Mercurial > hg > graal-compiler
annotate src/share/vm/gc_implementation/g1/g1CollectedHeap.hpp @ 2030:fb712ff22571
7000559: G1: assertion failure !outer || (full_collections_started == _full_collections_completed + 1)
Summary: The concurrent marking thread can complete its operation and increment the full GC counter during a Full GC. This causes the nesting of increments to the start and end of Full GCs that we are expecting to be wrong. the fix is for the marking thread to join the suspendible thread set before incrementing the counter so that it's blocked until the Full GC (or any other safepoint) is finished. The change also includes some minor code cleanup (I renamed a parameter).
Reviewed-by: brutisso, ysr
author | tonyp |
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date | Tue, 14 Dec 2010 16:19:44 -0500 |
parents | 016a3628c885 |
children | b03260081e9b |
rev | line source |
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342 | 1 /* |
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2 * Copyright (c) 2001, 2010, Oracle and/or its affiliates. All rights reserved. |
342 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
342 | 22 * |
23 */ | |
24 | |
1972 | 25 #ifndef SHARE_VM_GC_IMPLEMENTATION_G1_G1COLLECTEDHEAP_HPP |
26 #define SHARE_VM_GC_IMPLEMENTATION_G1_G1COLLECTEDHEAP_HPP | |
27 | |
28 #include "gc_implementation/g1/concurrentMark.hpp" | |
29 #include "gc_implementation/g1/g1RemSet.hpp" | |
30 #include "gc_implementation/g1/heapRegion.hpp" | |
31 #include "gc_implementation/parNew/parGCAllocBuffer.hpp" | |
32 #include "memory/barrierSet.hpp" | |
33 #include "memory/memRegion.hpp" | |
34 #include "memory/sharedHeap.hpp" | |
35 | |
342 | 36 // A "G1CollectedHeap" is an implementation of a java heap for HotSpot. |
37 // It uses the "Garbage First" heap organization and algorithm, which | |
38 // may combine concurrent marking with parallel, incremental compaction of | |
39 // heap subsets that will yield large amounts of garbage. | |
40 | |
41 class HeapRegion; | |
42 class HeapRegionSeq; | |
43 class PermanentGenerationSpec; | |
44 class GenerationSpec; | |
45 class OopsInHeapRegionClosure; | |
46 class G1ScanHeapEvacClosure; | |
47 class ObjectClosure; | |
48 class SpaceClosure; | |
49 class CompactibleSpaceClosure; | |
50 class Space; | |
51 class G1CollectorPolicy; | |
52 class GenRemSet; | |
53 class G1RemSet; | |
54 class HeapRegionRemSetIterator; | |
55 class ConcurrentMark; | |
56 class ConcurrentMarkThread; | |
57 class ConcurrentG1Refine; | |
58 class ConcurrentZFThread; | |
59 | |
1709 | 60 typedef OverflowTaskQueue<StarTask> RefToScanQueue; |
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61 typedef GenericTaskQueueSet<RefToScanQueue> RefToScanQueueSet; |
342 | 62 |
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63 typedef int RegionIdx_t; // needs to hold [ 0..max_regions() ) |
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64 typedef int CardIdx_t; // needs to hold [ 0..CardsPerRegion ) |
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65 |
342 | 66 enum G1GCThreadGroups { |
67 G1CRGroup = 0, | |
68 G1ZFGroup = 1, | |
69 G1CMGroup = 2, | |
70 G1CLGroup = 3 | |
71 }; | |
72 | |
73 enum GCAllocPurpose { | |
74 GCAllocForTenured, | |
75 GCAllocForSurvived, | |
76 GCAllocPurposeCount | |
77 }; | |
78 | |
79 class YoungList : public CHeapObj { | |
80 private: | |
81 G1CollectedHeap* _g1h; | |
82 | |
83 HeapRegion* _head; | |
84 | |
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85 HeapRegion* _survivor_head; |
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86 HeapRegion* _survivor_tail; |
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87 |
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88 HeapRegion* _curr; |
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89 |
342 | 90 size_t _length; |
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91 size_t _survivor_length; |
342 | 92 |
93 size_t _last_sampled_rs_lengths; | |
94 size_t _sampled_rs_lengths; | |
95 | |
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96 void empty_list(HeapRegion* list); |
342 | 97 |
98 public: | |
99 YoungList(G1CollectedHeap* g1h); | |
100 | |
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101 void push_region(HeapRegion* hr); |
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102 void add_survivor_region(HeapRegion* hr); |
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103 |
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104 void empty_list(); |
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105 bool is_empty() { return _length == 0; } |
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106 size_t length() { return _length; } |
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107 size_t survivor_length() { return _survivor_length; } |
342 | 108 |
109 void rs_length_sampling_init(); | |
110 bool rs_length_sampling_more(); | |
111 void rs_length_sampling_next(); | |
112 | |
113 void reset_sampled_info() { | |
114 _last_sampled_rs_lengths = 0; | |
115 } | |
116 size_t sampled_rs_lengths() { return _last_sampled_rs_lengths; } | |
117 | |
118 // for development purposes | |
119 void reset_auxilary_lists(); | |
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120 void clear() { _head = NULL; _length = 0; } |
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121 |
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122 void clear_survivors() { |
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123 _survivor_head = NULL; |
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124 _survivor_tail = NULL; |
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125 _survivor_length = 0; |
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126 } |
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127 |
342 | 128 HeapRegion* first_region() { return _head; } |
129 HeapRegion* first_survivor_region() { return _survivor_head; } | |
545 | 130 HeapRegion* last_survivor_region() { return _survivor_tail; } |
342 | 131 |
132 // debugging | |
133 bool check_list_well_formed(); | |
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134 bool check_list_empty(bool check_sample = true); |
342 | 135 void print(); |
136 }; | |
137 | |
138 class RefineCardTableEntryClosure; | |
139 class G1CollectedHeap : public SharedHeap { | |
140 friend class VM_G1CollectForAllocation; | |
141 friend class VM_GenCollectForPermanentAllocation; | |
142 friend class VM_G1CollectFull; | |
143 friend class VM_G1IncCollectionPause; | |
144 friend class VMStructs; | |
145 | |
146 // Closures used in implementation. | |
147 friend class G1ParCopyHelper; | |
148 friend class G1IsAliveClosure; | |
149 friend class G1EvacuateFollowersClosure; | |
150 friend class G1ParScanThreadState; | |
151 friend class G1ParScanClosureSuper; | |
152 friend class G1ParEvacuateFollowersClosure; | |
153 friend class G1ParTask; | |
154 friend class G1FreeGarbageRegionClosure; | |
155 friend class RefineCardTableEntryClosure; | |
156 friend class G1PrepareCompactClosure; | |
157 friend class RegionSorter; | |
158 friend class CountRCClosure; | |
159 friend class EvacPopObjClosure; | |
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160 friend class G1ParCleanupCTTask; |
342 | 161 |
162 // Other related classes. | |
163 friend class G1MarkSweep; | |
164 | |
165 private: | |
166 // The one and only G1CollectedHeap, so static functions can find it. | |
167 static G1CollectedHeap* _g1h; | |
168 | |
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169 static size_t _humongous_object_threshold_in_words; |
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170 |
342 | 171 // Storage for the G1 heap (excludes the permanent generation). |
172 VirtualSpace _g1_storage; | |
173 MemRegion _g1_reserved; | |
174 | |
175 // The part of _g1_storage that is currently committed. | |
176 MemRegion _g1_committed; | |
177 | |
178 // The maximum part of _g1_storage that has ever been committed. | |
179 MemRegion _g1_max_committed; | |
180 | |
181 // The number of regions that are completely free. | |
182 size_t _free_regions; | |
183 | |
184 // The number of regions we could create by expansion. | |
185 size_t _expansion_regions; | |
186 | |
187 // Return the number of free regions in the heap (by direct counting.) | |
188 size_t count_free_regions(); | |
189 // Return the number of free regions on the free and unclean lists. | |
190 size_t count_free_regions_list(); | |
191 | |
192 // The block offset table for the G1 heap. | |
193 G1BlockOffsetSharedArray* _bot_shared; | |
194 | |
195 // Move all of the regions off the free lists, then rebuild those free | |
196 // lists, before and after full GC. | |
197 void tear_down_region_lists(); | |
198 void rebuild_region_lists(); | |
199 // This sets all non-empty regions to need zero-fill (which they will if | |
200 // they are empty after full collection.) | |
201 void set_used_regions_to_need_zero_fill(); | |
202 | |
203 // The sequence of all heap regions in the heap. | |
204 HeapRegionSeq* _hrs; | |
205 | |
206 // The region from which normal-sized objects are currently being | |
207 // allocated. May be NULL. | |
208 HeapRegion* _cur_alloc_region; | |
209 | |
210 // Postcondition: cur_alloc_region == NULL. | |
211 void abandon_cur_alloc_region(); | |
636 | 212 void abandon_gc_alloc_regions(); |
342 | 213 |
214 // The to-space memory regions into which objects are being copied during | |
215 // a GC. | |
216 HeapRegion* _gc_alloc_regions[GCAllocPurposeCount]; | |
545 | 217 size_t _gc_alloc_region_counts[GCAllocPurposeCount]; |
636 | 218 // These are the regions, one per GCAllocPurpose, that are half-full |
219 // at the end of a collection and that we want to reuse during the | |
220 // next collection. | |
221 HeapRegion* _retained_gc_alloc_regions[GCAllocPurposeCount]; | |
222 // This specifies whether we will keep the last half-full region at | |
223 // the end of a collection so that it can be reused during the next | |
224 // collection (this is specified per GCAllocPurpose) | |
225 bool _retain_gc_alloc_region[GCAllocPurposeCount]; | |
342 | 226 |
227 // A list of the regions that have been set to be alloc regions in the | |
228 // current collection. | |
229 HeapRegion* _gc_alloc_region_list; | |
230 | |
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231 // Determines PLAB size for a particular allocation purpose. |
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232 static size_t desired_plab_sz(GCAllocPurpose purpose); |
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233 |
342 | 234 // When called by par thread, require par_alloc_during_gc_lock() to be held. |
235 void push_gc_alloc_region(HeapRegion* hr); | |
236 | |
237 // This should only be called single-threaded. Undeclares all GC alloc | |
238 // regions. | |
239 void forget_alloc_region_list(); | |
240 | |
241 // Should be used to set an alloc region, because there's other | |
242 // associated bookkeeping. | |
243 void set_gc_alloc_region(int purpose, HeapRegion* r); | |
244 | |
245 // Check well-formedness of alloc region list. | |
246 bool check_gc_alloc_regions(); | |
247 | |
248 // Outside of GC pauses, the number of bytes used in all regions other | |
249 // than the current allocation region. | |
250 size_t _summary_bytes_used; | |
251 | |
526 | 252 // This is used for a quick test on whether a reference points into |
253 // the collection set or not. Basically, we have an array, with one | |
254 // byte per region, and that byte denotes whether the corresponding | |
255 // region is in the collection set or not. The entry corresponding | |
256 // the bottom of the heap, i.e., region 0, is pointed to by | |
257 // _in_cset_fast_test_base. The _in_cset_fast_test field has been | |
258 // biased so that it actually points to address 0 of the address | |
259 // space, to make the test as fast as possible (we can simply shift | |
260 // the address to address into it, instead of having to subtract the | |
261 // bottom of the heap from the address before shifting it; basically | |
262 // it works in the same way the card table works). | |
263 bool* _in_cset_fast_test; | |
264 | |
265 // The allocated array used for the fast test on whether a reference | |
266 // points into the collection set or not. This field is also used to | |
267 // free the array. | |
268 bool* _in_cset_fast_test_base; | |
269 | |
270 // The length of the _in_cset_fast_test_base array. | |
271 size_t _in_cset_fast_test_length; | |
272 | |
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273 volatile unsigned _gc_time_stamp; |
342 | 274 |
275 size_t* _surviving_young_words; | |
276 | |
277 void setup_surviving_young_words(); | |
278 void update_surviving_young_words(size_t* surv_young_words); | |
279 void cleanup_surviving_young_words(); | |
280 | |
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281 // It decides whether an explicit GC should start a concurrent cycle |
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282 // instead of doing a STW GC. Currently, a concurrent cycle is |
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283 // explicitly started if: |
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284 // (a) cause == _gc_locker and +GCLockerInvokesConcurrent, or |
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285 // (b) cause == _java_lang_system_gc and +ExplicitGCInvokesConcurrent. |
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286 bool should_do_concurrent_full_gc(GCCause::Cause cause); |
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287 |
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288 // Keeps track of how many "full collections" (i.e., Full GCs or |
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289 // concurrent cycles) we have completed. The number of them we have |
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290 // started is maintained in _total_full_collections in CollectedHeap. |
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291 volatile unsigned int _full_collections_completed; |
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292 |
1973 | 293 // These are macros so that, if the assert fires, we get the correct |
294 // line number, file, etc. | |
295 | |
296 #define heap_locking_asserts_err_msg(__extra_message) \ | |
297 err_msg("%s : Heap_lock %slocked, %sat a safepoint", \ | |
298 (__extra_message), \ | |
299 (!Heap_lock->owned_by_self()) ? "NOT " : "", \ | |
300 (!SafepointSynchronize::is_at_safepoint()) ? "NOT " : "") | |
301 | |
302 #define assert_heap_locked() \ | |
303 do { \ | |
304 assert(Heap_lock->owned_by_self(), \ | |
305 heap_locking_asserts_err_msg("should be holding the Heap_lock")); \ | |
306 } while (0) | |
307 | |
308 #define assert_heap_locked_or_at_safepoint() \ | |
309 do { \ | |
310 assert(Heap_lock->owned_by_self() || \ | |
311 SafepointSynchronize::is_at_safepoint(), \ | |
312 heap_locking_asserts_err_msg("should be holding the Heap_lock or " \ | |
313 "should be at a safepoint")); \ | |
314 } while (0) | |
315 | |
316 #define assert_heap_locked_and_not_at_safepoint() \ | |
317 do { \ | |
318 assert(Heap_lock->owned_by_self() && \ | |
319 !SafepointSynchronize::is_at_safepoint(), \ | |
320 heap_locking_asserts_err_msg("should be holding the Heap_lock and " \ | |
321 "should not be at a safepoint")); \ | |
322 } while (0) | |
323 | |
324 #define assert_heap_not_locked() \ | |
325 do { \ | |
326 assert(!Heap_lock->owned_by_self(), \ | |
327 heap_locking_asserts_err_msg("should not be holding the Heap_lock")); \ | |
328 } while (0) | |
329 | |
330 #define assert_heap_not_locked_and_not_at_safepoint() \ | |
331 do { \ | |
332 assert(!Heap_lock->owned_by_self() && \ | |
333 !SafepointSynchronize::is_at_safepoint(), \ | |
334 heap_locking_asserts_err_msg("should not be holding the Heap_lock and " \ | |
335 "should not be at a safepoint")); \ | |
336 } while (0) | |
337 | |
338 #define assert_at_safepoint() \ | |
339 do { \ | |
340 assert(SafepointSynchronize::is_at_safepoint(), \ | |
341 heap_locking_asserts_err_msg("should be at a safepoint")); \ | |
342 } while (0) | |
343 | |
344 #define assert_not_at_safepoint() \ | |
345 do { \ | |
346 assert(!SafepointSynchronize::is_at_safepoint(), \ | |
347 heap_locking_asserts_err_msg("should not be at a safepoint")); \ | |
348 } while (0) | |
349 | |
342 | 350 protected: |
351 | |
352 // Returns "true" iff none of the gc alloc regions have any allocations | |
353 // since the last call to "save_marks". | |
354 bool all_alloc_regions_no_allocs_since_save_marks(); | |
545 | 355 // Perform finalization stuff on all allocation regions. |
356 void retire_all_alloc_regions(); | |
342 | 357 |
358 // The number of regions allocated to hold humongous objects. | |
359 int _num_humongous_regions; | |
360 YoungList* _young_list; | |
361 | |
362 // The current policy object for the collector. | |
363 G1CollectorPolicy* _g1_policy; | |
364 | |
365 // Parallel allocation lock to protect the current allocation region. | |
366 Mutex _par_alloc_during_gc_lock; | |
367 Mutex* par_alloc_during_gc_lock() { return &_par_alloc_during_gc_lock; } | |
368 | |
369 // If possible/desirable, allocate a new HeapRegion for normal object | |
370 // allocation sufficient for an allocation of the given "word_size". | |
371 // If "do_expand" is true, will attempt to expand the heap if necessary | |
372 // to to satisfy the request. If "zero_filled" is true, requires a | |
373 // zero-filled region. | |
374 // (Returning NULL will trigger a GC.) | |
375 virtual HeapRegion* newAllocRegion_work(size_t word_size, | |
376 bool do_expand, | |
377 bool zero_filled); | |
378 | |
379 virtual HeapRegion* newAllocRegion(size_t word_size, | |
380 bool zero_filled = true) { | |
381 return newAllocRegion_work(word_size, false, zero_filled); | |
382 } | |
383 virtual HeapRegion* newAllocRegionWithExpansion(int purpose, | |
384 size_t word_size, | |
385 bool zero_filled = true); | |
386 | |
387 // Attempt to allocate an object of the given (very large) "word_size". | |
388 // Returns "NULL" on failure. | |
1973 | 389 virtual HeapWord* humongous_obj_allocate(size_t word_size); |
390 | |
391 // The following two methods, allocate_new_tlab() and | |
392 // mem_allocate(), are the two main entry points from the runtime | |
393 // into the G1's allocation routines. They have the following | |
394 // assumptions: | |
395 // | |
396 // * They should both be called outside safepoints. | |
397 // | |
398 // * They should both be called without holding the Heap_lock. | |
399 // | |
400 // * All allocation requests for new TLABs should go to | |
401 // allocate_new_tlab(). | |
402 // | |
403 // * All non-TLAB allocation requests should go to mem_allocate() | |
404 // and mem_allocate() should never be called with is_tlab == true. | |
405 // | |
406 // * If the GC locker is active we currently stall until we can | |
407 // allocate a new young region. This will be changed in the | |
408 // near future (see CR 6994056). | |
409 // | |
410 // * If either call cannot satisfy the allocation request using the | |
411 // current allocating region, they will try to get a new one. If | |
412 // this fails, they will attempt to do an evacuation pause and | |
413 // retry the allocation. | |
414 // | |
415 // * If all allocation attempts fail, even after trying to schedule | |
416 // an evacuation pause, allocate_new_tlab() will return NULL, | |
417 // whereas mem_allocate() will attempt a heap expansion and/or | |
418 // schedule a Full GC. | |
419 // | |
420 // * We do not allow humongous-sized TLABs. So, allocate_new_tlab | |
421 // should never be called with word_size being humongous. All | |
422 // humongous allocation requests should go to mem_allocate() which | |
423 // will satisfy them with a special path. | |
424 | |
425 virtual HeapWord* allocate_new_tlab(size_t word_size); | |
426 | |
427 virtual HeapWord* mem_allocate(size_t word_size, | |
428 bool is_noref, | |
429 bool is_tlab, /* expected to be false */ | |
430 bool* gc_overhead_limit_was_exceeded); | |
342 | 431 |
1973 | 432 // The following methods, allocate_from_cur_allocation_region(), |
433 // attempt_allocation(), replace_cur_alloc_region_and_allocate(), | |
434 // attempt_allocation_slow(), and attempt_allocation_humongous() | |
435 // have very awkward pre- and post-conditions with respect to | |
436 // locking: | |
437 // | |
438 // If they are called outside a safepoint they assume the caller | |
439 // holds the Heap_lock when it calls them. However, on exit they | |
440 // will release the Heap_lock if they return a non-NULL result, but | |
441 // keep holding the Heap_lock if they return a NULL result. The | |
442 // reason for this is that we need to dirty the cards that span | |
443 // allocated blocks on young regions to avoid having to take the | |
444 // slow path of the write barrier (for performance reasons we don't | |
445 // update RSets for references whose source is a young region, so we | |
446 // don't need to look at dirty cards on young regions). But, doing | |
447 // this card dirtying while holding the Heap_lock can be a | |
448 // scalability bottleneck, especially given that some allocation | |
449 // requests might be of non-trivial size (and the larger the region | |
450 // size is, the fewer allocations requests will be considered | |
451 // humongous, as the humongous size limit is a fraction of the | |
452 // region size). So, when one of these calls succeeds in allocating | |
453 // a block it does the card dirtying after it releases the Heap_lock | |
454 // which is why it will return without holding it. | |
455 // | |
456 // The above assymetry is the reason why locking / unlocking is done | |
457 // explicitly (i.e., with Heap_lock->lock() and | |
458 // Heap_lock->unlocked()) instead of using MutexLocker and | |
459 // MutexUnlocker objects. The latter would ensure that the lock is | |
460 // unlocked / re-locked at every possible exit out of the basic | |
461 // block. However, we only want that action to happen in selected | |
462 // places. | |
463 // | |
464 // Further, if the above methods are called during a safepoint, then | |
465 // naturally there's no assumption about the Heap_lock being held or | |
466 // there's no attempt to unlock it. The parameter at_safepoint | |
467 // indicates whether the call is made during a safepoint or not (as | |
468 // an optimization, to avoid reading the global flag with | |
469 // SafepointSynchronize::is_at_safepoint()). | |
470 // | |
471 // The methods share these parameters: | |
472 // | |
473 // * word_size : the size of the allocation request in words | |
474 // * at_safepoint : whether the call is done at a safepoint; this | |
475 // also determines whether a GC is permitted | |
476 // (at_safepoint == false) or not (at_safepoint == true) | |
477 // * do_dirtying : whether the method should dirty the allocated | |
478 // block before returning | |
479 // | |
480 // They all return either the address of the block, if they | |
481 // successfully manage to allocate it, or NULL. | |
342 | 482 |
1973 | 483 // It tries to satisfy an allocation request out of the current |
484 // allocating region, which is passed as a parameter. It assumes | |
485 // that the caller has checked that the current allocating region is | |
486 // not NULL. Given that the caller has to check the current | |
487 // allocating region for at least NULL, it might as well pass it as | |
488 // the first parameter so that the method doesn't have to read it | |
489 // from the _cur_alloc_region field again. | |
490 inline HeapWord* allocate_from_cur_alloc_region(HeapRegion* cur_alloc_region, | |
491 size_t word_size); | |
492 | |
493 // It attempts to allocate out of the current alloc region. If that | |
494 // fails, it retires the current alloc region (if there is one), | |
495 // tries to get a new one and retries the allocation. | |
496 inline HeapWord* attempt_allocation(size_t word_size); | |
497 | |
498 // It assumes that the current alloc region has been retired and | |
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499 // tries to allocate a new one. If it's successful, it performs the |
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500 // allocation out of the new current alloc region and updates |
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501 // _cur_alloc_region. Normally, it would try to allocate a new |
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502 // region if the young gen is not full, unless can_expand is true in |
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503 // which case it would always try to allocate a new region. |
1973 | 504 HeapWord* replace_cur_alloc_region_and_allocate(size_t word_size, |
505 bool at_safepoint, | |
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506 bool do_dirtying, |
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507 bool can_expand); |
1973 | 508 |
509 // The slow path when we are unable to allocate a new current alloc | |
510 // region to satisfy an allocation request (i.e., when | |
511 // attempt_allocation() fails). It will try to do an evacuation | |
512 // pause, which might stall due to the GC locker, and retry the | |
513 // allocation attempt when appropriate. | |
514 HeapWord* attempt_allocation_slow(size_t word_size); | |
515 | |
516 // The method that tries to satisfy a humongous allocation | |
517 // request. If it cannot satisfy it it will try to do an evacuation | |
518 // pause to perhaps reclaim enough space to be able to satisfy the | |
519 // allocation request afterwards. | |
520 HeapWord* attempt_allocation_humongous(size_t word_size, | |
521 bool at_safepoint); | |
522 | |
523 // It does the common work when we are retiring the current alloc region. | |
524 inline void retire_cur_alloc_region_common(HeapRegion* cur_alloc_region); | |
525 | |
526 // It retires the current alloc region, which is passed as a | |
527 // parameter (since, typically, the caller is already holding on to | |
528 // it). It sets _cur_alloc_region to NULL. | |
529 void retire_cur_alloc_region(HeapRegion* cur_alloc_region); | |
530 | |
531 // It attempts to do an allocation immediately before or after an | |
532 // evacuation pause and can only be called by the VM thread. It has | |
533 // slightly different assumptions that the ones before (i.e., | |
534 // assumes that the current alloc region has been retired). | |
535 HeapWord* attempt_allocation_at_safepoint(size_t word_size, | |
536 bool expect_null_cur_alloc_region); | |
537 | |
538 // It dirties the cards that cover the block so that so that the post | |
539 // write barrier never queues anything when updating objects on this | |
540 // block. It is assumed (and in fact we assert) that the block | |
541 // belongs to a young region. | |
542 inline void dirty_young_block(HeapWord* start, size_t word_size); | |
342 | 543 |
544 // Allocate blocks during garbage collection. Will ensure an | |
545 // allocation region, either by picking one or expanding the | |
546 // heap, and then allocate a block of the given size. The block | |
547 // may not be a humongous - it must fit into a single heap region. | |
548 HeapWord* par_allocate_during_gc(GCAllocPurpose purpose, size_t word_size); | |
549 | |
550 HeapWord* allocate_during_gc_slow(GCAllocPurpose purpose, | |
551 HeapRegion* alloc_region, | |
552 bool par, | |
553 size_t word_size); | |
554 | |
555 // Ensure that no further allocations can happen in "r", bearing in mind | |
556 // that parallel threads might be attempting allocations. | |
557 void par_allocate_remaining_space(HeapRegion* r); | |
558 | |
545 | 559 // Retires an allocation region when it is full or at the end of a |
560 // GC pause. | |
561 void retire_alloc_region(HeapRegion* alloc_region, bool par); | |
562 | |
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563 // - if explicit_gc is true, the GC is for a System.gc() or a heap |
1973 | 564 // inspection request and should collect the entire heap |
565 // - if clear_all_soft_refs is true, all soft references should be | |
566 // cleared during the GC | |
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567 // - if explicit_gc is false, word_size describes the allocation that |
1973 | 568 // the GC should attempt (at least) to satisfy |
569 // - it returns false if it is unable to do the collection due to the | |
570 // GC locker being active, true otherwise | |
571 bool do_collection(bool explicit_gc, | |
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572 bool clear_all_soft_refs, |
342 | 573 size_t word_size); |
574 | |
575 // Callback from VM_G1CollectFull operation. | |
576 // Perform a full collection. | |
577 void do_full_collection(bool clear_all_soft_refs); | |
578 | |
579 // Resize the heap if necessary after a full collection. If this is | |
580 // after a collect-for allocation, "word_size" is the allocation size, | |
581 // and will be considered part of the used portion of the heap. | |
582 void resize_if_necessary_after_full_collection(size_t word_size); | |
583 | |
584 // Callback from VM_G1CollectForAllocation operation. | |
585 // This function does everything necessary/possible to satisfy a | |
586 // failed allocation request (including collection, expansion, etc.) | |
1973 | 587 HeapWord* satisfy_failed_allocation(size_t word_size, bool* succeeded); |
342 | 588 |
589 // Attempting to expand the heap sufficiently | |
590 // to support an allocation of the given "word_size". If | |
591 // successful, perform the allocation and return the address of the | |
592 // allocated block, or else "NULL". | |
1973 | 593 HeapWord* expand_and_allocate(size_t word_size); |
342 | 594 |
595 public: | |
596 // Expand the garbage-first heap by at least the given size (in bytes!). | |
597 // (Rounds up to a HeapRegion boundary.) | |
598 virtual void expand(size_t expand_bytes); | |
599 | |
600 // Do anything common to GC's. | |
601 virtual void gc_prologue(bool full); | |
602 virtual void gc_epilogue(bool full); | |
603 | |
526 | 604 // We register a region with the fast "in collection set" test. We |
605 // simply set to true the array slot corresponding to this region. | |
606 void register_region_with_in_cset_fast_test(HeapRegion* r) { | |
607 assert(_in_cset_fast_test_base != NULL, "sanity"); | |
608 assert(r->in_collection_set(), "invariant"); | |
609 int index = r->hrs_index(); | |
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610 assert(0 <= index && (size_t) index < _in_cset_fast_test_length, "invariant"); |
526 | 611 assert(!_in_cset_fast_test_base[index], "invariant"); |
612 _in_cset_fast_test_base[index] = true; | |
613 } | |
614 | |
615 // This is a fast test on whether a reference points into the | |
616 // collection set or not. It does not assume that the reference | |
617 // points into the heap; if it doesn't, it will return false. | |
618 bool in_cset_fast_test(oop obj) { | |
619 assert(_in_cset_fast_test != NULL, "sanity"); | |
620 if (_g1_committed.contains((HeapWord*) obj)) { | |
621 // no need to subtract the bottom of the heap from obj, | |
622 // _in_cset_fast_test is biased | |
623 size_t index = ((size_t) obj) >> HeapRegion::LogOfHRGrainBytes; | |
624 bool ret = _in_cset_fast_test[index]; | |
625 // let's make sure the result is consistent with what the slower | |
626 // test returns | |
627 assert( ret || !obj_in_cs(obj), "sanity"); | |
628 assert(!ret || obj_in_cs(obj), "sanity"); | |
629 return ret; | |
630 } else { | |
631 return false; | |
632 } | |
633 } | |
634 | |
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635 void clear_cset_fast_test() { |
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636 assert(_in_cset_fast_test_base != NULL, "sanity"); |
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637 memset(_in_cset_fast_test_base, false, |
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638 _in_cset_fast_test_length * sizeof(bool)); |
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639 } |
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640 |
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641 // This is called at the end of either a concurrent cycle or a Full |
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642 // GC to update the number of full collections completed. Those two |
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643 // can happen in a nested fashion, i.e., we start a concurrent |
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644 // cycle, a Full GC happens half-way through it which ends first, |
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645 // and then the cycle notices that a Full GC happened and ends |
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646 // too. The concurrent parameter is a boolean to help us do a bit |
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647 // tighter consistency checking in the method. If concurrent is |
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648 // false, the caller is the inner caller in the nesting (i.e., the |
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649 // Full GC). If concurrent is true, the caller is the outer caller |
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650 // in this nesting (i.e., the concurrent cycle). Further nesting is |
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651 // not currently supported. The end of the this call also notifies |
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652 // the FullGCCount_lock in case a Java thread is waiting for a full |
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653 // GC to happen (e.g., it called System.gc() with |
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654 // +ExplicitGCInvokesConcurrent). |
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655 void increment_full_collections_completed(bool concurrent); |
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656 |
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657 unsigned int full_collections_completed() { |
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658 return _full_collections_completed; |
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659 } |
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660 |
342 | 661 protected: |
662 | |
663 // Shrink the garbage-first heap by at most the given size (in bytes!). | |
664 // (Rounds down to a HeapRegion boundary.) | |
665 virtual void shrink(size_t expand_bytes); | |
666 void shrink_helper(size_t expand_bytes); | |
667 | |
1709 | 668 #if TASKQUEUE_STATS |
669 static void print_taskqueue_stats_hdr(outputStream* const st = gclog_or_tty); | |
670 void print_taskqueue_stats(outputStream* const st = gclog_or_tty) const; | |
671 void reset_taskqueue_stats(); | |
672 #endif // TASKQUEUE_STATS | |
673 | |
1973 | 674 // Schedule the VM operation that will do an evacuation pause to |
675 // satisfy an allocation request of word_size. *succeeded will | |
676 // return whether the VM operation was successful (it did do an | |
677 // evacuation pause) or not (another thread beat us to it or the GC | |
678 // locker was active). Given that we should not be holding the | |
679 // Heap_lock when we enter this method, we will pass the | |
680 // gc_count_before (i.e., total_collections()) as a parameter since | |
681 // it has to be read while holding the Heap_lock. Currently, both | |
682 // methods that call do_collection_pause() release the Heap_lock | |
683 // before the call, so it's easy to read gc_count_before just before. | |
684 HeapWord* do_collection_pause(size_t word_size, | |
685 unsigned int gc_count_before, | |
686 bool* succeeded); | |
342 | 687 |
688 // The guts of the incremental collection pause, executed by the vm | |
1973 | 689 // thread. It returns false if it is unable to do the collection due |
690 // to the GC locker being active, true otherwise | |
691 bool do_collection_pause_at_safepoint(double target_pause_time_ms); | |
342 | 692 |
693 // Actually do the work of evacuating the collection set. | |
1973 | 694 void evacuate_collection_set(); |
342 | 695 |
696 // The g1 remembered set of the heap. | |
697 G1RemSet* _g1_rem_set; | |
698 // And it's mod ref barrier set, used to track updates for the above. | |
699 ModRefBarrierSet* _mr_bs; | |
700 | |
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701 // A set of cards that cover the objects for which the Rsets should be updated |
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702 // concurrently after the collection. |
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703 DirtyCardQueueSet _dirty_card_queue_set; |
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704 |
342 | 705 // The Heap Region Rem Set Iterator. |
706 HeapRegionRemSetIterator** _rem_set_iterator; | |
707 | |
708 // The closure used to refine a single card. | |
709 RefineCardTableEntryClosure* _refine_cte_cl; | |
710 | |
711 // A function to check the consistency of dirty card logs. | |
712 void check_ct_logs_at_safepoint(); | |
713 | |
1705 | 714 // A DirtyCardQueueSet that is used to hold cards that contain |
715 // references into the current collection set. This is used to | |
716 // update the remembered sets of the regions in the collection | |
717 // set in the event of an evacuation failure. | |
718 DirtyCardQueueSet _into_cset_dirty_card_queue_set; | |
719 | |
342 | 720 // After a collection pause, make the regions in the CS into free |
721 // regions. | |
722 void free_collection_set(HeapRegion* cs_head); | |
723 | |
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724 // Abandon the current collection set without recording policy |
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725 // statistics or updating free lists. |
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726 void abandon_collection_set(HeapRegion* cs_head); |
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342 | 728 // Applies "scan_non_heap_roots" to roots outside the heap, |
729 // "scan_rs" to roots inside the heap (having done "set_region" to | |
730 // indicate the region in which the root resides), and does "scan_perm" | |
731 // (setting the generation to the perm generation.) If "scan_rs" is | |
732 // NULL, then this step is skipped. The "worker_i" | |
733 // param is for use with parallel roots processing, and should be | |
734 // the "i" of the calling parallel worker thread's work(i) function. | |
735 // In the sequential case this param will be ignored. | |
736 void g1_process_strong_roots(bool collecting_perm_gen, | |
737 SharedHeap::ScanningOption so, | |
738 OopClosure* scan_non_heap_roots, | |
739 OopsInHeapRegionClosure* scan_rs, | |
740 OopsInGenClosure* scan_perm, | |
741 int worker_i); | |
742 | |
743 // Apply "blk" to all the weak roots of the system. These include | |
744 // JNI weak roots, the code cache, system dictionary, symbol table, | |
745 // string table, and referents of reachable weak refs. | |
746 void g1_process_weak_roots(OopClosure* root_closure, | |
747 OopClosure* non_root_closure); | |
748 | |
749 // Invoke "save_marks" on all heap regions. | |
750 void save_marks(); | |
751 | |
752 // Free a heap region. | |
753 void free_region(HeapRegion* hr); | |
754 // A component of "free_region", exposed for 'batching'. | |
755 // All the params after "hr" are out params: the used bytes of the freed | |
756 // region(s), the number of H regions cleared, the number of regions | |
757 // freed, and pointers to the head and tail of a list of freed contig | |
758 // regions, linked throught the "next_on_unclean_list" field. | |
759 void free_region_work(HeapRegion* hr, | |
760 size_t& pre_used, | |
761 size_t& cleared_h, | |
762 size_t& freed_regions, | |
763 UncleanRegionList* list, | |
764 bool par = false); | |
765 | |
766 | |
767 // The concurrent marker (and the thread it runs in.) | |
768 ConcurrentMark* _cm; | |
769 ConcurrentMarkThread* _cmThread; | |
770 bool _mark_in_progress; | |
771 | |
772 // The concurrent refiner. | |
773 ConcurrentG1Refine* _cg1r; | |
774 | |
775 // The concurrent zero-fill thread. | |
776 ConcurrentZFThread* _czft; | |
777 | |
778 // The parallel task queues | |
779 RefToScanQueueSet *_task_queues; | |
780 | |
781 // True iff a evacuation has failed in the current collection. | |
782 bool _evacuation_failed; | |
783 | |
784 // Set the attribute indicating whether evacuation has failed in the | |
785 // current collection. | |
786 void set_evacuation_failed(bool b) { _evacuation_failed = b; } | |
787 | |
788 // Failed evacuations cause some logical from-space objects to have | |
789 // forwarding pointers to themselves. Reset them. | |
790 void remove_self_forwarding_pointers(); | |
791 | |
792 // When one is non-null, so is the other. Together, they each pair is | |
793 // an object with a preserved mark, and its mark value. | |
794 GrowableArray<oop>* _objs_with_preserved_marks; | |
795 GrowableArray<markOop>* _preserved_marks_of_objs; | |
796 | |
797 // Preserve the mark of "obj", if necessary, in preparation for its mark | |
798 // word being overwritten with a self-forwarding-pointer. | |
799 void preserve_mark_if_necessary(oop obj, markOop m); | |
800 | |
801 // The stack of evac-failure objects left to be scanned. | |
802 GrowableArray<oop>* _evac_failure_scan_stack; | |
803 // The closure to apply to evac-failure objects. | |
804 | |
805 OopsInHeapRegionClosure* _evac_failure_closure; | |
806 // Set the field above. | |
807 void | |
808 set_evac_failure_closure(OopsInHeapRegionClosure* evac_failure_closure) { | |
809 _evac_failure_closure = evac_failure_closure; | |
810 } | |
811 | |
812 // Push "obj" on the scan stack. | |
813 void push_on_evac_failure_scan_stack(oop obj); | |
814 // Process scan stack entries until the stack is empty. | |
815 void drain_evac_failure_scan_stack(); | |
816 // True iff an invocation of "drain_scan_stack" is in progress; to | |
817 // prevent unnecessary recursion. | |
818 bool _drain_in_progress; | |
819 | |
820 // Do any necessary initialization for evacuation-failure handling. | |
821 // "cl" is the closure that will be used to process evac-failure | |
822 // objects. | |
823 void init_for_evac_failure(OopsInHeapRegionClosure* cl); | |
824 // Do any necessary cleanup for evacuation-failure handling data | |
825 // structures. | |
826 void finalize_for_evac_failure(); | |
827 | |
828 // An attempt to evacuate "obj" has failed; take necessary steps. | |
829 void handle_evacuation_failure(oop obj); | |
830 oop handle_evacuation_failure_par(OopsInHeapRegionClosure* cl, oop obj); | |
831 void handle_evacuation_failure_common(oop obj, markOop m); | |
832 | |
833 | |
834 // Ensure that the relevant gc_alloc regions are set. | |
835 void get_gc_alloc_regions(); | |
636 | 836 // We're done with GC alloc regions. We are going to tear down the |
837 // gc alloc list and remove the gc alloc tag from all the regions on | |
838 // that list. However, we will also retain the last (i.e., the one | |
839 // that is half-full) GC alloc region, per GCAllocPurpose, for | |
840 // possible reuse during the next collection, provided | |
841 // _retain_gc_alloc_region[] indicates that it should be the | |
842 // case. Said regions are kept in the _retained_gc_alloc_regions[] | |
843 // array. If the parameter totally is set, we will not retain any | |
844 // regions, irrespective of what _retain_gc_alloc_region[] | |
845 // indicates. | |
846 void release_gc_alloc_regions(bool totally); | |
847 #ifndef PRODUCT | |
848 // Useful for debugging. | |
849 void print_gc_alloc_regions(); | |
850 #endif // !PRODUCT | |
342 | 851 |
852 // ("Weak") Reference processing support | |
853 ReferenceProcessor* _ref_processor; | |
854 | |
855 enum G1H_process_strong_roots_tasks { | |
856 G1H_PS_mark_stack_oops_do, | |
857 G1H_PS_refProcessor_oops_do, | |
858 // Leave this one last. | |
859 G1H_PS_NumElements | |
860 }; | |
861 | |
862 SubTasksDone* _process_strong_tasks; | |
863 | |
864 // List of regions which require zero filling. | |
865 UncleanRegionList _unclean_region_list; | |
866 bool _unclean_regions_coming; | |
867 | |
868 public: | |
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869 |
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870 SubTasksDone* process_strong_tasks() { return _process_strong_tasks; } |
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871 |
342 | 872 void set_refine_cte_cl_concurrency(bool concurrent); |
873 | |
1709 | 874 RefToScanQueue *task_queue(int i) const; |
342 | 875 |
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876 // A set of cards where updates happened during the GC |
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877 DirtyCardQueueSet& dirty_card_queue_set() { return _dirty_card_queue_set; } |
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878 |
1705 | 879 // A DirtyCardQueueSet that is used to hold cards that contain |
880 // references into the current collection set. This is used to | |
881 // update the remembered sets of the regions in the collection | |
882 // set in the event of an evacuation failure. | |
883 DirtyCardQueueSet& into_cset_dirty_card_queue_set() | |
884 { return _into_cset_dirty_card_queue_set; } | |
885 | |
342 | 886 // Create a G1CollectedHeap with the specified policy. |
887 // Must call the initialize method afterwards. | |
888 // May not return if something goes wrong. | |
889 G1CollectedHeap(G1CollectorPolicy* policy); | |
890 | |
891 // Initialize the G1CollectedHeap to have the initial and | |
892 // maximum sizes, permanent generation, and remembered and barrier sets | |
893 // specified by the policy object. | |
894 jint initialize(); | |
895 | |
896 void ref_processing_init(); | |
897 | |
898 void set_par_threads(int t) { | |
899 SharedHeap::set_par_threads(t); | |
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900 _process_strong_tasks->set_n_threads(t); |
342 | 901 } |
902 | |
903 virtual CollectedHeap::Name kind() const { | |
904 return CollectedHeap::G1CollectedHeap; | |
905 } | |
906 | |
907 // The current policy object for the collector. | |
908 G1CollectorPolicy* g1_policy() const { return _g1_policy; } | |
909 | |
910 // Adaptive size policy. No such thing for g1. | |
911 virtual AdaptiveSizePolicy* size_policy() { return NULL; } | |
912 | |
913 // The rem set and barrier set. | |
914 G1RemSet* g1_rem_set() const { return _g1_rem_set; } | |
915 ModRefBarrierSet* mr_bs() const { return _mr_bs; } | |
916 | |
917 // The rem set iterator. | |
918 HeapRegionRemSetIterator* rem_set_iterator(int i) { | |
919 return _rem_set_iterator[i]; | |
920 } | |
921 | |
922 HeapRegionRemSetIterator* rem_set_iterator() { | |
923 return _rem_set_iterator[0]; | |
924 } | |
925 | |
926 unsigned get_gc_time_stamp() { | |
927 return _gc_time_stamp; | |
928 } | |
929 | |
930 void reset_gc_time_stamp() { | |
931 _gc_time_stamp = 0; | |
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932 OrderAccess::fence(); |
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933 } |
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934 |
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935 void increment_gc_time_stamp() { |
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936 ++_gc_time_stamp; |
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937 OrderAccess::fence(); |
342 | 938 } |
939 | |
1705 | 940 void iterate_dirty_card_closure(CardTableEntryClosure* cl, |
941 DirtyCardQueue* into_cset_dcq, | |
942 bool concurrent, int worker_i); | |
342 | 943 |
944 // The shared block offset table array. | |
945 G1BlockOffsetSharedArray* bot_shared() const { return _bot_shared; } | |
946 | |
947 // Reference Processing accessor | |
948 ReferenceProcessor* ref_processor() { return _ref_processor; } | |
949 | |
950 // Reserved (g1 only; super method includes perm), capacity and the used | |
951 // portion in bytes. | |
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952 size_t g1_reserved_obj_bytes() const { return _g1_reserved.byte_size(); } |
342 | 953 virtual size_t capacity() const; |
954 virtual size_t used() const; | |
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955 // This should be called when we're not holding the heap lock. The |
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956 // result might be a bit inaccurate. |
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957 size_t used_unlocked() const; |
342 | 958 size_t recalculate_used() const; |
959 #ifndef PRODUCT | |
960 size_t recalculate_used_regions() const; | |
961 #endif // PRODUCT | |
962 | |
963 // These virtual functions do the actual allocation. | |
964 // Some heaps may offer a contiguous region for shared non-blocking | |
965 // allocation, via inlined code (by exporting the address of the top and | |
966 // end fields defining the extent of the contiguous allocation region.) | |
967 // But G1CollectedHeap doesn't yet support this. | |
968 | |
969 // Return an estimate of the maximum allocation that could be performed | |
970 // without triggering any collection or expansion activity. In a | |
971 // generational collector, for example, this is probably the largest | |
972 // allocation that could be supported (without expansion) in the youngest | |
973 // generation. It is "unsafe" because no locks are taken; the result | |
974 // should be treated as an approximation, not a guarantee, for use in | |
975 // heuristic resizing decisions. | |
976 virtual size_t unsafe_max_alloc(); | |
977 | |
978 virtual bool is_maximal_no_gc() const { | |
979 return _g1_storage.uncommitted_size() == 0; | |
980 } | |
981 | |
982 // The total number of regions in the heap. | |
983 size_t n_regions(); | |
984 | |
985 // The number of regions that are completely free. | |
986 size_t max_regions(); | |
987 | |
988 // The number of regions that are completely free. | |
989 size_t free_regions(); | |
990 | |
991 // The number of regions that are not completely free. | |
992 size_t used_regions() { return n_regions() - free_regions(); } | |
993 | |
994 // True iff the ZF thread should run. | |
995 bool should_zf(); | |
996 | |
997 // The number of regions available for "regular" expansion. | |
998 size_t expansion_regions() { return _expansion_regions; } | |
999 | |
1000 #ifndef PRODUCT | |
1001 bool regions_accounted_for(); | |
1002 bool print_region_accounting_info(); | |
1003 void print_region_counts(); | |
1004 #endif | |
1005 | |
1006 HeapRegion* alloc_region_from_unclean_list(bool zero_filled); | |
1007 HeapRegion* alloc_region_from_unclean_list_locked(bool zero_filled); | |
1008 | |
1009 void put_region_on_unclean_list(HeapRegion* r); | |
1010 void put_region_on_unclean_list_locked(HeapRegion* r); | |
1011 | |
1012 void prepend_region_list_on_unclean_list(UncleanRegionList* list); | |
1013 void prepend_region_list_on_unclean_list_locked(UncleanRegionList* list); | |
1014 | |
1015 void set_unclean_regions_coming(bool b); | |
1016 void set_unclean_regions_coming_locked(bool b); | |
1017 // Wait for cleanup to be complete. | |
1018 void wait_for_cleanup_complete(); | |
1019 // Like above, but assumes that the calling thread owns the Heap_lock. | |
1020 void wait_for_cleanup_complete_locked(); | |
1021 | |
1022 // Return the head of the unclean list. | |
1023 HeapRegion* peek_unclean_region_list_locked(); | |
1024 // Remove and return the head of the unclean list. | |
1025 HeapRegion* pop_unclean_region_list_locked(); | |
1026 | |
1027 // List of regions which are zero filled and ready for allocation. | |
1028 HeapRegion* _free_region_list; | |
1029 // Number of elements on the free list. | |
1030 size_t _free_region_list_size; | |
1031 | |
1032 // If the head of the unclean list is ZeroFilled, move it to the free | |
1033 // list. | |
1034 bool move_cleaned_region_to_free_list_locked(); | |
1035 bool move_cleaned_region_to_free_list(); | |
1036 | |
1037 void put_free_region_on_list_locked(HeapRegion* r); | |
1038 void put_free_region_on_list(HeapRegion* r); | |
1039 | |
1040 // Remove and return the head element of the free list. | |
1041 HeapRegion* pop_free_region_list_locked(); | |
1042 | |
1043 // If "zero_filled" is true, we first try the free list, then we try the | |
1044 // unclean list, zero-filling the result. If "zero_filled" is false, we | |
1045 // first try the unclean list, then the zero-filled list. | |
1046 HeapRegion* alloc_free_region_from_lists(bool zero_filled); | |
1047 | |
1048 // Verify the integrity of the region lists. | |
1049 void remove_allocated_regions_from_lists(); | |
1050 bool verify_region_lists(); | |
1051 bool verify_region_lists_locked(); | |
1052 size_t unclean_region_list_length(); | |
1053 size_t free_region_list_length(); | |
1054 | |
1055 // Perform a collection of the heap; intended for use in implementing | |
1056 // "System.gc". This probably implies as full a collection as the | |
1057 // "CollectedHeap" supports. | |
1058 virtual void collect(GCCause::Cause cause); | |
1059 | |
1060 // The same as above but assume that the caller holds the Heap_lock. | |
1061 void collect_locked(GCCause::Cause cause); | |
1062 | |
1063 // This interface assumes that it's being called by the | |
1064 // vm thread. It collects the heap assuming that the | |
1065 // heap lock is already held and that we are executing in | |
1066 // the context of the vm thread. | |
1067 virtual void collect_as_vm_thread(GCCause::Cause cause); | |
1068 | |
1069 // True iff a evacuation has failed in the most-recent collection. | |
1070 bool evacuation_failed() { return _evacuation_failed; } | |
1071 | |
1072 // Free a region if it is totally full of garbage. Returns the number of | |
1073 // bytes freed (0 ==> didn't free it). | |
1074 size_t free_region_if_totally_empty(HeapRegion *hr); | |
1075 void free_region_if_totally_empty_work(HeapRegion *hr, | |
1076 size_t& pre_used, | |
1077 size_t& cleared_h_regions, | |
1078 size_t& freed_regions, | |
1079 UncleanRegionList* list, | |
1080 bool par = false); | |
1081 | |
1082 // If we've done free region work that yields the given changes, update | |
1083 // the relevant global variables. | |
1084 void finish_free_region_work(size_t pre_used, | |
1085 size_t cleared_h_regions, | |
1086 size_t freed_regions, | |
1087 UncleanRegionList* list); | |
1088 | |
1089 | |
1090 // Returns "TRUE" iff "p" points into the allocated area of the heap. | |
1091 virtual bool is_in(const void* p) const; | |
1092 | |
1093 // Return "TRUE" iff the given object address is within the collection | |
1094 // set. | |
1095 inline bool obj_in_cs(oop obj); | |
1096 | |
1097 // Return "TRUE" iff the given object address is in the reserved | |
1098 // region of g1 (excluding the permanent generation). | |
1099 bool is_in_g1_reserved(const void* p) const { | |
1100 return _g1_reserved.contains(p); | |
1101 } | |
1102 | |
1103 // Returns a MemRegion that corresponds to the space that has been | |
1104 // committed in the heap | |
1105 MemRegion g1_committed() { | |
1106 return _g1_committed; | |
1107 } | |
1108 | |
941 | 1109 NOT_PRODUCT(bool is_in_closed_subset(const void* p) const;) |
342 | 1110 |
1111 // Dirty card table entries covering a list of young regions. | |
1112 void dirtyCardsForYoungRegions(CardTableModRefBS* ct_bs, HeapRegion* list); | |
1113 | |
1114 // This resets the card table to all zeros. It is used after | |
1115 // a collection pause which used the card table to claim cards. | |
1116 void cleanUpCardTable(); | |
1117 | |
1118 // Iteration functions. | |
1119 | |
1120 // Iterate over all the ref-containing fields of all objects, calling | |
1121 // "cl.do_oop" on each. | |
678 | 1122 virtual void oop_iterate(OopClosure* cl) { |
1123 oop_iterate(cl, true); | |
1124 } | |
1125 void oop_iterate(OopClosure* cl, bool do_perm); | |
342 | 1126 |
1127 // Same as above, restricted to a memory region. | |
678 | 1128 virtual void oop_iterate(MemRegion mr, OopClosure* cl) { |
1129 oop_iterate(mr, cl, true); | |
1130 } | |
1131 void oop_iterate(MemRegion mr, OopClosure* cl, bool do_perm); | |
342 | 1132 |
1133 // Iterate over all objects, calling "cl.do_object" on each. | |
678 | 1134 virtual void object_iterate(ObjectClosure* cl) { |
1135 object_iterate(cl, true); | |
1136 } | |
1137 virtual void safe_object_iterate(ObjectClosure* cl) { | |
1138 object_iterate(cl, true); | |
1139 } | |
1140 void object_iterate(ObjectClosure* cl, bool do_perm); | |
342 | 1141 |
1142 // Iterate over all objects allocated since the last collection, calling | |
1143 // "cl.do_object" on each. The heap must have been initialized properly | |
1144 // to support this function, or else this call will fail. | |
1145 virtual void object_iterate_since_last_GC(ObjectClosure* cl); | |
1146 | |
1147 // Iterate over all spaces in use in the heap, in ascending address order. | |
1148 virtual void space_iterate(SpaceClosure* cl); | |
1149 | |
1150 // Iterate over heap regions, in address order, terminating the | |
1151 // iteration early if the "doHeapRegion" method returns "true". | |
1152 void heap_region_iterate(HeapRegionClosure* blk); | |
1153 | |
1154 // Iterate over heap regions starting with r (or the first region if "r" | |
1155 // is NULL), in address order, terminating early if the "doHeapRegion" | |
1156 // method returns "true". | |
1157 void heap_region_iterate_from(HeapRegion* r, HeapRegionClosure* blk); | |
1158 | |
1159 // As above but starting from the region at index idx. | |
1160 void heap_region_iterate_from(int idx, HeapRegionClosure* blk); | |
1161 | |
1162 HeapRegion* region_at(size_t idx); | |
1163 | |
1164 // Divide the heap region sequence into "chunks" of some size (the number | |
1165 // of regions divided by the number of parallel threads times some | |
1166 // overpartition factor, currently 4). Assumes that this will be called | |
1167 // in parallel by ParallelGCThreads worker threads with discinct worker | |
1168 // ids in the range [0..max(ParallelGCThreads-1, 1)], that all parallel | |
1169 // calls will use the same "claim_value", and that that claim value is | |
1170 // different from the claim_value of any heap region before the start of | |
1171 // the iteration. Applies "blk->doHeapRegion" to each of the regions, by | |
1172 // attempting to claim the first region in each chunk, and, if | |
1173 // successful, applying the closure to each region in the chunk (and | |
1174 // setting the claim value of the second and subsequent regions of the | |
1175 // chunk.) For now requires that "doHeapRegion" always returns "false", | |
1176 // i.e., that a closure never attempt to abort a traversal. | |
1177 void heap_region_par_iterate_chunked(HeapRegionClosure* blk, | |
1178 int worker, | |
1179 jint claim_value); | |
1180 | |
390 | 1181 // It resets all the region claim values to the default. |
1182 void reset_heap_region_claim_values(); | |
1183 | |
355 | 1184 #ifdef ASSERT |
1185 bool check_heap_region_claim_values(jint claim_value); | |
1186 #endif // ASSERT | |
1187 | |
342 | 1188 // Iterate over the regions (if any) in the current collection set. |
1189 void collection_set_iterate(HeapRegionClosure* blk); | |
1190 | |
1191 // As above but starting from region r | |
1192 void collection_set_iterate_from(HeapRegion* r, HeapRegionClosure *blk); | |
1193 | |
1194 // Returns the first (lowest address) compactible space in the heap. | |
1195 virtual CompactibleSpace* first_compactible_space(); | |
1196 | |
1197 // A CollectedHeap will contain some number of spaces. This finds the | |
1198 // space containing a given address, or else returns NULL. | |
1199 virtual Space* space_containing(const void* addr) const; | |
1200 | |
1201 // A G1CollectedHeap will contain some number of heap regions. This | |
1202 // finds the region containing a given address, or else returns NULL. | |
1203 HeapRegion* heap_region_containing(const void* addr) const; | |
1204 | |
1205 // Like the above, but requires "addr" to be in the heap (to avoid a | |
1206 // null-check), and unlike the above, may return an continuing humongous | |
1207 // region. | |
1208 HeapRegion* heap_region_containing_raw(const void* addr) const; | |
1209 | |
1210 // A CollectedHeap is divided into a dense sequence of "blocks"; that is, | |
1211 // each address in the (reserved) heap is a member of exactly | |
1212 // one block. The defining characteristic of a block is that it is | |
1213 // possible to find its size, and thus to progress forward to the next | |
1214 // block. (Blocks may be of different sizes.) Thus, blocks may | |
1215 // represent Java objects, or they might be free blocks in a | |
1216 // free-list-based heap (or subheap), as long as the two kinds are | |
1217 // distinguishable and the size of each is determinable. | |
1218 | |
1219 // Returns the address of the start of the "block" that contains the | |
1220 // address "addr". We say "blocks" instead of "object" since some heaps | |
1221 // may not pack objects densely; a chunk may either be an object or a | |
1222 // non-object. | |
1223 virtual HeapWord* block_start(const void* addr) const; | |
1224 | |
1225 // Requires "addr" to be the start of a chunk, and returns its size. | |
1226 // "addr + size" is required to be the start of a new chunk, or the end | |
1227 // of the active area of the heap. | |
1228 virtual size_t block_size(const HeapWord* addr) const; | |
1229 | |
1230 // Requires "addr" to be the start of a block, and returns "TRUE" iff | |
1231 // the block is an object. | |
1232 virtual bool block_is_obj(const HeapWord* addr) const; | |
1233 | |
1234 // Does this heap support heap inspection? (+PrintClassHistogram) | |
1235 virtual bool supports_heap_inspection() const { return true; } | |
1236 | |
1237 // Section on thread-local allocation buffers (TLABs) | |
1238 // See CollectedHeap for semantics. | |
1239 | |
1240 virtual bool supports_tlab_allocation() const; | |
1241 virtual size_t tlab_capacity(Thread* thr) const; | |
1242 virtual size_t unsafe_max_tlab_alloc(Thread* thr) const; | |
1243 | |
1244 // Can a compiler initialize a new object without store barriers? | |
1245 // This permission only extends from the creation of a new object | |
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1246 // via a TLAB up to the first subsequent safepoint. If such permission |
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1247 // is granted for this heap type, the compiler promises to call |
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1248 // defer_store_barrier() below on any slow path allocation of |
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1249 // a new object for which such initializing store barriers will |
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1250 // have been elided. G1, like CMS, allows this, but should be |
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1251 // ready to provide a compensating write barrier as necessary |
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1252 // if that storage came out of a non-young region. The efficiency |
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1253 // of this implementation depends crucially on being able to |
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1254 // answer very efficiently in constant time whether a piece of |
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1255 // storage in the heap comes from a young region or not. |
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1256 // See ReduceInitialCardMarks. |
342 | 1257 virtual bool can_elide_tlab_store_barriers() const { |
1194
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1258 // 6920090: Temporarily disabled, because of lingering |
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1259 // instabilities related to RICM with G1. In the |
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1260 // interim, the option ReduceInitialCardMarksForG1 |
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1261 // below is left solely as a debugging device at least |
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1262 // until 6920109 fixes the instabilities. |
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1263 return ReduceInitialCardMarksForG1; |
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1264 } |
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1265 |
1166 | 1266 virtual bool card_mark_must_follow_store() const { |
1267 return true; | |
1268 } | |
1269 | |
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1270 bool is_in_young(oop obj) { |
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1271 HeapRegion* hr = heap_region_containing(obj); |
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1272 return hr != NULL && hr->is_young(); |
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1273 } |
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1274 |
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1275 // We don't need barriers for initializing stores to objects |
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1276 // in the young gen: for the SATB pre-barrier, there is no |
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1277 // pre-value that needs to be remembered; for the remembered-set |
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1278 // update logging post-barrier, we don't maintain remembered set |
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1279 // information for young gen objects. Note that non-generational |
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1280 // G1 does not have any "young" objects, should not elide |
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1281 // the rs logging barrier and so should always answer false below. |
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1282 // However, non-generational G1 (-XX:-G1Gen) appears to have |
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1283 // bit-rotted so was not tested below. |
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1284 virtual bool can_elide_initializing_store_barrier(oop new_obj) { |
1194
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1285 // Re 6920090, 6920109 above. |
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1286 assert(ReduceInitialCardMarksForG1, "Else cannot be here"); |
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1287 assert(G1Gen || !is_in_young(new_obj), |
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1288 "Non-generational G1 should never return true below"); |
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1289 return is_in_young(new_obj); |
342 | 1290 } |
1291 | |
1292 // Can a compiler elide a store barrier when it writes | |
1293 // a permanent oop into the heap? Applies when the compiler | |
1294 // is storing x to the heap, where x->is_perm() is true. | |
1295 virtual bool can_elide_permanent_oop_store_barriers() const { | |
1296 // At least until perm gen collection is also G1-ified, at | |
1297 // which point this should return false. | |
1298 return true; | |
1299 } | |
1300 | |
1301 virtual bool allocs_are_zero_filled(); | |
1302 | |
1303 // The boundary between a "large" and "small" array of primitives, in | |
1304 // words. | |
1305 virtual size_t large_typearray_limit(); | |
1306 | |
1307 // Returns "true" iff the given word_size is "very large". | |
1308 static bool isHumongous(size_t word_size) { | |
1313
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1309 // Note this has to be strictly greater-than as the TLABs |
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1310 // are capped at the humongous thresold and we want to |
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1311 // ensure that we don't try to allocate a TLAB as |
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1312 // humongous and that we don't allocate a humongous |
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1313 // object in a TLAB. |
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1314 return word_size > _humongous_object_threshold_in_words; |
342 | 1315 } |
1316 | |
1317 // Update mod union table with the set of dirty cards. | |
1318 void updateModUnion(); | |
1319 | |
1320 // Set the mod union bits corresponding to the given memRegion. Note | |
1321 // that this is always a safe operation, since it doesn't clear any | |
1322 // bits. | |
1323 void markModUnionRange(MemRegion mr); | |
1324 | |
1325 // Records the fact that a marking phase is no longer in progress. | |
1326 void set_marking_complete() { | |
1327 _mark_in_progress = false; | |
1328 } | |
1329 void set_marking_started() { | |
1330 _mark_in_progress = true; | |
1331 } | |
1332 bool mark_in_progress() { | |
1333 return _mark_in_progress; | |
1334 } | |
1335 | |
1336 // Print the maximum heap capacity. | |
1337 virtual size_t max_capacity() const; | |
1338 | |
1339 virtual jlong millis_since_last_gc(); | |
1340 | |
1341 // Perform any cleanup actions necessary before allowing a verification. | |
1342 virtual void prepare_for_verify(); | |
1343 | |
1344 // Perform verification. | |
811 | 1345 |
1346 // use_prev_marking == true -> use "prev" marking information, | |
1347 // use_prev_marking == false -> use "next" marking information | |
1348 // NOTE: Only the "prev" marking information is guaranteed to be | |
1349 // consistent most of the time, so most calls to this should use | |
1350 // use_prev_marking == true. Currently, there is only one case where | |
1351 // this is called with use_prev_marking == false, which is to verify | |
1352 // the "next" marking information at the end of remark. | |
1353 void verify(bool allow_dirty, bool silent, bool use_prev_marking); | |
1354 | |
1355 // Override; it uses the "prev" marking information | |
342 | 1356 virtual void verify(bool allow_dirty, bool silent); |
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1357 // Default behavior by calling print(tty); |
342 | 1358 virtual void print() const; |
838
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1359 // This calls print_on(st, PrintHeapAtGCExtended). |
342 | 1360 virtual void print_on(outputStream* st) const; |
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1361 // If extended is true, it will print out information for all |
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1362 // regions in the heap by calling print_on_extended(st). |
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1363 virtual void print_on(outputStream* st, bool extended) const; |
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1364 virtual void print_on_extended(outputStream* st) const; |
342 | 1365 |
1366 virtual void print_gc_threads_on(outputStream* st) const; | |
1367 virtual void gc_threads_do(ThreadClosure* tc) const; | |
1368 | |
1369 // Override | |
1370 void print_tracing_info() const; | |
1371 | |
1372 // If "addr" is a pointer into the (reserved?) heap, returns a positive | |
1373 // number indicating the "arena" within the heap in which "addr" falls. | |
1374 // Or else returns 0. | |
1375 virtual int addr_to_arena_id(void* addr) const; | |
1376 | |
1377 // Convenience function to be used in situations where the heap type can be | |
1378 // asserted to be this type. | |
1379 static G1CollectedHeap* heap(); | |
1380 | |
1381 void empty_young_list(); | |
1382 | |
1383 void set_region_short_lived_locked(HeapRegion* hr); | |
1384 // add appropriate methods for any other surv rate groups | |
1385 | |
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1386 YoungList* young_list() { return _young_list; } |
342 | 1387 |
1388 // debugging | |
1389 bool check_young_list_well_formed() { | |
1390 return _young_list->check_list_well_formed(); | |
1391 } | |
1394
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1392 |
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1393 bool check_young_list_empty(bool check_heap, |
342 | 1394 bool check_sample = true); |
1395 | |
1396 // *** Stuff related to concurrent marking. It's not clear to me that so | |
1397 // many of these need to be public. | |
1398 | |
1399 // The functions below are helper functions that a subclass of | |
1400 // "CollectedHeap" can use in the implementation of its virtual | |
1401 // functions. | |
1402 // This performs a concurrent marking of the live objects in a | |
1403 // bitmap off to the side. | |
1404 void doConcurrentMark(); | |
1405 | |
1406 // This is called from the marksweep collector which then does | |
1407 // a concurrent mark and verifies that the results agree with | |
1408 // the stop the world marking. | |
1409 void checkConcurrentMark(); | |
1410 void do_sync_mark(); | |
1411 | |
1412 bool isMarkedPrev(oop obj) const; | |
1413 bool isMarkedNext(oop obj) const; | |
1414 | |
811 | 1415 // use_prev_marking == true -> use "prev" marking information, |
1416 // use_prev_marking == false -> use "next" marking information | |
1417 bool is_obj_dead_cond(const oop obj, | |
1418 const HeapRegion* hr, | |
1419 const bool use_prev_marking) const { | |
1420 if (use_prev_marking) { | |
1421 return is_obj_dead(obj, hr); | |
1422 } else { | |
1423 return is_obj_ill(obj, hr); | |
1424 } | |
1425 } | |
1426 | |
342 | 1427 // Determine if an object is dead, given the object and also |
1428 // the region to which the object belongs. An object is dead | |
1429 // iff a) it was not allocated since the last mark and b) it | |
1430 // is not marked. | |
1431 | |
1432 bool is_obj_dead(const oop obj, const HeapRegion* hr) const { | |
1433 return | |
1434 !hr->obj_allocated_since_prev_marking(obj) && | |
1435 !isMarkedPrev(obj); | |
1436 } | |
1437 | |
1438 // This is used when copying an object to survivor space. | |
1439 // If the object is marked live, then we mark the copy live. | |
1440 // If the object is allocated since the start of this mark | |
1441 // cycle, then we mark the copy live. | |
1442 // If the object has been around since the previous mark | |
1443 // phase, and hasn't been marked yet during this phase, | |
1444 // then we don't mark it, we just wait for the | |
1445 // current marking cycle to get to it. | |
1446 | |
1447 // This function returns true when an object has been | |
1448 // around since the previous marking and hasn't yet | |
1449 // been marked during this marking. | |
1450 | |
1451 bool is_obj_ill(const oop obj, const HeapRegion* hr) const { | |
1452 return | |
1453 !hr->obj_allocated_since_next_marking(obj) && | |
1454 !isMarkedNext(obj); | |
1455 } | |
1456 | |
1457 // Determine if an object is dead, given only the object itself. | |
1458 // This will find the region to which the object belongs and | |
1459 // then call the region version of the same function. | |
1460 | |
1461 // Added if it is in permanent gen it isn't dead. | |
1462 // Added if it is NULL it isn't dead. | |
1463 | |
811 | 1464 // use_prev_marking == true -> use "prev" marking information, |
1465 // use_prev_marking == false -> use "next" marking information | |
1466 bool is_obj_dead_cond(const oop obj, | |
1467 const bool use_prev_marking) { | |
1468 if (use_prev_marking) { | |
1469 return is_obj_dead(obj); | |
1470 } else { | |
1471 return is_obj_ill(obj); | |
1472 } | |
1473 } | |
1474 | |
1475 bool is_obj_dead(const oop obj) { | |
1476 const HeapRegion* hr = heap_region_containing(obj); | |
342 | 1477 if (hr == NULL) { |
1478 if (Universe::heap()->is_in_permanent(obj)) | |
1479 return false; | |
1480 else if (obj == NULL) return false; | |
1481 else return true; | |
1482 } | |
1483 else return is_obj_dead(obj, hr); | |
1484 } | |
1485 | |
811 | 1486 bool is_obj_ill(const oop obj) { |
1487 const HeapRegion* hr = heap_region_containing(obj); | |
342 | 1488 if (hr == NULL) { |
1489 if (Universe::heap()->is_in_permanent(obj)) | |
1490 return false; | |
1491 else if (obj == NULL) return false; | |
1492 else return true; | |
1493 } | |
1494 else return is_obj_ill(obj, hr); | |
1495 } | |
1496 | |
1497 // The following is just to alert the verification code | |
1498 // that a full collection has occurred and that the | |
1499 // remembered sets are no longer up to date. | |
1500 bool _full_collection; | |
1501 void set_full_collection() { _full_collection = true;} | |
1502 void clear_full_collection() {_full_collection = false;} | |
1503 bool full_collection() {return _full_collection;} | |
1504 | |
1505 ConcurrentMark* concurrent_mark() const { return _cm; } | |
1506 ConcurrentG1Refine* concurrent_g1_refine() const { return _cg1r; } | |
1507 | |
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1508 // The dirty cards region list is used to record a subset of regions |
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1509 // whose cards need clearing. The list if populated during the |
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1510 // remembered set scanning and drained during the card table |
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1511 // cleanup. Although the methods are reentrant, population/draining |
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1512 // phases must not overlap. For synchronization purposes the last |
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1513 // element on the list points to itself. |
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1514 HeapRegion* _dirty_cards_region_list; |
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1515 void push_dirty_cards_region(HeapRegion* hr); |
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1516 HeapRegion* pop_dirty_cards_region(); |
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1517 |
342 | 1518 public: |
1519 void stop_conc_gc_threads(); | |
1520 | |
1521 // <NEW PREDICTION> | |
1522 | |
1523 double predict_region_elapsed_time_ms(HeapRegion* hr, bool young); | |
1524 void check_if_region_is_too_expensive(double predicted_time_ms); | |
1525 size_t pending_card_num(); | |
1526 size_t max_pending_card_num(); | |
1527 size_t cards_scanned(); | |
1528 | |
1529 // </NEW PREDICTION> | |
1530 | |
1531 protected: | |
1532 size_t _max_heap_capacity; | |
1533 | |
1534 public: | |
1535 // Temporary: call to mark things unimplemented for the G1 heap (e.g., | |
1536 // MemoryService). In productization, we can make this assert false | |
1537 // to catch such places (as well as searching for calls to this...) | |
1538 static void g1_unimplemented(); | |
1539 | |
1540 }; | |
1541 | |
845
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1542 #define use_local_bitmaps 1 |
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1543 #define verify_local_bitmaps 0 |
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1544 #define oop_buffer_length 256 |
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1545 |
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1546 #ifndef PRODUCT |
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1547 class GCLabBitMap; |
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1548 class GCLabBitMapClosure: public BitMapClosure { |
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1549 private: |
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1550 ConcurrentMark* _cm; |
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1551 GCLabBitMap* _bitmap; |
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1552 |
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1553 public: |
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1554 GCLabBitMapClosure(ConcurrentMark* cm, |
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1555 GCLabBitMap* bitmap) { |
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1556 _cm = cm; |
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1557 _bitmap = bitmap; |
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1558 } |
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1559 |
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1560 virtual bool do_bit(size_t offset); |
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1561 }; |
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1562 #endif // !PRODUCT |
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1563 |
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1564 class GCLabBitMap: public BitMap { |
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1565 private: |
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1566 ConcurrentMark* _cm; |
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1567 |
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1568 int _shifter; |
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1569 size_t _bitmap_word_covers_words; |
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1570 |
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1571 // beginning of the heap |
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1572 HeapWord* _heap_start; |
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1573 |
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1574 // this is the actual start of the GCLab |
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1575 HeapWord* _real_start_word; |
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1576 |
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1577 // this is the actual end of the GCLab |
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1578 HeapWord* _real_end_word; |
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1579 |
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1580 // this is the first word, possibly located before the actual start |
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1581 // of the GCLab, that corresponds to the first bit of the bitmap |
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1582 HeapWord* _start_word; |
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1583 |
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1584 // size of a GCLab in words |
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1585 size_t _gclab_word_size; |
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1586 |
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1587 static int shifter() { |
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1588 return MinObjAlignment - 1; |
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1589 } |
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1590 |
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1591 // how many heap words does a single bitmap word corresponds to? |
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1592 static size_t bitmap_word_covers_words() { |
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1593 return BitsPerWord << shifter(); |
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1594 } |
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1595 |
1391
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1596 size_t gclab_word_size() const { |
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1597 return _gclab_word_size; |
845
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1598 } |
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1599 |
1391
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1600 // Calculates actual GCLab size in words |
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1601 size_t gclab_real_word_size() const { |
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1602 return bitmap_size_in_bits(pointer_delta(_real_end_word, _start_word)) |
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1603 / BitsPerWord; |
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1604 } |
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1605 |
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1606 static size_t bitmap_size_in_bits(size_t gclab_word_size) { |
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1607 size_t bits_in_bitmap = gclab_word_size >> shifter(); |
845
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1608 // We are going to ensure that the beginning of a word in this |
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1609 // bitmap also corresponds to the beginning of a word in the |
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1610 // global marking bitmap. To handle the case where a GCLab |
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1611 // starts from the middle of the bitmap, we need to add enough |
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1612 // space (i.e. up to a bitmap word) to ensure that we have |
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1613 // enough bits in the bitmap. |
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1614 return bits_in_bitmap + BitsPerWord - 1; |
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1615 } |
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1616 public: |
1391
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1617 GCLabBitMap(HeapWord* heap_start, size_t gclab_word_size) |
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1618 : BitMap(bitmap_size_in_bits(gclab_word_size)), |
845
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1619 _cm(G1CollectedHeap::heap()->concurrent_mark()), |
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1620 _shifter(shifter()), |
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1621 _bitmap_word_covers_words(bitmap_word_covers_words()), |
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1622 _heap_start(heap_start), |
1391
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1623 _gclab_word_size(gclab_word_size), |
845
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1624 _real_start_word(NULL), |
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1625 _real_end_word(NULL), |
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1626 _start_word(NULL) |
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1627 { |
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1628 guarantee( size_in_words() >= bitmap_size_in_words(), |
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1629 "just making sure"); |
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1630 } |
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1631 |
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1632 inline unsigned heapWordToOffset(HeapWord* addr) { |
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1633 unsigned offset = (unsigned) pointer_delta(addr, _start_word) >> _shifter; |
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1634 assert(offset < size(), "offset should be within bounds"); |
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1635 return offset; |
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|
1636 } |
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1637 |
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1638 inline HeapWord* offsetToHeapWord(size_t offset) { |
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1639 HeapWord* addr = _start_word + (offset << _shifter); |
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1640 assert(_real_start_word <= addr && addr < _real_end_word, "invariant"); |
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1641 return addr; |
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|
1642 } |
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1643 |
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|
1644 bool fields_well_formed() { |
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1645 bool ret1 = (_real_start_word == NULL) && |
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1646 (_real_end_word == NULL) && |
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1647 (_start_word == NULL); |
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1648 if (ret1) |
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1649 return true; |
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1650 |
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1651 bool ret2 = _real_start_word >= _start_word && |
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1652 _start_word < _real_end_word && |
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1653 (_real_start_word + _gclab_word_size) == _real_end_word && |
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1654 (_start_word + _gclab_word_size + _bitmap_word_covers_words) |
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1655 > _real_end_word; |
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|
1656 return ret2; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1657 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1658 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1659 inline bool mark(HeapWord* addr) { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1660 guarantee(use_local_bitmaps, "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1661 assert(fields_well_formed(), "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1662 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1663 if (addr >= _real_start_word && addr < _real_end_word) { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1664 assert(!isMarked(addr), "should not have already been marked"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1665 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1666 // first mark it on the bitmap |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1667 at_put(heapWordToOffset(addr), true); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1668 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1669 return true; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1670 } else { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1671 return false; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1672 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1673 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1674 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1675 inline bool isMarked(HeapWord* addr) { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1676 guarantee(use_local_bitmaps, "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1677 assert(fields_well_formed(), "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1678 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1679 return at(heapWordToOffset(addr)); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1680 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1681 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1682 void set_buffer(HeapWord* start) { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1683 guarantee(use_local_bitmaps, "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1684 clear(); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1685 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1686 assert(start != NULL, "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1687 _real_start_word = start; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1688 _real_end_word = start + _gclab_word_size; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1689 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1690 size_t diff = |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1691 pointer_delta(start, _heap_start) % _bitmap_word_covers_words; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1692 _start_word = start - diff; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1693 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1694 assert(fields_well_formed(), "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1695 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1696 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1697 #ifndef PRODUCT |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1698 void verify() { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1699 // verify that the marks have been propagated |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1700 GCLabBitMapClosure cl(_cm, this); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1701 iterate(&cl); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1702 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1703 #endif // PRODUCT |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1704 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1705 void retire() { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1706 guarantee(use_local_bitmaps, "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1707 assert(fields_well_formed(), "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1708 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1709 if (_start_word != NULL) { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1710 CMBitMap* mark_bitmap = _cm->nextMarkBitMap(); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1711 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1712 // this means that the bitmap was set up for the GCLab |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1713 assert(_real_start_word != NULL && _real_end_word != NULL, "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1714 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1715 mark_bitmap->mostly_disjoint_range_union(this, |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1716 0, // always start from the start of the bitmap |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1717 _start_word, |
1391
79e419e5ea3b
6942253: G1: replace G1ParallelGCAllocBufferSize with YoungPLABSize and OldPLABSize
apetrusenko
parents:
1313
diff
changeset
|
1718 gclab_real_word_size()); |
845
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1719 _cm->grayRegionIfNecessary(MemRegion(_real_start_word, _real_end_word)); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1720 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1721 #ifndef PRODUCT |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1722 if (use_local_bitmaps && verify_local_bitmaps) |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1723 verify(); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1724 #endif // PRODUCT |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1725 } else { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1726 assert(_real_start_word == NULL && _real_end_word == NULL, "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1727 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1728 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1729 |
1391
79e419e5ea3b
6942253: G1: replace G1ParallelGCAllocBufferSize with YoungPLABSize and OldPLABSize
apetrusenko
parents:
1313
diff
changeset
|
1730 size_t bitmap_size_in_words() const { |
79e419e5ea3b
6942253: G1: replace G1ParallelGCAllocBufferSize with YoungPLABSize and OldPLABSize
apetrusenko
parents:
1313
diff
changeset
|
1731 return (bitmap_size_in_bits(gclab_word_size()) + BitsPerWord - 1) / BitsPerWord; |
845
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1732 } |
1391
79e419e5ea3b
6942253: G1: replace G1ParallelGCAllocBufferSize with YoungPLABSize and OldPLABSize
apetrusenko
parents:
1313
diff
changeset
|
1733 |
845
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1734 }; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1735 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1736 class G1ParGCAllocBuffer: public ParGCAllocBuffer { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1737 private: |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1738 bool _retired; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1739 bool _during_marking; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1740 GCLabBitMap _bitmap; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1741 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1742 public: |
1391
79e419e5ea3b
6942253: G1: replace G1ParallelGCAllocBufferSize with YoungPLABSize and OldPLABSize
apetrusenko
parents:
1313
diff
changeset
|
1743 G1ParGCAllocBuffer(size_t gclab_word_size) : |
79e419e5ea3b
6942253: G1: replace G1ParallelGCAllocBufferSize with YoungPLABSize and OldPLABSize
apetrusenko
parents:
1313
diff
changeset
|
1744 ParGCAllocBuffer(gclab_word_size), |
845
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1745 _during_marking(G1CollectedHeap::heap()->mark_in_progress()), |
1391
79e419e5ea3b
6942253: G1: replace G1ParallelGCAllocBufferSize with YoungPLABSize and OldPLABSize
apetrusenko
parents:
1313
diff
changeset
|
1746 _bitmap(G1CollectedHeap::heap()->reserved_region().start(), gclab_word_size), |
845
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1747 _retired(false) |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1748 { } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1749 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1750 inline bool mark(HeapWord* addr) { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1751 guarantee(use_local_bitmaps, "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1752 assert(_during_marking, "invariant"); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1753 return _bitmap.mark(addr); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1754 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1755 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1756 inline void set_buf(HeapWord* buf) { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1757 if (use_local_bitmaps && _during_marking) |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1758 _bitmap.set_buffer(buf); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1759 ParGCAllocBuffer::set_buf(buf); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1760 _retired = false; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1761 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1762 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1763 inline void retire(bool end_of_gc, bool retain) { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1764 if (_retired) |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1765 return; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1766 if (use_local_bitmaps && _during_marking) { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1767 _bitmap.retire(); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1768 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1769 ParGCAllocBuffer::retire(end_of_gc, retain); |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1770 _retired = true; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1771 } |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1772 }; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1773 |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1774 class G1ParScanThreadState : public StackObj { |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1775 protected: |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1776 G1CollectedHeap* _g1h; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1777 RefToScanQueue* _refs; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1778 DirtyCardQueue _dcq; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1779 CardTableModRefBS* _ct_bs; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1780 G1RemSet* _g1_rem; |
df6caf649ff7
6700789: G1: Enable use of compressed oops with G1 heaps
ysr
parents:
838
diff
changeset
|
1781 |
1391
79e419e5ea3b
6942253: G1: replace G1ParallelGCAllocBufferSize with YoungPLABSize and OldPLABSize
apetrusenko
parents:
1313
diff
changeset
|
1782 G1ParGCAllocBuffer _surviving_alloc_buffer; |
79e419e5ea3b
6942253: G1: replace G1ParallelGCAllocBufferSize with YoungPLABSize and OldPLABSize
apetrusenko
parents:
1313
diff
changeset
|
1783 G1ParGCAllocBuffer _tenured_alloc_buffer; |
79e419e5ea3b
6942253: G1: replace G1ParallelGCAllocBufferSize with YoungPLABSize and OldPLABSize
apetrusenko
parents:
1313
diff
changeset
|
1784 G1ParGCAllocBuffer* _alloc_buffers[GCAllocPurposeCount]; |
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1785 ageTable _age_table; |
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1786 |
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1787 size_t _alloc_buffer_waste; |
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1788 size_t _undo_waste; |
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1789 |
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1790 OopsInHeapRegionClosure* _evac_failure_cl; |
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1791 G1ParScanHeapEvacClosure* _evac_cl; |
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1792 G1ParScanPartialArrayClosure* _partial_scan_cl; |
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1793 |
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1794 int _hash_seed; |
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1795 int _queue_num; |
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1796 |
1611 | 1797 size_t _term_attempts; |
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1798 |
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1799 double _start; |
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1800 double _start_strong_roots; |
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1801 double _strong_roots_time; |
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1802 double _start_term; |
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1803 double _term_time; |
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1804 |
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1805 // Map from young-age-index (0 == not young, 1 is youngest) to |
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1806 // surviving words. base is what we get back from the malloc call |
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1807 size_t* _surviving_young_words_base; |
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1808 // this points into the array, as we use the first few entries for padding |
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1809 size_t* _surviving_young_words; |
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1810 |
1709 | 1811 #define PADDING_ELEM_NUM (DEFAULT_CACHE_LINE_SIZE / sizeof(size_t)) |
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1812 |
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1813 void add_to_alloc_buffer_waste(size_t waste) { _alloc_buffer_waste += waste; } |
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1814 |
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1815 void add_to_undo_waste(size_t waste) { _undo_waste += waste; } |
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1816 |
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1817 DirtyCardQueue& dirty_card_queue() { return _dcq; } |
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1818 CardTableModRefBS* ctbs() { return _ct_bs; } |
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1819 |
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1820 template <class T> void immediate_rs_update(HeapRegion* from, T* p, int tid) { |
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1821 if (!from->is_survivor()) { |
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1822 _g1_rem->par_write_ref(from, p, tid); |
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1823 } |
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1824 } |
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1825 |
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1826 template <class T> void deferred_rs_update(HeapRegion* from, T* p, int tid) { |
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1827 // If the new value of the field points to the same region or |
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1828 // is the to-space, we don't need to include it in the Rset updates. |
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1829 if (!from->is_in_reserved(oopDesc::load_decode_heap_oop(p)) && !from->is_survivor()) { |
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1830 size_t card_index = ctbs()->index_for(p); |
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1831 // If the card hasn't been added to the buffer, do it. |
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1832 if (ctbs()->mark_card_deferred(card_index)) { |
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1833 dirty_card_queue().enqueue((jbyte*)ctbs()->byte_for_index(card_index)); |
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1834 } |
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1835 } |
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1836 } |
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1837 |
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1838 public: |
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1839 G1ParScanThreadState(G1CollectedHeap* g1h, int queue_num); |
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1840 |
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1841 ~G1ParScanThreadState() { |
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1842 FREE_C_HEAP_ARRAY(size_t, _surviving_young_words_base); |
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1843 } |
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1844 |
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1845 RefToScanQueue* refs() { return _refs; } |
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1846 ageTable* age_table() { return &_age_table; } |
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1847 |
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1848 G1ParGCAllocBuffer* alloc_buffer(GCAllocPurpose purpose) { |
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1849 return _alloc_buffers[purpose]; |
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1850 } |
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1851 |
1709 | 1852 size_t alloc_buffer_waste() const { return _alloc_buffer_waste; } |
1853 size_t undo_waste() const { return _undo_waste; } | |
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1854 |
1862
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1855 #ifdef ASSERT |
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1856 bool verify_ref(narrowOop* ref) const; |
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1857 bool verify_ref(oop* ref) const; |
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1858 bool verify_task(StarTask ref) const; |
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1859 #endif // ASSERT |
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1860 |
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1861 template <class T> void push_on_queue(T* ref) { |
1862
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1862 assert(verify_ref(ref), "sanity"); |
1709 | 1863 refs()->push(ref); |
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1864 } |
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1865 |
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1866 template <class T> void update_rs(HeapRegion* from, T* p, int tid) { |
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1867 if (G1DeferredRSUpdate) { |
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1868 deferred_rs_update(from, p, tid); |
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1869 } else { |
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1870 immediate_rs_update(from, p, tid); |
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1871 } |
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1872 } |
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1873 |
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1874 HeapWord* allocate_slow(GCAllocPurpose purpose, size_t word_sz) { |
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1875 |
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1876 HeapWord* obj = NULL; |
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1877 size_t gclab_word_size = _g1h->desired_plab_sz(purpose); |
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1878 if (word_sz * 100 < gclab_word_size * ParallelGCBufferWastePct) { |
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1879 G1ParGCAllocBuffer* alloc_buf = alloc_buffer(purpose); |
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1880 assert(gclab_word_size == alloc_buf->word_sz(), |
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1881 "dynamic resizing is not supported"); |
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1882 add_to_alloc_buffer_waste(alloc_buf->words_remaining()); |
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1883 alloc_buf->retire(false, false); |
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1884 |
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1885 HeapWord* buf = _g1h->par_allocate_during_gc(purpose, gclab_word_size); |
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1886 if (buf == NULL) return NULL; // Let caller handle allocation failure. |
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1887 // Otherwise. |
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1888 alloc_buf->set_buf(buf); |
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1889 |
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1890 obj = alloc_buf->allocate(word_sz); |
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1891 assert(obj != NULL, "buffer was definitely big enough..."); |
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1892 } else { |
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1893 obj = _g1h->par_allocate_during_gc(purpose, word_sz); |
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1894 } |
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1895 return obj; |
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1896 } |
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1897 |
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1898 HeapWord* allocate(GCAllocPurpose purpose, size_t word_sz) { |
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1899 HeapWord* obj = alloc_buffer(purpose)->allocate(word_sz); |
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1900 if (obj != NULL) return obj; |
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1901 return allocate_slow(purpose, word_sz); |
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1902 } |
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1903 |
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1904 void undo_allocation(GCAllocPurpose purpose, HeapWord* obj, size_t word_sz) { |
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1905 if (alloc_buffer(purpose)->contains(obj)) { |
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1906 assert(alloc_buffer(purpose)->contains(obj + word_sz - 1), |
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1907 "should contain whole object"); |
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1908 alloc_buffer(purpose)->undo_allocation(obj, word_sz); |
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1909 } else { |
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1910 CollectedHeap::fill_with_object(obj, word_sz); |
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1911 add_to_undo_waste(word_sz); |
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1912 } |
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1913 } |
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1914 |
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1915 void set_evac_failure_closure(OopsInHeapRegionClosure* evac_failure_cl) { |
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1916 _evac_failure_cl = evac_failure_cl; |
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1917 } |
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1918 OopsInHeapRegionClosure* evac_failure_closure() { |
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1919 return _evac_failure_cl; |
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1920 } |
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1921 |
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1922 void set_evac_closure(G1ParScanHeapEvacClosure* evac_cl) { |
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1923 _evac_cl = evac_cl; |
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1924 } |
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1925 |
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1926 void set_partial_scan_closure(G1ParScanPartialArrayClosure* partial_scan_cl) { |
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1927 _partial_scan_cl = partial_scan_cl; |
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1928 } |
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1929 |
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1930 int* hash_seed() { return &_hash_seed; } |
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1931 int queue_num() { return _queue_num; } |
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1932 |
1709 | 1933 size_t term_attempts() const { return _term_attempts; } |
1611 | 1934 void note_term_attempt() { _term_attempts++; } |
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1935 |
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1936 void start_strong_roots() { |
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1937 _start_strong_roots = os::elapsedTime(); |
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1938 } |
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1939 void end_strong_roots() { |
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1940 _strong_roots_time += (os::elapsedTime() - _start_strong_roots); |
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1941 } |
1709 | 1942 double strong_roots_time() const { return _strong_roots_time; } |
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1943 |
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1944 void start_term_time() { |
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1945 note_term_attempt(); |
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1946 _start_term = os::elapsedTime(); |
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1947 } |
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1948 void end_term_time() { |
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1949 _term_time += (os::elapsedTime() - _start_term); |
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1950 } |
1709 | 1951 double term_time() const { return _term_time; } |
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1952 |
1709 | 1953 double elapsed_time() const { |
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1954 return os::elapsedTime() - _start; |
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1955 } |
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1956 |
1709 | 1957 static void |
1958 print_termination_stats_hdr(outputStream* const st = gclog_or_tty); | |
1959 void | |
1960 print_termination_stats(int i, outputStream* const st = gclog_or_tty) const; | |
1961 | |
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1962 size_t* surviving_young_words() { |
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1963 // We add on to hide entry 0 which accumulates surviving words for |
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1964 // age -1 regions (i.e. non-young ones) |
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1965 return _surviving_young_words; |
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1966 } |
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1967 |
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1968 void retire_alloc_buffers() { |
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1969 for (int ap = 0; ap < GCAllocPurposeCount; ++ap) { |
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1970 size_t waste = _alloc_buffers[ap]->words_remaining(); |
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1971 add_to_alloc_buffer_waste(waste); |
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1972 _alloc_buffers[ap]->retire(true, false); |
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1973 } |
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1974 } |
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1975 |
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1976 template <class T> void deal_with_reference(T* ref_to_scan) { |
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1977 if (has_partial_array_mask(ref_to_scan)) { |
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1978 _partial_scan_cl->do_oop_nv(ref_to_scan); |
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1979 } else { |
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1980 // Note: we can use "raw" versions of "region_containing" because |
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1981 // "obj_to_scan" is definitely in the heap, and is not in a |
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1982 // humongous region. |
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1983 HeapRegion* r = _g1h->heap_region_containing_raw(ref_to_scan); |
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1984 _evac_cl->set_region(r); |
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1985 _evac_cl->do_oop_nv(ref_to_scan); |
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1986 } |
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1987 } |
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1988 |
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1989 void deal_with_reference(StarTask ref) { |
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1990 assert(verify_task(ref), "sanity"); |
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1991 if (ref.is_narrow()) { |
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1992 deal_with_reference((narrowOop*)ref); |
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1993 } else { |
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1994 deal_with_reference((oop*)ref); |
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1995 } |
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1996 } |
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1997 |
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1998 public: |
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1999 void trim_queue(); |
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2000 }; |
1972 | 2001 |
2002 #endif // SHARE_VM_GC_IMPLEMENTATION_G1_G1COLLECTEDHEAP_HPP |