phosphor-regulators/src/sensors.hpp - openbmc/phosphor-power - Gitiles

 /**
  * Copyright © 2021 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.
  */
 #pragma once

 #include <string>

 namespace phosphor::power::regulators
 {

 /**
  * Voltage regulator sensor type.
  */
 enum class SensorType : unsigned char
 {
     /**
      * Output current.
      */
     iout,

     /**
      * Highest output current.
      */
     iout_peak,

     /**
      * Lowest output current.
      */
     iout_valley,

     /**
      * Output power.
      */
     pout,

     /**
      * Temperature.
      */
     temperature,

     /**
      * Highest temperature.
      */
     temperature_peak,

     /**
      * Output voltage.
      */
     vout,

     /**
      * Highest output voltage.
      */
     vout_peak,

     /**
      * Lowest output voltage.
      */
     vout_valley
 };

 /**
  * @namespace sensors
  *
  * Contains utility functions related to voltage regulator sensors.
  */
 namespace sensors
 {

 /**
  * Returns the name of the specified SensorType.
  *
  * The returned string will exactly match the enumerator name, such as
  * "temperature_peak".
  *
  * @param type sensor type
  * @return sensor type name
  */
 inline std::string toString(SensorType type)
 {
     std::string name{};
     switch (type)
     {
         case SensorType::iout:
             name = "iout";
             break;
         case SensorType::iout_peak:
             name = "iout_peak";
             break;
         case SensorType::iout_valley:
             name = "iout_valley";
             break;
         case SensorType::pout:
             name = "pout";
             break;
         case SensorType::temperature:
             name = "temperature";
             break;
         case SensorType::temperature_peak:
             name = "temperature_peak";
             break;
         case SensorType::vout:
             name = "vout";
             break;
         case SensorType::vout_peak:
             name = "vout_peak";
             break;
         case SensorType::vout_valley:
             name = "vout_valley";
             break;
     }
     return name;
 }

 } // namespace sensors

 /**
  * @class Sensors
  *
  * Abstract base class for a service that maintains a list of voltage regulator
  * sensors.
  *
  * This service makes the voltage regulator sensors available to other BMC
  * applications.  For example, the Redfish support obtains sensor data from this
  * service.
  *
  * Each voltage rail in the system may provide multiple types of sensor data,
  * such as temperature, output voltage, and output current (see SensorType).  A
  * sensor tracks one of these data types for a voltage rail.
  *
  * Voltage regulator sensors are typically read frequently based on a timer.
  * Reading all the sensors once is called a monitoring cycle.  The application
  * will loop through all voltage rails, reading all supported sensor types for
  * each rail.  During a monitoring cycle, the following sensor service methods
  * should be called in the specified order:
  * - startCycle() // At the start of a sensor monitoring cycle
  * - startRail()  // Before reading all the sensors for one rail
  * - setValue()   // To set the value of one sensor for the current rail
  * - endRail()    // After reading all the sensors for one rail
  * - endCycle()   // At the end of a sensor monitoring cycle
  *
  * This service can be enabled or disabled.  It is typically enabled when the
  * system is powered on and voltage regulators begin producing output.  It is
  * typically disabled when the system is powered off.  It can also be
  * temporarily disabled if other BMC applications need to communicate with the
  * voltage regulator devices.  When the service is disabled, the sensors still
  * exist but are in an inactive state since their values are not being updated.
  */
 class Sensors
 {
   public:
     // Specify which compiler-generated methods we want
     Sensors() = default;
     Sensors(const Sensors&) = delete;
     Sensors(Sensors&&) = delete;
     Sensors& operator=(const Sensors&) = delete;
     Sensors& operator=(Sensors&&) = delete;
     virtual ~Sensors() = default;

     /**
      * Enable the sensors service.
      *
      * While the service is enabled, the sensors that it provides will be in an
      * active state.  This indicates that their value is being updated
      * periodically.
      */
     virtual void enable() = 0;

     /**
      * Notify the sensors service that the current sensor monitoring cycle has
      * ended.
      */
     virtual void endCycle() = 0;

     /**
      * Notify the sensors service that sensor monitoring has ended for the
      * current voltage rail.
      *
      * @param errorOccurred specifies whether an error occurred while trying to
      *                      read all the sensors for the current rail
      */
     virtual void endRail(bool errorOccurred) = 0;

     /**
      * Disable the sensors service.
      *
      * While the service is disabled, the sensors that it provides will be in an
      * inactive state.  This indicates that their value is not being updated.
      */
     virtual void disable() = 0;

     /**
      * Sets the value of one sensor for the current voltage rail.
      *
      * Throws an exception if an error occurs.
      *
      * @param type sensor type
      * @param value sensor value
      */
     virtual void setValue(SensorType type, double value) = 0;

     /**
      * Notify the sensors service that a sensor monitoring cycle is starting.
      */
     virtual void startCycle() = 0;

     /**
      * Notify the sensors service that sensor monitoring is starting for the
      * specified voltage rail.
      *
      * Calls to setValue() will update sensors for this rail.
      *
      * @param rail unique rail ID
      * @param deviceInventoryPath D-Bus inventory path of the voltage regulator
      *                            device that produces the rail
      * @param chassisInventoryPath D-Bus inventory path of the chassis that
      *                             contains the voltage regulator device
      */
     virtual void startRail(const std::string& rail,
                            const std::string& deviceInventoryPath,
                            const std::string& chassisInventoryPath) = 0;
 };

 } // namespace phosphor::power::regulators
	/**
	* Copyright © 2021 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.
	*/
	#pragma once

	#include <string>

	namespace phosphor::power::regulators
	{

	/**
	* Voltage regulator sensor type.
	*/
	enum class SensorType : unsigned char
	{
	/**
	* Output current.
	*/
	iout,

	/**
	* Highest output current.
	*/
	iout_peak,

	/**
	* Lowest output current.
	*/
	iout_valley,

	/**
	* Output power.
	*/
	pout,

	/**
	* Temperature.
	*/
	temperature,

	/**
	* Highest temperature.
	*/
	temperature_peak,

	/**
	* Output voltage.
	*/
	vout,

	/**
	* Highest output voltage.
	*/
	vout_peak,

	/**
	* Lowest output voltage.
	*/
	vout_valley
	};

	/**
	* @namespace sensors
	*
	* Contains utility functions related to voltage regulator sensors.
	*/
	namespace sensors
	{

	/**
	* Returns the name of the specified SensorType.
	*
	* The returned string will exactly match the enumerator name, such as
	* "temperature_peak".
	*
	* @param type sensor type
	* @return sensor type name
	*/
	inline std::string toString(SensorType type)
	{
	std::string name{};
	switch (type)
	{
	case SensorType::iout:
	name = "iout";
	break;
	case SensorType::iout_peak:
	name = "iout_peak";
	break;
	case SensorType::iout_valley:
	name = "iout_valley";
	break;
	case SensorType::pout:
	name = "pout";
	break;
	case SensorType::temperature:
	name = "temperature";
	break;
	case SensorType::temperature_peak:
	name = "temperature_peak";
	break;
	case SensorType::vout:
	name = "vout";
	break;
	case SensorType::vout_peak:
	name = "vout_peak";
	break;
	case SensorType::vout_valley:
	name = "vout_valley";
	break;
	}
	return name;
	}

	} // namespace sensors

	/**
	* @class Sensors
	*
	* Abstract base class for a service that maintains a list of voltage regulator
	* sensors.
	*
	* This service makes the voltage regulator sensors available to other BMC
	* applications. For example, the Redfish support obtains sensor data from this
	* service.
	*
	* Each voltage rail in the system may provide multiple types of sensor data,
	* such as temperature, output voltage, and output current (see SensorType). A
	* sensor tracks one of these data types for a voltage rail.
	*
	* Voltage regulator sensors are typically read frequently based on a timer.
	* Reading all the sensors once is called a monitoring cycle. The application
	* will loop through all voltage rails, reading all supported sensor types for
	* each rail. During a monitoring cycle, the following sensor service methods
	* should be called in the specified order:
	* - startCycle() // At the start of a sensor monitoring cycle
	* - startRail() // Before reading all the sensors for one rail
	* - setValue() // To set the value of one sensor for the current rail
	* - endRail() // After reading all the sensors for one rail
	* - endCycle() // At the end of a sensor monitoring cycle
	*
	* This service can be enabled or disabled. It is typically enabled when the
	* system is powered on and voltage regulators begin producing output. It is
	* typically disabled when the system is powered off. It can also be
	* temporarily disabled if other BMC applications need to communicate with the
	* voltage regulator devices. When the service is disabled, the sensors still
	* exist but are in an inactive state since their values are not being updated.
	*/
	class Sensors
	{
	public:
	// Specify which compiler-generated methods we want
	Sensors() = default;
	Sensors(const Sensors&) = delete;
	Sensors(Sensors&&) = delete;
	Sensors& operator=(const Sensors&) = delete;
	Sensors& operator=(Sensors&&) = delete;
	virtual ~Sensors() = default;

	/**
	* Enable the sensors service.
	*
	* While the service is enabled, the sensors that it provides will be in an
	* active state. This indicates that their value is being updated
	* periodically.
	*/
	virtual void enable() = 0;

	/**
	* Notify the sensors service that the current sensor monitoring cycle has
	* ended.
	*/
	virtual void endCycle() = 0;

	/**
	* Notify the sensors service that sensor monitoring has ended for the
	* current voltage rail.
	*
	* @param errorOccurred specifies whether an error occurred while trying to
	* read all the sensors for the current rail
	*/
	virtual void endRail(bool errorOccurred) = 0;

	/**
	* Disable the sensors service.
	*
	* While the service is disabled, the sensors that it provides will be in an
	* inactive state. This indicates that their value is not being updated.
	*/
	virtual void disable() = 0;

	/**
	* Sets the value of one sensor for the current voltage rail.
	*
	* Throws an exception if an error occurs.
	*
	* @param type sensor type
	* @param value sensor value
	*/
	virtual void setValue(SensorType type, double value) = 0;

	/**
	* Notify the sensors service that a sensor monitoring cycle is starting.
	*/
	virtual void startCycle() = 0;

	/**
	* Notify the sensors service that sensor monitoring is starting for the
	* specified voltage rail.
	*
	* Calls to setValue() will update sensors for this rail.
	*
	* @param rail unique rail ID
	* @param deviceInventoryPath D-Bus inventory path of the voltage regulator
	* device that produces the rail
	* @param chassisInventoryPath D-Bus inventory path of the chassis that
	* contains the voltage regulator device
	*/
	virtual void startRail(const std::string& rail,
	const std::string& deviceInventoryPath,
	const std::string& chassisInventoryPath) = 0;
	};

	} // namespace phosphor::power::regulators