eive-obsw/mission/controller/ThermalController.cpp

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#include "ThermalController.h"
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#include <bsp_q7s/core/CoreDefinitions.h>
#include <fsfw/datapool/PoolReadGuard.h>
#include <fsfw_hal/devicehandlers/devicedefinitions/MgmLIS3HandlerDefs.h>
#include <linux/devices/devicedefinitions/StarTrackerDefinitions.h>
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#include <mission/devices/devicedefinitions/BpxBatteryDefinitions.h>
#include <mission/devices/devicedefinitions/GomspaceDefinitions.h>
#include <mission/devices/devicedefinitions/GyroADIS1650XDefinitions.h>
#include <mission/devices/devicedefinitions/GyroL3GD20Definitions.h>
#include <mission/devices/devicedefinitions/RwDefinitions.h>
#include <mission/devices/devicedefinitions/SyrlinksDefinitions.h>
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#include <mission/devices/devicedefinitions/imtqHandlerDefinitions.h>
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#include <mission/devices/devicedefinitions/payloadPcduDefinitions.h>
#include <objects/systemObjectList.h>
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ThermalController::ThermalController(object_id_t objectId, HeaterHandler& heater)
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: ExtendedControllerBase(objectId),
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heaterHandler(heater),
sensorTemperatures(this),
susTemperatures(this),
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deviceTemperatures(this),
max31865Set0(objects::RTD_0_IC3_PLOC_HEATSPREADER,
EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set1(objects::RTD_1_IC4_PLOC_MISSIONBOARD,
EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
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max31865Set2(objects::RTD_2_IC5_4K_CAMERA, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set3(objects::RTD_3_IC6_DAC_HEATSPREADER, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set4(objects::RTD_4_IC7_STARTRACKER, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set5(objects::RTD_5_IC8_RW1_MX_MY, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set6(objects::RTD_6_IC9_DRO, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set7(objects::RTD_7_IC10_SCEX, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set8(objects::RTD_8_IC11_X8, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set9(objects::RTD_9_IC12_HPA, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set10(objects::RTD_10_IC13_PL_TX, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set11(objects::RTD_11_IC14_MPA, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set12(objects::RTD_12_IC15_ACU, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set13(objects::RTD_13_IC16_PLPCDU_HEATSPREADER,
EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
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max31865Set14(objects::RTD_14_IC17_TCS_BOARD, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
max31865Set15(objects::RTD_15_IC18_IMTQ, EiveMax31855::RtdCommands::EXCHANGE_SET_ID),
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tmp1075SetTcs0(objects::TMP1075_HANDLER_TCS_0),
tmp1075SetTcs1(objects::TMP1075_HANDLER_TCS_1),
tmp1075SetPlPcdu0(objects::TMP1075_HANDLER_PLPCDU_0),
tmp1075SetPlPcdu1(objects::TMP1075_HANDLER_PLPCDU_1),
tmp1075SetIfBoard(objects::TMP1075_HANDLER_IF_BOARD),
susSet0(objects::SUS_0_N_LOC_XFYFZM_PT_XF),
susSet1(objects::SUS_1_N_LOC_XBYFZM_PT_XB),
susSet2(objects::SUS_2_N_LOC_XFYBZB_PT_YB),
susSet3(objects::SUS_3_N_LOC_XFYBZF_PT_YF),
susSet4(objects::SUS_4_N_LOC_XMYFZF_PT_ZF),
susSet5(objects::SUS_5_N_LOC_XFYMZB_PT_ZB),
susSet6(objects::SUS_6_R_LOC_XFYBZM_PT_XF),
susSet7(objects::SUS_7_R_LOC_XBYBZM_PT_XB),
susSet8(objects::SUS_8_R_LOC_XBYBZB_PT_YB),
susSet9(objects::SUS_9_R_LOC_XBYBZB_PT_YF),
susSet10(objects::SUS_10_N_LOC_XMYBZF_PT_ZF),
susSet11(objects::SUS_11_R_LOC_XBYMZB_PT_ZB) {}
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ReturnValue_t ThermalController::initialize() {
auto result = ExtendedControllerBase::initialize();
return result;
}
ReturnValue_t ThermalController::handleCommandMessage(CommandMessage* message) {
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return returnvalue::FAILED;
}
void ThermalController::performControlOperation() {
switch (internalState) {
case InternalState::STARTUP: {
initialCountdown.resetTimer();
internalState = InternalState::INITIAL_DELAY;
return;
}
case InternalState::INITIAL_DELAY: {
if (initialCountdown.hasTimedOut()) {
internalState = InternalState::READY;
}
return;
}
case InternalState::READY: {
break;
}
default:
break;
}
ReturnValue_t result = sensorTemperatures.read();
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if (result == returnvalue::OK) {
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copySensors();
sensorTemperatures.commit();
}
result = susTemperatures.read();
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if (result == returnvalue::OK) {
copySus();
susTemperatures.commit();
}
result = deviceTemperatures.read();
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if (result == returnvalue::OK) {
copyDevices();
deviceTemperatures.commit();
}
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// TODO: Heater control
}
ReturnValue_t ThermalController::initializeLocalDataPool(localpool::DataPool& localDataPoolMap,
LocalDataPoolManager& poolManager) {
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_PLOC_HEATSPREADER,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_PLOC_MISSIONBOARD,
new PoolEntry<float>({1.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_4K_CAMERA,
new PoolEntry<float>({2.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_DAC_HEATSPREADER,
new PoolEntry<float>({3.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_STARTRACKER,
new PoolEntry<float>({4.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_RW1, new PoolEntry<float>({5.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_DRO, new PoolEntry<float>({6.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_SCEX, new PoolEntry<float>({7.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_X8, new PoolEntry<float>({8.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_HPA, new PoolEntry<float>({9.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_TX_MODUL,
new PoolEntry<float>({10.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_MPA, new PoolEntry<float>({11.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_ACU, new PoolEntry<float>({12.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_PLPCDU_HEATSPREADER,
new PoolEntry<float>({13.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_TCS_BOARD,
new PoolEntry<float>({14.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_MAGNETTORQUER,
new PoolEntry<float>({15.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_TMP1075_TCS_0, &tmp1075Tcs0);
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_TMP1075_TCS_1, &tmp1075Tcs1);
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_TMP1075_PLPCDU_0, &tmp1075PlPcdu0);
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_TMP1075_PLPCDU_1, &tmp1075PlPcdu1);
localDataPoolMap.emplace(thermalControllerDefinitions::SENSOR_TMP1075_IF_BOARD, &tmp1075IfBrd);
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_0_N_LOC_XFYFZM_PT_XF,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_6_R_LOC_XFYBZM_PT_XF,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_1_N_LOC_XBYFZM_PT_XB,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_7_R_LOC_XBYBZM_PT_XB,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_2_N_LOC_XFYBZB_PT_YB,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_8_R_LOC_XBYBZB_PT_YB,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_3_N_LOC_XFYBZF_PT_YF,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_9_R_LOC_XBYBZB_PT_YF,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_4_N_LOC_XMYFZF_PT_ZF,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_10_N_LOC_XMYBZF_PT_ZF,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_5_N_LOC_XFYMZB_PT_ZB,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::SUS_11_R_LOC_XBYMZB_PT_ZB,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::COMPONENT_RW, new PoolEntry<float>({0.0}));
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localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_Q7S, new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::BATTERY_TEMP_1,
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new PoolEntry<int16_t>({0}));
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localDataPoolMap.emplace(thermalControllerDefinitions::BATTERY_TEMP_2,
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new PoolEntry<int16_t>({0}));
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localDataPoolMap.emplace(thermalControllerDefinitions::BATTERY_TEMP_3,
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new PoolEntry<int16_t>({0}));
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localDataPoolMap.emplace(thermalControllerDefinitions::BATTERY_TEMP_4,
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new PoolEntry<int16_t>({0}));
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localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_RW1, new PoolEntry<int32_t>({0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_RW2, new PoolEntry<int32_t>({0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_RW3, new PoolEntry<int32_t>({0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_RW4, new PoolEntry<int32_t>({0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_STAR_TRACKER,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_SYRLINKS_POWER_AMPLIFIER,
new PoolEntry<float>({0}));
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localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_SYRLINKS_BASEBAND_BOARD,
new PoolEntry<float>({0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_MGT, new PoolEntry<int16_t>({0}));
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localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_ACU, new PoolEntry<float>({0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_PDU1, new PoolEntry<float>({0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_PDU2, new PoolEntry<float>({0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_1_P60DOCK, new PoolEntry<float>({0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_2_P60DOCK, new PoolEntry<float>({0}));
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localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_GYRO_0_SIDE_A,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_GYRO_1_SIDE_A,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_GYRO_2_SIDE_B,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_GYRO_3_SIDE_B,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_MGM_0_SIDE_A,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_MGM_2_SIDE_B,
new PoolEntry<float>({0.0}));
localDataPoolMap.emplace(thermalControllerDefinitions::TEMP_ADC_PAYLOAD_PCDU,
new PoolEntry<float>({0.0}));
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poolManager.subscribeForRegularPeriodicPacket(
subdp::RegularHkPeriodicParams(sensorTemperatures.getSid(), false, 10.0));
poolManager.subscribeForRegularPeriodicPacket(
subdp::RegularHkPeriodicParams(susTemperatures.getSid(), false, 10.0));
poolManager.subscribeForRegularPeriodicPacket(
subdp::RegularHkPeriodicParams(deviceTemperatures.getSid(), false, 10.0));
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return returnvalue::OK;
}
LocalPoolDataSetBase* ThermalController::getDataSetHandle(sid_t sid) {
switch (sid.ownerSetId) {
case thermalControllerDefinitions::SENSOR_TEMPERATURES:
return &sensorTemperatures;
case thermalControllerDefinitions::SUS_TEMPERATURES:
return &susTemperatures;
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case thermalControllerDefinitions::DEVICE_TEMPERATURES:
return &deviceTemperatures;
default:
return nullptr;
}
}
ReturnValue_t ThermalController::checkModeCommand(Mode_t mode, Submode_t submode,
uint32_t* msToReachTheMode) {
if (submode != SUBMODE_NONE) {
return INVALID_SUBMODE;
}
if ((mode != MODE_OFF) && (mode != MODE_ON) && (mode != MODE_NORMAL)) {
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return INVALID_MODE;
}
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return returnvalue::OK;
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}
void ThermalController::copySensors() {
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{
PoolReadGuard pg0(&max31865Set0, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg0.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_ploc_heatspreader.value = max31865Set0.temperatureCelcius.value;
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sensorTemperatures.sensor_ploc_heatspreader.setValid(
max31865Set0.temperatureCelcius.isValid());
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if (not sensorTemperatures.sensor_ploc_heatspreader.isValid()) {
sensorTemperatures.sensor_ploc_heatspreader.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg1(&max31865Set1, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg1.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_ploc_missionboard.value = max31865Set1.temperatureCelcius.value;
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sensorTemperatures.sensor_ploc_missionboard.setValid(
max31865Set1.temperatureCelcius.isValid());
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if (not sensorTemperatures.sensor_ploc_missionboard.isValid()) {
sensorTemperatures.sensor_ploc_missionboard.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg2(&max31865Set2, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg2.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_4k_camera.value = max31865Set2.temperatureCelcius.value;
sensorTemperatures.sensor_4k_camera.setValid(max31865Set2.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_4k_camera.isValid()) {
sensorTemperatures.sensor_4k_camera.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg3(&max31865Set3, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg3.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_dac_heatspreader.value = max31865Set3.temperatureCelcius.value;
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sensorTemperatures.sensor_dac_heatspreader.setValid(
max31865Set3.temperatureCelcius.isValid());
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if (not sensorTemperatures.sensor_dac_heatspreader.isValid()) {
sensorTemperatures.sensor_dac_heatspreader.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg4(&max31865Set4, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg4.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_startracker.value = max31865Set4.temperatureCelcius.value;
sensorTemperatures.sensor_startracker.setValid(max31865Set4.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_startracker.isValid()) {
sensorTemperatures.sensor_startracker.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg5(&max31865Set5, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg5.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_rw1.value = max31865Set5.temperatureCelcius.value;
sensorTemperatures.sensor_rw1.setValid(max31865Set5.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_rw1.isValid()) {
sensorTemperatures.sensor_rw1.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg6(&max31865Set6, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg6.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_dro.value = max31865Set6.temperatureCelcius.value;
sensorTemperatures.sensor_dro.setValid(max31865Set6.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_dro.isValid()) {
sensorTemperatures.sensor_dro.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg7(&max31865Set7, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg7.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_scex.value = max31865Set7.temperatureCelcius.value;
sensorTemperatures.sensor_scex.setValid(max31865Set7.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_scex.isValid()) {
sensorTemperatures.sensor_scex.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg8(&max31865Set8, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg8.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_x8.value = max31865Set8.temperatureCelcius.value;
sensorTemperatures.sensor_x8.setValid(max31865Set8.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_x8.isValid()) {
sensorTemperatures.sensor_x8.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg9(&max31865Set9, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg9.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_hpa.value = max31865Set9.temperatureCelcius.value;
sensorTemperatures.sensor_hpa.setValid(max31865Set9.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_hpa.isValid()) {
sensorTemperatures.sensor_hpa.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg10(&max31865Set10, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg10.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_tx_modul.value = max31865Set10.temperatureCelcius.value;
sensorTemperatures.sensor_tx_modul.setValid(max31865Set10.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_tx_modul.isValid()) {
sensorTemperatures.sensor_tx_modul.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg11(&max31865Set11, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg11.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_mpa.value = max31865Set11.temperatureCelcius.value;
sensorTemperatures.sensor_mpa.setValid(max31865Set11.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_mpa.isValid()) {
sensorTemperatures.sensor_mpa.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg12(&max31865Set12, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg12.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_acu.value = max31865Set12.temperatureCelcius.value;
sensorTemperatures.sensor_acu.setValid(max31865Set12.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_acu.isValid()) {
sensorTemperatures.sensor_acu.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg13(&max31865Set13, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg13.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_plpcdu_heatspreader.value = max31865Set13.temperatureCelcius.value;
sensorTemperatures.sensor_plpcdu_heatspreader.setValid(
max31865Set13.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_plpcdu_heatspreader.isValid()) {
sensorTemperatures.sensor_plpcdu_heatspreader.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg14(&max31865Set14, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg14.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_tcs_board.value = max31865Set14.temperatureCelcius.value;
sensorTemperatures.sensor_tcs_board.setValid(max31865Set14.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_tcs_board.isValid()) {
sensorTemperatures.sensor_tcs_board.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg15(&max31865Set15, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg15.getReadResult() == returnvalue::OK) {
sensorTemperatures.sensor_magnettorquer.value = max31865Set15.temperatureCelcius.value;
sensorTemperatures.sensor_magnettorquer.setValid(max31865Set15.temperatureCelcius.isValid());
if (not sensorTemperatures.sensor_magnettorquer.isValid()) {
sensorTemperatures.sensor_magnettorquer.value = INVALID_TEMPERATURE;
}
}
}
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{
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PoolReadGuard pg(&tmp1075SetTcs0, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() == returnvalue::OK) {
sensorTemperatures.tmp1075Tcs0.value = tmp1075SetTcs0.temperatureCelcius.value;
sensorTemperatures.tmp1075Tcs0.setValid(tmp1075SetTcs0.temperatureCelcius.isValid());
if (not tmp1075SetTcs0.temperatureCelcius.isValid()) {
sensorTemperatures.tmp1075Tcs0.value = INVALID_TEMPERATURE;
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}
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}
}
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{
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PoolReadGuard pg(&tmp1075SetTcs1, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() == returnvalue::OK) {
sensorTemperatures.tmp1075Tcs1.value = tmp1075SetTcs1.temperatureCelcius.value;
sensorTemperatures.tmp1075Tcs1.setValid(tmp1075SetTcs1.temperatureCelcius.isValid());
if (not tmp1075SetTcs1.temperatureCelcius.isValid()) {
sensorTemperatures.tmp1075Tcs1.value = INVALID_TEMPERATURE;
}
}
}
{
PoolReadGuard pg(&tmp1075SetPlPcdu0, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() == returnvalue::OK) {
sensorTemperatures.tmp1075PlPcdu0.value = tmp1075SetPlPcdu0.temperatureCelcius.value;
sensorTemperatures.tmp1075PlPcdu0.setValid(tmp1075SetPlPcdu0.temperatureCelcius.isValid());
if (not tmp1075SetPlPcdu0.temperatureCelcius.isValid()) {
sensorTemperatures.tmp1075PlPcdu0.value = INVALID_TEMPERATURE;
}
}
}
{
PoolReadGuard pg(&tmp1075SetPlPcdu1, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() == returnvalue::OK) {
sensorTemperatures.tmp1075PlPcdu1.value = tmp1075SetPlPcdu1.temperatureCelcius.value;
sensorTemperatures.tmp1075PlPcdu1.setValid(tmp1075SetPlPcdu1.temperatureCelcius.isValid());
if (not tmp1075SetPlPcdu1.temperatureCelcius.isValid()) {
sensorTemperatures.tmp1075PlPcdu1.value = INVALID_TEMPERATURE;
}
}
}
{
PoolReadGuard pg(&tmp1075SetIfBoard, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() == returnvalue::OK) {
sensorTemperatures.tmp1075IfBrd.value = tmp1075SetIfBoard.temperatureCelcius.value;
sensorTemperatures.tmp1075IfBrd.setValid(tmp1075SetIfBoard.temperatureCelcius.isValid());
if (not tmp1075SetIfBoard.temperatureCelcius.isValid()) {
sensorTemperatures.tmp1075IfBrd.value = INVALID_TEMPERATURE;
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}
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}
}
}
void ThermalController::copySus() {
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{
PoolReadGuard pg0(&susSet0, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg0.getReadResult() == returnvalue::OK) {
susTemperatures.sus_0_n_loc_xfyfzm_pt_xf.value = susSet0.temperatureCelcius.value;
susTemperatures.sus_0_n_loc_xfyfzm_pt_xf.setValid(susSet0.temperatureCelcius.isValid());
if (not susTemperatures.sus_0_n_loc_xfyfzm_pt_xf.isValid()) {
susTemperatures.sus_0_n_loc_xfyfzm_pt_xf.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg1(&susSet1, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg1.getReadResult() == returnvalue::OK) {
susTemperatures.sus_6_r_loc_xfybzm_pt_xf.value = susSet1.temperatureCelcius.value;
susTemperatures.sus_6_r_loc_xfybzm_pt_xf.setValid(susSet1.temperatureCelcius.isValid());
if (not susTemperatures.sus_6_r_loc_xfybzm_pt_xf.isValid()) {
susTemperatures.sus_6_r_loc_xfybzm_pt_xf.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg2(&susSet2, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg2.getReadResult() == returnvalue::OK) {
susTemperatures.sus_1_n_loc_xbyfzm_pt_xb.value = susSet2.temperatureCelcius.value;
susTemperatures.sus_1_n_loc_xbyfzm_pt_xb.setValid(susSet2.temperatureCelcius.isValid());
if (not susTemperatures.sus_1_n_loc_xbyfzm_pt_xb.isValid()) {
susTemperatures.sus_1_n_loc_xbyfzm_pt_xb.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg3(&susSet3, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg3.getReadResult() == returnvalue::OK) {
susTemperatures.sus_7_r_loc_xbybzm_pt_xb.value = susSet3.temperatureCelcius.value;
susTemperatures.sus_7_r_loc_xbybzm_pt_xb.setValid(susSet3.temperatureCelcius.isValid());
if (not susTemperatures.sus_7_r_loc_xbybzm_pt_xb.isValid()) {
susTemperatures.sus_7_r_loc_xbybzm_pt_xb.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg4(&susSet4, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg4.getReadResult() == returnvalue::OK) {
susTemperatures.sus_2_n_loc_xfybzb_pt_yb.value = susSet4.temperatureCelcius.value;
susTemperatures.sus_2_n_loc_xfybzb_pt_yb.setValid(susSet4.temperatureCelcius.isValid());
if (not susTemperatures.sus_2_n_loc_xfybzb_pt_yb.isValid()) {
susTemperatures.sus_2_n_loc_xfybzb_pt_yb.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg5(&susSet5, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg5.getReadResult() == returnvalue::OK) {
susTemperatures.sus_8_r_loc_xbybzb_pt_yb.value = susSet5.temperatureCelcius.value;
susTemperatures.sus_8_r_loc_xbybzb_pt_yb.setValid(susSet5.temperatureCelcius.isValid());
if (not susTemperatures.sus_8_r_loc_xbybzb_pt_yb.isValid()) {
susTemperatures.sus_8_r_loc_xbybzb_pt_yb.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg6(&susSet6, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg6.getReadResult() == returnvalue::OK) {
susTemperatures.sus_3_n_loc_xfybzf_pt_yf.value = susSet6.temperatureCelcius.value;
susTemperatures.sus_3_n_loc_xfybzf_pt_yf.setValid(susSet6.temperatureCelcius.isValid());
if (not susTemperatures.sus_3_n_loc_xfybzf_pt_yf.isValid()) {
susTemperatures.sus_3_n_loc_xfybzf_pt_yf.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg7(&susSet7, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg7.getReadResult() == returnvalue::OK) {
susTemperatures.sus_9_r_loc_xbybzb_pt_yf.value = susSet7.temperatureCelcius.value;
susTemperatures.sus_9_r_loc_xbybzb_pt_yf.setValid(susSet7.temperatureCelcius.isValid());
if (not susTemperatures.sus_9_r_loc_xbybzb_pt_yf.isValid()) {
susTemperatures.sus_9_r_loc_xbybzb_pt_yf.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg8(&susSet8, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg8.getReadResult() == returnvalue::OK) {
susTemperatures.sus_4_n_loc_xmyfzf_pt_zf.value = susSet8.temperatureCelcius.value;
susTemperatures.sus_4_n_loc_xmyfzf_pt_zf.setValid(susSet8.temperatureCelcius.isValid());
if (not susTemperatures.sus_4_n_loc_xmyfzf_pt_zf.isValid()) {
susTemperatures.sus_4_n_loc_xmyfzf_pt_zf.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg9(&susSet9, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg9.getReadResult() == returnvalue::OK) {
susTemperatures.sus_10_n_loc_xmybzf_pt_zf.value = susSet9.temperatureCelcius.value;
susTemperatures.sus_10_n_loc_xmybzf_pt_zf.setValid(susSet9.temperatureCelcius.isValid());
if (not susTemperatures.sus_10_n_loc_xmybzf_pt_zf.isValid()) {
susTemperatures.sus_10_n_loc_xmybzf_pt_zf.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg10(&susSet10, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg10.getReadResult() == returnvalue::OK) {
susTemperatures.sus_5_n_loc_xfymzb_pt_zb.value = susSet10.temperatureCelcius.value;
susTemperatures.sus_5_n_loc_xfymzb_pt_zb.setValid(susSet10.temperatureCelcius.isValid());
if (not susTemperatures.sus_5_n_loc_xfymzb_pt_zb.isValid()) {
susTemperatures.sus_5_n_loc_xfymzb_pt_zb.value = INVALID_TEMPERATURE;
}
}
}
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{
PoolReadGuard pg11(&susSet11, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg11.getReadResult() == returnvalue::OK) {
susTemperatures.sus_11_r_loc_xbymzb_pt_zb.value = susSet11.temperatureCelcius.value;
susTemperatures.sus_11_r_loc_xbymzb_pt_zb.setValid(susSet11.temperatureCelcius.isValid());
if (not susTemperatures.sus_11_r_loc_xbymzb_pt_zb.isValid()) {
susTemperatures.sus_11_r_loc_xbymzb_pt_zb.value = INVALID_TEMPERATURE;
}
}
}
}
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void ThermalController::copyDevices() {
lp_var_t<float> tempQ7s = lp_var_t<float>(objects::CORE_CONTROLLER, core::PoolIds::TEMPERATURE);
{
PoolReadGuard pg(&tempQ7s, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
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if (pg.getReadResult() == returnvalue::OK) {
deviceTemperatures.q7s = tempQ7s;
deviceTemperatures.q7s.setValid(tempQ7s.isValid());
} else {
deviceTemperatures.q7s.setValid(false);
deviceTemperatures.q7s = static_cast<float>(INVALID_TEMPERATURE);
}
}
{
lp_var_t<int16_t> battTemp1 =
lp_var_t<int16_t>(objects::BPX_BATT_HANDLER, BpxBattery::BATT_TEMP_1);
PoolReadGuard pg(&battTemp1, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read battery temperature 1" << std::endl;
deviceTemperatures.batteryTemp1.setValid(false);
deviceTemperatures.batteryTemp1 = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.batteryTemp1 = battTemp1;
deviceTemperatures.batteryTemp1.setValid(battTemp1.isValid());
}
}
{
lp_var_t<int16_t> battTemp2 =
lp_var_t<int16_t>(objects::BPX_BATT_HANDLER, BpxBattery::BATT_TEMP_2);
PoolReadGuard pg(&battTemp2, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read battery temperature 2" << std::endl;
deviceTemperatures.batteryTemp2.setValid(false);
deviceTemperatures.batteryTemp2 = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.batteryTemp2 = battTemp2;
deviceTemperatures.batteryTemp2.setValid(battTemp2.isValid());
}
}
{
lp_var_t<int16_t> battTemp3 =
lp_var_t<int16_t>(objects::BPX_BATT_HANDLER, BpxBattery::BATT_TEMP_3);
PoolReadGuard pg(&battTemp3, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read battery temperature 3" << std::endl;
deviceTemperatures.batteryTemp3.setValid(false);
deviceTemperatures.batteryTemp3 = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.batteryTemp3 = battTemp3;
deviceTemperatures.batteryTemp3.setValid(battTemp3.isValid());
}
}
{
lp_var_t<int16_t> battTemp4 =
lp_var_t<int16_t>(objects::BPX_BATT_HANDLER, BpxBattery::BATT_TEMP_4);
PoolReadGuard pg(&battTemp4, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read battery temperature 4" << std::endl;
deviceTemperatures.batteryTemp4.setValid(false);
deviceTemperatures.batteryTemp4 = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.batteryTemp4 = battTemp4;
deviceTemperatures.batteryTemp4.setValid(battTemp4.isValid());
}
}
{
lp_var_t<int32_t> tempRw1 = lp_var_t<int32_t>(objects::RW1, RwDefinitions::TEMPERATURE_C);
PoolReadGuard pg(&tempRw1, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read reaction wheel 1 temperature" << std::endl;
deviceTemperatures.rw1.setValid(false);
deviceTemperatures.rw1 = static_cast<int32_t>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.rw1.setValid(tempRw1.isValid());
deviceTemperatures.rw1 = tempRw1;
}
}
{
lp_var_t<int32_t> tempRw2 = lp_var_t<int32_t>(objects::RW2, RwDefinitions::TEMPERATURE_C);
PoolReadGuard pg(&tempRw2, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read reaction wheel 2 temperature" << std::endl;
deviceTemperatures.rw2.setValid(false);
deviceTemperatures.rw2 = static_cast<int32_t>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.rw2.setValid(tempRw2.isValid());
deviceTemperatures.rw2 = tempRw2;
}
}
{
lp_var_t<int32_t> tempRw3 = lp_var_t<int32_t>(objects::RW3, RwDefinitions::TEMPERATURE_C);
PoolReadGuard pg(&tempRw3, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read reaction wheel 3 temperature" << std::endl;
deviceTemperatures.rw3.setValid(false);
deviceTemperatures.rw3 = static_cast<int32_t>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.rw3.setValid(tempRw3.isValid());
deviceTemperatures.rw3 = tempRw3;
}
}
{
lp_var_t<int32_t> tempRw4 = lp_var_t<int32_t>(objects::RW4, RwDefinitions::TEMPERATURE_C);
PoolReadGuard pg(&tempRw4, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read reaction wheel 4 temperature" << std::endl;
deviceTemperatures.rw4.setValid(false);
deviceTemperatures.rw4 = static_cast<int32_t>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.rw4.setValid(tempRw4.isValid());
deviceTemperatures.rw4 = tempRw4;
}
}
{
lp_var_t<float> tempStartracker =
lp_var_t<float>(objects::STAR_TRACKER, startracker::MCU_TEMPERATURE);
PoolReadGuard pg(&tempStartracker, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read startracker temperature" << std::endl;
deviceTemperatures.startracker.setValid(false);
deviceTemperatures.startracker = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.startracker.setValid(tempStartracker.isValid());
deviceTemperatures.startracker = tempStartracker;
}
}
{
lp_var_t<float> tempSyrlinksPowerAmplifier =
lp_var_t<float>(objects::SYRLINKS_HK_HANDLER, syrlinks::TEMP_POWER_AMPLIFIER);
PoolReadGuard pg(&tempSyrlinksPowerAmplifier, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read syrlinks power amplifier temperature"
<< std::endl;
deviceTemperatures.syrlinksPowerAmplifier.setValid(false);
deviceTemperatures.syrlinksPowerAmplifier = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.syrlinksPowerAmplifier.setValid(tempSyrlinksPowerAmplifier.isValid());
deviceTemperatures.syrlinksPowerAmplifier = tempSyrlinksPowerAmplifier;
}
}
{
lp_var_t<float> tempSyrlinksBasebandBoard =
lp_var_t<float>(objects::SYRLINKS_HK_HANDLER, syrlinks::TEMP_BASEBAND_BOARD);
PoolReadGuard pg(&tempSyrlinksBasebandBoard, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read syrlinks baseband board temperature"
<< std::endl;
deviceTemperatures.syrlinksBasebandBoard.setValid(false);
deviceTemperatures.syrlinksBasebandBoard = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.syrlinksBasebandBoard.setValid(tempSyrlinksBasebandBoard.isValid());
deviceTemperatures.syrlinksBasebandBoard = tempSyrlinksBasebandBoard;
}
}
{
lp_var_t<int16_t> tempMgt = lp_var_t<int16_t>(objects::IMTQ_HANDLER, IMTQ::MCU_TEMPERATURE);
PoolReadGuard pg(&tempMgt, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read MGT temperature" << std::endl;
deviceTemperatures.mgt.setValid(false);
deviceTemperatures.mgt = static_cast<int16_t>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.mgt.setValid(tempMgt.isValid());
deviceTemperatures.mgt = tempMgt;
}
}
{
lp_vec_t<float, 3> tempAcu =
lp_vec_t<float, 3>(objects::ACU_HANDLER, ACU::pool::ACU_TEMPERATURES);
PoolReadGuard pg(&tempAcu, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read ACU temperatures" << std::endl;
deviceTemperatures.acu.setValid(false);
deviceTemperatures.acu[0] = static_cast<float>(INVALID_TEMPERATURE);
deviceTemperatures.acu[1] = static_cast<float>(INVALID_TEMPERATURE);
deviceTemperatures.acu[2] = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.acu.setValid(tempAcu.isValid());
deviceTemperatures.acu = tempAcu;
}
}
{
lp_var_t<float> tempPdu1 = lp_var_t<float>(objects::PDU1_HANDLER, PDU::pool::PDU_TEMPERATURE);
PoolReadGuard pg(&tempPdu1, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read PDU1 temperature" << std::endl;
deviceTemperatures.pdu1.setValid(false);
deviceTemperatures.pdu1 = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.pdu1.setValid(tempPdu1.isValid());
deviceTemperatures.pdu1 = tempPdu1;
}
}
{
lp_var_t<float> tempPdu2 = lp_var_t<float>(objects::PDU2_HANDLER, PDU::pool::PDU_TEMPERATURE);
PoolReadGuard pg(&tempPdu2, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read PDU2 temperature" << std::endl;
deviceTemperatures.pdu2.setValid(false);
deviceTemperatures.pdu2 = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.pdu2.setValid(tempPdu2.isValid());
deviceTemperatures.pdu2 = tempPdu2;
}
}
{
lp_var_t<float> temp1P60dock =
lp_var_t<float>(objects::P60DOCK_HANDLER, P60Dock::pool::P60DOCK_TEMPERATURE_1);
PoolReadGuard pg(&temp1P60dock, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read P60 dock temperature 1" << std::endl;
deviceTemperatures.temp1P60dock.setValid(false);
deviceTemperatures.temp1P60dock = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.temp1P60dock.setValid(temp1P60dock.isValid());
deviceTemperatures.temp1P60dock = temp1P60dock;
}
}
{
lp_var_t<float> temp2P60dock =
lp_var_t<float>(objects::P60DOCK_HANDLER, P60Dock::pool::P60DOCK_TEMPERATURE_2);
PoolReadGuard pg(&temp2P60dock, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read P60 dock temperature 2" << std::endl;
deviceTemperatures.temp2P60dock.setValid(false);
deviceTemperatures.temp2P60dock = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.temp2P60dock.setValid(temp2P60dock.isValid());
deviceTemperatures.temp2P60dock = temp2P60dock;
}
}
{
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lp_var_t<float> tempGyro0 =
lp_var_t<float>(objects::GYRO_0_ADIS_HANDLER, ADIS1650X::TEMPERATURE);
PoolReadGuard pg(&tempGyro0, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read gyro 0 temperature" << std::endl;
deviceTemperatures.gyro0SideA.setValid(false);
deviceTemperatures.gyro0SideA = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.gyro0SideA.setValid(tempGyro0.isValid());
deviceTemperatures.gyro0SideA = tempGyro0;
}
}
{
lp_var_t<float> tempGyro1 = lp_var_t<float>(objects::GYRO_1_L3G_HANDLER, L3GD20H::TEMPERATURE);
PoolReadGuard pg(&tempGyro1, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read gyro 1 temperature" << std::endl;
deviceTemperatures.gyro1SideA.setValid(false);
deviceTemperatures.gyro1SideA = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.gyro1SideA.setValid(tempGyro1.isValid());
deviceTemperatures.gyro1SideA = tempGyro1;
}
}
{
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lp_var_t<float> tempGyro2 =
lp_var_t<float>(objects::GYRO_2_ADIS_HANDLER, ADIS1650X::TEMPERATURE);
PoolReadGuard pg(&tempGyro2, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read gyro 2 temperature" << std::endl;
deviceTemperatures.gyro2SideB.setValid(false);
deviceTemperatures.gyro2SideB = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.gyro2SideB.setValid(tempGyro2.isValid());
deviceTemperatures.gyro2SideB = tempGyro2;
}
}
{
lp_var_t<float> tempGyro3 = lp_var_t<float>(objects::GYRO_3_L3G_HANDLER, L3GD20H::TEMPERATURE);
PoolReadGuard pg(&tempGyro3, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read gyro 3 temperature" << std::endl;
deviceTemperatures.gyro3SideB.setValid(false);
deviceTemperatures.gyro3SideB = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.gyro3SideB.setValid(tempGyro3.isValid());
deviceTemperatures.gyro3SideB = tempGyro3;
}
}
{
lp_var_t<float> tempMgm0 =
lp_var_t<float>(objects::MGM_0_LIS3_HANDLER, MGMLIS3MDL::TEMPERATURE_CELCIUS);
PoolReadGuard pg(&tempMgm0, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read MGM 0 temperature" << std::endl;
deviceTemperatures.mgm0SideA.setValid(false);
deviceTemperatures.mgm0SideA = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.mgm0SideA.setValid(tempMgm0.isValid());
deviceTemperatures.mgm0SideA = tempMgm0;
}
}
{
lp_var_t<float> tempMgm2 =
lp_var_t<float>(objects::MGM_2_LIS3_HANDLER, MGMLIS3MDL::TEMPERATURE_CELCIUS);
PoolReadGuard pg(&tempMgm2, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read MGM 2 temperature" << std::endl;
deviceTemperatures.mgm2SideB.setValid(false);
deviceTemperatures.mgm2SideB = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.mgm2SideB.setValid(tempMgm2.isValid());
deviceTemperatures.mgm2SideB = tempMgm2;
}
}
{
lp_var_t<float> tempAdcPayloadPcdu = lp_var_t<float>(objects::PLPCDU_HANDLER, plpcdu::TEMP);
PoolReadGuard pg(&tempAdcPayloadPcdu, MutexIF::TimeoutType::WAITING, MUTEX_TIMEOUT);
if (pg.getReadResult() != returnvalue::OK) {
sif::warning << "ThermalController: Failed to read payload PCDU ADC temperature" << std::endl;
deviceTemperatures.adcPayloadPcdu.setValid(false);
deviceTemperatures.adcPayloadPcdu = static_cast<float>(INVALID_TEMPERATURE);
} else {
deviceTemperatures.adcPayloadPcdu.setValid(tempAdcPayloadPcdu.isValid());
deviceTemperatures.adcPayloadPcdu = tempAdcPayloadPcdu;
}
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}
}