author | pliden |
Wed, 13 Mar 2019 11:31:00 +0100 | |
changeset 54093 | 9d02451b536e |
parent 53117 | 37930c6ba6d7 |
child 54122 | 4b1426ed1c44 |
permissions | -rw-r--r-- |
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/* |
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* Copyright (c) 2001, 2018, Oracle and/or its affiliates. All rights reserved. |
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
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* |
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* This code is free software; you can redistribute it and/or modify it |
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* under the terms of the GNU General Public License version 2 only, as |
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* published by the Free Software Foundation. |
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* |
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* This code is distributed in the hope that it will be useful, but WITHOUT |
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
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* version 2 for more details (a copy is included in the LICENSE file that |
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* accompanied this code). |
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* |
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* You should have received a copy of the GNU General Public License version |
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* 2 along with this work; if not, write to the Free Software Foundation, |
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
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* |
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* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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* or visit www.oracle.com if you need additional information or have any |
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* questions. |
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* |
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*/ |
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||
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#include "precompiled.hpp" |
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#include "code/codeCache.hpp" |
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#include "gc/parallel/adjoiningGenerations.hpp" |
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#include "gc/parallel/adjoiningGenerationsForHeteroHeap.hpp" |
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#include "gc/parallel/adjoiningVirtualSpaces.hpp" |
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#include "gc/parallel/gcTaskManager.hpp" |
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#include "gc/parallel/generationSizer.hpp" |
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#include "gc/parallel/objectStartArray.inline.hpp" |
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#include "gc/parallel/parallelScavengeHeap.inline.hpp" |
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#include "gc/parallel/psAdaptiveSizePolicy.hpp" |
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#include "gc/parallel/psMarkSweepProxy.hpp" |
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#include "gc/parallel/psMemoryPool.hpp" |
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#include "gc/parallel/psParallelCompact.inline.hpp" |
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#include "gc/parallel/psPromotionManager.hpp" |
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#include "gc/parallel/psScavenge.hpp" |
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#include "gc/parallel/psVMOperations.hpp" |
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#include "gc/shared/gcHeapSummary.hpp" |
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#include "gc/shared/gcLocker.hpp" |
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#include "gc/shared/gcWhen.hpp" |
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#include "logging/log.hpp" |
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#include "memory/metaspaceCounters.hpp" |
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#include "oops/oop.inline.hpp" |
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#include "runtime/handles.inline.hpp" |
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#include "runtime/java.hpp" |
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#include "runtime/vmThread.hpp" |
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#include "services/memoryManager.hpp" |
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#include "services/memTracker.hpp" |
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#include "utilities/macros.hpp" |
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#include "utilities/vmError.hpp" |
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PSYoungGen* ParallelScavengeHeap::_young_gen = NULL; |
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PSOldGen* ParallelScavengeHeap::_old_gen = NULL; |
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PSAdaptiveSizePolicy* ParallelScavengeHeap::_size_policy = NULL; |
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PSGCAdaptivePolicyCounters* ParallelScavengeHeap::_gc_policy_counters = NULL; |
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GCTaskManager* ParallelScavengeHeap::_gc_task_manager = NULL; |
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jint ParallelScavengeHeap::initialize() { |
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size_t heap_size = _collector_policy->heap_reserved_size_bytes(); |
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ReservedSpace heap_rs = Universe::reserve_heap(heap_size, _collector_policy->heap_alignment()); |
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os::trace_page_sizes("Heap", |
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_collector_policy->min_heap_byte_size(), |
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heap_size, |
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generation_alignment(), |
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heap_rs.base(), |
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heap_rs.size()); |
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initialize_reserved_region((HeapWord*)heap_rs.base(), (HeapWord*)(heap_rs.base() + heap_rs.size())); |
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PSCardTable* card_table = new PSCardTable(reserved_region()); |
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card_table->initialize(); |
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CardTableBarrierSet* const barrier_set = new CardTableBarrierSet(card_table); |
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barrier_set->initialize(); |
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BarrierSet::set_barrier_set(barrier_set); |
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// Make up the generations |
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// Calculate the maximum size that a generation can grow. This |
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// includes growth into the other generation. Note that the |
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// parameter _max_gen_size is kept as the maximum |
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// size of the generation as the boundaries currently stand. |
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// _max_gen_size is still used as that value. |
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double max_gc_pause_sec = ((double) MaxGCPauseMillis)/1000.0; |
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double max_gc_minor_pause_sec = ((double) MaxGCMinorPauseMillis)/1000.0; |
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_gens = AdjoiningGenerations::create_adjoining_generations(heap_rs, _collector_policy, generation_alignment()); |
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_old_gen = _gens->old_gen(); |
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_young_gen = _gens->young_gen(); |
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const size_t eden_capacity = _young_gen->eden_space()->capacity_in_bytes(); |
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const size_t old_capacity = _old_gen->capacity_in_bytes(); |
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const size_t initial_promo_size = MIN2(eden_capacity, old_capacity); |
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_size_policy = |
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new PSAdaptiveSizePolicy(eden_capacity, |
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initial_promo_size, |
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young_gen()->to_space()->capacity_in_bytes(), |
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_collector_policy->gen_alignment(), |
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max_gc_pause_sec, |
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max_gc_minor_pause_sec, |
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GCTimeRatio |
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); |
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assert(_collector_policy->is_hetero_heap() || !UseAdaptiveGCBoundary || |
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(old_gen()->virtual_space()->high_boundary() == |
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young_gen()->virtual_space()->low_boundary()), |
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"Boundaries must meet"); |
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// initialize the policy counters - 2 collectors, 2 generations |
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_gc_policy_counters = |
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new PSGCAdaptivePolicyCounters("ParScav:MSC", 2, 2, _size_policy); |
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// Set up the GCTaskManager |
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_gc_task_manager = GCTaskManager::create(ParallelGCThreads); |
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if (UseParallelOldGC && !PSParallelCompact::initialize()) { |
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return JNI_ENOMEM; |
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} |
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return JNI_OK; |
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} |
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void ParallelScavengeHeap::initialize_serviceability() { |
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_eden_pool = new EdenMutableSpacePool(_young_gen, |
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_young_gen->eden_space(), |
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"PS Eden Space", |
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false /* support_usage_threshold */); |
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_survivor_pool = new SurvivorMutableSpacePool(_young_gen, |
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"PS Survivor Space", |
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false /* support_usage_threshold */); |
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_old_pool = new PSGenerationPool(_old_gen, |
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"PS Old Gen", |
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true /* support_usage_threshold */); |
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_young_manager = new GCMemoryManager("PS Scavenge", "end of minor GC"); |
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_old_manager = new GCMemoryManager("PS MarkSweep", "end of major GC"); |
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_old_manager->add_pool(_eden_pool); |
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_old_manager->add_pool(_survivor_pool); |
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_old_manager->add_pool(_old_pool); |
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_young_manager->add_pool(_eden_pool); |
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_young_manager->add_pool(_survivor_pool); |
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} |
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void ParallelScavengeHeap::post_initialize() { |
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CollectedHeap::post_initialize(); |
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// Need to init the tenuring threshold |
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PSScavenge::initialize(); |
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if (UseParallelOldGC) { |
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PSParallelCompact::post_initialize(); |
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} else { |
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PSMarkSweepProxy::initialize(); |
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} |
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PSPromotionManager::initialize(); |
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} |
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void ParallelScavengeHeap::update_counters() { |
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young_gen()->update_counters(); |
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old_gen()->update_counters(); |
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MetaspaceCounters::update_performance_counters(); |
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CompressedClassSpaceCounters::update_performance_counters(); |
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} |
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size_t ParallelScavengeHeap::capacity() const { |
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size_t value = young_gen()->capacity_in_bytes() + old_gen()->capacity_in_bytes(); |
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return value; |
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} |
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size_t ParallelScavengeHeap::used() const { |
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size_t value = young_gen()->used_in_bytes() + old_gen()->used_in_bytes(); |
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return value; |
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} |
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bool ParallelScavengeHeap::is_maximal_no_gc() const { |
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return old_gen()->is_maximal_no_gc() && young_gen()->is_maximal_no_gc(); |
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} |
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size_t ParallelScavengeHeap::max_capacity() const { |
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size_t estimated = reserved_region().byte_size(); |
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if (UseAdaptiveSizePolicy) { |
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estimated -= _size_policy->max_survivor_size(young_gen()->max_size()); |
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} else { |
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estimated -= young_gen()->to_space()->capacity_in_bytes(); |
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} |
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return MAX2(estimated, capacity()); |
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} |
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bool ParallelScavengeHeap::is_in(const void* p) const { |
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return young_gen()->is_in(p) || old_gen()->is_in(p); |
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} |
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bool ParallelScavengeHeap::is_in_reserved(const void* p) const { |
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return young_gen()->is_in_reserved(p) || old_gen()->is_in_reserved(p); |
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} |
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// There are two levels of allocation policy here. |
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// |
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// When an allocation request fails, the requesting thread must invoke a VM |
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// operation, transfer control to the VM thread, and await the results of a |
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// garbage collection. That is quite expensive, and we should avoid doing it |
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// multiple times if possible. |
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// |
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// To accomplish this, we have a basic allocation policy, and also a |
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// failed allocation policy. |
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// |
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// The basic allocation policy controls how you allocate memory without |
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// attempting garbage collection. It is okay to grab locks and |
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// expand the heap, if that can be done without coming to a safepoint. |
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// It is likely that the basic allocation policy will not be very |
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// aggressive. |
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// |
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// The failed allocation policy is invoked from the VM thread after |
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// the basic allocation policy is unable to satisfy a mem_allocate |
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// request. This policy needs to cover the entire range of collection, |
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// heap expansion, and out-of-memory conditions. It should make every |
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// attempt to allocate the requested memory. |
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// Basic allocation policy. Should never be called at a safepoint, or |
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// from the VM thread. |
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// |
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// This method must handle cases where many mem_allocate requests fail |
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// simultaneously. When that happens, only one VM operation will succeed, |
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// and the rest will not be executed. For that reason, this method loops |
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// during failed allocation attempts. If the java heap becomes exhausted, |
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// we rely on the size_policy object to force a bail out. |
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HeapWord* ParallelScavengeHeap::mem_allocate( |
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size_t size, |
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bool* gc_overhead_limit_was_exceeded) { |
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assert(!SafepointSynchronize::is_at_safepoint(), "should not be at safepoint"); |
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assert(Thread::current() != (Thread*)VMThread::vm_thread(), "should not be in vm thread"); |
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assert(!Heap_lock->owned_by_self(), "this thread should not own the Heap_lock"); |
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// In general gc_overhead_limit_was_exceeded should be false so |
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// set it so here and reset it to true only if the gc time |
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// limit is being exceeded as checked below. |
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245 |
*gc_overhead_limit_was_exceeded = false; |
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246 |
|
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247 |
HeapWord* result = young_gen()->allocate(size); |
1 | 248 |
|
249 |
uint loop_count = 0; |
|
250 |
uint gc_count = 0; |
|
29078 | 251 |
uint gclocker_stalled_count = 0; |
1 | 252 |
|
253 |
while (result == NULL) { |
|
254 |
// We don't want to have multiple collections for a single filled generation. |
|
255 |
// To prevent this, each thread tracks the total_collections() value, and if |
|
256 |
// the count has changed, does not do a new collection. |
|
257 |
// |
|
258 |
// The collection count must be read only while holding the heap lock. VM |
|
259 |
// operations also hold the heap lock during collections. There is a lock |
|
260 |
// contention case where thread A blocks waiting on the Heap_lock, while |
|
261 |
// thread B is holding it doing a collection. When thread A gets the lock, |
|
262 |
// the collection count has already changed. To prevent duplicate collections, |
|
263 |
// The policy MUST attempt allocations during the same period it reads the |
|
264 |
// total_collections() value! |
|
265 |
{ |
|
266 |
MutexLocker ml(Heap_lock); |
|
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gc_count = total_collections(); |
1 | 268 |
|
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269 |
result = young_gen()->allocate(size); |
1 | 270 |
if (result != NULL) { |
271 |
return result; |
|
272 |
} |
|
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273 |
|
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274 |
// If certain conditions hold, try allocating from the old gen. |
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275 |
result = mem_allocate_old_gen(size); |
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276 |
if (result != NULL) { |
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277 |
return result; |
1 | 278 |
} |
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|
279 |
|
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|
280 |
if (gclocker_stalled_count > GCLockerRetryAllocationCount) { |
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|
281 |
return NULL; |
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|
282 |
} |
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|
283 |
|
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|
284 |
// Failed to allocate without a gc. |
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|
285 |
if (GCLocker::is_active_and_needs_gc()) { |
1 | 286 |
// If this thread is not in a jni critical section, we stall |
287 |
// the requestor until the critical section has cleared and |
|
288 |
// GC allowed. When the critical section clears, a GC is |
|
289 |
// initiated by the last thread exiting the critical section; so |
|
290 |
// we retry the allocation sequence from the beginning of the loop, |
|
291 |
// rather than causing more, now probably unnecessary, GC attempts. |
|
292 |
JavaThread* jthr = JavaThread::current(); |
|
293 |
if (!jthr->in_critical()) { |
|
294 |
MutexUnlocker mul(Heap_lock); |
|
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|
295 |
GCLocker::stall_until_clear(); |
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|
296 |
gclocker_stalled_count += 1; |
1 | 297 |
continue; |
298 |
} else { |
|
299 |
if (CheckJNICalls) { |
|
300 |
fatal("Possible deadlock due to allocating while" |
|
301 |
" in jni critical section"); |
|
302 |
} |
|
303 |
return NULL; |
|
304 |
} |
|
305 |
} |
|
306 |
} |
|
307 |
||
308 |
if (result == NULL) { |
|
309 |
// Generate a VM operation |
|
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|
310 |
VM_ParallelGCFailedAllocation op(size, gc_count); |
1 | 311 |
VMThread::execute(&op); |
312 |
||
313 |
// Did the VM operation execute? If so, return the result directly. |
|
314 |
// This prevents us from looping until time out on requests that can |
|
315 |
// not be satisfied. |
|
316 |
if (op.prologue_succeeded()) { |
|
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|
317 |
assert(is_in_or_null(op.result()), "result not in heap"); |
1 | 318 |
|
319 |
// If GC was locked out during VM operation then retry allocation |
|
320 |
// and/or stall as necessary. |
|
321 |
if (op.gc_locked()) { |
|
322 |
assert(op.result() == NULL, "must be NULL if gc_locked() is true"); |
|
323 |
continue; // retry and/or stall as necessary |
|
324 |
} |
|
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|
325 |
|
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|
326 |
// Exit the loop if the gc time limit has been exceeded. |
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|
327 |
// The allocation must have failed above ("result" guarding |
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|
328 |
// this path is NULL) and the most recent collection has exceeded the |
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|
329 |
// gc overhead limit (although enough may have been collected to |
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|
330 |
// satisfy the allocation). Exit the loop so that an out-of-memory |
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|
331 |
// will be thrown (return a NULL ignoring the contents of |
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|
332 |
// op.result()), |
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|
333 |
// but clear gc_overhead_limit_exceeded so that the next collection |
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|
334 |
// starts with a clean slate (i.e., forgets about previous overhead |
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|
335 |
// excesses). Fill op.result() with a filler object so that the |
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|
336 |
// heap remains parsable. |
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|
337 |
const bool limit_exceeded = size_policy()->gc_overhead_limit_exceeded(); |
49047
8f004146e407
8198515: Extract SoftReferencePolicy code out of CollectorPolicy
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|
338 |
const bool softrefs_clear = soft_ref_policy()->all_soft_refs_clear(); |
15959
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|
339 |
|
5343
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|
340 |
if (limit_exceeded && softrefs_clear) { |
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|
341 |
*gc_overhead_limit_was_exceeded = true; |
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|
342 |
size_policy()->set_gc_overhead_limit_exceeded(false); |
35061 | 343 |
log_trace(gc)("ParallelScavengeHeap::mem_allocate: return NULL because gc_overhead_limit_exceeded is set"); |
5343
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|
344 |
if (op.result() != NULL) { |
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|
345 |
CollectedHeap::fill_with_object(op.result(), size); |
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|
346 |
} |
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|
347 |
return NULL; |
1 | 348 |
} |
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|
349 |
|
1 | 350 |
return op.result(); |
351 |
} |
|
352 |
} |
|
353 |
||
354 |
// The policy object will prevent us from looping forever. If the |
|
355 |
// time spent in gc crosses a threshold, we will bail out. |
|
356 |
loop_count++; |
|
357 |
if ((result == NULL) && (QueuedAllocationWarningCount > 0) && |
|
358 |
(loop_count % QueuedAllocationWarningCount == 0)) { |
|
37073
c39d0903390b
8151605: Change warning() to log_warning(gc) in the GC code
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parents:
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diff
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|
359 |
log_warning(gc)("ParallelScavengeHeap::mem_allocate retries %d times", loop_count); |
c39d0903390b
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diff
changeset
|
360 |
log_warning(gc)("\tsize=" SIZE_FORMAT, size); |
1 | 361 |
} |
362 |
} |
|
363 |
||
364 |
return result; |
|
365 |
} |
|
366 |
||
11758
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|
367 |
// A "death march" is a series of ultra-slow allocations in which a full gc is |
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|
368 |
// done before each allocation, and after the full gc the allocation still |
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|
369 |
// cannot be satisfied from the young gen. This routine detects that condition; |
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|
370 |
// it should be called after a full gc has been done and the allocation |
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|
371 |
// attempted from the young gen. The parameter 'addr' should be the result of |
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|
372 |
// that young gen allocation attempt. |
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|
373 |
void |
b1a0089f89d2
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|
374 |
ParallelScavengeHeap::death_march_check(HeapWord* const addr, size_t size) { |
b1a0089f89d2
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|
375 |
if (addr != NULL) { |
b1a0089f89d2
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|
376 |
_death_march_count = 0; // death march has ended |
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|
377 |
} else if (_death_march_count == 0) { |
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|
378 |
if (should_alloc_in_eden(size)) { |
b1a0089f89d2
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|
379 |
_death_march_count = 1; // death march has started |
b1a0089f89d2
6330863: vm/gc/InfiniteList.java fails intermittently due to timeout
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|
380 |
} |
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changeset
|
381 |
} |
b1a0089f89d2
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changeset
|
382 |
} |
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changeset
|
383 |
|
b1a0089f89d2
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changeset
|
384 |
HeapWord* ParallelScavengeHeap::mem_allocate_old_gen(size_t size) { |
35492
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|
385 |
if (!should_alloc_in_eden(size) || GCLocker::is_active_and_needs_gc()) { |
11758
b1a0089f89d2
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|
386 |
// Size is too big for eden, or gc is locked out. |
b1a0089f89d2
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|
387 |
return old_gen()->allocate(size); |
b1a0089f89d2
6330863: vm/gc/InfiniteList.java fails intermittently due to timeout
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|
388 |
} |
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changeset
|
389 |
|
b1a0089f89d2
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changeset
|
390 |
// If a "death march" is in progress, allocate from the old gen a limited |
b1a0089f89d2
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|
391 |
// number of times before doing a GC. |
b1a0089f89d2
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|
392 |
if (_death_march_count > 0) { |
b1a0089f89d2
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|
393 |
if (_death_march_count < 64) { |
b1a0089f89d2
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|
394 |
++_death_march_count; |
b1a0089f89d2
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|
395 |
return old_gen()->allocate(size); |
b1a0089f89d2
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|
396 |
} else { |
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|
397 |
_death_march_count = 0; |
b1a0089f89d2
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changeset
|
398 |
} |
b1a0089f89d2
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changeset
|
399 |
} |
b1a0089f89d2
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|
400 |
return NULL; |
b1a0089f89d2
6330863: vm/gc/InfiniteList.java fails intermittently due to timeout
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changeset
|
401 |
} |
b1a0089f89d2
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changeset
|
402 |
|
13728
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coleenp
parents:
13195
diff
changeset
|
403 |
void ParallelScavengeHeap::do_full_collection(bool clear_all_soft_refs) { |
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
404 |
if (UseParallelOldGC) { |
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
405 |
// The do_full_collection() parameter clear_all_soft_refs |
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
406 |
// is interpreted here as maximum_compaction which will |
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
407 |
// cause SoftRefs to be cleared. |
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
408 |
bool maximum_compaction = clear_all_soft_refs; |
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
409 |
PSParallelCompact::invoke(maximum_compaction); |
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
410 |
} else { |
49982 | 411 |
PSMarkSweepProxy::invoke(clear_all_soft_refs); |
13728
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
412 |
} |
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
413 |
} |
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
414 |
|
1 | 415 |
// Failed allocation policy. Must be called from the VM thread, and |
416 |
// only at a safepoint! Note that this method has policy for allocation |
|
417 |
// flow, and NOT collection policy. So we do not check for gc collection |
|
418 |
// time over limit here, that is the responsibility of the heap specific |
|
419 |
// collection methods. This method decides where to attempt allocations, |
|
420 |
// and when to attempt collections, but no collection specific policy. |
|
9997
b75b7939f448
6994322: Remove the is_tlab and is_noref / is_large_noref parameters from the CollectedHeap
tonyp
parents:
9995
diff
changeset
|
421 |
HeapWord* ParallelScavengeHeap::failed_mem_allocate(size_t size) { |
1 | 422 |
assert(SafepointSynchronize::is_at_safepoint(), "should be at safepoint"); |
423 |
assert(Thread::current() == (Thread*)VMThread::vm_thread(), "should be in vm thread"); |
|
30173
13cf7580b000
8077413: Avoid use of Universe::heap() inside collectors
pliden
parents:
30152
diff
changeset
|
424 |
assert(!is_gc_active(), "not reentrant"); |
1 | 425 |
assert(!Heap_lock->owned_by_self(), "this thread should not own the Heap_lock"); |
426 |
||
11758
b1a0089f89d2
6330863: vm/gc/InfiniteList.java fails intermittently due to timeout
jcoomes
parents:
10997
diff
changeset
|
427 |
// We assume that allocation in eden will fail unless we collect. |
1 | 428 |
|
429 |
// First level allocation failure, scavenge and allocate in young gen. |
|
430 |
GCCauseSetter gccs(this, GCCause::_allocation_failure); |
|
11758
b1a0089f89d2
6330863: vm/gc/InfiniteList.java fails intermittently due to timeout
jcoomes
parents:
10997
diff
changeset
|
431 |
const bool invoked_full_gc = PSScavenge::invoke(); |
9997
b75b7939f448
6994322: Remove the is_tlab and is_noref / is_large_noref parameters from the CollectedHeap
tonyp
parents:
9995
diff
changeset
|
432 |
HeapWord* result = young_gen()->allocate(size); |
1 | 433 |
|
434 |
// Second level allocation failure. |
|
435 |
// Mark sweep and allocate in young generation. |
|
11758
b1a0089f89d2
6330863: vm/gc/InfiniteList.java fails intermittently due to timeout
jcoomes
parents:
10997
diff
changeset
|
436 |
if (result == NULL && !invoked_full_gc) { |
13728
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
437 |
do_full_collection(false); |
11758
b1a0089f89d2
6330863: vm/gc/InfiniteList.java fails intermittently due to timeout
jcoomes
parents:
10997
diff
changeset
|
438 |
result = young_gen()->allocate(size); |
1 | 439 |
} |
440 |
||
11758
b1a0089f89d2
6330863: vm/gc/InfiniteList.java fails intermittently due to timeout
jcoomes
parents:
10997
diff
changeset
|
441 |
death_march_check(result, size); |
b1a0089f89d2
6330863: vm/gc/InfiniteList.java fails intermittently due to timeout
jcoomes
parents:
10997
diff
changeset
|
442 |
|
1 | 443 |
// Third level allocation failure. |
444 |
// After mark sweep and young generation allocation failure, |
|
445 |
// allocate in old generation. |
|
9997
b75b7939f448
6994322: Remove the is_tlab and is_noref / is_large_noref parameters from the CollectedHeap
tonyp
parents:
9995
diff
changeset
|
446 |
if (result == NULL) { |
b75b7939f448
6994322: Remove the is_tlab and is_noref / is_large_noref parameters from the CollectedHeap
tonyp
parents:
9995
diff
changeset
|
447 |
result = old_gen()->allocate(size); |
1 | 448 |
} |
449 |
||
450 |
// Fourth level allocation failure. We're running out of memory. |
|
451 |
// More complete mark sweep and allocate in young generation. |
|
452 |
if (result == NULL) { |
|
13728
882756847a04
6964458: Reimplement class meta-data storage to use native memory
coleenp
parents:
13195
diff
changeset
|
453 |
do_full_collection(true); |
9997
b75b7939f448
6994322: Remove the is_tlab and is_noref / is_large_noref parameters from the CollectedHeap
tonyp
parents:
9995
diff
changeset
|
454 |
result = young_gen()->allocate(size); |
1 | 455 |
} |
456 |
||
457 |
// Fifth level allocation failure. |
|
458 |
// After more complete mark sweep, allocate in old generation. |
|
9997
b75b7939f448
6994322: Remove the is_tlab and is_noref / is_large_noref parameters from the CollectedHeap
tonyp
parents:
9995
diff
changeset
|
459 |
if (result == NULL) { |
b75b7939f448
6994322: Remove the is_tlab and is_noref / is_large_noref parameters from the CollectedHeap
tonyp
parents:
9995
diff
changeset
|
460 |
result = old_gen()->allocate(size); |
1 | 461 |
} |
462 |
||
463 |
return result; |
|
464 |
} |
|
465 |
||
466 |
void ParallelScavengeHeap::ensure_parsability(bool retire_tlabs) { |
|
467 |
CollectedHeap::ensure_parsability(retire_tlabs); |
|
468 |
young_gen()->eden_space()->ensure_parsability(); |
|
469 |
} |
|
470 |
||
471 |
size_t ParallelScavengeHeap::tlab_capacity(Thread* thr) const { |
|
472 |
return young_gen()->eden_space()->tlab_capacity(thr); |
|
473 |
} |
|
474 |
||
22552 | 475 |
size_t ParallelScavengeHeap::tlab_used(Thread* thr) const { |
476 |
return young_gen()->eden_space()->tlab_used(thr); |
|
477 |
} |
|
478 |
||
1 | 479 |
size_t ParallelScavengeHeap::unsafe_max_tlab_alloc(Thread* thr) const { |
480 |
return young_gen()->eden_space()->unsafe_max_tlab_alloc(thr); |
|
481 |
} |
|
482 |
||
49945 | 483 |
HeapWord* ParallelScavengeHeap::allocate_new_tlab(size_t min_size, size_t requested_size, size_t* actual_size) { |
484 |
HeapWord* result = young_gen()->allocate(requested_size); |
|
485 |
if (result != NULL) { |
|
486 |
*actual_size = requested_size; |
|
487 |
} |
|
488 |
||
489 |
return result; |
|
1 | 490 |
} |
491 |
||
492 |
void ParallelScavengeHeap::resize_all_tlabs() { |
|
493 |
CollectedHeap::resize_all_tlabs(); |
|
494 |
} |
|
495 |
||
496 |
// This method is used by System.gc() and JVMTI. |
|
497 |
void ParallelScavengeHeap::collect(GCCause::Cause cause) { |
|
498 |
assert(!Heap_lock->owned_by_self(), |
|
499 |
"this thread should not own the Heap_lock"); |
|
500 |
||
29078 | 501 |
uint gc_count = 0; |
502 |
uint full_gc_count = 0; |
|
1 | 503 |
{ |
504 |
MutexLocker ml(Heap_lock); |
|
505 |
// This value is guarded by the Heap_lock |
|
30173
13cf7580b000
8077413: Avoid use of Universe::heap() inside collectors
pliden
parents:
30152
diff
changeset
|
506 |
gc_count = total_collections(); |
13cf7580b000
8077413: Avoid use of Universe::heap() inside collectors
pliden
parents:
30152
diff
changeset
|
507 |
full_gc_count = total_full_collections(); |
1 | 508 |
} |
509 |
||
510 |
VM_ParallelGCSystemGC op(gc_count, full_gc_count, cause); |
|
511 |
VMThread::execute(&op); |
|
512 |
} |
|
513 |
||
514 |
void ParallelScavengeHeap::object_iterate(ObjectClosure* cl) { |
|
515 |
young_gen()->object_iterate(cl); |
|
516 |
old_gen()->object_iterate(cl); |
|
517 |
} |
|
518 |
||
519 |
||
520 |
HeapWord* ParallelScavengeHeap::block_start(const void* addr) const { |
|
521 |
if (young_gen()->is_in_reserved(addr)) { |
|
522 |
assert(young_gen()->is_in(addr), |
|
523 |
"addr should be in allocated part of young gen"); |
|
7108 | 524 |
// called from os::print_location by find or VMError |
525 |
if (Debugging || VMError::fatal_error_in_progress()) return NULL; |
|
1 | 526 |
Unimplemented(); |
527 |
} else if (old_gen()->is_in_reserved(addr)) { |
|
528 |
assert(old_gen()->is_in(addr), |
|
529 |
"addr should be in allocated part of old gen"); |
|
530 |
return old_gen()->start_array()->object_start((HeapWord*)addr); |
|
531 |
} |
|
532 |
return 0; |
|
533 |
} |
|
534 |
||
535 |
bool ParallelScavengeHeap::block_is_obj(const HeapWord* addr) const { |
|
536 |
return block_start(addr) == addr; |
|
537 |
} |
|
538 |
||
539 |
jlong ParallelScavengeHeap::millis_since_last_gc() { |
|
540 |
return UseParallelOldGC ? |
|
541 |
PSParallelCompact::millis_since_last_gc() : |
|
49982 | 542 |
PSMarkSweepProxy::millis_since_last_gc(); |
1 | 543 |
} |
544 |
||
545 |
void ParallelScavengeHeap::prepare_for_verify() { |
|
546 |
ensure_parsability(false); // no need to retire TLABs for verification |
|
547 |
} |
|
548 |
||
18025 | 549 |
PSHeapSummary ParallelScavengeHeap::create_ps_heap_summary() { |
550 |
PSOldGen* old = old_gen(); |
|
551 |
HeapWord* old_committed_end = (HeapWord*)old->virtual_space()->committed_high_addr(); |
|
552 |
VirtualSpaceSummary old_summary(old->reserved().start(), old_committed_end, old->reserved().end()); |
|
553 |
SpaceSummary old_space(old->reserved().start(), old_committed_end, old->used_in_bytes()); |
|
554 |
||
555 |
PSYoungGen* young = young_gen(); |
|
556 |
VirtualSpaceSummary young_summary(young->reserved().start(), |
|
557 |
(HeapWord*)young->virtual_space()->committed_high_addr(), young->reserved().end()); |
|
558 |
||
559 |
MutableSpace* eden = young_gen()->eden_space(); |
|
560 |
SpaceSummary eden_space(eden->bottom(), eden->end(), eden->used_in_bytes()); |
|
561 |
||
562 |
MutableSpace* from = young_gen()->from_space(); |
|
563 |
SpaceSummary from_space(from->bottom(), from->end(), from->used_in_bytes()); |
|
564 |
||
565 |
MutableSpace* to = young_gen()->to_space(); |
|
566 |
SpaceSummary to_space(to->bottom(), to->end(), to->used_in_bytes()); |
|
567 |
||
568 |
VirtualSpaceSummary heap_summary = create_heap_space_summary(); |
|
569 |
return PSHeapSummary(heap_summary, used(), old_summary, old_space, young_summary, eden_space, from_space, to_space); |
|
570 |
} |
|
571 |
||
1 | 572 |
void ParallelScavengeHeap::print_on(outputStream* st) const { |
573 |
young_gen()->print_on(st); |
|
574 |
old_gen()->print_on(st); |
|
49389
9ef2eee8ca7c
8199430: Rename MetaspaceAux to something more meaningful
stuefe
parents:
49164
diff
changeset
|
575 |
MetaspaceUtils::print_on(st); |
1 | 576 |
} |
577 |
||
16685
41c34debcde0
8011872: Include Bit Map addresses in the hs_err files
stefank
parents:
16604
diff
changeset
|
578 |
void ParallelScavengeHeap::print_on_error(outputStream* st) const { |
41c34debcde0
8011872: Include Bit Map addresses in the hs_err files
stefank
parents:
16604
diff
changeset
|
579 |
this->CollectedHeap::print_on_error(st); |
41c34debcde0
8011872: Include Bit Map addresses in the hs_err files
stefank
parents:
16604
diff
changeset
|
580 |
|
41c34debcde0
8011872: Include Bit Map addresses in the hs_err files
stefank
parents:
16604
diff
changeset
|
581 |
if (UseParallelOldGC) { |
41c34debcde0
8011872: Include Bit Map addresses in the hs_err files
stefank
parents:
16604
diff
changeset
|
582 |
st->cr(); |
41c34debcde0
8011872: Include Bit Map addresses in the hs_err files
stefank
parents:
16604
diff
changeset
|
583 |
PSParallelCompact::print_on_error(st); |
41c34debcde0
8011872: Include Bit Map addresses in the hs_err files
stefank
parents:
16604
diff
changeset
|
584 |
} |
41c34debcde0
8011872: Include Bit Map addresses in the hs_err files
stefank
parents:
16604
diff
changeset
|
585 |
} |
41c34debcde0
8011872: Include Bit Map addresses in the hs_err files
stefank
parents:
16604
diff
changeset
|
586 |
|
1 | 587 |
void ParallelScavengeHeap::gc_threads_do(ThreadClosure* tc) const { |
588 |
PSScavenge::gc_task_manager()->threads_do(tc); |
|
589 |
} |
|
590 |
||
591 |
void ParallelScavengeHeap::print_gc_threads_on(outputStream* st) const { |
|
592 |
PSScavenge::gc_task_manager()->print_threads_on(st); |
|
593 |
} |
|
594 |
||
595 |
void ParallelScavengeHeap::print_tracing_info() const { |
|
46657
cc4ac8d1ef6b
8179268: Factor out AdaptiveSizePolicy from top-level interfaces CollectorPolicy and CollectedHeap
rkennke
parents:
37462
diff
changeset
|
596 |
AdaptiveSizePolicyOutput::print(); |
47546
64ba55ba8516
8184286: print_tracing_info() does not use Unified Logging for output
sjohanss
parents:
47216
diff
changeset
|
597 |
log_debug(gc, heap, exit)("Accumulated young generation GC time %3.7f secs", PSScavenge::accumulated_time()->seconds()); |
64ba55ba8516
8184286: print_tracing_info() does not use Unified Logging for output
sjohanss
parents:
47216
diff
changeset
|
598 |
log_debug(gc, heap, exit)("Accumulated old generation GC time %3.7f secs", |
49982 | 599 |
UseParallelOldGC ? PSParallelCompact::accumulated_time()->seconds() : PSMarkSweepProxy::accumulated_time()->seconds()); |
1 | 600 |
} |
601 |
||
602 |
||
35061 | 603 |
void ParallelScavengeHeap::verify(VerifyOption option /* ignored */) { |
1 | 604 |
// Why do we need the total_collections()-filter below? |
605 |
if (total_collections() > 0) { |
|
35061 | 606 |
log_debug(gc, verify)("Tenured"); |
12379 | 607 |
old_gen()->verify(); |
1 | 608 |
|
35061 | 609 |
log_debug(gc, verify)("Eden"); |
12379 | 610 |
young_gen()->verify(); |
1 | 611 |
} |
612 |
} |
|
613 |
||
28940
c314cf1db3fa
8066566: Refactor ParNewGeneration to contain ParNewTracer
mlarsson
parents:
27687
diff
changeset
|
614 |
void ParallelScavengeHeap::trace_heap(GCWhen::Type when, const GCTracer* gc_tracer) { |
18025 | 615 |
const PSHeapSummary& heap_summary = create_ps_heap_summary(); |
23470
ff2a7ea4225d
8036703: Add trace event with statistics for the metaspace chunk free lists
ehelin
parents:
22552
diff
changeset
|
616 |
gc_tracer->report_gc_heap_summary(when, heap_summary); |
ff2a7ea4225d
8036703: Add trace event with statistics for the metaspace chunk free lists
ehelin
parents:
22552
diff
changeset
|
617 |
|
18025 | 618 |
const MetaspaceSummary& metaspace_summary = create_metaspace_summary(); |
23470
ff2a7ea4225d
8036703: Add trace event with statistics for the metaspace chunk free lists
ehelin
parents:
22552
diff
changeset
|
619 |
gc_tracer->report_metaspace_summary(when, metaspace_summary); |
18025 | 620 |
} |
621 |
||
1 | 622 |
ParallelScavengeHeap* ParallelScavengeHeap::heap() { |
30258
413e15d1b146
8077415: Remove duplicate variables holding the CollectedHeap
pliden
parents:
30177
diff
changeset
|
623 |
CollectedHeap* heap = Universe::heap(); |
413e15d1b146
8077415: Remove duplicate variables holding the CollectedHeap
pliden
parents:
30177
diff
changeset
|
624 |
assert(heap != NULL, "Uninitialized access to ParallelScavengeHeap::heap()"); |
49628
88478047bc8f
8199918: Shorten names of CollectedHeap::Name members
pliden
parents:
49594
diff
changeset
|
625 |
assert(heap->kind() == CollectedHeap::Parallel, "Invalid name"); |
30258
413e15d1b146
8077415: Remove duplicate variables holding the CollectedHeap
pliden
parents:
30177
diff
changeset
|
626 |
return (ParallelScavengeHeap*)heap; |
1 | 627 |
} |
628 |
||
49455
848864ed9b17
8199604: Rename CardTableModRefBS to CardTableBarrierSet
eosterlund
parents:
49389
diff
changeset
|
629 |
CardTableBarrierSet* ParallelScavengeHeap::barrier_set() { |
49754 | 630 |
return barrier_set_cast<CardTableBarrierSet>(BarrierSet::barrier_set()); |
49164
7e958a8ebcd3
8195142: Refactor out card table from CardTableModRefBS to flatten the BarrierSet hierarchy
eosterlund
parents:
49047
diff
changeset
|
631 |
} |
7e958a8ebcd3
8195142: Refactor out card table from CardTableModRefBS to flatten the BarrierSet hierarchy
eosterlund
parents:
49047
diff
changeset
|
632 |
|
7e958a8ebcd3
8195142: Refactor out card table from CardTableModRefBS to flatten the BarrierSet hierarchy
eosterlund
parents:
49047
diff
changeset
|
633 |
PSCardTable* ParallelScavengeHeap::card_table() { |
7e958a8ebcd3
8195142: Refactor out card table from CardTableModRefBS to flatten the BarrierSet hierarchy
eosterlund
parents:
49047
diff
changeset
|
634 |
return static_cast<PSCardTable*>(barrier_set()->card_table()); |
7e958a8ebcd3
8195142: Refactor out card table from CardTableModRefBS to flatten the BarrierSet hierarchy
eosterlund
parents:
49047
diff
changeset
|
635 |
} |
7e958a8ebcd3
8195142: Refactor out card table from CardTableModRefBS to flatten the BarrierSet hierarchy
eosterlund
parents:
49047
diff
changeset
|
636 |
|
1 | 637 |
// Before delegating the resize to the young generation, |
638 |
// the reserved space for the young and old generations |
|
22551 | 639 |
// may be changed to accommodate the desired resize. |
1 | 640 |
void ParallelScavengeHeap::resize_young_gen(size_t eden_size, |
641 |
size_t survivor_size) { |
|
642 |
if (UseAdaptiveGCBoundary) { |
|
643 |
if (size_policy()->bytes_absorbed_from_eden() != 0) { |
|
644 |
size_policy()->reset_bytes_absorbed_from_eden(); |
|
645 |
return; // The generation changed size already. |
|
646 |
} |
|
647 |
gens()->adjust_boundary_for_young_gen_needs(eden_size, survivor_size); |
|
648 |
} |
|
649 |
||
650 |
// Delegate the resize to the generation. |
|
651 |
_young_gen->resize(eden_size, survivor_size); |
|
652 |
} |
|
653 |
||
654 |
// Before delegating the resize to the old generation, |
|
655 |
// the reserved space for the young and old generations |
|
22551 | 656 |
// may be changed to accommodate the desired resize. |
1 | 657 |
void ParallelScavengeHeap::resize_old_gen(size_t desired_free_space) { |
658 |
if (UseAdaptiveGCBoundary) { |
|
659 |
if (size_policy()->bytes_absorbed_from_eden() != 0) { |
|
660 |
size_policy()->reset_bytes_absorbed_from_eden(); |
|
661 |
return; // The generation changed size already. |
|
662 |
} |
|
663 |
gens()->adjust_boundary_for_old_gen_needs(desired_free_space); |
|
664 |
} |
|
665 |
||
666 |
// Delegate the resize to the generation. |
|
667 |
_old_gen->resize(desired_free_space); |
|
668 |
} |
|
971
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
669 |
|
3908
24b55ad4c228
6863023: need non-perm oops in code cache for JSR 292
jrose
parents:
3262
diff
changeset
|
670 |
ParallelScavengeHeap::ParStrongRootsScope::ParStrongRootsScope() { |
24b55ad4c228
6863023: need non-perm oops in code cache for JSR 292
jrose
parents:
3262
diff
changeset
|
671 |
// nothing particular |
24b55ad4c228
6863023: need non-perm oops in code cache for JSR 292
jrose
parents:
3262
diff
changeset
|
672 |
} |
24b55ad4c228
6863023: need non-perm oops in code cache for JSR 292
jrose
parents:
3262
diff
changeset
|
673 |
|
24b55ad4c228
6863023: need non-perm oops in code cache for JSR 292
jrose
parents:
3262
diff
changeset
|
674 |
ParallelScavengeHeap::ParStrongRootsScope::~ParStrongRootsScope() { |
24b55ad4c228
6863023: need non-perm oops in code cache for JSR 292
jrose
parents:
3262
diff
changeset
|
675 |
// nothing particular |
24b55ad4c228
6863023: need non-perm oops in code cache for JSR 292
jrose
parents:
3262
diff
changeset
|
676 |
} |
24b55ad4c228
6863023: need non-perm oops in code cache for JSR 292
jrose
parents:
3262
diff
changeset
|
677 |
|
971
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
678 |
#ifndef PRODUCT |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
679 |
void ParallelScavengeHeap::record_gen_tops_before_GC() { |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
680 |
if (ZapUnusedHeapArea) { |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
681 |
young_gen()->record_spaces_top(); |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
682 |
old_gen()->record_spaces_top(); |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
683 |
} |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
684 |
} |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
685 |
|
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
686 |
void ParallelScavengeHeap::gen_mangle_unused_area() { |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
687 |
if (ZapUnusedHeapArea) { |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
688 |
young_gen()->eden_space()->mangle_unused_area(); |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
689 |
young_gen()->to_space()->mangle_unused_area(); |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
690 |
young_gen()->from_space()->mangle_unused_area(); |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
691 |
old_gen()->object_space()->mangle_unused_area(); |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
692 |
} |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
693 |
} |
f0b20be4165d
6672698: mangle_unused_area() should not remangle the entire heap at each collection.
jmasa
parents:
386
diff
changeset
|
694 |
#endif |
47624
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
695 |
|
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
696 |
bool ParallelScavengeHeap::is_scavengable(oop obj) { |
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
697 |
return is_in_young(obj); |
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
698 |
} |
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
699 |
|
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
700 |
void ParallelScavengeHeap::register_nmethod(nmethod* nm) { |
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
701 |
CodeCache::register_scavenge_root_nmethod(nm); |
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
702 |
} |
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
703 |
|
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
704 |
void ParallelScavengeHeap::verify_nmethod(nmethod* nm) { |
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
705 |
CodeCache::verify_scavenge_root_nmethod(nm); |
b055cb5170f5
8185141: Generalize scavengeable nmethod root handling
eosterlund
parents:
47546
diff
changeset
|
706 |
} |
48168
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
707 |
|
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
708 |
GrowableArray<GCMemoryManager*> ParallelScavengeHeap::memory_managers() { |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
709 |
GrowableArray<GCMemoryManager*> memory_managers(2); |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
710 |
memory_managers.append(_young_manager); |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
711 |
memory_managers.append(_old_manager); |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
712 |
return memory_managers; |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
713 |
} |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
714 |
|
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
715 |
GrowableArray<MemoryPool*> ParallelScavengeHeap::memory_pools() { |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
716 |
GrowableArray<MemoryPool*> memory_pools(3); |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
717 |
memory_pools.append(_eden_pool); |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
718 |
memory_pools.append(_survivor_pool); |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
719 |
memory_pools.append(_old_pool); |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
720 |
return memory_pools; |
cb5d2d4453d0
8191564: Refactor GC related servicability code into GC specific subclasses
rkennke
parents:
48117
diff
changeset
|
721 |
} |