// Copyright 2013 The Flutter Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #define FML_USED_ON_EMBEDDER #include "flutter/shell/common/shell_test.h" #include "flutter/flow/layers/layer_tree.h" #include "flutter/flow/layers/transform_layer.h" #include "flutter/fml/make_copyable.h" #include "flutter/fml/mapping.h" #include "flutter/runtime/dart_vm.h" #include "flutter/shell/gpu/gpu_surface_gl.h" #include "flutter/testing/testing.h" namespace flutter { namespace testing { ShellTest::ShellTest() : native_resolver_(std::make_shared()) {} ShellTest::~ShellTest() = default; void ShellTest::SendEnginePlatformMessage( Shell* shell, fml::RefPtr message) { fml::AutoResetWaitableEvent latch; fml::TaskRunner::RunNowOrPostTask( shell->GetTaskRunners().GetPlatformTaskRunner(), [shell, &latch, message = std::move(message)]() { if (auto engine = shell->weak_engine_) { engine->HandlePlatformMessage(std::move(message)); } latch.Signal(); }); latch.Wait(); } void ShellTest::SetSnapshotsAndAssets(Settings& settings) { if (!assets_dir_.is_valid()) { return; } settings.assets_dir = assets_dir_.get(); // In JIT execution, all snapshots are present within the binary itself and // don't need to be explicitly suppiled by the embedder. if (DartVM::IsRunningPrecompiledCode()) { settings.vm_snapshot_data = [this]() { return fml::FileMapping::CreateReadOnly(assets_dir_, "vm_snapshot_data"); }; settings.isolate_snapshot_data = [this]() { return fml::FileMapping::CreateReadOnly(assets_dir_, "isolate_snapshot_data"); }; if (DartVM::IsRunningPrecompiledCode()) { settings.vm_snapshot_instr = [this]() { return fml::FileMapping::CreateReadExecute(assets_dir_, "vm_snapshot_instr"); }; settings.isolate_snapshot_instr = [this]() { return fml::FileMapping::CreateReadExecute(assets_dir_, "isolate_snapshot_instr"); }; } } else { settings.application_kernels = [this]() { std::vector> kernel_mappings; kernel_mappings.emplace_back( fml::FileMapping::CreateReadOnly(assets_dir_, "kernel_blob.bin")); return kernel_mappings; }; } } void ShellTest::PlatformViewNotifyCreated(Shell* shell) { fml::AutoResetWaitableEvent latch; fml::TaskRunner::RunNowOrPostTask( shell->GetTaskRunners().GetPlatformTaskRunner(), [shell, &latch]() { shell->GetPlatformView()->NotifyCreated(); latch.Signal(); }); latch.Wait(); } void ShellTest::RunEngine(Shell* shell, RunConfiguration configuration) { fml::AutoResetWaitableEvent latch; fml::TaskRunner::RunNowOrPostTask( shell->GetTaskRunners().GetPlatformTaskRunner(), [shell, &latch, &configuration]() { shell->RunEngine(std::move(configuration), [&latch](Engine::RunStatus run_status) { ASSERT_EQ(run_status, Engine::RunStatus::Success); latch.Signal(); }); }); latch.Wait(); } void ShellTest::PumpOneFrame(Shell* shell) { // Set viewport to nonempty, and call Animator::BeginFrame to make the layer // tree pipeline nonempty. Without either of this, the layer tree below // won't be rasterized. fml::AutoResetWaitableEvent latch; shell->GetTaskRunners().GetUITaskRunner()->PostTask( [&latch, engine = shell->weak_engine_]() { engine->SetViewportMetrics( {1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}); engine->animator_->BeginFrame(fml::TimePoint::Now(), fml::TimePoint::Now()); latch.Signal(); }); latch.Wait(); latch.Reset(); // Call |Render| to rasterize a layer tree and trigger |OnFrameRasterized| fml::WeakPtr runtime_delegate = shell->weak_engine_; shell->GetTaskRunners().GetUITaskRunner()->PostTask( [&latch, runtime_delegate]() { auto layer_tree = std::make_unique(); SkMatrix identity; identity.setIdentity(); auto root_layer = std::make_shared(identity); layer_tree->set_root_layer(root_layer); runtime_delegate->Render(std::move(layer_tree)); latch.Signal(); }); latch.Wait(); } int ShellTest::UnreportedTimingsCount(Shell* shell) { return shell->unreported_timings_.size(); } void ShellTest::SetNeedsReportTimings(Shell* shell, bool value) { shell->SetNeedsReportTimings(value); } bool ShellTest::GetNeedsReportTimings(Shell* shell) { return shell->needs_report_timings_; } Settings ShellTest::CreateSettingsForFixture() { Settings settings; settings.leak_vm = false; settings.task_observer_add = [](intptr_t key, fml::closure handler) { fml::MessageLoop::GetCurrent().AddTaskObserver(key, handler); }; settings.task_observer_remove = [](intptr_t key) { fml::MessageLoop::GetCurrent().RemoveTaskObserver(key); }; settings.isolate_create_callback = [this]() { native_resolver_->SetNativeResolverForIsolate(); }; SetSnapshotsAndAssets(settings); return settings; } TaskRunners ShellTest::GetTaskRunnersForFixture() { return { "test", thread_host_->platform_thread->GetTaskRunner(), // platform thread_host_->gpu_thread->GetTaskRunner(), // gpu thread_host_->ui_thread->GetTaskRunner(), // ui thread_host_->io_thread->GetTaskRunner() // io }; } std::unique_ptr ShellTest::CreateShell(Settings settings) { return CreateShell(std::move(settings), GetTaskRunnersForFixture()); } std::unique_ptr ShellTest::CreateShell(Settings settings, TaskRunners task_runners) { return Shell::Create( task_runners, settings, [](Shell& shell) { return std::make_unique(shell, shell.GetTaskRunners()); }, [](Shell& shell) { return std::make_unique(shell, shell.GetTaskRunners()); }); } // |testing::ThreadTest| void ShellTest::SetUp() { ThreadTest::SetUp(); assets_dir_ = fml::OpenDirectory(GetFixturesPath(), false, fml::FilePermission::kRead); thread_host_ = std::make_unique( "io.flutter.test." + GetCurrentTestName() + ".", ThreadHost::Type::Platform | ThreadHost::Type::IO | ThreadHost::Type::UI | ThreadHost::Type::GPU); } // |testing::ThreadTest| void ShellTest::TearDown() { ThreadTest::TearDown(); assets_dir_.reset(); thread_host_.reset(); } void ShellTest::AddNativeCallback(std::string name, Dart_NativeFunction callback) { native_resolver_->AddNativeCallback(std::move(name), callback); } ShellTestPlatformView::ShellTestPlatformView(PlatformView::Delegate& delegate, TaskRunners task_runners) : PlatformView(delegate, std::move(task_runners)) {} ShellTestPlatformView::~ShellTestPlatformView() = default; // |PlatformView| std::unique_ptr ShellTestPlatformView::CreateRenderingSurface() { return std::make_unique(this, true); } // |GPUSurfaceGLDelegate| bool ShellTestPlatformView::GLContextMakeCurrent() { return gl_surface_.MakeCurrent(); } // |GPUSurfaceGLDelegate| bool ShellTestPlatformView::GLContextClearCurrent() { return gl_surface_.ClearCurrent(); } // |GPUSurfaceGLDelegate| bool ShellTestPlatformView::GLContextPresent() { return gl_surface_.Present(); } // |GPUSurfaceGLDelegate| intptr_t ShellTestPlatformView::GLContextFBO() const { return gl_surface_.GetFramebuffer(); } // |GPUSurfaceGLDelegate| GPUSurfaceGLDelegate::GLProcResolver ShellTestPlatformView::GetGLProcResolver() const { return [surface = &gl_surface_](const char* name) -> void* { return surface->GetProcAddress(name); }; } // |GPUSurfaceGLDelegate| ExternalViewEmbedder* ShellTestPlatformView::GetExternalViewEmbedder() { return nullptr; } } // namespace testing } // namespace flutter