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I need to make a Server that will listen and answer to UDP packets, It will listen 10 ports.

The packets are very small, no more than 20 bytes. Each packet will modify or search into a huge hash-table.

But it have to process 15k packets per second.

I can develop in c, c++ or qt.

There is any special guidelines that need to meet this requirements ? What is the basic design to use ? Is threading a need ?

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15k/minute is 250/second. This should be an almost trivial workload (assuming you're going to be working on a modern desktop/server platform), so I wouldn't worry about it. –  Oliver Charlesworth Feb 12 '11 at 1:11
    
Oli, sorry i made a typo, is 15k/second. –  bratao Feb 12 '11 at 1:15
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Ok, that sounds somewhat less trivial! –  Oliver Charlesworth Feb 12 '11 at 1:16
    
Any reason for using 10 different ports? just wanted to know.. –  Jack Feb 12 '11 at 6:15
    
which platforms are you targeting? –  Len Holgate Feb 12 '11 at 7:32

2 Answers 2

For this sort of performance, I would consider a select()-based "commutator loop":

  • Open the listening UDP sockets
  • Call select() to determine sockets with readable data
  • For each readable socket, read bytes (non-blocking read)
  • When you get a complete packet, process (and write, as needed)

You can build a simple table that dispatches on select() results.

This approach will give you the best possible performance, because it's as close as you can get to the operating system calls, with minimal overhead. It runs as a single process, minimizing context switching and getting the best cache locality.

Next, if you find things are CPU bound, consider ways to use multiple CPU cores with multiple threads or processes. For example, can you have each processor handling N of your 10 sockets, with the hash table in shared memory.

Finally, I'd be careful about using a lot of threads (e.g. a large worker pool of threads, etc.). At extreme performance levels, thread overhead can get significant.

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Good advice. A thread pool that feeds from a queue of pending packets might be the way to go. –  Steven Sudit Feb 12 '11 at 3:27
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Actually poll() and platform-specific system calls like epoll() and kqueue are much more efficient than select(). –  ldx Feb 12 '11 at 15:10
    
@ldx: Not necessarily -- it depends. On many systems poll() and select() are very similar (sometimes one being implemented as a thin layer on another). epoll() and kqueue will excel when you have a large number of file descriptors. Here, he's got only 10 with a very high packet rate: they're going to be readable MOST of the time. –  payne Feb 12 '11 at 18:56
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It is unlikely that the scalability of poll / epoll etc, is required with a UDP server, because it only needs a single socket. In principle, it could be implemented using blocking reads. –  MarkR Feb 13 '11 at 16:45

Boost.Asio is the perfect choice for a scalable UDP server. Using it has several advantages over programming to the socket APIs directly:

  1. The library is mature and proven, implementing your own select, poll, or epoll reactor will most likely encounter bugs.
  2. Using an int to represent all socket types lacks type safety, asio uses types such as boost::asio::ip::tcp::socket and boost::asio::ip::udp::socket.
  3. It scales to thousands of concurrent connections by promoting asynchronous design patterns instead of a thread per connection.
  4. Adding multithreading support for enhanced scalability is trivial.
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What the advantage of Boost.Asio over a direct Api call ? –  bratao Feb 12 '11 at 14:04
    
@bratao I've updated my answer –  Sam Miller Feb 12 '11 at 14:49

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