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Why are POSIX mutexes considered heavier or slower than futexes? Where is the overhead coming from in the pthread mutex type? I've heard that pthread mutexes are based on futexes, and when uncontested, do not make any calls into the kernel. It seems then that a pthread mutex is merely a "wrapper" around a futex.

Is the overhead simply in the function-wrapper call and the need for the mutex function to "setup" the futex (i.e., basically the setup of the stack for the pthread mutex function call)? Or are there some extra memory barrier steps taking place with the pthread mutex?

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Futex? Did I miss something in class some 15 years ago? –  Jörgen Sigvardsson Jun 15 '11 at 21:28
@Jörgen you didn't miss anything back then, they didn't exist! They're found in Linux 2.6.x (developed during 2.5.x development series) –  Nektarios Jun 15 '11 at 21:40
@Nektarios: actually, similar kinds of locks did exist much earlier. I believe the original DRI lock (around '91, SGI) was similar to current futexes. –  ninjalj Jun 15 '11 at 22:13
Do you have a reference for "POSIX mutexes considered heavier or slower than futexes"? Because as far as I know, for the past several years (since NPTL) pthreads on Linux have worked as you describe. –  Nemo Jun 15 '11 at 22:19
@Nemo: Just curious, if they work as I've described in my question (i.e., both remain in user-space when uncontested, and both make kernel-calls when contested), then why go through the trouble of using a futex over a mutex? –  Jason Jun 15 '11 at 23:13

3 Answers 3

up vote 5 down vote accepted

Because they stay in userspace as much as possible, which means they require fewer system calls, which is inherently faster because the context switch between user and kernel mode is expensive.

I assume you're talking about kernel threads when you talk about POSIX threads. It's entirely possible to have an entirely userspace implementation of POSIX threads which require no system calls but have other issues of their own.

My understanding is that a futex is halfway between a kernel POSIX thread and a userspace POSIX thread.

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The futex though must still make a system call if it is contested. If both the futex and mutex stay in user-space when uncontested, what are the "extra" system-calls the mutex must make over the futex when it's contested? Are you saying that the overhead for the mutex is in how it handles the contested case (i.e. more complex kernel calls compared to a futex)? –  Jason Jun 15 '11 at 21:16
A kernel mutex doesn't stay in userspace when uncontested, it goes to kernel mode. Any thread operation in a kernel implementation of POSIX threads goes directly to kernel mode because there's no userspace portion of the implementation. –  Nektarios Jun 15 '11 at 21:19
To make things more complicated (and more clear I hope), just because you're using 'pthreads' or POSIX threads doesn't mean you're using kernel or usermode implementations. In fact I don't know how to determine that except for source diving or experimental observation of their behavior. –  Nektarios Jun 15 '11 at 21:27
I too was originally under the assumption that a mutex for a kernel-thread, even in the uncontested case, always made a kernel call, but I'm being told that on Linux, that is not true since Linux pthread mutexes and semaphores are wrappers around futexes which remain in user-space in the uncontested case. So that's what is leaving me a bit confused ... I don't see why we should go through the trouble of dealing with raw futexes when mutexes are simple to use and if they're based on futexes, should exhibit the exact same performance characteristics. –  Jason Jun 15 '11 at 23:24
@Jason - in the case of an NPTL implementation of POSIX threads, if they are simply wrapping a futex, then you're right, there's no reason to deal with raw futexes because you're (presumably) going to get the exact same performance as you would get by wrapping a futex yourself. My discussion generally relates to kernel-level POSIX threads which is what your original question indicated to me. When you say "POSIX mutexes" realize that can mean kernel, userland, futex-based, or potentially other implementations of the POSIX API (remember POSIX is an API not an implementation detail) –  Nektarios Jun 15 '11 at 23:40

Futexes were created to improve the performance of pthread mutexes. NPTL uses futexes, LinuxThreads predated futexes, which I think is where the "slower" consideration comes. NPTL mutexes may have some additional overhead, but it shouldn't be much.

Edit: The actual overhead basically consists on:

  • selecting the correct algorithm for the mutex type (normal, recursive, adaptive, error-checking; normal, robust, priority-inheritance, priority-protected), where the code heavily hints to the compiler that we are likely using a normal mutex (so it should convey that to the CPU's branch prediction logic),
  • and a write of the current owner of the mutex if we manage to take it which should normally be fast, since it resides in the same cache-line as the actual lock which we have just taken, unless the lock is heavily contended and some other CPU accessed the lock between the time we took it and when we attempted to write the owner (this write is unneeded for normal mutexes, but needed for error-checking and recursive mutexes).

So, a few cycles (typical case) to a few cycles + a branch misprediction + an additional cache miss (very worst case).

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So then is there a point to using a futex over a mutex (at least on Linux)? –  Jason Jun 15 '11 at 23:16
@Jason: not really, unless you are writing your own libc, or want to create some synchronization primitive other than a mutex. –  ninjalj Jun 16 '11 at 0:09
@Jason, seen just as a replacement of mutex, futex doesn't bring you much difference in performance. In contrast it has an API that is much more difficult to capture, so don't do that. Where futex can really be helpful is when it is viewed as a mutex and condition variable (on an int condition) in one go. There it is more time and space efficient and you avoid the pitfall of POSIX that someone could wait on a condition by using a different mutex. –  Jens Gustedt Jun 16 '11 at 6:53

The short answer to your question is that futexes are known to be implemented about as efficiently as possible, while a pthread mutex may or may not be. At minimum, a pthread mutex has overhead associated with determining the type of mutex and futexes do not. So a futex will almost always be at least as efficient as a pthread mutex, until and unless someone thinks up some structure lighter than a futex and then releases a pthreads implementation that uses that for its default mutex.

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