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pthread_cond_wait.c
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pthread_cond_wait.c
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/*
* pthread_cond_wait.c
*
* Description:
* This translation unit implements condition variables and their primitives.
*
*
* --------------------------------------------------------------------------
*
* Pthreads-embedded (PTE) - POSIX Threads Library for embedded systems
* Copyright(C) 2008 Jason Schmidlapp
*
* Contact Email: [email protected]
*
*
* Based upon Pthreads-win32 - POSIX Threads Library for Win32
* Copyright(C) 1998 John E. Bossom
* Copyright(C) 1999,2005 Pthreads-win32 contributors
*
* Contact Email: [email protected]
*
* The original list of contributors to the Pthreads-win32 project
* is contained in the file CONTRIBUTORS.ptw32 included with the
* source code distribution. The list can also be seen at the
* following World Wide Web location:
* http://sources.redhat.com/pthreads-win32/contributors.html
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library in the file COPYING.LIB;
* if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*
* -------------------------------------------------------------
* Algorithm:
* The algorithm used in this implementation is that developed by
* Alexander Terekhov in colaboration with Louis Thomas. The bulk
* of the discussion is recorded in the file README.CV, which contains
* several generations of both colaborators original algorithms. The final
* algorithm used here is the one referred to as
*
* Algorithm 8a / IMPL_SEM,UNBLOCK_STRATEGY == UNBLOCK_ALL
*
* presented below in pseudo-code as it appeared:
*
*
* given:
* semBlockLock - bin.semaphore
* semBlockQueue - semaphore
* mtxExternal - mutex or CS
* mtxUnblockLock - mutex or CS
* nWaitersGone - int
* nWaitersBlocked - int
* nWaitersToUnblock - int
*
* wait( timeout ) {
*
* [auto: register int result ] // error checking omitted
* [auto: register int nSignalsWasLeft ]
* [auto: register int nWaitersWasGone ]
*
* sem_wait( semBlockLock );
* nWaitersBlocked++;
* sem_post( semBlockLock );
*
* unlock( mtxExternal );
* bTimedOut = sem_wait( semBlockQueue,timeout );
*
* lock( mtxUnblockLock );
* if ( 0 != (nSignalsWasLeft = nWaitersToUnblock) ) {
* if ( bTimeout ) { // timeout (or canceled)
* if ( 0 != nWaitersBlocked ) {
* nWaitersBlocked--;
* }
* else {
* nWaitersGone++; // count spurious wakeups.
* }
* }
* if ( 0 == --nWaitersToUnblock ) {
* if ( 0 != nWaitersBlocked ) {
* sem_post( semBlockLock ); // open the gate.
* nSignalsWasLeft = 0; // do not open the gate
* // below again.
* }
* else if ( 0 != (nWaitersWasGone = nWaitersGone) ) {
* nWaitersGone = 0;
* }
* }
* }
* else if ( INT_MAX/2 == ++nWaitersGone ) { // timeout/canceled or
* // spurious semaphore :-)
* sem_wait( semBlockLock );
* nWaitersBlocked -= nWaitersGone; // something is going on here
* // - test of timeouts? :-)
* sem_post( semBlockLock );
* nWaitersGone = 0;
* }
* unlock( mtxUnblockLock );
*
* if ( 1 == nSignalsWasLeft ) {
* if ( 0 != nWaitersWasGone ) {
* // sem_adjust( semBlockQueue,-nWaitersWasGone );
* while ( nWaitersWasGone-- ) {
* sem_wait( semBlockQueue ); // better now than spurious later
* }
* } sem_post( semBlockLock ); // open the gate
* }
*
* lock( mtxExternal );
*
* return ( bTimedOut ) ? ETIMEOUT : 0;
* }
*
* signal(bAll) {
*
* [auto: register int result ]
* [auto: register int nSignalsToIssue]
*
* lock( mtxUnblockLock );
*
* if ( 0 != nWaitersToUnblock ) { // the gate is closed!!!
* if ( 0 == nWaitersBlocked ) { // NO-OP
* return unlock( mtxUnblockLock );
* }
* if (bAll) {
* nWaitersToUnblock += nSignalsToIssue=nWaitersBlocked;
* nWaitersBlocked = 0;
* }
* else {
* nSignalsToIssue = 1;
* nWaitersToUnblock++;
* nWaitersBlocked--;
* }
* }
* else if ( nWaitersBlocked > nWaitersGone ) { // HARMLESS RACE CONDITION!
* sem_wait( semBlockLock ); // close the gate
* if ( 0 != nWaitersGone ) {
* nWaitersBlocked -= nWaitersGone;
* nWaitersGone = 0;
* }
* if (bAll) {
* nSignalsToIssue = nWaitersToUnblock = nWaitersBlocked;
* nWaitersBlocked = 0;
* }
* else {
* nSignalsToIssue = nWaitersToUnblock = 1;
* nWaitersBlocked--;
* }
* }
* else { // NO-OP
* return unlock( mtxUnblockLock );
* }
*
* unlock( mtxUnblockLock );
* sem_post( semBlockQueue,nSignalsToIssue );
* return result;
* }
* -------------------------------------------------------------
*
* Algorithm 9 / IMPL_SEM,UNBLOCK_STRATEGY == UNBLOCK_ALL
*
* presented below in pseudo-code; basically 8a...
* ...BUT W/O "spurious wakes" prevention:
*
*
* given:
* semBlockLock - bin.semaphore
* semBlockQueue - semaphore
* mtxExternal - mutex or CS
* mtxUnblockLock - mutex or CS
* nWaitersGone - int
* nWaitersBlocked - int
* nWaitersToUnblock - int
*
* wait( timeout ) {
*
* [auto: register int result ] // error checking omitted
* [auto: register int nSignalsWasLeft ]
*
* sem_wait( semBlockLock );
* ++nWaitersBlocked;
* sem_post( semBlockLock );
*
* unlock( mtxExternal );
* bTimedOut = sem_wait( semBlockQueue,timeout );
*
* lock( mtxUnblockLock );
* if ( 0 != (nSignalsWasLeft = nWaitersToUnblock) ) {
* --nWaitersToUnblock;
* }
* else if ( INT_MAX/2 == ++nWaitersGone ) { // timeout/canceled or
* // spurious semaphore :-)
* sem_wait( semBlockLock );
* nWaitersBlocked -= nWaitersGone; // something is going on here
* // - test of timeouts? :-)
* sem_post( semBlockLock );
* nWaitersGone = 0;
* }
* unlock( mtxUnblockLock );
*
* if ( 1 == nSignalsWasLeft ) {
* sem_post( semBlockLock ); // open the gate
* }
*
* lock( mtxExternal );
*
* return ( bTimedOut ) ? ETIMEOUT : 0;
* }
*
* signal(bAll) {
*
* [auto: register int result ]
* [auto: register int nSignalsToIssue]
*
* lock( mtxUnblockLock );
*
* if ( 0 != nWaitersToUnblock ) { // the gate is closed!!!
* if ( 0 == nWaitersBlocked ) { // NO-OP
* return unlock( mtxUnblockLock );
* }
* if (bAll) {
* nWaitersToUnblock += nSignalsToIssue=nWaitersBlocked;
* nWaitersBlocked = 0;
* }
* else {
* nSignalsToIssue = 1;
* ++nWaitersToUnblock;
* --nWaitersBlocked;
* }
* }
* else if ( nWaitersBlocked > nWaitersGone ) { // HARMLESS RACE CONDITION!
* sem_wait( semBlockLock ); // close the gate
* if ( 0 != nWaitersGone ) {
* nWaitersBlocked -= nWaitersGone;
* nWaitersGone = 0;
* }
* if (bAll) {
* nSignalsToIssue = nWaitersToUnblock = nWaitersBlocked;
* nWaitersBlocked = 0;
* }
* else {
* nSignalsToIssue = nWaitersToUnblock = 1;
* --nWaitersBlocked;
* }
* }
* else { // NO-OP
* return unlock( mtxUnblockLock );
* }
*
* unlock( mtxUnblockLock );
* sem_post( semBlockQueue,nSignalsToIssue );
* return result;
* }
* -------------------------------------------------------------
*
*/
#include "pthread.h"
#include "implement.h"
/*
* Arguments for cond_wait_cleanup, since we can only pass a
* single void * to it.
*/
typedef struct
{
pthread_mutex_t *mutexPtr;
pthread_cond_t cv;
int *resultPtr;
} pte_cond_wait_cleanup_args_t;
static void
pte_cond_wait_cleanup (void *args)
{
pte_cond_wait_cleanup_args_t *cleanup_args =
(pte_cond_wait_cleanup_args_t *) args;
pthread_cond_t cv = cleanup_args->cv;
int *resultPtr = cleanup_args->resultPtr;
int nSignalsWasLeft;
int result;
/*
* Whether we got here as a result of signal/broadcast or because of
* timeout on wait or thread cancellation we indicate that we are no
* longer waiting. The waiter is responsible for adjusting waiters
* (to)unblock(ed) counts (protected by unblock lock).
*/
if ((result = pthread_mutex_lock (&(cv->mtxUnblockLock))) != 0)
{
*resultPtr = result;
return;
}
if (0 != (nSignalsWasLeft = cv->nWaitersToUnblock))
{
--(cv->nWaitersToUnblock);
}
else if (INT_MAX / 2 == ++(cv->nWaitersGone))
{
/* Use the non-cancellable version of sem_wait() */
// if (sem_wait_nocancel (&(cv->semBlockLock)) != 0)
if (sem_wait (&(cv->semBlockLock)) != 0)
{
*resultPtr = errno;
/*
* This is a fatal error for this CV,
* so we deliberately don't unlock
* cv->mtxUnblockLock before returning.
*/
return;
}
cv->nWaitersBlocked -= cv->nWaitersGone;
if (sem_post (&(cv->semBlockLock)) != 0)
{
*resultPtr = errno;
/*
* This is a fatal error for this CV,
* so we deliberately don't unlock
* cv->mtxUnblockLock before returning.
*/
return;
}
cv->nWaitersGone = 0;
}
if ((result = pthread_mutex_unlock (&(cv->mtxUnblockLock))) != 0)
{
*resultPtr = result;
return;
}
if (1 == nSignalsWasLeft)
{
if (sem_post (&(cv->semBlockLock)) != 0)
{
*resultPtr = errno;
return;
}
}
/*
* XSH: Upon successful return, the mutex has been locked and is owned
* by the calling thread.
*/
if ((result = pthread_mutex_lock (cleanup_args->mutexPtr)) != 0)
{
*resultPtr = result;
}
} /* pte_cond_wait_cleanup */
static int
pte_cond_timedwait (pthread_cond_t * cond,
pthread_mutex_t * mutex, const struct timespec *abstime)
{
int result = 0;
pthread_cond_t cv;
pte_cond_wait_cleanup_args_t cleanup_args;
if (cond == NULL || *cond == NULL)
{
return EINVAL;
}
/*
* We do a quick check to see if we need to do more work
* to initialise a static condition variable. We check
* again inside the guarded section of pte_cond_check_need_init()
* to avoid race conditions.
*/
if (*cond == PTHREAD_COND_INITIALIZER)
{
result = pte_cond_check_need_init (cond);
}
if (result != 0 && result != EBUSY)
{
return result;
}
cv = *cond;
/* Thread can be cancelled in sem_wait() but this is OK */
if (sem_wait (&(cv->semBlockLock)) != 0)
{
return errno;
}
++(cv->nWaitersBlocked);
if (sem_post (&(cv->semBlockLock)) != 0)
{
return errno;
}
/*
* Setup this waiter cleanup handler
*/
cleanup_args.mutexPtr = mutex;
cleanup_args.cv = cv;
cleanup_args.resultPtr = &result;
pthread_cleanup_push (pte_cond_wait_cleanup, (void *) &cleanup_args);
/*
* Now we can release 'mutex' and...
*/
if ((result = pthread_mutex_unlock (mutex)) == 0)
{
/*
* ...wait to be awakened by
* pthread_cond_signal, or
* pthread_cond_broadcast, or
* timeout, or
* thread cancellation
*
* Note:
*
* sem_timedwait is a cancellation point,
* hence providing the mechanism for making
* pthread_cond_wait a cancellation point.
* We use the cleanup mechanism to ensure we
* re-lock the mutex and adjust (to)unblock(ed) waiters
* counts if we are cancelled, timed out or signalled.
*/
if (sem_timedwait (&(cv->semBlockQueue), abstime) != 0)
{
result = errno;
}
}
/*
* Always cleanup
*/
pthread_cleanup_pop (1);
/*
* "result" can be modified by the cleanup handler.
*/
return result;
} /* pte_cond_timedwait */
int
pthread_cond_wait (pthread_cond_t * cond, pthread_mutex_t * mutex)
/*
* ------------------------------------------------------
* DOCPUBLIC
* This function waits on a condition variable until
* awakened by a signal or broadcast.
*
* Caller MUST be holding the mutex lock; the
* lock is released and the caller is blocked waiting
* on 'cond'. When 'cond' is signaled, the mutex
* is re-acquired before returning to the caller.
*
* PARAMETERS
* cond
* pointer to an instance of pthread_cond_t
*
* mutex
* pointer to an instance of pthread_mutex_t
*
*
* DESCRIPTION
* This function waits on a condition variable until
* awakened by a signal or broadcast.
*
* NOTES:
*
* 1) The function must be called with 'mutex' LOCKED
* by the calling thread, or undefined behaviour
* will result.
*
* 2) This routine atomically releases 'mutex' and causes
* the calling thread to block on the condition variable.
* The blocked thread may be awakened by
* pthread_cond_signal or
* pthread_cond_broadcast.
*
* Upon successful completion, the 'mutex' has been locked and
* is owned by the calling thread.
*
*
* RESULTS
* 0 caught condition; mutex released,
* EINVAL 'cond' or 'mutex' is invalid,
* EINVAL different mutexes for concurrent waits,
* EINVAL mutex is not held by the calling thread,
*
* ------------------------------------------------------
*/
{
/*
* The NULL abstime arg means INFINITE waiting.
*/
return (pte_cond_timedwait (cond, mutex, NULL));
} /* pthread_cond_wait */
int
pthread_cond_timedwait (pthread_cond_t * cond,
pthread_mutex_t * mutex,
const struct timespec *abstime)
/*
* ------------------------------------------------------
* DOCPUBLIC
* This function waits on a condition variable either until
* awakened by a signal or broadcast; or until the time
* specified by abstime passes.
*
* PARAMETERS
* cond
* pointer to an instance of pthread_cond_t
*
* mutex
* pointer to an instance of pthread_mutex_t
*
* abstime
* pointer to an instance of (const struct timespec)
*
*
* DESCRIPTION
* This function waits on a condition variable either until
* awakened by a signal or broadcast; or until the time
* specified by abstime passes.
*
* NOTES:
* 1) The function must be called with 'mutex' LOCKED
* by the calling thread, or undefined behaviour
* will result.
*
* 2) This routine atomically releases 'mutex' and causes
* the calling thread to block on the condition variable.
* The blocked thread may be awakened by
* pthread_cond_signal or
* pthread_cond_broadcast.
*
*
* RESULTS
* 0 caught condition; mutex released,
* EINVAL 'cond', 'mutex', or abstime is invalid,
* EINVAL different mutexes for concurrent waits,
* EINVAL mutex is not held by the calling thread,
* ETIMEDOUT abstime ellapsed before cond was signaled.
*
* ------------------------------------------------------
*/
{
if (abstime == NULL)
{
return EINVAL;
}
return (pte_cond_timedwait (cond, mutex, abstime));
} /* pthread_cond_timedwait */