X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Frts%2FSchedule.c;h=09c46025d8e6ab84eca7d6ac9d449db6cba1c954;hb=b61f70ce5ff947642c96b1ad980351691bb1e07a;hp=0e14c6e4df44824e937391227a0dc61ab4875883;hpb=e42cc9fb47120ed70e58d5f5ebea7d0700905165;p=ghc-hetmet.git diff --git a/ghc/rts/Schedule.c b/ghc/rts/Schedule.c index 0e14c6e..09c4602 100644 --- a/ghc/rts/Schedule.c +++ b/ghc/rts/Schedule.c @@ -1,7 +1,6 @@ /* --------------------------------------------------------------------------- - * $Id: Schedule.c,v 1.192 2004/02/27 16:16:31 simonmar Exp $ * - * (c) The GHC Team, 1998-2003 + * (c) The GHC Team, 1998-2004 * * Scheduler * @@ -42,9 +41,9 @@ #include "SchedAPI.h" #include "RtsUtils.h" #include "RtsFlags.h" +#include "BlockAlloc.h" #include "Storage.h" #include "StgRun.h" -#include "StgStartup.h" #include "Hooks.h" #define COMPILING_SCHEDULER #include "Schedule.h" @@ -56,9 +55,12 @@ #include "Signals.h" #include "Sanity.h" #include "Stats.h" +#include "STM.h" #include "Timer.h" #include "Prelude.h" #include "ThreadLabels.h" +#include "LdvProfile.h" +#include "Updates.h" #ifdef PROFILING #include "Proftimer.h" #include "ProfHeap.h" @@ -161,7 +163,7 @@ static StgTSO *threadStackOverflow(StgTSO *tso); */ /* flag set by signal handler to precipitate a context switch */ -nat context_switch = 0; +int context_switch = 0; /* if this flag is set as well, give up execution */ rtsBool interrupted = rtsFalse; @@ -215,7 +217,9 @@ void addToBlockedQueue ( StgTSO *tso ); static void schedule ( StgMainThread *mainThread, Capability *initialCapability ); void interruptStgRts ( void ); +#if !defined(PAR) && !defined(RTS_SUPPORTS_THREADS) static void detectBlackHoles ( void ); +#endif #if defined(RTS_SUPPORTS_THREADS) /* ToDo: carefully document the invariants that go together @@ -234,6 +238,7 @@ rtsBool emitSchedule = rtsTrue; #if DEBUG static char *whatNext_strs[] = { + "(unknown)", "ThreadRunGHC", "ThreadInterpret", "ThreadKilled", @@ -259,6 +264,7 @@ static void taskStart(void) { ACQUIRE_LOCK(&sched_mutex); + startingWorkerThread = rtsFalse; schedule(NULL,NULL); RELEASE_LOCK(&sched_mutex); } @@ -275,7 +281,10 @@ startSchedulerTaskIfNecessary(void) // just because the last one hasn't yet reached the // "waiting for capability" state startingWorkerThread = rtsTrue; - startTask(taskStart); + if(!startTask(taskStart)) + { + startingWorkerThread = rtsFalse; + } } } } @@ -336,7 +345,7 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, # endif #endif rtsBool was_interrupted = rtsFalse; - StgTSOWhatNext prev_what_next; + nat prev_what_next; // Pre-condition: sched_mutex is held. // We might have a capability, passed in as initialCapability. @@ -365,7 +374,7 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, CurrentTSO, (StgClosure*)NULL, (rtsSpark*)NULL); IF_DEBUG(gran, - fprintf(stderr, "GRAN: Init CurrentTSO (in schedule) = %p\n", CurrentTSO); + debugBelch("GRAN: Init CurrentTSO (in schedule) = %p\n", CurrentTSO); G_TSO(CurrentTSO, 5)); if (RtsFlags.GranFlags.Light) { @@ -422,7 +431,7 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, #if defined(RTS_SUPPORTS_THREADS) // In the threaded RTS, deadlock detection doesn't work, // so just exit right away. - prog_belch("interrupted"); + errorBelch("interrupted"); releaseCapability(cap); RELEASE_LOCK(&sched_mutex); shutdownHaskellAndExit(EXIT_SUCCESS); @@ -431,92 +440,6 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, #endif } - // - // Go through the list of main threads and wake up any - // clients whose computations have finished. ToDo: this - // should be done more efficiently without a linear scan - // of the main threads list, somehow... - // -#if defined(RTS_SUPPORTS_THREADS) - { - StgMainThread *m, **prev; - prev = &main_threads; - for (m = main_threads; m != NULL; prev = &m->link, m = m->link) { - if (m->tso->what_next == ThreadComplete - || m->tso->what_next == ThreadKilled) { - if (m == mainThread) { - if (m->tso->what_next == ThreadComplete) { - if (m->ret) { - // NOTE: return val is tso->sp[1] - // (see StgStartup.hc) - *(m->ret) = (StgClosure *)m->tso->sp[1]; - } - m->stat = Success; - } else { - if (m->ret) { - *(m->ret) = NULL; - } - if (was_interrupted) { - m->stat = Interrupted; - } else { - m->stat = Killed; - } - } - *prev = m->link; -#ifdef DEBUG - removeThreadLabel((StgWord)m->tso->id); -#endif - releaseCapability(cap); - return; - } else { - // The current OS thread can not handle the fact that - // the Haskell thread "m" has ended. "m" is bound; - // the scheduler loop in its bound OS thread has to - // return, so let's pass the capability directly to - // that thread. - passCapability(&m->bound_thread_cond); - continue; - } - } - } - } - -#else /* not threaded */ - -# if defined(PAR) - /* in GUM do this only on the Main PE */ - if (IAmMainThread) -# endif - /* If our main thread has finished or been killed, return. - */ - { - StgMainThread *m = main_threads; - if (m->tso->what_next == ThreadComplete - || m->tso->what_next == ThreadKilled) { -#ifdef DEBUG - removeThreadLabel((StgWord)m->tso->id); -#endif - main_threads = main_threads->link; - if (m->tso->what_next == ThreadComplete) { - // We finished successfully, fill in the return value - // NOTE: return val is tso->sp[1] (see StgStartup.hc) - if (m->ret) { *(m->ret) = (StgClosure *)m->tso->sp[1]; }; - m->stat = Success; - return; - } else { - if (m->ret) { *(m->ret) = NULL; }; - if (was_interrupted) { - m->stat = Interrupted; - } else { - m->stat = Killed; - } - return; - } - } - } -#endif - - #if defined(RTS_USER_SIGNALS) // check for signals each time around the scheduler if (signals_pending()) { @@ -531,13 +454,13 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, // run queue is empty, and there are no other tasks running, we // can wait indefinitely for something to happen. // - if ( !EMPTY_QUEUE(blocked_queue_hd) || !EMPTY_QUEUE(sleeping_queue) + if ( !EMPTY_QUEUE(blocked_queue_hd) || !EMPTY_QUEUE(sleeping_queue) ) + { #if defined(RTS_SUPPORTS_THREADS) - || EMPTY_RUN_QUEUE() + // We shouldn't be here... + barf("schedule: awaitEvent() in threaded RTS"); #endif - ) - { - awaitEvent( EMPTY_RUN_QUEUE() ); + awaitEvent( EMPTY_RUN_QUEUE() ); } // we can be interrupted while waiting for I/O... if (interrupted) continue; @@ -557,18 +480,13 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, if ( EMPTY_THREAD_QUEUES() ) { IF_DEBUG(scheduler, sched_belch("deadlocked, forcing major GC...")); + // Garbage collection can release some new threads due to // either (a) finalizers or (b) threads resurrected because - // they are about to be send BlockedOnDeadMVar. Any threads - // thus released will be immediately runnable. + // they are unreachable and will therefore be sent an + // exception. Any threads thus released will be immediately + // runnable. GarbageCollect(GetRoots,rtsTrue); - - if ( !EMPTY_RUN_QUEUE() ) { goto not_deadlocked; } - - IF_DEBUG(scheduler, - sched_belch("still deadlocked, checking for black holes...")); - detectBlackHoles(); - if ( !EMPTY_RUN_QUEUE() ) { goto not_deadlocked; } #if defined(RTS_USER_SIGNALS) @@ -605,11 +523,9 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, m = main_threads; switch (m->tso->why_blocked) { case BlockedOnBlackHole: - raiseAsync(m->tso, (StgClosure *)NonTermination_closure); - break; case BlockedOnException: case BlockedOnMVar: - raiseAsync(m->tso, (StgClosure *)Deadlock_closure); + raiseAsync(m->tso, (StgClosure *)NonTermination_closure); break; default: barf("deadlock: main thread blocked in a strange way"); @@ -643,13 +559,13 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, if (!RtsFlags.GranFlags.Light) handleIdlePEs(); - IF_DEBUG(gran, fprintf(stderr, "GRAN: switch by event-type\n")); + IF_DEBUG(gran, debugBelch("GRAN: switch by event-type\n")); /* main event dispatcher in GranSim */ switch (event->evttype) { /* Should just be continuing execution */ case ContinueThread: - IF_DEBUG(gran, fprintf(stderr, "GRAN: doing ContinueThread\n")); + IF_DEBUG(gran, debugBelch("GRAN: doing ContinueThread\n")); /* ToDo: check assertion ASSERT(run_queue_hd != (StgTSO*)NULL && run_queue_hd != END_TSO_QUEUE); @@ -657,25 +573,25 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, /* Ignore ContinueThreads for fetching threads (if synchr comm) */ if (!RtsFlags.GranFlags.DoAsyncFetch && procStatus[CurrentProc]==Fetching) { - belch("ghuH: Spurious ContinueThread while Fetching ignored; TSO %d (%p) [PE %d]", + debugBelch("ghuH: Spurious ContinueThread while Fetching ignored; TSO %d (%p) [PE %d]\n", CurrentTSO->id, CurrentTSO, CurrentProc); goto next_thread; } /* Ignore ContinueThreads for completed threads */ if (CurrentTSO->what_next == ThreadComplete) { - belch("ghuH: found a ContinueThread event for completed thread %d (%p) [PE %d] (ignoring ContinueThread)", + debugBelch("ghuH: found a ContinueThread event for completed thread %d (%p) [PE %d] (ignoring ContinueThread)\n", CurrentTSO->id, CurrentTSO, CurrentProc); goto next_thread; } /* Ignore ContinueThreads for threads that are being migrated */ if (PROCS(CurrentTSO)==Nowhere) { - belch("ghuH: trying to run the migrating TSO %d (%p) [PE %d] (ignoring ContinueThread)", + debugBelch("ghuH: trying to run the migrating TSO %d (%p) [PE %d] (ignoring ContinueThread)\n", CurrentTSO->id, CurrentTSO, CurrentProc); goto next_thread; } /* The thread should be at the beginning of the run queue */ if (CurrentTSO!=run_queue_hds[CurrentProc]) { - belch("ghuH: TSO %d (%p) [PE %d] is not at the start of the run_queue when doing a ContinueThread", + debugBelch("ghuH: TSO %d (%p) [PE %d] is not at the start of the run_queue when doing a ContinueThread\n", CurrentTSO->id, CurrentTSO, CurrentProc); break; // run the thread anyway } @@ -732,14 +648,14 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, /* This point was scheduler_loop in the old RTS */ - IF_DEBUG(gran, belch("GRAN: after main switch")); + IF_DEBUG(gran, debugBelch("GRAN: after main switch\n")); TimeOfLastEvent = CurrentTime[CurrentProc]; TimeOfNextEvent = get_time_of_next_event(); IgnoreEvents=(TimeOfNextEvent==0); // HWL HACK // CurrentTSO = ThreadQueueHd; - IF_DEBUG(gran, belch("GRAN: time of next event is: %ld", + IF_DEBUG(gran, debugBelch("GRAN: time of next event is: %ld\n", TimeOfNextEvent)); if (RtsFlags.GranFlags.Light) @@ -748,7 +664,7 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, EndOfTimeSlice = CurrentTime[CurrentProc]+RtsFlags.GranFlags.time_slice; IF_DEBUG(gran, - belch("GRAN: end of time-slice is %#lx", EndOfTimeSlice)); + debugBelch("GRAN: end of time-slice is %#lx\n", EndOfTimeSlice)); /* in a GranSim setup the TSO stays on the run queue */ t = CurrentTSO; @@ -756,7 +672,7 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, POP_RUN_QUEUE(t); // take_off_run_queue(t); IF_DEBUG(gran, - fprintf(stderr, "GRAN: About to run current thread, which is\n"); + debugBelch("GRAN: About to run current thread, which is\n"); G_TSO(t,5)); context_switch = 0; // turned on via GranYield, checking events and time slice @@ -792,16 +708,16 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, if (spark != (rtsSpark) NULL) { tso = activateSpark(spark); /* turn the spark into a thread */ IF_PAR_DEBUG(schedule, - belch("==== schedule: Created TSO %d (%p); %d threads active", + debugBelch("==== schedule: Created TSO %d (%p); %d threads active\n", tso->id, tso, advisory_thread_count)); if (tso==END_TSO_QUEUE) { /* failed to activate spark->back to loop */ - belch("==^^ failed to activate spark"); + debugBelch("==^^ failed to activate spark\n"); goto next_thread; } /* otherwise fall through & pick-up new tso */ } else { IF_PAR_DEBUG(verbose, - belch("==^^ no local sparks (spark pool contains only NFs: %d)", + debugBelch("==^^ no local sparks (spark pool contains only NFs: %d)\n", spark_queue_len(pool))); goto next_thread; } @@ -822,12 +738,12 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, */ TIME now = msTime() /*CURRENT_TIME*/; IF_PAR_DEBUG(verbose, - belch("-- now=%ld", now)); + debugBelch("-- now=%ld\n", now)); IF_PAR_DEBUG(verbose, if (outstandingFishes < RtsFlags.ParFlags.maxFishes && (last_fish_arrived_at!=0 && last_fish_arrived_at+RtsFlags.ParFlags.fishDelay > now)) { - belch("--$$ delaying FISH until %ld (last fish %ld, delay %ld, now %ld)", + debugBelch("--$$ delaying FISH until %ld (last fish %ld, delay %ld, now %ld)\n", last_fish_arrived_at+RtsFlags.ParFlags.fishDelay, last_fish_arrived_at, RtsFlags.ParFlags.fishDelay, now); @@ -873,7 +789,7 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, pool = &(MainRegTable.rSparks); // generalise to cap = &MainRegTable IF_DEBUG(scheduler, - belch("--=^ %d threads, %d sparks on [%#x]", + debugBelch("--=^ %d threads, %d sparks on [%#x]\n", run_queue_len(), spark_queue_len(pool), CURRENT_PROC)); # if 1 @@ -915,12 +831,7 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, #ifdef THREADED_RTS { - StgMainThread *m; - for(m = main_threads; m; m = m->link) - { - if(m->tso == t) - break; - } + StgMainThread *m = t->main; if(m) { @@ -968,15 +879,13 @@ schedule( StgMainThread *mainThread USED_WHEN_RTS_SUPPORTS_THREADS, || blocked_queue_hd != END_TSO_QUEUE || sleeping_queue != END_TSO_QUEUE))) context_switch = 1; - else - context_switch = 0; run_thread: RELEASE_LOCK(&sched_mutex); IF_DEBUG(scheduler, sched_belch("-->> running thread %ld %s ...", - t->id, whatNext_strs[t->what_next])); + (long)t->id, whatNext_strs[t->what_next])); #ifdef PROFILING startHeapProfTimer(); @@ -986,23 +895,35 @@ run_thread: /* Run the current thread */ prev_what_next = t->what_next; + + errno = t->saved_errno; + switch (prev_what_next) { + case ThreadKilled: case ThreadComplete: /* Thread already finished, return to scheduler. */ ret = ThreadFinished; break; + case ThreadRunGHC: - errno = t->saved_errno; ret = StgRun((StgFunPtr) stg_returnToStackTop, &cap->r); - t->saved_errno = errno; break; + case ThreadInterpret: ret = interpretBCO(cap); break; + default: barf("schedule: invalid what_next field"); } + + // The TSO might have moved, so find the new location: + t = cap->r.rCurrentTSO; + + // And save the current errno in this thread. + t->saved_errno = errno; + /* +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ */ /* Costs for the scheduler are assigned to CCS_SYSTEM */ @@ -1014,11 +935,10 @@ run_thread: ACQUIRE_LOCK(&sched_mutex); #ifdef RTS_SUPPORTS_THREADS - IF_DEBUG(scheduler,fprintf(stderr,"sched (task %p): ", osThreadId());); + IF_DEBUG(scheduler,debugBelch("sched (task %p): ", osThreadId());); #elif !defined(GRAN) && !defined(PAR) - IF_DEBUG(scheduler,fprintf(stderr,"sched: ");); + IF_DEBUG(scheduler,debugBelch("sched: ");); #endif - t = cap->r.rCurrentTSO; #if defined(PAR) /* HACK 675: if the last thread didn't yield, make sure to print a @@ -1038,15 +958,15 @@ run_thread: #endif // did the task ask for a large block? - if (cap->r.rHpAlloc > BLOCK_SIZE_W) { + if (cap->r.rHpAlloc > BLOCK_SIZE) { // if so, get one and push it on the front of the nursery. bdescr *bd; nat blocks; - blocks = (nat)BLOCK_ROUND_UP(cap->r.rHpAlloc * sizeof(W_)) / BLOCK_SIZE; + blocks = (nat)BLOCK_ROUND_UP(cap->r.rHpAlloc) / BLOCK_SIZE; - IF_DEBUG(scheduler,belch("--<< thread %ld (%s) stopped: requesting a large block (size %d)", - t->id, whatNext_strs[t->what_next], blocks)); + IF_DEBUG(scheduler,debugBelch("--<< thread %ld (%s) stopped: requesting a large block (size %d)\n", + (long)t->id, whatNext_strs[t->what_next], blocks)); // don't do this if it would push us over the // alloc_blocks_lim limit; we'll GC first. @@ -1105,8 +1025,8 @@ run_thread: * maybe set context_switch and wait till they all pile in, * then have them wait on a GC condition variable. */ - IF_DEBUG(scheduler,belch("--<< thread %ld (%s) stopped: HeapOverflow", - t->id, whatNext_strs[t->what_next])); + IF_DEBUG(scheduler,debugBelch("--<< thread %ld (%s) stopped: HeapOverflow\n", + (long)t->id, whatNext_strs[t->what_next])); threadPaused(t); #if defined(GRAN) ASSERT(!is_on_queue(t,CurrentProc)); @@ -1137,14 +1057,13 @@ run_thread: // DumpGranEvent(GR_DESCHEDULE, t); globalParStats.tot_stackover++; #endif - IF_DEBUG(scheduler,belch("--<< thread %ld (%s) stopped, StackOverflow", - t->id, whatNext_strs[t->what_next])); + IF_DEBUG(scheduler,debugBelch("--<< thread %ld (%s) stopped, StackOverflow\n", + (long)t->id, whatNext_strs[t->what_next])); /* just adjust the stack for this thread, then pop it back * on the run queue. */ threadPaused(t); { - StgMainThread *m; /* enlarge the stack */ StgTSO *new_t = threadStackOverflow(t); @@ -1152,17 +1071,22 @@ run_thread: * main thread stack. It better not be on any other queues... * (it shouldn't be). */ - for (m = main_threads; m != NULL; m = m->link) { - if (m->tso == t) { - m->tso = new_t; - } + if (t->main != NULL) { + t->main->tso = new_t; } - threadPaused(new_t); PUSH_ON_RUN_QUEUE(new_t); } break; case ThreadYielding: + // Reset the context switch flag. We don't do this just before + // running the thread, because that would mean we would lose ticks + // during GC, which can lead to unfair scheduling (a thread hogs + // the CPU because the tick always arrives during GC). This way + // penalises threads that do a lot of allocation, but that seems + // better than the alternative. + context_switch = 0; + #if defined(GRAN) IF_DEBUG(gran, DumpGranEvent(GR_DESCHEDULE, t)); @@ -1179,16 +1103,16 @@ run_thread: */ IF_DEBUG(scheduler, if (t->what_next != prev_what_next) { - belch("--<< thread %ld (%s) stopped to switch evaluators", - t->id, whatNext_strs[t->what_next]); + debugBelch("--<< thread %ld (%s) stopped to switch evaluators\n", + (long)t->id, whatNext_strs[t->what_next]); } else { - belch("--<< thread %ld (%s) stopped, yielding", - t->id, whatNext_strs[t->what_next]); + debugBelch("--<< thread %ld (%s) stopped, yielding\n", + (long)t->id, whatNext_strs[t->what_next]); } ); IF_DEBUG(sanity, - //belch("&& Doing sanity check on yielding TSO %ld.", t->id); + //debugBelch("&& Doing sanity check on yielding TSO %ld.", t->id); checkTSO(t)); ASSERT(t->link == END_TSO_QUEUE); @@ -1205,7 +1129,7 @@ run_thread: ASSERT(!is_on_queue(t,CurrentProc)); IF_DEBUG(sanity, - //belch("&& Doing sanity check on all ThreadQueues (and their TSOs)."); + //debugBelch("&& Doing sanity check on all ThreadQueues (and their TSOs)."); checkThreadQsSanity(rtsTrue)); #endif @@ -1228,7 +1152,7 @@ run_thread: ContinueThread, t, (StgClosure*)NULL, (rtsSpark*)NULL); IF_GRAN_DEBUG(bq, - belch("GRAN: eventq and runnableq after adding yielded thread to queue again:"); + debugBelch("GRAN: eventq and runnableq after adding yielded thread to queue again:\n"); G_EVENTQ(0); G_CURR_THREADQ(0)); #endif /* GRAN */ @@ -1237,7 +1161,7 @@ run_thread: case ThreadBlocked: #if defined(GRAN) IF_DEBUG(scheduler, - belch("--<< thread %ld (%p; %s) stopped, blocking on node %p [PE %d] with BQ: ", + debugBelch("--<< thread %ld (%p; %s) stopped, blocking on node %p [PE %d] with BQ: \n", t->id, t, whatNext_strs[t->what_next], t->block_info.closure, (t->block_info.closure==(StgClosure*)NULL ? 99 : where_is(t->block_info.closure))); if (t->block_info.closure!=(StgClosure*)NULL) print_bq(t->block_info.closure)); @@ -1257,7 +1181,7 @@ run_thread: */ #elif defined(PAR) IF_DEBUG(scheduler, - belch("--<< thread %ld (%p; %s) stopped, blocking on node %p with BQ: ", + debugBelch("--<< thread %ld (%p; %s) stopped, blocking on node %p with BQ: \n", t->id, t, whatNext_strs[t->what_next], t->block_info.closure)); IF_PAR_DEBUG(bq, @@ -1277,11 +1201,10 @@ run_thread: * case it'll be on the relevant queue already. */ IF_DEBUG(scheduler, - fprintf(stderr, "--<< thread %d (%s) stopped: ", + debugBelch("--<< thread %d (%s) stopped: ", t->id, whatNext_strs[t->what_next]); printThreadBlockage(t); - fprintf(stderr, "\n")); - fflush(stderr); + debugBelch("\n")); /* Only for dumping event to log file ToDo: do I need this in GranSim, too? @@ -1300,7 +1223,7 @@ run_thread: /* We also end up here if the thread kills itself with an * uncaught exception, see Exception.hc. */ - IF_DEBUG(scheduler,belch("--++ thread %d (%s) finished", + IF_DEBUG(scheduler,debugBelch("--++ thread %d (%s) finished\n", t->id, whatNext_strs[t->what_next])); #if defined(GRAN) endThread(t, CurrentProc); // clean-up the thread @@ -1318,8 +1241,74 @@ run_thread: !RtsFlags.ParFlags.ParStats.Suppressed) DumpEndEvent(CURRENT_PROC, t, rtsFalse /* not mandatory */); #endif + + // + // Check whether the thread that just completed was a main + // thread, and if so return with the result. + // + // There is an assumption here that all thread completion goes + // through this point; we need to make sure that if a thread + // ends up in the ThreadKilled state, that it stays on the run + // queue so it can be dealt with here. + // + if ( +#if defined(RTS_SUPPORTS_THREADS) + mainThread != NULL +#else + mainThread->tso == t +#endif + ) + { + // We are a bound thread: this must be our thread that just + // completed. + ASSERT(mainThread->tso == t); + + if (t->what_next == ThreadComplete) { + if (mainThread->ret) { + // NOTE: return val is tso->sp[1] (see StgStartup.hc) + *(mainThread->ret) = (StgClosure *)mainThread->tso->sp[1]; + } + mainThread->stat = Success; + } else { + if (mainThread->ret) { + *(mainThread->ret) = NULL; + } + if (was_interrupted) { + mainThread->stat = Interrupted; + } else { + mainThread->stat = Killed; + } + } +#ifdef DEBUG + removeThreadLabel((StgWord)mainThread->tso->id); +#endif + if (mainThread->prev == NULL) { + main_threads = mainThread->link; + } else { + mainThread->prev->link = mainThread->link; + } + if (mainThread->link != NULL) { + mainThread->link->prev = NULL; + } + releaseCapability(cap); + return; + } + +#ifdef RTS_SUPPORTS_THREADS + ASSERT(t->main == NULL); +#else + if (t->main != NULL) { + // Must be a main thread that is not the topmost one. Leave + // it on the run queue until the stack has unwound to the + // point where we can deal with this. Leaving it on the run + // queue also ensures that the garbage collector knows about + // this thread and its return value (it gets dropped from the + // all_threads list so there's no other way to find it). + APPEND_TO_RUN_QUEUE(t); + } +#endif break; - + default: barf("schedule: invalid thread return code %d", (int)ret); } @@ -1338,6 +1327,54 @@ run_thread: #endif if (ready_to_gc) { + /* Kick any transactions which are invalid back to their atomically frames. + * When next scheduled they will try to commit, this commit will fail and + * they will retry. */ + for (t = all_threads; t != END_TSO_QUEUE; t = t -> link) { + if (t -> trec != NO_TREC && t -> why_blocked == NotBlocked) { + if (!stmValidateTransaction (t -> trec)) { + StgRetInfoTable *info; + StgPtr sp = t -> sp; + + IF_DEBUG(stm, sched_belch("trec %p found wasting its time", t)); + + if (sp[0] == (W_)&stg_enter_info) { + sp++; + } else { + sp--; + sp[0] = (W_)&stg_dummy_ret_closure; + } + + // Look up the stack for its atomically frame + StgPtr frame; + frame = sp + 1; + info = get_ret_itbl((StgClosure *)frame); + + while (info->i.type != ATOMICALLY_FRAME && + info->i.type != STOP_FRAME && + info->i.type != UPDATE_FRAME) { + if (info -> i.type == CATCH_RETRY_FRAME) { + IF_DEBUG(stm, sched_belch("Aborting transaction in catch-retry frame")); + stmAbortTransaction(t -> trec); + t -> trec = stmGetEnclosingTRec(t -> trec); + } + frame += stack_frame_sizeW((StgClosure *)frame); + info = get_ret_itbl((StgClosure *)frame); + } + + if (!info -> i.type == ATOMICALLY_FRAME) { + barf("Could not find ATOMICALLY_FRAME for unvalidatable thread"); + } + + // Cause the thread to enter its atomically frame again when + // scheduled -- this will attempt stmCommitTransaction or stmReWait + // which will fail triggering re-rexecution. + t->sp = frame; + t->what_next = ThreadRunGHC; + } + } + } + /* everybody back, start the GC. * Could do it in this thread, or signal a condition var * to do it in another thread. Either way, we need to @@ -1354,7 +1391,7 @@ run_thread: ContinueThread, t, (StgClosure*)NULL, (rtsSpark*)NULL); IF_GRAN_DEBUG(bq, - fprintf(stderr, "GRAN: eventq and runnableq after Garbage collection:\n"); + debugBelch("GRAN: eventq and runnableq after Garbage collection:\n\n"); G_EVENTQ(0); G_CURR_THREADQ(0)); #endif /* GRAN */ @@ -1374,7 +1411,7 @@ run_thread: } /* end of while(1) */ IF_PAR_DEBUG(verbose, - belch("== Leaving schedule() after having received Finish")); + debugBelch("== Leaving schedule() after having received Finish\n")); } /* --------------------------------------------------------------------------- @@ -1400,12 +1437,7 @@ StgBool isThreadBound(StgTSO* tso USED_IN_THREADED_RTS) { #ifdef THREADED_RTS - StgMainThread *m; - for(m = main_threads; m; m = m->link) - { - if(m->tso == tso) - return rtsTrue; - } + return (tso->main != NULL); #endif return rtsFalse; } @@ -1414,13 +1446,22 @@ isThreadBound(StgTSO* tso USED_IN_THREADED_RTS) * Singleton fork(). Do not copy any running threads. * ------------------------------------------------------------------------- */ +#ifndef mingw32_TARGET_OS +#define FORKPROCESS_PRIMOP_SUPPORTED +#endif + +#ifdef FORKPROCESS_PRIMOP_SUPPORTED static void deleteThreadImmediately(StgTSO *tso); - +#endif StgInt -forkProcess(HsStablePtr *entry) +forkProcess(HsStablePtr *entry +#ifndef FORKPROCESS_PRIMOP_SUPPORTED + STG_UNUSED +#endif + ) { -#ifndef mingw32_TARGET_OS +#ifdef FORKPROCESS_PRIMOP_SUPPORTED pid_t pid; StgTSO* t,*next; StgMainThread *m; @@ -1454,18 +1495,12 @@ forkProcess(HsStablePtr *entry) // wipe the main thread list while((m = main_threads) != NULL) { main_threads = m->link; -#ifdef THREADED_RTS +# ifdef THREADED_RTS closeCondition(&m->bound_thread_cond); -#endif +# endif stgFree(m); } -#ifdef RTS_SUPPORTS_THREADS - resetTaskManagerAfterFork(); // tell startTask() and friends that - startingWorkerThread = rtsFalse; // we have no worker threads any more - resetWorkerWakeupPipeAfterFork(); -#endif - rc = rts_evalStableIO(entry, NULL); // run the action rts_checkSchedStatus("forkProcess",rc); @@ -1474,10 +1509,10 @@ forkProcess(HsStablePtr *entry) hs_exit(); // clean up and exit stg_exit(0); } -#else /* mingw32 */ - barf("forkProcess#: primop not implemented for mingw32, sorry!\n"); +#else /* !FORKPROCESS_PRIMOP_SUPPORTED */ + barf("forkProcess#: primop not supported, sorry!\n"); return -1; -#endif /* mingw32 */ +#endif } /* --------------------------------------------------------------------------- @@ -1498,9 +1533,15 @@ deleteAllThreads ( void ) next = t->global_link; deleteThread(t); } - run_queue_hd = run_queue_tl = END_TSO_QUEUE; - blocked_queue_hd = blocked_queue_tl = END_TSO_QUEUE; - sleeping_queue = END_TSO_QUEUE; + + // The run queue now contains a bunch of ThreadKilled threads. We + // must not throw these away: the main thread(s) will be in there + // somewhere, and the main scheduler loop has to deal with it. + // Also, the run queue is the only thing keeping these threads from + // being GC'd, and we don't want the "main thread has been GC'd" panic. + + ASSERT(blocked_queue_hd == END_TSO_QUEUE); + ASSERT(sleeping_queue == END_TSO_QUEUE); } /* startThread and insertThread are now in GranSim.c -- HWL */ @@ -1522,12 +1563,7 @@ deleteAllThreads ( void ) * ------------------------------------------------------------------------- */ StgInt -suspendThread( StgRegTable *reg, - rtsBool concCall -#if !defined(DEBUG) - STG_UNUSED -#endif - ) +suspendThread( StgRegTable *reg ) { nat tok; Capability *cap; @@ -1541,7 +1577,7 @@ suspendThread( StgRegTable *reg, ACQUIRE_LOCK(&sched_mutex); IF_DEBUG(scheduler, - sched_belch("thread %d did a _ccall_gc (is_concurrent: %d)", cap->r.rCurrentTSO->id,concCall)); + sched_belch("thread %d did a _ccall_gc", cap->r.rCurrentTSO->id)); // XXX this might not be necessary --SDM cap->r.rCurrentTSO->what_next = ThreadRunGHC; @@ -1550,17 +1586,12 @@ suspendThread( StgRegTable *reg, cap->r.rCurrentTSO->link = suspended_ccalling_threads; suspended_ccalling_threads = cap->r.rCurrentTSO; -#if defined(RTS_SUPPORTS_THREADS) - if(cap->r.rCurrentTSO->blocked_exceptions == NULL) - { + if(cap->r.rCurrentTSO->blocked_exceptions == NULL) { cap->r.rCurrentTSO->why_blocked = BlockedOnCCall; cap->r.rCurrentTSO->blocked_exceptions = END_TSO_QUEUE; - } - else - { + } else { cap->r.rCurrentTSO->why_blocked = BlockedOnCCall_NoUnblockExc; } -#endif /* Use the thread ID as the token; it should be unique */ tok = cap->r.rCurrentTSO->id; @@ -1575,8 +1606,6 @@ suspendThread( StgRegTable *reg, IF_DEBUG(scheduler, sched_belch("worker (token %d): leaving RTS", tok)); #endif - /* Other threads _might_ be available for execution; signal this */ - THREAD_RUNNABLE(); RELEASE_LOCK(&sched_mutex); errno = saved_errno; @@ -1584,8 +1613,7 @@ suspendThread( StgRegTable *reg, } StgRegTable * -resumeThread( StgInt tok, - rtsBool concCall STG_UNUSED ) +resumeThread( StgInt tok ) { StgTSO *tso, **prev; Capability *cap; @@ -1616,13 +1644,10 @@ resumeThread( StgInt tok, } tso->link = END_TSO_QUEUE; -#if defined(RTS_SUPPORTS_THREADS) - if(tso->why_blocked == BlockedOnCCall) - { + if(tso->why_blocked == BlockedOnCCall) { awakenBlockedQueueNoLock(tso->blocked_exceptions); tso->blocked_exceptions = NULL; } -#endif /* Reset blocking status */ tso->why_blocked = NotBlocked; @@ -1715,7 +1740,7 @@ createThread(nat size) /* check that no more than RtsFlags.ParFlags.maxThreads threads are created */ if (advisory_thread_count >= RtsFlags.ParFlags.maxThreads) { threadsIgnored++; - belch("{createThread}Daq ghuH: refusing to create another thread; no more than %d threads allowed (currently %d)", + debugBelch("{createThread}Daq ghuH: refusing to create another thread; no more than %d threads allowed (currently %d)\n", RtsFlags.ParFlags.maxThreads, advisory_thread_count); return END_TSO_QUEUE; } @@ -1751,12 +1776,15 @@ createThread(nat size) tso->blocked_exceptions = NULL; tso->saved_errno = 0; + tso->main = NULL; tso->stack_size = stack_size; tso->max_stack_size = round_to_mblocks(RtsFlags.GcFlags.maxStkSize) - TSO_STRUCT_SIZEW; tso->sp = (P_)&(tso->stack) + stack_size; + tso->trec = NO_TREC; + #ifdef PROFILING tso->prof.CCCS = CCS_MAIN; #endif @@ -1764,9 +1792,10 @@ createThread(nat size) /* put a stop frame on the stack */ tso->sp -= sizeofW(StgStopFrame); SET_HDR((StgClosure*)tso->sp,(StgInfoTable *)&stg_stop_thread_info,CCS_SYSTEM); + tso->link = END_TSO_QUEUE; + // ToDo: check this #if defined(GRAN) - tso->link = END_TSO_QUEUE; /* uses more flexible routine in GranSim */ insertThread(tso, CurrentProc); #else @@ -1846,22 +1875,22 @@ createThread(nat size) // collect parallel global statistics (currently done together with GC stats) if (RtsFlags.ParFlags.ParStats.Global && RtsFlags.GcFlags.giveStats > NO_GC_STATS) { - //fprintf(stderr, "Creating thread %d @ %11.2f\n", tso->id, usertime()); + //debugBelch("Creating thread %d @ %11.2f\n", tso->id, usertime()); globalParStats.tot_threads_created++; } #endif #if defined(GRAN) IF_GRAN_DEBUG(pri, - belch("==__ schedule: Created TSO %d (%p);", + sched_belch("==__ schedule: Created TSO %d (%p);", CurrentProc, tso, tso->id)); #elif defined(PAR) IF_PAR_DEBUG(verbose, - belch("==__ schedule: Created TSO %d (%p); %d threads active", - tso->id, tso, advisory_thread_count)); + sched_belch("==__ schedule: Created TSO %d (%p); %d threads active", + (long)tso->id, tso, advisory_thread_count)); #else IF_DEBUG(scheduler,sched_belch("created thread %ld, stack size = %lx words", - tso->id, tso->stack_size)); + (long)tso->id, (long)tso->stack_size)); #endif return tso; } @@ -1910,7 +1939,7 @@ activateSpark (rtsSpark spark) if (RtsFlags.ParFlags.ParStats.Full) { //ASSERT(run_queue_hd == END_TSO_QUEUE); // I think ... IF_PAR_DEBUG(verbose, - belch("==^^ activateSpark: turning spark of closure %p (%s) into a thread", + debugBelch("==^^ activateSpark: turning spark of closure %p (%s) into a thread\n", (StgClosure *)spark, info_type((StgClosure *)spark))); } // ToDo: fwd info on local/global spark to thread -- HWL @@ -1942,9 +1971,10 @@ static void scheduleThread_ (StgTSO* tso); void scheduleThread_(StgTSO *tso) { - // Precondition: sched_mutex must be held. - PUSH_ON_RUN_QUEUE(tso); - THREAD_RUNNABLE(); + // The thread goes at the *end* of the run-queue, to avoid possible + // starvation of any threads already on the queue. + APPEND_TO_RUN_QUEUE(tso); + threadRunnable(); } void @@ -1970,8 +2000,16 @@ scheduleWaitThread(StgTSO* tso, /*[out]*/HaskellObj* ret, m = stgMallocBytes(sizeof(StgMainThread), "waitThread"); m->tso = tso; + tso->main = m; m->ret = ret; m->stat = NoStatus; + m->link = main_threads; + m->prev = NULL; + if (main_threads != NULL) { + main_threads->prev = m; + } + main_threads = m; + #if defined(RTS_SUPPORTS_THREADS) // Allocating a new condition for each thread is expensive, so we // cache one. This is a pretty feeble hack, but it helps speed up @@ -1995,11 +2033,8 @@ scheduleWaitThread(StgTSO* tso, /*[out]*/HaskellObj* ret, */ IF_DEBUG(scheduler, sched_belch("waiting for thread (%d)", tso->id)); - m->link = main_threads; - main_threads = m; - - PUSH_ON_RUN_QUEUE(tso); - // NB. Don't call THREAD_RUNNABLE() here, because the thread is + APPEND_TO_RUN_QUEUE(tso); + // NB. Don't call threadRunnable() here, because the thread is // bound and only runnable by *this* OS thread, so waking up other // workers will just slow things down. @@ -2201,25 +2236,6 @@ GetRoots( evac_fn evac ) // mark the signal handlers (signals should be already blocked) markSignalHandlers(evac); #endif - - // main threads which have completed need to be retained until they - // are dealt with in the main scheduler loop. They won't be - // retained any other way: the GC will drop them from the - // all_threads list, so we have to be careful to treat them as roots - // here. - { - StgMainThread *m; - for (m = main_threads; m != NULL; m = m->link) { - switch (m->tso->what_next) { - case ThreadComplete: - case ThreadKilled: - evac((StgClosure **)&m->tso); - break; - default: - break; - } - } - } } /* ----------------------------------------------------------------------------- @@ -2290,8 +2306,8 @@ threadStackOverflow(StgTSO *tso) if (tso->stack_size >= tso->max_stack_size) { IF_DEBUG(gc, - belch("@@ threadStackOverflow of TSO %d (%p): stack too large (now %ld; max is %ld)", - tso->id, tso, tso->stack_size, tso->max_stack_size); + debugBelch("@@ threadStackOverflow of TSO %ld (%p): stack too large (now %ld; max is %ld)\n", + (long)tso->id, tso, (long)tso->stack_size, (long)tso->max_stack_size); /* If we're debugging, just print out the top of the stack */ printStackChunk(tso->sp, stg_min(tso->stack+tso->stack_size, tso->sp+64))); @@ -2311,7 +2327,7 @@ threadStackOverflow(StgTSO *tso) new_tso_size = round_to_mblocks(new_tso_size); /* Be MBLOCK-friendly */ new_stack_size = new_tso_size - TSO_STRUCT_SIZEW; - IF_DEBUG(scheduler, fprintf(stderr,"== sched: increasing stack size from %d words to %d.\n", tso->stack_size, new_stack_size)); + IF_DEBUG(scheduler, debugBelch("== sched: increasing stack size from %d words to %d.\n", tso->stack_size, new_stack_size)); dest = (StgTSO *)allocate(new_tso_size); TICK_ALLOC_TSO(new_stack_size,0); @@ -2340,7 +2356,7 @@ threadStackOverflow(StgTSO *tso) dest->mut_link = NULL; IF_PAR_DEBUG(verbose, - belch("@@ threadStackOverflow of TSO %d (now at %p): stack size increased to %ld", + debugBelch("@@ threadStackOverflow of TSO %d (now at %p): stack size increased to %ld\n", tso->id, tso, tso->stack_size); /* If we're debugging, just print out the top of the stack */ printStackChunk(tso->sp, stg_min(tso->stack+tso->stack_size, @@ -2429,11 +2445,11 @@ unblockOneLocked(StgBlockingQueueElement *bqe, StgClosure *node) } /* the thread-queue-overhead is accounted for in either Resume or UnblockThread */ IF_GRAN_DEBUG(bq, - fprintf(stderr," %s TSO %d (%p) [PE %d] (block_info.closure=%p) (next=%p) ,", + debugBelch(" %s TSO %d (%p) [PE %d] (block_info.closure=%p) (next=%p) ,", (node_loc==tso_loc ? "Local" : "Global"), tso->id, tso, CurrentProc, tso->block_info.closure, tso->link)); tso->block_info.closure = NULL; - IF_DEBUG(scheduler,belch("-- Waking up thread %ld (%p)", + IF_DEBUG(scheduler,debugBelch("-- Waking up thread %ld (%p)\n", tso->id, tso)); } #elif defined(PAR) @@ -2447,9 +2463,9 @@ unblockOneLocked(StgBlockingQueueElement *bqe, StgClosure *node) ASSERT(((StgTSO *)bqe)->why_blocked != NotBlocked); /* if it's a TSO just push it onto the run_queue */ next = bqe->link; - // ((StgTSO *)bqe)->link = END_TSO_QUEUE; // debugging? - PUSH_ON_RUN_QUEUE((StgTSO *)bqe); - THREAD_RUNNABLE(); + ((StgTSO *)bqe)->link = END_TSO_QUEUE; // debugging? + APPEND_TO_RUN_QUEUE((StgTSO *)bqe); + threadRunnable(); unblockCount(bqe, node); /* reset blocking status after dumping event */ ((StgTSO *)bqe)->why_blocked = NotBlocked; @@ -2478,7 +2494,7 @@ unblockOneLocked(StgBlockingQueueElement *bqe, StgClosure *node) (StgClosure *)bqe); # endif } - IF_PAR_DEBUG(bq, fprintf(stderr, ", %p (%s)", bqe, info_type((StgClosure*)bqe))); + IF_PAR_DEBUG(bq, debugBelch(", %p (%s)\n", bqe, info_type((StgClosure*)bqe))); return next; } @@ -2492,9 +2508,10 @@ unblockOneLocked(StgTSO *tso) ASSERT(tso->why_blocked != NotBlocked); tso->why_blocked = NotBlocked; next = tso->link; - PUSH_ON_RUN_QUEUE(tso); - THREAD_RUNNABLE(); - IF_DEBUG(scheduler,sched_belch("waking up thread %ld", tso->id)); + tso->link = END_TSO_QUEUE; + APPEND_TO_RUN_QUEUE(tso); + threadRunnable(); + IF_DEBUG(scheduler,sched_belch("waking up thread %ld", (long)tso->id)); return next; } #endif @@ -2528,7 +2545,7 @@ awakenBlockedQueue(StgBlockingQueueElement *q, StgClosure *node) nat len = 0; IF_GRAN_DEBUG(bq, - belch("##-_ AwBQ for node %p on PE %d @ %ld by TSO %d (%p): ", \ + debugBelch("##-_ AwBQ for node %p on PE %d @ %ld by TSO %d (%p): \n", \ node, CurrentProc, CurrentTime[CurrentProc], CurrentTSO->id, CurrentTSO)); @@ -2545,13 +2562,13 @@ awakenBlockedQueue(StgBlockingQueueElement *q, StgClosure *node) */ if (CurrentProc!=node_loc) { IF_GRAN_DEBUG(bq, - belch("## node %p is on PE %d but CurrentProc is %d (TSO %d); assuming fake fetch and adjusting bitmask (old: %#x)", + debugBelch("## node %p is on PE %d but CurrentProc is %d (TSO %d); assuming fake fetch and adjusting bitmask (old: %#x)\n", node, node_loc, CurrentProc, CurrentTSO->id, // CurrentTSO, where_is(CurrentTSO), node->header.gran.procs)); node->header.gran.procs = (node->header.gran.procs) | PE_NUMBER(CurrentProc); IF_GRAN_DEBUG(bq, - belch("## new bitmask of node %p is %#x", + debugBelch("## new bitmask of node %p is %#x\n", node, node->header.gran.procs)); if (RtsFlags.GranFlags.GranSimStats.Global) { globalGranStats.tot_fake_fetches++; @@ -2586,7 +2603,7 @@ awakenBlockedQueue(StgBlockingQueueElement *q, StgClosure *node) ((StgRBH *)node)->mut_link = (StgMutClosure *)((StgRBHSave *)bqe)->payload[1]; IF_GRAN_DEBUG(bq, - belch("## Filled in RBH_Save for %p (%s) at end of AwBQ", + debugBelch("## Filled in RBH_Save for %p (%s) at end of AwBQ\n", node, info_type(node))); } @@ -2598,7 +2615,7 @@ awakenBlockedQueue(StgBlockingQueueElement *q, StgClosure *node) globalGranStats.tot_awbq++; // total no. of bqs awakened } IF_GRAN_DEBUG(bq, - fprintf(stderr,"## BQ Stats of %p: [%d entries] %s\n", + debugBelch("## BQ Stats of %p: [%d entries] %s\n", node, len, (bqe!=END_BQ_QUEUE) ? "RBH" : "")); } #elif defined(PAR) @@ -2610,12 +2627,12 @@ awakenBlockedQueue(StgBlockingQueueElement *q, StgClosure *node) ACQUIRE_LOCK(&sched_mutex); IF_PAR_DEBUG(verbose, - belch("##-_ AwBQ for node %p on [%x]: ", + debugBelch("##-_ AwBQ for node %p on [%x]: \n", node, mytid)); #ifdef DIST //RFP if(get_itbl(q)->type == CONSTR || q==END_BQ_QUEUE) { - IF_PAR_DEBUG(verbose, belch("## ... nothing to unblock so lets just return. RFP (BUG?)")); + IF_PAR_DEBUG(verbose, debugBelch("## ... nothing to unblock so lets just return. RFP (BUG?)\n")); return; } #endif @@ -2635,7 +2652,6 @@ awakenBlockedQueue(StgBlockingQueueElement *q, StgClosure *node) #else /* !GRAN && !PAR */ -#ifdef RTS_SUPPORTS_THREADS void awakenBlockedQueueNoLock(StgTSO *tso) { @@ -2643,7 +2659,6 @@ awakenBlockedQueueNoLock(StgTSO *tso) tso = unblockOneLocked(tso); } } -#endif void awakenBlockedQueue(StgTSO *tso) @@ -2666,9 +2681,6 @@ interruptStgRts(void) { interrupted = 1; context_switch = 1; -#ifdef RTS_SUPPORTS_THREADS - wakeBlockedWorkerThread(); -#endif } /* ----------------------------------------------------------------------------- @@ -2698,6 +2710,14 @@ unblockThread(StgTSO *tso) case NotBlocked: return; /* not blocked */ + case BlockedOnSTM: + // Be careful: nothing to do here! We tell the scheduler that the thread + // is runnable and we leave it to the stack-walking code to abort the + // transaction while unwinding the stack. We should perhaps have a debugging + // test to make sure that this really happens and that the 'zombie' transaction + // does not get committed. + goto done; + case BlockedOnMVar: ASSERT(get_itbl(tso->block_info.closure)->type == MVAR); { @@ -2831,6 +2851,14 @@ unblockThread(StgTSO *tso) switch (tso->why_blocked) { + case BlockedOnSTM: + // Be careful: nothing to do here! We tell the scheduler that the thread + // is runnable and we leave it to the stack-walking code to abort the + // transaction while unwinding the stack. We should perhaps have a debugging + // test to make sure that this really happens and that the 'zombie' transaction + // does not get committed. + goto done; + case BlockedOnMVar: ASSERT(get_itbl(tso->block_info.closure)->type == MVAR); { @@ -2944,7 +2972,7 @@ unblockThread(StgTSO *tso) tso->link = END_TSO_QUEUE; tso->why_blocked = NotBlocked; tso->block_info.closure = NULL; - PUSH_ON_RUN_QUEUE(tso); + APPEND_TO_RUN_QUEUE(tso); } #endif @@ -2988,6 +3016,7 @@ deleteThread(StgTSO *tso) raiseAsync(tso,NULL); } +#ifdef FORKPROCESS_PRIMOP_SUPPORTED static void deleteThreadImmediately(StgTSO *tso) { // for forkProcess only: @@ -2996,13 +3025,15 @@ deleteThreadImmediately(StgTSO *tso) if (tso->what_next == ThreadComplete || tso->what_next == ThreadKilled) { return; } -#if defined(RTS_SUPPORTS_THREADS) - if (tso->why_blocked != BlockedOnCCall - && tso->why_blocked != BlockedOnCCall_NoUnblockExc) -#endif + + if (tso->why_blocked != BlockedOnCCall && + tso->why_blocked != BlockedOnCCall_NoUnblockExc) { unblockThread(tso); + } + tso->what_next = ThreadKilled; } +#endif void raiseAsyncWithLock(StgTSO *tso, StgClosure *exception) @@ -3026,7 +3057,7 @@ raiseAsync(StgTSO *tso, StgClosure *exception) } IF_DEBUG(scheduler, - sched_belch("raising exception in thread %ld.", tso->id)); + sched_belch("raising exception in thread %ld.", (long)tso->id)); // Remove it from any blocking queues unblockThread(tso); @@ -3060,6 +3091,10 @@ raiseAsync(StgTSO *tso, StgClosure *exception) // top of the stack applied to the exception. // // 5. If it's a STOP_FRAME, then kill the thread. + // + // NB: if we pass an ATOMICALLY_FRAME then abort the associated + // transaction + StgPtr frame; @@ -3069,6 +3104,18 @@ raiseAsync(StgTSO *tso, StgClosure *exception) while (info->i.type != UPDATE_FRAME && (info->i.type != CATCH_FRAME || exception == NULL) && info->i.type != STOP_FRAME) { + if (info->i.type == ATOMICALLY_FRAME) { + // IF we find an ATOMICALLY_FRAME then we abort the + // current transaction and propagate the exception. In + // this case (unlike ordinary exceptions) we do not care + // whether the transaction is valid or not because its + // possible validity cannot have caused the exception + // and will not be visible after the abort. + IF_DEBUG(stm, + debugBelch("Found atomically block delivering async exception\n")); + stmAbortTransaction(tso -> trec); + tso -> trec = stmGetEnclosingTRec(tso -> trec); + } frame += stack_frame_sizeW((StgClosure *)frame); info = get_ret_itbl((StgClosure *)frame); } @@ -3141,9 +3188,9 @@ raiseAsync(StgTSO *tso, StgClosure *exception) TICK_ALLOC_UP_THK(words+1,0); IF_DEBUG(scheduler, - fprintf(stderr, "sched: Updating "); + debugBelch("sched: Updating "); printPtr((P_)((StgUpdateFrame *)frame)->updatee); - fprintf(stderr, " with "); + debugBelch(" with "); printObj((StgClosure *)ap); ); @@ -3161,7 +3208,8 @@ raiseAsync(StgTSO *tso, StgClosure *exception) // if (!closure_IND(((StgUpdateFrame *)frame)->updatee)) { // revert the black hole - UPD_IND_NOLOCK(((StgUpdateFrame *)frame)->updatee,ap); + UPD_IND_NOLOCK(((StgUpdateFrame *)frame)->updatee, + (StgClosure *)ap); } sp += sizeofW(StgUpdateFrame) - 1; sp[0] = (W_)ap; // push onto stack @@ -3183,6 +3231,137 @@ raiseAsync(StgTSO *tso, StgClosure *exception) } /* ----------------------------------------------------------------------------- + raiseExceptionHelper + + This function is called by the raise# primitve, just so that we can + move some of the tricky bits of raising an exception from C-- into + C. Who knows, it might be a useful re-useable thing here too. + -------------------------------------------------------------------------- */ + +StgWord +raiseExceptionHelper (StgTSO *tso, StgClosure *exception) +{ + StgClosure *raise_closure = NULL; + StgPtr p, next; + StgRetInfoTable *info; + // + // This closure represents the expression 'raise# E' where E + // is the exception raise. It is used to overwrite all the + // thunks which are currently under evaluataion. + // + + // + // LDV profiling: stg_raise_info has THUNK as its closure + // type. Since a THUNK takes at least MIN_UPD_SIZE words in its + // payload, MIN_UPD_SIZE is more approprate than 1. It seems that + // 1 does not cause any problem unless profiling is performed. + // However, when LDV profiling goes on, we need to linearly scan + // small object pool, where raise_closure is stored, so we should + // use MIN_UPD_SIZE. + // + // raise_closure = (StgClosure *)RET_STGCALL1(P_,allocate, + // sizeofW(StgClosure)+1); + // + + // + // Walk up the stack, looking for the catch frame. On the way, + // we update any closures pointed to from update frames with the + // raise closure that we just built. + // + p = tso->sp; + while(1) { + info = get_ret_itbl((StgClosure *)p); + next = p + stack_frame_sizeW((StgClosure *)p); + switch (info->i.type) { + + case UPDATE_FRAME: + // Only create raise_closure if we need to. + if (raise_closure == NULL) { + raise_closure = + (StgClosure *)allocate(sizeofW(StgClosure)+MIN_UPD_SIZE); + SET_HDR(raise_closure, &stg_raise_info, CCCS); + raise_closure->payload[0] = exception; + } + UPD_IND(((StgUpdateFrame *)p)->updatee,raise_closure); + p = next; + continue; + + case ATOMICALLY_FRAME: + IF_DEBUG(stm, debugBelch("Found ATOMICALLY_FRAME at %p\n", p)); + tso->sp = p; + return ATOMICALLY_FRAME; + + case CATCH_FRAME: + tso->sp = p; + return CATCH_FRAME; + + case CATCH_STM_FRAME: + IF_DEBUG(stm, debugBelch("Found CATCH_STM_FRAME at %p\n", p)); + tso->sp = p; + return CATCH_STM_FRAME; + + case STOP_FRAME: + tso->sp = p; + return STOP_FRAME; + + case CATCH_RETRY_FRAME: + default: + p = next; + continue; + } + } +} + + +/* ----------------------------------------------------------------------------- + findRetryFrameHelper + + This function is called by the retry# primitive. It traverses the stack + leaving tso->sp referring to the frame which should handle the retry. + + This should either be a CATCH_RETRY_FRAME (if the retry# is within an orElse#) + or should be a ATOMICALLY_FRAME (if the retry# reaches the top level). + + We skip CATCH_STM_FRAMEs because retries are not considered to be exceptions, + despite the similar implementation. + + We should not expect to see CATCH_FRAME or STOP_FRAME because those should + not be created within memory transactions. + -------------------------------------------------------------------------- */ + +StgWord +findRetryFrameHelper (StgTSO *tso) +{ + StgPtr p, next; + StgRetInfoTable *info; + + p = tso -> sp; + while (1) { + info = get_ret_itbl((StgClosure *)p); + next = p + stack_frame_sizeW((StgClosure *)p); + switch (info->i.type) { + + case ATOMICALLY_FRAME: + IF_DEBUG(stm, debugBelch("Found ATOMICALLY_FRAME at %p during retrry\n", p)); + tso->sp = p; + return ATOMICALLY_FRAME; + + case CATCH_RETRY_FRAME: + IF_DEBUG(stm, debugBelch("Found CATCH_RETRY_FRAME at %p during retrry\n", p)); + tso->sp = p; + return CATCH_RETRY_FRAME; + + case CATCH_STM_FRAME: + default: + ASSERT(info->i.type != CATCH_FRAME); + ASSERT(info->i.type != STOP_FRAME); + p = next; + continue; + } + } +} + +/* ----------------------------------------------------------------------------- resurrectThreads is called after garbage collection on the list of threads found to be garbage. Each of these threads will be woken up and sent a signal: BlockedOnDeadMVar if the thread was blocked @@ -3212,6 +3391,9 @@ resurrectThreads( StgTSO *threads ) case BlockedOnBlackHole: raiseAsync(tso,(StgClosure *)NonTermination_closure); break; + case BlockedOnSTM: + raiseAsync(tso,(StgClosure *)BlockedIndefinitely_closure); + break; case NotBlocked: /* This might happen if the thread was blocked on a black hole * belonging to a thread that we've just woken up (raiseAsync @@ -3224,68 +3406,6 @@ resurrectThreads( StgTSO *threads ) } } -/* ----------------------------------------------------------------------------- - * Blackhole detection: if we reach a deadlock, test whether any - * threads are blocked on themselves. Any threads which are found to - * be self-blocked get sent a NonTermination exception. - * - * This is only done in a deadlock situation in order to avoid - * performance overhead in the normal case. - * - * Locks: sched_mutex is held upon entry and exit. - * -------------------------------------------------------------------------- */ - -static void -detectBlackHoles( void ) -{ - StgTSO *tso = all_threads; - StgClosure *frame; - StgClosure *blocked_on; - StgRetInfoTable *info; - - for (tso = all_threads; tso != END_TSO_QUEUE; tso = tso->global_link) { - - while (tso->what_next == ThreadRelocated) { - tso = tso->link; - ASSERT(get_itbl(tso)->type == TSO); - } - - if (tso->why_blocked != BlockedOnBlackHole) { - continue; - } - blocked_on = tso->block_info.closure; - - frame = (StgClosure *)tso->sp; - - while(1) { - info = get_ret_itbl(frame); - switch (info->i.type) { - case UPDATE_FRAME: - if (((StgUpdateFrame *)frame)->updatee == blocked_on) { - /* We are blocking on one of our own computations, so - * send this thread the NonTermination exception. - */ - IF_DEBUG(scheduler, - sched_belch("thread %d is blocked on itself", tso->id)); - raiseAsync(tso, (StgClosure *)NonTermination_closure); - goto done; - } - - frame = (StgClosure *) ((StgUpdateFrame *)frame + 1); - continue; - - case STOP_FRAME: - goto done; - - // normal stack frames; do nothing except advance the pointer - default: - (StgPtr)frame += stack_frame_sizeW(frame); - } - } - done: ; - } -} - /* ---------------------------------------------------------------------------- * Debugging: why is a thread blocked * [Also provides useful information when debugging threaded programs @@ -3298,50 +3418,51 @@ printThreadBlockage(StgTSO *tso) { switch (tso->why_blocked) { case BlockedOnRead: - fprintf(stderr,"is blocked on read from fd %d", tso->block_info.fd); + debugBelch("is blocked on read from fd %d", tso->block_info.fd); break; case BlockedOnWrite: - fprintf(stderr,"is blocked on write to fd %d", tso->block_info.fd); + debugBelch("is blocked on write to fd %d", tso->block_info.fd); break; #if defined(mingw32_TARGET_OS) case BlockedOnDoProc: - fprintf(stderr,"is blocked on proc (request: %d)", tso->block_info.async_result->reqID); + debugBelch("is blocked on proc (request: %d)", tso->block_info.async_result->reqID); break; #endif case BlockedOnDelay: - fprintf(stderr,"is blocked until %d", tso->block_info.target); + debugBelch("is blocked until %d", tso->block_info.target); break; case BlockedOnMVar: - fprintf(stderr,"is blocked on an MVar"); + debugBelch("is blocked on an MVar"); break; case BlockedOnException: - fprintf(stderr,"is blocked on delivering an exception to thread %d", + debugBelch("is blocked on delivering an exception to thread %d", tso->block_info.tso->id); break; case BlockedOnBlackHole: - fprintf(stderr,"is blocked on a black hole"); + debugBelch("is blocked on a black hole"); break; case NotBlocked: - fprintf(stderr,"is not blocked"); + debugBelch("is not blocked"); break; #if defined(PAR) case BlockedOnGA: - fprintf(stderr,"is blocked on global address; local FM_BQ is %p (%s)", + debugBelch("is blocked on global address; local FM_BQ is %p (%s)", tso->block_info.closure, info_type(tso->block_info.closure)); break; case BlockedOnGA_NoSend: - fprintf(stderr,"is blocked on global address (no send); local FM_BQ is %p (%s)", + debugBelch("is blocked on global address (no send); local FM_BQ is %p (%s)", tso->block_info.closure, info_type(tso->block_info.closure)); break; #endif -#if defined(RTS_SUPPORTS_THREADS) case BlockedOnCCall: - fprintf(stderr,"is blocked on an external call"); + debugBelch("is blocked on an external call"); break; case BlockedOnCCall_NoUnblockExc: - fprintf(stderr,"is blocked on an external call (exceptions were already blocked)"); + debugBelch("is blocked on an external call (exceptions were already blocked)"); + break; + case BlockedOnSTM: + debugBelch("is blocked on an STM operation"); break; -#endif default: barf("printThreadBlockage: strange tso->why_blocked: %d for TSO %d (%d)", tso->why_blocked, tso->id, tso); @@ -3354,10 +3475,10 @@ printThreadStatus(StgTSO *tso) { switch (tso->what_next) { case ThreadKilled: - fprintf(stderr,"has been killed"); + debugBelch("has been killed"); break; case ThreadComplete: - fprintf(stderr,"has completed"); + debugBelch("has completed"); break; default: printThreadBlockage(tso); @@ -3368,30 +3489,33 @@ void printAllThreads(void) { StgTSO *t; - void *label; # if defined(GRAN) char time_string[TIME_STR_LEN], node_str[NODE_STR_LEN]; ullong_format_string(TIME_ON_PROC(CurrentProc), time_string, rtsFalse/*no commas!*/); - fprintf(stderr, "all threads at [%s]:\n", time_string); + debugBelch("all threads at [%s]:\n", time_string); # elif defined(PAR) char time_string[TIME_STR_LEN], node_str[NODE_STR_LEN]; ullong_format_string(CURRENT_TIME, time_string, rtsFalse/*no commas!*/); - fprintf(stderr,"all threads at [%s]:\n", time_string); + debugBelch("all threads at [%s]:\n", time_string); # else - fprintf(stderr,"all threads:\n"); + debugBelch("all threads:\n"); # endif for (t = all_threads; t != END_TSO_QUEUE; t = t->global_link) { - fprintf(stderr, "\tthread %d @ %p ", t->id, (void *)t); - label = lookupThreadLabel(t->id); - if (label) fprintf(stderr,"[\"%s\"] ",(char *)label); + debugBelch("\tthread %d @ %p ", t->id, (void *)t); +#if defined(DEBUG) + { + void *label = lookupThreadLabel(t->id); + if (label) debugBelch("[\"%s\"] ",(char *)label); + } +#endif printThreadStatus(t); - fprintf(stderr,"\n"); + debugBelch("\n"); } } @@ -3408,7 +3532,7 @@ print_bq (StgClosure *node) StgTSO *tso; rtsBool end; - fprintf(stderr,"## BQ of closure %p (%s): ", + debugBelch("## BQ of closure %p (%s): ", node, info_type(node)); /* should cover all closures that may have a blocking queue */ @@ -3448,18 +3572,18 @@ print_bqe (StgBlockingQueueElement *bqe) switch (get_itbl(bqe)->type) { case TSO: - fprintf(stderr," TSO %u (%x),", + debugBelch(" TSO %u (%x),", ((StgTSO *)bqe)->id, ((StgTSO *)bqe)); break; case BLOCKED_FETCH: - fprintf(stderr," BF (node=%p, ga=((%x, %d, %x)),", + debugBelch(" BF (node=%p, ga=((%x, %d, %x)),", ((StgBlockedFetch *)bqe)->node, ((StgBlockedFetch *)bqe)->ga.payload.gc.gtid, ((StgBlockedFetch *)bqe)->ga.payload.gc.slot, ((StgBlockedFetch *)bqe)->ga.weight); break; case CONSTR: - fprintf(stderr," %s (IP %p),", + debugBelch(" %s (IP %p),", (get_itbl(bqe) == &stg_RBH_Save_0_info ? "RBH_Save_0" : get_itbl(bqe) == &stg_RBH_Save_1_info ? "RBH_Save_1" : get_itbl(bqe) == &stg_RBH_Save_2_info ? "RBH_Save_2" : @@ -3471,7 +3595,7 @@ print_bqe (StgBlockingQueueElement *bqe) break; } } /* for */ - fputc('\n', stderr); + debugBelch("\n"); } # elif defined(GRAN) void @@ -3489,7 +3613,7 @@ print_bq (StgClosure *node) ASSERT(node!=(StgClosure*)NULL); // sanity check node_loc = where_is(node); - fprintf(stderr,"## BQ of closure %p (%s) on [PE %d]: ", + debugBelch("## BQ of closure %p (%s) on [PE %d]: ", node, info_type(node), node_loc); /* @@ -3509,11 +3633,11 @@ print_bq (StgClosure *node) tso_loc = where_is((StgClosure *)bqe); switch (get_itbl(bqe)->type) { case TSO: - fprintf(stderr," TSO %d (%p) on [PE %d],", + debugBelch(" TSO %d (%p) on [PE %d],", ((StgTSO *)bqe)->id, (StgTSO *)bqe, tso_loc); break; case CONSTR: - fprintf(stderr," %s (IP %p),", + debugBelch(" %s (IP %p),", (get_itbl(bqe) == &stg_RBH_Save_0_info ? "RBH_Save_0" : get_itbl(bqe) == &stg_RBH_Save_1_info ? "RBH_Save_1" : get_itbl(bqe) == &stg_RBH_Save_2_info ? "RBH_Save_2" : @@ -3525,7 +3649,7 @@ print_bq (StgClosure *node) break; } } /* for */ - fputc('\n', stderr); + debugBelch("\n"); } #else /* @@ -3542,9 +3666,9 @@ print_bq (StgClosure *node) tso=tso->link) { ASSERT(tso!=NULL && tso!=END_TSO_QUEUE); // sanity check ASSERT(get_itbl(tso)->type == TSO); // guess what, sanity check - fprintf(stderr," TSO %d (%p),", tso->id, tso); + debugBelch(" TSO %d (%p),", tso->id, tso); } - fputc('\n', stderr); + debugBelch("\n"); } # endif @@ -3570,15 +3694,14 @@ sched_belch(char *s, ...) va_list ap; va_start(ap,s); #ifdef RTS_SUPPORTS_THREADS - fprintf(stderr, "sched (task %p): ", osThreadId()); + debugBelch("sched (task %p): ", osThreadId()); #elif defined(PAR) - fprintf(stderr, "== "); + debugBelch("== "); #else - fprintf(stderr, "sched: "); + debugBelch("sched: "); #endif - vfprintf(stderr, s, ap); - fprintf(stderr, "\n"); - fflush(stderr); + vdebugBelch(s, ap); + debugBelch("\n"); va_end(ap); }