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So if I have a semaphore set semid with num_of_sems semaphores and a sembuf *deleter_searchers_down

struct sembuf *deleter_searchers_down 
                        = malloc(sizeof (*deleter_searchers_down) * num_of_sems);
for (i = 0; i < num_of_sems; ++i) {
            (deleter_searchers_down + i)->sem_op = -1;
            (deleter_searchers_down + i)->sem_num = i;
            (deleter_searchers_down + i)->sem_flg = SEM_UNDO;
semop(semid, deleter_searchers_down, num_of_sems);

The call to semop will attempt to lower all semaphores in the set at once or will it block once it attempts to lower the first semaphore that is 0 and continue after some other process ups that particular semaphore?

share|improve this question
Well semaphores do exactly what you say ,that is ,when they are lowered, if they are 0 they block the process. – byrondrossos Apr 18 '12 at 9:33
Read the question carefully plz - will semop attempt to lower all of the set and block on all of the zero ones or will it block on the first (first ?) encountered 0 – Mr_and_Mrs_D Apr 18 '12 at 9:35
You can specify IPC_NOWAIT to return immediately on failure. – RedX Apr 18 '12 at 9:53
@nos Have you read the link? – RedX Apr 18 '12 at 9:55
@RedX The link is relevant, IPC_NOWAIT is not. The question is if the one of the operations in the array that does not cause blocking is performed immediately, or if it's deferred and the operations are done all at once when the process is unblocked(cause one of the later operations in the array caused it to block in the first place) – nos Apr 18 '12 at 10:00
up vote 6 down vote accepted

No updates happen until all updates can proceed as a unit.

The POSIX specification could be clearer about this point, although it does say that semop is atomic.

On Linux, semop(3) in glibc is a simple wrapper around semop(2). The semop(2) manpage in turn says

The set of operations contained in sops is performed in array order, and atomically, that is, the operations are performed either as a complete unit, or not at all.

The HP-UX semop(2) manpage is even clearer:

Semaphore array operations are atomic in that none of the semaphore operations are performed until blocking conditions on all of the semaphores in the array have been removed.

share|improve this answer
Thanks - does this mean that the process trying to down the semid will block on the first array element that is 0 and semop() will undo all the previous array elements downs() ? – Mr_and_Mrs_D Apr 18 '12 at 13:16
This is up to the implementation. As an example, the code in Linux ipc/sem.c (function try_atomic_semop) does something similar what you describe. It tries the operations, and if any of them block, changes are undone. But there is an important point: the updates are done while holding a lock on the semaphore set. So the inconsistent state is not visible to any other task: a task wishing to change the semaphore would first have to acquire the lock, and a task blocked on the semaphore is already asleep. So in the end the operation is truly atomic. – Greg Inozemtsev Apr 18 '12 at 17:07
Ok - thanks - a last point : there is no chance (implementation) the process calling semop will block on all semaphores that are 0 ? – Mr_and_Mrs_D Apr 18 '12 at 17:35
I'm not sure if I understood the question correctly, so feel free to correct me. If multiple semaphores are 0 and cannot be acquired, the call to semop will block until this becomes possible. semop will not return until the entire operation is complete. If your question is about wasting CPU time, in recent Linux kernels the task is not scheduleable when on a semaphore wait queue: it will sleep and be woken once another task calls semop and changes the semaphore set. – Greg Inozemtsev Apr 18 '12 at 19:00
I meant if it is possible for the process calling semop (as in the example given) to block on all semaphores that are 0 - that is not only on the first (in array order) it encounters to be 0. So instead of undoing the operation to block on all the ones that are 0 and wait for all of them - but when all of them become available not redo but just return. But this would contradict the role of semaphores (easy to think a counterexample if there are other processes uping the sems in semid). – Mr_and_Mrs_D Apr 18 '12 at 19:15

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