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After my application froze I tracked down the cause to a thread waiting on a task created by Task.Delay() (or TaskEx.Delay() in .NET 4.0) for which it provided a computed TimeSpan that, due to a bug, was on occasion computed to a TimeSpan with a TotalMilliseconds of less than or equal to -1 and greater than -2 (i.e. anywhere between -10000 to -19999 ticks, inclusive).

It appears that when you pass a negative TimeSpan that is -2 milliseconds or lower, the method correctly throws an ArgumentOutOfRangeException, but when you provide a negative TimeSpan from the range described above, it returns a Task that never completes (by setting the underlying System.Threading.Timer to a dueTime of -1 which denotes infinity). That means that any continuations set on that task will never execute, and any poor thread that happens to .Wait() on that Task will forever be blocked.

What possible use can a Task that never completes have? Would anyone expect such a return value? Shouldn't any negative value passed to .Delay(), including values in that special range, throw an ArgumentOutOfRangeException?

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The MSDN doc is pretty explicit in allowing -1, so it seems to be behaving correctly. Not sure of the use case for that overload, but it could be a way of waiting for 'just' cancellation with the overload that takes a cancellation token. – James Manning May 24 '12 at 16:59
@James: It is not explicit in allowing -1, it's explicit in disallowing values lower than -1. It doesn't even say what will happen if you pass -1, unlike the documentation of System.Threading.Timer. It almost appears like the documented list of exception was automatically generated from the source code. And if you're waiting for 'just' cancellation, why even make a call to Task.Delay()? – Allon Guralnek May 24 '12 at 17:13
if you think it's broken, file a bug on connect. A doc that says "lower than -1 is invalid" is explicit (to me) in saying that -1 is valid. If the intent was -1 as invalid "lower than 0 is invalid" would have been easier to write. Since the doc and the code both allow -1, I think this is By Design, but feel free to go file a bug on connect (more likely to be processed by the BCL team than a random SO thread, I would think :) – James Manning May 24 '12 at 20:27
@James: The reason I posted it on SO is because I'm not sure it's a bug. I'm looking for an explanation for the design of this API, assuming it's intentional. For example, svick's use-case makes sense. – Allon Guralnek May 24 '12 at 21:04
up vote 5 down vote accepted

Timeout.Infinite or -1 is useful when you want to wait indefinitely for a long-running task that will take an indeterminate amount of time to complete, but will eventually complete.

The Win32 API also uses a constant INFINITE = -1 for infinite timeouts.

You wouldn't normally want to use it in a UI thread, as it could freeze the UI (which seems to be your problem). But there are valid use cases in a worker thread - e.g. a server that is blocking waiting for a connection from a client.

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An infinite timeout is useful. An infinite delay is not (and therefore you first paragraph doesn't apply). What in the world would you want to delay forever? You might as well just not perform it. It just doesn't make any sense to me that the implementation detail of -1 will be propagated from System.Threading.Timer (or the Win32 timer) up to the Task.Delay() method. It is contrary to Microsoft's design principle of pushing developers into the "pit of success", unless there’s some use case I’m not aware of. – Allon Guralnek May 24 '12 at 18:44
Also, I'm not using it in a UI thread. It's a Windows Service that when asked to stop, it must perform a shutdown routine by calling a TAP-based method that may take too long to run so it also create a delay task that will perform a forced shutdown. It then performs a .WaitAny() on both tasks, and since the original task took an extremely long time and the delay task will never complete (instead of throwing an exception), the service appeared to hang. – Allon Guralnek May 24 '12 at 18:56
How would a server that is blocking waiting for a connection from a client would use a Task that never completes? Could you show an example? – Allon Guralnek May 24 '12 at 19:02
@AllonGuralnek, you can do something like await Task.WhenAny(mainTask, Task.Delay(timeout)). And if you set timeout to -1, then it never times out. – svick May 24 '12 at 19:10
@Joe, it will freeze the UI only if you Wait() on it. If you use it with await, it's just fine on the UI thread too. – svick May 24 '12 at 19:11

In mocking scenarios, where I want to ensure that my code in a Task.WhenAny() block is handling one of the tasks awaited on correctly, I may mock the other tasks and use an infinite delay to ensure that the Task.WhenAny is processing the task I did not mock as an infinite delay.

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Interesting use-case, although I think it would be more explicit and clear to use new TaskCompletionSource().Task to provide a never-ending task. – Allon Guralnek Nov 26 '15 at 6:06

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