blob: 8a9ea38be23e59a1976e2e59caf08648a29d6e96 [file] [log] [blame]
#pragma once
#include "pid/ec/pid.hpp"
#include "pid/ec/stepwise.hpp"
#include <limits>
#include <map>
#include <string>
#include <vector>
namespace pid_control
{
namespace conf
{
/*
* General sensor structure used for configuration.
*/
struct SensorConfig
{
/* Used for listen if readPath is passive. */
std::string type;
/* Can be a sensor path or a dbus path. */
std::string readPath;
std::string writePath;
/* min/max values for writing a percentage or error checking. */
int64_t min;
int64_t max;
int64_t timeout;
bool ignoreDbusMinMax;
bool unavailableAsFailed;
};
/*
* Structure for decorating an input sensor's name with additional
* information, such as TempToMargin and MissingIsAcceptable.
* This information comes from the PID loop configuration,
* not from SensorConfig, in order for it to be able to work
* with dynamic sensors from entity-manager.
*/
struct SensorInput
{
std::string name;
double convertMarginZero = std::numeric_limits<double>::quiet_NaN();
bool convertTempToMargin = false;
bool missingIsAcceptable = false;
};
/*
* Structure for holding the configuration of a PID.
*/
struct ControllerInfo
{
std::string type; // fan or margin or temp?
std::vector<SensorInput> inputs; // one or more sensors.
double setpoint; // initial setpoint for thermal.
ec::pidinfo pidInfo; // pid details
ec::StepwiseInfo stepwiseInfo;
double failSafePercent;
};
struct CycleTime
{
/* The time interval every cycle. 0.1 seconds by default */
uint64_t cycleIntervalTimeMS = 100; // milliseconds
/* The interval of updating thermals. 1 second by default */
uint64_t updateThermalsTimeMS = 1000; // milliseconds
};
/*
* General zone structure used for configuration. A zone is a list of PIDs
* and a set of configuration settings. This structure gets filled out with
* the zone configuration settings and not the PID details.
*/
struct ZoneConfig
{
/* The minimum set-point value we would ever want (typically in RPM) */
double minThermalOutput;
/* If the sensors are in fail-safe mode, this is the percentage to use. */
double failsafePercent;
/* Customize time settings for every cycle */
CycleTime cycleTime;
/* Enable accumulation of the output PWM of different controllers with same
* sensor */
bool accumulateSetPoint;
};
using PIDConf = std::map<std::string, ControllerInfo>;
constexpr bool DEBUG = false; // enable to print found configuration
} // namespace conf
} // namespace pid_control