Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Briefly, a manual reset event is a synchronization construct which is either in the "signaled" or "nonsignaled" state. In the signaled state, any thread which calls a wait function on the event will not block and execution will continue unaffected. Any and all threads which calls a wait function on a nonsignaled object will block until the event enters the signaled state.

The the transition between the signaled and nonsignaled states occurs only as a result of explicit calls to functions such as SetEvent and ResetEvent.

I've built a synchronization mechanism on Windows which uses both these manual reset events and their auto-reset siblings. The auto-reset mechanism can be easily replicated with a semaphore, but I'm struggling to find an equivalent for the manual-reset variety.

In particular, while a condition variable with "notify all" functionality might appear similar at first glance, it has considerably different (perhaps non-functional) behavior when you consider the fact that it requires an associated mutex. First, before the thread can wait on a condvar, it must get the associated mutex. In addition to the cost of getting and releasing the mutex, this serializes unnecessarily all the threads which are about to wait. On wake, even though all threads are notified, only one thread will actually get the mutex at a time, incurring additional performance and concurrency penalties, since the mutex serves no purpose in this case.

The release case is especially poor on a multi-CPU system given that the simultaneous release of all waiters guarantees that the difference between a condvar and a Windows event will be observable - with an Event, at N threads will become runnable on an N CPU system, and can run in parallel, while with a condvar - even with an implementation that avoids the thundering herd - the threads can only leak out one at a time through the associated mutex.

Any pointers to a construct that better imitates the behavior of manual reset events would be greatly appreciated. The closest I can find is a barrier - this allows the unsynchronized approach and release of multiple threads to the barrier - but the barrier "breaks" based on waiting thread count rather than an explicit application call, which is what I need.

share|improve this question
Perhaps a simpler way to think about it: A manual reset is event is like a gate. It is either opened or closed - all threads block, or no threads block. Passing through the gate has no effect on the gate - the gate is only controlled by explicit gate open (SetEvent) and gate close (ResetEvent) commands. –  BeeOnRope Dec 8 '09 at 23:09
possible duplicate of Cross-Platform equivalent to windows events –  jww Feb 11 at 13:35

5 Answers 5

up vote 3 down vote accepted

It's Linux-only (I only mention it because you have a "linux" tag), but I think you could build something like this on the futex syscall. See Ulrich Drepper's paper on Futexes for the gory details.

Very roughly, I envisage something along the lines of

void inline gate_wait(volatile int *gate)
    if (*gate)
        while (futex(gate, FUTEX_WAIT, 1, 0, 0, 0) == EINTR)

int inline gate_open(volatile int *gate)
    *gate = 0;
    return futex(gate, FUTEX_WAKE, INT_MAX, 0, 0, 0);

void inline gate_close(volatile int *gate)
    *gate = 1;

If you do build this "gate" synchronisation primitive on top of futexes, it might be worth contributing it to Rusty Russell's userspace futex library.

share|improve this answer
Thanks for this - the thought had crossed my find that Futexes (Futices?) might be general enough to be kernel-side half of a from-scratch implementation. I will check out Russell's library as well (what I'm after is a fast rwlock with specific behavior). –  BeeOnRope Dec 9 '09 at 1:06
(and yeah, I tagged it Linux rather than UNIX 'cause that's where the new stuff in this area is happening anyway) –  BeeOnRope Dec 9 '09 at 1:15
Accepting this because the real answer seems to be "no", and this provides the instructions on how to make one. –  BeeOnRope Oct 24 '11 at 6:13

if all the set/reset operations are in single thread you can easily use a pipe: the "event" is non-signaled/signaled when the pipe is empty/non-empty. To block on the "event" use select or poll on the read end of the pipe. To set the "event" write a byte to the write end. To reset the "event" just empty the pipe by reading the byte from the read end.

share|improve this answer
I thought the same like you, but later found a problem, the "send signal" and "wake threads up" are not atomic. If the signal-sending thread do "put byte to pipe" then immediately "get that byte from pipe", the waiting thread(doing select on pipe-read-side) may or may not be woke up. I've tried it on openSUSE 12.3(x86), kernel 3.7.10. This behavior is not strictly the same as Windows manual reset event. –  Jimm Chen Aug 28 at 13:31

Would a readers-writers lock work? I suspect it would, but you'd have to check if it was efficient in the cases you're interested in.

See the rwlock stuff in http://www.opengroup.org/onlinepubs/000095399/basedefs/pthread.h.html

Any number of readers exclusive with only one writer, so to block other threads, take a write lock. To let them proceed, unlock. You'd have to see which case is more efficient: taking a read lock when there is already at least one read lock, or taking the first read lock. I'd guess the former, so after letting all the threads go by write-unlocking, you could take a read lock.

If your threads don't read-unlock when they're done, you will have to do something different, or at least mess with the implementation internals. You don't want to decrement something one count at a time until you can take the write lock if 2^31 read locks have accumulated.

Oh yeah, caf's idea addresses that: the gate is read_lock; read_unlock; so you don't build up read locks.

share|improve this answer
So something like: gate_wait { read_lock; read_unlock }, gate_close { write_lock; }, gate_open { write_unlock; }? That should work. –  caf Dec 9 '09 at 0:30
Yeah, good call. I hadn't thought of when to read_unlock. Looks to me like it should work, too. gate_open could take a read_lock if that makes threads going through the gate more efficient. (since then the unlocker doesn't have to check if there were any writers waiting when the read_lock count drops to 0.) –  Peter Cordes Dec 9 '09 at 0:34
Heh, an interestingly recursive solution since my original request was part of moving a high-performance rwlock implementation from Windows to UNIX platforms. Strictly speaking I think the solution you provided is not well-formed since the thread which does the write lock must also do the unlock in POSIX: "Results are undefined if the read-write lock rwlock is not held by the calling thread." Of course, many implementations allow this without complaining, but others may not, or even go out of their way to enforce it via an explicit check. –  BeeOnRope Dec 9 '09 at 1:13
I was under the impression there was one gatekeeper thread which would block and unblock the other threads. You'd better have a look at futex, then, since that's linux's native lock interface that the posix stuff is built on. –  Peter Cordes Dec 9 '09 at 1:20
The gatekeeper functions can be called in any thread - in my case they are in fact called by arbitrary threads, with no relationship between gate opener and gate closer. –  BeeOnRope Dec 9 '09 at 16:24

I believe what you are looking for are the pthread_cond_* functions in your pthreads library. Pthread Cond Functions

These should provide you with something equivalent to the Windows manual reset events.

share|improve this answer
The question does discuss Condition Variables, which are apparently unsuitable. –  Hasturkun Nov 22 '10 at 22:31
@Hasturkun: hmm, missed that, along with the fact that the question was over a year old. :) That's what I get for skimming through the question. Just re-read it, and, yes, there is more overhead as the OP said. –  Will Nov 23 '10 at 16:42
Yeah, I was well aware of condition variables, but they are not exactly equivalent - in fact they may offer a superset of the functionality from a non-performance point of view, but when considering actual thread behavior they can't do the same things. –  BeeOnRope Jan 13 '11 at 1:13

Depending on the event functionality required, this article recommends either pthread conditions, or POSIX semaphores.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.