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I'm looking for something could be used for polling (like select, kqueue, epoll i.e. not busy polling) in C/C++. In other word, I need to block a thread, and then wake it up in another thread with as little overhead as possible.

A mutex + condition variable works, but there is a lot of overhead. A futex also works, but that's for Linux only (or maybe not?). Extra synchronization is not required as long as the polling itself works properly, e.g. no race when I call wait and wake in two threads.

Edit: If such a "facility" doesn't exist in FreeBSD, how to create one with C++11 built-in types and system calls?

Edit2: Since this question is migrated to SO, I'd like to make it more general (not for FreeBSD only)

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  • Do you also need to block on multiple sources, or just one? select, poll etc. are normally used for (de)multiplexing multiple fds, not just blocking on one.
    – Useless
    Commented Apr 25, 2014 at 15:03
  • @Useless One is good enough. Your are right, select is not a good example here. I mentioned it just to illustrate I don't want busy waiting
    – GuLearn
    Commented Apr 25, 2014 at 15:08
  • After the migration I;m confused about the 'target' for this question. Are you looking for the answer to be for FreeBSD, POSIX, or standard C++11? Commented Apr 25, 2014 at 18:22
  • @MichaelBurr I'm using FreeBSD which has POSIX and C++11. So I'm open all those three options
    – GuLearn
    Commented Apr 25, 2014 at 18:28
  • @GuLearn Were you able to find something for this? Commented Nov 17, 2018 at 1:44

2 Answers 2

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semaphores are not mutexes, and would work with slightly less overhead (avoiding the mutex+condvar re-lock, for example)

Note that since any solution where a thread sleeps until woken will involve a kernel syscall, it still isn't cheap. Assuming x86_64 glibc and the FreeBSD libc are both reasonable implementations, the unavoidable cost seems to be:

  1. user-mode synchronisation of the count (with a CAS or similar)
  2. kernel management of the wait queue and thread sleep/wait

I assume the mutex + condvar overhead you're worried about is the cond_wait->re-lock->unlock sequence, which is indeed avoided here.

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  • I'm okay with the syscall and context switch because I have a lot of not-that-busy threads. My concern about semaphore is that it may be even less efficient than mutex + condition variable: freebsd.org/cgi/man.cgi?query=sema&sektion=9. The man sem_overview in Ubuntu didn't say anything about performance though. I may need to compare that myself.
    – GuLearn
    Commented Apr 25, 2014 at 16:48
  • The glibc source for x86 shows it implements semaphores using the futex syscall to manage waiters, and a userspace CAS for the counter (eg. this pseudocode). I don't know how much cheaper it could be, but you'll need to investigate behaviour on other platforms yourself.
    – Useless
    Commented Apr 25, 2014 at 18:02
  • The FreeBSD libc code looks similar ...
    – Useless
    Commented Apr 25, 2014 at 18:11
  • sem_t seems to be faster than std::mutex + std::condition_variable when the contention is low.
    – GuLearn
    Commented Apr 25, 2014 at 18:30
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You want semaphores and not mutexes for the signaling between the to threads..

http://man7.org/linux/man-pages/man3/sem_wait.3.html

Semaphores can be used like a counter such as if you have a queue, you increment (post) to the semaphore every time you insert a message, and your receiver decrement (wait) on the semaphore for every message it takes out. If the counter reach zero the receiver will block until something is posted.

So a typical pattern is to combine a mutex and a semaphore like;

sender:
    mutex.lock
    insert message in shared queue
    mutex.unlock
    semaphore.post

receiver:
    semaphore.wait
    mutex.lock
    dequeue message from shared structure
    mutex.unlock

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