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electron-ipc-flow

Fluently and type-safely write IPC for Electron.

Just focus on the IPC handlers and calls, without any trivial matters; everything will happen as you envision.

Features

  • Invoke and send just like using a local function.
  • Type declarations are in one place, so you can also use JSDoc.
  • All methods are type-safe.
  • Everything is module, with no window and global.d.ts.
  • By default, the serialize-error library is used to serialize error objects, so you don't have to worry about error handling. You can also customize the error handler.
  • Provide some optional security mechanisms to enhance security.

Install

Use npm: npm install electron-ipc-flow

Use yarn: yarn add electron-ipc-flow

Usage

Easy handle and invoke

// main.ts
import { ipcMain } from 'electron'
import { IpcServerController } from 'electron-ipc-flow'
import { server } from './hello.ts'

IpcServerController.IpcMain = ipcMain

// server.functions is proxy object
server.functions.say = (who) => `Hello ${who}!`
// server.handle('say', (who) => `Hello ${who}!`)

// hello.ts
import { IpcClientController, IpcServerController } from 'electron-ipc-flow'

type Functions = {
  say(who: string): string
}

export const client = new IpcClientController<Functions>('hello')
export const server = new IpcServerController<Functions>('hello')

// preload.ts
import { contextBridge, ipcRenderer } from 'electron/renderer'
import { preloadInit } from 'electron-ipc-flow'
import { client } from './hello.ts'

preloadInit(contextBridge, ipcRenderer, {
  autoRegisterIpcController: false, // Optional, default to true.
})
// If `autoRegister` is false, client controller needs to be register manually.
client.register()

// renderer.ts
import { client } from './hello.ts'

// client.functions is proxy object
console.log(await client.functions.say('World')) // Hello World!
// console.log(await client.invoke('say', 'World')) // Hello World!

Renderer send message to main

// main.ts
import { ipcMain } from 'electron'
import { IpcServerController } from 'electron-ipc-flow'
import { server } from './hello.ts'

IpcServerController.IpcMain = ipcMain

server.on('say', (e, who) => {
  console.log(`Hello ${who}!`) // Hello World!
})

// hello.ts
import { IpcClientController, IpcServerController } from 'electron-ipc-flow'

type ServerEvents = {
  say(who: string): void
}

export const client = new IpcClientController<any, any, ServerEvents>('hello')
export const server = new IpcServerController<any, any, ServerEvents>('hello')

// preload.ts
import { contextBridge, ipcRenderer } from 'electron/renderer'
import { preloadInit } from 'electron-ipc-flow'

preloadInit(contextBridge, ipcRenderer)

// renderer.ts
import { client } from './hello.ts'

client.send('say', 'World')

Main send (broadcasts) message to renderer

// main.ts
import { BrowserWindow } from 'electron'
import { IpcServerController } from 'electron-ipc-flow'
import { server } from './hello.ts'

// Define to send messages to those renderers. (global)
IpcServerController.WebContentsGetter = () => BrowserWindow.getAllWindows().map((win) => win.webContents)
 
server.send('say', 'World')

// hello.ts
import { IpcClientController, IpcServerController } from 'electron-ipc-flow'

type ClientEvents = {
    say(who: string): void
}

export const client = new IpcClientController<any, ClientEvents, any>('hello')
export const server = new IpcServerController<any, ClientEvents, any>('hello')

// preload.ts
import { contextBridge, ipcRenderer } from 'electron/renderer'
import { preloadInit } from 'electron-ipc-flow'

preloadInit(contextBridge, ipcRenderer)

// renderer.ts
import { client } from './hello.ts'

client.on('say', (e, who) => {
  console.log(`Hello ${who}!`) // Hello World!
})

Declaring types using JSDoc

If you don't want to use TypeScript, you can use JSDoc to get type support:

/**
 * @typedef Functions
 * @property {(who: string) => string} say
 */

/** @type {IpcClientController<Functions>} */
const controller = new IpcClientController('hello')

Some editors may not be able to handle it, VSCode will work.

Not using bundler

If you don't want to use bundler, or don't need to do anything else in the preload script, you can use this preload script: node_modules/electron-ipc-flow/dist/preload.js.

Then you can import it in the renderer like this:

import { IpcClientController } from './node_modules/electron-ipc-flow/dist/index.mjs'

API

You can check the definition file dist/index.d.ts for the API and comments.

Debug

The internal debug() method uses the callsites library to obtain the call stack, and callsites internally utilizes the V8 stack trace API.

You can set the environment variable ELECTRON_IPC_FLOW_DEBUG to true to enable debug mode. In debug mode, some data will be output to the console (verbose level).

enable: process.env.ELECTRON_IPC_FLOW_DEBUG = 'true' in main.js first line.

disable: process.env.ELECTRON_IPC_FLOW_DEBUG = 'false' in main.js first line.

You should always disable debug mode on production release ! ! !

Thanks

Thanks to JetBrains for providing the JetBrains IDEs open source license.

JetBrains Logo (Main) logo.