third_party/v8/test/unittests/heap/cppgc/concurrent-sweeper-unittest.cc - cobalt - Git at Google

 // 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 <algorithm>
 #include <set>
 #include <vector>

 #include "include/cppgc/allocation.h"
 #include "include/cppgc/platform.h"
 #include "include/v8-platform.h"
 #include "src/heap/cppgc/globals.h"
 #include "src/heap/cppgc/heap-object-header.h"
 #include "src/heap/cppgc/heap-page.h"
 #include "src/heap/cppgc/heap-space.h"
 #include "src/heap/cppgc/heap-visitor.h"
 #include "src/heap/cppgc/page-memory.h"
 #include "src/heap/cppgc/raw-heap.h"
 #include "src/heap/cppgc/stats-collector.h"
 #include "src/heap/cppgc/sweeper.h"
 #include "test/unittests/heap/cppgc/test-platform.h"
 #include "test/unittests/heap/cppgc/tests.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace cppgc {
 namespace internal {

 namespace {

 size_t g_destructor_callcount;

 template <size_t Size>
 class Finalizable : public GarbageCollected<Finalizable<Size>> {
  public:
   Finalizable() : creation_thread_{v8::base::OS::GetCurrentThreadId()} {}

   virtual ~Finalizable() {
     ++g_destructor_callcount;
     EXPECT_EQ(creation_thread_, v8::base::OS::GetCurrentThreadId());
   }

   virtual void Trace(cppgc::Visitor*) const {}

  private:
   char array_[Size];
   int creation_thread_;
 };

 using NormalFinalizable = Finalizable<32>;
 using LargeFinalizable = Finalizable<kLargeObjectSizeThreshold * 2>;

 template <size_t Size>
 class NonFinalizable : public GarbageCollected<NonFinalizable<Size>> {
  public:
   virtual void Trace(cppgc::Visitor*) const {}

  private:
   char array_[Size];
 };

 using NormalNonFinalizable = NonFinalizable<32>;
 using LargeNonFinalizable = NonFinalizable<kLargeObjectSizeThreshold * 2>;

 }  // namespace

 class ConcurrentSweeperTest : public testing::TestWithHeap {
  public:
   ConcurrentSweeperTest() { g_destructor_callcount = 0; }

   void StartSweeping() {
     Heap* heap = Heap::From(GetHeap());
     ResetLinearAllocationBuffers();
     // Pretend do finish marking as StatsCollector verifies that Notify*
     // methods are called in the right order.
     heap->stats_collector()->NotifyMarkingStarted();
     heap->stats_collector()->NotifyMarkingCompleted(0);
     Sweeper& sweeper = heap->sweeper();
     const Sweeper::SweepingConfig sweeping_config{
         Sweeper::SweepingConfig::SweepingType::kIncrementalAndConcurrent,
         Sweeper::SweepingConfig::CompactableSpaceHandling::kSweep};
     sweeper.Start(sweeping_config);
   }

   void WaitForConcurrentSweeping() {
     Heap* heap = Heap::From(GetHeap());
     Sweeper& sweeper = heap->sweeper();
     sweeper.WaitForConcurrentSweepingForTesting();
   }

   void FinishSweeping() {
     Heap* heap = Heap::From(GetHeap());
     Sweeper& sweeper = heap->sweeper();
     sweeper.FinishIfRunning();
   }

   const RawHeap& GetRawHeap() const {
     const Heap* heap = Heap::From(GetHeap());
     return heap->raw_heap();
   }

   void CheckFreeListEntries(const std::vector<void*>& objects) {
     const Heap* heap = Heap::From(GetHeap());
     const PageBackend* backend = heap->page_backend();

     for (auto* object : objects) {
       // The corresponding page could be removed.
       if (!backend->Lookup(static_cast<ConstAddress>(object))) continue;

       const auto* header =
           BasePage::FromPayload(object)->TryObjectHeaderFromInnerAddress(
               object);
       // TryObjectHeaderFromInnerAddress returns nullptr for freelist entries.
       EXPECT_EQ(nullptr, header);
     }
   }

   void CheckPageRemoved(const BasePage* page) {
     const Heap* heap = Heap::From(GetHeap());
     const PageBackend* backend = heap->page_backend();
     EXPECT_EQ(nullptr, backend->Lookup(reinterpret_cast<ConstAddress>(page)));
   }

   bool FreeListContains(const BaseSpace* space,
                         const std::vector<void*>& objects) {
     const Heap* heap = Heap::From(GetHeap());
     const PageBackend* backend = heap->page_backend();
     const auto& freelist = NormalPageSpace::From(space)->free_list();

     for (void* object : objects) {
       // The corresponding page could be removed.
       if (!backend->Lookup(static_cast<ConstAddress>(object))) continue;

       if (!freelist.Contains({object, 0})) return false;
     }

     return true;
   }
 };

 TEST_F(ConcurrentSweeperTest, BackgroundSweepOfNormalPage) {
   // Non finalizable objects are swept right away.
   using GCedType = NormalNonFinalizable;

   auto* unmarked_object = MakeGarbageCollected<GCedType>(GetAllocationHandle());
   auto* marked_object = MakeGarbageCollected<GCedType>(GetAllocationHandle());
   HeapObjectHeader::FromPayload(marked_object).TryMarkAtomic();

   auto* page = BasePage::FromPayload(unmarked_object);
   auto* space = page->space();

   // The test requires objects to be allocated on the same page;
   ASSERT_EQ(page, BasePage::FromPayload(marked_object));

   StartSweeping();

   // Wait for concurrent sweeping to finish.
   WaitForConcurrentSweeping();

 #if !defined(CPPGC_YOUNG_GENERATION)
   // Check that the marked object was unmarked.
   EXPECT_FALSE(HeapObjectHeader::FromPayload(marked_object).IsMarked());
 #else
   // Check that the marked object is still marked.
   EXPECT_TRUE(HeapObjectHeader::FromPayload(marked_object).IsMarked());
 #endif

   // Check that free list entries are created right away for non-finalizable
   // objects, but not immediately returned to the space's freelist.
   CheckFreeListEntries({unmarked_object});
   EXPECT_FALSE(FreeListContains(space, {unmarked_object}));

   FinishSweeping();

   // Check that finalizable objects are swept and put into the freelist of the
   // corresponding space.
   EXPECT_TRUE(FreeListContains(space, {unmarked_object}));
 }

 TEST_F(ConcurrentSweeperTest, BackgroundSweepOfLargePage) {
   // Non finalizable objects are swept right away.
   using GCedType = LargeNonFinalizable;

   auto* unmarked_object = MakeGarbageCollected<GCedType>(GetAllocationHandle());
   auto* marked_object = MakeGarbageCollected<GCedType>(GetAllocationHandle());
   HeapObjectHeader::FromPayload(marked_object).TryMarkAtomic();

   auto* unmarked_page = BasePage::FromPayload(unmarked_object);
   auto* marked_page = BasePage::FromPayload(marked_object);
   auto* space = unmarked_page->space();

   ASSERT_EQ(space, marked_page->space());

   StartSweeping();

   // Wait for concurrent sweeping to finish.
   WaitForConcurrentSweeping();

 #if !defined(CPPGC_YOUNG_GENERATION)
   // Check that the marked object was unmarked.
   EXPECT_FALSE(HeapObjectHeader::FromPayload(marked_object).IsMarked());
 #else
   // Check that the marked object is still marked.
   EXPECT_TRUE(HeapObjectHeader::FromPayload(marked_object).IsMarked());
 #endif

   // Check that free list entries are created right away for non-finalizable
   // objects, but not immediately returned to the space's freelist.
   CheckPageRemoved(unmarked_page);

   // Check that marked pages are returned to space right away.
   EXPECT_NE(space->end(), std::find(space->begin(), space->end(), marked_page));

   FinishSweeping();
 }

 TEST_F(ConcurrentSweeperTest, DeferredFinalizationOfNormalPage) {
   static constexpr size_t kNumberOfObjects = 10;
   // Finalizable types are left intact by concurrent sweeper.
   using GCedType = NormalFinalizable;

   std::set<BasePage*> pages;
   std::vector<void*> objects;

   BaseSpace* space = nullptr;
   for (size_t i = 0; i < kNumberOfObjects; ++i) {
     auto* object = MakeGarbageCollected<GCedType>(GetAllocationHandle());
     objects.push_back(object);
     auto* page = BasePage::FromPayload(object);
     pages.insert(page);
     if (!space) space = page->space();
   }

   StartSweeping();

   // Wait for concurrent sweeping to finish.
   WaitForConcurrentSweeping();

   // Check that pages are not returned right away.
   for (auto* page : pages) {
     EXPECT_EQ(space->end(), std::find(space->begin(), space->end(), page));
   }
   // Check that finalizable objects are left intact in pages.
   EXPECT_FALSE(FreeListContains(space, objects));
   // No finalizers have been executed.
   EXPECT_EQ(0u, g_destructor_callcount);

   FinishSweeping();

   // Check that finalizable objects are swept and turned into freelist entries.
   CheckFreeListEntries(objects);
   // Check that space's freelist contains these entries.
   EXPECT_TRUE(FreeListContains(space, objects));
   // Check that finalizers have been executed.
   EXPECT_EQ(kNumberOfObjects, g_destructor_callcount);
 }

 TEST_F(ConcurrentSweeperTest, DeferredFinalizationOfLargePage) {
   using GCedType = LargeFinalizable;

   auto* object = MakeGarbageCollected<GCedType>(GetAllocationHandle());

   auto* page = BasePage::FromPayload(object);
   auto* space = page->space();

   StartSweeping();

   // Wait for concurrent sweeping to finish.
   WaitForConcurrentSweeping();

   // Check that the page is not returned to the space.
   EXPECT_EQ(space->end(), std::find(space->begin(), space->end(), page));
   // Check that no destructors have been executed yet.
   EXPECT_EQ(0u, g_destructor_callcount);

   FinishSweeping();

   // Check that the destructor was executed.
   EXPECT_EQ(1u, g_destructor_callcount);
   // Check that page was unmapped.
   CheckPageRemoved(page);
 }

 TEST_F(ConcurrentSweeperTest, IncrementalSweeping) {
   testing::TestPlatform::DisableBackgroundTasksScope disable_concurrent_sweeper(
       &GetPlatform());

   auto task_runner = GetPlatform().GetForegroundTaskRunner();

   // Create two unmarked objects.
   MakeGarbageCollected<NormalFinalizable>(GetAllocationHandle());
   MakeGarbageCollected<LargeFinalizable>(GetAllocationHandle());

   // Create two marked objects.
   auto* marked_normal_object =
       MakeGarbageCollected<NormalFinalizable>(GetAllocationHandle());
   auto* marked_large_object =
       MakeGarbageCollected<LargeFinalizable>(GetAllocationHandle());

   auto& marked_normal_header =
       HeapObjectHeader::FromPayload(marked_normal_object);
   auto& marked_large_header =
       HeapObjectHeader::FromPayload(marked_large_object);

   marked_normal_header.TryMarkAtomic();
   marked_large_header.TryMarkAtomic();

   StartSweeping();

   EXPECT_EQ(0u, g_destructor_callcount);
   EXPECT_TRUE(marked_normal_header.IsMarked());
   EXPECT_TRUE(marked_large_header.IsMarked());

   // Wait for incremental sweeper to finish.
   GetPlatform().RunAllForegroundTasks();

   EXPECT_EQ(2u, g_destructor_callcount);
 #if !defined(CPPGC_YOUNG_GENERATION)
   EXPECT_FALSE(marked_normal_header.IsMarked());
   EXPECT_FALSE(marked_large_header.IsMarked());
 #else
   EXPECT_TRUE(marked_normal_header.IsMarked());
   EXPECT_TRUE(marked_large_header.IsMarked());
 #endif

   FinishSweeping();
 }

 }  // namespace internal
 }  // namespace cppgc
	// 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 <algorithm>
	#include <set>
	#include <vector>

	#include "include/cppgc/allocation.h"
	#include "include/cppgc/platform.h"
	#include "include/v8-platform.h"
	#include "src/heap/cppgc/globals.h"
	#include "src/heap/cppgc/heap-object-header.h"
	#include "src/heap/cppgc/heap-page.h"
	#include "src/heap/cppgc/heap-space.h"
	#include "src/heap/cppgc/heap-visitor.h"
	#include "src/heap/cppgc/page-memory.h"
	#include "src/heap/cppgc/raw-heap.h"
	#include "src/heap/cppgc/stats-collector.h"
	#include "src/heap/cppgc/sweeper.h"
	#include "test/unittests/heap/cppgc/test-platform.h"
	#include "test/unittests/heap/cppgc/tests.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace cppgc {
	namespace internal {

	namespace {

	size_t g_destructor_callcount;

	template <size_t Size>
	class Finalizable : public GarbageCollected<Finalizable<Size>> {
	public:
	Finalizable() : creation_thread_{v8::base::OS::GetCurrentThreadId()} {}

	virtual ~Finalizable() {
	++g_destructor_callcount;
	EXPECT_EQ(creation_thread_, v8::base::OS::GetCurrentThreadId());
	}

	virtual void Trace(cppgc::Visitor*) const {}

	private:
	char array_[Size];
	int creation_thread_;
	};

	using NormalFinalizable = Finalizable<32>;
	using LargeFinalizable = Finalizable<kLargeObjectSizeThreshold * 2>;

	template <size_t Size>
	class NonFinalizable : public GarbageCollected<NonFinalizable<Size>> {
	public:
	virtual void Trace(cppgc::Visitor*) const {}

	private:
	char array_[Size];
	};

	using NormalNonFinalizable = NonFinalizable<32>;
	using LargeNonFinalizable = NonFinalizable<kLargeObjectSizeThreshold * 2>;

	} // namespace

	class ConcurrentSweeperTest : public testing::TestWithHeap {
	public:
	ConcurrentSweeperTest() { g_destructor_callcount = 0; }

	void StartSweeping() {
	Heap* heap = Heap::From(GetHeap());
	ResetLinearAllocationBuffers();
	// Pretend do finish marking as StatsCollector verifies that Notify*
	// methods are called in the right order.
	heap->stats_collector()->NotifyMarkingStarted();
	heap->stats_collector()->NotifyMarkingCompleted(0);
	Sweeper& sweeper = heap->sweeper();
	const Sweeper::SweepingConfig sweeping_config{
	Sweeper::SweepingConfig::SweepingType::kIncrementalAndConcurrent,
	Sweeper::SweepingConfig::CompactableSpaceHandling::kSweep};
	sweeper.Start(sweeping_config);
	}

	void WaitForConcurrentSweeping() {
	Heap* heap = Heap::From(GetHeap());
	Sweeper& sweeper = heap->sweeper();
	sweeper.WaitForConcurrentSweepingForTesting();
	}

	void FinishSweeping() {
	Heap* heap = Heap::From(GetHeap());
	Sweeper& sweeper = heap->sweeper();
	sweeper.FinishIfRunning();
	}

	const RawHeap& GetRawHeap() const {
	const Heap* heap = Heap::From(GetHeap());
	return heap->raw_heap();
	}

	void CheckFreeListEntries(const std::vector<void*>& objects) {
	const Heap* heap = Heap::From(GetHeap());
	const PageBackend* backend = heap->page_backend();

	for (auto* object : objects) {
	// The corresponding page could be removed.
	if (!backend->Lookup(static_cast<ConstAddress>(object))) continue;

	const auto* header =
	BasePage::FromPayload(object)->TryObjectHeaderFromInnerAddress(
	object);
	// TryObjectHeaderFromInnerAddress returns nullptr for freelist entries.
	EXPECT_EQ(nullptr, header);
	}
	}

	void CheckPageRemoved(const BasePage* page) {
	const Heap* heap = Heap::From(GetHeap());
	const PageBackend* backend = heap->page_backend();
	EXPECT_EQ(nullptr, backend->Lookup(reinterpret_cast<ConstAddress>(page)));
	}

	bool FreeListContains(const BaseSpace* space,
	const std::vector<void*>& objects) {
	const Heap* heap = Heap::From(GetHeap());
	const PageBackend* backend = heap->page_backend();
	const auto& freelist = NormalPageSpace::From(space)->free_list();

	for (void* object : objects) {
	// The corresponding page could be removed.
	if (!backend->Lookup(static_cast<ConstAddress>(object))) continue;

	if (!freelist.Contains({object, 0})) return false;
	}

	return true;
	}
	};

	TEST_F(ConcurrentSweeperTest, BackgroundSweepOfNormalPage) {
	// Non finalizable objects are swept right away.
	using GCedType = NormalNonFinalizable;

	auto* unmarked_object = MakeGarbageCollected<GCedType>(GetAllocationHandle());
	auto* marked_object = MakeGarbageCollected<GCedType>(GetAllocationHandle());
	HeapObjectHeader::FromPayload(marked_object).TryMarkAtomic();

	auto* page = BasePage::FromPayload(unmarked_object);
	auto* space = page->space();

	// The test requires objects to be allocated on the same page;
	ASSERT_EQ(page, BasePage::FromPayload(marked_object));

	StartSweeping();

	// Wait for concurrent sweeping to finish.
	WaitForConcurrentSweeping();

	#if !defined(CPPGC_YOUNG_GENERATION)
	// Check that the marked object was unmarked.
	EXPECT_FALSE(HeapObjectHeader::FromPayload(marked_object).IsMarked());
	#else
	// Check that the marked object is still marked.
	EXPECT_TRUE(HeapObjectHeader::FromPayload(marked_object).IsMarked());
	#endif

	// Check that free list entries are created right away for non-finalizable
	// objects, but not immediately returned to the space's freelist.
	CheckFreeListEntries({unmarked_object});
	EXPECT_FALSE(FreeListContains(space, {unmarked_object}));

	FinishSweeping();

	// Check that finalizable objects are swept and put into the freelist of the
	// corresponding space.
	EXPECT_TRUE(FreeListContains(space, {unmarked_object}));
	}

	TEST_F(ConcurrentSweeperTest, BackgroundSweepOfLargePage) {
	// Non finalizable objects are swept right away.
	using GCedType = LargeNonFinalizable;

	auto* unmarked_object = MakeGarbageCollected<GCedType>(GetAllocationHandle());
	auto* marked_object = MakeGarbageCollected<GCedType>(GetAllocationHandle());
	HeapObjectHeader::FromPayload(marked_object).TryMarkAtomic();

	auto* unmarked_page = BasePage::FromPayload(unmarked_object);
	auto* marked_page = BasePage::FromPayload(marked_object);
	auto* space = unmarked_page->space();

	ASSERT_EQ(space, marked_page->space());

	StartSweeping();

	// Wait for concurrent sweeping to finish.
	WaitForConcurrentSweeping();

	#if !defined(CPPGC_YOUNG_GENERATION)
	// Check that the marked object was unmarked.
	EXPECT_FALSE(HeapObjectHeader::FromPayload(marked_object).IsMarked());
	#else
	// Check that the marked object is still marked.
	EXPECT_TRUE(HeapObjectHeader::FromPayload(marked_object).IsMarked());
	#endif

	// Check that free list entries are created right away for non-finalizable
	// objects, but not immediately returned to the space's freelist.
	CheckPageRemoved(unmarked_page);

	// Check that marked pages are returned to space right away.
	EXPECT_NE(space->end(), std::find(space->begin(), space->end(), marked_page));

	FinishSweeping();
	}

	TEST_F(ConcurrentSweeperTest, DeferredFinalizationOfNormalPage) {
	static constexpr size_t kNumberOfObjects = 10;
	// Finalizable types are left intact by concurrent sweeper.
	using GCedType = NormalFinalizable;

	std::set<BasePage*> pages;
	std::vector<void*> objects;

	BaseSpace* space = nullptr;
	for (size_t i = 0; i < kNumberOfObjects; ++i) {
	auto* object = MakeGarbageCollected<GCedType>(GetAllocationHandle());
	objects.push_back(object);
	auto* page = BasePage::FromPayload(object);
	pages.insert(page);
	if (!space) space = page->space();
	}

	StartSweeping();

	// Wait for concurrent sweeping to finish.
	WaitForConcurrentSweeping();

	// Check that pages are not returned right away.
	for (auto* page : pages) {
	EXPECT_EQ(space->end(), std::find(space->begin(), space->end(), page));
	}
	// Check that finalizable objects are left intact in pages.
	EXPECT_FALSE(FreeListContains(space, objects));
	// No finalizers have been executed.
	EXPECT_EQ(0u, g_destructor_callcount);

	FinishSweeping();

	// Check that finalizable objects are swept and turned into freelist entries.
	CheckFreeListEntries(objects);
	// Check that space's freelist contains these entries.
	EXPECT_TRUE(FreeListContains(space, objects));
	// Check that finalizers have been executed.
	EXPECT_EQ(kNumberOfObjects, g_destructor_callcount);
	}

	TEST_F(ConcurrentSweeperTest, DeferredFinalizationOfLargePage) {
	using GCedType = LargeFinalizable;

	auto* object = MakeGarbageCollected<GCedType>(GetAllocationHandle());

	auto* page = BasePage::FromPayload(object);
	auto* space = page->space();

	StartSweeping();

	// Wait for concurrent sweeping to finish.
	WaitForConcurrentSweeping();

	// Check that the page is not returned to the space.
	EXPECT_EQ(space->end(), std::find(space->begin(), space->end(), page));
	// Check that no destructors have been executed yet.
	EXPECT_EQ(0u, g_destructor_callcount);

	FinishSweeping();

	// Check that the destructor was executed.
	EXPECT_EQ(1u, g_destructor_callcount);
	// Check that page was unmapped.
	CheckPageRemoved(page);
	}

	TEST_F(ConcurrentSweeperTest, IncrementalSweeping) {
	testing::TestPlatform::DisableBackgroundTasksScope disable_concurrent_sweeper(
	&GetPlatform());

	auto task_runner = GetPlatform().GetForegroundTaskRunner();

	// Create two unmarked objects.
	MakeGarbageCollected<NormalFinalizable>(GetAllocationHandle());
	MakeGarbageCollected<LargeFinalizable>(GetAllocationHandle());

	// Create two marked objects.
	auto* marked_normal_object =
	MakeGarbageCollected<NormalFinalizable>(GetAllocationHandle());
	auto* marked_large_object =
	MakeGarbageCollected<LargeFinalizable>(GetAllocationHandle());

	auto& marked_normal_header =
	HeapObjectHeader::FromPayload(marked_normal_object);
	auto& marked_large_header =
	HeapObjectHeader::FromPayload(marked_large_object);

	marked_normal_header.TryMarkAtomic();
	marked_large_header.TryMarkAtomic();

	StartSweeping();

	EXPECT_EQ(0u, g_destructor_callcount);
	EXPECT_TRUE(marked_normal_header.IsMarked());
	EXPECT_TRUE(marked_large_header.IsMarked());

	// Wait for incremental sweeper to finish.
	GetPlatform().RunAllForegroundTasks();

	EXPECT_EQ(2u, g_destructor_callcount);
	#if !defined(CPPGC_YOUNG_GENERATION)
	EXPECT_FALSE(marked_normal_header.IsMarked());
	EXPECT_FALSE(marked_large_header.IsMarked());
	#else
	EXPECT_TRUE(marked_normal_header.IsMarked());
	EXPECT_TRUE(marked_large_header.IsMarked());
	#endif

	FinishSweeping();
	}

	} // namespace internal
	} // namespace cppgc