/* ---------------------------------------------------------------------------
- * $Id: Schedule.c,v 1.139 2002/04/23 09:56:28 stolz Exp $
+ * $Id: Schedule.c,v 1.146 2002/06/26 08:18:42 stolz Exp $
*
* (c) The GHC Team, 1998-2000
*
#include "Stats.h"
#include "Itimer.h"
#include "Prelude.h"
+#include "ThreadLabels.h"
#ifdef PROFILING
#include "Proftimer.h"
#include "ProfHeap.h"
rtsBool interrupted;
/* Next thread ID to allocate.
- * Locks required: sched_mutex
+ * Locks required: thread_id_mutex
*/
//@cindex next_thread_id
StgThreadID next_thread_id = 1;
rtsBool ready_to_gc;
+/*
+ * Set to TRUE when entering a shutdown state (via shutdownHaskellAndExit()) --
+ * in an MT setting, needed to signal that a worker thread shouldn't hang around
+ * in the scheduler when it is out of work.
+ */
+static rtsBool shutting_down_scheduler = rtsFalse;
+
void addToBlockedQueue ( StgTSO *tso );
static void schedule ( void );
void interruptStgRts ( void );
-#if defined(GRAN)
-static StgTSO * createThread_ ( nat size, rtsBool have_lock, StgInt pri );
-#else
-static StgTSO * createThread_ ( nat size, rtsBool have_lock );
-#endif
static void detectBlackHoles ( void );
Mutex sched_mutex = INIT_MUTEX_VAR;
Mutex term_mutex = INIT_MUTEX_VAR;
+/*
+ * A heavyweight solution to the problem of protecting
+ * the thread_id from concurrent update.
+ */
+Mutex thread_id_mutex = INIT_MUTEX_VAR;
+
+
# if defined(SMP)
static Condition gc_pending_cond = INIT_COND_VAR;
nat await_death;
m->stat = Success;
broadcastCondition(&m->wakeup);
#ifdef DEBUG
- free(m->tso->label);
- m->tso->label = NULL;
+ removeThreadLabel(m->tso);
#endif
break;
case ThreadKilled:
}
broadcastCondition(&m->wakeup);
#ifdef DEBUG
- free(m->tso->label);
- m->tso->label = NULL;
+ removeThreadLabel(m->tso);
#endif
break;
default:
if (m->tso->what_next == ThreadComplete
|| m->tso->what_next == ThreadKilled) {
#ifdef DEBUG
- free(m->tso->label);
- m->tso->label = NULL;
+ removeThreadLabel((StgWord)m->tso);
#endif
main_threads = main_threads->link;
if (m->tso->what_next == ThreadComplete) {
/* ToDo: revisit conditions (and mechanism) for shutting
down a multi-threaded world */
IF_DEBUG(scheduler, sched_belch("all done, i think...shutting down."));
- shutdownHaskellAndExit(0);
+ RELEASE_LOCK(&sched_mutex);
+ shutdownHaskell();
+ return;
#endif
}
not_deadlocked:
if ( EMPTY_RUN_QUEUE() ) {
/* Give up our capability */
releaseCapability(cap);
+
+ /* If we're in the process of shutting down (& running the
+ * a batch of finalisers), don't wait around.
+ */
+ if ( shutting_down_scheduler ) {
+ RELEASE_LOCK(&sched_mutex);
+ return;
+ }
IF_DEBUG(scheduler, sched_belch("thread %d: waiting for work", osThreadId()));
waitForWorkCapability(&sched_mutex, &cap, rtsTrue);
IF_DEBUG(scheduler, sched_belch("thread %d: work now available", osThreadId()));
-#if 0
- while ( EMPTY_RUN_QUEUE() ) {
- waitForWorkCapability(&sched_mutex, &cap);
- IF_DEBUG(scheduler, sched_belch("thread %d: work now available", osThreadId()));
- }
-#endif
}
#endif
}
return pid;
#else /* mingw32 */
- barf("forkProcess#: primop not implemented for mingw32, sorry!");
+ barf("forkProcess#: primop not implemented for mingw32, sorry! (%u)\n", tso->id);
+ /* pointlessly printing out the TSOs 'id' to avoid CC unused warning. */
return -1;
#endif /* mingw32 */
}
/* Caveat: Once set, you can only set the thread name to "" */
len = strlen(label)+1;
- buf = realloc(tso->label,len);
+ buf = malloc(len);
if (buf == NULL) {
fprintf(stderr,"insufficient memory for labelThread!\n");
- free(tso->label);
- tso->label = NULL;
} else
strncpy(buf,label,len);
- tso->label = buf;
+ /* Update will free the old memory for us */
+ updateThreadLabel((StgWord)tso,buf);
}
#endif /* DEBUG */
#if defined(GRAN)
/* currently pri (priority) is only used in a GRAN setup -- HWL */
StgTSO *
-createThread(nat stack_size, StgInt pri)
-{
- return createThread_(stack_size, rtsFalse, pri);
-}
-
-static StgTSO *
-createThread_(nat size, rtsBool have_lock, StgInt pri)
-{
+createThread(nat size, StgInt pri)
#else
StgTSO *
-createThread(nat stack_size)
-{
- return createThread_(stack_size, rtsFalse);
-}
-
-static StgTSO *
-createThread_(nat size, rtsBool have_lock)
-{
+createThread(nat size)
#endif
+{
StgTSO *tso;
nat stack_size;
#endif
tso->what_next = ThreadEnterGHC;
-#ifdef DEBUG
- tso->label = NULL;
-#endif
-
/* tso->id needs to be unique. For now we use a heavyweight mutex to
* protect the increment operation on next_thread_id.
* In future, we could use an atomic increment instead.
*/
-#ifdef SMP
- if (!have_lock) { ACQUIRE_LOCK(&sched_mutex); }
-#endif
+ ACQUIRE_LOCK(&thread_id_mutex);
tso->id = next_thread_id++;
-#ifdef SMP
- if (!have_lock) { RELEASE_LOCK(&sched_mutex); }
-#endif
+ RELEASE_LOCK(&thread_id_mutex);
tso->why_blocked = NotBlocked;
tso->blocked_exceptions = NULL;
}
else
{ threadsCreated++;
- tso = createThread_(RtsFlags.GcFlags.initialStkSize, rtsTrue);
+ tso = createThread(RtsFlags.GcFlags.initialStkSize);
if (tso==END_TSO_QUEUE)
barf("createSparkThread: Cannot create TSO");
#if defined(DIST)
}
#endif
+static SchedulerStatus waitThread_(/*out*/StgMainThread* m
+#if defined(THREADED_RTS)
+ , rtsBool blockWaiting
+#endif
+ );
+
+
/* ---------------------------------------------------------------------------
* scheduleThread()
*
void scheduleThread(StgTSO* tso)
{
- return scheduleThread_(tso, rtsFalse);
+ scheduleThread_(tso, rtsFalse);
}
-void scheduleExtThread(StgTSO* tso)
+SchedulerStatus
+scheduleWaitThread(StgTSO* tso, /*[out]*/HaskellObj* ret)
{
- return scheduleThread_(tso, rtsTrue);
+ StgMainThread *m;
+
+ m = stgMallocBytes(sizeof(StgMainThread), "waitThread");
+ m->tso = tso;
+ m->ret = ret;
+ m->stat = NoStatus;
+#if defined(RTS_SUPPORTS_THREADS)
+ initCondition(&m->wakeup);
+#endif
+
+ /* Put the thread on the main-threads list prior to scheduling the TSO.
+ Failure to do so introduces a race condition in the MT case (as
+ identified by Wolfgang Thaller), whereby the new task/OS thread
+ created by scheduleThread_() would complete prior to the thread
+ that spawned it managed to put 'itself' on the main-threads list.
+ The upshot of it all being that the worker thread wouldn't get to
+ signal the completion of the its work item for the main thread to
+ see (==> it got stuck waiting.) -- sof 6/02.
+ */
+ ACQUIRE_LOCK(&sched_mutex);
+ IF_DEBUG(scheduler, sched_belch("== scheduler: waiting for thread (%d)\n", tso->id));
+
+ m->link = main_threads;
+ main_threads = m;
+
+ /* Inefficient (scheduleThread_() acquires it again right away),
+ * but obviously correct.
+ */
+ RELEASE_LOCK(&sched_mutex);
+
+ scheduleThread_(tso, rtsTrue);
+#if defined(THREADED_RTS)
+ return waitThread_(m, rtsTrue);
+#else
+ return waitThread_(m);
+#endif
}
/* ---------------------------------------------------------------------------
* the scheduler. */
initMutex(&sched_mutex);
initMutex(&term_mutex);
+ initMutex(&thread_id_mutex);
initCondition(&thread_ready_cond);
#endif
#if defined(RTS_SUPPORTS_THREADS)
stopTaskManager();
#endif
+ shutting_down_scheduler = rtsTrue;
}
/* -----------------------------------------------------------------------------
SchedulerStatus
waitThread(StgTSO *tso, /*out*/StgClosure **ret)
{
+ StgMainThread *m;
+
+ m = stgMallocBytes(sizeof(StgMainThread), "waitThread");
+ m->tso = tso;
+ m->ret = ret;
+ m->stat = NoStatus;
+#if defined(RTS_SUPPORTS_THREADS)
+ initCondition(&m->wakeup);
+#endif
+
+ /* see scheduleWaitThread() comment */
+ ACQUIRE_LOCK(&sched_mutex);
+ IF_DEBUG(scheduler, sched_belch("== scheduler: waiting for thread (%d)\n", tso->id));
+ m->link = main_threads;
+ main_threads = m;
+ RELEASE_LOCK(&sched_mutex);
+
IF_DEBUG(scheduler, sched_belch("== scheduler: waiting for thread (%d)\n", tso->id));
#if defined(THREADED_RTS)
- return waitThread_(tso,ret, rtsFalse);
+ return waitThread_(m, rtsFalse);
#else
- return waitThread_(tso,ret);
+ return waitThread_(m);
#endif
}
+static
SchedulerStatus
-waitThread_(StgTSO *tso,
- /*out*/StgClosure **ret
+waitThread_(StgMainThread* m
#if defined(THREADED_RTS)
, rtsBool blockWaiting
#endif
)
{
- StgMainThread *m;
SchedulerStatus stat;
- ACQUIRE_LOCK(&sched_mutex);
- IF_DEBUG(scheduler, sched_belch("== scheduler: waiting for thread (%d)\n", tso->id));
-
- m = stgMallocBytes(sizeof(StgMainThread), "waitThread");
-
- m->tso = tso;
- m->ret = ret;
- m->stat = NoStatus;
-#if defined(RTS_SUPPORTS_THREADS)
- initCondition(&m->wakeup);
-#endif
-
- m->link = main_threads;
- main_threads = m;
-
IF_DEBUG(scheduler, sched_belch("== scheduler: new main thread (%d)\n", m->tso->id));
#if defined(RTS_SUPPORTS_THREADS)
* gets to enter the RTS directly without going via another
* task/thread.
*/
- RELEASE_LOCK(&sched_mutex);
schedule();
ASSERT(m->stat != NoStatus);
} else
# endif
{
- IF_DEBUG(scheduler, sched_belch("sfoo"));
+ ACQUIRE_LOCK(&sched_mutex);
do {
waitCondition(&m->wakeup, &sched_mutex);
} while (m->stat == NoStatus);
printAllThreads(void)
{
StgTSO *t;
+ void *label;
# if defined(GRAN)
char time_string[TIME_STR_LEN], node_str[NODE_STR_LEN];
# endif
for (t = all_threads; t != END_TSO_QUEUE; t = t->global_link) {
- fprintf(stderr, "\tthread %d ", t->id);
- if (t->label) fprintf(stderr,"[\"%s\"] ",t->label);
+ fprintf(stderr, "\tthread %d @ %p ", t->id, (void *)t);
+ label = lookupThreadLabel((StgWord)t);
+ if (label) fprintf(stderr,"[\"%s\"] ",(char *)label);
printThreadStatus(t);
fprintf(stderr,"\n");
}
#endif
vfprintf(stderr, s, ap);
fprintf(stderr, "\n");
+ va_end(ap);
}
#endif /* DEBUG */