chromecast/system/reboot/reboot_fuchsia_test.cc - chromium/src - Git at Google

 // Copyright 2020 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 <fuchsia/feedback/cpp/fidl.h>
 #include <fuchsia/feedback/cpp/fidl_test_base.h>
 #include <fuchsia/hardware/power/statecontrol/cpp/fidl.h>
 #include <fuchsia/hardware/power/statecontrol/cpp/fidl_test_base.h>
 #include <fuchsia/io/cpp/fidl.h>
 #include <lib/fidl/cpp/interface_request.h>
 #include <lib/sys/cpp/outgoing_directory.h>
 #include <lib/sys/cpp/service_directory.h>
 #include <memory>
 #include <tuple>

 #include "base/bind.h"
 #include "base/files/file_util.h"
 #include "base/files/scoped_temp_dir.h"
 #include "base/fuchsia/scoped_service_binding.h"
 #include "base/location.h"
 #include "base/logging.h"
 #include "base/message_loop/message_pump_type.h"
 #include "base/run_loop.h"
 #include "base/strings/strcat.h"
 #include "base/test/task_environment.h"
 #include "base/threading/sequence_bound.h"
 #include "base/threading/thread.h"
 #include "chromecast/public/reboot_shlib.h"
 #include "chromecast/system/reboot/reboot_fuchsia.h"
 #include "chromecast/system/reboot/reboot_util.h"
 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace chromecast {
 namespace {

 using ::testing::Eq;
 using ::testing::Ne;

 using fuchsia::feedback::RebootReason;
 using StateControlRebootReason =
     fuchsia::hardware::power::statecontrol::RebootReason;

 struct RebootReasonParam {
   RebootReason reason;
   RebootShlib::RebootSource source;
   bool graceful;
   StateControlRebootReason state_control_reason =
       StateControlRebootReason::USER_REQUEST;
 };

 const RebootReasonParam kRebootReasonParams[] = {
     {RebootReason::COLD, RebootShlib::RebootSource::FORCED, false},
     {RebootReason::BRIEF_POWER_LOSS, RebootShlib::RebootSource::FORCED, false},
     {RebootReason::BROWNOUT, RebootShlib::RebootSource::FORCED, false},
     {RebootReason::KERNEL_PANIC, RebootShlib::RebootSource::FORCED, false},
     {RebootReason::SYSTEM_OUT_OF_MEMORY,
      RebootShlib::RebootSource::REPEATED_OOM, false},
     {RebootReason::HARDWARE_WATCHDOG_TIMEOUT,
      RebootShlib::RebootSource::HW_WATCHDOG, false},
     {RebootReason::HARDWARE_WATCHDOG_TIMEOUT,
      RebootShlib::RebootSource::HW_WATCHDOG, false},
     {RebootReason::SOFTWARE_WATCHDOG_TIMEOUT,
      RebootShlib::RebootSource::WATCHDOG, false},

     // Graceful reboot reasons.
     {RebootReason::USER_REQUEST, RebootShlib::RebootSource::API, true,
      StateControlRebootReason::USER_REQUEST},
     {RebootReason::SYSTEM_UPDATE, RebootShlib::RebootSource::OTA, true,
      StateControlRebootReason::SYSTEM_UPDATE},
     {RebootReason::HIGH_TEMPERATURE, RebootShlib::RebootSource::OVERHEAT, true,
      StateControlRebootReason::HIGH_TEMPERATURE},
     {RebootReason::SESSION_FAILURE, RebootShlib::RebootSource::SW_OTHER, true},
 };

 constexpr char kStartedOnce[] = "component-started-once";
 constexpr char kGracefulTeardown[] = "component-graceful-teardown";

 struct RestartReasonParam {
   RebootShlib::RebootSource source;
   bool graceful;
   const char* file;
 };

 const RestartReasonParam kRestartReasonParams[] = {
     {RebootShlib::RebootSource::UNGRACEFUL_RESTART, false, kStartedOnce},
     {RebootShlib::RebootSource::GRACEFUL_RESTART, true, kGracefulTeardown},
 };


 class FakeAdmin
     : public fuchsia::hardware::power::statecontrol::testing::Admin_TestBase {
  public:
   explicit FakeAdmin(sys::OutgoingDirectory* outgoing_directory)
       : binding_(outgoing_directory, this) {}

   void GetLastRebootReason(StateControlRebootReason* reason) {
     *reason = last_reboot_reason_;
   }

  private:
   void Reboot(StateControlRebootReason reason, RebootCallback callback) final {
     last_reboot_reason_ = reason;
     fuchsia::hardware::power::statecontrol::Admin_Reboot_Response response;
     fuchsia::hardware::power::statecontrol::Admin_Reboot_Result result;
     result.set_response(response);
     callback(std::move(result));
   }

   void NotImplemented_(const std::string& name) final {
     ADD_FAILURE() << "NotImplemented_: " << name;
   }

   base::fuchsia::ScopedServiceBinding<
       fuchsia::hardware::power::statecontrol::Admin>
       binding_;
   StateControlRebootReason last_reboot_reason_;
 };

 class FakeLastRebootInfoProvider
     : public fuchsia::feedback::testing::LastRebootInfoProvider_TestBase {
  public:
   explicit FakeLastRebootInfoProvider(
       sys::OutgoingDirectory* outgoing_directory)
       : binding_(outgoing_directory, this) {}

   void SetLastReboot(fuchsia::feedback::LastReboot last_reboot) {
     last_reboot_ = std::move(last_reboot);
   }

  private:
   void Get(GetCallback callback) final { callback(std::move(last_reboot_)); }

   void NotImplemented_(const std::string& name) final {
     ADD_FAILURE() << "NotImplemented_: " << name;
   }

   base::fuchsia::ScopedServiceBinding<fuchsia::feedback::LastRebootInfoProvider>
       binding_;
   fuchsia::feedback::LastReboot last_reboot_;
 };

 class RebootFuchsiaTest: public ::testing::Test {
  public:
   RebootFuchsiaTest()
       : task_environment_(base::test::TaskEnvironment::MainThreadType::IO),
         thread_("FakeLastRebootInfoProvider_Thread") {
     CHECK(thread_.StartWithOptions(
         base::Thread::Options(base::MessagePumpType::IO, 0)));
   }

   void SetUp() override {
     // Create incoming (service) and outgoing directories that are connected.
     fidl::InterfaceHandle<::fuchsia::io::Directory> directory;

     // The thread handling fidl calls to the fake service must also be the
     // thread that we start the serve operation on. Since all fakes require the
     // same output directory handle, we post a task here to begin the serve
     // operation, then flush the task runner queue to ensure that output
     // directory is safe to pass to the fakes.
     thread_.task_runner()->PostTask(
         FROM_HERE,
         base::BindOnce(&RebootFuchsiaTest::ServeOutgoingDirectory,
                        base::Unretained(this), directory.NewRequest()));
     thread_.FlushForTesting();

     // Initialize and publish fake fidl services.
     admin_ = base::SequenceBound<FakeAdmin>(thread_.task_runner(),
                                             outgoing_directory_.get());
     last_reboot_info_provider_ =
         base::SequenceBound<FakeLastRebootInfoProvider>(
             thread_.task_runner(), outgoing_directory_.get());

     // Ensure that the services above finish publishing themselves.
     thread_.FlushForTesting();

     // Use a service directory backed by the fakes above for tests.
     incoming_directory_ =
         std::make_unique<sys::ServiceDirectory>(std::move(directory));
     InitializeRebootShlib({}, incoming_directory_.get());
     EXPECT_TRUE(dir_.CreateUniqueTempDir());
     full_path_ = InitializeFlagFileDirForTesting(dir_.GetPath());
   }

   StateControlRebootReason GetLastRebootReason() {
     StateControlRebootReason reason;
     admin_.Post(FROM_HERE, &FakeAdmin::GetLastRebootReason, &reason);
     thread_.FlushForTesting();
     return reason;
   }

   void SetLastReboot(fuchsia::feedback::LastReboot last_reboot) {
     last_reboot_info_provider_.Post(FROM_HERE,
                                     &FakeLastRebootInfoProvider::SetLastReboot,
                                     std::move(last_reboot));
     thread_.FlushForTesting();
   }

  private:
   void ServeOutgoingDirectory(
       fidl::InterfaceRequest<fuchsia::io::Directory> channel) {
     outgoing_directory_ = std::make_unique<sys::OutgoingDirectory>();
     outgoing_directory_->GetOrCreateDirectory("svc")->Serve(
         fuchsia::io::OPEN_RIGHT_READABLE | fuchsia::io::OPEN_RIGHT_WRITABLE,
         channel.TakeChannel());
   }

   const base::test::SingleThreadTaskEnvironment task_environment_;
   std::unique_ptr<sys::OutgoingDirectory> outgoing_directory_;
   std::unique_ptr<sys::ServiceDirectory> incoming_directory_;
   base::SequenceBound<FakeAdmin> admin_;
   base::SequenceBound<FakeLastRebootInfoProvider> last_reboot_info_provider_;
   base::ScopedTempDir dir_;
   base::FilePath full_path_;

  protected:
   base::FilePath GenerateFlagFilePath(const base::StringPiece& name) {
     return  full_path_.Append(name);
   }

   base::Thread thread_;
 };

 TEST_F(RebootFuchsiaTest, GetLastRebootSourceDefaultsToUnknown) {
   EXPECT_THAT(RebootUtil::GetLastRebootSource(),
               Eq(RebootShlib::RebootSource::UNKNOWN));
 }

 TEST_F(RebootFuchsiaTest, GetLastRebootSourceWithoutGranularReason) {
   fuchsia::feedback::LastReboot last_reboot;
   last_reboot.set_graceful(true);
   EXPECT_TRUE(last_reboot.has_graceful());
   EXPECT_FALSE(last_reboot.has_reason());
   SetLastReboot(std::move(last_reboot));
   EXPECT_THAT(RebootUtil::GetLastRebootSource(),
               Eq(RebootShlib::RebootSource::SW_OTHER));
 }

 fuchsia::feedback::LastReboot GenerateLastReboot(bool graceful,
                                                  RebootReason reason) {
   fuchsia::feedback::LastReboot last_reboot;
   last_reboot.set_graceful(graceful);
   last_reboot.set_reason(reason);
   return last_reboot;
 }

 // RetrySystemUpdate must be handled separately because it does not work with
 // the RebootFuchsiaParamTest family of tests. Those tests expect
 // RebootSource::OTA to map to exactly one StateControlRebootReason, which is
 // now not the case.
 TEST_F(RebootFuchsiaTest, RebootReasonRetrySystemUpdateTranslatesFromFuchsia) {
   SetLastReboot(GenerateLastReboot(true, RebootReason::RETRY_SYSTEM_UPDATE));
   EXPECT_THAT(RebootUtil::GetLastRebootSource(),
               Eq(RebootShlib::RebootSource::OTA));
 }

 class RebootFuchsiaParamTest : public RebootFuchsiaTest,
                                public ::testing::WithParamInterface<RebootReasonParam> {
  public:
   RebootFuchsiaParamTest() = default;
 };

 TEST_P(RebootFuchsiaParamTest, RebootNowSendsFidlRebootReason) {
   EXPECT_TRUE(RebootShlib::RebootNow(GetParam().source));
   thread_.FlushForTesting();
   EXPECT_THAT(GetLastRebootReason(), Eq(GetParam().state_control_reason));
 }

 TEST_P(RebootFuchsiaParamTest, GetLastRebootSourceTranslatesReasonFromFuchsia) {
   SetLastReboot(GenerateLastReboot(GetParam().graceful, GetParam().reason));
   EXPECT_THAT(RebootUtil::GetLastRebootSource(), Eq(GetParam().source));
 }

 INSTANTIATE_TEST_SUITE_P(RebootReasonParamSweep,
                          RebootFuchsiaParamTest,
                          ::testing::ValuesIn(kRebootReasonParams));

 class RestartFuchsiaParamTest : public RebootFuchsiaTest,
                                 public ::testing::WithParamInterface<RestartReasonParam> {
  public:
   RestartFuchsiaParamTest() = default;

   void SetUp() override {
     RebootFuchsiaTest::SetUp();
     base::WriteFile(GenerateFlagFilePath(GetParam().file), "");
   }
 };

 TEST_P(RestartFuchsiaParamTest, GetLastRestartReasons) {
   fuchsia::feedback::LastReboot last_reboot;
   last_reboot.set_graceful(true);
   EXPECT_TRUE(last_reboot.has_graceful());
   EXPECT_FALSE(last_reboot.has_reason());
   SetLastReboot(std::move(last_reboot));

   EXPECT_THAT(RebootUtil::GetLastRebootSource(),
               Eq(GetParam().source));

   EXPECT_TRUE(base::PathExists(GenerateFlagFilePath(kStartedOnce)));
   EXPECT_FALSE(base::PathExists(GenerateFlagFilePath(kGracefulTeardown)));

   base::WriteFile(GenerateFlagFilePath(kGracefulTeardown), "");
   EXPECT_THAT(RebootUtil::GetLastRebootSource(),
               Eq(GetParam().source));
 }

 INSTANTIATE_TEST_SUITE_P(RestartReasonParamSweep,
                          RestartFuchsiaParamTest,
                          ::testing::ValuesIn(kRestartReasonParams));

 TEST_F(RebootFuchsiaTest, ThoroughTestLastRestartReason) {
   fuchsia::feedback::LastReboot last_reboot;
   last_reboot.set_graceful(true);
   EXPECT_TRUE(last_reboot.has_graceful());
   EXPECT_FALSE(last_reboot.has_reason());
   SetLastReboot(std::move(last_reboot));

   EXPECT_FALSE(base::PathExists(GenerateFlagFilePath(kStartedOnce)));
   EXPECT_FALSE(base::PathExists(GenerateFlagFilePath(kGracefulTeardown)));
   EXPECT_THAT(RebootUtil::GetLastRebootSource(),
               Ne(RebootShlib::RebootSource::GRACEFUL_RESTART));
   EXPECT_THAT(RebootUtil::GetLastRebootSource(),
               Ne(RebootShlib::RebootSource::UNGRACEFUL_RESTART));

   //Check files are created/deleted as expected
   const auto once =  GenerateFlagFilePath(kStartedOnce);
   LOG(INFO) << "looking at file " << once << " " << base::PathExists(once);
   EXPECT_TRUE(base::PathExists(once));
   EXPECT_FALSE(base::PathExists(GenerateFlagFilePath(kGracefulTeardown)));

   //Confirm reboot reason will not change after create files when check again
   base::WriteFile(GenerateFlagFilePath(kStartedOnce), "");
   base::WriteFile(GenerateFlagFilePath(kGracefulTeardown), "");
   EXPECT_THAT(RebootUtil::GetLastRebootSource(),
               Ne(RebootShlib::RebootSource::GRACEFUL_RESTART));
   EXPECT_THAT(RebootUtil::GetLastRebootSource(),
               Ne(RebootShlib::RebootSource::UNGRACEFUL_RESTART));

   //Emulate Reboot
   RebootUtil::Finalize();
   InitializeRestartCheck();
   EXPECT_THAT(RebootUtil::GetLastRebootSource(),
               Eq(RebootShlib::RebootSource::GRACEFUL_RESTART));
 }

 }  // namespace
 }  // namespace chromecast
	// Copyright 2020 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 <fuchsia/feedback/cpp/fidl.h>
	#include <fuchsia/feedback/cpp/fidl_test_base.h>
	#include <fuchsia/hardware/power/statecontrol/cpp/fidl.h>
	#include <fuchsia/hardware/power/statecontrol/cpp/fidl_test_base.h>
	#include <fuchsia/io/cpp/fidl.h>
	#include <lib/fidl/cpp/interface_request.h>
	#include <lib/sys/cpp/outgoing_directory.h>
	#include <lib/sys/cpp/service_directory.h>
	#include <memory>
	#include <tuple>

	#include "base/bind.h"
	#include "base/files/file_util.h"
	#include "base/files/scoped_temp_dir.h"
	#include "base/fuchsia/scoped_service_binding.h"
	#include "base/location.h"
	#include "base/logging.h"
	#include "base/message_loop/message_pump_type.h"
	#include "base/run_loop.h"
	#include "base/strings/strcat.h"
	#include "base/test/task_environment.h"
	#include "base/threading/sequence_bound.h"
	#include "base/threading/thread.h"
	#include "chromecast/public/reboot_shlib.h"
	#include "chromecast/system/reboot/reboot_fuchsia.h"
	#include "chromecast/system/reboot/reboot_util.h"
	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace chromecast {
	namespace {

	using ::testing::Eq;
	using ::testing::Ne;

	using fuchsia::feedback::RebootReason;
	using StateControlRebootReason =
	fuchsia::hardware::power::statecontrol::RebootReason;

	struct RebootReasonParam {
	RebootReason reason;
	RebootShlib::RebootSource source;
	bool graceful;
	StateControlRebootReason state_control_reason =
	StateControlRebootReason::USER_REQUEST;
	};

	const RebootReasonParam kRebootReasonParams[] = {
	{RebootReason::COLD, RebootShlib::RebootSource::FORCED, false},
	{RebootReason::BRIEF_POWER_LOSS, RebootShlib::RebootSource::FORCED, false},
	{RebootReason::BROWNOUT, RebootShlib::RebootSource::FORCED, false},
	{RebootReason::KERNEL_PANIC, RebootShlib::RebootSource::FORCED, false},
	{RebootReason::SYSTEM_OUT_OF_MEMORY,
	RebootShlib::RebootSource::REPEATED_OOM, false},
	{RebootReason::HARDWARE_WATCHDOG_TIMEOUT,
	RebootShlib::RebootSource::HW_WATCHDOG, false},
	{RebootReason::HARDWARE_WATCHDOG_TIMEOUT,
	RebootShlib::RebootSource::HW_WATCHDOG, false},
	{RebootReason::SOFTWARE_WATCHDOG_TIMEOUT,
	RebootShlib::RebootSource::WATCHDOG, false},

	// Graceful reboot reasons.
	{RebootReason::USER_REQUEST, RebootShlib::RebootSource::API, true,
	StateControlRebootReason::USER_REQUEST},
	{RebootReason::SYSTEM_UPDATE, RebootShlib::RebootSource::OTA, true,
	StateControlRebootReason::SYSTEM_UPDATE},
	{RebootReason::HIGH_TEMPERATURE, RebootShlib::RebootSource::OVERHEAT, true,
	StateControlRebootReason::HIGH_TEMPERATURE},
	{RebootReason::SESSION_FAILURE, RebootShlib::RebootSource::SW_OTHER, true},
	};

	constexpr char kStartedOnce[] = "component-started-once";
	constexpr char kGracefulTeardown[] = "component-graceful-teardown";

	struct RestartReasonParam {
	RebootShlib::RebootSource source;
	bool graceful;
	const char* file;
	};

	const RestartReasonParam kRestartReasonParams[] = {
	{RebootShlib::RebootSource::UNGRACEFUL_RESTART, false, kStartedOnce},
	{RebootShlib::RebootSource::GRACEFUL_RESTART, true, kGracefulTeardown},
	};


	class FakeAdmin
	: public fuchsia::hardware::power::statecontrol::testing::Admin_TestBase {
	public:
	explicit FakeAdmin(sys::OutgoingDirectory* outgoing_directory)
	: binding_(outgoing_directory, this) {}

	void GetLastRebootReason(StateControlRebootReason* reason) {
	*reason = last_reboot_reason_;
	}

	private:
	void Reboot(StateControlRebootReason reason, RebootCallback callback) final {
	last_reboot_reason_ = reason;
	fuchsia::hardware::power::statecontrol::Admin_Reboot_Response response;
	fuchsia::hardware::power::statecontrol::Admin_Reboot_Result result;
	result.set_response(response);
	callback(std::move(result));
	}

	void NotImplemented_(const std::string& name) final {
	ADD_FAILURE() << "NotImplemented_: " << name;
	}

	base::fuchsia::ScopedServiceBinding<
	fuchsia::hardware::power::statecontrol::Admin>
	binding_;
	StateControlRebootReason last_reboot_reason_;
	};

	class FakeLastRebootInfoProvider
	: public fuchsia::feedback::testing::LastRebootInfoProvider_TestBase {
	public:
	explicit FakeLastRebootInfoProvider(
	sys::OutgoingDirectory* outgoing_directory)
	: binding_(outgoing_directory, this) {}

	void SetLastReboot(fuchsia::feedback::LastReboot last_reboot) {
	last_reboot_ = std::move(last_reboot);
	}

	private:
	void Get(GetCallback callback) final { callback(std::move(last_reboot_)); }

	void NotImplemented_(const std::string& name) final {
	ADD_FAILURE() << "NotImplemented_: " << name;
	}

	base::fuchsia::ScopedServiceBinding<fuchsia::feedback::LastRebootInfoProvider>
	binding_;
	fuchsia::feedback::LastReboot last_reboot_;
	};

	class RebootFuchsiaTest: public ::testing::Test {
	public:
	RebootFuchsiaTest()
	: task_environment_(base::test::TaskEnvironment::MainThreadType::IO),
	thread_("FakeLastRebootInfoProvider_Thread") {
	CHECK(thread_.StartWithOptions(
	base::Thread::Options(base::MessagePumpType::IO, 0)));
	}

	void SetUp() override {
	// Create incoming (service) and outgoing directories that are connected.
	fidl::InterfaceHandle<::fuchsia::io::Directory> directory;

	// The thread handling fidl calls to the fake service must also be the
	// thread that we start the serve operation on. Since all fakes require the
	// same output directory handle, we post a task here to begin the serve
	// operation, then flush the task runner queue to ensure that output
	// directory is safe to pass to the fakes.
	thread_.task_runner()->PostTask(
	FROM_HERE,
	base::BindOnce(&RebootFuchsiaTest::ServeOutgoingDirectory,
	base::Unretained(this), directory.NewRequest()));
	thread_.FlushForTesting();

	// Initialize and publish fake fidl services.
	admin_ = base::SequenceBound<FakeAdmin>(thread_.task_runner(),
	outgoing_directory_.get());
	last_reboot_info_provider_ =
	base::SequenceBound<FakeLastRebootInfoProvider>(
	thread_.task_runner(), outgoing_directory_.get());

	// Ensure that the services above finish publishing themselves.
	thread_.FlushForTesting();

	// Use a service directory backed by the fakes above for tests.
	incoming_directory_ =
	std::make_unique<sys::ServiceDirectory>(std::move(directory));
	InitializeRebootShlib({}, incoming_directory_.get());
	EXPECT_TRUE(dir_.CreateUniqueTempDir());
	full_path_ = InitializeFlagFileDirForTesting(dir_.GetPath());
	}

	StateControlRebootReason GetLastRebootReason() {
	StateControlRebootReason reason;
	admin_.Post(FROM_HERE, &FakeAdmin::GetLastRebootReason, &reason);
	thread_.FlushForTesting();
	return reason;
	}

	void SetLastReboot(fuchsia::feedback::LastReboot last_reboot) {
	last_reboot_info_provider_.Post(FROM_HERE,
	&FakeLastRebootInfoProvider::SetLastReboot,
	std::move(last_reboot));
	thread_.FlushForTesting();
	}

	private:
	void ServeOutgoingDirectory(
	fidl::InterfaceRequest<fuchsia::io::Directory> channel) {
	outgoing_directory_ = std::make_unique<sys::OutgoingDirectory>();
	outgoing_directory_->GetOrCreateDirectory("svc")->Serve(
	fuchsia::io::OPEN_RIGHT_READABLE \| fuchsia::io::OPEN_RIGHT_WRITABLE,
	channel.TakeChannel());
	}

	const base::test::SingleThreadTaskEnvironment task_environment_;
	std::unique_ptr<sys::OutgoingDirectory> outgoing_directory_;
	std::unique_ptr<sys::ServiceDirectory> incoming_directory_;
	base::SequenceBound<FakeAdmin> admin_;
	base::SequenceBound<FakeLastRebootInfoProvider> last_reboot_info_provider_;
	base::ScopedTempDir dir_;
	base::FilePath full_path_;

	protected:
	base::FilePath GenerateFlagFilePath(const base::StringPiece& name) {
	return full_path_.Append(name);
	}

	base::Thread thread_;
	};

	TEST_F(RebootFuchsiaTest, GetLastRebootSourceDefaultsToUnknown) {
	EXPECT_THAT(RebootUtil::GetLastRebootSource(),
	Eq(RebootShlib::RebootSource::UNKNOWN));
	}

	TEST_F(RebootFuchsiaTest, GetLastRebootSourceWithoutGranularReason) {
	fuchsia::feedback::LastReboot last_reboot;
	last_reboot.set_graceful(true);
	EXPECT_TRUE(last_reboot.has_graceful());
	EXPECT_FALSE(last_reboot.has_reason());
	SetLastReboot(std::move(last_reboot));
	EXPECT_THAT(RebootUtil::GetLastRebootSource(),
	Eq(RebootShlib::RebootSource::SW_OTHER));
	}

	fuchsia::feedback::LastReboot GenerateLastReboot(bool graceful,
	RebootReason reason) {
	fuchsia::feedback::LastReboot last_reboot;
	last_reboot.set_graceful(graceful);
	last_reboot.set_reason(reason);
	return last_reboot;
	}

	// RetrySystemUpdate must be handled separately because it does not work with
	// the RebootFuchsiaParamTest family of tests. Those tests expect
	// RebootSource::OTA to map to exactly one StateControlRebootReason, which is
	// now not the case.
	TEST_F(RebootFuchsiaTest, RebootReasonRetrySystemUpdateTranslatesFromFuchsia) {
	SetLastReboot(GenerateLastReboot(true, RebootReason::RETRY_SYSTEM_UPDATE));
	EXPECT_THAT(RebootUtil::GetLastRebootSource(),
	Eq(RebootShlib::RebootSource::OTA));
	}

	class RebootFuchsiaParamTest : public RebootFuchsiaTest,
	public ::testing::WithParamInterface<RebootReasonParam> {
	public:
	RebootFuchsiaParamTest() = default;
	};

	TEST_P(RebootFuchsiaParamTest, RebootNowSendsFidlRebootReason) {
	EXPECT_TRUE(RebootShlib::RebootNow(GetParam().source));
	thread_.FlushForTesting();
	EXPECT_THAT(GetLastRebootReason(), Eq(GetParam().state_control_reason));
	}

	TEST_P(RebootFuchsiaParamTest, GetLastRebootSourceTranslatesReasonFromFuchsia) {
	SetLastReboot(GenerateLastReboot(GetParam().graceful, GetParam().reason));
	EXPECT_THAT(RebootUtil::GetLastRebootSource(), Eq(GetParam().source));
	}

	INSTANTIATE_TEST_SUITE_P(RebootReasonParamSweep,
	RebootFuchsiaParamTest,
	::testing::ValuesIn(kRebootReasonParams));

	class RestartFuchsiaParamTest : public RebootFuchsiaTest,
	public ::testing::WithParamInterface<RestartReasonParam> {
	public:
	RestartFuchsiaParamTest() = default;

	void SetUp() override {
	RebootFuchsiaTest::SetUp();
	base::WriteFile(GenerateFlagFilePath(GetParam().file), "");
	}
	};

	TEST_P(RestartFuchsiaParamTest, GetLastRestartReasons) {
	fuchsia::feedback::LastReboot last_reboot;
	last_reboot.set_graceful(true);
	EXPECT_TRUE(last_reboot.has_graceful());
	EXPECT_FALSE(last_reboot.has_reason());
	SetLastReboot(std::move(last_reboot));

	EXPECT_THAT(RebootUtil::GetLastRebootSource(),
	Eq(GetParam().source));

	EXPECT_TRUE(base::PathExists(GenerateFlagFilePath(kStartedOnce)));
	EXPECT_FALSE(base::PathExists(GenerateFlagFilePath(kGracefulTeardown)));

	base::WriteFile(GenerateFlagFilePath(kGracefulTeardown), "");
	EXPECT_THAT(RebootUtil::GetLastRebootSource(),
	Eq(GetParam().source));
	}

	INSTANTIATE_TEST_SUITE_P(RestartReasonParamSweep,
	RestartFuchsiaParamTest,
	::testing::ValuesIn(kRestartReasonParams));

	TEST_F(RebootFuchsiaTest, ThoroughTestLastRestartReason) {
	fuchsia::feedback::LastReboot last_reboot;
	last_reboot.set_graceful(true);
	EXPECT_TRUE(last_reboot.has_graceful());
	EXPECT_FALSE(last_reboot.has_reason());
	SetLastReboot(std::move(last_reboot));

	EXPECT_FALSE(base::PathExists(GenerateFlagFilePath(kStartedOnce)));
	EXPECT_FALSE(base::PathExists(GenerateFlagFilePath(kGracefulTeardown)));
	EXPECT_THAT(RebootUtil::GetLastRebootSource(),
	Ne(RebootShlib::RebootSource::GRACEFUL_RESTART));
	EXPECT_THAT(RebootUtil::GetLastRebootSource(),
	Ne(RebootShlib::RebootSource::UNGRACEFUL_RESTART));

	//Check files are created/deleted as expected
	const auto once = GenerateFlagFilePath(kStartedOnce);
	LOG(INFO) << "looking at file " << once << " " << base::PathExists(once);
	EXPECT_TRUE(base::PathExists(once));
	EXPECT_FALSE(base::PathExists(GenerateFlagFilePath(kGracefulTeardown)));

	//Confirm reboot reason will not change after create files when check again
	base::WriteFile(GenerateFlagFilePath(kStartedOnce), "");
	base::WriteFile(GenerateFlagFilePath(kGracefulTeardown), "");
	EXPECT_THAT(RebootUtil::GetLastRebootSource(),
	Ne(RebootShlib::RebootSource::GRACEFUL_RESTART));
	EXPECT_THAT(RebootUtil::GetLastRebootSource(),
	Ne(RebootShlib::RebootSource::UNGRACEFUL_RESTART));

	//Emulate Reboot
	RebootUtil::Finalize();
	InitializeRestartCheck();
	EXPECT_THAT(RebootUtil::GetLastRebootSource(),
	Eq(RebootShlib::RebootSource::GRACEFUL_RESTART));
	}

	} // namespace
	} // namespace chromecast