chassis_state_manager.hpp - openbmc/phosphor-state-manager - Gitiles

 #pragma once

 #include "config.h"

 #include "utils.hpp"

 #include <cereal/cereal.hpp>
 #include <sdbusplus/bus.hpp>
 #include <sdeventplus/clock.hpp>
 #include <sdeventplus/event.hpp>
 #include <sdeventplus/utility/timer.hpp>
 #include <xyz/openbmc_project/State/Chassis/server.hpp>
 #include <xyz/openbmc_project/State/PowerOnHours/server.hpp>

 #include <chrono>
 #include <filesystem>

 namespace phosphor
 {
 namespace state
 {
 namespace manager
 {

 using ChassisInherit = sdbusplus::server::object_t<
     sdbusplus::server::xyz::openbmc_project::state::Chassis,
     sdbusplus::server::xyz::openbmc_project::state::PowerOnHours>;
 namespace sdbusRule = sdbusplus::bus::match::rules;
 namespace fs = std::filesystem;

 /** @class Chassis
  *  @brief OpenBMC chassis state management implementation.
  *  @details A concrete implementation for xyz.openbmc_project.State.Chassis
  *  DBus API.
  */
 class Chassis : public ChassisInherit
 {
   public:
     /** @brief Constructs Chassis State Manager
      *
      * @note This constructor passes 'true' to the base class in order to
      *       defer dbus object registration until we can run
      *       determineInitialState() and set our properties
      *
      * @param[in] bus       - The Dbus bus object
      * @param[in] objPath   - The Dbus object path
      * @param[in] id        - Chassis id
      */
     Chassis(sdbusplus::bus_t& bus, const char* objPath, size_t id) :
         ChassisInherit(bus, objPath, ChassisInherit::action::defer_emit),
         bus(bus),
         systemdSignals(
             bus,
             sdbusRule::type::signal() + sdbusRule::member("JobRemoved") +
                 sdbusRule::path("/org/freedesktop/systemd1") +
                 sdbusRule::interface("org.freedesktop.systemd1.Manager"),
             [this](sdbusplus::message_t& m) { sysStateChange(m); }),
         id(id),
         pohTimer(
             sdeventplus::Event::get_default(), [this](auto&) { pohCallback(); },
             std::chrono::hours{1}, std::chrono::minutes{1})
     {
         utils::subscribeToSystemdSignals(bus);

         createSystemdTargetTable();

         restoreChassisStateChangeTime();

         // No default in PDI so start at Good, skip D-Bus signal for now
         currentPowerStatus(PowerStatus::Good, true);
         determineInitialState();

         restorePOHCounter(); // restore POHCounter from persisted file

         // We deferred this until we could get our property correct
         this->emit_object_added();
     }

     /** @brief Set value of RequestedPowerTransition */
     Transition requestedPowerTransition(Transition value) override;

     /** @brief Set value of CurrentPowerState */
     PowerState currentPowerState(PowerState value) override;

     /** @brief Get value of POHCounter */
     using ChassisInherit::pohCounter;

     /** @brief Increment POHCounter if Chassis Power state is ON */
     void startPOHCounter();

   private:
     /** @brief Create systemd target instance names and mapping table */
     void createSystemdTargetTable();

     /** @brief Determine initial chassis state and set internally */
     void determineInitialState();

     /** @brief Determine status of power into system by examining all the
      *        power-related interfaces of interest
      */
     void determineStatusOfPower();

     /** @brief Determine status of power provided by an Uninterruptible Power
      *         Supply into the system
      *
      *  @return True if UPS power is good, false otherwise
      */
     bool determineStatusOfUPSPower();

     /** @brief Determine status of power provided by the power supply units into
      *         the system
      *
      *  @return True if PSU power is good, false otherwise
      */
     bool determineStatusOfPSUPower();

     /** @brief Start the systemd unit requested
      *
      * This function calls `StartUnit` on the systemd unit given.
      *
      * @param[in] sysdUnit    - Systemd unit
      */
     void startUnit(const std::string& sysdUnit);

     /** @brief Restart the systemd unit requested
      *
      * This function calls `RestartUnit` on the systemd unit given.
      * This is useful when needing to restart a service that is already running
      *
      * @param[in] sysdUnit    - Systemd unit to restart
      */
     void restartUnit(const std::string& sysdUnit);

     /**
      * @brief Determine if target is active
      *
      * This function determines if the target is active and
      * helps prevent misleading log recorded states.
      *
      * @param[in] target - Target string to check on
      *
      * @return boolean corresponding to state active
      **/
     bool stateActive(const std::string& target);

     /** @brief Check if systemd state change is relevant to this object
      *
      * Instance specific interface to handle the detected systemd state
      * change
      *
      * @param[in]  msg       - Data associated with subscribed signal
      *
      */
     int sysStateChange(sdbusplus::message_t& msg);

     /** @brief Persistent sdbusplus DBus connection. */
     sdbusplus::bus_t& bus;

     /** @brief Used to subscribe to dbus systemd signals **/
     sdbusplus::bus::match_t systemdSignals;

     /** @brief Watch for any changes to UPS properties **/
     std::unique_ptr<sdbusplus::bus::match_t> uPowerPropChangeSignal;

     /** @brief Watch for any changes to PowerSystemInputs properties **/
     std::unique_ptr<sdbusplus::bus::match_t> powerSysInputsPropChangeSignal;

     /** @brief Chassis id. **/
     const size_t id = 0;

     /** @brief Transition state to systemd target mapping table. **/
     std::map<Transition, std::string> systemdTargetTable;

     /** @brief Used to Set value of POHCounter */
     uint32_t pohCounter(uint32_t value) override;

     /** @brief Used by the timer to update the POHCounter */
     void pohCallback();

     /** @brief Used to restore POHCounter value from persisted file */
     void restorePOHCounter();

     /** @brief Serialize and persist requested POH counter.
      *
      *  @return fs::path - pathname of persisted requested POH counter.
      */
     fs::path serializePOH();

     /** @brief Deserialize a persisted requested POH counter.
      *
      *  @param[in] retCounter - deserialized POH counter value
      *
      *  @return bool - true if the deserialization was successful, false
      *                 otherwise.
      */
     bool deserializePOH(uint32_t& retCounter);

     /** @brief Sets the LastStateChangeTime property and persists it. */
     void setStateChangeTime();

     /** @brief Serialize the last power state change time.
      *
      *  Save the time the state changed and the state itself.
      *  The state needs to be saved as well so that during rediscovery
      *  on reboots there's a way to know not to update the time again.
      */
     void serializeStateChangeTime();

     /** @brief Deserialize the last power state change time.
      *
      *  @param[out] time - Deserialized time
      *  @param[out] state - Deserialized power state
      *
      *  @return bool - true if successful, false otherwise.
      */
     bool deserializeStateChangeTime(uint64_t& time, PowerState& state);

     /** @brief Restores the power state change time.
      *
      *  The time is loaded into the LastStateChangeTime D-Bus property.
      *  On the very first start after this code has been applied but
      *  before the state has changed, the LastStateChangeTime value
      *  will be zero.
      */
     void restoreChassisStateChangeTime();

     /** @brief Timer used for tracking power on hours */
     sdeventplus::utility::Timer<sdeventplus::ClockId::Monotonic> pohTimer;

     /** @brief Function to check for a standby voltage regulator fault
      *
      *  Determine if a standby voltage regulator fault was detected and
      *  return true or false accordingly.
      *
      *  @return true if fault detected, else false
      */
     bool standbyVoltageRegulatorFault();

     /** @brief Process UPS property changes
      *
      * Instance specific interface to monitor for changes to the UPS
      * properties which may impact CurrentPowerStatus
      *
      * @param[in]  msg              - Data associated with subscribed signal
      *
      */
     void uPowerChangeEvent(sdbusplus::message_t& msg);

     /** @brief Process PowerSystemInputs property changes
      *
      * Instance specific interface to monitor for changes to the
      * PowerSystemInputs properties which may impact CurrentPowerStatus
      *
      * @param[in]  msg              - Data associated with subscribed signal
      *
      */
     void powerSysInputsChangeEvent(sdbusplus::message_t& msg);
 };

 } // namespace manager
 } // namespace state
 } // namespace phosphor
	#pragma once

	#include "config.h"

	#include "utils.hpp"

	#include <cereal/cereal.hpp>
	#include <sdbusplus/bus.hpp>
	#include <sdeventplus/clock.hpp>
	#include <sdeventplus/event.hpp>
	#include <sdeventplus/utility/timer.hpp>
	#include <xyz/openbmc_project/State/Chassis/server.hpp>
	#include <xyz/openbmc_project/State/PowerOnHours/server.hpp>

	#include <chrono>
	#include <filesystem>

	namespace phosphor
	{
	namespace state
	{
	namespace manager
	{

	using ChassisInherit = sdbusplus::server::object_t<
	sdbusplus::server::xyz::openbmc_project::state::Chassis,
	sdbusplus::server::xyz::openbmc_project::state::PowerOnHours>;
	namespace sdbusRule = sdbusplus::bus::match::rules;
	namespace fs = std::filesystem;

	/** @class Chassis
	* @brief OpenBMC chassis state management implementation.
	* @details A concrete implementation for xyz.openbmc_project.State.Chassis
	* DBus API.
	*/
	class Chassis : public ChassisInherit
	{
	public:
	/** @brief Constructs Chassis State Manager
	*
	* @note This constructor passes 'true' to the base class in order to
	* defer dbus object registration until we can run
	* determineInitialState() and set our properties
	*
	* @param[in] bus - The Dbus bus object
	* @param[in] objPath - The Dbus object path
	* @param[in] id - Chassis id
	*/
	Chassis(sdbusplus::bus_t& bus, const char* objPath, size_t id) :
	ChassisInherit(bus, objPath, ChassisInherit::action::defer_emit),
	bus(bus),
	systemdSignals(
	bus,
	sdbusRule::type::signal() + sdbusRule::member("JobRemoved") +
	sdbusRule::path("/org/freedesktop/systemd1") +
	sdbusRule::interface("org.freedesktop.systemd1.Manager"),
	[this](sdbusplus::message_t& m) { sysStateChange(m); }),
	id(id),
	pohTimer(
	sdeventplus::Event::get_default(), [this](auto&) { pohCallback(); },
	std::chrono::hours{1}, std::chrono::minutes{1})
	{
	utils::subscribeToSystemdSignals(bus);

	createSystemdTargetTable();

	restoreChassisStateChangeTime();

	// No default in PDI so start at Good, skip D-Bus signal for now
	currentPowerStatus(PowerStatus::Good, true);
	determineInitialState();

	restorePOHCounter(); // restore POHCounter from persisted file

	// We deferred this until we could get our property correct
	this->emit_object_added();
	}

	/** @brief Set value of RequestedPowerTransition */
	Transition requestedPowerTransition(Transition value) override;

	/** @brief Set value of CurrentPowerState */
	PowerState currentPowerState(PowerState value) override;

	/** @brief Get value of POHCounter */
	using ChassisInherit::pohCounter;

	/** @brief Increment POHCounter if Chassis Power state is ON */
	void startPOHCounter();

	private:
	/** @brief Create systemd target instance names and mapping table */
	void createSystemdTargetTable();

	/** @brief Determine initial chassis state and set internally */
	void determineInitialState();

	/** @brief Determine status of power into system by examining all the
	* power-related interfaces of interest
	*/
	void determineStatusOfPower();

	/** @brief Determine status of power provided by an Uninterruptible Power
	* Supply into the system
	*
	* @return True if UPS power is good, false otherwise
	*/
	bool determineStatusOfUPSPower();

	/** @brief Determine status of power provided by the power supply units into
	* the system
	*
	* @return True if PSU power is good, false otherwise
	*/
	bool determineStatusOfPSUPower();

	/** @brief Start the systemd unit requested
	*
	* This function calls `StartUnit` on the systemd unit given.
	*
	* @param[in] sysdUnit - Systemd unit
	*/
	void startUnit(const std::string& sysdUnit);

	/** @brief Restart the systemd unit requested
	*
	* This function calls `RestartUnit` on the systemd unit given.
	* This is useful when needing to restart a service that is already running
	*
	* @param[in] sysdUnit - Systemd unit to restart
	*/
	void restartUnit(const std::string& sysdUnit);

	/**
	* @brief Determine if target is active
	*
	* This function determines if the target is active and
	* helps prevent misleading log recorded states.
	*
	* @param[in] target - Target string to check on
	*
	* @return boolean corresponding to state active
	**/
	bool stateActive(const std::string& target);

	/** @brief Check if systemd state change is relevant to this object
	*
	* Instance specific interface to handle the detected systemd state
	* change
	*
	* @param[in] msg - Data associated with subscribed signal
	*
	*/
	int sysStateChange(sdbusplus::message_t& msg);

	/** @brief Persistent sdbusplus DBus connection. */
	sdbusplus::bus_t& bus;

	/ @brief Used to subscribe to dbus systemd signals /
	sdbusplus::bus::match_t systemdSignals;

	/ @brief Watch for any changes to UPS properties /
	std::unique_ptr<sdbusplus::bus::match_t> uPowerPropChangeSignal;

	/ @brief Watch for any changes to PowerSystemInputs properties /
	std::unique_ptr<sdbusplus::bus::match_t> powerSysInputsPropChangeSignal;

	/ @brief Chassis id. /
	const size_t id = 0;

	/ @brief Transition state to systemd target mapping table. /
	std::map<Transition, std::string> systemdTargetTable;

	/** @brief Used to Set value of POHCounter */
	uint32_t pohCounter(uint32_t value) override;

	/** @brief Used by the timer to update the POHCounter */
	void pohCallback();

	/** @brief Used to restore POHCounter value from persisted file */
	void restorePOHCounter();

	/** @brief Serialize and persist requested POH counter.
	*
	* @return fs::path - pathname of persisted requested POH counter.
	*/
	fs::path serializePOH();

	/** @brief Deserialize a persisted requested POH counter.
	*
	* @param[in] retCounter - deserialized POH counter value
	*
	* @return bool - true if the deserialization was successful, false
	* otherwise.
	*/
	bool deserializePOH(uint32_t& retCounter);

	/** @brief Sets the LastStateChangeTime property and persists it. */
	void setStateChangeTime();

	/** @brief Serialize the last power state change time.
	*
	* Save the time the state changed and the state itself.
	* The state needs to be saved as well so that during rediscovery
	* on reboots there's a way to know not to update the time again.
	*/
	void serializeStateChangeTime();

	/** @brief Deserialize the last power state change time.
	*
	* @param[out] time - Deserialized time
	* @param[out] state - Deserialized power state
	*
	* @return bool - true if successful, false otherwise.
	*/
	bool deserializeStateChangeTime(uint64_t& time, PowerState& state);

	/** @brief Restores the power state change time.
	*
	* The time is loaded into the LastStateChangeTime D-Bus property.
	* On the very first start after this code has been applied but
	* before the state has changed, the LastStateChangeTime value
	* will be zero.
	*/
	void restoreChassisStateChangeTime();

	/** @brief Timer used for tracking power on hours */
	sdeventplus::utility::Timer<sdeventplus::ClockId::Monotonic> pohTimer;

	/** @brief Function to check for a standby voltage regulator fault
	*
	* Determine if a standby voltage regulator fault was detected and
	* return true or false accordingly.
	*
	* @return true if fault detected, else false
	*/
	bool standbyVoltageRegulatorFault();

	/** @brief Process UPS property changes
	*
	* Instance specific interface to monitor for changes to the UPS
	* properties which may impact CurrentPowerStatus
	*
	* @param[in] msg - Data associated with subscribed signal
	*
	*/
	void uPowerChangeEvent(sdbusplus::message_t& msg);

	/** @brief Process PowerSystemInputs property changes
	*
	* Instance specific interface to monitor for changes to the
	* PowerSystemInputs properties which may impact CurrentPowerStatus
	*
	* @param[in] msg - Data associated with subscribed signal
	*
	*/
	void powerSysInputsChangeEvent(sdbusplus::message_t& msg);
	};

	} // namespace manager
	} // namespace state
	} // namespace phosphor