278 lines
9.1 KiB
C
278 lines
9.1 KiB
C
/*
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* ptw32_MCS_lock.c
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*
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* Description:
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* This translation unit implements queue-based locks.
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*
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* --------------------------------------------------------------------------
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*
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* Pthreads-win32 - POSIX Threads Library for Win32
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* Copyright(C) 1998 John E. Bossom
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* Copyright(C) 1999,2005 Pthreads-win32 contributors
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*
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* Contact Email: rpj@callisto.canberra.edu.au
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*
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* The current list of contributors is contained
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* in the file CONTRIBUTORS included with the source
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* code distribution. The list can also be seen at the
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* following World Wide Web location:
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* http://sources.redhat.com/pthreads-win32/contributors.html
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library in the file COPYING.LIB;
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* if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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/*
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* About MCS locks:
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*
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* MCS locks are queue-based locks, where the queue nodes are local to the
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* thread. The 'lock' is nothing more than a global pointer that points to
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* the last node in the queue, or is NULL if the queue is empty.
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*
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* Originally designed for use as spin locks requiring no kernel resources
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* for synchronisation or blocking, the implementation below has adapted
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* the MCS spin lock for use as a general mutex that will suspend threads
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* when there is lock contention.
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*
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* Because the queue nodes are thread-local, most of the memory read/write
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* operations required to add or remove nodes from the queue do not trigger
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* cache-coherence updates.
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*
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* Like 'named' mutexes, MCS locks consume system resources transiently -
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* they are able to acquire and free resources automatically - but MCS
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* locks do not require any unique 'name' to identify the lock to all
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* threads using it.
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*
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* Usage of MCS locks:
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*
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* - you need a global ptw32_mcs_lock_t instance initialised to 0 or NULL.
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* - you need a local thread-scope ptw32_mcs_local_node_t instance, which
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* may serve several different locks but you need at least one node for
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* every lock held concurrently by a thread.
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*
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* E.g.:
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*
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* ptw32_mcs_lock_t lock1 = 0;
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* ptw32_mcs_lock_t lock2 = 0;
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*
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* void *mythread(void *arg)
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* {
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* ptw32_mcs_local_node_t node;
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*
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* ptw32_mcs_acquire (&lock1, &node);
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* ptw32_mcs_lock_release (&node);
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*
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* ptw32_mcs_lock_acquire (&lock2, &node);
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* ptw32_mcs_lock_release (&node);
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* {
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* ptw32_mcs_local_node_t nodex;
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*
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* ptw32_mcs_lock_acquire (&lock1, &node);
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* ptw32_mcs_lock_acquire (&lock2, &nodex);
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*
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* ptw32_mcs_lock_release (&nodex);
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* ptw32_mcs_lock_release (&node);
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* }
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* return (void *)0;
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* }
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*/
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#include "pthread.h"
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#include "sched.h"
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#include "implement.h"
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/*
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* ptw32_mcs_flag_set -- notify another thread about an event.
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*
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* Set event if an event handle has been stored in the flag, and
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* set flag to -1 otherwise. Note that -1 cannot be a valid handle value.
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*/
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INLINE void
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ptw32_mcs_flag_set (HANDLE * flag)
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{
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HANDLE e = (HANDLE)(PTW32_INTERLOCKED_SIZE)PTW32_INTERLOCKED_COMPARE_EXCHANGE_SIZE(
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(PTW32_INTERLOCKED_SIZEPTR)flag,
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(PTW32_INTERLOCKED_SIZE)-1,
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(PTW32_INTERLOCKED_SIZE)0);
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if ((HANDLE)0 != e)
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{
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/* another thread has already stored an event handle in the flag */
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SetEvent(e);
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}
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}
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/*
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* ptw32_mcs_flag_set -- wait for notification from another.
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*
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* Store an event handle in the flag and wait on it if the flag has not been
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* set, and proceed without creating an event otherwise.
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*/
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INLINE void
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ptw32_mcs_flag_wait (HANDLE * flag)
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{
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if ((PTW32_INTERLOCKED_LONG)0 ==
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PTW32_INTERLOCKED_EXCHANGE_ADD_SIZE((PTW32_INTERLOCKED_SIZEPTR)flag,
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(PTW32_INTERLOCKED_SIZE)0)) /* MBR fence */
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{
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/* the flag is not set. create event. */
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HANDLE e = CreateEvent(NULL, PTW32_FALSE, PTW32_FALSE, NULL);
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if ((PTW32_INTERLOCKED_SIZE)0 == PTW32_INTERLOCKED_COMPARE_EXCHANGE_SIZE(
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(PTW32_INTERLOCKED_SIZEPTR)flag,
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(PTW32_INTERLOCKED_SIZE)e,
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(PTW32_INTERLOCKED_SIZE)0))
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{
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/* stored handle in the flag. wait on it now. */
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WaitForSingleObject(e, INFINITE);
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}
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CloseHandle(e);
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}
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}
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/*
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* ptw32_mcs_lock_acquire -- acquire an MCS lock.
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*
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* See:
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* J. M. Mellor-Crummey and M. L. Scott.
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* Algorithms for Scalable Synchronization on Shared-Memory Multiprocessors.
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* ACM Transactions on Computer Systems, 9(1):21-65, Feb. 1991.
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*/
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#if defined(PTW32_BUILD_INLINED)
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INLINE
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#endif /* PTW32_BUILD_INLINED */
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void
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ptw32_mcs_lock_acquire (ptw32_mcs_lock_t * lock, ptw32_mcs_local_node_t * node)
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{
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ptw32_mcs_local_node_t *pred;
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node->lock = lock;
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node->nextFlag = 0;
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node->readyFlag = 0;
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node->next = 0; /* initially, no successor */
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/* queue for the lock */
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pred = (ptw32_mcs_local_node_t *)PTW32_INTERLOCKED_EXCHANGE_PTR((PTW32_INTERLOCKED_PVOID_PTR)lock,
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(PTW32_INTERLOCKED_PVOID)node);
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if (0 != pred)
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{
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/* the lock was not free. link behind predecessor. */
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pred->next = node;
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ptw32_mcs_flag_set(&pred->nextFlag);
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ptw32_mcs_flag_wait(&node->readyFlag);
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}
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}
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/*
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* ptw32_mcs_lock_release -- release an MCS lock.
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*
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* See:
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* J. M. Mellor-Crummey and M. L. Scott.
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* Algorithms for Scalable Synchronization on Shared-Memory Multiprocessors.
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* ACM Transactions on Computer Systems, 9(1):21-65, Feb. 1991.
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*/
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#if defined(PTW32_BUILD_INLINED)
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INLINE
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#endif /* PTW32_BUILD_INLINED */
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void
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ptw32_mcs_lock_release (ptw32_mcs_local_node_t * node)
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{
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ptw32_mcs_lock_t *lock = node->lock;
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ptw32_mcs_local_node_t *next =
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(ptw32_mcs_local_node_t *)
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PTW32_INTERLOCKED_EXCHANGE_ADD_SIZE((PTW32_INTERLOCKED_SIZEPTR)&node->next, (PTW32_INTERLOCKED_SIZE)0); /* MBR fence */
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if (0 == next)
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{
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/* no known successor */
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if (node == (ptw32_mcs_local_node_t *)
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PTW32_INTERLOCKED_COMPARE_EXCHANGE_PTR((PTW32_INTERLOCKED_PVOID_PTR)lock,
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(PTW32_INTERLOCKED_PVOID)0,
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(PTW32_INTERLOCKED_PVOID)node))
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{
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/* no successor, lock is free now */
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return;
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}
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/* A successor has started enqueueing behind us so wait for them to link to us */
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ptw32_mcs_flag_wait(&node->nextFlag);
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next = (ptw32_mcs_local_node_t *)
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PTW32_INTERLOCKED_EXCHANGE_ADD_SIZE((PTW32_INTERLOCKED_SIZEPTR)&node->next, (PTW32_INTERLOCKED_SIZE)0); /* MBR fence */
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}
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/* pass the lock */
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ptw32_mcs_flag_set(&next->readyFlag);
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}
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/*
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* ptw32_mcs_lock_try_acquire
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*/
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#if defined(PTW32_BUILD_INLINED)
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INLINE
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#endif /* PTW32_BUILD_INLINED */
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int
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ptw32_mcs_lock_try_acquire (ptw32_mcs_lock_t * lock, ptw32_mcs_local_node_t * node)
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{
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node->lock = lock;
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node->nextFlag = 0;
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node->readyFlag = 0;
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node->next = 0; /* initially, no successor */
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return ((PTW32_INTERLOCKED_PVOID)PTW32_INTERLOCKED_COMPARE_EXCHANGE_PTR((PTW32_INTERLOCKED_PVOID_PTR)lock,
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(PTW32_INTERLOCKED_PVOID)node,
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(PTW32_INTERLOCKED_PVOID)0)
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== (PTW32_INTERLOCKED_PVOID)0) ? 0 : EBUSY;
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}
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/*
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* ptw32_mcs_node_transfer -- move an MCS lock local node, usually from thread
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* space to, for example, global space so that another thread can release
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* the lock on behalf of the current lock owner.
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*
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* Example: used in pthread_barrier_wait where we want the last thread out of
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* the barrier to release the lock owned by the last thread to enter the barrier
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* (the one that releases all threads but not necessarily the last to leave).
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*
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* Should only be called by the thread that has the lock.
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*/
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#if defined(PTW32_BUILD_INLINED)
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INLINE
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#endif /* PTW32_BUILD_INLINED */
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void
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ptw32_mcs_node_transfer (ptw32_mcs_local_node_t * new_node, ptw32_mcs_local_node_t * old_node)
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{
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new_node->lock = old_node->lock;
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new_node->nextFlag = 0; /* Not needed - used only in initial Acquire */
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new_node->readyFlag = 0; /* Not needed - we were waiting on this */
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new_node->next = 0;
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if ((ptw32_mcs_local_node_t *)PTW32_INTERLOCKED_COMPARE_EXCHANGE_PTR((PTW32_INTERLOCKED_PVOID_PTR)new_node->lock,
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(PTW32_INTERLOCKED_PVOID)new_node,
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(PTW32_INTERLOCKED_PVOID)old_node)
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!= old_node)
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{
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/*
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* A successor has queued after us, so wait for them to link to us
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*/
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while (old_node->next == 0)
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{
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sched_yield();
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}
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new_node->next = old_node->next;
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}
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}
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