static void unwait(pthread_cond_t *c, pthread_mutex_t *m)
{
- int w;
-
/* Removing a waiter is non-trivial if we could be using requeue
* based broadcast signals, due to mutex access issues, etc. */
if (c->_c_mutex == (void *)-1) {
a_dec(&c->_c_waiters);
+ if (c->_c_destroy) __wake(&c->_c_waiters, 1, 0);
return;
}
while (a_swap(&c->_c_lock, 1))
__wait(&c->_c_lock, &c->_c_lockwait, 1, 1);
- /* Atomically decrement waiters2 if positive, else mutex waiters. */
- do w = c->_c_waiters2;
- while (w && a_cas(&c->_c_waiters2, w, w-1)!=w);
- if (!w) a_dec(&m->_m_waiters);
+ if (c->_c_waiters2) c->_c_waiters2--;
+ else a_dec(&m->_m_waiters);
a_store(&c->_c_lock, 0);
if (c->_c_lockwait) __wake(&c->_c_lock, 1, 1);
+
+ a_dec(&c->_c_waiters);
+ if (c->_c_destroy) __wake(&c->_c_waiters, 1, 1);
}
static void cleanup(void *p)
pthread_mutex_lock(cm->m);
}
-int pthread_cond_timedwait(pthread_cond_t *c, pthread_mutex_t *m, const struct timespec *ts)
+int pthread_cond_timedwait(pthread_cond_t *restrict c, pthread_mutex_t *restrict m, const struct timespec *restrict ts)
{
struct cm cm = { .c=c, .m=m };
int r, e=0, seq;
+ if (m->_m_type && (m->_m_lock&INT_MAX) != pthread_self()->tid)
+ return EPERM;
+
if (ts && ts->tv_nsec >= 1000000000UL)
return EINVAL;
pthread_testcancel();
- if (c->_c_mutex != (void *)-1) c->_c_mutex = m;
-
a_inc(&c->_c_waiters);
- a_inc(&c->_c_waiters2);
+
+ if (c->_c_mutex != (void *)-1) {
+ c->_c_mutex = m;
+ while (a_swap(&c->_c_lock, 1))
+ __wait(&c->_c_lock, &c->_c_lockwait, 1, 1);
+ c->_c_waiters2++;
+ a_store(&c->_c_lock, 0);
+ if (c->_c_lockwait) __wake(&c->_c_lock, 1, 1);
+ }
seq = c->_c_seq;
- if ((r=pthread_mutex_unlock(m))) return r;
+ pthread_mutex_unlock(m);
do e = __timedwait(&c->_c_seq, seq, c->_c_clock, ts, cleanup, &cm, 0);
while (c->_c_seq == seq && (!e || e==EINTR));