src/third_party/v8/test/unittests/heap/cppgc/heap-page-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 "src/heap/cppgc/heap-page.h"

 #include <algorithm>

 #include "include/cppgc/allocation.h"
 #include "include/cppgc/persistent.h"
 #include "src/base/macros.h"
 #include "src/heap/cppgc/globals.h"
 #include "src/heap/cppgc/heap-object-header.h"
 #include "src/heap/cppgc/page-memory.h"
 #include "src/heap/cppgc/raw-heap.h"
 #include "test/unittests/heap/cppgc/tests.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace cppgc {
 namespace internal {

 namespace {

 class PageTest : public testing::TestWithHeap {
  public:
   RawHeap& GetRawHeap() { return Heap::From(GetHeap())->raw_heap(); }
   PageBackend* GetPageBackend() {
     return Heap::From(GetHeap())->page_backend();
   }
 };

 template <size_t Size>
 class GCed : public GarbageCollected<GCed<Size>> {
  public:
   virtual void Trace(cppgc::Visitor*) const {}
   char array[Size];
 };

 }  // namespace

 TEST_F(PageTest, SpaceIndexing) {
   RawHeap& heap = GetRawHeap();
   size_t space = 0u;
   for (const auto& ptr : heap) {
     EXPECT_EQ(&heap, ptr.get()->raw_heap());
     EXPECT_EQ(space, ptr->index());
     ++space;
   }
   EXPECT_GE(space, RawHeap::kNumberOfRegularSpaces);
 }

 TEST_F(PageTest, PredefinedSpaces) {
   using SpaceType = RawHeap::RegularSpaceType;
   RawHeap& heap = GetRawHeap();
   {
     auto* gced = MakeGarbageCollected<GCed<1>>(GetAllocationHandle());
     BaseSpace* space = NormalPage::FromPayload(gced)->space();
     EXPECT_EQ(heap.Space(SpaceType::kNormal1), space);
     EXPECT_EQ(0u, space->index());
     EXPECT_FALSE(space->is_large());
   }
   {
     auto* gced = MakeGarbageCollected<GCed<32>>(GetAllocationHandle());
     BaseSpace* space = NormalPage::FromPayload(gced)->space();
     EXPECT_EQ(heap.Space(SpaceType::kNormal2), space);
     EXPECT_EQ(1u, space->index());
     EXPECT_FALSE(space->is_large());
   }
   {
     auto* gced = MakeGarbageCollected<GCed<64>>(GetAllocationHandle());
     BaseSpace* space = NormalPage::FromPayload(gced)->space();
     EXPECT_EQ(heap.Space(SpaceType::kNormal3), space);
     EXPECT_EQ(2u, space->index());
     EXPECT_FALSE(space->is_large());
   }
   {
     auto* gced = MakeGarbageCollected<GCed<128>>(GetAllocationHandle());
     BaseSpace* space = NormalPage::FromPayload(gced)->space();
     EXPECT_EQ(heap.Space(SpaceType::kNormal4), space);
     EXPECT_EQ(3u, space->index());
     EXPECT_FALSE(space->is_large());
   }
   {
     auto* gced = MakeGarbageCollected<GCed<2 * kLargeObjectSizeThreshold>>(
         GetAllocationHandle());
     BaseSpace* space = NormalPage::FromPayload(gced)->space();
     EXPECT_EQ(heap.Space(SpaceType::kLarge), space);
     EXPECT_EQ(4u, space->index());
     EXPECT_TRUE(space->is_large());
   }
 }

 TEST_F(PageTest, NormalPageIndexing) {
   using SpaceType = RawHeap::RegularSpaceType;
   constexpr size_t kExpectedNumberOfPages = 10u;
   constexpr size_t kObjectSize = 8u;
   using Type = GCed<kObjectSize>;
   static const size_t kNumberOfObjects =
       (kExpectedNumberOfPages * NormalPage::PayloadSize() /
        (sizeof(Type) + sizeof(HeapObjectHeader))) -
       kExpectedNumberOfPages;

   std::vector<Persistent<Type>> persistents(kNumberOfObjects);
   for (auto& p : persistents) {
     p = MakeGarbageCollected<Type>(GetAllocationHandle());
   }

   const RawHeap& heap = GetRawHeap();
   const BaseSpace* space = heap.Space(SpaceType::kNormal1);
   EXPECT_EQ(kExpectedNumberOfPages, space->size());

   size_t page_n = 0;
   for (const BasePage* page : *space) {
     EXPECT_FALSE(page->is_large());
     EXPECT_EQ(space, page->space());
     ++page_n;
   }
   EXPECT_EQ(page_n, space->size());
 }

 TEST_F(PageTest, LargePageIndexing) {
   using SpaceType = RawHeap::RegularSpaceType;
   constexpr size_t kExpectedNumberOfPages = 10u;
   constexpr size_t kObjectSize = 2 * kLargeObjectSizeThreshold;
   using Type = GCed<kObjectSize>;
   const size_t kNumberOfObjects = kExpectedNumberOfPages;

   std::vector<Persistent<Type>> persistents(kNumberOfObjects);
   for (auto& p : persistents) {
     p = MakeGarbageCollected<Type>(GetAllocationHandle());
   }

   const RawHeap& heap = GetRawHeap();
   const BaseSpace* space = heap.Space(SpaceType::kLarge);
   EXPECT_EQ(kExpectedNumberOfPages, space->size());

   size_t page_n = 0;
   for (const BasePage* page : *space) {
     EXPECT_TRUE(page->is_large());
     ++page_n;
   }
   EXPECT_EQ(page_n, space->size());
 }

 TEST_F(PageTest, HeapObjectHeaderOnBasePageIndexing) {
   constexpr size_t kObjectSize = 8;
   using Type = GCed<kObjectSize>;
   const size_t kNumberOfObjects =
       NormalPage::PayloadSize() / (sizeof(Type) + sizeof(HeapObjectHeader));
   const size_t kLeftSpace =
       NormalPage::PayloadSize() % (sizeof(Type) + sizeof(HeapObjectHeader));

   std::vector<Persistent<Type>> persistents(kNumberOfObjects);
   for (auto& p : persistents) {
     p = MakeGarbageCollected<Type>(GetAllocationHandle());
   }

   const auto* page =
       static_cast<NormalPage*>(BasePage::FromPayload(persistents[0].Get()));
   size_t size = 0;
   size_t num = 0;
   for (const HeapObjectHeader& header : *page) {
     EXPECT_EQ(reinterpret_cast<Address>(persistents[num].Get()),
               header.Payload());
     size += header.GetSize();
     ++num;
   }
   EXPECT_EQ(num, persistents.size());
   EXPECT_EQ(size + kLeftSpace, NormalPage::PayloadSize());
 }

 TEST_F(PageTest, HeapObjectHeaderOnLargePageIndexing) {
   constexpr size_t kObjectSize = 2 * kLargeObjectSizeThreshold;
   using Type = GCed<kObjectSize>;
   auto* gced = MakeGarbageCollected<Type>(GetAllocationHandle());

   const auto* page = static_cast<LargePage*>(BasePage::FromPayload(gced));
   const size_t expected_payload_size =
       RoundUp(sizeof(Type) + sizeof(HeapObjectHeader), kAllocationGranularity);
   EXPECT_EQ(expected_payload_size, page->PayloadSize());

   const HeapObjectHeader* header = page->ObjectHeader();
   EXPECT_EQ(reinterpret_cast<Address>(gced), header->Payload());
 }

 TEST_F(PageTest, NormalPageCreationDestruction) {
   RawHeap& heap = GetRawHeap();
   const PageBackend* backend = Heap::From(GetHeap())->page_backend();
   auto* space = static_cast<NormalPageSpace*>(
       heap.Space(RawHeap::RegularSpaceType::kNormal1));
   auto* page = NormalPage::Create(GetPageBackend(), space);
   EXPECT_NE(nullptr, backend->Lookup(page->PayloadStart()));

   space->AddPage(page);
   EXPECT_NE(space->end(), std::find(space->begin(), space->end(), page));

   space->free_list().Add({page->PayloadStart(), page->PayloadSize()});
   EXPECT_TRUE(
       space->free_list().Contains({page->PayloadStart(), page->PayloadSize()}));

   space->free_list().Clear();
   EXPECT_FALSE(
       space->free_list().Contains({page->PayloadStart(), page->PayloadSize()}));
   space->RemovePage(page);
   EXPECT_EQ(space->end(), std::find(space->begin(), space->end(), page));
   NormalPage::Destroy(page);
   EXPECT_EQ(nullptr, backend->Lookup(page->PayloadStart()));
 }

 TEST_F(PageTest, LargePageCreationDestruction) {
   constexpr size_t kObjectSize = 2 * kLargeObjectSizeThreshold;
   RawHeap& heap = GetRawHeap();
   const PageBackend* backend = Heap::From(GetHeap())->page_backend();
   auto* space = static_cast<LargePageSpace*>(
       heap.Space(RawHeap::RegularSpaceType::kLarge));
   auto* page = LargePage::Create(GetPageBackend(), space, kObjectSize);
   EXPECT_NE(nullptr, backend->Lookup(page->PayloadStart()));

   space->AddPage(page);
   EXPECT_NE(space->end(), std::find(space->begin(), space->end(), page));

   space->RemovePage(page);
   EXPECT_EQ(space->end(), std::find(space->begin(), space->end(), page));
   LargePage::Destroy(page);
   EXPECT_EQ(nullptr, backend->Lookup(page->PayloadStart()));
 }

 #if DEBUG
 TEST_F(PageTest, UnsweptPageDestruction) {
   RawHeap& heap = GetRawHeap();
   {
     auto* space = static_cast<NormalPageSpace*>(
         heap.Space(RawHeap::RegularSpaceType::kNormal1));
     auto* page = NormalPage::Create(GetPageBackend(), space);
     space->AddPage(page);
     EXPECT_DEATH_IF_SUPPORTED(NormalPage::Destroy(page), "");
   }
   {
     auto* space = static_cast<LargePageSpace*>(
         heap.Space(RawHeap::RegularSpaceType::kLarge));
     auto* page = LargePage::Create(GetPageBackend(), space,
                                    2 * kLargeObjectSizeThreshold);
     space->AddPage(page);
     EXPECT_DEATH_IF_SUPPORTED(LargePage::Destroy(page), "");
     // Detach page and really destroy page in the parent process so that sweeper
     // doesn't consider it.
     space->RemovePage(page);
     LargePage::Destroy(page);
   }
 }
 #endif

 TEST_F(PageTest, ObjectHeaderFromInnerAddress) {
   {
     auto* object = MakeGarbageCollected<GCed<64>>(GetAllocationHandle());
     const HeapObjectHeader& expected = HeapObjectHeader::FromPayload(object);

     for (auto* inner_ptr = reinterpret_cast<ConstAddress>(object);
          inner_ptr < reinterpret_cast<ConstAddress>(object + 1); ++inner_ptr) {
       const HeapObjectHeader& hoh =
           BasePage::FromPayload(object)->ObjectHeaderFromInnerAddress(
               inner_ptr);
       EXPECT_EQ(&expected, &hoh);
     }
   }
   {
     auto* object = MakeGarbageCollected<GCed<2 * kLargeObjectSizeThreshold>>(
         GetAllocationHandle());
     const HeapObjectHeader& expected = HeapObjectHeader::FromPayload(object);

     const HeapObjectHeader& hoh =
         BasePage::FromPayload(object)->ObjectHeaderFromInnerAddress(
             reinterpret_cast<ConstAddress>(object) + kLargeObjectSizeThreshold);
     EXPECT_EQ(&expected, &hoh);
   }
 }

 }  // 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 "src/heap/cppgc/heap-page.h"

	#include <algorithm>

	#include "include/cppgc/allocation.h"
	#include "include/cppgc/persistent.h"
	#include "src/base/macros.h"
	#include "src/heap/cppgc/globals.h"
	#include "src/heap/cppgc/heap-object-header.h"
	#include "src/heap/cppgc/page-memory.h"
	#include "src/heap/cppgc/raw-heap.h"
	#include "test/unittests/heap/cppgc/tests.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace cppgc {
	namespace internal {

	namespace {

	class PageTest : public testing::TestWithHeap {
	public:
	RawHeap& GetRawHeap() { return Heap::From(GetHeap())->raw_heap(); }
	PageBackend* GetPageBackend() {
	return Heap::From(GetHeap())->page_backend();
	}
	};

	template <size_t Size>
	class GCed : public GarbageCollected<GCed<Size>> {
	public:
	virtual void Trace(cppgc::Visitor*) const {}
	char array[Size];
	};

	} // namespace

	TEST_F(PageTest, SpaceIndexing) {
	RawHeap& heap = GetRawHeap();
	size_t space = 0u;
	for (const auto& ptr : heap) {
	EXPECT_EQ(&heap, ptr.get()->raw_heap());
	EXPECT_EQ(space, ptr->index());
	++space;
	}
	EXPECT_GE(space, RawHeap::kNumberOfRegularSpaces);
	}

	TEST_F(PageTest, PredefinedSpaces) {
	using SpaceType = RawHeap::RegularSpaceType;
	RawHeap& heap = GetRawHeap();
	{
	auto* gced = MakeGarbageCollected<GCed<1>>(GetAllocationHandle());
	BaseSpace* space = NormalPage::FromPayload(gced)->space();
	EXPECT_EQ(heap.Space(SpaceType::kNormal1), space);
	EXPECT_EQ(0u, space->index());
	EXPECT_FALSE(space->is_large());
	}
	{
	auto* gced = MakeGarbageCollected<GCed<32>>(GetAllocationHandle());
	BaseSpace* space = NormalPage::FromPayload(gced)->space();
	EXPECT_EQ(heap.Space(SpaceType::kNormal2), space);
	EXPECT_EQ(1u, space->index());
	EXPECT_FALSE(space->is_large());
	}
	{
	auto* gced = MakeGarbageCollected<GCed<64>>(GetAllocationHandle());
	BaseSpace* space = NormalPage::FromPayload(gced)->space();
	EXPECT_EQ(heap.Space(SpaceType::kNormal3), space);
	EXPECT_EQ(2u, space->index());
	EXPECT_FALSE(space->is_large());
	}
	{
	auto* gced = MakeGarbageCollected<GCed<128>>(GetAllocationHandle());
	BaseSpace* space = NormalPage::FromPayload(gced)->space();
	EXPECT_EQ(heap.Space(SpaceType::kNormal4), space);
	EXPECT_EQ(3u, space->index());
	EXPECT_FALSE(space->is_large());
	}
	{
	auto* gced = MakeGarbageCollected<GCed<2 * kLargeObjectSizeThreshold>>(
	GetAllocationHandle());
	BaseSpace* space = NormalPage::FromPayload(gced)->space();
	EXPECT_EQ(heap.Space(SpaceType::kLarge), space);
	EXPECT_EQ(4u, space->index());
	EXPECT_TRUE(space->is_large());
	}
	}

	TEST_F(PageTest, NormalPageIndexing) {
	using SpaceType = RawHeap::RegularSpaceType;
	constexpr size_t kExpectedNumberOfPages = 10u;
	constexpr size_t kObjectSize = 8u;
	using Type = GCed<kObjectSize>;
	static const size_t kNumberOfObjects =
	(kExpectedNumberOfPages * NormalPage::PayloadSize() /
	(sizeof(Type) + sizeof(HeapObjectHeader))) -
	kExpectedNumberOfPages;

	std::vector<Persistent<Type>> persistents(kNumberOfObjects);
	for (auto& p : persistents) {
	p = MakeGarbageCollected<Type>(GetAllocationHandle());
	}

	const RawHeap& heap = GetRawHeap();
	const BaseSpace* space = heap.Space(SpaceType::kNormal1);
	EXPECT_EQ(kExpectedNumberOfPages, space->size());

	size_t page_n = 0;
	for (const BasePage* page : *space) {
	EXPECT_FALSE(page->is_large());
	EXPECT_EQ(space, page->space());
	++page_n;
	}
	EXPECT_EQ(page_n, space->size());
	}

	TEST_F(PageTest, LargePageIndexing) {
	using SpaceType = RawHeap::RegularSpaceType;
	constexpr size_t kExpectedNumberOfPages = 10u;
	constexpr size_t kObjectSize = 2 * kLargeObjectSizeThreshold;
	using Type = GCed<kObjectSize>;
	const size_t kNumberOfObjects = kExpectedNumberOfPages;

	std::vector<Persistent<Type>> persistents(kNumberOfObjects);
	for (auto& p : persistents) {
	p = MakeGarbageCollected<Type>(GetAllocationHandle());
	}

	const RawHeap& heap = GetRawHeap();
	const BaseSpace* space = heap.Space(SpaceType::kLarge);
	EXPECT_EQ(kExpectedNumberOfPages, space->size());

	size_t page_n = 0;
	for (const BasePage* page : *space) {
	EXPECT_TRUE(page->is_large());
	++page_n;
	}
	EXPECT_EQ(page_n, space->size());
	}

	TEST_F(PageTest, HeapObjectHeaderOnBasePageIndexing) {
	constexpr size_t kObjectSize = 8;
	using Type = GCed<kObjectSize>;
	const size_t kNumberOfObjects =
	NormalPage::PayloadSize() / (sizeof(Type) + sizeof(HeapObjectHeader));
	const size_t kLeftSpace =
	NormalPage::PayloadSize() % (sizeof(Type) + sizeof(HeapObjectHeader));

	std::vector<Persistent<Type>> persistents(kNumberOfObjects);
	for (auto& p : persistents) {
	p = MakeGarbageCollected<Type>(GetAllocationHandle());
	}

	const auto* page =
	static_cast<NormalPage*>(BasePage::FromPayload(persistents[0].Get()));
	size_t size = 0;
	size_t num = 0;
	for (const HeapObjectHeader& header : *page) {
	EXPECT_EQ(reinterpret_cast<Address>(persistents[num].Get()),
	header.Payload());
	size += header.GetSize();
	++num;
	}
	EXPECT_EQ(num, persistents.size());
	EXPECT_EQ(size + kLeftSpace, NormalPage::PayloadSize());
	}

	TEST_F(PageTest, HeapObjectHeaderOnLargePageIndexing) {
	constexpr size_t kObjectSize = 2 * kLargeObjectSizeThreshold;
	using Type = GCed<kObjectSize>;
	auto* gced = MakeGarbageCollected<Type>(GetAllocationHandle());

	const auto* page = static_cast<LargePage*>(BasePage::FromPayload(gced));
	const size_t expected_payload_size =
	RoundUp(sizeof(Type) + sizeof(HeapObjectHeader), kAllocationGranularity);
	EXPECT_EQ(expected_payload_size, page->PayloadSize());

	const HeapObjectHeader* header = page->ObjectHeader();
	EXPECT_EQ(reinterpret_cast<Address>(gced), header->Payload());
	}

	TEST_F(PageTest, NormalPageCreationDestruction) {
	RawHeap& heap = GetRawHeap();
	const PageBackend* backend = Heap::From(GetHeap())->page_backend();
	auto* space = static_cast<NormalPageSpace*>(
	heap.Space(RawHeap::RegularSpaceType::kNormal1));
	auto* page = NormalPage::Create(GetPageBackend(), space);
	EXPECT_NE(nullptr, backend->Lookup(page->PayloadStart()));

	space->AddPage(page);
	EXPECT_NE(space->end(), std::find(space->begin(), space->end(), page));

	space->free_list().Add({page->PayloadStart(), page->PayloadSize()});
	EXPECT_TRUE(
	space->free_list().Contains({page->PayloadStart(), page->PayloadSize()}));

	space->free_list().Clear();
	EXPECT_FALSE(
	space->free_list().Contains({page->PayloadStart(), page->PayloadSize()}));
	space->RemovePage(page);
	EXPECT_EQ(space->end(), std::find(space->begin(), space->end(), page));
	NormalPage::Destroy(page);
	EXPECT_EQ(nullptr, backend->Lookup(page->PayloadStart()));
	}

	TEST_F(PageTest, LargePageCreationDestruction) {
	constexpr size_t kObjectSize = 2 * kLargeObjectSizeThreshold;
	RawHeap& heap = GetRawHeap();
	const PageBackend* backend = Heap::From(GetHeap())->page_backend();
	auto* space = static_cast<LargePageSpace*>(
	heap.Space(RawHeap::RegularSpaceType::kLarge));
	auto* page = LargePage::Create(GetPageBackend(), space, kObjectSize);
	EXPECT_NE(nullptr, backend->Lookup(page->PayloadStart()));

	space->AddPage(page);
	EXPECT_NE(space->end(), std::find(space->begin(), space->end(), page));

	space->RemovePage(page);
	EXPECT_EQ(space->end(), std::find(space->begin(), space->end(), page));
	LargePage::Destroy(page);
	EXPECT_EQ(nullptr, backend->Lookup(page->PayloadStart()));
	}

	#if DEBUG
	TEST_F(PageTest, UnsweptPageDestruction) {
	RawHeap& heap = GetRawHeap();
	{
	auto* space = static_cast<NormalPageSpace*>(
	heap.Space(RawHeap::RegularSpaceType::kNormal1));
	auto* page = NormalPage::Create(GetPageBackend(), space);
	space->AddPage(page);
	EXPECT_DEATH_IF_SUPPORTED(NormalPage::Destroy(page), "");
	}
	{
	auto* space = static_cast<LargePageSpace*>(
	heap.Space(RawHeap::RegularSpaceType::kLarge));
	auto* page = LargePage::Create(GetPageBackend(), space,
	2 * kLargeObjectSizeThreshold);
	space->AddPage(page);
	EXPECT_DEATH_IF_SUPPORTED(LargePage::Destroy(page), "");
	// Detach page and really destroy page in the parent process so that sweeper
	// doesn't consider it.
	space->RemovePage(page);
	LargePage::Destroy(page);
	}
	}
	#endif

	TEST_F(PageTest, ObjectHeaderFromInnerAddress) {
	{
	auto* object = MakeGarbageCollected<GCed<64>>(GetAllocationHandle());
	const HeapObjectHeader& expected = HeapObjectHeader::FromPayload(object);

	for (auto* inner_ptr = reinterpret_cast<ConstAddress>(object);
	inner_ptr < reinterpret_cast<ConstAddress>(object + 1); ++inner_ptr) {
	const HeapObjectHeader& hoh =
	BasePage::FromPayload(object)->ObjectHeaderFromInnerAddress(
	inner_ptr);
	EXPECT_EQ(&expected, &hoh);
	}
	}
	{
	auto* object = MakeGarbageCollected<GCed<2 * kLargeObjectSizeThreshold>>(
	GetAllocationHandle());
	const HeapObjectHeader& expected = HeapObjectHeader::FromPayload(object);

	const HeapObjectHeader& hoh =
	BasePage::FromPayload(object)->ObjectHeaderFromInnerAddress(
	reinterpret_cast<ConstAddress>(object) + kLargeObjectSizeThreshold);
	EXPECT_EQ(&expected, &hoh);
	}
	}

	} // namespace internal
	} // namespace cppgc