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README.md | 2 gadi atpakaļ | |
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ws is a simple to use, blazing fast, and thoroughly tested WebSocket client and server implementation.
Passes the quite extensive Autobahn test suite: server, client.
Note: This module does not work in the browser. The client in the docs is a
reference to a back end with the role of a client in the WebSocket
communication. Browser clients must use the native
WebSocket
object. To make the same code work seamlessly on Node.js and the browser, you
can use one of the many wrappers available on npm, like
isomorphic-ws.
protocolVersion: 8
)protocolVersion: 13
)npm install ws
There are 2 optional modules that can be installed along side with the ws module. These modules are binary addons which improve certain operations. Prebuilt binaries are available for the most popular platforms so you don't necessarily need to have a C++ compiler installed on your machine.
npm install --save-optional bufferutil
: Allows to efficiently perform
operations such as masking and unmasking the data payload of the WebSocket
frames.npm install --save-optional utf-8-validate
: Allows to efficiently check if a
message contains valid UTF-8.See /doc/ws.md
for Node.js-like documentation of ws classes and
utility functions.
ws supports the permessage-deflate extension which enables the client and server to negotiate a compression algorithm and its parameters, and then selectively apply it to the data payloads of each WebSocket message.
The extension is disabled by default on the server and enabled by default on the client. It adds a significant overhead in terms of performance and memory consumption so we suggest to enable it only if it is really needed.
Note that Node.js has a variety of issues with high-performance compression, where increased concurrency, especially on Linux, can lead to catastrophic memory fragmentation and slow performance. If you intend to use permessage-deflate in production, it is worthwhile to set up a test representative of your workload and ensure Node.js/zlib will handle it with acceptable performance and memory usage.
Tuning of permessage-deflate can be done via the options defined below. You can
also use zlibDeflateOptions
and zlibInflateOptions
, which is passed directly
into the creation of raw deflate/inflate streams.
See the docs for more options.
import WebSocket, { WebSocketServer } from 'ws';
const wss = new WebSocketServer({
port: 8080,
perMessageDeflate: {
zlibDeflateOptions: {
// See zlib defaults.
chunkSize: 1024,
memLevel: 7,
level: 3
},
zlibInflateOptions: {
chunkSize: 10 * 1024
},
// Other options settable:
clientNoContextTakeover: true, // Defaults to negotiated value.
serverNoContextTakeover: true, // Defaults to negotiated value.
serverMaxWindowBits: 10, // Defaults to negotiated value.
// Below options specified as default values.
concurrencyLimit: 10, // Limits zlib concurrency for perf.
threshold: 1024 // Size (in bytes) below which messages
// should not be compressed if context takeover is disabled.
}
});
The client will only use the extension if it is supported and enabled on the
server. To always disable the extension on the client set the
perMessageDeflate
option to false
.
import WebSocket from 'ws';
const ws = new WebSocket('ws://www.host.com/path', {
perMessageDeflate: false
});
import WebSocket from 'ws';
const ws = new WebSocket('ws://www.host.com/path');
ws.on('open', function open() {
ws.send('something');
});
ws.on('message', function message(data) {
console.log('received: %s', data);
});
import WebSocket from 'ws';
const ws = new WebSocket('ws://www.host.com/path');
ws.on('open', function open() {
const array = new Float32Array(5);
for (var i = 0; i < array.length; ++i) {
array[i] = i / 2;
}
ws.send(array);
});
import { WebSocketServer } from 'ws';
const wss = new WebSocketServer({ port: 8080 });
wss.on('connection', function connection(ws) {
ws.on('message', function message(data) {
console.log('received: %s', data);
});
ws.send('something');
});
import { createServer } from 'https';
import { readFileSync } from 'fs';
import { WebSocketServer } from 'ws';
const server = createServer({
cert: readFileSync('/path/to/cert.pem'),
key: readFileSync('/path/to/key.pem')
});
const wss = new WebSocketServer({ server });
wss.on('connection', function connection(ws) {
ws.on('message', function message(data) {
console.log('received: %s', data);
});
ws.send('something');
});
server.listen(8080);
import { createServer } from 'http';
import { parse } from 'url';
import { WebSocketServer } from 'ws';
const server = createServer();
const wss1 = new WebSocketServer({ noServer: true });
const wss2 = new WebSocketServer({ noServer: true });
wss1.on('connection', function connection(ws) {
// ...
});
wss2.on('connection', function connection(ws) {
// ...
});
server.on('upgrade', function upgrade(request, socket, head) {
const { pathname } = parse(request.url);
if (pathname === '/foo') {
wss1.handleUpgrade(request, socket, head, function done(ws) {
wss1.emit('connection', ws, request);
});
} else if (pathname === '/bar') {
wss2.handleUpgrade(request, socket, head, function done(ws) {
wss2.emit('connection', ws, request);
});
} else {
socket.destroy();
}
});
server.listen(8080);
import WebSocket from 'ws';
import { createServer } from 'http';
const server = createServer();
const wss = new WebSocketServer({ noServer: true });
wss.on('connection', function connection(ws, request, client) {
ws.on('message', function message(data) {
console.log(`Received message ${data} from user ${client}`);
});
});
server.on('upgrade', function upgrade(request, socket, head) {
// This function is not defined on purpose. Implement it with your own logic.
authenticate(request, function next(err, client) {
if (err || !client) {
socket.write('HTTP/1.1 401 Unauthorized\r\n\r\n');
socket.destroy();
return;
}
wss.handleUpgrade(request, socket, head, function done(ws) {
wss.emit('connection', ws, request, client);
});
});
});
server.listen(8080);
Also see the provided example using express-session
.
A client WebSocket broadcasting to all connected WebSocket clients, including itself.
import WebSocket, { WebSocketServer } from 'ws';
const wss = new WebSocketServer({ port: 8080 });
wss.on('connection', function connection(ws) {
ws.on('message', function message(data, isBinary) {
wss.clients.forEach(function each(client) {
if (client.readyState === WebSocket.OPEN) {
client.send(data, { binary: isBinary });
}
});
});
});
A client WebSocket broadcasting to every other connected WebSocket clients, excluding itself.
import WebSocket, { WebSocketServer } from 'ws';
const wss = new WebSocketServer({ port: 8080 });
wss.on('connection', function connection(ws) {
ws.on('message', function message(data, isBinary) {
wss.clients.forEach(function each(client) {
if (client !== ws && client.readyState === WebSocket.OPEN) {
client.send(data, { binary: isBinary });
}
});
});
});
import WebSocket from 'ws';
const ws = new WebSocket('wss://websocket-echo.com/');
ws.on('open', function open() {
console.log('connected');
ws.send(Date.now());
});
ws.on('close', function close() {
console.log('disconnected');
});
ws.on('message', function message(data) {
console.log(`Round-trip time: ${Date.now() - data} ms`);
setTimeout(function timeout() {
ws.send(Date.now());
}, 500);
});
import WebSocket, { createWebSocketStream } from 'ws';
const ws = new WebSocket('wss://websocket-echo.com/');
const duplex = createWebSocketStream(ws, { encoding: 'utf8' });
duplex.pipe(process.stdout);
process.stdin.pipe(duplex);
For a full example with a browser client communicating with a ws server, see the examples folder.
Otherwise, see the test cases.
The remote IP address can be obtained from the raw socket.
import { WebSocketServer } from 'ws';
const wss = new WebSocketServer({ port: 8080 });
wss.on('connection', function connection(ws, req) {
const ip = req.socket.remoteAddress;
});
When the server runs behind a proxy like NGINX, the de-facto standard is to use
the X-Forwarded-For
header.
wss.on('connection', function connection(ws, req) {
const ip = req.headers['x-forwarded-for'].split(',')[0].trim();
});
Sometimes the link between the server and the client can be interrupted in a way that keeps both the server and the client unaware of the broken state of the connection (e.g. when pulling the cord).
In these cases ping messages can be used as a means to verify that the remote endpoint is still responsive.
import { WebSocketServer } from 'ws';
function heartbeat() {
this.isAlive = true;
}
const wss = new WebSocketServer({ port: 8080 });
wss.on('connection', function connection(ws) {
ws.isAlive = true;
ws.on('pong', heartbeat);
});
const interval = setInterval(function ping() {
wss.clients.forEach(function each(ws) {
if (ws.isAlive === false) return ws.terminate();
ws.isAlive = false;
ws.ping();
});
}, 30000);
wss.on('close', function close() {
clearInterval(interval);
});
Pong messages are automatically sent in response to ping messages as required by the spec.
Just like the server example above your clients might as well lose connection without knowing it. You might want to add a ping listener on your clients to prevent that. A simple implementation would be:
import WebSocket from 'ws';
function heartbeat() {
clearTimeout(this.pingTimeout);
// Use `WebSocket#terminate()`, which immediately destroys the connection,
// instead of `WebSocket#close()`, which waits for the close timer.
// Delay should be equal to the interval at which your server
// sends out pings plus a conservative assumption of the latency.
this.pingTimeout = setTimeout(() => {
this.terminate();
}, 30000 + 1000);
}
const client = new WebSocket('wss://websocket-echo.com/');
client.on('open', heartbeat);
client.on('ping', heartbeat);
client.on('close', function clear() {
clearTimeout(this.pingTimeout);
});
Use a custom http.Agent
implementation like https-proxy-agent or
socks-proxy-agent.
We're using the GitHub releases for changelog entries.