phosphor-regulators/test/configuration_tests.cpp - openbmc/phosphor-power - Gitiles

 /**
  * Copyright © 2020 IBM Corporation
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */
 #include "action.hpp"
 #include "chassis.hpp"
 #include "configuration.hpp"
 #include "device.hpp"
 #include "i2c_interface.hpp"
 #include "i2c_write_byte_action.hpp"
 #include "mock_action.hpp"
 #include "mock_journal.hpp"
 #include "mock_services.hpp"
 #include "mocked_i2c_interface.hpp"
 #include "pmbus_utils.hpp"
 #include "pmbus_write_vout_command_action.hpp"
 #include "presence_detection.hpp"
 #include "rail.hpp"
 #include "rule.hpp"
 #include "system.hpp"

 #include <cstdint>
 #include <memory>
 #include <optional>
 #include <utility>
 #include <vector>

 #include <gmock/gmock.h>
 #include <gtest/gtest.h>

 using namespace phosphor::power::regulators;
 using namespace phosphor::power::regulators::pmbus_utils;

 using ::testing::A;
 using ::testing::Return;
 using ::testing::Throw;
 using ::testing::TypedEq;

 TEST(ConfigurationTests, Constructor)
 {
     // Test where volts value specified
     {
         std::optional<double> volts{1.3};

         std::vector<std::unique_ptr<Action>> actions{};
         actions.push_back(std::make_unique<MockAction>());
         actions.push_back(std::make_unique<MockAction>());

         Configuration configuration(volts, std::move(actions));
         EXPECT_EQ(configuration.getVolts().has_value(), true);
         EXPECT_EQ(configuration.getVolts().value(), 1.3);
         EXPECT_EQ(configuration.getActions().size(), 2);
     }

     // Test where volts value not specified
     {
         std::optional<double> volts{};

         std::vector<std::unique_ptr<Action>> actions{};
         actions.push_back(std::make_unique<MockAction>());

         Configuration configuration(volts, std::move(actions));
         EXPECT_EQ(configuration.getVolts().has_value(), false);
         EXPECT_EQ(configuration.getActions().size(), 1);
     }
 }

 // Test for execute(Services&, System&, Chassis&, Device&)
 TEST(ConfigurationTests, ExecuteForDevice)
 {
     // Test where works: Volts value not specified
     {
         // Create mock services.  Expect logDebug() to be called.
         MockServices services{};
         MockJournal& journal = services.getMockJournal();
         EXPECT_CALL(journal, logDebug("Configuring vdd_reg")).Times(1);
         EXPECT_CALL(journal, logError(A<const std::string&>())).Times(0);

         // Create I2CWriteByteAction with register 0x7C and value 0x0A
         std::unique_ptr<I2CWriteByteAction> action =
             std::make_unique<I2CWriteByteAction>(0x7C, 0x0A);

         // Create mock I2CInterface.  Expect action to write 0x0A to 0x7C.
         std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
             std::make_unique<i2c::MockedI2CInterface>();
         EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
         EXPECT_CALL(*i2cInterface,
                     write(TypedEq<uint8_t>(0x7C), TypedEq<uint8_t>(0x0A)))
             .Times(1);

         // Create Configuration with no volts value specified
         std::optional<double> volts{};
         std::vector<std::unique_ptr<Action>> actions{};
         actions.emplace_back(std::move(action));
         std::unique_ptr<Configuration> configuration =
             std::make_unique<Configuration>(volts, std::move(actions));
         Configuration* configurationPtr = configuration.get();

         // Create Device that contains Configuration
         std::unique_ptr<PresenceDetection> presenceDetection{};
         std::unique_ptr<Device> device = std::make_unique<Device>(
             "vdd_reg", true,
             "/xyz/openbmc_project/inventory/system/chassis/motherboard/reg2",
             std::move(i2cInterface), std::move(presenceDetection),
             std::move(configuration));
         Device* devicePtr = device.get();

         // Create Chassis that contains Device
         std::vector<std::unique_ptr<Device>> devices{};
         devices.emplace_back(std::move(device));
         std::unique_ptr<Chassis> chassis =
             std::make_unique<Chassis>(1, std::move(devices));
         Chassis* chassisPtr = chassis.get();

         // Create System that contains Chassis
         std::vector<std::unique_ptr<Rule>> rules{};
         std::vector<std::unique_ptr<Chassis>> chassisVec{};
         chassisVec.emplace_back(std::move(chassis));
         System system{std::move(rules), std::move(chassisVec)};

         // Execute Configuration
         configurationPtr->execute(services, system, *chassisPtr, *devicePtr);
     }

     // Test where works: Volts value specified
     {
         // Create mock services.  Expect logDebug() to be called.
         MockServices services{};
         MockJournal& journal = services.getMockJournal();
         EXPECT_CALL(journal, logDebug("Configuring vdd_reg: volts=1.300000"))
             .Times(1);
         EXPECT_CALL(journal, logError(A<const std::string&>())).Times(0);

         // Create PMBusWriteVoutCommandAction.  Do not specify a volts value
         // because it will get a value of 1.3V from the
         // ActionEnvironment/Configuration.  Specify a -8 exponent.
         // Linear format volts value = (1.3 / 2^(-8)) = 332.8 = 333 = 0x014D.
         std::optional<double> volts{};
         std::unique_ptr<PMBusWriteVoutCommandAction> action =
             std::make_unique<PMBusWriteVoutCommandAction>(
                 volts, pmbus_utils::VoutDataFormat::linear, -8, false);

         // Create mock I2CInterface.  Expect action to write 0x014D to
         // VOUT_COMMAND (command/register 0x21).
         std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
             std::make_unique<i2c::MockedI2CInterface>();
         EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
         EXPECT_CALL(*i2cInterface,
                     write(TypedEq<uint8_t>(0x21), TypedEq<uint16_t>(0x014D)))
             .Times(1);

         // Create Configuration with volts value 1.3V
         std::vector<std::unique_ptr<Action>> actions{};
         actions.emplace_back(std::move(action));
         std::unique_ptr<Configuration> configuration =
             std::make_unique<Configuration>(1.3, std::move(actions));
         Configuration* configurationPtr = configuration.get();

         // Create Device that contains Configuration
         std::unique_ptr<PresenceDetection> presenceDetection{};
         std::unique_ptr<Device> device = std::make_unique<Device>(
             "vdd_reg", true,
             "/xyz/openbmc_project/inventory/system/chassis/motherboard/reg2",
             std::move(i2cInterface), std::move(presenceDetection),
             std::move(configuration));
         Device* devicePtr = device.get();

         // Create Chassis that contains Device
         std::vector<std::unique_ptr<Device>> devices{};
         devices.emplace_back(std::move(device));
         std::unique_ptr<Chassis> chassis =
             std::make_unique<Chassis>(1, std::move(devices));
         Chassis* chassisPtr = chassis.get();

         // Create System that contains Chassis
         std::vector<std::unique_ptr<Rule>> rules{};
         std::vector<std::unique_ptr<Chassis>> chassisVec{};
         chassisVec.emplace_back(std::move(chassis));
         System system{std::move(rules), std::move(chassisVec)};

         // Execute Configuration
         configurationPtr->execute(services, system, *chassisPtr, *devicePtr);
     }

     // Test where fails
     {
         // Create mock services.  Expect logDebug() and logError() to be called.
         MockServices services{};
         MockJournal& journal = services.getMockJournal();
         std::vector<std::string> expectedErrMessagesException{
             "I2CException: Failed to write byte: bus /dev/i2c-1, addr 0x70",
             "ActionError: i2c_write_byte: { register: 0x7C, value: 0xA, mask: "
             "0xFF }"};
         EXPECT_CALL(journal, logDebug("Configuring vdd_reg")).Times(1);
         EXPECT_CALL(journal, logError(expectedErrMessagesException)).Times(1);
         EXPECT_CALL(journal, logError("Unable to configure vdd_reg")).Times(1);

         // Create I2CWriteByteAction with register 0x7C and value 0x0A
         std::unique_ptr<I2CWriteByteAction> action =
             std::make_unique<I2CWriteByteAction>(0x7C, 0x0A);

         // Create mock I2CInterface.  write() throws an I2CException.
         std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
             std::make_unique<i2c::MockedI2CInterface>();
         EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
         EXPECT_CALL(*i2cInterface,
                     write(TypedEq<uint8_t>(0x7C), TypedEq<uint8_t>(0x0A)))
             .Times(1)
             .WillOnce(Throw(
                 i2c::I2CException{"Failed to write byte", "/dev/i2c-1", 0x70}));

         // Create Configuration with no volts value specified
         std::optional<double> volts{};
         std::vector<std::unique_ptr<Action>> actions{};
         actions.emplace_back(std::move(action));
         std::unique_ptr<Configuration> configuration =
             std::make_unique<Configuration>(volts, std::move(actions));
         Configuration* configurationPtr = configuration.get();

         // Create Device that contains Configuration
         std::unique_ptr<PresenceDetection> presenceDetection{};
         std::unique_ptr<Device> device = std::make_unique<Device>(
             "vdd_reg", true,
             "/xyz/openbmc_project/inventory/system/chassis/motherboard/reg2",
             std::move(i2cInterface), std::move(presenceDetection),
             std::move(configuration));
         Device* devicePtr = device.get();

         // Create Chassis that contains Device
         std::vector<std::unique_ptr<Device>> devices{};
         devices.emplace_back(std::move(device));
         std::unique_ptr<Chassis> chassis =
             std::make_unique<Chassis>(1, std::move(devices));
         Chassis* chassisPtr = chassis.get();

         // Create System that contains Chassis
         std::vector<std::unique_ptr<Rule>> rules{};
         std::vector<std::unique_ptr<Chassis>> chassisVec{};
         chassisVec.emplace_back(std::move(chassis));
         System system{std::move(rules), std::move(chassisVec)};

         // Execute Configuration
         configurationPtr->execute(services, system, *chassisPtr, *devicePtr);
     }
 }

 // Test for execute(Services&, System&, Chassis&, Device&, Rail&)
 TEST(ConfigurationTests, ExecuteForRail)
 {
     // Test where works: Volts value not specified
     {
         // Create mock services.  Expect logDebug() to be called.
         MockServices services{};
         MockJournal& journal = services.getMockJournal();
         EXPECT_CALL(journal, logDebug("Configuring vio2")).Times(1);
         EXPECT_CALL(journal, logError(A<const std::string&>())).Times(0);

         // Create I2CWriteByteAction with register 0x7C and value 0x0A
         std::unique_ptr<I2CWriteByteAction> action =
             std::make_unique<I2CWriteByteAction>(0x7C, 0x0A);

         // Create mock I2CInterface.  Expect action to write 0x0A to 0x7C.
         std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
             std::make_unique<i2c::MockedI2CInterface>();
         EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
         EXPECT_CALL(*i2cInterface,
                     write(TypedEq<uint8_t>(0x7C), TypedEq<uint8_t>(0x0A)))
             .Times(1);

         // Create Configuration with no volts value specified
         std::optional<double> volts{};
         std::vector<std::unique_ptr<Action>> actions{};
         actions.emplace_back(std::move(action));
         std::unique_ptr<Configuration> configuration =
             std::make_unique<Configuration>(volts, std::move(actions));
         Configuration* configurationPtr = configuration.get();

         // Create Rail that contains Configuration
         std::unique_ptr<Rail> rail =
             std::make_unique<Rail>("vio2", std::move(configuration));
         Rail* railPtr = rail.get();

         // Create Device that contains Rail
         std::unique_ptr<PresenceDetection> presenceDetection{};
         std::unique_ptr<Configuration> deviceConfiguration{};
         std::vector<std::unique_ptr<Rail>> rails{};
         rails.emplace_back(std::move(rail));
         std::unique_ptr<Device> device = std::make_unique<Device>(
             "reg1", true,
             "/xyz/openbmc_project/inventory/system/chassis/motherboard/reg1",
             std::move(i2cInterface), std::move(presenceDetection),
             std::move(deviceConfiguration), std::move(rails));
         Device* devicePtr = device.get();

         // Create Chassis that contains Device
         std::vector<std::unique_ptr<Device>> devices{};
         devices.emplace_back(std::move(device));
         std::unique_ptr<Chassis> chassis =
             std::make_unique<Chassis>(1, std::move(devices));
         Chassis* chassisPtr = chassis.get();

         // Create System that contains Chassis
         std::vector<std::unique_ptr<Rule>> rules{};
         std::vector<std::unique_ptr<Chassis>> chassisVec{};
         chassisVec.emplace_back(std::move(chassis));
         System system{std::move(rules), std::move(chassisVec)};

         // Execute Configuration
         configurationPtr->execute(services, system, *chassisPtr, *devicePtr,
                                   *railPtr);
     }

     // Test where works: Volts value specified
     {
         // Create mock services.  Expect logDebug() to be called.
         MockServices services{};
         MockJournal& journal = services.getMockJournal();
         EXPECT_CALL(journal, logDebug("Configuring vio2: volts=1.300000"))
             .Times(1);
         EXPECT_CALL(journal, logError(A<const std::string&>())).Times(0);

         // Create PMBusWriteVoutCommandAction.  Do not specify a volts value
         // because it will get a value of 1.3V from the
         // ActionEnvironment/Configuration.  Specify a -8 exponent.
         // Linear format volts value = (1.3 / 2^(-8)) = 332.8 = 333 = 0x014D.
         std::optional<double> volts{};
         std::unique_ptr<PMBusWriteVoutCommandAction> action =
             std::make_unique<PMBusWriteVoutCommandAction>(
                 volts, pmbus_utils::VoutDataFormat::linear, -8, false);

         // Create mock I2CInterface.  Expect action to write 0x014D to
         // VOUT_COMMAND (command/register 0x21).
         std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
             std::make_unique<i2c::MockedI2CInterface>();
         EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
         EXPECT_CALL(*i2cInterface,
                     write(TypedEq<uint8_t>(0x21), TypedEq<uint16_t>(0x014D)))
             .Times(1);

         // Create Configuration with volts value 1.3V
         std::vector<std::unique_ptr<Action>> actions{};
         actions.emplace_back(std::move(action));
         std::unique_ptr<Configuration> configuration =
             std::make_unique<Configuration>(1.3, std::move(actions));
         Configuration* configurationPtr = configuration.get();

         // Create Rail that contains Configuration
         std::unique_ptr<Rail> rail =
             std::make_unique<Rail>("vio2", std::move(configuration));
         Rail* railPtr = rail.get();

         // Create Device that contains Rail
         std::unique_ptr<PresenceDetection> presenceDetection{};
         std::unique_ptr<Configuration> deviceConfiguration{};
         std::vector<std::unique_ptr<Rail>> rails{};
         rails.emplace_back(std::move(rail));
         std::unique_ptr<Device> device = std::make_unique<Device>(
             "reg1", true,
             "/xyz/openbmc_project/inventory/system/chassis/motherboard/reg1",
             std::move(i2cInterface), std::move(presenceDetection),
             std::move(deviceConfiguration), std::move(rails));
         Device* devicePtr = device.get();

         // Create Chassis that contains Device
         std::vector<std::unique_ptr<Device>> devices{};
         devices.emplace_back(std::move(device));
         std::unique_ptr<Chassis> chassis =
             std::make_unique<Chassis>(1, std::move(devices));
         Chassis* chassisPtr = chassis.get();

         // Create System that contains Chassis
         std::vector<std::unique_ptr<Rule>> rules{};
         std::vector<std::unique_ptr<Chassis>> chassisVec{};
         chassisVec.emplace_back(std::move(chassis));
         System system{std::move(rules), std::move(chassisVec)};

         // Execute Configuration
         configurationPtr->execute(services, system, *chassisPtr, *devicePtr,
                                   *railPtr);
     }

     // Test where fails
     {
         // Create mock services.  Expect logDebug() and logError() to be called.
         MockServices services{};
         MockJournal& journal = services.getMockJournal();
         std::vector<std::string> expectedErrMessagesException{
             "I2CException: Failed to write byte: bus /dev/i2c-1, addr 0x70",
             "ActionError: i2c_write_byte: { register: 0x7C, value: 0xA, mask: "
             "0xFF }"};
         EXPECT_CALL(journal, logDebug("Configuring vio2")).Times(1);
         EXPECT_CALL(journal, logError(expectedErrMessagesException)).Times(1);
         EXPECT_CALL(journal, logError("Unable to configure vio2")).Times(1);

         // Create I2CWriteByteAction with register 0x7C and value 0x0A
         std::unique_ptr<I2CWriteByteAction> action =
             std::make_unique<I2CWriteByteAction>(0x7C, 0x0A);

         // Create mock I2CInterface.  write() throws an I2CException.
         std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
             std::make_unique<i2c::MockedI2CInterface>();
         EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
         EXPECT_CALL(*i2cInterface,
                     write(TypedEq<uint8_t>(0x7C), TypedEq<uint8_t>(0x0A)))
             .Times(1)
             .WillOnce(Throw(
                 i2c::I2CException{"Failed to write byte", "/dev/i2c-1", 0x70}));

         // Create Configuration with no volts value specified
         std::optional<double> volts{};
         std::vector<std::unique_ptr<Action>> actions{};
         actions.emplace_back(std::move(action));
         std::unique_ptr<Configuration> configuration =
             std::make_unique<Configuration>(volts, std::move(actions));
         Configuration* configurationPtr = configuration.get();

         // Create Rail that contains Configuration
         std::unique_ptr<Rail> rail =
             std::make_unique<Rail>("vio2", std::move(configuration));
         Rail* railPtr = rail.get();

         // Create Device that contains Rail
         std::unique_ptr<PresenceDetection> presenceDetection{};
         std::unique_ptr<Configuration> deviceConfiguration{};
         std::vector<std::unique_ptr<Rail>> rails{};
         rails.emplace_back(std::move(rail));
         std::unique_ptr<Device> device = std::make_unique<Device>(
             "reg1", true,
             "/xyz/openbmc_project/inventory/system/chassis/motherboard/reg1",
             std::move(i2cInterface), std::move(presenceDetection),
             std::move(deviceConfiguration), std::move(rails));
         Device* devicePtr = device.get();

         // Create Chassis that contains Device
         std::vector<std::unique_ptr<Device>> devices{};
         devices.emplace_back(std::move(device));
         std::unique_ptr<Chassis> chassis =
             std::make_unique<Chassis>(1, std::move(devices));
         Chassis* chassisPtr = chassis.get();

         // Create System that contains Chassis
         std::vector<std::unique_ptr<Rule>> rules{};
         std::vector<std::unique_ptr<Chassis>> chassisVec{};
         chassisVec.emplace_back(std::move(chassis));
         System system{std::move(rules), std::move(chassisVec)};

         // Execute Configuration
         configurationPtr->execute(services, system, *chassisPtr, *devicePtr,
                                   *railPtr);
     }
 }

 TEST(ConfigurationTests, GetActions)
 {
     std::optional<double> volts{1.3};

     std::vector<std::unique_ptr<Action>> actions{};

     MockAction* action1 = new MockAction{};
     actions.push_back(std::unique_ptr<MockAction>{action1});

     MockAction* action2 = new MockAction{};
     actions.push_back(std::unique_ptr<MockAction>{action2});

     Configuration configuration(volts, std::move(actions));
     EXPECT_EQ(configuration.getActions().size(), 2);
     EXPECT_EQ(configuration.getActions()[0].get(), action1);
     EXPECT_EQ(configuration.getActions()[1].get(), action2);
 }

 TEST(ConfigurationTests, GetVolts)
 {
     // Test where volts value specified
     {
         std::optional<double> volts{3.2};

         std::vector<std::unique_ptr<Action>> actions{};
         actions.push_back(std::make_unique<MockAction>());

         Configuration configuration(volts, std::move(actions));
         EXPECT_EQ(configuration.getVolts().has_value(), true);
         EXPECT_EQ(configuration.getVolts().value(), 3.2);
     }

     // Test where volts value not specified
     {
         std::optional<double> volts{};

         std::vector<std::unique_ptr<Action>> actions{};
         actions.push_back(std::make_unique<MockAction>());

         Configuration configuration(volts, std::move(actions));
         EXPECT_EQ(configuration.getVolts().has_value(), false);
     }
 }
	/**
	* Copyright © 2020 IBM Corporation
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/
	#include "action.hpp"
	#include "chassis.hpp"
	#include "configuration.hpp"
	#include "device.hpp"
	#include "i2c_interface.hpp"
	#include "i2c_write_byte_action.hpp"
	#include "mock_action.hpp"
	#include "mock_journal.hpp"
	#include "mock_services.hpp"
	#include "mocked_i2c_interface.hpp"
	#include "pmbus_utils.hpp"
	#include "pmbus_write_vout_command_action.hpp"
	#include "presence_detection.hpp"
	#include "rail.hpp"
	#include "rule.hpp"
	#include "system.hpp"

	#include <cstdint>
	#include <memory>
	#include <optional>
	#include <utility>
	#include <vector>

	#include <gmock/gmock.h>
	#include <gtest/gtest.h>

	using namespace phosphor::power::regulators;
	using namespace phosphor::power::regulators::pmbus_utils;

	using ::testing::A;
	using ::testing::Return;
	using ::testing::Throw;
	using ::testing::TypedEq;

	TEST(ConfigurationTests, Constructor)
	{
	// Test where volts value specified
	{
	std::optional<double> volts{1.3};

	std::vector<std::unique_ptr<Action>> actions{};
	actions.push_back(std::make_unique<MockAction>());
	actions.push_back(std::make_unique<MockAction>());

	Configuration configuration(volts, std::move(actions));
	EXPECT_EQ(configuration.getVolts().has_value(), true);
	EXPECT_EQ(configuration.getVolts().value(), 1.3);
	EXPECT_EQ(configuration.getActions().size(), 2);
	}

	// Test where volts value not specified
	{
	std::optional<double> volts{};

	std::vector<std::unique_ptr<Action>> actions{};
	actions.push_back(std::make_unique<MockAction>());

	Configuration configuration(volts, std::move(actions));
	EXPECT_EQ(configuration.getVolts().has_value(), false);
	EXPECT_EQ(configuration.getActions().size(), 1);
	}
	}

	// Test for execute(Services&, System&, Chassis&, Device&)
	TEST(ConfigurationTests, ExecuteForDevice)
	{
	// Test where works: Volts value not specified
	{
	// Create mock services. Expect logDebug() to be called.
	MockServices services{};
	MockJournal& journal = services.getMockJournal();
	EXPECT_CALL(journal, logDebug("Configuring vdd_reg")).Times(1);
	EXPECT_CALL(journal, logError(A<const std::string&>())).Times(0);

	// Create I2CWriteByteAction with register 0x7C and value 0x0A
	std::unique_ptr<I2CWriteByteAction> action =
	std::make_unique<I2CWriteByteAction>(0x7C, 0x0A);

	// Create mock I2CInterface. Expect action to write 0x0A to 0x7C.
	std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
	std::make_unique<i2c::MockedI2CInterface>();
	EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
	EXPECT_CALL(*i2cInterface,
	write(TypedEq<uint8_t>(0x7C), TypedEq<uint8_t>(0x0A)))
	.Times(1);

	// Create Configuration with no volts value specified
	std::optional<double> volts{};
	std::vector<std::unique_ptr<Action>> actions{};
	actions.emplace_back(std::move(action));
	std::unique_ptr<Configuration> configuration =
	std::make_unique<Configuration>(volts, std::move(actions));
	Configuration* configurationPtr = configuration.get();

	// Create Device that contains Configuration
	std::unique_ptr<PresenceDetection> presenceDetection{};
	std::unique_ptr<Device> device = std::make_unique<Device>(
	"vdd_reg", true,
	"/xyz/openbmc_project/inventory/system/chassis/motherboard/reg2",
	std::move(i2cInterface), std::move(presenceDetection),
	std::move(configuration));
	Device* devicePtr = device.get();

	// Create Chassis that contains Device
	std::vector<std::unique_ptr<Device>> devices{};
	devices.emplace_back(std::move(device));
	std::unique_ptr<Chassis> chassis =
	std::make_unique<Chassis>(1, std::move(devices));
	Chassis* chassisPtr = chassis.get();

	// Create System that contains Chassis
	std::vector<std::unique_ptr<Rule>> rules{};
	std::vector<std::unique_ptr<Chassis>> chassisVec{};
	chassisVec.emplace_back(std::move(chassis));
	System system{std::move(rules), std::move(chassisVec)};

	// Execute Configuration
	configurationPtr->execute(services, system, chassisPtr, devicePtr);
	}

	// Test where works: Volts value specified
	{
	// Create mock services. Expect logDebug() to be called.
	MockServices services{};
	MockJournal& journal = services.getMockJournal();
	EXPECT_CALL(journal, logDebug("Configuring vdd_reg: volts=1.300000"))
	.Times(1);
	EXPECT_CALL(journal, logError(A<const std::string&>())).Times(0);

	// Create PMBusWriteVoutCommandAction. Do not specify a volts value
	// because it will get a value of 1.3V from the
	// ActionEnvironment/Configuration. Specify a -8 exponent.
	// Linear format volts value = (1.3 / 2^(-8)) = 332.8 = 333 = 0x014D.
	std::optional<double> volts{};
	std::unique_ptr<PMBusWriteVoutCommandAction> action =
	std::make_unique<PMBusWriteVoutCommandAction>(
	volts, pmbus_utils::VoutDataFormat::linear, -8, false);

	// Create mock I2CInterface. Expect action to write 0x014D to
	// VOUT_COMMAND (command/register 0x21).
	std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
	std::make_unique<i2c::MockedI2CInterface>();
	EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
	EXPECT_CALL(*i2cInterface,
	write(TypedEq<uint8_t>(0x21), TypedEq<uint16_t>(0x014D)))
	.Times(1);

	// Create Configuration with volts value 1.3V
	std::vector<std::unique_ptr<Action>> actions{};
	actions.emplace_back(std::move(action));
	std::unique_ptr<Configuration> configuration =
	std::make_unique<Configuration>(1.3, std::move(actions));
	Configuration* configurationPtr = configuration.get();

	// Create Device that contains Configuration
	std::unique_ptr<PresenceDetection> presenceDetection{};
	std::unique_ptr<Device> device = std::make_unique<Device>(
	"vdd_reg", true,
	"/xyz/openbmc_project/inventory/system/chassis/motherboard/reg2",
	std::move(i2cInterface), std::move(presenceDetection),
	std::move(configuration));
	Device* devicePtr = device.get();

	// Create Chassis that contains Device
	std::vector<std::unique_ptr<Device>> devices{};
	devices.emplace_back(std::move(device));
	std::unique_ptr<Chassis> chassis =
	std::make_unique<Chassis>(1, std::move(devices));
	Chassis* chassisPtr = chassis.get();

	// Create System that contains Chassis
	std::vector<std::unique_ptr<Rule>> rules{};
	std::vector<std::unique_ptr<Chassis>> chassisVec{};
	chassisVec.emplace_back(std::move(chassis));
	System system{std::move(rules), std::move(chassisVec)};

	// Execute Configuration
	configurationPtr->execute(services, system, chassisPtr, devicePtr);
	}

	// Test where fails
	{
	// Create mock services. Expect logDebug() and logError() to be called.
	MockServices services{};
	MockJournal& journal = services.getMockJournal();
	std::vector<std::string> expectedErrMessagesException{
	"I2CException: Failed to write byte: bus /dev/i2c-1, addr 0x70",
	"ActionError: i2c_write_byte: { register: 0x7C, value: 0xA, mask: "
	"0xFF }"};
	EXPECT_CALL(journal, logDebug("Configuring vdd_reg")).Times(1);
	EXPECT_CALL(journal, logError(expectedErrMessagesException)).Times(1);
	EXPECT_CALL(journal, logError("Unable to configure vdd_reg")).Times(1);

	// Create I2CWriteByteAction with register 0x7C and value 0x0A
	std::unique_ptr<I2CWriteByteAction> action =
	std::make_unique<I2CWriteByteAction>(0x7C, 0x0A);

	// Create mock I2CInterface. write() throws an I2CException.
	std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
	std::make_unique<i2c::MockedI2CInterface>();
	EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
	EXPECT_CALL(*i2cInterface,
	write(TypedEq<uint8_t>(0x7C), TypedEq<uint8_t>(0x0A)))
	.Times(1)
	.WillOnce(Throw(
	i2c::I2CException{"Failed to write byte", "/dev/i2c-1", 0x70}));

	// Create Configuration with no volts value specified
	std::optional<double> volts{};
	std::vector<std::unique_ptr<Action>> actions{};
	actions.emplace_back(std::move(action));
	std::unique_ptr<Configuration> configuration =
	std::make_unique<Configuration>(volts, std::move(actions));
	Configuration* configurationPtr = configuration.get();

	// Create Device that contains Configuration
	std::unique_ptr<PresenceDetection> presenceDetection{};
	std::unique_ptr<Device> device = std::make_unique<Device>(
	"vdd_reg", true,
	"/xyz/openbmc_project/inventory/system/chassis/motherboard/reg2",
	std::move(i2cInterface), std::move(presenceDetection),
	std::move(configuration));
	Device* devicePtr = device.get();

	// Create Chassis that contains Device
	std::vector<std::unique_ptr<Device>> devices{};
	devices.emplace_back(std::move(device));
	std::unique_ptr<Chassis> chassis =
	std::make_unique<Chassis>(1, std::move(devices));
	Chassis* chassisPtr = chassis.get();

	// Create System that contains Chassis
	std::vector<std::unique_ptr<Rule>> rules{};
	std::vector<std::unique_ptr<Chassis>> chassisVec{};
	chassisVec.emplace_back(std::move(chassis));
	System system{std::move(rules), std::move(chassisVec)};

	// Execute Configuration
	configurationPtr->execute(services, system, chassisPtr, devicePtr);
	}
	}

	// Test for execute(Services&, System&, Chassis&, Device&, Rail&)
	TEST(ConfigurationTests, ExecuteForRail)
	{
	// Test where works: Volts value not specified
	{
	// Create mock services. Expect logDebug() to be called.
	MockServices services{};
	MockJournal& journal = services.getMockJournal();
	EXPECT_CALL(journal, logDebug("Configuring vio2")).Times(1);
	EXPECT_CALL(journal, logError(A<const std::string&>())).Times(0);

	// Create I2CWriteByteAction with register 0x7C and value 0x0A
	std::unique_ptr<I2CWriteByteAction> action =
	std::make_unique<I2CWriteByteAction>(0x7C, 0x0A);

	// Create mock I2CInterface. Expect action to write 0x0A to 0x7C.
	std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
	std::make_unique<i2c::MockedI2CInterface>();
	EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
	EXPECT_CALL(*i2cInterface,
	write(TypedEq<uint8_t>(0x7C), TypedEq<uint8_t>(0x0A)))
	.Times(1);

	// Create Configuration with no volts value specified
	std::optional<double> volts{};
	std::vector<std::unique_ptr<Action>> actions{};
	actions.emplace_back(std::move(action));
	std::unique_ptr<Configuration> configuration =
	std::make_unique<Configuration>(volts, std::move(actions));
	Configuration* configurationPtr = configuration.get();

	// Create Rail that contains Configuration
	std::unique_ptr<Rail> rail =
	std::make_unique<Rail>("vio2", std::move(configuration));
	Rail* railPtr = rail.get();

	// Create Device that contains Rail
	std::unique_ptr<PresenceDetection> presenceDetection{};
	std::unique_ptr<Configuration> deviceConfiguration{};
	std::vector<std::unique_ptr<Rail>> rails{};
	rails.emplace_back(std::move(rail));
	std::unique_ptr<Device> device = std::make_unique<Device>(
	"reg1", true,
	"/xyz/openbmc_project/inventory/system/chassis/motherboard/reg1",
	std::move(i2cInterface), std::move(presenceDetection),
	std::move(deviceConfiguration), std::move(rails));
	Device* devicePtr = device.get();

	// Create Chassis that contains Device
	std::vector<std::unique_ptr<Device>> devices{};
	devices.emplace_back(std::move(device));
	std::unique_ptr<Chassis> chassis =
	std::make_unique<Chassis>(1, std::move(devices));
	Chassis* chassisPtr = chassis.get();

	// Create System that contains Chassis
	std::vector<std::unique_ptr<Rule>> rules{};
	std::vector<std::unique_ptr<Chassis>> chassisVec{};
	chassisVec.emplace_back(std::move(chassis));
	System system{std::move(rules), std::move(chassisVec)};

	// Execute Configuration
	configurationPtr->execute(services, system, chassisPtr, devicePtr,
	*railPtr);
	}

	// Test where works: Volts value specified
	{
	// Create mock services. Expect logDebug() to be called.
	MockServices services{};
	MockJournal& journal = services.getMockJournal();
	EXPECT_CALL(journal, logDebug("Configuring vio2: volts=1.300000"))
	.Times(1);
	EXPECT_CALL(journal, logError(A<const std::string&>())).Times(0);

	// Create PMBusWriteVoutCommandAction. Do not specify a volts value
	// because it will get a value of 1.3V from the
	// ActionEnvironment/Configuration. Specify a -8 exponent.
	// Linear format volts value = (1.3 / 2^(-8)) = 332.8 = 333 = 0x014D.
	std::optional<double> volts{};
	std::unique_ptr<PMBusWriteVoutCommandAction> action =
	std::make_unique<PMBusWriteVoutCommandAction>(
	volts, pmbus_utils::VoutDataFormat::linear, -8, false);

	// Create mock I2CInterface. Expect action to write 0x014D to
	// VOUT_COMMAND (command/register 0x21).
	std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
	std::make_unique<i2c::MockedI2CInterface>();
	EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
	EXPECT_CALL(*i2cInterface,
	write(TypedEq<uint8_t>(0x21), TypedEq<uint16_t>(0x014D)))
	.Times(1);

	// Create Configuration with volts value 1.3V
	std::vector<std::unique_ptr<Action>> actions{};
	actions.emplace_back(std::move(action));
	std::unique_ptr<Configuration> configuration =
	std::make_unique<Configuration>(1.3, std::move(actions));
	Configuration* configurationPtr = configuration.get();

	// Create Rail that contains Configuration
	std::unique_ptr<Rail> rail =
	std::make_unique<Rail>("vio2", std::move(configuration));
	Rail* railPtr = rail.get();

	// Create Device that contains Rail
	std::unique_ptr<PresenceDetection> presenceDetection{};
	std::unique_ptr<Configuration> deviceConfiguration{};
	std::vector<std::unique_ptr<Rail>> rails{};
	rails.emplace_back(std::move(rail));
	std::unique_ptr<Device> device = std::make_unique<Device>(
	"reg1", true,
	"/xyz/openbmc_project/inventory/system/chassis/motherboard/reg1",
	std::move(i2cInterface), std::move(presenceDetection),
	std::move(deviceConfiguration), std::move(rails));
	Device* devicePtr = device.get();

	// Create Chassis that contains Device
	std::vector<std::unique_ptr<Device>> devices{};
	devices.emplace_back(std::move(device));
	std::unique_ptr<Chassis> chassis =
	std::make_unique<Chassis>(1, std::move(devices));
	Chassis* chassisPtr = chassis.get();

	// Create System that contains Chassis
	std::vector<std::unique_ptr<Rule>> rules{};
	std::vector<std::unique_ptr<Chassis>> chassisVec{};
	chassisVec.emplace_back(std::move(chassis));
	System system{std::move(rules), std::move(chassisVec)};

	// Execute Configuration
	configurationPtr->execute(services, system, chassisPtr, devicePtr,
	*railPtr);
	}

	// Test where fails
	{
	// Create mock services. Expect logDebug() and logError() to be called.
	MockServices services{};
	MockJournal& journal = services.getMockJournal();
	std::vector<std::string> expectedErrMessagesException{
	"I2CException: Failed to write byte: bus /dev/i2c-1, addr 0x70",
	"ActionError: i2c_write_byte: { register: 0x7C, value: 0xA, mask: "
	"0xFF }"};
	EXPECT_CALL(journal, logDebug("Configuring vio2")).Times(1);
	EXPECT_CALL(journal, logError(expectedErrMessagesException)).Times(1);
	EXPECT_CALL(journal, logError("Unable to configure vio2")).Times(1);

	// Create I2CWriteByteAction with register 0x7C and value 0x0A
	std::unique_ptr<I2CWriteByteAction> action =
	std::make_unique<I2CWriteByteAction>(0x7C, 0x0A);

	// Create mock I2CInterface. write() throws an I2CException.
	std::unique_ptr<i2c::MockedI2CInterface> i2cInterface =
	std::make_unique<i2c::MockedI2CInterface>();
	EXPECT_CALL(*i2cInterface, isOpen).Times(1).WillOnce(Return(true));
	EXPECT_CALL(*i2cInterface,
	write(TypedEq<uint8_t>(0x7C), TypedEq<uint8_t>(0x0A)))
	.Times(1)
	.WillOnce(Throw(
	i2c::I2CException{"Failed to write byte", "/dev/i2c-1", 0x70}));

	// Create Configuration with no volts value specified
	std::optional<double> volts{};
	std::vector<std::unique_ptr<Action>> actions{};
	actions.emplace_back(std::move(action));
	std::unique_ptr<Configuration> configuration =
	std::make_unique<Configuration>(volts, std::move(actions));
	Configuration* configurationPtr = configuration.get();

	// Create Rail that contains Configuration
	std::unique_ptr<Rail> rail =
	std::make_unique<Rail>("vio2", std::move(configuration));
	Rail* railPtr = rail.get();

	// Create Device that contains Rail
	std::unique_ptr<PresenceDetection> presenceDetection{};
	std::unique_ptr<Configuration> deviceConfiguration{};
	std::vector<std::unique_ptr<Rail>> rails{};
	rails.emplace_back(std::move(rail));
	std::unique_ptr<Device> device = std::make_unique<Device>(
	"reg1", true,
	"/xyz/openbmc_project/inventory/system/chassis/motherboard/reg1",
	std::move(i2cInterface), std::move(presenceDetection),
	std::move(deviceConfiguration), std::move(rails));
	Device* devicePtr = device.get();

	// Create Chassis that contains Device
	std::vector<std::unique_ptr<Device>> devices{};
	devices.emplace_back(std::move(device));
	std::unique_ptr<Chassis> chassis =
	std::make_unique<Chassis>(1, std::move(devices));
	Chassis* chassisPtr = chassis.get();

	// Create System that contains Chassis
	std::vector<std::unique_ptr<Rule>> rules{};
	std::vector<std::unique_ptr<Chassis>> chassisVec{};
	chassisVec.emplace_back(std::move(chassis));
	System system{std::move(rules), std::move(chassisVec)};

	// Execute Configuration
	configurationPtr->execute(services, system, chassisPtr, devicePtr,
	*railPtr);
	}
	}

	TEST(ConfigurationTests, GetActions)
	{
	std::optional<double> volts{1.3};

	std::vector<std::unique_ptr<Action>> actions{};

	MockAction* action1 = new MockAction{};
	actions.push_back(std::unique_ptr<MockAction>{action1});

	MockAction* action2 = new MockAction{};
	actions.push_back(std::unique_ptr<MockAction>{action2});

	Configuration configuration(volts, std::move(actions));
	EXPECT_EQ(configuration.getActions().size(), 2);
	EXPECT_EQ(configuration.getActions()[0].get(), action1);
	EXPECT_EQ(configuration.getActions()[1].get(), action2);
	}

	TEST(ConfigurationTests, GetVolts)
	{
	// Test where volts value specified
	{
	std::optional<double> volts{3.2};

	std::vector<std::unique_ptr<Action>> actions{};
	actions.push_back(std::make_unique<MockAction>());

	Configuration configuration(volts, std::move(actions));
	EXPECT_EQ(configuration.getVolts().has_value(), true);
	EXPECT_EQ(configuration.getVolts().value(), 3.2);
	}

	// Test where volts value not specified
	{
	std::optional<double> volts{};

	std::vector<std::unique_ptr<Action>> actions{};
	actions.push_back(std::make_unique<MockAction>());

	Configuration configuration(volts, std::move(actions));
	EXPECT_EQ(configuration.getVolts().has_value(), false);
	}
	}