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From bkit — AI Native Development OS
Guides desktop app development with Electron and Tauri — cross-platform apps for Windows, macOS, Linux using a single codebase.
npx claudepluginhub popup-studio-ai/bkit-claude-code --plugin bkitHow this skill is triggered — by the user, by Claude, or both
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/bkit:desktop-appbkit:pipeline-guideThis skill is limited to the following tools:
The summary Claude sees in its skill listing — used to decide when to auto-load this skill
A guide for developing desktop apps using web technologies (HTML, CSS, JavaScript).
Develops Tauri v2+ cross-platform desktop/mobile apps with Rust backend, configuring tauri.conf.json, #[tauri::command] handlers, IPC (invoke/emit/channels), capabilities/permissions, and troubleshooting builds.
Configures Tauri v2 to package web frontends as native Android, Windows, macOS, and Linux apps. Handles builds, permissions, and native features like notifications and file system.
Provides expertise in building secure, production-grade Electron apps: IPC patterns, preload scripts, packaging, code signing, auto-update, and native OS integration.
Share bugs, ideas, or general feedback.
A guide for developing desktop apps using web technologies (HTML, CSS, JavaScript). Support Windows, macOS, and Linux simultaneously with a single codebase.
| Framework | Tier | Recommendation | Use Case |
|---|---|---|---|
| Tauri | Tier 2 | ⭐ Primary | Lightweight (3MB), Rust security |
| Electron | Tier 3 | Supported | Mature ecosystem, VS Code-like apps |
AI-Native Recommendation: Tauri
- 35% YoY growth
- 20-40MB memory vs Electron's 200-400MB
- Mobile support (iOS/Android) via Tauri 2.0
- Rust backend = memory safety
Ecosystem Recommendation: Electron
- Mature tooling
- Node.js integration
- Proven at scale (VS Code, Slack)
Starter → Tauri (v2) [Tier 2]
- Simpler setup than Electron
- Smaller output bundles (~3MB vs ~150MB)
Dynamic → Tauri + auto-update [Tier 2]
- Includes server integration, auto-update
- Lower memory footprint
Enterprise → Tauri [Tier 2] or Electron [Tier 3]
- Tauri for performance and security
- Electron for complex Node.js integration
# Create with electron-vite (recommended)
npm create @electron-vite/create my-electron-app
cd my-electron-app
# Install dependencies
npm install
# Start development server
npm run dev
my-electron-app/
├── src/
│ ├── main/ # Main process (Node.js)
│ │ └── index.ts # App entry point, window management
│ ├── preload/ # Preload script
│ │ └── index.ts # Renderer↔Main bridge
│ └── renderer/ # Renderer process (Web)
│ ├── src/ # React/Vue code
│ └── index.html # HTML entry point
├── resources/ # App icons, assets
├── electron.vite.config.ts # Build configuration
├── electron-builder.yml # Deployment configuration
└── package.json
┌─────────────────────────────────────────────────────┐
│ Electron App │
├─────────────────────────────────────────────────────┤
│ Main Process (Node.js) │
│ - System API access (files, network, etc.) │
│ - Window creation/management │
│ - Menu, tray management │
├─────────────────────────────────────────────────────┤
│ Preload Script (Bridge) │
│ - Safe main↔renderer communication │
│ - Expose only specific APIs │
├─────────────────────────────────────────────────────┤
│ Renderer Process (Chromium) │
│ - Web UI (React, Vue, etc.) │
│ - DOM access │
│ - No direct Node.js API access (security) │
└─────────────────────────────────────────────────────┘
// src/main/index.ts
import { app, BrowserWindow, ipcMain } from 'electron';
import { join } from 'path';
let mainWindow: BrowserWindow | null = null;
function createWindow() {
mainWindow = new BrowserWindow({
width: 1200,
height: 800,
webPreferences: {
preload: join(__dirname, '../preload/index.js'),
sandbox: false,
},
});
// Dev mode: Load Vite server
if (process.env.NODE_ENV === 'development') {
mainWindow.loadURL('http://localhost:5173');
mainWindow.webContents.openDevTools();
} else {
// Production: Load built files
mainWindow.loadFile(join(__dirname, '../renderer/index.html'));
}
}
app.whenReady().then(createWindow);
app.on('window-all-closed', () => {
if (process.platform !== 'darwin') {
app.quit();
}
});
// IPC: Handle requests from renderer
ipcMain.handle('read-file', async (event, filePath) => {
const fs = await import('fs/promises');
return fs.readFile(filePath, 'utf-8');
});
// src/preload/index.ts
import { contextBridge, ipcRenderer } from 'electron';
// APIs to safely expose to renderer
contextBridge.exposeInMainWorld('electronAPI', {
// Read file
readFile: (filePath: string) => ipcRenderer.invoke('read-file', filePath),
// Save file dialog
saveFile: (content: string) => ipcRenderer.invoke('save-file', content),
// App version
getVersion: () => process.env.npm_package_version,
// Platform
platform: process.platform,
});
// Type definitions (for use in renderer)
declare global {
interface Window {
electronAPI: {
readFile: (path: string) => Promise<string>;
saveFile: (content: string) => Promise<void>;
getVersion: () => string;
platform: NodeJS.Platform;
};
}
}
// src/renderer/src/App.tsx
import { useState } from 'react';
function App() {
const [content, setContent] = useState('');
const handleOpenFile = async () => {
const result = await window.electronAPI.readFile('/path/to/file.txt');
setContent(result);
};
return (
<div className="app">
<h1>My Electron App</h1>
<p>Platform: {window.electronAPI.platform}</p>
<button onClick={handleOpenFile}>Open File</button>
<pre>{content}</pre>
</div>
);
}
export default App;
// src/main/menu.ts
import { Menu, app, shell } from 'electron';
const template: Electron.MenuItemConstructorOptions[] = [
{
label: 'File',
submenu: [
{ label: 'New File', accelerator: 'CmdOrCtrl+N', click: () => {} },
{ label: 'Open', accelerator: 'CmdOrCtrl+O', click: () => {} },
{ type: 'separator' },
{ label: 'Quit', role: 'quit' },
],
},
{
label: 'Edit',
submenu: [
{ label: 'Undo', role: 'undo' },
{ label: 'Redo', role: 'redo' },
{ type: 'separator' },
{ label: 'Cut', role: 'cut' },
{ label: 'Copy', role: 'copy' },
{ label: 'Paste', role: 'paste' },
],
},
{
label: 'Help',
submenu: [
{
label: 'Documentation',
click: () => shell.openExternal('https://docs.example.com'),
},
],
},
];
// Add macOS app menu
if (process.platform === 'darwin') {
template.unshift({
label: app.getName(),
submenu: [
{ role: 'about' },
{ type: 'separator' },
{ role: 'services' },
{ type: 'separator' },
{ role: 'hide' },
{ role: 'unhide' },
{ type: 'separator' },
{ role: 'quit' },
],
});
}
export const menu = Menu.buildFromTemplate(template);
// src/main/tray.ts
import { Tray, Menu, nativeImage } from 'electron';
import { join } from 'path';
let tray: Tray | null = null;
export function createTray() {
const icon = nativeImage.createFromPath(join(__dirname, '../../resources/icon.png'));
tray = new Tray(icon.resize({ width: 16, height: 16 }));
const contextMenu = Menu.buildFromTemplate([
{ label: 'Open', click: () => {} },
{ type: 'separator' },
{ label: 'Quit', role: 'quit' },
]);
tray.setToolTip('My App');
tray.setContextMenu(contextMenu);
}
# Prerequisite: Rust installation required
# Install from https://rustup.rs
# Create Tauri project
npm create tauri-app my-tauri-app
cd my-tauri-app
# Install dependencies
npm install
# Start development server
npm run tauri dev
my-tauri-app/
├── src/ # Frontend (React, Vue, etc.)
│ ├── App.tsx
│ └── main.tsx
├── src-tauri/ # Tauri backend (Rust)
│ ├── src/
│ │ ├── main.rs # Main entry point
│ │ └── lib.rs # Command definitions
│ ├── tauri.conf.json # Tauri configuration
│ └── Cargo.toml # Rust dependencies
├── public/
└── package.json
// src-tauri/src/lib.rs
use tauri::command;
#[command]
fn greet(name: &str) -> String {
format!("Hello, {}!", name)
}
#[command]
async fn read_file(path: &str) -> Result<String, String> {
std::fs::read_to_string(path)
.map_err(|e| e.to_string())
}
#[cfg_attr(mobile, tauri::mobile_entry_point)]
pub fn run() {
tauri::Builder::default()
.invoke_handler(tauri::generate_handler![greet, read_file])
.run(tauri::generate_context!())
.expect("error while running tauri application");
}
// src/App.tsx
import { invoke } from '@tauri-apps/api/core';
function App() {
const [greeting, setGreeting] = useState('');
const handleGreet = async () => {
const result = await invoke('greet', { name: 'World' });
setGreeting(result as string);
};
const handleReadFile = async () => {
try {
const content = await invoke('read_file', { path: '/path/to/file.txt' });
console.log(content);
} catch (error) {
console.error(error);
}
};
return (
<div>
<button onClick={handleGreet}>Greet</button>
<p>{greeting}</p>
</div>
);
}
// Web: Not possible (user must select directly)
// Desktop: Free access
// Electron
const fs = require('fs');
fs.writeFileSync('/path/to/file.txt', 'content');
// Tauri
await invoke('write_file', { path: '/path/to/file.txt', content: 'content' });
Things impossible on web but possible on desktop:
- System tray icon
- Global shortcuts
- Native notifications
- Drag and drop (file path access)
- Full clipboard control
- Native menus
Web: Requires Service Worker, limited
Desktop: Works offline by default
⚠️ Server integration features must handle offline!
# electron-builder.yml
appId: com.example.myapp
productName: My App
directories:
buildResources: resources
files:
- '!**/.vscode/*'
- '!src/*'
- '!electron.vite.config.*'
mac:
artifactName: ${name}-${version}-${arch}.${ext}
target:
- dmg
- zip
icon: resources/icon.icns
win:
artifactName: ${name}-${version}-${arch}.${ext}
target:
- nsis
icon: resources/icon.ico
linux:
target:
- AppImage
- deb
# Execute build
npm run build:mac
npm run build:win
npm run build:linux
// src/main/updater.ts
import { autoUpdater } from 'electron-updater';
autoUpdater.checkForUpdatesAndNotify();
autoUpdater.on('update-available', () => {
// Notify update available
});
autoUpdater.on('update-downloaded', () => {
// Restart to apply update
autoUpdater.quitAndInstall();
});
# Build for current platform
npm run tauri build
# Output locations
# macOS: src-tauri/target/release/bundle/dmg/
# Windows: src-tauri/target/release/bundle/msi/
# Linux: src-tauri/target/release/bundle/appimage/
□ Decide local data storage method (SQLite, JSON file, etc.)
□ Decide if cloud sync is needed
□ Consider platform-specific UI guidelines (macOS, Windows)
□ Plan keyboard shortcuts
□ Design menu structure
□ Support dark/light mode
□ Handle window resizing
□ Handle platform-specific UI differences (window control positions, etc.)
□ Don't expose Node.js APIs directly (use contextBridge)
□ Security handling when loading external URLs
□ Encrypt sensitive data storage
□ Code signing (macOS Notarization, Windows Signing)
□ Set up auto-update
□ App Store submission (if needed)
| Library | Purpose |
|---|---|
| electron-store | Local settings/data storage |
| electron-updater | Auto-update |
| electron-log | Logging |
| better-sqlite3 | SQLite database |
| Library | Purpose |
|---|---|
| tauri-plugin-store | Settings storage |
| tauri-plugin-sql | SQLite support |
| tauri-plugin-log | Logging |
| tauri-plugin-updater | Auto-update |
"Set up a [app description] app project with Electron + React.
- Use electron-vite
- Support system tray
- Set up auto-update"
"Implement file open/save functionality.
- Use native file dialogs
- Save recent file list
- Support drag and drop"
"Create electron-builder configuration.
- macOS: DMG + notarization
- Windows: NSIS installer
- Auto-update server integration"