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// Copyright 2021 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_CPPGC_EXPLICIT_MANAGEMENT_H_ #define INCLUDE_CPPGC_EXPLICIT_MANAGEMENT_H_ #include <cstddef> #include "cppgc/allocation.h" #include "cppgc/internal/logging.h" #include "cppgc/type-traits.h" namespace cppgc { class HeapHandle; namespace subtle { template <typename T> void FreeUnreferencedObject(HeapHandle& heap_handle, T& object); template <typename T> bool Resize(T& object, AdditionalBytes additional_bytes); } // namespace subtle namespace internal { class ExplicitManagementImpl final { private: V8_EXPORT static void FreeUnreferencedObject(HeapHandle&, void*); V8_EXPORT static bool Resize(void*, size_t); template <typename T> friend void subtle::FreeUnreferencedObject(HeapHandle&, T&); template <typename T> friend bool subtle::Resize(T&, AdditionalBytes); }; } // namespace internal namespace subtle { /** * Informs the garbage collector that `object` can be immediately reclaimed. The * destructor may not be invoked immediately but only on next garbage * collection. * * It is up to the embedder to guarantee that no other object holds a reference * to `object` after calling `FreeUnreferencedObject()`. In case such a * reference exists, it's use results in a use-after-free. * * To aid in using the API, `FreeUnreferencedObject()` may be called from * destructors on objects that would be reclaimed in the same garbage collection * cycle. * * \param heap_handle The corresponding heap. * \param object Reference to an object that is of type `GarbageCollected` and * should be immediately reclaimed. */ template <typename T> void FreeUnreferencedObject(HeapHandle& heap_handle, T& object) { static_assert(IsGarbageCollectedTypeV<T>, "Object must be of type GarbageCollected."); internal::ExplicitManagementImpl::FreeUnreferencedObject(heap_handle, &object); } /** * Tries to resize `object` of type `T` with additional bytes on top of * sizeof(T). Resizing is only useful with trailing inlined storage, see e.g. * `MakeGarbageCollected(AllocationHandle&, AdditionalBytes)`. * * `Resize()` performs growing or shrinking as needed and may skip the operation * for internal reasons, see return value. * * It is up to the embedder to guarantee that in case of shrinking a larger * object down, the reclaimed area is not used anymore. Any subsequent use * results in a use-after-free. * * The `object` must be live when calling `Resize()`. * * \param object Reference to an object that is of type `GarbageCollected` and * should be resized. * \param additional_bytes Bytes in addition to sizeof(T) that the object should * provide. * \returns true when the operation was successful and the result can be relied * on, and false otherwise. */ template <typename T> bool Resize(T& object, AdditionalBytes additional_bytes) { static_assert(IsGarbageCollectedTypeV<T>, "Object must be of type GarbageCollected."); return internal::ExplicitManagementImpl::Resize( &object, sizeof(T) + additional_bytes.value); } } // namespace subtle } // namespace cppgc #endif // INCLUDE_CPPGC_EXPLICIT_MANAGEMENT_H_