gpu/command_buffer/service/service_discardable_manager_unittest.cc - chromium/src - Git at Google

 // Copyright (c) 2017 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.

 #include "gpu/command_buffer/service/service_discardable_manager.h"

 #include "gpu/command_buffer/client/client_test_helper.h"
 #include "gpu/command_buffer/service/gles2_cmd_decoder_mock.h"
 #include "gpu/command_buffer/service/gpu_service_test.h"
 #include "gpu/command_buffer/service/gpu_tracer.h"
 #include "gpu/command_buffer/service/image_manager.h"
 #include "gpu/command_buffer/service/mailbox_manager_impl.h"
 #include "gpu/command_buffer/service/memory_tracking.h"
 #include "gpu/command_buffer/service/mocks.h"
 #include "gpu/command_buffer/service/shared_image_manager.h"
 #include "gpu/command_buffer/service/test_helper.h"
 #include "gpu/command_buffer/service/texture_manager.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "ui/gl/gl_image_stub.h"
 #include "ui/gl/gl_mock.h"
 #include "ui/gl/gl_switches.h"

 using ::testing::Pointee;
 using ::testing::_;
 using ::testing::Invoke;
 using ::testing::Mock;
 using ::testing::InSequence;

 namespace gpu {
 namespace gles2 {
 namespace {

 void CreateLockedHandlesForTesting(
     std::unique_ptr<ServiceDiscardableHandle>* service_handle,
     std::unique_ptr<ClientDiscardableHandle>* client_handle) {
   const size_t kShmemSize = sizeof(uint32_t);
   base::UnsafeSharedMemoryRegion shared_mem =
       base::UnsafeSharedMemoryRegion::Create(kShmemSize);
   base::WritableSharedMemoryMapping shared_mem_mapping = shared_mem.Map();
   scoped_refptr<gpu::Buffer> buffer = MakeBufferFromSharedMemory(
       std::move(shared_mem), std::move(shared_mem_mapping));

   client_handle->reset(new ClientDiscardableHandle(buffer, 0, 0));
   service_handle->reset(new ServiceDiscardableHandle(buffer, 0, 0));
 }

 ServiceDiscardableHandle CreateLockedServiceHandleForTesting() {
   std::unique_ptr<ServiceDiscardableHandle> service_handle;
   std::unique_ptr<ClientDiscardableHandle> client_handle;
   CreateLockedHandlesForTesting(&service_handle, &client_handle);
   return *service_handle;
 }

 class MockDestructionObserver : public TextureManager::DestructionObserver {
  public:
   MOCK_METHOD1(OnTextureManagerDestroying, void(TextureManager* manager));
   MOCK_METHOD1(OnTextureRefDestroying, void(TextureRef* ref));
 };

 // A small texture that should never run up against our limits.
 static const uint32_t kSmallTextureDim = 16;
 static const size_t kSmallTextureSize = 4 * kSmallTextureDim * kSmallTextureDim;

 }  // namespace

 class ServiceDiscardableManagerTest : public GpuServiceTest {
  public:
   ServiceDiscardableManagerTest() = default;
   ~ServiceDiscardableManagerTest() override = default;

  protected:
   void SetUp() override {
     GpuServiceTest::SetUp();
     decoder_.reset(new MockGLES2Decoder(&command_buffer_service_, &outputter_));
     feature_info_ = new FeatureInfo();
     context_group_ = scoped_refptr<ContextGroup>(new ContextGroup(
         gpu_preferences_, false, &mailbox_manager_, nullptr, nullptr, nullptr,
         feature_info_, false, &image_manager_, nullptr, nullptr,
         GpuFeatureInfo(), &discardable_manager_, nullptr,
         &shared_image_manager_));
     TestHelper::SetupContextGroupInitExpectations(
         gl_.get(), DisallowedFeatures(), "", "", CONTEXT_TYPE_OPENGLES2, false);
     context_group_->Initialize(decoder_.get(), CONTEXT_TYPE_OPENGLES2,
                                DisallowedFeatures());
     texture_manager_ = context_group_->texture_manager();
     texture_manager_->AddObserver(&destruction_observer_);
   }

   void TearDown() override {
     EXPECT_CALL(destruction_observer_, OnTextureManagerDestroying(_))
         .RetiresOnSaturation();
     // Texture manager will destroy the 6 black/default textures.
     EXPECT_CALL(*gl_, DeleteTextures(TextureManager::kNumDefaultTextures, _));

     context_group_->Destroy(decoder_.get(), true);
     context_group_ = nullptr;
     EXPECT_EQ(0u, discardable_manager_.NumCacheEntriesForTesting());
     GpuServiceTest::TearDown();
   }

   void ExpectUnlockedTextureDeletion(uint32_t client_id) {
     TextureRef* ref = discardable_manager_.UnlockedTextureRefForTesting(
         client_id, texture_manager_);
     ExpectTextureRefDeletion(ref);
   }

   void ExpectTextureDeletion(uint32_t client_id) {
     TextureRef* ref = texture_manager_->GetTexture(client_id);
     ExpectTextureRefDeletion(ref);
   }

   void ExpectTextureRefDeletion(TextureRef* ref) {
     EXPECT_NE(nullptr, ref);
     ref->AddObserver();
     EXPECT_CALL(destruction_observer_, OnTextureRefDestroying(ref))
         .WillOnce(Invoke([](TextureRef* ref) { ref->RemoveObserver(); }));
     EXPECT_CALL(*gl_, DeleteTextures(1, Pointee(ref->service_id())))
         .RetiresOnSaturation();
   }

   MailboxManagerImpl mailbox_manager_;
   TraceOutputter outputter_;
   ImageManager image_manager_;
   ServiceDiscardableManager discardable_manager_;
   SharedImageManager shared_image_manager_;
   GpuPreferences gpu_preferences_;
   scoped_refptr<FeatureInfo> feature_info_;
   MockDestructionObserver destruction_observer_;
   TextureManager* texture_manager_;
   FakeCommandBufferServiceBase command_buffer_service_;
   std::unique_ptr<MockGLES2Decoder> decoder_;
   scoped_refptr<gles2::ContextGroup> context_group_;
 };

 TEST_F(ServiceDiscardableManagerTest, BasicUsage) {
   const GLuint kClientId = 1;
   const GLuint kServiceId = 2;

   // Create and insert a new texture.
   texture_manager_->CreateTexture(kClientId, kServiceId);
   auto handle = CreateLockedServiceHandleForTesting();
   discardable_manager_.InsertLockedTexture(kClientId, kSmallTextureSize,
                                            texture_manager_, handle);
   EXPECT_EQ(1u, discardable_manager_.NumCacheEntriesForTesting());
   EXPECT_TRUE(discardable_manager_.IsEntryLockedForTesting(kClientId,
                                                            texture_manager_));
   EXPECT_NE(nullptr, texture_manager_->GetTexture(kClientId));

   // Unlock the texture, ServiceDiscardableManager should take ownership of the
   // TextureRef.
   gles2::TextureRef* texture_to_unbind;
   EXPECT_TRUE(discardable_manager_.UnlockTexture(kClientId, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_FALSE(discardable_manager_.IsEntryLockedForTesting(kClientId,
                                                             texture_manager_));
   EXPECT_EQ(nullptr, texture_manager_->GetTexture(kClientId));

   // Re-lock the texture, the TextureManager should now resume ownership of
   // the TextureRef.
   discardable_manager_.LockTexture(kClientId, texture_manager_);
   EXPECT_NE(nullptr, texture_manager_->GetTexture(kClientId));

   // Delete the texture from the TextureManager, it should also be removed from
   // the ServiceDiscardableManager.
   ExpectTextureDeletion(kClientId);
   texture_manager_->RemoveTexture(kClientId);
   EXPECT_EQ(0u, discardable_manager_.NumCacheEntriesForTesting());
 }

 TEST_F(ServiceDiscardableManagerTest, DeleteAtShutdown) {
   // Create 8 small textures (which will not hit memory limits), leaving every
   // other one unlocked.
   for (int i = 1; i <= 8; ++i) {
     texture_manager_->CreateTexture(i, i);
     auto handle = CreateLockedServiceHandleForTesting();
     discardable_manager_.InsertLockedTexture(i, kSmallTextureSize,
                                              texture_manager_, handle);
     if (i % 2) {
       TextureRef* texture_to_unbind;
       EXPECT_TRUE(discardable_manager_.UnlockTexture(i, texture_manager_,
                                                      &texture_to_unbind));
       EXPECT_NE(nullptr, texture_to_unbind);
     }
   }

   // Expect that all 8 will be deleted at shutdown, regardless of
   // locked/unlocked state.
   for (int i = 1; i <= 8; ++i) {
     if (i % 2) {
       ExpectUnlockedTextureDeletion(i);
     } else {
       ExpectTextureDeletion(i);
     }
   }

   // Let the test shut down, the expectations should be fulfilled.
 }

 TEST_F(ServiceDiscardableManagerTest, UnlockInvalid) {
   const GLuint kClientId = 1;
   gles2::TextureRef* texture_to_unbind;
   EXPECT_FALSE(discardable_manager_.UnlockTexture(kClientId, texture_manager_,
                                                   &texture_to_unbind));
   EXPECT_EQ(nullptr, texture_to_unbind);
 }

 TEST_F(ServiceDiscardableManagerTest, Limits) {
   // Size textures so that four fit in the discardable manager.
   const size_t cache_size_limit = 4 * 1024 * 1024;
   const size_t texture_size = cache_size_limit / 4;
   const size_t large_texture_size = 3 * texture_size;

   discardable_manager_.SetCacheSizeLimitForTesting(cache_size_limit);

   // Create 4 textures, this should fill up the discardable cache.
   for (int i = 1; i < 5; ++i) {
     texture_manager_->CreateTexture(i, i);
     auto handle = CreateLockedServiceHandleForTesting();
     discardable_manager_.InsertLockedTexture(i, texture_size, texture_manager_,
                                              handle);
   }

   gles2::TextureRef* texture_to_unbind;
   EXPECT_TRUE(discardable_manager_.UnlockTexture(3, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_TRUE(discardable_manager_.UnlockTexture(1, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_TRUE(discardable_manager_.UnlockTexture(2, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_TRUE(discardable_manager_.UnlockTexture(4, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);

   // Allocate four more textures - the previous 4 should be evicted / deleted in
   // LRU order.
   {
     InSequence s;
     ExpectUnlockedTextureDeletion(3);
     ExpectUnlockedTextureDeletion(1);
     ExpectUnlockedTextureDeletion(2);
     ExpectUnlockedTextureDeletion(4);
   }

   for (int i = 5; i < 9; ++i) {
     texture_manager_->CreateTexture(i, i);
     auto handle = CreateLockedServiceHandleForTesting();
     discardable_manager_.InsertLockedTexture(i, texture_size, texture_manager_,
                                              handle);
   }

   // Ensure that the above expectations are handled by this point.
   Mock::VerifyAndClearExpectations(gl_.get());
   Mock::VerifyAndClearExpectations(&destruction_observer_);

   // Unlock the next four textures:
   EXPECT_TRUE(discardable_manager_.UnlockTexture(5, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_TRUE(discardable_manager_.UnlockTexture(6, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_TRUE(discardable_manager_.UnlockTexture(8, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_TRUE(discardable_manager_.UnlockTexture(7, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);

   // Allocate one more *large* texture, it should evict the LRU 3 textures.
   {
     InSequence s;
     ExpectUnlockedTextureDeletion(5);
     ExpectUnlockedTextureDeletion(6);
     ExpectUnlockedTextureDeletion(8);
   }

   texture_manager_->CreateTexture(9, 9);
   auto handle = CreateLockedServiceHandleForTesting();
   discardable_manager_.InsertLockedTexture(9, large_texture_size,
                                            texture_manager_, handle);

   // Expect the two remaining textures to clean up.
   ExpectTextureDeletion(9);
   ExpectUnlockedTextureDeletion(7);
 }

 TEST_F(ServiceDiscardableManagerTest, TextureSizeChanged) {
   const GLuint kClientId = 1;
   const GLuint kServiceId = 2;

   texture_manager_->CreateTexture(kClientId, kServiceId);
   TextureRef* texture_ref = texture_manager_->GetTexture(kClientId);
   auto handle = CreateLockedServiceHandleForTesting();
   discardable_manager_.InsertLockedTexture(kClientId, 0, texture_manager_,
                                            handle);
   EXPECT_EQ(0u, discardable_manager_.TotalSizeForTesting());
   texture_manager_->SetTarget(texture_ref, GL_TEXTURE_2D);
   texture_manager_->SetLevelInfo(texture_ref, GL_TEXTURE_2D, 0, GL_RGBA,
                                  kSmallTextureDim, kSmallTextureDim, 1, 0,
                                  GL_RGBA, GL_UNSIGNED_BYTE,
                                  gfx::Rect(kSmallTextureDim, kSmallTextureDim));
   EXPECT_EQ(kSmallTextureSize, discardable_manager_.TotalSizeForTesting());

   ExpectTextureDeletion(kClientId);
 }

 TEST_F(ServiceDiscardableManagerTest, OwnershipOnUnlock) {
   const GLuint kClientId = 1;
   const GLuint kServiceId = 2;

   std::unique_ptr<ServiceDiscardableHandle> service_handle;
   std::unique_ptr<ClientDiscardableHandle> client_handle;
   CreateLockedHandlesForTesting(&service_handle, &client_handle);
   texture_manager_->CreateTexture(kClientId, kServiceId);
   discardable_manager_.InsertLockedTexture(kClientId, kSmallTextureSize,
                                            texture_manager_, *service_handle);

   // Ensure that the service ref count is used to determine ownership changes.
   client_handle->Lock();
   TextureRef* texture_to_unbind;
   discardable_manager_.UnlockTexture(kClientId, texture_manager_,
                                      &texture_to_unbind);
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_TRUE(discardable_manager_.IsEntryLockedForTesting(kClientId,
                                                            texture_manager_));

   // Get the counts back in sync.
   discardable_manager_.LockTexture(kClientId, texture_manager_);
   discardable_manager_.UnlockTexture(kClientId, texture_manager_,
                                      &texture_to_unbind);
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_FALSE(discardable_manager_.IsEntryLockedForTesting(kClientId,
                                                             texture_manager_));

   // Re-lock the texture twice.
   client_handle->Lock();
   discardable_manager_.LockTexture(kClientId, texture_manager_);
   client_handle->Lock();
   discardable_manager_.LockTexture(kClientId, texture_manager_);

   // Ensure that unlocking once doesn't cause us to unbind the texture.
   discardable_manager_.UnlockTexture(kClientId, texture_manager_,
                                      &texture_to_unbind);
   EXPECT_EQ(nullptr, texture_to_unbind);
   EXPECT_TRUE(discardable_manager_.IsEntryLockedForTesting(kClientId,
                                                            texture_manager_));

   // The second unlock should unbind/unlock the texture.
   discardable_manager_.UnlockTexture(kClientId, texture_manager_,
                                      &texture_to_unbind);
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_FALSE(discardable_manager_.IsEntryLockedForTesting(kClientId,
                                                             texture_manager_));

   ExpectUnlockedTextureDeletion(kClientId);
 }

 TEST_F(ServiceDiscardableManagerTest, BindGeneratedTextureLock) {
   const GLuint kClientId = 1;
   const GLuint kServiceId = 2;
   const GLuint kGeneratedServiceId = 3;

   // Create and insert a new texture.
   texture_manager_->CreateTexture(kClientId, kServiceId);
   auto handle = CreateLockedServiceHandleForTesting();
   discardable_manager_.InsertLockedTexture(kClientId, kSmallTextureSize,
                                            texture_manager_, handle);

   // Unlock the texture, ServiceDiscardableManager should take ownership of the
   // TextureRef.
   gles2::TextureRef* texture_to_unbind;
   EXPECT_TRUE(discardable_manager_.UnlockTexture(kClientId, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_EQ(nullptr, texture_manager_->GetTexture(kClientId));

   // Generate a new texture for the given client id, similar to "bind generates
   // resource" behavior.
   texture_manager_->CreateTexture(kClientId, kGeneratedServiceId);
   TextureRef* generated_texture_ref = texture_manager_->GetTexture(kClientId);

   // Re-lock the texture, the TextureManager should delete the returned
   // texture and keep the generated one.
   ExpectUnlockedTextureDeletion(kClientId);
   discardable_manager_.LockTexture(kClientId, texture_manager_);
   EXPECT_EQ(generated_texture_ref, texture_manager_->GetTexture(kClientId));

   // Delete the texture from the TextureManager, it should also be removed from
   // the ServiceDiscardableManager.
   ExpectTextureDeletion(kClientId);
   texture_manager_->RemoveTexture(kClientId);
   EXPECT_EQ(0u, discardable_manager_.NumCacheEntriesForTesting());
 }

 TEST_F(ServiceDiscardableManagerTest, BindGeneratedTextureInitialization) {
   const GLuint kClientId = 1;
   const GLuint kServiceId = 2;
   const GLuint kGeneratedServiceId = 3;

   // Create and insert a new texture.
   texture_manager_->CreateTexture(kClientId, kServiceId);
   auto handle = CreateLockedServiceHandleForTesting();
   discardable_manager_.InsertLockedTexture(kClientId, kSmallTextureSize,
                                            texture_manager_, handle);

   // Unlock the texture, ServiceDiscardableManager should take ownership of the
   // TextureRef.
   gles2::TextureRef* texture_to_unbind;
   EXPECT_TRUE(discardable_manager_.UnlockTexture(kClientId, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_EQ(nullptr, texture_manager_->GetTexture(kClientId));

   // Generate a new texture for the given client id, similar to "bind generates
   // resource" behavior.
   texture_manager_->CreateTexture(kClientId, kGeneratedServiceId);
   TextureRef* generated_texture_ref = texture_manager_->GetTexture(kClientId);

   // Re-initialize the texture, the TextureManager should delete the old
   // texture and keep the generated one.
   ExpectUnlockedTextureDeletion(kClientId);
   discardable_manager_.InsertLockedTexture(kClientId, kSmallTextureSize,
                                            texture_manager_, handle);
   EXPECT_EQ(generated_texture_ref, texture_manager_->GetTexture(kClientId));

   ExpectTextureDeletion(kClientId);
 }

 TEST_F(ServiceDiscardableManagerTest, BindGeneratedTextureSizeChange) {
   const GLuint kClientId = 1;
   const GLuint kServiceId = 2;
   const GLuint kGeneratedServiceId = 3;

   // Create and insert a new texture.
   texture_manager_->CreateTexture(kClientId, kServiceId);
   auto handle = CreateLockedServiceHandleForTesting();
   discardable_manager_.InsertLockedTexture(kClientId, 0, texture_manager_,
                                            handle);

   // Unlock the texture, ServiceDiscardableManager should take ownership of the
   // TextureRef.
   gles2::TextureRef* texture_to_unbind;
   EXPECT_TRUE(discardable_manager_.UnlockTexture(kClientId, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_EQ(nullptr, texture_manager_->GetTexture(kClientId));

   // Generate a new texture for the given client id, similar to "bind generates
   // resource" behavior.
   texture_manager_->CreateTexture(kClientId, kGeneratedServiceId);
   TextureRef* generated_texture_ref = texture_manager_->GetTexture(kClientId);

   // Re-size the generated texture. The tracked size should update.
   EXPECT_EQ(0u, discardable_manager_.TotalSizeForTesting());
   texture_manager_->SetTarget(generated_texture_ref, GL_TEXTURE_2D);
   texture_manager_->SetLevelInfo(generated_texture_ref, GL_TEXTURE_2D, 0,
                                  GL_RGBA, kSmallTextureDim, kSmallTextureDim, 1,
                                  0, GL_RGBA, GL_UNSIGNED_BYTE,
                                  gfx::Rect(kSmallTextureDim, kSmallTextureDim));
   EXPECT_EQ(kSmallTextureSize, discardable_manager_.TotalSizeForTesting());

   ExpectUnlockedTextureDeletion(kClientId);
   ExpectTextureDeletion(kClientId);
 }

 TEST_F(ServiceDiscardableManagerTest, MemoryPressure) {
   // Size textures so that four fit in the discardable manager.
   const size_t cache_size_limit = 4 * 1024 * 1024;
   const size_t texture_size = cache_size_limit / 4;

   discardable_manager_.SetCacheSizeLimitForTesting(cache_size_limit);

   // Create 4 textures, this should fill up the discardable cache.
   for (int i = 1; i < 5; ++i) {
     texture_manager_->CreateTexture(i, i);
     auto handle = CreateLockedServiceHandleForTesting();
     discardable_manager_.InsertLockedTexture(i, texture_size, texture_manager_,
                                              handle);
   }

   // A memory pressure call should have no impact, as all textures are locked.
   discardable_manager_.HandleMemoryPressure(
       base::MemoryPressureListener::MEMORY_PRESSURE_LEVEL_CRITICAL);

   // Unlock one texture.
   gles2::TextureRef* texture_to_unbind;
   EXPECT_TRUE(discardable_manager_.UnlockTexture(3, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);

   // Send memory pressure critical again - this should delete the unlocked
   // texture, but not the others.
   ExpectUnlockedTextureDeletion(3);
   discardable_manager_.HandleMemoryPressure(
       base::MemoryPressureListener::MEMORY_PRESSURE_LEVEL_CRITICAL);

   // Unlock the remaining textures
   EXPECT_TRUE(discardable_manager_.UnlockTexture(1, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_TRUE(discardable_manager_.UnlockTexture(2, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);
   EXPECT_TRUE(discardable_manager_.UnlockTexture(4, texture_manager_,
                                                  &texture_to_unbind));
   EXPECT_NE(nullptr, texture_to_unbind);

   // Send memory pressure moderate - this should delete all but one texture
   // (cache is capped at 1/4 size).
   {
     InSequence s;
     ExpectUnlockedTextureDeletion(1);
     ExpectUnlockedTextureDeletion(2);
   }
   discardable_manager_.HandleMemoryPressure(
       base::MemoryPressureListener::MEMORY_PRESSURE_LEVEL_MODERATE);

   // Send memory pressure critical again - this should delete the remaining
   // textures.
   ExpectUnlockedTextureDeletion(4);
   discardable_manager_.HandleMemoryPressure(
       base::MemoryPressureListener::MEMORY_PRESSURE_LEVEL_CRITICAL);
 }

 }  // namespace gles2
 }  // namespace gpu
	// Copyright (c) 2017 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.

	#include "gpu/command_buffer/service/service_discardable_manager.h"

	#include "gpu/command_buffer/client/client_test_helper.h"
	#include "gpu/command_buffer/service/gles2_cmd_decoder_mock.h"
	#include "gpu/command_buffer/service/gpu_service_test.h"
	#include "gpu/command_buffer/service/gpu_tracer.h"
	#include "gpu/command_buffer/service/image_manager.h"
	#include "gpu/command_buffer/service/mailbox_manager_impl.h"
	#include "gpu/command_buffer/service/memory_tracking.h"
	#include "gpu/command_buffer/service/mocks.h"
	#include "gpu/command_buffer/service/shared_image_manager.h"
	#include "gpu/command_buffer/service/test_helper.h"
	#include "gpu/command_buffer/service/texture_manager.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "ui/gl/gl_image_stub.h"
	#include "ui/gl/gl_mock.h"
	#include "ui/gl/gl_switches.h"

	using ::testing::Pointee;
	using ::testing::_;
	using ::testing::Invoke;
	using ::testing::Mock;
	using ::testing::InSequence;

	namespace gpu {
	namespace gles2 {
	namespace {

	void CreateLockedHandlesForTesting(
	std::unique_ptr<ServiceDiscardableHandle>* service_handle,
	std::unique_ptr<ClientDiscardableHandle>* client_handle) {
	const size_t kShmemSize = sizeof(uint32_t);
	base::UnsafeSharedMemoryRegion shared_mem =
	base::UnsafeSharedMemoryRegion::Create(kShmemSize);
	base::WritableSharedMemoryMapping shared_mem_mapping = shared_mem.Map();
	scoped_refptr<gpu::Buffer> buffer = MakeBufferFromSharedMemory(
	std::move(shared_mem), std::move(shared_mem_mapping));

	client_handle->reset(new ClientDiscardableHandle(buffer, 0, 0));
	service_handle->reset(new ServiceDiscardableHandle(buffer, 0, 0));
	}

	ServiceDiscardableHandle CreateLockedServiceHandleForTesting() {
	std::unique_ptr<ServiceDiscardableHandle> service_handle;
	std::unique_ptr<ClientDiscardableHandle> client_handle;
	CreateLockedHandlesForTesting(&service_handle, &client_handle);
	return *service_handle;
	}

	class MockDestructionObserver : public TextureManager::DestructionObserver {
	public:
	MOCK_METHOD1(OnTextureManagerDestroying, void(TextureManager* manager));
	MOCK_METHOD1(OnTextureRefDestroying, void(TextureRef* ref));
	};

	// A small texture that should never run up against our limits.
	static const uint32_t kSmallTextureDim = 16;
	static const size_t kSmallTextureSize = 4 * kSmallTextureDim * kSmallTextureDim;

	} // namespace

	class ServiceDiscardableManagerTest : public GpuServiceTest {
	public:
	ServiceDiscardableManagerTest() = default;
	~ServiceDiscardableManagerTest() override = default;

	protected:
	void SetUp() override {
	GpuServiceTest::SetUp();
	decoder_.reset(new MockGLES2Decoder(&command_buffer_service_, &outputter_));
	feature_info_ = new FeatureInfo();
	context_group_ = scoped_refptr<ContextGroup>(new ContextGroup(
	gpu_preferences_, false, &mailbox_manager_, nullptr, nullptr, nullptr,
	feature_info_, false, &image_manager_, nullptr, nullptr,
	GpuFeatureInfo(), &discardable_manager_, nullptr,
	&shared_image_manager_));
	TestHelper::SetupContextGroupInitExpectations(
	gl_.get(), DisallowedFeatures(), "", "", CONTEXT_TYPE_OPENGLES2, false);
	context_group_->Initialize(decoder_.get(), CONTEXT_TYPE_OPENGLES2,
	DisallowedFeatures());
	texture_manager_ = context_group_->texture_manager();
	texture_manager_->AddObserver(&destruction_observer_);
	}

	void TearDown() override {
	EXPECT_CALL(destruction_observer_, OnTextureManagerDestroying(_))
	.RetiresOnSaturation();
	// Texture manager will destroy the 6 black/default textures.
	EXPECT_CALL(*gl_, DeleteTextures(TextureManager::kNumDefaultTextures, _));

	context_group_->Destroy(decoder_.get(), true);
	context_group_ = nullptr;
	EXPECT_EQ(0u, discardable_manager_.NumCacheEntriesForTesting());
	GpuServiceTest::TearDown();
	}

	void ExpectUnlockedTextureDeletion(uint32_t client_id) {
	TextureRef* ref = discardable_manager_.UnlockedTextureRefForTesting(
	client_id, texture_manager_);
	ExpectTextureRefDeletion(ref);
	}

	void ExpectTextureDeletion(uint32_t client_id) {
	TextureRef* ref = texture_manager_->GetTexture(client_id);
	ExpectTextureRefDeletion(ref);
	}

	void ExpectTextureRefDeletion(TextureRef* ref) {
	EXPECT_NE(nullptr, ref);
	ref->AddObserver();
	EXPECT_CALL(destruction_observer_, OnTextureRefDestroying(ref))
	.WillOnce(Invoke([](TextureRef* ref) { ref->RemoveObserver(); }));
	EXPECT_CALL(*gl_, DeleteTextures(1, Pointee(ref->service_id())))
	.RetiresOnSaturation();
	}

	MailboxManagerImpl mailbox_manager_;
	TraceOutputter outputter_;
	ImageManager image_manager_;
	ServiceDiscardableManager discardable_manager_;
	SharedImageManager shared_image_manager_;
	GpuPreferences gpu_preferences_;
	scoped_refptr<FeatureInfo> feature_info_;
	MockDestructionObserver destruction_observer_;
	TextureManager* texture_manager_;
	FakeCommandBufferServiceBase command_buffer_service_;
	std::unique_ptr<MockGLES2Decoder> decoder_;
	scoped_refptr<gles2::ContextGroup> context_group_;
	};

	TEST_F(ServiceDiscardableManagerTest, BasicUsage) {
	const GLuint kClientId = 1;
	const GLuint kServiceId = 2;

	// Create and insert a new texture.
	texture_manager_->CreateTexture(kClientId, kServiceId);
	auto handle = CreateLockedServiceHandleForTesting();
	discardable_manager_.InsertLockedTexture(kClientId, kSmallTextureSize,
	texture_manager_, handle);
	EXPECT_EQ(1u, discardable_manager_.NumCacheEntriesForTesting());
	EXPECT_TRUE(discardable_manager_.IsEntryLockedForTesting(kClientId,
	texture_manager_));
	EXPECT_NE(nullptr, texture_manager_->GetTexture(kClientId));

	// Unlock the texture, ServiceDiscardableManager should take ownership of the
	// TextureRef.
	gles2::TextureRef* texture_to_unbind;
	EXPECT_TRUE(discardable_manager_.UnlockTexture(kClientId, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_FALSE(discardable_manager_.IsEntryLockedForTesting(kClientId,
	texture_manager_));
	EXPECT_EQ(nullptr, texture_manager_->GetTexture(kClientId));

	// Re-lock the texture, the TextureManager should now resume ownership of
	// the TextureRef.
	discardable_manager_.LockTexture(kClientId, texture_manager_);
	EXPECT_NE(nullptr, texture_manager_->GetTexture(kClientId));

	// Delete the texture from the TextureManager, it should also be removed from
	// the ServiceDiscardableManager.
	ExpectTextureDeletion(kClientId);
	texture_manager_->RemoveTexture(kClientId);
	EXPECT_EQ(0u, discardable_manager_.NumCacheEntriesForTesting());
	}

	TEST_F(ServiceDiscardableManagerTest, DeleteAtShutdown) {
	// Create 8 small textures (which will not hit memory limits), leaving every
	// other one unlocked.
	for (int i = 1; i <= 8; ++i) {
	texture_manager_->CreateTexture(i, i);
	auto handle = CreateLockedServiceHandleForTesting();
	discardable_manager_.InsertLockedTexture(i, kSmallTextureSize,
	texture_manager_, handle);
	if (i % 2) {
	TextureRef* texture_to_unbind;
	EXPECT_TRUE(discardable_manager_.UnlockTexture(i, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	}
	}

	// Expect that all 8 will be deleted at shutdown, regardless of
	// locked/unlocked state.
	for (int i = 1; i <= 8; ++i) {
	if (i % 2) {
	ExpectUnlockedTextureDeletion(i);
	} else {
	ExpectTextureDeletion(i);
	}
	}

	// Let the test shut down, the expectations should be fulfilled.
	}

	TEST_F(ServiceDiscardableManagerTest, UnlockInvalid) {
	const GLuint kClientId = 1;
	gles2::TextureRef* texture_to_unbind;
	EXPECT_FALSE(discardable_manager_.UnlockTexture(kClientId, texture_manager_,
	&texture_to_unbind));
	EXPECT_EQ(nullptr, texture_to_unbind);
	}

	TEST_F(ServiceDiscardableManagerTest, Limits) {
	// Size textures so that four fit in the discardable manager.
	const size_t cache_size_limit = 4 * 1024 * 1024;
	const size_t texture_size = cache_size_limit / 4;
	const size_t large_texture_size = 3 * texture_size;

	discardable_manager_.SetCacheSizeLimitForTesting(cache_size_limit);

	// Create 4 textures, this should fill up the discardable cache.
	for (int i = 1; i < 5; ++i) {
	texture_manager_->CreateTexture(i, i);
	auto handle = CreateLockedServiceHandleForTesting();
	discardable_manager_.InsertLockedTexture(i, texture_size, texture_manager_,
	handle);
	}

	gles2::TextureRef* texture_to_unbind;
	EXPECT_TRUE(discardable_manager_.UnlockTexture(3, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_TRUE(discardable_manager_.UnlockTexture(1, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_TRUE(discardable_manager_.UnlockTexture(2, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_TRUE(discardable_manager_.UnlockTexture(4, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);

	// Allocate four more textures - the previous 4 should be evicted / deleted in
	// LRU order.
	{
	InSequence s;
	ExpectUnlockedTextureDeletion(3);
	ExpectUnlockedTextureDeletion(1);
	ExpectUnlockedTextureDeletion(2);
	ExpectUnlockedTextureDeletion(4);
	}

	for (int i = 5; i < 9; ++i) {
	texture_manager_->CreateTexture(i, i);
	auto handle = CreateLockedServiceHandleForTesting();
	discardable_manager_.InsertLockedTexture(i, texture_size, texture_manager_,
	handle);
	}

	// Ensure that the above expectations are handled by this point.
	Mock::VerifyAndClearExpectations(gl_.get());
	Mock::VerifyAndClearExpectations(&destruction_observer_);

	// Unlock the next four textures:
	EXPECT_TRUE(discardable_manager_.UnlockTexture(5, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_TRUE(discardable_manager_.UnlockTexture(6, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_TRUE(discardable_manager_.UnlockTexture(8, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_TRUE(discardable_manager_.UnlockTexture(7, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);

	// Allocate one more large texture, it should evict the LRU 3 textures.
	{
	InSequence s;
	ExpectUnlockedTextureDeletion(5);
	ExpectUnlockedTextureDeletion(6);
	ExpectUnlockedTextureDeletion(8);
	}

	texture_manager_->CreateTexture(9, 9);
	auto handle = CreateLockedServiceHandleForTesting();
	discardable_manager_.InsertLockedTexture(9, large_texture_size,
	texture_manager_, handle);

	// Expect the two remaining textures to clean up.
	ExpectTextureDeletion(9);
	ExpectUnlockedTextureDeletion(7);
	}

	TEST_F(ServiceDiscardableManagerTest, TextureSizeChanged) {
	const GLuint kClientId = 1;
	const GLuint kServiceId = 2;

	texture_manager_->CreateTexture(kClientId, kServiceId);
	TextureRef* texture_ref = texture_manager_->GetTexture(kClientId);
	auto handle = CreateLockedServiceHandleForTesting();
	discardable_manager_.InsertLockedTexture(kClientId, 0, texture_manager_,
	handle);
	EXPECT_EQ(0u, discardable_manager_.TotalSizeForTesting());
	texture_manager_->SetTarget(texture_ref, GL_TEXTURE_2D);
	texture_manager_->SetLevelInfo(texture_ref, GL_TEXTURE_2D, 0, GL_RGBA,
	kSmallTextureDim, kSmallTextureDim, 1, 0,
	GL_RGBA, GL_UNSIGNED_BYTE,
	gfx::Rect(kSmallTextureDim, kSmallTextureDim));
	EXPECT_EQ(kSmallTextureSize, discardable_manager_.TotalSizeForTesting());

	ExpectTextureDeletion(kClientId);
	}

	TEST_F(ServiceDiscardableManagerTest, OwnershipOnUnlock) {
	const GLuint kClientId = 1;
	const GLuint kServiceId = 2;

	std::unique_ptr<ServiceDiscardableHandle> service_handle;
	std::unique_ptr<ClientDiscardableHandle> client_handle;
	CreateLockedHandlesForTesting(&service_handle, &client_handle);
	texture_manager_->CreateTexture(kClientId, kServiceId);
	discardable_manager_.InsertLockedTexture(kClientId, kSmallTextureSize,
	texture_manager_, *service_handle);

	// Ensure that the service ref count is used to determine ownership changes.
	client_handle->Lock();
	TextureRef* texture_to_unbind;
	discardable_manager_.UnlockTexture(kClientId, texture_manager_,
	&texture_to_unbind);
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_TRUE(discardable_manager_.IsEntryLockedForTesting(kClientId,
	texture_manager_));

	// Get the counts back in sync.
	discardable_manager_.LockTexture(kClientId, texture_manager_);
	discardable_manager_.UnlockTexture(kClientId, texture_manager_,
	&texture_to_unbind);
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_FALSE(discardable_manager_.IsEntryLockedForTesting(kClientId,
	texture_manager_));

	// Re-lock the texture twice.
	client_handle->Lock();
	discardable_manager_.LockTexture(kClientId, texture_manager_);
	client_handle->Lock();
	discardable_manager_.LockTexture(kClientId, texture_manager_);

	// Ensure that unlocking once doesn't cause us to unbind the texture.
	discardable_manager_.UnlockTexture(kClientId, texture_manager_,
	&texture_to_unbind);
	EXPECT_EQ(nullptr, texture_to_unbind);
	EXPECT_TRUE(discardable_manager_.IsEntryLockedForTesting(kClientId,
	texture_manager_));

	// The second unlock should unbind/unlock the texture.
	discardable_manager_.UnlockTexture(kClientId, texture_manager_,
	&texture_to_unbind);
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_FALSE(discardable_manager_.IsEntryLockedForTesting(kClientId,
	texture_manager_));

	ExpectUnlockedTextureDeletion(kClientId);
	}

	TEST_F(ServiceDiscardableManagerTest, BindGeneratedTextureLock) {
	const GLuint kClientId = 1;
	const GLuint kServiceId = 2;
	const GLuint kGeneratedServiceId = 3;

	// Create and insert a new texture.
	texture_manager_->CreateTexture(kClientId, kServiceId);
	auto handle = CreateLockedServiceHandleForTesting();
	discardable_manager_.InsertLockedTexture(kClientId, kSmallTextureSize,
	texture_manager_, handle);

	// Unlock the texture, ServiceDiscardableManager should take ownership of the
	// TextureRef.
	gles2::TextureRef* texture_to_unbind;
	EXPECT_TRUE(discardable_manager_.UnlockTexture(kClientId, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_EQ(nullptr, texture_manager_->GetTexture(kClientId));

	// Generate a new texture for the given client id, similar to "bind generates
	// resource" behavior.
	texture_manager_->CreateTexture(kClientId, kGeneratedServiceId);
	TextureRef* generated_texture_ref = texture_manager_->GetTexture(kClientId);

	// Re-lock the texture, the TextureManager should delete the returned
	// texture and keep the generated one.
	ExpectUnlockedTextureDeletion(kClientId);
	discardable_manager_.LockTexture(kClientId, texture_manager_);
	EXPECT_EQ(generated_texture_ref, texture_manager_->GetTexture(kClientId));

	// Delete the texture from the TextureManager, it should also be removed from
	// the ServiceDiscardableManager.
	ExpectTextureDeletion(kClientId);
	texture_manager_->RemoveTexture(kClientId);
	EXPECT_EQ(0u, discardable_manager_.NumCacheEntriesForTesting());
	}

	TEST_F(ServiceDiscardableManagerTest, BindGeneratedTextureInitialization) {
	const GLuint kClientId = 1;
	const GLuint kServiceId = 2;
	const GLuint kGeneratedServiceId = 3;

	// Create and insert a new texture.
	texture_manager_->CreateTexture(kClientId, kServiceId);
	auto handle = CreateLockedServiceHandleForTesting();
	discardable_manager_.InsertLockedTexture(kClientId, kSmallTextureSize,
	texture_manager_, handle);

	// Unlock the texture, ServiceDiscardableManager should take ownership of the
	// TextureRef.
	gles2::TextureRef* texture_to_unbind;
	EXPECT_TRUE(discardable_manager_.UnlockTexture(kClientId, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_EQ(nullptr, texture_manager_->GetTexture(kClientId));

	// Generate a new texture for the given client id, similar to "bind generates
	// resource" behavior.
	texture_manager_->CreateTexture(kClientId, kGeneratedServiceId);
	TextureRef* generated_texture_ref = texture_manager_->GetTexture(kClientId);

	// Re-initialize the texture, the TextureManager should delete the old
	// texture and keep the generated one.
	ExpectUnlockedTextureDeletion(kClientId);
	discardable_manager_.InsertLockedTexture(kClientId, kSmallTextureSize,
	texture_manager_, handle);
	EXPECT_EQ(generated_texture_ref, texture_manager_->GetTexture(kClientId));

	ExpectTextureDeletion(kClientId);
	}

	TEST_F(ServiceDiscardableManagerTest, BindGeneratedTextureSizeChange) {
	const GLuint kClientId = 1;
	const GLuint kServiceId = 2;
	const GLuint kGeneratedServiceId = 3;

	// Create and insert a new texture.
	texture_manager_->CreateTexture(kClientId, kServiceId);
	auto handle = CreateLockedServiceHandleForTesting();
	discardable_manager_.InsertLockedTexture(kClientId, 0, texture_manager_,
	handle);

	// Unlock the texture, ServiceDiscardableManager should take ownership of the
	// TextureRef.
	gles2::TextureRef* texture_to_unbind;
	EXPECT_TRUE(discardable_manager_.UnlockTexture(kClientId, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_EQ(nullptr, texture_manager_->GetTexture(kClientId));

	// Generate a new texture for the given client id, similar to "bind generates
	// resource" behavior.
	texture_manager_->CreateTexture(kClientId, kGeneratedServiceId);
	TextureRef* generated_texture_ref = texture_manager_->GetTexture(kClientId);

	// Re-size the generated texture. The tracked size should update.
	EXPECT_EQ(0u, discardable_manager_.TotalSizeForTesting());
	texture_manager_->SetTarget(generated_texture_ref, GL_TEXTURE_2D);
	texture_manager_->SetLevelInfo(generated_texture_ref, GL_TEXTURE_2D, 0,
	GL_RGBA, kSmallTextureDim, kSmallTextureDim, 1,
	0, GL_RGBA, GL_UNSIGNED_BYTE,
	gfx::Rect(kSmallTextureDim, kSmallTextureDim));
	EXPECT_EQ(kSmallTextureSize, discardable_manager_.TotalSizeForTesting());

	ExpectUnlockedTextureDeletion(kClientId);
	ExpectTextureDeletion(kClientId);
	}

	TEST_F(ServiceDiscardableManagerTest, MemoryPressure) {
	// Size textures so that four fit in the discardable manager.
	const size_t cache_size_limit = 4 * 1024 * 1024;
	const size_t texture_size = cache_size_limit / 4;

	discardable_manager_.SetCacheSizeLimitForTesting(cache_size_limit);

	// Create 4 textures, this should fill up the discardable cache.
	for (int i = 1; i < 5; ++i) {
	texture_manager_->CreateTexture(i, i);
	auto handle = CreateLockedServiceHandleForTesting();
	discardable_manager_.InsertLockedTexture(i, texture_size, texture_manager_,
	handle);
	}

	// A memory pressure call should have no impact, as all textures are locked.
	discardable_manager_.HandleMemoryPressure(
	base::MemoryPressureListener::MEMORY_PRESSURE_LEVEL_CRITICAL);

	// Unlock one texture.
	gles2::TextureRef* texture_to_unbind;
	EXPECT_TRUE(discardable_manager_.UnlockTexture(3, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);

	// Send memory pressure critical again - this should delete the unlocked
	// texture, but not the others.
	ExpectUnlockedTextureDeletion(3);
	discardable_manager_.HandleMemoryPressure(
	base::MemoryPressureListener::MEMORY_PRESSURE_LEVEL_CRITICAL);

	// Unlock the remaining textures
	EXPECT_TRUE(discardable_manager_.UnlockTexture(1, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_TRUE(discardable_manager_.UnlockTexture(2, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);
	EXPECT_TRUE(discardable_manager_.UnlockTexture(4, texture_manager_,
	&texture_to_unbind));
	EXPECT_NE(nullptr, texture_to_unbind);

	// Send memory pressure moderate - this should delete all but one texture
	// (cache is capped at 1/4 size).
	{
	InSequence s;
	ExpectUnlockedTextureDeletion(1);
	ExpectUnlockedTextureDeletion(2);
	}
	discardable_manager_.HandleMemoryPressure(
	base::MemoryPressureListener::MEMORY_PRESSURE_LEVEL_MODERATE);

	// Send memory pressure critical again - this should delete the remaining
	// textures.
	ExpectUnlockedTextureDeletion(4);
	discardable_manager_.HandleMemoryPressure(
	base::MemoryPressureListener::MEMORY_PRESSURE_LEVEL_CRITICAL);
	}

	} // namespace gles2
	} // namespace gpu