# Sensor Config This program is only meant to control fans given thermal sensor readings. All sensors in phosphor-dbus-interfaces for OpenBMC use Sensor.Value as their accessor. This provides read-only access to information. The goal of the configuration is to specify how it can be read and if it's a fan, how the PID output can be written. Initially there'll only be sysfs and passive dbus access. If a writePath for a sensor is a dbus path, then the system will need to verify which Control.Fan* interfaces is registered and send values to the Target property of that interface. The min/max specified are to range a writePercent to the sensor. The current FanController object outputs the new fan speed goal as a PWM percentage. Other fan PID control objects may not, and they can leave the fields as 0 & 0. The only requirement for a sensor is that it isn't writeonly. Only fans are expected to have a writePath set, and in this current version non-fan sensors are assumed readonly. The sensor names are unique across all zones. "sensors" : [ { "name": "fan1", /* Name of the sensor. */ "type": "fan", /* Type of sensor, fan, temp, margin */ "readPath": "", /* How the sensor can be read[1] */ "writePath": "", /* How the sensor can be set[2] */ "min": 0, /* The minimum value used for scaling writes (int64) */ "max": 255, /* The maximum value used for scaling writes (int64) */ "timeout": 0 /* The timeout value for the sensor, used for failsafe, 0 * means no timeout (int64) */ }, ] [1] readPath has multiple options: * If it has "/xyz/openbmc_project/extsensors/" in it, it's an EXTERNAL or host-provided sensor. * If it has "/xyz/openbmc_project/" in it, it's a sensor whose value is received passively over dbus. * If it has "/sys/" in it, it's a sensor read directly from sysfs. [2] * This can be left blank if the sensor is read-only. * If it has "/sys/" in it, it's a sensor written to sysfs. * If min and max are non-zero, it'll convert the value to within the range. and output that modified value. So, if it receives a value of .90 and min is 0, and max is 255, it'll convert that to a value of 229.5 that is then cast to int64_t. # PID Config The PID configuration is a list of PIDs per zone. "zones" : [ { "id": 1, /* zone id. */ "minThermalOutput": 3000.0, /* The minimum thermal RPM value. (double) */ "failsafePercent": 75.0, /* The percent to use when the zone is in fail-safe mode. (double) */ "pids": [ { "name": "fan1-5", /* PID name */ "type": "fan", /* Type of PID, fan, temp, or margin. */ "inputs": ["fan1", "fan5"], /* Sensor names that are inputs for the PID */ "setpoint": 90.0, /* For temp/margin PIDs this is the setpoint, ignored otherwise (double) */ "pid": { "samplePeriod": 0.1, /* The input sample period. (double) */ "proportionalCoeff": 0.0, /* The proportional coefficient. (double) */ "integralCoeff": 0.0, /* The integral coefficient. (double) */ "feedFwdOffsetCoeff": 0.0, /* The feed-forward offset coefficient. (double) */ "feedFwdGainCoeff": 0.010, /* The feed-forward gain coefficient. (double) */ "integralLimit_min": 0.0, /* The integral limit clamp, min, max (double) */ "integralLimit_max": 0.0, "outLim_min": 30.0, /* the PID output clamp, min, max (double) */ "outLim_max": 100.0, "slewNeg": 0.0, /* The slew negative value. (double) */ "slewPos": 0.0 /* The slew positive value. (double) */ } } ] } ]