What is the most succint way of writing the GetMessages function with Rx:

static void Main()
    Socket socket = new Socket(AddressFamily.InterNetwork, SocketType.Stream, ProtocolType.Tcp);

    var messages = GetMessages(socket, IPAddress.Loopback, 4000);
    messages.Subscribe(x => Console.WriteLine(x));


static IObservable<string> GetMessages(Socket socket, IPAddress addr, int port)
    var whenConnect = Observable.FromAsyncPattern<IPAddress, int>(socket.BeginConnect, socket.EndConnect)(addr, port);

    // now will receive a stream of messages
    // each message is prefixed with an 4 bytes/Int32 indicating it's length. 
    // the rest of the message is a string

    // ????????????? Now What ????????????? 

A simple server as a driver for the above sample: http://gist.github.com/452893#file_program.cs

On Using Rx For Socket Programming

I've been investigating using Reactive Extensions for some socket programming work I am doing. My motivation for doing so would be that it would somehow make the code "simpler". Whether this would mean less code, less nesting something along those lines.

However so far that does not seem to be the case:

  1. I haven't found very many examples of using Rx with sockets
  2. The examples I have found don't seem less complicated then my existing BeginXXXX, EndXXXX code
  3. Although Observable has extension methods for FromAsyncPattern, this does not cover the SocketEventArgs Async API.

Current Non-Working Solution

Here is what I have so far. This doesn't work, it fails with a stack overflow (heh) I haven't figured out the semantics so that I can create an IObservable that will read a specified number of bytes.

    static IObservable<int> GetMessages(Socket socket, IPAddress addr, int port)
        var whenConnect = Observable.FromAsyncPattern<IPAddress, int>(socket.BeginConnect, socket.EndConnect)(addr, port);

        // keep reading until we get the first 4 bytes
        byte[] buffer = new byte[1024];
        var readAsync = Observable.FromAsyncPattern<byte[], int, int, SocketFlags, int>(socket.BeginReceive, socket.EndReceive);

        IObservable<int> readBytes = null;
        var temp = from totalRead in Observable.Defer(() => readBytes)
                   where totalRead < 4
                   select readAsync(buffer, totalRead, totalRead - 4, SocketFlags.None);
        readBytes = temp.SelectMany(x => x).Sum();

        var nowDoSomethingElse = readBytes.SkipUntil(whenConnect);
  • I'm working on something similar. A single "socket" does not translate directly to an IObservable, so I'm exploring a mix of TPL and Rx. The Connect operation, for example, is much more of a Task, while the repeated Reads can be treated as an IO<T>. If the end result is ever simple enough, it'll become part of Nito.Async. Jun 25 '10 at 13:45
  • My thinking was you could use the Connect at the start of the stream, and then the Close at the end, somewhat equivalent to the MouseDown & MouseUp IObservable events used in producing some of the existing Rx examples. Jun 25 '10 at 14:13
  • It probably did not exist when this question was asked, but now it does and might be of interest here: "Rxx provides several APIs that make it easy to invoke web requests asynchronously, including (...) System.Net.Sockets.Socket, System.Net.Sockets.TcpClient". rxx.codeplex.com Apr 13 '15 at 16:29

Something along these lines could work. This is not tested, does not take into account exceptions and the case when a message is returned partially. But otherwise, I believe this is a right direction to go.

    public static IObservable<T> GetSocketData<T>(this Socket socket,
        int sizeToRead, Func<byte[], T> valueExtractor)
        return Observable.CreateWithDisposable<T>(observer =>
            var readSize = Observable
                .FromAsyncPattern<byte[], int, int, SocketFlags, int>(
            var buffer = new byte[sizeToRead];
            return readSize(buffer, 0, sizeToRead, SocketFlags.None)
                x => observer.OnNext(valueExtractor(buffer)),

    public static IObservable<int> GetMessageSize(this Socket socket)
        return socket.GetSocketData(4, buf => BitConverter.ToInt32(buf, 0));

    public static IObservable<string> GetMessageBody(this Socket socket,
        int messageSize)
        return socket.GetSocketData(messageSize, buf =>
            Encoding.UTF8.GetString(buf, 0, messageSize));

    public static IObservable<string> GetMessage(this Socket socket)

            from size in socket.GetMessageSize()
            from message in Observable.If(() => size != 0,
            select message;

    public static IObservable<string> GetMessagesFromConnected(
        this Socket socket)
        return socket
            .TakeWhile(msg => !string.IsNullOrEmpty(msg));

    public static IObservable<string> GetMessages(this Socket socket,
        IPAddress addr, int port)
        return Observable.Defer(() => 
            var whenConnect = Observable
                .FromAsyncPattern<IPAddress, int>(
                    socket.BeginConnect, socket.EndConnect);
            return from _ in whenConnect(addr, port)
                   from msg in socket.GetMessagesFromConnected()
                   select msg;

Edit: To handle incomplete reads, Observable.While can be used (within GetSockedData) as proposed by Dave Sexton in the same thread on RX forum.

Edit: Also, take a look at this Jeffrey Van Gogh's article: Asynchronous System.IO.Stream reading

  • Yeah, this doesn't really work, as EndRecieve may return less then the full size, requiring another request Jun 28 '10 at 20:40

Ok, so this is perhaps "cheating", but I suppose you could re-purpose my non-Rx answer and wrap it with Observable.Create.

I'm fairly sure that returning the socket as the IDisposable is the wrong semantics, but not sure what would be.

    static IObservable<string> GetMessages(Socket socket, IPAddress addr, int port)
        return Observable.CreateWithDisposable<string>(
            o =>
                byte[] buffer = new byte[1024];

                Action<int, Action<int>> readIntoBuffer = (length, callback) =>
                    var totalRead = 0;

                    AsyncCallback receiveCallback = null;
                    AsyncCallback temp = r =>
                        var read = socket.EndReceive(r);

                        if (read == 0)

                        totalRead += read;

                        if (totalRead < length)
                            socket.BeginReceive(buffer, totalRead, length - totalRead, SocketFlags.None, receiveCallback, null);
                    receiveCallback = temp;

                    socket.BeginReceive(buffer, totalRead, length, SocketFlags.None, receiveCallback, null);

                Action<int> sizeRead = null;

                Action<int> messageRead = x =>
                    var message = Encoding.UTF8.GetString(buffer, 0, x);
                    readIntoBuffer(4, sizeRead);

                Action<int> temp2 = x =>
                    var size = BitConverter.ToInt32(buffer, 0);
                    readIntoBuffer(size, messageRead);
                sizeRead = temp2;

                AsyncCallback connectCallback = r =>
                    readIntoBuffer(4, sizeRead);

                socket.BeginConnect(addr, port, connectCallback, null);

                return socket;

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