protocol.registerSchemesAsPrivileged([
{ scheme: 'app', privileges: { standard: true, secure: true, supportFetchAPI: true } },
]);
app.whenReady().then(() => {
protocol.handle('app', async (request) => {
const url = new URL(request.url);
const baseDir = path.resolve(__dirname, '../renderer');
// Strip the leading slash so path.resolve keeps baseDir as the root.
const relativePath = path.normalize(decodeURIComponent(url.pathname).replace(/^[/\\]+/, ''));
const filePath = path.resolve(baseDir, relativePath);
if (!filePath.startsWith(baseDir)) {
return new Response('Forbidden', { status: 403 });
}
const data = await readFile(filePath);
return new Response(data);
});
});
```
---
### 5. State Management Across Processes
**Strategy 1: Main process as single source of truth (recommended for most apps)**
```typescript
// src/main/store.ts
import { app } from 'electron';
import { readFileSync, writeFileSync } from 'node:fs';
import path from 'node:path';
interface AppState {
theme: 'light' | 'dark';
recentFiles: string[];
windowBounds: { x: number; y: number; width: number; height: number };
}
const DEFAULTS: AppState = {
theme: 'light',
recentFiles: [],
windowBounds: { x: 0, y: 0, width: 1200, height: 800 },
};
class Store {
private data: AppState;
private filePath: string;
constructor() {
this.filePath = path.join(app.getPath('userData'), 'settings.json');
this.data = this.load();
}
private load(): AppState {
try {
const raw = readFileSync(this.filePath, 'utf-8');
return { ...DEFAULTS, ...JSON.parse(raw) };
} catch {
return { ...DEFAULTS };
}
}
get<K extends keyof AppState>(key: K): AppState[K] {
return this.data[key];
}
set<K extends keyof AppState>(key: K, value: AppState[K]): void {
this.data[key] = value;
writeFileSync(this.filePath, JSON.stringify(this.data, null, 2));
}
}
export const store = new Store();
```
**Strategy 2: electron-store (lightweight persistent storage)**
```typescript
import Store from 'electron-store';
const store = new Store({
schema: {
theme: { type: 'string', enum: ['light', 'dark'], default: 'light' },
windowBounds: {
type: 'object',
properties: {
width: { type: 'number', default: 1200 },
height: { type: 'number', default: 800 },
},
},
},
});
// Usage
store.set('theme', 'dark');
console.log(store.get('theme')); // 'dark'
```
**Multi-window state synchronization:**
```typescript
// Main process: broadcast state changes to all windows
import { BrowserWindow } from 'electron';
function broadcastToAllWindows(channel: string, data: unknown): void {
for (const win of BrowserWindow.getAllWindows()) {
if (!win.isDestroyed()) {
win.webContents.send(channel, data);
}
}
}
// When theme changes:
ipcMain.handle('settings:set-theme', (_event, theme: 'light' | 'dark') => {
store.set('theme', theme);
broadcastToAllWindows('settings:theme-changed', theme);
});
```
---
### 6. Build, Signing & Distribution
#### electron-builder Configuration
```yaml
# electron-builder.yml
appId: com.mycompany.myapp
productName: My App
directories:
output: dist
buildResources: resources
files:
- "out/**/*" # compiled main + preload
- "renderer/**/*" # built renderer assets
- "package.json"
asar: true
compression: maximum
# ── macOS ──
mac:
category: public.app-category.developer-tools
hardenedRuntime: true
gatekeeperAssess: false
entitlements: resources/entitlements.mac.plist
entitlementsInherit: resources/entitlements.mac.plist
target:
- target: dmg
arch: [x64, arm64]
- target: zip
arch: [x64, arm64]
# ── Windows ──
win:
target:
- target: nsis
arch: [x64, arm64]
signingHashAlgorithms: [sha256]
nsis:
oneClick: false
allowToChangeInstallationDirectory: true
perMachine: false
# ── Linux ──
linux:
target:
- target: AppImage
- target: deb
category: Development
maintainer: your-email@example.com
# ── Auto Update ──
publish:
provider: github
owner: your-org
repo: your-repo
```
#### Code Signing
```bash
# macOS: requires Apple Developer certificate
# Set environment variables before building:
export CSC_LINK="path/to/Developer_ID_Application.p12"
export CSC_KEY_PASSWORD="your-password"
# Windows: requires EV or standard code signing certificate
# Set environment variables:
export WIN_CSC_LINK="path/to/code-signing.pfx"
export WIN_CSC_KEY_PASSWORD="your-password"
# Build signed app
npx electron-builder --mac --win --publish never
```
#### Auto-Update with electron-updater
```typescript
// src/main/updater.ts
import { autoUpdater } from 'electron-updater';
import { BrowserWindow } from 'electron';
import log from 'electron-log';
export function setupAutoUpdater(mainWindow: BrowserWindow): void {
autoUpdater.logger = log;
autoUpdater.autoDownload = false; // Let user decide
autoUpdater.autoInstallOnAppQuit = true;
autoUpdater.on('update-available', (info) => {
mainWindow.webContents.send('update:available', {
version: info.version,
releaseNotes: info.releaseNotes,
});
});
autoUpdater.on('download-progress', (progress) => {
mainWindow.webContents.send('update:progress', {
percent: Math.round(progress.percent),
bytesPerSecond: progress.bytesPerSecond,
});
});
autoUpdater.on('update-downloaded', () => {
mainWindow.webContents.send('update:downloaded');
});
autoUpdater.on('error', (err) => {
log.error('Update error:', err);
mainWindow.webContents.send('update:error', err.message);
});
// Check for updates every 4 hours
setInterval(() => autoUpdater.checkForUpdates(), 4 * 60 * 60 * 1000);
autoUpdater.checkForUpdates();
}
// Expose to renderer via IPC
ipcMain.handle('update:download', () => autoUpdater.downloadUpdate());
ipcMain.handle('update:install', () => autoUpdater.quitAndInstall());
```
#### Bundle Size Optimization
- ✅ Use `asar: true` to package sources into a single archive
- ✅ Set `compression: maximum` in electron-builder config
- ✅ Exclude dev dependencies: `"files"` pattern should only include compiled output
- ✅ Use a bundler (Vite, webpack, esbuild) to tree-shake the renderer
- ✅ Audit `node_modules` shipped with the app — use `electron-builder`'s `files` exclude patterns
- ✅ Consider `@electron/rebuild` for native modules instead of shipping prebuilt for all platforms
- ❌ Do NOT bundle the entire `node_modules` — only production dependencies
---
### 7. Developer Experience & Debugging
#### Development Setup with Hot Reload
```json
// package.json scripts
{
"scripts": {
"dev": "concurrently \"npm run dev:renderer\" \"npm run dev:main\"",
"dev:renderer": "vite",
"dev:main": "electron-vite dev",
"build": "electron-vite build",
"start": "electron ."
}
}
```
**Recommended toolchain:**
- **electron-vite** or **electron-forge with Vite plugin** — modern, fast HMR for renderer
- **tsx** or **ts-node** — for running TypeScript in main process during development
- **concurrently** — run renderer dev server + Electron simultaneously
#### Debugging the Main Process
```json
// .vscode/launch.json
{
"version": "0.2.0",
"configurations": [
{
"name": "Debug Main Process",
"type": "node",
"request": "launch",
"cwd": "${workspaceFolder}",
"runtimeExecutable": "${workspaceFolder}/node_modules/.bin/electron",
"args": [".", "--remote-debugging-port=9223"],
"sourceMaps": true,
"outFiles": ["${workspaceFolder}/out/**/*.js"],
"env": {
"NODE_ENV": "development"
}
}
]
}
```
**Other debugging techniques:**
```typescript
// Enable DevTools only in development
if (process.env.NODE_ENV === 'development') {
win.webContents.openDevTools({ mode: 'detach' });
}
// Inspect specific renderer processes from command line:
// electron . --inspect=5858 --remote-debugging-port=9223
```
#### Testing Strategy
**Unit testing (Vitest / Jest):**
```typescript
// tests/unit/store.test.ts
import { describe, it, expect, vi } from 'vitest';
// Mock Electron modules for unit tests
vi.mock('electron', () => ({
app: { getPath: () => '/tmp/test' },
}));
describe('Store', () => {
it('returns default values for missing keys', () => {
// Test store logic without Electron runtime
});
});
```
**E2E testing (Playwright + Electron):**
```typescript
// tests/e2e/app.spec.ts
import { test, expect, _electron as electron } from '@playwright/test';
test('app launches and shows main window', async () => {
const app = await electron.launch({ args: ['.'] });
const window = await app.firstWindow();
// Wait for the app to fully load
await window.waitForLoadState('domcontentloaded');
const title = await window.title();
expect(title).toBe('My App');
// Take a screenshot for visual regression
await window.screenshot({ path: 'tests/screenshots/main-window.png' });
await app.close();
});
test('file open dialog works via IPC', async () => {
const app = await electron.launch({ args: ['.'] });
const window = await app.firstWindow();
// Test IPC by evaluating in the renderer context
const version = await window.evaluate(async () => {
return window.electronAPI.invoke('app:get-version');
});
expect(version).toBeTruthy();
await app.close();
});
```
**Playwright config for Electron:**
```typescript
// playwright.config.ts
import { defineConfig } from '@playwright/test';
export default defineConfig({
testDir: './tests/e2e',
timeout: 30_000,
retries: 1,
use: {
trace: 'on-first-retry',
screenshot: 'only-on-failure',
},
});
```
---
## Application Lifecycle Management
```typescript
// src/main/main.ts
import { app, BrowserWindow } from 'electron';
import { registerIpcHandlers } from './ipc-handlers';
import { setupAutoUpdater } from './updater';
import { store } from './store';
let mainWindow: BrowserWindow | null = null;
app.whenReady().then(() => {
registerIpcHandlers();
mainWindow = createMainWindow();
// Restore window bounds
const bounds = store.get('windowBounds');
if (bounds) mainWindow.setBounds(bounds);
// Save window bounds on close
mainWindow.on('close', () => {
if (mainWindow) store.set('windowBounds', mainWindow.getBounds());
});
// Auto-update (only in production)
if (app.isPackaged) {
setupAutoUpdater(mainWindow);
}
// macOS: re-create window when dock icon is clicked
app.on('activate', () => {
if (BrowserWindow.getAllWindows().length === 0) {
mainWindow = createMainWindow();
}
});
});
// Quit when all windows are closed (except on macOS)
app.on('window-all-closed', () => {
if (process.platform !== 'darwin') {
app.quit();
}
});
// Security: prevent additional renderers from being created
app.on('web-contents-created', (_event, contents) => {
contents.on('will-attach-webview', (event) => {
event.preventDefault(); // Block <webview> tags
});
});
```
---
## Common Issue Diagnostics
### White Screen on Launch
**Symptoms**: App starts but renderer shows a blank/white page
**Root causes**: Incorrect `loadFile`/`loadURL` path, build output missing, CSP blocking scripts
**Solutions**: Verify the path passed to `win.loadFile()` or `win.loadURL()` exists relative to the packaged app. Check DevTools console for CSP violations. In development, ensure the Vite/webpack dev server is running before Electron starts.
### IPC Messages Not Received
**Symptoms**: `invoke()` hangs or `send()` has no effect
**Root causes**: Channel name mismatch, preload not loaded, contextBridge not exposing the channel
**Solutions**: Verify channel names match exactly between preload, main, and renderer. Confirm `preload` path is correct in `webPreferences`. Check that the channel is in the whitelist array.
### Native Module Crashes
**Symptoms**: App crashes on startup with `MODULE_NOT_FOUND` or `invalid ELF header`
**Root causes**: Native module compiled for wrong Electron/Node ABI version
**Solutions**: Run `npx @electron/rebuild` after installing native modules. Ensure `electron-builder` is configured with the correct Electron version for rebuilding.
### App Not Updating
**Symptoms**: `autoUpdater.checkForUpdates()` returns nothing or errors
**Root causes**: Missing `publish` config, unsigned app (macOS), incorrect GitHub release assets
**Solutions**: Verify `publish` section in `electron-builder.yml`. On macOS, app must be code-signed and notarized. Ensure the GitHub release contains the `-mac.zip` and `latest-mac.yml` (or equivalent Windows files).
### Large Bundle Size (>200MB)
**Symptoms**: Built application is excessively large
**Root causes**: Dev dependencies bundled, no tree-shaking, duplicate Electron binaries
**Solutions**: Audit `files` patterns in `electron-builder.yml`. Use a bundler (Vite/esbuild) for the renderer. Check that `devDependencies` are not in `dependencies`. Use `compression: maximum`.
---
## Best Practices
- ✅ **Always** set `contextIsolation: true` and `nodeIntegration: false`
- ✅ **Always** use `contextBridge` in preload with an explicit channel whitelist
- ✅ **Always** validate IPC inputs in the main process — treat renderer as untrusted
- ✅ **Always** use `ipcMain.handle()` / `ipcRenderer.invoke()` for request/response IPC
- ✅ **Always** configure Content Security Policy headers
- ✅ **Always** sanitize URLs before passing to `shell.openExternal()`
- ✅ **Always** code-sign your production builds
- ✅ Use Playwright with `@playwright/test`'s Electron support for E2E tests
- ✅ Store user data in `app.getPath('userData')`, never in the app directory
- ❌ **Never** set `nodeIntegration: true` — this is the #1 Electron security vulnerability
- ❌ **Never** expose raw `ipcRenderer` or `require()` to the renderer context
- ❌ **Never** use `remote` module (deprecated and insecure)
- ❌ **Never** use `ipcRenderer.sendSync()` — it blocks the renderer event loop
- ❌ **Never** disable `webSecurity` in production
- ❌ **Never** load remote/untrusted content without a strict CSP and sandboxing
## Limitations
- Electron bundles Chromium + Node.js, resulting in a minimum ~150MB app size — this is a fundamental trade-off of the framework
- Not suitable for apps where minimal install size is critical (consider Tauri instead)
- Single-window apps are simpler to architect; multi-window state synchronization requires careful IPC design
- Auto-update on Linux requires distributing via Snap, Flatpak, or custom mechanisms — `electron-updater` has limited Linux support
- macOS notarization requires an Apple Developer account ($99/year) and is mandatory for distribution outside the Mac App Store
- Debugging main process issues requires VS Code or Chrome DevTools via `--inspect` flag — there is no integrated debugger in Electron itself
## Related Skills
- `chrome-extension-developer` — When building browser extensions instead of desktop apps (shares multi-process model concepts)
- `docker-expert` — When containerizing Electron's build pipeline or CI/CD
- `react-patterns` / `react-best-practices` — When using React for the renderer UI
- `typescript-pro` — When setting up advanced TypeScript configurations for multi-target builds
- `nodejs-backend-patterns` — When the main process needs complex backend logic
- `github-actions-templates` — When setting up CI/CD for cross-platform Electron buildsRelated Skills
wordpress-woocommerce-development
WooCommerce store development workflow covering store setup, payment integration, shipping configuration, customization, and WordPress 7.0 features: AI connectors, DataViews, and collaboration tools.
wordpress-theme-development
WordPress theme development workflow covering theme architecture, template hierarchy, custom post types, block editor support, responsive design, and WordPress 7.0 features: DataViews, Pattern Editing, Navigation Overlays, and admin refresh.
wordpress-plugin-development
WordPress plugin development workflow covering plugin architecture, hooks, admin interfaces, REST API, security best practices, and WordPress 7.0 features: Real-Time Collaboration, AI Connectors, Abilities API, DataViews, and PHP-only blocks.
voice-ai-engine-development
Build real-time conversational AI voice engines using async worker pipelines, streaming transcription, LLM agents, and TTS synthesis with interrupt handling and multi-provider support
voice-ai-development
Expert in building voice AI applications - from real-time voice agents to voice-enabled apps. Covers OpenAI Realtime API, Vapi for voice agents, Deepgram for transcription, ElevenLabs for synthesis, LiveKit for real-time infrastructure, and WebRTC fundamentals.
subagent-driven-development
Use when executing implementation plans with independent tasks in the current session
snowflake-development
Comprehensive Snowflake development assistant covering SQL best practices, data pipeline design (Dynamic Tables, Streams, Tasks, Snowpipe), Cortex AI functions, Cortex Agents, Snowpark Python, dbt integration, performance tuning, and security hardening.
shopify-development
Build Shopify apps, extensions, themes using GraphQL Admin API, Shopify CLI, Polaris UI, and Liquid.
salesforce-development
Expert patterns for Salesforce platform development including Lightning Web Components (LWC), Apex triggers and classes, REST/Bulk APIs, Connected Apps, and Salesforce DX with scratch orgs and 2nd generation packages (2GP).
react-nextjs-development
React and Next.js 14+ application development with App Router, Server Components, TypeScript, Tailwind CSS, and modern frontend patterns.
python-fastapi-development
Python FastAPI backend development with async patterns, SQLAlchemy, Pydantic, authentication, and production API patterns.
python-development
You are a Python project architecture expert specializing in scaffolding production-ready Python applications. Generate complete project structures with modern tooling (uv, FastAPI, Django), type hint (Alias for python-development-python-scaffold)