I have a server which supports web sockets. Browsers connect to my site and each one opens a web socket to www.mydomain.example. That way, my social network app can push messages to the clients.

Traditionally, using just HTTP requests, I would scale up by adding a second server and a load balancer in front of the two web servers.

With web sockets, the connection has to be directly with the web server, not the load balancers, because if a machine has a physical limit of say 64k open ports, and the clients were connecting to the load balancer, then I couldn't support more than 64k concurrent users.

So how do I:

  1. get the client to connect directly to the web server (rather than the load balancer) when the page loads? Do I simply load the JavaScript from a node, and the load balancers (or whatever) randomly modifies the URL for the script, every time the page is initially requested?

  2. handle a ripple start? The browser will notice that the connection is closed as the web server shuts down. I can write JavaScript code to attempt to reopen the connection, but the node will be gone for a while. So I guess I would have to go back to the load balancer to query the address of the next node to use?

  3. I did wonder about the load balancers sending a redirect on the initial request, so that the browser initially requests www.mydomain.example and gets redirected to www34.mydomain.example. That works quite well, until the node goes down - and sites like Facebook don't do that. How do they do it?


3 Answers 3


Put a L3 load-balancer that distributes IP packets based on source-IP-port hash to your WebSocket server farm. Since the L3 balancer maintains no state (using hashed source-IP-port) it will scale to wire speed on low-end hardware (say 10GbE). Since the distribution is deterministic (using hashed source-IP-port), it will work with TCP (and hence WebSocket).

Also note that a 64k hard limit only applies to outgoing TCP/IP for a given (source) IP address. It does not apply to incoming TCP/IP. We have tested Autobahn (a high-performance WebSocket server) with 200k active connections on a 2 core, 4GB RAM VM.

Also note that you can do L7 load-balancing on the HTTP path announced during the initial WebSocket handshake. In that case the load balancer has to maintain state (which source IP-port pair is going to which backend node). It will probably scale to millions of connections nevertheless on decent setup.

Disclaimer: I am original author of Autobahn and work for Tavendo.

  • So I would load my javascript library from the load balancer URL and give the load balancer URL when I create the web socket in javascript - you mean it is transparent to the browser? That is cool!
    – John Smith
    Commented Sep 21, 2012 at 9:11
  • 2
    Yes, there is only 1 URL, and the hostname of the latter should resolve to your load-balancer. The WebSocket backend server have internal IPs (not public), and optionally can run on ports different from the public one also. The only caveat is that you may need to tell the WebSocket servers what their public visible hostname, IP, port is, since conforming WebSocket servers will check that the URL supplied in the HTTP header of the WS handshake fits the hostname/ip/port they are listening on.
    – oberstet
    Commented Sep 21, 2012 at 9:23
  • I dont have lot of websocket connections to balance but I have lot of traffic in one or say very few connections. for simplicity say one connection now how can I balance the requests going through one web socket connection? Commented Jan 28, 2017 at 9:35
  • 1
    Can you tell me how will the flow look like? What type of connection will be there between client and load balancer?Is it TCP?Tf yes, then it is as good as having with directly with back server, since there is a limit on number of TCP connections, load balancer cannot handle so many connections and it can possibly handle same amount of connections as a back end node, then what kind of load balancing it did,i did not undestand.Cna you please explain? Commented Feb 18, 2021 at 22:20
  • 2
    In the approach I described, there is no TCP state on the LB, as it is a L3/4 LB. It's just IP packets, and the only state to be kept on the LB is about backend server health and the consistent hashing to those. Rgd return traffic: DSR (direct server return) is of course possible in addition. That's a feature of your backend servers. In any case, don't worry about LB performance .. not L4, and not even L7 these days. A modern LB can scale out using L2 features .. it's a non-issue for 99% of all users (unless you need say 10 mio concurrent active websocket connections)
    – oberstet
    Commented Feb 19, 2021 at 14:21

Note that if your websocket server logic runs on nodejs with socket.io, you can tell socket.io to use a shared redis key/value store for synchronization. This way you don't even have to care about the load balancer, events will propagate among the server instances.

var io = require('socket.io')(3000);
var redis = require('socket.io-redis'); 
io.adapter(redis({ host: 'localhost', port: 6379 }));

See: Socket IO - Using multiple nodes

But at some point I guess redis can become the bottleneck...


You can also achieve layer 7 load balancing with inspection and "routing functionality"

See "How to inspect and load-balance WebSockets traffic using Stingray Traffic Manager, and when necessary, how to manage WebSockets and HTTP traffic that is received on the same IP address and port." https://splash.riverbed.com/docs/DOC-1451


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