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// 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 INCLUDE_V8_CPPGC_H_ #define INCLUDE_V8_CPPGC_H_ #include <cstdint> #include <memory> #include <vector> #include "cppgc/common.h" #include "cppgc/custom-space.h" #include "cppgc/heap-statistics.h" #include "cppgc/visitor.h" #include "v8-internal.h" // NOLINT(build/include_directory) #include "v8-platform.h" // NOLINT(build/include_directory) #include "v8-traced-handle.h" // NOLINT(build/include_directory) namespace cppgc { class AllocationHandle; class HeapHandle; } // namespace cppgc namespace v8 { class Object; namespace internal { class CppHeap; } // namespace internal class CustomSpaceStatisticsReceiver; /** * Describes how V8 wrapper objects maintain references to garbage-collected C++ * objects. */ struct WrapperDescriptor final { /** * The index used on `v8::Ojbect::SetAlignedPointerFromInternalField()` and * related APIs to add additional data to an object which is used to identify * JS->C++ references. */ using InternalFieldIndex = int; /** * Unknown embedder id. The value is reserved for internal usages and must not * be used with `CppHeap`. */ static constexpr uint16_t kUnknownEmbedderId = UINT16_MAX; constexpr WrapperDescriptor(InternalFieldIndex wrappable_type_index, InternalFieldIndex wrappable_instance_index, uint16_t embedder_id_for_garbage_collected) : wrappable_type_index(wrappable_type_index), wrappable_instance_index(wrappable_instance_index), embedder_id_for_garbage_collected(embedder_id_for_garbage_collected) {} /** * Index of the wrappable type. */ InternalFieldIndex wrappable_type_index; /** * Index of the wrappable instance. */ InternalFieldIndex wrappable_instance_index; /** * Embedder id identifying instances of garbage-collected objects. It is * expected that the first field of the wrappable type is a uint16_t holding * the id. Only references to instances of wrappables types with an id of * `embedder_id_for_garbage_collected` will be considered by CppHeap. */ uint16_t embedder_id_for_garbage_collected; }; struct V8_EXPORT CppHeapCreateParams { CppHeapCreateParams( std::vector<std::unique_ptr<cppgc::CustomSpaceBase>> custom_spaces, WrapperDescriptor wrapper_descriptor) : custom_spaces(std::move(custom_spaces)), wrapper_descriptor(wrapper_descriptor) {} CppHeapCreateParams(const CppHeapCreateParams&) = delete; CppHeapCreateParams& operator=(const CppHeapCreateParams&) = delete; std::vector<std::unique_ptr<cppgc::CustomSpaceBase>> custom_spaces; WrapperDescriptor wrapper_descriptor; /** * Specifies which kind of marking are supported by the heap. The type may be * further reduced via runtime flags when attaching the heap to an Isolate. */ cppgc::Heap::MarkingType marking_support = cppgc::Heap::MarkingType::kIncrementalAndConcurrent; /** * Specifies which kind of sweeping is supported by the heap. The type may be * further reduced via runtime flags when attaching the heap to an Isolate. */ cppgc::Heap::SweepingType sweeping_support = cppgc::Heap::SweepingType::kIncrementalAndConcurrent; }; /** * A heap for allocating managed C++ objects. * * Similar to v8::Isolate, the heap may only be accessed from one thread at a * time. The heap may be used from different threads using the * v8::Locker/v8::Unlocker APIs which is different from generic Oilpan. */ class V8_EXPORT CppHeap { public: static std::unique_ptr<CppHeap> Create(v8::Platform* platform, const CppHeapCreateParams& params); virtual ~CppHeap() = default; /** * \returns the opaque handle for allocating objects using * `MakeGarbageCollected()`. */ cppgc::AllocationHandle& GetAllocationHandle(); /** * \returns the opaque heap handle which may be used to refer to this heap in * other APIs. Valid as long as the underlying `CppHeap` is alive. */ cppgc::HeapHandle& GetHeapHandle(); /** * Terminate clears all roots and performs multiple garbage collections to * reclaim potentially newly created objects in destructors. * * After this call, object allocation is prohibited. */ void Terminate(); /** * \param detail_level specifies whether should return detailed * statistics or only brief summary statistics. * \returns current CppHeap statistics regarding memory consumption * and utilization. */ cppgc::HeapStatistics CollectStatistics( cppgc::HeapStatistics::DetailLevel detail_level); /** * Collects statistics for the given spaces and reports them to the receiver. * * \param custom_spaces a collection of custom space indicies. * \param receiver an object that gets the results. */ void CollectCustomSpaceStatisticsAtLastGC( std::vector<cppgc::CustomSpaceIndex> custom_spaces, std::unique_ptr<CustomSpaceStatisticsReceiver> receiver); /** * Enables a detached mode that allows testing garbage collection using * `cppgc::testing` APIs. Once used, the heap cannot be attached to an * `Isolate` anymore. */ void EnableDetachedGarbageCollectionsForTesting(); /** * Performs a stop-the-world garbage collection for testing purposes. * * \param stack_state The stack state to assume for the garbage collection. */ void CollectGarbageForTesting(cppgc::EmbedderStackState stack_state); /** * Performs a stop-the-world minor garbage collection for testing purposes. * * \param stack_state The stack state to assume for the garbage collection. */ void CollectGarbageInYoungGenerationForTesting( cppgc::EmbedderStackState stack_state); /** * \returns the wrapper descriptor of this CppHeap. */ v8::WrapperDescriptor wrapper_descriptor() const; private: CppHeap() = default; friend class internal::CppHeap; }; class JSVisitor : public cppgc::Visitor { public: explicit JSVisitor(cppgc::Visitor::Key key) : cppgc::Visitor(key) {} ~JSVisitor() override = default; void Trace(const TracedReferenceBase& ref) { if (ref.IsEmptyThreadSafe()) return; Visit(ref); } protected: using cppgc::Visitor::Visit; virtual void Visit(const TracedReferenceBase& ref) {} }; /** * Provided as input to `CppHeap::CollectCustomSpaceStatisticsAtLastGC()`. * * Its method is invoked with the results of the statistic collection. */ class CustomSpaceStatisticsReceiver { public: virtual ~CustomSpaceStatisticsReceiver() = default; /** * Reports the size of a space at the last GC. It is called for each space * that was requested in `CollectCustomSpaceStatisticsAtLastGC()`. * * \param space_index The index of the space. * \param bytes The total size of live objects in the space at the last GC. * It is zero if there was no GC yet. */ virtual void AllocatedBytes(cppgc::CustomSpaceIndex space_index, size_t bytes) = 0; }; } // namespace v8 namespace cppgc { template <typename T> struct TraceTrait<v8::TracedReference<T>> { static cppgc::TraceDescriptor GetTraceDescriptor(const void* self) { return {nullptr, Trace}; } static void Trace(Visitor* visitor, const void* self) { static_cast<v8::JSVisitor*>(visitor)->Trace( *static_cast<const v8::TracedReference<T>*>(self)); } }; } // namespace cppgc #endif // INCLUDE_V8_CPPGC_H_