dcmihandler.hpp - openbmc/phosphor-host-ipmid - Gitiles

 #pragma once

 #include "nlohmann/json.hpp"

 #include <sdbusplus/bus.hpp>

 #include <map>
 #include <string>
 #include <vector>

 namespace dcmi
 {

 using NumInstances = size_t;
 using Json = nlohmann::json;

 enum Commands
 {
     // Get capability bits
     GET_CAPABILITIES = 0x01,
     GET_POWER_READING = 0x02,
     GET_POWER_LIMIT = 0x03,
     SET_POWER_LIMIT = 0x04,
     APPLY_POWER_LIMIT = 0x05,
     GET_ASSET_TAG = 0x06,
     GET_SENSOR_INFO = 0x07,
     SET_ASSET_TAG = 0x08,
     GET_MGMNT_CTRL_ID_STR = 0x09,
     SET_MGMNT_CTRL_ID_STR = 0x0A,
     GET_TEMP_READINGS = 0x10,
     SET_CONF_PARAMS = 0x12,
     GET_CONF_PARAMS = 0x13,
 };

 static constexpr auto propIntf = "org.freedesktop.DBus.Properties";
 static constexpr auto assetTagIntf =
     "xyz.openbmc_project.Inventory.Decorator.AssetTag";
 static constexpr auto assetTagProp = "AssetTag";
 static constexpr auto networkServiceName = "xyz.openbmc_project.Network";
 static constexpr auto networkConfigObj = "/xyz/openbmc_project/network/config";
 static constexpr auto networkConfigIntf =
     "xyz.openbmc_project.Network.SystemConfiguration";
 static constexpr auto hostNameProp = "HostName";
 static constexpr auto temperatureSensorType = 0x01;
 static constexpr auto maxInstances = 255;
 static constexpr auto gDCMISensorsConfig =
     "/usr/share/ipmi-providers/dcmi_sensors.json";
 static constexpr auto ethernetIntf =
     "xyz.openbmc_project.Network.EthernetInterface";
 static constexpr auto ethernetDefaultChannelNum = 0x1;
 static constexpr auto networkRoot = "/xyz/openbmc_project/network";
 static constexpr auto dhcpObj = "/xyz/openbmc_project/network/dhcp";
 static constexpr auto dhcpIntf =
     "xyz.openbmc_project.Network.DHCPConfiguration";
 static constexpr auto systemBusName = "org.freedesktop.systemd1";
 static constexpr auto systemPath = "/org/freedesktop/systemd1";
 static constexpr auto systemIntf = "org.freedesktop.systemd1.Manager";
 static constexpr auto gDCMICapabilitiesConfig =
     "/usr/share/ipmi-providers/dcmi_cap.json";
 static constexpr auto gDCMIPowerMgmtCapability = "PowerManagement";
 static constexpr auto gDCMIPowerMgmtSupported = 0x1;
 static constexpr auto gMaxSELEntriesMask = 0xFFF;
 static constexpr auto gByteBitSize = 8;

 namespace assettag
 {

 using ObjectPath = std::string;
 using Service = std::string;
 using Interfaces = std::vector<std::string>;
 using ObjectTree = std::map<ObjectPath, std::map<Service, Interfaces>>;

 } // namespace assettag

 namespace temp_readings
 {
 static constexpr auto maxDataSets = 8;
 static constexpr auto maxTemp = 127; // degrees C

 /** @struct Response
  *
  *  DCMI payload for Get Temperature Readings response
  */
 struct Response
 {
 #if BYTE_ORDER == LITTLE_ENDIAN
     uint8_t temperature : 7; //!< Temperature reading in Celsius
     uint8_t sign : 1;        //!< Sign bit
 #endif
 #if BYTE_ORDER == BIG_ENDIAN
     uint8_t sign : 1;        //!< Sign bit
     uint8_t temperature : 7; //!< Temperature reading in Celsius
 #endif
     uint8_t instance;        //!< Entity instance number
 } __attribute__((packed));

 using ResponseList = std::vector<Response>;
 using Value = uint8_t;
 using Sign = bool;
 using Temperature = std::tuple<Value, Sign>;
 } // namespace temp_readings

 namespace sensor_info
 {
 static constexpr auto maxRecords = 8;

 /** @struct Response
  *
  *  DCMI payload for Get Sensor Info response
  */
 struct Response
 {
     uint8_t recordIdLsb; //!< SDR record id LS byte
     uint8_t recordIdMsb; //!< SDR record id MS byte
 } __attribute__((packed));

 using ResponseList = std::vector<Response>;
 } // namespace sensor_info

 static constexpr auto groupExtId = 0xDC;

 static constexpr auto assetTagMaxOffset = 62;
 static constexpr auto assetTagMaxSize = 63;
 static constexpr auto maxBytes = 16;
 static constexpr size_t maxCtrlIdStrLen = 63;

 /** @struct GetAssetTagRequest
  *
  *  DCMI payload for Get Asset Tag command request.
  */
 struct GetAssetTagRequest
 {
     uint8_t offset; //!< Offset to read.
     uint8_t bytes;  //!< Number of bytes to read.
 } __attribute__((packed));

 /** @struct GetAssetTagResponse
  *
  *  DCMI payload for Get Asset Tag command response.
  */
 struct GetAssetTagResponse
 {
     uint8_t tagLength; //!< Total asset tag length.
 } __attribute__((packed));

 /** @struct SetAssetTagRequest
  *
  *  DCMI payload for Set Asset Tag command request.
  */
 struct SetAssetTagRequest
 {
     uint8_t offset; //!< Offset to write.
     uint8_t bytes;  //!< Number of bytes to write.
 } __attribute__((packed));

 /** @struct SetAssetTagResponse
  *
  *  DCMI payload for Set Asset Tag command response.
  */
 struct SetAssetTagResponse
 {
     uint8_t tagLength; //!< Total asset tag length.
 } __attribute__((packed));

 /** @brief Check whether DCMI power management is supported
  *         in the DCMI Capabilities config file.
  *
  *  @return True if DCMI power management is supported
  */
 bool isDCMIPowerMgmtSupported();

 /** @brief Read the object tree to fetch the object path that implemented the
  *         Asset tag interface.
  *
  *  @param[in,out] objectTree - object tree
  *
  *  @return On success return the object tree with the object path that
  *          implemented the AssetTag interface.
  */
 void readAssetTagObjectTree(dcmi::assettag::ObjectTree& objectTree);

 /** @brief Read the asset tag of the server
  *
  *  @return On success return the asset tag.
  */
 std::string readAssetTag();

 /** @brief Write the asset tag to the asset tag DBUS property
  *
  *  @param[in] assetTag - Asset Tag to be written to the property.
  */
 void writeAssetTag(const std::string& assetTag);

 /** @brief Read the current power cap value
  *
  *  @param[in] bus - dbus connection
  *
  *  @return On success return the power cap value.
  */
 uint32_t getPcap(sdbusplus::bus_t& bus);

 /** @brief Check if the power capping is enabled
  *
  *  @param[in] bus - dbus connection
  *
  *  @return true if the powerCap is enabled and false if the powercap
  *          is disabled.
  */
 bool getPcapEnabled(sdbusplus::bus_t& bus);

 /** @struct GetPowerLimitResponse
  *
  *  DCMI payload for Get Power Limit command response.
  */
 struct GetPowerLimitResponse
 {
     uint16_t reserved;       //!< Reserved.
     uint8_t exceptionAction; //!< Exception action.
     uint16_t powerLimit;     //!< Power limit requested in watts.
     uint32_t correctionTime; //!< Correction time limit in milliseconds.
     uint16_t reserved1;      //!< Reserved.
     uint16_t samplingPeriod; //!< Statistics sampling period in seconds.
 } __attribute__((packed));

 /** @brief Set the power cap value
  *
  *  @param[in] bus - dbus connection
  *  @param[in] powerCap - power cap value
  */
 void setPcap(sdbusplus::bus_t& bus, const uint32_t powerCap);

 /** @struct SetPowerLimitRequest
  *
  *  DCMI payload for Set Power Limit command request.
  */
 struct SetPowerLimitRequest
 {
     uint16_t reserved;       //!< Reserved
     uint8_t reserved1;       //!< Reserved
     uint8_t exceptionAction; //!< Exception action.
     uint16_t powerLimit;     //!< Power limit requested in watts.
     uint32_t correctionTime; //!< Correction time limit in milliseconds.
     uint16_t reserved2;      //!< Reserved.
     uint16_t samplingPeriod; //!< Statistics sampling period in seconds.
 } __attribute__((packed));

 /** @brief Enable or disable the power capping
  *
  *  @param[in] bus - dbus connection
  *  @param[in] enabled - enable/disable
  */
 void setPcapEnable(sdbusplus::bus_t& bus, bool enabled);

 /** @struct ApplyPowerLimitRequest
  *
  *  DCMI payload for Activate/Deactivate Power Limit command request.
  */
 struct ApplyPowerLimitRequest
 {
     uint8_t powerLimitAction; //!< Power limit activation
     uint16_t reserved;        //!< Reserved
 } __attribute__((packed));

 /** @struct GetMgmntCtrlIdStrRequest
  *
  *  DCMI payload for Get Management Controller Identifier String cmd request.
  */
 struct GetMgmntCtrlIdStrRequest
 {
     uint8_t offset; //!< Offset to read.
     uint8_t bytes;  //!< Number of bytes to read.
 } __attribute__((packed));

 /** @struct GetMgmntCtrlIdStrResponse
  *
  *  DCMI payload for Get Management Controller Identifier String cmd response.
  */
 struct GetMgmntCtrlIdStrResponse
 {
     uint8_t strLen; //!< ID string length.
     char data[];    //!< ID string
 } __attribute__((packed));

 /** @struct SetMgmntCtrlIdStrRequest
  *
  *  DCMI payload for Set Management Controller Identifier String cmd request.
  */
 struct SetMgmntCtrlIdStrRequest
 {
     uint8_t offset; //!< Offset to write.
     uint8_t bytes;  //!< Number of bytes to read.
     char data[];    //!< ID string
 } __attribute__((packed));

 /** @struct GetMgmntCtrlIdStrResponse
  *
  *  DCMI payload for Get Management Controller Identifier String cmd response.
  */
 struct SetMgmntCtrlIdStrResponse
 {
     uint8_t offset; //!< Last Offset Written.
 } __attribute__((packed));

 /** @enum DCMICapParameters
  *
  * DCMI Capability parameters
  */
 enum class DCMICapParameters
 {
     SUPPORTED_DCMI_CAPS = 0x01,             //!< Supported DCMI Capabilities
     MANDATORY_PLAT_ATTRIBUTES = 0x02,       //!< Mandatory Platform Attributes
     OPTIONAL_PLAT_ATTRIBUTES = 0x03,        //!< Optional Platform Attributes
     MANAGEABILITY_ACCESS_ATTRIBUTES = 0x04, //!< Manageability Access Attributes
 };

 /** @struct GetDCMICapRequest
  *
  *  DCMI payload for Get capabilities cmd request.
  */
 struct GetDCMICapRequest
 {
     uint8_t param; //!< Capability parameter selector.
 } __attribute__((packed));

 /** @struct GetDCMICapRequest
  *
  *  DCMI payload for Get capabilities cmd response.
  */
 struct GetDCMICapResponse
 {
     uint8_t major;         //!< DCMI Specification Conformance - major ver
     uint8_t minor;         //!< DCMI Specification Conformance - minor ver
     uint8_t paramRevision; //!< Parameter Revision = 02h
     uint8_t data[];        //!< Capability array
 } __attribute__((packed));

 /** @struct DCMICap
  *
  *  DCMI capabilities protocol info.
  */
 struct DCMICap
 {
     std::string name;     //!< Name of DCMI capability.
     uint8_t bytePosition; //!< Starting byte number from DCMI spec.
     uint8_t position;     //!< bit position from the DCMI spec.
     uint8_t length;       //!< Length of the value from DCMI spec.
 };

 using DCMICapList = std::vector<DCMICap>;

 /** @struct DCMICapEntry
  *
  *  DCMI capabilities list and size for each parameter.
  */
 struct DCMICapEntry
 {
     uint8_t size;        //!< Size of capability array in bytes.
     DCMICapList capList; //!< List of capabilities for a parameter.
 };

 using DCMICaps = std::map<DCMICapParameters, DCMICapEntry>;

 /** @struct GetTempReadingsRequest
  *
  *  DCMI payload for Get Temperature Readings request
  */
 struct GetTempReadingsRequest
 {
     uint8_t sensorType;     //!< Type of the sensor
     uint8_t entityId;       //!< Entity ID
     uint8_t entityInstance; //!< Entity Instance (0 means all instances)
     uint8_t instanceStart;  //!< Instance start (used if instance is 0)
 } __attribute__((packed));

 /** @struct GetTempReadingsResponse
  *
  *  DCMI header for Get Temperature Readings response
  */
 struct GetTempReadingsResponseHdr
 {
     uint8_t numInstances; //!< No. of instances for requested id
     uint8_t numDataSets;  //!< No. of sets of temperature data
 } __attribute__((packed));

 /** @brief Parse out JSON config file.
  *
  *  @param[in] configFile - JSON config file name
  *
  *  @return A json object
  */
 Json parseJSONConfig(const std::string& configFile);

 namespace temp_readings
 {
 /** @brief Read temperature from a d-bus object, scale it as per dcmi
  *         get temperature reading requirements.
  *
  *  @param[in] dbusService - the D-Bus service
  *  @param[in] dbusPath - the D-Bus path
  *
  *  @return A temperature reading
  */
 Temperature readTemp(const std::string& dbusService,
                      const std::string& dbusPath);

 /** @brief Read temperatures and fill up DCMI response for the Get
  *         Temperature Readings command. This looks at a specific
  *         instance.
  *
  *  @param[in] type - one of "inlet", "cpu", "baseboard"
  *  @param[in] instance - A non-zero Entity instance number
  *
  *  @return A tuple, containing a temperature reading and the
  *          number of instances.
  */
 std::tuple<Response, NumInstances> read(const std::string& type,
                                         uint8_t instance);

 /** @brief Read temperatures and fill up DCMI response for the Get
  *         Temperature Readings command. This looks at a range of
  *         instances.
  *
  *  @param[in] type - one of "inlet", "cpu", "baseboard"
  *  @param[in] instanceStart - Entity instance start index
  *
  *  @return A tuple, containing a list of temperature readings and the
  *          number of instances.
  */
 std::tuple<ResponseList, NumInstances> readAll(const std::string& type,
                                                uint8_t instanceStart);
 } // namespace temp_readings

 namespace sensor_info
 {
 /** @brief Create response from JSON config.
  *
  *  @param[in] config - JSON config info about DCMI sensors
  *
  *  @return Sensor info response
  */
 Response createFromJson(const Json& config);

 /** @brief Read sensor info and fill up DCMI response for the Get
  *         Sensor Info command. This looks at a specific
  *         instance.
  *
  *  @param[in] type - one of "inlet", "cpu", "baseboard"
  *  @param[in] instance - A non-zero Entity instance number
  *  @param[in] config - JSON config info about DCMI sensors
  *
  *  @return A tuple, containing a sensor info response and
  *          number of instances.
  */
 std::tuple<Response, NumInstances> read(const std::string& type,
                                         uint8_t instance, const Json& config);

 /** @brief Read sensor info and fill up DCMI response for the Get
  *         Sensor Info command. This looks at a range of
  *         instances.
  *
  *  @param[in] type - one of "inlet", "cpu", "baseboard"
  *  @param[in] instanceStart - Entity instance start index
  *  @param[in] config - JSON config info about DCMI sensors
  *
  *  @return A tuple, containing a list of sensor info responses and the
  *          number of instances.
  */
 std::tuple<ResponseList, NumInstances>
     readAll(const std::string& type, uint8_t instanceStart, const Json& config);
 } // namespace sensor_info

 /** @brief Read power reading from power reading sensor object
  *
  *  @param[in] bus - dbus connection
  *
  *  @return total power reading
  */
 int64_t getPowerReading(sdbusplus::bus_t& bus);

 /** @struct GetPowerReadingRequest
  *
  *  DCMI Get Power Reading command request.
  *  Refer DCMI specification Version 1.1 Section 6.6.1
  */
 struct GetPowerReadingRequest
 {
     uint8_t mode;          //!< Mode
     uint8_t modeAttribute; //!< Mode Attributes
 } __attribute__((packed));

 /** @struct GetPowerReadingResponse
  *
  *  DCMI Get Power Reading command response.
  *  Refer DCMI specification Version 1.1 Section 6.6.1
  */
 struct GetPowerReadingResponse
 {
     uint16_t currentPower;     //!< Current power in watts
     uint16_t minimumPower;     //!< Minimum power over sampling duration
                                //!< in watts
     uint16_t maximumPower;     //!< Maximum power over sampling duration
                                //!< in watts
     uint16_t averagePower;     //!< Average power over sampling duration
                                //!< in watts
     uint32_t timeStamp;        //!< IPMI specification based time stamp
     uint32_t timeFrame;        //!< Statistics reporting time period in milli
                                //!< seconds.
     uint8_t powerReadingState; //!< Power Reading State
 } __attribute__((packed));

 /** @struct GetSensorInfoRequest
  *
  *  DCMI payload for Get Sensor Info request
  */
 struct GetSensorInfoRequest
 {
     uint8_t sensorType;     //!< Type of the sensor
     uint8_t entityId;       //!< Entity ID
     uint8_t entityInstance; //!< Entity Instance (0 means all instances)
     uint8_t instanceStart;  //!< Instance start (used if instance is 0)
 } __attribute__((packed));

 /** @struct GetSensorInfoResponseHdr
  *
  *  DCMI header for Get Sensor Info response
  */
 struct GetSensorInfoResponseHdr
 {
     uint8_t numInstances; //!< No. of instances for requested id
     uint8_t numRecords;   //!< No. of record ids in the response
 } __attribute__((packed));
 /**
  *  @brief Parameters for DCMI Configuration Parameters
  */
 enum class DCMIConfigParameters : uint8_t
 {
     ActivateDHCP = 1,
     DiscoveryConfig,
     DHCPTiming1,
     DHCPTiming2,
     DHCPTiming3,
 };

 /** @struct SetConfParamsRequest
  *
  *  DCMI Set DCMI Configuration Parameters Command.
  *  Refer DCMI specification Version 1.1 Section 6.1.2
  */
 struct SetConfParamsRequest
 {
     uint8_t paramSelect; //!< Parameter selector.
     uint8_t setSelect;   //!< Set Selector (use 00h for parameters that only
                          //!< have one set).
     uint8_t data[];      //!< Configuration parameter data.
 } __attribute__((packed));

 /** @struct GetConfParamsRequest
  *
  *  DCMI Get DCMI Configuration Parameters Command.
  *  Refer DCMI specification Version 1.1 Section 6.1.3
  */
 struct GetConfParamsRequest
 {
     uint8_t paramSelect; //!< Parameter selector.
     uint8_t setSelect;   //!< Set Selector. Selects a given set of parameters
                          //!< under a given Parameter selector value. 00h if
                          //!< parameter doesn't use a Set Selector.
 } __attribute__((packed));

 /** @struct GetConfParamsResponse
  *
  *  DCMI Get DCMI Configuration Parameters Command response.
  *  Refer DCMI specification Version 1.1 Section 6.1.3
  */
 struct GetConfParamsResponse
 {
     uint8_t major;         //!< DCMI Spec Conformance - major ver = 01h.
     uint8_t minor;         //!< DCMI Spec Conformance - minor ver = 05h.
     uint8_t paramRevision; //!< Parameter Revision = 01h.
     uint8_t data[];        //!< Parameter data.
 } __attribute__((packed));

 } // namespace dcmi
	#pragma once

	#include "nlohmann/json.hpp"

	#include <sdbusplus/bus.hpp>

	#include <map>
	#include <string>
	#include <vector>

	namespace dcmi
	{

	using NumInstances = size_t;
	using Json = nlohmann::json;

	enum Commands
	{
	// Get capability bits
	GET_CAPABILITIES = 0x01,
	GET_POWER_READING = 0x02,
	GET_POWER_LIMIT = 0x03,
	SET_POWER_LIMIT = 0x04,
	APPLY_POWER_LIMIT = 0x05,
	GET_ASSET_TAG = 0x06,
	GET_SENSOR_INFO = 0x07,
	SET_ASSET_TAG = 0x08,
	GET_MGMNT_CTRL_ID_STR = 0x09,
	SET_MGMNT_CTRL_ID_STR = 0x0A,
	GET_TEMP_READINGS = 0x10,
	SET_CONF_PARAMS = 0x12,
	GET_CONF_PARAMS = 0x13,
	};

	static constexpr auto propIntf = "org.freedesktop.DBus.Properties";
	static constexpr auto assetTagIntf =
	"xyz.openbmc_project.Inventory.Decorator.AssetTag";
	static constexpr auto assetTagProp = "AssetTag";
	static constexpr auto networkServiceName = "xyz.openbmc_project.Network";
	static constexpr auto networkConfigObj = "/xyz/openbmc_project/network/config";
	static constexpr auto networkConfigIntf =
	"xyz.openbmc_project.Network.SystemConfiguration";
	static constexpr auto hostNameProp = "HostName";
	static constexpr auto temperatureSensorType = 0x01;
	static constexpr auto maxInstances = 255;
	static constexpr auto gDCMISensorsConfig =
	"/usr/share/ipmi-providers/dcmi_sensors.json";
	static constexpr auto ethernetIntf =
	"xyz.openbmc_project.Network.EthernetInterface";
	static constexpr auto ethernetDefaultChannelNum = 0x1;
	static constexpr auto networkRoot = "/xyz/openbmc_project/network";
	static constexpr auto dhcpObj = "/xyz/openbmc_project/network/dhcp";
	static constexpr auto dhcpIntf =
	"xyz.openbmc_project.Network.DHCPConfiguration";
	static constexpr auto systemBusName = "org.freedesktop.systemd1";
	static constexpr auto systemPath = "/org/freedesktop/systemd1";
	static constexpr auto systemIntf = "org.freedesktop.systemd1.Manager";
	static constexpr auto gDCMICapabilitiesConfig =
	"/usr/share/ipmi-providers/dcmi_cap.json";
	static constexpr auto gDCMIPowerMgmtCapability = "PowerManagement";
	static constexpr auto gDCMIPowerMgmtSupported = 0x1;
	static constexpr auto gMaxSELEntriesMask = 0xFFF;
	static constexpr auto gByteBitSize = 8;

	namespace assettag
	{

	using ObjectPath = std::string;
	using Service = std::string;
	using Interfaces = std::vector<std::string>;
	using ObjectTree = std::map<ObjectPath, std::map<Service, Interfaces>>;

	} // namespace assettag

	namespace temp_readings
	{
	static constexpr auto maxDataSets = 8;
	static constexpr auto maxTemp = 127; // degrees C

	/** @struct Response
	*
	* DCMI payload for Get Temperature Readings response
	*/
	struct Response
	{
	#if BYTE_ORDER == LITTLE_ENDIAN
	uint8_t temperature : 7; //!< Temperature reading in Celsius
	uint8_t sign : 1; //!< Sign bit
	#endif
	#if BYTE_ORDER == BIG_ENDIAN
	uint8_t sign : 1; //!< Sign bit
	uint8_t temperature : 7; //!< Temperature reading in Celsius
	#endif
	uint8_t instance; //!< Entity instance number
	} __attribute__((packed));

	using ResponseList = std::vector<Response>;
	using Value = uint8_t;
	using Sign = bool;
	using Temperature = std::tuple<Value, Sign>;
	} // namespace temp_readings

	namespace sensor_info
	{
	static constexpr auto maxRecords = 8;

	/** @struct Response
	*
	* DCMI payload for Get Sensor Info response
	*/
	struct Response
	{
	uint8_t recordIdLsb; //!< SDR record id LS byte
	uint8_t recordIdMsb; //!< SDR record id MS byte
	} __attribute__((packed));

	using ResponseList = std::vector<Response>;
	} // namespace sensor_info

	static constexpr auto groupExtId = 0xDC;

	static constexpr auto assetTagMaxOffset = 62;
	static constexpr auto assetTagMaxSize = 63;
	static constexpr auto maxBytes = 16;
	static constexpr size_t maxCtrlIdStrLen = 63;

	/** @struct GetAssetTagRequest
	*
	* DCMI payload for Get Asset Tag command request.
	*/
	struct GetAssetTagRequest
	{
	uint8_t offset; //!< Offset to read.
	uint8_t bytes; //!< Number of bytes to read.
	} __attribute__((packed));

	/** @struct GetAssetTagResponse
	*
	* DCMI payload for Get Asset Tag command response.
	*/
	struct GetAssetTagResponse
	{
	uint8_t tagLength; //!< Total asset tag length.
	} __attribute__((packed));

	/** @struct SetAssetTagRequest
	*
	* DCMI payload for Set Asset Tag command request.
	*/
	struct SetAssetTagRequest
	{
	uint8_t offset; //!< Offset to write.
	uint8_t bytes; //!< Number of bytes to write.
	} __attribute__((packed));

	/** @struct SetAssetTagResponse
	*
	* DCMI payload for Set Asset Tag command response.
	*/
	struct SetAssetTagResponse
	{
	uint8_t tagLength; //!< Total asset tag length.
	} __attribute__((packed));

	/** @brief Check whether DCMI power management is supported
	* in the DCMI Capabilities config file.
	*
	* @return True if DCMI power management is supported
	*/
	bool isDCMIPowerMgmtSupported();

	/** @brief Read the object tree to fetch the object path that implemented the
	* Asset tag interface.
	*
	* @param[in,out] objectTree - object tree
	*
	* @return On success return the object tree with the object path that
	* implemented the AssetTag interface.
	*/
	void readAssetTagObjectTree(dcmi::assettag::ObjectTree& objectTree);

	/** @brief Read the asset tag of the server
	*
	* @return On success return the asset tag.
	*/
	std::string readAssetTag();

	/** @brief Write the asset tag to the asset tag DBUS property
	*
	* @param[in] assetTag - Asset Tag to be written to the property.
	*/
	void writeAssetTag(const std::string& assetTag);

	/** @brief Read the current power cap value
	*
	* @param[in] bus - dbus connection
	*
	* @return On success return the power cap value.
	*/
	uint32_t getPcap(sdbusplus::bus_t& bus);

	/** @brief Check if the power capping is enabled
	*
	* @param[in] bus - dbus connection
	*
	* @return true if the powerCap is enabled and false if the powercap
	* is disabled.
	*/
	bool getPcapEnabled(sdbusplus::bus_t& bus);

	/** @struct GetPowerLimitResponse
	*
	* DCMI payload for Get Power Limit command response.
	*/
	struct GetPowerLimitResponse
	{
	uint16_t reserved; //!< Reserved.
	uint8_t exceptionAction; //!< Exception action.
	uint16_t powerLimit; //!< Power limit requested in watts.
	uint32_t correctionTime; //!< Correction time limit in milliseconds.
	uint16_t reserved1; //!< Reserved.
	uint16_t samplingPeriod; //!< Statistics sampling period in seconds.
	} __attribute__((packed));

	/** @brief Set the power cap value
	*
	* @param[in] bus - dbus connection
	* @param[in] powerCap - power cap value
	*/
	void setPcap(sdbusplus::bus_t& bus, const uint32_t powerCap);

	/** @struct SetPowerLimitRequest
	*
	* DCMI payload for Set Power Limit command request.
	*/
	struct SetPowerLimitRequest
	{
	uint16_t reserved; //!< Reserved
	uint8_t reserved1; //!< Reserved
	uint8_t exceptionAction; //!< Exception action.
	uint16_t powerLimit; //!< Power limit requested in watts.
	uint32_t correctionTime; //!< Correction time limit in milliseconds.
	uint16_t reserved2; //!< Reserved.
	uint16_t samplingPeriod; //!< Statistics sampling period in seconds.
	} __attribute__((packed));

	/** @brief Enable or disable the power capping
	*
	* @param[in] bus - dbus connection
	* @param[in] enabled - enable/disable
	*/
	void setPcapEnable(sdbusplus::bus_t& bus, bool enabled);

	/** @struct ApplyPowerLimitRequest
	*
	* DCMI payload for Activate/Deactivate Power Limit command request.
	*/
	struct ApplyPowerLimitRequest
	{
	uint8_t powerLimitAction; //!< Power limit activation
	uint16_t reserved; //!< Reserved
	} __attribute__((packed));

	/** @struct GetMgmntCtrlIdStrRequest
	*
	* DCMI payload for Get Management Controller Identifier String cmd request.
	*/
	struct GetMgmntCtrlIdStrRequest
	{
	uint8_t offset; //!< Offset to read.
	uint8_t bytes; //!< Number of bytes to read.
	} __attribute__((packed));

	/** @struct GetMgmntCtrlIdStrResponse
	*
	* DCMI payload for Get Management Controller Identifier String cmd response.
	*/
	struct GetMgmntCtrlIdStrResponse
	{
	uint8_t strLen; //!< ID string length.
	char data[]; //!< ID string
	} __attribute__((packed));

	/** @struct SetMgmntCtrlIdStrRequest
	*
	* DCMI payload for Set Management Controller Identifier String cmd request.
	*/
	struct SetMgmntCtrlIdStrRequest
	{
	uint8_t offset; //!< Offset to write.
	uint8_t bytes; //!< Number of bytes to read.
	char data[]; //!< ID string
	} __attribute__((packed));

	/** @struct GetMgmntCtrlIdStrResponse
	*
	* DCMI payload for Get Management Controller Identifier String cmd response.
	*/
	struct SetMgmntCtrlIdStrResponse
	{
	uint8_t offset; //!< Last Offset Written.
	} __attribute__((packed));

	/** @enum DCMICapParameters
	*
	* DCMI Capability parameters
	*/
	enum class DCMICapParameters
	{
	SUPPORTED_DCMI_CAPS = 0x01, //!< Supported DCMI Capabilities
	MANDATORY_PLAT_ATTRIBUTES = 0x02, //!< Mandatory Platform Attributes
	OPTIONAL_PLAT_ATTRIBUTES = 0x03, //!< Optional Platform Attributes
	MANAGEABILITY_ACCESS_ATTRIBUTES = 0x04, //!< Manageability Access Attributes
	};

	/** @struct GetDCMICapRequest
	*
	* DCMI payload for Get capabilities cmd request.
	*/
	struct GetDCMICapRequest
	{
	uint8_t param; //!< Capability parameter selector.
	} __attribute__((packed));

	/** @struct GetDCMICapRequest
	*
	* DCMI payload for Get capabilities cmd response.
	*/
	struct GetDCMICapResponse
	{
	uint8_t major; //!< DCMI Specification Conformance - major ver
	uint8_t minor; //!< DCMI Specification Conformance - minor ver
	uint8_t paramRevision; //!< Parameter Revision = 02h
	uint8_t data[]; //!< Capability array
	} __attribute__((packed));

	/** @struct DCMICap
	*
	* DCMI capabilities protocol info.
	*/
	struct DCMICap
	{
	std::string name; //!< Name of DCMI capability.
	uint8_t bytePosition; //!< Starting byte number from DCMI spec.
	uint8_t position; //!< bit position from the DCMI spec.
	uint8_t length; //!< Length of the value from DCMI spec.
	};

	using DCMICapList = std::vector<DCMICap>;

	/** @struct DCMICapEntry
	*
	* DCMI capabilities list and size for each parameter.
	*/
	struct DCMICapEntry
	{
	uint8_t size; //!< Size of capability array in bytes.
	DCMICapList capList; //!< List of capabilities for a parameter.
	};

	using DCMICaps = std::map<DCMICapParameters, DCMICapEntry>;

	/** @struct GetTempReadingsRequest
	*
	* DCMI payload for Get Temperature Readings request
	*/
	struct GetTempReadingsRequest
	{
	uint8_t sensorType; //!< Type of the sensor
	uint8_t entityId; //!< Entity ID
	uint8_t entityInstance; //!< Entity Instance (0 means all instances)
	uint8_t instanceStart; //!< Instance start (used if instance is 0)
	} __attribute__((packed));

	/** @struct GetTempReadingsResponse
	*
	* DCMI header for Get Temperature Readings response
	*/
	struct GetTempReadingsResponseHdr
	{
	uint8_t numInstances; //!< No. of instances for requested id
	uint8_t numDataSets; //!< No. of sets of temperature data
	} __attribute__((packed));

	/** @brief Parse out JSON config file.
	*
	* @param[in] configFile - JSON config file name
	*
	* @return A json object
	*/
	Json parseJSONConfig(const std::string& configFile);

	namespace temp_readings
	{
	/** @brief Read temperature from a d-bus object, scale it as per dcmi
	* get temperature reading requirements.
	*
	* @param[in] dbusService - the D-Bus service
	* @param[in] dbusPath - the D-Bus path
	*
	* @return A temperature reading
	*/
	Temperature readTemp(const std::string& dbusService,
	const std::string& dbusPath);

	/** @brief Read temperatures and fill up DCMI response for the Get
	* Temperature Readings command. This looks at a specific
	* instance.
	*
	* @param[in] type - one of "inlet", "cpu", "baseboard"
	* @param[in] instance - A non-zero Entity instance number
	*
	* @return A tuple, containing a temperature reading and the
	* number of instances.
	*/
	std::tuple<Response, NumInstances> read(const std::string& type,
	uint8_t instance);

	/** @brief Read temperatures and fill up DCMI response for the Get
	* Temperature Readings command. This looks at a range of
	* instances.
	*
	* @param[in] type - one of "inlet", "cpu", "baseboard"
	* @param[in] instanceStart - Entity instance start index
	*
	* @return A tuple, containing a list of temperature readings and the
	* number of instances.
	*/
	std::tuple<ResponseList, NumInstances> readAll(const std::string& type,
	uint8_t instanceStart);
	} // namespace temp_readings

	namespace sensor_info
	{
	/** @brief Create response from JSON config.
	*
	* @param[in] config - JSON config info about DCMI sensors
	*
	* @return Sensor info response
	*/
	Response createFromJson(const Json& config);

	/** @brief Read sensor info and fill up DCMI response for the Get
	* Sensor Info command. This looks at a specific
	* instance.
	*
	* @param[in] type - one of "inlet", "cpu", "baseboard"
	* @param[in] instance - A non-zero Entity instance number
	* @param[in] config - JSON config info about DCMI sensors
	*
	* @return A tuple, containing a sensor info response and
	* number of instances.
	*/
	std::tuple<Response, NumInstances> read(const std::string& type,
	uint8_t instance, const Json& config);

	/** @brief Read sensor info and fill up DCMI response for the Get
	* Sensor Info command. This looks at a range of
	* instances.
	*
	* @param[in] type - one of "inlet", "cpu", "baseboard"
	* @param[in] instanceStart - Entity instance start index
	* @param[in] config - JSON config info about DCMI sensors
	*
	* @return A tuple, containing a list of sensor info responses and the
	* number of instances.
	*/
	std::tuple<ResponseList, NumInstances>
	readAll(const std::string& type, uint8_t instanceStart, const Json& config);
	} // namespace sensor_info

	/** @brief Read power reading from power reading sensor object
	*
	* @param[in] bus - dbus connection
	*
	* @return total power reading
	*/
	int64_t getPowerReading(sdbusplus::bus_t& bus);

	/** @struct GetPowerReadingRequest
	*
	* DCMI Get Power Reading command request.
	* Refer DCMI specification Version 1.1 Section 6.6.1
	*/
	struct GetPowerReadingRequest
	{
	uint8_t mode; //!< Mode
	uint8_t modeAttribute; //!< Mode Attributes
	} __attribute__((packed));

	/** @struct GetPowerReadingResponse
	*
	* DCMI Get Power Reading command response.
	* Refer DCMI specification Version 1.1 Section 6.6.1
	*/
	struct GetPowerReadingResponse
	{
	uint16_t currentPower; //!< Current power in watts
	uint16_t minimumPower; //!< Minimum power over sampling duration
	//!< in watts
	uint16_t maximumPower; //!< Maximum power over sampling duration
	//!< in watts
	uint16_t averagePower; //!< Average power over sampling duration
	//!< in watts
	uint32_t timeStamp; //!< IPMI specification based time stamp
	uint32_t timeFrame; //!< Statistics reporting time period in milli
	//!< seconds.
	uint8_t powerReadingState; //!< Power Reading State
	} __attribute__((packed));

	/** @struct GetSensorInfoRequest
	*
	* DCMI payload for Get Sensor Info request
	*/
	struct GetSensorInfoRequest
	{
	uint8_t sensorType; //!< Type of the sensor
	uint8_t entityId; //!< Entity ID
	uint8_t entityInstance; //!< Entity Instance (0 means all instances)
	uint8_t instanceStart; //!< Instance start (used if instance is 0)
	} __attribute__((packed));

	/** @struct GetSensorInfoResponseHdr
	*
	* DCMI header for Get Sensor Info response
	*/
	struct GetSensorInfoResponseHdr
	{
	uint8_t numInstances; //!< No. of instances for requested id
	uint8_t numRecords; //!< No. of record ids in the response
	} __attribute__((packed));
	/**
	* @brief Parameters for DCMI Configuration Parameters
	*/
	enum class DCMIConfigParameters : uint8_t
	{
	ActivateDHCP = 1,
	DiscoveryConfig,
	DHCPTiming1,
	DHCPTiming2,
	DHCPTiming3,
	};

	/** @struct SetConfParamsRequest
	*
	* DCMI Set DCMI Configuration Parameters Command.
	* Refer DCMI specification Version 1.1 Section 6.1.2
	*/
	struct SetConfParamsRequest
	{
	uint8_t paramSelect; //!< Parameter selector.
	uint8_t setSelect; //!< Set Selector (use 00h for parameters that only
	//!< have one set).
	uint8_t data[]; //!< Configuration parameter data.
	} __attribute__((packed));

	/** @struct GetConfParamsRequest
	*
	* DCMI Get DCMI Configuration Parameters Command.
	* Refer DCMI specification Version 1.1 Section 6.1.3
	*/
	struct GetConfParamsRequest
	{
	uint8_t paramSelect; //!< Parameter selector.
	uint8_t setSelect; //!< Set Selector. Selects a given set of parameters
	//!< under a given Parameter selector value. 00h if
	//!< parameter doesn't use a Set Selector.
	} __attribute__((packed));

	/** @struct GetConfParamsResponse
	*
	* DCMI Get DCMI Configuration Parameters Command response.
	* Refer DCMI specification Version 1.1 Section 6.1.3
	*/
	struct GetConfParamsResponse
	{
	uint8_t major; //!< DCMI Spec Conformance - major ver = 01h.
	uint8_t minor; //!< DCMI Spec Conformance - minor ver = 05h.
	uint8_t paramRevision; //!< Parameter Revision = 01h.
	uint8_t data[]; //!< Parameter data.
	} __attribute__((packed));

	} // namespace dcmi