I want to prevent a thread switch by Windows XP/7 in a time critical part of my code that runs in a background thread. I'm pretty sure I can't create a situation where I can guarantee that won't happen, because of higher priority interrupts from system drivers, etc. However, I'd like to decrease the probability of a thread switch during that part of my code to the minimum that I can. Are there any create-thread flags or Window API calls that can assist me? General technique tips are appreciated too. If there is a way to get this done without having to raise the threads priority to real-time-critical that would be great, since I worry about creating system performance issues for the user if I do that.
UPDATE: I am adding this update after seeing the first responses to my original post. The concrete application that motivated the question has to do with real-time audio streaming. I want to eliminate every bit of delay I can. I found after coding up my original design that a thread switch can cause a 70ms or more delay at times. Since my app is between two sockets acting as a middleman for delivering audio, the instant I receive an audio buffer I want to immediately turn around and push it out the the destination socket. My original design used two cooperating threads and a semaphore since the there was one thread managing the source socket, and another thread for the destination socket. This architecture evolved from the fact the two devices behind the sockets are disparate entities.
I realized that if I combined the two sockets onto the same thread I could write a code block that reacted immediately to the socket-data-received message and turned it around to the destination socket in one shot. Now if I can do my best to avoid an intervening thread switch, that would be the optimal coding architecture for minimizing delay. To repeat, I know I can't guarantee this situation, but I am looking for tips/suggestions on how to write a block of code that does this and minimizes as best as I can the chance of an intervening thread switch.
Note, I am aware that O/S code behind the sockets introduces (potential) delays of its own.