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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_INTERNAL_PERSISTENT_NODE_H_
#define INCLUDE_CPPGC_INTERNAL_PERSISTENT_NODE_H_
#include <array>
#include <memory>
#include <vector>
#include "cppgc/internal/logging.h"
#include "cppgc/trace-trait.h"
#include "v8config.h" // NOLINT(build/include_directory)
namespace cppgc {
namespace internal {
class CrossThreadPersistentRegion;
class FatalOutOfMemoryHandler;
class RootVisitor;
// PersistentNode represents a variant of two states:
// 1) traceable node with a back pointer to the Persistent object;
// 2) freelist entry.
class PersistentNode final {
public:
PersistentNode() = default;
PersistentNode(const PersistentNode&) = delete;
PersistentNode& operator=(const PersistentNode&) = delete;
void InitializeAsUsedNode(void* owner, TraceRootCallback trace) {
CPPGC_DCHECK(trace);
owner_ = owner;
trace_ = trace;
}
void InitializeAsFreeNode(PersistentNode* next) {
next_ = next;
trace_ = nullptr;
}
void UpdateOwner(void* owner) {
CPPGC_DCHECK(IsUsed());
owner_ = owner;
}
PersistentNode* FreeListNext() const {
CPPGC_DCHECK(!IsUsed());
return next_;
}
void Trace(RootVisitor& root_visitor) const {
CPPGC_DCHECK(IsUsed());
trace_(root_visitor, owner_);
}
bool IsUsed() const { return trace_; }
void* owner() const {
CPPGC_DCHECK(IsUsed());
return owner_;
}
private:
// PersistentNode acts as a designated union:
// If trace_ != nullptr, owner_ points to the corresponding Persistent handle.
// Otherwise, next_ points to the next freed PersistentNode.
union {
void* owner_ = nullptr;
PersistentNode* next_;
};
TraceRootCallback trace_ = nullptr;
};
class V8_EXPORT PersistentRegionBase {
using PersistentNodeSlots = std::array<PersistentNode, 256u>;
public:
// Clears Persistent fields to avoid stale pointers after heap teardown.
~PersistentRegionBase();
PersistentRegionBase(const PersistentRegionBase&) = delete;
PersistentRegionBase& operator=(const PersistentRegionBase&) = delete;
void Iterate(RootVisitor&);
size_t NodesInUse() const;
void ClearAllUsedNodes();
protected:
explicit PersistentRegionBase(const FatalOutOfMemoryHandler& oom_handler);
PersistentNode* TryAllocateNodeFromFreeList(void* owner,
TraceRootCallback trace) {
PersistentNode* node = nullptr;
if (V8_LIKELY(free_list_head_)) {
node = free_list_head_;
free_list_head_ = free_list_head_->FreeListNext();
CPPGC_DCHECK(!node->IsUsed());
node->InitializeAsUsedNode(owner, trace);
nodes_in_use_++;
}
return node;
}
void FreeNode(PersistentNode* node) {
CPPGC_DCHECK(node);
CPPGC_DCHECK(node->IsUsed());
node->InitializeAsFreeNode(free_list_head_);
free_list_head_ = node;
CPPGC_DCHECK(nodes_in_use_ > 0);
nodes_in_use_--;
}
PersistentNode* RefillFreeListAndAllocateNode(void* owner,
TraceRootCallback trace);
private:
template <typename PersistentBaseClass>
void ClearAllUsedNodes();
void RefillFreeList();
std::vector<std::unique_ptr<PersistentNodeSlots>> nodes_;
PersistentNode* free_list_head_ = nullptr;
size_t nodes_in_use_ = 0;
const FatalOutOfMemoryHandler& oom_handler_;
friend class CrossThreadPersistentRegion;
};
// Variant of PersistentRegionBase that checks whether the allocation and
// freeing happens only on the thread that created the region.
class V8_EXPORT PersistentRegion final : public PersistentRegionBase {
public:
explicit PersistentRegion(const FatalOutOfMemoryHandler&);
// Clears Persistent fields to avoid stale pointers after heap teardown.
~PersistentRegion() = default;
PersistentRegion(const PersistentRegion&) = delete;
PersistentRegion& operator=(const PersistentRegion&) = delete;
V8_INLINE PersistentNode* AllocateNode(void* owner, TraceRootCallback trace) {
CPPGC_DCHECK(IsCreationThread());
auto* node = TryAllocateNodeFromFreeList(owner, trace);
if (V8_LIKELY(node)) return node;
// Slow path allocation allows for checking thread correspondence.
CPPGC_CHECK(IsCreationThread());
return RefillFreeListAndAllocateNode(owner, trace);
}
V8_INLINE void FreeNode(PersistentNode* node) {
CPPGC_DCHECK(IsCreationThread());
PersistentRegionBase::FreeNode(node);
}
private:
bool IsCreationThread();
int creation_thread_id_;
};
// CrossThreadPersistent uses PersistentRegionBase but protects it using this
// lock when needed.
class V8_EXPORT PersistentRegionLock final {
public:
PersistentRegionLock();
~PersistentRegionLock();
static void AssertLocked();
};
// Variant of PersistentRegionBase that checks whether the PersistentRegionLock
// is locked.
class V8_EXPORT CrossThreadPersistentRegion final
: protected PersistentRegionBase {
public:
explicit CrossThreadPersistentRegion(const FatalOutOfMemoryHandler&);
// Clears Persistent fields to avoid stale pointers after heap teardown.
~CrossThreadPersistentRegion();
CrossThreadPersistentRegion(const CrossThreadPersistentRegion&) = delete;
CrossThreadPersistentRegion& operator=(const CrossThreadPersistentRegion&) =
delete;
V8_INLINE PersistentNode* AllocateNode(void* owner, TraceRootCallback trace) {
PersistentRegionLock::AssertLocked();
auto* node = TryAllocateNodeFromFreeList(owner, trace);
if (V8_LIKELY(node)) return node;
return RefillFreeListAndAllocateNode(owner, trace);
}
V8_INLINE void FreeNode(PersistentNode* node) {
PersistentRegionLock::AssertLocked();
PersistentRegionBase::FreeNode(node);
}
void Iterate(RootVisitor&);
size_t NodesInUse() const;
void ClearAllUsedNodes();
};
} // namespace internal
} // namespace cppgc
#endif // INCLUDE_CPPGC_INTERNAL_PERSISTENT_NODE_H_