src/third_party/v8/src/wasm/wasm-objects-inl.h - cobalt - Git at Google

 // Copyright 2017 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_WASM_WASM_OBJECTS_INL_H_
 #define V8_WASM_WASM_OBJECTS_INL_H_

 #include "src/wasm/wasm-objects.h"

 #include "src/base/memory.h"
 #include "src/heap/heap-write-barrier-inl.h"
 #include "src/objects/contexts-inl.h"
 #include "src/objects/foreign-inl.h"
 #include "src/objects/heap-number-inl.h"
 #include "src/objects/js-array-buffer-inl.h"
 #include "src/objects/js-function-inl.h"
 #include "src/objects/js-objects-inl.h"
 #include "src/objects/managed.h"
 #include "src/objects/oddball-inl.h"
 #include "src/objects/script-inl.h"
 #include "src/roots/roots.h"
 #include "src/wasm/wasm-code-manager.h"
 #include "src/wasm/wasm-module.h"

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

 namespace v8 {
 namespace internal {

 #include "torque-generated/src/wasm/wasm-objects-tq-inl.inc"

 OBJECT_CONSTRUCTORS_IMPL(WasmExceptionObject, JSObject)
 TQ_OBJECT_CONSTRUCTORS_IMPL(WasmExceptionTag)
 OBJECT_CONSTRUCTORS_IMPL(WasmExportedFunctionData, Struct)
 OBJECT_CONSTRUCTORS_IMPL(WasmGlobalObject, JSObject)
 OBJECT_CONSTRUCTORS_IMPL(WasmInstanceObject, JSObject)
 OBJECT_CONSTRUCTORS_IMPL(WasmMemoryObject, JSObject)
 OBJECT_CONSTRUCTORS_IMPL(WasmModuleObject, JSObject)
 OBJECT_CONSTRUCTORS_IMPL(WasmTableObject, JSObject)
 OBJECT_CONSTRUCTORS_IMPL(AsmWasmData, Struct)
 TQ_OBJECT_CONSTRUCTORS_IMPL(WasmTypeInfo)
 TQ_OBJECT_CONSTRUCTORS_IMPL(WasmStruct)
 TQ_OBJECT_CONSTRUCTORS_IMPL(WasmArray)

 CAST_ACCESSOR(WasmExceptionObject)
 CAST_ACCESSOR(WasmExportedFunctionData)
 CAST_ACCESSOR(WasmGlobalObject)
 CAST_ACCESSOR(WasmInstanceObject)
 CAST_ACCESSOR(WasmMemoryObject)
 CAST_ACCESSOR(WasmModuleObject)
 CAST_ACCESSOR(WasmTableObject)
 CAST_ACCESSOR(AsmWasmData)
 CAST_ACCESSOR(WasmTypeInfo)
 CAST_ACCESSOR(WasmStruct)
 CAST_ACCESSOR(WasmArray)

 #define OPTIONAL_ACCESSORS(holder, name, type, offset)                \
   DEF_GETTER(holder, has_##name, bool) {                              \
     Object value = TaggedField<Object, offset>::load(isolate, *this); \
     return !value.IsUndefined(GetReadOnlyRoots(isolate));             \
   }                                                                   \
   ACCESSORS_CHECKED2(holder, name, type, offset,                      \
                      !value.IsUndefined(GetReadOnlyRoots(isolate)), true)

 #define PRIMITIVE_ACCESSORS(holder, name, type, offset)                       \
   type holder::name() const {                                                 \
     if (COMPRESS_POINTERS_BOOL && alignof(type) > kTaggedSize) {              \
       /* 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<type>(FIELD_ADDR(*this, offset));       \
     } else {                                                                  \
       return *reinterpret_cast<type const*>(FIELD_ADDR(*this, offset));       \
     }                                                                         \
   }                                                                           \
   void holder::set_##name(type value) {                                       \
     if (COMPRESS_POINTERS_BOOL && alignof(type) > kTaggedSize) {              \
       /* 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. */                                                             \
       base::WriteUnalignedValue<type>(FIELD_ADDR(*this, offset), value);      \
     } else {                                                                  \
       *reinterpret_cast<type*>(FIELD_ADDR(*this, offset)) = value;            \
     }                                                                         \
   }

 // WasmModuleObject
 ACCESSORS(WasmModuleObject, managed_native_module, Managed<wasm::NativeModule>,
           kNativeModuleOffset)
 ACCESSORS(WasmModuleObject, export_wrappers, FixedArray, kExportWrappersOffset)
 ACCESSORS(WasmModuleObject, script, Script, kScriptOffset)
 wasm::NativeModule* WasmModuleObject::native_module() const {
   return managed_native_module().raw();
 }
 const std::shared_ptr<wasm::NativeModule>&
 WasmModuleObject::shared_native_module() const {
   return managed_native_module().get();
 }
 const wasm::WasmModule* WasmModuleObject::module() const {
   // TODO(clemensb): Remove this helper (inline in callers).
   return native_module()->module();
 }
 bool WasmModuleObject::is_asm_js() {
   bool asm_js = is_asmjs_module(module());
   DCHECK_EQ(asm_js, script().IsUserJavaScript());
   return asm_js;
 }

 // WasmTableObject
 ACCESSORS(WasmTableObject, instance, HeapObject, kInstanceOffset)
 ACCESSORS(WasmTableObject, entries, FixedArray, kEntriesOffset)
 SMI_ACCESSORS(WasmTableObject, current_length, kCurrentLengthOffset)
 ACCESSORS(WasmTableObject, maximum_length, Object, kMaximumLengthOffset)
 ACCESSORS(WasmTableObject, dispatch_tables, FixedArray, kDispatchTablesOffset)
 SMI_ACCESSORS(WasmTableObject, raw_type, kRawTypeOffset)

 // WasmMemoryObject
 ACCESSORS(WasmMemoryObject, array_buffer, JSArrayBuffer, kArrayBufferOffset)
 SMI_ACCESSORS(WasmMemoryObject, maximum_pages, kMaximumPagesOffset)
 OPTIONAL_ACCESSORS(WasmMemoryObject, instances, WeakArrayList, kInstancesOffset)

 // WasmGlobalObject
 ACCESSORS(WasmGlobalObject, instance, HeapObject, kInstanceOffset)
 ACCESSORS(WasmGlobalObject, untagged_buffer, JSArrayBuffer,
           kUntaggedBufferOffset)
 ACCESSORS(WasmGlobalObject, tagged_buffer, FixedArray, kTaggedBufferOffset)
 SMI_ACCESSORS(WasmGlobalObject, offset, kOffsetOffset)
 // TODO(7748): This will not suffice to hold the 32-bit encoding of a ValueType.
 // We need to devise and encoding that does, and also encodes is_mutable.
 SMI_ACCESSORS(WasmGlobalObject, raw_type, kRawTypeOffset)
 SMI_ACCESSORS(WasmGlobalObject, is_mutable, kIsMutableOffset)

 wasm::ValueType WasmGlobalObject::type() const {
   return wasm::ValueType::FromRawBitField(static_cast<uint32_t>(raw_type()));
 }
 void WasmGlobalObject::set_type(wasm::ValueType value) {
   set_raw_type(static_cast<int>(value.raw_bit_field()));
 }

 int WasmGlobalObject::type_size() const { return type().element_size_bytes(); }

 Address WasmGlobalObject::address() const {
   DCHECK_NE(type(), wasm::kWasmExternRef);
   DCHECK_LE(offset() + type_size(), untagged_buffer().byte_length());
   return Address(untagged_buffer().backing_store()) + offset();
 }

 int32_t WasmGlobalObject::GetI32() {
   return base::ReadLittleEndianValue<int32_t>(address());
 }

 int64_t WasmGlobalObject::GetI64() {
   return base::ReadLittleEndianValue<int64_t>(address());
 }

 float WasmGlobalObject::GetF32() {
   return base::ReadLittleEndianValue<float>(address());
 }

 double WasmGlobalObject::GetF64() {
   return base::ReadLittleEndianValue<double>(address());
 }

 Handle<Object> WasmGlobalObject::GetRef() {
   // We use this getter for externref, funcref, and exnref.
   DCHECK(type().is_reference_type());
   return handle(tagged_buffer().get(offset()), GetIsolate());
 }

 void WasmGlobalObject::SetI32(int32_t value) {
   base::WriteLittleEndianValue<int32_t>(address(), value);
 }

 void WasmGlobalObject::SetI64(int64_t value) {
   base::WriteLittleEndianValue<int64_t>(address(), value);
 }

 void WasmGlobalObject::SetF32(float value) {
   base::WriteLittleEndianValue<float>(address(), value);
 }

 void WasmGlobalObject::SetF64(double value) {
   base::WriteLittleEndianValue<double>(address(), value);
 }

 void WasmGlobalObject::SetExternRef(Handle<Object> value) {
   // We use this getter externref and exnref.
   DCHECK(type().is_reference_to(wasm::HeapType::kExtern) ||
          type().is_reference_to(wasm::HeapType::kExn));
   tagged_buffer().set(offset(), *value);
 }

 bool WasmGlobalObject::SetFuncRef(Isolate* isolate, Handle<Object> value) {
   DCHECK_EQ(type(), wasm::kWasmFuncRef);
   if (!value->IsNull(isolate) &&
       !WasmExternalFunction::IsWasmExternalFunction(*value) &&
       !WasmCapiFunction::IsWasmCapiFunction(*value)) {
     return false;
   }
   tagged_buffer().set(offset(), *value);
   return true;
 }

 // WasmInstanceObject
 PRIMITIVE_ACCESSORS(WasmInstanceObject, memory_start, byte*, kMemoryStartOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, memory_size, size_t, kMemorySizeOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, memory_mask, size_t, kMemoryMaskOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, isolate_root, Address,
                     kIsolateRootOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, stack_limit_address, Address,
                     kStackLimitAddressOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, real_stack_limit_address, Address,
                     kRealStackLimitAddressOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, imported_function_targets, Address*,
                     kImportedFunctionTargetsOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, globals_start, byte*,
                     kGlobalsStartOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, imported_mutable_globals, Address*,
                     kImportedMutableGlobalsOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, indirect_function_table_size, uint32_t,
                     kIndirectFunctionTableSizeOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, indirect_function_table_sig_ids,
                     uint32_t*, kIndirectFunctionTableSigIdsOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, indirect_function_table_targets,
                     Address*, kIndirectFunctionTableTargetsOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, jump_table_start, Address,
                     kJumpTableStartOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, data_segment_starts, Address*,
                     kDataSegmentStartsOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, data_segment_sizes, uint32_t*,
                     kDataSegmentSizesOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, dropped_elem_segments, byte*,
                     kDroppedElemSegmentsOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, hook_on_function_call_address, Address,
                     kHookOnFunctionCallAddressOffset)
 PRIMITIVE_ACCESSORS(WasmInstanceObject, num_liftoff_function_calls_array,
                     uint32_t*, kNumLiftoffFunctionCallsArrayOffset)

 ACCESSORS(WasmInstanceObject, module_object, WasmModuleObject,
           kModuleObjectOffset)
 ACCESSORS(WasmInstanceObject, exports_object, JSObject, kExportsObjectOffset)
 ACCESSORS(WasmInstanceObject, native_context, Context, kNativeContextOffset)
 OPTIONAL_ACCESSORS(WasmInstanceObject, memory_object, WasmMemoryObject,
                    kMemoryObjectOffset)
 OPTIONAL_ACCESSORS(WasmInstanceObject, untagged_globals_buffer, JSArrayBuffer,
                    kUntaggedGlobalsBufferOffset)
 OPTIONAL_ACCESSORS(WasmInstanceObject, tagged_globals_buffer, FixedArray,
                    kTaggedGlobalsBufferOffset)
 OPTIONAL_ACCESSORS(WasmInstanceObject, imported_mutable_globals_buffers,
                    FixedArray, kImportedMutableGlobalsBuffersOffset)
 OPTIONAL_ACCESSORS(WasmInstanceObject, tables, FixedArray, kTablesOffset)
 OPTIONAL_ACCESSORS(WasmInstanceObject, indirect_function_tables, FixedArray,
                    kIndirectFunctionTablesOffset)
 ACCESSORS(WasmInstanceObject, imported_function_refs, FixedArray,
           kImportedFunctionRefsOffset)
 OPTIONAL_ACCESSORS(WasmInstanceObject, indirect_function_table_refs, FixedArray,
                    kIndirectFunctionTableRefsOffset)
 OPTIONAL_ACCESSORS(WasmInstanceObject, managed_native_allocations, Foreign,
                    kManagedNativeAllocationsOffset)
 OPTIONAL_ACCESSORS(WasmInstanceObject, exceptions_table, FixedArray,
                    kExceptionsTableOffset)
 OPTIONAL_ACCESSORS(WasmInstanceObject, wasm_external_functions, FixedArray,
                    kWasmExternalFunctionsOffset)
 ACCESSORS(WasmInstanceObject, managed_object_maps, FixedArray,
           kManagedObjectMapsOffset)

 void WasmInstanceObject::clear_padding() {
   if (FIELD_SIZE(kOptionalPaddingOffset) != 0) {
     DCHECK_EQ(4, FIELD_SIZE(kOptionalPaddingOffset));
     memset(reinterpret_cast<void*>(address() + kOptionalPaddingOffset), 0,
            FIELD_SIZE(kOptionalPaddingOffset));
   }
 }

 IndirectFunctionTableEntry::IndirectFunctionTableEntry(
     Handle<WasmInstanceObject> instance, int table_index, int entry_index)
     : instance_(table_index == 0 ? instance
                                  : Handle<WasmInstanceObject>::null()),
       table_(table_index != 0
                  ? handle(WasmIndirectFunctionTable::cast(
                               instance->indirect_function_tables().get(
                                   table_index)),
                           instance->GetIsolate())
                  : Handle<WasmIndirectFunctionTable>::null()),
       index_(entry_index) {
   DCHECK_GE(entry_index, 0);
   DCHECK_LT(entry_index, table_index == 0
                              ? instance->indirect_function_table_size()
                              : table_->size());
 }

 IndirectFunctionTableEntry::IndirectFunctionTableEntry(
     Handle<WasmIndirectFunctionTable> table, int entry_index)
     : instance_(Handle<WasmInstanceObject>::null()),
       table_(table),
       index_(entry_index) {
   DCHECK_GE(entry_index, 0);
   DCHECK_LT(entry_index, table_->size());
 }

 ImportedFunctionEntry::ImportedFunctionEntry(
     Handle<WasmInstanceObject> instance, int index)
     : instance_(instance), index_(index) {
   DCHECK_GE(index, 0);
   DCHECK_LT(index, instance->module()->num_imported_functions);
 }

 // WasmExceptionObject
 ACCESSORS(WasmExceptionObject, serialized_signature, PodArray<wasm::ValueType>,
           kSerializedSignatureOffset)
 ACCESSORS(WasmExceptionObject, exception_tag, HeapObject, kExceptionTagOffset)

 // WasmExceptionPackage
 OBJECT_CONSTRUCTORS_IMPL(WasmExceptionPackage, JSReceiver)
 CAST_ACCESSOR(WasmExceptionPackage)

 // WasmExportedFunction
 WasmExportedFunction::WasmExportedFunction(Address ptr) : JSFunction(ptr) {
   SLOW_DCHECK(IsWasmExportedFunction(*this));
 }
 CAST_ACCESSOR(WasmExportedFunction)

 // WasmExportedFunctionData
 ACCESSORS(WasmExportedFunctionData, wrapper_code, Code, kWrapperCodeOffset)
 ACCESSORS(WasmExportedFunctionData, instance, WasmInstanceObject,
           kInstanceOffset)
 SMI_ACCESSORS(WasmExportedFunctionData, jump_table_offset,
               kJumpTableOffsetOffset)
 SMI_ACCESSORS(WasmExportedFunctionData, function_index, kFunctionIndexOffset)
 ACCESSORS(WasmExportedFunctionData, signature, Foreign, kSignatureOffset)
 SMI_ACCESSORS(WasmExportedFunctionData, call_count, kCallCountOffset)
 ACCESSORS(WasmExportedFunctionData, c_wrapper_code, Object, kCWrapperCodeOffset)
 ACCESSORS(WasmExportedFunctionData, wasm_call_target, Object,
           kWasmCallTargetOffset)
 SMI_ACCESSORS(WasmExportedFunctionData, packed_args_size, kPackedArgsSizeOffset)

 // WasmJSFunction
 WasmJSFunction::WasmJSFunction(Address ptr) : JSFunction(ptr) {
   SLOW_DCHECK(IsWasmJSFunction(*this));
 }
 CAST_ACCESSOR(WasmJSFunction)

 // WasmJSFunctionData
 OBJECT_CONSTRUCTORS_IMPL(WasmJSFunctionData, Struct)
 CAST_ACCESSOR(WasmJSFunctionData)
 SMI_ACCESSORS(WasmJSFunctionData, serialized_return_count,
               kSerializedReturnCountOffset)
 SMI_ACCESSORS(WasmJSFunctionData, serialized_parameter_count,
               kSerializedParameterCountOffset)
 ACCESSORS(WasmJSFunctionData, serialized_signature, PodArray<wasm::ValueType>,
           kSerializedSignatureOffset)
 ACCESSORS(WasmJSFunctionData, callable, JSReceiver, kCallableOffset)
 ACCESSORS(WasmJSFunctionData, wrapper_code, Code, kWrapperCodeOffset)
 ACCESSORS(WasmJSFunctionData, wasm_to_js_wrapper_code, Code,
           kWasmToJsWrapperCodeOffset)

 // WasmCapiFunction
 WasmCapiFunction::WasmCapiFunction(Address ptr) : JSFunction(ptr) {
   SLOW_DCHECK(IsWasmCapiFunction(*this));
 }
 CAST_ACCESSOR(WasmCapiFunction)

 // WasmExternalFunction
 WasmExternalFunction::WasmExternalFunction(Address ptr) : JSFunction(ptr) {
   SLOW_DCHECK(IsWasmExternalFunction(*this));
 }
 CAST_ACCESSOR(WasmExternalFunction)

 // WasmIndirectFunctionTable
 OBJECT_CONSTRUCTORS_IMPL(WasmIndirectFunctionTable, Struct)
 CAST_ACCESSOR(WasmIndirectFunctionTable)
 PRIMITIVE_ACCESSORS(WasmIndirectFunctionTable, size, uint32_t, kSizeOffset)
 PRIMITIVE_ACCESSORS(WasmIndirectFunctionTable, sig_ids, uint32_t*,
                     kSigIdsOffset)
 PRIMITIVE_ACCESSORS(WasmIndirectFunctionTable, targets, Address*,
                     kTargetsOffset)
 OPTIONAL_ACCESSORS(WasmIndirectFunctionTable, managed_native_allocations,
                    Foreign, kManagedNativeAllocationsOffset)
 ACCESSORS(WasmIndirectFunctionTable, refs, FixedArray, kRefsOffset)

 #undef OPTIONAL_ACCESSORS
 #undef READ_PRIMITIVE_FIELD
 #undef WRITE_PRIMITIVE_FIELD
 #undef PRIMITIVE_ACCESSORS

 wasm::ValueType WasmTableObject::type() {
   // TODO(7748): Support other table types? Wait for spec to clear up.
   return wasm::ValueType::Ref(raw_type(), wasm::kNullable);
 }

 bool WasmMemoryObject::has_maximum_pages() { return maximum_pages() >= 0; }

 // AsmWasmData
 ACCESSORS(AsmWasmData, managed_native_module, Managed<wasm::NativeModule>,
           kManagedNativeModuleOffset)
 ACCESSORS(AsmWasmData, export_wrappers, FixedArray, kExportWrappersOffset)
 ACCESSORS(AsmWasmData, uses_bitset, HeapNumber, kUsesBitsetOffset)

 wasm::StructType* WasmStruct::type(Map map) {
   WasmTypeInfo type_info = map.wasm_type_info();
   return reinterpret_cast<wasm::StructType*>(type_info.foreign_address());
 }

 wasm::StructType* WasmStruct::GcSafeType(Map map) {
   DCHECK_EQ(WASM_STRUCT_TYPE, map.instance_type());
   HeapObject raw = HeapObject::cast(map.constructor_or_backpointer());
   MapWord map_word = raw.map_word();
   HeapObject forwarded =
       map_word.IsForwardingAddress() ? map_word.ToForwardingAddress() : raw;
   Foreign foreign = Foreign::cast(forwarded);
   return reinterpret_cast<wasm::StructType*>(foreign.foreign_address());
 }

 wasm::StructType* WasmStruct::type() const { return type(map()); }

 ObjectSlot WasmStruct::RawField(int raw_offset) {
   int offset = WasmStruct::kHeaderSize + raw_offset;
   return ObjectSlot(FIELD_ADDR(*this, offset));
 }

 wasm::ArrayType* WasmArray::type(Map map) {
   DCHECK_EQ(WASM_ARRAY_TYPE, map.instance_type());
   WasmTypeInfo type_info = map.wasm_type_info();
   return reinterpret_cast<wasm::ArrayType*>(type_info.foreign_address());
 }

 wasm::ArrayType* WasmArray::GcSafeType(Map map) {
   DCHECK_EQ(WASM_ARRAY_TYPE, map.instance_type());
   HeapObject raw = HeapObject::cast(map.constructor_or_backpointer());
   MapWord map_word = raw.map_word();
   HeapObject forwarded =
       map_word.IsForwardingAddress() ? map_word.ToForwardingAddress() : raw;
   Foreign foreign = Foreign::cast(forwarded);
   return reinterpret_cast<wasm::ArrayType*>(foreign.foreign_address());
 }

 wasm::ArrayType* WasmArray::type() const { return type(map()); }

 int WasmArray::SizeFor(Map map, int length) {
   int element_size = type(map)->element_type().element_size_bytes();
   return kHeaderSize + RoundUp(element_size * length, kTaggedSize);
 }

 void WasmTypeInfo::clear_foreign_address(Isolate* isolate) {
 #ifdef V8_HEAP_SANDBOX
   // Due to the type-specific pointer tags for external pointers, we need to
   // allocate an entry in the table here even though it will just store nullptr.
   AllocateExternalPointerEntries(isolate);
 #endif
   set_foreign_address(isolate, 0);
 }

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

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_WASM_WASM_OBJECTS_INL_H_
	// Copyright 2017 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_WASM_WASM_OBJECTS_INL_H_
	#define V8_WASM_WASM_OBJECTS_INL_H_

	#include "src/wasm/wasm-objects.h"

	#include "src/base/memory.h"
	#include "src/heap/heap-write-barrier-inl.h"
	#include "src/objects/contexts-inl.h"
	#include "src/objects/foreign-inl.h"
	#include "src/objects/heap-number-inl.h"
	#include "src/objects/js-array-buffer-inl.h"
	#include "src/objects/js-function-inl.h"
	#include "src/objects/js-objects-inl.h"
	#include "src/objects/managed.h"
	#include "src/objects/oddball-inl.h"
	#include "src/objects/script-inl.h"
	#include "src/roots/roots.h"
	#include "src/wasm/wasm-code-manager.h"
	#include "src/wasm/wasm-module.h"

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

	namespace v8 {
	namespace internal {

	#include "torque-generated/src/wasm/wasm-objects-tq-inl.inc"

	OBJECT_CONSTRUCTORS_IMPL(WasmExceptionObject, JSObject)
	TQ_OBJECT_CONSTRUCTORS_IMPL(WasmExceptionTag)
	OBJECT_CONSTRUCTORS_IMPL(WasmExportedFunctionData, Struct)
	OBJECT_CONSTRUCTORS_IMPL(WasmGlobalObject, JSObject)
	OBJECT_CONSTRUCTORS_IMPL(WasmInstanceObject, JSObject)
	OBJECT_CONSTRUCTORS_IMPL(WasmMemoryObject, JSObject)
	OBJECT_CONSTRUCTORS_IMPL(WasmModuleObject, JSObject)
	OBJECT_CONSTRUCTORS_IMPL(WasmTableObject, JSObject)
	OBJECT_CONSTRUCTORS_IMPL(AsmWasmData, Struct)
	TQ_OBJECT_CONSTRUCTORS_IMPL(WasmTypeInfo)
	TQ_OBJECT_CONSTRUCTORS_IMPL(WasmStruct)
	TQ_OBJECT_CONSTRUCTORS_IMPL(WasmArray)

	CAST_ACCESSOR(WasmExceptionObject)
	CAST_ACCESSOR(WasmExportedFunctionData)
	CAST_ACCESSOR(WasmGlobalObject)
	CAST_ACCESSOR(WasmInstanceObject)
	CAST_ACCESSOR(WasmMemoryObject)
	CAST_ACCESSOR(WasmModuleObject)
	CAST_ACCESSOR(WasmTableObject)
	CAST_ACCESSOR(AsmWasmData)
	CAST_ACCESSOR(WasmTypeInfo)
	CAST_ACCESSOR(WasmStruct)
	CAST_ACCESSOR(WasmArray)

	#define OPTIONAL_ACCESSORS(holder, name, type, offset) \
	DEF_GETTER(holder, has_##name, bool) { \
	Object value = TaggedField<Object, offset>::load(isolate, *this); \
	return !value.IsUndefined(GetReadOnlyRoots(isolate)); \
	} \
	ACCESSORS_CHECKED2(holder, name, type, offset, \
	!value.IsUndefined(GetReadOnlyRoots(isolate)), true)

	#define PRIMITIVE_ACCESSORS(holder, name, type, offset) \
	type holder::name() const { \
	if (COMPRESS_POINTERS_BOOL && alignof(type) > kTaggedSize) { \
	/* 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<type>(FIELD_ADDR(*this, offset)); \
	} else { \
	return reinterpret_cast<type const>(FIELD_ADDR(*this, offset)); \
	} \
	} \
	void holder::set_##name(type value) { \
	if (COMPRESS_POINTERS_BOOL && alignof(type) > kTaggedSize) { \
	/* 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. */ \
	base::WriteUnalignedValue<type>(FIELD_ADDR(*this, offset), value); \
	} else { \
	reinterpret_cast<type>(FIELD_ADDR(*this, offset)) = value; \
	} \
	}

	// WasmModuleObject
	ACCESSORS(WasmModuleObject, managed_native_module, Managed<wasm::NativeModule>,
	kNativeModuleOffset)
	ACCESSORS(WasmModuleObject, export_wrappers, FixedArray, kExportWrappersOffset)
	ACCESSORS(WasmModuleObject, script, Script, kScriptOffset)
	wasm::NativeModule* WasmModuleObject::native_module() const {
	return managed_native_module().raw();
	}
	const std::shared_ptr<wasm::NativeModule>&
	WasmModuleObject::shared_native_module() const {
	return managed_native_module().get();
	}
	const wasm::WasmModule* WasmModuleObject::module() const {
	// TODO(clemensb): Remove this helper (inline in callers).
	return native_module()->module();
	}
	bool WasmModuleObject::is_asm_js() {
	bool asm_js = is_asmjs_module(module());
	DCHECK_EQ(asm_js, script().IsUserJavaScript());
	return asm_js;
	}

	// WasmTableObject
	ACCESSORS(WasmTableObject, instance, HeapObject, kInstanceOffset)
	ACCESSORS(WasmTableObject, entries, FixedArray, kEntriesOffset)
	SMI_ACCESSORS(WasmTableObject, current_length, kCurrentLengthOffset)
	ACCESSORS(WasmTableObject, maximum_length, Object, kMaximumLengthOffset)
	ACCESSORS(WasmTableObject, dispatch_tables, FixedArray, kDispatchTablesOffset)
	SMI_ACCESSORS(WasmTableObject, raw_type, kRawTypeOffset)

	// WasmMemoryObject
	ACCESSORS(WasmMemoryObject, array_buffer, JSArrayBuffer, kArrayBufferOffset)
	SMI_ACCESSORS(WasmMemoryObject, maximum_pages, kMaximumPagesOffset)
	OPTIONAL_ACCESSORS(WasmMemoryObject, instances, WeakArrayList, kInstancesOffset)

	// WasmGlobalObject
	ACCESSORS(WasmGlobalObject, instance, HeapObject, kInstanceOffset)
	ACCESSORS(WasmGlobalObject, untagged_buffer, JSArrayBuffer,
	kUntaggedBufferOffset)
	ACCESSORS(WasmGlobalObject, tagged_buffer, FixedArray, kTaggedBufferOffset)
	SMI_ACCESSORS(WasmGlobalObject, offset, kOffsetOffset)
	// TODO(7748): This will not suffice to hold the 32-bit encoding of a ValueType.
	// We need to devise and encoding that does, and also encodes is_mutable.
	SMI_ACCESSORS(WasmGlobalObject, raw_type, kRawTypeOffset)
	SMI_ACCESSORS(WasmGlobalObject, is_mutable, kIsMutableOffset)

	wasm::ValueType WasmGlobalObject::type() const {
	return wasm::ValueType::FromRawBitField(static_cast<uint32_t>(raw_type()));
	}
	void WasmGlobalObject::set_type(wasm::ValueType value) {
	set_raw_type(static_cast<int>(value.raw_bit_field()));
	}

	int WasmGlobalObject::type_size() const { return type().element_size_bytes(); }

	Address WasmGlobalObject::address() const {
	DCHECK_NE(type(), wasm::kWasmExternRef);
	DCHECK_LE(offset() + type_size(), untagged_buffer().byte_length());
	return Address(untagged_buffer().backing_store()) + offset();
	}

	int32_t WasmGlobalObject::GetI32() {
	return base::ReadLittleEndianValue<int32_t>(address());
	}

	int64_t WasmGlobalObject::GetI64() {
	return base::ReadLittleEndianValue<int64_t>(address());
	}

	float WasmGlobalObject::GetF32() {
	return base::ReadLittleEndianValue<float>(address());
	}

	double WasmGlobalObject::GetF64() {
	return base::ReadLittleEndianValue<double>(address());
	}

	Handle<Object> WasmGlobalObject::GetRef() {
	// We use this getter for externref, funcref, and exnref.
	DCHECK(type().is_reference_type());
	return handle(tagged_buffer().get(offset()), GetIsolate());
	}

	void WasmGlobalObject::SetI32(int32_t value) {
	base::WriteLittleEndianValue<int32_t>(address(), value);
	}

	void WasmGlobalObject::SetI64(int64_t value) {
	base::WriteLittleEndianValue<int64_t>(address(), value);
	}

	void WasmGlobalObject::SetF32(float value) {
	base::WriteLittleEndianValue<float>(address(), value);
	}

	void WasmGlobalObject::SetF64(double value) {
	base::WriteLittleEndianValue<double>(address(), value);
	}

	void WasmGlobalObject::SetExternRef(Handle<Object> value) {
	// We use this getter externref and exnref.
	DCHECK(type().is_reference_to(wasm::HeapType::kExtern) \|\|
	type().is_reference_to(wasm::HeapType::kExn));
	tagged_buffer().set(offset(), *value);
	}

	bool WasmGlobalObject::SetFuncRef(Isolate* isolate, Handle<Object> value) {
	DCHECK_EQ(type(), wasm::kWasmFuncRef);
	if (!value->IsNull(isolate) &&
	!WasmExternalFunction::IsWasmExternalFunction(*value) &&
	!WasmCapiFunction::IsWasmCapiFunction(*value)) {
	return false;
	}
	tagged_buffer().set(offset(), *value);
	return true;
	}

	// WasmInstanceObject
	PRIMITIVE_ACCESSORS(WasmInstanceObject, memory_start, byte*, kMemoryStartOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, memory_size, size_t, kMemorySizeOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, memory_mask, size_t, kMemoryMaskOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, isolate_root, Address,
	kIsolateRootOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, stack_limit_address, Address,
	kStackLimitAddressOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, real_stack_limit_address, Address,
	kRealStackLimitAddressOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, imported_function_targets, Address*,
	kImportedFunctionTargetsOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, globals_start, byte*,
	kGlobalsStartOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, imported_mutable_globals, Address*,
	kImportedMutableGlobalsOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, indirect_function_table_size, uint32_t,
	kIndirectFunctionTableSizeOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, indirect_function_table_sig_ids,
	uint32_t*, kIndirectFunctionTableSigIdsOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, indirect_function_table_targets,
	Address*, kIndirectFunctionTableTargetsOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, jump_table_start, Address,
	kJumpTableStartOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, data_segment_starts, Address*,
	kDataSegmentStartsOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, data_segment_sizes, uint32_t*,
	kDataSegmentSizesOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, dropped_elem_segments, byte*,
	kDroppedElemSegmentsOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, hook_on_function_call_address, Address,
	kHookOnFunctionCallAddressOffset)
	PRIMITIVE_ACCESSORS(WasmInstanceObject, num_liftoff_function_calls_array,
	uint32_t*, kNumLiftoffFunctionCallsArrayOffset)

	ACCESSORS(WasmInstanceObject, module_object, WasmModuleObject,
	kModuleObjectOffset)
	ACCESSORS(WasmInstanceObject, exports_object, JSObject, kExportsObjectOffset)
	ACCESSORS(WasmInstanceObject, native_context, Context, kNativeContextOffset)
	OPTIONAL_ACCESSORS(WasmInstanceObject, memory_object, WasmMemoryObject,
	kMemoryObjectOffset)
	OPTIONAL_ACCESSORS(WasmInstanceObject, untagged_globals_buffer, JSArrayBuffer,
	kUntaggedGlobalsBufferOffset)
	OPTIONAL_ACCESSORS(WasmInstanceObject, tagged_globals_buffer, FixedArray,
	kTaggedGlobalsBufferOffset)
	OPTIONAL_ACCESSORS(WasmInstanceObject, imported_mutable_globals_buffers,
	FixedArray, kImportedMutableGlobalsBuffersOffset)
	OPTIONAL_ACCESSORS(WasmInstanceObject, tables, FixedArray, kTablesOffset)
	OPTIONAL_ACCESSORS(WasmInstanceObject, indirect_function_tables, FixedArray,
	kIndirectFunctionTablesOffset)
	ACCESSORS(WasmInstanceObject, imported_function_refs, FixedArray,
	kImportedFunctionRefsOffset)
	OPTIONAL_ACCESSORS(WasmInstanceObject, indirect_function_table_refs, FixedArray,
	kIndirectFunctionTableRefsOffset)
	OPTIONAL_ACCESSORS(WasmInstanceObject, managed_native_allocations, Foreign,
	kManagedNativeAllocationsOffset)
	OPTIONAL_ACCESSORS(WasmInstanceObject, exceptions_table, FixedArray,
	kExceptionsTableOffset)
	OPTIONAL_ACCESSORS(WasmInstanceObject, wasm_external_functions, FixedArray,
	kWasmExternalFunctionsOffset)
	ACCESSORS(WasmInstanceObject, managed_object_maps, FixedArray,
	kManagedObjectMapsOffset)

	void WasmInstanceObject::clear_padding() {
	if (FIELD_SIZE(kOptionalPaddingOffset) != 0) {
	DCHECK_EQ(4, FIELD_SIZE(kOptionalPaddingOffset));
	memset(reinterpret_cast<void*>(address() + kOptionalPaddingOffset), 0,
	FIELD_SIZE(kOptionalPaddingOffset));
	}
	}

	IndirectFunctionTableEntry::IndirectFunctionTableEntry(
	Handle<WasmInstanceObject> instance, int table_index, int entry_index)
	: instance_(table_index == 0 ? instance
	: Handle<WasmInstanceObject>::null()),
	table_(table_index != 0
	? handle(WasmIndirectFunctionTable::cast(
	instance->indirect_function_tables().get(
	table_index)),
	instance->GetIsolate())
	: Handle<WasmIndirectFunctionTable>::null()),
	index_(entry_index) {
	DCHECK_GE(entry_index, 0);
	DCHECK_LT(entry_index, table_index == 0
	? instance->indirect_function_table_size()
	: table_->size());
	}

	IndirectFunctionTableEntry::IndirectFunctionTableEntry(
	Handle<WasmIndirectFunctionTable> table, int entry_index)
	: instance_(Handle<WasmInstanceObject>::null()),
	table_(table),
	index_(entry_index) {
	DCHECK_GE(entry_index, 0);
	DCHECK_LT(entry_index, table_->size());
	}

	ImportedFunctionEntry::ImportedFunctionEntry(
	Handle<WasmInstanceObject> instance, int index)
	: instance_(instance), index_(index) {
	DCHECK_GE(index, 0);
	DCHECK_LT(index, instance->module()->num_imported_functions);
	}

	// WasmExceptionObject
	ACCESSORS(WasmExceptionObject, serialized_signature, PodArray<wasm::ValueType>,
	kSerializedSignatureOffset)
	ACCESSORS(WasmExceptionObject, exception_tag, HeapObject, kExceptionTagOffset)

	// WasmExceptionPackage
	OBJECT_CONSTRUCTORS_IMPL(WasmExceptionPackage, JSReceiver)
	CAST_ACCESSOR(WasmExceptionPackage)

	// WasmExportedFunction
	WasmExportedFunction::WasmExportedFunction(Address ptr) : JSFunction(ptr) {
	SLOW_DCHECK(IsWasmExportedFunction(*this));
	}
	CAST_ACCESSOR(WasmExportedFunction)

	// WasmExportedFunctionData
	ACCESSORS(WasmExportedFunctionData, wrapper_code, Code, kWrapperCodeOffset)
	ACCESSORS(WasmExportedFunctionData, instance, WasmInstanceObject,
	kInstanceOffset)
	SMI_ACCESSORS(WasmExportedFunctionData, jump_table_offset,
	kJumpTableOffsetOffset)
	SMI_ACCESSORS(WasmExportedFunctionData, function_index, kFunctionIndexOffset)
	ACCESSORS(WasmExportedFunctionData, signature, Foreign, kSignatureOffset)
	SMI_ACCESSORS(WasmExportedFunctionData, call_count, kCallCountOffset)
	ACCESSORS(WasmExportedFunctionData, c_wrapper_code, Object, kCWrapperCodeOffset)
	ACCESSORS(WasmExportedFunctionData, wasm_call_target, Object,
	kWasmCallTargetOffset)
	SMI_ACCESSORS(WasmExportedFunctionData, packed_args_size, kPackedArgsSizeOffset)

	// WasmJSFunction
	WasmJSFunction::WasmJSFunction(Address ptr) : JSFunction(ptr) {
	SLOW_DCHECK(IsWasmJSFunction(*this));
	}
	CAST_ACCESSOR(WasmJSFunction)

	// WasmJSFunctionData
	OBJECT_CONSTRUCTORS_IMPL(WasmJSFunctionData, Struct)
	CAST_ACCESSOR(WasmJSFunctionData)
	SMI_ACCESSORS(WasmJSFunctionData, serialized_return_count,
	kSerializedReturnCountOffset)
	SMI_ACCESSORS(WasmJSFunctionData, serialized_parameter_count,
	kSerializedParameterCountOffset)
	ACCESSORS(WasmJSFunctionData, serialized_signature, PodArray<wasm::ValueType>,
	kSerializedSignatureOffset)
	ACCESSORS(WasmJSFunctionData, callable, JSReceiver, kCallableOffset)
	ACCESSORS(WasmJSFunctionData, wrapper_code, Code, kWrapperCodeOffset)
	ACCESSORS(WasmJSFunctionData, wasm_to_js_wrapper_code, Code,
	kWasmToJsWrapperCodeOffset)

	// WasmCapiFunction
	WasmCapiFunction::WasmCapiFunction(Address ptr) : JSFunction(ptr) {
	SLOW_DCHECK(IsWasmCapiFunction(*this));
	}
	CAST_ACCESSOR(WasmCapiFunction)

	// WasmExternalFunction
	WasmExternalFunction::WasmExternalFunction(Address ptr) : JSFunction(ptr) {
	SLOW_DCHECK(IsWasmExternalFunction(*this));
	}
	CAST_ACCESSOR(WasmExternalFunction)

	// WasmIndirectFunctionTable
	OBJECT_CONSTRUCTORS_IMPL(WasmIndirectFunctionTable, Struct)
	CAST_ACCESSOR(WasmIndirectFunctionTable)
	PRIMITIVE_ACCESSORS(WasmIndirectFunctionTable, size, uint32_t, kSizeOffset)
	PRIMITIVE_ACCESSORS(WasmIndirectFunctionTable, sig_ids, uint32_t*,
	kSigIdsOffset)
	PRIMITIVE_ACCESSORS(WasmIndirectFunctionTable, targets, Address*,
	kTargetsOffset)
	OPTIONAL_ACCESSORS(WasmIndirectFunctionTable, managed_native_allocations,
	Foreign, kManagedNativeAllocationsOffset)
	ACCESSORS(WasmIndirectFunctionTable, refs, FixedArray, kRefsOffset)

	#undef OPTIONAL_ACCESSORS
	#undef READ_PRIMITIVE_FIELD
	#undef WRITE_PRIMITIVE_FIELD
	#undef PRIMITIVE_ACCESSORS

	wasm::ValueType WasmTableObject::type() {
	// TODO(7748): Support other table types? Wait for spec to clear up.
	return wasm::ValueType::Ref(raw_type(), wasm::kNullable);
	}

	bool WasmMemoryObject::has_maximum_pages() { return maximum_pages() >= 0; }

	// AsmWasmData
	ACCESSORS(AsmWasmData, managed_native_module, Managed<wasm::NativeModule>,
	kManagedNativeModuleOffset)
	ACCESSORS(AsmWasmData, export_wrappers, FixedArray, kExportWrappersOffset)
	ACCESSORS(AsmWasmData, uses_bitset, HeapNumber, kUsesBitsetOffset)

	wasm::StructType* WasmStruct::type(Map map) {
	WasmTypeInfo type_info = map.wasm_type_info();
	return reinterpret_cast<wasm::StructType*>(type_info.foreign_address());
	}

	wasm::StructType* WasmStruct::GcSafeType(Map map) {
	DCHECK_EQ(WASM_STRUCT_TYPE, map.instance_type());
	HeapObject raw = HeapObject::cast(map.constructor_or_backpointer());
	MapWord map_word = raw.map_word();
	HeapObject forwarded =
	map_word.IsForwardingAddress() ? map_word.ToForwardingAddress() : raw;
	Foreign foreign = Foreign::cast(forwarded);
	return reinterpret_cast<wasm::StructType*>(foreign.foreign_address());
	}

	wasm::StructType* WasmStruct::type() const { return type(map()); }

	ObjectSlot WasmStruct::RawField(int raw_offset) {
	int offset = WasmStruct::kHeaderSize + raw_offset;
	return ObjectSlot(FIELD_ADDR(*this, offset));
	}

	wasm::ArrayType* WasmArray::type(Map map) {
	DCHECK_EQ(WASM_ARRAY_TYPE, map.instance_type());
	WasmTypeInfo type_info = map.wasm_type_info();
	return reinterpret_cast<wasm::ArrayType*>(type_info.foreign_address());
	}

	wasm::ArrayType* WasmArray::GcSafeType(Map map) {
	DCHECK_EQ(WASM_ARRAY_TYPE, map.instance_type());
	HeapObject raw = HeapObject::cast(map.constructor_or_backpointer());
	MapWord map_word = raw.map_word();
	HeapObject forwarded =
	map_word.IsForwardingAddress() ? map_word.ToForwardingAddress() : raw;
	Foreign foreign = Foreign::cast(forwarded);
	return reinterpret_cast<wasm::ArrayType*>(foreign.foreign_address());
	}

	wasm::ArrayType* WasmArray::type() const { return type(map()); }

	int WasmArray::SizeFor(Map map, int length) {
	int element_size = type(map)->element_type().element_size_bytes();
	return kHeaderSize + RoundUp(element_size * length, kTaggedSize);
	}

	void WasmTypeInfo::clear_foreign_address(Isolate* isolate) {
	#ifdef V8_HEAP_SANDBOX
	// Due to the type-specific pointer tags for external pointers, we need to
	// allocate an entry in the table here even though it will just store nullptr.
	AllocateExternalPointerEntries(isolate);
	#endif
	set_foreign_address(isolate, 0);
	}

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

	} // namespace internal
	} // namespace v8

	#endif // V8_WASM_WASM_OBJECTS_INL_H_