src/heap/allocation-observer.cc - v8/v8 - Git at Google

 // Copyright 2020 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.

 #include "src/heap/allocation-observer.h"

 #include "src/heap/heap.h"
 #include "src/heap/spaces.h"

 namespace v8 {
 namespace internal {

 void AllocationCounter::AddAllocationObserver(AllocationObserver* observer) {
 #if DEBUG
   auto it = std::find_if(observers_.begin(), observers_.end(),
                          [observer](const AllocationObserverCounter& aoc) {
                            return aoc.observer_ == observer;
                          });
   DCHECK_EQ(observers_.end(), it);
 #endif

   if (step_in_progress_) {
     pending_.push_back(AllocationObserverCounter(observer, 0, 0));
     return;
   }

   intptr_t step_size = observer->GetNextStepSize();
   size_t observer_next_counter = current_counter_ + step_size;

   observers_.push_back(AllocationObserverCounter(observer, current_counter_,
                                                  observer_next_counter));

   if (observers_.size() == 1) {
     DCHECK_EQ(current_counter_, next_counter_);
     next_counter_ = observer_next_counter;
   } else {
     size_t missing_bytes = next_counter_ - current_counter_;
     next_counter_ =
         current_counter_ + Min(static_cast<intptr_t>(missing_bytes), step_size);
   }
 }

 void AllocationCounter::RemoveAllocationObserver(AllocationObserver* observer) {
   DCHECK(!step_in_progress_);
   auto it = std::find_if(observers_.begin(), observers_.end(),
                          [observer](const AllocationObserverCounter& aoc) {
                            return aoc.observer_ == observer;
                          });
   DCHECK_NE(observers_.end(), it);
   observers_.erase(it);

   if (observers_.size() == 0) {
     current_counter_ = next_counter_ = 0;
   } else {
     size_t step_size = 0;

     for (AllocationObserverCounter& observer : observers_) {
       size_t left_in_step = observer.next_counter_ - current_counter_;
       DCHECK_GT(left_in_step, 0);
       step_size = step_size ? Min(step_size, left_in_step) : left_in_step;
     }

     next_counter_ = current_counter_ + step_size;
   }
 }

 void AllocationCounter::AdvanceAllocationObservers(size_t allocated) {
   if (!IsActive()) {
     return;
   }

   DCHECK(!step_in_progress_);
   DCHECK_LT(allocated, next_counter_ - current_counter_);
   current_counter_ += allocated;
 }

 void AllocationCounter::InvokeAllocationObservers(Address soon_object,
                                                   size_t object_size,
                                                   size_t aligned_object_size) {
   if (!IsActive()) {
     return;
   }

   DCHECK(!step_in_progress_);
   DCHECK_GE(aligned_object_size, next_counter_ - current_counter_);
   DCHECK(soon_object);
   bool step_run = false;
   step_in_progress_ = true;
   size_t step_size = 0;

   DCHECK(pending_.empty());

   for (AllocationObserverCounter& aoc : observers_) {
     if (aoc.next_counter_ - current_counter_ <= aligned_object_size) {
       {
         DisallowHeapAllocation disallow_heap_allocation;
         aoc.observer_->Step(
             static_cast<int>(current_counter_ - aoc.prev_counter_), soon_object,
             object_size);
       }
       size_t observer_step_size = aoc.observer_->GetNextStepSize();

       aoc.prev_counter_ = current_counter_;
       aoc.next_counter_ =
           current_counter_ + aligned_object_size + observer_step_size;
       step_run = true;
     }

     size_t left_in_step = aoc.next_counter_ - current_counter_;
     step_size = step_size ? Min(step_size, left_in_step) : left_in_step;
   }

   CHECK(step_run);

   // Now process newly added allocation observers.
   for (AllocationObserverCounter& aoc : pending_) {
     size_t observer_step_size = aoc.observer_->GetNextStepSize();
     aoc.prev_counter_ = current_counter_;
     aoc.next_counter_ =
         current_counter_ + aligned_object_size + observer_step_size;

     DCHECK_NE(step_size, 0);
     step_size = Min(step_size, aligned_object_size + observer_step_size);

     observers_.push_back(aoc);
   }

   pending_.clear();

   next_counter_ = current_counter_ + step_size;
   step_in_progress_ = false;
 }

 PauseAllocationObserversScope::PauseAllocationObserversScope(Heap* heap)
     : heap_(heap) {
   DCHECK_EQ(heap->gc_state(), Heap::NOT_IN_GC);

   for (SpaceIterator it(heap_); it.HasNext();) {
     it.Next()->PauseAllocationObservers();
   }
 }

 PauseAllocationObserversScope::~PauseAllocationObserversScope() {
   for (SpaceIterator it(heap_); it.HasNext();) {
     it.Next()->ResumeAllocationObservers();
   }
 }

 }  // namespace internal
 }  // namespace v8
	// Copyright 2020 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.

	#include "src/heap/allocation-observer.h"

	#include "src/heap/heap.h"
	#include "src/heap/spaces.h"

	namespace v8 {
	namespace internal {

	void AllocationCounter::AddAllocationObserver(AllocationObserver* observer) {
	#if DEBUG
	auto it = std::find_if(observers_.begin(), observers_.end(),
	[observer](const AllocationObserverCounter& aoc) {
	return aoc.observer_ == observer;
	});
	DCHECK_EQ(observers_.end(), it);
	#endif

	if (step_in_progress_) {
	pending_.push_back(AllocationObserverCounter(observer, 0, 0));
	return;
	}

	intptr_t step_size = observer->GetNextStepSize();
	size_t observer_next_counter = current_counter_ + step_size;

	observers_.push_back(AllocationObserverCounter(observer, current_counter_,
	observer_next_counter));

	if (observers_.size() == 1) {
	DCHECK_EQ(current_counter_, next_counter_);
	next_counter_ = observer_next_counter;
	} else {
	size_t missing_bytes = next_counter_ - current_counter_;
	next_counter_ =
	current_counter_ + Min(static_cast<intptr_t>(missing_bytes), step_size);
	}
	}

	void AllocationCounter::RemoveAllocationObserver(AllocationObserver* observer) {
	DCHECK(!step_in_progress_);
	auto it = std::find_if(observers_.begin(), observers_.end(),
	[observer](const AllocationObserverCounter& aoc) {
	return aoc.observer_ == observer;
	});
	DCHECK_NE(observers_.end(), it);
	observers_.erase(it);

	if (observers_.size() == 0) {
	current_counter_ = next_counter_ = 0;
	} else {
	size_t step_size = 0;

	for (AllocationObserverCounter& observer : observers_) {
	size_t left_in_step = observer.next_counter_ - current_counter_;
	DCHECK_GT(left_in_step, 0);
	step_size = step_size ? Min(step_size, left_in_step) : left_in_step;
	}

	next_counter_ = current_counter_ + step_size;
	}
	}

	void AllocationCounter::AdvanceAllocationObservers(size_t allocated) {
	if (!IsActive()) {
	return;
	}

	DCHECK(!step_in_progress_);
	DCHECK_LT(allocated, next_counter_ - current_counter_);
	current_counter_ += allocated;
	}

	void AllocationCounter::InvokeAllocationObservers(Address soon_object,
	size_t object_size,
	size_t aligned_object_size) {
	if (!IsActive()) {
	return;
	}

	DCHECK(!step_in_progress_);
	DCHECK_GE(aligned_object_size, next_counter_ - current_counter_);
	DCHECK(soon_object);
	bool step_run = false;
	step_in_progress_ = true;
	size_t step_size = 0;

	DCHECK(pending_.empty());

	for (AllocationObserverCounter& aoc : observers_) {
	if (aoc.next_counter_ - current_counter_ <= aligned_object_size) {
	{
	DisallowHeapAllocation disallow_heap_allocation;
	aoc.observer_->Step(
	static_cast<int>(current_counter_ - aoc.prev_counter_), soon_object,
	object_size);
	}
	size_t observer_step_size = aoc.observer_->GetNextStepSize();

	aoc.prev_counter_ = current_counter_;
	aoc.next_counter_ =
	current_counter_ + aligned_object_size + observer_step_size;
	step_run = true;
	}

	size_t left_in_step = aoc.next_counter_ - current_counter_;
	step_size = step_size ? Min(step_size, left_in_step) : left_in_step;
	}

	CHECK(step_run);

	// Now process newly added allocation observers.
	for (AllocationObserverCounter& aoc : pending_) {
	size_t observer_step_size = aoc.observer_->GetNextStepSize();
	aoc.prev_counter_ = current_counter_;
	aoc.next_counter_ =
	current_counter_ + aligned_object_size + observer_step_size;

	DCHECK_NE(step_size, 0);
	step_size = Min(step_size, aligned_object_size + observer_step_size);

	observers_.push_back(aoc);
	}

	pending_.clear();

	next_counter_ = current_counter_ + step_size;
	step_in_progress_ = false;
	}

	PauseAllocationObserversScope::PauseAllocationObserversScope(Heap* heap)
	: heap_(heap) {
	DCHECK_EQ(heap->gc_state(), Heap::NOT_IN_GC);

	for (SpaceIterator it(heap_); it.HasNext();) {
	it.Next()->PauseAllocationObservers();
	}
	}

	PauseAllocationObserversScope::~PauseAllocationObserversScope() {
	for (SpaceIterator it(heap_); it.HasNext();) {
	it.Next()->ResumeAllocationObservers();
	}
	}

	} // namespace internal
	} // namespace v8