I have a class in a windows service application that calls
MessageQueue.BeginReceive() to get messages from a queue as they arrive. Previously this was being done in the context of the service's main thread, but I moved it to a separate thread (one per queue).
BeginReceive call is inherently non-blocking; that's the whole point of the method. I believe internally the runtime uses an I/O completion port (IOCP) to accomplish the async magic, on what I assume as well is a separate managed thread (IOCPs are nice, but they are blocking).
When I re-wrote the queue reader class to run in a separate thread I did so with the expectation that the async receive would not be useful anymore, as it would fail to block, causing the thread proc to exit immediately. I assumed I would have to switch to a polling solution instead.
So I was surprised when I ran the reader for the first time on a separate thread and somehow the BeginReceive/EndReceive call is (I think) causing the thread to block until the queue is closed.
IOW, I expected the thread proc to return as soon as BeginReceive was called, since it's not blocking. But it doesn't work that way. The version of the reader class that uses it just sits there happily receiving messages on the separate thread until I signal for it to exit and the queue is closed.
Now don't get me wrong, this is nice. But I'm trying to understand why the managed thread is somehow being blocked from exiting by an operation that happens in a separate thread (BeginReceive) and about which it knows absolutely nothing. I need to know how this works in order to decide if it's a viable, stable approach. Does the managed thread somehow "know" that there's a pending async operation or something like that?