third_party/v8/src/objects/embedder-data-slot-inl.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_EMBEDDER_DATA_SLOT_INL_H_
 #define V8_OBJECTS_EMBEDDER_DATA_SLOT_INL_H_

 #include "src/objects/embedder-data-slot.h"

 #include "src/base/memory.h"
 #include "src/heap/heap-write-barrier-inl.h"
 #include "src/objects/embedder-data-array.h"
 #include "src/objects/js-objects-inl.h"
 #include "src/objects/objects-inl.h"

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

 namespace v8 {
 namespace internal {

 EmbedderDataSlot::EmbedderDataSlot(EmbedderDataArray array, int entry_index)
     : SlotBase(FIELD_ADDR(array,
                           EmbedderDataArray::OffsetOfElementAt(entry_index))) {}

 EmbedderDataSlot::EmbedderDataSlot(JSObject object, int embedder_field_index)
     : SlotBase(FIELD_ADDR(
           object, object.GetEmbedderFieldOffset(embedder_field_index))) {}

 void EmbedderDataSlot::AllocateExternalPointerEntry(Isolate* isolate) {
 #ifdef V8_HEAP_SANDBOX
   // TODO(v8:10391, saelo): Use InitExternalPointerField() once
   // ExternalPointer_t is 4-bytes.
   uint32_t index = isolate->external_pointer_table().allocate();
   // Object slots don't support storing raw values, so we just "reinterpret
   // cast" the index value to Object.
   Object index_as_object(index);
   ObjectSlot(address() + kRawPayloadOffset).Relaxed_Store(index_as_object);
   ObjectSlot(address() + kTaggedPayloadOffset).Relaxed_Store(Smi::zero());
 #endif
 }

 Object EmbedderDataSlot::load_tagged() const {
   return ObjectSlot(address() + kTaggedPayloadOffset).Relaxed_Load();
 }

 void EmbedderDataSlot::store_smi(Smi value) {
   ObjectSlot(address() + kTaggedPayloadOffset).Relaxed_Store(value);
 #ifdef V8_COMPRESS_POINTERS
   // See gc_safe_store() for the reasons behind two stores.
   ObjectSlot(address() + kRawPayloadOffset).Relaxed_Store(Smi::zero());
 #endif
 }

 // static
 void EmbedderDataSlot::store_tagged(EmbedderDataArray array, int entry_index,
                                     Object value) {
   int slot_offset = EmbedderDataArray::OffsetOfElementAt(entry_index);
   ObjectSlot(FIELD_ADDR(array, slot_offset + kTaggedPayloadOffset))
       .Relaxed_Store(value);
   WRITE_BARRIER(array, slot_offset + kTaggedPayloadOffset, value);
 #ifdef V8_COMPRESS_POINTERS
   // See gc_safe_store() for the reasons behind two stores.
   ObjectSlot(FIELD_ADDR(array, slot_offset + kRawPayloadOffset))
       .Relaxed_Store(Smi::zero());
 #endif
 }

 // static
 void EmbedderDataSlot::store_tagged(JSObject object, int embedder_field_index,
                                     Object value) {
   int slot_offset = object.GetEmbedderFieldOffset(embedder_field_index);
   ObjectSlot(FIELD_ADDR(object, slot_offset + kTaggedPayloadOffset))
       .Relaxed_Store(value);
   WRITE_BARRIER(object, slot_offset + kTaggedPayloadOffset, value);
 #ifdef V8_COMPRESS_POINTERS
   // See gc_safe_store() for the reasons behind two stores and why the second is
   // only done if !V8_HEAP_SANDBOX_BOOL
   ObjectSlot(FIELD_ADDR(object, slot_offset + kRawPayloadOffset))
       .Relaxed_Store(Smi::zero());
 #endif
 }

 bool EmbedderDataSlot::ToAlignedPointer(IsolateRoot isolate_root,
                                         void** out_pointer) const {
   // We don't care about atomicity of access here because embedder slots
   // are accessed this way only from the main thread via API during "mutator"
   // phase which is propely synched with GC (concurrent marker may still look
   // at the tagged part of the embedder slot but read-only access is ok).
   Address raw_value;
 #ifdef V8_HEAP_SANDBOX
   uint32_t index = base::Memory<uint32_t>(address() + kRawPayloadOffset);
   const Isolate* isolate = Isolate::FromRootAddress(isolate_root.address());
   raw_value = isolate->external_pointer_table().get(index) ^
               kEmbedderDataSlotPayloadTag;
 #else
   if (COMPRESS_POINTERS_BOOL) {
     // TODO(ishell, v8:8875): When pointer compression is enabled 8-byte size
     // fields (external pointers, doubles and BigInt data) are only kTaggedSize
     // aligned so we have to use unaligned pointer friendly way of accessing
     // them in order to avoid undefined behavior in C++ code.
     raw_value = base::ReadUnalignedValue<Address>(address());
   } else {
     raw_value = *location();
   }
 #endif
   *out_pointer = reinterpret_cast<void*>(raw_value);
   return HAS_SMI_TAG(raw_value);
 }

 bool EmbedderDataSlot::ToAlignedPointerSafe(IsolateRoot isolate_root,
                                             void** out_pointer) const {
 #ifdef V8_HEAP_SANDBOX
   uint32_t index = base::Memory<uint32_t>(address() + kRawPayloadOffset);
   Address raw_value;
   const Isolate* isolate = Isolate::FromRootAddress(isolate_root.address());
   if (isolate->external_pointer_table().is_valid_index(index)) {
     raw_value = isolate->external_pointer_table().get(index) ^
                 kEmbedderDataSlotPayloadTag;
     *out_pointer = reinterpret_cast<void*>(raw_value);
     return true;
   }
   return false;
 #else
   return ToAlignedPointer(isolate_root, out_pointer);
 #endif  // V8_HEAP_SANDBOX
 }

 bool EmbedderDataSlot::store_aligned_pointer(Isolate* isolate, void* ptr) {
   Address value = reinterpret_cast<Address>(ptr);
   if (!HAS_SMI_TAG(value)) return false;
 #ifdef V8_HEAP_SANDBOX
   if (V8_HEAP_SANDBOX_BOOL) {
     AllocateExternalPointerEntry(isolate);
     // Raw payload contains the table index. Object slots don't support loading
     // of raw values, so we just "reinterpret cast" Object value to index.
     Object index_as_object =
         ObjectSlot(address() + kRawPayloadOffset).Relaxed_Load();
     uint32_t index = static_cast<uint32_t>(index_as_object.ptr());
     isolate->external_pointer_table().set(index,
                                           value ^ kEmbedderDataSlotPayloadTag);
     return true;
   }
 #endif
   gc_safe_store(isolate, value);
   return true;
 }

 EmbedderDataSlot::RawData EmbedderDataSlot::load_raw(
     Isolate* isolate, const DisallowGarbageCollection& no_gc) const {
   // We don't care about atomicity of access here because embedder slots
   // are accessed this way only by serializer from the main thread when
   // GC is not active (concurrent marker may still look at the tagged part
   // of the embedder slot but read-only access is ok).
 #ifdef V8_COMPRESS_POINTERS
   // TODO(ishell, v8:8875): When pointer compression is enabled 8-byte size
   // fields (external pointers, doubles and BigInt data) are only kTaggedSize
   // aligned so we have to use unaligned pointer friendly way of accessing them
   // in order to avoid undefined behavior in C++ code.
   return base::ReadUnalignedValue<EmbedderDataSlot::RawData>(address());
 #else
   return *location();
 #endif
 }

 void EmbedderDataSlot::store_raw(Isolate* isolate,
                                  EmbedderDataSlot::RawData data,
                                  const DisallowGarbageCollection& no_gc) {
   gc_safe_store(isolate, data);
 }

 void EmbedderDataSlot::gc_safe_store(Isolate* isolate, Address value) {
 #ifdef V8_COMPRESS_POINTERS
   STATIC_ASSERT(kSmiShiftSize == 0);
   STATIC_ASSERT(SmiValuesAre31Bits());
   STATIC_ASSERT(kTaggedSize == kInt32Size);

   // We have to do two 32-bit stores here because
   // 1) tagged part modifications must be atomic to be properly synchronized
   //    with the concurrent marker.
   // 2) atomicity of full pointer store is not guaranteed for embedder slots
   //    since the address of the slot may not be kSystemPointerSize aligned
   //    (only kTaggedSize alignment is guaranteed).
   // TODO(ishell, v8:8875): revisit this once the allocation alignment
   // inconsistency is fixed.
   Address lo = static_cast<intptr_t>(static_cast<int32_t>(value));
   ObjectSlot(address() + kTaggedPayloadOffset).Relaxed_Store(Smi(lo));
   Address hi = value >> 32;
   ObjectSlot(address() + kRawPayloadOffset).Relaxed_Store(Object(hi));
 #else
   ObjectSlot(address() + kTaggedPayloadOffset).Relaxed_Store(Smi(value));
 #endif
 }

 }  // namespace internal
 }  // namespace v8

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

 #endif  // V8_OBJECTS_EMBEDDER_DATA_SLOT_INL_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_EMBEDDER_DATA_SLOT_INL_H_
	#define V8_OBJECTS_EMBEDDER_DATA_SLOT_INL_H_

	#include "src/objects/embedder-data-slot.h"

	#include "src/base/memory.h"
	#include "src/heap/heap-write-barrier-inl.h"
	#include "src/objects/embedder-data-array.h"
	#include "src/objects/js-objects-inl.h"
	#include "src/objects/objects-inl.h"

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

	namespace v8 {
	namespace internal {

	EmbedderDataSlot::EmbedderDataSlot(EmbedderDataArray array, int entry_index)
	: SlotBase(FIELD_ADDR(array,
	EmbedderDataArray::OffsetOfElementAt(entry_index))) {}

	EmbedderDataSlot::EmbedderDataSlot(JSObject object, int embedder_field_index)
	: SlotBase(FIELD_ADDR(
	object, object.GetEmbedderFieldOffset(embedder_field_index))) {}

	void EmbedderDataSlot::AllocateExternalPointerEntry(Isolate* isolate) {
	#ifdef V8_HEAP_SANDBOX
	// TODO(v8:10391, saelo): Use InitExternalPointerField() once
	// ExternalPointer_t is 4-bytes.
	uint32_t index = isolate->external_pointer_table().allocate();
	// Object slots don't support storing raw values, so we just "reinterpret
	// cast" the index value to Object.
	Object index_as_object(index);
	ObjectSlot(address() + kRawPayloadOffset).Relaxed_Store(index_as_object);
	ObjectSlot(address() + kTaggedPayloadOffset).Relaxed_Store(Smi::zero());
	#endif
	}

	Object EmbedderDataSlot::load_tagged() const {
	return ObjectSlot(address() + kTaggedPayloadOffset).Relaxed_Load();
	}

	void EmbedderDataSlot::store_smi(Smi value) {
	ObjectSlot(address() + kTaggedPayloadOffset).Relaxed_Store(value);
	#ifdef V8_COMPRESS_POINTERS
	// See gc_safe_store() for the reasons behind two stores.
	ObjectSlot(address() + kRawPayloadOffset).Relaxed_Store(Smi::zero());
	#endif
	}

	// static
	void EmbedderDataSlot::store_tagged(EmbedderDataArray array, int entry_index,
	Object value) {
	int slot_offset = EmbedderDataArray::OffsetOfElementAt(entry_index);
	ObjectSlot(FIELD_ADDR(array, slot_offset + kTaggedPayloadOffset))
	.Relaxed_Store(value);
	WRITE_BARRIER(array, slot_offset + kTaggedPayloadOffset, value);
	#ifdef V8_COMPRESS_POINTERS
	// See gc_safe_store() for the reasons behind two stores.
	ObjectSlot(FIELD_ADDR(array, slot_offset + kRawPayloadOffset))
	.Relaxed_Store(Smi::zero());
	#endif
	}

	// static
	void EmbedderDataSlot::store_tagged(JSObject object, int embedder_field_index,
	Object value) {
	int slot_offset = object.GetEmbedderFieldOffset(embedder_field_index);
	ObjectSlot(FIELD_ADDR(object, slot_offset + kTaggedPayloadOffset))
	.Relaxed_Store(value);
	WRITE_BARRIER(object, slot_offset + kTaggedPayloadOffset, value);
	#ifdef V8_COMPRESS_POINTERS
	// See gc_safe_store() for the reasons behind two stores and why the second is
	// only done if !V8_HEAP_SANDBOX_BOOL
	ObjectSlot(FIELD_ADDR(object, slot_offset + kRawPayloadOffset))
	.Relaxed_Store(Smi::zero());
	#endif
	}

	bool EmbedderDataSlot::ToAlignedPointer(IsolateRoot isolate_root,
	void** out_pointer) const {
	// We don't care about atomicity of access here because embedder slots
	// are accessed this way only from the main thread via API during "mutator"
	// phase which is propely synched with GC (concurrent marker may still look
	// at the tagged part of the embedder slot but read-only access is ok).
	Address raw_value;
	#ifdef V8_HEAP_SANDBOX
	uint32_t index = base::Memory<uint32_t>(address() + kRawPayloadOffset);
	const Isolate* isolate = Isolate::FromRootAddress(isolate_root.address());
	raw_value = isolate->external_pointer_table().get(index) ^
	kEmbedderDataSlotPayloadTag;
	#else
	if (COMPRESS_POINTERS_BOOL) {
	// TODO(ishell, v8:8875): When pointer compression is enabled 8-byte size
	// fields (external pointers, doubles and BigInt data) are only kTaggedSize
	// aligned so we have to use unaligned pointer friendly way of accessing
	// them in order to avoid undefined behavior in C++ code.
	raw_value = base::ReadUnalignedValue<Address>(address());
	} else {
	raw_value = *location();
	}
	#endif
	out_pointer = reinterpret_cast<void>(raw_value);
	return HAS_SMI_TAG(raw_value);
	}

	bool EmbedderDataSlot::ToAlignedPointerSafe(IsolateRoot isolate_root,
	void** out_pointer) const {
	#ifdef V8_HEAP_SANDBOX
	uint32_t index = base::Memory<uint32_t>(address() + kRawPayloadOffset);
	Address raw_value;
	const Isolate* isolate = Isolate::FromRootAddress(isolate_root.address());
	if (isolate->external_pointer_table().is_valid_index(index)) {
	raw_value = isolate->external_pointer_table().get(index) ^
	kEmbedderDataSlotPayloadTag;
	out_pointer = reinterpret_cast<void>(raw_value);
	return true;
	}
	return false;
	#else
	return ToAlignedPointer(isolate_root, out_pointer);
	#endif // V8_HEAP_SANDBOX
	}

	bool EmbedderDataSlot::store_aligned_pointer(Isolate* isolate, void* ptr) {
	Address value = reinterpret_cast<Address>(ptr);
	if (!HAS_SMI_TAG(value)) return false;
	#ifdef V8_HEAP_SANDBOX
	if (V8_HEAP_SANDBOX_BOOL) {
	AllocateExternalPointerEntry(isolate);
	// Raw payload contains the table index. Object slots don't support loading
	// of raw values, so we just "reinterpret cast" Object value to index.
	Object index_as_object =
	ObjectSlot(address() + kRawPayloadOffset).Relaxed_Load();
	uint32_t index = static_cast<uint32_t>(index_as_object.ptr());
	isolate->external_pointer_table().set(index,
	value ^ kEmbedderDataSlotPayloadTag);
	return true;
	}
	#endif
	gc_safe_store(isolate, value);
	return true;
	}

	EmbedderDataSlot::RawData EmbedderDataSlot::load_raw(
	Isolate* isolate, const DisallowGarbageCollection& no_gc) const {
	// We don't care about atomicity of access here because embedder slots
	// are accessed this way only by serializer from the main thread when
	// GC is not active (concurrent marker may still look at the tagged part
	// of the embedder slot but read-only access is ok).
	#ifdef V8_COMPRESS_POINTERS
	// TODO(ishell, v8:8875): When pointer compression is enabled 8-byte size
	// fields (external pointers, doubles and BigInt data) are only kTaggedSize
	// aligned so we have to use unaligned pointer friendly way of accessing them
	// in order to avoid undefined behavior in C++ code.
	return base::ReadUnalignedValue<EmbedderDataSlot::RawData>(address());
	#else
	return *location();
	#endif
	}

	void EmbedderDataSlot::store_raw(Isolate* isolate,
	EmbedderDataSlot::RawData data,
	const DisallowGarbageCollection& no_gc) {
	gc_safe_store(isolate, data);
	}

	void EmbedderDataSlot::gc_safe_store(Isolate* isolate, Address value) {
	#ifdef V8_COMPRESS_POINTERS
	STATIC_ASSERT(kSmiShiftSize == 0);
	STATIC_ASSERT(SmiValuesAre31Bits());
	STATIC_ASSERT(kTaggedSize == kInt32Size);

	// We have to do two 32-bit stores here because
	// 1) tagged part modifications must be atomic to be properly synchronized
	// with the concurrent marker.
	// 2) atomicity of full pointer store is not guaranteed for embedder slots
	// since the address of the slot may not be kSystemPointerSize aligned
	// (only kTaggedSize alignment is guaranteed).
	// TODO(ishell, v8:8875): revisit this once the allocation alignment
	// inconsistency is fixed.
	Address lo = static_cast<intptr_t>(static_cast<int32_t>(value));
	ObjectSlot(address() + kTaggedPayloadOffset).Relaxed_Store(Smi(lo));
	Address hi = value >> 32;
	ObjectSlot(address() + kRawPayloadOffset).Relaxed_Store(Object(hi));
	#else
	ObjectSlot(address() + kTaggedPayloadOffset).Relaxed_Store(Smi(value));
	#endif
	}

	} // namespace internal
	} // namespace v8

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

	#endif // V8_OBJECTS_EMBEDDER_DATA_SLOT_INL_H_