#include #include #include #include #include #include extern "C" { #include #include #include #include #include } #include #include #include #include "OBSWConfig.h" #include "eive/definitions.h" #include "fsfw/thermal/tcsDefinitions.h" std::atomic_bool JCFG_DONE(false); StarTrackerHandler::StarTrackerHandler(object_id_t objectId, object_id_t comIF, CookieIF* comCookie, const char* jsonFileStr, StrComHandler* strHelper, power::Switch_t powerSwitch) : DeviceHandlerBase(objectId, comIF, comCookie), temperatureSet(this), versionSet(this), powerSet(this), interfaceSet(this), timeSet(this), solutionSet(this), histogramSet(this), checksumSet(this), cameraSet(this), limitsSet(this), loglevelSet(this), mountingSet(this), imageProcessorSet(this), centroidingSet(this), lisaSet(this), matchingSet(this), trackingSet(this), validationSet(this), algoSet(this), subscriptionSet(this), logSubscriptionSet(this), debugCameraSet(this), autoBlobSet(this), matchedCentroidsSet(this), blobSet(this), blobsSet(this), centroidSet(this), centroidsSet(this), strHelper(strHelper), paramJsonFile(jsonFileStr), powerSwitch(powerSwitch) { if (comCookie == nullptr) { sif::error << "StarTrackerHandler: Invalid com cookie" << std::endl; } if (strHelper == nullptr) { sif::error << "StarTrackerHandler: Invalid str image loader" << std::endl; } eventQueue = QueueFactory::instance()->createMessageQueue(EventMessage::EVENT_MESSAGE_SIZE * 5); additionalRequestedTm.emplace(startracker::REQ_TEMPERATURE); currentSecondaryTmIter = additionalRequestedTm.begin(); } StarTrackerHandler::~StarTrackerHandler() {} void StarTrackerHandler::doStartUp() { switch (startupState) { case StartupState::IDLE: startupState = StartupState::CHECK_PROGRAM; return; case StartupState::BOOT_BOOTLOADER: // This step is required in case the star tracker is already in firmware mode to harmonize // the device handler's submode to the star tracker's mode return; case StartupState::DONE: if (jcfgCountdown.isBusy()) { startupState = StartupState::WAIT_JCFG; return; } startupState = StartupState::IDLE; break; case StartupState::WAIT_JCFG: { if (jcfgCountdown.hasTimedOut()) { startupState = StartupState::IDLE; break; } return; } default: return; } startupState = StartupState::DONE; internalState = InternalState::IDLE; setMode(_MODE_TO_ON); } void StarTrackerHandler::doShutDown() { // If the star tracker is shutdown also stop all running processes in the image loader task strHelper->stopProcess(); internalState = InternalState::IDLE; startupState = StartupState::IDLE; bootState = FwBootState::NONE; solutionSet.setReportingEnabled(false); { PoolReadGuard pg(&solutionSet); solutionSet.caliQw.value = 0.0; solutionSet.caliQx.value = 0.0; solutionSet.caliQy.value = 0.0; solutionSet.caliQz.value = 0.0; solutionSet.isTrustWorthy.value = 0; solutionSet.setValidity(false, true); } { PoolReadGuard pg(&temperatureSet); temperatureSet.fpgaTemperature = thermal::INVALID_TEMPERATURE; temperatureSet.cmosTemperature = thermal::INVALID_TEMPERATURE; temperatureSet.mcuTemperature = thermal::INVALID_TEMPERATURE; temperatureSet.setValidity(false, true); } reinitNextSetParam = false; setMode(_MODE_POWER_DOWN); } ReturnValue_t StarTrackerHandler::initialize() { ReturnValue_t result = returnvalue::OK; result = DeviceHandlerBase::initialize(); if (result != returnvalue::OK) { return result; } // Spin up a thread to do the JSON initialization, takes 200-250 ms which would // delay whole satellite boot process. jcfgCountdown.resetTimer(); jsonCfgTask = std::thread{setUpJsonCfgs, std::ref(jcfgs), paramJsonFile.c_str()}; EventManagerIF* manager = ObjectManager::instance()->get(objects::EVENT_MANAGER); if (manager == nullptr) { #if FSFW_CPP_OSTREAM_ENABLED == 1 sif::error << "StarTrackerHandler::initialize: Invalid event manager" << std::endl; #endif return ObjectManagerIF::CHILD_INIT_FAILED; ; } result = manager->registerListener(eventQueue->getId()); if (result != returnvalue::OK) { return result; } result = manager->subscribeToEventRange(eventQueue->getId(), event::getEventId(StrComHandler::IMAGE_UPLOAD_FAILED), event::getEventId(StrComHandler::FIRMWARE_UPDATE_FAILED)); if (result != returnvalue::OK) { #if FSFW_CPP_OSTREAM_ENABLED == 1 sif::warning << "StarTrackerHandler::initialize: Failed to subscribe to events from " " str helper" << std::endl; #endif return ObjectManagerIF::CHILD_INIT_FAILED; } return returnvalue::OK; } ReturnValue_t StarTrackerHandler::executeAction(ActionId_t actionId, MessageQueueId_t commandedBy, const uint8_t* data, size_t size) { ReturnValue_t result = returnvalue::OK; switch (actionId) { case (startracker::ADD_SECONDARY_TM_TO_NORMAL_MODE): { if (size < 4) { return HasActionsIF::INVALID_PARAMETERS; } DeviceCommandId_t idToAdd; result = SerializeAdapter::deSerialize(&idToAdd, data, &size, SerializeIF::Endianness::NETWORK); if (result != returnvalue::OK) { return result; } addSecondaryTmForNormalMode(idToAdd); return EXECUTION_FINISHED; } case (startracker::RESET_SECONDARY_TM_SET): { resetSecondaryTmSet(); return EXECUTION_FINISHED; } case (startracker::READ_SECONDARY_TM_SET): { std::vector dataVec(additionalRequestedTm.size() * 4); unsigned idx = 0; size_t serLen = 0; for (const auto& cmd : additionalRequestedTm) { SerializeAdapter::serialize(&cmd, dataVec.data() + idx * 4, &serLen, dataVec.size(), SerializeIF::Endianness::NETWORK); idx++; } actionHelper.reportData(commandedBy, actionId, dataVec.data(), dataVec.size()); return EXECUTION_FINISHED; } case (startracker::STOP_IMAGE_LOADER): { strHelper->stopProcess(); return EXECUTION_FINISHED; } case (startracker::SET_JSON_FILE_NAME): { if (size > config::MAX_PATH_SIZE) { return FILE_PATH_TOO_LONG; } paramJsonFile = std::string(reinterpret_cast(data), size); return EXECUTION_FINISHED; } case (startracker::DISABLE_TIMESTAMP_GENERATION): strHelper->disableTimestamping(); return EXECUTION_FINISHED; case (startracker::ENABLE_TIMESTAMP_GENERATION): strHelper->enableTimestamping(); return EXECUTION_FINISHED; default: break; } if (strHelperHandlingSpecialRequest == true) { return STR_HELPER_EXECUTING; } result = checkMode(actionId); if (result != returnvalue::OK) { return result; } result = checkCommand(actionId); if (result != returnvalue::OK) { return result; } // Intercept image loader commands which do not follow the common DHB communication flow switch (actionId) { case (startracker::UPLOAD_IMAGE): { result = DeviceHandlerBase::acceptExternalDeviceCommands(); if (result != returnvalue::OK) { return result; } if (size > config::MAX_PATH_SIZE + config::MAX_FILENAME_SIZE) { return FILE_PATH_TOO_LONG; } result = strHelper->startImageUpload(std::string(reinterpret_cast(data), size)); if (result != returnvalue::OK) { return result; } strHelperHandlingSpecialRequest = true; return EXECUTION_FINISHED; } case (startracker::DOWNLOAD_IMAGE): { result = DeviceHandlerBase::acceptExternalDeviceCommands(); if (result != returnvalue::OK) { return result; } if (size > config::MAX_PATH_SIZE) { return FILE_PATH_TOO_LONG; } result = strHelper->startImageDownload(std::string(reinterpret_cast(data), size)); if (result != returnvalue::OK) { return result; } strHelperHandlingSpecialRequest = true; return EXECUTION_FINISHED; } case (startracker::FLASH_READ): { result = DeviceHandlerBase::acceptExternalDeviceCommands(); if (result != returnvalue::OK) { return result; } result = executeFlashReadCommand(data, size); if (result != returnvalue::OK) { return result; } strHelperHandlingSpecialRequest = true; return EXECUTION_FINISHED; } case (startracker::CHANGE_IMAGE_DOWNLOAD_FILE): { if (size > config::MAX_FILENAME_SIZE) { return FILENAME_TOO_LONG; } strHelper->setDownloadImageName(std::string(reinterpret_cast(data), size)); return EXECUTION_FINISHED; } case (startracker::SET_FLASH_READ_FILENAME): { if (size > config::MAX_FILENAME_SIZE) { return FILENAME_TOO_LONG; } strHelper->setFlashReadFilename(std::string(reinterpret_cast(data), size)); return EXECUTION_FINISHED; } case (startracker::FIRMWARE_UPDATE): { result = DeviceHandlerBase::acceptExternalDeviceCommands(); if (result != returnvalue::OK) { return result; } if (size > config::MAX_PATH_SIZE + config::MAX_FILENAME_SIZE) { return FILE_PATH_TOO_LONG; } result = strHelper->startFirmwareUpdate(std::string(reinterpret_cast(data), size)); if (result != returnvalue::OK) { return result; } strHelperHandlingSpecialRequest = true; return EXECUTION_FINISHED; } default: break; } // In case the JSON has changed, reinitiate the next parameter set to update. reinitNextSetParam = true; return DeviceHandlerBase::executeAction(actionId, commandedBy, data, size); } void StarTrackerHandler::performOperationHook() { EventMessage event; for (ReturnValue_t result = eventQueue->receiveMessage(&event); result == returnvalue::OK; result = eventQueue->receiveMessage(&event)) { switch (event.getMessageId()) { case EventMessage::EVENT_MESSAGE: handleEvent(&event); break; default: sif::debug << "CCSDSHandler::checkEvents: Did not subscribe to this event message" << std::endl; break; } } } Submode_t StarTrackerHandler::getInitialSubmode() { return startracker::SUBMODE_BOOTLOADER; } ReturnValue_t StarTrackerHandler::buildNormalDeviceCommand(DeviceCommandId_t* id) { if (strHelperHandlingSpecialRequest) { return NOTHING_TO_SEND; } switch (normalState) { case NormalState::SECONDARY_REQUEST: if (additionalRequestedTm.size() == 0) { break; } *id = *currentSecondaryTmIter; currentSecondaryTmIter++; if (currentSecondaryTmIter == additionalRequestedTm.end()) { currentSecondaryTmIter = additionalRequestedTm.begin(); } normalState = NormalState::SOLUTION_REQUEST; break; case NormalState::SOLUTION_REQUEST: *id = startracker::REQ_SOLUTION; normalState = NormalState::SECONDARY_REQUEST; break; default: sif::debug << "StarTrackerHandler::buildNormalDeviceCommand: Invalid normal step" << std::endl; return NOTHING_TO_SEND; } return buildCommandFromCommand(*id, NULL, 0); } ReturnValue_t StarTrackerHandler::buildTransitionDeviceCommand(DeviceCommandId_t* id) { switch (internalState) { case InternalState::BOOT_FIRMWARE: { if (bootState == FwBootState::VERIFY_BOOT or isAwaitingReply()) { return NOTHING_TO_SEND; } if (bootState == FwBootState::NONE) { *id = startracker::BOOT; bootCountdown.setTimeout(BOOT_TIMEOUT); bootState = FwBootState::BOOT_DELAY; return buildCommandFromCommand(*id, nullptr, 0); } if (bootState == FwBootState::BOOT_DELAY) { if (bootCountdown.isBusy()) { return NOTHING_TO_SEND; } // Was already done. reinitNextSetParam = false; bootState = FwBootState::REQ_VERSION; } switch (bootState) { case (FwBootState::REQ_VERSION): { bootState = FwBootState::VERIFY_BOOT; // Again read program to check if firmware boot was successful *id = startracker::REQ_VERSION; return buildCommandFromCommand(*id, nullptr, 0); } case (FwBootState::SET_TIME): { *id = startracker::SET_TIME_FROM_SYS_TIME; return buildCommandFromCommand(*id, nullptr, 0); } case (FwBootState::LOGLEVEL): { *id = startracker::LOGLEVEL; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); } case (FwBootState::LIMITS): { *id = startracker::LIMITS; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); } case (FwBootState::TRACKING): { *id = startracker::TRACKING; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); } case FwBootState::MOUNTING: *id = startracker::MOUNTING; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); case FwBootState::IMAGE_PROCESSOR: *id = startracker::IMAGE_PROCESSOR; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); case FwBootState::CAMERA: *id = startracker::CAMERA; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); case FwBootState::CENTROIDING: *id = startracker::CENTROIDING; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); case FwBootState::LISA: *id = startracker::LISA; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); case FwBootState::MATCHING: *id = startracker::MATCHING; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); case FwBootState::VALIDATION: *id = startracker::VALIDATION; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); case FwBootState::ALGO: *id = startracker::ALGO; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); case FwBootState::LOG_SUBSCRIPTION: *id = startracker::LOGSUBSCRIPTION; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); case FwBootState::DEBUG_CAMERA: *id = startracker::DEBUG_CAMERA; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); case FwBootState::AUTO_THRESHOLD: *id = startracker::AUTO_THRESHOLD; return buildCommandFromCommand( *id, reinterpret_cast(paramJsonFile.c_str()), paramJsonFile.size()); default: { sif::error << "STR: Unexpected boot state" << (int)bootState << std::endl; return NOTHING_TO_SEND; } } } case InternalState::BOOT_BOOTLOADER: internalState = InternalState::BOOTLOADER_CHECK; *id = startracker::SWITCH_TO_BOOTLOADER_PROGRAM; return buildCommandFromCommand(*id, nullptr, 0); case InternalState::BOOTLOADER_CHECK: *id = startracker::REQ_VERSION; return buildCommandFromCommand(*id, nullptr, 0); default: break; } switch (startupState) { case StartupState::CHECK_PROGRAM: startupState = StartupState::WAIT_CHECK_PROGRAM; *id = startracker::REQ_VERSION; return buildCommandFromCommand(*id, nullptr, 0); break; case StartupState::BOOT_BOOTLOADER: startupState = StartupState::CHECK_PROGRAM; *id = startracker::SWITCH_TO_BOOTLOADER_PROGRAM; return buildCommandFromCommand(*id, nullptr, 0); break; default: break; } return NOTHING_TO_SEND; } ReturnValue_t StarTrackerHandler::buildCommandFromCommand(DeviceCommandId_t deviceCommand, const uint8_t* commandData, size_t commandDataLen) { ReturnValue_t result = returnvalue::OK; switch (deviceCommand) { case (startracker::PING_REQUEST): { preparePingRequest(); return returnvalue::OK; } case (startracker::SET_TIME_FROM_SYS_TIME): { SetTimeActionRequest setTimeRequest{}; timeval tv; Clock::getClock(&tv); setTimeRequest.unixTime = (static_cast(tv.tv_sec) * 1000 * 1000) + (static_cast(tv.tv_usec)); arc_pack_settime_action_req(&setTimeRequest, commandBuffer, &rawPacketLen); size_t serLen = 0; // Time in milliseconds. Manual serialization because arcsec API ignores endianness. SerializeAdapter::serialize(&setTimeRequest.unixTime, commandBuffer + 2, &serLen, sizeof(commandBuffer) - 2, SerializeIF::Endianness::LITTLE); rawPacket = commandBuffer; return returnvalue::OK; } case (startracker::REQ_TIME): { prepareTimeRequest(); return returnvalue::OK; } case (startracker::REQ_CENTROID): { prepareRequestCentroidTm(); return returnvalue::OK; } case (startracker::REQ_CENTROIDS): { prepareRequestCentroidsTm(); return returnvalue::OK; } case (startracker::BOOT): { prepareBootCommand(); return returnvalue::OK; } case (startracker::REQ_VERSION): { prepareVersionRequest(); return returnvalue::OK; } case (startracker::REQ_INTERFACE): { prepareInterfaceRequest(); return returnvalue::OK; } case (startracker::REQ_POWER): { preparePowerRequest(); return returnvalue::OK; } case (startracker::SWITCH_TO_BOOTLOADER_PROGRAM): { prepareSwitchToBootloaderCmd(); return returnvalue::OK; } case (startracker::TAKE_IMAGE): { prepareTakeImageCommand(commandData); return returnvalue::OK; } case (startracker::SUBSCRIPTION): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.subscription, reinitNextSetParam); return returnvalue::OK; } case (startracker::REQ_SOLUTION): { prepareSolutionRequest(); return returnvalue::OK; } case (startracker::REQ_TEMPERATURE): { prepareTemperatureRequest(); return returnvalue::OK; } case (startracker::REQ_HISTOGRAM): { prepareHistogramRequest(); return returnvalue::OK; } case (startracker::LIMITS): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.limits, reinitNextSetParam); return result; } case (startracker::MOUNTING): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.mounting, reinitNextSetParam); return result; } case (startracker::IMAGE_PROCESSOR): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.imageProcessor, reinitNextSetParam); return result; } case (startracker::CAMERA): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.camera, reinitNextSetParam); return result; } case (startracker::CENTROIDING): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.centroiding, reinitNextSetParam); return result; } case (startracker::LISA): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.lisa, reinitNextSetParam); return result; } case (startracker::MATCHING): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.matching, reinitNextSetParam); return result; } case (startracker::VALIDATION): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.validation, reinitNextSetParam); return result; } case (startracker::ALGO): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.algo, reinitNextSetParam); return result; } case (startracker::TRACKING): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.tracking, reinitNextSetParam); return result; } case (startracker::LOGLEVEL): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.logLevel, reinitNextSetParam); return result; } case (startracker::AUTO_THRESHOLD): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.autoThreshold, reinitNextSetParam); return result; } case (startracker::LOGSUBSCRIPTION): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.logSubscription, reinitNextSetParam); return result; } case (startracker::DEBUG_CAMERA): { result = prepareParamCommand(commandData, commandDataLen, jcfgs.debugCamera, reinitNextSetParam); return result; } case (startracker::CHECKSUM): { result = prepareChecksumCommand(commandData, commandDataLen); return result; } case (startracker::REQ_CAMERA): { result = prepareRequestCameraParams(); return result; } case (startracker::REQ_LIMITS): { result = prepareRequestLimitsParams(); return result; } case (startracker::REQ_LOG_LEVEL): { result = prepareRequestLogLevelParams(); return result; } case (startracker::REQ_MOUNTING): { result = prepareRequestMountingParams(); return result; } case (startracker::REQ_IMAGE_PROCESSOR): { result = prepareRequestImageProcessorParams(); return result; } case (startracker::REQ_CENTROIDING): { result = prepareRequestCentroidingParams(); return result; } case (startracker::REQ_LISA): { result = prepareRequestLisaParams(); return result; } case (startracker::REQ_MATCHED_CENTROIDS): { result = prepareRequestMatchedCentroidsTm(); return result; } case (startracker::REQ_BLOB): { result = prepareRequestBlobTm(); return result; } case (startracker::REQ_BLOBS): { result = prepareRequestBlobsTm(); return result; } case(startracker::REQ_AUTO_BLOB): { result = prepareRequestAutoBlobTm(); return returnvalue::OK; } case (startracker::REQ_MATCHING): { result = prepareRequestMatchingParams(); return result; } case (startracker::REQ_TRACKING): { result = prepareRequestTrackingParams(); return result; } case (startracker::REQ_VALIDATION): { result = prepareRequestValidationParams(); return result; } case (startracker::REQ_ALGO): { result = prepareRequestAlgoParams(); return result; } case (startracker::REQ_SUBSCRIPTION): { result = prepareRequestSubscriptionParams(); return result; } case (startracker::REQ_LOG_SUBSCRIPTION): { result = prepareRequestLogSubscriptionParams(); return result; } case (startracker::REQ_DEBUG_CAMERA): { result = prepareRequestDebugCameraParams(); return result; } default: return DeviceHandlerIF::COMMAND_NOT_IMPLEMENTED; } return returnvalue::FAILED; } void StarTrackerHandler::fillCommandAndReplyMap() { /** Reply lengths are unknown because of the slip encoding. Thus always maximum reply size * is specified */ this->insertInCommandAndReplyMap(startracker::PING_REQUEST, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandMap(startracker::BOOT); this->insertInCommandAndReplyMap(startracker::REQ_VERSION, 3, &versionSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_TIME, 3, &timeSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandMap(startracker::UPLOAD_IMAGE); this->insertInCommandMap(startracker::DOWNLOAD_IMAGE); this->insertInCommandAndReplyMap(startracker::REQ_POWER, 3, &powerSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_INTERFACE, 3, &interfaceSet, startracker::MAX_FRAME_SIZE * 2 + 2); // Reboot has no reply. Star tracker reboots immediately this->insertInCommandMap(startracker::SWITCH_TO_BOOTLOADER_PROGRAM); this->insertInCommandAndReplyMap(startracker::SUBSCRIPTION, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_SOLUTION, 3, &solutionSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_TEMPERATURE, 3, &temperatureSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_HISTOGRAM, 3, &histogramSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::LOGLEVEL, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::SET_TIME_FROM_SYS_TIME, 2, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::LOGSUBSCRIPTION, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::DEBUG_CAMERA, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::LIMITS, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::AUTO_THRESHOLD, 2, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::MOUNTING, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::IMAGE_PROCESSOR, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::CAMERA, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::CENTROIDING, 2, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::LISA, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::MATCHING, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::TRACKING, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::VALIDATION, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::ALGO, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::TAKE_IMAGE, 3, nullptr, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::CHECKSUM, 3, &checksumSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_CAMERA, 3, &cameraSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_LIMITS, 3, &limitsSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_LOG_LEVEL, 3, &loglevelSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_MOUNTING, 3, &mountingSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_IMAGE_PROCESSOR, 3, &imageProcessorSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_CENTROIDING, 3, ¢roidingSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_LISA, 3, &lisaSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_MATCHING, 3, &matchingSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_TRACKING, 3, &trackingSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_VALIDATION, 3, &validationSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_ALGO, 3, &algoSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_SUBSCRIPTION, 3, &subscriptionSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_LOG_SUBSCRIPTION, 3, &logSubscriptionSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_DEBUG_CAMERA, 3, &debugCameraSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_AUTO_BLOB, 3, &autoBlobSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_MATCHED_CENTROIDS, 3, &matchedCentroidsSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_BLOB, 3, &blobSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_BLOBS, 3, &blobsSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_CENTROID, 3, ¢roidSet, startracker::MAX_FRAME_SIZE * 2 + 2); this->insertInCommandAndReplyMap(startracker::REQ_CENTROIDS, 3, ¢roidsSet, startracker::MAX_FRAME_SIZE * 2 + 2); } ReturnValue_t StarTrackerHandler::isModeCombinationValid(Mode_t mode, Submode_t submode) { if (getMode() == MODE_NORMAL && mode == MODE_ON) { return TRANS_NOT_ALLOWED; } switch (mode) { case MODE_OFF: case MODE_NORMAL: case MODE_RAW: if (submode == SUBMODE_NONE) { return returnvalue::OK; } else { return INVALID_SUBMODE; } case MODE_ON: if (submode == startracker::SUBMODE_BOOTLOADER || submode == startracker::SUBMODE_FIRMWARE) { return returnvalue::OK; } else { return INVALID_SUBMODE; } default: return HasModesIF::INVALID_MODE; } } void StarTrackerHandler::doTransition(Mode_t modeFrom, Submode_t subModeFrom) { switch (getMode()) { case _MODE_TO_ON: doOnTransition(subModeFrom); break; case _MODE_TO_RAW: setMode(MODE_RAW); break; case _MODE_TO_NORMAL: doNormalTransition(modeFrom, subModeFrom); break; case _MODE_POWER_DOWN: internalState = InternalState::IDLE; startupState = StartupState::IDLE; break; default: break; } } void StarTrackerHandler::doOnTransition(Submode_t subModeFrom) { using namespace startracker; uint8_t dhbSubmode = getSubmode(); // We hide that the transition to submode firmware actually goes through the submode bootloader. // This is because the startracker always starts in bootloader mode but we want to allow direct // transitions to firmware mode. if (startupState == StartupState::DONE) { subModeFrom = SUBMODE_BOOTLOADER; } if (dhbSubmode == SUBMODE_NONE) { bootFirmware(MODE_ON); } if (dhbSubmode == SUBMODE_BOOTLOADER && subModeFrom == SUBMODE_FIRMWARE) { bootBootloader(); } else if (dhbSubmode == SUBMODE_FIRMWARE && subModeFrom == SUBMODE_FIRMWARE) { setMode(MODE_ON); } else if (dhbSubmode == SUBMODE_FIRMWARE && subModeFrom == SUBMODE_BOOTLOADER) { bootFirmware(MODE_ON); } else if (dhbSubmode == SUBMODE_BOOTLOADER && subModeFrom == SUBMODE_BOOTLOADER) { setMode(MODE_ON); } else if (dhbSubmode == SUBMODE_BOOTLOADER && subModeFrom == SUBMODE_NONE) { setMode(MODE_ON); } else if (dhbSubmode == SUBMODE_FIRMWARE && subModeFrom == SUBMODE_NONE) { setMode(MODE_ON); } } void StarTrackerHandler::doNormalTransition(Mode_t modeFrom, Submode_t subModeFrom) { using namespace startracker; if (subModeFrom == SUBMODE_FIRMWARE) { setMode(MODE_NORMAL); } else if (subModeFrom == SUBMODE_BOOTLOADER) { bootFirmware(MODE_NORMAL); } else if (modeFrom == MODE_NORMAL && subModeFrom == SUBMODE_NONE) { // Device handler already in mode normal setMode(MODE_NORMAL); } } void StarTrackerHandler::bootFirmware(Mode_t toMode) { switch (internalState) { case InternalState::IDLE: sif::info << "STR: Booting to firmware mode" << std::endl; internalState = InternalState::BOOT_FIRMWARE; break; case InternalState::BOOT_FIRMWARE: break; case InternalState::FAILED_FIRMWARE_BOOT: internalState = InternalState::IDLE; break; case InternalState::DONE: if (toMode == MODE_NORMAL) { setMode(toMode, 0); } else { setMode(toMode, startracker::SUBMODE_FIRMWARE); } sif::info << "STR: Firmware boot success" << std::endl; solutionSet.setReportingEnabled(true); internalState = InternalState::IDLE; startupState = StartupState::IDLE; break; default: return; } } void StarTrackerHandler::setUpJsonCfgs(JsonConfigs& cfgs, const char* paramJsonFile) { cfgs.tracking.init(paramJsonFile); cfgs.logLevel.init(paramJsonFile); cfgs.logSubscription.init(paramJsonFile); cfgs.debugCamera.init(paramJsonFile); cfgs.algo.init(paramJsonFile); cfgs.validation.init(paramJsonFile); cfgs.matching.init(paramJsonFile); cfgs.lisa.init(paramJsonFile); cfgs.centroiding.init(paramJsonFile); cfgs.camera.init(paramJsonFile); cfgs.imageProcessor.init(paramJsonFile); cfgs.mounting.init(paramJsonFile); cfgs.limits.init(paramJsonFile); cfgs.subscription.init(paramJsonFile); cfgs.autoThreshold.init(paramJsonFile); JCFG_DONE = true; } ReturnValue_t StarTrackerHandler::statusFieldCheck(const uint8_t* rawFrame) { uint8_t status = startracker::getStatusField(rawFrame); if (status != startracker::STATUS_OK) { sif::warning << "StarTrackerHandler::handleTm: Reply error: " << static_cast(status) << std::endl; return REPLY_ERROR; } return returnvalue::OK; } void StarTrackerHandler::addSecondaryTmForNormalMode(DeviceCommandId_t cmd) { additionalRequestedTm.emplace(cmd); } void StarTrackerHandler::resetSecondaryTmSet() { additionalRequestedTm.clear(); additionalRequestedTm.emplace(startracker::REQ_TEMPERATURE); currentSecondaryTmIter = additionalRequestedTm.begin(); { PoolReadGuard pg(&autoBlobSet); if (pg.getReadResult() == returnvalue::OK) { autoBlobSet.setValidity(false, true); } } { PoolReadGuard pg(&matchedCentroidsSet); if (pg.getReadResult() == returnvalue::OK) { matchedCentroidsSet.setValidity(false, true); } } { PoolReadGuard pg(&blobSet); if (pg.getReadResult() == returnvalue::OK) { blobSet.setValidity(false, true); } } { PoolReadGuard pg(&blobsSet); if (pg.getReadResult() == returnvalue::OK) { blobsSet.setValidity(false, true); } } { PoolReadGuard pg(¢roidSet); if (pg.getReadResult() == returnvalue::OK) { centroidSet.setValidity(false, true); } } { PoolReadGuard pg(¢roidsSet); if (pg.getReadResult() == returnvalue::OK) { centroidsSet.setValidity(false, true); } } } void StarTrackerHandler::bootBootloader() { if (internalState == InternalState::IDLE) { internalState = InternalState::BOOT_BOOTLOADER; } else if (internalState == InternalState::FAILED_BOOTLOADER_BOOT) { internalState = InternalState::IDLE; } else if (internalState == InternalState::DONE) { internalState = InternalState::IDLE; startupState = StartupState::IDLE; setMode(MODE_ON); } } ReturnValue_t StarTrackerHandler::scanForReply(const uint8_t* start, size_t remainingSize, DeviceCommandId_t* foundId, size_t* foundLen) { ReturnValue_t result = returnvalue::OK; if (remainingSize == 0) { *foundLen = remainingSize; return returnvalue::OK; } if (remainingSize < 2) { sif::error << "StarTrackerHandler: Reply packet with length " << remainingSize << " less than " "2 is invalid" << std::endl; return returnvalue::FAILED; } switch (startracker::getReplyFrameType(start)) { case TMTC_COMM_ERROR: { *foundLen = remainingSize; triggerEvent(COM_ERROR_REPLY_RECEIVED, start[1]); break; } case TMTC_ACTIONREPLY: { *foundLen = remainingSize; fullPacketLen = remainingSize; return scanForActionReply(startracker::getId(start), foundId); } case TMTC_SETPARAMREPLY: { *foundLen = remainingSize; fullPacketLen = remainingSize; return scanForSetParameterReply(startracker::getId(start), foundId); } case TMTC_PARAMREPLY: { *foundLen = remainingSize; fullPacketLen = remainingSize; return scanForGetParameterReply(startracker::getId(start), foundId); } case TMTC_TELEMETRYREPLYA: case TMTC_TELEMETRYREPLY: { *foundLen = remainingSize; fullPacketLen = remainingSize; return scanForTmReply(startracker::getId(start), foundId); } default: { sif::debug << "StarTrackerHandler::scanForReply: Reply has invalid type id" << std::endl; result = returnvalue::FAILED; } } return result; } ReturnValue_t StarTrackerHandler::interpretDeviceReply(DeviceCommandId_t id, const uint8_t* packet) { ReturnValue_t result = returnvalue::OK; switch (id) { case (startracker::SET_TIME_FROM_SYS_TIME): { result = handleActionReply(packet); break; } case (startracker::REQ_TIME): { result = handleTm(packet, timeSet, startracker::TimeSet::SIZE, "REQ_TIME"); break; } case (startracker::PING_REQUEST): { result = handlePingReply(packet); break; } case (startracker::BOOT): case (startracker::TAKE_IMAGE): break; case (startracker::CHECKSUM): { result = handleChecksumReply(packet); break; } case (startracker::REQ_VERSION): { result = handleTm(packet, versionSet, startracker::VersionSet::SIZE, "REQ_VERSION"); if (result != returnvalue::OK) { return result; } result = checkProgram(); if (result != returnvalue::OK) { return result; } break; } case (startracker::REQ_INTERFACE): { result = handleTm(packet, interfaceSet, startracker::InterfaceSet::SIZE, "REQ_INTERFACE"); break; } case (startracker::REQ_POWER): { result = handleTm(packet, powerSet, startracker::PowerSet::SIZE, "REQ_POWER"); break; } case (startracker::REQ_SOLUTION): { result = handleTm(packet, solutionSet, startracker::SolutionSet::SIZE, "REQ_SOLUTION"); break; } case (startracker::REQ_AUTO_BLOB): { result = handleAutoBlobTm(packet); break; } case (startracker::REQ_MATCHED_CENTROIDS): { result = handleMatchedCentroidTm(packet); break; } case (startracker::REQ_BLOB): { result = handleBlobTm(packet); break; } case (startracker::REQ_BLOBS): { result = handleBlobsTm(packet); break; } case (startracker::REQ_CENTROID): { result = handleCentroidTm(packet); break; } case (startracker::REQ_CENTROIDS): { result = handleCentroidsTm(packet); break; } case (startracker::REQ_TEMPERATURE): { result = handleTm(packet, temperatureSet, startracker::TemperatureSet::SIZE, "REQ_TEMP"); break; } case (startracker::REQ_HISTOGRAM): { result = handleTm(packet, histogramSet, startracker::HistogramSet::SIZE, "REQ_HISTO"); break; } case (startracker::SUBSCRIPTION): case (startracker::LOGLEVEL): case (startracker::LOGSUBSCRIPTION): case (startracker::DEBUG_CAMERA): case (startracker::LIMITS): case (startracker::MOUNTING): case (startracker::CAMERA): case (startracker::CENTROIDING): case (startracker::LISA): case (startracker::MATCHING): case (startracker::TRACKING): case (startracker::VALIDATION): case (startracker::IMAGE_PROCESSOR): case (startracker::ALGO): case (startracker::AUTO_THRESHOLD): { result = handleSetParamReply(packet); break; } case (startracker::REQ_CAMERA): { handleParamRequest(packet, cameraSet, startracker::CameraSet::SIZE); break; } case (startracker::REQ_LIMITS): { handleParamRequest(packet, limitsSet, startracker::LimitsSet::SIZE); break; } case (startracker::REQ_LOG_LEVEL): { handleParamRequest(packet, loglevelSet, startracker::LogLevelSet::SIZE); break; } case (startracker::REQ_MOUNTING): { handleParamRequest(packet, mountingSet, startracker::MountingSet::SIZE); break; } case (startracker::REQ_IMAGE_PROCESSOR): { handleParamRequest(packet, imageProcessorSet, startracker::ImageProcessorSet::SIZE); break; } case (startracker::REQ_CENTROIDING): { handleParamRequest(packet, centroidingSet, startracker::CentroidingSet::SIZE); break; } case (startracker::REQ_LISA): { handleParamRequest(packet, lisaSet, startracker::LisaSet::SIZE); break; } case (startracker::REQ_MATCHING): { handleParamRequest(packet, matchingSet, startracker::MatchingSet::SIZE); break; } case (startracker::REQ_TRACKING): { handleParamRequest(packet, trackingSet, startracker::TrackingSet::SIZE); break; } case (startracker::REQ_VALIDATION): { handleParamRequest(packet, validationSet, startracker::ValidationSet::SIZE); break; } case (startracker::REQ_ALGO): { handleParamRequest(packet, algoSet, startracker::AlgoSet::SIZE); break; } case (startracker::REQ_SUBSCRIPTION): { handleParamRequest(packet, subscriptionSet, startracker::SubscriptionSet::SIZE); break; } case (startracker::REQ_LOG_SUBSCRIPTION): { handleParamRequest(packet, logSubscriptionSet, startracker::LogSubscriptionSet::SIZE); break; } case (startracker::REQ_DEBUG_CAMERA): { handleParamRequest(packet, debugCameraSet, startracker::DebugCameraSet::SIZE); break; } default: { sif::debug << "StarTrackerHandler::interpretDeviceReply: Unknown device reply id:" << id << std::endl; result = DeviceHandlerIF::UNKNOWN_DEVICE_REPLY; } } return result; } void StarTrackerHandler::setNormalDatapoolEntriesInvalid() {} uint32_t StarTrackerHandler::getTransitionDelayMs(Mode_t modeFrom, Mode_t modeTo) { return DEFAULT_TRANSITION_DELAY; } ReturnValue_t StarTrackerHandler::initializeLocalDataPool(localpool::DataPool& localDataPoolMap, LocalDataPoolManager& poolManager) { localDataPoolMap.emplace(startracker::TICKS_TIME_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TIME_TIME_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::RUN_TIME, new PoolEntry({0})); localDataPoolMap.emplace(startracker::UNIX_TIME, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TICKS_VERSION_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TIME_VERSION_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::PROGRAM, new PoolEntry({0})); localDataPoolMap.emplace(startracker::MAJOR, new PoolEntry({0})); localDataPoolMap.emplace(startracker::MINOR, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TICKS_INTERFACE_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TIME_INTERFACE_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::FRAME_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CHECKSUM_ERROR_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SET_PARAM_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SET_PARAM_REPLY_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::PARAM_REQUEST_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::PARAM_REPLY_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::REQ_TM_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TM_REPLY_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::ACTION_REQ_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::ACTION_REPLY_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TICKS_POWER_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TIME_POWER_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::MCU_CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::MCU_VOLTAGE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::FPGA_CORE_CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::FPGA_CORE_VOLTAGE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::FPGA_18_CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::FPGA_18_VOLTAGE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::FPGA_25_CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::FPGA_25_VOLTAGE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CMV_21_CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CMV_21_VOLTAGE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CMV_PIX_CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CMV_PIX_VOLTAGE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CMV_33_CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CMV_33_VOLTAGE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CMV_RES_CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CMV_RES_VOLTAGE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TICKS_TEMPERATURE_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TIME_TEMPERATURE_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::MCU_TEMPERATURE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CMOS_TEMPERATURE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::FPGA_TEMPERATURE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TICKS_SOLUTION_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TIME_SOLUTION_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CALI_QW, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CALI_QX, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CALI_QY, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CALI_QZ, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TRACK_CONFIDENCE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TRACK_QW, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TRACK_QX, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TRACK_QY, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TRACK_QZ, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TRACK_REMOVED, new PoolEntry({0})); localDataPoolMap.emplace(startracker::STARS_CENTROIDED, new PoolEntry({0})); localDataPoolMap.emplace(startracker::STARS_MATCHED_DATABASE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_QW, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_QX, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_QY, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_QZ, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_PERC_CLOSE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_NR_CLOSE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::STR_MODE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TRUST_WORTHY, new PoolEntry({0})); localDataPoolMap.emplace(startracker::STABLE_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SOLUTION_STRATEGY, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TICKS_HISTOGRAM_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TIME_HISTOGRAM_SET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINA0, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINA1, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINA2, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINA3, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINA4, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINA5, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINA6, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINA7, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINA8, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINB0, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINB1, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINB2, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINB3, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINB4, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINB5, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINB6, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINB7, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINB8, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINC0, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINC1, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINC2, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINC3, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINC4, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINC5, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINC6, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINC7, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BINC8, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BIND0, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BIND1, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BIND2, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BIND3, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BIND4, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BIND5, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BIND6, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BIND7, new PoolEntry({0})); localDataPoolMap.emplace(startracker::HISTOGRAM_BIND8, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAMERA_MODE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::FOCALLENGTH, new PoolEntry({0})); localDataPoolMap.emplace(startracker::EXPOSURE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::INTERVAL, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAMERA_OFFSET, new PoolEntry({0})); localDataPoolMap.emplace(startracker::PGAGAIN, new PoolEntry({0})); localDataPoolMap.emplace(startracker::ADCGAIN, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_REG1, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_VAL1, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_REG2, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_VAL2, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_REG3, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_VAL3, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_REG4, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_VAL4, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_REG5, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_VAL5, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_REG6, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_VAL6, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_REG7, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_VAL7, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_REG8, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_VAL8, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CAM_FREQ_1, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LIMITS_ACTION, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LIMITS_FPGA18CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LIMITS_FPGA25CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LIMITS_FPGA10CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LIMITS_MCUCURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LIMITS_CMOS21CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LIMITS_CMOSPIXCURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LIMITS_CMOS33CURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LIMITS_CMOSVRESCURRENT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LIMITS_CMOSTEMPERATURE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL1, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL2, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL3, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL4, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL5, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL6, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL7, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL8, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL9, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL10, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL11, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL12, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL13, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL14, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL15, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOGLEVEL16, new PoolEntry({0})); localDataPoolMap.emplace(startracker::MOUNTING_QW, new PoolEntry({0})); localDataPoolMap.emplace(startracker::MOUNTING_QX, new PoolEntry({0})); localDataPoolMap.emplace(startracker::MOUNTING_QY, new PoolEntry({0})); localDataPoolMap.emplace(startracker::MOUNTING_QZ, new PoolEntry({0})); localDataPoolMap.emplace(startracker::IMAGE_PROCESSOR_MODE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::IMAGE_PROCESSOR_STORE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::IMAGE_PROCESSOR_SIGNALTHRESHOLD, new PoolEntry({0})); localDataPoolMap.emplace(startracker::IMAGE_PROCESSOR_DARKTHRESHOLD, new PoolEntry({0})); localDataPoolMap.emplace(startracker::IMAGE_PROCESSOR_BACKGROUNDCOMPENSATION, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_ENABLE_FILTER, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_MAX_QUALITY, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_DARK_THRESHOLD, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_MIN_QUALITY, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_MAX_INTENSITY, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_MIN_INTENSITY, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_MAX_MAGNITUDE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_GAUSSIAN_CMAX, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_GAUSSIAN_CMIN, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_TRANSMATRIX00, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_TRANSMATRIX01, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_TRANSMATRIX10, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CENTROIDING_TRANSMATRIX11, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_MODE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_PREFILTER_DIST_THRESHOLD, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_PREFILTER_ANGLE_THRESHOLD, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_FOV_WIDTH, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_FOV_HEIGHT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_FLOAT_STAR_LIMIT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_CLOSE_STAR_LIMIT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_RATING_WEIGHT_CLOSE_STAR_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_RATING_WEIGHT_FRACTION_CLOSE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_RATING_WEIGHT_MEAN_SUM, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_RATING_WEIGHT_DB_STAR_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_MAX_COMBINATIONS, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_NR_STARS_STOP, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LISA_FRACTION_CLOSE_STOP, new PoolEntry({0})); localDataPoolMap.emplace(startracker::MATCHING_SQUARED_DISTANCE_LIMIT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::MATCHING_SQUARED_SHIFT_LIMIT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TRACKING_THIN_LIMIT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TRACKING_OUTLIER_THRESHOLD, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TRACKING_OUTLIER_THRESHOLD_QUEST, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TRACKING_TRACKER_CHOICE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::VALIDATION_STABLE_COUNT, new PoolEntry({0})); localDataPoolMap.emplace(startracker::VALIDATION_MAX_DIFFERENCE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::VALIDATION_MIN_TRACKER_CONFIDENCE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::VALIDATION_MIN_MATCHED_STARS, new PoolEntry({0})); localDataPoolMap.emplace(startracker::ALGO_MODE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::ALGO_I2T_MIN_CONFIDENCE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::ALGO_I2T_MIN_MATCHED, new PoolEntry({0})); localDataPoolMap.emplace(startracker::ALGO_I2L_MIN_CONFIDENCE, new PoolEntry({0})); localDataPoolMap.emplace(startracker::ALGO_I2L_MIN_MATCHED, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM1, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM2, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM3, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM4, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM5, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM6, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM7, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM8, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM9, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM10, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM11, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM12, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM13, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM14, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM15, new PoolEntry({0})); localDataPoolMap.emplace(startracker::SUBSCRIPTION_TM16, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOG_SUBSCRIPTION_LEVEL1, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOG_SUBSCRIPTION_MODULE1, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOG_SUBSCRIPTION_LEVEL2, new PoolEntry({0})); localDataPoolMap.emplace(startracker::LOG_SUBSCRIPTION_MODULE2, new PoolEntry({0})); localDataPoolMap.emplace(startracker::DEBUG_CAMERA_TIMING, new PoolEntry({0})); localDataPoolMap.emplace(startracker::DEBUG_CAMERA_TEST, new PoolEntry({0})); localDataPoolMap.emplace(startracker::CHKSUM, new PoolEntry({0})); localDataPoolMap.emplace(startracker::TICKS_AUTO_BLOB, new PoolEntry()); localDataPoolMap.emplace(startracker::TIME_AUTO_BLOB, new PoolEntry()); localDataPoolMap.emplace(startracker::AUTO_BLOB_THRESHOLD, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::NUM_MATCHED_CENTROIDS, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::MATCHED_CENTROIDS_STAR_IDS, new PoolEntry(16)); localDataPoolMap.emplace(startracker::PoolIds::MATCHED_CENTROIDS_X_COORDS, new PoolEntry(16)); localDataPoolMap.emplace(startracker::PoolIds::MATCHED_CENTROIDS_Y_COORDS, new PoolEntry(16)); localDataPoolMap.emplace(startracker::PoolIds::MATCHED_CENTROIDS_X_ERRORS, new PoolEntry(16)); localDataPoolMap.emplace(startracker::PoolIds::MATCHED_CENTROIDS_Y_ERRORS, new PoolEntry(16)); localDataPoolMap.emplace(startracker::PoolIds::TICKS_MATCHED_CENTROIDS, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::TIME_MATCHED_CENTROIDS, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::BLOB_TICKS, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::BLOB_TIME, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::BLOB_COUNT, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::BLOBS_TICKS, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::BLOBS_TIME, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::BLOBS_COUNT, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::BLOBS_COUNT_USED, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::BLOBS_NR_4LINES_SKIPPED, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::BLOBS_X_COORDS, new PoolEntry(8)); localDataPoolMap.emplace(startracker::PoolIds::BLOBS_Y_COORDS, new PoolEntry(8)); localDataPoolMap.emplace(startracker::PoolIds::CENTROID_TICKS, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::CENTROID_TIME, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::CENTROID_COUNT, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::CENTROIDS_TICKS, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::CENTROIDS_TIME, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::CENTROIDS_COUNT, new PoolEntry()); localDataPoolMap.emplace(startracker::PoolIds::CENTROIDS_X_COORDS, new PoolEntry(16)); localDataPoolMap.emplace(startracker::PoolIds::CENTROIDS_Y_COORDS, new PoolEntry(16)); localDataPoolMap.emplace(startracker::PoolIds::CENTROIDS_MAGNITUDES, new PoolEntry(16)); poolManager.subscribeForDiagPeriodicPacket( subdp::DiagnosticsHkPeriodicParams(temperatureSet.getSid(), false, 10.0)); poolManager.subscribeForRegularPeriodicPacket( subdp::RegularHkPeriodicParams(powerSet.getSid(), false, 10.0)); poolManager.subscribeForRegularPeriodicPacket( subdp::RegularHkPeriodicParams(interfaceSet.getSid(), false, 10.0)); poolManager.subscribeForDiagPeriodicPacket( subdp::DiagnosticsHkPeriodicParams(solutionSet.getSid(), false, 12.0)); poolManager.subscribeForRegularPeriodicPacket( subdp::RegularHkPeriodicParams(cameraSet.getSid(), false, 10.0)); poolManager.subscribeForRegularPeriodicPacket( subdp::RegularHkPeriodicParams(histogramSet.getSid(), false, 10.0)); poolManager.subscribeForRegularPeriodicPacket( subdp::RegularHkPeriodicParams(lisaSet.getSid(), false, 10.0)); poolManager.subscribeForRegularPeriodicPacket( subdp::RegularHkPeriodicParams(autoBlobSet.getSid(), false, 10.0)); poolManager.subscribeForRegularPeriodicPacket( subdp::RegularHkPeriodicParams(matchedCentroidsSet.getSid(), false, 10.0)); poolManager.subscribeForRegularPeriodicPacket( subdp::RegularHkPeriodicParams(blobSet.getSid(), false, 10.0)); poolManager.subscribeForRegularPeriodicPacket( subdp::RegularHkPeriodicParams(blobsSet.getSid(), false, 10.0)); poolManager.subscribeForRegularPeriodicPacket( subdp::RegularHkPeriodicParams(centroidSet.getSid(), false, 10.0)); poolManager.subscribeForRegularPeriodicPacket( subdp::RegularHkPeriodicParams(centroidsSet.getSid(), false, 10.0)); return returnvalue::OK; } size_t StarTrackerHandler::getNextReplyLength(DeviceCommandId_t commandId) { return startracker::MAX_FRAME_SIZE; } ReturnValue_t StarTrackerHandler::doSendReadHook() { // Prevent DHB from polling UART during commands executed by the image loader task if (strHelperHandlingSpecialRequest) { return returnvalue::FAILED; } return returnvalue::OK; } ReturnValue_t StarTrackerHandler::getSwitches(const uint8_t** switches, uint8_t* numberOfSwitches) { if (powerSwitch == power::NO_SWITCH) { return DeviceHandlerBase::NO_SWITCH; } *numberOfSwitches = 1; *switches = &powerSwitch; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::checkMode(ActionId_t actionId) { switch (actionId) { case startracker::UPLOAD_IMAGE: case startracker::DOWNLOAD_IMAGE: case startracker::FLASH_READ: case startracker::FIRMWARE_UPDATE: { return DeviceHandlerBase::acceptExternalDeviceCommands(); default: break; } } return returnvalue::OK; } ReturnValue_t StarTrackerHandler::scanForActionReply(uint8_t replyId, DeviceCommandId_t* foundId) { switch (replyId) { case (startracker::ID::PING): { *foundId = startracker::PING_REQUEST; break; } case (startracker::ID::BOOT): { *foundId = startracker::BOOT; break; } case (startracker::ID::TAKE_IMAGE): { *foundId = startracker::TAKE_IMAGE; break; } case (startracker::ID::UPLOAD_IMAGE): { *foundId = startracker::UPLOAD_IMAGE; break; } case (ARC_ACTION_REQ_SETTIME_ID): { *foundId = startracker::SET_TIME_FROM_SYS_TIME; break; } case (startracker::ID::CHECKSUM): { *foundId = startracker::CHECKSUM; break; } default: sif::warning << "StarTrackerHandler::scanForActionReply: Unknown parameter reply id" << std::endl; return returnvalue::FAILED; } return returnvalue::OK; } ReturnValue_t StarTrackerHandler::scanForSetParameterReply(uint8_t replyId, DeviceCommandId_t* foundId) { switch (replyId) { case (startracker::ID::SUBSCRIPTION): { *foundId = startracker::SUBSCRIPTION; break; } case (startracker::ID::LIMITS): { *foundId = startracker::LIMITS; break; } case (startracker::ID::MOUNTING): { *foundId = startracker::MOUNTING; break; } case (startracker::ID::IMAGE_PROCESSOR): { *foundId = startracker::IMAGE_PROCESSOR; break; } case (startracker::ID::CAMERA): { *foundId = startracker::CAMERA; break; } case (startracker::ID::CENTROIDING): { *foundId = startracker::CENTROIDING; break; } case (startracker::ID::LISA): { *foundId = startracker::LISA; break; } case (startracker::ID::MATCHING): { *foundId = startracker::MATCHING; break; } case (startracker::ID::TRACKING): { *foundId = startracker::TRACKING; break; } case (startracker::ID::VALIDATION): { *foundId = startracker::VALIDATION; break; } case (startracker::ID::ALGO): { *foundId = startracker::ALGO; break; } case (startracker::ID::LOG_LEVEL): { *foundId = startracker::LOGLEVEL; break; } case (startracker::ID::DEBUG_CAMERA): { *foundId = startracker::DEBUG_CAMERA; break; } case (startracker::ID::AUTO_THRESHOLD): { *foundId = startracker::AUTO_THRESHOLD; break; } case (startracker::ID::LOG_SUBSCRIPTION): { *foundId = startracker::LOGSUBSCRIPTION; break; } default: sif::debug << "StarTrackerHandler::scanForParameterReply: Unknown parameter reply id" << std::endl; return returnvalue::FAILED; } return returnvalue::OK; } ReturnValue_t StarTrackerHandler::scanForGetParameterReply(uint8_t replyId, DeviceCommandId_t* foundId) { switch (replyId) { case (startracker::ID::CAMERA): { *foundId = startracker::REQ_CAMERA; break; } case (startracker::ID::LIMITS): { *foundId = startracker::REQ_LIMITS; break; } case (startracker::ID::LOG_LEVEL): { *foundId = startracker::REQ_LOG_LEVEL; break; } case (startracker::ID::MOUNTING): { *foundId = startracker::REQ_MOUNTING; break; } case (startracker::ID::IMAGE_PROCESSOR): { *foundId = startracker::REQ_IMAGE_PROCESSOR; break; } case (startracker::ID::CENTROIDING): { *foundId = startracker::REQ_CENTROIDING; break; } case (startracker::ID::LISA): { *foundId = startracker::REQ_LISA; break; } case (startracker::ID::MATCHING): { *foundId = startracker::REQ_MATCHING; break; } case (startracker::ID::TRACKING): { *foundId = startracker::REQ_TRACKING; break; } case (startracker::ID::VALIDATION): { *foundId = startracker::REQ_VALIDATION; break; } case (startracker::ID::ALGO): { *foundId = startracker::REQ_ALGO; break; } case (startracker::ID::SUBSCRIPTION): { *foundId = startracker::REQ_SUBSCRIPTION; break; } case (startracker::ID::LOG_SUBSCRIPTION): { *foundId = startracker::REQ_LOG_SUBSCRIPTION; break; } case (startracker::ID::DEBUG_CAMERA): { *foundId = startracker::REQ_DEBUG_CAMERA; break; } default: { sif::warning << "tarTrackerHandler::scanForGetParameterReply: UnkNown ID" << std::endl; return returnvalue::FAILED; break; } } return returnvalue::OK; } ReturnValue_t StarTrackerHandler::scanForTmReply(uint8_t replyId, DeviceCommandId_t* foundId) { switch (replyId) { case (startracker::ID::VERSION): { *foundId = startracker::REQ_VERSION; break; } case (startracker::ID::INTERFACE): { *foundId = startracker::REQ_INTERFACE; break; } case (startracker::ID::POWER): { *foundId = startracker::REQ_POWER; break; } case (startracker::ID::TEMPERATURE): { *foundId = startracker::REQ_TEMPERATURE; break; } case (startracker::ID::HISTOGRAM): { *foundId = startracker::REQ_HISTOGRAM; break; } case (startracker::ID::TIME): { *foundId = startracker::REQ_TIME; break; } case (startracker::ID::SOLUTION): { *foundId = startracker::REQ_SOLUTION; break; } case(startracker::ID::BLOB): { *foundId = startracker::REQ_BLOB; break; } case(startracker::ID::BLOBS): { *foundId = startracker::REQ_BLOBS; break; } case(startracker::ID::CENTROID): { *foundId = startracker::REQ_CENTROID; break; } case(startracker::ID::CENTROIDS): { *foundId = startracker::REQ_CENTROIDS; break; } case(startracker::ID::AUTO_BLOB): { *foundId = startracker::REQ_AUTO_BLOB; break; } case(startracker::ID::MATCHED_CENTROIDS): { *foundId = startracker::REQ_MATCHED_CENTROIDS; break; } default: { sif::debug << "StarTrackerHandler::scanForTmReply: Reply contains invalid reply ID: " << static_cast(replyId) << std::endl; return returnvalue::FAILED; break; } } return returnvalue::OK; } void StarTrackerHandler::handleEvent(EventMessage* eventMessage) { object_id_t objectId = eventMessage->getReporter(); switch (objectId) { case objects::STR_COM_IF: { // All events from image loader signal either that the operation was successful or that it // failed strHelperHandlingSpecialRequest = false; break; } default: sif::debug << "StarTrackerHandler::handleEvent: Did not subscribe to this event" << std::endl; break; } } ReturnValue_t StarTrackerHandler::executeFlashReadCommand(const uint8_t* commandData, size_t commandDataLen) { ReturnValue_t result = returnvalue::OK; if (commandDataLen < FlashReadCmd::MIN_LENGTH) { sif::warning << "StarTrackerHandler::executeFlashReadCommand: Command too short" << std::endl; return COMMAND_TOO_SHORT; } uint8_t startRegion = *(commandData); uint32_t length; size_t size = sizeof(length); const uint8_t* lengthPtr = commandData + sizeof(startRegion); result = SerializeAdapter::deSerialize(&length, lengthPtr, &size, SerializeIF::Endianness::BIG); if (result != returnvalue::OK) { sif::debug << "StarTrackerHandler::executeFlashReadCommand: Deserialization of length failed" << std::endl; return result; } if (commandDataLen - sizeof(startRegion) - sizeof(length) > config::MAX_PATH_SIZE) { sif::warning << "StarTrackerHandler::executeFlashReadCommand: Received command with invalid" << " path and filename" << std::endl; return FILE_PATH_TOO_LONG; } const uint8_t* filePtr = commandData + sizeof(startRegion) + sizeof(length); std::string fullname = std::string(reinterpret_cast(filePtr), commandDataLen - sizeof(startRegion) - sizeof(length)); result = strHelper->startFlashRead(fullname, startRegion, length); if (result != returnvalue::OK) { return result; } return result; } void StarTrackerHandler::prepareBootCommand() { uint32_t length = 0; struct BootActionRequest bootRequest = {BOOT_REGION_ID}; arc_pack_boot_action_req(&bootRequest, commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; } ReturnValue_t StarTrackerHandler::prepareChecksumCommand(const uint8_t* commandData, size_t commandDataLen) { struct ChecksumActionRequest req; ReturnValue_t result = returnvalue::OK; if (commandDataLen != ChecksumCmd::LENGTH) { sif::warning << "StarTrackerHandler::prepareChecksumCommand: Invalid length" << std::endl; return INVALID_LENGTH; } req.region = *(commandData); size_t size = sizeof(req.address); const uint8_t* addressPtr = commandData + ChecksumCmd::ADDRESS_OFFSET; result = SerializeAdapter::deSerialize(&req.address, addressPtr, &size, SerializeIF::Endianness::BIG); if (result != returnvalue::OK) { sif::debug << "StarTrackerHandler::prepareChecksumCommand: Deserialization of address " << "failed" << std::endl; return result; } size = sizeof(req.length); const uint8_t* lengthPtr = commandData + ChecksumCmd::LENGTH_OFFSET; result = SerializeAdapter::deSerialize(&req.length, lengthPtr, &size, SerializeIF::Endianness::BIG); if (result != returnvalue::OK) { sif::debug << "StarTrackerHandler::prepareChecksumCommand: Deserialization of length failed" << std::endl; return result; } uint32_t rawCmdLength = 0; arc_pack_checksum_action_req(&req, commandBuffer, &rawCmdLength); rawPacket = commandBuffer; rawPacketLen = rawCmdLength; checksumCmd.rememberRegion = req.region; checksumCmd.rememberAddress = req.address; checksumCmd.rememberLength = req.length; return result; } void StarTrackerHandler::prepareTimeRequest() { uint32_t length = 0; arc_tm_pack_time_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; } void StarTrackerHandler::preparePingRequest() { uint32_t length = 0; struct PingActionRequest pingRequest = {PING_ID}; arc_pack_ping_action_req(&pingRequest, commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; } void StarTrackerHandler::prepareVersionRequest() { uint32_t length = 0; arc_tm_pack_version_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; } void StarTrackerHandler::prepareInterfaceRequest() { uint32_t length = 0; arc_tm_pack_interface_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; } void StarTrackerHandler::preparePowerRequest() { uint32_t length = 0; arc_tm_pack_power_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; } void StarTrackerHandler::prepareSwitchToBootloaderCmd() { uint32_t length = 0; struct RebootActionRequest rebootReq {}; arc_pack_reboot_action_req(&rebootReq, commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; } void StarTrackerHandler::prepareTakeImageCommand(const uint8_t* commandData) { uint32_t length = 0; struct CameraActionRequest camReq; camReq.actionid = *commandData; arc_pack_camera_action_req(&camReq, commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; } void StarTrackerHandler::prepareSolutionRequest() { uint32_t length = 0; arc_tm_pack_solution_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; } void StarTrackerHandler::prepareTemperatureRequest() { uint32_t length = 0; arc_tm_pack_temperature_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; } void StarTrackerHandler::prepareHistogramRequest() { uint32_t length = 0; arc_tm_pack_histogram_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; } ReturnValue_t StarTrackerHandler::prepareRequestAutoBlobTm() { uint32_t length = 0; arc_tm_pack_autoblob_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestMatchedCentroidsTm() { uint32_t length = 0; arc_tm_pack_matchedcentroids_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestBlobTm() { uint32_t length = 0; arc_tm_pack_blob_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestBlobsTm() { uint32_t length = 0; arc_tm_pack_blobs_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestCentroidTm() { uint32_t length = 0; arc_tm_pack_centroid_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestCentroidsTm() { uint32_t length = 0; arc_tm_pack_centroids_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareParamCommand(const uint8_t* commandData, size_t commandDataLen, ArcsecJsonParamBase& paramSet, bool reinitSet) { // Stopwatch watch; ReturnValue_t result = returnvalue::OK; if (commandDataLen > config::MAX_PATH_SIZE) { return FILE_PATH_TOO_LONG; } if (reinitSet) { result = paramSet.init(paramJsonFile); if (result != returnvalue::OK) { return result; } } result = paramSet.create(commandBuffer); if (result != returnvalue::OK) { return result; } rawPacket = commandBuffer; rawPacketLen = paramSet.getSize(); return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestCameraParams() { uint32_t length = 0; arc_pack_camera_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestLimitsParams() { uint32_t length = 0; arc_pack_limits_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestLogLevelParams() { uint32_t length = 0; arc_pack_loglevel_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestMountingParams() { uint32_t length = 0; arc_pack_mounting_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestImageProcessorParams() { uint32_t length = 0; arc_pack_imageprocessor_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestCentroidingParams() { uint32_t length = 0; arc_pack_centroiding_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestLisaParams() { uint32_t length = 0; arc_pack_lisa_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestMatchingParams() { uint32_t length = 0; arc_pack_matching_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestTrackingParams() { uint32_t length = 0; arc_pack_tracking_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestValidationParams() { uint32_t length = 0; arc_pack_validation_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestAlgoParams() { uint32_t length = 0; arc_pack_algo_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestSubscriptionParams() { uint32_t length = 0; arc_pack_subscription_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestLogSubscriptionParams() { uint32_t length = 0; arc_pack_logsubscription_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::prepareRequestDebugCameraParams() { uint32_t length = 0; arc_pack_debugcamera_parameter_req(commandBuffer, &length); rawPacket = commandBuffer; rawPacketLen = length; return returnvalue::OK; } ReturnValue_t StarTrackerHandler::handleSetParamReply(const uint8_t* rawFrame) { uint8_t status = startracker::getStatusField(rawFrame); if (status != startracker::STATUS_OK) { sif::warning << "StarTrackerHandler::handleSetParamReply: Failed to execute parameter set " "command with parameter ID " << static_cast(*(rawFrame + PARAMETER_ID_OFFSET)) << std::endl; if (internalState != InternalState::IDLE) { internalState = InternalState::IDLE; } return SET_PARAM_FAILED; } if (internalState != InternalState::IDLE) { handleStartup(*rawFrame, *(rawFrame + PARAMETER_ID_OFFSET)); } return returnvalue::OK; } ReturnValue_t StarTrackerHandler::handleActionReply(const uint8_t* rawFrame) { uint8_t status = startracker::getStatusField(rawFrame); ReturnValue_t result = returnvalue::OK; if (status != startracker::STATUS_OK) { sif::warning << "StarTrackerHandler::handleActionReply: Failed to execute action " << "command with action ID " << static_cast(*(rawFrame + ACTION_ID_OFFSET)) << " and status " << static_cast(status) << std::endl; result = ACTION_FAILED; } if (internalState != InternalState::IDLE) { handleStartup(*rawFrame, *(rawFrame + PARAMETER_ID_OFFSET)); } return result; } ReturnValue_t StarTrackerHandler::handleChecksumReply(const uint8_t* rawFrame) { ReturnValue_t result = returnvalue::OK; result = handleActionReply(rawFrame); if (result != returnvalue::OK) { return result; } const uint8_t* replyData = rawFrame + ACTION_DATA_OFFSET; startracker::ChecksumReply checksumReply(replyData); if (checksumReply.getRegion() != checksumCmd.rememberRegion) { sif::warning << "StarTrackerHandler::handleChecksumReply: Region mismatch" << std::endl; return REGION_MISMATCH; } if (checksumReply.getAddress() != checksumCmd.rememberAddress) { sif::warning << "StarTrackerHandler::handleChecksumReply: Address mismatch" << std::endl; return ADDRESS_MISMATCH; } if (checksumReply.getLength() != checksumCmd.rememberLength) { sif::warning << "StarTrackerHandler::handleChecksumReply: Length mismatch" << std::endl; return LENGTH_MISSMATCH; } PoolReadGuard rg(&checksumSet); checksumSet.checksum = checksumReply.getChecksum(); handleDeviceTm(checksumSet, startracker::CHECKSUM); #if OBSW_VERBOSE_LEVEL >= 1 && OBSW_DEBUG_STARTRACKER == 1 checksumReply.printChecksum(); #endif /* OBSW_VERBOSE_LEVEL >= 1 && OBSW_DEBUG_STARTRACKER == 1 */ return returnvalue::OK; } ReturnValue_t StarTrackerHandler::handleParamRequest(const uint8_t* rawFrame, LocalPoolDataSetBase& dataset, size_t size) { ReturnValue_t result = returnvalue::OK; result = dataset.read(TIMEOUT_TYPE, MUTEX_TIMEOUT); if (result != returnvalue::OK) { return result; } const uint8_t* reply = rawFrame + PARAMS_OFFSET; dataset.setValidityBufferGeneration(false); result = dataset.deSerialize(&reply, &size, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { sif::warning << "StarTrackerHandler::handleParamRequest Deserialization failed" << std::endl; } dataset.setValidityBufferGeneration(true); dataset.setValidity(true, true); result = dataset.commit(TIMEOUT_TYPE, MUTEX_TIMEOUT); if (result != returnvalue::OK) { return result; } #if OBSW_VERBOSE_LEVEL >= 1 && OBSW_DEBUG_STARTRACKER == 1 dataset.printSet(); #endif return result; } ReturnValue_t StarTrackerHandler::handlePingReply(const uint8_t* rawFrame) { ReturnValue_t result = returnvalue::OK; uint32_t pingId = 0; uint8_t status = startracker::getStatusField(rawFrame); const uint8_t* buffer = rawFrame + ACTION_DATA_OFFSET; size_t size = sizeof(pingId); SerializeAdapter::deSerialize(&pingId, &buffer, &size, SerializeIF::Endianness::LITTLE); sif::info << "StarTracker: Ping status: " << static_cast(status) << std::endl; sif::info << "Ping ID: 0x" << std::hex << pingId << std::endl; if (status != startracker::STATUS_OK || pingId != PING_ID) { sif::warning << "STR: Ping failed" << std::endl; result = PING_FAILED; } else { sif::info << "STR: Ping OK" << std::endl; } return result; } ReturnValue_t StarTrackerHandler::checkProgram() { PoolReadGuard pg(&versionSet); switch (versionSet.program.value) { case startracker::Program::BOOTLOADER: if (startupState == StartupState::WAIT_CHECK_PROGRAM) { startupState = StartupState::DONE; } if (bootState == FwBootState::VERIFY_BOOT) { sif::warning << "StarTrackerHandler::checkProgram: Failed to boot firmware" << std::endl; // Device handler will run into timeout and fall back to transition source mode triggerEvent(BOOTING_FIRMWARE_FAILED_EVENT); internalState = InternalState::FAILED_FIRMWARE_BOOT; } else if (internalState == InternalState::BOOTLOADER_CHECK) { internalState = InternalState::DONE; } break; case startracker::Program::FIRMWARE: if (startupState == StartupState::WAIT_CHECK_PROGRAM) { startupState = StartupState::BOOT_BOOTLOADER; } if (bootState == FwBootState::VERIFY_BOOT) { bootState = FwBootState::SET_TIME; } else if (internalState == InternalState::BOOTLOADER_CHECK) { triggerEvent(BOOTING_BOOTLOADER_FAILED_EVENT); internalState = InternalState::FAILED_BOOTLOADER_BOOT; } break; default: sif::warning << "StarTrackerHandler::checkProgram: Version set has invalid program ID" << std::endl; return INVALID_PROGRAM; } return returnvalue::OK; } ReturnValue_t StarTrackerHandler::handleTm(const uint8_t* rawFrame, LocalPoolDataSetBase& dataset, size_t size, const char* context) { ReturnValue_t result = statusFieldCheck(rawFrame); if (result != returnvalue::OK) { return result; } result = dataset.read(TIMEOUT_TYPE, MUTEX_TIMEOUT); if (result != returnvalue::OK) { return result; } const uint8_t* reply = rawFrame + TICKS_OFFSET; dataset.setValidityBufferGeneration(false); result = dataset.deSerialize(&reply, &size, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { sif::warning << "StarTrackerHandler::handleTm: Deserialization failed for " << context << std::endl; } dataset.setValidityBufferGeneration(true); dataset.setValidity(true, true); result = dataset.commit(TIMEOUT_TYPE, MUTEX_TIMEOUT); if (result != returnvalue::OK) { return result; } #if OBSW_VERBOSE_LEVEL >= 1 && OBSW_DEBUG_STARTRACKER == 1 dataset.printSet(); #endif return result; } ReturnValue_t StarTrackerHandler::handleAutoBlobTm(const uint8_t* rawFrame) { ReturnValue_t result = statusFieldCheck(rawFrame); if (result != returnvalue::OK) { return result; } rawFrame += TICKS_OFFSET; size_t remainingLen = fullPacketLen; PoolReadGuard pg(&autoBlobSet); result = pg.getReadResult(); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&autoBlobSet.ticks, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&autoBlobSet.timeUs, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&autoBlobSet.threshold, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } autoBlobSet.setValidity(true, true); return returnvalue::OK; } ReturnValue_t StarTrackerHandler::handleMatchedCentroidTm(const uint8_t* rawFrame) { ReturnValue_t result = statusFieldCheck(rawFrame); if (result != returnvalue::OK) { return result; } rawFrame += TICKS_OFFSET; size_t remainingLen = fullPacketLen; PoolReadGuard pg(&matchedCentroidsSet); result = pg.getReadResult(); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&matchedCentroidsSet.ticks, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&matchedCentroidsSet.timeUs, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&matchedCentroidsSet.numberOfMatchedCentroids, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } // Yeah, we serialize it like that because I can't model anything with that local datapool crap. for (unsigned idx = 0; idx < 16; idx++) { result = SerializeAdapter::deSerialize(&matchedCentroidsSet.starIds[idx], &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&matchedCentroidsSet.xCoords[idx], &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&matchedCentroidsSet.yCoords[idx], &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&matchedCentroidsSet.xErrors[idx], &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&matchedCentroidsSet.yErrors[idx], &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } } matchedCentroidsSet.setValidity(true, true); return returnvalue::OK; } ReturnValue_t StarTrackerHandler::handleBlobTm(const uint8_t* rawFrame) { ReturnValue_t result = statusFieldCheck(rawFrame); if (result != returnvalue::OK) { return result; } rawFrame += TICKS_OFFSET; size_t remainingLen = fullPacketLen; PoolReadGuard pg(&blobsSet); result = pg.getReadResult(); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&blobSet.ticks, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&blobSet.timeUs, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&blobSet.blobCount, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } blobSet.setValidity(true, true); return returnvalue::OK; } ReturnValue_t StarTrackerHandler::handleBlobsTm(const uint8_t* rawFrame) { ReturnValue_t result = statusFieldCheck(rawFrame); if (result != returnvalue::OK) { return result; } rawFrame += TICKS_OFFSET; size_t remainingLen = fullPacketLen; PoolReadGuard pg(&blobsSet); result = pg.getReadResult(); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&blobsSet.ticks, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&blobsSet.timeUs, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&blobsSet.blobsCount, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&blobsSet.blobsCountUsed, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&blobsSet.nr4LinesSkipped, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } for (unsigned idx = 0; idx < 8; idx++) { result = SerializeAdapter::deSerialize(&blobsSet.xCoords[idx], &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(&blobsSet.yCoords[idx], &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } } blobsSet.setValidity(true, true); return returnvalue::OK; } ReturnValue_t StarTrackerHandler::handleCentroidTm(const uint8_t* rawFrame) { ReturnValue_t result = statusFieldCheck(rawFrame); if (result != returnvalue::OK) { return result; } rawFrame += TICKS_OFFSET; size_t remainingLen = fullPacketLen; PoolReadGuard pg(¢roidsSet); result = pg.getReadResult(); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(¢roidSet.ticks, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(¢roidSet.timeUs, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(¢roidSet.centroidCount, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } centroidSet.setValidity(true, true); return returnvalue::OK; } ReturnValue_t StarTrackerHandler::handleCentroidsTm(const uint8_t* rawFrame) { ReturnValue_t result = statusFieldCheck(rawFrame); if (result != returnvalue::OK) { return result; } rawFrame += TICKS_OFFSET; size_t remainingLen = fullPacketLen; PoolReadGuard pg(¢roidsSet); result = pg.getReadResult(); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(¢roidsSet.ticksCentroidsTm, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(¢roidsSet.timeUsCentroidsTm, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(¢roidsSet.centroidsCount, &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } for (unsigned idx = 0; idx < 16; idx++) { result = SerializeAdapter::deSerialize(¢roidsSet.centroidsXCoords[idx], &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(¢roidsSet.centroidsYCoords[idx], &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } result = SerializeAdapter::deSerialize(¢roidsSet.centroidsMagnitudes[idx], &rawFrame, &remainingLen, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { return result; } } centroidsSet.setValidity(true, true); return returnvalue::OK; } ReturnValue_t StarTrackerHandler::handleActionReplySet(const uint8_t* rawFrame, LocalPoolDataSetBase& dataset, size_t size) { ReturnValue_t result = returnvalue::OK; uint8_t status = startracker::getStatusField(rawFrame); if (status != startracker::STATUS_OK) { sif::warning << "StarTrackerHandler::handleActionReplySet: Reply error: " << static_cast(status) << std::endl; return REPLY_ERROR; } result = dataset.read(TIMEOUT_TYPE, MUTEX_TIMEOUT); if (result != returnvalue::OK) { return result; } const uint8_t* reply = rawFrame + ACTION_DATA_OFFSET; dataset.setValidityBufferGeneration(false); result = dataset.deSerialize(&reply, &size, SerializeIF::Endianness::LITTLE); if (result != returnvalue::OK) { sif::warning << "StarTrackerHandler::handleActionReplySet Deserialization failed" << std::endl; } dataset.setValidityBufferGeneration(true); dataset.setValidity(true, true); result = dataset.commit(TIMEOUT_TYPE, MUTEX_TIMEOUT); if (result != returnvalue::OK) { return result; } #if OBSW_VERBOSE_LEVEL >= 1 && OBSW_DEBUG_STARTRACKER == 1 dataset.printSet(); #endif return result; } void StarTrackerHandler::handleStartup(uint8_t tmType, uint8_t parameterId) { switch (tmType) { case (TMTC_ACTIONREPLY): { case (ARC_ACTION_REQ_SETTIME_ID): { bootState = FwBootState::LOGLEVEL; return; } default: { break; } } } switch (parameterId) { case (startracker::ID::LOG_LEVEL): { bootState = FwBootState::LIMITS; break; } case (startracker::ID::LIMITS): { bootState = FwBootState::TRACKING; break; } case (ARC_PARAM_TRACKING_ID): { bootState = FwBootState::MOUNTING; break; } case (startracker::ID::MOUNTING): { bootState = FwBootState::IMAGE_PROCESSOR; break; } case (startracker::ID::IMAGE_PROCESSOR): { bootState = FwBootState::CAMERA; break; } case (startracker::ID::CAMERA): { bootState = FwBootState::CENTROIDING; break; } case (startracker::ID::CENTROIDING): { bootState = FwBootState::LISA; break; } case (startracker::ID::LISA): { bootState = FwBootState::MATCHING; break; } case (startracker::ID::MATCHING): { bootState = FwBootState::VALIDATION; break; } case (startracker::ID::VALIDATION): { bootState = FwBootState::ALGO; break; } case (startracker::ID::ALGO): { bootState = FwBootState::LOG_SUBSCRIPTION; break; } case (startracker::ID::LOG_SUBSCRIPTION): { bootState = FwBootState::DEBUG_CAMERA; break; } case (startracker::ID::DEBUG_CAMERA): { bootState = FwBootState::AUTO_THRESHOLD; break; } case (startracker::ID::AUTO_THRESHOLD): { bootState = FwBootState::NONE; internalState = InternalState::DONE; break; } default: { sif::warning << "StarTrackerHandler::handleStartup: Received parameter reply with unexpected" << " parameter ID " << (int)parameterId << std::endl; break; } } } ReturnValue_t StarTrackerHandler::checkCommand(ActionId_t actionId) { switch (actionId) { case startracker::REQ_INTERFACE: case startracker::REQ_TIME: case startracker::SWITCH_TO_BOOTLOADER_PROGRAM: case startracker::DOWNLOAD_IMAGE: case startracker::UPLOAD_IMAGE: case startracker::REQ_POWER: case startracker::TAKE_IMAGE: case startracker::REQ_SOLUTION: case startracker::REQ_TEMPERATURE: case startracker::REQ_HISTOGRAM: case startracker::REQ_CAMERA: case startracker::REQ_LIMITS: case startracker::REQ_LOG_LEVEL: case startracker::REQ_MOUNTING: case startracker::REQ_IMAGE_PROCESSOR: case startracker::REQ_CENTROIDING: case startracker::REQ_LISA: case startracker::REQ_MATCHING: case startracker::REQ_TRACKING: case startracker::REQ_VALIDATION: case startracker::REQ_ALGO: case startracker::REQ_SUBSCRIPTION: case startracker::REQ_LOG_SUBSCRIPTION: case startracker::REQ_DEBUG_CAMERA: case startracker::REQ_MATCHED_CENTROIDS: case startracker::REQ_BLOB: case startracker::REQ_BLOBS: case startracker::REQ_CENTROID: case startracker::REQ_CENTROIDS: if (getMode() == MODE_ON and getSubmode() != startracker::Program::FIRMWARE) { return STARTRACKER_NOT_RUNNING_FIRMWARE; } break; case startracker::FIRMWARE_UPDATE: case startracker::FLASH_READ: if (getMode() != MODE_ON or getSubmode() != startracker::Program::BOOTLOADER) { return STARTRACKER_NOT_RUNNING_BOOTLOADER; } break; default: break; } return returnvalue::OK; }