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@replit/river
Advanced tools
It's like tRPC but... with JSON Schema Support, duplex streaming and support for service multiplexing. Transport agnostic!
It's like tRPC/gRPC but with
See PROTOCOL.md for more information on the protocol.
To use River, you must be on least Typescript 5 with "moduleResolution": "bundler"
.
npm i @replit/river @sinclair/typebox
# if you plan on using WebSocket for transport, also install
npm i ws isomorphic-ws
rpc
whose handler has a signature of Input -> Result<Output, Error>
.upload
whose handler has a signature of AsyncIterableIterator<Input> -> Result<Output, Error>
.subscription
whose handler has a signature of Input -> Pushable<Result<Output, Error>>
.stream
whose handler has a signature of AsyncIterableIterator<Input> -> Pushable<Result<Output, Error>>
.Transport
to work.
First, we create a service using the ServiceBuilder
import { ServiceBuilder, Ok, buildServiceDefs } from '@replit/river';
import { Type } from '@sinclair/typebox';
export const ExampleServiceConstructor = () =>
ServiceBuilder.create('example')
// initializer for shared state
.initialState({
count: 0,
})
.defineProcedure('add', {
type: 'rpc',
input: Type.Object({ n: Type.Number() }),
output: Type.Object({ result: Type.Number() }),
errors: Type.Never(),
// note that a handler is unique per user RPC
async handler(ctx, { n }) {
// access and mutate shared state
ctx.state.count += n;
return Ok({ result: ctx.state.count });
},
})
.finalize();
// expore a listing of all the services that we have
export const serviceDefs = buildServiceDefs([ExampleServiceConstructor()]);
Then, we create the server
import http from 'http';
import { WebSocketServer } from 'ws';
import { WebSocketServerTransport } from '@replit/river/transport/ws/server';
import { createServer } from '@replit/river';
// start websocket server on port 3000
const httpServer = http.createServer();
const port = 3000;
const wss = new WebSocketServer({ server: httpServer });
const transport = new WebSocketServerTransport(wss, 'SERVER');
export const server = createServer(transport, serviceDefs);
export type ServiceSurface = typeof server;
httpServer.listen(port);
In another file for the client (to create a separate entrypoint),
import WebSocket from 'isomorphic-ws';
import { WebSocketClientTransport } from '@replit/river/transport/ws/client';
import { createClient } from '@replit/river';
import type ServiceSurface from './server';
const websocketUrl = `ws://localhost:3000`;
const transport = new WebSocketClientTransport(
async () => new WebSocket(websocketUrl),
'my-client-id',
'SERVER',
);
const client = createClient<ServiceSurface>(transport, 'SERVER');
// we get full type safety on `client`
// client.<service name>.<procedure name>.<procedure type>()
// e.g.
const result = await client.example.add.rpc({ n: 3 });
if (result.ok) {
const msg = result.payload;
console.log(msg.result); // 0 + 3 = 3
}
To add logging,
import { bindLogger, setLevel } from '@replit/river/logging';
bindLogger(console.log);
setLevel('info');
River define two types of reconnects:
We can listen for transparent reconnects via the connectionStatus
events but realistically
no applications should need to listen for this unless it is for debug purposes. Hard reconnects
are signalled via sessionStatus
events.
If your application is stateful on either the server or the client, the service consumer should
wrap all the client-side setup with transport.addEventListener('sessionStatus', (evt) => ...)
to
do appropriate setup and teardown.
transport.addEventListener('connectionStatus', (evt) => {
if (evt.status === 'connect') {
// do something
} else if (evt.status === 'disconnect') {
// do something else
}
});
transport.addEventListener('sessionStatus', (evt) => {
if (evt.status === 'connect') {
// do something
} else if (evt.status === 'disconnect') {
// do something else
}
});
We've also provided an end-to-end testing environment using Next.js, and a simple backend connected with the WebSocket transport that you can play with on Replit.
You can find more service examples in the E2E test fixtures
npm i
-- install dependenciesnpm run check
-- lintnpm run format
-- formatnpm run test
-- run testsnpm run publish
-- cut a new release (should bump version in package.json first)FAQs
It's like tRPC but... with JSON Schema Support, duplex streaming and support for service multiplexing. Transport agnostic!
The npm package @replit/river receives a total of 3,944 weekly downloads. As such, @replit/river popularity was classified as popular.
We found that @replit/river demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 25 open source maintainers collaborating on the project.
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