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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/. */
/*
** File: ptthread.c
** Descritpion: Implemenation for threds using pthreds
** Exports: ptthread.h
*/
#if defined(_PR_PTHREADS)
#include "prlog.h"
#include "primpl.h"
#include "prpdce.h"
#include <pthread.h>
#include <unistd.h>
#include <string.h>
#include <signal.h>
#include <dlfcn.h>
#if defined(OPENBSD) || defined(FREEBSD) || defined(DRAGONFLY)
#include <pthread_np.h>
#endif
#ifdef SYMBIAN
/* In Open C sched_get_priority_min/max do not work properly, so we undefine
* _POSIX_THREAD_PRIORITY_SCHEDULING here.
*/
#undef _POSIX_THREAD_PRIORITY_SCHEDULING
#endif
#ifdef _PR_NICE_PRIORITY_SCHEDULING
#undef _POSIX_THREAD_PRIORITY_SCHEDULING
#include <sys/resource.h>
#ifndef HAVE_GETTID
#define gettid() (syscall(SYS_gettid))
#endif
#endif
/*
* Record whether or not we have the privilege to set the scheduling
* policy and priority of threads. 0 means that privilege is available.
* EPERM means that privilege is not available.
*/
static PRIntn pt_schedpriv = 0;
extern PRLock *_pr_sleeplock;
static struct _PT_Bookeeping
{
PRLock *ml; /* a lock to protect ourselves */
PRCondVar *cv; /* used to signal global things */
PRInt32 system, user; /* a count of the two different types */
PRUintn this_many; /* number of threads allowed for exit */
pthread_key_t key; /* thread private data key */
PRBool keyCreated; /* whether 'key' should be deleted */
PRThread *first, *last; /* list of threads we know about */
#if _POSIX_THREAD_PRIORITY_SCHEDULING > 0
PRInt32 minPrio, maxPrio; /* range of scheduling priorities */
#endif
} pt_book = {0};
static void _pt_thread_death(void *arg);
static void _pt_thread_death_internal(void *arg, PRBool callDestructors);
static void init_pthread_gc_support(void);
#if _POSIX_THREAD_PRIORITY_SCHEDULING > 0
static PRIntn pt_PriorityMap(PRThreadPriority pri)
{
#ifdef NTO
/* This priority algorithm causes lots of problems on Neutrino
* for now I have just hard coded everything to run at priority 10
* until I can come up with a new algorithm.
* Jerry.Kirk@Nexwarecorp.com
*/
return 10;
#else
return pt_book.minPrio +
pri * (pt_book.maxPrio - pt_book.minPrio) / PR_PRIORITY_LAST;
#endif
}
#elif defined(_PR_NICE_PRIORITY_SCHEDULING)
/*
* This functions maps higher priorities to lower nice values relative to the
* nice value specified in the |nice| parameter. The corresponding relative
* adjustments are:
*
* PR_PRIORITY_LOW +1
* PR_PRIORITY_NORMAL 0
* PR_PRIORITY_HIGH -1
* PR_PRIORITY_URGENT -2
*/
static int pt_RelativePriority(int nice, PRThreadPriority pri)
{
return nice + (1 - pri);
}
#endif
/*
** Initialize a stack for a native pthread thread
*/
static void _PR_InitializeStack(PRThreadStack *ts)
{
if( ts && (ts->stackTop == 0) ) {
ts->allocBase = (char *) &ts;
ts->allocSize = ts->stackSize;
/*
** Setup stackTop and stackBottom values.
*/
#ifdef HAVE_STACK_GROWING_UP
ts->stackBottom = ts->allocBase + ts->stackSize;
ts->stackTop = ts->allocBase;
#else
ts->stackTop = ts->allocBase;
ts->stackBottom = ts->allocBase - ts->stackSize;
#endif
}
}
static void *_pt_root(void *arg)
{
PRIntn rv;
PRThread *thred = (PRThread*)arg;
PRBool detached = (thred->state & PT_THREAD_DETACHED) ? PR_TRUE : PR_FALSE;
pthread_t id = pthread_self();
#ifdef _PR_NICE_PRIORITY_SCHEDULING
pid_t tid;
#endif
#ifdef _PR_NICE_PRIORITY_SCHEDULING
/*
* We need to know the kernel thread ID of each thread in order to
* set its nice value hence we do it here instead of at creation time.
*/
tid = gettid();
errno = 0;
rv = getpriority(PRIO_PROCESS, 0);
/* If we cannot read the main thread's nice value don't try to change the
* new thread's nice value. */
if (errno == 0) {
setpriority(PRIO_PROCESS, tid,
pt_RelativePriority(rv, thred->priority));
}
#endif
/* Set up the thread stack information */
_PR_InitializeStack(thred->stack);
/*
* Set within the current thread the pointer to our object.
* This object will be deleted when the thread termintates,
* whether in a join or detached (see _PR_InitThreads()).
*/
rv = pthread_setspecific(pt_book.key, thred);
PR_ASSERT(0 == rv);
/* make the thread visible to the rest of the runtime */
PR_Lock(pt_book.ml);
/*
* Both the parent thread and this new thread set thred->id.
* The new thread must ensure that thred->id is set before
* it executes its startFunc. The parent thread must ensure
* that thred->id is set before PR_CreateThread() returns.
* Both threads set thred->id while holding pt_book.ml and
* use thred->idSet to ensure thred->id is written only once.
*/
if (!thred->idSet)
{
thred->id = id;
thred->idSet = PR_TRUE;
}
else
{
PR_ASSERT(pthread_equal(thred->id, id));
}
#ifdef _PR_NICE_PRIORITY_SCHEDULING
thred->tid = tid;
PR_NotifyAllCondVar(pt_book.cv);
#endif
/* If this is a GCABLE thread, set its state appropriately */
if (thred->suspend & PT_THREAD_SETGCABLE)
thred->state |= PT_THREAD_GCABLE;
thred->suspend = 0;
thred->prev = pt_book.last;
if (pt_book.last)
pt_book.last->next = thred;
else
pt_book.first = thred;
thred->next = NULL;
pt_book.last = thred;
PR_Unlock(pt_book.ml);
thred->startFunc(thred->arg); /* make visible to the client */
/* unhook the thread from the runtime */
PR_Lock(pt_book.ml);
/*
* At this moment, PR_CreateThread() may not have set thred->id yet.
* It is safe for a detached thread to free thred only after
* PR_CreateThread() has accessed thred->id and thred->idSet.
*/
if (detached)
{
while (!thred->okToDelete)
PR_WaitCondVar(pt_book.cv, PR_INTERVAL_NO_TIMEOUT);
}
if (thred->state & PT_THREAD_SYSTEM)
pt_book.system -= 1;
else if (--pt_book.user == pt_book.this_many)
PR_NotifyAllCondVar(pt_book.cv);
if (NULL == thred->prev)
pt_book.first = thred->next;
else
thred->prev->next = thred->next;
if (NULL == thred->next)
pt_book.last = thred->prev;
else
thred->next->prev = thred->prev;
PR_Unlock(pt_book.ml);
/*
* Here we set the pthread's backpointer to the PRThread to NULL.
* Otherwise the destructor would get called eagerly as the thread
* returns to the pthread runtime. The joining thread would them be
* the proud possessor of a dangling reference. However, this is the
* last chance to delete the object if the thread is detached, so
* just let the destructor do the work.
*/
if (PR_FALSE == detached)
{
/* Call TPD destructors on this thread. */
_PR_DestroyThreadPrivate(thred);
rv = pthread_setspecific(pt_book.key, NULL);
PR_ASSERT(0 == rv);
}
return NULL;
} /* _pt_root */
static PRThread* pt_AttachThread(void)
{
PRThread *thred = NULL;
/*
* NSPR must have been initialized when PR_AttachThread is called.
* We cannot have PR_AttachThread call implicit initialization
* because if multiple threads call PR_AttachThread simultaneously,
* NSPR may be initialized more than once.
* We can't call any function that calls PR_GetCurrentThread()
* either (e.g., PR_SetError()) as that will result in infinite
* recursion.
*/
if (!_pr_initialized) return NULL;
/* PR_NEWZAP must not call PR_GetCurrentThread() */
thred = PR_NEWZAP(PRThread);
if (NULL != thred)
{
int rv;
thred->priority = PR_PRIORITY_NORMAL;
thred->id = pthread_self();
thred->idSet = PR_TRUE;
#ifdef _PR_NICE_PRIORITY_SCHEDULING
thred->tid = gettid();
#endif
rv = pthread_setspecific(pt_book.key, thred);
PR_ASSERT(0 == rv);
thred->state = PT_THREAD_GLOBAL | PT_THREAD_FOREIGN;
PR_Lock(pt_book.ml);
/* then put it into the list */
thred->prev = pt_book.last;
if (pt_book.last)
pt_book.last->next = thred;
else
pt_book.first = thred;
thred->next = NULL;
pt_book.last = thred;
PR_Unlock(pt_book.ml);
}
return thred; /* may be NULL */
} /* pt_AttachThread */
static PRThread* _PR_CreateThread(
PRThreadType type, void (*start)(void *arg),
void *arg, PRThreadPriority priority, PRThreadScope scope,
PRThreadState state, PRUint32 stackSize, PRBool isGCAble)
{
int rv;
PRThread *thred;
pthread_attr_t tattr;
if (!_pr_initialized) _PR_ImplicitInitialization();
if ((PRIntn)PR_PRIORITY_FIRST > (PRIntn)priority)
priority = PR_PRIORITY_FIRST;
else if ((PRIntn)PR_PRIORITY_LAST < (PRIntn)priority)
priority = PR_PRIORITY_LAST;
rv = _PT_PTHREAD_ATTR_INIT(&tattr);
PR_ASSERT(0 == rv);
if (EPERM != pt_schedpriv)
{
#if _POSIX_THREAD_PRIORITY_SCHEDULING > 0
struct sched_param schedule;
#endif
#if _POSIX_THREAD_PRIORITY_SCHEDULING > 0
rv = pthread_attr_setinheritsched(&tattr, PTHREAD_EXPLICIT_SCHED);
PR_ASSERT(0 == rv);
#endif
/* Use the default scheduling policy */
#if _POSIX_THREAD_PRIORITY_SCHEDULING > 0
rv = pthread_attr_getschedparam(&tattr, &schedule);
PR_ASSERT(0 == rv);
schedule.sched_priority = pt_PriorityMap(priority);
rv = pthread_attr_setschedparam(&tattr, &schedule);
PR_ASSERT(0 == rv);
#ifdef NTO
rv = pthread_attr_setschedpolicy(&tattr, SCHED_RR); /* Round Robin */
PR_ASSERT(0 == rv);
#endif
#endif /* _POSIX_THREAD_PRIORITY_SCHEDULING > 0 */
}
rv = pthread_attr_setdetachstate(&tattr,
((PR_JOINABLE_THREAD == state) ?
PTHREAD_CREATE_JOINABLE : PTHREAD_CREATE_DETACHED));
PR_ASSERT(0 == rv);
/*
* If stackSize is 0, we use the default pthread stack size.
*/
if (stackSize)
{
#ifdef _MD_MINIMUM_STACK_SIZE
if (stackSize < _MD_MINIMUM_STACK_SIZE)
stackSize = _MD_MINIMUM_STACK_SIZE;
#endif
rv = pthread_attr_setstacksize(&tattr, stackSize);
PR_ASSERT(0 == rv);
}
thred = PR_NEWZAP(PRThread);
if (NULL == thred)
{
PR_SetError(PR_OUT_OF_MEMORY_ERROR, errno);
goto done;
}
else
{
pthread_t id;
thred->arg = arg;
thred->startFunc = start;
thred->priority = priority;
if (PR_UNJOINABLE_THREAD == state)
thred->state |= PT_THREAD_DETACHED;
if (PR_LOCAL_THREAD == scope)
scope = PR_GLOBAL_THREAD;
if (PR_GLOBAL_BOUND_THREAD == scope) {
#if _POSIX_THREAD_PRIORITY_SCHEDULING > 0
rv = pthread_attr_setscope(&tattr, PTHREAD_SCOPE_SYSTEM);
if (rv) {
/*
* system scope not supported
*/
scope = PR_GLOBAL_THREAD;
/*
* reset scope
*/
rv = pthread_attr_setscope(&tattr, PTHREAD_SCOPE_PROCESS);
PR_ASSERT(0 == rv);
}
#endif
}
if (PR_GLOBAL_THREAD == scope)
thred->state |= PT_THREAD_GLOBAL;
else if (PR_GLOBAL_BOUND_THREAD == scope)
thred->state |= (PT_THREAD_GLOBAL | PT_THREAD_BOUND);
else /* force it global */
thred->state |= PT_THREAD_GLOBAL;
if (PR_SYSTEM_THREAD == type)
thred->state |= PT_THREAD_SYSTEM;
thred->suspend =(isGCAble) ? PT_THREAD_SETGCABLE : 0;
thred->stack = PR_NEWZAP(PRThreadStack);
if (thred->stack == NULL) {
PRIntn oserr = errno;
PR_Free(thred); /* all that work ... poof! */
PR_SetError(PR_OUT_OF_MEMORY_ERROR, oserr);
thred = NULL; /* and for what? */
goto done;
}
thred->stack->stackSize = stackSize;
thred->stack->thr = thred;
#ifdef PT_NO_SIGTIMEDWAIT
pthread_mutex_init(&thred->suspendResumeMutex,NULL);
pthread_cond_init(&thred->suspendResumeCV,NULL);
#endif
/* make the thread counted to the rest of the runtime */
PR_Lock(pt_book.ml);
if (PR_SYSTEM_THREAD == type)
pt_book.system += 1;
else pt_book.user += 1;
PR_Unlock(pt_book.ml);
/*
* We pass a pointer to a local copy (instead of thred->id)
* to pthread_create() because who knows what wacky things
* pthread_create() may be doing to its argument.
*/
rv = _PT_PTHREAD_CREATE(&id, tattr, _pt_root, thred);
if (EPERM == rv)
{
#if defined(IRIX)
if (PR_GLOBAL_BOUND_THREAD == scope) {
/*
* SCOPE_SYSTEM requires appropriate privilege
* reset to process scope and try again
*/
rv = pthread_attr_setscope(&tattr, PTHREAD_SCOPE_PROCESS);
PR_ASSERT(0 == rv);
thred->state &= ~PT_THREAD_BOUND;
}
#else
/* Remember that we don't have thread scheduling privilege. */
pt_schedpriv = EPERM;
PR_LOG(_pr_thread_lm, PR_LOG_MIN,
("_PR_CreateThread: no thread scheduling privilege"));
/* Try creating the thread again without setting priority. */
#if _POSIX_THREAD_PRIORITY_SCHEDULING > 0
rv = pthread_attr_setinheritsched(&tattr, PTHREAD_INHERIT_SCHED);
PR_ASSERT(0 == rv);
#endif
#endif /* IRIX */
rv = _PT_PTHREAD_CREATE(&id, tattr, _pt_root, thred);
}
if (0 != rv)
{
PRIntn oserr = rv;
PR_Lock(pt_book.ml);
if (thred->state & PT_THREAD_SYSTEM)
pt_book.system -= 1;
else if (--pt_book.user == pt_book.this_many)
PR_NotifyAllCondVar(pt_book.cv);
PR_Unlock(pt_book.ml);
PR_Free(thred->stack);
PR_Free(thred); /* all that work ... poof! */
PR_SetError(PR_INSUFFICIENT_RESOURCES_ERROR, oserr);
thred = NULL; /* and for what? */
goto done;
}
PR_Lock(pt_book.ml);
/*
* Both the parent thread and this new thread set thred->id.
* The parent thread must ensure that thred->id is set before
* PR_CreateThread() returns. (See comments in _pt_root().)
*/
if (!thred->idSet)
{
thred->id = id;
thred->idSet = PR_TRUE;
}
else
{
PR_ASSERT(pthread_equal(thred->id, id));
}
/*
* If the new thread is detached, tell it that PR_CreateThread() has
* accessed thred->id and thred->idSet so it's ok to delete thred.
*/
if (PR_UNJOINABLE_THREAD == state)
{
thred->okToDelete = PR_TRUE;
PR_NotifyAllCondVar(pt_book.cv);
}
PR_Unlock(pt_book.ml);
}
done:
rv = _PT_PTHREAD_ATTR_DESTROY(&tattr);
PR_ASSERT(0 == rv);
return thred;
} /* _PR_CreateThread */
PR_IMPLEMENT(PRThread*) PR_CreateThread(
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_FALSE);
} /* PR_CreateThread */
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_TRUE);
} /* PR_CreateThreadGCAble */
PR_IMPLEMENT(void*) GetExecutionEnvironment(PRThread *thred)
{
return thred->environment;
} /* GetExecutionEnvironment */
PR_IMPLEMENT(void) SetExecutionEnvironment(PRThread *thred, void *env)
{
thred->environment = env;
} /* SetExecutionEnvironment */
PR_IMPLEMENT(PRThread*) PR_AttachThread(
PRThreadType type, PRThreadPriority priority, PRThreadStack *stack)
{
return PR_GetCurrentThread();
} /* PR_AttachThread */
PR_IMPLEMENT(PRStatus) PR_JoinThread(PRThread *thred)
{
int rv = -1;
void *result = NULL;
PR_ASSERT(thred != NULL);
if ((0xafafafaf == thred->state)
|| (PT_THREAD_DETACHED == (PT_THREAD_DETACHED & thred->state))
|| (PT_THREAD_FOREIGN == (PT_THREAD_FOREIGN & thred->state)))
{
/*
* This might be a bad address, but if it isn't, the state should
* either be an unjoinable thread or it's already had the object
* deleted. However, the client that called join on a detached
* thread deserves all the rath I can muster....
*/
PR_SetError(PR_INVALID_ARGUMENT_ERROR, 0);
PR_LogPrint(
"PR_JoinThread: %p not joinable | already smashed\n", thred);
}
else
{
pthread_t id = thred->id;
rv = pthread_join(id, &result);
PR_ASSERT(rv == 0 && result == NULL);
if (0 == rv)
{
/*
* PR_FALSE, because the thread already called the TPD
* destructors before exiting _pt_root.
*/
_pt_thread_death_internal(thred, PR_FALSE);
}
else
{
PRErrorCode prerror;
switch (rv)
{
case EINVAL: /* not a joinable thread */
case ESRCH: /* no thread with given ID */
prerror = PR_INVALID_ARGUMENT_ERROR;
break;
case EDEADLK: /* a thread joining with itself */
prerror = PR_DEADLOCK_ERROR;
break;
default:
prerror = PR_UNKNOWN_ERROR;
break;
}
PR_SetError(prerror, rv);
}
}
return (0 == rv) ? PR_SUCCESS : PR_FAILURE;
} /* PR_JoinThread */
PR_IMPLEMENT(void) PR_DetachThread(void)
{
void *thred;
int rv;
_PT_PTHREAD_GETSPECIFIC(pt_book.key, thred);
if (NULL == thred) return;
_pt_thread_death(thred);
rv = pthread_setspecific(pt_book.key, NULL);
PR_ASSERT(0 == rv);
} /* PR_DetachThread */
PR_IMPLEMENT(PRThread*) PR_GetCurrentThread(void)
{
void *thred;
if (!_pr_initialized) _PR_ImplicitInitialization();
_PT_PTHREAD_GETSPECIFIC(pt_book.key, thred);
if (NULL == thred) thred = pt_AttachThread();
PR_ASSERT(NULL != thred);
return (PRThread*)thred;
} /* PR_GetCurrentThread */
PR_IMPLEMENT(PRThreadScope) PR_GetThreadScope(const PRThread *thred)
{
return (thred->state & PT_THREAD_BOUND) ?
PR_GLOBAL_BOUND_THREAD : PR_GLOBAL_THREAD;
} /* PR_GetThreadScope() */
PR_IMPLEMENT(PRThreadType) PR_GetThreadType(const PRThread *thred)
{
return (thred->state & PT_THREAD_SYSTEM) ?
PR_SYSTEM_THREAD : PR_USER_THREAD;
}
PR_IMPLEMENT(PRThreadState) PR_GetThreadState(const PRThread *thred)
{
return (thred->state & PT_THREAD_DETACHED) ?
PR_UNJOINABLE_THREAD : PR_JOINABLE_THREAD;
} /* PR_GetThreadState */
PR_IMPLEMENT(PRThreadPriority) PR_GetThreadPriority(const PRThread *thred)
{
PR_ASSERT(thred != NULL);
return thred->priority;
} /* PR_GetThreadPriority */
PR_IMPLEMENT(void) PR_SetThreadPriority(PRThread *thred, PRThreadPriority newPri)
{
PRIntn rv;
PR_ASSERT(NULL != thred);
if ((PRIntn)PR_PRIORITY_FIRST > (PRIntn)newPri)
newPri = PR_PRIORITY_FIRST;
else if ((PRIntn)PR_PRIORITY_LAST < (PRIntn)newPri)
newPri = PR_PRIORITY_LAST;
#if _POSIX_THREAD_PRIORITY_SCHEDULING > 0
if (EPERM != pt_schedpriv)
{
int policy;
struct sched_param schedule;
rv = pthread_getschedparam(thred->id, &policy, &schedule);
if(0 == rv) {
schedule.sched_priority = pt_PriorityMap(newPri);
rv = pthread_setschedparam(thred->id, policy, &schedule);
if (EPERM == rv)
{
pt_schedpriv = EPERM;
PR_LOG(_pr_thread_lm, PR_LOG_MIN,
("PR_SetThreadPriority: no thread scheduling privilege"));
}
}
if (rv != 0)
rv = -1;
}
#elif defined(_PR_NICE_PRIORITY_SCHEDULING)
PR_Lock(pt_book.ml);
while (thred->tid == 0)
PR_WaitCondVar(pt_book.cv, PR_INTERVAL_NO_TIMEOUT);
PR_Unlock(pt_book.ml);
errno = 0;
rv = getpriority(PRIO_PROCESS, 0);
/* Do not proceed unless we know the main thread's nice value. */
if (errno == 0) {
rv = setpriority(PRIO_PROCESS, thred->tid,
pt_RelativePriority(rv, newPri));
if (rv == -1)
{
/* We don't set pt_schedpriv to EPERM in case errno == EPERM
* because adjusting the nice value might be permitted for certain
* ranges but not for others. */
PR_LOG(_pr_thread_lm, PR_LOG_MIN,
("PR_SetThreadPriority: setpriority failed with error %d",
errno));
}
}
#else
(void)rv; /* rv is unused */
#endif
thred->priority = newPri;
} /* PR_SetThreadPriority */
PR_IMPLEMENT(PRStatus) PR_Interrupt(PRThread *thred)
{
/*
** If the target thread indicates that it's waiting,
** find the condition and broadcast to it. Broadcast
** since we don't know which thread (if there are more
** than one). This sounds risky, but clients must
** test their invariants when resumed from a wait and
** I don't expect very many threads to be waiting on
** a single condition and I don't expect interrupt to
** be used very often.
**
** I don't know why I thought this would work. Must have
** been one of those weaker momements after I'd been
** smelling the vapors.
**
** Even with the followng changes it is possible that
** the pointer to the condition variable is pointing
** at a bogus value. Will the unerlying code detect
** that?
*/
PRCondVar *cv;
PR_ASSERT(NULL != thred);
if (NULL == thred) return PR_FAILURE;
thred->state |= PT_THREAD_ABORTED;
cv = thred->waiting;
if ((NULL != cv) && !thred->interrupt_blocked)
{
PRIntn rv;
(void)PR_ATOMIC_INCREMENT(&cv->notify_pending);
rv = pthread_cond_broadcast(&cv->cv);
PR_ASSERT(0 == rv);
if (0 > PR_ATOMIC_DECREMENT(&cv->notify_pending))
PR_DestroyCondVar(cv);
}
return PR_SUCCESS;
} /* PR_Interrupt */
PR_IMPLEMENT(void) PR_ClearInterrupt(void)
{
PRThread *me = PR_GetCurrentThread();
me->state &= ~PT_THREAD_ABORTED;
} /* PR_ClearInterrupt */
PR_IMPLEMENT(void) PR_BlockInterrupt(void)
{
PRThread *me = PR_GetCurrentThread();
_PT_THREAD_BLOCK_INTERRUPT(me);
} /* PR_BlockInterrupt */
PR_IMPLEMENT(void) PR_UnblockInterrupt(void)
{
PRThread *me = PR_GetCurrentThread();
_PT_THREAD_UNBLOCK_INTERRUPT(me);
} /* PR_UnblockInterrupt */
PR_IMPLEMENT(PRStatus) PR_Yield(void)
{
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);
}
PR_IMPLEMENT(PRStatus) PR_Sleep(PRIntervalTime ticks)
{
PRStatus rv = PR_SUCCESS;
if (!_pr_initialized) _PR_ImplicitInitialization();
if (PR_INTERVAL_NO_WAIT == ticks)
{
_PT_PTHREAD_YIELD();
}
else
{
PRCondVar *cv;
PRIntervalTime timein;
timein = PR_IntervalNow();
cv = PR_NewCondVar(_pr_sleeplock);
PR_ASSERT(cv != NULL);
PR_Lock(_pr_sleeplock);
do
{
PRIntervalTime now = PR_IntervalNow();
PRIntervalTime delta = now - timein;
if (delta > ticks) break;
rv = PR_WaitCondVar(cv, ticks - delta);
} while (PR_SUCCESS == rv);
PR_Unlock(_pr_sleeplock);
PR_DestroyCondVar(cv);
}
return rv;
} /* PR_Sleep */
static void _pt_thread_death(void *arg)
{
void *thred;
int rv;
_PT_PTHREAD_GETSPECIFIC(pt_book.key, thred);
if (NULL == thred)
{
/*
* Have PR_GetCurrentThread return the expected value to the
* destructors.
*/
rv = pthread_setspecific(pt_book.key, arg);
PR_ASSERT(0 == rv);
}
/* PR_TRUE for: call destructors */
_pt_thread_death_internal(arg, PR_TRUE);
if (NULL == thred)
{
rv = pthread_setspecific(pt_book.key, NULL);
PR_ASSERT(0 == rv);
}
}
static void _pt_thread_death_internal(void *arg, PRBool callDestructors)
{
PRThread *thred = (PRThread*)arg;
if (thred->state & (PT_THREAD_FOREIGN|PT_THREAD_PRIMORD))
{
PR_Lock(pt_book.ml);
if (NULL == thred->prev)
pt_book.first = thred->next;
else
thred->prev->next = thred->next;
if (NULL == thred->next)
pt_book.last = thred->prev;
else
thred->next->prev = thred->prev;
PR_Unlock(pt_book.ml);
}
if (callDestructors)
_PR_DestroyThreadPrivate(thred);
PR_Free(thred->privateData);
if (NULL != thred->errorString)
PR_Free(thred->errorString);
if (NULL != thred->name)
PR_Free(thred->name);
PR_Free(thred->stack);
if (NULL != thred->syspoll_list)
PR_Free(thred->syspoll_list);
#if defined(_PR_POLL_WITH_SELECT)
if (NULL != thred->selectfd_list)
PR_Free(thred->selectfd_list);
#endif
#if defined(DEBUG)
memset(thred, 0xaf, sizeof(PRThread));
#endif /* defined(DEBUG) */
PR_Free(thred);
} /* _pt_thread_death */
void _PR_InitThreads(
PRThreadType type, PRThreadPriority priority, PRUintn maxPTDs)
{
int rv;
PRThread *thred;
PR_ASSERT(priority == PR_PRIORITY_NORMAL);
#ifdef _PR_NEED_PTHREAD_INIT
/*
* On BSD/OS (3.1 and 4.0), the pthread subsystem is lazily
* initialized, but pthread_self() fails to initialize
* pthreads and hence returns a null thread ID if invoked
* by the primordial thread before any other pthread call.
* So we explicitly initialize pthreads here.
*/
pthread_init();
#endif
#if _POSIX_THREAD_PRIORITY_SCHEDULING > 0
#if defined(FREEBSD)
{
pthread_attr_t attr;
int policy;
/* get the min and max priorities of the default policy */
pthread_attr_init(&attr);
pthread_attr_setinheritsched(&attr, PTHREAD_EXPLICIT_SCHED);
pthread_attr_getschedpolicy(&attr, &policy);
pt_book.minPrio = sched_get_priority_min(policy);
PR_ASSERT(-1 != pt_book.minPrio);
pt_book.maxPrio = sched_get_priority_max(policy);
PR_ASSERT(-1 != pt_book.maxPrio);
pthread_attr_destroy(&attr);
}
#else
/*
** These might be function evaluations
*/
pt_book.minPrio = PT_PRIO_MIN;
pt_book.maxPrio = PT_PRIO_MAX;
#endif
#endif
PR_ASSERT(NULL == pt_book.ml);
pt_book.ml = PR_NewLock();
PR_ASSERT(NULL != pt_book.ml);
pt_book.cv = PR_NewCondVar(pt_book.ml);
PR_ASSERT(NULL != pt_book.cv);
thred = PR_NEWZAP(PRThread);
PR_ASSERT(NULL != thred);
thred->arg = NULL;
thred->startFunc = NULL;
thred->priority = priority;
thred->id = pthread_self();
thred->idSet = PR_TRUE;
#ifdef _PR_NICE_PRIORITY_SCHEDULING
thred->tid = gettid();
#endif
thred->state = (PT_THREAD_DETACHED | PT_THREAD_PRIMORD);
if (PR_SYSTEM_THREAD == type)
{
thred->state |= PT_THREAD_SYSTEM;
pt_book.system += 1;
pt_book.this_many = 0;
}
else
{
pt_book.user += 1;
pt_book.this_many = 1;
}
thred->next = thred->prev = NULL;
pt_book.first = pt_book.last = thred;
thred->stack = PR_NEWZAP(PRThreadStack);
PR_ASSERT(thred->stack != NULL);
thred->stack->stackSize = 0;
thred->stack->thr = thred;
_PR_InitializeStack(thred->stack);
/*
* Create a key for our use to store a backpointer in the pthread
* to our PRThread object. This object gets deleted when the thread
* returns from its root in the case of a detached thread. Other
* threads delete the objects in Join.
*
* NB: The destructor logic seems to have a bug so it isn't used.
* NBB: Oh really? I'm going to give it a spin - AOF 19 June 1998.
* More info - the problem is that pthreads calls the destructor
* eagerly as the thread returns from its root, rather than lazily
* after the thread is joined. Therefore, threads that are joining
* and holding PRThread references are actually holding pointers to
* nothing.
*/
rv = _PT_PTHREAD_KEY_CREATE(&pt_book.key, _pt_thread_death);
if (0 != rv)
PR_Assert("0 == rv", __FILE__, __LINE__);
pt_book.keyCreated = PR_TRUE;
rv = pthread_setspecific(pt_book.key, thred);
PR_ASSERT(0 == rv);
} /* _PR_InitThreads */
#ifdef __GNUC__
/*
* GCC supports the constructor and destructor attributes as of
* version 2.5.
*/
#if defined(DARWIN)
/*
* The dynamic linker on OSX doesn't execute __attribute__((destructor))
* destructors in the right order wrt non-__attribute((destructor)) destructors
* in other libraries. So use atexit() instead, which does.
* See https://bugzilla.mozilla.org/show_bug.cgi?id=1399746#c99
*/
static void _PR_Fini(void);
__attribute__ ((constructor))
static void _register_PR_Fini() {
atexit(_PR_Fini);
}
#else
static void _PR_Fini(void) __attribute__ ((destructor));
#endif
#elif defined(__SUNPRO_C)
/*
* Sun Studio compiler
*/
#pragma fini(_PR_Fini)
static void _PR_Fini(void);
#elif defined(HPUX)
/*
* Current versions of HP C compiler define __HP_cc.
* HP C compiler A.11.01.20 doesn't define __HP_cc.
*/
#if defined(__ia64) || defined(_LP64)
#pragma FINI "_PR_Fini"
static void _PR_Fini(void);
#else
/*
* Only HP-UX 10.x style initializers are supported in 32-bit links.
* Need to use the +I PR_HPUX10xInit linker option.
*/
#include <dl.h>
static void _PR_Fini(void);
void PR_HPUX10xInit(shl_t handle, int loading)
{
/*
* This function is called when a shared library is loaded as well
* as when the shared library is unloaded. Note that it may not
* be called when the user's program terminates.
*
* handle is the shl_load API handle for the shared library being
* initialized.
*
* loading is non-zero at startup and zero at termination.
*/
if (loading) {
/* ... do some initializations ... */
} else {
_PR_Fini();
}
}
#endif
#elif defined(AIX)
/* Need to use the -binitfini::_PR_Fini linker option. */
#endif
void _PR_Fini(void)
{
void *thred;
int rv;
if (!_pr_initialized) {
/* Either NSPR was never successfully initialized or
* PR_Cleanup has been called already. */
if (pt_book.keyCreated)
{
rv = pthread_key_delete(pt_book.key);
PR_ASSERT(0 == rv);
pt_book.keyCreated = PR_FALSE;
}
return;
}
_PT_PTHREAD_GETSPECIFIC(pt_book.key, thred);
if (NULL != thred)
{
/*
* PR_FALSE, because it is unsafe to call back to the
* thread private data destructors at final cleanup.
*/
_pt_thread_death_internal(thred, PR_FALSE);
rv = pthread_setspecific(pt_book.key, NULL);
PR_ASSERT(0 == rv);
}
rv = pthread_key_delete(pt_book.key);
PR_ASSERT(0 == rv);
pt_book.keyCreated = PR_FALSE;
/* TODO: free other resources used by NSPR */
/* _pr_initialized = PR_FALSE; */
} /* _PR_Fini */
PR_IMPLEMENT(PRStatus) PR_Cleanup(void)
{
PRThread *me = PR_GetCurrentThread();
int rv;
PR_LOG(_pr_thread_lm, PR_LOG_MIN, ("PR_Cleanup: shutting down NSPR"));
PR_ASSERT(me->state & PT_THREAD_PRIMORD);
if (me->state & PT_THREAD_PRIMORD)
{
PR_Lock(pt_book.ml);
while (pt_book.user > pt_book.this_many)
PR_WaitCondVar(pt_book.cv, PR_INTERVAL_NO_TIMEOUT);
if (me->state & PT_THREAD_SYSTEM)
pt_book.system -= 1;
else
pt_book.user -= 1;
PR_Unlock(pt_book.ml);
_PR_MD_EARLY_CLEANUP();
_PR_CleanupMW();
_PR_CleanupTime();
_PR_CleanupDtoa();
_PR_CleanupCallOnce();
_PR_ShutdownLinker();
_PR_LogCleanup();
_PR_CleanupNet();
/* Close all the fd's before calling _PR_CleanupIO */
_PR_CleanupIO();
_PR_CleanupCMon();
_pt_thread_death(me);
rv = pthread_setspecific(pt_book.key, NULL);
PR_ASSERT(0 == rv);
/*
* I am not sure if it's safe to delete the cv and lock here,
* since there may still be "system" threads around. If this
* call isn't immediately prior to exiting, then there's a
* problem.
*/
if (0 == pt_book.system)
{
PR_DestroyCondVar(pt_book.cv); pt_book.cv = NULL;
PR_DestroyLock(pt_book.ml); pt_book.ml = NULL;
}
PR_DestroyLock(_pr_sleeplock);
_pr_sleeplock = NULL;
_PR_CleanupLayerCache();
_PR_CleanupEnv();
#ifdef _PR_ZONE_ALLOCATOR
_PR_DestroyZones();
#endif
_pr_initialized = PR_FALSE;
return PR_SUCCESS;
}
return PR_FAILURE;
} /* PR_Cleanup */
PR_IMPLEMENT(void) PR_ProcessExit(PRIntn status)
{
_exit(status);
}
PR_IMPLEMENT(PRUint32) PR_GetThreadID(PRThread *thred)
{
return (PRUint32)thred->id; /* and I don't know what they will do with it */
}
/*
* $$$
* The following two thread-to-processor affinity functions are not
* yet implemented for pthreads. By the way, these functions should return
* PRStatus rather than PRInt32 to indicate the success/failure status.
* $$$
*/
PR_IMPLEMENT(PRInt32) PR_GetThreadAffinityMask(PRThread *thread, PRUint32 *mask)
{
return 0; /* not implemented */
}
PR_IMPLEMENT(PRInt32) PR_SetThreadAffinityMask(PRThread *thread, PRUint32 mask )
{
return 0; /* not implemented */
}
PR_IMPLEMENT(void)
PR_SetThreadDumpProc(PRThread* thread, PRThreadDumpProc dump, void *arg)
{
thread->dump = dump;
thread->dumpArg = arg;
}
/*
* Garbage collection support follows.
*/
/* a bogus signal mask for forcing a timed wait */
/* Not so bogus in AIX as we really do a sigwait */
static sigset_t sigwait_set;
static struct timespec onemillisec = {0, 1000000L};
#ifndef PT_NO_SIGTIMEDWAIT
static struct timespec hundredmillisec = {0, 100000000L};
#endif
static void suspend_signal_handler(PRIntn sig);
#ifdef PT_NO_SIGTIMEDWAIT
static void null_signal_handler(PRIntn sig);
#endif
/*
* Linux pthreads use SIGUSR1 and SIGUSR2 internally, which
* conflict with the use of these two signals in our GC support.
* So we don't know how to support GC on Linux pthreads.
*/
static void init_pthread_gc_support(void)
{
#ifndef SYMBIAN
PRIntn rv;
{
struct sigaction sigact_usr2;
sigact_usr2.sa_handler = suspend_signal_handler;
sigact_usr2.sa_flags = SA_RESTART;
sigemptyset (&sigact_usr2.sa_mask);
rv = sigaction (SIGUSR2, &sigact_usr2, NULL);
PR_ASSERT(0 == rv);
sigemptyset (&sigwait_set);
#if defined(PT_NO_SIGTIMEDWAIT)
sigaddset (&sigwait_set, SIGUSR1);
#else
sigaddset (&sigwait_set, SIGUSR2);
#endif /* defined(PT_NO_SIGTIMEDWAIT) */
}
#if defined(PT_NO_SIGTIMEDWAIT)
{
struct sigaction sigact_null;
sigact_null.sa_handler = null_signal_handler;
sigact_null.sa_flags = SA_RESTART;
sigemptyset (&sigact_null.sa_mask);
rv = sigaction (SIGUSR1, &sigact_null, NULL);
PR_ASSERT(0 ==rv);
}
#endif /* defined(PT_NO_SIGTIMEDWAIT) */
#endif /* SYMBIAN */
}
PR_IMPLEMENT(void) PR_SetThreadGCAble(void)
{
PR_Lock(pt_book.ml);
PR_GetCurrentThread()->state |= PT_THREAD_GCABLE;
PR_Unlock(pt_book.ml);
}
PR_IMPLEMENT(void) PR_ClearThreadGCAble(void)
{
PR_Lock(pt_book.ml);
PR_GetCurrentThread()->state &= (~PT_THREAD_GCABLE);
PR_Unlock(pt_book.ml);
}
#if defined(DEBUG)
static PRBool suspendAllOn = PR_FALSE;
#endif
static PRBool suspendAllSuspended = PR_FALSE;
PR_IMPLEMENT(PRStatus) PR_EnumerateThreads(PREnumerator func, void *arg)
{
PRIntn count = 0;
PRStatus rv = PR_SUCCESS;
PRThread* thred = pt_book.first;
#if defined(DEBUG) || defined(FORCE_PR_ASSERT)
PRThread *me = PR_GetCurrentThread();
#endif
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS, ("Begin PR_EnumerateThreads\n"));
/*
* $$$
* Need to suspend all threads other than me before doing this.
* This is really a gross and disgusting thing to do. The only
* good thing is that since all other threads are suspended, holding
* the lock during a callback seems like child's play.
* $$$
*/
PR_ASSERT(suspendAllOn);
while (thred != NULL)
{
/* Steve Morse, 4-23-97: Note that we can't walk a queue by taking
* qp->next after applying the function "func". In particular, "func"
* might remove the thread from the queue and put it into another one in
* which case qp->next no longer points to the next entry in the original
* queue.
*
* To get around this problem, we save qp->next in qp_next before applying
* "func" and use that saved value as the next value after applying "func".
*/
PRThread* next = thred->next;
if (_PT_IS_GCABLE_THREAD(thred))
{
PR_ASSERT((thred == me) || (thred->suspend & PT_THREAD_SUSPENDED));
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("In PR_EnumerateThreads callback thread %p thid = %X\n",
thred, thred->id));
rv = func(thred, count++, arg);
if (rv != PR_SUCCESS)
return rv;
}
thred = next;
}
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("End PR_EnumerateThreads count = %d \n", count));
return rv;
} /* PR_EnumerateThreads */
/*
* PR_SuspendAll and PR_ResumeAll are called during garbage collection. The strategy
* we use is to send a SIGUSR2 signal to every gc able thread that we intend to suspend.
* The signal handler will record the stack pointer and will block until resumed by
* the resume call. Since the signal handler is the last routine called for the
* suspended thread, the stack pointer will also serve as a place where all the
* registers have been saved on the stack for the previously executing routines.
*
* Through global variables, we also make sure that PR_Suspend and PR_Resume does not
* proceed until the thread is suspended or resumed.
*/
/*
* In the signal handler, we can not use condition variable notify or wait.
* This does not work consistently across all pthread platforms. We also can not
* use locking since that does not seem to work reliably across platforms.
* Only thing we can do is yielding while testing for a global condition
* to change. This does work on pthread supported platforms. We may have
* to play with priortities if there are any problems detected.
*/
/*
* In AIX, you cannot use ANY pthread calls in the signal handler except perhaps
* pthread_yield. But that is horribly inefficient. Hence we use only sigwait, no
* sigtimedwait is available. We need to use another user signal, SIGUSR1. Actually
* SIGUSR1 is also used by exec in Java. So our usage here breaks the exec in Java,
* for AIX. You cannot use pthread_cond_wait or pthread_delay_np in the signal
* handler as all synchronization mechanisms just break down.
*/
#if defined(PT_NO_SIGTIMEDWAIT)
static void null_signal_handler(PRIntn sig)
{
return;
}
#endif
static void suspend_signal_handler(PRIntn sig)
{
PRThread *me = PR_GetCurrentThread();
PR_ASSERT(me != NULL);
PR_ASSERT(_PT_IS_GCABLE_THREAD(me));
PR_ASSERT((me->suspend & PT_THREAD_SUSPENDED) == 0);
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("Begin suspend_signal_handler thred %p thread id = %X\n",
me, me->id));
/*
* save stack pointer
*/
me->sp = &me;
/*
At this point, the thread's stack pointer has been saved,
And it is going to enter a wait loop until it is resumed.
So it is _really_ suspended
*/
me->suspend |= PT_THREAD_SUSPENDED;
/*
* now, block current thread
*/
#if defined(PT_NO_SIGTIMEDWAIT)
pthread_cond_signal(&me->suspendResumeCV);
while (me->suspend & PT_THREAD_SUSPENDED)
{
#if !defined(FREEBSD) && !defined(NETBSD) && !defined(OPENBSD) \
&& !defined(BSDI) && !defined(UNIXWARE) \
&& !defined(DARWIN) && !defined(RISCOS) \
&& !defined(SYMBIAN) /*XXX*/
PRIntn rv;
sigwait(&sigwait_set, &rv);
#endif
}
me->suspend |= PT_THREAD_RESUMED;
pthread_cond_signal(&me->suspendResumeCV);
#else /* defined(PT_NO_SIGTIMEDWAIT) */
while (me->suspend & PT_THREAD_SUSPENDED)
{
PRIntn rv = sigtimedwait(&sigwait_set, NULL, &hundredmillisec);
PR_ASSERT(-1 == rv);
}
me->suspend |= PT_THREAD_RESUMED;
#endif
/*
* At this point, thread has been resumed, so set a global condition.
* The ResumeAll needs to know that this has really been resumed.
* So the signal handler sets a flag which PR_ResumeAll will reset.
* The PR_ResumeAll must reset this flag ...
*/
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("End suspend_signal_handler thred = %p tid = %X\n", me, me->id));
} /* suspend_signal_handler */
static void pt_SuspendSet(PRThread *thred)
{
PRIntn rv;
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("pt_SuspendSet thred %p thread id = %X\n", thred, thred->id));
/*
* Check the thread state and signal the thread to suspend
*/
PR_ASSERT((thred->suspend & PT_THREAD_SUSPENDED) == 0);
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("doing pthread_kill in pt_SuspendSet thred %p tid = %X\n",
thred, thred->id));
#if defined(SYMBIAN)
/* All signal group functions are not implemented in Symbian OS */
rv = 0;
#else
rv = pthread_kill (thred->id, SIGUSR2);
#endif
PR_ASSERT(0 == rv);
}
static void pt_SuspendTest(PRThread *thred)
{
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("Begin pt_SuspendTest thred %p thread id = %X\n", thred, thred->id));
/*
* Wait for the thread to be really suspended. This happens when the
* suspend signal handler stores the stack pointer and sets the state
* to suspended.
*/
#if defined(PT_NO_SIGTIMEDWAIT)
pthread_mutex_lock(&thred->suspendResumeMutex);
while ((thred->suspend & PT_THREAD_SUSPENDED) == 0)
{
pthread_cond_timedwait(
&thred->suspendResumeCV, &thred->suspendResumeMutex, &onemillisec);
}
pthread_mutex_unlock(&thred->suspendResumeMutex);
#else
while ((thred->suspend & PT_THREAD_SUSPENDED) == 0)
{
PRIntn rv = sigtimedwait(&sigwait_set, NULL, &onemillisec);
PR_ASSERT(-1 == rv);
}
#endif
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("End pt_SuspendTest thred %p tid %X\n", thred, thred->id));
} /* pt_SuspendTest */
static void pt_ResumeSet(PRThread *thred)
{
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("pt_ResumeSet thred %p thread id = %X\n", thred, thred->id));
/*
* Clear the global state and set the thread state so that it will
* continue past yield loop in the suspend signal handler
*/
PR_ASSERT(thred->suspend & PT_THREAD_SUSPENDED);
thred->suspend &= ~PT_THREAD_SUSPENDED;
#if defined(PT_NO_SIGTIMEDWAIT)
#if defined(SYMBIAN)
/* All signal group functions are not implemented in Symbian OS */
#else
pthread_kill(thred->id, SIGUSR1);
#endif
#endif
} /* pt_ResumeSet */
static void pt_ResumeTest(PRThread *thred)
{
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("Begin pt_ResumeTest thred %p thread id = %X\n", thred, thred->id));
/*
* Wait for the threads resume state to change
* to indicate it is really resumed
*/
#if defined(PT_NO_SIGTIMEDWAIT)
pthread_mutex_lock(&thred->suspendResumeMutex);
while ((thred->suspend & PT_THREAD_RESUMED) == 0)
{
pthread_cond_timedwait(
&thred->suspendResumeCV, &thred->suspendResumeMutex, &onemillisec);
}
pthread_mutex_unlock(&thred->suspendResumeMutex);
#else
while ((thred->suspend & PT_THREAD_RESUMED) == 0) {
PRIntn rv = sigtimedwait(&sigwait_set, NULL, &onemillisec);
PR_ASSERT(-1 == rv);
}
#endif
thred->suspend &= ~PT_THREAD_RESUMED;
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS, (
"End pt_ResumeTest thred %p tid %X\n", thred, thred->id));
} /* pt_ResumeTest */
static pthread_once_t pt_gc_support_control = PTHREAD_ONCE_INIT;
PR_IMPLEMENT(void) PR_SuspendAll(void)
{
#ifdef DEBUG
PRIntervalTime stime, etime;
#endif
PRThread* thred = pt_book.first;
PRThread *me = PR_GetCurrentThread();
int rv;
rv = pthread_once(&pt_gc_support_control, init_pthread_gc_support);
PR_ASSERT(0 == rv);
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS, ("Begin PR_SuspendAll\n"));
/*
* Stop all threads which are marked GC able.
*/
PR_Lock(pt_book.ml);
#ifdef DEBUG
suspendAllOn = PR_TRUE;
stime = PR_IntervalNow();
#endif
while (thred != NULL)
{
if ((thred != me) && _PT_IS_GCABLE_THREAD(thred))
pt_SuspendSet(thred);
thred = thred->next;
}
/* Wait till they are really suspended */
thred = pt_book.first;
while (thred != NULL)
{
if ((thred != me) && _PT_IS_GCABLE_THREAD(thred))
pt_SuspendTest(thred);
thred = thred->next;
}
suspendAllSuspended = PR_TRUE;
#ifdef DEBUG
etime = PR_IntervalNow();
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,\
("End PR_SuspendAll (time %dms)\n",
PR_IntervalToMilliseconds(etime - stime)));
#endif
} /* PR_SuspendAll */
PR_IMPLEMENT(void) PR_ResumeAll(void)
{
#ifdef DEBUG
PRIntervalTime stime, etime;
#endif
PRThread* thred = pt_book.first;
PRThread *me = PR_GetCurrentThread();
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS, ("Begin PR_ResumeAll\n"));
/*
* Resume all previously suspended GC able threads.
*/
suspendAllSuspended = PR_FALSE;
#ifdef DEBUG
stime = PR_IntervalNow();
#endif
while (thred != NULL)
{
if ((thred != me) && _PT_IS_GCABLE_THREAD(thred))
pt_ResumeSet(thred);
thred = thred->next;
}
thred = pt_book.first;
while (thred != NULL)
{
if ((thred != me) && _PT_IS_GCABLE_THREAD(thred))
pt_ResumeTest(thred);
thred = thred->next;
}
PR_Unlock(pt_book.ml);
#ifdef DEBUG
suspendAllOn = PR_FALSE;
etime = PR_IntervalNow();
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("End PR_ResumeAll (time %dms)\n",
PR_IntervalToMilliseconds(etime - stime)));
#endif
} /* PR_ResumeAll */
/* Return the stack pointer for the given thread- used by the GC */
PR_IMPLEMENT(void *)PR_GetSP(PRThread *thred)
{
PR_LOG(_pr_gc_lm, PR_LOG_ALWAYS,
("in PR_GetSP thred %p thid = %X, sp = %p\n",
thred, thred->id, thred->sp));
return thred->sp;
} /* PR_GetSP */
PR_IMPLEMENT(PRStatus) PR_SetCurrentThreadName(const char *name)
{
PRThread *thread;
size_t nameLen;
int result = 0;
if (!name) {
PR_SetError(PR_INVALID_ARGUMENT_ERROR, 0);
return PR_FAILURE;
}
thread = PR_GetCurrentThread();
if (!thread)
return PR_FAILURE;
PR_Free(thread->name);
nameLen = strlen(name);
thread->name = (char *)PR_Malloc(nameLen + 1);
if (!thread->name)
return PR_FAILURE;
memcpy(thread->name, name, nameLen + 1);
#if defined(OPENBSD) || defined(FREEBSD) || defined(DRAGONFLY)
pthread_set_name_np(thread->id, name);
#elif defined(NETBSD)
result = pthread_setname_np(thread->id, "%s", (void *)name);
#else /* not BSD */
/*
* On OSX, pthread_setname_np is only available in 10.6 or later, so test
* for it at runtime. It also may not be available on all linux distros.
*/
#if defined(DARWIN)
int (*dynamic_pthread_setname_np)(const char*);
#else
int (*dynamic_pthread_setname_np)(pthread_t, const char*);
#endif
*(void**)(&dynamic_pthread_setname_np) =
dlsym(RTLD_DEFAULT, "pthread_setname_np");
if (!dynamic_pthread_setname_np)
return PR_SUCCESS;
/*
* The 15-character name length limit is an experimentally determined
* length of a null-terminated string that most linux distros and OS X
* accept as an argument to pthread_setname_np. Otherwise the E2BIG
* error is returned by the function.
*/
#define SETNAME_LENGTH_CONSTRAINT 15
#define SETNAME_FRAGMENT1_LENGTH (SETNAME_LENGTH_CONSTRAINT >> 1)
#define SETNAME_FRAGMENT2_LENGTH \
(SETNAME_LENGTH_CONSTRAINT - SETNAME_FRAGMENT1_LENGTH - 1)
char name_dup[SETNAME_LENGTH_CONSTRAINT + 1];
if (nameLen > SETNAME_LENGTH_CONSTRAINT) {
memcpy(name_dup, name, SETNAME_FRAGMENT1_LENGTH);
name_dup[SETNAME_FRAGMENT1_LENGTH] = '~';
/* Note that this also copies the null terminator. */
memcpy(name_dup + SETNAME_FRAGMENT1_LENGTH + 1,
name + nameLen - SETNAME_FRAGMENT2_LENGTH,
SETNAME_FRAGMENT2_LENGTH + 1);
name = name_dup;
}
#if defined(DARWIN)
result = dynamic_pthread_setname_np(name);
#else
result = dynamic_pthread_setname_np(thread->id, name);
#endif
#endif /* not BSD */
if (result) {
PR_SetError(PR_UNKNOWN_ERROR, result);
return PR_FAILURE;
}
return PR_SUCCESS;
}
PR_IMPLEMENT(const char *) PR_GetThreadName(const PRThread *thread)
{
if (!thread)
return NULL;
return thread->name;
}
#endif /* defined(_PR_PTHREADS) */
/* ptthread.c */
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