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I need to write a very high load UDP server. I'm using .Net. How do I use the Socket class to achieve this?

I am familiar with the winsock API, and completion ports, and what i would do there, is to use several threads to accept sockets using a completion port, and also to receive in the same manner.

My server needs to process a LOT of small UDP packets very quickly, and i want to receive them asynchronously, how do i do this using .net?

I thought of calling BeginReceive several times, but that kinda seems silly...

If anyone has a good .net example for this it would of course help a lot.

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2 Answers 2

If you only have a single socket and you can process UDP packets independently of each other, then the best approach would actually be to use a thread pool where each thread invokes a blocking Receive. The OS will take care of waking up one of the waiting threads to receive/process the packet. That way you can avoid any overhead introduced by the async-I/O routines.

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this is a valid approach for medium load scenarios. but the overhead induced by creating a lot of threads will hamper your performance and scalability. –  AK_ Dec 26 '11 at 10:40
    
But you wouldn't be creating lots of threads - the size of the thread pool would roughly depend on the number of CPU cores. –  cmeerw Feb 7 '13 at 13:26

What I have found to minimize dropped packets is to read from the socket asynchronously as you mentioned, but to put the bytes read into a thread safe queue, then have another thread read off the queue and process the bytes. If you are using .Net 4.0 you could use ConcurrentQueue:

public class SomeClass {
    ConcurrentQueue<IList<Byte>> _Queue;
    Byte[] _Buffer;
    ManualResetEvent _StopEvent;
    AutoResetEvent _QueueEvent;
    private void ReceiveCallback(IAsyncResult ar) {
        Socket socket = ar.AsyncState as Socket;
        Int32 bytesRead = socket.EndReceive(ar);
        List<Byte> bufferCopy = new List<byte>(_Buffer);
        _Queue.Enqueue(bufferCopy);
        _QueueEvent.Set();
        if(!_StopEvent.WaitOne(0)) socket.BeginReceive(...);
        return;
    }
    private void ReadReceiveQueue() {
        WaitHandle[] handles = new WaitHandle[] { _StopEvent, _QueueEvent };
        Boolean loop = true;
        while (loop) {
            Int32 index = WaitHandle.WaitAny(handles);
            switch (index) {
                case 0:
                    loop = false;
                    break;
                case 1:
                    // Dequeue logic here
                    break;
                default:
                    break;
            }
        }
    }
}

Note: the _StopEvent is a ManualResetEvent so that both the ReceiveCallback and ReadReceiveQueue methods can use the same event to shut down cleanly.

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It's a problematic approach, I gives no benifit if you have a constant high load, and is very difficult to manage the queue correctly(reading from the socket is a lot faster the processing). –  AK_ Dec 26 '11 at 10:43

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