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There's a fast path in the code that looks like this:

while(1){

   select(fd_set...);

   if (fd_isUserspace) {
       process_user_packet(fd);    // RPC involved
   } else { // kernel 
       process_kernel_packet(fd);  // RPC invovled
   }
} // while(1)

Basically reading an active fd from a set of fds and process it. Currently it is done in a if-else branch and only returns when processing completes. I think I can improve this by using a thread-pool (poolSize>=2) within the if-else so that processing func immediately returns and can begin the while loop again for future fds.

Presumably the process_*_packet is gonna do some RPC work for processing.

I'm aware that dispatching the processing job down to a thread may have some overhead (thread_cond_signal/locking etc), but feel like since process_*_packet is probably takes time that is in a larger magnitude (due to RPC) maybe it's worth while.

Would like to get some thoughts (maybe even better idea) and I think this can be a very general question on how the design should be made for better performance.

-Thanks

share|improve this question

I wrote a thread pool in Java recently (Required for my parallel computing class, I know there's the built in one) and if you write it properly, it's actually quite fast.

The one huge advantage here if you use multiple threads: You don't have requests blocking anymore. You'll get better response times because you can handle multiple requests simultaneously.

If one takes a rather long time to process, send, or receive, then you don't need that packet to necessarily clog up your tubes.

With some thread pool, you'd just do:

while(1){

   select(fd_set...);

   if (fd_isUserspace) {
       submit_job(process_user_packet, fd);
   } else { // kernel 
       submit_job(process_kernel_packet, fd);
   }
} // while(1)

Where we assume submit_job has the signature

 void submit_job(void (*func)(void *), void *args);

So that each thread in the thread pool can simply grab the function and arguments that it needs to work on, and call func(args);

I wouldn't worry about the cost of dispatching the job at all. If processing takes any more than 1 millisecond (probably even less on really good implementations) then you'll be golden.

share|improve this answer
    
+1, with a good implementation a threadpool + select thread is a very scalable solution – Flexo Mar 14 '11 at 17:50
    
As far as I know, I believe most web servers work in this fashion too. – Mike Bantegui Mar 14 '11 at 17:57

Just an idea, but what if instead you throw out select and just use one thread per file descriptor? The only major disadvantage is context switching overhead if too many requests show up at once, but that may be preferable to the latency anyway. The advantage is fewer context switches in the non-overloaded case: the kernel directly wakes up the thread waiting for a file descriptor as soon as it's unblocked, rather than first waking up the select thread which has to then wakeup a thread to process the request. And of course the simplicity of something of an advantage in itself...

share|improve this answer
    
You mean have two threads each working on their domain and use select for fd within that thread? So the main thread is eliminated? – Figo Mar 14 '11 at 20:07
    
Well I meant one thread per fd with no select. – R.. Mar 15 '11 at 3:44

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