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2000-04-18 Ulrich Drepper <drepper@redhat.com> * posix/Makefile (tests): Add tst-getaddrinfo. * posix/tst-getaddrinfo.c: New file. and setresuid from sysdep_routines.
246 lines
8.0 KiB
C
246 lines
8.0 KiB
C
/* Linuxthreads - a simple clone()-based implementation of Posix */
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/* threads for Linux. */
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/* Copyright (C) 1998 Xavier Leroy (Xavier.Leroy@inria.fr) */
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/* */
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/* This program is free software; you can redistribute it and/or */
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/* modify it under the terms of the GNU Library General Public License */
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/* as published by the Free Software Foundation; either version 2 */
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/* of the License, or (at your option) any later version. */
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/* */
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/* This program 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 */
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/* GNU Library General Public License for more details. */
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/* Internal locks */
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#include <errno.h>
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#include <sched.h>
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#include <time.h>
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#include "pthread.h"
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#include "internals.h"
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#include "spinlock.h"
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#include "restart.h"
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/* The status field of a spinlock has the following meaning:
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0: spinlock is free
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1: spinlock is taken, no thread is waiting on it
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ADDR: psinlock is taken, ADDR is address of thread descriptor for
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first waiting thread, other waiting threads are linked via
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their p_nextlock field.
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The waiting list is not sorted by priority order.
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Actually, we always insert at top of list (sole insertion mode
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that can be performed without locking).
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For __pthread_unlock, we perform a linear search in the list
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to find the highest-priority, oldest waiting thread.
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This is safe because there are no concurrent __pthread_unlock
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operations -- only the thread that locked the mutex can unlock it. */
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void internal_function __pthread_lock(pthread_spinlock_t * lock,
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pthread_descr self)
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{
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long oldstatus, newstatus;
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int spurious_wakeup_count = 0;
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do {
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oldstatus = lock->__status;
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if (oldstatus == 0) {
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newstatus = 1;
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} else {
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if (self == NULL)
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self = thread_self();
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newstatus = (long) self;
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}
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if (self != NULL) {
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ASSERT(self->p_nextlock == NULL);
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THREAD_SETMEM(self, p_nextlock, (pthread_descr) oldstatus);
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/* Make sure the store in p_nextlock completes before performing
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the compare-and-swap */
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MEMORY_BARRIER();
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}
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} while(! compare_and_swap(&lock->__status, oldstatus, newstatus,
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&lock->__spinlock));
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/* Suspend with guard against spurious wakeup.
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This can happen in pthread_cond_timedwait_relative, when the thread
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wakes up due to timeout and is still on the condvar queue, and then
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locks the queue to remove itself. At that point it may still be on the
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queue, and may be resumed by a condition signal. */
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if (oldstatus != 0) {
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for (;;) {
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suspend(self);
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if (self->p_nextlock != NULL) {
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/* Count resumes that don't belong to us. */
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spurious_wakeup_count++;
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continue;
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}
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break;
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}
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}
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/* Put back any resumes we caught that don't belong to us. */
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while (spurious_wakeup_count--)
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restart(self);
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}
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int __pthread_spin_lock(pthread_spinlock_t * lock)
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{
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__pthread_lock (lock, NULL);
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return 0;
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}
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weak_alias (__pthread_spin_lock, pthread_spin_lock)
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int __pthread_spin_unlock(pthread_spinlock_t * lock)
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{
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long oldstatus;
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pthread_descr thr, * ptr, * maxptr;
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int maxprio;
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again:
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oldstatus = lock->__status;
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if (oldstatus == 0 || oldstatus == 1) {
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/* No threads are waiting for this lock. Please note that we also
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enter this case if the lock is not taken at all. If this wouldn't
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be done here we would crash further down. */
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if (! compare_and_swap(&lock->__status, oldstatus, 0, &lock->__spinlock))
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goto again;
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return 0;
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}
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/* Find thread in waiting queue with maximal priority */
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ptr = (pthread_descr *) &lock->__status;
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thr = (pthread_descr) oldstatus;
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maxprio = 0;
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maxptr = ptr;
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while (thr != (pthread_descr) 1) {
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if (thr->p_priority >= maxprio) {
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maxptr = ptr;
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maxprio = thr->p_priority;
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}
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ptr = &(thr->p_nextlock);
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/* Prevent reordering of the load of lock->__status above and the
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load of *ptr below, as well as reordering of *ptr between
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several iterations of the while loop. Some processors (e.g.
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multiprocessor Alphas) could perform such reordering even though
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the loads are dependent. */
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READ_MEMORY_BARRIER();
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thr = *ptr;
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}
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/* Prevent reordering of the load of lock->__status above and
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thr->p_nextlock below */
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READ_MEMORY_BARRIER();
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/* Remove max prio thread from waiting list. */
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if (maxptr == (pthread_descr *) &lock->__status) {
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/* If max prio thread is at head, remove it with compare-and-swap
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to guard against concurrent lock operation */
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thr = (pthread_descr) oldstatus;
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if (! compare_and_swap(&lock->__status,
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oldstatus, (long)(thr->p_nextlock),
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&lock->__spinlock))
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goto again;
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} else {
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/* No risk of concurrent access, remove max prio thread normally */
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thr = *maxptr;
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*maxptr = thr->p_nextlock;
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}
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/* Prevent reordering of store to *maxptr above and store to thr->p_nextlock
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below */
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WRITE_MEMORY_BARRIER();
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/* Wake up the selected waiting thread */
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thr->p_nextlock = NULL;
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restart(thr);
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return 0;
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}
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weak_alias (__pthread_spin_unlock, pthread_spin_unlock)
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int __pthread_spin_trylock (pthread_spinlock_t *lock)
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{
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return __pthread_trylock (lock);
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}
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weak_alias (__pthread_spin_trylock, pthread_spin_trylock)
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int __pthread_spin_init(pthread_spinlock_t *lock, int pshared)
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{
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if (pshared != 0)
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return ENOSYS;
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__pthread_init_lock (lock);
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return 0;
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}
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weak_alias (__pthread_spin_init, pthread_spin_init)
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int __pthread_spin_destroy(pthread_spinlock_t *lock)
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{
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/* Nothing to do. */
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return 0;
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}
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weak_alias (__pthread_spin_destroy, pthread_spin_destroy)
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/* Compare-and-swap emulation with a spinlock */
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#ifdef TEST_FOR_COMPARE_AND_SWAP
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int __pthread_has_cas = 0;
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#endif
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#if !defined HAS_COMPARE_AND_SWAP || defined TEST_FOR_COMPARE_AND_SWAP
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static void __pthread_acquire(int * spinlock);
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int __pthread_compare_and_swap(long * ptr, long oldval, long newval,
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int * spinlock)
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{
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int res;
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if (testandset(spinlock)) __pthread_acquire(spinlock);
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if (*ptr == oldval) {
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*ptr = newval; res = 1;
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} else {
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res = 0;
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}
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/* Prevent reordering of store to *ptr above and store to *spinlock below */
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WRITE_MEMORY_BARRIER();
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*spinlock = 0;
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return res;
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}
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/* This function is called if the inlined test-and-set
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in __pthread_compare_and_swap() failed */
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/* The retry strategy is as follows:
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- We test and set the spinlock MAX_SPIN_COUNT times, calling
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sched_yield() each time. This gives ample opportunity for other
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threads with priority >= our priority to make progress and
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release the spinlock.
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- If a thread with priority < our priority owns the spinlock,
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calling sched_yield() repeatedly is useless, since we're preventing
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the owning thread from making progress and releasing the spinlock.
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So, after MAX_SPIN_LOCK attemps, we suspend the calling thread
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using nanosleep(). This again should give time to the owning thread
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for releasing the spinlock.
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Notice that the nanosleep() interval must not be too small,
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since the kernel does busy-waiting for short intervals in a realtime
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process (!). The smallest duration that guarantees thread
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suspension is currently 2ms.
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- When nanosleep() returns, we try again, doing MAX_SPIN_COUNT
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sched_yield(), then sleeping again if needed. */
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static void __pthread_acquire(int * spinlock)
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{
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int cnt = 0;
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struct timespec tm;
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while (testandset(spinlock)) {
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if (cnt < MAX_SPIN_COUNT) {
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sched_yield();
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cnt++;
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} else {
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tm.tv_sec = 0;
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tm.tv_nsec = SPIN_SLEEP_DURATION;
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nanosleep(&tm, NULL);
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cnt = 0;
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}
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}
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}
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#endif
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