#pragma once #include "sensors/sensor.hpp" #include namespace pid_control { /** * In a Zone you have a set of PIDs which feed each other. Fan PIDs are fed set * points from Thermal PIDs. */ class ZoneInterface { public: virtual ~ZoneInterface() = default; /** Get Current Zone ID */ virtual int64_t getZoneID(void) const = 0; /** If the zone implementation supports logging, initialize the log. */ virtual void initializeLog(void) = 0; /** If the zone implementation supports logging, write string to log. */ virtual void writeLog(const std::string& value) = 0; /** Return a pointer to the sensor specified by name. */ virtual Sensor* getSensor(const std::string& name) = 0; /* updateFanTelemetry() and updateSensors() both clear the failsafe state * for a sensor if it's no longer in that state. */ /** For each fan input in the zone, read each to update the cachedValue and * check if the fan is beyond its timeout to trigger a failsafe condition. */ virtual void updateFanTelemetry(void) = 0; /** For each thermal input in the zone, read each to update the cachedValue * and check if the sensor is beyond its timeout to trigger a failsafe * condition. */ virtual void updateSensors(void) = 0; /** For each fan and thermal input in the zone, set the cachedValue to 0 and * set the input as failsafe - to default the zone to failsafe before it * starts processing values to control fans. */ virtual void initializeCache(void) = 0; /** Optionally adds fan outputs to an output cache, which is different * from the input cache accessed by getCachedValue(), so it is possible * to have entries with the same name in both the output cache and * the input cache. The output cache is used for logging, to show * the PWM values determined by the PID loop, next to the resulting RPM. */ virtual void setOutputCache(std::string_view name, const ValueCacheEntry& values) = 0; /** Return cached value for sensor by name. */ virtual double getCachedValue(const std::string& name) = 0; /** Return cached values, both scaled and original unscaled values, * for sensor by name. Subclasses can add trivial return {value, value}, * for subclasses that only implement getCachedValue() and do not care * about maintaining the distinction between scaled and unscaled values. */ virtual ValueCacheEntry getCachedValues(const std::string& name) = 0; /** Add a set point value for the Max Set Point computation. */ virtual void addSetPoint(double setpoint, const std::string& name) = 0; /** Clear all set points specified via addSetPoint */ virtual void clearSetPoints(void) = 0; /** Add maximum RPM value to drive fan pids. */ virtual void addRPMCeiling(double ceiling) = 0; /** Clear any RPM value set with addRPMCeiling. */ virtual void clearRPMCeilings(void) = 0; /** Compute the value returned by getMaxSetPointRequest - called from the * looping mechanism before triggering any Fan PIDs. The value computed is * used by each fan PID. */ virtual void determineMaxSetPointRequest(void) = 0; /** Given the set points added via addSetPoint, return the maximum value - * called from the PID loop that uses that value to drive the fans. */ virtual double getMaxSetPointRequest() const = 0; /** Return if the zone has any sensors in fail safe mode. */ virtual bool getFailSafeMode() const = 0; /** Return the rpm or pwm percent value to drive fan pids when zone is in * fail safe. */ virtual double getFailSafePercent() = 0; /** Return the zone's cycle time settings */ virtual uint64_t getCycleIntervalTime(void) const = 0; virtual uint64_t getUpdateThermalsCycle(void) const = 0; /** Return if the zone is set to manual mode. false equates to automatic * mode (the default). */ virtual bool getManualMode(void) const = 0; /** Returns true if a redundant fan PWM write is needed. Redundant write * is used when returning the fan to automatic mode from manual mode. */ virtual bool getRedundantWrite(void) const = 0; /** Returns true if user wants to accumulate the output PWM of different * controllers with same sensor */ virtual bool getAccSetPoint(void) const = 0; /** For each fan pid, do processing. */ virtual void processFans(void) = 0; /** For each thermal pid, do processing. */ virtual void processThermals(void) = 0; /** Update thermal/power debug dbus properties */ virtual void updateThermalPowerDebugInterface( std::string pidName, std::string leader, double input, double output) = 0; }; } // namespace pid_control