*/
rtsBool blackholes_need_checking = rtsFalse;
-/* Linked list of all threads.
- * Used for detecting garbage collected threads.
- * LOCK: sched_mutex+capability, or all capabilities
- */
-StgTSO *all_threads = NULL;
-
/* flag set by signal handler to precipitate a context switch
* LOCK: none (just an advisory flag)
*/
// 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).
+ // step->threads list so there's no other way to find it).
appendToRunQueue(cap,t);
return rtsFalse;
#else
*/
{
StgTSO *next;
+ nat s;
- for (t = all_threads; t != END_TSO_QUEUE; t = next) {
+ for (s = 0; s < total_steps; s++) {
+ for (t = all_steps[s].threads; t != END_TSO_QUEUE; t = next) {
if (t->what_next == ThreadRelocated) {
next = t->_link;
} else {
}
}
}
+ }
}
}
pid_t pid;
StgTSO* t,*next;
Capability *cap;
+ nat s;
#if defined(THREADED_RTS)
if (RtsFlags.ParFlags.nNodes > 1) {
// all Tasks, because they correspond to OS threads that are
// now gone.
- for (t = all_threads; t != END_TSO_QUEUE; t = next) {
+ for (s = 0; s < total_steps; s++) {
+ for (t = all_steps[s].threads; t != END_TSO_QUEUE; t = next) {
if (t->what_next == ThreadRelocated) {
next = t->_link;
} else {
// threads may be evaluating thunks that we need later.
deleteThread_(cap,t);
}
+ }
}
// Empty the run queue. It seems tempting to let all the
// don't exist now:
cap->suspended_ccalling_tasks = NULL;
- // Empty the all_threads list. Otherwise, the garbage
+ // Empty the threads lists. Otherwise, the garbage
// collector may attempt to resurrect some of these threads.
- all_threads = END_TSO_QUEUE;
+ for (s = 0; s < total_steps; s++) {
+ all_steps[s].threads = END_TSO_QUEUE;
+ }
// Wipe the task list, except the current Task.
ACQUIRE_LOCK(&sched_mutex);
// NOTE: only safe to call if we own all capabilities.
StgTSO* t, *next;
+ nat s;
+
debugTrace(DEBUG_sched,"deleting all threads");
- for (t = all_threads; t != END_TSO_QUEUE; t = next) {
+ for (s = 0; s < total_steps; s++) {
+ for (t = all_steps[s].threads; t != END_TSO_QUEUE; t = next) {
if (t->what_next == ThreadRelocated) {
next = t->_link;
} else {
next = t->global_link;
deleteThread(cap,t);
}
+ }
}
// The run queue now contains a bunch of ThreadKilled threads. We
#endif
blackhole_queue = END_TSO_QUEUE;
- all_threads = END_TSO_QUEUE;
context_switch = 0;
sched_state = SCHED_RUNNING;
{
StgTSO *tso, *next;
Capability *cap;
+ step *step;
for (tso = threads; tso != END_TSO_QUEUE; tso = next) {
next = tso->global_link;
- tso->global_link = all_threads;
- all_threads = tso;
+
+ step = Bdescr((P_)tso)->step;
+ tso->global_link = step->threads;
+ step->threads = tso;
+
debugTrace(DEBUG_sched, "resurrecting thread %lu", (unsigned long)tso->id);
// Wake up the thread on the Capability it was last on