src/heap/incremental-marking.h - v8/v8.git - Git at Google

 // Copyright 2012 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef V8_HEAP_INCREMENTAL_MARKING_H_
 #define V8_HEAP_INCREMENTAL_MARKING_H_

 #include "src/cancelable-task.h"
 #include "src/execution.h"
 #include "src/heap/heap.h"
 #include "src/heap/incremental-marking-job.h"
 #include "src/heap/mark-compact.h"
 #include "src/heap/spaces.h"
 #include "src/objects.h"

 namespace v8 {
 namespace internal {

 // Forward declarations.
 class MarkBit;
 class PagedSpace;

 enum class StepOrigin { kV8, kTask };

 class IncrementalMarking {
  public:
   enum State { STOPPED, SWEEPING, MARKING, COMPLETE };

   enum CompletionAction { GC_VIA_STACK_GUARD, NO_GC_VIA_STACK_GUARD };

   enum ForceCompletionAction { FORCE_COMPLETION, DO_NOT_FORCE_COMPLETION };

   enum GCRequestType { NONE, COMPLETE_MARKING, FINALIZATION };

   explicit IncrementalMarking(Heap* heap);

   static void Initialize();

   State state() {
     DCHECK(state_ == STOPPED || FLAG_incremental_marking);
     return state_;
   }

   bool should_hurry() { return should_hurry_; }
   void set_should_hurry(bool val) { should_hurry_ = val; }

   bool finalize_marking_completed() const {
     return finalize_marking_completed_;
   }

   void SetWeakClosureWasOverApproximatedForTesting(bool val) {
     finalize_marking_completed_ = val;
   }

   inline bool IsStopped() { return state() == STOPPED; }

   inline bool IsSweeping() { return state() == SWEEPING; }

   INLINE(bool IsMarking()) { return state() >= MARKING; }

   inline bool IsMarkingIncomplete() { return state() == MARKING; }

   inline bool IsComplete() { return state() == COMPLETE; }

   inline bool IsReadyToOverApproximateWeakClosure() const {
     return request_type_ == FINALIZATION && !finalize_marking_completed_;
   }

   inline bool NeedsFinalization() {
     return IsMarking() &&
            (request_type_ == FINALIZATION || request_type_ == COMPLETE_MARKING);
   }

   GCRequestType request_type() const { return request_type_; }

   void reset_request_type() { request_type_ = NONE; }

   bool CanBeActivated();

   bool WasActivated();

   void Start(GarbageCollectionReason gc_reason);

   void FinalizeIncrementally();

   void UpdateMarkingDequeAfterScavenge();

   void Hurry();

   void Finalize();

   void Stop();

   void FinalizeMarking(CompletionAction action);

   void MarkingComplete(CompletionAction action);

   void Epilogue();

   // Performs incremental marking steps until deadline_in_ms is reached. It
   // returns the remaining time that cannot be used for incremental marking
   // anymore because a single step would exceed the deadline.
   double AdvanceIncrementalMarking(double deadline_in_ms,
                                    CompletionAction completion_action,
                                    ForceCompletionAction force_completion,
                                    StepOrigin step_origin);

   // It's hard to know how much work the incremental marker should do to make
   // progress in the face of the mutator creating new work for it.  We start
   // of at a moderate rate of work and gradually increase the speed of the
   // incremental marker until it completes.
   // Do some marking every time this much memory has been allocated or that many
   // heavy (color-checking) write barriers have been invoked.
   static const size_t kAllocatedThreshold = 64 * KB;

   static const int kStepSizeInMs = 1;
   static const int kMaxStepSizeInMs = 5;

   // This is the upper bound for how many times we allow finalization of
   // incremental marking to be postponed.
   static const int kMaxIdleMarkingDelayCounter = 3;

 #ifndef DEBUG
   static const intptr_t kActivationThreshold = 8 * MB;
 #else
   static const intptr_t kActivationThreshold = 0;
 #endif

   void FinalizeSweeping();

   size_t Step(size_t bytes_to_process, CompletionAction action,
               ForceCompletionAction completion, StepOrigin step_origin);

   inline void RestartIfNotMarking();

   static void RecordWriteFromCode(HeapObject* obj, Object** slot,
                                   Isolate* isolate);

   static void RecordWriteOfCodeEntryFromCode(JSFunction* host, Object** slot,
                                              Isolate* isolate);

   // Record a slot for compaction.  Returns false for objects that are
   // guaranteed to be rescanned or not guaranteed to survive.
   //
   // No slots in white objects should be recorded, as some slots are typed and
   // cannot be interpreted correctly if the underlying object does not survive
   // the incremental cycle (stays white).
   INLINE(bool BaseRecordWrite(HeapObject* obj, Object* value));
   INLINE(void RecordWrite(HeapObject* obj, Object** slot, Object* value));
   INLINE(void RecordWriteIntoCode(Code* host, RelocInfo* rinfo, Object* value));
   INLINE(void RecordWriteOfCodeEntry(JSFunction* host, Object** slot,
                                      Code* value));

   V8_EXPORT_PRIVATE void RecordWriteSlow(HeapObject* obj, Object** slot,
                                          Object* value);
   void RecordWriteIntoCodeSlow(Code* host, RelocInfo* rinfo, Object* value);
   void RecordWriteOfCodeEntrySlow(JSFunction* host, Object** slot, Code* value);
   void RecordCodeTargetPatch(Code* host, Address pc, HeapObject* value);
   void RecordCodeTargetPatch(Address pc, HeapObject* value);

   void WhiteToGreyAndPush(HeapObject* obj, MarkBit mark_bit);

   inline void SetOldSpacePageFlags(MemoryChunk* chunk) {
     SetOldSpacePageFlags(chunk, IsMarking(), IsCompacting());
   }

   inline void SetNewSpacePageFlags(Page* chunk) {
     SetNewSpacePageFlags(chunk, IsMarking());
   }

   bool IsCompacting() { return IsMarking() && is_compacting_; }

   void ActivateGeneratedStub(Code* stub);

   void NotifyIncompleteScanOfObject(int unscanned_bytes) {
     unscanned_bytes_of_large_object_ = unscanned_bytes;
   }

   void ClearIdleMarkingDelayCounter();

   bool IsIdleMarkingDelayCounterLimitReached();

   static void MarkGrey(Heap* heap, HeapObject* object);

   static void MarkBlack(HeapObject* object, int size);

   static void TransferMark(Heap* heap, Address old_start, Address new_start);

   // Returns true if the color transfer requires live bytes updating.
   INLINE(static bool TransferColor(HeapObject* from, HeapObject* to,
                                    int size)) {
     MarkBit from_mark_bit = ObjectMarking::MarkBitFrom(from);
     MarkBit to_mark_bit = ObjectMarking::MarkBitFrom(to);

     if (Marking::IsBlack(to_mark_bit)) {
       DCHECK(to->GetHeap()->incremental_marking()->black_allocation());
       return false;
     }

     DCHECK(Marking::IsWhite(to_mark_bit));
     if (from_mark_bit.Get()) {
       to_mark_bit.Set();
       if (from_mark_bit.Next().Get()) {
         to_mark_bit.Next().Set();
         return true;
       }
     }
     return false;
   }

   void IterateBlackObject(HeapObject* object);

   Heap* heap() const { return heap_; }

   IncrementalMarkingJob* incremental_marking_job() {
     return &incremental_marking_job_;
   }

   bool black_allocation() { return black_allocation_; }

   void StartBlackAllocationForTesting() { StartBlackAllocation(); }

   void AbortBlackAllocation();

  private:
   class Observer : public AllocationObserver {
    public:
     Observer(IncrementalMarking& incremental_marking, intptr_t step_size)
         : AllocationObserver(step_size),
           incremental_marking_(incremental_marking) {}

     void Step(int bytes_allocated, Address, size_t) override {
       incremental_marking_.AdvanceIncrementalMarkingOnAllocation();
     }

    private:
     IncrementalMarking& incremental_marking_;
   };

   int64_t SpaceLeftInOldSpace();

   void StartMarking();

   void StartBlackAllocation();
   void FinishBlackAllocation();

   void MarkRoots();
   void MarkObjectGroups();
   void ProcessWeakCells();
   // Retain dying maps for <FLAG_retain_maps_for_n_gc> garbage collections to
   // increase chances of reusing of map transition tree in future.
   void RetainMaps();

   void ActivateIncrementalWriteBarrier(PagedSpace* space);
   static void ActivateIncrementalWriteBarrier(NewSpace* space);
   void ActivateIncrementalWriteBarrier();

   static void DeactivateIncrementalWriteBarrierForSpace(PagedSpace* space);
   static void DeactivateIncrementalWriteBarrierForSpace(NewSpace* space);
   void DeactivateIncrementalWriteBarrier();

   static void SetOldSpacePageFlags(MemoryChunk* chunk, bool is_marking,
                                    bool is_compacting);

   static void SetNewSpacePageFlags(MemoryChunk* chunk, bool is_marking);

   INLINE(void ProcessMarkingDeque());

   INLINE(intptr_t ProcessMarkingDeque(
       intptr_t bytes_to_process,
       ForceCompletionAction completion = DO_NOT_FORCE_COMPLETION));

   INLINE(void VisitObject(Map* map, HeapObject* obj, int size));

   void IncrementIdleMarkingDelayCounter();

   void AdvanceIncrementalMarkingOnAllocation();

   size_t StepSizeToKeepUpWithAllocations();
   size_t StepSizeToMakeProgress();

   Heap* heap_;

   State state_;

   double start_time_ms_;
   size_t initial_old_generation_size_;
   size_t old_generation_allocation_counter_;
   size_t bytes_allocated_;
   size_t bytes_marked_ahead_of_schedule_;
   size_t unscanned_bytes_of_large_object_;

   int idle_marking_delay_counter_;
   int incremental_marking_finalization_rounds_;

   bool is_compacting_;
   bool should_hurry_;
   bool was_activated_;
   bool black_allocation_;
   bool finalize_marking_completed_;

   GCRequestType request_type_;

   IncrementalMarkingJob incremental_marking_job_;
   Observer new_generation_observer_;
   Observer old_generation_observer_;

   DISALLOW_IMPLICIT_CONSTRUCTORS(IncrementalMarking);
 };
 }  // namespace internal
 }  // namespace v8

 #endif  // V8_HEAP_INCREMENTAL_MARKING_H_
	// Copyright 2012 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef V8_HEAP_INCREMENTAL_MARKING_H_
	#define V8_HEAP_INCREMENTAL_MARKING_H_

	#include "src/cancelable-task.h"
	#include "src/execution.h"
	#include "src/heap/heap.h"
	#include "src/heap/incremental-marking-job.h"
	#include "src/heap/mark-compact.h"
	#include "src/heap/spaces.h"
	#include "src/objects.h"

	namespace v8 {
	namespace internal {

	// Forward declarations.
	class MarkBit;
	class PagedSpace;

	enum class StepOrigin { kV8, kTask };

	class IncrementalMarking {
	public:
	enum State { STOPPED, SWEEPING, MARKING, COMPLETE };

	enum CompletionAction { GC_VIA_STACK_GUARD, NO_GC_VIA_STACK_GUARD };

	enum ForceCompletionAction { FORCE_COMPLETION, DO_NOT_FORCE_COMPLETION };

	enum GCRequestType { NONE, COMPLETE_MARKING, FINALIZATION };

	explicit IncrementalMarking(Heap* heap);

	static void Initialize();

	State state() {
	DCHECK(state_ == STOPPED \|\| FLAG_incremental_marking);
	return state_;
	}

	bool should_hurry() { return should_hurry_; }
	void set_should_hurry(bool val) { should_hurry_ = val; }

	bool finalize_marking_completed() const {
	return finalize_marking_completed_;
	}

	void SetWeakClosureWasOverApproximatedForTesting(bool val) {
	finalize_marking_completed_ = val;
	}

	inline bool IsStopped() { return state() == STOPPED; }

	inline bool IsSweeping() { return state() == SWEEPING; }

	INLINE(bool IsMarking()) { return state() >= MARKING; }

	inline bool IsMarkingIncomplete() { return state() == MARKING; }

	inline bool IsComplete() { return state() == COMPLETE; }

	inline bool IsReadyToOverApproximateWeakClosure() const {
	return request_type_ == FINALIZATION && !finalize_marking_completed_;
	}

	inline bool NeedsFinalization() {
	return IsMarking() &&
	(request_type_ == FINALIZATION \|\| request_type_ == COMPLETE_MARKING);
	}

	GCRequestType request_type() const { return request_type_; }

	void reset_request_type() { request_type_ = NONE; }

	bool CanBeActivated();

	bool WasActivated();

	void Start(GarbageCollectionReason gc_reason);

	void FinalizeIncrementally();

	void UpdateMarkingDequeAfterScavenge();

	void Hurry();

	void Finalize();

	void Stop();

	void FinalizeMarking(CompletionAction action);

	void MarkingComplete(CompletionAction action);

	void Epilogue();

	// Performs incremental marking steps until deadline_in_ms is reached. It
	// returns the remaining time that cannot be used for incremental marking
	// anymore because a single step would exceed the deadline.
	double AdvanceIncrementalMarking(double deadline_in_ms,
	CompletionAction completion_action,
	ForceCompletionAction force_completion,
	StepOrigin step_origin);

	// It's hard to know how much work the incremental marker should do to make
	// progress in the face of the mutator creating new work for it. We start
	// of at a moderate rate of work and gradually increase the speed of the
	// incremental marker until it completes.
	// Do some marking every time this much memory has been allocated or that many
	// heavy (color-checking) write barriers have been invoked.
	static const size_t kAllocatedThreshold = 64 * KB;

	static const int kStepSizeInMs = 1;
	static const int kMaxStepSizeInMs = 5;

	// This is the upper bound for how many times we allow finalization of
	// incremental marking to be postponed.
	static const int kMaxIdleMarkingDelayCounter = 3;

	#ifndef DEBUG
	static const intptr_t kActivationThreshold = 8 * MB;
	#else
	static const intptr_t kActivationThreshold = 0;
	#endif

	void FinalizeSweeping();

	size_t Step(size_t bytes_to_process, CompletionAction action,
	ForceCompletionAction completion, StepOrigin step_origin);

	inline void RestartIfNotMarking();

	static void RecordWriteFromCode(HeapObject* obj, Object** slot,
	Isolate* isolate);

	static void RecordWriteOfCodeEntryFromCode(JSFunction* host, Object** slot,
	Isolate* isolate);

	// Record a slot for compaction. Returns false for objects that are
	// guaranteed to be rescanned or not guaranteed to survive.
	//
	// No slots in white objects should be recorded, as some slots are typed and
	// cannot be interpreted correctly if the underlying object does not survive
	// the incremental cycle (stays white).
	INLINE(bool BaseRecordWrite(HeapObject* obj, Object* value));
	INLINE(void RecordWrite(HeapObject* obj, Object** slot, Object* value));
	INLINE(void RecordWriteIntoCode(Code* host, RelocInfo* rinfo, Object* value));
	INLINE(void RecordWriteOfCodeEntry(JSFunction* host, Object** slot,
	Code* value));

	V8_EXPORT_PRIVATE void RecordWriteSlow(HeapObject* obj, Object** slot,
	Object* value);
	void RecordWriteIntoCodeSlow(Code* host, RelocInfo* rinfo, Object* value);
	void RecordWriteOfCodeEntrySlow(JSFunction* host, Object** slot, Code* value);
	void RecordCodeTargetPatch(Code* host, Address pc, HeapObject* value);
	void RecordCodeTargetPatch(Address pc, HeapObject* value);

	void WhiteToGreyAndPush(HeapObject* obj, MarkBit mark_bit);

	inline void SetOldSpacePageFlags(MemoryChunk* chunk) {
	SetOldSpacePageFlags(chunk, IsMarking(), IsCompacting());
	}

	inline void SetNewSpacePageFlags(Page* chunk) {
	SetNewSpacePageFlags(chunk, IsMarking());
	}

	bool IsCompacting() { return IsMarking() && is_compacting_; }

	void ActivateGeneratedStub(Code* stub);

	void NotifyIncompleteScanOfObject(int unscanned_bytes) {
	unscanned_bytes_of_large_object_ = unscanned_bytes;
	}

	void ClearIdleMarkingDelayCounter();

	bool IsIdleMarkingDelayCounterLimitReached();

	static void MarkGrey(Heap* heap, HeapObject* object);

	static void MarkBlack(HeapObject* object, int size);

	static void TransferMark(Heap* heap, Address old_start, Address new_start);

	// Returns true if the color transfer requires live bytes updating.
	INLINE(static bool TransferColor(HeapObject* from, HeapObject* to,
	int size)) {
	MarkBit from_mark_bit = ObjectMarking::MarkBitFrom(from);
	MarkBit to_mark_bit = ObjectMarking::MarkBitFrom(to);

	if (Marking::IsBlack(to_mark_bit)) {
	DCHECK(to->GetHeap()->incremental_marking()->black_allocation());
	return false;
	}

	DCHECK(Marking::IsWhite(to_mark_bit));
	if (from_mark_bit.Get()) {
	to_mark_bit.Set();
	if (from_mark_bit.Next().Get()) {
	to_mark_bit.Next().Set();
	return true;
	}
	}
	return false;
	}

	void IterateBlackObject(HeapObject* object);

	Heap* heap() const { return heap_; }

	IncrementalMarkingJob* incremental_marking_job() {
	return &incremental_marking_job_;
	}

	bool black_allocation() { return black_allocation_; }

	void StartBlackAllocationForTesting() { StartBlackAllocation(); }

	void AbortBlackAllocation();

	private:
	class Observer : public AllocationObserver {
	public:
	Observer(IncrementalMarking& incremental_marking, intptr_t step_size)
	: AllocationObserver(step_size),
	incremental_marking_(incremental_marking) {}

	void Step(int bytes_allocated, Address, size_t) override {
	incremental_marking_.AdvanceIncrementalMarkingOnAllocation();
	}

	private:
	IncrementalMarking& incremental_marking_;
	};

	int64_t SpaceLeftInOldSpace();

	void StartMarking();

	void StartBlackAllocation();
	void FinishBlackAllocation();

	void MarkRoots();
	void MarkObjectGroups();
	void ProcessWeakCells();
	// Retain dying maps for <FLAG_retain_maps_for_n_gc> garbage collections to
	// increase chances of reusing of map transition tree in future.
	void RetainMaps();

	void ActivateIncrementalWriteBarrier(PagedSpace* space);
	static void ActivateIncrementalWriteBarrier(NewSpace* space);
	void ActivateIncrementalWriteBarrier();

	static void DeactivateIncrementalWriteBarrierForSpace(PagedSpace* space);
	static void DeactivateIncrementalWriteBarrierForSpace(NewSpace* space);
	void DeactivateIncrementalWriteBarrier();

	static void SetOldSpacePageFlags(MemoryChunk* chunk, bool is_marking,
	bool is_compacting);

	static void SetNewSpacePageFlags(MemoryChunk* chunk, bool is_marking);

	INLINE(void ProcessMarkingDeque());

	INLINE(intptr_t ProcessMarkingDeque(
	intptr_t bytes_to_process,
	ForceCompletionAction completion = DO_NOT_FORCE_COMPLETION));

	INLINE(void VisitObject(Map* map, HeapObject* obj, int size));

	void IncrementIdleMarkingDelayCounter();

	void AdvanceIncrementalMarkingOnAllocation();

	size_t StepSizeToKeepUpWithAllocations();
	size_t StepSizeToMakeProgress();

	Heap* heap_;

	State state_;

	double start_time_ms_;
	size_t initial_old_generation_size_;
	size_t old_generation_allocation_counter_;
	size_t bytes_allocated_;
	size_t bytes_marked_ahead_of_schedule_;
	size_t unscanned_bytes_of_large_object_;

	int idle_marking_delay_counter_;
	int incremental_marking_finalization_rounds_;

	bool is_compacting_;
	bool should_hurry_;
	bool was_activated_;
	bool black_allocation_;
	bool finalize_marking_completed_;

	GCRequestType request_type_;

	IncrementalMarkingJob incremental_marking_job_;
	Observer new_generation_observer_;
	Observer old_generation_observer_;

	DISALLOW_IMPLICIT_CONSTRUCTORS(IncrementalMarking);
	};
	} // namespace internal
	} // namespace v8

	#endif // V8_HEAP_INCREMENTAL_MARKING_H_