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src/share/vm/gc_implementation/g1/g1RemSetSummary.cpp@73d689add964 (annotated)

src/share/vm/gc_implementation/g1/g1RemSetSummary.cpp

Thu, 27 Dec 2018 11:43:33 +0800

author

aoqi

date

Thu, 27 Dec 2018 11:43:33 +0800

changeset 9448

73d689add964

parent 9327

f96fcd9e1e1b

parent 8856

ac27a9c85bea

permissions

-rw-r--r--

Merge

aoqi@0	1	/*
shshahma@8625	2	* Copyright (c) 2013, 2016, Oracle and/or its affiliates. All rights reserved.
aoqi@0	3	* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
aoqi@0	4	*
aoqi@0	5	* This code is free software; you can redistribute it and/or modify it
aoqi@0	6	* under the terms of the GNU General Public License version 2 only, as
aoqi@0	7	* published by the Free Software Foundation.
aoqi@0	8	*
aoqi@0	9	* This code is distributed in the hope that it will be useful, but WITHOUT
aoqi@0	10	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
aoqi@0	11	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
aoqi@0	12	* version 2 for more details (a copy is included in the LICENSE file that
aoqi@0	13	* accompanied this code).
aoqi@0	14	*
aoqi@0	15	* You should have received a copy of the GNU General Public License version
aoqi@0	16	* 2 along with this work; if not, write to the Free Software Foundation,
aoqi@0	17	* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
aoqi@0	18	*
aoqi@0	19	* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
aoqi@0	20	* or visit www.oracle.com if you need additional information or have any
aoqi@0	21	* questions.
aoqi@0	22	*
aoqi@0	23	*/
aoqi@0	24
aoqi@0	25	#include "precompiled.hpp"
aoqi@0	26	#include "gc_implementation/g1/concurrentG1Refine.hpp"
aoqi@0	27	#include "gc_implementation/g1/concurrentG1RefineThread.hpp"
aoqi@0	28	#include "gc_implementation/g1/heapRegion.hpp"
aoqi@0	29	#include "gc_implementation/g1/g1CollectedHeap.inline.hpp"
aoqi@0	30	#include "gc_implementation/g1/g1RemSet.inline.hpp"
aoqi@0	31	#include "gc_implementation/g1/g1RemSetSummary.hpp"
aoqi@0	32	#include "gc_implementation/g1/heapRegionRemSet.hpp"
aoqi@0	33	#include "runtime/thread.inline.hpp"
aoqi@0	34
aoqi@0	35	class GetRSThreadVTimeClosure : public ThreadClosure {
aoqi@0	36	private:
aoqi@0	37	G1RemSetSummary* _summary;
aoqi@0	38	uint _counter;
aoqi@0	39
aoqi@0	40	public:
aoqi@0	41	GetRSThreadVTimeClosure(G1RemSetSummary * summary) : ThreadClosure(), _summary(summary), _counter(0) {
aoqi@0	42	assert(_summary != NULL, "just checking");
aoqi@0	43	}
aoqi@0	44
aoqi@0	45	virtual void do_thread(Thread* t) {
aoqi@0	46	ConcurrentG1RefineThread* crt = (ConcurrentG1RefineThread*) t;
aoqi@0	47	_summary->set_rs_thread_vtime(_counter, crt->vtime_accum());
aoqi@0	48	_counter++;
aoqi@0	49	}
aoqi@0	50	};
aoqi@0	51
aoqi@0	52	void G1RemSetSummary::update() {
aoqi@0	53	_num_refined_cards = remset()->conc_refine_cards();
aoqi@0	54	DirtyCardQueueSet& dcqs = JavaThread::dirty_card_queue_set();
aoqi@0	55	_num_processed_buf_mutator = dcqs.processed_buffers_mut();
aoqi@0	56	_num_processed_buf_rs_threads = dcqs.processed_buffers_rs_thread();
aoqi@0	57
aoqi@0	58	_num_coarsenings = HeapRegionRemSet::n_coarsenings();
aoqi@0	59
aoqi@0	60	ConcurrentG1Refine * cg1r = G1CollectedHeap::heap()->concurrent_g1_refine();
aoqi@0	61	if (_rs_threads_vtimes != NULL) {
aoqi@0	62	GetRSThreadVTimeClosure p(this);
aoqi@0	63	cg1r->worker_threads_do(&p);
aoqi@0	64	}
aoqi@0	65	set_sampling_thread_vtime(cg1r->sampling_thread()->vtime_accum());
aoqi@0	66	}
aoqi@0	67
aoqi@0	68	void G1RemSetSummary::set_rs_thread_vtime(uint thread, double value) {
aoqi@0	69	assert(_rs_threads_vtimes != NULL, "just checking");
aoqi@0	70	assert(thread < _num_vtimes, "just checking");
aoqi@0	71	_rs_threads_vtimes[thread] = value;
aoqi@0	72	}
aoqi@0	73
aoqi@0	74	double G1RemSetSummary::rs_thread_vtime(uint thread) const {
aoqi@0	75	assert(_rs_threads_vtimes != NULL, "just checking");
aoqi@0	76	assert(thread < _num_vtimes, "just checking");
aoqi@0	77	return _rs_threads_vtimes[thread];
aoqi@0	78	}
aoqi@0	79
aoqi@0	80	void G1RemSetSummary::initialize(G1RemSet* remset) {
aoqi@0	81	assert(_rs_threads_vtimes == NULL, "just checking");
aoqi@0	82	assert(remset != NULL, "just checking");
aoqi@0	83
aoqi@0	84	_remset = remset;
aoqi@0	85	_num_vtimes = ConcurrentG1Refine::thread_num();
aoqi@0	86	_rs_threads_vtimes = NEW_C_HEAP_ARRAY(double, _num_vtimes, mtGC);
aoqi@0	87	memset(_rs_threads_vtimes, 0, sizeof(double) * _num_vtimes);
aoqi@0	88
aoqi@0	89	update();
aoqi@0	90	}
aoqi@0	91
aoqi@0	92	void G1RemSetSummary::set(G1RemSetSummary* other) {
aoqi@0	93	assert(other != NULL, "just checking");
aoqi@0	94	assert(remset() == other->remset(), "just checking");
aoqi@0	95	assert(_num_vtimes == other->_num_vtimes, "just checking");
aoqi@0	96
aoqi@0	97	_num_refined_cards = other->num_concurrent_refined_cards();
aoqi@0	98
aoqi@0	99	_num_processed_buf_mutator = other->num_processed_buf_mutator();
aoqi@0	100	_num_processed_buf_rs_threads = other->num_processed_buf_rs_threads();
aoqi@0	101
aoqi@0	102	_num_coarsenings = other->_num_coarsenings;
aoqi@0	103
aoqi@0	104	memcpy(_rs_threads_vtimes, other->_rs_threads_vtimes, sizeof(double) * _num_vtimes);
aoqi@0	105
aoqi@0	106	set_sampling_thread_vtime(other->sampling_thread_vtime());
aoqi@0	107	}
aoqi@0	108
aoqi@0	109	void G1RemSetSummary::subtract_from(G1RemSetSummary* other) {
aoqi@0	110	assert(other != NULL, "just checking");
aoqi@0	111	assert(remset() == other->remset(), "just checking");
aoqi@0	112	assert(_num_vtimes == other->_num_vtimes, "just checking");
aoqi@0	113
aoqi@0	114	_num_refined_cards = other->num_concurrent_refined_cards() - _num_refined_cards;
aoqi@0	115
aoqi@0	116	_num_processed_buf_mutator = other->num_processed_buf_mutator() - _num_processed_buf_mutator;
aoqi@0	117	_num_processed_buf_rs_threads = other->num_processed_buf_rs_threads() - _num_processed_buf_rs_threads;
aoqi@0	118
aoqi@0	119	_num_coarsenings = other->num_coarsenings() - _num_coarsenings;
aoqi@0	120
aoqi@0	121	for (uint i = 0; i < _num_vtimes; i++) {
aoqi@0	122	set_rs_thread_vtime(i, other->rs_thread_vtime(i) - rs_thread_vtime(i));
aoqi@0	123	}
aoqi@0	124
aoqi@0	125	_sampling_thread_vtime = other->sampling_thread_vtime() - _sampling_thread_vtime;
aoqi@0	126	}
aoqi@0	127
aoqi@0	128	static double percent_of(size_t numerator, size_t denominator) {
aoqi@0	129	if (denominator != 0) {
aoqi@0	130	return (double)numerator / denominator * 100.0f;
aoqi@0	131	} else {
aoqi@0	132	return 0.0f;
aoqi@0	133	}
aoqi@0	134	}
aoqi@0	135
aoqi@0	136	class RegionTypeCounter VALUE_OBJ_CLASS_SPEC {
aoqi@0	137	private:
aoqi@0	138	const char* _name;
aoqi@0	139
aoqi@0	140	size_t _rs_mem_size;
aoqi@0	141	size_t _cards_occupied;
aoqi@0	142	size_t _amount;
aoqi@0	143
aoqi@0	144	size_t _code_root_mem_size;
aoqi@0	145	size_t _code_root_elems;
aoqi@0	146
aoqi@0	147	double rs_mem_size_percent_of(size_t total) {
aoqi@0	148	return percent_of(_rs_mem_size, total);
aoqi@0	149	}
aoqi@0	150
aoqi@0	151	double cards_occupied_percent_of(size_t total) {
aoqi@0	152	return percent_of(_cards_occupied, total);
aoqi@0	153	}
aoqi@0	154
aoqi@0	155	double code_root_mem_size_percent_of(size_t total) {
aoqi@0	156	return percent_of(_code_root_mem_size, total);
aoqi@0	157	}
aoqi@0	158
aoqi@0	159	double code_root_elems_percent_of(size_t total) {
aoqi@0	160	return percent_of(_code_root_elems, total);
aoqi@0	161	}
aoqi@0	162
aoqi@0	163	size_t amount() const { return _amount; }
aoqi@0	164
aoqi@0	165	public:
aoqi@0	166
aoqi@0	167	RegionTypeCounter(const char* name) : _name(name), _rs_mem_size(0), _cards_occupied(0),
aoqi@0	168	_amount(0), _code_root_mem_size(0), _code_root_elems(0) { }
aoqi@0	169
aoqi@0	170	void add(size_t rs_mem_size, size_t cards_occupied, size_t code_root_mem_size,
aoqi@0	171	size_t code_root_elems) {
aoqi@0	172	_rs_mem_size += rs_mem_size;
aoqi@0	173	_cards_occupied += cards_occupied;
aoqi@0	174	_code_root_mem_size += code_root_mem_size;
aoqi@0	175	_code_root_elems += code_root_elems;
aoqi@0	176	_amount++;
aoqi@0	177	}
aoqi@0	178
aoqi@0	179	size_t rs_mem_size() const { return _rs_mem_size; }
aoqi@0	180	size_t cards_occupied() const { return _cards_occupied; }
aoqi@0	181
aoqi@0	182	size_t code_root_mem_size() const { return _code_root_mem_size; }
aoqi@0	183	size_t code_root_elems() const { return _code_root_elems; }
aoqi@0	184
aoqi@0	185	void print_rs_mem_info_on(outputStream * out, size_t total) {
kevinw@9327	186	out->print_cr(" " SIZE_FORMAT_W(8) "%s (%5.1f%%) by " SIZE_FORMAT " %s regions",
csahu@8439	187	byte_size_in_proper_unit(rs_mem_size()),
csahu@8439	188	proper_unit_for_byte_size(rs_mem_size()),
csahu@8439	189	rs_mem_size_percent_of(total), amount(), _name);
aoqi@0	190	}
aoqi@0	191
aoqi@0	192	void print_cards_occupied_info_on(outputStream * out, size_t total) {
kevinw@9327	193	out->print_cr(" " SIZE_FORMAT_W(8) " (%5.1f%%) entries by " SIZE_FORMAT " %s regions",
aoqi@0	194	cards_occupied(), cards_occupied_percent_of(total), amount(), _name);
aoqi@0	195	}
aoqi@0	196
aoqi@0	197	void print_code_root_mem_info_on(outputStream * out, size_t total) {
kevinw@9327	198	out->print_cr(" " SIZE_FORMAT_W(8) "%s (%5.1f%%) by " SIZE_FORMAT " %s regions",
csahu@8439	199	byte_size_in_proper_unit(code_root_mem_size()),
csahu@8439	200	proper_unit_for_byte_size(code_root_mem_size()),
csahu@8439	201	code_root_mem_size_percent_of(total), amount(), _name);
aoqi@0	202	}
aoqi@0	203
aoqi@0	204	void print_code_root_elems_info_on(outputStream * out, size_t total) {
kevinw@9327	205	out->print_cr(" " SIZE_FORMAT_W(8) " (%5.1f%%) elements by " SIZE_FORMAT " %s regions",
aoqi@0	206	code_root_elems(), code_root_elems_percent_of(total), amount(), _name);
aoqi@0	207	}
aoqi@0	208	};
aoqi@0	209
aoqi@0	210
aoqi@0	211	class HRRSStatsIter: public HeapRegionClosure {
aoqi@0	212	private:
aoqi@0	213	RegionTypeCounter _young;
aoqi@0	214	RegionTypeCounter _humonguous;
aoqi@0	215	RegionTypeCounter _free;
aoqi@0	216	RegionTypeCounter _old;
aoqi@0	217	RegionTypeCounter _all;
aoqi@0	218
aoqi@0	219	size_t _max_rs_mem_sz;
aoqi@0	220	HeapRegion* _max_rs_mem_sz_region;
aoqi@0	221
aoqi@0	222	size_t total_rs_mem_sz() const { return _all.rs_mem_size(); }
aoqi@0	223	size_t total_cards_occupied() const { return _all.cards_occupied(); }
aoqi@0	224
aoqi@0	225	size_t max_rs_mem_sz() const { return _max_rs_mem_sz; }
aoqi@0	226	HeapRegion* max_rs_mem_sz_region() const { return _max_rs_mem_sz_region; }
aoqi@0	227
aoqi@0	228	size_t _max_code_root_mem_sz;
aoqi@0	229	HeapRegion* _max_code_root_mem_sz_region;
aoqi@0	230
aoqi@0	231	size_t total_code_root_mem_sz() const { return _all.code_root_mem_size(); }
aoqi@0	232	size_t total_code_root_elems() const { return _all.code_root_elems(); }
aoqi@0	233
aoqi@0	234	size_t max_code_root_mem_sz() const { return _max_code_root_mem_sz; }
aoqi@0	235	HeapRegion* max_code_root_mem_sz_region() const { return _max_code_root_mem_sz_region; }
aoqi@0	236
aoqi@0	237	public:
aoqi@0	238	HRRSStatsIter() : _all("All"), _young("Young"), _humonguous("Humonguous"),
aoqi@0	239	_free("Free"), _old("Old"), _max_code_root_mem_sz_region(NULL), _max_rs_mem_sz_region(NULL),
aoqi@0	240	_max_rs_mem_sz(0), _max_code_root_mem_sz(0)
aoqi@0	241	{}
aoqi@0	242
aoqi@0	243	bool doHeapRegion(HeapRegion* r) {
aoqi@0	244	HeapRegionRemSet* hrrs = r->rem_set();
aoqi@0	245
aoqi@0	246	// HeapRegionRemSet::mem_size() includes the
aoqi@0	247	// size of the strong code roots
aoqi@0	248	size_t rs_mem_sz = hrrs->mem_size();
aoqi@0	249	if (rs_mem_sz > _max_rs_mem_sz) {
aoqi@0	250	_max_rs_mem_sz = rs_mem_sz;
aoqi@0	251	_max_rs_mem_sz_region = r;
aoqi@0	252	}
aoqi@0	253	size_t occupied_cards = hrrs->occupied();
aoqi@0	254	size_t code_root_mem_sz = hrrs->strong_code_roots_mem_size();
aoqi@0	255	if (code_root_mem_sz > max_code_root_mem_sz()) {
mgerdin@7208	256	_max_code_root_mem_sz = code_root_mem_sz;
aoqi@0	257	_max_code_root_mem_sz_region = r;
aoqi@0	258	}
aoqi@0	259	size_t code_root_elems = hrrs->strong_code_roots_list_length();
aoqi@0	260
aoqi@0	261	RegionTypeCounter* current = NULL;
brutisso@7195	262	if (r->is_free()) {
brutisso@7195	263	current = &_free;
brutisso@7195	264	} else if (r->is_young()) {
aoqi@0	265	current = &_young;
aoqi@0	266	} else if (r->isHumongous()) {
aoqi@0	267	current = &_humonguous;
brutisso@7195	268	} else if (r->is_old()) {
brutisso@7195	269	current = &_old;
aoqi@0	270	} else {
brutisso@7195	271	ShouldNotReachHere();
aoqi@0	272	}
aoqi@0	273	current->add(rs_mem_sz, occupied_cards, code_root_mem_sz, code_root_elems);
aoqi@0	274	_all.add(rs_mem_sz, occupied_cards, code_root_mem_sz, code_root_elems);
aoqi@0	275
aoqi@0	276	return false;
aoqi@0	277	}
aoqi@0	278
aoqi@0	279	void print_summary_on(outputStream* out) {
aoqi@0	280	RegionTypeCounter* counters[] = { &_young, &_humonguous, &_free, &_old, NULL };
aoqi@0	281
aoqi@0	282	out->print_cr("\n Current rem set statistics");
csahu@8439	283	out->print_cr(" Total per region rem sets sizes = " SIZE_FORMAT "%s."
csahu@8439	284	" Max = " SIZE_FORMAT "%s.",
csahu@8439	285	byte_size_in_proper_unit(total_rs_mem_sz()),
csahu@8439	286	proper_unit_for_byte_size(total_rs_mem_sz()),
csahu@8439	287	byte_size_in_proper_unit(max_rs_mem_sz()),
csahu@8439	288	proper_unit_for_byte_size(max_rs_mem_sz()));
csahu@8439	289
aoqi@0	290	for (RegionTypeCounter** current = &counters[0]; *current != NULL; current++) {
aoqi@0	291	(*current)->print_rs_mem_info_on(out, total_rs_mem_sz());
aoqi@0	292	}
aoqi@0	293
csahu@8439	294	out->print_cr(" Static structures = " SIZE_FORMAT "%s,"
csahu@8439	295	" free_lists = " SIZE_FORMAT "%s.",
csahu@8439	296	byte_size_in_proper_unit(HeapRegionRemSet::static_mem_size()),
csahu@8439	297	proper_unit_for_byte_size(HeapRegionRemSet::static_mem_size()),
csahu@8439	298	byte_size_in_proper_unit(HeapRegionRemSet::fl_mem_size()),
csahu@8439	299	proper_unit_for_byte_size(HeapRegionRemSet::fl_mem_size()));
aoqi@0	300
kevinw@9327	301	out->print_cr(" " SIZE_FORMAT " occupied cards represented.",
aoqi@0	302	total_cards_occupied());
aoqi@0	303	for (RegionTypeCounter** current = &counters[0]; *current != NULL; current++) {
aoqi@0	304	(*current)->print_cards_occupied_info_on(out, total_cards_occupied());
aoqi@0	305	}
aoqi@0	306
aoqi@0	307	// Largest sized rem set region statistics
aoqi@0	308	HeapRegionRemSet* rem_set = max_rs_mem_sz_region()->rem_set();
kevinw@9327	309	out->print_cr(" Region with largest rem set = " HR_FORMAT ", "
kevinw@9327	310	"size = " SIZE_FORMAT "%s, occupied = " SIZE_FORMAT "%s.",
aoqi@0	311	HR_FORMAT_PARAMS(max_rs_mem_sz_region()),
csahu@8439	312	byte_size_in_proper_unit(rem_set->mem_size()),
csahu@8439	313	proper_unit_for_byte_size(rem_set->mem_size()),
csahu@8439	314	byte_size_in_proper_unit(rem_set->occupied()),
csahu@8439	315	proper_unit_for_byte_size(rem_set->occupied()));
aoqi@0	316	// Strong code root statistics
aoqi@0	317	HeapRegionRemSet* max_code_root_rem_set = max_code_root_mem_sz_region()->rem_set();
csahu@8439	318	out->print_cr(" Total heap region code root sets sizes = " SIZE_FORMAT "%s."
csahu@8439	319	" Max = " SIZE_FORMAT "%s.",
csahu@8439	320	byte_size_in_proper_unit(total_code_root_mem_sz()),
csahu@8439	321	proper_unit_for_byte_size(total_code_root_mem_sz()),
csahu@8439	322	byte_size_in_proper_unit(max_code_root_rem_set->strong_code_roots_mem_size()),
csahu@8439	323	proper_unit_for_byte_size(max_code_root_rem_set->strong_code_roots_mem_size()));
csahu@8439	324
aoqi@0	325	for (RegionTypeCounter** current = &counters[0]; *current != NULL; current++) {
aoqi@0	326	(*current)->print_code_root_mem_info_on(out, total_code_root_mem_sz());
aoqi@0	327	}
aoqi@0	328
kevinw@9327	329	out->print_cr(" " SIZE_FORMAT " code roots represented.",
aoqi@0	330	total_code_root_elems());
aoqi@0	331	for (RegionTypeCounter** current = &counters[0]; *current != NULL; current++) {
aoqi@0	332	(*current)->print_code_root_elems_info_on(out, total_code_root_elems());
aoqi@0	333	}
aoqi@0	334
kevinw@9327	335	out->print_cr(" Region with largest amount of code roots = " HR_FORMAT ", "
kevinw@9327	336	"size = " SIZE_FORMAT "%s, num_elems = " SIZE_FORMAT ".",
aoqi@0	337	HR_FORMAT_PARAMS(max_code_root_mem_sz_region()),
csahu@8439	338	byte_size_in_proper_unit(max_code_root_rem_set->strong_code_roots_mem_size()),
csahu@8439	339	proper_unit_for_byte_size(max_code_root_rem_set->strong_code_roots_mem_size()),
csahu@8439	340	max_code_root_rem_set->strong_code_roots_list_length());
csahu@8439	341
aoqi@0	342	}
aoqi@0	343	};
aoqi@0	344
aoqi@0	345	void G1RemSetSummary::print_on(outputStream* out) {
aoqi@0	346	out->print_cr("\n Recent concurrent refinement statistics");
kevinw@9327	347	out->print_cr(" Processed " SIZE_FORMAT " cards",
aoqi@0	348	num_concurrent_refined_cards());
kevinw@9327	349	out->print_cr(" Of " SIZE_FORMAT " completed buffers:", num_processed_buf_total());
kevinw@9327	350	out->print_cr(" " SIZE_FORMAT_W(8) " (%5.1f%%) by concurrent RS threads.",
aoqi@0	351	num_processed_buf_total(),
aoqi@0	352	percent_of(num_processed_buf_rs_threads(), num_processed_buf_total()));
kevinw@9327	353	out->print_cr(" " SIZE_FORMAT_W(8) " (%5.1f%%) by mutator threads.",
aoqi@0	354	num_processed_buf_mutator(),
aoqi@0	355	percent_of(num_processed_buf_mutator(), num_processed_buf_total()));
kevinw@9327	356	out->print_cr(" Did " SIZE_FORMAT " coarsenings.", num_coarsenings());
aoqi@0	357	out->print_cr(" Concurrent RS threads times (s)");
aoqi@0	358	out->print(" ");
aoqi@0	359	for (uint i = 0; i < _num_vtimes; i++) {
aoqi@0	360	out->print(" %5.2f", rs_thread_vtime(i));
aoqi@0	361	}
aoqi@0	362	out->cr();
aoqi@0	363	out->print_cr(" Concurrent sampling threads times (s)");
aoqi@0	364	out->print_cr(" %5.2f", sampling_thread_vtime());
aoqi@0	365
aoqi@0	366	HRRSStatsIter blk;
aoqi@0	367	G1CollectedHeap::heap()->heap_region_iterate(&blk);
aoqi@0	368	blk.print_summary_on(out);
aoqi@0	369	}