7a62cceb72
This CL introduces a new fast_api_call_target field on the isolate, which is set by Turbofan before making the fast call. It then uses the field when creating a stack sample and stores it in the existing external_callback_entry used for regular API callbacks. The CL also adds a cctest with simple usage scenario and introduces a minor refactoring in test-api.cc. Design doc: https://docs.google.com/document/d/1r32qlPzGz0P7nieisJ5h2qfSnWOs40Cigt0LXPipejE/edit Bug: chromium:1052746 Change-Id: I2dab1bc395ccab0c14088f7c354fb52b08df8d32 Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2488683 Commit-Queue: Maya Lekova <mslekova@chromium.org> Reviewed-by: Georg Neis <neis@chromium.org> Reviewed-by: Peter Marshall <petermarshall@chromium.org> Cr-Commit-Position: refs/heads/master@{#71254}
463 lines
17 KiB
C++
463 lines
17 KiB
C++
// Copyright 2018 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef INCLUDE_V8_INTERNAL_H_
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#define INCLUDE_V8_INTERNAL_H_
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#include <stddef.h>
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#include <stdint.h>
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#include <string.h>
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#include <type_traits>
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#include "v8-version.h" // NOLINT(build/include_directory)
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#include "v8config.h" // NOLINT(build/include_directory)
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namespace v8 {
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class Context;
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class Data;
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class Isolate;
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namespace internal {
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class Isolate;
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typedef uintptr_t Address;
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static const Address kNullAddress = 0;
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/**
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* Configuration of tagging scheme.
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*/
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const int kApiSystemPointerSize = sizeof(void*);
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const int kApiDoubleSize = sizeof(double);
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const int kApiInt32Size = sizeof(int32_t);
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const int kApiInt64Size = sizeof(int64_t);
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// Tag information for HeapObject.
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const int kHeapObjectTag = 1;
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const int kWeakHeapObjectTag = 3;
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const int kHeapObjectTagSize = 2;
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const intptr_t kHeapObjectTagMask = (1 << kHeapObjectTagSize) - 1;
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// Tag information for Smi.
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const int kSmiTag = 0;
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const int kSmiTagSize = 1;
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const intptr_t kSmiTagMask = (1 << kSmiTagSize) - 1;
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template <size_t tagged_ptr_size>
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struct SmiTagging;
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constexpr intptr_t kIntptrAllBitsSet = intptr_t{-1};
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constexpr uintptr_t kUintptrAllBitsSet =
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static_cast<uintptr_t>(kIntptrAllBitsSet);
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// Smi constants for systems where tagged pointer is a 32-bit value.
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template <>
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struct SmiTagging<4> {
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enum { kSmiShiftSize = 0, kSmiValueSize = 31 };
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static constexpr intptr_t kSmiMinValue =
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static_cast<intptr_t>(kUintptrAllBitsSet << (kSmiValueSize - 1));
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static constexpr intptr_t kSmiMaxValue = -(kSmiMinValue + 1);
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V8_INLINE static int SmiToInt(const internal::Address value) {
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int shift_bits = kSmiTagSize + kSmiShiftSize;
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// Truncate and shift down (requires >> to be sign extending).
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return static_cast<int32_t>(static_cast<uint32_t>(value)) >> shift_bits;
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}
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V8_INLINE static constexpr bool IsValidSmi(intptr_t value) {
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// Is value in range [kSmiMinValue, kSmiMaxValue].
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// Use unsigned operations in order to avoid undefined behaviour in case of
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// signed integer overflow.
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return (static_cast<uintptr_t>(value) -
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static_cast<uintptr_t>(kSmiMinValue)) <=
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(static_cast<uintptr_t>(kSmiMaxValue) -
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static_cast<uintptr_t>(kSmiMinValue));
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}
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};
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// Smi constants for systems where tagged pointer is a 64-bit value.
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template <>
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struct SmiTagging<8> {
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enum { kSmiShiftSize = 31, kSmiValueSize = 32 };
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static constexpr intptr_t kSmiMinValue =
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static_cast<intptr_t>(kUintptrAllBitsSet << (kSmiValueSize - 1));
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static constexpr intptr_t kSmiMaxValue = -(kSmiMinValue + 1);
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V8_INLINE static int SmiToInt(const internal::Address value) {
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int shift_bits = kSmiTagSize + kSmiShiftSize;
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// Shift down and throw away top 32 bits.
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return static_cast<int>(static_cast<intptr_t>(value) >> shift_bits);
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}
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V8_INLINE static constexpr bool IsValidSmi(intptr_t value) {
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// To be representable as a long smi, the value must be a 32-bit integer.
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return (value == static_cast<int32_t>(value));
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}
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};
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#ifdef V8_COMPRESS_POINTERS
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static_assert(
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kApiSystemPointerSize == kApiInt64Size,
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"Pointer compression can be enabled only for 64-bit architectures");
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const int kApiTaggedSize = kApiInt32Size;
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#else
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const int kApiTaggedSize = kApiSystemPointerSize;
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#endif
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constexpr bool PointerCompressionIsEnabled() {
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return kApiTaggedSize != kApiSystemPointerSize;
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}
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constexpr bool HeapSandboxIsEnabled() {
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#ifdef V8_HEAP_SANDBOX
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return true;
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#else
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return false;
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#endif
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}
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using ExternalPointer_t = Address;
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// If the heap sandbox is enabled, these tag values will be XORed with the
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// external pointers in the external pointer table to prevent use of pointers of
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// the wrong type.
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enum ExternalPointerTag : Address {
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kExternalPointerNullTag = static_cast<Address>(0ULL),
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kArrayBufferBackingStoreTag = static_cast<Address>(1ULL << 48),
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kTypedArrayExternalPointerTag = static_cast<Address>(2ULL << 48),
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kDataViewDataPointerTag = static_cast<Address>(3ULL << 48),
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kExternalStringResourceTag = static_cast<Address>(4ULL << 48),
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kExternalStringResourceDataTag = static_cast<Address>(5ULL << 48),
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kForeignForeignAddressTag = static_cast<Address>(6ULL << 48),
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kNativeContextMicrotaskQueueTag = static_cast<Address>(7ULL << 48),
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// TODO(v8:10391, saelo): Currently has to be zero so that raw zero values are
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// also nullptr
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kEmbedderDataSlotPayloadTag = static_cast<Address>(0ULL << 48),
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};
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#ifdef V8_31BIT_SMIS_ON_64BIT_ARCH
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using PlatformSmiTagging = SmiTagging<kApiInt32Size>;
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#else
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using PlatformSmiTagging = SmiTagging<kApiTaggedSize>;
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#endif
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// TODO(ishell): Consinder adding kSmiShiftBits = kSmiShiftSize + kSmiTagSize
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// since it's used much more often than the inividual constants.
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const int kSmiShiftSize = PlatformSmiTagging::kSmiShiftSize;
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const int kSmiValueSize = PlatformSmiTagging::kSmiValueSize;
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const int kSmiMinValue = static_cast<int>(PlatformSmiTagging::kSmiMinValue);
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const int kSmiMaxValue = static_cast<int>(PlatformSmiTagging::kSmiMaxValue);
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constexpr bool SmiValuesAre31Bits() { return kSmiValueSize == 31; }
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constexpr bool SmiValuesAre32Bits() { return kSmiValueSize == 32; }
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V8_INLINE static constexpr internal::Address IntToSmi(int value) {
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return (static_cast<Address>(value) << (kSmiTagSize + kSmiShiftSize)) |
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kSmiTag;
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}
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// Converts encoded external pointer to address.
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V8_EXPORT Address DecodeExternalPointerImpl(const Isolate* isolate,
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ExternalPointer_t pointer,
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ExternalPointerTag tag);
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// {obj} must be the raw tagged pointer representation of a HeapObject
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// that's guaranteed to never be in ReadOnlySpace.
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V8_EXPORT internal::Isolate* IsolateFromNeverReadOnlySpaceObject(Address obj);
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// Returns if we need to throw when an error occurs. This infers the language
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// mode based on the current context and the closure. This returns true if the
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// language mode is strict.
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V8_EXPORT bool ShouldThrowOnError(v8::internal::Isolate* isolate);
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/**
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* This class exports constants and functionality from within v8 that
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* is necessary to implement inline functions in the v8 api. Don't
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* depend on functions and constants defined here.
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*/
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class Internals {
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public:
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// These values match non-compiler-dependent values defined within
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// the implementation of v8.
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static const int kHeapObjectMapOffset = 0;
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static const int kMapInstanceTypeOffset = 1 * kApiTaggedSize + kApiInt32Size;
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static const int kStringResourceOffset =
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1 * kApiTaggedSize + 2 * kApiInt32Size;
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static const int kOddballKindOffset = 4 * kApiTaggedSize + kApiDoubleSize;
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static const int kJSObjectHeaderSize = 3 * kApiTaggedSize;
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static const int kFixedArrayHeaderSize = 2 * kApiTaggedSize;
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static const int kEmbedderDataArrayHeaderSize = 2 * kApiTaggedSize;
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static const int kEmbedderDataSlotSize = kApiSystemPointerSize;
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#ifdef V8_HEAP_SANDBOX
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static const int kEmbedderDataSlotRawPayloadOffset = kApiTaggedSize;
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#endif
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static const int kNativeContextEmbedderDataOffset = 6 * kApiTaggedSize;
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static const int kFullStringRepresentationMask = 0x0f;
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static const int kStringEncodingMask = 0x8;
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static const int kExternalTwoByteRepresentationTag = 0x02;
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static const int kExternalOneByteRepresentationTag = 0x0a;
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static const uint32_t kNumIsolateDataSlots = 4;
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// IsolateData layout guarantees.
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static const int kIsolateEmbedderDataOffset = 0;
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static const int kIsolateFastCCallCallerFpOffset =
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kNumIsolateDataSlots * kApiSystemPointerSize;
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static const int kIsolateFastCCallCallerPcOffset =
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kIsolateFastCCallCallerFpOffset + kApiSystemPointerSize;
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static const int kIsolateFastApiCallTargetOffset =
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kIsolateFastCCallCallerPcOffset + kApiSystemPointerSize;
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static const int kIsolateStackGuardOffset =
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kIsolateFastApiCallTargetOffset + kApiSystemPointerSize;
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static const int kIsolateRootsOffset =
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kIsolateStackGuardOffset + 7 * kApiSystemPointerSize;
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static const int kExternalPointerTableBufferOffset = 0;
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static const int kExternalPointerTableLengthOffset =
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kExternalPointerTableBufferOffset + kApiSystemPointerSize;
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static const int kExternalPointerTableCapacityOffset =
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kExternalPointerTableLengthOffset + kApiInt32Size;
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static const int kUndefinedValueRootIndex = 4;
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static const int kTheHoleValueRootIndex = 5;
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static const int kNullValueRootIndex = 6;
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static const int kTrueValueRootIndex = 7;
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static const int kFalseValueRootIndex = 8;
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static const int kEmptyStringRootIndex = 9;
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static const int kNodeClassIdOffset = 1 * kApiSystemPointerSize;
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static const int kNodeFlagsOffset = 1 * kApiSystemPointerSize + 3;
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static const int kNodeStateMask = 0x7;
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static const int kNodeStateIsWeakValue = 2;
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static const int kNodeStateIsPendingValue = 3;
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static const int kFirstNonstringType = 0x40;
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static const int kOddballType = 0x43;
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static const int kForeignType = 0x46;
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static const int kJSSpecialApiObjectType = 0x410;
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static const int kJSApiObjectType = 0x420;
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static const int kJSObjectType = 0x421;
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static const int kUndefinedOddballKind = 5;
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static const int kNullOddballKind = 3;
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// Constants used by PropertyCallbackInfo to check if we should throw when an
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// error occurs.
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static const int kThrowOnError = 0;
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static const int kDontThrow = 1;
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static const int kInferShouldThrowMode = 2;
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// Soft limit for AdjustAmountofExternalAllocatedMemory. Trigger an
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// incremental GC once the external memory reaches this limit.
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static constexpr int kExternalAllocationSoftLimit = 64 * 1024 * 1024;
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V8_EXPORT static void CheckInitializedImpl(v8::Isolate* isolate);
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V8_INLINE static void CheckInitialized(v8::Isolate* isolate) {
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#ifdef V8_ENABLE_CHECKS
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CheckInitializedImpl(isolate);
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#endif
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}
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V8_INLINE static bool HasHeapObjectTag(const internal::Address value) {
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return (value & kHeapObjectTagMask) == static_cast<Address>(kHeapObjectTag);
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}
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V8_INLINE static int SmiValue(const internal::Address value) {
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return PlatformSmiTagging::SmiToInt(value);
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}
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V8_INLINE static constexpr internal::Address IntToSmi(int value) {
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return internal::IntToSmi(value);
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}
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V8_INLINE static constexpr bool IsValidSmi(intptr_t value) {
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return PlatformSmiTagging::IsValidSmi(value);
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}
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V8_INLINE static int GetInstanceType(const internal::Address obj) {
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typedef internal::Address A;
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A map = ReadTaggedPointerField(obj, kHeapObjectMapOffset);
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return ReadRawField<uint16_t>(map, kMapInstanceTypeOffset);
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}
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V8_INLINE static int GetOddballKind(const internal::Address obj) {
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return SmiValue(ReadTaggedSignedField(obj, kOddballKindOffset));
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}
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V8_INLINE static bool IsExternalTwoByteString(int instance_type) {
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int representation = (instance_type & kFullStringRepresentationMask);
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return representation == kExternalTwoByteRepresentationTag;
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}
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V8_INLINE static uint8_t GetNodeFlag(internal::Address* obj, int shift) {
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uint8_t* addr = reinterpret_cast<uint8_t*>(obj) + kNodeFlagsOffset;
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return *addr & static_cast<uint8_t>(1U << shift);
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}
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V8_INLINE static void UpdateNodeFlag(internal::Address* obj, bool value,
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int shift) {
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uint8_t* addr = reinterpret_cast<uint8_t*>(obj) + kNodeFlagsOffset;
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uint8_t mask = static_cast<uint8_t>(1U << shift);
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*addr = static_cast<uint8_t>((*addr & ~mask) | (value << shift));
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}
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V8_INLINE static uint8_t GetNodeState(internal::Address* obj) {
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uint8_t* addr = reinterpret_cast<uint8_t*>(obj) + kNodeFlagsOffset;
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return *addr & kNodeStateMask;
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}
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V8_INLINE static void UpdateNodeState(internal::Address* obj, uint8_t value) {
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uint8_t* addr = reinterpret_cast<uint8_t*>(obj) + kNodeFlagsOffset;
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*addr = static_cast<uint8_t>((*addr & ~kNodeStateMask) | value);
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}
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V8_INLINE static void SetEmbedderData(v8::Isolate* isolate, uint32_t slot,
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void* data) {
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internal::Address addr = reinterpret_cast<internal::Address>(isolate) +
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kIsolateEmbedderDataOffset +
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slot * kApiSystemPointerSize;
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*reinterpret_cast<void**>(addr) = data;
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}
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V8_INLINE static void* GetEmbedderData(const v8::Isolate* isolate,
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uint32_t slot) {
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internal::Address addr = reinterpret_cast<internal::Address>(isolate) +
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kIsolateEmbedderDataOffset +
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slot * kApiSystemPointerSize;
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return *reinterpret_cast<void* const*>(addr);
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}
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V8_INLINE static internal::Address* GetRoot(v8::Isolate* isolate, int index) {
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internal::Address addr = reinterpret_cast<internal::Address>(isolate) +
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kIsolateRootsOffset +
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index * kApiSystemPointerSize;
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return reinterpret_cast<internal::Address*>(addr);
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}
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template <typename T>
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V8_INLINE static T ReadRawField(internal::Address heap_object_ptr,
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int offset) {
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internal::Address addr = heap_object_ptr + offset - kHeapObjectTag;
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#ifdef V8_COMPRESS_POINTERS
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if (sizeof(T) > kApiTaggedSize) {
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// TODO(ishell, v8:8875): When pointer compression is enabled 8-byte size
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// fields (external pointers, doubles and BigInt data) are only
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// kTaggedSize aligned so we have to use unaligned pointer friendly way of
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// accessing them in order to avoid undefined behavior in C++ code.
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T r;
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memcpy(&r, reinterpret_cast<void*>(addr), sizeof(T));
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return r;
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}
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#endif
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return *reinterpret_cast<const T*>(addr);
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}
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V8_INLINE static internal::Address ReadTaggedPointerField(
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internal::Address heap_object_ptr, int offset) {
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#ifdef V8_COMPRESS_POINTERS
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uint32_t value = ReadRawField<uint32_t>(heap_object_ptr, offset);
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internal::Address root = GetRootFromOnHeapAddress(heap_object_ptr);
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return root + static_cast<internal::Address>(static_cast<uintptr_t>(value));
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#else
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return ReadRawField<internal::Address>(heap_object_ptr, offset);
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#endif
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}
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V8_INLINE static internal::Address ReadTaggedSignedField(
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internal::Address heap_object_ptr, int offset) {
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#ifdef V8_COMPRESS_POINTERS
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uint32_t value = ReadRawField<uint32_t>(heap_object_ptr, offset);
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return static_cast<internal::Address>(static_cast<uintptr_t>(value));
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#else
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return ReadRawField<internal::Address>(heap_object_ptr, offset);
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#endif
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}
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V8_INLINE static internal::Isolate* GetIsolateForHeapSandbox(
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internal::Address obj) {
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#ifdef V8_HEAP_SANDBOX
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return internal::IsolateFromNeverReadOnlySpaceObject(obj);
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#else
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// Not used in non-sandbox mode.
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return nullptr;
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#endif
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}
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V8_INLINE static Address DecodeExternalPointer(
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const Isolate* isolate, ExternalPointer_t encoded_pointer,
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ExternalPointerTag tag) {
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#ifdef V8_HEAP_SANDBOX
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return internal::DecodeExternalPointerImpl(isolate, encoded_pointer, tag);
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#else
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return encoded_pointer;
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#endif
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}
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V8_INLINE static internal::Address ReadExternalPointerField(
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internal::Isolate* isolate, internal::Address heap_object_ptr, int offset,
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ExternalPointerTag tag) {
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#ifdef V8_HEAP_SANDBOX
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internal::ExternalPointer_t encoded_value =
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ReadRawField<uint32_t>(heap_object_ptr, offset);
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// We currently have to treat zero as nullptr in embedder slots.
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return encoded_value ? DecodeExternalPointer(isolate, encoded_value, tag)
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: 0;
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#else
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return ReadRawField<Address>(heap_object_ptr, offset);
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#endif
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}
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#ifdef V8_COMPRESS_POINTERS
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// See v8:7703 or src/ptr-compr.* for details about pointer compression.
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static constexpr size_t kPtrComprHeapReservationSize = size_t{1} << 32;
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static constexpr size_t kPtrComprIsolateRootAlignment = size_t{1} << 32;
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V8_INLINE static internal::Address GetRootFromOnHeapAddress(
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internal::Address addr) {
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return addr & -static_cast<intptr_t>(kPtrComprIsolateRootAlignment);
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}
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V8_INLINE static internal::Address DecompressTaggedAnyField(
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internal::Address heap_object_ptr, uint32_t value) {
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internal::Address root = GetRootFromOnHeapAddress(heap_object_ptr);
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return root + static_cast<internal::Address>(static_cast<uintptr_t>(value));
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}
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#endif // V8_COMPRESS_POINTERS
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};
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// Only perform cast check for types derived from v8::Data since
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// other types do not implement the Cast method.
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template <bool PerformCheck>
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struct CastCheck {
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template <class T>
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static void Perform(T* data);
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};
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template <>
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template <class T>
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void CastCheck<true>::Perform(T* data) {
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T::Cast(data);
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}
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template <>
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template <class T>
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void CastCheck<false>::Perform(T* data) {}
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template <class T>
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V8_INLINE void PerformCastCheck(T* data) {
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CastCheck<std::is_base_of<Data, T>::value &&
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!std::is_same<Data, std::remove_cv_t<T>>::value>::Perform(data);
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}
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// A base class for backing stores, which is needed due to vagaries of
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// how static casts work with std::shared_ptr.
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class BackingStoreBase {};
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} // namespace internal
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} // namespace v8
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#endif // INCLUDE_V8_INTERNAL_H_
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