initMutex(&cap->lock);
cap->running_task = NULL; // indicates cap is free
cap->spare_workers = NULL;
+ cap->n_spare_workers = 0;
cap->suspended_ccalls = NULL;
cap->returning_tasks_hd = NULL;
cap->returning_tasks_tl = NULL;
// in which case it is not replaced on the spare_worker queue.
// This happens when the system is shutting down (see
// Schedule.c:workerStart()).
- if (!isBoundTask(task) && !task->stopped) {
- task->next = cap->spare_workers;
- cap->spare_workers = task;
+ if (!isBoundTask(task) && !task->stopped)
+ {
+ if (cap->n_spare_workers < MAX_SPARE_WORKERS)
+ {
+ task->next = cap->spare_workers;
+ cap->spare_workers = task;
+ cap->n_spare_workers++;
+ }
+ else
+ {
+ debugTrace(DEBUG_sched, "%d spare workers already, exiting",
+ cap->n_spare_workers);
+ releaseCapability_(cap,rtsFalse);
+ // hold the lock until after workerTaskStop; c.f. scheduleWorker()
+ workerTaskStop(task);
+ RELEASE_LOCK(&cap->lock);
+ shutdownThread();
+ }
}
// Bound tasks just float around attached to their TSOs.
}
cap->spare_workers = task->next;
task->next = NULL;
- }
+ cap->n_spare_workers--;
+ }
cap->running_task = task;
RELEASE_LOCK(&cap->lock);
break;
if (!osThreadIsAlive(t->id)) {
debugTrace(DEBUG_sched,
"worker thread %p has died unexpectedly", (void *)t->id);
- if (!prev) {
- cap->spare_workers = t->next;
- } else {
- prev->next = t->next;
- }
- prev = t;
+ cap->n_spare_workers--;
+ if (!prev) {
+ cap->spare_workers = t->next;
+ } else {
+ prev->next = t->next;
+ }
+ prev = t;
}
}
}
void
markSomeCapabilities (evac_fn evac, void *user, nat i0, nat delta,
- rtsBool prune_sparks USED_IF_THREADS)
+ rtsBool no_mark_sparks USED_IF_THREADS)
{
nat i;
Capability *cap;
}
#if defined(THREADED_RTS)
- if (prune_sparks) {
- pruneSparkQueue (evac, user, cap);
- } else {
+ if (!no_mark_sparks) {
traverseSparkQueue (evac, user, cap);
}
#endif