I have an asnyc function that I want to invoke on every observation in an IObservable sequence, limiting delivery to one event at a time. The consumer expects no more than one message in flight; and this is also the RX contract, if I understand it correctly.

Consider this sample:

static void Main() {
  var ob = Observable.Interval(TimeSpan.FromMilliseconds(100));
  //var d = ob.Subscribe(async x => await Consume(x));  // Does not rate-limit.
  var d = ob.Subscribe(x => Consume(x).Wait());

static async Task<Unit> Consume(long count) {
  Console.WriteLine($"Consuming {count} on thread {Thread.CurrentThread.ManagedThreadId}");
  await Task.Delay(750);
  Console.WriteLine($"Returning on thread {Thread.CurrentThread.ManagedThreadId}");
  return Unit.Default;

The Consume function fakes a 750 ms processing time, and ob produces events every 100 ms. The code above works, but calls task.Wait() on a random thread. If I instead subscribe as in the commented out line 3, then Consume is invoked at the same rate at which ob produces events (and I cannot even grok what overload of Subscribe I am using in this commented statement, so it is probably nonsense).

So how do I correctly deliver one event at a time from an observable sequence to an async function?


1 Answer 1


Subscribers are not supposed to be long running, and therefore there isn't support for executing long running async methods in the Subscribe handlers.

Instead, consider your async method to be a single value observable sequence that takes a value from another sequence. Now you can compose sequences, which is what Rx was designed to do.

Now that you have made that leap, you will probably have something like what @Reijher creates in Howto call back async function from rx subscribe?.

The break down of his code is as follows.

//The input sequence. Produces values potentially quicker than consumer
      //Project the event you receive, into the result of the async method
      .Select(l => Observable.FromAsync(() => asyncMethod(l)))
      //Ensure that the results are serialized
      //do what you will here with the results of the async method calls

In this scenario, you are creating implicit queues. In any problem where the producer is faster than the consumer, a queue will need to be used to collect values while waiting. Personally I prefer to make this explicit by putting data into a queue. Alternatively you could explicitly use a Scheduler to signal that is the threading model that should be picking up the slack.

This seems to be a popular hurdle (executing async in a subscribe handler) for Rx newcomers. There are many reasons that the guidance is to not put them in your subscriber, for example: 1. you break the error model 2. you are mixing async models (rx here, task there) 3. subscribe is the consumer of a composition of async sequences. An async method is just a single value sequence, so by that view cant be the end of the sequence, it's result might be though.


To illustrate the comment about breaking the error model here is an update of the OP sample.

void Main()
    var ob = Observable.Interval(TimeSpan.FromMilliseconds(100));
    var d = ob.Subscribe(
        x => ConsumeThrows(x).Wait(),
        ex=> Console.WriteLine("I will not get hit"));


static async Task<Unit> ConsumeThrows(long count)
    return await Task.FromException<Unit>(new Exception("some failure"));
    //this will have the same effect of bringing down the application.
    //throw new Exception("some failure");

Here we can see that if the OnNext handler was to throw, then we are not protected by our Rx OnError handler. The exception would be unhandled and most likely bring down the application.

  • Thank you, your explanation how this composition works is very good! In my case, I have not a lot of choice, as the consumer is a given (gRPC streams that are declared async). I do not expect it to be the bottleneck under normal network conditions though, and if it is, I am likely having more problems than could be handled with a reasonable recovery strategy--I cannot even prefer at this point implicit queueing vs e. g. dropping data. I'll consider explicit queues, but as it stands, this solution is certainly okay for my purposes.
    – kkm
    May 10, 2016 at 7:59
  • Lee, could you please clarify what do you mean by "breaking the error model"? When I am throwing an exception from Consume, it terminates the sequence with OnError. On the first sight, errors seem to do what they should. Am I missing anything?
    – kkm
    May 11, 2016 at 0:15
  • If in your example in the OP, you add either error statement throw new Exception("some failure"); or return await Task.FromException<Unit>(new Exception("some failure")); you will bring down the application. You will not hit your OnError handler. However in the sample code where the async method is moved out of the Subscribe into a Select, the sequence is terminated with and OnError that can be handled gracefully. May 11, 2016 at 2:23
  • 1
    Correct. I have updated the answer to hopefully remove that confusion. May 11, 2016 at 2:29
  • 1
    Thanks. By the way, the argument to FromAsync should be () => asyncMethod(l), not just asyncMethod(l). Could you please fix this?
    – kkm
    May 11, 2016 at 2:31

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