I'm using I/O Completion Ports in Windows, I have an object called 'Stream' that resembles and abstract an HANDLE (so it can be a socket, a file, and so on).
When I call Stream::read() or Stream::write() (so, ReadFile()/WriteFile() in the case of files, and WSARecv()/WSASend() in the case of sockets), I allocate a new OVERLAPPED structure in order to make a pending I/O request that will be completed in the IOCP loop by some other thread.
Then, when the OVERLAPPED structure will be completed by the IOCP loop, it will be destroyed there. If that's the case, Stream::read() or Stream::write() are called again from the IOCP loop, they will instance new OVERLAPPED structures, and it will go forever.
This works just fine. But now I want to improve this by adding caching of OVERLAPPED objects: when my Stream object does a lot of reads or writes, it absolutely makes sense to cache the OVERLAPPED structures.
But now arise a problem: when I deallocate a Stream object, I must deallocate the cached OVERLAPPED structures, but how I can know if they've been completed or are still pending and one of the IOCP loops will complete that lately? So, an atomic reference count is needed here, but now the problem is that if I use an atomic ref counter, I have to increase that ref counter for each read or write operations, and decrease on each IOCP loop completion of the OVERLAPPED structure or Stream deletion, which in a server are a lot of operations, so I'll end up by increasing/decreasing a lot of atomic counters a lot of times.
Will this impact very negatively the concurrency of multiple threads? This is my only concern that blocks me to put this atomic reference counter for each OVERLAPPED structure.
Are my concerns baseless?
I thought this is an important topic to point out, and a question on SO, to see other's people thoughts on this and methods for caching OVERLAPPED structures with IOCP, is worth it. I wish to find out a clever solution on this, without using atomic ref counters, if it is possible.