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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "primpl.h"
#if defined(WIN95)
/*
** Some local variables report warnings on Win95 because the code paths
** using them are conditioned on HAVE_CUSTOME_USER_THREADS.
** The pragma suppresses the warning.
**
*/
#pragma warning(disable : 4101)
#endif
extern PRLock *_pr_sleeplock; /* allocated and initialized in prinit */
/*
** Routines common to both native and user threads.
**
**
** Clean up a thread object, releasing all of the attached data. Do not
** free the object itself (it may not have been malloc'd)
*/
void _PR_CleanupThread(PRThread *thread)
{
/* Free up per-thread-data */
_PR_DestroyThreadPrivate(thread);
/* Free any thread dump procs */
if (thread->dumpArg) {
PR_DELETE(thread->dumpArg);
}
thread->dump = 0;
PR_DELETE(thread->name);
PR_DELETE(thread->errorString);
thread->errorStringSize = 0;
thread->errorStringLength = 0;
thread->environment = NULL;
}
PR_IMPLEMENT(PRStatus) PR_Yield()
{
static PRBool warning = PR_TRUE;
if (warning) warning = _PR_Obsolete(
"PR_Yield()", "PR_Sleep(PR_INTERVAL_NO_WAIT)");
return (PR_Sleep(PR_INTERVAL_NO_WAIT));
}
/*
** Make the current thread sleep until "timeout" ticks amount of time
** has expired. If "timeout" is PR_INTERVAL_NO_WAIT then the call is
** equivalent to a yield. Waiting for an infinite amount of time is
** allowed in the expectation that another thread will interrupt().
**
** A single lock is used for all threads calling sleep. Each caller
** does get its own condition variable since each is expected to have
** a unique 'timeout'.
*/
PR_IMPLEMENT(PRStatus) PR_Sleep(PRIntervalTime timeout)
{
PRStatus rv = PR_SUCCESS;
if (!_pr_initialized) _PR_ImplicitInitialization();
if (PR_INTERVAL_NO_WAIT == timeout)
{
/*
** This is a simple yield, nothing more, nothing less.
*/
PRIntn is;
PRThread *me = PR_GetCurrentThread();
PRUintn pri = me->priority;
_PRCPU *cpu = _PR_MD_CURRENT_CPU();
if ( _PR_IS_NATIVE_THREAD(me) ) _PR_MD_YIELD();
else
{
_PR_INTSOFF(is);
_PR_RUNQ_LOCK(cpu);
if (_PR_RUNQREADYMASK(cpu) >> pri) {
me->cpu = cpu;
me->state = _PR_RUNNABLE;
_PR_ADD_RUNQ(me, cpu, pri);
_PR_RUNQ_UNLOCK(cpu);
PR_LOG(_pr_sched_lm, PR_LOG_MIN, ("PR_Yield: yielding"));
_PR_MD_SWITCH_CONTEXT(me);
PR_LOG(_pr_sched_lm, PR_LOG_MIN, ("PR_Yield: done"));
_PR_FAST_INTSON(is);
}
else
{
_PR_RUNQ_UNLOCK(cpu);
_PR_INTSON(is);
}
}
}
else
{
/*
** This is waiting for some finite period of time.
** A thread in this state is interruptible (PR_Interrupt()),
** but the lock and cvar used are local to the implementation
** and not visible to the caller, therefore not notifiable.
*/
PRCondVar *cv;
PRIntervalTime timein;
timein = PR_IntervalNow();
cv = PR_NewCondVar(_pr_sleeplock);
PR_ASSERT(cv != NULL);
PR_Lock(_pr_sleeplock);
do
{
PRIntervalTime delta = PR_IntervalNow() - timein;
if (delta > timeout) break;
rv = PR_WaitCondVar(cv, timeout - delta);
} while (rv == PR_SUCCESS);
PR_Unlock(_pr_sleeplock);
PR_DestroyCondVar(cv);
}
return rv;
}
PR_IMPLEMENT(PRUint32) PR_GetThreadID(PRThread *thread)
{
return thread->id;
}
PR_IMPLEMENT(PRThreadPriority) PR_GetThreadPriority(const PRThread *thread)
{
return (PRThreadPriority) thread->priority;
}
PR_IMPLEMENT(PRThread *) PR_GetCurrentThread()
{
if (!_pr_initialized) _PR_ImplicitInitialization();
return _PR_MD_CURRENT_THREAD();
}
/*
** Set the interrupt flag for a thread. The thread will be unable to
** block in i/o functions when this happens. Also, any PR_Wait's in
** progress will be undone. The interrupt remains in force until
** PR_ClearInterrupt is called.
*/
PR_IMPLEMENT(PRStatus) PR_Interrupt(PRThread *thread)
{
#ifdef _PR_GLOBAL_THREADS_ONLY
PRCondVar *victim;
_PR_THREAD_LOCK(thread);
thread->flags |= _PR_INTERRUPT;
victim = thread->wait.cvar;
_PR_THREAD_UNLOCK(thread);
if ((NULL != victim) && (!(thread->flags & _PR_INTERRUPT_BLOCKED))) {
int haveLock = (victim->lock->owner == _PR_MD_CURRENT_THREAD());
if (!haveLock) PR_Lock(victim->lock);
PR_NotifyAllCondVar(victim);
if (!haveLock) PR_Unlock(victim->lock);
}
return PR_SUCCESS;
#else /* ! _PR_GLOBAL_THREADS_ONLY */
PRIntn is;
PRThread *me = _PR_MD_CURRENT_THREAD();
if (!_PR_IS_NATIVE_THREAD(me))
_PR_INTSOFF(is);
_PR_THREAD_LOCK(thread);
thread->flags |= _PR_INTERRUPT;
switch (thread->state) {
case _PR_COND_WAIT:
/*
* call is made with thread locked;
* on return lock is released
*/
if (!(thread->flags & _PR_INTERRUPT_BLOCKED))
_PR_NotifyLockedThread(thread);
break;
case _PR_IO_WAIT:
/*
* Need to hold the thread lock when calling
* _PR_Unblock_IO_Wait(). On return lock is
* released.
*/
#if defined(XP_UNIX) || defined(WINNT) || defined(WIN16)
if (!(thread->flags & _PR_INTERRUPT_BLOCKED))
_PR_Unblock_IO_Wait(thread);
#else
_PR_THREAD_UNLOCK(thread);
#endif
break;
case _PR_RUNNING:
case _PR_RUNNABLE:
case _PR_LOCK_WAIT:
default:
_PR_THREAD_UNLOCK(thread);
break;
}
if (!_PR_IS_NATIVE_THREAD(me))
_PR_INTSON(is);
return PR_SUCCESS;
#endif /* _PR_GLOBAL_THREADS_ONLY */
}
/*
** Clear the interrupt flag for self.
*/
PR_IMPLEMENT(void) PR_ClearInterrupt()
{
PRIntn is;
PRThread *me = _PR_MD_CURRENT_THREAD();
if ( !_PR_IS_NATIVE_THREAD(me)) _PR_INTSOFF(is);
_PR_THREAD_LOCK(me);
me->flags &= ~_PR_INTERRUPT;
_PR_THREAD_UNLOCK(me);
if ( !_PR_IS_NATIVE_THREAD(me)) _PR_INTSON(is);
}
PR_IMPLEMENT(void) PR_BlockInterrupt()
{
PRIntn is;
PRThread *me = _PR_MD_CURRENT_THREAD();
if ( !_PR_IS_NATIVE_THREAD(me)) _PR_INTSOFF(is);
_PR_THREAD_LOCK(me);
_PR_THREAD_BLOCK_INTERRUPT(me);
_PR_THREAD_UNLOCK(me);
if ( !_PR_IS_NATIVE_THREAD(me)) _PR_INTSON(is);
} /* PR_BlockInterrupt */
PR_IMPLEMENT(void) PR_UnblockInterrupt()
{
PRIntn is;
PRThread *me = _PR_MD_CURRENT_THREAD();
if ( !_PR_IS_NATIVE_THREAD(me)) _PR_INTSOFF(is);
_PR_THREAD_LOCK(me);
_PR_THREAD_UNBLOCK_INTERRUPT(me);
_PR_THREAD_UNLOCK(me);
if ( !_PR_IS_NATIVE_THREAD(me)) _PR_INTSON(is);
} /* PR_UnblockInterrupt */
/*
** Return the thread stack pointer of the given thread.
*/
PR_IMPLEMENT(void *) PR_GetSP(PRThread *thread)
{
return (void *)_PR_MD_GET_SP(thread);
}
PR_IMPLEMENT(void*) GetExecutionEnvironment(PRThread *thread)
{
return thread->environment;
}
PR_IMPLEMENT(void) SetExecutionEnvironment(PRThread *thread, void *env)
{
thread->environment = env;
}
PR_IMPLEMENT(PRInt32) PR_GetThreadAffinityMask(PRThread *thread, PRUint32 *mask)
{
#ifdef HAVE_THREAD_AFFINITY
return _PR_MD_GETTHREADAFFINITYMASK(thread, mask);
#else
return 0;
#endif
}
PR_IMPLEMENT(PRInt32) PR_SetThreadAffinityMask(PRThread *thread, PRUint32 mask )
{
#ifdef HAVE_THREAD_AFFINITY
#ifndef IRIX
return _PR_MD_SETTHREADAFFINITYMASK(thread, mask);
#else
return 0;
#endif
#else
return 0;
#endif
}
/* This call is thread unsafe if another thread is calling SetConcurrency()
*/
PR_IMPLEMENT(PRInt32) PR_SetCPUAffinityMask(PRUint32 mask)
{
#ifdef HAVE_THREAD_AFFINITY
PRCList *qp;
extern PRUint32 _pr_cpu_affinity_mask;
if (!_pr_initialized) _PR_ImplicitInitialization();
_pr_cpu_affinity_mask = mask;
qp = _PR_CPUQ().next;
while(qp != &_PR_CPUQ()) {
_PRCPU *cpu;
cpu = _PR_CPU_PTR(qp);
PR_SetThreadAffinityMask(cpu->thread, mask);
qp = qp->next;
}
#endif
return 0;
}
PRUint32 _pr_recycleThreads = 0;
PR_IMPLEMENT(void) PR_SetThreadRecycleMode(PRUint32 count)
{
_pr_recycleThreads = count;
}
PR_IMPLEMENT(PRThread*) PR_CreateThreadGCAble(PRThreadType type,
void (*start)(void *arg),
void *arg,
PRThreadPriority priority,
PRThreadScope scope,
PRThreadState state,
PRUint32 stackSize)
{
return _PR_CreateThread(type, start, arg, priority, scope, state,
stackSize, _PR_GCABLE_THREAD);
}
#ifdef SOLARIS
PR_IMPLEMENT(PRThread*) PR_CreateThreadBound(PRThreadType type,
void (*start)(void *arg),
void *arg,
PRUintn priority,
PRThreadScope scope,
PRThreadState state,
PRUint32 stackSize)
{
return _PR_CreateThread(type, start, arg, priority, scope, state,
stackSize, _PR_BOUND_THREAD);
}
#endif
PR_IMPLEMENT(PRThread*) PR_AttachThreadGCAble(
PRThreadType type, PRThreadPriority priority, PRThreadStack *stack)
{
/* $$$$ not sure how to finese this one */
PR_SetError(PR_NOT_IMPLEMENTED_ERROR, 0);
return NULL;
}
PR_IMPLEMENT(void) PR_SetThreadGCAble()
{
if (!_pr_initialized) _PR_ImplicitInitialization();
PR_Lock(_pr_activeLock);
_PR_MD_CURRENT_THREAD()->flags |= _PR_GCABLE_THREAD;
PR_Unlock(_pr_activeLock);
}
PR_IMPLEMENT(void) PR_ClearThreadGCAble()
{
if (!_pr_initialized) _PR_ImplicitInitialization();
PR_Lock(_pr_activeLock);
_PR_MD_CURRENT_THREAD()->flags &= (~_PR_GCABLE_THREAD);
PR_Unlock(_pr_activeLock);
}
PR_IMPLEMENT(PRThreadScope) PR_GetThreadScope(const PRThread *thread)
{
if (!_pr_initialized) _PR_ImplicitInitialization();
if (_PR_IS_NATIVE_THREAD(thread)) {
return (thread->flags & _PR_BOUND_THREAD) ? PR_GLOBAL_BOUND_THREAD :
PR_GLOBAL_THREAD;
} else
return PR_LOCAL_THREAD;
}
PR_IMPLEMENT(PRThreadType) PR_GetThreadType(const PRThread *thread)
{
return (thread->flags & _PR_SYSTEM) ? PR_SYSTEM_THREAD : PR_USER_THREAD;
}
PR_IMPLEMENT(PRThreadState) PR_GetThreadState(const PRThread *thread)
{
return (NULL == thread->term) ? PR_UNJOINABLE_THREAD : PR_JOINABLE_THREAD;
} /* PR_GetThreadState */
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