src/third_party/v8/src/objects/js-array-buffer.h - cobalt - Git at Google

 // Copyright 2018 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_OBJECTS_JS_ARRAY_BUFFER_H_
 #define V8_OBJECTS_JS_ARRAY_BUFFER_H_

 #include "src/objects/backing-store.h"
 #include "src/objects/js-objects.h"
 #include "torque-generated/bit-fields.h"

 // Has to be the last include (doesn't have include guards):
 #include "src/objects/object-macros.h"

 namespace v8 {
 namespace internal {

 class ArrayBufferExtension;

 #include "torque-generated/src/objects/js-array-buffer-tq.inc"

 class JSArrayBuffer
     : public TorqueGeneratedJSArrayBuffer<JSArrayBuffer, JSObject> {
  public:
 // The maximum length for JSArrayBuffer's supported by V8.
 // On 32-bit architectures we limit this to 2GiB, so that
 // we can continue to use CheckBounds with the Unsigned31
 // restriction for the length.
 #if V8_HOST_ARCH_32_BIT
   static constexpr size_t kMaxByteLength = kMaxInt;
 #else
   static constexpr size_t kMaxByteLength = kMaxSafeInteger;
 #endif

   // When soft sandbox is enabled, creates entries in external pointer table for
   // all JSArrayBuffer's fields that require soft sandbox protection (backing
   // store pointer, backing store length, etc.).
   // When sandbox is not enabled, it's a no-op.
   inline void AllocateExternalPointerEntries(Isolate* isolate);

   // [byte_length]: length in bytes
   DECL_PRIMITIVE_ACCESSORS(byte_length, size_t)

   // [backing_store]: backing memory for this array
   DECL_GETTER(backing_store, void*)
   inline void set_backing_store(Isolate* isolate, void* value);

   // [extension]: extension object used for GC
   DECL_PRIMITIVE_ACCESSORS(extension, ArrayBufferExtension*)

   // For non-wasm, allocation_length and allocation_base are byte_length and
   // backing_store, respectively.
   inline size_t allocation_length() const;
   inline void* allocation_base() const;

   // [bit_field]: boolean flags
   DECL_PRIMITIVE_ACCESSORS(bit_field, uint32_t)

   // Clear uninitialized padding space. This ensures that the snapshot content
   // is deterministic. Depending on the V8 build mode there could be no padding.
   V8_INLINE void clear_padding();

   // Bit positions for [bit_field].
   DEFINE_TORQUE_GENERATED_JS_ARRAY_BUFFER_FLAGS()

   // [is_external]: true indicates that the embedder is in charge of freeing the
   // backing_store, while is_external == false means that v8 will free the
   // memory block once all ArrayBuffers referencing it are collected by the GC.
   DECL_BOOLEAN_ACCESSORS(is_external)

   // [is_detachable]: false => this buffer cannot be detached.
   DECL_BOOLEAN_ACCESSORS(is_detachable)

   // [was_detached]: true => the buffer was previously detached.
   DECL_BOOLEAN_ACCESSORS(was_detached)

   // [is_asmjs_memory]: true => this buffer was once used as asm.js memory.
   DECL_BOOLEAN_ACCESSORS(is_asmjs_memory)

   // [is_shared]: tells whether this is an ArrayBuffer or a SharedArrayBuffer.
   DECL_BOOLEAN_ACCESSORS(is_shared)

   // Initializes the fields of the ArrayBuffer. The provided backing_store can
   // be nullptr. If it is not nullptr, then the function registers it with
   // src/heap/array-buffer-tracker.h.
   V8_EXPORT_PRIVATE void Setup(SharedFlag shared,
                                std::shared_ptr<BackingStore> backing_store);

   // Attaches the backing store to an already constructed empty ArrayBuffer.
   // This is intended to be used only in ArrayBufferConstructor builtin.
   V8_EXPORT_PRIVATE void Attach(std::shared_ptr<BackingStore> backing_store);
   // Detach the backing store from this array buffer if it is detachable.
   // This sets the internal pointer and length to 0 and unregisters the backing
   // store from the array buffer tracker. If the array buffer is not detachable,
   // this is a nop.
   //
   // Array buffers that wrap wasm memory objects are special in that they
   // are normally not detachable, but can become detached as a side effect
   // of growing the underlying memory object. The {force_for_wasm_memory} flag
   // is used by the implementation of Wasm memory growth in order to bypass the
   // non-detachable check.
   V8_EXPORT_PRIVATE void Detach(bool force_for_wasm_memory = false);

   // Get a reference to backing store of this array buffer, if there is a
   // backing store. Returns nullptr if there is no backing store (e.g. detached
   // or a zero-length array buffer).
   std::shared_ptr<BackingStore> GetBackingStore();

   // Allocates an ArrayBufferExtension for this array buffer, unless it is
   // already associated with an extension.
   ArrayBufferExtension* EnsureExtension();

   // Frees the associated ArrayBufferExtension and returns its backing store.
   std::shared_ptr<BackingStore> RemoveExtension();

   // Marks ArrayBufferExtension
   void MarkExtension();
   void YoungMarkExtension();
   void YoungMarkExtensionPromoted();

   //
   // Serializer/deserializer support.
   //

   // Backing stores are serialized/deserialized separately. During serialization
   // the backing store reference is stored in the backing store field and upon
   // deserialization it is converted back to actual external (off-heap) pointer
   // value.
   inline uint32_t GetBackingStoreRefForDeserialization() const;
   inline void SetBackingStoreRefForSerialization(uint32_t ref);

   // Dispatched behavior.
   DECL_PRINTER(JSArrayBuffer)
   DECL_VERIFIER(JSArrayBuffer)

   static constexpr int kEndOfTaggedFieldsOffset = JSObject::kHeaderSize;

   static const int kSizeWithEmbedderFields =
       kHeaderSize +
       v8::ArrayBuffer::kEmbedderFieldCount * kEmbedderDataSlotSize;

   class BodyDescriptor;

  private:
   inline ArrayBufferExtension** extension_location() const;

 #if V8_COMPRESS_POINTERS
   static const int kUninitializedTagMask = 1;

   inline uint32_t* extension_lo() const;
   inline uint32_t* extension_hi() const;
 #endif

   TQ_OBJECT_CONSTRUCTORS(JSArrayBuffer)
 };

 // Each JSArrayBuffer (with a backing store) has a corresponding native-heap
 // allocated ArrayBufferExtension for GC purposes and storing the backing store.
 // When marking a JSArrayBuffer, the GC also marks the native
 // extension-object. The GC periodically iterates all extensions concurrently
 // and frees unmarked ones.
 // https://docs.google.com/document/d/1-ZrLdlFX1nXT3z-FAgLbKal1gI8Auiaya_My-a0UJ28/edit
 class ArrayBufferExtension : public Malloced {
   enum class GcState : uint8_t { Dead = 0, Copied, Promoted };

   std::atomic<bool> marked_;
   std::atomic<GcState> young_gc_state_;
   std::shared_ptr<BackingStore> backing_store_;
   ArrayBufferExtension* next_;
   std::size_t accounting_length_;

   GcState young_gc_state() {
     return young_gc_state_.load(std::memory_order_relaxed);
   }

   void set_young_gc_state(GcState value) {
     young_gc_state_.store(value, std::memory_order_relaxed);
   }

  public:
   ArrayBufferExtension()
       : marked_(false),
         young_gc_state_(GcState::Dead),
         backing_store_(std::shared_ptr<BackingStore>()),
         next_(nullptr),
         accounting_length_(0) {}
   explicit ArrayBufferExtension(std::shared_ptr<BackingStore> backing_store)
       : marked_(false),
         young_gc_state_(GcState::Dead),
         backing_store_(backing_store),
         next_(nullptr),
         accounting_length_(0) {}

   void Mark() { marked_.store(true, std::memory_order_relaxed); }
   void Unmark() { marked_.store(false, std::memory_order_relaxed); }
   bool IsMarked() { return marked_.load(std::memory_order_relaxed); }

   void YoungMark() { set_young_gc_state(GcState::Copied); }
   void YoungMarkPromoted() { set_young_gc_state(GcState::Promoted); }
   void YoungUnmark() { set_young_gc_state(GcState::Dead); }
   bool IsYoungMarked() { return young_gc_state() != GcState::Dead; }

   bool IsYoungPromoted() { return young_gc_state() == GcState::Promoted; }

   std::shared_ptr<BackingStore> backing_store() { return backing_store_; }
   BackingStore* backing_store_raw() { return backing_store_.get(); }

   size_t accounting_length() { return accounting_length_; }

   void set_accounting_length(size_t accounting_length) {
     accounting_length_ = accounting_length;
   }

   std::shared_ptr<BackingStore> RemoveBackingStore() {
     return std::move(backing_store_);
   }

   void set_backing_store(std::shared_ptr<BackingStore> backing_store) {
     backing_store_ = std::move(backing_store);
   }

   void reset_backing_store() { backing_store_.reset(); }

   ArrayBufferExtension* next() { return next_; }
   void set_next(ArrayBufferExtension* extension) { next_ = extension; }
 };

 class JSArrayBufferView
     : public TorqueGeneratedJSArrayBufferView<JSArrayBufferView, JSObject> {
  public:
   // [byte_offset]: offset of typed array in bytes.
   DECL_PRIMITIVE_ACCESSORS(byte_offset, size_t)

   // [byte_length]: length of typed array in bytes.
   DECL_PRIMITIVE_ACCESSORS(byte_length, size_t)

   DECL_VERIFIER(JSArrayBufferView)

   inline bool WasDetached() const;

   static constexpr int kEndOfTaggedFieldsOffset = kByteOffsetOffset;

   STATIC_ASSERT(IsAligned(kByteOffsetOffset, kUIntptrSize));
   STATIC_ASSERT(IsAligned(kByteLengthOffset, kUIntptrSize));

   TQ_OBJECT_CONSTRUCTORS(JSArrayBufferView)
 };

 class JSTypedArray
     : public TorqueGeneratedJSTypedArray<JSTypedArray, JSArrayBufferView> {
  public:
   // TODO(v8:4153): This should be equal to JSArrayBuffer::kMaxByteLength
   // eventually.
   static constexpr size_t kMaxLength = v8::TypedArray::kMaxLength;

   // [length]: length of typed array in elements.
   DECL_PRIMITIVE_ACCESSORS(length, size_t)

   // ES6 9.4.5.3
   V8_WARN_UNUSED_RESULT static Maybe<bool> DefineOwnProperty(
       Isolate* isolate, Handle<JSTypedArray> o, Handle<Object> key,
       PropertyDescriptor* desc, Maybe<ShouldThrow> should_throw);

   ExternalArrayType type();
   V8_EXPORT_PRIVATE size_t element_size();

   V8_EXPORT_PRIVATE Handle<JSArrayBuffer> GetBuffer();

   // When soft sandbox is enabled, creates entries in external pointer table for
   // all JSTypedArray's fields that require soft sandbox protection (external
   // pointer, offset, length, etc.).
   // When sandbox is not enabled, it's a no-op.
   inline void AllocateExternalPointerEntries(Isolate* isolate);

   // Use with care: returns raw pointer into heap.
   inline void* DataPtr();

   inline void SetOffHeapDataPtr(Isolate* isolate, void* base, Address offset);
   inline void SetOnHeapDataPtr(Isolate* isolate, HeapObject base,
                                Address offset);

   // Whether the buffer's backing store is on-heap or off-heap.
   inline bool is_on_heap() const;

   // Note: this is a pointer compression specific optimization.
   // Normally, on-heap typed arrays contain HeapObject value in |base_pointer|
   // field and an offset in |external_pointer|.
   // When pointer compression is enabled we want to combine decompression with
   // the offset addition. In order to do that we add an isolate root to the
   // |external_pointer| value and therefore the data pointer computation can
   // is a simple addition of a (potentially sign-extended) |base_pointer| loaded
   // as Tagged_t value and an |external_pointer| value.
   // For full-pointer mode the compensation value is zero.
   static inline Address ExternalPointerCompensationForOnHeapArray(
       IsolateRoot isolate);

   //
   // Serializer/deserializer support.
   //

   // External backing stores are serialized/deserialized separately.
   // During serialization the backing store reference is stored in the typed
   // array object and upon deserialization it is converted back to actual
   // external (off-heap) pointer value.
   // The backing store reference is stored in the external_pointer field.
   inline uint32_t GetExternalBackingStoreRefForDeserialization() const;
   inline void SetExternalBackingStoreRefForSerialization(uint32_t ref);

   // Subtracts external pointer compensation from the external pointer value.
   inline void RemoveExternalPointerCompensationForSerialization(
       Isolate* isolate);

   static inline MaybeHandle<JSTypedArray> Validate(Isolate* isolate,
                                                    Handle<Object> receiver,
                                                    const char* method_name);

   // Dispatched behavior.
   DECL_PRINTER(JSTypedArray)
   DECL_VERIFIER(JSTypedArray)

   STATIC_ASSERT(IsAligned(kLengthOffset, kUIntptrSize));
   STATIC_ASSERT(IsAligned(kExternalPointerOffset, kSystemPointerSize));

   static const int kSizeWithEmbedderFields =
       kHeaderSize +
       v8::ArrayBufferView::kEmbedderFieldCount * kEmbedderDataSlotSize;

   class BodyDescriptor;

 #ifdef V8_TYPED_ARRAY_MAX_SIZE_IN_HEAP
   static constexpr size_t kMaxSizeInHeap = V8_TYPED_ARRAY_MAX_SIZE_IN_HEAP;
 #else
   static constexpr size_t kMaxSizeInHeap = 64;
 #endif

  private:
   friend class Deserializer;

   // [external_pointer]: TODO(v8:4153)
   DECL_GETTER(external_pointer, Address)
   DECL_GETTER(external_pointer_raw, ExternalPointer_t)

   inline void set_external_pointer(Isolate* isolate, Address value);

   TQ_OBJECT_CONSTRUCTORS(JSTypedArray)
 };

 class JSDataView
     : public TorqueGeneratedJSDataView<JSDataView, JSArrayBufferView> {
  public:
   // [data_pointer]: pointer to the actual data.
   DECL_GETTER(data_pointer, void*)
   inline void set_data_pointer(Isolate* isolate, void* value);

   // When soft sandbox is enabled, creates entries in external pointer table for
   // all JSDataView's fields that require soft sandbox protection (data pointer,
   // offset, length, etc.).
   // When sandbox is not enabled, it's a no-op.
   inline void AllocateExternalPointerEntries(Isolate* isolate);

   // Dispatched behavior.
   DECL_PRINTER(JSDataView)
   DECL_VERIFIER(JSDataView)

   STATIC_ASSERT(IsAligned(kDataPointerOffset, kUIntptrSize));

   static const int kSizeWithEmbedderFields =
       kHeaderSize +
       v8::ArrayBufferView::kEmbedderFieldCount * kEmbedderDataSlotSize;

   class BodyDescriptor;

   TQ_OBJECT_CONSTRUCTORS(JSDataView)
 };

 }  // namespace internal
 }  // namespace v8

 #include "src/objects/object-macros-undef.h"

 #endif  // V8_OBJECTS_JS_ARRAY_BUFFER_H_
	// Copyright 2018 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_OBJECTS_JS_ARRAY_BUFFER_H_
	#define V8_OBJECTS_JS_ARRAY_BUFFER_H_

	#include "src/objects/backing-store.h"
	#include "src/objects/js-objects.h"
	#include "torque-generated/bit-fields.h"

	// Has to be the last include (doesn't have include guards):
	#include "src/objects/object-macros.h"

	namespace v8 {
	namespace internal {

	class ArrayBufferExtension;

	#include "torque-generated/src/objects/js-array-buffer-tq.inc"

	class JSArrayBuffer
	: public TorqueGeneratedJSArrayBuffer<JSArrayBuffer, JSObject> {
	public:
	// The maximum length for JSArrayBuffer's supported by V8.
	// On 32-bit architectures we limit this to 2GiB, so that
	// we can continue to use CheckBounds with the Unsigned31
	// restriction for the length.
	#if V8_HOST_ARCH_32_BIT
	static constexpr size_t kMaxByteLength = kMaxInt;
	#else
	static constexpr size_t kMaxByteLength = kMaxSafeInteger;
	#endif

	// When soft sandbox is enabled, creates entries in external pointer table for
	// all JSArrayBuffer's fields that require soft sandbox protection (backing
	// store pointer, backing store length, etc.).
	// When sandbox is not enabled, it's a no-op.
	inline void AllocateExternalPointerEntries(Isolate* isolate);

	// [byte_length]: length in bytes
	DECL_PRIMITIVE_ACCESSORS(byte_length, size_t)

	// [backing_store]: backing memory for this array
	DECL_GETTER(backing_store, void*)
	inline void set_backing_store(Isolate* isolate, void* value);

	// [extension]: extension object used for GC
	DECL_PRIMITIVE_ACCESSORS(extension, ArrayBufferExtension*)

	// For non-wasm, allocation_length and allocation_base are byte_length and
	// backing_store, respectively.
	inline size_t allocation_length() const;
	inline void* allocation_base() const;

	// [bit_field]: boolean flags
	DECL_PRIMITIVE_ACCESSORS(bit_field, uint32_t)

	// Clear uninitialized padding space. This ensures that the snapshot content
	// is deterministic. Depending on the V8 build mode there could be no padding.
	V8_INLINE void clear_padding();

	// Bit positions for [bit_field].
	DEFINE_TORQUE_GENERATED_JS_ARRAY_BUFFER_FLAGS()

	// [is_external]: true indicates that the embedder is in charge of freeing the
	// backing_store, while is_external == false means that v8 will free the
	// memory block once all ArrayBuffers referencing it are collected by the GC.
	DECL_BOOLEAN_ACCESSORS(is_external)

	// [is_detachable]: false => this buffer cannot be detached.
	DECL_BOOLEAN_ACCESSORS(is_detachable)

	// [was_detached]: true => the buffer was previously detached.
	DECL_BOOLEAN_ACCESSORS(was_detached)

	// [is_asmjs_memory]: true => this buffer was once used as asm.js memory.
	DECL_BOOLEAN_ACCESSORS(is_asmjs_memory)

	// [is_shared]: tells whether this is an ArrayBuffer or a SharedArrayBuffer.
	DECL_BOOLEAN_ACCESSORS(is_shared)

	// Initializes the fields of the ArrayBuffer. The provided backing_store can
	// be nullptr. If it is not nullptr, then the function registers it with
	// src/heap/array-buffer-tracker.h.
	V8_EXPORT_PRIVATE void Setup(SharedFlag shared,
	std::shared_ptr<BackingStore> backing_store);

	// Attaches the backing store to an already constructed empty ArrayBuffer.
	// This is intended to be used only in ArrayBufferConstructor builtin.
	V8_EXPORT_PRIVATE void Attach(std::shared_ptr<BackingStore> backing_store);
	// Detach the backing store from this array buffer if it is detachable.
	// This sets the internal pointer and length to 0 and unregisters the backing
	// store from the array buffer tracker. If the array buffer is not detachable,
	// this is a nop.
	//
	// Array buffers that wrap wasm memory objects are special in that they
	// are normally not detachable, but can become detached as a side effect
	// of growing the underlying memory object. The {force_for_wasm_memory} flag
	// is used by the implementation of Wasm memory growth in order to bypass the
	// non-detachable check.
	V8_EXPORT_PRIVATE void Detach(bool force_for_wasm_memory = false);

	// Get a reference to backing store of this array buffer, if there is a
	// backing store. Returns nullptr if there is no backing store (e.g. detached
	// or a zero-length array buffer).
	std::shared_ptr<BackingStore> GetBackingStore();

	// Allocates an ArrayBufferExtension for this array buffer, unless it is
	// already associated with an extension.
	ArrayBufferExtension* EnsureExtension();

	// Frees the associated ArrayBufferExtension and returns its backing store.
	std::shared_ptr<BackingStore> RemoveExtension();

	// Marks ArrayBufferExtension
	void MarkExtension();
	void YoungMarkExtension();
	void YoungMarkExtensionPromoted();

	//
	// Serializer/deserializer support.
	//

	// Backing stores are serialized/deserialized separately. During serialization
	// the backing store reference is stored in the backing store field and upon
	// deserialization it is converted back to actual external (off-heap) pointer
	// value.
	inline uint32_t GetBackingStoreRefForDeserialization() const;
	inline void SetBackingStoreRefForSerialization(uint32_t ref);

	// Dispatched behavior.
	DECL_PRINTER(JSArrayBuffer)
	DECL_VERIFIER(JSArrayBuffer)

	static constexpr int kEndOfTaggedFieldsOffset = JSObject::kHeaderSize;

	static const int kSizeWithEmbedderFields =
	kHeaderSize +
	v8::ArrayBuffer::kEmbedderFieldCount * kEmbedderDataSlotSize;

	class BodyDescriptor;

	private:
	inline ArrayBufferExtension** extension_location() const;

	#if V8_COMPRESS_POINTERS
	static const int kUninitializedTagMask = 1;

	inline uint32_t* extension_lo() const;
	inline uint32_t* extension_hi() const;
	#endif

	TQ_OBJECT_CONSTRUCTORS(JSArrayBuffer)
	};

	// Each JSArrayBuffer (with a backing store) has a corresponding native-heap
	// allocated ArrayBufferExtension for GC purposes and storing the backing store.
	// When marking a JSArrayBuffer, the GC also marks the native
	// extension-object. The GC periodically iterates all extensions concurrently
	// and frees unmarked ones.
	// https://docs.google.com/document/d/1-ZrLdlFX1nXT3z-FAgLbKal1gI8Auiaya_My-a0UJ28/edit
	class ArrayBufferExtension : public Malloced {
	enum class GcState : uint8_t { Dead = 0, Copied, Promoted };

	std::atomic<bool> marked_;
	std::atomic<GcState> young_gc_state_;
	std::shared_ptr<BackingStore> backing_store_;
	ArrayBufferExtension* next_;
	std::size_t accounting_length_;

	GcState young_gc_state() {
	return young_gc_state_.load(std::memory_order_relaxed);
	}

	void set_young_gc_state(GcState value) {
	young_gc_state_.store(value, std::memory_order_relaxed);
	}

	public:
	ArrayBufferExtension()
	: marked_(false),
	young_gc_state_(GcState::Dead),
	backing_store_(std::shared_ptr<BackingStore>()),
	next_(nullptr),
	accounting_length_(0) {}
	explicit ArrayBufferExtension(std::shared_ptr<BackingStore> backing_store)
	: marked_(false),
	young_gc_state_(GcState::Dead),
	backing_store_(backing_store),
	next_(nullptr),
	accounting_length_(0) {}

	void Mark() { marked_.store(true, std::memory_order_relaxed); }
	void Unmark() { marked_.store(false, std::memory_order_relaxed); }
	bool IsMarked() { return marked_.load(std::memory_order_relaxed); }

	void YoungMark() { set_young_gc_state(GcState::Copied); }
	void YoungMarkPromoted() { set_young_gc_state(GcState::Promoted); }
	void YoungUnmark() { set_young_gc_state(GcState::Dead); }
	bool IsYoungMarked() { return young_gc_state() != GcState::Dead; }

	bool IsYoungPromoted() { return young_gc_state() == GcState::Promoted; }

	std::shared_ptr<BackingStore> backing_store() { return backing_store_; }
	BackingStore* backing_store_raw() { return backing_store_.get(); }

	size_t accounting_length() { return accounting_length_; }

	void set_accounting_length(size_t accounting_length) {
	accounting_length_ = accounting_length;
	}

	std::shared_ptr<BackingStore> RemoveBackingStore() {
	return std::move(backing_store_);
	}

	void set_backing_store(std::shared_ptr<BackingStore> backing_store) {
	backing_store_ = std::move(backing_store);
	}

	void reset_backing_store() { backing_store_.reset(); }

	ArrayBufferExtension* next() { return next_; }
	void set_next(ArrayBufferExtension* extension) { next_ = extension; }
	};

	class JSArrayBufferView
	: public TorqueGeneratedJSArrayBufferView<JSArrayBufferView, JSObject> {
	public:
	// [byte_offset]: offset of typed array in bytes.
	DECL_PRIMITIVE_ACCESSORS(byte_offset, size_t)

	// [byte_length]: length of typed array in bytes.
	DECL_PRIMITIVE_ACCESSORS(byte_length, size_t)

	DECL_VERIFIER(JSArrayBufferView)

	inline bool WasDetached() const;

	static constexpr int kEndOfTaggedFieldsOffset = kByteOffsetOffset;

	STATIC_ASSERT(IsAligned(kByteOffsetOffset, kUIntptrSize));
	STATIC_ASSERT(IsAligned(kByteLengthOffset, kUIntptrSize));

	TQ_OBJECT_CONSTRUCTORS(JSArrayBufferView)
	};

	class JSTypedArray
	: public TorqueGeneratedJSTypedArray<JSTypedArray, JSArrayBufferView> {
	public:
	// TODO(v8:4153): This should be equal to JSArrayBuffer::kMaxByteLength
	// eventually.
	static constexpr size_t kMaxLength = v8::TypedArray::kMaxLength;

	// [length]: length of typed array in elements.
	DECL_PRIMITIVE_ACCESSORS(length, size_t)

	// ES6 9.4.5.3
	V8_WARN_UNUSED_RESULT static Maybe<bool> DefineOwnProperty(
	Isolate* isolate, Handle<JSTypedArray> o, Handle<Object> key,
	PropertyDescriptor* desc, Maybe<ShouldThrow> should_throw);

	ExternalArrayType type();
	V8_EXPORT_PRIVATE size_t element_size();

	V8_EXPORT_PRIVATE Handle<JSArrayBuffer> GetBuffer();

	// When soft sandbox is enabled, creates entries in external pointer table for
	// all JSTypedArray's fields that require soft sandbox protection (external
	// pointer, offset, length, etc.).
	// When sandbox is not enabled, it's a no-op.
	inline void AllocateExternalPointerEntries(Isolate* isolate);

	// Use with care: returns raw pointer into heap.
	inline void* DataPtr();

	inline void SetOffHeapDataPtr(Isolate* isolate, void* base, Address offset);
	inline void SetOnHeapDataPtr(Isolate* isolate, HeapObject base,
	Address offset);

	// Whether the buffer's backing store is on-heap or off-heap.
	inline bool is_on_heap() const;

	// Note: this is a pointer compression specific optimization.
	// Normally, on-heap typed arrays contain HeapObject value in \|base_pointer\|
	// field and an offset in \|external_pointer\|.
	// When pointer compression is enabled we want to combine decompression with
	// the offset addition. In order to do that we add an isolate root to the
	// \|external_pointer\| value and therefore the data pointer computation can
	// is a simple addition of a (potentially sign-extended) \|base_pointer\| loaded
	// as Tagged_t value and an \|external_pointer\| value.
	// For full-pointer mode the compensation value is zero.
	static inline Address ExternalPointerCompensationForOnHeapArray(
	IsolateRoot isolate);

	//
	// Serializer/deserializer support.
	//

	// External backing stores are serialized/deserialized separately.
	// During serialization the backing store reference is stored in the typed
	// array object and upon deserialization it is converted back to actual
	// external (off-heap) pointer value.
	// The backing store reference is stored in the external_pointer field.
	inline uint32_t GetExternalBackingStoreRefForDeserialization() const;
	inline void SetExternalBackingStoreRefForSerialization(uint32_t ref);

	// Subtracts external pointer compensation from the external pointer value.
	inline void RemoveExternalPointerCompensationForSerialization(
	Isolate* isolate);

	static inline MaybeHandle<JSTypedArray> Validate(Isolate* isolate,
	Handle<Object> receiver,
	const char* method_name);

	// Dispatched behavior.
	DECL_PRINTER(JSTypedArray)
	DECL_VERIFIER(JSTypedArray)

	STATIC_ASSERT(IsAligned(kLengthOffset, kUIntptrSize));
	STATIC_ASSERT(IsAligned(kExternalPointerOffset, kSystemPointerSize));

	static const int kSizeWithEmbedderFields =
	kHeaderSize +
	v8::ArrayBufferView::kEmbedderFieldCount * kEmbedderDataSlotSize;

	class BodyDescriptor;

	#ifdef V8_TYPED_ARRAY_MAX_SIZE_IN_HEAP
	static constexpr size_t kMaxSizeInHeap = V8_TYPED_ARRAY_MAX_SIZE_IN_HEAP;
	#else
	static constexpr size_t kMaxSizeInHeap = 64;
	#endif

	private:
	friend class Deserializer;

	// [external_pointer]: TODO(v8:4153)
	DECL_GETTER(external_pointer, Address)
	DECL_GETTER(external_pointer_raw, ExternalPointer_t)

	inline void set_external_pointer(Isolate* isolate, Address value);

	TQ_OBJECT_CONSTRUCTORS(JSTypedArray)
	};

	class JSDataView
	: public TorqueGeneratedJSDataView<JSDataView, JSArrayBufferView> {
	public:
	// [data_pointer]: pointer to the actual data.
	DECL_GETTER(data_pointer, void*)
	inline void set_data_pointer(Isolate* isolate, void* value);

	// When soft sandbox is enabled, creates entries in external pointer table for
	// all JSDataView's fields that require soft sandbox protection (data pointer,
	// offset, length, etc.).
	// When sandbox is not enabled, it's a no-op.
	inline void AllocateExternalPointerEntries(Isolate* isolate);

	// Dispatched behavior.
	DECL_PRINTER(JSDataView)
	DECL_VERIFIER(JSDataView)

	STATIC_ASSERT(IsAligned(kDataPointerOffset, kUIntptrSize));

	static const int kSizeWithEmbedderFields =
	kHeaderSize +
	v8::ArrayBufferView::kEmbedderFieldCount * kEmbedderDataSlotSize;

	class BodyDescriptor;

	TQ_OBJECT_CONSTRUCTORS(JSDataView)
	};

	} // namespace internal
	} // namespace v8

	#include "src/objects/object-macros-undef.h"

	#endif // V8_OBJECTS_JS_ARRAY_BUFFER_H_