8227084: Add timing information for merge heap root preparation
Reviewed-by: sangheki, kbarrett
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#ifndef SHARE_GC_G1_G1OOPCLOSURES_INLINE_HPP
#define SHARE_GC_G1_G1OOPCLOSURES_INLINE_HPP
#include "gc/g1/g1CollectedHeap.hpp"
#include "gc/g1/g1ConcurrentMark.inline.hpp"
#include "gc/g1/g1OopClosures.hpp"
#include "gc/g1/g1ParScanThreadState.inline.hpp"
#include "gc/g1/g1RemSet.hpp"
#include "gc/g1/heapRegion.inline.hpp"
#include "gc/g1/heapRegionRemSet.hpp"
#include "memory/iterator.inline.hpp"
#include "oops/access.inline.hpp"
#include "oops/compressedOops.inline.hpp"
#include "oops/oopsHierarchy.hpp"
#include "oops/oop.inline.hpp"
#include "runtime/prefetch.inline.hpp"
template <class T>
inline void G1ScanClosureBase::prefetch_and_push(T* p, const oop obj) {
// We're not going to even bother checking whether the object is
// already forwarded or not, as this usually causes an immediate
// stall. We'll try to prefetch the object (for write, given that
// we might need to install the forwarding reference) and we'll
// get back to it when pop it from the queue
Prefetch::write(obj->mark_addr_raw(), 0);
Prefetch::read(obj->mark_addr_raw(), (HeapWordSize*2));
// slightly paranoid test; I'm trying to catch potential
// problems before we go into push_on_queue to know where the
// problem is coming from
assert((obj == RawAccess<>::oop_load(p)) ||
(obj->is_forwarded() &&
obj->forwardee() == RawAccess<>::oop_load(p)),
"p should still be pointing to obj or to its forwardee");
_par_scan_state->push_on_queue(p);
}
template <class T>
inline void G1ScanClosureBase::handle_non_cset_obj_common(G1HeapRegionAttr const region_attr, T* p, oop const obj) {
if (region_attr.is_humongous()) {
_g1h->set_humongous_is_live(obj);
} else if (region_attr.is_optional()) {
_par_scan_state->remember_reference_into_optional_region(p);
}
}
inline void G1ScanClosureBase::trim_queue_partially() {
_par_scan_state->trim_queue_partially();
}
template <class T>
inline void G1ScanEvacuatedObjClosure::do_oop_work(T* p) {
T heap_oop = RawAccess<>::oop_load(p);
if (CompressedOops::is_null(heap_oop)) {
return;
}
oop obj = CompressedOops::decode_not_null(heap_oop);
const G1HeapRegionAttr region_attr = _g1h->region_attr(obj);
if (region_attr.is_in_cset()) {
prefetch_and_push(p, obj);
} else if (!HeapRegion::is_in_same_region(p, obj)) {
handle_non_cset_obj_common(region_attr, p, obj);
assert(_scanning_in_young != Uninitialized, "Scan location has not been initialized.");
if (_scanning_in_young == True) {
return;
}
_par_scan_state->enqueue_card_if_tracked(region_attr, p, obj);
}
}
template <class T>
inline void G1CMOopClosure::do_oop_work(T* p) {
_task->deal_with_reference(p);
}
template <class T>
inline void G1RootRegionScanClosure::do_oop_work(T* p) {
T heap_oop = RawAccess<MO_VOLATILE>::oop_load(p);
if (CompressedOops::is_null(heap_oop)) {
return;
}
oop obj = CompressedOops::decode_not_null(heap_oop);
_cm->mark_in_next_bitmap(_worker_id, obj);
}
template <class T>
inline static void check_obj_during_refinement(T* p, oop const obj) {
#ifdef ASSERT
G1CollectedHeap* g1h = G1CollectedHeap::heap();
// can't do because of races
// assert(oopDesc::is_oop_or_null(obj), "expected an oop");
assert(check_obj_alignment(obj), "not oop aligned");
assert(g1h->is_in_reserved(obj), "must be in heap");
HeapRegion* from = g1h->heap_region_containing(p);
assert(from != NULL, "from region must be non-NULL");
assert(from->is_in_reserved(p) ||
(from->is_humongous() &&
g1h->heap_region_containing(p)->is_humongous() &&
from->humongous_start_region() == g1h->heap_region_containing(p)->humongous_start_region()),
"p " PTR_FORMAT " is not in the same region %u or part of the correct humongous object starting at region %u.",
p2i(p), from->hrm_index(), from->humongous_start_region()->hrm_index());
#endif // ASSERT
}
template <class T>
inline void G1ConcurrentRefineOopClosure::do_oop_work(T* p) {
T o = RawAccess<MO_VOLATILE>::oop_load(p);
if (CompressedOops::is_null(o)) {
return;
}
oop obj = CompressedOops::decode_not_null(o);
check_obj_during_refinement(p, obj);
if (HeapRegion::is_in_same_region(p, obj)) {
// Normally this closure should only be called with cross-region references.
// But since Java threads are manipulating the references concurrently and we
// reload the values things may have changed.
// Also this check lets slip through references from a humongous continues region
// to its humongous start region, as they are in different regions, and adds a
// remembered set entry. This is benign (apart from memory usage), as we never
// try to either evacuate or eager reclaim humonguous arrays of j.l.O.
return;
}
HeapRegionRemSet* to_rem_set = _g1h->heap_region_containing(obj)->rem_set();
assert(to_rem_set != NULL, "Need per-region 'into' remsets.");
if (to_rem_set->is_tracked()) {
to_rem_set->add_reference(p, _worker_i);
}
}
template <class T>
inline void G1ScanCardClosure::do_oop_work(T* p) {
T o = RawAccess<>::oop_load(p);
if (CompressedOops::is_null(o)) {
return;
}
oop obj = CompressedOops::decode_not_null(o);
check_obj_during_refinement(p, obj);
assert(!_g1h->is_in_cset((HeapWord*)p),
"Oop originates from " PTR_FORMAT " (region: %u) which is in the collection set.",
p2i(p), _g1h->addr_to_region((HeapWord*)p));
const G1HeapRegionAttr region_attr = _g1h->region_attr(obj);
if (region_attr.is_in_cset()) {
// Since the source is always from outside the collection set, here we implicitly know
// that this is a cross-region reference too.
prefetch_and_push(p, obj);
} else if (!HeapRegion::is_in_same_region(p, obj)) {
handle_non_cset_obj_common(region_attr, p, obj);
_par_scan_state->enqueue_card_if_tracked(region_attr, p, obj);
}
}
template <class T>
inline void G1ScanRSForOptionalClosure::do_oop_work(T* p) {
const G1HeapRegionAttr region_attr = _g1h->region_attr(p);
// Entries in the optional collection set may start to originate from the collection
// set after one or more increments. In this case, previously optional regions
// became actual collection set regions. Filter them out here.
if (region_attr.is_in_cset()) {
return;
}
_scan_cl->do_oop_work(p);
_scan_cl->trim_queue_partially();
}
void G1ParCopyHelper::do_cld_barrier(oop new_obj) {
if (_g1h->heap_region_containing(new_obj)->is_young()) {
_scanned_cld->record_modified_oops();
}
}
void G1ParCopyHelper::mark_object(oop obj) {
assert(!_g1h->heap_region_containing(obj)->in_collection_set(), "should not mark objects in the CSet");
// We know that the object is not moving so it's safe to read its size.
_cm->mark_in_next_bitmap(_worker_id, obj);
}
void G1ParCopyHelper::trim_queue_partially() {
_par_scan_state->trim_queue_partially();
}
template <G1Barrier barrier, G1Mark do_mark_object>
template <class T>
void G1ParCopyClosure<barrier, do_mark_object>::do_oop_work(T* p) {
T heap_oop = RawAccess<>::oop_load(p);
if (CompressedOops::is_null(heap_oop)) {
return;
}
oop obj = CompressedOops::decode_not_null(heap_oop);
assert(_worker_id == _par_scan_state->worker_id(), "sanity");
const G1HeapRegionAttr state = _g1h->region_attr(obj);
if (state.is_in_cset()) {
oop forwardee;
markOop m = obj->mark_raw();
if (m->is_marked()) {
forwardee = (oop) m->decode_pointer();
} else {
forwardee = _par_scan_state->copy_to_survivor_space(state, obj, m);
}
assert(forwardee != NULL, "forwardee should not be NULL");
RawAccess<IS_NOT_NULL>::oop_store(p, forwardee);
if (barrier == G1BarrierCLD) {
do_cld_barrier(forwardee);
}
} else {
if (state.is_humongous()) {
_g1h->set_humongous_is_live(obj);
} else if (state.is_optional()) {
_par_scan_state->remember_root_into_optional_region(p);
}
// The object is not in collection set. If we're a root scanning
// closure during an initial mark pause then attempt to mark the object.
if (do_mark_object == G1MarkFromRoot) {
mark_object(obj);
}
}
trim_queue_partially();
}
template <class T> void G1RebuildRemSetClosure::do_oop_work(T* p) {
oop const obj = RawAccess<MO_VOLATILE>::oop_load(p);
if (obj == NULL) {
return;
}
if (HeapRegion::is_in_same_region(p, obj)) {
return;
}
HeapRegion* to = _g1h->heap_region_containing(obj);
HeapRegionRemSet* rem_set = to->rem_set();
rem_set->add_reference(p, _worker_id);
}
#endif // SHARE_GC_G1_G1OOPCLOSURES_INLINE_HPP