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I want to implement a class or pattern that ensures that I never execute more than one Task at a time for a certain set of operations (HTTP calls). The invocations of the Tasks can come from different threads at random times. I want to make use of the async-await pattern so that the caller can handle exceptions by wrapping the call in a try-catch.

Here's an illustration of the intended flow of execution:

enter image description here

Pseudo code from caller:

try {
    Task someTask = GetTask();
    await SomeScheduler.ThrottledRun(someTask);
catch(Exception ex) { 
    // Handle exception

The Taskclass here might instead be an Action class depending on the solution.

Note that I when I use the word "Schedule" in this question I'm not necessarily using it with relation to the .NET Task Scheduler. I don't know the async-await library well enough to know at what angle and with what tools to approach this problem. The TaskScheduler might be relevant here, and it may not. I've read the TAP pattern document and found patterns that almost solve this problem, but not quite (the chapter on interleaving).

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1 Answer 1

up vote 10 down vote accepted

There is a new ConcurrentExclusiveSchedulerPair type in .NET 4.5 (I don't remember if it was included in the Async CTP), and you can use its ExclusiveScheduler to restrict execution to one Task at a time.

Consider structuring your problem as a Dataflow. It's easy to just pass a TaskScheduler into the block options for the parts of the dataflow you want restricted.

If you don't want to (or can't) use Dataflow, you can do something similar yourself. Remember that in TAP, you always return started tasks, so you don't have the "creation" separated from the "scheduling" like you do in TPL.

You can use ConcurrentExclusiveSchedulerPair to schedule Actions (or async lambdas without return values) like this:

public static ConcurrentExclusiveSchedulerPair schedulerPair =
    new ConcurrentExclusiveSchedulerPair();
public static TaskFactory exclusiveTaskFactory =
    new TaskFactory(schedulerPair.ExclusiveScheduler);
public static Task RunExclusively(Action action)
  return exclusiveTaskFactory.StartNew(action);
public static Task RunExclusively(Func<Task> action)
  return exclusiveTaskFactory.StartNew(action).Unwrap();

There are a few things to note about this:

  • A single instance of ConcurrentExclusiveSchedulerPair only coordinates Tasks that are queued to its schedulers. A second instance of ConcurrentExclusiveSchedulerPair would be independent from the first, so you have to ensure the same instance is used in all parts of your system you want coordinated.
  • An async method will - by default - resume on the same TaskScheduler that started it. So this means if one async method calls another async method, the "child" method will "inherit" the parent's TaskScheduler. Any async method may opt out of continuing on its TaskScheduler by using ConfigureAwait(false) (in that case, it continues directly on the thread pool).
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I could get your example to work when using the Action overload, but not when sending in a Func<Task>. I'd very much appreciate if you could explain why the unit test in this gist does not work, as in the second task not waiting for the first to complete: gist.github.com/3424332 –  Nilzor Aug 22 '12 at 11:15
The Func<Task> doesn't work that way because the ConcurrentExclusiveSchedulerPair allows one executing task at a time, so when the async method awaits, it's no longer executing. If you need to block until the entire async method is complete, you're probably better off using an async lock. –  Stephen Cleary Aug 22 '12 at 11:46
Thanks for your help. I'm starting to realize the two keywords "async" and "await" are just the tip of an iceberg that will take months to uncover –  Nilzor Aug 22 '12 at 12:08
If you use ExclusiveScheduler with async actions, be aware that execution of several of those actions can be interleaved. So, when first action yields, second action may start executing. But the rest of the first action won't start until the second action yields or finishes. If this is not what you want, you can use a TPL Dataflow block with MaxDegreeOfParallelism = 1. –  svick Aug 22 '12 at 16:18

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