This project is created for building extension system for a Tauri app (https://github.com/kunkunsh/kunkun).
It's potential can be used in other types of apps, so I open sourced it as a standalone package.
A TypeScript-first RPC library that enables seamless bi-directional communication between processes. Call remote functions as if they were local, with full TypeScript type safety and autocompletion support.
- stdio: RPC over stdio between any combinations of Node.js, Deno, Bun processes
- web: RPC over
postMessageAPI and message channel between browser main thread and web workers, or main thread and iframe- Web Worker API (web standard) is also supported in Deno and Bun, the main thread can call functions in worker and vice versa.
- http: RPC over HTTP like tRPC
- supports any HTTP server (e.g. hono, bun, nodejs http, express, fastify, deno, etc.)
- WebSocket: RPC over WebSocket
The core of kkrpc design is in RPCChannel and IoInterface.
-
RPCChannelis the bidirectional RPC channel -
LocalAPIis the APIs to be exposed to the other side of the channel -
RemoteAPIis the APIs exposed by the other side of the channel, and callable on the local side -
rpc.getAPI()returns an object that isRemoteAPItyped, and is callable on the local side like a normal local function call. -
IoInterfaceis the interface for implementing the IO for different environments. The implementations are called adapters.- For example, for a Node process to communicate with a Deno process, we need
NodeIoandDenoIoadapters which implementsIoInterface. They share the same stdio pipe (stdin/stdout). - In web, we have
WorkerChildIOandWorkerParentIOadapters for web worker,IframeParentIOandIframeChildIOadapters for iframe.
- For example, for a Node process to communicate with a Deno process, we need
In browser, import from
kkrpc/browserinstead ofkkrpc, Deno adapter uses node:buffer which doesn't work in browser.
interface IoInterface {
name: string
read(): Promise<Buffer | Uint8Array | string | null> // Reads input
write(data: string): Promise<void> // Writes output
}
class RPCChannel<
LocalAPI extends Record<string, any>,
RemoteAPI extends Record<string, any>,
Io extends IoInterface = IoInterface
> {}kkrpc supports two serialization formats for message transmission:
-
json: Standard JSON serialization -
superjson: Enhanced JSON serialization with support for more data types like Date, Map, Set, BigInt, and Uint8Array (default since v0.2.0)
You can specify the serialization format when creating a new RPCChannel:
// Using default serialization (superjson)
const rpc = new RPCChannel(io, { expose: apiImplementation })
// Explicitly using superjson serialization (recommended for clarity)
const rpc = new RPCChannel(io, {
expose: apiImplementation,
serialization: { version: "superjson" }
})
// Using standard JSON serialization (for backward compatibility)
const rpc = new RPCChannel(io, {
expose: apiImplementation,
serialization: { version: "json" }
})For backward compatibility, the receiving side will automatically detect the serialization format so older clients can communicate with newer servers and vice versa.
Below are simple examples.
import { NodeIo, RPCChannel } from "kkrpc"
import { apiMethods } from "./api.ts"
const stdio = new NodeIo(process.stdin, process.stdout)
const child = new RPCChannel(stdio, { expose: apiMethods })import { spawn } from "child_process"
const worker = spawn("bun", ["scripts/node-api.ts"])
const io = new NodeIo(worker.stdout, worker.stdin)
const parent = new RPCChannel<{}, API>(io)
const api = parent.getAPI()
expect(await api.add(1, 2)).toBe(3)import { RPCChannel, WorkerChildIO, type DestroyableIoInterface } from "kkrpc"
const worker = new Worker(new URL("./scripts/worker.ts", import.meta.url).href, { type: "module" })
const io = new WorkerChildIO(worker)
const rpc = new RPCChannel<API, API, DestroyableIoInterface>(io, { expose: apiMethods })
const api = rpc.getAPI()
expect(await api.add(1, 2)).toBe(3)import { RPCChannel, WorkerParentIO, type DestroyableIoInterface } from "kkrpc"
const io: DestroyableIoInterface = new WorkerChildIO()
const rpc = new RPCChannel<API, API, DestroyableIoInterface>(io, { expose: apiMethods })
const api = rpc.getAPI()
const sum = await api.add(1, 2)
expect(sum).toBe(3)Codesandbox: https://codesandbox.io/p/live/4a349334-0b04-4352-89f9-cf1955553ae7
Define API type and implementation.
export type API = {
echo: (message: string) => Promise<string>
add: (a: number, b: number) => Promise<number>
}
export const api: API = {
echo: (message) => {
return Promise.resolve(message)
},
add: (a, b) => {
return Promise.resolve(a + b)
}
}Server only requires a one-time setup, then it won't need to be touched again.
All the API implementation is in api.ts.
import { HTTPServerIO, RPCChannel } from "kkrpc"
import { api, type API } from "./api"
const serverIO = new HTTPServerIO()
const serverRPC = new RPCChannel<API, API>(serverIO, { expose: api })
const server = Bun.serve({
port: 3000,
async fetch(req) {
const url = new URL(req.url)
if (url.pathname === "/rpc") {
const res = await serverIO.handleRequest(await req.text())
return new Response(res, {
headers: { "Content-Type": "application/json" }
})
}
return new Response("Not found", { status: 404 })
}
})
console.log(`Start server on port: ${server.port}`)import { HTTPClientIO, RPCChannel } from "kkrpc"
import { api, type API } from "./api"
const clientIO = new HTTPClientIO({
url: "http://localhost:3000/rpc"
})
const clientRPC = new RPCChannel<{}, API>(clientIO, { expose: api })
const clientAPI = clientRPC.getAPI()
const echoResponse = await clientAPI.echo("hello")
console.log("echoResponse", echoResponse)
const sum = await clientAPI.add(2, 3)
console.log("Sum: ", sum)import { ChromeBackgroundIO, RPCChannel } from "kkrpc"
import type { API } from "./api"
// Store RPC channels for each tab
const rpcChannels = new Map<number, RPCChannel<API, {}>>()
// Listen for tab connections
chrome.runtime.onConnect.addListener((port) => {
if (port.sender?.tab?.id) {
const tabId = port.sender.tab.id
const io = new ChromeBackgroundIO(tabId)
const rpc = new RPCChannel(io, { expose: backgroundAPI })
rpcChannels.set(tabId, rpc)
port.onDisconnect.addListener(() => {
rpcChannels.delete(tabId)
})
}
})import { ChromeContentIO, RPCChannel } from "kkrpc"
import type { API } from "./api"
const io = new ChromeContentIO()
const rpc = new RPCChannel<API, API>(io, {
expose: {
updateUI: async (data) => {
document.body.innerHTML = data.message
return true
}
}
})
// Get API from background script
const api = rpc.getAPI()
const data = await api.getData()
console.log(data) // { message: "Hello from background!" }Call functions in bun/node/deno processes from Tauri app with JS/TS.
It allows you to call any JS/TS code in Deno/Bun/Node processes from Tauri app, just like using Electron.
Seamless integration with Tauri's official shell plugin and unlocked shellx plugin.
import { RPCChannel, TauriShellStdio } from "kkrpc/browser"
import { Child, Command } from "@tauri-apps/plugin-shell"
const localAPIImplementation = {
add: (a: number, b: number) => Promise.resolve(a + b)
}
async function spawnCmd(runtime: "deno" | "bun" | "node") {
let cmd: Command<string>
let process = Child | null = null
if (runtime === "deno") {
cmd = Command.create("deno", ["run", "-A", scriptPath])
process = await cmd.spawn()
} else if (runtime === "bun") {
cmd = Command.create("bun", [scriptPath])
process = await cmd.spawn()
} else if (runtime === "node") {
cmd = Command.create("node", [scriptPath])
process = await cmd.spawn()
} else {
throw new Error(`Invalid runtime: ${runtime}, pick either deno or bun`)
}
// monitor stdout/stderr/close/error for debugging and error handling
cmd.stdout.on("data", (data) => {
console.log("stdout", data)
})
cmd.stderr.on("data", (data) => {
console.warn("stderr", data)
})
cmd.on("close", (code) => {
console.log("close", code)
})
cmd.on("error", (err) => {
console.error("error", err)
})
const stdio = new TauriShellStdio(cmd.stdout, process)
const stdioRPC = new RPCChannel<typeof localAPIImplementation, RemoteAPI>(stdio, {
expose: localAPIImplementation
})
const api = stdioRPC.getAPI();
await api
.add(1, 2)
.then((result) => {
console.log("result", result)
})
.catch((err) => {
console.error(err)
})
process?.kill()
}I provided a sample tauri app in examples/tauri-demo.
