Mercurial > hg > graal-compiler
view src/share/vm/gc_implementation/shared/gcAdaptivePolicyCounters.hpp @ 1842:6e0aac35bfa9
6980838: G1: guarantee(false) failed: thread has an unexpected active value in its SATB queue
Summary: Under certain circumstances a safepoint could happen between a JavaThread object being created and that object being added to the Java threads list. This could cause the active field of that thread's SATB queue to get out-of-sync with respect to the other Java threads. The solution is to activate the SATB queue, when necessary, before adding the thread to the Java threads list, not when the JavaThread object is created. The changeset also includes a small fix to rename the surrogate locker thread from "Surrogate Locker Thread (CMS)" to "Surrogate Locker Thread (Concurrent GC)" since it's also used in G1.
Reviewed-by: iveresov, ysr, johnc, jcoomes
| author | tonyp |
|---|---|
| date | Fri, 01 Oct 2010 16:43:05 -0400 |
| parents | c18cbe5936b8 |
| children | f95d63e2154a |
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/* * Copyright (c) 2004, 2005, 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. * */ // This class keeps statistical information and computes the // size of the heap. class GCAdaptivePolicyCounters : public GCPolicyCounters { protected: PerfVariable* _eden_size_counter; PerfVariable* _promo_size_counter; PerfVariable* _young_capacity_counter; PerfVariable* _minor_gc_cost_counter; PerfVariable* _major_gc_cost_counter; PerfVariable* _mutator_cost_counter; PerfVariable* _avg_young_live_counter; PerfVariable* _avg_old_live_counter; PerfVariable* _avg_minor_pause_counter; PerfVariable* _avg_minor_interval_counter; #ifdef NOT_PRODUCT PerfVariable* _minor_pause_counter; #endif PerfVariable* _change_young_gen_for_min_pauses_counter; PerfVariable* _change_young_gen_for_throughput_counter; PerfVariable* _change_old_gen_for_maj_pauses_counter; PerfVariable* _change_old_gen_for_throughput_counter; PerfVariable* _decrease_for_footprint_counter; PerfVariable* _minor_pause_young_slope_counter; PerfVariable* _major_pause_old_slope_counter; PerfVariable* _decide_at_full_gc_counter; PerfVariable* _survived_counter; PerfVariable* _promoted_counter; PerfVariable* _avg_survived_avg_counter; PerfVariable* _avg_survived_dev_counter; PerfVariable* _avg_survived_padded_avg_counter; PerfVariable* _survivor_overflowed_counter; PerfVariable* _increment_tenuring_threshold_for_gc_cost_counter; PerfVariable* _decrement_tenuring_threshold_for_gc_cost_counter; PerfVariable* _decrement_tenuring_threshold_for_survivor_limit_counter; PerfVariable* _minor_collection_slope_counter; PerfVariable* _major_collection_slope_counter; AdaptiveSizePolicy* _size_policy; inline void update_eden_size() { size_t eden_size_in_bytes = size_policy()->calculated_eden_size_in_bytes(); _eden_size_counter->set_value(eden_size_in_bytes); } inline void update_promo_size() { _promo_size_counter->set_value( size_policy()->calculated_promo_size_in_bytes()); } inline void update_avg_minor_pause_counter() { _avg_minor_pause_counter->set_value((jlong) (size_policy()->avg_minor_pause()->average() * 1000.0)); } inline void update_avg_minor_interval_counter() { _avg_minor_interval_counter->set_value((jlong) (size_policy()->avg_minor_interval()->average() * 1000.0)); } #ifdef NOT_PRODUCT inline void update_minor_pause_counter() { _minor_pause_counter->set_value((jlong) (size_policy()->avg_minor_pause()->last_sample() * 1000.0)); } #endif inline void update_minor_gc_cost_counter() { _minor_gc_cost_counter->set_value((jlong) (size_policy()->minor_gc_cost() * 100.0)); } inline void update_avg_young_live_counter() { _avg_young_live_counter->set_value( (jlong)(size_policy()->avg_young_live()->average()) ); } inline void update_avg_survived_avg_counters() { _avg_survived_avg_counter->set_value( (jlong)(size_policy()->_avg_survived->average()) ); } inline void update_avg_survived_dev_counters() { _avg_survived_dev_counter->set_value( (jlong)(size_policy()->_avg_survived->deviation()) ); } inline void update_avg_survived_padded_avg_counters() { _avg_survived_padded_avg_counter->set_value( (jlong)(size_policy()->_avg_survived->padded_average()) ); } inline void update_change_old_gen_for_throughput() { _change_old_gen_for_throughput_counter->set_value( size_policy()->change_old_gen_for_throughput()); } inline void update_change_young_gen_for_throughput() { _change_young_gen_for_throughput_counter->set_value( size_policy()->change_young_gen_for_throughput()); } inline void update_decrease_for_footprint() { _decrease_for_footprint_counter->set_value( size_policy()->decrease_for_footprint()); } inline void update_decide_at_full_gc_counter() { _decide_at_full_gc_counter->set_value( size_policy()->decide_at_full_gc()); } inline void update_minor_pause_young_slope_counter() { _minor_pause_young_slope_counter->set_value( (jlong)(size_policy()->minor_pause_young_slope() * 1000) ); } virtual void update_counters_from_policy(); protected: virtual AdaptiveSizePolicy* size_policy() { return _size_policy; } public: GCAdaptivePolicyCounters(const char* name, int collectors, int generations, AdaptiveSizePolicy* size_policy); inline void update_survived(size_t survived) { _survived_counter->set_value(survived); } inline void update_promoted(size_t promoted) { _promoted_counter->set_value(promoted); } inline void update_young_capacity(size_t size_in_bytes) { _young_capacity_counter->set_value(size_in_bytes); } virtual void update_counters(); inline void update_survivor_size_counters() { desired_survivor_size()->set_value( size_policy()->calculated_survivor_size_in_bytes()); } inline void update_survivor_overflowed(bool survivor_overflowed) { _survivor_overflowed_counter->set_value(survivor_overflowed); } inline void update_tenuring_threshold(int threshold) { tenuring_threshold()->set_value(threshold); } inline void update_increment_tenuring_threshold_for_gc_cost() { _increment_tenuring_threshold_for_gc_cost_counter->set_value( size_policy()->increment_tenuring_threshold_for_gc_cost()); } inline void update_decrement_tenuring_threshold_for_gc_cost() { _decrement_tenuring_threshold_for_gc_cost_counter->set_value( size_policy()->decrement_tenuring_threshold_for_gc_cost()); } inline void update_decrement_tenuring_threshold_for_survivor_limit() { _decrement_tenuring_threshold_for_survivor_limit_counter->set_value( size_policy()->decrement_tenuring_threshold_for_survivor_limit()); } inline void update_change_young_gen_for_min_pauses() { _change_young_gen_for_min_pauses_counter->set_value( size_policy()->change_young_gen_for_min_pauses()); } inline void update_change_old_gen_for_maj_pauses() { _change_old_gen_for_maj_pauses_counter->set_value( size_policy()->change_old_gen_for_maj_pauses()); } inline void update_minor_collection_slope_counter() { _minor_collection_slope_counter->set_value( (jlong)(size_policy()->minor_collection_slope() * 1000) ); } inline void update_major_collection_slope_counter() { _major_collection_slope_counter->set_value( (jlong)(size_policy()->major_collection_slope() * 1000) ); } void set_size_policy(AdaptiveSizePolicy* v) { _size_policy = v; } virtual GCPolicyCounters::Name kind() const { return GCPolicyCounters::GCAdaptivePolicyCountersKind; } };