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authorRich Felker <dalias@aerifal.cx>2014-08-18 01:26:16 -0400
committerRich Felker <dalias@aerifal.cx>2014-08-18 01:26:16 -0400
commit2c4b510bae1b2841e6983a5639dd600255898442 (patch)
tree90937b95d648d6a63f96896747a4bcaadab03616 /src/thread/pthread_cond_timedwait.c
parent37195db8ec31300a87bc7ec09d2adcf299e9203d (diff)
downloadmusl-2c4b510bae1b2841e6983a5639dd600255898442.tar.gz
simplify and improve new cond var implementation
previously, wake order could be unpredictable: if a waiter happened to leave its futex wait on the state early, e.g. due to EAGAIN while restarting after a signal handler, it could acquire the mutex out of turn. handling this required ugly O(n) list walking in the unwait function and accounting to remove waiters that already woke from the list. with the new changes, the "barrier" locks in each waiter node are only unlocked in turn. in addition to simplifying the code, this seems to improve performance slightly, probably by reducing the number of accesses threads make to each other's stacks. as an additional benefit, unrecoverable mutex re-locking errors (mainly ENOTRECOVERABLE for robust mutexes) no longer need to be handled with deadlock; they can be reported to the caller, since the unlocking sequence makes it unnecessary to rely on the mutex to synchronize access to the waiter list.
Diffstat (limited to 'src/thread/pthread_cond_timedwait.c')
-rw-r--r--src/thread/pthread_cond_timedwait.c62
1 files changed, 22 insertions, 40 deletions
diff --git a/src/thread/pthread_cond_timedwait.c b/src/thread/pthread_cond_timedwait.c
index 7aaba954..52e306b2 100644
--- a/src/thread/pthread_cond_timedwait.c
+++ b/src/thread/pthread_cond_timedwait.c
@@ -10,12 +10,10 @@
* degenerate list of one member.
*
* Waiter lists attached to the condition variable itself are
- * protected by the lock on the cv. Detached waiter lists are
- * protected by the associated mutex. The hand-off between protections
- * is handled by a "barrier" lock in each node, which disallows
- * signaled waiters from making forward progress to the code that will
- * access the list using the mutex until the list is in a consistent
- * state and the cv lock as been released.
+ * protected by the lock on the cv. Detached waiter lists are never
+ * modified again, but can only be traversed in reverse order, and are
+ * protected by the "barrier" locks in each node, which are unlocked
+ * in turn to control wake order.
*
* Since process-shared cond var semantics do not necessarily allow
* one thread to see another's automatic storage (they may be in
@@ -58,7 +56,7 @@ enum {
static void unwait(void *arg)
{
- struct waiter *node = arg, *p;
+ struct waiter *node = arg;
if (node->shared) {
pthread_cond_t *c = node->cond;
@@ -91,49 +89,34 @@ static void unwait(void *arg)
if (a_fetch_add(node->notify, -1)==1)
__wake(node->notify, 1, 1);
}
+ } else {
+ /* Lock barrier first to control wake order. */
+ lock(&node->barrier);
}
node->mutex_ret = pthread_mutex_lock(node->mutex);
if (oldstate == WAITING) return;
- /* If the mutex can't be locked, we're in big trouble because
- * it's all that protects access to the shared list state.
- * In order to prevent catastrophic stack corruption from
- * unsynchronized access, simply deadlock. */
- if (node->mutex_ret && node->mutex_ret != EOWNERDEAD)
- for (;;) lock(&(int){0});
-
- /* Wait until control of the list has been handed over from
- * the cv lock (signaling thread) to the mutex (waiters). */
- lock(&node->barrier);
-
/* If this thread was requeued to the mutex, undo the extra
* waiter count that was added to the mutex. */
if (node->requeued) a_dec(&node->mutex->_m_waiters);
- /* Find a thread to requeue to the mutex, starting from the
- * end of the list (oldest waiters). */
- for (p=node; p->next; p=p->next);
- if (p==node) p=node->prev;
- for (; p && p->requeued; p=p->prev);
- if (p==node) p=node->prev;
- if (p) {
- p->requeued = 1;
+ /* Unlock the barrier that's holding back the next waiter,
+ * and either wake it or requeue it to the mutex. */
+ if (node->prev) {
+ unlock(&node->prev->barrier);
+ node->prev->requeued = 1;
a_inc(&node->mutex->_m_waiters);
/* The futex requeue command cannot requeue from
* private to shared, so for process-shared mutexes,
* simply wake the target. */
int wake = node->mutex->_m_type & 128;
- __syscall(SYS_futex, &p->state, FUTEX_REQUEUE|128,
+ __syscall(SYS_futex, &node->prev->state, FUTEX_REQUEUE|128,
wake, 1, &node->mutex->_m_lock) != -EINVAL
- || __syscall(SYS_futex, &p->state, FUTEX_REQUEUE,
+ || __syscall(SYS_futex, &node->prev->state, FUTEX_REQUEUE,
0, 1, &node->mutex->_m_lock);
}
-
- /* Remove this thread from the list. */
- if (node->next) node->next->prev = node->prev;
- if (node->prev) node->prev->next = node->next;
}
int pthread_cond_timedwait(pthread_cond_t *restrict c, pthread_mutex_t *restrict m, const struct timespec *restrict ts)
@@ -181,7 +164,7 @@ int pthread_cond_timedwait(pthread_cond_t *restrict c, pthread_mutex_t *restrict
int __private_cond_signal(pthread_cond_t *c, int n)
{
- struct waiter *p, *q=0;
+ struct waiter *p, *first=0;
int ref = 0, cur;
lock(&c->_c_lock);
@@ -196,7 +179,7 @@ int __private_cond_signal(pthread_cond_t *c, int n)
p->notify = &ref;
} else {
n--;
- if (!q) q=p;
+ if (!first) first=p;
}
}
/* Split the list, leaving any remainder on the cv. */
@@ -214,12 +197,11 @@ int __private_cond_signal(pthread_cond_t *c, int n)
* signaled threads to proceed. */
while ((cur = ref)) __wait(&ref, 0, cur, 1);
- /* Wake the first signaled thread and unlock the per-waiter
- * barriers preventing their forward progress. */
- for (p=q; p; p=q) {
- q = p->prev;
- if (!p->next) __wake(&p->state, 1, 1);
- unlock(&p->barrier);
+ /* Allow first signaled waiter, if any, to proceed. */
+ if (first) {
+ __wake(&first->state, 1, 1);
+ unlock(&first->barrier);
}
+
return 0;
}