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// Copyright 2020 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_PERSISTENT_H_ #define INCLUDE_CPPGC_PERSISTENT_H_ #include <type_traits> #include "cppgc/internal/persistent-node.h" #include "cppgc/internal/pointer-policies.h" #include "cppgc/sentinel-pointer.h" #include "cppgc/source-location.h" #include "cppgc/type-traits.h" #include "cppgc/visitor.h" #include "v8config.h" // NOLINT(build/include_directory) namespace cppgc { namespace internal { // PersistentBase always refers to the object as const object and defers to // BasicPersistent on casting to the right type as needed. class PersistentBase { protected: PersistentBase() = default; explicit PersistentBase(const void* raw) : raw_(raw) {} const void* GetValue() const { return raw_; } void SetValue(const void* value) { raw_ = value; } PersistentNode* GetNode() const { return node_; } void SetNode(PersistentNode* node) { node_ = node; } // Performs a shallow clear which assumes that internal persistent nodes are // destroyed elsewhere. void ClearFromGC() const { raw_ = nullptr; node_ = nullptr; } protected: mutable const void* raw_ = nullptr; mutable PersistentNode* node_ = nullptr; friend class PersistentRegionBase; }; // The basic class from which all Persistent classes are generated. template <typename T, typename WeaknessPolicy, typename LocationPolicy, typename CheckingPolicy> class BasicPersistent final : public PersistentBase, public LocationPolicy, private WeaknessPolicy, private CheckingPolicy { public: using typename WeaknessPolicy::IsStrongPersistent; using PointeeType = T; // Null-state/sentinel constructors. BasicPersistent( // NOLINT const SourceLocation& loc = SourceLocation::Current()) : LocationPolicy(loc) {} BasicPersistent(std::nullptr_t, // NOLINT const SourceLocation& loc = SourceLocation::Current()) : LocationPolicy(loc) {} BasicPersistent( // NOLINT SentinelPointer s, const SourceLocation& loc = SourceLocation::Current()) : PersistentBase(s), LocationPolicy(loc) {} // Raw value constructors. BasicPersistent(T* raw, // NOLINT const SourceLocation& loc = SourceLocation::Current()) : PersistentBase(raw), LocationPolicy(loc) { if (!IsValid()) return; SetNode(WeaknessPolicy::GetPersistentRegion(GetValue()) .AllocateNode(this, &TraceAsRoot)); this->CheckPointer(Get()); } BasicPersistent(T& raw, // NOLINT const SourceLocation& loc = SourceLocation::Current()) : BasicPersistent(&raw, loc) {} // Copy ctor. BasicPersistent(const BasicPersistent& other, const SourceLocation& loc = SourceLocation::Current()) : BasicPersistent(other.Get(), loc) {} // Heterogeneous ctor. template <typename U, typename OtherWeaknessPolicy, typename OtherLocationPolicy, typename OtherCheckingPolicy, typename = std::enable_if_t<std::is_base_of<T, U>::value>> BasicPersistent( const BasicPersistent<U, OtherWeaknessPolicy, OtherLocationPolicy, OtherCheckingPolicy>& other, const SourceLocation& loc = SourceLocation::Current()) : BasicPersistent(other.Get(), loc) {} // Move ctor. The heterogeneous move ctor is not supported since e.g. // persistent can't reuse persistent node from weak persistent. BasicPersistent( BasicPersistent&& other, const SourceLocation& loc = SourceLocation::Current()) noexcept : PersistentBase(std::move(other)), LocationPolicy(std::move(other)) { if (!IsValid()) return; GetNode()->UpdateOwner(this); other.SetValue(nullptr); other.SetNode(nullptr); this->CheckPointer(Get()); } // Constructor from member. template <typename U, typename MemberBarrierPolicy, typename MemberWeaknessTag, typename MemberCheckingPolicy, typename MemberStorageType, typename = std::enable_if_t<std::is_base_of<T, U>::value>> BasicPersistent(const internal::BasicMember< U, MemberBarrierPolicy, MemberWeaknessTag, MemberCheckingPolicy, MemberStorageType>& member, const SourceLocation& loc = SourceLocation::Current()) : BasicPersistent(member.Get(), loc) {} ~BasicPersistent() { Clear(); } // Copy assignment. BasicPersistent& operator=(const BasicPersistent& other) { return operator=(other.Get()); } template <typename U, typename OtherWeaknessPolicy, typename OtherLocationPolicy, typename OtherCheckingPolicy, typename = std::enable_if_t<std::is_base_of<T, U>::value>> BasicPersistent& operator=( const BasicPersistent<U, OtherWeaknessPolicy, OtherLocationPolicy, OtherCheckingPolicy>& other) { return operator=(other.Get()); } // Move assignment. BasicPersistent& operator=(BasicPersistent&& other) noexcept { if (this == &other) return *this; Clear(); PersistentBase::operator=(std::move(other)); LocationPolicy::operator=(std::move(other)); if (!IsValid()) return *this; GetNode()->UpdateOwner(this); other.SetValue(nullptr); other.SetNode(nullptr); this->CheckPointer(Get()); return *this; } // Assignment from member. template <typename U, typename MemberBarrierPolicy, typename MemberWeaknessTag, typename MemberCheckingPolicy, typename MemberStorageType, typename = std::enable_if_t<std::is_base_of<T, U>::value>> BasicPersistent& operator=( const internal::BasicMember<U, MemberBarrierPolicy, MemberWeaknessTag, MemberCheckingPolicy, MemberStorageType>& member) { return operator=(member.Get()); } BasicPersistent& operator=(T* other) { Assign(other); return *this; } BasicPersistent& operator=(std::nullptr_t) { Clear(); return *this; } BasicPersistent& operator=(SentinelPointer s) { Assign(s); return *this; } explicit operator bool() const { return Get(); } operator T*() const { return Get(); } T* operator->() const { return Get(); } T& operator*() const { return *Get(); } // CFI cast exemption to allow passing SentinelPointer through T* and support // heterogeneous assignments between different Member and Persistent handles // based on their actual types. V8_CLANG_NO_SANITIZE("cfi-unrelated-cast") T* Get() const { // The const_cast below removes the constness from PersistentBase storage. // The following static_cast re-adds any constness if specified through the // user-visible template parameter T. return static_cast<T*>(const_cast<void*>(GetValue())); } void Clear() { // Simplified version of `Assign()` to allow calling without a complete type // `T`. if (IsValid()) { WeaknessPolicy::GetPersistentRegion(GetValue()).FreeNode(GetNode()); SetNode(nullptr); } SetValue(nullptr); } T* Release() { T* result = Get(); Clear(); return result; } template <typename U, typename OtherWeaknessPolicy = WeaknessPolicy, typename OtherLocationPolicy = LocationPolicy, typename OtherCheckingPolicy = CheckingPolicy> BasicPersistent<U, OtherWeaknessPolicy, OtherLocationPolicy, OtherCheckingPolicy> To() const { return BasicPersistent<U, OtherWeaknessPolicy, OtherLocationPolicy, OtherCheckingPolicy>(static_cast<U*>(Get())); } private: static void TraceAsRoot(RootVisitor& root_visitor, const void* ptr) { root_visitor.Trace(*static_cast<const BasicPersistent*>(ptr)); } bool IsValid() const { // Ideally, handling kSentinelPointer would be done by the embedder. On the // other hand, having Persistent aware of it is beneficial since no node // gets wasted. return GetValue() != nullptr && GetValue() != kSentinelPointer; } void Assign(T* ptr) { if (IsValid()) { if (ptr && ptr != kSentinelPointer) { // Simply assign the pointer reusing the existing node. SetValue(ptr); this->CheckPointer(ptr); return; } WeaknessPolicy::GetPersistentRegion(GetValue()).FreeNode(GetNode()); SetNode(nullptr); } SetValue(ptr); if (!IsValid()) return; SetNode(WeaknessPolicy::GetPersistentRegion(GetValue()) .AllocateNode(this, &TraceAsRoot)); this->CheckPointer(Get()); } void ClearFromGC() const { if (IsValid()) { WeaknessPolicy::GetPersistentRegion(GetValue()).FreeNode(GetNode()); PersistentBase::ClearFromGC(); } } // Set Get() for details. V8_CLANG_NO_SANITIZE("cfi-unrelated-cast") T* GetFromGC() const { return static_cast<T*>(const_cast<void*>(GetValue())); } friend class internal::RootVisitor; }; template <typename T1, typename WeaknessPolicy1, typename LocationPolicy1, typename CheckingPolicy1, typename T2, typename WeaknessPolicy2, typename LocationPolicy2, typename CheckingPolicy2> bool operator==(const BasicPersistent<T1, WeaknessPolicy1, LocationPolicy1, CheckingPolicy1>& p1, const BasicPersistent<T2, WeaknessPolicy2, LocationPolicy2, CheckingPolicy2>& p2) { return p1.Get() == p2.Get(); } template <typename T1, typename WeaknessPolicy1, typename LocationPolicy1, typename CheckingPolicy1, typename T2, typename WeaknessPolicy2, typename LocationPolicy2, typename CheckingPolicy2> bool operator!=(const BasicPersistent<T1, WeaknessPolicy1, LocationPolicy1, CheckingPolicy1>& p1, const BasicPersistent<T2, WeaknessPolicy2, LocationPolicy2, CheckingPolicy2>& p2) { return !(p1 == p2); } template <typename T1, typename PersistentWeaknessPolicy, typename PersistentLocationPolicy, typename PersistentCheckingPolicy, typename T2, typename MemberWriteBarrierPolicy, typename MemberWeaknessTag, typename MemberCheckingPolicy, typename MemberStorageType> bool operator==( const BasicPersistent<T1, PersistentWeaknessPolicy, PersistentLocationPolicy, PersistentCheckingPolicy>& p, const BasicMember<T2, MemberWeaknessTag, MemberWriteBarrierPolicy, MemberCheckingPolicy, MemberStorageType>& m) { return p.Get() == m.Get(); } template <typename T1, typename PersistentWeaknessPolicy, typename PersistentLocationPolicy, typename PersistentCheckingPolicy, typename T2, typename MemberWriteBarrierPolicy, typename MemberWeaknessTag, typename MemberCheckingPolicy, typename MemberStorageType> bool operator!=( const BasicPersistent<T1, PersistentWeaknessPolicy, PersistentLocationPolicy, PersistentCheckingPolicy>& p, const BasicMember<T2, MemberWeaknessTag, MemberWriteBarrierPolicy, MemberCheckingPolicy, MemberStorageType>& m) { return !(p == m); } template <typename T1, typename MemberWriteBarrierPolicy, typename MemberWeaknessTag, typename MemberCheckingPolicy, typename MemberStorageType, typename T2, typename PersistentWeaknessPolicy, typename PersistentLocationPolicy, typename PersistentCheckingPolicy> bool operator==( const BasicMember<T2, MemberWeaknessTag, MemberWriteBarrierPolicy, MemberCheckingPolicy, MemberStorageType>& m, const BasicPersistent<T1, PersistentWeaknessPolicy, PersistentLocationPolicy, PersistentCheckingPolicy>& p) { return m.Get() == p.Get(); } template <typename T1, typename MemberWriteBarrierPolicy, typename MemberWeaknessTag, typename MemberCheckingPolicy, typename MemberStorageType, typename T2, typename PersistentWeaknessPolicy, typename PersistentLocationPolicy, typename PersistentCheckingPolicy> bool operator!=( const BasicMember<T2, MemberWeaknessTag, MemberWriteBarrierPolicy, MemberCheckingPolicy, MemberStorageType>& m, const BasicPersistent<T1, PersistentWeaknessPolicy, PersistentLocationPolicy, PersistentCheckingPolicy>& p) { return !(m == p); } template <typename T, typename LocationPolicy, typename CheckingPolicy> struct IsWeak<BasicPersistent<T, internal::WeakPersistentPolicy, LocationPolicy, CheckingPolicy>> : std::true_type {}; } // namespace internal /** * Persistent is a way to create a strong pointer from an off-heap object to * another on-heap object. As long as the Persistent handle is alive the GC will * keep the object pointed to alive. The Persistent handle is always a GC root * from the point of view of the GC. Persistent must be constructed and * destructed in the same thread. */ template <typename T> using Persistent = internal::BasicPersistent<T, internal::StrongPersistentPolicy>; /** * WeakPersistent is a way to create a weak pointer from an off-heap object to * an on-heap object. The pointer is automatically cleared when the pointee gets * collected. WeakPersistent must be constructed and destructed in the same * thread. */ template <typename T> using WeakPersistent = internal::BasicPersistent<T, internal::WeakPersistentPolicy>; } // namespace cppgc #endif // INCLUDE_CPPGC_PERSISTENT_H_