src/heap/cppgc/object-allocator.h - 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.

 #ifndef V8_HEAP_CPPGC_OBJECT_ALLOCATOR_H_
 #define V8_HEAP_CPPGC_OBJECT_ALLOCATOR_H_

 #include "include/cppgc/allocation.h"
 #include "include/cppgc/internal/gc-info.h"
 #include "include/cppgc/macros.h"
 #include "src/base/logging.h"
 #include "src/heap/cppgc/heap-object-header.h"
 #include "src/heap/cppgc/heap-page.h"
 #include "src/heap/cppgc/heap-space.h"
 #include "src/heap/cppgc/object-start-bitmap.h"
 #include "src/heap/cppgc/raw-heap.h"
 #include "src/heap/cppgc/sanitizers.h"

 namespace cppgc {

 class V8_EXPORT AllocationHandle {
  private:
   AllocationHandle() = default;
   friend class internal::ObjectAllocator;
 };

 namespace internal {

 class StatsCollector;
 class PageBackend;

 class V8_EXPORT_PRIVATE ObjectAllocator final : public cppgc::AllocationHandle {
  public:
   // NoAllocationScope is used in debug mode to catch unwanted allocations. E.g.
   // allocations during GC.
   class V8_EXPORT_PRIVATE NoAllocationScope final {
     CPPGC_STACK_ALLOCATED();

    public:
     explicit NoAllocationScope(ObjectAllocator&);
     ~NoAllocationScope();

     NoAllocationScope(const NoAllocationScope&) = delete;
     NoAllocationScope& operator=(const NoAllocationScope&) = delete;

    private:
     ObjectAllocator& allocator_;
   };

   ObjectAllocator(RawHeap* heap, PageBackend* page_backend,
                   StatsCollector* stats_collector);

   inline void* AllocateObject(size_t size, GCInfoIndex gcinfo);
   inline void* AllocateObject(size_t size, GCInfoIndex gcinfo,
                               CustomSpaceIndex space_index);

   void ResetLinearAllocationBuffers();

  private:
   // Returns the initially tried SpaceType to allocate an object of |size| bytes
   // on. Returns the largest regular object size bucket for large objects.
   inline static RawHeap::RegularSpaceType GetInitialSpaceIndexForSize(
       size_t size);

   bool is_allocation_allowed() const { return no_allocation_scope_ == 0; }

   inline void* AllocateObjectOnSpace(NormalPageSpace* space, size_t size,
                                      GCInfoIndex gcinfo);
   void* OutOfLineAllocate(NormalPageSpace*, size_t, GCInfoIndex);
   void* OutOfLineAllocateImpl(NormalPageSpace*, size_t, GCInfoIndex);
   void* AllocateFromFreeList(NormalPageSpace*, size_t, GCInfoIndex);

   RawHeap* raw_heap_;
   PageBackend* page_backend_;
   StatsCollector* stats_collector_;
   size_t no_allocation_scope_ = 0;
 };

 void* ObjectAllocator::AllocateObject(size_t size, GCInfoIndex gcinfo) {
   DCHECK(is_allocation_allowed());
   const size_t allocation_size =
       RoundUp<kAllocationGranularity>(size + sizeof(HeapObjectHeader));
   const RawHeap::RegularSpaceType type =
       GetInitialSpaceIndexForSize(allocation_size);
   return AllocateObjectOnSpace(NormalPageSpace::From(raw_heap_->Space(type)),
                                allocation_size, gcinfo);
 }

 void* ObjectAllocator::AllocateObject(size_t size, GCInfoIndex gcinfo,
                                       CustomSpaceIndex space_index) {
   DCHECK(is_allocation_allowed());
   const size_t allocation_size =
       RoundUp<kAllocationGranularity>(size + sizeof(HeapObjectHeader));
   return AllocateObjectOnSpace(
       NormalPageSpace::From(raw_heap_->CustomSpace(space_index)),
       allocation_size, gcinfo);
 }

 // static
 RawHeap::RegularSpaceType ObjectAllocator::GetInitialSpaceIndexForSize(
     size_t size) {
   if (size < 64) {
     if (size < 32) return RawHeap::RegularSpaceType::kNormal1;
     return RawHeap::RegularSpaceType::kNormal2;
   }
   if (size < 128) return RawHeap::RegularSpaceType::kNormal3;
   return RawHeap::RegularSpaceType::kNormal4;
 }

 void* ObjectAllocator::AllocateObjectOnSpace(NormalPageSpace* space,
                                              size_t size, GCInfoIndex gcinfo) {
   DCHECK_LT(0u, gcinfo);

   NormalPageSpace::LinearAllocationBuffer& current_lab =
       space->linear_allocation_buffer();
   if (current_lab.size() < size) {
     return OutOfLineAllocate(space, size, gcinfo);
   }

   void* raw = current_lab.Allocate(size);
   SET_MEMORY_ACCESIBLE(raw, size);
   auto* header = new (raw) HeapObjectHeader(size, gcinfo);

   NormalPage::From(BasePage::FromPayload(header))
       ->object_start_bitmap()
       .SetBit(reinterpret_cast<ConstAddress>(header));

   return header->Payload();
 }

 }  // namespace internal
 }  // namespace cppgc

 #endif  // V8_HEAP_CPPGC_OBJECT_ALLOCATOR_H_
	// 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.

	#ifndef V8_HEAP_CPPGC_OBJECT_ALLOCATOR_H_
	#define V8_HEAP_CPPGC_OBJECT_ALLOCATOR_H_

	#include "include/cppgc/allocation.h"
	#include "include/cppgc/internal/gc-info.h"
	#include "include/cppgc/macros.h"
	#include "src/base/logging.h"
	#include "src/heap/cppgc/heap-object-header.h"
	#include "src/heap/cppgc/heap-page.h"
	#include "src/heap/cppgc/heap-space.h"
	#include "src/heap/cppgc/object-start-bitmap.h"
	#include "src/heap/cppgc/raw-heap.h"
	#include "src/heap/cppgc/sanitizers.h"

	namespace cppgc {

	class V8_EXPORT AllocationHandle {
	private:
	AllocationHandle() = default;
	friend class internal::ObjectAllocator;
	};

	namespace internal {

	class StatsCollector;
	class PageBackend;

	class V8_EXPORT_PRIVATE ObjectAllocator final : public cppgc::AllocationHandle {
	public:
	// NoAllocationScope is used in debug mode to catch unwanted allocations. E.g.
	// allocations during GC.
	class V8_EXPORT_PRIVATE NoAllocationScope final {
	CPPGC_STACK_ALLOCATED();

	public:
	explicit NoAllocationScope(ObjectAllocator&);
	~NoAllocationScope();

	NoAllocationScope(const NoAllocationScope&) = delete;
	NoAllocationScope& operator=(const NoAllocationScope&) = delete;

	private:
	ObjectAllocator& allocator_;
	};

	ObjectAllocator(RawHeap* heap, PageBackend* page_backend,
	StatsCollector* stats_collector);

	inline void* AllocateObject(size_t size, GCInfoIndex gcinfo);
	inline void* AllocateObject(size_t size, GCInfoIndex gcinfo,
	CustomSpaceIndex space_index);

	void ResetLinearAllocationBuffers();

	private:
	// Returns the initially tried SpaceType to allocate an object of \|size\| bytes
	// on. Returns the largest regular object size bucket for large objects.
	inline static RawHeap::RegularSpaceType GetInitialSpaceIndexForSize(
	size_t size);

	bool is_allocation_allowed() const { return no_allocation_scope_ == 0; }

	inline void* AllocateObjectOnSpace(NormalPageSpace* space, size_t size,
	GCInfoIndex gcinfo);
	void* OutOfLineAllocate(NormalPageSpace*, size_t, GCInfoIndex);
	void* OutOfLineAllocateImpl(NormalPageSpace*, size_t, GCInfoIndex);
	void* AllocateFromFreeList(NormalPageSpace*, size_t, GCInfoIndex);

	RawHeap* raw_heap_;
	PageBackend* page_backend_;
	StatsCollector* stats_collector_;
	size_t no_allocation_scope_ = 0;
	};

	void* ObjectAllocator::AllocateObject(size_t size, GCInfoIndex gcinfo) {
	DCHECK(is_allocation_allowed());
	const size_t allocation_size =
	RoundUp<kAllocationGranularity>(size + sizeof(HeapObjectHeader));
	const RawHeap::RegularSpaceType type =
	GetInitialSpaceIndexForSize(allocation_size);
	return AllocateObjectOnSpace(NormalPageSpace::From(raw_heap_->Space(type)),
	allocation_size, gcinfo);
	}

	void* ObjectAllocator::AllocateObject(size_t size, GCInfoIndex gcinfo,
	CustomSpaceIndex space_index) {
	DCHECK(is_allocation_allowed());
	const size_t allocation_size =
	RoundUp<kAllocationGranularity>(size + sizeof(HeapObjectHeader));
	return AllocateObjectOnSpace(
	NormalPageSpace::From(raw_heap_->CustomSpace(space_index)),
	allocation_size, gcinfo);
	}

	// static
	RawHeap::RegularSpaceType ObjectAllocator::GetInitialSpaceIndexForSize(
	size_t size) {
	if (size < 64) {
	if (size < 32) return RawHeap::RegularSpaceType::kNormal1;
	return RawHeap::RegularSpaceType::kNormal2;
	}
	if (size < 128) return RawHeap::RegularSpaceType::kNormal3;
	return RawHeap::RegularSpaceType::kNormal4;
	}

	void* ObjectAllocator::AllocateObjectOnSpace(NormalPageSpace* space,
	size_t size, GCInfoIndex gcinfo) {
	DCHECK_LT(0u, gcinfo);

	NormalPageSpace::LinearAllocationBuffer& current_lab =
	space->linear_allocation_buffer();
	if (current_lab.size() < size) {
	return OutOfLineAllocate(space, size, gcinfo);
	}

	void* raw = current_lab.Allocate(size);
	SET_MEMORY_ACCESIBLE(raw, size);
	auto* header = new (raw) HeapObjectHeader(size, gcinfo);

	NormalPage::From(BasePage::FromPayload(header))
	->object_start_bitmap()
	.SetBit(reinterpret_cast<ConstAddress>(header));

	return header->Payload();
	}

	} // namespace internal
	} // namespace cppgc

	#endif // V8_HEAP_CPPGC_OBJECT_ALLOCATOR_H_