I have a .NET Windows Service that implements a socket server using the BeginRead / EndRead async I/O paradigm. Now this socket code needs to call into some async / Task / await async code.
I had been using the Nito.AsyncEx library's AsyncContext class' Run method, but I had reservations about whether calling that from EndRead would block, holding the worker thread hostage. The advice I got to my earlier question was to use Task.Run instead of Nito.AsyncEx's AsyncContext.Run. This submits the call into the async / await code and returns immediately. It occurred to me that under load that there's no pushback on clients to keep requests from flooding the thread pool.
I'll re-ask my original question about Nito.AsyncEx's AsyncContext.Run: Does it hold the thread it's called on (the pool thread calling my socket's EndRead callback) hostage, or does it free up that thread while the async I/O that it's calling happens in the background?
If Nito.AsyncEx's AsyncContext.Run truly blocks, then Task.Run seems to be my only choice. Any advice on how to pushback on client requests to prevent thread pool exhaustion?