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Websocket is good, but would it be able to hanlde 1,000,000 concurrent connections?
How many system resources will be held for keeping 1,000,000 websocket open?

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Short answer: not a chance.

Long answer:

This question is not unique to WebSockets since WebSockets are fundamentally long-lived TCP sockets with a HTTP-like handshake and minimal framing for messages.

The real question is: could a single server handle 1,000,000 simultaneous socket connections and what server resources would this consume? The answer is complicated by many factors, but 10,000 simultaneous socket connections is generally considered a high mark for a well configured and optimized server system and server software.

The number of connections is not the primary problem, it is the processing and sending/receiving data to/from each of those connections. If the incoming connections are spread out over a long period (a few a second), and they are almost entirely idle (each client sends/receives no more than a few bytes every few days) then you could probably get much higher than 10,000 simultaneous connections. However, even under those conditions (slow connections that are mostly idle) you will still run into problems with server systems and server libraries that aren't configured and designed to handle large numbers of connections.

It would be great to have some real data on where modern systems begin to run into constraints as the number of clients is increased (and there is some information out there). However, systems that are designed to handle huge numbers of long-lived simultaneous connections to a single server are usually reflective of poor application design. If you have an application that regularly handles more than 100 simultaneous clients, then it's probably time to think about turning it into a distributed system with multiple servers.

With that caveat in mind, here are a couple of resources to read on how you would configure your server and write your server software to support large numbers of connections:

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On today's systems, handling 1 million concurrent TCP connections is not an issue.

I can affirm that based on our own tests (full disclosure: I am the CTO at Lightstreamer).

We had to demonstrate several times, to some of our customers, that 1 million connections can be reached on a single box (and not necessarily a super-monster machine). But let me recap the configuration where we tested 500K concurrent connections, as this is a much more recent test performed on Amazon EC2.

We installed Lightstreamer Server (which is a WebSocket server, among other things) on a m2.4xlarge instance. This means 8 cores and 68.4 GiB memory.

We launched 11 client machines to create 500,000 concurrent connections to the Lightstreamer Server. The test was configured so that the total outbound throughput from the server was 90,000 updates/s, resulting in peaks of 450 Mbit/s outbound bandwidth.

The server never used more than 13 GiB of RAM and the CPU was stable around 60%.

With at least 30 GiB RAM you can handle 1 million concurrent sockets. The CPU needed depends on the data throughput you need.

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I'm assuming this was some flavor of linux. Could you please share additional info on how the kernel was tuned? max file descriptors/tcp window sizes etc? –  quixver Jun 21 '14 at 21:14
    
It was vanilla Amazon Linux. Max file descriptors were increased. TCP send buffer was reduced to 1600 bytes (done by default by Lightstreamer, though it can be manually tuned). MSS was default. –  Alessandro Alinone Jun 23 '14 at 12:50

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