Merge branch 'main' into smaller-ploc-tweaks
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commit
16fa3d1e26
33
CHANGELOG.md
33
CHANGELOG.md
@ -16,6 +16,39 @@ will consitute of a breaking change warranting a new major release:
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# [unreleased]
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## Added
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- Added new parameter for MPSoC which allows to skip SUPV commanding.
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## Changed
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- Increased allowed mode transition time for PLOC SUPV.
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# [v7.5.5] 2024-01-22
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## Fixed
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- Calculation of error quaternion was done with inverse of the required target quaternion.
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# [v7.5.4] 2024-01-16
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## Fixed
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- Pointing strategy now actually uses fused rotation rate source instead of its valid flag.
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- All datasets now get updated during pointing mode, even if the strategy is a fault one.
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# [v7.5.3] 2023-12-19
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## Fixed
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- Set STR quaternions to invalid in device handler if the solution is not trustworthy.
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# [v7.5.2] 2023-12-14
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## Fixed
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- Fixed faulty scaling within the QUEST algorithm.
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# [v7.5.1] 2023-12-13
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- `eive-tmtc` v5.12.1
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@ -11,7 +11,7 @@ cmake_minimum_required(VERSION 3.13)
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set(OBSW_VERSION_MAJOR 7)
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set(OBSW_VERSION_MINOR 5)
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set(OBSW_VERSION_REVISION 1)
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set(OBSW_VERSION_REVISION 5)
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# set(CMAKE_VERBOSE TRUE)
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@ -7,6 +7,7 @@
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#include "OBSWConfig.h"
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#include "fsfw/datapool/PoolReadGuard.h"
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#include "fsfw/globalfunctions/CRC.h"
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#include "fsfw/parameters/HasParametersIF.h"
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PlocMpsocHandler::PlocMpsocHandler(object_id_t objectId, object_id_t uartComIFid,
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CookieIF* comCookie, PlocMpsocSpecialComHelper* plocMPSoCHelper,
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@ -1395,14 +1396,18 @@ bool PlocMpsocHandler::handleHwStartup() {
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return true;
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#endif
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if (powerState == PowerState::IDLE) {
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if (supv::SUPV_ON) {
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commandActionHelper.commandAction(supervisorHandler, supv::START_MPSOC);
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supvTransitionCd.resetTimer();
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powerState = PowerState::PENDING_STARTUP;
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if (skipSupvCommandingToOn) {
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powerState = PowerState::DONE;
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} else {
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triggerEvent(SUPV_NOT_ON, 1);
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// Set back to OFF for now, failing the transition.
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setMode(MODE_OFF);
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if (supv::SUPV_ON) {
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commandActionHelper.commandAction(supervisorHandler, supv::START_MPSOC);
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supvTransitionCd.resetTimer();
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powerState = PowerState::PENDING_STARTUP;
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} else {
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triggerEvent(SUPV_NOT_ON, 1);
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// Set back to OFF for now, failing the transition.
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setMode(MODE_OFF);
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}
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}
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}
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if (powerState == PowerState::SUPV_FAILED) {
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@ -1532,3 +1537,20 @@ ReturnValue_t PlocMpsocHandler::checkModeCommand(Mode_t commandedMode, Submode_t
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}
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return DeviceHandlerBase::checkModeCommand(commandedMode, commandedSubmode, msToReachTheMode);
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}
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ReturnValue_t PlocMpsocHandler::getParameter(uint8_t domainId, uint8_t uniqueId,
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ParameterWrapper* parameterWrapper,
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const ParameterWrapper* newValues,
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uint16_t startAtIndex) {
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if (uniqueId == mpsoc::ParamId::SKIP_SUPV_ON_COMMANDING) {
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uint8_t value = 0;
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newValues->getElement(&value);
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if (value > 1) {
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return HasParametersIF::INVALID_VALUE;
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}
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parameterWrapper->set(skipSupvCommandingToOn);
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return returnvalue::OK;
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}
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return DeviceHandlerBase::getParameter(domainId, uniqueId, parameterWrapper, newValues,
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startAtIndex);
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}
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@ -201,6 +201,8 @@ class PlocMpsocHandler : public DeviceHandlerBase, public CommandsActionsIF {
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PowerState powerState = PowerState::IDLE;
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uint8_t skipSupvCommandingToOn = false;
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/**
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* @brief Handles events received from the PLOC MPSoC helper
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*/
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@ -316,6 +318,9 @@ class PlocMpsocHandler : public DeviceHandlerBase, public CommandsActionsIF {
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pwrctrl::EnablePl enablePl = pwrctrl::EnablePl(objects::POWER_CONTROLLER);
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ReturnValue_t checkModeCommand(Mode_t commandedMode, Submode_t commandedSubmode,
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uint32_t* msToReachTheMode) override;
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ReturnValue_t getParameter(uint8_t domainId, uint8_t uniqueId, ParameterWrapper* parameterWrapper,
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const ParameterWrapper* newValues, uint16_t startAtIndex) override;
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};
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#endif /* BSP_Q7S_DEVICES_PLOC_PLOCMPSOCHANDLER_H_ */
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@ -13,6 +13,8 @@
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namespace mpsoc {
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enum ParamId : uint8_t { SKIP_SUPV_ON_COMMANDING = 0x01 };
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enum FileAccessModes : uint8_t {
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// Opens a file, fails if the file does not exist.
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OPEN_EXISTING = 0x00,
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@ -49,7 +49,7 @@ static const Event SUPV_EXE_ACK_UNKNOWN_COMMAND = MAKE_EVENT(10, severity::LOW);
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extern std::atomic_bool SUPV_ON;
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static constexpr uint32_t INTER_COMMAND_DELAY = 20;
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static constexpr uint32_t BOOT_TIMEOUT_MS = 4000;
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static constexpr uint32_t MAX_TRANSITION_TIME_TO_ON_MS = BOOT_TIMEOUT_MS + 2000;
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static constexpr uint32_t MAX_TRANSITION_TIME_TO_ON_MS = BOOT_TIMEOUT_MS + 3000;
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static constexpr uint32_t MAX_TRANSITION_TIME_TO_OFF_MS = 1000;
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namespace result {
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@ -1162,7 +1162,7 @@ ReturnValue_t StarTrackerHandler::interpretDeviceReply(DeviceCommandId_t id,
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break;
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}
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case (startracker::REQ_SOLUTION): {
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result = handleTm(packet, solutionSet, "REQ_SOLUTION");
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result = handleSolution(packet);
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break;
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}
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case (startracker::REQ_CONTRAST): {
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@ -2438,6 +2438,36 @@ ReturnValue_t StarTrackerHandler::handleTm(const uint8_t* rawFrame, LocalPoolDat
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return result;
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}
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ReturnValue_t StarTrackerHandler::handleSolution(const uint8_t* rawFrame) {
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ReturnValue_t result = statusFieldCheck(rawFrame);
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if (result != returnvalue::OK) {
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return result;
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}
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PoolReadGuard pg(&solutionSet);
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if (pg.getReadResult() != returnvalue::OK) {
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return result;
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}
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const uint8_t* reply = rawFrame + TICKS_OFFSET;
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solutionSet.setValidityBufferGeneration(false);
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size_t sizeLeft = fullPacketLen;
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result = solutionSet.deSerialize(&reply, &sizeLeft, SerializeIF::Endianness::LITTLE);
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if (result != returnvalue::OK) {
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sif::warning << "StarTrackerHandler::handleTm: Deserialization failed for solution set: 0x"
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<< std::hex << std::setw(4) << result << std::dec << std::endl;
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}
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solutionSet.setValidityBufferGeneration(true);
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solutionSet.setValidity(true, true);
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solutionSet.caliQw.setValid(solutionSet.isTrustWorthy.value);
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solutionSet.caliQx.setValid(solutionSet.isTrustWorthy.value);
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solutionSet.caliQy.setValid(solutionSet.isTrustWorthy.value);
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solutionSet.caliQz.setValid(solutionSet.isTrustWorthy.value);
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solutionSet.trackQw.setValid(solutionSet.isTrustWorthy.value);
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solutionSet.trackQx.setValid(solutionSet.isTrustWorthy.value);
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solutionSet.trackQy.setValid(solutionSet.isTrustWorthy.value);
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solutionSet.trackQz.setValid(solutionSet.isTrustWorthy.value);
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return result;
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}
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ReturnValue_t StarTrackerHandler::handleAutoBlobTm(const uint8_t* rawFrame) {
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ReturnValue_t result = statusFieldCheck(rawFrame);
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if (result != returnvalue::OK) {
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@ -527,6 +527,7 @@ class StarTrackerHandler : public DeviceHandlerBase {
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ReturnValue_t handleTm(const uint8_t* rawFrame, LocalPoolDataSetBase& dataset,
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const char* context);
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ReturnValue_t handleSolution(const uint8_t* rawFrame);
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ReturnValue_t handleAutoBlobTm(const uint8_t* rawFrame);
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ReturnValue_t handleMatchedCentroidTm(const uint8_t* rawFrame);
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ReturnValue_t handleBlobTm(const uint8_t* rawFrame);
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@ -403,14 +403,17 @@ void AcsController::performPointingCtrl() {
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acs::ControlModeStrategy ptgCtrlStrat = ptgCtrl.pointingCtrlStrategy(
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mgmDataProcessed.mgmVecTot.isValid(), not mekfInvalidFlag, strValid,
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attitudeEstimationData.quatQuest.isValid(), fusedRotRateData.rotRateTotal.isValid(),
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fusedRotRateData.rotRateSource.isValid(), useMekf);
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fusedRotRateData.rotRateSource.value, useMekf);
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if (ptgCtrlStrat == acs::ControlModeStrategy::CTRL_NO_SENSORS_FOR_CONTROL) {
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if (ptgCtrlStrat == acs::ControlModeStrategy::CTRL_NO_MAG_FIELD_FOR_CONTROL or
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ptgCtrlStrat == acs::ControlModeStrategy::CTRL_NO_SENSORS_FOR_CONTROL) {
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ptgCtrlLostCounter++;
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if (ptgCtrlLostCounter > acsParameters.onBoardParams.ptgCtrlLostTimer) {
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triggerEvent(acs::PTG_CTRL_NO_ATTITUDE_INFORMATION);
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ptgCtrlLostCounter = 0;
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}
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updateCtrlValData(ptgCtrlStrat);
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updateActuatorCmdData(ZERO_VEC4, cmdSpeedRws, ZERO_VEC3_INT16);
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commandActuators(0, 0, 0, acsParameters.magnetorquerParameter.torqueDuration, cmdSpeedRws[0],
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cmdSpeedRws[1], cmdSpeedRws[2], cmdSpeedRws[3],
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acsParameters.rwHandlingParameters.rampTime);
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@ -437,7 +440,7 @@ void AcsController::performPointingCtrl() {
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std::memcpy(rotRateB, fusedRotRateData.rotRateTotal.value, sizeof(rotRateB));
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break;
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default:
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sif::error << "AcsController: Invalid pointing mode strategy for performDetumble"
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sif::error << "AcsController: Invalid pointing mode strategy for performPointingCtrl"
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<< std::endl;
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break;
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}
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@ -593,7 +596,7 @@ void AcsController::performPointingCtrl() {
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actuatorCmd.cmdDipoleMtq(*acsParameters.magnetorquerParameter.inverseAlignment,
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acsParameters.magnetorquerParameter.dipoleMax, mgtDpDes, cmdDipoleMtqs);
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updateCtrlValData(targetQuat, errorQuat, errorAngle, targetSatRotRate);
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updateCtrlValData(targetQuat, errorQuat, errorAngle, targetSatRotRate, ptgCtrlStrat);
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updateActuatorCmdData(torqueRws, cmdSpeedRws, cmdDipoleMtqs);
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commandActuators(cmdDipoleMtqs[0], cmdDipoleMtqs[1], cmdDipoleMtqs[2],
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acsParameters.magnetorquerParameter.torqueDuration, cmdSpeedRws[0],
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@ -671,7 +674,7 @@ void AcsController::updateActuatorCmdData(const double *rwTargetTorque,
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}
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}
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void AcsController::updateCtrlValData(uint8_t safeModeStrat) {
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void AcsController::updateCtrlValData(acs::ControlModeStrategy ctrlStrat) {
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PoolReadGuard pg(&ctrlValData);
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if (pg.getReadResult() == returnvalue::OK) {
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std::memcpy(ctrlValData.tgtQuat.value, ZERO_VEC4, 4 * sizeof(double));
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@ -682,13 +685,13 @@ void AcsController::updateCtrlValData(uint8_t safeModeStrat) {
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ctrlValData.errAng.setValid(false);
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std::memcpy(ctrlValData.tgtRotRate.value, ZERO_VEC3, 3 * sizeof(double));
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ctrlValData.tgtRotRate.setValid(false);
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ctrlValData.safeStrat.value = safeModeStrat;
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ctrlValData.safeStrat.value = ctrlStrat;
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ctrlValData.safeStrat.setValid(true);
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ctrlValData.setValidity(true, false);
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}
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}
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void AcsController::updateCtrlValData(double errAng, uint8_t safeModeStrat) {
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void AcsController::updateCtrlValData(double errAng, acs::ControlModeStrategy ctrlStrat) {
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PoolReadGuard pg(&ctrlValData);
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if (pg.getReadResult() == returnvalue::OK) {
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std::memcpy(ctrlValData.tgtQuat.value, ZERO_VEC4, 4 * sizeof(double));
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@ -699,21 +702,22 @@ void AcsController::updateCtrlValData(double errAng, uint8_t safeModeStrat) {
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ctrlValData.errAng.setValid(true);
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std::memcpy(ctrlValData.tgtRotRate.value, ZERO_VEC3, 3 * sizeof(double));
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ctrlValData.tgtRotRate.setValid(false);
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ctrlValData.safeStrat.value = safeModeStrat;
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ctrlValData.safeStrat.value = ctrlStrat;
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ctrlValData.safeStrat.setValid(true);
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ctrlValData.setValidity(true, false);
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}
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}
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void AcsController::updateCtrlValData(const double *tgtQuat, const double *errQuat, double errAng,
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const double *tgtRotRate) {
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const double *tgtRotRate,
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acs::ControlModeStrategy ctrlStrat) {
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PoolReadGuard pg(&ctrlValData);
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if (pg.getReadResult() == returnvalue::OK) {
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std::memcpy(ctrlValData.tgtQuat.value, tgtQuat, 4 * sizeof(double));
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std::memcpy(ctrlValData.errQuat.value, errQuat, 4 * sizeof(double));
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ctrlValData.errAng.value = errAng;
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std::memcpy(ctrlValData.tgtRotRate.value, tgtRotRate, 3 * sizeof(double));
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ctrlValData.safeStrat.value = acs::ControlModeStrategy::CTRL_OFF;
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ctrlValData.safeStrat.value = ctrlStrat;
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ctrlValData.setValidity(true, true);
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}
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}
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@ -52,6 +52,7 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
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void performPointingCtrl();
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private:
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static constexpr int16_t ZERO_VEC3_INT16[3] = {0, 0, 0};
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static constexpr double ZERO_VEC3[3] = {0, 0, 0};
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static constexpr double ZERO_VEC4[4] = {0, 0, 0, 0};
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static constexpr double RW_OFF_TORQUE[4] = {0, 0, 0, 0};
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@ -143,10 +144,10 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
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void updateActuatorCmdData(const int16_t* mtqTargetDipole);
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void updateActuatorCmdData(const double* rwTargetTorque, const int32_t* rwTargetSpeed,
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const int16_t* mtqTargetDipole);
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void updateCtrlValData(uint8_t safeModeStrat);
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void updateCtrlValData(double errAng, uint8_t safeModeStrat);
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void updateCtrlValData(acs::ControlModeStrategy ctrlStrat);
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void updateCtrlValData(double errAng, acs::ControlModeStrategy ctrlStrat);
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void updateCtrlValData(const double* tgtQuat, const double* errQuat, double errAng,
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const double* tgtRotRate);
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const double* tgtRotRate, acs::ControlModeStrategy cStrat);
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ReturnValue_t updateTle(const uint8_t* line1, const uint8_t* line2, bool fromFile);
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ReturnValue_t writeTleToFs(const uint8_t* tle);
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@ -77,24 +77,22 @@ void AttitudeEstimation::quest(acsctrl::SusDataProcessed *susData,
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qBI[3] = (gamma + alpha) * (1 + VectorOperations<double>::dot(normHelperB, normHelperI));
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// Rotational Vector Part
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VectorOperations<double>::mulScalar(helperCross, gamma + alpha, qRotVecPt0, 3);
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VectorOperations<double>::add(normHelperB, normHelperI, qRotVecPt1, 3);
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VectorOperations<double>::mulScalar(qRotVecPt1, beta, qRotVecPt1, 3);
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VectorOperations<double>::mulScalar(helperSum, beta, qRotVecPt1, 3);
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VectorOperations<double>::add(qRotVecPt0, qRotVecPt1, qRotVecTot, 3);
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std::memcpy(qBI, qRotVecTot, sizeof(qRotVecTot));
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VectorOperations<double>::mulScalar(qBI, constPlus, qBI, 3);
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VectorOperations<double>::mulScalar(qBI, constPlus, qBI, 4);
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QuaternionOperations::normalize(qBI, qBI);
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} else {
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// Scalar Part
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qBI[3] = (beta) * (1 + VectorOperations<double>::dot(normHelperB, normHelperI));
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// Rotational Vector Part
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VectorOperations<double>::mulScalar(helperCross, beta, qRotVecPt0, 3);
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VectorOperations<double>::add(normHelperB, normHelperI, qRotVecPt1, 3);
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VectorOperations<double>::mulScalar(qRotVecPt1, gamma - alpha, qRotVecPt1, 3);
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VectorOperations<double>::mulScalar(helperSum, gamma - alpha, qRotVecPt1, 3);
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VectorOperations<double>::add(qRotVecPt0, qRotVecPt1, qRotVecTot, 3);
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std::memcpy(qBI, qRotVecTot, sizeof(qRotVecTot));
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VectorOperations<double>::mulScalar(qBI, constMinus, qBI, 3);
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VectorOperations<double>::mulScalar(qBI, constMinus, qBI, 4);
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QuaternionOperations::normalize(qBI, qBI);
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}
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// Low Pass
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@ -418,7 +418,9 @@ void Guidance::comparePtg(double currentQuat[4], double currentSatRotRate[3], do
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double targetSatRotRate[3], double refQuat[4], double refSatRotRate[3],
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double errorQuat[4], double errorSatRotRate[3], double &errorAngle) {
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// First calculate error quaternion between current and target orientation
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QuaternionOperations::multiply(currentQuat, targetQuat, errorQuat);
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double invTargetQuat[4] = {0, 0, 0, 0};
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QuaternionOperations::inverse(targetQuat, invTargetQuat);
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QuaternionOperations::multiply(currentQuat, invTargetQuat, errorQuat);
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// Last calculate add rotation from reference quaternion
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QuaternionOperations::multiply(refQuat, errorQuat, errorQuat);
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// Keep scalar part of quaternion positive
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@ -21,9 +21,8 @@ acs::ControlModeStrategy PtgCtrl::pointingCtrlStrategy(
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return acs::ControlModeStrategy::PTGCTRL_STR;
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} else if (questValid and fusedRateValid and rotRateSource > acs::rotrate::Source::SUSMGM) {
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return acs::ControlModeStrategy::PTGCTRL_QUEST;
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} else {
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return acs::ControlModeStrategy::CTRL_NO_SENSORS_FOR_CONTROL;
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}
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return acs::ControlModeStrategy::CTRL_NO_SENSORS_FOR_CONTROL;
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}
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void PtgCtrl::ptgLaw(AcsParameters::PointingLawParameters *pointingLawParameters,
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2
tmtc
2
tmtc
@ -1 +1 @@
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Subproject commit 747ad34eec5baa5199de49a1330687508c991550
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Subproject commit bcdd12caf05b6a874b0d3ac2b9436c4061545312
|
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