rmad/state_handler/device_destination_state_handler_test.cc - mirrors/cros/chromiumos/platform2 - Git at Google

 // Copyright 2021 The Chromium OS 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 <memory>
 #include <string>
 #include <utility>
 #include <vector>

 #include <base/memory/scoped_refptr.h>
 #include <gtest/gtest.h>

 #include "rmad/constants.h"
 #include "rmad/state_handler/device_destination_state_handler.h"
 #include "rmad/state_handler/state_handler_test_common.h"
 #include "rmad/utils/mock_cr50_utils.h"

 using testing::NiceMock;
 using testing::Return;

 namespace rmad {

 using ComponentRepairStatus = ComponentsRepairState::ComponentRepairStatus;

 class DeviceDestinationStateHandlerTest : public StateHandlerTest {
  public:
   scoped_refptr<DeviceDestinationStateHandler> CreateStateHandler(
       bool factory_mode_enabled) {
     // Mock |Cr50Utils|.
     auto mock_cr50_utils = std::make_unique<NiceMock<MockCr50Utils>>();
     ON_CALL(*mock_cr50_utils, IsFactoryModeEnabled())
         .WillByDefault(Return(factory_mode_enabled));

     return base::MakeRefCounted<DeviceDestinationStateHandler>(
         json_store_, std::move(mock_cr50_utils));
   }
 };

 TEST_F(DeviceDestinationStateHandlerTest, InitializeState_Success) {
   auto handler = CreateStateHandler(false);
   EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);
 }

 TEST_F(DeviceDestinationStateHandlerTest,
        GetNextStateCase_Success_Same_NeedCalibration_FactoryModeEnabled) {
   auto handler = CreateStateHandler(true);
   EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

   json_store_->SetValue(kReplacedComponentNames,
                         std::vector<RmadComponent>{RMAD_COMPONENT_GYROSCOPE});

   auto device_destination = std::make_unique<DeviceDestinationState>();
   device_destination->set_destination(
       DeviceDestinationState::RMAD_DESTINATION_SAME);
   RmadState state;
   state.set_allocated_device_destination(device_destination.release());

   auto [error, state_case] = handler->GetNextStateCase(state);
   EXPECT_EQ(error, RMAD_ERROR_OK);
   EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableComplete);

   bool same_owner;
   EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
   EXPECT_TRUE(same_owner);

   bool wp_disable_skipped;
   EXPECT_TRUE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
   EXPECT_TRUE(wp_disable_skipped);
 }

 TEST_F(DeviceDestinationStateHandlerTest,
        GetNextStateCase_Success_Same_NeedCalibration_FactoryModeDisabled) {
   auto handler = CreateStateHandler(false);
   EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

   json_store_->SetValue(kReplacedComponentNames,
                         std::vector<RmadComponent>{RMAD_COMPONENT_GYROSCOPE});

   auto device_destination = std::make_unique<DeviceDestinationState>();
   device_destination->set_destination(
       DeviceDestinationState::RMAD_DESTINATION_SAME);
   RmadState state;
   state.set_allocated_device_destination(device_destination.release());

   auto [error, state_case] = handler->GetNextStateCase(state);
   EXPECT_EQ(error, RMAD_ERROR_OK);
   EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableMethod);

   bool same_owner;
   EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
   EXPECT_TRUE(same_owner);

   bool wp_disable_skipped;
   EXPECT_FALSE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
 }

 TEST_F(DeviceDestinationStateHandlerTest,
        GetNextStateCase_Success_Same_NoCalibration_FactoryModeEnabled) {
   auto handler = CreateStateHandler(true);
   EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

   json_store_->SetValue(
       kReplacedComponentNames,
       std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_BATTERY)});

   auto device_destination = std::make_unique<DeviceDestinationState>();
   device_destination->set_destination(
       DeviceDestinationState::RMAD_DESTINATION_SAME);
   RmadState state;
   state.set_allocated_device_destination(device_destination.release());

   auto [error, state_case] = handler->GetNextStateCase(state);
   EXPECT_EQ(error, RMAD_ERROR_OK);
   EXPECT_EQ(state_case, RmadState::StateCase::kFinalize);

   bool same_owner;
   EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
   EXPECT_TRUE(same_owner);

   bool wp_disable_skipped;
   EXPECT_FALSE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
 }

 TEST_F(DeviceDestinationStateHandlerTest,
        GetNextStateCase_Success_Same_NoCalibration_FactoryModeDisabled) {
   auto handler = CreateStateHandler(false);
   EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

   json_store_->SetValue(
       kReplacedComponentNames,
       std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_BATTERY)});

   auto device_destination = std::make_unique<DeviceDestinationState>();
   device_destination->set_destination(
       DeviceDestinationState::RMAD_DESTINATION_SAME);
   RmadState state;
   state.set_allocated_device_destination(device_destination.release());

   auto [error, state_case] = handler->GetNextStateCase(state);
   EXPECT_EQ(error, RMAD_ERROR_OK);
   EXPECT_EQ(state_case, RmadState::StateCase::kFinalize);

   bool same_owner;
   EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
   EXPECT_TRUE(same_owner);

   bool wp_disable_skipped;
   EXPECT_FALSE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
 }

 TEST_F(DeviceDestinationStateHandlerTest,
        GetNextStateCase_Success_Different_NeedCalibration_FactoryModeEnabled) {
   auto handler = CreateStateHandler(true);
   EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

   json_store_->SetValue(
       kReplacedComponentNames,
       std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_GYROSCOPE)});

   auto device_destination = std::make_unique<DeviceDestinationState>();
   device_destination->set_destination(
       DeviceDestinationState::RMAD_DESTINATION_DIFFERENT);
   RmadState state;
   state.set_allocated_device_destination(device_destination.release());

   auto [error, state_case] = handler->GetNextStateCase(state);
   EXPECT_EQ(error, RMAD_ERROR_OK);
   EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableComplete);

   bool same_owner;
   EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
   EXPECT_FALSE(same_owner);

   bool wp_disable_skipped;
   EXPECT_TRUE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
   EXPECT_TRUE(wp_disable_skipped);
 }

 TEST_F(DeviceDestinationStateHandlerTest,
        GetNextStateCase_Success_Different_NeedCalibration_FactoryModeDisabled) {
   auto handler = CreateStateHandler(false);
   EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

   json_store_->SetValue(
       kReplacedComponentNames,
       std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_GYROSCOPE)});

   auto device_destination = std::make_unique<DeviceDestinationState>();
   device_destination->set_destination(
       DeviceDestinationState::RMAD_DESTINATION_DIFFERENT);
   RmadState state;
   state.set_allocated_device_destination(device_destination.release());

   auto [error, state_case] = handler->GetNextStateCase(state);
   EXPECT_EQ(error, RMAD_ERROR_OK);
   EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableMethod);

   bool same_owner;
   EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
   EXPECT_FALSE(same_owner);

   bool wp_disable_skipped;
   EXPECT_FALSE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
 }

 TEST_F(DeviceDestinationStateHandlerTest,
        GetNextStateCase_Success_Different_NoCalibration_FactoryModeEnabled) {
   auto handler = CreateStateHandler(true);
   EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

   json_store_->SetValue(
       kReplacedComponentNames,
       std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_GYROSCOPE)});

   auto device_destination = std::make_unique<DeviceDestinationState>();
   device_destination->set_destination(
       DeviceDestinationState::RMAD_DESTINATION_DIFFERENT);
   RmadState state;
   state.set_allocated_device_destination(device_destination.release());

   auto [error, state_case] = handler->GetNextStateCase(state);
   EXPECT_EQ(error, RMAD_ERROR_OK);
   EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableComplete);

   bool same_owner;
   EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
   EXPECT_FALSE(same_owner);

   bool wp_disable_skipped;
   EXPECT_TRUE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
   EXPECT_TRUE(wp_disable_skipped);
 }

 TEST_F(DeviceDestinationStateHandlerTest,
        GetNextStateCase_Success_Different_NoCalibration_FactoryModeDisabled) {
   auto handler = CreateStateHandler(false);
   EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

   json_store_->SetValue(
       kReplacedComponentNames,
       std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_GYROSCOPE)});

   auto device_destination = std::make_unique<DeviceDestinationState>();
   device_destination->set_destination(
       DeviceDestinationState::RMAD_DESTINATION_DIFFERENT);
   RmadState state;
   state.set_allocated_device_destination(device_destination.release());

   auto [error, state_case] = handler->GetNextStateCase(state);
   EXPECT_EQ(error, RMAD_ERROR_OK);
   EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableMethod);

   bool same_owner;
   EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
   EXPECT_FALSE(same_owner);

   bool wp_disable_skipped;
   EXPECT_FALSE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
 }

 TEST_F(DeviceDestinationStateHandlerTest, GetNextStateCase_MissingState) {
   auto handler = CreateStateHandler(false);
   EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

   // No DeviceDestinationState.
   RmadState state;

   auto [error, state_case] = handler->GetNextStateCase(state);
   EXPECT_EQ(error, RMAD_ERROR_REQUEST_INVALID);
   EXPECT_EQ(state_case, RmadState::StateCase::kDeviceDestination);
 }

 TEST_F(DeviceDestinationStateHandlerTest, GetNextStateCase_MissingArgs) {
   auto handler = CreateStateHandler(false);
   EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

   auto device_destination = std::make_unique<DeviceDestinationState>();
   device_destination->set_destination(
       DeviceDestinationState::RMAD_DESTINATION_UNKNOWN);
   RmadState state;
   state.set_allocated_device_destination(device_destination.release());

   auto [error, state_case] = handler->GetNextStateCase(state);
   EXPECT_EQ(error, RMAD_ERROR_REQUEST_ARGS_MISSING);
   EXPECT_EQ(state_case, RmadState::StateCase::kDeviceDestination);
 }

 }  // namespace rmad
	// Copyright 2021 The Chromium OS 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 <memory>
	#include <string>
	#include <utility>
	#include <vector>

	#include <base/memory/scoped_refptr.h>
	#include <gtest/gtest.h>

	#include "rmad/constants.h"
	#include "rmad/state_handler/device_destination_state_handler.h"
	#include "rmad/state_handler/state_handler_test_common.h"
	#include "rmad/utils/mock_cr50_utils.h"

	using testing::NiceMock;
	using testing::Return;

	namespace rmad {

	using ComponentRepairStatus = ComponentsRepairState::ComponentRepairStatus;

	class DeviceDestinationStateHandlerTest : public StateHandlerTest {
	public:
	scoped_refptr<DeviceDestinationStateHandler> CreateStateHandler(
	bool factory_mode_enabled) {
	// Mock \|Cr50Utils\|.
	auto mock_cr50_utils = std::make_unique<NiceMock<MockCr50Utils>>();
	ON_CALL(*mock_cr50_utils, IsFactoryModeEnabled())
	.WillByDefault(Return(factory_mode_enabled));

	return base::MakeRefCounted<DeviceDestinationStateHandler>(
	json_store_, std::move(mock_cr50_utils));
	}
	};

	TEST_F(DeviceDestinationStateHandlerTest, InitializeState_Success) {
	auto handler = CreateStateHandler(false);
	EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);
	}

	TEST_F(DeviceDestinationStateHandlerTest,
	GetNextStateCase_Success_Same_NeedCalibration_FactoryModeEnabled) {
	auto handler = CreateStateHandler(true);
	EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

	json_store_->SetValue(kReplacedComponentNames,
	std::vector<RmadComponent>{RMAD_COMPONENT_GYROSCOPE});

	auto device_destination = std::make_unique<DeviceDestinationState>();
	device_destination->set_destination(
	DeviceDestinationState::RMAD_DESTINATION_SAME);
	RmadState state;
	state.set_allocated_device_destination(device_destination.release());

	auto [error, state_case] = handler->GetNextStateCase(state);
	EXPECT_EQ(error, RMAD_ERROR_OK);
	EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableComplete);

	bool same_owner;
	EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
	EXPECT_TRUE(same_owner);

	bool wp_disable_skipped;
	EXPECT_TRUE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
	EXPECT_TRUE(wp_disable_skipped);
	}

	TEST_F(DeviceDestinationStateHandlerTest,
	GetNextStateCase_Success_Same_NeedCalibration_FactoryModeDisabled) {
	auto handler = CreateStateHandler(false);
	EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

	json_store_->SetValue(kReplacedComponentNames,
	std::vector<RmadComponent>{RMAD_COMPONENT_GYROSCOPE});

	auto device_destination = std::make_unique<DeviceDestinationState>();
	device_destination->set_destination(
	DeviceDestinationState::RMAD_DESTINATION_SAME);
	RmadState state;
	state.set_allocated_device_destination(device_destination.release());

	auto [error, state_case] = handler->GetNextStateCase(state);
	EXPECT_EQ(error, RMAD_ERROR_OK);
	EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableMethod);

	bool same_owner;
	EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
	EXPECT_TRUE(same_owner);

	bool wp_disable_skipped;
	EXPECT_FALSE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
	}

	TEST_F(DeviceDestinationStateHandlerTest,
	GetNextStateCase_Success_Same_NoCalibration_FactoryModeEnabled) {
	auto handler = CreateStateHandler(true);
	EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

	json_store_->SetValue(
	kReplacedComponentNames,
	std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_BATTERY)});

	auto device_destination = std::make_unique<DeviceDestinationState>();
	device_destination->set_destination(
	DeviceDestinationState::RMAD_DESTINATION_SAME);
	RmadState state;
	state.set_allocated_device_destination(device_destination.release());

	auto [error, state_case] = handler->GetNextStateCase(state);
	EXPECT_EQ(error, RMAD_ERROR_OK);
	EXPECT_EQ(state_case, RmadState::StateCase::kFinalize);

	bool same_owner;
	EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
	EXPECT_TRUE(same_owner);

	bool wp_disable_skipped;
	EXPECT_FALSE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
	}

	TEST_F(DeviceDestinationStateHandlerTest,
	GetNextStateCase_Success_Same_NoCalibration_FactoryModeDisabled) {
	auto handler = CreateStateHandler(false);
	EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

	json_store_->SetValue(
	kReplacedComponentNames,
	std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_BATTERY)});

	auto device_destination = std::make_unique<DeviceDestinationState>();
	device_destination->set_destination(
	DeviceDestinationState::RMAD_DESTINATION_SAME);
	RmadState state;
	state.set_allocated_device_destination(device_destination.release());

	auto [error, state_case] = handler->GetNextStateCase(state);
	EXPECT_EQ(error, RMAD_ERROR_OK);
	EXPECT_EQ(state_case, RmadState::StateCase::kFinalize);

	bool same_owner;
	EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
	EXPECT_TRUE(same_owner);

	bool wp_disable_skipped;
	EXPECT_FALSE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
	}

	TEST_F(DeviceDestinationStateHandlerTest,
	GetNextStateCase_Success_Different_NeedCalibration_FactoryModeEnabled) {
	auto handler = CreateStateHandler(true);
	EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

	json_store_->SetValue(
	kReplacedComponentNames,
	std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_GYROSCOPE)});

	auto device_destination = std::make_unique<DeviceDestinationState>();
	device_destination->set_destination(
	DeviceDestinationState::RMAD_DESTINATION_DIFFERENT);
	RmadState state;
	state.set_allocated_device_destination(device_destination.release());

	auto [error, state_case] = handler->GetNextStateCase(state);
	EXPECT_EQ(error, RMAD_ERROR_OK);
	EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableComplete);

	bool same_owner;
	EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
	EXPECT_FALSE(same_owner);

	bool wp_disable_skipped;
	EXPECT_TRUE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
	EXPECT_TRUE(wp_disable_skipped);
	}

	TEST_F(DeviceDestinationStateHandlerTest,
	GetNextStateCase_Success_Different_NeedCalibration_FactoryModeDisabled) {
	auto handler = CreateStateHandler(false);
	EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

	json_store_->SetValue(
	kReplacedComponentNames,
	std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_GYROSCOPE)});

	auto device_destination = std::make_unique<DeviceDestinationState>();
	device_destination->set_destination(
	DeviceDestinationState::RMAD_DESTINATION_DIFFERENT);
	RmadState state;
	state.set_allocated_device_destination(device_destination.release());

	auto [error, state_case] = handler->GetNextStateCase(state);
	EXPECT_EQ(error, RMAD_ERROR_OK);
	EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableMethod);

	bool same_owner;
	EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
	EXPECT_FALSE(same_owner);

	bool wp_disable_skipped;
	EXPECT_FALSE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
	}

	TEST_F(DeviceDestinationStateHandlerTest,
	GetNextStateCase_Success_Different_NoCalibration_FactoryModeEnabled) {
	auto handler = CreateStateHandler(true);
	EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

	json_store_->SetValue(
	kReplacedComponentNames,
	std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_GYROSCOPE)});

	auto device_destination = std::make_unique<DeviceDestinationState>();
	device_destination->set_destination(
	DeviceDestinationState::RMAD_DESTINATION_DIFFERENT);
	RmadState state;
	state.set_allocated_device_destination(device_destination.release());

	auto [error, state_case] = handler->GetNextStateCase(state);
	EXPECT_EQ(error, RMAD_ERROR_OK);
	EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableComplete);

	bool same_owner;
	EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
	EXPECT_FALSE(same_owner);

	bool wp_disable_skipped;
	EXPECT_TRUE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
	EXPECT_TRUE(wp_disable_skipped);
	}

	TEST_F(DeviceDestinationStateHandlerTest,
	GetNextStateCase_Success_Different_NoCalibration_FactoryModeDisabled) {
	auto handler = CreateStateHandler(false);
	EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

	json_store_->SetValue(
	kReplacedComponentNames,
	std::vector<std::string>{RmadComponent_Name(RMAD_COMPONENT_GYROSCOPE)});

	auto device_destination = std::make_unique<DeviceDestinationState>();
	device_destination->set_destination(
	DeviceDestinationState::RMAD_DESTINATION_DIFFERENT);
	RmadState state;
	state.set_allocated_device_destination(device_destination.release());

	auto [error, state_case] = handler->GetNextStateCase(state);
	EXPECT_EQ(error, RMAD_ERROR_OK);
	EXPECT_EQ(state_case, RmadState::StateCase::kWpDisableMethod);

	bool same_owner;
	EXPECT_TRUE(json_store_->GetValue(kSameOwner, &same_owner));
	EXPECT_FALSE(same_owner);

	bool wp_disable_skipped;
	EXPECT_FALSE(json_store_->GetValue(kWpDisableSkipped, &wp_disable_skipped));
	}

	TEST_F(DeviceDestinationStateHandlerTest, GetNextStateCase_MissingState) {
	auto handler = CreateStateHandler(false);
	EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

	// No DeviceDestinationState.
	RmadState state;

	auto [error, state_case] = handler->GetNextStateCase(state);
	EXPECT_EQ(error, RMAD_ERROR_REQUEST_INVALID);
	EXPECT_EQ(state_case, RmadState::StateCase::kDeviceDestination);
	}

	TEST_F(DeviceDestinationStateHandlerTest, GetNextStateCase_MissingArgs) {
	auto handler = CreateStateHandler(false);
	EXPECT_EQ(handler->InitializeState(), RMAD_ERROR_OK);

	auto device_destination = std::make_unique<DeviceDestinationState>();
	device_destination->set_destination(
	DeviceDestinationState::RMAD_DESTINATION_UNKNOWN);
	RmadState state;
	state.set_allocated_device_destination(device_destination.release());

	auto [error, state_case] = handler->GetNextStateCase(state);
	EXPECT_EQ(error, RMAD_ERROR_REQUEST_ARGS_MISSING);
	EXPECT_EQ(state_case, RmadState::StateCase::kDeviceDestination);
	}

	} // namespace rmad