shell/testing/tester_main.cc - mirrors/engine - Git at Google

 // 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 <cstdlib>
 #include <cstring>
 #include <iostream>

 #include "flutter/assets/asset_manager.h"
 #include "flutter/assets/directory_asset_bundle.h"
 #include "flutter/flow/embedded_views.h"
 #include "flutter/fml/build_config.h"
 #include "flutter/fml/file.h"
 #include "flutter/fml/make_copyable.h"
 #include "flutter/fml/message_loop.h"
 #include "flutter/fml/paths.h"
 #include "flutter/fml/synchronization/waitable_event.h"
 #include "flutter/fml/task_runner.h"
 #include "flutter/shell/common/platform_view.h"
 #include "flutter/shell/common/rasterizer.h"
 #include "flutter/shell/common/shell.h"
 #include "flutter/shell/common/switches.h"
 #include "flutter/shell/common/thread_host.h"
 #include "flutter/shell/gpu/gpu_surface_software.h"
 #include "third_party/dart/runtime/include/bin/dart_io_api.h"
 #include "third_party/dart/runtime/include/dart_api.h"

 #if defined(FML_OS_WIN)
 #include <combaseapi.h>
 #endif  // defined(FML_OS_WIN)

 #if defined(FML_OS_POSIX)
 #include <signal.h>
 #endif  // defined(FML_OS_POSIX)

 namespace flutter {

 class TesterExternalViewEmbedder : public ExternalViewEmbedder {
   // |ExternalViewEmbedder|
   SkCanvas* GetRootCanvas() override { return nullptr; }

   // |ExternalViewEmbedder|
   void CancelFrame() override {}

   // |ExternalViewEmbedder|
   void BeginFrame(
       SkISize frame_size,
       GrDirectContext* context,
       double device_pixel_ratio,
       fml::RefPtr<fml::RasterThreadMerger> raster_thread_merger) override {}

   // |ExternalViewEmbedder|
   void PrerollCompositeEmbeddedView(
       int view_id,
       std::unique_ptr<EmbeddedViewParams> params) override {}

   // |ExternalViewEmbedder|
   std::vector<SkCanvas*> GetCurrentCanvases() override { return {&canvas_}; }

   // |ExternalViewEmbedder|
   std::vector<DisplayListBuilder*> GetCurrentBuilders() override { return {}; }

   // |ExternalViewEmbedder|
   EmbedderPaintContext CompositeEmbeddedView(int view_id) override {
     return {&canvas_, nullptr};
   }

  private:
   SkCanvas canvas_;
 };

 class TesterGPUSurfaceSoftware : public GPUSurfaceSoftware {
  public:
   TesterGPUSurfaceSoftware(GPUSurfaceSoftwareDelegate* delegate,
                            bool render_to_surface)
       : GPUSurfaceSoftware(delegate, render_to_surface) {}

   bool EnableRasterCache() const override { return false; }
 };

 class TesterPlatformView : public PlatformView,
                            public GPUSurfaceSoftwareDelegate {
  public:
   TesterPlatformView(Delegate& delegate, const TaskRunners& task_runners)
       : PlatformView(delegate, task_runners) {}

   // |PlatformView|
   std::unique_ptr<Surface> CreateRenderingSurface() override {
     auto surface = std::make_unique<TesterGPUSurfaceSoftware>(
         this, true /* render to surface */);
     FML_DCHECK(surface->IsValid());
     return surface;
   }

   // |GPUSurfaceSoftwareDelegate|
   sk_sp<SkSurface> AcquireBackingStore(const SkISize& size) override {
     if (sk_surface_ != nullptr &&
         SkISize::Make(sk_surface_->width(), sk_surface_->height()) == size) {
       // The old and new surface sizes are the same. Nothing to do here.
       return sk_surface_;
     }

     SkImageInfo info =
         SkImageInfo::MakeN32(size.fWidth, size.fHeight, kPremul_SkAlphaType,
                              SkColorSpace::MakeSRGB());
     sk_surface_ = SkSurface::MakeRaster(info, nullptr);

     if (sk_surface_ == nullptr) {
       FML_LOG(ERROR)
           << "Could not create backing store for software rendering.";
       return nullptr;
     }

     return sk_surface_;
   }

   // |GPUSurfaceSoftwareDelegate|
   bool PresentBackingStore(sk_sp<SkSurface> backing_store) override {
     return true;
   }

   // |PlatformView|
   std::shared_ptr<ExternalViewEmbedder> CreateExternalViewEmbedder() override {
     return external_view_embedder_;
   }

  private:
   sk_sp<SkSurface> sk_surface_ = nullptr;
   std::shared_ptr<TesterExternalViewEmbedder> external_view_embedder_ =
       std::make_shared<TesterExternalViewEmbedder>();
 };

 // Checks whether the engine's main Dart isolate has no pending work.  If so,
 // then exit the given message loop.
 class ScriptCompletionTaskObserver {
  public:
   ScriptCompletionTaskObserver(Shell& shell,
                                fml::RefPtr<fml::TaskRunner> main_task_runner,
                                bool run_forever)
       : shell_(shell),
         main_task_runner_(std::move(main_task_runner)),
         run_forever_(run_forever) {}

   int GetExitCodeForLastError() const {
     return static_cast<int>(last_error_.value_or(DartErrorCode::NoError));
   }

   void DidProcessTask() {
     last_error_ = shell_.GetUIIsolateLastError();
     if (shell_.EngineHasLivePorts()) {
       // The UI isolate still has live ports and is running. Nothing to do
       // just yet.
       return;
     }

     if (run_forever_) {
       // We need this script to run forever. We have already recorded the last
       // error. Keep going.
       return;
     }

     if (!has_terminated_) {
       // Only try to terminate the loop once.
       has_terminated_ = true;
       fml::TaskRunner::RunNowOrPostTask(main_task_runner_, []() {
         fml::MessageLoop::GetCurrent().Terminate();
       });
     }
   }

  private:
   Shell& shell_;
   fml::RefPtr<fml::TaskRunner> main_task_runner_;
   bool run_forever_ = false;
   std::optional<DartErrorCode> last_error_;
   bool has_terminated_ = false;

   FML_DISALLOW_COPY_AND_ASSIGN(ScriptCompletionTaskObserver);
 };

 // Processes spawned via dart:io inherit their signal handling from the parent
 // process. As part of spawning, the spawner blocks signals temporarily, so we
 // need to explicitly unblock the signals we care about in the new process. In
 // particular, we need to unblock SIGPROF for CPU profiling to work on the
 // mutator thread in the main isolate in this process (threads spawned by the VM
 // know about this limitation and automatically have this signal unblocked).
 static void UnblockSIGPROF() {
 #if defined(FML_OS_POSIX)
   sigset_t set;
   sigemptyset(&set);
   sigaddset(&set, SIGPROF);
   pthread_sigmask(SIG_UNBLOCK, &set, NULL);
 #endif  // defined(FML_OS_POSIX)
 }

 int RunTester(const flutter::Settings& settings,
               bool run_forever,
               bool multithreaded) {
   const auto thread_label = "io.flutter.test.";

   // Necessary if we want to use the CPU profiler on the main isolate's mutator
   // thread.
   //
   // OSX WARNING: avoid spawning additional threads before this call due to a
   // kernel bug that may enable SIGPROF on an unintended thread in the process.
   UnblockSIGPROF();

   fml::MessageLoop::EnsureInitializedForCurrentThread();

   auto current_task_runner = fml::MessageLoop::GetCurrent().GetTaskRunner();

   std::unique_ptr<ThreadHost> threadhost;
   fml::RefPtr<fml::TaskRunner> platform_task_runner;
   fml::RefPtr<fml::TaskRunner> raster_task_runner;
   fml::RefPtr<fml::TaskRunner> ui_task_runner;
   fml::RefPtr<fml::TaskRunner> io_task_runner;

   if (multithreaded) {
     threadhost = std::make_unique<ThreadHost>(
         thread_label, ThreadHost::Type::Platform | ThreadHost::Type::IO |
                           ThreadHost::Type::UI | ThreadHost::Type::RASTER);
     platform_task_runner = current_task_runner;
     raster_task_runner = threadhost->raster_thread->GetTaskRunner();
     ui_task_runner = threadhost->ui_thread->GetTaskRunner();
     io_task_runner = threadhost->io_thread->GetTaskRunner();
   } else {
     platform_task_runner = raster_task_runner = ui_task_runner =
         io_task_runner = current_task_runner;
   }

   const flutter::TaskRunners task_runners(thread_label,  // dart thread label
                                           platform_task_runner,  // platform
                                           raster_task_runner,    // raster
                                           ui_task_runner,        // ui
                                           io_task_runner         // io
   );

   Shell::CreateCallback<PlatformView> on_create_platform_view =
       [](Shell& shell) {
         return std::make_unique<TesterPlatformView>(shell,
                                                     shell.GetTaskRunners());
       };

   Shell::CreateCallback<Rasterizer> on_create_rasterizer = [](Shell& shell) {
     return std::make_unique<Rasterizer>(
         shell, Rasterizer::MakeGpuImageBehavior::kBitmap);
   };

   auto shell = Shell::Create(flutter::PlatformData(),  //
                              task_runners,             //
                              settings,                 //
                              on_create_platform_view,  //
                              on_create_rasterizer      //
   );

   if (!shell || !shell->IsSetup()) {
     FML_LOG(ERROR) << "Could not set up the shell.";
     return EXIT_FAILURE;
   }

   if (settings.application_kernel_asset.empty()) {
     FML_LOG(ERROR) << "Dart kernel file not specified.";
     return EXIT_FAILURE;
   }

   shell->GetPlatformView()->NotifyCreated();

   // Initialize default testing locales. There is no platform to
   // pass locales on the tester, so to retain expected locale behavior,
   // we emulate it in here by passing in 'en_US' and 'zh_CN' as test locales.
   const char* locale_json =
       "{\"method\":\"setLocale\",\"args\":[\"en\",\"US\",\"\",\"\",\"zh\","
       "\"CN\",\"\",\"\"]}";
   auto locale_bytes = fml::MallocMapping::Copy(
       locale_json, locale_json + std::strlen(locale_json));
   fml::RefPtr<flutter::PlatformMessageResponse> response;
   shell->GetPlatformView()->DispatchPlatformMessage(
       std::make_unique<flutter::PlatformMessage>(
           "flutter/localization", std::move(locale_bytes), response));

   std::initializer_list<fml::FileMapping::Protection> protection = {
       fml::FileMapping::Protection::kRead};
   auto main_dart_file_mapping = std::make_unique<fml::FileMapping>(
       fml::OpenFile(
           fml::paths::AbsolutePath(settings.application_kernel_asset).c_str(),
           false, fml::FilePermission::kRead),
       protection);

   auto isolate_configuration =
       IsolateConfiguration::CreateForKernel(std::move(main_dart_file_mapping));

   if (!isolate_configuration) {
     FML_LOG(ERROR) << "Could create isolate configuration.";
     return EXIT_FAILURE;
   }

   auto asset_manager = std::make_shared<flutter::AssetManager>();
   asset_manager->PushBack(std::make_unique<flutter::DirectoryAssetBundle>(
       fml::Duplicate(settings.assets_dir), true));
   asset_manager->PushBack(std::make_unique<flutter::DirectoryAssetBundle>(
       fml::OpenDirectory(settings.assets_path.c_str(), false,
                          fml::FilePermission::kRead),
       true));

   RunConfiguration run_configuration(std::move(isolate_configuration),
                                      std::move(asset_manager));

   // The script completion task observer that will be installed on the UI thread
   // that watched if the engine has any live ports.
   ScriptCompletionTaskObserver completion_observer(
       *shell,  // a valid shell
       fml::MessageLoop::GetCurrent()
           .GetTaskRunner(),  // the message loop to terminate
       run_forever            // should the exit be ignored
   );

   bool engine_did_run = false;

   fml::AutoResetWaitableEvent latch;
   auto task_observer_add = [&completion_observer]() {
     fml::MessageLoop::GetCurrent().AddTaskObserver(
         reinterpret_cast<intptr_t>(&completion_observer),
         [&completion_observer]() { completion_observer.DidProcessTask(); });
   };

   auto task_observer_remove = [&completion_observer, &latch]() {
     fml::MessageLoop::GetCurrent().RemoveTaskObserver(
         reinterpret_cast<intptr_t>(&completion_observer));
     latch.Signal();
   };

   shell->RunEngine(std::move(run_configuration),
                    [&engine_did_run, &ui_task_runner,
                     &task_observer_add](Engine::RunStatus run_status) mutable {
                      if (run_status != flutter::Engine::RunStatus::Failure) {
                        engine_did_run = true;
                        // Now that our engine is initialized we can install the
                        // ScriptCompletionTaskObserver
                        fml::TaskRunner::RunNowOrPostTask(ui_task_runner,
                                                          task_observer_add);
                      }
                    });

   flutter::ViewportMetrics metrics{};
   metrics.device_pixel_ratio = 3.0;
   metrics.physical_width = 2400.0;   // 800 at 3x resolution.
   metrics.physical_height = 1800.0;  // 600 at 3x resolution.
   shell->GetPlatformView()->SetViewportMetrics(metrics);

   // Run the message loop and wait for the script to do its thing.
   fml::MessageLoop::GetCurrent().Run();

   // Cleanup the completion observer synchronously as it is living on the
   // stack.
   fml::TaskRunner::RunNowOrPostTask(ui_task_runner, task_observer_remove);
   latch.Wait();

   if (!engine_did_run) {
     // If the engine itself didn't have a chance to run, there is no point in
     // asking it if there was an error. Signal a failure unconditionally.
     return EXIT_FAILURE;
   }

   return completion_observer.GetExitCodeForLastError();
 }

 }  // namespace flutter

 int main(int argc, char* argv[]) {
   dart::bin::SetExecutableName(argv[0]);
   dart::bin::SetExecutableArguments(argc - 1, argv);

   auto command_line = fml::CommandLineFromPlatformOrArgcArgv(argc, argv);

   if (command_line.HasOption(flutter::FlagForSwitch(flutter::Switch::Help))) {
     flutter::PrintUsage("flutter_tester");
     return EXIT_SUCCESS;
   }

   auto settings = flutter::SettingsFromCommandLine(command_line);
   if (!command_line.positional_args().empty()) {
     // The tester may not use the switch for the main dart file path. Specifying
     // it as a positional argument instead.
     settings.application_kernel_asset = command_line.positional_args()[0];
   }

   if (settings.application_kernel_asset.empty()) {
     FML_LOG(ERROR) << "Dart kernel file not specified.";
     return EXIT_FAILURE;
   }

   if (settings.icu_data_path.empty()) {
     settings.icu_data_path = "icudtl.dat";
   }

   // The tools that read logs get confused if there is a log tag specified.
   settings.log_tag = "";

   settings.log_message_callback = [](const std::string& tag,
                                      const std::string& message) {
     if (!tag.empty()) {
       std::cout << tag << ": ";
     }
     std::cout << message << std::endl;
   };

   settings.task_observer_add = [](intptr_t key, const fml::closure& callback) {
     fml::MessageLoop::GetCurrent().AddTaskObserver(key, callback);
   };

   settings.task_observer_remove = [](intptr_t key) {
     fml::MessageLoop::GetCurrent().RemoveTaskObserver(key);
   };

   settings.unhandled_exception_callback = [](const std::string& error,
                                              const std::string& stack_trace) {
     FML_LOG(ERROR) << "Unhandled exception" << std::endl
                    << "Exception: " << error << std::endl
                    << "Stack trace: " << stack_trace;
     ::exit(1);
     return true;
   };

 #if defined(FML_OS_WIN)
   CoInitializeEx(nullptr, COINIT_MULTITHREADED);
 #endif  // defined(FML_OS_WIN)

   return flutter::RunTester(settings,
                             command_line.HasOption(flutter::FlagForSwitch(
                                 flutter::Switch::RunForever)),
                             command_line.HasOption(flutter::FlagForSwitch(
                                 flutter::Switch::ForceMultithreading)));
 }
	// 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 <cstdlib>
	#include <cstring>
	#include <iostream>

	#include "flutter/assets/asset_manager.h"
	#include "flutter/assets/directory_asset_bundle.h"
	#include "flutter/flow/embedded_views.h"
	#include "flutter/fml/build_config.h"
	#include "flutter/fml/file.h"
	#include "flutter/fml/make_copyable.h"
	#include "flutter/fml/message_loop.h"
	#include "flutter/fml/paths.h"
	#include "flutter/fml/synchronization/waitable_event.h"
	#include "flutter/fml/task_runner.h"
	#include "flutter/shell/common/platform_view.h"
	#include "flutter/shell/common/rasterizer.h"
	#include "flutter/shell/common/shell.h"
	#include "flutter/shell/common/switches.h"
	#include "flutter/shell/common/thread_host.h"
	#include "flutter/shell/gpu/gpu_surface_software.h"
	#include "third_party/dart/runtime/include/bin/dart_io_api.h"
	#include "third_party/dart/runtime/include/dart_api.h"

	#if defined(FML_OS_WIN)
	#include <combaseapi.h>
	#endif // defined(FML_OS_WIN)

	#if defined(FML_OS_POSIX)
	#include <signal.h>
	#endif // defined(FML_OS_POSIX)

	namespace flutter {

	class TesterExternalViewEmbedder : public ExternalViewEmbedder {
	// \|ExternalViewEmbedder\|
	SkCanvas* GetRootCanvas() override { return nullptr; }

	// \|ExternalViewEmbedder\|
	void CancelFrame() override {}

	// \|ExternalViewEmbedder\|
	void BeginFrame(
	SkISize frame_size,
	GrDirectContext* context,
	double device_pixel_ratio,
	fml::RefPtr<fml::RasterThreadMerger> raster_thread_merger) override {}

	// \|ExternalViewEmbedder\|
	void PrerollCompositeEmbeddedView(
	int view_id,
	std::unique_ptr<EmbeddedViewParams> params) override {}

	// \|ExternalViewEmbedder\|
	std::vector<SkCanvas*> GetCurrentCanvases() override { return {&canvas_}; }

	// \|ExternalViewEmbedder\|
	std::vector<DisplayListBuilder*> GetCurrentBuilders() override { return {}; }

	// \|ExternalViewEmbedder\|
	EmbedderPaintContext CompositeEmbeddedView(int view_id) override {
	return {&canvas_, nullptr};
	}

	private:
	SkCanvas canvas_;
	};

	class TesterGPUSurfaceSoftware : public GPUSurfaceSoftware {
	public:
	TesterGPUSurfaceSoftware(GPUSurfaceSoftwareDelegate* delegate,
	bool render_to_surface)
	: GPUSurfaceSoftware(delegate, render_to_surface) {}

	bool EnableRasterCache() const override { return false; }
	};

	class TesterPlatformView : public PlatformView,
	public GPUSurfaceSoftwareDelegate {
	public:
	TesterPlatformView(Delegate& delegate, const TaskRunners& task_runners)
	: PlatformView(delegate, task_runners) {}

	// \|PlatformView\|
	std::unique_ptr<Surface> CreateRenderingSurface() override {
	auto surface = std::make_unique<TesterGPUSurfaceSoftware>(
	this, true /* render to surface */);
	FML_DCHECK(surface->IsValid());
	return surface;
	}

	// \|GPUSurfaceSoftwareDelegate\|
	sk_sp<SkSurface> AcquireBackingStore(const SkISize& size) override {
	if (sk_surface_ != nullptr &&
	SkISize::Make(sk_surface_->width(), sk_surface_->height()) == size) {
	// The old and new surface sizes are the same. Nothing to do here.
	return sk_surface_;
	}

	SkImageInfo info =
	SkImageInfo::MakeN32(size.fWidth, size.fHeight, kPremul_SkAlphaType,
	SkColorSpace::MakeSRGB());
	sk_surface_ = SkSurface::MakeRaster(info, nullptr);

	if (sk_surface_ == nullptr) {
	FML_LOG(ERROR)
	<< "Could not create backing store for software rendering.";
	return nullptr;
	}

	return sk_surface_;
	}

	// \|GPUSurfaceSoftwareDelegate\|
	bool PresentBackingStore(sk_sp<SkSurface> backing_store) override {
	return true;
	}

	// \|PlatformView\|
	std::shared_ptr<ExternalViewEmbedder> CreateExternalViewEmbedder() override {
	return external_view_embedder_;
	}

	private:
	sk_sp<SkSurface> sk_surface_ = nullptr;
	std::shared_ptr<TesterExternalViewEmbedder> external_view_embedder_ =
	std::make_shared<TesterExternalViewEmbedder>();
	};

	// Checks whether the engine's main Dart isolate has no pending work. If so,
	// then exit the given message loop.
	class ScriptCompletionTaskObserver {
	public:
	ScriptCompletionTaskObserver(Shell& shell,
	fml::RefPtr<fml::TaskRunner> main_task_runner,
	bool run_forever)
	: shell_(shell),
	main_task_runner_(std::move(main_task_runner)),
	run_forever_(run_forever) {}

	int GetExitCodeForLastError() const {
	return static_cast<int>(last_error_.value_or(DartErrorCode::NoError));
	}

	void DidProcessTask() {
	last_error_ = shell_.GetUIIsolateLastError();
	if (shell_.EngineHasLivePorts()) {
	// The UI isolate still has live ports and is running. Nothing to do
	// just yet.
	return;
	}

	if (run_forever_) {
	// We need this script to run forever. We have already recorded the last
	// error. Keep going.
	return;
	}

	if (!has_terminated_) {
	// Only try to terminate the loop once.
	has_terminated_ = true;
	fml::TaskRunner::RunNowOrPostTask(main_task_runner_, []() {
	fml::MessageLoop::GetCurrent().Terminate();
	});
	}
	}

	private:
	Shell& shell_;
	fml::RefPtr<fml::TaskRunner> main_task_runner_;
	bool run_forever_ = false;
	std::optional<DartErrorCode> last_error_;
	bool has_terminated_ = false;

	FML_DISALLOW_COPY_AND_ASSIGN(ScriptCompletionTaskObserver);
	};

	// Processes spawned via dart:io inherit their signal handling from the parent
	// process. As part of spawning, the spawner blocks signals temporarily, so we
	// need to explicitly unblock the signals we care about in the new process. In
	// particular, we need to unblock SIGPROF for CPU profiling to work on the
	// mutator thread in the main isolate in this process (threads spawned by the VM
	// know about this limitation and automatically have this signal unblocked).
	static void UnblockSIGPROF() {
	#if defined(FML_OS_POSIX)
	sigset_t set;
	sigemptyset(&set);
	sigaddset(&set, SIGPROF);
	pthread_sigmask(SIG_UNBLOCK, &set, NULL);
	#endif // defined(FML_OS_POSIX)
	}

	int RunTester(const flutter::Settings& settings,
	bool run_forever,
	bool multithreaded) {
	const auto thread_label = "io.flutter.test.";

	// Necessary if we want to use the CPU profiler on the main isolate's mutator
	// thread.
	//
	// OSX WARNING: avoid spawning additional threads before this call due to a
	// kernel bug that may enable SIGPROF on an unintended thread in the process.
	UnblockSIGPROF();

	fml::MessageLoop::EnsureInitializedForCurrentThread();

	auto current_task_runner = fml::MessageLoop::GetCurrent().GetTaskRunner();

	std::unique_ptr<ThreadHost> threadhost;
	fml::RefPtr<fml::TaskRunner> platform_task_runner;
	fml::RefPtr<fml::TaskRunner> raster_task_runner;
	fml::RefPtr<fml::TaskRunner> ui_task_runner;
	fml::RefPtr<fml::TaskRunner> io_task_runner;

	if (multithreaded) {
	threadhost = std::make_unique<ThreadHost>(
	thread_label, ThreadHost::Type::Platform \| ThreadHost::Type::IO \|
	ThreadHost::Type::UI \| ThreadHost::Type::RASTER);
	platform_task_runner = current_task_runner;
	raster_task_runner = threadhost->raster_thread->GetTaskRunner();
	ui_task_runner = threadhost->ui_thread->GetTaskRunner();
	io_task_runner = threadhost->io_thread->GetTaskRunner();
	} else {
	platform_task_runner = raster_task_runner = ui_task_runner =
	io_task_runner = current_task_runner;
	}

	const flutter::TaskRunners task_runners(thread_label, // dart thread label
	platform_task_runner, // platform
	raster_task_runner, // raster
	ui_task_runner, // ui
	io_task_runner // io
	);

	Shell::CreateCallback<PlatformView> on_create_platform_view =
	[](Shell& shell) {
	return std::make_unique<TesterPlatformView>(shell,
	shell.GetTaskRunners());
	};

	Shell::CreateCallback<Rasterizer> on_create_rasterizer = [](Shell& shell) {
	return std::make_unique<Rasterizer>(
	shell, Rasterizer::MakeGpuImageBehavior::kBitmap);
	};

	auto shell = Shell::Create(flutter::PlatformData(), //
	task_runners, //
	settings, //
	on_create_platform_view, //
	on_create_rasterizer //
	);

	if (!shell \|\| !shell->IsSetup()) {
	FML_LOG(ERROR) << "Could not set up the shell.";
	return EXIT_FAILURE;
	}

	if (settings.application_kernel_asset.empty()) {
	FML_LOG(ERROR) << "Dart kernel file not specified.";
	return EXIT_FAILURE;
	}

	shell->GetPlatformView()->NotifyCreated();

	// Initialize default testing locales. There is no platform to
	// pass locales on the tester, so to retain expected locale behavior,
	// we emulate it in here by passing in 'en_US' and 'zh_CN' as test locales.
	const char* locale_json =
	"{\"method\":\"setLocale\",\"args\":[\"en\",\"US\",\"\",\"\",\"zh\","
	"\"CN\",\"\",\"\"]}";
	auto locale_bytes = fml::MallocMapping::Copy(
	locale_json, locale_json + std::strlen(locale_json));
	fml::RefPtr<flutter::PlatformMessageResponse> response;
	shell->GetPlatformView()->DispatchPlatformMessage(
	std::make_unique<flutter::PlatformMessage>(
	"flutter/localization", std::move(locale_bytes), response));

	std::initializer_list<fml::FileMapping::Protection> protection = {
	fml::FileMapping::Protection::kRead};
	auto main_dart_file_mapping = std::make_unique<fml::FileMapping>(
	fml::OpenFile(
	fml::paths::AbsolutePath(settings.application_kernel_asset).c_str(),
	false, fml::FilePermission::kRead),
	protection);

	auto isolate_configuration =
	IsolateConfiguration::CreateForKernel(std::move(main_dart_file_mapping));

	if (!isolate_configuration) {
	FML_LOG(ERROR) << "Could create isolate configuration.";
	return EXIT_FAILURE;
	}

	auto asset_manager = std::make_shared<flutter::AssetManager>();
	asset_manager->PushBack(std::make_unique<flutter::DirectoryAssetBundle>(
	fml::Duplicate(settings.assets_dir), true));
	asset_manager->PushBack(std::make_unique<flutter::DirectoryAssetBundle>(
	fml::OpenDirectory(settings.assets_path.c_str(), false,
	fml::FilePermission::kRead),
	true));

	RunConfiguration run_configuration(std::move(isolate_configuration),
	std::move(asset_manager));

	// The script completion task observer that will be installed on the UI thread
	// that watched if the engine has any live ports.
	ScriptCompletionTaskObserver completion_observer(
	*shell, // a valid shell
	fml::MessageLoop::GetCurrent()
	.GetTaskRunner(), // the message loop to terminate
	run_forever // should the exit be ignored
	);

	bool engine_did_run = false;

	fml::AutoResetWaitableEvent latch;
	auto task_observer_add = [&completion_observer]() {
	fml::MessageLoop::GetCurrent().AddTaskObserver(
	reinterpret_cast<intptr_t>(&completion_observer),
	[&completion_observer]() { completion_observer.DidProcessTask(); });
	};

	auto task_observer_remove = [&completion_observer, &latch]() {
	fml::MessageLoop::GetCurrent().RemoveTaskObserver(
	reinterpret_cast<intptr_t>(&completion_observer));
	latch.Signal();
	};

	shell->RunEngine(std::move(run_configuration),
	[&engine_did_run, &ui_task_runner,
	&task_observer_add](Engine::RunStatus run_status) mutable {
	if (run_status != flutter::Engine::RunStatus::Failure) {
	engine_did_run = true;
	// Now that our engine is initialized we can install the
	// ScriptCompletionTaskObserver
	fml::TaskRunner::RunNowOrPostTask(ui_task_runner,
	task_observer_add);
	}
	});

	flutter::ViewportMetrics metrics{};
	metrics.device_pixel_ratio = 3.0;
	metrics.physical_width = 2400.0; // 800 at 3x resolution.
	metrics.physical_height = 1800.0; // 600 at 3x resolution.
	shell->GetPlatformView()->SetViewportMetrics(metrics);

	// Run the message loop and wait for the script to do its thing.
	fml::MessageLoop::GetCurrent().Run();

	// Cleanup the completion observer synchronously as it is living on the
	// stack.
	fml::TaskRunner::RunNowOrPostTask(ui_task_runner, task_observer_remove);
	latch.Wait();

	if (!engine_did_run) {
	// If the engine itself didn't have a chance to run, there is no point in
	// asking it if there was an error. Signal a failure unconditionally.
	return EXIT_FAILURE;
	}

	return completion_observer.GetExitCodeForLastError();
	}

	} // namespace flutter

	int main(int argc, char* argv[]) {
	dart::bin::SetExecutableName(argv[0]);
	dart::bin::SetExecutableArguments(argc - 1, argv);

	auto command_line = fml::CommandLineFromPlatformOrArgcArgv(argc, argv);

	if (command_line.HasOption(flutter::FlagForSwitch(flutter::Switch::Help))) {
	flutter::PrintUsage("flutter_tester");
	return EXIT_SUCCESS;
	}

	auto settings = flutter::SettingsFromCommandLine(command_line);
	if (!command_line.positional_args().empty()) {
	// The tester may not use the switch for the main dart file path. Specifying
	// it as a positional argument instead.
	settings.application_kernel_asset = command_line.positional_args()[0];
	}

	if (settings.application_kernel_asset.empty()) {
	FML_LOG(ERROR) << "Dart kernel file not specified.";
	return EXIT_FAILURE;
	}

	if (settings.icu_data_path.empty()) {
	settings.icu_data_path = "icudtl.dat";
	}

	// The tools that read logs get confused if there is a log tag specified.
	settings.log_tag = "";

	settings.log_message_callback = [](const std::string& tag,
	const std::string& message) {
	if (!tag.empty()) {
	std::cout << tag << ": ";
	}
	std::cout << message << std::endl;
	};

	settings.task_observer_add = [](intptr_t key, const fml::closure& callback) {
	fml::MessageLoop::GetCurrent().AddTaskObserver(key, callback);
	};

	settings.task_observer_remove = [](intptr_t key) {
	fml::MessageLoop::GetCurrent().RemoveTaskObserver(key);
	};

	settings.unhandled_exception_callback = [](const std::string& error,
	const std::string& stack_trace) {
	FML_LOG(ERROR) << "Unhandled exception" << std::endl
	<< "Exception: " << error << std::endl
	<< "Stack trace: " << stack_trace;
	::exit(1);
	return true;
	};

	#if defined(FML_OS_WIN)
	CoInitializeEx(nullptr, COINIT_MULTITHREADED);
	#endif // defined(FML_OS_WIN)

	return flutter::RunTester(settings,
	command_line.HasOption(flutter::FlagForSwitch(
	flutter::Switch::RunForever)),
	command_line.HasOption(flutter::FlagForSwitch(
	flutter::Switch::ForceMultithreading)));
	}