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// Copyright 2018 The Chromium 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 THIRD_PARTY_BLINK_RENDERER_PLATFORM_HEAP_MARKING_VISITOR_H_
#define THIRD_PARTY_BLINK_RENDERER_PLATFORM_HEAP_MARKING_VISITOR_H_
#include "third_party/blink/renderer/platform/heap/heap.h"
#include "third_party/blink/renderer/platform/heap/heap_buildflags.h"
#include "third_party/blink/renderer/platform/heap/heap_page.h"
#include "third_party/blink/renderer/platform/heap/visitor.h"
namespace blink {
namespace {
ALWAYS_INLINE bool IsHashTableDeleteValue(const void* value) {
return value == reinterpret_cast<void*>(-1);
}
} // namespace
class BasePage;
class HeapAllocator;
enum class TracenessMemberConfiguration;
template <typename T, TracenessMemberConfiguration tracenessConfiguration>
class MemberBase;
// Base visitor used to mark Oilpan objects on any thread.
class PLATFORM_EXPORT MarkingVisitorBase : public Visitor {
public:
enum MarkingMode {
// Default visitor mode used for regular marking.
kGlobalMarking,
// Visitor mode recording slots for compaction during marking.
kGlobalMarkingWithCompaction,
};
void VisitWeakContainer(const void*,
const void* const*,
TraceDescriptor,
TraceDescriptor,
WeakCallback,
const void*) final;
void VisitEphemeron(const void*, const void*, TraceCallback) final;
// Marks an object dynamically using any address within its body and adds a
// tracing callback for processing of the object. The object is not allowed
// to be in construction.
void DynamicallyMarkAddress(ConstAddress);
// This callback mechanism is needed to account for backing store objects
// containing intra-object pointers, all of which must be relocated/rebased
// with respect to the moved-to location.
//
// For Blink, |HeapLinkedHashSet<>| is currently the only abstraction which
// relies on this feature.
void RegisterBackingStoreCallback(const void*, MovingObjectCallback) final;
void RegisterMovableSlot(const void* const*) final;
void RegisterWeakCallback(WeakCallback, const void*) final;
// Flush private segments remaining in visitor's worklists to global pools.
void FlushCompactionWorklists();
size_t marked_bytes() const { return marked_bytes_; }
int task_id() const { return task_id_; }
// Account for object's live bytes. Should only be adjusted when
// actually tracing through an already marked object. Logically, this means
// accounting for the bytes when transitioning from grey to black.
ALWAYS_INLINE void AccountMarkedBytes(HeapObjectHeader*);
protected:
MarkingVisitorBase(ThreadState*, MarkingMode, int task_id);
~MarkingVisitorBase() override = default;
void Visit(const void* object, TraceDescriptor desc) final;
void VisitWeak(const void*, const void*, TraceDescriptor, WeakCallback) final;
// Marks an object and adds a tracing callback for processing of the object.
void MarkHeader(HeapObjectHeader*, const TraceDescriptor&);
// Try to mark an object without tracing. Returns true when the object was not
// marked upon calling.
bool MarkHeaderNoTracing(HeapObjectHeader*);
MarkingWorklist::View marking_worklist_;
WriteBarrierWorklist::View write_barrier_worklist_;
NotFullyConstructedWorklist::View not_fully_constructed_worklist_;
WeakCallbackWorklist::View weak_callback_worklist_;
MovableReferenceWorklist::View movable_reference_worklist_;
EphemeronPairsWorklist::View discovered_ephemeron_pairs_worklist_;
EphemeronPairsWorklist::View ephemeron_pairs_to_process_worklist_;
BackingStoreCallbackWorklist::View backing_store_callback_worklist_;
size_t marked_bytes_ = 0;
const MarkingMode marking_mode_;
int task_id_;
};
ALWAYS_INLINE void MarkingVisitorBase::AccountMarkedBytes(
HeapObjectHeader* header) {
marked_bytes_ +=
header->IsLargeObject<HeapObjectHeader::AccessMode::kAtomic>()
? static_cast<LargeObjectPage*>(PageFromObject(header))->ObjectSize()
: header->size<HeapObjectHeader::AccessMode::kAtomic>();
}
ALWAYS_INLINE bool MarkingVisitorBase::MarkHeaderNoTracing(
HeapObjectHeader* header) {
DCHECK(header);
DCHECK(State()->IsIncrementalMarking() || State()->InAtomicMarkingPause());
// A GC should only mark the objects that belong in its heap.
DCHECK_EQ(State(),
PageFromObject(header->Payload())->Arena()->GetThreadState());
// Never mark free space objects. This would e.g. hint to marking a promptly
// freed backing store.
DCHECK(!header->IsFree());
return header->TryMark<HeapObjectHeader::AccessMode::kAtomic>();
}
inline void MarkingVisitorBase::Visit(const void* object,
TraceDescriptor desc) {
DCHECK(object);
MarkHeader(HeapObjectHeader::FromPayload(desc.base_object_payload), desc);
}
// Marks an object and adds a tracing callback for processing of the object.
ALWAYS_INLINE void MarkingVisitorBase::MarkHeader(HeapObjectHeader* header,
const TraceDescriptor& desc) {
DCHECK(header);
DCHECK(desc.callback);
if (header->IsInConstruction<HeapObjectHeader::AccessMode::kAtomic>()) {
not_fully_constructed_worklist_.Push(header->Payload());
} else if (MarkHeaderNoTracing(header)) {
marking_worklist_.Push(desc);
}
}
// Visitor used to mark Oilpan objects on the main thread. Also implements
// various sorts of write barriers that should only be called from the main
// thread.
class PLATFORM_EXPORT MarkingVisitor : public MarkingVisitorBase {
public:
static void GenerationalBarrier(Address slot, ThreadState* state);
// Eagerly traces an already marked backing store ensuring that all its
// children are discovered by the marker. The barrier bails out if marking
// is off and on individual objects reachable if they are already marked. The
// barrier uses the callback function through GcInfo, so it will not inline
// any templated type-specific code.
static void TraceMarkedBackingStore(const void* value);
MarkingVisitor(ThreadState*, MarkingMode);
~MarkingVisitor() override = default;
// Conservatively marks an object if pointed to by Address. The object may
// be in construction as the scan is conservative without relying on a
// Trace method.
void ConservativelyMarkAddress(BasePage*, ConstAddress);
void FlushMarkingWorklists();
private:
// Write barrier that adds a value the |slot| refers to to the set of marked
// objects. The barrier bails out if marking is off or the object is not yet
// marked. Returns true if the value has been marked on this call.
template <typename T>
static bool WriteBarrier(T** slot);
// Exact version of the marking and generational write barriers.
static bool WriteBarrierSlow(void*);
static void GenerationalBarrierSlow(Address, ThreadState*);
static bool MarkValue(void*, BasePage*, ThreadState*);
static void TraceMarkedBackingStoreSlow(const void*);
friend class HeapAllocator;
template <typename T, TracenessMemberConfiguration tracenessConfiguration>
friend class MemberBase;
};
// static
template <typename T>
ALWAYS_INLINE bool MarkingVisitor::WriteBarrier(T** slot) {
#if BUILDFLAG(BLINK_HEAP_YOUNG_GENERATION)
void* value = *slot;
if (!value || IsHashTableDeleteValue(value))
return false;
// Dijkstra barrier if concurrent marking is in progress.
BasePage* value_page = PageFromObject(value);
ThreadState* thread_state = value_page->thread_state();
if (UNLIKELY(thread_state->IsIncrementalMarking()))
return MarkValue(value, value_page, thread_state);
GenerationalBarrier(reinterpret_cast<Address>(slot), thread_state);
return false;
#else
if (!ThreadState::IsAnyIncrementalMarking())
return false;
// Avoid any further checks and dispatch to a call at this point. Aggressive
// inlining otherwise pollutes the regular execution paths.
return WriteBarrierSlow(*slot);
#endif
}
// static
ALWAYS_INLINE void MarkingVisitor::GenerationalBarrier(Address slot,
ThreadState* state) {
// First, check if the source object is in the last allocated region of heap.
if (LIKELY(state->Heap().IsInLastAllocatedRegion(slot)))
return;
if (UNLIKELY(state->IsOnStack(slot)))
return;
GenerationalBarrierSlow(slot, state);
}
// static
ALWAYS_INLINE void MarkingVisitor::TraceMarkedBackingStore(const void* value) {
if (!ThreadState::IsAnyIncrementalMarking())
return;
// Avoid any further checks and dispatch to a call at this point. Aggressive
// inlining otherwise pollutes the regular execution paths.
TraceMarkedBackingStoreSlow(value);
}
// Visitor used to mark Oilpan objects on concurrent threads.
class PLATFORM_EXPORT ConcurrentMarkingVisitor : public MarkingVisitorBase {
public:
ConcurrentMarkingVisitor(ThreadState*, MarkingMode, int);
~ConcurrentMarkingVisitor() override = default;
virtual void FlushWorklists();
bool IsConcurrent() const override { return true; }
bool DeferredTraceIfConcurrent(TraceDescriptor desc) override {
not_safe_to_concurrently_trace_worklist_.Push(desc);
return true;
}
private:
NotSafeToConcurrentlyTraceWorklist::View
not_safe_to_concurrently_trace_worklist_;
NotFullyConstructedWorklist::View previously_not_fully_constructed_worklist_;
};
} // namespace blink
#endif // THIRD_PARTY_BLINK_RENDERER_PLATFORM_HEAP_MARKING_VISITOR_H_
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