// Copyright 2013 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 "cc/resources/raster_worker_pool.h" #include #include #include "base/cancelable_callback.h" #include "cc/resources/direct_raster_worker_pool.h" #include "cc/resources/image_copy_raster_worker_pool.h" #include "cc/resources/image_raster_worker_pool.h" #include "cc/resources/picture_pile.h" #include "cc/resources/picture_pile_impl.h" #include "cc/resources/pixel_buffer_raster_worker_pool.h" #include "cc/resources/rasterizer.h" #include "cc/resources/resource_pool.h" #include "cc/resources/resource_provider.h" #include "cc/resources/scoped_resource.h" #include "cc/test/fake_output_surface.h" #include "cc/test/fake_output_surface_client.h" #include "cc/test/test_shared_bitmap_manager.h" #include "cc/test/test_web_graphics_context_3d.h" #include "testing/gtest/include/gtest/gtest.h" namespace cc { namespace { enum RasterWorkerPoolType { RASTER_WORKER_POOL_TYPE_PIXEL_BUFFER, RASTER_WORKER_POOL_TYPE_IMAGE, RASTER_WORKER_POOL_TYPE_IMAGE_COPY, RASTER_WORKER_POOL_TYPE_DIRECT }; class TestRasterTaskImpl : public RasterTask { public: typedef base::Callback< void(const PicturePileImpl::Analysis& analysis, bool was_canceled)> Reply; TestRasterTaskImpl(const Resource* resource, const Reply& reply, ImageDecodeTask::Vector* dependencies) : RasterTask(resource, dependencies), reply_(reply) {} // Overridden from Task: virtual void RunOnWorkerThread() OVERRIDE {} // Overridden from RasterizerTask: virtual void ScheduleOnOriginThread(RasterizerTaskClient* client) OVERRIDE { client->AcquireCanvasForRaster(this); } virtual void CompleteOnOriginThread(RasterizerTaskClient* client) OVERRIDE { client->ReleaseCanvasForRaster(this); } virtual void RunReplyOnOriginThread() OVERRIDE { reply_.Run(PicturePileImpl::Analysis(), !HasFinishedRunning()); } protected: virtual ~TestRasterTaskImpl() {} private: const Reply reply_; DISALLOW_COPY_AND_ASSIGN(TestRasterTaskImpl); }; class BlockingTestRasterTaskImpl : public TestRasterTaskImpl { public: BlockingTestRasterTaskImpl(const Resource* resource, const Reply& reply, base::Lock* lock, ImageDecodeTask::Vector* dependencies) : TestRasterTaskImpl(resource, reply, dependencies), lock_(lock) {} // Overridden from Task: virtual void RunOnWorkerThread() OVERRIDE { base::AutoLock lock(*lock_); TestRasterTaskImpl::RunOnWorkerThread(); } // Overridden from RasterizerTask: virtual void RunReplyOnOriginThread() OVERRIDE {} protected: virtual ~BlockingTestRasterTaskImpl() {} private: base::Lock* lock_; DISALLOW_COPY_AND_ASSIGN(BlockingTestRasterTaskImpl); }; class RasterWorkerPoolTest : public testing::TestWithParam, public RasterizerClient { public: struct RasterTaskResult { unsigned id; bool canceled; }; typedef std::vector > RasterTaskVector; RasterWorkerPoolTest() : context_provider_(TestContextProvider::Create()), timeout_seconds_(5), timed_out_(false) { output_surface_ = FakeOutputSurface::Create3d(context_provider_).Pass(); CHECK(output_surface_->BindToClient(&output_surface_client_)); shared_bitmap_manager_.reset(new TestSharedBitmapManager()); resource_provider_ = ResourceProvider::Create( output_surface_.get(), shared_bitmap_manager_.get(), 0, false, 1, false).Pass(); staging_resource_pool_ = ResourcePool::Create( resource_provider_.get(), GL_TEXTURE_2D, RGBA_8888); switch (GetParam()) { case RASTER_WORKER_POOL_TYPE_PIXEL_BUFFER: raster_worker_pool_ = PixelBufferRasterWorkerPool::Create( base::MessageLoopProxy::current().get(), RasterWorkerPool::GetTaskGraphRunner(), resource_provider_.get(), std::numeric_limits::max()); break; case RASTER_WORKER_POOL_TYPE_IMAGE: raster_worker_pool_ = ImageRasterWorkerPool::Create( base::MessageLoopProxy::current().get(), RasterWorkerPool::GetTaskGraphRunner(), resource_provider_.get()); break; case RASTER_WORKER_POOL_TYPE_IMAGE_COPY: raster_worker_pool_ = ImageCopyRasterWorkerPool::Create( base::MessageLoopProxy::current().get(), RasterWorkerPool::GetTaskGraphRunner(), resource_provider_.get(), staging_resource_pool_.get()); break; case RASTER_WORKER_POOL_TYPE_DIRECT: raster_worker_pool_ = DirectRasterWorkerPool::Create( base::MessageLoopProxy::current().get(), resource_provider_.get(), context_provider_.get()); break; } DCHECK(raster_worker_pool_); raster_worker_pool_->AsRasterizer()->SetClient(this); } virtual ~RasterWorkerPoolTest() { staging_resource_pool_.reset(); resource_provider_.reset(); } // Overridden from testing::Test: virtual void TearDown() OVERRIDE { raster_worker_pool_->AsRasterizer()->Shutdown(); raster_worker_pool_->AsRasterizer()->CheckForCompletedTasks(); } // Overriden from RasterWorkerPoolClient: virtual bool ShouldForceTasksRequiredForActivationToComplete() const OVERRIDE { return false; } virtual void DidFinishRunningTasks() OVERRIDE { raster_worker_pool_->AsRasterizer()->CheckForCompletedTasks(); base::MessageLoop::current()->Quit(); } virtual void DidFinishRunningTasksRequiredForActivation() OVERRIDE {} void RunMessageLoopUntilAllTasksHaveCompleted() { if (timeout_seconds_) { timeout_.Reset( base::Bind(&RasterWorkerPoolTest::OnTimeout, base::Unretained(this))); base::MessageLoopProxy::current()->PostDelayedTask( FROM_HERE, timeout_.callback(), base::TimeDelta::FromSeconds(timeout_seconds_)); } base::MessageLoop::current()->Run(); timeout_.Cancel(); ASSERT_FALSE(timed_out_) << "Test timed out"; } void ScheduleTasks() { RasterTaskQueue queue; for (RasterTaskVector::const_iterator it = tasks_.begin(); it != tasks_.end(); ++it) queue.items.push_back(RasterTaskQueue::Item(*it, false)); raster_worker_pool_->AsRasterizer()->ScheduleTasks(&queue); } void AppendTask(unsigned id) { const gfx::Size size(1, 1); scoped_ptr resource( ScopedResource::Create(resource_provider_.get())); resource->Allocate(size, ResourceProvider::TextureUsageAny, RGBA_8888); const Resource* const_resource = resource.get(); ImageDecodeTask::Vector empty; tasks_.push_back(new TestRasterTaskImpl( const_resource, base::Bind(&RasterWorkerPoolTest::OnTaskCompleted, base::Unretained(this), base::Passed(&resource), id), &empty)); } void AppendBlockingTask(unsigned id, base::Lock* lock) { const gfx::Size size(1, 1); scoped_ptr resource( ScopedResource::Create(resource_provider_.get())); resource->Allocate(size, ResourceProvider::TextureUsageAny, RGBA_8888); const Resource* const_resource = resource.get(); ImageDecodeTask::Vector empty; tasks_.push_back(new BlockingTestRasterTaskImpl( const_resource, base::Bind(&RasterWorkerPoolTest::OnTaskCompleted, base::Unretained(this), base::Passed(&resource), id), lock, &empty)); } const std::vector& completed_tasks() const { return completed_tasks_; } private: void OnTaskCompleted(scoped_ptr resource, unsigned id, const PicturePileImpl::Analysis& analysis, bool was_canceled) { RasterTaskResult result; result.id = id; result.canceled = was_canceled; completed_tasks_.push_back(result); } void OnTimeout() { timed_out_ = true; base::MessageLoop::current()->Quit(); } protected: scoped_refptr context_provider_; FakeOutputSurfaceClient output_surface_client_; scoped_ptr output_surface_; scoped_ptr shared_bitmap_manager_; scoped_ptr resource_provider_; scoped_ptr staging_resource_pool_; scoped_ptr raster_worker_pool_; base::CancelableClosure timeout_; int timeout_seconds_; bool timed_out_; RasterTaskVector tasks_; std::vector completed_tasks_; }; TEST_P(RasterWorkerPoolTest, Basic) { AppendTask(0u); AppendTask(1u); ScheduleTasks(); RunMessageLoopUntilAllTasksHaveCompleted(); ASSERT_EQ(2u, completed_tasks().size()); EXPECT_FALSE(completed_tasks()[0].canceled); EXPECT_FALSE(completed_tasks()[1].canceled); } TEST_P(RasterWorkerPoolTest, FailedMapResource) { TestWebGraphicsContext3D* context3d = context_provider_->TestContext3d(); context3d->set_times_map_image_chromium_succeeds(0); context3d->set_times_map_buffer_chromium_succeeds(0); AppendTask(0u); ScheduleTasks(); RunMessageLoopUntilAllTasksHaveCompleted(); ASSERT_EQ(1u, completed_tasks().size()); EXPECT_FALSE(completed_tasks()[0].canceled); } // This test checks that replacing a pending raster task with another does // not prevent the DidFinishRunningTasks notification from being sent. TEST_P(RasterWorkerPoolTest, FalseThrottling) { base::Lock lock; // Schedule a task that is prevented from completing with a lock. lock.Acquire(); AppendBlockingTask(0u, &lock); ScheduleTasks(); // Schedule another task to replace the still-pending task. Because the old // task is not a throttled task in the new task set, it should not prevent // DidFinishRunningTasks from getting signaled. RasterTaskVector tasks; tasks.swap(tasks_); AppendTask(1u); ScheduleTasks(); // Unblock the first task to allow the second task to complete. lock.Release(); RunMessageLoopUntilAllTasksHaveCompleted(); } INSTANTIATE_TEST_CASE_P(RasterWorkerPoolTests, RasterWorkerPoolTest, ::testing::Values(RASTER_WORKER_POOL_TYPE_PIXEL_BUFFER, RASTER_WORKER_POOL_TYPE_IMAGE, RASTER_WORKER_POOL_TYPE_IMAGE_COPY, RASTER_WORKER_POOL_TYPE_DIRECT)); } // namespace } // namespace cc