pldm.hpp - openbmc/openpower-occ-control - Gitiles

 #pragma once

 #include "occ_status.hpp"
 #include "utils.hpp"

 #include <libpldm/pldm.h>

 #include <sdbusplus/bus/match.hpp>

 namespace pldm
 {

 namespace MatchRules = sdbusplus::bus::match::rules;

 using CompositeEffecterCount = uint8_t;
 using EffecterID = uint16_t;
 using EntityType = uint16_t;
 using EntityInstance = uint16_t;
 using EventState = uint8_t;
 using InstanceToEffecter = std::map<open_power::occ::instanceID, EffecterID>;
 using PdrList = std::vector<std::vector<uint8_t>>;
 using SensorID = uint16_t;
 using SensorOffset = uint8_t;
 using SensorToInstance = std::map<SensorID, open_power::occ::instanceID>;
 using TerminusID = uint8_t;

 /** @brief Hardcoded TID */
 constexpr TerminusID tid = 0;

 /** @brief OCC instance starts with 0 for example "occ0" */
 constexpr open_power::occ::instanceID start = 0;

 /** @brief Hardcoded mctpEid for HBRT */
 constexpr mctp_eid_t mctpEid = 10;

 /** @class Interface
  *
  *  @brief Abstracts the PLDM details related to the OCC
  */
 class Interface
 {
   public:
     Interface() = delete;
     ~Interface() = default;
     Interface(const Interface&) = delete;
     Interface& operator=(const Interface&) = delete;
     Interface(Interface&&) = delete;
     Interface& operator=(Interface&&) = delete;

     /** @brief Constructs the PLDM Interface object for OCC functions
      *
      *  @param[in] callBack - callBack handler to invoke when the OCC state
      *                        changes.
      */
     explicit Interface(
         std::function<bool(open_power::occ::instanceID, bool)> callBack,
         std::function<void(open_power::occ::instanceID, bool)> sbeCallBack) :
         callBack(callBack),
         sbeCallBack(sbeCallBack),
         pldmEventSignal(
             open_power::occ::utils::getBus(),
             MatchRules::type::signal() +
                 MatchRules::member("StateSensorEvent") +
                 MatchRules::path("/xyz/openbmc_project/pldm") +
                 MatchRules::interface("xyz.openbmc_project.PLDM.Event"),
             std::bind(std::mem_fn(&Interface::sensorEvent), this,
                       std::placeholders::_1)),
         hostStateSignal(
             open_power::occ::utils::getBus(),
             MatchRules::propertiesChanged("/xyz/openbmc_project/state/host0",
                                           "xyz.openbmc_project.State.Host"),
             std::bind(std::mem_fn(&Interface::hostStateEvent), this,
                       std::placeholders::_1))
     {}

     /** @brief Fetch the state sensor PDRs and populate the cache with
      *         sensorId to OCC/SBE instance mapping information and the sensor
      *         offset for the relevent state set.
      *
      *  @param[in] stateSetId - the state set ID to look for
      *  @param[out] sensorInstanceMap - map of sensorID to instance
      *  @param[out] sensorOffset - sensor offset of interested state set ID
      */
     void fetchSensorInfo(uint16_t stateSetId,
                          SensorToInstance& sensorInstanceMap,
                          SensorOffset& sensorOffset);

     /** @brief Fetch the OCC/SBE state effecter PDRs and populate the cache
      *         with OCC/SBE instance to EffecterID information.
      *
      *  @param[in] stateSetId - the state set ID to look for
      *  @param[out] instanceToEffecterMap - map of instance to effecterID
      *  @param[out] count - sensor offset of interested state set ID
      *  @param[out] stateIdPos - position of the stateSetID
      */
     void fetchEffecterInfo(uint16_t stateSetId,
                            InstanceToEffecter& instanceToEffecterMap,
                            CompositeEffecterCount& count, uint8_t& stateIdPos);

     /** @brief Prepare the request for SetStateEffecterStates command
      *
      *  @param[in] instanceId - PLDM instanceID
      *  @param[in] effecterId - the instance effecter ID
      *  @param[in] effecterCount - compositeEffecterCount for the effecter PDR
      *  @param[in] stateIdPos - position of the stateSetID
      *  @param[in] stateSetValue - the value to set the state set to
      *
      *  @return PLDM request message to be sent to host for OCC reset or SBE
      *          HRESET, empty response in the case of failure.
      */
     std::vector<uint8_t>
         prepareSetEffecterReq(uint8_t instanceId, EffecterID effecterId,
                               CompositeEffecterCount effecterCount,
                               uint8_t stateIdPos, uint8_t stateSetValue);

     /** @brief Send the PLDM message to reset the OCC
      *
      *  @param[in] instanceId - OCC instance to reset
      *
      */
     void resetOCC(open_power::occ::instanceID occInstanceId);

     /** @brief Send the PLDM message to perform the HRESET
      *
      *  @param[in] instanceID - SBE instance to HRESET
      */
     void sendHRESET(open_power::occ::instanceID sbeInstanceId);

   private:
     /** @brief Callback handler to be invoked when the state of the OCC
      *         changes
      */
     std::function<bool(open_power::occ::instanceID, bool)> callBack = nullptr;

     /** @brief Callback handler to be invoked when the maintenance state of the
      *         SBE changes
      */
     std::function<void(open_power::occ::instanceID, bool)> sbeCallBack =
         nullptr;

     /** @brief Used to subscribe to D-Bus PLDM StateSensorEvent signal and
      *         processes if the event corresponds to OCC state change.
      */
     sdbusplus::bus::match_t pldmEventSignal;

     /** @brief Used to subscribe for host state change signal */
     sdbusplus::bus::match_t hostStateSignal;

     /** @brief PLDM Sensor ID to OCC Instance mapping
      */
     SensorToInstance sensorToOCCInstance;

     /** @brief PLDM Sensor ID to SBE Instance mapping
      */
     SensorToInstance sensorToSBEInstance;

     /** @brief Sensor offset of OCC state set ID
      * PLDM_STATE_SET_OPERATIONAL_RUNNING_STATUS in state sensor PDR.
      */
     SensorOffset OCCSensorOffset = 0;

     /** @brief Sensor offset of the SBE state set ID
      * PLDM_OEM_IBM_SBE_HRESET_STATE in state sensor PDR.
      */
     SensorOffset SBESensorOffset = 0;

     /** @brief OCC Instance mapping to PLDM Effecter ID
      */
     InstanceToEffecter occInstanceToEffecter;

     /** @brief SBE instance mapping to PLDM Effecter ID
      */
     InstanceToEffecter sbeInstanceToEffecter;

     /** @brief compositeEffecterCount for OCC reset state effecter PDR */
     CompositeEffecterCount OCCEffecterCount = 0;

     /** @brief compositeEffecterCount for SBE HRESET state effecter PDR */
     CompositeEffecterCount SBEEffecterCount = 0;

     /** @brief Position of Boot/Restart Cause stateSetID in OCC state
      *         effecter PDR
      */
     uint8_t bootRestartPosition = 0;

     /** @brief Position of the SBE maintenance stateSetID in the state
      *         effecter PDR
      */
     uint8_t sbeMaintenanceStatePosition = 0;

     /** @brief When the OCC state changes host sends PlatformEventMessage
      *         StateSensorEvent, this function processes the D-Bus signal
      *         with the sensor event information and invokes the callback
      *         to change the OCC state.
      *
      *  @param[in] msg - data associated with the subscribed signal
      */
     void sensorEvent(sdbusplus::message::message& msg);

     /** @brief When the host state changes and if the CurrentHostState is
      *         xyz.openbmc_project.State.Host.HostState.Off then
      *         the cache of OCC sensors and effecters mapping is cleared.
      *
      *  @param[in] msg - data associated with the subscribed signal
      */
     void hostStateEvent(sdbusplus::message::message& msg);

     /** @brief Check if the PDR cache for PLDM OCC sensors is valid
      *
      *  @return true if cache is populated and false if the cache is not
      *          populated.
      */
     auto isOCCSensorCacheValid()
     {
         return (sensorToOCCInstance.empty() ? false : true);
     }

     /** @brief Check if the PDR cache for PLDM OCC effecters is valid
      *
      *  @return true if cache is populated and false if the cache is not
      *          populated.
      */
     auto isPDREffecterCacheValid()
     {
         return (occInstanceToEffecter.empty() ? false : true);
     }

     /** @brief Query PLDM for the MCTP requester instance id
      *
      * @param[out] - the instance id
      *
      * @return true if the id was found and false if not
      */
     bool getMctpInstanceId(uint8_t& instanceId);

     /** @brief Send the PLDM request
      *
      * @param[in] request - the request data
      * @param[in] async - false: wait for response, true: return immediately
      */
     void sendPldm(const std::vector<uint8_t>& request,
                   const bool async = false);
 };

 } // namespace pldm
	#pragma once

	#include "occ_status.hpp"
	#include "utils.hpp"

	#include <libpldm/pldm.h>

	#include <sdbusplus/bus/match.hpp>

	namespace pldm
	{

	namespace MatchRules = sdbusplus::bus::match::rules;

	using CompositeEffecterCount = uint8_t;
	using EffecterID = uint16_t;
	using EntityType = uint16_t;
	using EntityInstance = uint16_t;
	using EventState = uint8_t;
	using InstanceToEffecter = std::map<open_power::occ::instanceID, EffecterID>;
	using PdrList = std::vector<std::vector<uint8_t>>;
	using SensorID = uint16_t;
	using SensorOffset = uint8_t;
	using SensorToInstance = std::map<SensorID, open_power::occ::instanceID>;
	using TerminusID = uint8_t;

	/** @brief Hardcoded TID */
	constexpr TerminusID tid = 0;

	/** @brief OCC instance starts with 0 for example "occ0" */
	constexpr open_power::occ::instanceID start = 0;

	/** @brief Hardcoded mctpEid for HBRT */
	constexpr mctp_eid_t mctpEid = 10;

	/** @class Interface
	*
	* @brief Abstracts the PLDM details related to the OCC
	*/
	class Interface
	{
	public:
	Interface() = delete;
	~Interface() = default;
	Interface(const Interface&) = delete;
	Interface& operator=(const Interface&) = delete;
	Interface(Interface&&) = delete;
	Interface& operator=(Interface&&) = delete;

	/** @brief Constructs the PLDM Interface object for OCC functions
	*
	* @param[in] callBack - callBack handler to invoke when the OCC state
	* changes.
	*/
	explicit Interface(
	std::function<bool(open_power::occ::instanceID, bool)> callBack,
	std::function<void(open_power::occ::instanceID, bool)> sbeCallBack) :
	callBack(callBack),
	sbeCallBack(sbeCallBack),
	pldmEventSignal(
	open_power::occ::utils::getBus(),
	MatchRules::type::signal() +
	MatchRules::member("StateSensorEvent") +
	MatchRules::path("/xyz/openbmc_project/pldm") +
	MatchRules::interface("xyz.openbmc_project.PLDM.Event"),
	std::bind(std::mem_fn(&Interface::sensorEvent), this,
	std::placeholders::_1)),
	hostStateSignal(
	open_power::occ::utils::getBus(),
	MatchRules::propertiesChanged("/xyz/openbmc_project/state/host0",
	"xyz.openbmc_project.State.Host"),
	std::bind(std::mem_fn(&Interface::hostStateEvent), this,
	std::placeholders::_1))
	{}

	/** @brief Fetch the state sensor PDRs and populate the cache with
	* sensorId to OCC/SBE instance mapping information and the sensor
	* offset for the relevent state set.
	*
	* @param[in] stateSetId - the state set ID to look for
	* @param[out] sensorInstanceMap - map of sensorID to instance
	* @param[out] sensorOffset - sensor offset of interested state set ID
	*/
	void fetchSensorInfo(uint16_t stateSetId,
	SensorToInstance& sensorInstanceMap,
	SensorOffset& sensorOffset);

	/** @brief Fetch the OCC/SBE state effecter PDRs and populate the cache
	* with OCC/SBE instance to EffecterID information.
	*
	* @param[in] stateSetId - the state set ID to look for
	* @param[out] instanceToEffecterMap - map of instance to effecterID
	* @param[out] count - sensor offset of interested state set ID
	* @param[out] stateIdPos - position of the stateSetID
	*/
	void fetchEffecterInfo(uint16_t stateSetId,
	InstanceToEffecter& instanceToEffecterMap,
	CompositeEffecterCount& count, uint8_t& stateIdPos);

	/** @brief Prepare the request for SetStateEffecterStates command
	*
	* @param[in] instanceId - PLDM instanceID
	* @param[in] effecterId - the instance effecter ID
	* @param[in] effecterCount - compositeEffecterCount for the effecter PDR
	* @param[in] stateIdPos - position of the stateSetID
	* @param[in] stateSetValue - the value to set the state set to
	*
	* @return PLDM request message to be sent to host for OCC reset or SBE
	* HRESET, empty response in the case of failure.
	*/
	std::vector<uint8_t>
	prepareSetEffecterReq(uint8_t instanceId, EffecterID effecterId,
	CompositeEffecterCount effecterCount,
	uint8_t stateIdPos, uint8_t stateSetValue);

	/** @brief Send the PLDM message to reset the OCC
	*
	* @param[in] instanceId - OCC instance to reset
	*
	*/
	void resetOCC(open_power::occ::instanceID occInstanceId);

	/** @brief Send the PLDM message to perform the HRESET
	*
	* @param[in] instanceID - SBE instance to HRESET
	*/
	void sendHRESET(open_power::occ::instanceID sbeInstanceId);

	private:
	/** @brief Callback handler to be invoked when the state of the OCC
	* changes
	*/
	std::function<bool(open_power::occ::instanceID, bool)> callBack = nullptr;

	/** @brief Callback handler to be invoked when the maintenance state of the
	* SBE changes
	*/
	std::function<void(open_power::occ::instanceID, bool)> sbeCallBack =
	nullptr;

	/** @brief Used to subscribe to D-Bus PLDM StateSensorEvent signal and
	* processes if the event corresponds to OCC state change.
	*/
	sdbusplus::bus::match_t pldmEventSignal;

	/** @brief Used to subscribe for host state change signal */
	sdbusplus::bus::match_t hostStateSignal;

	/** @brief PLDM Sensor ID to OCC Instance mapping
	*/
	SensorToInstance sensorToOCCInstance;

	/** @brief PLDM Sensor ID to SBE Instance mapping
	*/
	SensorToInstance sensorToSBEInstance;

	/** @brief Sensor offset of OCC state set ID
	* PLDM_STATE_SET_OPERATIONAL_RUNNING_STATUS in state sensor PDR.
	*/
	SensorOffset OCCSensorOffset = 0;

	/** @brief Sensor offset of the SBE state set ID
	* PLDM_OEM_IBM_SBE_HRESET_STATE in state sensor PDR.
	*/
	SensorOffset SBESensorOffset = 0;

	/** @brief OCC Instance mapping to PLDM Effecter ID
	*/
	InstanceToEffecter occInstanceToEffecter;

	/** @brief SBE instance mapping to PLDM Effecter ID
	*/
	InstanceToEffecter sbeInstanceToEffecter;

	/** @brief compositeEffecterCount for OCC reset state effecter PDR */
	CompositeEffecterCount OCCEffecterCount = 0;

	/** @brief compositeEffecterCount for SBE HRESET state effecter PDR */
	CompositeEffecterCount SBEEffecterCount = 0;

	/** @brief Position of Boot/Restart Cause stateSetID in OCC state
	* effecter PDR
	*/
	uint8_t bootRestartPosition = 0;

	/** @brief Position of the SBE maintenance stateSetID in the state
	* effecter PDR
	*/
	uint8_t sbeMaintenanceStatePosition = 0;

	/** @brief When the OCC state changes host sends PlatformEventMessage
	* StateSensorEvent, this function processes the D-Bus signal
	* with the sensor event information and invokes the callback
	* to change the OCC state.
	*
	* @param[in] msg - data associated with the subscribed signal
	*/
	void sensorEvent(sdbusplus::message::message& msg);

	/** @brief When the host state changes and if the CurrentHostState is
	* xyz.openbmc_project.State.Host.HostState.Off then
	* the cache of OCC sensors and effecters mapping is cleared.
	*
	* @param[in] msg - data associated with the subscribed signal
	*/
	void hostStateEvent(sdbusplus::message::message& msg);

	/** @brief Check if the PDR cache for PLDM OCC sensors is valid
	*
	* @return true if cache is populated and false if the cache is not
	* populated.
	*/
	auto isOCCSensorCacheValid()
	{
	return (sensorToOCCInstance.empty() ? false : true);
	}

	/** @brief Check if the PDR cache for PLDM OCC effecters is valid
	*
	* @return true if cache is populated and false if the cache is not
	* populated.
	*/
	auto isPDREffecterCacheValid()
	{
	return (occInstanceToEffecter.empty() ? false : true);
	}

	/** @brief Query PLDM for the MCTP requester instance id
	*
	* @param[out] - the instance id
	*
	* @return true if the id was found and false if not
	*/
	bool getMctpInstanceId(uint8_t& instanceId);

	/** @brief Send the PLDM request
	*
	* @param[in] request - the request data
	* @param[in] async - false: wait for response, true: return immediately
	*/
	void sendPldm(const std::vector<uint8_t>& request,
	const bool async = false);
	};

	} // namespace pldm