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

 #pragma once

 #include <functional>
 #include <sdbusplus/bus.hpp>
 #include <sdbusplus/server/object.hpp>
 #include <org/open_power/OCC/Status/server.hpp>
 #include <org/open_power/Control/Host/server.hpp>
 #include "occ_events.hpp"
 #include "occ_device.hpp"
 #include "i2c_occ.hpp"

 namespace open_power
 {
 namespace occ
 {

 namespace Base = sdbusplus::org::open_power::OCC::server;
 using Interface = sdbusplus::server::object::object<Base::Status>;

 // IPMID's host control application
 namespace Control = sdbusplus::org::open_power::Control::server;

 // For waiting on signals
 namespace sdbusRule = sdbusplus::bus::match::rules;

 // OCC status instance. Ex. for "occ0", the instance is 0
 using instanceID = int;

 // IPMI sensor ID for a given OCC instance
 using sensorID = uint8_t;

 /** @class Status
  *  @brief Implementation of OCC Active Status
  */
 class Status : public Interface
 {
     public:
         Status() = delete;
         ~Status() = default;
         Status(const Status&) = delete;
         Status& operator=(const Status&) = delete;
         Status(Status&&) = default;
         Status& operator=(Status&&) = default;

         /** @brief Constructs the Status object and
          *         the underlying device object
          *
          *  @param[in] bus      - DBus bus to attach to
          *  @param[in] event    - sd_event unique pointer reference
          *  @param[in] path     - DBus object path
          *  @param[in] callBack - Callback handler to invoke during
          *                        property change
          */
         Status(sdbusplus::bus::bus& bus,
                EventPtr& event,
                const char* path,
                std::function<void(bool)> callBack = nullptr)
             : Interface(bus, path, true),
               bus(bus),
               path(path),
               callBack(callBack),
               instance(((this->path.back() - '0'))),
               device(event,
 #ifdef I2C_OCC
                      i2c_occ::getI2cDeviceName(path),
 #else
                      name + std::to_string(instance + 1),
 #endif
                      std::bind(&Status::deviceErrorHandler, this)),
               hostControlSignal(
                      bus,
                      sdbusRule::type::signal() +
                      sdbusRule::member("CommandComplete") +
                      sdbusRule::path("/org/open_power/control/host0") +
                      sdbusRule::interface("org.open_power.Control.Host") +
                      sdbusRule::argN(0, Control::convertForMessage(
                              Control::Host::Command::OCCReset)),
                      std::bind(std::mem_fn(&Status::hostControlEvent),
                             this, std::placeholders::_1))
         {
             // Check to see if we have OCC already bound.  If so, just set it
             if (device.bound())
             {
                 this->occActive(true);
             }

             // Announce that we are ready
             this->emit_object_added();
         }

         /** @brief Since we are overriding the setter-occActive but not the
          *         getter-occActive, we need to have this using in order to
          *         allow passthrough usage of the getter-occActive
          */
         using Base::Status::occActive;

         /** @brief SET OccActive to True or False
          *
          *  @param[in] value - Intended value
          *
          *  @return          - Updated value of the property
          */
         bool occActive(bool value) override;

         /** @brief Starts OCC error detection */
         inline void addErrorWatch()
         {
             return device.addErrorWatch();
         }

         /** @brief Stops OCC error detection */
         inline void removeErrorWatch()
         {
             return device.removeErrorWatch();
         }

     private:

         /** @brief sdbus handle */
         sdbusplus::bus::bus& bus;

         /** @brief OCC dbus object path */
         std::string path;

         /** @brief Callback handler to be invoked during property change.
          *         This is a handler in Manager class
          */
         std::function<void(bool)> callBack;

         /** @brief occ name prefix */
         std::string name = OCC_NAME;

         /** @brief OCC instance number. Ex, 0,1, etc */
         int instance;

         /** @brief OCC instance to Sensor ID mapping */
         static const std::map<instanceID, sensorID> sensorMap;

         /** @brief OCC device object to do bind and unbind */
         Device device;

         /** @brief Subscribe to host control signal
          *
          *  Once the OCC reset is requested, BMC sends that message to host.
          *  If the host does not ack the message, then there would be a timeout
          *  and we need to catch that to log an error
          **/
         sdbusplus::bus::match_t hostControlSignal;

         /** @brief Callback handler when device errors are detected */
         void deviceErrorHandler();

         /** @brief Callback function on host control signals
          *
          *  @param[in]  msg - Data associated with subscribed signal
          */
         void hostControlEvent(sdbusplus::message::message& msg);

         /** @brief Sends a message to host control command handler to reset OCC
          */
         void resetOCC();
 };

 } // namespace occ
 } // namespace open_power
	#pragma once

	#include <functional>
	#include <sdbusplus/bus.hpp>
	#include <sdbusplus/server/object.hpp>
	#include <org/open_power/OCC/Status/server.hpp>
	#include <org/open_power/Control/Host/server.hpp>
	#include "occ_events.hpp"
	#include "occ_device.hpp"
	#include "i2c_occ.hpp"

	namespace open_power
	{
	namespace occ
	{

	namespace Base = sdbusplus::org::open_power::OCC::server;
	using Interface = sdbusplus::server::object::object<Base::Status>;

	// IPMID's host control application
	namespace Control = sdbusplus::org::open_power::Control::server;

	// For waiting on signals
	namespace sdbusRule = sdbusplus::bus::match::rules;

	// OCC status instance. Ex. for "occ0", the instance is 0
	using instanceID = int;

	// IPMI sensor ID for a given OCC instance
	using sensorID = uint8_t;

	/** @class Status
	* @brief Implementation of OCC Active Status
	*/
	class Status : public Interface
	{
	public:
	Status() = delete;
	~Status() = default;
	Status(const Status&) = delete;
	Status& operator=(const Status&) = delete;
	Status(Status&&) = default;
	Status& operator=(Status&&) = default;

	/** @brief Constructs the Status object and
	* the underlying device object
	*
	* @param[in] bus - DBus bus to attach to
	* @param[in] event - sd_event unique pointer reference
	* @param[in] path - DBus object path
	* @param[in] callBack - Callback handler to invoke during
	* property change
	*/
	Status(sdbusplus::bus::bus& bus,
	EventPtr& event,
	const char* path,
	std::function<void(bool)> callBack = nullptr)
	: Interface(bus, path, true),
	bus(bus),
	path(path),
	callBack(callBack),
	instance(((this->path.back() - '0'))),
	device(event,
	#ifdef I2C_OCC
	i2c_occ::getI2cDeviceName(path),
	#else
	name + std::to_string(instance + 1),
	#endif
	std::bind(&Status::deviceErrorHandler, this)),
	hostControlSignal(
	bus,
	sdbusRule::type::signal() +
	sdbusRule::member("CommandComplete") +
	sdbusRule::path("/org/open_power/control/host0") +
	sdbusRule::interface("org.open_power.Control.Host") +
	sdbusRule::argN(0, Control::convertForMessage(
	Control::Host::Command::OCCReset)),
	std::bind(std::mem_fn(&Status::hostControlEvent),
	this, std::placeholders::_1))
	{
	// Check to see if we have OCC already bound. If so, just set it
	if (device.bound())
	{
	this->occActive(true);
	}

	// Announce that we are ready
	this->emit_object_added();
	}

	/** @brief Since we are overriding the setter-occActive but not the
	* getter-occActive, we need to have this using in order to
	* allow passthrough usage of the getter-occActive
	*/
	using Base::Status::occActive;

	/** @brief SET OccActive to True or False
	*
	* @param[in] value - Intended value
	*
	* @return - Updated value of the property
	*/
	bool occActive(bool value) override;

	/** @brief Starts OCC error detection */
	inline void addErrorWatch()
	{
	return device.addErrorWatch();
	}

	/** @brief Stops OCC error detection */
	inline void removeErrorWatch()
	{
	return device.removeErrorWatch();
	}

	private:

	/** @brief sdbus handle */
	sdbusplus::bus::bus& bus;

	/** @brief OCC dbus object path */
	std::string path;

	/** @brief Callback handler to be invoked during property change.
	* This is a handler in Manager class
	*/
	std::function<void(bool)> callBack;

	/** @brief occ name prefix */
	std::string name = OCC_NAME;

	/** @brief OCC instance number. Ex, 0,1, etc */
	int instance;

	/** @brief OCC instance to Sensor ID mapping */
	static const std::map<instanceID, sensorID> sensorMap;

	/** @brief OCC device object to do bind and unbind */
	Device device;

	/** @brief Subscribe to host control signal
	*
	* Once the OCC reset is requested, BMC sends that message to host.
	* If the host does not ack the message, then there would be a timeout
	* and we need to catch that to log an error
	**/
	sdbusplus::bus::match_t hostControlSignal;

	/** @brief Callback handler when device errors are detected */
	void deviceErrorHandler();

	/** @brief Callback function on host control signals
	*
	* @param[in] msg - Data associated with subscribed signal
	*/
	void hostControlEvent(sdbusplus::message::message& msg);

	/** @brief Sends a message to host control command handler to reset OCC
	*/
	void resetOCC();
	};

	} // namespace occ
	} // namespace open_power