cppgc: Add write barrier

This moves from Blink:
1) implementation of the marking write barrier;
2) WriteBarrierWorklist to Marker;
3) incremental/concurrent marking options.

Bug: chromium:1056170
Change-Id: Ia3e31ffd920a99803420b1453695fe2fb8d843b8
Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2218064
Commit-Queue: Anton Bikineev <bikineev@chromium.org>
Reviewed-by: Omer Katz <omerkatz@chromium.org>
Reviewed-by: Ulan Degenbaev <ulan@chromium.org>
Reviewed-by: Michael Lippautz <mlippautz@chromium.org>
Cr-Commit-Position: refs/heads/master@{#68108}
This commit is contained in:
Anton Bikineev 2020-06-02 18:20:04 +02:00 committed by Commit Bot
parent f672cefd30
commit ad54f1bb17
17 changed files with 618 additions and 74 deletions

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@ -4080,12 +4080,15 @@ v8_source_set("cppgc_base") {
"include/cppgc/heap.h", "include/cppgc/heap.h",
"include/cppgc/internal/accessors.h", "include/cppgc/internal/accessors.h",
"include/cppgc/internal/api-contants.h", "include/cppgc/internal/api-contants.h",
"include/cppgc/internal/atomic-entry-flag.h",
"include/cppgc/internal/compiler-specific.h", "include/cppgc/internal/compiler-specific.h",
"include/cppgc/internal/finalizer-traits.h", "include/cppgc/internal/finalizer-traits.h",
"include/cppgc/internal/gc-info.h", "include/cppgc/internal/gc-info.h",
"include/cppgc/internal/persistent-node.h", "include/cppgc/internal/persistent-node.h",
"include/cppgc/internal/pointer-policies.h", "include/cppgc/internal/pointer-policies.h",
"include/cppgc/internal/prefinalizer-handler.h", "include/cppgc/internal/prefinalizer-handler.h",
"include/cppgc/internal/process-heap.h",
"include/cppgc/internal/write-barrier.h",
"include/cppgc/liveness-broker.h", "include/cppgc/liveness-broker.h",
"include/cppgc/liveness-broker.h", "include/cppgc/liveness-broker.h",
"include/cppgc/macros.h", "include/cppgc/macros.h",
@ -4134,6 +4137,7 @@ v8_source_set("cppgc_base") {
"src/heap/cppgc/pointer-policies.cc", "src/heap/cppgc/pointer-policies.cc",
"src/heap/cppgc/prefinalizer-handler.cc", "src/heap/cppgc/prefinalizer-handler.cc",
"src/heap/cppgc/prefinalizer-handler.h", "src/heap/cppgc/prefinalizer-handler.h",
"src/heap/cppgc/process-heap.cc",
"src/heap/cppgc/raw-heap.cc", "src/heap/cppgc/raw-heap.cc",
"src/heap/cppgc/raw-heap.h", "src/heap/cppgc/raw-heap.h",
"src/heap/cppgc/sanitizers.h", "src/heap/cppgc/sanitizers.h",
@ -4146,6 +4150,7 @@ v8_source_set("cppgc_base") {
"src/heap/cppgc/virtual-memory.h", "src/heap/cppgc/virtual-memory.h",
"src/heap/cppgc/visitor.cc", "src/heap/cppgc/visitor.cc",
"src/heap/cppgc/worklist.h", "src/heap/cppgc/worklist.h",
"src/heap/cppgc/write-barrier.cc",
] ]
if (is_clang || !is_win) { if (is_clang || !is_win) {

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@ -0,0 +1,48 @@
// 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_ATOMIC_ENTRY_FLAG_H_
#define INCLUDE_CPPGC_INTERNAL_ATOMIC_ENTRY_FLAG_H_
#include <atomic>
namespace cppgc {
namespace internal {
// A flag which provides a fast check whether a scope may be entered on the
// current thread, without needing to access thread-local storage or mutex. Can
// have false positives (i.e., spuriously report that it might be entered), so
// it is expected that this will be used in tandem with a precise check that the
// scope is in fact entered on that thread.
//
// Example:
// g_frobnicating_flag.MightBeEntered() &&
// ThreadLocalFrobnicator().IsFrobnicating()
//
// Relaxed atomic operations are sufficient, since:
// - all accesses remain atomic
// - each thread must observe its own operations in order
// - no thread ever exits the flag more times than it enters (if used correctly)
// And so if a thread observes zero, it must be because it has observed an equal
// number of exits as entries.
class AtomicEntryFlag final {
public:
void Enter() { entries_.fetch_add(1, std::memory_order_relaxed); }
void Exit() { entries_.fetch_sub(1, std::memory_order_relaxed); }
// Returns false only if the current thread is not between a call to Enter
// and a call to Exit. Returns true if this thread or another thread may
// currently be in the scope guarded by this flag.
bool MightBeEntered() const {
return entries_.load(std::memory_order_relaxed) != 0;
}
private:
std::atomic_int entries_{0};
};
} // namespace internal
} // namespace cppgc
#endif // INCLUDE_CPPGC_INTERNAL_ATOMIC_ENTRY_FLAG_H_

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@ -8,6 +8,7 @@
#include <cstdint> #include <cstdint>
#include <type_traits> #include <type_traits>
#include "cppgc/internal/write-barrier.h"
#include "cppgc/source-location.h" #include "cppgc/source-location.h"
#include "v8config.h" // NOLINT(build/include_directory) #include "v8config.h" // NOLINT(build/include_directory)
@ -26,8 +27,8 @@ struct DijkstraWriteBarrierPolicy {
// Since in initializing writes the source object is always white, having no // Since in initializing writes the source object is always white, having no
// barrier doesn't break the tri-color invariant. // barrier doesn't break the tri-color invariant.
} }
static void AssigningBarrier(const void*, const void*) { static void AssigningBarrier(const void* slot, const void* value) {
// TODO(chromium:1056170): Add actual implementation. WriteBarrier::MarkingBarrier(slot, value);
} }
}; };

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@ -0,0 +1,34 @@
// 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_PROCESS_HEAP_H_
#define INCLUDE_CPPGC_INTERNAL_PROCESS_HEAP_H_
#include "cppgc/internal/atomic-entry-flag.h"
#include "v8config.h" // NOLINT(build/include_directory)
namespace cppgc {
namespace internal {
class V8_EXPORT ProcessHeap final {
public:
static void EnterIncrementalOrConcurrentMarking() {
concurrent_marking_flag_.Enter();
}
static void ExitIncrementalOrConcurrentMarking() {
concurrent_marking_flag_.Exit();
}
static bool IsAnyIncrementalOrConcurrentMarking() {
return concurrent_marking_flag_.MightBeEntered();
}
private:
static AtomicEntryFlag concurrent_marking_flag_;
};
} // namespace internal
} // namespace cppgc
#endif // INCLUDE_CPPGC_INTERNAL_PROCESS_HEAP_H_

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@ -0,0 +1,34 @@
// 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_WRITE_BARRIER_H_
#define INCLUDE_CPPGC_INTERNAL_WRITE_BARRIER_H_
#include "cppgc/internal/process-heap.h"
#include "v8config.h" // NOLINT(build/include_directory)
namespace cppgc {
namespace internal {
class BasePage;
class Heap;
class V8_EXPORT WriteBarrier final {
public:
static V8_INLINE void MarkingBarrier(const void* slot, const void* value) {
if (V8_LIKELY(!ProcessHeap::IsAnyIncrementalOrConcurrentMarking())) return;
MarkingBarrierSlow(slot, value);
}
private:
WriteBarrier() = delete;
static void MarkingBarrierSlow(const void* slot, const void* value);
};
} // namespace internal
} // namespace cppgc
#endif // INCLUDE_CPPGC_INTERNAL_WRITE_BARRIER_H_

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@ -149,10 +149,10 @@ void Heap::CollectGarbage(GCConfig config) {
epoch_++; epoch_++;
// TODO(chromium:1056170): Replace with proper mark-sweep algorithm.
// "Marking". // "Marking".
marker_ = std::make_unique<Marker>(this); marker_ = std::make_unique<Marker>(this);
Marker::MarkingConfig marking_config(config.stack_state); const Marker::MarkingConfig marking_config{config.stack_state,
config.marking_type};
marker_->StartMarking(marking_config); marker_->StartMarking(marking_config);
marker_->FinishMarking(marking_config); marker_->FinishMarking(marking_config);
// "Sweeping and finalization". // "Sweeping and finalization".
@ -165,7 +165,7 @@ void Heap::CollectGarbage(GCConfig config) {
marker_.reset(); marker_.reset();
{ {
NoGCScope no_gc(this); NoGCScope no_gc(this);
sweeper_.Start(config.sweep_type); sweeper_.Start(config.sweeping_type);
} }
} }

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@ -30,6 +30,10 @@
namespace cppgc { namespace cppgc {
namespace internal { namespace internal {
namespace testing {
class TestWithHeap;
}
class Stack; class Stack;
class V8_EXPORT_PRIVATE LivenessBrokerFactory { class V8_EXPORT_PRIVATE LivenessBrokerFactory {
@ -73,14 +77,14 @@ class V8_EXPORT_PRIVATE Heap final : public cppgc::Heap {
struct GCConfig { struct GCConfig {
using StackState = Heap::StackState; using StackState = Heap::StackState;
using SweepType = Sweeper::Config; using MarkingType = Marker::MarkingConfig::MarkingType;
using SweepingType = Sweeper::Config;
static GCConfig Default() { static constexpr GCConfig Default() { return {}; }
return {StackState::kMayContainHeapPointers, SweepType::kAtomic};
}
StackState stack_state = StackState::kMayContainHeapPointers; StackState stack_state = StackState::kMayContainHeapPointers;
SweepType sweep_type = SweepType::kAtomic; MarkingType marking_type = MarkingType::kAtomic;
SweepingType sweeping_type = SweepingType::kAtomic;
}; };
static Heap* From(cppgc::Heap* heap) { return static_cast<Heap*>(heap); } static Heap* From(cppgc::Heap* heap) { return static_cast<Heap*>(heap); }
@ -154,6 +158,9 @@ class V8_EXPORT_PRIVATE Heap final : public cppgc::Heap {
size_t no_gc_scope_ = 0; size_t no_gc_scope_ = 0;
size_t no_allocation_scope_ = 0; size_t no_allocation_scope_ = 0;
friend class WriteBarrier;
friend class testing::TestWithHeap;
}; };
} // namespace internal } // namespace internal

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@ -4,6 +4,7 @@
#include "src/heap/cppgc/marker.h" #include "src/heap/cppgc/marker.h"
#include "include/cppgc/internal/process-heap.h"
#include "src/heap/cppgc/heap-object-header-inl.h" #include "src/heap/cppgc/heap-object-header-inl.h"
#include "src/heap/cppgc/heap-visitor.h" #include "src/heap/cppgc/heap-visitor.h"
#include "src/heap/cppgc/heap.h" #include "src/heap/cppgc/heap.h"
@ -27,6 +28,23 @@ void ResetLocalAllocationBuffers(Heap* heap) {
ResetLocalAllocationBufferVisitor visitor; ResetLocalAllocationBufferVisitor visitor;
visitor.Traverse(&heap->raw_heap()); visitor.Traverse(&heap->raw_heap());
} }
void EnterIncrementalMarkingIfNeeded(Marker::MarkingConfig config) {
if (config.marking_type == Marker::MarkingConfig::MarkingType::kIncremental ||
config.marking_type ==
Marker::MarkingConfig::MarkingType::kIncrementalAndConcurrent) {
ProcessHeap::EnterIncrementalOrConcurrentMarking();
}
}
void ExitIncrementalMarkingIfNeeded(Marker::MarkingConfig config) {
if (config.marking_type == Marker::MarkingConfig::MarkingType::kIncremental ||
config.marking_type ==
Marker::MarkingConfig::MarkingType::kIncrementalAndConcurrent) {
ProcessHeap::ExitIncrementalOrConcurrentMarking();
}
}
} // namespace } // namespace
namespace { namespace {
@ -62,7 +80,7 @@ Marker::~Marker() {
// and should thus already be marked. // and should thus already be marked.
if (!not_fully_constructed_worklist_.IsEmpty()) { if (!not_fully_constructed_worklist_.IsEmpty()) {
#if DEBUG #if DEBUG
DCHECK_NE(MarkingConfig::StackState::kNoHeapPointers, config_.stack_state_); DCHECK_NE(MarkingConfig::StackState::kNoHeapPointers, config_.stack_state);
NotFullyConstructedItem item; NotFullyConstructedItem item;
NotFullyConstructedWorklist::View view(&not_fully_constructed_worklist_, NotFullyConstructedWorklist::View view(&not_fully_constructed_worklist_,
kMutatorThreadId); kMutatorThreadId);
@ -81,15 +99,17 @@ Marker::~Marker() {
void Marker::StartMarking(MarkingConfig config) { void Marker::StartMarking(MarkingConfig config) {
config_ = config; config_ = config;
VisitRoots(); VisitRoots();
EnterIncrementalMarkingIfNeeded(config);
} }
void Marker::FinishMarking(MarkingConfig config) { void Marker::FinishMarking(MarkingConfig config) {
ExitIncrementalMarkingIfNeeded(config_);
config_ = config; config_ = config;
// Reset LABs before trying to conservatively mark in-construction objects. // Reset LABs before trying to conservatively mark in-construction objects.
// This is also needed in preparation for sweeping. // This is also needed in preparation for sweeping.
ResetLocalAllocationBuffers(heap_); ResetLocalAllocationBuffers(heap_);
if (config_.stack_state_ == MarkingConfig::StackState::kNoHeapPointers) { if (config_.stack_state == MarkingConfig::StackState::kNoHeapPointers) {
FlushNotFullyConstructedObjects(); FlushNotFullyConstructedObjects();
} else { } else {
MarkNotFullyConstructedObjects(); MarkNotFullyConstructedObjects();
@ -117,7 +137,7 @@ void Marker::VisitRoots() {
ResetLocalAllocationBuffers(heap_); ResetLocalAllocationBuffers(heap_);
heap_->GetStrongPersistentRegion().Trace(marking_visitor_.get()); heap_->GetStrongPersistentRegion().Trace(marking_visitor_.get());
if (config_.stack_state_ != MarkingConfig::StackState::kNoHeapPointers) if (config_.stack_state != MarkingConfig::StackState::kNoHeapPointers)
heap_->stack()->IteratePointers(marking_visitor_.get()); heap_->stack()->IteratePointers(marking_visitor_.get());
} }
@ -154,6 +174,19 @@ bool Marker::AdvanceMarkingWithDeadline(v8::base::TimeDelta duration) {
}, },
kMutatorThreadId)) kMutatorThreadId))
return false; return false;
if (!DrainWorklistWithDeadline(
deadline, &write_barrier_worklist_,
[visitor](HeapObjectHeader* header) {
DCHECK(header);
DCHECK(!MutatorThreadMarkingVisitor::IsInConstruction(*header));
const GCInfo& gcinfo =
GlobalGCInfoTable::GCInfoFromIndex(header->GetGCInfoIndex());
gcinfo.trace(visitor, header->Payload());
visitor->AccountMarkedBytes(*header);
},
kMutatorThreadId))
return false;
} while (!marking_worklist_.IsLocalViewEmpty(kMutatorThreadId)); } while (!marking_worklist_.IsLocalViewEmpty(kMutatorThreadId));
return true; return true;
@ -182,6 +215,7 @@ void Marker::ClearAllWorklistsForTesting() {
marking_worklist_.Clear(); marking_worklist_.Clear();
not_fully_constructed_worklist_.Clear(); not_fully_constructed_worklist_.Clear();
previously_not_fully_constructed_worklist_.Clear(); previously_not_fully_constructed_worklist_.Clear();
write_barrier_worklist_.Clear();
weak_callback_worklist_.Clear(); weak_callback_worklist_.Clear();
} }

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@ -17,6 +17,7 @@ namespace cppgc {
namespace internal { namespace internal {
class Heap; class Heap;
class HeapObjectHeader;
class MutatorThreadMarkingVisitor; class MutatorThreadMarkingVisitor;
class V8_EXPORT_PRIVATE Marker { class V8_EXPORT_PRIVATE Marker {
@ -41,31 +42,21 @@ class V8_EXPORT_PRIVATE Marker {
Worklist<NotFullyConstructedItem, 16 /* local entries */, kNumMarkers>; Worklist<NotFullyConstructedItem, 16 /* local entries */, kNumMarkers>;
using WeakCallbackWorklist = using WeakCallbackWorklist =
Worklist<WeakCallbackItem, 64 /* local entries */, kNumMarkers>; Worklist<WeakCallbackItem, 64 /* local entries */, kNumMarkers>;
using WriteBarrierWorklist =
Worklist<HeapObjectHeader*, 64 /*local entries */, kNumMarkers>;
struct MarkingConfig { struct MarkingConfig {
using StackState = cppgc::Heap::StackState; using StackState = cppgc::Heap::StackState;
enum class IncrementalMarking : uint8_t { kDisabled }; enum MarkingType : uint8_t {
enum class ConcurrentMarking : uint8_t { kDisabled }; kAtomic,
kIncremental,
kIncrementalAndConcurrent
};
static MarkingConfig Default() { static constexpr MarkingConfig Default() { return {}; }
return {StackState::kMayContainHeapPointers,
IncrementalMarking::kDisabled, ConcurrentMarking::kDisabled};
}
explicit MarkingConfig(StackState stack_state) StackState stack_state = StackState::kMayContainHeapPointers;
: MarkingConfig(stack_state, IncrementalMarking::kDisabled, MarkingType marking_type = MarkingType::kAtomic;
ConcurrentMarking::kDisabled) {}
MarkingConfig(StackState stack_state,
IncrementalMarking incremental_marking_state,
ConcurrentMarking concurrent_marking_state)
: stack_state_(stack_state),
incremental_marking_state_(incremental_marking_state),
concurrent_marking_state_(concurrent_marking_state) {}
StackState stack_state_;
IncrementalMarking incremental_marking_state_;
ConcurrentMarking concurrent_marking_state_;
}; };
explicit Marker(Heap* heap); explicit Marker(Heap* heap);
@ -78,7 +69,7 @@ class V8_EXPORT_PRIVATE Marker {
// trigger incremental/concurrent marking if needed. // trigger incremental/concurrent marking if needed.
void StartMarking(MarkingConfig config); void StartMarking(MarkingConfig config);
// Finalize marking. This method stops incremental/concurrent marking // Finalize marking. This method stops incremental/concurrent marking
// if exsists and performs atomic pause marking. FinishMarking may // if exists and performs atomic pause marking. FinishMarking may
// update the MarkingConfig, e.g. if the stack state has changed. // update the MarkingConfig, e.g. if the stack state has changed.
void FinishMarking(MarkingConfig config); void FinishMarking(MarkingConfig config);
@ -89,6 +80,9 @@ class V8_EXPORT_PRIVATE Marker {
NotFullyConstructedWorklist* not_fully_constructed_worklist() { NotFullyConstructedWorklist* not_fully_constructed_worklist() {
return &not_fully_constructed_worklist_; return &not_fully_constructed_worklist_;
} }
WriteBarrierWorklist* write_barrier_worklist() {
return &write_barrier_worklist_;
}
WeakCallbackWorklist* weak_callback_worklist() { WeakCallbackWorklist* weak_callback_worklist() {
return &weak_callback_worklist_; return &weak_callback_worklist_;
} }
@ -118,6 +112,7 @@ class V8_EXPORT_PRIVATE Marker {
MarkingWorklist marking_worklist_; MarkingWorklist marking_worklist_;
NotFullyConstructedWorklist not_fully_constructed_worklist_; NotFullyConstructedWorklist not_fully_constructed_worklist_;
NotFullyConstructedWorklist previously_not_fully_constructed_worklist_; NotFullyConstructedWorklist previously_not_fully_constructed_worklist_;
WriteBarrierWorklist write_barrier_worklist_;
WeakCallbackWorklist weak_callback_worklist_; WeakCallbackWorklist weak_callback_worklist_;
}; };

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@ -0,0 +1,13 @@
// 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.
#include "include/cppgc/internal/process-heap.h"
namespace cppgc {
namespace internal {
AtomicEntryFlag ProcessHeap::concurrent_marking_flag_;
} // namespace internal
} // namespace cppgc

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@ -0,0 +1,58 @@
// 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.
#include "include/cppgc/internal/write-barrier.h"
#include "include/cppgc/internal/pointer-policies.h"
#include "src/heap/cppgc/heap-object-header-inl.h"
#include "src/heap/cppgc/heap-object-header.h"
#include "src/heap/cppgc/heap-page.h"
#include "src/heap/cppgc/heap.h"
#include "src/heap/cppgc/marker.h"
#include "src/heap/cppgc/marking-visitor.h"
namespace cppgc {
namespace internal {
namespace {
void MarkValue(const BasePage* page, Marker* marker, const void* value) {
auto& header =
const_cast<HeapObjectHeader&>(page->ObjectHeaderFromInnerAddress(value));
if (!header.TryMarkAtomic()) return;
DCHECK(marker);
if (V8_UNLIKELY(MutatorThreadMarkingVisitor::IsInConstruction(header))) {
// It is assumed that objects on not_fully_constructed_worklist_ are not
// marked.
header.Unmark();
Marker::NotFullyConstructedWorklist::View not_fully_constructed_worklist(
marker->not_fully_constructed_worklist(), Marker::kMutatorThreadId);
not_fully_constructed_worklist.Push(header.Payload());
return;
}
Marker::WriteBarrierWorklist::View write_barrier_worklist(
marker->write_barrier_worklist(), Marker::kMutatorThreadId);
write_barrier_worklist.Push(&header);
}
} // namespace
void WriteBarrier::MarkingBarrierSlow(const void*, const void* value) {
if (!value || value == kSentinelPointer) return;
const BasePage* page = BasePage::FromPayload(value);
const Heap* heap = page->heap();
// Marker being not set up means that no incremental/concurrent marking is in
// progress.
if (!heap->marker_) return;
MarkValue(page, heap->marker_.get(), value);
}
} // namespace internal
} // namespace cppgc

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@ -70,6 +70,7 @@ v8_source_set("cppgc_unittests_sources") {
"heap/cppgc/tests.h", "heap/cppgc/tests.h",
"heap/cppgc/visitor-unittest.cc", "heap/cppgc/visitor-unittest.cc",
"heap/cppgc/worklist-unittest.cc", "heap/cppgc/worklist-unittest.cc",
"heap/cppgc/write-barrier-unittest.cc",
] ]
configs = [ configs = [

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@ -37,9 +37,8 @@ class TestWithHeapWithCustomSpaces : public testing::TestWithPlatform {
} }
void PreciseGC() { void PreciseGC() {
heap_->ForceGarbageCollectionSlow( heap_->ForceGarbageCollectionSlow("TestWithHeapWithCustomSpaces", "Testing",
"TestWithHeapWithCustomSpaces", "Testing", cppgc::Heap::StackState::kNoHeapPointers);
Heap::GCConfig::StackState::kNoHeapPointers);
} }
cppgc::Heap* GetHeap() const { return heap_.get(); } cppgc::Heap* GetHeap() const { return heap_.get(); }

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@ -22,11 +22,11 @@ class GCHeapTest : public testing::TestWithHeap {
public: public:
void ConservativeGC() { void ConservativeGC() {
internal::Heap::From(GetHeap())->CollectGarbage( internal::Heap::From(GetHeap())->CollectGarbage(
{Heap::GCConfig::StackState::kMayContainHeapPointers}); {Heap::StackState::kMayContainHeapPointers});
} }
void PreciseGC() { void PreciseGC() {
internal::Heap::From(GetHeap())->CollectGarbage( internal::Heap::From(GetHeap())->CollectGarbage(
{Heap::GCConfig::StackState::kNoHeapPointers}); {Heap::StackState::kNoHeapPointers});
} }
}; };
@ -66,7 +66,7 @@ namespace {
const void* ConservativeGCReturningObject(cppgc::Heap* heap, const void* ConservativeGCReturningObject(cppgc::Heap* heap,
const void* volatile object) { const void* volatile object) {
internal::Heap::From(heap)->CollectGarbage( internal::Heap::From(heap)->CollectGarbage(
{Heap::GCConfig::StackState::kMayContainHeapPointers}); {Heap::StackState::kMayContainHeapPointers});
return object; return object;
} }

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@ -56,7 +56,7 @@ TEST_F(MarkerTest, PersistentIsMarked) {
Persistent<GCed> object = MakeGarbageCollected<GCed>(GetHeap()); Persistent<GCed> object = MakeGarbageCollected<GCed>(GetHeap());
HeapObjectHeader& header = HeapObjectHeader::FromPayload(object); HeapObjectHeader& header = HeapObjectHeader::FromPayload(object);
EXPECT_FALSE(header.IsMarked()); EXPECT_FALSE(header.IsMarked());
DoMarking(MarkingConfig(MarkingConfig::StackState::kNoHeapPointers)); DoMarking({MarkingConfig::StackState::kNoHeapPointers});
EXPECT_TRUE(header.IsMarked()); EXPECT_TRUE(header.IsMarked());
} }
@ -65,7 +65,7 @@ TEST_F(MarkerTest, ReachableMemberIsMarked) {
parent->SetChild(MakeGarbageCollected<GCed>(GetHeap())); parent->SetChild(MakeGarbageCollected<GCed>(GetHeap()));
HeapObjectHeader& header = HeapObjectHeader::FromPayload(parent->child()); HeapObjectHeader& header = HeapObjectHeader::FromPayload(parent->child());
EXPECT_FALSE(header.IsMarked()); EXPECT_FALSE(header.IsMarked());
DoMarking(MarkingConfig(MarkingConfig::StackState::kNoHeapPointers)); DoMarking({MarkingConfig::StackState::kNoHeapPointers});
EXPECT_TRUE(header.IsMarked()); EXPECT_TRUE(header.IsMarked());
} }
@ -73,14 +73,14 @@ TEST_F(MarkerTest, UnreachableMemberIsNotMarked) {
Member<GCed> object = MakeGarbageCollected<GCed>(GetHeap()); Member<GCed> object = MakeGarbageCollected<GCed>(GetHeap());
HeapObjectHeader& header = HeapObjectHeader::FromPayload(object); HeapObjectHeader& header = HeapObjectHeader::FromPayload(object);
EXPECT_FALSE(header.IsMarked()); EXPECT_FALSE(header.IsMarked());
DoMarking(MarkingConfig(MarkingConfig::StackState::kNoHeapPointers)); DoMarking({MarkingConfig::StackState::kNoHeapPointers});
EXPECT_FALSE(header.IsMarked()); EXPECT_FALSE(header.IsMarked());
} }
TEST_F(MarkerTest, ObjectReachableFromStackIsMarked) { TEST_F(MarkerTest, ObjectReachableFromStackIsMarked) {
GCed* object = MakeGarbageCollected<GCed>(GetHeap()); GCed* object = MakeGarbageCollected<GCed>(GetHeap());
EXPECT_FALSE(HeapObjectHeader::FromPayload(object).IsMarked()); EXPECT_FALSE(HeapObjectHeader::FromPayload(object).IsMarked());
DoMarking(MarkingConfig(MarkingConfig::StackState::kMayContainHeapPointers)); DoMarking({MarkingConfig::StackState::kMayContainHeapPointers});
EXPECT_TRUE(HeapObjectHeader::FromPayload(object).IsMarked()); EXPECT_TRUE(HeapObjectHeader::FromPayload(object).IsMarked());
access(object); access(object);
} }
@ -89,7 +89,7 @@ TEST_F(MarkerTest, ObjectReachableOnlyFromStackIsNotMarkedIfStackIsEmpty) {
GCed* object = MakeGarbageCollected<GCed>(GetHeap()); GCed* object = MakeGarbageCollected<GCed>(GetHeap());
HeapObjectHeader& header = HeapObjectHeader::FromPayload(object); HeapObjectHeader& header = HeapObjectHeader::FromPayload(object);
EXPECT_FALSE(header.IsMarked()); EXPECT_FALSE(header.IsMarked());
DoMarking(MarkingConfig(MarkingConfig::StackState::kNoHeapPointers)); DoMarking({MarkingConfig::StackState::kNoHeapPointers});
EXPECT_FALSE(header.IsMarked()); EXPECT_FALSE(header.IsMarked());
access(object); access(object);
} }
@ -98,14 +98,14 @@ TEST_F(MarkerTest, WeakReferenceToUnreachableObjectIsCleared) {
{ {
WeakPersistent<GCed> weak_object = MakeGarbageCollected<GCed>(GetHeap()); WeakPersistent<GCed> weak_object = MakeGarbageCollected<GCed>(GetHeap());
EXPECT_TRUE(weak_object); EXPECT_TRUE(weak_object);
DoMarking(MarkingConfig(MarkingConfig::StackState::kNoHeapPointers)); DoMarking({MarkingConfig::StackState::kNoHeapPointers});
EXPECT_FALSE(weak_object); EXPECT_FALSE(weak_object);
} }
{ {
Persistent<GCed> parent = MakeGarbageCollected<GCed>(GetHeap()); Persistent<GCed> parent = MakeGarbageCollected<GCed>(GetHeap());
parent->SetWeakChild(MakeGarbageCollected<GCed>(GetHeap())); parent->SetWeakChild(MakeGarbageCollected<GCed>(GetHeap()));
EXPECT_TRUE(parent->weak_child()); EXPECT_TRUE(parent->weak_child());
DoMarking(MarkingConfig(MarkingConfig::StackState::kNoHeapPointers)); DoMarking({MarkingConfig::StackState::kNoHeapPointers});
EXPECT_FALSE(parent->weak_child()); EXPECT_FALSE(parent->weak_child());
} }
} }
@ -116,7 +116,7 @@ TEST_F(MarkerTest, WeakReferenceToReachableObjectIsNotCleared) {
Persistent<GCed> object = MakeGarbageCollected<GCed>(GetHeap()); Persistent<GCed> object = MakeGarbageCollected<GCed>(GetHeap());
WeakPersistent<GCed> weak_object(object); WeakPersistent<GCed> weak_object(object);
EXPECT_TRUE(weak_object); EXPECT_TRUE(weak_object);
DoMarking(MarkingConfig(MarkingConfig::StackState::kNoHeapPointers)); DoMarking({MarkingConfig::StackState::kNoHeapPointers});
EXPECT_TRUE(weak_object); EXPECT_TRUE(weak_object);
} }
{ {
@ -124,7 +124,7 @@ TEST_F(MarkerTest, WeakReferenceToReachableObjectIsNotCleared) {
Persistent<GCed> parent = MakeGarbageCollected<GCed>(GetHeap()); Persistent<GCed> parent = MakeGarbageCollected<GCed>(GetHeap());
parent->SetWeakChild(object); parent->SetWeakChild(object);
EXPECT_TRUE(parent->weak_child()); EXPECT_TRUE(parent->weak_child());
DoMarking(MarkingConfig(MarkingConfig::StackState::kNoHeapPointers)); DoMarking({MarkingConfig::StackState::kNoHeapPointers});
EXPECT_TRUE(parent->weak_child()); EXPECT_TRUE(parent->weak_child());
} }
// Reachable from Member // Reachable from Member
@ -133,7 +133,7 @@ TEST_F(MarkerTest, WeakReferenceToReachableObjectIsNotCleared) {
WeakPersistent<GCed> weak_object(MakeGarbageCollected<GCed>(GetHeap())); WeakPersistent<GCed> weak_object(MakeGarbageCollected<GCed>(GetHeap()));
parent->SetChild(weak_object); parent->SetChild(weak_object);
EXPECT_TRUE(weak_object); EXPECT_TRUE(weak_object);
DoMarking(MarkingConfig(MarkingConfig::StackState::kNoHeapPointers)); DoMarking({MarkingConfig::StackState::kNoHeapPointers});
EXPECT_TRUE(weak_object); EXPECT_TRUE(weak_object);
} }
{ {
@ -141,7 +141,7 @@ TEST_F(MarkerTest, WeakReferenceToReachableObjectIsNotCleared) {
parent->SetChild(MakeGarbageCollected<GCed>(GetHeap())); parent->SetChild(MakeGarbageCollected<GCed>(GetHeap()));
parent->SetWeakChild(parent->child()); parent->SetWeakChild(parent->child());
EXPECT_TRUE(parent->weak_child()); EXPECT_TRUE(parent->weak_child());
DoMarking(MarkingConfig(MarkingConfig::StackState::kNoHeapPointers)); DoMarking({MarkingConfig::StackState::kNoHeapPointers});
EXPECT_TRUE(parent->weak_child()); EXPECT_TRUE(parent->weak_child());
} }
// Reachable from stack // Reachable from stack
@ -149,8 +149,7 @@ TEST_F(MarkerTest, WeakReferenceToReachableObjectIsNotCleared) {
GCed* object = MakeGarbageCollected<GCed>(GetHeap()); GCed* object = MakeGarbageCollected<GCed>(GetHeap());
WeakPersistent<GCed> weak_object(object); WeakPersistent<GCed> weak_object(object);
EXPECT_TRUE(weak_object); EXPECT_TRUE(weak_object);
DoMarking( DoMarking({MarkingConfig::StackState::kMayContainHeapPointers});
MarkingConfig(MarkingConfig::StackState::kMayContainHeapPointers));
EXPECT_TRUE(weak_object); EXPECT_TRUE(weak_object);
access(object); access(object);
} }
@ -159,8 +158,7 @@ TEST_F(MarkerTest, WeakReferenceToReachableObjectIsNotCleared) {
Persistent<GCed> parent = MakeGarbageCollected<GCed>(GetHeap()); Persistent<GCed> parent = MakeGarbageCollected<GCed>(GetHeap());
parent->SetWeakChild(object); parent->SetWeakChild(object);
EXPECT_TRUE(parent->weak_child()); EXPECT_TRUE(parent->weak_child());
DoMarking( DoMarking({MarkingConfig::StackState::kMayContainHeapPointers});
MarkingConfig(MarkingConfig::StackState::kMayContainHeapPointers));
EXPECT_TRUE(parent->weak_child()); EXPECT_TRUE(parent->weak_child());
access(object); access(object);
} }
@ -175,7 +173,7 @@ TEST_F(MarkerTest, DeepHierarchyIsMarked) {
parent->SetWeakChild(parent->child()); parent->SetWeakChild(parent->child());
parent = parent->child(); parent = parent->child();
} }
DoMarking(MarkingConfig(MarkingConfig::StackState::kNoHeapPointers)); DoMarking({MarkingConfig::StackState::kNoHeapPointers});
EXPECT_TRUE(HeapObjectHeader::FromPayload(root).IsMarked()); EXPECT_TRUE(HeapObjectHeader::FromPayload(root).IsMarked());
parent = root; parent = root;
for (int i = 0; i < kHierarchyDepth; ++i) { for (int i = 0; i < kHierarchyDepth; ++i) {
@ -189,7 +187,7 @@ TEST_F(MarkerTest, NestedObjectsOnStackAreMarked) {
GCed* root = MakeGarbageCollected<GCed>(GetHeap()); GCed* root = MakeGarbageCollected<GCed>(GetHeap());
root->SetChild(MakeGarbageCollected<GCed>(GetHeap())); root->SetChild(MakeGarbageCollected<GCed>(GetHeap()));
root->child()->SetChild(MakeGarbageCollected<GCed>(GetHeap())); root->child()->SetChild(MakeGarbageCollected<GCed>(GetHeap()));
DoMarking(MarkingConfig(MarkingConfig::StackState::kMayContainHeapPointers)); DoMarking({MarkingConfig::StackState::kMayContainHeapPointers});
EXPECT_TRUE(HeapObjectHeader::FromPayload(root).IsMarked()); EXPECT_TRUE(HeapObjectHeader::FromPayload(root).IsMarked());
EXPECT_TRUE(HeapObjectHeader::FromPayload(root->child()).IsMarked()); EXPECT_TRUE(HeapObjectHeader::FromPayload(root->child()).IsMarked());
EXPECT_TRUE(HeapObjectHeader::FromPayload(root->child()->child()).IsMarked()); EXPECT_TRUE(HeapObjectHeader::FromPayload(root->child()->child()).IsMarked());
@ -209,32 +207,28 @@ class GCedWithCallback : public GarbageCollected<GCedWithCallback> {
TEST_F(MarkerTest, InConstructionObjectIsEventuallyMarkedEmptyStack) { TEST_F(MarkerTest, InConstructionObjectIsEventuallyMarkedEmptyStack) {
Marker marker(Heap::From(GetHeap())); Marker marker(Heap::From(GetHeap()));
marker.StartMarking( marker.StartMarking({MarkingConfig::StackState::kMayContainHeapPointers});
MarkingConfig(MarkingConfig::StackState::kMayContainHeapPointers));
GCedWithCallback* object = MakeGarbageCollected<GCedWithCallback>( GCedWithCallback* object = MakeGarbageCollected<GCedWithCallback>(
GetHeap(), [&marker](GCedWithCallback* obj) { GetHeap(), [&marker](GCedWithCallback* obj) {
Member<GCedWithCallback> member(obj); Member<GCedWithCallback> member(obj);
marker.GetMarkingVisitorForTesting()->Trace(member); marker.GetMarkingVisitorForTesting()->Trace(member);
}); });
EXPECT_FALSE(HeapObjectHeader::FromPayload(object).IsMarked()); EXPECT_FALSE(HeapObjectHeader::FromPayload(object).IsMarked());
marker.FinishMarking( marker.FinishMarking({MarkingConfig::StackState::kNoHeapPointers});
MarkingConfig(MarkingConfig::StackState::kNoHeapPointers));
EXPECT_TRUE(HeapObjectHeader::FromPayload(object).IsMarked()); EXPECT_TRUE(HeapObjectHeader::FromPayload(object).IsMarked());
} }
TEST_F(MarkerTest, InConstructionObjectIsEventuallyMarkedNonEmptyStack) { TEST_F(MarkerTest, InConstructionObjectIsEventuallyMarkedNonEmptyStack) {
Marker marker(Heap::From(GetHeap())); Marker marker(Heap::From(GetHeap()));
marker.StartMarking( marker.StartMarking({MarkingConfig::StackState::kMayContainHeapPointers});
MarkingConfig(MarkingConfig::StackState::kMayContainHeapPointers)); MakeGarbageCollected<GCedWithCallback>(GetHeap(), [&marker](
MakeGarbageCollected<GCedWithCallback>( GCedWithCallback* obj) {
GetHeap(), [&marker](GCedWithCallback* obj) { Member<GCedWithCallback> member(obj);
Member<GCedWithCallback> member(obj); marker.GetMarkingVisitorForTesting()->Trace(member);
marker.GetMarkingVisitorForTesting()->Trace(member); EXPECT_FALSE(HeapObjectHeader::FromPayload(obj).IsMarked());
EXPECT_FALSE(HeapObjectHeader::FromPayload(obj).IsMarked()); marker.FinishMarking({MarkingConfig::StackState::kMayContainHeapPointers});
marker.FinishMarking( EXPECT_TRUE(HeapObjectHeader::FromPayload(obj).IsMarked());
MarkingConfig(MarkingConfig::StackState::kMayContainHeapPointers)); });
EXPECT_TRUE(HeapObjectHeader::FromPayload(obj).IsMarked());
});
} }
} // namespace internal } // namespace internal

View File

@ -31,12 +31,16 @@ class TestWithHeap : public TestWithPlatform {
TestWithHeap(); TestWithHeap();
void PreciseGC() { void PreciseGC() {
heap_->ForceGarbageCollectionSlow( heap_->ForceGarbageCollectionSlow("TestWithHeap", "Testing",
"TestWithHeap", "Testing", Heap::GCConfig::StackState::kNoHeapPointers); cppgc::Heap::StackState::kNoHeapPointers);
} }
cppgc::Heap* GetHeap() const { return heap_.get(); } cppgc::Heap* GetHeap() const { return heap_.get(); }
std::unique_ptr<Marker>& GetMarkerRef() {
return Heap::From(GetHeap())->marker_;
}
private: private:
std::unique_ptr<cppgc::Heap> heap_; std::unique_ptr<cppgc::Heap> heap_;
}; };

View File

@ -0,0 +1,317 @@
// 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.
#include "include/cppgc/internal/write-barrier.h"
#include <initializer_list>
#include <vector>
#include "include/cppgc/internal/pointer-policies.h"
#include "src/heap/cppgc/heap-object-header-inl.h"
#include "src/heap/cppgc/heap-object-header.h"
#include "src/heap/cppgc/marker.h"
#include "test/unittests/heap/cppgc/tests.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace cppgc {
namespace internal {
namespace {
class IncrementalMarkingScope {
public:
explicit IncrementalMarkingScope(Marker* marker) : marker_(marker) {
marker_->StartMarking(kIncrementalConfig);
}
~IncrementalMarkingScope() V8_NOEXCEPT {
marker_->FinishMarking(kIncrementalConfig);
}
private:
static constexpr Marker::MarkingConfig kIncrementalConfig{
Marker::MarkingConfig::StackState::kNoHeapPointers,
Marker::MarkingConfig::MarkingType::kIncremental};
Marker* marker_;
};
constexpr Marker::MarkingConfig IncrementalMarkingScope::kIncrementalConfig;
class ExpectWriteBarrierFires final : private IncrementalMarkingScope {
public:
ExpectWriteBarrierFires(Marker* marker, std::initializer_list<void*> objects)
: IncrementalMarkingScope(marker),
marking_worklist_(marker->marking_worklist(), Marker::kMutatorThreadId),
write_barrier_worklist_(marker->write_barrier_worklist(),
Marker::kMutatorThreadId),
objects_(objects) {
EXPECT_TRUE(marking_worklist_.IsGlobalPoolEmpty());
EXPECT_TRUE(write_barrier_worklist_.IsGlobalPoolEmpty());
for (void* object : objects) {
headers_.push_back(&HeapObjectHeader::FromPayload(object));
EXPECT_FALSE(headers_.back()->IsMarked());
}
}
~ExpectWriteBarrierFires() V8_NOEXCEPT {
{
Marker::MarkingItem item;
while (marking_worklist_.Pop(&item)) {
auto pos = std::find(objects_.begin(), objects_.end(),
item.base_object_payload);
if (pos != objects_.end()) objects_.erase(pos);
}
}
{
HeapObjectHeader* item;
while (write_barrier_worklist_.Pop(&item)) {
auto pos = std::find(objects_.begin(), objects_.end(), item->Payload());
if (pos != objects_.end()) objects_.erase(pos);
}
}
EXPECT_TRUE(objects_.empty());
for (auto* header : headers_) {
EXPECT_TRUE(header->IsMarked());
header->Unmark();
}
EXPECT_TRUE(marking_worklist_.IsGlobalPoolEmpty());
EXPECT_TRUE(write_barrier_worklist_.IsGlobalPoolEmpty());
}
private:
Marker::MarkingWorklist::View marking_worklist_;
Marker::WriteBarrierWorklist::View write_barrier_worklist_;
std::vector<void*> objects_;
std::vector<HeapObjectHeader*> headers_;
};
class ExpectNoWriteBarrierFires final : private IncrementalMarkingScope {
public:
ExpectNoWriteBarrierFires(Marker* marker,
std::initializer_list<void*> objects)
: IncrementalMarkingScope(marker),
marking_worklist_(marker->marking_worklist(), Marker::kMutatorThreadId),
write_barrier_worklist_(marker->write_barrier_worklist(),
Marker::kMutatorThreadId) {
EXPECT_TRUE(marking_worklist_.IsGlobalPoolEmpty());
EXPECT_TRUE(write_barrier_worklist_.IsGlobalPoolEmpty());
for (void* object : objects) {
auto* header = &HeapObjectHeader::FromPayload(object);
headers_.emplace_back(header, header->IsMarked());
}
}
~ExpectNoWriteBarrierFires() {
EXPECT_TRUE(marking_worklist_.IsGlobalPoolEmpty());
EXPECT_TRUE(write_barrier_worklist_.IsGlobalPoolEmpty());
for (const auto& pair : headers_) {
EXPECT_EQ(pair.second, pair.first->IsMarked());
}
}
private:
Marker::MarkingWorklist::View marking_worklist_;
Marker::WriteBarrierWorklist::View write_barrier_worklist_;
std::vector<std::pair<HeapObjectHeader*, bool /* was marked */>> headers_;
};
class GCed : public GarbageCollected<GCed> {
public:
GCed() = default;
explicit GCed(GCed* next) : next_(next) {}
void Trace(cppgc::Visitor* v) const { v->Trace(next_); }
bool IsMarked() const {
return HeapObjectHeader::FromPayload(this).IsMarked();
}
void set_next(GCed* next) { next_ = next; }
GCed* next() const { return next_; }
Member<GCed>& next_ref() { return next_; }
private:
Member<GCed> next_ = nullptr;
};
} // namespace
class WriteBarrierTest : public testing::TestWithHeap {
public:
WriteBarrierTest() : iheap_(Heap::From(GetHeap())) {
GetMarkerRef() = std::make_unique<Marker>(iheap_);
marker_ = GetMarkerRef().get();
}
~WriteBarrierTest() override {
marker_->ClearAllWorklistsForTesting();
GetMarkerRef().reset();
}
Marker* marker() const { return marker_; }
private:
Heap* iheap_;
Marker* marker_;
};
// =============================================================================
// Basic support. ==============================================================
// =============================================================================
TEST_F(WriteBarrierTest, EnableDisableIncrementalMarking) {
{
IncrementalMarkingScope scope(marker());
EXPECT_TRUE(ProcessHeap::IsAnyIncrementalOrConcurrentMarking());
}
}
TEST_F(WriteBarrierTest, TriggersWhenMarkingIsOn) {
auto* object1 = MakeGarbageCollected<GCed>(GetHeap());
auto* object2 = MakeGarbageCollected<GCed>(GetHeap());
{
ExpectWriteBarrierFires scope(marker(), {object1});
EXPECT_FALSE(object1->IsMarked());
object2->set_next(object1);
EXPECT_TRUE(object1->IsMarked());
}
}
TEST_F(WriteBarrierTest, BailoutWhenMarkingIsOff) {
auto* object1 = MakeGarbageCollected<GCed>(GetHeap());
auto* object2 = MakeGarbageCollected<GCed>(GetHeap());
EXPECT_FALSE(object1->IsMarked());
object2->set_next(object1);
EXPECT_FALSE(object1->IsMarked());
}
TEST_F(WriteBarrierTest, BailoutIfMarked) {
auto* object1 = MakeGarbageCollected<GCed>(GetHeap());
auto* object2 = MakeGarbageCollected<GCed>(GetHeap());
EXPECT_TRUE(HeapObjectHeader::FromPayload(object1).TryMarkAtomic());
{
ExpectNoWriteBarrierFires scope(marker(), {object1});
object2->set_next(object1);
}
}
TEST_F(WriteBarrierTest, MemberInitializingStoreNoBarrier) {
auto* object1 = MakeGarbageCollected<GCed>(GetHeap());
{
ExpectNoWriteBarrierFires scope(marker(), {object1});
auto* object2 = MakeGarbageCollected<GCed>(GetHeap(), object1);
HeapObjectHeader& object2_header = HeapObjectHeader::FromPayload(object2);
EXPECT_FALSE(object2_header.IsMarked());
}
}
TEST_F(WriteBarrierTest, MemberReferenceAssignMember) {
auto* obj = MakeGarbageCollected<GCed>(GetHeap());
auto* ref_obj = MakeGarbageCollected<GCed>(GetHeap());
Member<GCed>& m2 = ref_obj->next_ref();
Member<GCed> m3(obj);
{
ExpectWriteBarrierFires scope(marker(), {obj});
m2 = m3;
}
}
TEST_F(WriteBarrierTest, MemberSetSentinelValueNoBarrier) {
auto* obj = MakeGarbageCollected<GCed>(GetHeap());
Member<GCed>& m = obj->next_ref();
{
ExpectNoWriteBarrierFires scope(marker(), {});
m = kSentinelPointer;
}
}
TEST_F(WriteBarrierTest, MemberCopySentinelValueNoBarrier) {
auto* obj1 = MakeGarbageCollected<GCed>(GetHeap());
Member<GCed>& m1 = obj1->next_ref();
m1 = kSentinelPointer;
{
ExpectNoWriteBarrierFires scope(marker(), {});
auto* obj2 = MakeGarbageCollected<GCed>(GetHeap());
obj2->next_ref() = m1;
}
}
// =============================================================================
// Mixin support. ==============================================================
// =============================================================================
namespace {
class Mixin : public GarbageCollectedMixin {
public:
void Trace(cppgc::Visitor* visitor) const override { visitor->Trace(next_); }
virtual void Bar() {}
protected:
Member<GCed> next_;
};
class ClassWithVirtual {
protected:
virtual void Foo() {}
};
class Child : public GarbageCollected<Child>,
public ClassWithVirtual,
public Mixin {
USING_GARBAGE_COLLECTED_MIXIN();
public:
Child() : ClassWithVirtual(), Mixin() {}
~Child() = default;
void Trace(cppgc::Visitor* visitor) const override { Mixin::Trace(visitor); }
void Foo() override {}
void Bar() override {}
};
class ParentWithMixinPointer : public GarbageCollected<ParentWithMixinPointer> {
public:
ParentWithMixinPointer() = default;
void set_mixin(Mixin* mixin) { mixin_ = mixin; }
virtual void Trace(cppgc::Visitor* visitor) const { visitor->Trace(mixin_); }
protected:
Member<Mixin> mixin_;
};
} // namespace
TEST_F(WriteBarrierTest, WriteBarrierOnUnmarkedMixinApplication) {
ParentWithMixinPointer* parent =
MakeGarbageCollected<ParentWithMixinPointer>(GetHeap());
auto* child = MakeGarbageCollected<Child>(GetHeap());
Mixin* mixin = static_cast<Mixin*>(child);
EXPECT_NE(static_cast<void*>(child), static_cast<void*>(mixin));
{
ExpectWriteBarrierFires scope(marker(), {child});
parent->set_mixin(mixin);
}
}
TEST_F(WriteBarrierTest, NoWriteBarrierOnMarkedMixinApplication) {
ParentWithMixinPointer* parent =
MakeGarbageCollected<ParentWithMixinPointer>(GetHeap());
auto* child = MakeGarbageCollected<Child>(GetHeap());
EXPECT_TRUE(HeapObjectHeader::FromPayload(child).TryMarkAtomic());
Mixin* mixin = static_cast<Mixin*>(child);
EXPECT_NE(static_cast<void*>(child), static_cast<void*>(mixin));
{
ExpectNoWriteBarrierFires scope(marker(), {child});
parent->set_mixin(mixin);
}
}
} // namespace internal
} // namespace cppgc