Merge branch 'development' into mueller/timemessage-override-fix
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commit
4caf906d96
@ -16,9 +16,9 @@ ReturnValue_t HealthDevice::performOperation(uint8_t opCode) {
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CommandMessage command;
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ReturnValue_t result = commandQueue->receiveMessage(&command);
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if (result == HasReturnvaluesIF::RETURN_OK) {
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healthHelper.handleHealthCommand(&command);
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result = healthHelper.handleHealthCommand(&command);
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}
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return HasReturnvaluesIF::RETURN_OK;
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return result;
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}
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ReturnValue_t HealthDevice::initialize() {
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@ -1,15 +1,13 @@
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#include "../devicehandlers/DeviceHandlerFailureIsolation.h"
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#include "Heater.h"
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#include "../devicehandlers/DeviceHandlerFailureIsolation.h"
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#include "../power/Fuse.h"
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#include "../ipc/QueueFactory.h"
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Heater::Heater(uint32_t objectId, uint8_t switch0, uint8_t switch1) :
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HealthDevice(objectId, 0), internalState(STATE_OFF), powerSwitcher(
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NULL), pcduQueueId(0), switch0(switch0), switch1(switch1), wasOn(
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false), timedOut(false), reactedToBeingFaulty(false), passive(
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false), eventQueue(NULL), heaterOnCountdown(10800000)/*about two orbits*/, parameterHelper(
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this), lastAction(CLEAR) {
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HealthDevice(objectId, 0), internalState(STATE_OFF), switch0(switch0), switch1(switch1),
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heaterOnCountdown(10800000)/*about two orbits*/,
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parameterHelper(this) {
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eventQueue = QueueFactory::instance()->createMessageQueue();
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}
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@ -226,7 +224,6 @@ void Heater::setSwitch(uint8_t number, ReturnValue_t state,
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triggerEvent(HEATER_STAYED_ON);
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}
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}
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//SHOULDDO MiniOps during switch timeout leads to a faulty switch
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}
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}
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}
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@ -286,7 +283,10 @@ void Heater::handleQueue() {
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if (result == HasReturnvaluesIF::RETURN_OK) {
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return;
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}
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parameterHelper.handleParameterMessage(&command);
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result = parameterHelper.handleParameterMessage(&command);
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if (result == HasReturnvaluesIF::RETURN_OK) {
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return;
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}
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}
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}
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@ -316,7 +316,9 @@ void Heater::handleEventQueue() {
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switch (event.getEvent()) {
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case Fuse::FUSE_WENT_OFF:
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case HEATER_STAYED_OFF:
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case HEATER_STAYED_ON://Setting it faulty does not help, but we need to reach a stable state and can check for being faulty before throwing this event again.
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// HEATER_STAYED_ON is a setting if faulty does not help, but we need to reach a stable state and can check
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// for being faulty before throwing this event again.
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case HEATER_STAYED_ON:
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if (healthHelper.healthTable->isCommandable(getObjectId())) {
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healthHelper.setHealth(HasHealthIF::FAULTY);
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internalState = STATE_FAULTY;
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@ -1,13 +1,13 @@
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#ifndef FRAMEWORK_THERMAL_HEATER_H_
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#define FRAMEWORK_THERMAL_HEATER_H_
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#ifndef FSFW_THERMAL_HEATER_H_
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#define FSFW_THERMAL_HEATER_H_
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#include "../devicehandlers/HealthDevice.h"
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#include "../parameters/ParameterHelper.h"
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#include "../power/PowerSwitchIF.h"
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#include "../returnvalues/HasReturnvaluesIF.h"
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#include "../timemanager/Countdown.h"
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#include <stdint.h>
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//class RedundantHeater;
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#include <cstdint>
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class Heater: public HealthDevice, public ReceivesParameterMessagesIF {
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friend class RedundantHeater;
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@ -47,35 +47,38 @@ protected:
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STATE_PASSIVE,
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STATE_WAIT_FOR_SWITCHES_ON,
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STATE_WAIT_FOR_SWITCHES_OFF,
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STATE_WAIT_FOR_FDIR, //used to avoid doing anything until fdir decided what to do
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STATE_WAIT_FOR_FDIR, // Used to avoid doing anything until fdir decided what to do
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STATE_FAULTY,
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STATE_WAIT, //used when waiting for system to recover from miniops
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STATE_EXTERNAL_CONTROL //entered when under external control and a fdir reaction would be triggered. This is useful when leaving external control into an unknown state
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//if no fdir reaction is triggered under external control the state is still ok and no need for any special treatment is needed
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STATE_WAIT, // Used when waiting for system to recover from miniops
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// Entered when under external control and a fdir reaction would be triggered.
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// This is useful when leaving external control into an unknown state
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STATE_EXTERNAL_CONTROL
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// If no fdir reaction is triggered under external control the state is still ok and
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// no need for any special treatment is needed
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} internalState;
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PowerSwitchIF *powerSwitcher;
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MessageQueueId_t pcduQueueId;
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PowerSwitchIF *powerSwitcher = nullptr;
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MessageQueueId_t pcduQueueId = MessageQueueIF::NO_QUEUE;
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uint8_t switch0;
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uint8_t switch1;
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bool wasOn;
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bool wasOn = false;
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bool timedOut;
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bool timedOut = false;
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bool reactedToBeingFaulty;
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bool reactedToBeingFaulty = false;
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bool passive;
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bool passive = false;
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MessageQueueIF* eventQueue;
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MessageQueueIF* eventQueue = nullptr;
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Countdown heaterOnCountdown;
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Countdown switchCountdown;
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ParameterHelper parameterHelper;
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enum Action {
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SET, CLEAR
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} lastAction;
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} lastAction = CLEAR;
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void doAction(Action action);
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@ -87,4 +90,4 @@ protected:
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void handleEventQueue();
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};
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#endif /* FRAMEWORK_THERMAL_HEATER_H_ */
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#endif /* FSFW_THERMAL_HEATER_H_ */
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@ -1,11 +1,14 @@
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#ifndef TEMPERATURESENSOR_H_
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#define TEMPERATURESENSOR_H_
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#ifndef FSFW_THERMAL_TEMPERATURESENSOR_H_
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#define FSFW_THERMAL_TEMPERATURESENSOR_H_
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#include "../thermal/AbstractTemperatureSensor.h"
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#include "../datapoolglob/GlobalDataSet.h"
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#include "../datapoolglob/GlobalPoolVariable.h"
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#include "tcsDefinitions.h"
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#include "AbstractTemperatureSensor.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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/**
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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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@ -58,26 +61,24 @@ public:
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/**
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* Instantiate Temperature 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 poolVariable Pool Variable to store the temperature value
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* @param inputTemperature Pointer to a raw input value which is converted to an floating
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* point C output temperature
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* @param outputGpid Global Pool ID of the output value
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* @param vectorIndex Vector Index for the sensor monitor
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* @param parameters Calculation parameters, temperature limits, gradient limit
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* @param datapoolId Datapool ID of the output temperature
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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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TemperatureSensor(object_id_t setObjectid,
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inputType *inputValue, PoolVariableIF *poolVariable,
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uint8_t vectorIndex, uint32_t datapoolId, Parameters parameters = {0, 0, 0, 0, 0, 0},
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GlobDataSet *outputSet = NULL, ThermalModuleIF *thermalModule = NULL) :
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TemperatureSensor(object_id_t setObjectid,lp_var_t<limitType>* inputTemperature,
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gp_id_t outputGpid, uint8_t vectorIndex, Parameters parameters = {0, 0, 0, 0, 0, 0},
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LocalPoolDataSetBase *outputSet = nullptr, ThermalModuleIF *thermalModule = nullptr) :
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AbstractTemperatureSensor(setObjectid, thermalModule), parameters(parameters),
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inputValue(inputValue), poolVariable(poolVariable),
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outputTemperature(datapoolId, outputSet, PoolVariableIF::VAR_WRITE),
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sensorMonitor(setObjectid, DOMAIN_ID_SENSOR,
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GlobalDataPool::poolIdAndPositionToPid(poolVariable->getDataPoolId(), vectorIndex),
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inputTemperature(inputTemperature),
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outputTemperature(outputGpid, outputSet, PoolVariableIF::VAR_WRITE),
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sensorMonitor(setObjectid, DOMAIN_ID_SENSOR, outputGpid,
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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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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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@ -98,7 +99,7 @@ protected:
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private:
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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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uptimeOfOldTemperature.tv_sec = INVALID_UPTIME;
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sensorMonitor.setToInvalid();
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@ -108,11 +109,8 @@ protected:
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UsedParameters parameters;
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inputType * inputValue;
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PoolVariableIF *poolVariable;
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gp_float_t outputTemperature;
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lp_var_t<limitType>* inputTemperature;
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lp_var_t<float> outputTemperature;
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LimitMonitor<limitType> sensorMonitor;
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@ -120,22 +118,27 @@ protected:
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timeval uptimeOfOldTemperature;
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void doChildOperation() {
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if (!poolVariable->isValid()
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|| !healthHelper.healthTable->isHealthy(getObjectId())) {
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ReturnValue_t result = inputTemperature->read(MutexIF::TimeoutType::WAITING, 20);
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if(result != HasReturnvaluesIF::RETURN_OK) {
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return;
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}
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if ((not inputTemperature->isValid()) or
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(not healthHelper.healthTable->isHealthy(getObjectId()))) {
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setInvalid();
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return;
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}
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outputTemperature = calculateOutputTemperature(*inputValue);
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outputTemperature = calculateOutputTemperature(inputTemperature->value);
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outputTemperature.setValid(PoolVariableIF::VALID);
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timeval uptime;
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Clock::getUptime(&uptime);
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if (uptimeOfOldTemperature.tv_sec != INVALID_UPTIME) {
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//In theory, we could use an AbsValueMonitor to monitor the gradient.
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//But this would require storing the maxGradient in DP and quite some overhead.
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//The concept of delta limits is a bit strange anyway.
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// In theory, we could use an AbsValueMonitor to monitor the gradient.
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// But this would require storing the maxGradient in DP and quite some overhead.
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// The concept of delta limits is a bit strange anyway.
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float deltaTime;
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float deltaTemp;
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@ -148,17 +151,17 @@ protected:
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}
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if (parameters.gradient < deltaTemp / deltaTime) {
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triggerEvent(TEMP_SENSOR_GRADIENT);
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//Don't set invalid, as we did not recognize it as invalid with full authority, let FDIR handle it
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// Don't set invalid, as we did not recognize it as invalid with full authority,
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// let FDIR handle it
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}
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}
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//Check is done against raw limits. SHOULDDO: Why? Using <20>C would be more easy to handle.
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sensorMonitor.doCheck(outputTemperature.value);
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if (sensorMonitor.isOutOfLimits()) {
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uptimeOfOldTemperature.tv_sec = INVALID_UPTIME;
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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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oldTemperature = outputTemperature;
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uptimeOfOldTemperature = uptime;
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@ -179,7 +182,10 @@ public:
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static const uint16_t ADDRESS_C = 2;
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static const uint16_t ADDRESS_GRADIENT = 3;
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static const uint16_t DEFAULT_CONFIRMATION_COUNT = 1; //!< Changed due to issue with later temperature checking even tough the sensor monitor was confirming already (Was 10 before with comment = Correlates to a 10s confirmation time. Chosen rather large, should not be so bad for components and helps survive glitches.)
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//! Changed due to issue with later temperature checking even tough the sensor monitor was
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//! confirming already (Was 10 before with comment = Correlates to a 10s confirmation time.
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//! Chosen rather large, should not be so bad for components and helps survive glitches.)
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static const uint16_t DEFAULT_CONFIRMATION_COUNT = 1;
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static const uint8_t DOMAIN_ID_SENSOR = 1;
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@ -219,4 +225,4 @@ public:
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};
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#endif /* TEMPERATURESENSOR_H_ */
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#endif /* FSFW_THERMAL_TEMPERATURESENSOR_H_ */
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