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// Copyright 2022 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef INCLUDE_CPPGC_INTERNAL_MEMBER_STORAGE_H_ #define INCLUDE_CPPGC_INTERNAL_MEMBER_STORAGE_H_ #include <atomic> #include <cstddef> #include <type_traits> #include "cppgc/internal/api-constants.h" #include "cppgc/internal/logging.h" #include "cppgc/sentinel-pointer.h" #include "v8config.h" // NOLINT(build/include_directory) namespace cppgc { namespace internal { enum class WriteBarrierSlotType { kCompressed, kUncompressed, }; #if defined(CPPGC_POINTER_COMPRESSION) #if defined(__clang__) // Attribute const allows the compiler to assume that CageBaseGlobal::g_base_ // doesn't change (e.g. across calls) and thereby avoid redundant loads. #define CPPGC_CONST __attribute__((const)) #define CPPGC_REQUIRE_CONSTANT_INIT \ __attribute__((require_constant_initialization)) #else // defined(__clang__) #define CPPGC_CONST #define CPPGC_REQUIRE_CONSTANT_INIT #endif // defined(__clang__) class V8_EXPORT CageBaseGlobal final { public: V8_INLINE CPPGC_CONST static uintptr_t Get() { CPPGC_DCHECK(IsBaseConsistent()); return g_base_.base; } V8_INLINE CPPGC_CONST static bool IsSet() { CPPGC_DCHECK(IsBaseConsistent()); return (g_base_.base & ~kLowerHalfWordMask) != 0; } private: // We keep the lower halfword as ones to speed up decompression. static constexpr uintptr_t kLowerHalfWordMask = (api_constants::kCagedHeapReservationAlignment - 1); static union alignas(api_constants::kCachelineSize) Base { uintptr_t base; char cache_line[api_constants::kCachelineSize]; } g_base_ CPPGC_REQUIRE_CONSTANT_INIT; CageBaseGlobal() = delete; V8_INLINE static bool IsBaseConsistent() { return kLowerHalfWordMask == (g_base_.base & kLowerHalfWordMask); } friend class CageBaseGlobalUpdater; }; #undef CPPGC_REQUIRE_CONSTANT_INIT #undef CPPGC_CONST class V8_TRIVIAL_ABI CompressedPointer final { public: using IntegralType = uint32_t; static constexpr auto kWriteBarrierSlotType = WriteBarrierSlotType::kCompressed; V8_INLINE CompressedPointer() : value_(0u) {} V8_INLINE explicit CompressedPointer(const void* ptr) : value_(Compress(ptr)) {} V8_INLINE explicit CompressedPointer(std::nullptr_t) : value_(0u) {} V8_INLINE explicit CompressedPointer(SentinelPointer) : value_(kCompressedSentinel) {} V8_INLINE const void* Load() const { return Decompress(value_); } V8_INLINE const void* LoadAtomic() const { return Decompress( reinterpret_cast<const std::atomic<IntegralType>&>(value_).load( std::memory_order_relaxed)); } V8_INLINE void Store(const void* ptr) { value_ = Compress(ptr); } V8_INLINE void StoreAtomic(const void* value) { reinterpret_cast<std::atomic<IntegralType>&>(value_).store( Compress(value), std::memory_order_relaxed); } V8_INLINE void Clear() { value_ = 0u; } V8_INLINE bool IsCleared() const { return !value_; } V8_INLINE bool IsSentinel() const { return value_ == kCompressedSentinel; } V8_INLINE uint32_t GetAsInteger() const { return value_; } V8_INLINE friend bool operator==(CompressedPointer a, CompressedPointer b) { return a.value_ == b.value_; } V8_INLINE friend bool operator!=(CompressedPointer a, CompressedPointer b) { return a.value_ != b.value_; } V8_INLINE friend bool operator<(CompressedPointer a, CompressedPointer b) { return a.value_ < b.value_; } V8_INLINE friend bool operator<=(CompressedPointer a, CompressedPointer b) { return a.value_ <= b.value_; } V8_INLINE friend bool operator>(CompressedPointer a, CompressedPointer b) { return a.value_ > b.value_; } V8_INLINE friend bool operator>=(CompressedPointer a, CompressedPointer b) { return a.value_ >= b.value_; } static V8_INLINE IntegralType Compress(const void* ptr) { static_assert( SentinelPointer::kSentinelValue == 0b10, "The compression scheme relies on the sentinel encoded as 0b10"); static constexpr size_t kGigaCageMask = ~(api_constants::kCagedHeapReservationAlignment - 1); CPPGC_DCHECK(CageBaseGlobal::IsSet()); const uintptr_t base = CageBaseGlobal::Get(); CPPGC_DCHECK(!ptr || ptr == kSentinelPointer || (base & kGigaCageMask) == (reinterpret_cast<uintptr_t>(ptr) & kGigaCageMask)); #if defined(CPPGC_2GB_CAGE) // Truncate the pointer. auto compressed = static_cast<IntegralType>(reinterpret_cast<uintptr_t>(ptr)); #else // !defined(CPPGC_2GB_CAGE) const auto uptr = reinterpret_cast<uintptr_t>(ptr); // Shift the pointer by one and truncate. auto compressed = static_cast<IntegralType>(uptr >> 1); #endif // !defined(CPPGC_2GB_CAGE) // Normal compressed pointers must have the MSB set. CPPGC_DCHECK((!compressed || compressed == kCompressedSentinel) || (compressed & (1 << 31))); return compressed; } static V8_INLINE void* Decompress(IntegralType ptr) { CPPGC_DCHECK(CageBaseGlobal::IsSet()); const uintptr_t base = CageBaseGlobal::Get(); // Treat compressed pointer as signed and cast it to uint64_t, which will // sign-extend it. #if defined(CPPGC_2GB_CAGE) const uint64_t mask = static_cast<uint64_t>(static_cast<int32_t>(ptr)); #else // !defined(CPPGC_2GB_CAGE) // Then, shift the result by one. It's important to shift the unsigned // value, as otherwise it would result in undefined behavior. const uint64_t mask = static_cast<uint64_t>(static_cast<int32_t>(ptr)) << 1; #endif // !defined(CPPGC_2GB_CAGE) return reinterpret_cast<void*>(mask & base); } private: #if defined(CPPGC_2GB_CAGE) static constexpr IntegralType kCompressedSentinel = SentinelPointer::kSentinelValue; #else // !defined(CPPGC_2GB_CAGE) static constexpr IntegralType kCompressedSentinel = SentinelPointer::kSentinelValue >> 1; #endif // !defined(CPPGC_2GB_CAGE) // All constructors initialize `value_`. Do not add a default value here as it // results in a non-atomic write on some builds, even when the atomic version // of the constructor is used. IntegralType value_; }; #endif // defined(CPPGC_POINTER_COMPRESSION) class V8_TRIVIAL_ABI RawPointer final { public: using IntegralType = uintptr_t; static constexpr auto kWriteBarrierSlotType = WriteBarrierSlotType::kUncompressed; V8_INLINE RawPointer() : ptr_(nullptr) {} V8_INLINE explicit RawPointer(const void* ptr) : ptr_(ptr) {} V8_INLINE const void* Load() const { return ptr_; } V8_INLINE const void* LoadAtomic() const { return reinterpret_cast<const std::atomic<const void*>&>(ptr_).load( std::memory_order_relaxed); } V8_INLINE void Store(const void* ptr) { ptr_ = ptr; } V8_INLINE void StoreAtomic(const void* ptr) { reinterpret_cast<std::atomic<const void*>&>(ptr_).store( ptr, std::memory_order_relaxed); } V8_INLINE void Clear() { ptr_ = nullptr; } V8_INLINE bool IsCleared() const { return !ptr_; } V8_INLINE bool IsSentinel() const { return ptr_ == kSentinelPointer; } V8_INLINE uintptr_t GetAsInteger() const { return reinterpret_cast<uintptr_t>(ptr_); } V8_INLINE friend bool operator==(RawPointer a, RawPointer b) { return a.ptr_ == b.ptr_; } V8_INLINE friend bool operator!=(RawPointer a, RawPointer b) { return a.ptr_ != b.ptr_; } V8_INLINE friend bool operator<(RawPointer a, RawPointer b) { return a.ptr_ < b.ptr_; } V8_INLINE friend bool operator<=(RawPointer a, RawPointer b) { return a.ptr_ <= b.ptr_; } V8_INLINE friend bool operator>(RawPointer a, RawPointer b) { return a.ptr_ > b.ptr_; } V8_INLINE friend bool operator>=(RawPointer a, RawPointer b) { return a.ptr_ >= b.ptr_; } private: // All constructors initialize `ptr_`. Do not add a default value here as it // results in a non-atomic write on some builds, even when the atomic version // of the constructor is used. const void* ptr_; }; #if defined(CPPGC_POINTER_COMPRESSION) using DefaultMemberStorage = CompressedPointer; #else // !defined(CPPGC_POINTER_COMPRESSION) using DefaultMemberStorage = RawPointer; #endif // !defined(CPPGC_POINTER_COMPRESSION) } // namespace internal } // namespace cppgc #endif // INCLUDE_CPPGC_INTERNAL_MEMBER_STORAGE_H_