When reading data from NetworkStream with ReadUntilClosedObservable1, the returned data is corrupted like some blocks of read data overlap.

However, when I read the data with ReadUntilClosedObservable2 the data arrives without problems.

I want to use the ReadUntilClosedObservable1 because repeatedly reading from stream in ReadUntilClosedObservable2 is burning the CPU.

How can I get the messages in sync order?


return Observable.Timer(TimeSpan.Zero, interval, TaskPoolScheduler.Default)
                    .SelectMany(_ => readToEnd)
                    .Where(dataChunk => dataChunk.Length > 0);

I just noticed that readToEnd to is fired again and again before it finishes the previous job. Doesn't it need to be synchronized? If Observable.Timer is the problem how can I achieve the same effect without it, reading in intervals but starting without waiting?

public static IObservable<int> ReadObservable(this Stream stream, byte[] buffer
                                              ,int offset, int count)
    return stream.ReadAsync(buffer, offset, count)

public static IObservable<byte[]> ReadObservable(this Stream stream,
                                                 int bufferSize)
    var buffer = new byte[bufferSize];

    return stream.ReadObservable(buffer, 0, buffer.Length)
                    .Select(cbRead =>
                                    if (cbRead == 0)
                                        return new byte[0];

                                    if (cbRead == buffer.Length)
                                        return buffer;

                                    var dataChunk = new byte[cbRead];

                                    Buffer.BlockCopy(buffer, 0, dataChunk,
                                                     0, cbRead);

                                    return dataChunk;

public static IObservable<byte[]> ReadUntilClosedObservable1(this NetworkStream
                                     stream, int bufferSize, TimeSpan interval)
    var readToEnd = Observable.Defer(() => stream.ReadObservable(bufferSize))
                                .DoWhile(() => stream.DataAvailable)
                                .Select(dataChunks =>
                                        var buffer = new List<byte>();

                                        foreach (var dataChunk in dataChunks)

                                        return buffer.ToArray();

    return Observable.Timer(TimeSpan.Zero, interval, TaskPoolScheduler.Default)
                        .SelectMany(_ => readToEnd)
                        .Where(dataChunk => dataChunk.Length > 0);

public static IObservable<byte[]> ReadUntilClosedObservable2(this Stream stream
                                                             ,int bufferSize)
    return Observable.Defer(() => stream.ReadObservable(bufferSize))
                        .Where(dataChunk => dataChunk.Length > 0);
  • I suspect that this is the problem Buffer.BlockCopy I would almost bet that when you run the code without the Buffer.BlockCopy that the Observable2 one runs with half the memory.BlockCopy doesn't have managed .NET implementation. Internally, it invokes external win api.
    – MethodMan
    Jan 21, 2013 at 13:53
  • @DJKRAZE: The problem is not with BlockCopy. I changed the copy part to: return buffer.Take(cbRead).ToArray(); But the problem is still there.
    – Samet S.
    Jan 21, 2013 at 15:54
  • Also done for a FileStream on IntroToRx.com introtorx.com/Content/v1.0.10621.0/… Jan 22, 2013 at 13:20

1 Answer 1


Oh, no, no...don't do it like that...

Async + Rx is one of the more...non-intuitive setups to get working, but it is quite a bit simpler than what you're attempting. The key bits are three different Rx operators:

  • FromAsyncPattern: generates a "IObservable Factory" from an async call signature
  • Observable.Defer: allows you to use above IObservable factory to generate observables per subscriber
  • Observable.While: allows you to "Reinvoke until I say when" on an IObservable

(EDIT: altered to use a NetworkStream example)

(doubleEDIT: altered based on comments)

Try this - unless I miss my guess, it's more or less what you're trying for:

void Main()
    // We'll feed this to listener
    var message = "Yo mamma said you like messages like this";

    var listenerTask = Task
        .StartNew(() => 
                var bufferSize = 1024;
                var localhost = new IPAddress(new byte[]{127,0,0,1});
                var listener = new TcpListener(localhost, 11201);
                var incomingClient = listener.AcceptTcpClient();
                var clientStream = incomingClient.GetStream();
                // our buffered reader
                var observer = clientStream.ReadObservable(bufferSize);
                var compareBuffer = observer
                    // Take while we're getting data and the client
                    // is still connected
                    .TakeWhile(returnBuffer => returnBuffer.Length > 0 && 
                    // In between read blocks, respond back to the client
                    // No need for fanciness here, just normal async writeback
                    .Do(returnBuffer => clientStream.BeginWrite(
                             ar => clientStream.EndWrite(ar), 
                    .SelectMany (returnBuffer => returnBuffer)
                     "Listener thinks it was told... {0}", 

    var clientTask = Task.Factory.StartNew(
        () => 
            var client = new TcpClient();
            client.Connect("localhost", 11201);
            var random = new Random();
            var outStream = client.GetStream();
            var bytesToSend = Encoding.ASCII.GetBytes(message);
            foreach(byte toSend in bytesToSend)
                // send a character over

                // Listener should parrot us...
                int goOn = outStream.ReadByte();
                if(goOn != toSend)
                        "Huh. Listener echoed wrong. I said: {0}, they said {1}", 
                Console.WriteLine("I said: {0}, they said {1}", toSend, goOn);

                // Take a little nap (simulate latency, etc)

    Task.WaitAll(listenerTask, clientTask);

public static class Ext
    public static IObservable<byte[]> ReadObservable(this Stream stream, int bufferSize)
        // to hold read data
        var buffer = new byte[bufferSize];
        // Step 1: async signature => observable factory
        var asyncRead = Observable.FromAsyncPattern<byte[], int, int, int>(
        return Observable.While(
            // while there is data to be read
            () => stream.CanRead, 
            // iteratively invoke the observable factory, which will
            // "recreate" it such that it will start from the current
            // stream position - hence "0" for offset
            Observable.Defer(() => asyncRead(buffer, 0, bufferSize))
                .Select(readBytes => buffer.Take(readBytes).ToArray()));
  • When I change the code to: return readToEnd.Repeat() .Where(dataChunk => dataChunk.Length > 0); from return Observable.Timer(TimeSpan.Zero, interval, TaskPoolScheduler.Default) .SelectMany(_ => readToEnd) .Where(dataChunk => dataChunk.Length > 0); It works perfect but a little heavy on CPU.
    – Samet S.
    Jan 21, 2013 at 18:15
  • @SametSorgut Nah, in that case you just need to alter your TakeWhile accordingly...when I get a moment, I'll augment this to work with a tcp client/listener, is that what you're trying to adapt?
    – JerKimball
    Jan 21, 2013 at 18:47
  • Yes TcpClient. Connecting, Reading the data repeatedly, responding to read messages and when done closing the connection. All in RX.
    – Samet S.
    Jan 21, 2013 at 20:32
  • @SametSorgut Ah, I see...the response in between would be tricky with this example - one sec, I'll alter accordingly.
    – JerKimball
    Jan 21, 2013 at 21:22
  • @JerKimball Rxx seems to do it very differently. Can anyone elaborate? github.com/RxDave/Rxx/blob/master/Main/Source/… Oct 1, 2015 at 17:23

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