On Tue, 2013-03-26 at 06:40 -0700, Michel Lespinasse wrote:>
sem_nsems is user provided as the array size in some semget system
call. It's the size of an ipc semaphore array.
So we're basically adding a random (big) number to preempt_count
(obviously while preemption is disabled), seems rather costly and
undesirable.
complex semop operations take the array's lock plus every semaphore
locks; simple semop operations (operating on a single semaphore) only
take that one semaphore's lock.
Right, standard global/local lock like stuff. Is there a way we can add
a r/o test to the 'local' lock operation and avoid doing the above?
Maybe something like:
void sma_lock(struct sem_array *sma) /* global */
{
int i;
sma->global_locked = 1;
smp_wmb(); /* can we merge with the LOCK ? */
spin_lock(&sma->global_lock);
/* wait for all local locks to go away */
for (i = 0; i < sma->sem_nsems; i++)
spin_unlock_wait(&sem->sem_base[i]->lock);
}
void sma_lock_one(struct sem_array *sma, int nr) /* local */
{
smp_rmb(); /* pairs with wmb in sma_lock() */
if (unlikely(sma->global_locked)) { /* wait for global lock */
while (sma->global_locked)
spin_unlock_wait(&sma->global_lock);
}
spin_lock(&sma->sem_base[nr]->lock);
}
This still has the problem of a non-preemptible section of O(sem_nsems)
(with the avg wait-time on the local lock). Could we make the global
lock a sleeping lock?