shell/platform/windows/flutter_windows_unittests.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.

 #include "flutter/shell/platform/windows/public/flutter_windows.h"

 #include <dxgi.h>
 #include <wrl/client.h>
 #include <thread>

 #include "flutter/fml/synchronization/count_down_latch.h"
 #include "flutter/fml/synchronization/waitable_event.h"
 #include "flutter/shell/platform/windows/testing/windows_test.h"
 #include "flutter/shell/platform/windows/testing/windows_test_config_builder.h"
 #include "flutter/shell/platform/windows/testing/windows_test_context.h"
 #include "gtest/gtest.h"
 #include "third_party/tonic/converter/dart_converter.h"

 namespace flutter {
 namespace testing {

 // Verify that we can fetch a texture registrar.
 // Prevent regression: https://github.com/flutter/flutter/issues/86617
 TEST(WindowsNoFixtureTest, GetTextureRegistrar) {
   FlutterDesktopEngineProperties properties = {};
   properties.assets_path = L"";
   properties.icu_data_path = L"icudtl.dat";
   auto engine = FlutterDesktopEngineCreate(&properties);
   ASSERT_NE(engine, nullptr);
   auto texture_registrar = FlutterDesktopEngineGetTextureRegistrar(engine);
   EXPECT_NE(texture_registrar, nullptr);
   FlutterDesktopEngineDestroy(engine);
 }

 // Verify we can successfully launch main().
 TEST_F(WindowsTest, LaunchMain) {
   auto& context = GetContext();
   WindowsConfigBuilder builder(context);
   ViewControllerPtr controller{builder.Run()};
   ASSERT_NE(controller, nullptr);
 }

 // Verify there is no unexpected output from launching main.
 TEST_F(WindowsTest, LaunchMainHasNoOutput) {
   // Replace stdout & stderr stream buffers with our own.
   std::stringstream cout_buffer;
   std::stringstream cerr_buffer;
   std::streambuf* old_cout_buffer = std::cout.rdbuf();
   std::streambuf* old_cerr_buffer = std::cerr.rdbuf();
   std::cout.rdbuf(cout_buffer.rdbuf());
   std::cerr.rdbuf(cerr_buffer.rdbuf());

   auto& context = GetContext();
   WindowsConfigBuilder builder(context);
   ViewControllerPtr controller{builder.Run()};
   ASSERT_NE(controller, nullptr);

   // Restore original stdout & stderr stream buffer.
   std::cout.rdbuf(old_cout_buffer);
   std::cerr.rdbuf(old_cerr_buffer);

   // Verify stdout & stderr have no output.
   std::string cout = cout_buffer.str();
   std::string cerr = cerr_buffer.str();
   EXPECT_TRUE(cout.empty());
   EXPECT_TRUE(cerr.empty());
 }

 // Verify we can successfully launch a custom entry point.
 TEST_F(WindowsTest, LaunchCustomEntrypoint) {
   auto& context = GetContext();
   WindowsConfigBuilder builder(context);
   builder.SetDartEntrypoint("customEntrypoint");
   ViewControllerPtr controller{builder.Run()};
   ASSERT_NE(controller, nullptr);
 }

 // Verify that engine launches with the custom entrypoint specified in the
 // FlutterDesktopEngineRun parameter when no entrypoint is specified in
 // FlutterDesktopEngineProperties.dart_entrypoint.
 //
 // TODO(cbracken): https://github.com/flutter/flutter/issues/109285
 TEST_F(WindowsTest, LaunchCustomEntrypointInEngineRunInvocation) {
   auto& context = GetContext();
   WindowsConfigBuilder builder(context);
   EnginePtr engine{builder.InitializeEngine()};
   ASSERT_NE(engine, nullptr);

   ASSERT_TRUE(FlutterDesktopEngineRun(engine.get(), "customEntrypoint"));
 }

 // Verify that engine fails to launch when a conflicting entrypoint in
 // FlutterDesktopEngineProperties.dart_entrypoint and the
 // FlutterDesktopEngineRun parameter.
 //
 // TODO(cbracken): https://github.com/flutter/flutter/issues/109285
 TEST_F(WindowsTest, LaunchConflictingCustomEntrypoints) {
   auto& context = GetContext();
   WindowsConfigBuilder builder(context);
   builder.SetDartEntrypoint("customEntrypoint");
   EnginePtr engine{builder.InitializeEngine()};
   ASSERT_NE(engine, nullptr);

   ASSERT_FALSE(FlutterDesktopEngineRun(engine.get(), "conflictingEntrypoint"));
 }

 // Verify that native functions can be registered and resolved.
 TEST_F(WindowsTest, VerifyNativeFunction) {
   auto& context = GetContext();
   WindowsConfigBuilder builder(context);
   builder.SetDartEntrypoint("verifyNativeFunction");

   fml::AutoResetWaitableEvent latch;
   auto native_entry =
       CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) { latch.Signal(); });
   context.AddNativeFunction("Signal", native_entry);

   ViewControllerPtr controller{builder.Run()};
   ASSERT_NE(controller, nullptr);

   // Wait until signal has been called.
   latch.Wait();
 }

 // Verify that native functions that pass parameters can be registered and
 // resolved.
 TEST_F(WindowsTest, VerifyNativeFunctionWithParameters) {
   auto& context = GetContext();
   WindowsConfigBuilder builder(context);
   builder.SetDartEntrypoint("verifyNativeFunctionWithParameters");

   bool bool_value = false;
   fml::AutoResetWaitableEvent latch;
   auto native_entry = CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) {
     auto handle = Dart_GetNativeBooleanArgument(args, 0, &bool_value);
     ASSERT_FALSE(Dart_IsError(handle));
     latch.Signal();
   });
   context.AddNativeFunction("SignalBoolValue", native_entry);

   ViewControllerPtr controller{builder.Run()};
   ASSERT_NE(controller, nullptr);

   // Wait until signalBoolValue has been called.
   latch.Wait();
   EXPECT_TRUE(bool_value);
 }

 // Verify that Platform.executable returns the executable name.
 TEST_F(WindowsTest, PlatformExecutable) {
   auto& context = GetContext();
   WindowsConfigBuilder builder(context);
   builder.SetDartEntrypoint("readPlatformExecutable");

   std::string executable_name;
   fml::AutoResetWaitableEvent latch;
   auto native_entry = CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) {
     auto handle = Dart_GetNativeArgument(args, 0);
     ASSERT_FALSE(Dart_IsError(handle));
     executable_name = tonic::DartConverter<std::string>::FromDart(handle);
     latch.Signal();
   });
   context.AddNativeFunction("SignalStringValue", native_entry);

   ViewControllerPtr controller{builder.Run()};
   ASSERT_NE(controller, nullptr);

   // Wait until signalStringValue has been called.
   latch.Wait();
   EXPECT_EQ(executable_name, "flutter_windows_unittests.exe");
 }

 // Verify that native functions that return values can be registered and
 // resolved.
 TEST_F(WindowsTest, VerifyNativeFunctionWithReturn) {
   auto& context = GetContext();
   WindowsConfigBuilder builder(context);
   builder.SetDartEntrypoint("verifyNativeFunctionWithReturn");

   bool bool_value_to_return = true;
   fml::CountDownLatch latch(2);
   auto bool_return_entry = CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) {
     Dart_SetBooleanReturnValue(args, bool_value_to_return);
     latch.CountDown();
   });
   context.AddNativeFunction("SignalBoolReturn", bool_return_entry);

   bool bool_value_passed = false;
   auto bool_pass_entry = CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) {
     auto handle = Dart_GetNativeBooleanArgument(args, 0, &bool_value_passed);
     ASSERT_FALSE(Dart_IsError(handle));
     latch.CountDown();
   });
   context.AddNativeFunction("SignalBoolValue", bool_pass_entry);

   ViewControllerPtr controller{builder.Run()};
   ASSERT_NE(controller, nullptr);

   // Wait until signalBoolReturn and signalBoolValue have been called.
   latch.Wait();
   EXPECT_TRUE(bool_value_passed);
 }

 // Verify the next frame callback is executed.
 TEST_F(WindowsTest, NextFrameCallback) {
   struct Captures {
     fml::AutoResetWaitableEvent frame_scheduled_latch;
     fml::AutoResetWaitableEvent frame_drawn_latch;
     std::thread::id thread_id;
   };
   Captures captures;

   CreateNewThread("test_platform_thread")->PostTask([&]() {
     captures.thread_id = std::this_thread::get_id();

     auto& context = GetContext();
     WindowsConfigBuilder builder(context);
     builder.SetDartEntrypoint("drawHelloWorld");

     auto native_entry = CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) {
       ASSERT_FALSE(captures.frame_drawn_latch.IsSignaledForTest());
       captures.frame_scheduled_latch.Signal();
     });
     context.AddNativeFunction("NotifyFirstFrameScheduled", native_entry);

     ViewControllerPtr controller{builder.Run()};
     ASSERT_NE(controller, nullptr);

     auto engine = FlutterDesktopViewControllerGetEngine(controller.get());

     FlutterDesktopEngineSetNextFrameCallback(
         engine,
         [](void* user_data) {
           auto captures = static_cast<Captures*>(user_data);

           ASSERT_TRUE(captures->frame_scheduled_latch.IsSignaledForTest());

           // Callback should execute on platform thread.
           ASSERT_EQ(std::this_thread::get_id(), captures->thread_id);

           // Signal the test passed and end the Windows message loop.
           captures->frame_drawn_latch.Signal();
           ::PostQuitMessage(0);
         },
         &captures);

     // Pump messages for the Windows platform task runner.
     ::MSG msg;
     while (::GetMessage(&msg, nullptr, 0, 0)) {
       ::TranslateMessage(&msg);
       ::DispatchMessage(&msg);
     }
   });

   captures.frame_drawn_latch.Wait();
 }

 TEST_F(WindowsTest, GetGraphicsAdapter) {
   auto& context = GetContext();
   WindowsConfigBuilder builder(context);
   ViewControllerPtr controller{builder.Run()};
   ASSERT_NE(controller, nullptr);
   auto view = FlutterDesktopViewControllerGetView(controller.get());

   Microsoft::WRL::ComPtr<IDXGIAdapter> dxgi_adapter;
   dxgi_adapter = FlutterDesktopViewGetGraphicsAdapter(view);
   ASSERT_NE(dxgi_adapter, nullptr);
   DXGI_ADAPTER_DESC desc{};
   ASSERT_TRUE(SUCCEEDED(dxgi_adapter->GetDesc(&desc)));
 }

 }  // namespace testing
 }  // namespace flutter
	// 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.

	#include "flutter/shell/platform/windows/public/flutter_windows.h"

	#include <dxgi.h>
	#include <wrl/client.h>
	#include <thread>

	#include "flutter/fml/synchronization/count_down_latch.h"
	#include "flutter/fml/synchronization/waitable_event.h"
	#include "flutter/shell/platform/windows/testing/windows_test.h"
	#include "flutter/shell/platform/windows/testing/windows_test_config_builder.h"
	#include "flutter/shell/platform/windows/testing/windows_test_context.h"
	#include "gtest/gtest.h"
	#include "third_party/tonic/converter/dart_converter.h"

	namespace flutter {
	namespace testing {

	// Verify that we can fetch a texture registrar.
	// Prevent regression: https://github.com/flutter/flutter/issues/86617
	TEST(WindowsNoFixtureTest, GetTextureRegistrar) {
	FlutterDesktopEngineProperties properties = {};
	properties.assets_path = L"";
	properties.icu_data_path = L"icudtl.dat";
	auto engine = FlutterDesktopEngineCreate(&properties);
	ASSERT_NE(engine, nullptr);
	auto texture_registrar = FlutterDesktopEngineGetTextureRegistrar(engine);
	EXPECT_NE(texture_registrar, nullptr);
	FlutterDesktopEngineDestroy(engine);
	}

	// Verify we can successfully launch main().
	TEST_F(WindowsTest, LaunchMain) {
	auto& context = GetContext();
	WindowsConfigBuilder builder(context);
	ViewControllerPtr controller{builder.Run()};
	ASSERT_NE(controller, nullptr);
	}

	// Verify there is no unexpected output from launching main.
	TEST_F(WindowsTest, LaunchMainHasNoOutput) {
	// Replace stdout & stderr stream buffers with our own.
	std::stringstream cout_buffer;
	std::stringstream cerr_buffer;
	std::streambuf* old_cout_buffer = std::cout.rdbuf();
	std::streambuf* old_cerr_buffer = std::cerr.rdbuf();
	std::cout.rdbuf(cout_buffer.rdbuf());
	std::cerr.rdbuf(cerr_buffer.rdbuf());

	auto& context = GetContext();
	WindowsConfigBuilder builder(context);
	ViewControllerPtr controller{builder.Run()};
	ASSERT_NE(controller, nullptr);

	// Restore original stdout & stderr stream buffer.
	std::cout.rdbuf(old_cout_buffer);
	std::cerr.rdbuf(old_cerr_buffer);

	// Verify stdout & stderr have no output.
	std::string cout = cout_buffer.str();
	std::string cerr = cerr_buffer.str();
	EXPECT_TRUE(cout.empty());
	EXPECT_TRUE(cerr.empty());
	}

	// Verify we can successfully launch a custom entry point.
	TEST_F(WindowsTest, LaunchCustomEntrypoint) {
	auto& context = GetContext();
	WindowsConfigBuilder builder(context);
	builder.SetDartEntrypoint("customEntrypoint");
	ViewControllerPtr controller{builder.Run()};
	ASSERT_NE(controller, nullptr);
	}

	// Verify that engine launches with the custom entrypoint specified in the
	// FlutterDesktopEngineRun parameter when no entrypoint is specified in
	// FlutterDesktopEngineProperties.dart_entrypoint.
	//
	// TODO(cbracken): https://github.com/flutter/flutter/issues/109285
	TEST_F(WindowsTest, LaunchCustomEntrypointInEngineRunInvocation) {
	auto& context = GetContext();
	WindowsConfigBuilder builder(context);
	EnginePtr engine{builder.InitializeEngine()};
	ASSERT_NE(engine, nullptr);

	ASSERT_TRUE(FlutterDesktopEngineRun(engine.get(), "customEntrypoint"));
	}

	// Verify that engine fails to launch when a conflicting entrypoint in
	// FlutterDesktopEngineProperties.dart_entrypoint and the
	// FlutterDesktopEngineRun parameter.
	//
	// TODO(cbracken): https://github.com/flutter/flutter/issues/109285
	TEST_F(WindowsTest, LaunchConflictingCustomEntrypoints) {
	auto& context = GetContext();
	WindowsConfigBuilder builder(context);
	builder.SetDartEntrypoint("customEntrypoint");
	EnginePtr engine{builder.InitializeEngine()};
	ASSERT_NE(engine, nullptr);

	ASSERT_FALSE(FlutterDesktopEngineRun(engine.get(), "conflictingEntrypoint"));
	}

	// Verify that native functions can be registered and resolved.
	TEST_F(WindowsTest, VerifyNativeFunction) {
	auto& context = GetContext();
	WindowsConfigBuilder builder(context);
	builder.SetDartEntrypoint("verifyNativeFunction");

	fml::AutoResetWaitableEvent latch;
	auto native_entry =
	CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) { latch.Signal(); });
	context.AddNativeFunction("Signal", native_entry);

	ViewControllerPtr controller{builder.Run()};
	ASSERT_NE(controller, nullptr);

	// Wait until signal has been called.
	latch.Wait();
	}

	// Verify that native functions that pass parameters can be registered and
	// resolved.
	TEST_F(WindowsTest, VerifyNativeFunctionWithParameters) {
	auto& context = GetContext();
	WindowsConfigBuilder builder(context);
	builder.SetDartEntrypoint("verifyNativeFunctionWithParameters");

	bool bool_value = false;
	fml::AutoResetWaitableEvent latch;
	auto native_entry = CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) {
	auto handle = Dart_GetNativeBooleanArgument(args, 0, &bool_value);
	ASSERT_FALSE(Dart_IsError(handle));
	latch.Signal();
	});
	context.AddNativeFunction("SignalBoolValue", native_entry);

	ViewControllerPtr controller{builder.Run()};
	ASSERT_NE(controller, nullptr);

	// Wait until signalBoolValue has been called.
	latch.Wait();
	EXPECT_TRUE(bool_value);
	}

	// Verify that Platform.executable returns the executable name.
	TEST_F(WindowsTest, PlatformExecutable) {
	auto& context = GetContext();
	WindowsConfigBuilder builder(context);
	builder.SetDartEntrypoint("readPlatformExecutable");

	std::string executable_name;
	fml::AutoResetWaitableEvent latch;
	auto native_entry = CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) {
	auto handle = Dart_GetNativeArgument(args, 0);
	ASSERT_FALSE(Dart_IsError(handle));
	executable_name = tonic::DartConverter<std::string>::FromDart(handle);
	latch.Signal();
	});
	context.AddNativeFunction("SignalStringValue", native_entry);

	ViewControllerPtr controller{builder.Run()};
	ASSERT_NE(controller, nullptr);

	// Wait until signalStringValue has been called.
	latch.Wait();
	EXPECT_EQ(executable_name, "flutter_windows_unittests.exe");
	}

	// Verify that native functions that return values can be registered and
	// resolved.
	TEST_F(WindowsTest, VerifyNativeFunctionWithReturn) {
	auto& context = GetContext();
	WindowsConfigBuilder builder(context);
	builder.SetDartEntrypoint("verifyNativeFunctionWithReturn");

	bool bool_value_to_return = true;
	fml::CountDownLatch latch(2);
	auto bool_return_entry = CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) {
	Dart_SetBooleanReturnValue(args, bool_value_to_return);
	latch.CountDown();
	});
	context.AddNativeFunction("SignalBoolReturn", bool_return_entry);

	bool bool_value_passed = false;
	auto bool_pass_entry = CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) {
	auto handle = Dart_GetNativeBooleanArgument(args, 0, &bool_value_passed);
	ASSERT_FALSE(Dart_IsError(handle));
	latch.CountDown();
	});
	context.AddNativeFunction("SignalBoolValue", bool_pass_entry);

	ViewControllerPtr controller{builder.Run()};
	ASSERT_NE(controller, nullptr);

	// Wait until signalBoolReturn and signalBoolValue have been called.
	latch.Wait();
	EXPECT_TRUE(bool_value_passed);
	}

	// Verify the next frame callback is executed.
	TEST_F(WindowsTest, NextFrameCallback) {
	struct Captures {
	fml::AutoResetWaitableEvent frame_scheduled_latch;
	fml::AutoResetWaitableEvent frame_drawn_latch;
	std::thread::id thread_id;
	};
	Captures captures;

	CreateNewThread("test_platform_thread")->PostTask([&]() {
	captures.thread_id = std::this_thread::get_id();

	auto& context = GetContext();
	WindowsConfigBuilder builder(context);
	builder.SetDartEntrypoint("drawHelloWorld");

	auto native_entry = CREATE_NATIVE_ENTRY([&](Dart_NativeArguments args) {
	ASSERT_FALSE(captures.frame_drawn_latch.IsSignaledForTest());
	captures.frame_scheduled_latch.Signal();
	});
	context.AddNativeFunction("NotifyFirstFrameScheduled", native_entry);

	ViewControllerPtr controller{builder.Run()};
	ASSERT_NE(controller, nullptr);

	auto engine = FlutterDesktopViewControllerGetEngine(controller.get());

	FlutterDesktopEngineSetNextFrameCallback(
	engine,
	[](void* user_data) {
	auto captures = static_cast<Captures*>(user_data);

	ASSERT_TRUE(captures->frame_scheduled_latch.IsSignaledForTest());

	// Callback should execute on platform thread.
	ASSERT_EQ(std::this_thread::get_id(), captures->thread_id);

	// Signal the test passed and end the Windows message loop.
	captures->frame_drawn_latch.Signal();
	::PostQuitMessage(0);
	},
	&captures);

	// Pump messages for the Windows platform task runner.
	::MSG msg;
	while (::GetMessage(&msg, nullptr, 0, 0)) {
	::TranslateMessage(&msg);
	::DispatchMessage(&msg);
	}
	});

	captures.frame_drawn_latch.Wait();
	}

	TEST_F(WindowsTest, GetGraphicsAdapter) {
	auto& context = GetContext();
	WindowsConfigBuilder builder(context);
	ViewControllerPtr controller{builder.Run()};
	ASSERT_NE(controller, nullptr);
	auto view = FlutterDesktopViewControllerGetView(controller.get());

	Microsoft::WRL::ComPtr<IDXGIAdapter> dxgi_adapter;
	dxgi_adapter = FlutterDesktopViewGetGraphicsAdapter(view);
	ASSERT_NE(dxgi_adapter, nullptr);
	DXGI_ADAPTER_DESC desc{};
	ASSERT_TRUE(SUCCEEDED(dxgi_adapter->GetDesc(&desc)));
	}

	} // namespace testing
	} // namespace flutter