thermal sensor update
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@ -1,11 +1,14 @@
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#ifndef TEMPERATURESENSOR_H_
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#ifndef TEMPERATURESENSOR_H_
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#define TEMPERATURESENSOR_H_
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#define TEMPERATURESENSOR_H_
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#include "../thermal/AbstractTemperatureSensor.h"
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#include "tcsDefinitions.h"
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#include "../datapoolglob/GlobalDataSet.h"
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#include "AbstractTemperatureSensor.h"
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#include "../datapoolglob/GlobalPoolVariable.h"
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#include "../datapoollocal/LocalPoolDataSetBase.h"
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#include "../datapoollocal/LocalPoolVariable.h"
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#include "../monitoring/LimitMonitor.h"
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#include "../monitoring/LimitMonitor.h"
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/**
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/**
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* @brief This building block handles non-linear value conversion and
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* @brief This building block handles non-linear value conversion and
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* range checks for analog temperature sensors.
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* range checks for analog temperature sensors.
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@ -57,27 +60,26 @@ public:
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/**
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/**
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* Instantiate Temperature Sensor Object.
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* Instantiate Temperature Sensor Object.
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* @param setObjectid objectId of the sensor object
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* @param setObjectid objectId of the sensor object
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* @param inputValue Input value which is converted to a temperature
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* @param inputValue Pointer to input value which is converted to a temperature
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* @param poolVariable Pool Variable to store the temperature value
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* @param variableGpid Global Pool ID of the output value
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* @param vectorIndex Vector Index for the sensor monitor
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* @param inputVariable Input variable handle
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* @param parameters Calculation parameters, temperature limits, gradient limit
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* @param vectorIndex Vector Index for the sensor monitor
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* @param datapoolId Datapool ID of the output temperature
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* @param parameters Calculation parameters, temperature limits, gradient limit
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* @param outputSet Output dataset for the output temperature to fetch it with read()
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* @param outputSet Output dataset for the output temperature to fetch it with read()
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* @param thermalModule respective thermal module, if it has one
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* @param thermalModule respective thermal module, if it has one
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*/
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*/
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TemperatureSensor(object_id_t setObjectid,
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TemperatureSensor(object_id_t setObjectid,
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inputType *inputValue, PoolVariableIF *poolVariable,
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inputType *inputValue, gp_id_t variableGpid, PoolVariableIF* inputVariable,
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uint8_t vectorIndex, uint32_t datapoolId, Parameters parameters = {0, 0, 0, 0, 0, 0},
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uint8_t vectorIndex, Parameters parameters = {0, 0, 0, 0, 0, 0},
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GlobDataSet *outputSet = NULL, ThermalModuleIF *thermalModule = NULL) :
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LocalPoolDataSetBase *outputSet = NULL, ThermalModuleIF *thermalModule = NULL) :
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AbstractTemperatureSensor(setObjectid, thermalModule), parameters(parameters),
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AbstractTemperatureSensor(setObjectid, thermalModule), parameters(parameters),
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inputValue(inputValue), poolVariable(poolVariable),
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inputValue(inputValue), poolVariable(inputVariable),
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outputTemperature(datapoolId, outputSet, PoolVariableIF::VAR_WRITE),
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outputTemperature(variableGpid, outputSet, PoolVariableIF::VAR_WRITE),
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sensorMonitor(setObjectid, DOMAIN_ID_SENSOR,
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sensorMonitor(setObjectid, DOMAIN_ID_SENSOR, poolVariable,
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GlobalDataPool::poolIdAndPositionToPid(poolVariable->getDataPoolId(), vectorIndex),
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DEFAULT_CONFIRMATION_COUNT, parameters.lowerLimit, parameters.upperLimit,
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DEFAULT_CONFIRMATION_COUNT, parameters.lowerLimit, parameters.upperLimit,
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TEMP_SENSOR_LOW, TEMP_SENSOR_HIGH),
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TEMP_SENSOR_LOW, TEMP_SENSOR_HIGH),
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oldTemperature(20), uptimeOfOldTemperature( { INVALID_TEMPERATURE, 0 }) {
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oldTemperature(20), uptimeOfOldTemperature({ thermal::INVALID_TEMPERATURE, 0 }) {
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}
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}
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@ -98,7 +100,7 @@ protected:
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private:
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private:
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void setInvalid() {
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void setInvalid() {
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outputTemperature = INVALID_TEMPERATURE;
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outputTemperature = thermal::INVALID_TEMPERATURE;
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outputTemperature.setValid(false);
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outputTemperature.setValid(false);
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uptimeOfOldTemperature.tv_sec = INVALID_UPTIME;
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uptimeOfOldTemperature.tv_sec = INVALID_UPTIME;
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sensorMonitor.setToInvalid();
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sensorMonitor.setToInvalid();
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@ -108,11 +110,11 @@ protected:
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UsedParameters parameters;
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UsedParameters parameters;
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inputType * inputValue;
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inputType* inputValue;
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PoolVariableIF *poolVariable;
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PoolVariableIF* poolVariable;
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gp_float_t outputTemperature;
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lp_var_t<float> outputTemperature;
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LimitMonitor<limitType> sensorMonitor;
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LimitMonitor<limitType> sensorMonitor;
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@ -120,8 +122,8 @@ protected:
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timeval uptimeOfOldTemperature;
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timeval uptimeOfOldTemperature;
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void doChildOperation() {
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void doChildOperation() {
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if (!poolVariable->isValid()
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if ((not poolVariable->isValid()) or
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|| !healthHelper.healthTable->isHealthy(getObjectId())) {
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(not healthHelper.healthTable->isHealthy(getObjectId()))) {
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setInvalid();
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setInvalid();
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return;
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return;
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}
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}
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@ -152,13 +154,13 @@ protected:
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}
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}
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}
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}
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//Check is done against raw limits. SHOULDDO: Why? Using <EFBFBD>C would be more easy to handle.
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//Check is done against raw limits. SHOULDDO: Why? Using C would be more easy to handle.
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sensorMonitor.doCheck(outputTemperature.value);
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sensorMonitor.doCheck(outputTemperature.value);
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if (sensorMonitor.isOutOfLimits()) {
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if (sensorMonitor.isOutOfLimits()) {
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uptimeOfOldTemperature.tv_sec = INVALID_UPTIME;
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uptimeOfOldTemperature.tv_sec = INVALID_UPTIME;
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outputTemperature.setValid(PoolVariableIF::INVALID);
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outputTemperature.setValid(PoolVariableIF::INVALID);
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outputTemperature = INVALID_TEMPERATURE;
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outputTemperature = thermal::INVALID_TEMPERATURE;
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} else {
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} else {
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oldTemperature = outputTemperature;
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oldTemperature = outputTemperature;
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uptimeOfOldTemperature = uptime;
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uptimeOfOldTemperature = uptime;
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