8198515: Extract SoftReferencePolicy code out of CollectorPolicy
Reviewed-by: pliden, sjohanss
/*
* Copyright (c) 2012, 2017, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*
*/
#include "precompiled.hpp"
#include "gc/shared/copyFailedInfo.hpp"
#include "gc/shared/gcHeapSummary.hpp"
#include "gc/shared/gcTimer.hpp"
#include "gc/shared/gcTrace.hpp"
#include "gc/shared/gcWhen.hpp"
#include "runtime/os.hpp"
#include "trace/traceBackend.hpp"
#include "trace/tracing.hpp"
#include "utilities/macros.hpp"
#if INCLUDE_ALL_GCS
#include "gc/g1/evacuationInfo.hpp"
#include "gc/g1/g1YCTypes.hpp"
#include "tracefiles/traceEventClasses.hpp"
#endif
// All GC dependencies against the trace framework is contained within this file.
typedef uintptr_t TraceAddress;
void GCTracer::send_garbage_collection_event() const {
EventGarbageCollection event(UNTIMED);
if (event.should_commit()) {
event.set_gcId(GCId::current());
event.set_name(_shared_gc_info.name());
event.set_cause((u2) _shared_gc_info.cause());
event.set_sumOfPauses(_shared_gc_info.sum_of_pauses());
event.set_longestPause(_shared_gc_info.longest_pause());
event.set_starttime(_shared_gc_info.start_timestamp());
event.set_endtime(_shared_gc_info.end_timestamp());
event.commit();
}
}
void GCTracer::send_reference_stats_event(ReferenceType type, size_t count) const {
EventGCReferenceStatistics e;
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_type((u1)type);
e.set_count(count);
e.commit();
}
}
void GCTracer::send_metaspace_chunk_free_list_summary(GCWhen::Type when, Metaspace::MetadataType mdtype,
const MetaspaceChunkFreeListSummary& summary) const {
EventMetaspaceChunkFreeListSummary e;
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_when(when);
e.set_metadataType(mdtype);
e.set_specializedChunks(summary.num_specialized_chunks());
e.set_specializedChunksTotalSize(summary.specialized_chunks_size_in_bytes());
e.set_smallChunks(summary.num_small_chunks());
e.set_smallChunksTotalSize(summary.small_chunks_size_in_bytes());
e.set_mediumChunks(summary.num_medium_chunks());
e.set_mediumChunksTotalSize(summary.medium_chunks_size_in_bytes());
e.set_humongousChunks(summary.num_humongous_chunks());
e.set_humongousChunksTotalSize(summary.humongous_chunks_size_in_bytes());
e.commit();
}
}
void ParallelOldTracer::send_parallel_old_event() const {
EventParallelOldGarbageCollection e(UNTIMED);
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_densePrefix((TraceAddress)_parallel_old_gc_info.dense_prefix());
e.set_starttime(_shared_gc_info.start_timestamp());
e.set_endtime(_shared_gc_info.end_timestamp());
e.commit();
}
}
void YoungGCTracer::send_young_gc_event() const {
EventYoungGarbageCollection e(UNTIMED);
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_tenuringThreshold(_tenuring_threshold);
e.set_starttime(_shared_gc_info.start_timestamp());
e.set_endtime(_shared_gc_info.end_timestamp());
e.commit();
}
}
bool YoungGCTracer::should_send_promotion_in_new_plab_event() const {
return EventPromoteObjectInNewPLAB::is_enabled();
}
bool YoungGCTracer::should_send_promotion_outside_plab_event() const {
return EventPromoteObjectOutsidePLAB::is_enabled();
}
void YoungGCTracer::send_promotion_in_new_plab_event(Klass* klass, size_t obj_size,
uint age, bool tenured,
size_t plab_size) const {
EventPromoteObjectInNewPLAB event;
if (event.should_commit()) {
event.set_gcId(GCId::current());
event.set_objectClass(klass);
event.set_objectSize(obj_size);
event.set_tenured(tenured);
event.set_tenuringAge(age);
event.set_plabSize(plab_size);
event.commit();
}
}
void YoungGCTracer::send_promotion_outside_plab_event(Klass* klass, size_t obj_size,
uint age, bool tenured) const {
EventPromoteObjectOutsidePLAB event;
if (event.should_commit()) {
event.set_gcId(GCId::current());
event.set_objectClass(klass);
event.set_objectSize(obj_size);
event.set_tenured(tenured);
event.set_tenuringAge(age);
event.commit();
}
}
void OldGCTracer::send_old_gc_event() const {
EventOldGarbageCollection e(UNTIMED);
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_starttime(_shared_gc_info.start_timestamp());
e.set_endtime(_shared_gc_info.end_timestamp());
e.commit();
}
}
static TraceStructCopyFailed to_trace_struct(const CopyFailedInfo& cf_info) {
TraceStructCopyFailed failed_info;
failed_info.set_objectCount(cf_info.failed_count());
failed_info.set_firstSize(cf_info.first_size());
failed_info.set_smallestSize(cf_info.smallest_size());
failed_info.set_totalSize(cf_info.total_size());
return failed_info;
}
void YoungGCTracer::send_promotion_failed_event(const PromotionFailedInfo& pf_info) const {
EventPromotionFailed e;
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_promotionFailed(to_trace_struct(pf_info));
e.set_thread(pf_info.thread_trace_id());
e.commit();
}
}
// Common to CMS and G1
void OldGCTracer::send_concurrent_mode_failure_event() {
EventConcurrentModeFailure e;
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.commit();
}
}
#if INCLUDE_ALL_GCS
void G1NewTracer::send_g1_young_gc_event() {
EventG1GarbageCollection e(UNTIMED);
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_type(_g1_young_gc_info.type());
e.set_starttime(_shared_gc_info.start_timestamp());
e.set_endtime(_shared_gc_info.end_timestamp());
e.commit();
}
}
void G1MMUTracer::send_g1_mmu_event(double time_slice_ms, double gc_time_ms, double max_time_ms) {
EventG1MMU e;
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_timeSlice(time_slice_ms);
e.set_gcTime(gc_time_ms);
e.set_pauseTarget(max_time_ms);
e.commit();
}
}
void G1NewTracer::send_evacuation_info_event(EvacuationInfo* info) {
EventEvacuationInformation e;
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_cSetRegions(info->collectionset_regions());
e.set_cSetUsedBefore(info->collectionset_used_before());
e.set_cSetUsedAfter(info->collectionset_used_after());
e.set_allocationRegions(info->allocation_regions());
e.set_allocationRegionsUsedBefore(info->alloc_regions_used_before());
e.set_allocationRegionsUsedAfter(info->alloc_regions_used_before() + info->bytes_copied());
e.set_bytesCopied(info->bytes_copied());
e.set_regionsFreed(info->regions_freed());
e.commit();
}
}
void G1NewTracer::send_evacuation_failed_event(const EvacuationFailedInfo& ef_info) const {
EventEvacuationFailed e;
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_evacuationFailed(to_trace_struct(ef_info));
e.commit();
}
}
static TraceStructG1EvacuationStatistics
create_g1_evacstats(unsigned gcid, const G1EvacSummary& summary) {
TraceStructG1EvacuationStatistics s;
s.set_gcId(gcid);
s.set_allocated(summary.allocated() * HeapWordSize);
s.set_wasted(summary.wasted() * HeapWordSize);
s.set_used(summary.used() * HeapWordSize);
s.set_undoWaste(summary.undo_wasted() * HeapWordSize);
s.set_regionEndWaste(summary.region_end_waste() * HeapWordSize);
s.set_regionsRefilled(summary.regions_filled());
s.set_directAllocated(summary.direct_allocated() * HeapWordSize);
s.set_failureUsed(summary.failure_used() * HeapWordSize);
s.set_failureWaste(summary.failure_waste() * HeapWordSize);
return s;
}
void G1NewTracer::send_young_evacuation_statistics(const G1EvacSummary& summary) const {
EventG1EvacuationYoungStatistics surv_evt;
if (surv_evt.should_commit()) {
surv_evt.set_statistics(create_g1_evacstats(GCId::current(), summary));
surv_evt.commit();
}
}
void G1NewTracer::send_old_evacuation_statistics(const G1EvacSummary& summary) const {
EventG1EvacuationOldStatistics old_evt;
if (old_evt.should_commit()) {
old_evt.set_statistics(create_g1_evacstats(GCId::current(), summary));
old_evt.commit();
}
}
void G1NewTracer::send_basic_ihop_statistics(size_t threshold,
size_t target_occupancy,
size_t current_occupancy,
size_t last_allocation_size,
double last_allocation_duration,
double last_marking_length) {
EventG1BasicIHOP evt;
if (evt.should_commit()) {
evt.set_gcId(GCId::current());
evt.set_threshold(threshold);
evt.set_targetOccupancy(target_occupancy);
evt.set_thresholdPercentage(target_occupancy > 0 ? ((double)threshold / target_occupancy) : 0.0);
evt.set_currentOccupancy(current_occupancy);
evt.set_recentMutatorAllocationSize(last_allocation_size);
evt.set_recentMutatorDuration(last_allocation_duration * MILLIUNITS);
evt.set_recentAllocationRate(last_allocation_duration != 0.0 ? last_allocation_size / last_allocation_duration : 0.0);
evt.set_lastMarkingDuration(last_marking_length * MILLIUNITS);
evt.commit();
}
}
void G1NewTracer::send_adaptive_ihop_statistics(size_t threshold,
size_t internal_target_occupancy,
size_t current_occupancy,
size_t additional_buffer_size,
double predicted_allocation_rate,
double predicted_marking_length,
bool prediction_active) {
EventG1AdaptiveIHOP evt;
if (evt.should_commit()) {
evt.set_gcId(GCId::current());
evt.set_threshold(threshold);
evt.set_thresholdPercentage(internal_target_occupancy > 0 ? ((double)threshold / internal_target_occupancy) : 0.0);
evt.set_ihopTargetOccupancy(internal_target_occupancy);
evt.set_currentOccupancy(current_occupancy);
evt.set_additionalBufferSize(additional_buffer_size);
evt.set_predictedAllocationRate(predicted_allocation_rate);
evt.set_predictedMarkingDuration(predicted_marking_length * MILLIUNITS);
evt.set_predictionActive(prediction_active);
evt.commit();
}
}
#endif
static TraceStructVirtualSpace to_trace_struct(const VirtualSpaceSummary& summary) {
TraceStructVirtualSpace space;
space.set_start((TraceAddress)summary.start());
space.set_committedEnd((TraceAddress)summary.committed_end());
space.set_committedSize(summary.committed_size());
space.set_reservedEnd((TraceAddress)summary.reserved_end());
space.set_reservedSize(summary.reserved_size());
return space;
}
static TraceStructObjectSpace to_trace_struct(const SpaceSummary& summary) {
TraceStructObjectSpace space;
space.set_start((TraceAddress)summary.start());
space.set_end((TraceAddress)summary.end());
space.set_used(summary.used());
space.set_size(summary.size());
return space;
}
class GCHeapSummaryEventSender : public GCHeapSummaryVisitor {
GCWhen::Type _when;
public:
GCHeapSummaryEventSender(GCWhen::Type when) : _when(when) {}
void visit(const GCHeapSummary* heap_summary) const {
const VirtualSpaceSummary& heap_space = heap_summary->heap();
EventGCHeapSummary e;
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_when((u1)_when);
e.set_heapSpace(to_trace_struct(heap_space));
e.set_heapUsed(heap_summary->used());
e.commit();
}
}
void visit(const G1HeapSummary* g1_heap_summary) const {
visit((GCHeapSummary*)g1_heap_summary);
EventG1HeapSummary e;
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_when((u1)_when);
e.set_edenUsedSize(g1_heap_summary->edenUsed());
e.set_edenTotalSize(g1_heap_summary->edenCapacity());
e.set_survivorUsedSize(g1_heap_summary->survivorUsed());
e.set_numberOfRegions(g1_heap_summary->numberOfRegions());
e.commit();
}
}
void visit(const PSHeapSummary* ps_heap_summary) const {
visit((GCHeapSummary*)ps_heap_summary);
const VirtualSpaceSummary& old_summary = ps_heap_summary->old();
const SpaceSummary& old_space = ps_heap_summary->old_space();
const VirtualSpaceSummary& young_summary = ps_heap_summary->young();
const SpaceSummary& eden_space = ps_heap_summary->eden();
const SpaceSummary& from_space = ps_heap_summary->from();
const SpaceSummary& to_space = ps_heap_summary->to();
EventPSHeapSummary e;
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_when((u1)_when);
e.set_oldSpace(to_trace_struct(ps_heap_summary->old()));
e.set_oldObjectSpace(to_trace_struct(ps_heap_summary->old_space()));
e.set_youngSpace(to_trace_struct(ps_heap_summary->young()));
e.set_edenSpace(to_trace_struct(ps_heap_summary->eden()));
e.set_fromSpace(to_trace_struct(ps_heap_summary->from()));
e.set_toSpace(to_trace_struct(ps_heap_summary->to()));
e.commit();
}
}
};
void GCTracer::send_gc_heap_summary_event(GCWhen::Type when, const GCHeapSummary& heap_summary) const {
GCHeapSummaryEventSender visitor(when);
heap_summary.accept(&visitor);
}
static TraceStructMetaspaceSizes to_trace_struct(const MetaspaceSizes& sizes) {
TraceStructMetaspaceSizes meta_sizes;
meta_sizes.set_committed(sizes.committed());
meta_sizes.set_used(sizes.used());
meta_sizes.set_reserved(sizes.reserved());
return meta_sizes;
}
void GCTracer::send_meta_space_summary_event(GCWhen::Type when, const MetaspaceSummary& meta_space_summary) const {
EventMetaspaceSummary e;
if (e.should_commit()) {
e.set_gcId(GCId::current());
e.set_when((u1) when);
e.set_gcThreshold(meta_space_summary.capacity_until_GC());
e.set_metaspace(to_trace_struct(meta_space_summary.meta_space()));
e.set_dataSpace(to_trace_struct(meta_space_summary.data_space()));
e.set_classSpace(to_trace_struct(meta_space_summary.class_space()));
e.commit();
}
}
class PhaseSender : public PhaseVisitor {
void visit_pause(GCPhase* phase) {
assert(phase->level() < PhasesStack::PHASE_LEVELS, "Need more event types for PausePhase");
switch (phase->level()) {
case 0: send_phase<EventGCPhasePause>(phase); break;
case 1: send_phase<EventGCPhasePauseLevel1>(phase); break;
case 2: send_phase<EventGCPhasePauseLevel2>(phase); break;
case 3: send_phase<EventGCPhasePauseLevel3>(phase); break;
case 4: send_phase<EventGCPhasePauseLevel4>(phase); break;
default: /* Ignore sending this phase */ break;
}
}
void visit_concurrent(GCPhase* phase) {
assert(phase->level() < 1, "There is only one level for ConcurrentPhase");
switch (phase->level()) {
case 0: send_phase<EventGCPhaseConcurrent>(phase); break;
default: /* Ignore sending this phase */ break;
}
}
public:
template<typename T>
void send_phase(GCPhase* phase) {
T event(UNTIMED);
if (event.should_commit()) {
event.set_gcId(GCId::current());
event.set_name(phase->name());
event.set_starttime(phase->start());
event.set_endtime(phase->end());
event.commit();
}
}
void visit(GCPhase* phase) {
if (phase->type() == GCPhase::PausePhaseType) {
visit_pause(phase);
} else {
assert(phase->type() == GCPhase::ConcurrentPhaseType, "Should be ConcurrentPhaseType");
visit_concurrent(phase);
}
}
};
void GCTracer::send_phase_events(TimePartitions* time_partitions) const {
PhaseSender phase_reporter;
TimePartitionPhasesIterator iter(time_partitions);
while (iter.has_next()) {
GCPhase* phase = iter.next();
phase->accept(&phase_reporter);
}
}