I'm trying to write an extension method for System.Net.WebSocket that will turn it into an IObserver using Reactive Extensions (Rx.NET). You can see the code below:

public static IObserver<T> ToObserver<T>(this WebSocket webSocket, IWebSocketMessageSerializer<T> webSocketMessageSerializer)
    // Wrap the web socket in an interface that's a little easier to manage
    var webSocketMessageStream = new WebSocketMessageStream(webSocket);

    // Create the output stream to the client
    return Observer.Create<T>(
        onNext:      async message => await webSocketMessageStream.WriteMessageAsync(webSocketMessageSerializer.SerializeMessage(message)),
        onError:     async error   => await webSocketMessageStream.CloseAsync(WebSocketCloseStatus.InternalServerError, string.Format("{0}: {1}", error.GetType(), error.Message)),
        onCompleted: async ()      => await webSocketMessageStream.CloseAsync(WebSocketCloseStatus.NormalClosure, "Server disconnected")

This code works, but I am concerned about the use of async/await inside of the onNext, onError, and onCompleted lambdas. I know that this returns an async void lambda, which is frowned upon (and sometimes causes issues that I've already run into myself).

I've been reading up on the Rx.NET documentation as well as blog posts across the internet and I cannot seem to find the proper way (if there is one) to use an async/await method in an IObserver. Is there a proper way to do this? If not, then how can I work around this problem?

  • Your assumptions are wrong. Actually, you're passing Func<Task<T>> (or some variant that takes parameters) to onNext etc. The delegates don't have void return types. They return tasks.
    – spender
    Feb 3, 2016 at 17:51
  • I'm not sure I follow you. I can assign an async method to an Action like this: Action test = async () => await DoSomethingAsync(); This compiles just fine and the "test" action is not awaitable. Calling test() returns immediately and before DoSomethingAsync() completes. The method definition for Observer.Create() accepts Actions as params for onNext, onError, and onCompleted. This is why the code I posted above works. However, when someone calls OnNext(x) on my IObserver, it does not wait for the asynchronous part of the method to finish before returning. Feb 3, 2016 at 18:05
  • Oops. My bad. Looking into it now.
    – spender
    Feb 3, 2016 at 18:21
  • The general guidance (IMO) is that you dont implement IObserver<T> or use Observer.Create. Instead you should use the Subscribe extension method and pass your lambdas into that. Feb 4, 2016 at 0:47
  • Why do async on an observable anyway? The schedulers allow you to be async without compiler help. Feb 4, 2016 at 11:11

1 Answer 1


Subscribe does not take async methods. So what happens here is you are using a fire-and-forget mechanism from async void. The problem is that onNext messages will no longer be serialized.

Instead of calling an async method inside Subscribe, you should wrap it into the pipeline to allow Rx to wait for it.

It's okay to use fire-and-forget on onError and onCompleted because these are guaranteed to be the last thing called from the Observable. Do keep in mind that resources associated with the Observable can be cleaned up after onError and onCompleted returned, before they completed.

I wrote a small extension method that does all this:

    public static IDisposable SubscribeAsync<T>(this IObservable<T> source, Func<T, Task> onNext, Action<Exception> onError, Action onCompleted)
        return source.Select(e => Observable.Defer(() => onNext(e).ToObservable())).Concat()
            e => { }, // empty

First we convert the async onNext method into an Observable, bridging the two async worlds. This means async/await inside onNext will be respected. Next we wrap the method into Defer so it wont start right when it is created. Instead Concat will call the next defered observable only when the previous one finished.

Ps. I have hope the next release of Rx.Net will have async support in subscribe.

  • What do you mean by "onNext messages will no longer be serialized"? Feb 4, 2016 at 0:56
  • 3
    What Dorus is saying is that two layers of asynchrony are being introduced here. If one message is received, it will invoke the WriteMessageAsync method. If another message is received, then it will execute the WriteMessageAsync regardless of if the previous call has completed. This means you could have out of order messages (especially if the TaskPool scheduling gets involved too). i.e. onNext messages will no longer be serialized. Feb 4, 2016 at 1:31
  • 3
    I dont think that there will be another 2.x version of Rx released. I believe that Bart and the team are working on v3.0 at the moment. Hopefully we will see something from them in the next few months/quarters. Feb 4, 2016 at 2:40
  • 1
    @KevinCraft Added some detail, and yes, it will respect async/await inside onNext, but not block a thread.
    – Dorus
    Feb 4, 2016 at 8:29
  • 1
    I think they are avoiding it for the moment. IMO it is a bit like giving sharp knives to children. This stuff is complicated enough without mixing asynchrony paradigms mid query (Rx Schedulers vs TaskPool) Feb 5, 2016 at 6:22

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