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Say if I was to get shared, virtual or dedicated hosting, I read somewhere a server/machine can only handle 64,000 TCP connections at one time, is this true? How many could any type of hosting handle regardless of bandwidth? I'm assuming HTTP works over TCP.

Would this mean only 64,000 users could connect to the website, and if I wanted to serve more I'd have to move to a web farm?

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Apologies to responders, I've ripped through this thread like a tornado. There were simply too many incorrect answers for my liking, and still no direct answer. I use stackoverflow a lot and find many high quality answers. I hope that others will be able to find this thread and find a useful informed answer. –  Todd May 28 at 3:08

4 Answers 4

This question is a fairly difficult one. There is no real software limitation on the number of active connections a machine can have, though some OS's are more limited than others. The problem becomes one of resources. For example, let's say a single machine wants to support 64,000 simultaneous connections. If the server uses 1MB of RAM per connection, it would need 64GB of RAM. If each client needs to read a file, the disk or storage array access load becomes much larger than those devices can handle. If a server needs to fork one process per connection then the OS will spend the majority of its time context switching or starving processes for CPU time.

The C10K problem page has a very good discussion of this issue.

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A bit of a mixed answer. The OP appears to be referring to a best case scenario, and including how would be beneficial, rather than finding a worst case and then referring to an article which may have the solution. Noting disk bottleneck is useful. Using Asynchronous IO a very high amount of concurrent clients can be reached. –  Todd May 28 at 2:48

In short: You should be able to achieve in the order of millions of simultaneous active TCP sessions.

Today, I was worried whether IIS with ASP.NET would support in the order of 100 concurrent connections. When I saw this question/answers, I couldn't resist answering myself, so many answers are simply incorrect.

Best Case

The answer to this question must only concern itself with the simplest server configuration to decouple from the countless variables and configurations possible downstream.

So all things going well, being:

  1. No traffic on the TCP sessions, except for keep alive packets (otherwise you would obviously need a corresponding amount of network bandwidth and other computer resources)
  2. Software designed to use asynchronous sockets and programming, rather than a hardware thread per request from a pool. (ie. IIS, Node.js, nginx... webserver [but not Apache] with async designed application software)
  3. Good performance/dollar CPU / Ram. Today, lets say i7 (4 core) with 8GB of RAM.
  4. A good firewall/router to match.
  5. No virtual limit/govenor - ie. Linux somaxconn, IIS web.config...

Detailed Answer

Synchronous thread-bound designs tend to be the worst performing relative to Asynchronous IO implementations.

WhatsApp get a million WITH traffic on a single unix flavoured OS machine - https://blog.whatsapp.com/index.php/2012/01/1-million-is-so-2011/.

Finally this one, http://highscalability.com/blog/2013/5/13/the-secret-to-10-million-concurrent-connections-the-kernel-i.html, goes into a lot of detail, exploring how even 10 million could be achieved. I know that servers often have hardware TCP offload engines, ASICs designed for this specific role more efficiently than a general purpose CPU.

Asynchronous IO design will differ across Operating Systems and Programming platforms. Node.js is known to be optimised for asynchronous server coding. C#/.Net is my platform of choice with a handy async keyword which results in more linear asynchronous code, whereas node.js ends up being very nested. Whatever the OS and platform, asynchronous should be expected to perform very well.

To WebFarm?

Whatever the limit is for your particular situation, yes a web-farm is one good solution to scaling. There are many architectures for achieving this. One is using a load balancer (hosting providers can offer these, but even these have a limit as well as the bandwidth), but I don't favour this option. For Single Page Applications with long-running connections, I prefer to instead have an open list of servers which the client application will chose from randomly at startup and reuse over the lifetime of the application. This removes the single point of failure (load balancer) and enables scaling through multiple data centres and therefore much more bandwidth.

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Thanks for including links to people talking about how they are doing it. –  Rick Smith Jun 2 at 16:46

To add my two cents to the conversation a process can have simultaneously open a number of sockets connected equal to this number (in Linux type sytems) /proc/sys/net/core/somaxconn

cat /proc/sys/net/core/somaxconn

This number can be modified on the fly (only by root user of course)

echo 1024 > /proc/sys/net/core/somaxconn

But entirely depends on the server process, the hardware of the machine and the network, the real number of sockets that can be connected before crashing the system

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@Abraham, thanks for you answer. I learned something! –  Michael Cole Dec 15 '14 at 16:44
While possibly true of Linux, this refers to a virtual limit, not a benchmark of possibilities. This answer is a little specific for my liking, and doesn't provide any number or indication of number of concurrent connections. Despite your efforts, it's not very useful. Maybe you could self-answer a question: "Why can't I server more than X concurrent TCP connections on Linux" –  Todd May 28 at 3:05
As far as I can tell this is wrong. somaxconn is the maximum number of queued connections on a open socket (i.e. it is the maximum value of the backlog parameter of listen(int socket, int backlog). It isn't related to the number of sockets that a process can have open. –  Timmmm 7 hours ago

Note that HTTP doesn't typically keep TCP connections open for any longer than it takes to transmit the page to the client; and it usually takes much more time for the user to read a web page than it takes to download the page... while the user is viewing the page, he adds no load to the server at all.

So the number of people that can be simultaneously viewing your web site is much larger than the number of TCP connections that it can simultaneously serve.

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This doesn't answer the question at all. Regardless of the accuracy of what you have said, there would still be a number of concurrent TCP connections at a given time, what's the maximum? This is the essence of the question. –  Todd Mar 29 '14 at 13:03
If you have something worthwhile to contribute, Todd, by all means go ahead and do so. –  Jeremy Friesner Mar 30 '14 at 5:26
I already had an Answer on the 28th of March, you must have missed it. In the modern world of Single Page Applications with long-polling and web-socket connections, HTTP isn't always shortlived. But even if it is shortlived there is still a maximum number of concurrent connections. Attempting to explain away the question is not an anwer IMO. This answer would be better placed as a comment on the question, it's certainly useful, but the question pertains to "socket connections", not "people". A question on ratio (users : active connections) should be a separate question if desired. –  Todd May 28 at 3:01

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