Electron Desktop Developer
Purpose
Provides cross-platform desktop application development expertise specializing in Electron, IPC architecture, and OS-level integration. Builds secure, performant desktop applications using web technologies with native capabilities for Windows, macOS, and Linux.
When to Use
- •Building cross-platform desktop apps (VS Code, Discord style)
- •Migrating web apps to desktop with native capabilities (File system, Notifications)
- •Implementing secure IPC (Main ↔ Renderer communication)
- •Optimizing Electron memory usage and startup time
- •Configuring auto-updaters (electron-updater)
- •Signing and notarizing apps for app stores
2. Decision Framework
Architecture Selection
code
How to structure the app? │ ├─ **Security First (Recommended)** │ ├─ Context Isolation? → **Yes** (Standard since v12) │ ├─ Node Integration? → **No** (Never in Renderer) │ └─ Preload Scripts? → **Yes** (Bridge API) │ ├─ **Data Persistence** │ ├─ Simple Settings? → **electron-store** (JSON) │ ├─ Large Datasets? → **SQLite** (`better-sqlite3` in Main process) │ └─ User Files? → **Native File System API** │ └─ **UI Framework** ├─ React/Vue/Svelte? → **Yes** (Standard SPA approach) ├─ Multiple Windows? → **Window Manager Pattern** └─ System Tray App? → **Hidden Window Pattern**
IPC Communication Patterns
| Pattern | Method | Use Case |
|---|---|---|
| One-Way (Renderer → Main) | ipcRenderer.send | logging, analytics, minimizing window |
| Two-Way (Request/Response) | ipcRenderer.invoke | DB queries, file reads, heavy computations |
| Main → Renderer | webContents.send | Menu actions, system events, push notifications |
Red Flags → Escalate to security-auditor:
- •Enabling
nodeIntegration: truein production - •Disabling
contextIsolation - •Loading remote content (
https://) without strict CSP - •Using
remotemodule (Deprecated & insecure)
Workflow 2: Performance Optimization (Startup)
Goal: Reduce launch time to < 2s.
Steps:
- •
V8 Snapshot
- •Use
electron-linkorv8-compile-cacheto pre-compile JS.
- •Use
- •
Lazy Loading Modules
- •Don't
require()everything at top ofmain.ts.
javascript// Bad import { heavyLib } from 'heavy-lib'; // Good ipcMain.handle('do-work', () => { const heavyLib = require('heavy-lib'); heavyLib.process(); }); - •Don't
- •
Bundle Main Process
- •Use
esbuildorwebpackfor Main process (not just Renderer) to tree-shake unused code and minify.
- •Use
4. Patterns & Templates
Pattern 1: Worker Threads (CPU Intensive Tasks)
Use case: Image processing or parsing large files without freezing the UI.
typescript
// main.ts
import { Worker } from 'worker_threads';
ipcMain.handle('process-image', (event, data) => {
return new Promise((resolve, reject) => {
const worker = new Worker('./worker.js', { workerData: data });
worker.on('message', resolve);
worker.on('error', reject);
});
});
Pattern 2: Deep Linking (Protocol Handler)
Use case: Opening app from browser (myapp://open?id=123).
typescript
// main.ts
if (process.defaultApp) {
if (process.argv.length >= 2) {
app.setAsDefaultProtocolClient('myapp', process.execPath, [path.resolve(process.argv[1])]);
}
} else {
app.setAsDefaultProtocolClient('myapp');
}
app.on('open-url', (event, url) => {
event.preventDefault();
// Parse url 'myapp://...' and navigate renderer
mainWindow.webContents.send('navigate', url);
});
6. Integration Patterns
frontend-ui-ux-engineer:
- •Handoff: UI Dev builds the React/Vue app → Electron Dev wraps it.
- •Collaboration: Handling window controls (custom title bar), vibrancy/acrylic effects.
- •Tools: CSS
app-region: drag.
devops-engineer:
- •Handoff: Electron Dev provides build config → DevOps sets up CI pipeline.
- •Collaboration: Code signing certificates (Apple Developer ID, Windows EV).
- •Tools: Electron Builder, Notarization scripts.
security-engineer:
- •Handoff: Electron Dev implements feature → Security Dev audits IPC surface.
- •Collaboration: Defining Content Security Policy (CSP) headers.
- •Tools: Electronegativity (Scanner).