pid/zone.hpp - openbmc/phosphor-pid-control - Gitiles

 #pragma once

 #include "conf.hpp"
 #include "controller.hpp"
 #include "pidcontroller.hpp"
 #include "sensors/manager.hpp"
 #include "sensors/sensor.hpp"
 #include "tuning.hpp"
 #include "zone_interface.hpp"

 #include <sdbusplus/bus.hpp>
 #include <sdbusplus/server.hpp>
 #include <xyz/openbmc_project/Control/Mode/server.hpp>
 #include <xyz/openbmc_project/Object/Enable/server.hpp>

 #include <fstream>
 #include <iostream>
 #include <map>
 #include <memory>
 #include <set>
 #include <string>
 #include <vector>

 template <typename... T>
 using ServerObject = typename sdbusplus::server::object_t<T...>;
 using ModeInterface = sdbusplus::xyz::openbmc_project::Control::server::Mode;
 using ModeObject = ServerObject<ModeInterface>;
 using ProcessInterface =
     sdbusplus::xyz::openbmc_project::Object::server::Enable;
 using ProcessObject = ServerObject<ProcessInterface>;

 namespace pid_control
 {

 /*
  * The DbusPidZone inherits from the Mode object so that it can listen for
  * control mode changes.  It primarily holds all PID loops and holds the sensor
  * value cache that's used per iteration of the PID loops.
  */
 class DbusPidZone : public ZoneInterface, public ModeObject
 {
   public:
     DbusPidZone(int64_t zone, double minThermalOutput, double failSafePercent,
                 conf::CycleTime cycleTime, const SensorManager& mgr,
                 sdbusplus::bus_t& bus, const char* objPath, bool defer) :
         ModeObject(bus, objPath,
                    defer ? ModeObject::action::defer_emit
                          : ModeObject::action::emit_object_added),
         _zoneId(zone), _maximumSetPoint(),
         _minThermalOutputSetPt(minThermalOutput),
         _failSafePercent(failSafePercent), _cycleTime(cycleTime), _mgr(mgr)
     {
         if (loggingEnabled)
         {
             _log.open(loggingPath + "/zone_" + std::to_string(zone) + ".log");
         }
     }

     bool getManualMode(void) const override;
     /* Could put lock around this since it's accessed from two threads, but
      * only one reader/one writer.
      */

     bool getRedundantWrite(void) const override;
     void setManualMode(bool mode);
     bool getFailSafeMode(void) const override;

     int64_t getZoneID(void) const override;
     void addSetPoint(double setPoint, const std::string& name) override;
     double getMaxSetPointRequest(void) const override;
     void addRPMCeiling(double ceiling) override;
     void clearSetPoints(void) override;
     void clearRPMCeilings(void) override;
     double getFailSafePercent(void) const override;
     double getMinThermalSetPoint(void) const;
     uint64_t getCycleIntervalTime(void) const override;
     uint64_t getUpdateThermalsCycle(void) const override;

     Sensor* getSensor(const std::string& name) override;
     void determineMaxSetPointRequest(void) override;
     void updateFanTelemetry(void) override;
     void updateSensors(void) override;
     void initializeCache(void) override;
     void setOutputCache(std::string_view, const ValueCacheEntry&) override;
     void dumpCache(void);

     void processFans(void) override;
     void processThermals(void) override;

     void addFanPID(std::unique_ptr<Controller> pid);
     void addThermalPID(std::unique_ptr<Controller> pid);
     double getCachedValue(const std::string& name) override;
     ValueCacheEntry getCachedValues(const std::string& name) override;

     void addFanInput(const std::string& fan);
     void addThermalInput(const std::string& therm);

     void initializeLog(void) override;
     void writeLog(const std::string& value) override;

     /* Method for setting the manual mode over dbus */
     bool manual(bool value) override;
     /* Method for reading whether in fail-safe mode over dbus */
     bool failSafe() const override;
     /* Method for control process for each loop at runtime */
     void addPidControlProcess(std::string name, sdbusplus::bus_t& bus,
                               std::string objPath, bool defer);
     bool isPidProcessEnabled(std::string name);

   private:
     template <bool fanSensorLogging>
     void processSensorInputs(const std::vector<std::string>& sensorInputs,
                              std::chrono::high_resolution_clock::time_point now)
     {
         for (const auto& sensorInput : sensorInputs)
         {
             auto sensor = _mgr.getSensor(sensorInput);
             ReadReturn r = sensor->read();
             _cachedValuesByName[sensorInput] = {r.value, r.unscaled};
             int64_t timeout = sensor->getTimeout();
             std::chrono::high_resolution_clock::time_point then = r.updated;

             auto duration =
                 std::chrono::duration_cast<std::chrono::seconds>(now - then)
                     .count();
             auto period = std::chrono::seconds(timeout).count();
             /*
              * TODO(venture): We should check when these were last read.
              * However, these are the fans, so if I'm not getting updated values
              * for them... what should I do?
              */
             if constexpr (fanSensorLogging)
             {
                 if (loggingEnabled)
                 {
                     const auto& v = _cachedValuesByName[sensorInput];
                     _log << "," << v.scaled << "," << v.unscaled;
                     const auto& p = _cachedFanOutputs[sensorInput];
                     _log << "," << p.scaled << "," << p.unscaled;
                 }
             }

             if (debugEnabled)
             {
                 std::cerr << sensorInput << " sensor reading: " << r.value
                           << "\n";
             }

             // check if fan fail.
             if (sensor->getFailed())
             {
                 _failSafeSensors.insert(sensorInput);
                 if (debugEnabled)
                 {
                     std::cerr << sensorInput << " sensor get failed\n";
                 }
             }
             else if (timeout != 0 && duration >= period)
             {
                 _failSafeSensors.insert(sensorInput);
                 if (debugEnabled)
                 {
                     std::cerr << sensorInput << " sensor timeout\n";
                 }
             }
             else
             {
                 // Check if it's in there: remove it.
                 auto kt = _failSafeSensors.find(sensorInput);
                 if (kt != _failSafeSensors.end())
                 {
                     if (debugEnabled)
                     {
                         std::cerr << sensorInput
                                   << " is erased from failsafe sensor set\n";
                     }
                     _failSafeSensors.erase(kt);
                 }
             }
         }
     }

     std::ofstream _log;

     const int64_t _zoneId;
     double _maximumSetPoint = 0;
     std::string _maximumSetPointName;
     std::string _maximumSetPointNamePrev;
     bool _manualMode = false;
     bool _redundantWrite = false;
     const double _minThermalOutputSetPt;
     const double _failSafePercent;
     const conf::CycleTime _cycleTime;

     std::set<std::string> _failSafeSensors;

     std::vector<double> _SetPoints;
     std::vector<double> _RPMCeilings;
     std::vector<std::string> _fanInputs;
     std::vector<std::string> _thermalInputs;
     std::map<std::string, ValueCacheEntry> _cachedValuesByName;
     std::map<std::string, ValueCacheEntry> _cachedFanOutputs;
     const SensorManager& _mgr;

     std::vector<std::unique_ptr<Controller>> _fans;
     std::vector<std::unique_ptr<Controller>> _thermals;

     std::map<std::string, std::unique_ptr<ProcessObject>> _pidsControlProcess;
 };

 } // namespace pid_control
	#pragma once

	#include "conf.hpp"
	#include "controller.hpp"
	#include "pidcontroller.hpp"
	#include "sensors/manager.hpp"
	#include "sensors/sensor.hpp"
	#include "tuning.hpp"
	#include "zone_interface.hpp"

	#include <sdbusplus/bus.hpp>
	#include <sdbusplus/server.hpp>
	#include <xyz/openbmc_project/Control/Mode/server.hpp>
	#include <xyz/openbmc_project/Object/Enable/server.hpp>

	#include <fstream>
	#include <iostream>
	#include <map>
	#include <memory>
	#include <set>
	#include <string>
	#include <vector>

	template <typename... T>
	using ServerObject = typename sdbusplus::server::object_t<T...>;
	using ModeInterface = sdbusplus::xyz::openbmc_project::Control::server::Mode;
	using ModeObject = ServerObject<ModeInterface>;
	using ProcessInterface =
	sdbusplus::xyz::openbmc_project::Object::server::Enable;
	using ProcessObject = ServerObject<ProcessInterface>;

	namespace pid_control
	{

	/*
	* The DbusPidZone inherits from the Mode object so that it can listen for
	* control mode changes. It primarily holds all PID loops and holds the sensor
	* value cache that's used per iteration of the PID loops.
	*/
	class DbusPidZone : public ZoneInterface, public ModeObject
	{
	public:
	DbusPidZone(int64_t zone, double minThermalOutput, double failSafePercent,
	conf::CycleTime cycleTime, const SensorManager& mgr,
	sdbusplus::bus_t& bus, const char* objPath, bool defer) :
	ModeObject(bus, objPath,
	defer ? ModeObject::action::defer_emit
	: ModeObject::action::emit_object_added),
	_zoneId(zone), _maximumSetPoint(),
	_minThermalOutputSetPt(minThermalOutput),
	_failSafePercent(failSafePercent), _cycleTime(cycleTime), _mgr(mgr)
	{
	if (loggingEnabled)
	{
	_log.open(loggingPath + "/zone_" + std::to_string(zone) + ".log");
	}
	}

	bool getManualMode(void) const override;
	/* Could put lock around this since it's accessed from two threads, but
	* only one reader/one writer.
	*/

	bool getRedundantWrite(void) const override;
	void setManualMode(bool mode);
	bool getFailSafeMode(void) const override;

	int64_t getZoneID(void) const override;
	void addSetPoint(double setPoint, const std::string& name) override;
	double getMaxSetPointRequest(void) const override;
	void addRPMCeiling(double ceiling) override;
	void clearSetPoints(void) override;
	void clearRPMCeilings(void) override;
	double getFailSafePercent(void) const override;
	double getMinThermalSetPoint(void) const;
	uint64_t getCycleIntervalTime(void) const override;
	uint64_t getUpdateThermalsCycle(void) const override;

	Sensor* getSensor(const std::string& name) override;
	void determineMaxSetPointRequest(void) override;
	void updateFanTelemetry(void) override;
	void updateSensors(void) override;
	void initializeCache(void) override;
	void setOutputCache(std::string_view, const ValueCacheEntry&) override;
	void dumpCache(void);

	void processFans(void) override;
	void processThermals(void) override;

	void addFanPID(std::unique_ptr<Controller> pid);
	void addThermalPID(std::unique_ptr<Controller> pid);
	double getCachedValue(const std::string& name) override;
	ValueCacheEntry getCachedValues(const std::string& name) override;

	void addFanInput(const std::string& fan);
	void addThermalInput(const std::string& therm);

	void initializeLog(void) override;
	void writeLog(const std::string& value) override;

	/* Method for setting the manual mode over dbus */
	bool manual(bool value) override;
	/* Method for reading whether in fail-safe mode over dbus */
	bool failSafe() const override;
	/* Method for control process for each loop at runtime */
	void addPidControlProcess(std::string name, sdbusplus::bus_t& bus,
	std::string objPath, bool defer);
	bool isPidProcessEnabled(std::string name);

	private:
	template <bool fanSensorLogging>
	void processSensorInputs(const std::vector<std::string>& sensorInputs,
	std::chrono::high_resolution_clock::time_point now)
	{
	for (const auto& sensorInput : sensorInputs)
	{
	auto sensor = _mgr.getSensor(sensorInput);
	ReadReturn r = sensor->read();
	_cachedValuesByName[sensorInput] = {r.value, r.unscaled};
	int64_t timeout = sensor->getTimeout();
	std::chrono::high_resolution_clock::time_point then = r.updated;

	auto duration =
	std::chrono::duration_cast<std::chrono::seconds>(now - then)
	.count();
	auto period = std::chrono::seconds(timeout).count();
	/*
	* TODO(venture): We should check when these were last read.
	* However, these are the fans, so if I'm not getting updated values
	* for them... what should I do?
	*/
	if constexpr (fanSensorLogging)
	{
	if (loggingEnabled)
	{
	const auto& v = _cachedValuesByName[sensorInput];
	_log << "," << v.scaled << "," << v.unscaled;
	const auto& p = _cachedFanOutputs[sensorInput];
	_log << "," << p.scaled << "," << p.unscaled;
	}
	}

	if (debugEnabled)
	{
	std::cerr << sensorInput << " sensor reading: " << r.value
	<< "\n";
	}

	// check if fan fail.
	if (sensor->getFailed())
	{
	_failSafeSensors.insert(sensorInput);
	if (debugEnabled)
	{
	std::cerr << sensorInput << " sensor get failed\n";
	}
	}
	else if (timeout != 0 && duration >= period)
	{
	_failSafeSensors.insert(sensorInput);
	if (debugEnabled)
	{
	std::cerr << sensorInput << " sensor timeout\n";
	}
	}
	else
	{
	// Check if it's in there: remove it.
	auto kt = _failSafeSensors.find(sensorInput);
	if (kt != _failSafeSensors.end())
	{
	if (debugEnabled)
	{
	std::cerr << sensorInput
	<< " is erased from failsafe sensor set\n";
	}
	_failSafeSensors.erase(kt);
	}
	}
	}
	}

	std::ofstream _log;

	const int64_t _zoneId;
	double _maximumSetPoint = 0;
	std::string _maximumSetPointName;
	std::string _maximumSetPointNamePrev;
	bool _manualMode = false;
	bool _redundantWrite = false;
	const double _minThermalOutputSetPt;
	const double _failSafePercent;
	const conf::CycleTime _cycleTime;

	std::set<std::string> _failSafeSensors;

	std::vector<double> _SetPoints;
	std::vector<double> _RPMCeilings;
	std::vector<std::string> _fanInputs;
	std::vector<std::string> _thermalInputs;
	std::map<std::string, ValueCacheEntry> _cachedValuesByName;
	std::map<std::string, ValueCacheEntry> _cachedFanOutputs;
	const SensorManager& _mgr;

	std::vector<std::unique_ptr<Controller>> _fans;
	std::vector<std::unique_ptr<Controller>> _thermals;

	std::map<std::string, std::unique_ptr<ProcessObject>> _pidsControlProcess;
	};

	} // namespace pid_control