Rooms
Within each Namespace, you can define arbitrary channels called “Rooms” that sockets can join
and leave
.
This is useful to broadcast data to a subset of sockets:
Joining and leaving
You can call join
to subscribe the socket to a given channel:
io.on('connection', socket => { socket.join('some room');}); |
And then simply use to
or in
(they are the same) when broadcasting or emitting:
io.to('some room').emit('some event'); |
You can emit to several rooms at the same time:
io.to('room1').to('room2').to('room3').emit('some event'); |
In that case, an union is performed: every socket that is at least in one of the rooms will get the event once (even if the socket is in two or more rooms).
You can also broadcast to a room from a given socket:
io.on('connection', function(socket){ socket.to('some room').emit('some event');}); |
In that case, every socket in the room excluding the sender will get the event.
To leave a channel you call leave
in the same fashion as join
. Both methods are asynchronous and accept a callback
argument.
Default room
Each Socket
in Socket.IO is identified by a random, unguessable, unique identifier Socket#id
. For your convenience, each socket automatically joins a room identified by its own id.
This makes it easy to broadcast messages to other sockets:
io.on('connection', socket => { socket.on('say to someone', (id, msg) => { socket.to(id).emit('my message', msg); });}); |
Sample use cases
- broadcast data to each device / tab of a given user
io.on('connection', async (socket) => { const userId = await fetchUserId(socket); socket.join(userId); // and then later io.to(userId).emit('hi');}); |
- send notifications about a given entity
io.on('connection', async (socket) => { const projects = await fetchProjects(socket); projects.forEach(project => socket.join('project:' + project.id)); socket.on('update project', async (payload) => { const project = await updateProject(payload); io.to('project:' + project.id).emit('project updated', project); });}); |
Disconnection
Upon disconnection, sockets leave
all the channels they were part of automatically, and no special teardown is needed on your part.
You can fetch the rooms the Socket was in by listening to the disconnecting
event:
io.on('connection', socket => { socket.on('disconnecting', () => { const rooms = Object.keys(socket.rooms); // the rooms array contains at least the socket ID }); socket.on('disconnect', () => { // socket.rooms === {} });}); |
Sending messages from the outside-world
In some cases, you might want to emit events to sockets in Socket.IO namespaces / rooms from outside the context of your Socket.IO processes.
There are several ways to tackle this problem, like implementing your own channel to send messages into the process.
To facilitate this use case, we created two modules:
By implementing the Redis Adapter
:
const io = require('socket.io')(3000);const redis = require('socket.io-redis');io.adapter(redis({ host: 'localhost', port: 6379 })); |
you can then emit
messages from any other process to any channel
const io = require('socket.io-emitter')({ host: '127.0.0.1', port: 6379 });setInterval(function(){ io.emit('time', new Date);}, 5000); |
© 2014–2020 Automattic
Licensed under the MIT License.
https://socket.io/docs/v2/rooms