void MVM_dll_drop_symbol(MVMThreadContext *tc, MVMObject *obj) {
MVMDLLSym *sym;
MVMDLLRegistry *dll;
if (REPR(obj)->ID != MVM_REPR_ID_MVMDLLSym)
MVM_exception_throw_adhoc(tc,
"unexpected object with REPR other than MVMDLLSym");
sym = (MVMDLLSym *)obj;
dll = sym->body.dll;
if (!dll)
return;
MVM_decr(&dll->refcount);
sym->body.address = NULL;
sym->body.dll = NULL;
}
/* Decreases the reference count of a frame. If it hits zero, then we can
* free it. Returns null for convenience. */
MVMFrame * MVM_frame_dec_ref(MVMThreadContext *tc, MVMFrame *frame) {
/* MVM_dec returns what the count was before it decremented it
* to zero, so we look for 1 here. */
while (MVM_decr(&frame->ref_count) == 1) {
MVMuint32 pool_index = frame->static_info->body.pool_index;
MVMFrame *node = tc->frame_pool_table[pool_index];
MVMFrame *outer_to_decr = frame->outer;
/* If there's a caller pointer, decrement that. */
if (frame->caller)
frame->caller = MVM_frame_dec_ref(tc, frame->caller);
if (node && MVM_load(&node->ref_count) >= MVMFramePoolLengthLimit) {
/* There's no room on the free list, so destruction.*/
if (frame->env) {
free(frame->env);
frame->env = NULL;
}
if (frame->work) {
MVM_args_proc_cleanup(tc, &frame->params);
free(frame->work);
frame->work = NULL;
}
free(frame);
}
else { /* Unshift it to the free list */
MVM_store(&frame->ref_count, (frame->outer = node) ? MVM_load(&node->ref_count) + 1 : 1);
tc->frame_pool_table[pool_index] = frame;
}
if (outer_to_decr)
frame = outer_to_decr; /* and loop */
else
break;
}
return NULL;
}
/* This is called when the allocator finds it has run out of memory and wants
* to trigger a GC run. In this case, it's possible (probable, really) that it
* will need to do that triggering, notifying other running threads that the
* time has come to GC. */
void MVM_gc_enter_from_allocator(MVMThreadContext *tc) {
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE, "Thread %d run %d : Entered from allocate\n");
/* Try to start the GC run. */
if (MVM_trycas(&tc->instance->gc_start, 0, 1)) {
MVMThread *last_starter = NULL;
MVMuint32 num_threads = 0;
MVMuint32 is_full;
/* Need to wait for other threads to reset their gc_status. */
while (MVM_load(&tc->instance->gc_ack)) {
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : waiting for other thread's gc_ack\n");
MVM_platform_thread_yield();
}
/* We are the winner of the GC starting race. This gives us some
* extra responsibilities as well as doing the usual things.
* First, increment GC sequence number. */
MVM_incr(&tc->instance->gc_seq_number);
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : GC thread elected coordinator: starting gc seq %d\n",
(int)MVM_load(&tc->instance->gc_seq_number));
/* Decide if it will be a full collection. */
is_full = is_full_collection(tc);
/* If profiling, record that GC is starting. */
if (tc->instance->profiling)
MVM_profiler_log_gc_start(tc, is_full);
/* Ensure our stolen list is empty. */
tc->gc_work_count = 0;
/* Flag that we didn't agree on this run that all the in-trays are
* cleared (a responsibility of the co-ordinator. */
MVM_store(&tc->instance->gc_intrays_clearing, 1);
/* We'll take care of our own work. */
add_work(tc, tc);
/* Find other threads, and signal or steal. */
do {
MVMThread *threads = (MVMThread *)MVM_load(&tc->instance->threads);
if (threads && threads != last_starter) {
MVMThread *head = threads;
MVMuint32 add;
while ((threads = (MVMThread *)MVM_casptr(&tc->instance->threads, head, NULL)) != head) {
head = threads;
}
add = signal_all_but(tc, head, last_starter);
last_starter = head;
if (add) {
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE, "Thread %d run %d : Found %d other threads\n", add);
MVM_add(&tc->instance->gc_start, add);
num_threads += add;
}
}
/* If there's an event loop thread, wake it up to participate. */
if (tc->instance->event_loop_wakeup)
uv_async_send(tc->instance->event_loop_wakeup);
} while (MVM_load(&tc->instance->gc_start) > 1);
/* Sanity checks. */
if (!MVM_trycas(&tc->instance->threads, NULL, last_starter))
MVM_panic(MVM_exitcode_gcorch, "threads list corrupted\n");
if (MVM_load(&tc->instance->gc_finish) != 0)
MVM_panic(MVM_exitcode_gcorch, "Finish votes was %"MVM_PRSz"\n", MVM_load(&tc->instance->gc_finish));
/* gc_ack gets an extra so the final acknowledger
* can also free the STables. */
MVM_store(&tc->instance->gc_finish, num_threads + 1);
MVM_store(&tc->instance->gc_ack, num_threads + 2);
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE, "Thread %d run %d : finish votes is %d\n",
(int)MVM_load(&tc->instance->gc_finish));
/* Now we're ready to start, zero promoted since last full collection
* counter if this is a full collect. */
if (is_full)
MVM_store(&tc->instance->gc_promoted_bytes_since_last_full, 0);
/* Signal to the rest to start */
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE, "Thread %d run %d : coordinator signalling start\n");
if (MVM_decr(&tc->instance->gc_start) != 1)
MVM_panic(MVM_exitcode_gcorch, "Start votes was %"MVM_PRSz"\n", MVM_load(&tc->instance->gc_start));
/* Start collecting. */
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE, "Thread %d run %d : coordinator entering run_gc\n");
run_gc(tc, MVMGCWhatToDo_All);
/* Free any STables that have been marked for deletion. It's okay for
* us to muck around in another thread's fromspace while it's mutating
* tospace, really. */
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE, "Thread %d run %d : Freeing STables if needed\n");
MVM_gc_collect_free_stables(tc);
/* If profiling, record that GC is over. */
if (tc->instance->profiling)
MVM_profiler_log_gc_end(tc);
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE, "Thread %d run %d : GC complete (cooridnator)\n");
}
else {
/* Another thread beat us to starting the GC sync process. Thus, act as
* if we were interrupted to GC. */
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE, "Thread %d run %d : Lost coordinator election\n");
MVM_gc_enter_from_interrupt(tc);
}
}
static void finish_gc(MVMThreadContext *tc, MVMuint8 gen, MVMuint8 is_coordinator) {
MVMuint32 i, did_work;
/* Do any extra work that we have been passed. */
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : doing any work in thread in-trays\n");
did_work = 1;
while (did_work) {
did_work = 0;
for (i = 0; i < tc->gc_work_count; i++)
did_work += process_in_tray(tc->gc_work[i].tc, gen);
}
/* Decrement gc_finish to say we're done, and wait for termination. */
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE, "Thread %d run %d : Voting to finish\n");
MVM_decr(&tc->instance->gc_finish);
while (MVM_load(&tc->instance->gc_finish)) {
for (i = 0; i < 1000; i++)
; /* XXX Something HT-efficienter. */
/* XXX Here we can look to see if we got passed any work, and if so
* try to un-vote. */
}
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE, "Thread %d run %d : Termination agreed\n");
/* Co-ordinator should do final check over all the in-trays, and trigger
* collection until all is settled. Rest should wait. Additionally, after
* in-trays are settled, coordinator walks threads looking for anything
* that needs adding to the finalize queue. It then will make another
* iteration over in-trays to handle cross-thread references to objects
* needing finalization. For full collections, collected objects are then
* cleaned from all inter-generational sets, and finally any objects to
* be freed at the fixed size allocator's next safepoint are freed. */
if (is_coordinator) {
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : Co-ordinator handling in-tray clearing completion\n");
clear_intrays(tc, gen);
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : Co-ordinator handling finalizers\n");
MVM_finalize_walk_queues(tc, gen);
clear_intrays(tc, gen);
if (gen == MVMGCGenerations_Both) {
MVMThread *cur_thread = (MVMThread *)MVM_load(&tc->instance->threads);
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : Co-ordinator handling inter-gen root cleanup\n");
while (cur_thread) {
if (cur_thread->body.tc)
MVM_gc_root_gen2_cleanup(cur_thread->body.tc);
cur_thread = cur_thread->body.next;
}
}
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : Co-ordinator handling fixed-size allocator safepoint frees\n");
MVM_fixed_size_safepoint(tc, tc->instance->fsa);
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : Co-ordinator signalling in-trays clear\n");
MVM_store(&tc->instance->gc_intrays_clearing, 0);
}
else {
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : Waiting for in-tray clearing completion\n");
while (MVM_load(&tc->instance->gc_intrays_clearing))
for (i = 0; i < 1000; i++)
; /* XXX Something HT-efficienter. */
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : Got in-tray clearing complete notice\n");
}
/* Reset GC status flags. This is also where thread destruction happens,
* and it needs to happen before we acknowledge this GC run is finished. */
for (i = 0; i < tc->gc_work_count; i++) {
MVMThreadContext *other = tc->gc_work[i].tc;
MVMThread *thread_obj = other->thread_obj;
if (MVM_load(&thread_obj->body.stage) == MVM_thread_stage_clearing_nursery) {
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : transferring gen2 of thread %d\n", other->thread_id);
MVM_gc_gen2_transfer(other, tc);
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : destroying thread %d\n", other->thread_id);
MVM_tc_destroy(other);
tc->gc_work[i].tc = thread_obj->body.tc = NULL;
MVM_store(&thread_obj->body.stage, MVM_thread_stage_destroyed);
}
else {
if (MVM_load(&thread_obj->body.stage) == MVM_thread_stage_exited) {
/* Don't bother freeing gen2; we'll do it next time */
MVM_store(&thread_obj->body.stage, MVM_thread_stage_clearing_nursery);
GCDEBUG_LOG(tc, MVM_GC_DEBUG_ORCHESTRATE,
"Thread %d run %d : set thread %d clearing nursery stage to %d\n",
other->thread_id, (int)MVM_load(&thread_obj->body.stage));
}
MVM_cas(&other->gc_status, MVMGCStatus_STOLEN, MVMGCStatus_UNABLE);
MVM_cas(&other->gc_status, MVMGCStatus_INTERRUPT, MVMGCStatus_NONE);
}
}
/* Signal acknowledgement of completing the cleanup,
* except for STables, and if we're the final to do
* so, free the STables, which have been linked. */
if (MVM_decr(&tc->instance->gc_ack) == 2) {
/* Set it to zero (we're guaranteed the only ones trying to write to
* it here). Actual STable free in MVM_gc_enter_from_allocator. */
MVM_store(&tc->instance->gc_ack, 0);
}
}
