1/*
2 * Copyright (C) 1999-2000 Harri Porten (porten@kde.org)
3 * Copyright (C) 2001 Peter Kelly (pmk@post.com)
4 * Copyright (C) 2003-2019 Apple Inc. All rights reserved.
5 *
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2 of the License, or (at your option) any later version.
10 *
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
15 *
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, write to the Free Software
18 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
19 *
20 */
21
22#pragma once
23
24#include "ArrayBuffer.h"
25#include "CellState.h"
26#include "CollectionScope.h"
27#include "CollectorPhase.h"
28#include "DeleteAllCodeEffort.h"
29#include "GCConductor.h"
30#include "GCIncomingRefCountedSet.h"
31#include "GCRequest.h"
32#include "HandleSet.h"
33#include "HeapFinalizerCallback.h"
34#include "HeapObserver.h"
35#include "MarkedBlock.h"
36#include "MarkedSpace.h"
37#include "MutatorState.h"
38#include "Options.h"
39#include "StructureIDTable.h"
40#include "Synchronousness.h"
41#include "WeakHandleOwner.h"
42#include <wtf/AutomaticThread.h>
43#include <wtf/ConcurrentPtrHashSet.h>
44#include <wtf/Deque.h>
45#include <wtf/HashCountedSet.h>
46#include <wtf/HashSet.h>
47#include <wtf/Markable.h>
48#include <wtf/ParallelHelperPool.h>
49#include <wtf/Threading.h>
50
51namespace JSC {
52
53class CodeBlock;
54class CodeBlockSet;
55class CollectingScope;
56class ConservativeRoots;
57class GCDeferralContext;
58class EdenGCActivityCallback;
59class FullGCActivityCallback;
60class GCActivityCallback;
61class GCAwareJITStubRoutine;
62class Heap;
63class HeapProfiler;
64class HeapVerifier;
65class IncrementalSweeper;
66class JITStubRoutine;
67class JITStubRoutineSet;
68class JSCell;
69class JSImmutableButterfly;
70class JSValue;
71class LLIntOffsetsExtractor;
72class MachineThreads;
73class MarkStackArray;
74class MarkStackMergingConstraint;
75class BlockDirectory;
76class MarkedArgumentBuffer;
77class MarkingConstraint;
78class MarkingConstraintSet;
79class MutatorScheduler;
80class RunningScope;
81class SlotVisitor;
82class SpaceTimeMutatorScheduler;
83class StopIfNecessaryTimer;
84class SweepingScope;
85class VM;
86class WeakGCMapBase;
87struct CurrentThreadState;
88
89#if USE(GLIB)
90class JSCGLibWrapperObject;
91#endif
92
93namespace DFG {
94class SpeculativeJIT;
95class Worklist;
96}
97
98#if !ASSERT_DISABLED
99#define ENABLE_DFG_DOES_GC_VALIDATION 1
100#else
101#define ENABLE_DFG_DOES_GC_VALIDATION 0
102#endif
103constexpr bool validateDFGDoesGC = ENABLE_DFG_DOES_GC_VALIDATION;
104
105typedef HashCountedSet<JSCell*> ProtectCountSet;
106typedef HashCountedSet<const char*> TypeCountSet;
107
108enum HeapType { SmallHeap, LargeHeap };
109
110class HeapUtil;
111
112class Heap {
113 WTF_MAKE_NONCOPYABLE(Heap);
114public:
115 friend class JIT;
116 friend class DFG::SpeculativeJIT;
117 static Heap* heap(const JSValue); // 0 for immediate values
118 static Heap* heap(const HeapCell*);
119
120 // This constant determines how many blocks we iterate between checks of our
121 // deadline when calling Heap::isPagedOut. Decreasing it will cause us to detect
122 // overstepping our deadline more quickly, while increasing it will cause
123 // our scan to run faster.
124 static const unsigned s_timeCheckResolution = 16;
125
126 bool isMarked(const void*);
127 static bool testAndSetMarked(HeapVersion, const void*);
128
129 static size_t cellSize(const void*);
130
131 void writeBarrier(const JSCell* from);
132 void writeBarrier(const JSCell* from, JSValue to);
133 void writeBarrier(const JSCell* from, JSCell* to);
134
135 void writeBarrierWithoutFence(const JSCell* from);
136
137 void mutatorFence();
138
139 // Take this if you know that from->cellState() < barrierThreshold.
140 JS_EXPORT_PRIVATE void writeBarrierSlowPath(const JSCell* from);
141
142 Heap(VM*, HeapType);
143 ~Heap();
144 void lastChanceToFinalize();
145 void releaseDelayedReleasedObjects();
146
147 VM* vm() const;
148
149 MarkedSpace& objectSpace() { return m_objectSpace; }
150 MachineThreads& machineThreads() { return *m_machineThreads; }
151
152 SlotVisitor& collectorSlotVisitor() { return *m_collectorSlotVisitor; }
153
154 JS_EXPORT_PRIVATE GCActivityCallback* fullActivityCallback();
155 JS_EXPORT_PRIVATE GCActivityCallback* edenActivityCallback();
156 JS_EXPORT_PRIVATE void setGarbageCollectionTimerEnabled(bool);
157
158 JS_EXPORT_PRIVATE IncrementalSweeper& sweeper();
159
160 void addObserver(HeapObserver* observer) { m_observers.append(observer); }
161 void removeObserver(HeapObserver* observer) { m_observers.removeFirst(observer); }
162
163 MutatorState mutatorState() const { return m_mutatorState; }
164 Optional<CollectionScope> collectionScope() const { return m_collectionScope; }
165 bool hasHeapAccess() const;
166 bool worldIsStopped() const;
167 bool worldIsRunning() const { return !worldIsStopped(); }
168
169 // We're always busy on the collection threads. On the main thread, this returns true if we're
170 // helping heap.
171 JS_EXPORT_PRIVATE bool isCurrentThreadBusy();
172
173 typedef void (*Finalizer)(JSCell*);
174 JS_EXPORT_PRIVATE void addFinalizer(JSCell*, Finalizer);
175
176 void notifyIsSafeToCollect();
177 bool isSafeToCollect() const { return m_isSafeToCollect; }
178
179 bool isShuttingDown() const { return m_isShuttingDown; }
180
181 JS_EXPORT_PRIVATE bool isHeapSnapshotting() const;
182
183 JS_EXPORT_PRIVATE void sweepSynchronously();
184
185 bool shouldCollectHeuristic();
186
187 // Queue up a collection. Returns immediately. This will not queue a collection if a collection
188 // of equal or greater strength exists. Full collections are stronger than WTF::nullopt collections
189 // and WTF::nullopt collections are stronger than Eden collections. WTF::nullopt means that the GC can
190 // choose Eden or Full. This implies that if you request a GC while that GC is ongoing, nothing
191 // will happen.
192 JS_EXPORT_PRIVATE void collectAsync(GCRequest = GCRequest());
193
194 // Queue up a collection and wait for it to complete. This won't return until you get your own
195 // complete collection. For example, if there was an ongoing asynchronous collection at the time
196 // you called this, then this would wait for that one to complete and then trigger your
197 // collection and then return. In weird cases, there could be multiple GC requests in the backlog
198 // and this will wait for that backlog before running its GC and returning.
199 JS_EXPORT_PRIVATE void collectSync(GCRequest = GCRequest());
200
201 JS_EXPORT_PRIVATE void collect(Synchronousness, GCRequest = GCRequest());
202
203 // Like collect(), but in the case of Async this will stopIfNecessary() and in the case of
204 // Sync this will sweep synchronously.
205 JS_EXPORT_PRIVATE void collectNow(Synchronousness, GCRequest = GCRequest());
206
207 JS_EXPORT_PRIVATE void collectNowFullIfNotDoneRecently(Synchronousness);
208
209 void collectIfNecessaryOrDefer(GCDeferralContext* = nullptr);
210
211 void completeAllJITPlans();
212
213 // Use this API to report non-GC memory referenced by GC objects. Be sure to
214 // call both of these functions: Calling only one may trigger catastropic
215 // memory growth.
216 void reportExtraMemoryAllocated(size_t);
217 JS_EXPORT_PRIVATE void reportExtraMemoryVisited(size_t);
218
219#if ENABLE(RESOURCE_USAGE)
220 // Use this API to report the subset of extra memory that lives outside this process.
221 JS_EXPORT_PRIVATE void reportExternalMemoryVisited(size_t);
222 size_t externalMemorySize() { return m_externalMemorySize; }
223#endif
224
225 // Use this API to report non-GC memory if you can't use the better API above.
226 void deprecatedReportExtraMemory(size_t);
227
228 JS_EXPORT_PRIVATE void reportAbandonedObjectGraph();
229
230 JS_EXPORT_PRIVATE void protect(JSValue);
231 JS_EXPORT_PRIVATE bool unprotect(JSValue); // True when the protect count drops to 0.
232
233 JS_EXPORT_PRIVATE size_t extraMemorySize(); // Non-GC memory referenced by GC objects.
234 JS_EXPORT_PRIVATE size_t size();
235 JS_EXPORT_PRIVATE size_t capacity();
236 JS_EXPORT_PRIVATE size_t objectCount();
237 JS_EXPORT_PRIVATE size_t globalObjectCount();
238 JS_EXPORT_PRIVATE size_t protectedObjectCount();
239 JS_EXPORT_PRIVATE size_t protectedGlobalObjectCount();
240 JS_EXPORT_PRIVATE std::unique_ptr<TypeCountSet> protectedObjectTypeCounts();
241 JS_EXPORT_PRIVATE std::unique_ptr<TypeCountSet> objectTypeCounts();
242
243 HashSet<MarkedArgumentBuffer*>& markListSet();
244
245 template<typename Functor> void forEachProtectedCell(const Functor&);
246 template<typename Functor> void forEachCodeBlock(const Functor&);
247 template<typename Functor> void forEachCodeBlockIgnoringJITPlans(const AbstractLocker& codeBlockSetLocker, const Functor&);
248
249 HandleSet* handleSet() { return &m_handleSet; }
250
251 void willStartIterating();
252 void didFinishIterating();
253
254 Seconds lastFullGCLength() const { return m_lastFullGCLength; }
255 Seconds lastEdenGCLength() const { return m_lastEdenGCLength; }
256 void increaseLastFullGCLength(Seconds amount) { m_lastFullGCLength += amount; }
257
258 size_t sizeBeforeLastEdenCollection() const { return m_sizeBeforeLastEdenCollect; }
259 size_t sizeAfterLastEdenCollection() const { return m_sizeAfterLastEdenCollect; }
260 size_t sizeBeforeLastFullCollection() const { return m_sizeBeforeLastFullCollect; }
261 size_t sizeAfterLastFullCollection() const { return m_sizeAfterLastFullCollect; }
262
263 void deleteAllCodeBlocks(DeleteAllCodeEffort);
264 void deleteAllUnlinkedCodeBlocks(DeleteAllCodeEffort);
265
266 void didAllocate(size_t);
267 bool isPagedOut(MonotonicTime deadline);
268
269 const JITStubRoutineSet& jitStubRoutines() { return *m_jitStubRoutines; }
270
271 void addReference(JSCell*, ArrayBuffer*);
272
273 bool isDeferred() const { return !!m_deferralDepth; }
274
275 StructureIDTable& structureIDTable() { return m_structureIDTable; }
276
277 CodeBlockSet& codeBlockSet() { return *m_codeBlocks; }
278
279#if USE(FOUNDATION)
280 template<typename T> void releaseSoon(RetainPtr<T>&&);
281#endif
282#if USE(GLIB)
283 void releaseSoon(std::unique_ptr<JSCGLibWrapperObject>&&);
284#endif
285
286 JS_EXPORT_PRIVATE void registerWeakGCMap(WeakGCMapBase* weakGCMap);
287 JS_EXPORT_PRIVATE void unregisterWeakGCMap(WeakGCMapBase* weakGCMap);
288
289 void addLogicallyEmptyWeakBlock(WeakBlock*);
290
291#if ENABLE(RESOURCE_USAGE)
292 size_t blockBytesAllocated() const { return m_blockBytesAllocated; }
293#endif
294
295 void didAllocateBlock(size_t capacity);
296 void didFreeBlock(size_t capacity);
297
298 bool mutatorShouldBeFenced() const { return m_mutatorShouldBeFenced; }
299 const bool* addressOfMutatorShouldBeFenced() const { return &m_mutatorShouldBeFenced; }
300
301 unsigned barrierThreshold() const { return m_barrierThreshold; }
302 const unsigned* addressOfBarrierThreshold() const { return &m_barrierThreshold; }
303
304#if ENABLE(DFG_DOES_GC_VALIDATION)
305 bool expectDoesGC() const { return m_expectDoesGC; }
306 void setExpectDoesGC(bool value) { m_expectDoesGC = value; }
307 bool* addressOfExpectDoesGC() { return &m_expectDoesGC; }
308#else
309 bool expectDoesGC() const { UNREACHABLE_FOR_PLATFORM(); return true; }
310 void setExpectDoesGC(bool) { UNREACHABLE_FOR_PLATFORM(); }
311 bool* addressOfExpectDoesGC() { UNREACHABLE_FOR_PLATFORM(); return nullptr; }
312#endif
313
314 // If true, the GC believes that the mutator is currently messing with the heap. We call this
315 // "having heap access". The GC may block if the mutator is in this state. If false, the GC may
316 // currently be doing things to the heap that make the heap unsafe to access for the mutator.
317 bool hasAccess() const;
318
319 // If the mutator does not currently have heap access, this function will acquire it. If the GC
320 // is currently using the lack of heap access to do dangerous things to the heap then this
321 // function will block, waiting for the GC to finish. It's not valid to call this if the mutator
322 // already has heap access. The mutator is required to precisely track whether or not it has
323 // heap access.
324 //
325 // It's totally fine to acquireAccess() upon VM instantiation and keep it that way. This is how
326 // WebCore uses us. For most other clients, JSLock does acquireAccess()/releaseAccess() for you.
327 void acquireAccess();
328
329 // Releases heap access. If the GC is blocking waiting to do bad things to the heap, it will be
330 // allowed to run now.
331 //
332 // Ordinarily, you should use the ReleaseHeapAccessScope to release and then reacquire heap
333 // access. You should do this anytime you're about do perform a blocking operation, like waiting
334 // on the ParkingLot.
335 void releaseAccess();
336
337 // This is like a super optimized way of saying:
338 //
339 // releaseAccess()
340 // acquireAccess()
341 //
342 // The fast path is an inlined relaxed load and branch. The slow path will block the mutator if
343 // the GC wants to do bad things to the heap.
344 //
345 // All allocations logically call this. As an optimization to improve GC progress, you can call
346 // this anywhere that you can afford a load-branch and where an object allocation would have been
347 // safe.
348 //
349 // The GC will also push a stopIfNecessary() event onto the runloop of the thread that
350 // instantiated the VM whenever it wants the mutator to stop. This means that if you never block
351 // but instead use the runloop to wait for events, then you could safely run in a mode where the
352 // mutator has permanent heap access (like the DOM does). If you have good event handling
353 // discipline (i.e. you don't block the runloop) then you can be sure that stopIfNecessary() will
354 // already be called for you at the right times.
355 void stopIfNecessary();
356
357 // This gives the conn to the collector.
358 void relinquishConn();
359
360 bool mayNeedToStop();
361
362 void performIncrement(size_t bytes);
363
364 // This is a much stronger kind of stopping of the collector, and it may require waiting for a
365 // while. This is meant to be a legacy API for clients of collectAllGarbage that expect that there
366 // is no GC before or after that function call. After calling this, you are free to start GCs
367 // yourself but you can be sure that none are running.
368 //
369 // This both prevents new collections from being started asynchronously and waits for any
370 // outstanding collections to complete.
371 void preventCollection();
372 void allowCollection();
373
374 uint64_t mutatorExecutionVersion() const { return m_mutatorExecutionVersion; }
375 uint64_t phaseVersion() const { return m_phaseVersion; }
376
377 JS_EXPORT_PRIVATE void addMarkingConstraint(std::unique_ptr<MarkingConstraint>);
378
379 size_t numOpaqueRoots() const { return m_opaqueRoots.size(); }
380
381 HeapVerifier* verifier() const { return m_verifier.get(); }
382
383 void addHeapFinalizerCallback(const HeapFinalizerCallback&);
384 void removeHeapFinalizerCallback(const HeapFinalizerCallback&);
385
386 void runTaskInParallel(RefPtr<SharedTask<void(SlotVisitor&)>>);
387
388 template<typename Func>
389 void runFunctionInParallel(const Func& func)
390 {
391 runTaskInParallel(createSharedTask<void(SlotVisitor&)>(func));
392 }
393
394 template<typename Func>
395 void forEachSlotVisitor(const Func&);
396
397 Seconds totalGCTime() const { return m_totalGCTime; }
398
399 HashMap<JSImmutableButterfly*, JSString*> immutableButterflyToStringCache;
400
401private:
402 friend class AllocatingScope;
403 friend class CodeBlock;
404 friend class CollectingScope;
405 friend class DeferGC;
406 friend class DeferGCForAWhile;
407 friend class GCAwareJITStubRoutine;
408 friend class GCLogging;
409 friend class GCThread;
410 friend class HandleSet;
411 friend class HeapUtil;
412 friend class HeapVerifier;
413 friend class JITStubRoutine;
414 friend class LLIntOffsetsExtractor;
415 friend class MarkStackMergingConstraint;
416 friend class MarkedSpace;
417 friend class BlockDirectory;
418 friend class MarkedBlock;
419 friend class RunningScope;
420 friend class SlotVisitor;
421 friend class SpaceTimeMutatorScheduler;
422 friend class StochasticSpaceTimeMutatorScheduler;
423 friend class SweepingScope;
424 friend class IncrementalSweeper;
425 friend class VM;
426 friend class WeakSet;
427
428 class HeapThread;
429 friend class HeapThread;
430
431 static const size_t minExtraMemory = 256;
432
433 class FinalizerOwner : public WeakHandleOwner {
434 void finalize(Handle<Unknown>, void* context) override;
435 };
436
437 JS_EXPORT_PRIVATE bool isValidAllocation(size_t);
438 JS_EXPORT_PRIVATE void reportExtraMemoryAllocatedSlowCase(size_t);
439 JS_EXPORT_PRIVATE void deprecatedReportExtraMemorySlowCase(size_t);
440
441 bool shouldCollectInCollectorThread(const AbstractLocker&);
442 void collectInCollectorThread();
443
444 void checkConn(GCConductor);
445
446 enum class RunCurrentPhaseResult {
447 Finished,
448 Continue,
449 NeedCurrentThreadState
450 };
451 RunCurrentPhaseResult runCurrentPhase(GCConductor, CurrentThreadState*);
452
453 // Returns true if we should keep doing things.
454 bool runNotRunningPhase(GCConductor);
455 bool runBeginPhase(GCConductor);
456 bool runFixpointPhase(GCConductor);
457 bool runConcurrentPhase(GCConductor);
458 bool runReloopPhase(GCConductor);
459 bool runEndPhase(GCConductor);
460 bool changePhase(GCConductor, CollectorPhase);
461 bool finishChangingPhase(GCConductor);
462
463 void collectInMutatorThread();
464
465 void stopThePeriphery(GCConductor);
466 void resumeThePeriphery();
467
468 // Returns true if the mutator is stopped, false if the mutator has the conn now.
469 bool stopTheMutator();
470 void resumeTheMutator();
471
472 JS_EXPORT_PRIVATE void stopIfNecessarySlow();
473 bool stopIfNecessarySlow(unsigned extraStateBits);
474
475 template<typename Func>
476 void waitForCollector(const Func&);
477
478 JS_EXPORT_PRIVATE void acquireAccessSlow();
479 JS_EXPORT_PRIVATE void releaseAccessSlow();
480
481 bool handleGCDidJIT(unsigned);
482 void handleGCDidJIT();
483
484 bool handleNeedFinalize(unsigned);
485 void handleNeedFinalize();
486
487 bool relinquishConn(unsigned);
488 void finishRelinquishingConn();
489
490 void setGCDidJIT();
491 void setNeedFinalize();
492 void waitWhileNeedFinalize();
493
494 void setMutatorWaiting();
495 void clearMutatorWaiting();
496 void notifyThreadStopping(const AbstractLocker&);
497
498 typedef uint64_t Ticket;
499 Ticket requestCollection(GCRequest);
500 void waitForCollection(Ticket);
501
502 void suspendCompilerThreads();
503 void willStartCollection();
504 void prepareForMarking();
505
506 void gatherStackRoots(ConservativeRoots&);
507 void gatherJSStackRoots(ConservativeRoots&);
508 void gatherScratchBufferRoots(ConservativeRoots&);
509 void beginMarking();
510 void visitCompilerWorklistWeakReferences();
511 void removeDeadCompilerWorklistEntries();
512 void updateObjectCounts();
513 void endMarking();
514
515 void reapWeakHandles();
516 void pruneStaleEntriesFromWeakGCMaps();
517 void sweepArrayBuffers();
518 void snapshotUnswept();
519 void deleteSourceProviderCaches();
520 void notifyIncrementalSweeper();
521 void harvestWeakReferences();
522
523 template<typename CellType, typename CellSet>
524 void finalizeMarkedUnconditionalFinalizers(CellSet&);
525
526 void finalizeUnconditionalFinalizers();
527
528 void deleteUnmarkedCompiledCode();
529 JS_EXPORT_PRIVATE void addToRememberedSet(const JSCell*);
530 void updateAllocationLimits();
531 void didFinishCollection();
532 void resumeCompilerThreads();
533 void gatherExtraHeapSnapshotData(HeapProfiler&);
534 void removeDeadHeapSnapshotNodes(HeapProfiler&);
535 void finalize();
536 void sweepInFinalize();
537
538 void sweepAllLogicallyEmptyWeakBlocks();
539 bool sweepNextLogicallyEmptyWeakBlock();
540
541 bool shouldDoFullCollection();
542
543 void incrementDeferralDepth();
544 void decrementDeferralDepth();
545 void decrementDeferralDepthAndGCIfNeeded();
546 JS_EXPORT_PRIVATE void decrementDeferralDepthAndGCIfNeededSlow();
547
548 size_t visitCount();
549 size_t bytesVisited();
550
551 void forEachCodeBlockImpl(const ScopedLambda<void(CodeBlock*)>&);
552 void forEachCodeBlockIgnoringJITPlansImpl(const AbstractLocker& codeBlockSetLocker, const ScopedLambda<void(CodeBlock*)>&);
553
554 void setMutatorShouldBeFenced(bool value);
555
556 void addCoreConstraints();
557
558 enum class MemoryThresholdCallType {
559 Cached,
560 Direct
561 };
562
563 bool overCriticalMemoryThreshold(MemoryThresholdCallType memoryThresholdCallType = MemoryThresholdCallType::Cached);
564
565 template<typename Func>
566 void iterateExecutingAndCompilingCodeBlocks(const Func&);
567
568 template<typename Func>
569 void iterateExecutingAndCompilingCodeBlocksWithoutHoldingLocks(const Func&);
570
571 void assertMarkStacksEmpty();
572
573 void setBonusVisitorTask(RefPtr<SharedTask<void(SlotVisitor&)>>);
574
575 void dumpHeapStatisticsAtVMDestruction();
576
577 static bool useGenerationalGC();
578 static bool shouldSweepSynchronously();
579
580 const HeapType m_heapType;
581 MutatorState m_mutatorState { MutatorState::Running };
582 const size_t m_ramSize;
583 const size_t m_minBytesPerCycle;
584 size_t m_sizeAfterLastCollect { 0 };
585 size_t m_sizeAfterLastFullCollect { 0 };
586 size_t m_sizeBeforeLastFullCollect { 0 };
587 size_t m_sizeAfterLastEdenCollect { 0 };
588 size_t m_sizeBeforeLastEdenCollect { 0 };
589
590 size_t m_bytesAllocatedThisCycle { 0 };
591 size_t m_bytesAbandonedSinceLastFullCollect { 0 };
592 size_t m_maxEdenSize;
593 size_t m_maxEdenSizeWhenCritical;
594 size_t m_maxHeapSize;
595 size_t m_totalBytesVisited { 0 };
596 size_t m_totalBytesVisitedThisCycle { 0 };
597 double m_incrementBalance { 0 };
598
599 bool m_shouldDoFullCollection { false };
600 Markable<CollectionScope, EnumMarkableTraits<CollectionScope>> m_collectionScope;
601 Markable<CollectionScope, EnumMarkableTraits<CollectionScope>> m_lastCollectionScope;
602 Lock m_raceMarkStackLock;
603#if ENABLE(DFG_DOES_GC_VALIDATION)
604 bool m_expectDoesGC { true };
605#endif
606
607 StructureIDTable m_structureIDTable;
608 MarkedSpace m_objectSpace;
609 GCIncomingRefCountedSet<ArrayBuffer> m_arrayBuffers;
610 size_t m_extraMemorySize { 0 };
611 size_t m_deprecatedExtraMemorySize { 0 };
612
613 HashSet<const JSCell*> m_copyingRememberedSet;
614
615 ProtectCountSet m_protectedValues;
616 std::unique_ptr<HashSet<MarkedArgumentBuffer*>> m_markListSet;
617
618 std::unique_ptr<MachineThreads> m_machineThreads;
619
620 std::unique_ptr<SlotVisitor> m_collectorSlotVisitor;
621 std::unique_ptr<SlotVisitor> m_mutatorSlotVisitor;
622 std::unique_ptr<MarkStackArray> m_mutatorMarkStack;
623 std::unique_ptr<MarkStackArray> m_raceMarkStack;
624 std::unique_ptr<MarkingConstraintSet> m_constraintSet;
625
626 // We pool the slot visitors used by parallel marking threads. It's useful to be able to
627 // enumerate over them, and it's useful to have them cache some small amount of memory from
628 // one GC to the next. GC marking threads claim these at the start of marking, and return
629 // them at the end.
630 Vector<std::unique_ptr<SlotVisitor>> m_parallelSlotVisitors;
631 Vector<SlotVisitor*> m_availableParallelSlotVisitors;
632
633 HandleSet m_handleSet;
634 std::unique_ptr<CodeBlockSet> m_codeBlocks;
635 std::unique_ptr<JITStubRoutineSet> m_jitStubRoutines;
636 FinalizerOwner m_finalizerOwner;
637
638 Lock m_parallelSlotVisitorLock;
639 bool m_isSafeToCollect { false };
640 bool m_isShuttingDown { false };
641 bool m_mutatorShouldBeFenced { Options::forceFencedBarrier() };
642
643 unsigned m_barrierThreshold { Options::forceFencedBarrier() ? tautologicalThreshold : blackThreshold };
644
645 VM* m_vm;
646 Seconds m_lastFullGCLength { 10_ms };
647 Seconds m_lastEdenGCLength { 10_ms };
648
649 Vector<WeakBlock*> m_logicallyEmptyWeakBlocks;
650 size_t m_indexOfNextLogicallyEmptyWeakBlockToSweep { WTF::notFound };
651
652 RefPtr<FullGCActivityCallback> m_fullActivityCallback;
653 RefPtr<GCActivityCallback> m_edenActivityCallback;
654 Ref<IncrementalSweeper> m_sweeper;
655 Ref<StopIfNecessaryTimer> m_stopIfNecessaryTimer;
656
657 Vector<HeapObserver*> m_observers;
658
659 Vector<HeapFinalizerCallback> m_heapFinalizerCallbacks;
660
661 std::unique_ptr<HeapVerifier> m_verifier;
662
663#if USE(FOUNDATION)
664 Vector<RetainPtr<CFTypeRef>> m_delayedReleaseObjects;
665 unsigned m_delayedReleaseRecursionCount { 0 };
666#endif
667#if USE(GLIB)
668 Vector<std::unique_ptr<JSCGLibWrapperObject>> m_delayedReleaseObjects;
669 unsigned m_delayedReleaseRecursionCount { 0 };
670#endif
671 unsigned m_deferralDepth { 0 };
672
673 HashSet<WeakGCMapBase*> m_weakGCMaps;
674
675 std::unique_ptr<MarkStackArray> m_sharedCollectorMarkStack;
676 std::unique_ptr<MarkStackArray> m_sharedMutatorMarkStack;
677 unsigned m_numberOfActiveParallelMarkers { 0 };
678 unsigned m_numberOfWaitingParallelMarkers { 0 };
679
680 ConcurrentPtrHashSet m_opaqueRoots;
681 static const size_t s_blockFragmentLength = 32;
682
683 ParallelHelperClient m_helperClient;
684 RefPtr<SharedTask<void(SlotVisitor&)>> m_bonusVisitorTask;
685
686#if ENABLE(RESOURCE_USAGE)
687 size_t m_blockBytesAllocated { 0 };
688 size_t m_externalMemorySize { 0 };
689#endif
690
691 std::unique_ptr<MutatorScheduler> m_scheduler;
692
693 static const unsigned mutatorHasConnBit = 1u << 0u; // Must also be protected by threadLock.
694 static const unsigned stoppedBit = 1u << 1u; // Only set when !hasAccessBit
695 static const unsigned hasAccessBit = 1u << 2u;
696 static const unsigned gcDidJITBit = 1u << 3u; // Set when the GC did some JITing, so on resume we need to cpuid.
697 static const unsigned needFinalizeBit = 1u << 4u;
698 static const unsigned mutatorWaitingBit = 1u << 5u; // Allows the mutator to use this as a condition variable.
699 Atomic<unsigned> m_worldState;
700 bool m_worldIsStopped { false };
701 Lock m_visitRaceLock;
702 Lock m_markingMutex;
703 Condition m_markingConditionVariable;
704
705 MonotonicTime m_beforeGC;
706 MonotonicTime m_afterGC;
707 MonotonicTime m_stopTime;
708
709 Deque<GCRequest> m_requests;
710 GCRequest m_currentRequest;
711 Ticket m_lastServedTicket { 0 };
712 Ticket m_lastGrantedTicket { 0 };
713
714 CollectorPhase m_lastPhase { CollectorPhase::NotRunning };
715 CollectorPhase m_currentPhase { CollectorPhase::NotRunning };
716 CollectorPhase m_nextPhase { CollectorPhase::NotRunning };
717 bool m_threadShouldStop { false };
718 bool m_threadIsStopping { false };
719 bool m_mutatorDidRun { true };
720 bool m_didDeferGCWork { false };
721 bool m_shouldStopCollectingContinuously { false };
722
723 uint64_t m_mutatorExecutionVersion { 0 };
724 uint64_t m_phaseVersion { 0 };
725 Box<Lock> m_threadLock;
726 Ref<AutomaticThreadCondition> m_threadCondition; // The mutator must not wait on this. It would cause a deadlock.
727 RefPtr<AutomaticThread> m_thread;
728
729 RefPtr<Thread> m_collectContinuouslyThread { nullptr };
730
731 MonotonicTime m_lastGCStartTime;
732 MonotonicTime m_lastGCEndTime;
733 MonotonicTime m_currentGCStartTime;
734 Seconds m_totalGCTime;
735
736 uintptr_t m_barriersExecuted { 0 };
737
738 CurrentThreadState* m_currentThreadState { nullptr };
739 Thread* m_currentThread { nullptr }; // It's OK if this becomes a dangling pointer.
740
741#if PLATFORM(IOS_FAMILY)
742 unsigned m_precentAvailableMemoryCachedCallCount;
743 bool m_overCriticalMemoryThreshold;
744#endif
745
746 bool m_parallelMarkersShouldExit { false };
747 Lock m_collectContinuouslyLock;
748 Condition m_collectContinuouslyCondition;
749};
750
751} // namespace JSC
752