All, here is a question about design/best practices of a complex case of canceling Task:s in C#. How do you implement cancellation of a shared task?
As a minimal example, lets assume the following; we have a long running, cooperatively cancellable operation 'Work'. It accepts a cancellation token as argument and throws if it has been canceled. It operates on some application state and returns a value. Its result is independently required by two UI components.
While the application state is unchanged, the value of the Work function should be cached, and if one computation is ongoing, a new request should not start a second computation but rather start waiting for a result.
Either of the UI components should be able to cancel it's Task without affecting the other UI components task.
Are you with me so far?
The above can be accomplished by introducing an Task cache that wraps the real Work task in TaskCompletionSources, whose Task:s are then returned to the UI components. If a UI component cancels it's Task, it only abandons the TaskCompletionSource Task and not the underlying task. This is all good. The UI components creates the CancellationSource and the request to cancel is a normal top down design, with the cooperating TaskCompletionSource Task at the bottom.
Now, to the real problem. What to do when the application state changes? Lets assume that having the 'Work' function operate on a copy of the state is not feasible.
One solution would be to listen to the state change in the task cache (or there about). If the cache has a CancellationToken used by the underlying task, the one running the Work function, it could cancel it. This could then trigger a cancellation of all attached TaskCompletionSources Task:s, and thus both UI components would get Canceled tasks. This is some kind of bottom up cancellation.
Is there a preferred way to do this? Is there a design pattern that describes it some where?
The bottom up cancellation can be implemented, but it feel a bit weird. The UI-task is created with a CancellationToken, but it is canceled due to another (inner) CancellationToken. Also, since the tokens are not the same, the OperationCancelledException can't just be ignored in the UI - that would (eventually) lead to an exception being thrown in the outer Task:s finalizer.