#include "PlocMPSoCHandler.h" #include "OBSWConfig.h" #include "fsfw/datapool/PoolReadGuard.h" #include "fsfw/globalfunctions/CRC.h" #include "linux/devices/devicedefinitions/PlocSupervisorDefinitions.h" PlocMPSoCHandler::PlocMPSoCHandler(object_id_t objectId, object_id_t uartComIFid, CookieIF* comCookie, PlocMPSoCHelper* plocMPSoCHelper, Gpio uartIsolatorSwitch, object_id_t supervisorHandler) : DeviceHandlerBase(objectId, uartComIFid, comCookie), plocMPSoCHelper(plocMPSoCHelper), uartIsolatorSwitch(uartIsolatorSwitch), supervisorHandler(supervisorHandler), commandActionHelper(this) { if (comCookie == nullptr) { sif::error << "PlocMPSoCHandler: Invalid communication cookie" << std::endl; } eventQueue = QueueFactory::instance()->createMessageQueue(EventMessage::EVENT_MESSAGE_SIZE * 5); commandActionHelperQueue = QueueFactory::instance()->createMessageQueue(EventMessage::EVENT_MESSAGE_SIZE * 5); } PlocMPSoCHandler::~PlocMPSoCHandler() {} ReturnValue_t PlocMPSoCHandler::initialize() { ReturnValue_t result = RETURN_OK; result = DeviceHandlerBase::initialize(); if (result != RETURN_OK) { return result; } uartComIf = dynamic_cast(communicationInterface); if (uartComIf == nullptr) { sif::warning << "PlocMPSoCHandler::initialize: Invalid uart com if" << std::endl; return ObjectManagerIF::CHILD_INIT_FAILED; } EventManagerIF* manager = ObjectManager::instance()->get(objects::EVENT_MANAGER); if (manager == nullptr) { #if FSFW_CPP_OSTREAM_ENABLED == 1 sif::error << "PlocMPSoCHandler::initialize: Invalid event manager" << std::endl; #endif return ObjectManagerIF::CHILD_INIT_FAILED; ; } result = manager->registerListener(eventQueue->getId()); if (result != RETURN_OK) { return result; } result = manager->subscribeToEventRange( eventQueue->getId(), event::getEventId(PlocMPSoCHelper::MPSOC_FLASH_WRITE_FAILED), event::getEventId(PlocMPSoCHelper::MPSOC_FLASH_WRITE_SUCCESSFUL)); if (result != RETURN_OK) { #if FSFW_CPP_OSTREAM_ENABLED == 1 sif::warning << "PlocMPSoCHandler::initialize: Failed to subscribe to events from " " ploc mpsoc helper" << std::endl; #endif return ObjectManagerIF::CHILD_INIT_FAILED; } result = plocMPSoCHelper->setComIF(communicationInterface); if (result != RETURN_OK) { return ObjectManagerIF::CHILD_INIT_FAILED; } plocMPSoCHelper->setComCookie(comCookie); plocMPSoCHelper->setSequenceCount(&sequenceCount); result = commandActionHelper.initialize(); if (result != HasReturnvaluesIF::RETURN_OK) { return ObjectManagerIF::CHILD_INIT_FAILED; } return result; } void PlocMPSoCHandler::performOperationHook() { EventMessage event; for (ReturnValue_t result = eventQueue->receiveMessage(&event); result == RETURN_OK; result = eventQueue->receiveMessage(&event)) { switch (event.getMessageId()) { case EventMessage::EVENT_MESSAGE: handleEvent(&event); break; default: sif::debug << "PlocMPSoCHandler::performOperationHook: Did not subscribe to this event" << " message" << std::endl; break; } } CommandMessage message; for (ReturnValue_t result = commandActionHelperQueue->receiveMessage(&message); result == RETURN_OK; result = commandActionHelperQueue->receiveMessage(&message)) { result = commandActionHelper.handleReply(&message); if (result == RETURN_OK) { continue; } } } ReturnValue_t PlocMPSoCHandler::executeAction(ActionId_t actionId, MessageQueueId_t commandedBy, const uint8_t* data, size_t size) { ReturnValue_t result = RETURN_OK; switch (actionId) { case mpsoc::SET_UART_TX_TRISTATE: { uartIsolatorSwitch.pullLow(); return EXECUTION_FINISHED; break; } case mpsoc::RELEASE_UART_TX: { uartIsolatorSwitch.pullHigh(); return EXECUTION_FINISHED; break; default: break; } } if (plocMPSoCHelperExecuting) { return MPSoCReturnValuesIF::MPSOC_HELPER_EXECUTING; } switch (actionId) { case mpsoc::TC_FLASHWRITE: { if (size > config::MAX_PATH_SIZE + config::MAX_FILENAME_SIZE) { return MPSoCReturnValuesIF::FILENAME_TOO_LONG; } mpsoc::FlashWritePusCmd flashWritePusCmd; result = flashWritePusCmd.extractFields(data, size); if (result != RETURN_OK) { return result; } result = plocMPSoCHelper->startFlashWrite(flashWritePusCmd.getObcFile(), flashWritePusCmd.getMPSoCFile()); if (result != RETURN_OK) { return result; } plocMPSoCHelperExecuting = true; return EXECUTION_FINISHED; } case (mpsoc::OBSW_RESET_SEQ_COUNT): { sequenceCount = 0; return EXECUTION_FINISHED; } default: break; } return DeviceHandlerBase::executeAction(actionId, commandedBy, data, size); } void PlocMPSoCHandler::doStartUp() { #ifdef XIPHOS_Q7S #if not OBSW_MPSOC_JTAG_BOOT == 1 switch (powerState) { case PowerState::OFF: commandActionHelper.commandAction(supervisorHandler, supv::START_MPSOC); powerState = PowerState::BOOTING; break; case PowerState::ON: setMode(_MODE_TO_ON); uartIsolatorSwitch.pullHigh(); break; default: break; } #else powerState = PowerState::ON; setMode(_MODE_TO_ON); uartIsolatorSwitch.pullHigh(); #endif /* not MSPOC_JTAG_BOOT == 1 */ #else powerState = PowerState::ON; setMode(_MODE_TO_ON); #endif /* XIPHOS_Q7S */ } void PlocMPSoCHandler::doShutDown() { #ifdef XIPHOS_Q7S #if not OBSW_MPSOC_JTAG_BOOT == 1 switch (powerState) { case PowerState::ON: uartIsolatorSwitch.pullLow(); commandActionHelper.commandAction(supervisorHandler, supv::SHUTDOWN_MPSOC); powerState = PowerState::SHUTDOWN; break; case PowerState::OFF: setMode(_MODE_POWER_DOWN); break; default: break; } #else uartIsolatorSwitch.pullLow(); setMode(_MODE_POWER_DOWN); powerState = PowerState::OFF; #endif #endif } ReturnValue_t PlocMPSoCHandler::buildNormalDeviceCommand(DeviceCommandId_t* id) { return NOTHING_TO_SEND; } ReturnValue_t PlocMPSoCHandler::buildTransitionDeviceCommand(DeviceCommandId_t* id) { return NOTHING_TO_SEND; } ReturnValue_t PlocMPSoCHandler::buildCommandFromCommand(DeviceCommandId_t deviceCommand, const uint8_t* commandData, size_t commandDataLen) { spParams.buf = commandBuffer; spParams.maxSize = sizeof(commandBuffer); ReturnValue_t result = RETURN_OK; switch (deviceCommand) { case (mpsoc::TC_MEM_WRITE): { result = prepareTcMemWrite(commandData, commandDataLen); break; } case (mpsoc::TC_MEM_READ): { result = prepareTcMemRead(commandData, commandDataLen); break; } case (mpsoc::TC_FLASHDELETE): { result = prepareTcFlashDelete(commandData, commandDataLen); break; } case (mpsoc::TC_REPLAY_START): { result = prepareTcReplayStart(commandData, commandDataLen); break; } case (mpsoc::TC_REPLAY_STOP): { result = prepareTcReplayStop(); break; } case (mpsoc::TC_DOWNLINK_PWR_ON): { result = prepareTcDownlinkPwrOn(commandData, commandDataLen); break; } case (mpsoc::TC_DOWNLINK_PWR_OFF): { result = prepareTcDownlinkPwrOff(); break; } case (mpsoc::TC_REPLAY_WRITE_SEQUENCE): { result = prepareTcReplayWriteSequence(commandData, commandDataLen); break; } case (mpsoc::TC_MODE_REPLAY): { result = prepareTcModeReplay(); break; } case (mpsoc::TC_MODE_IDLE): { result = prepareTcModeIdle(); break; } case (mpsoc::TC_CAM_CMD_SEND): { result = prepareTcCamCmdSend(commandData, commandDataLen); break; } default: sif::debug << "PlocMPSoCHandler::buildCommandFromCommand: Command not implemented" << std::endl; result = DeviceHandlerIF::COMMAND_NOT_IMPLEMENTED; break; } if (result == RETURN_OK) { /** * Flushing the receive buffer to make sure there are no data left from a faulty reply. */ uartComIf->flushUartRxBuffer(comCookie); } return result; } void PlocMPSoCHandler::fillCommandAndReplyMap() { this->insertInCommandMap(mpsoc::TC_MEM_WRITE); this->insertInCommandMap(mpsoc::TC_MEM_READ); this->insertInCommandMap(mpsoc::TC_FLASHDELETE); this->insertInCommandMap(mpsoc::TC_REPLAY_START); this->insertInCommandMap(mpsoc::TC_REPLAY_STOP); this->insertInCommandMap(mpsoc::TC_DOWNLINK_PWR_ON); this->insertInCommandMap(mpsoc::TC_DOWNLINK_PWR_OFF); this->insertInCommandMap(mpsoc::TC_REPLAY_WRITE_SEQUENCE); this->insertInCommandMap(mpsoc::TC_MODE_REPLAY); this->insertInCommandMap(mpsoc::TC_MODE_IDLE); this->insertInCommandMap(mpsoc::TC_CAM_CMD_SEND); this->insertInCommandMap(mpsoc::RELEASE_UART_TX); this->insertInCommandMap(mpsoc::SET_UART_TX_TRISTATE); this->insertInReplyMap(mpsoc::ACK_REPORT, 3, nullptr, mpsoc::SIZE_ACK_REPORT); this->insertInReplyMap(mpsoc::EXE_REPORT, 3, nullptr, mpsoc::SIZE_EXE_REPORT); this->insertInReplyMap(mpsoc::TM_MEMORY_READ_REPORT, 2, nullptr, mpsoc::SIZE_TM_MEM_READ_REPORT); this->insertInReplyMap(mpsoc::TM_CAM_CMD_RPT, 2, nullptr, mpsoc::SP_MAX_SIZE); } ReturnValue_t PlocMPSoCHandler::scanForReply(const uint8_t* start, size_t remainingSize, DeviceCommandId_t* foundId, size_t* foundLen) { ReturnValue_t result = RETURN_OK; SpacePacketReader spacePacket; spacePacket.setReadOnlyData(start, remainingSize); if (spacePacket.isNull()) { return RETURN_FAILED; } auto res = spacePacket.checkSize(); if (res != RETURN_OK) { return res; } uint16_t apid = spacePacket.getApid(); switch (apid) { case (mpsoc::apid::ACK_SUCCESS): *foundLen = mpsoc::SIZE_ACK_REPORT; *foundId = mpsoc::ACK_REPORT; break; case (mpsoc::apid::ACK_FAILURE): *foundLen = mpsoc::SIZE_ACK_REPORT; *foundId = mpsoc::ACK_REPORT; break; case (mpsoc::apid::TM_MEMORY_READ_REPORT): *foundLen = tmMemReadReport.rememberRequestedSize; *foundId = mpsoc::TM_MEMORY_READ_REPORT; break; case (mpsoc::apid::TM_CAM_CMD_RPT): *foundLen = spacePacket.getFullPacketLen(); tmCamCmdRpt.rememberSpacePacketSize = *foundLen; *foundId = mpsoc::TM_CAM_CMD_RPT; break; case (mpsoc::apid::EXE_SUCCESS): *foundLen = mpsoc::SIZE_EXE_REPORT; *foundId = mpsoc::EXE_REPORT; break; case (mpsoc::apid::EXE_FAILURE): *foundLen = mpsoc::SIZE_EXE_REPORT; *foundId = mpsoc::EXE_REPORT; break; default: { sif::debug << "PlocMPSoCHandler::scanForReply: Reply has invalid apid" << std::endl; *foundLen = remainingSize; return MPSoCReturnValuesIF::INVALID_APID; } } sequenceCount++; uint16_t recvSeqCnt = (*(start + 2) << 8 | *(start + 3)) & PACKET_SEQUENCE_COUNT_MASK; if (recvSeqCnt != sequenceCount) { triggerEvent(MPSOC_HANDLER_SEQUENCE_COUNT_MISMATCH, sequenceCount, recvSeqCnt); sequenceCount = recvSeqCnt; } return result; } ReturnValue_t PlocMPSoCHandler::interpretDeviceReply(DeviceCommandId_t id, const uint8_t* packet) { ReturnValue_t result = RETURN_OK; switch (id) { case mpsoc::ACK_REPORT: { result = handleAckReport(packet); break; } case (mpsoc::TM_MEMORY_READ_REPORT): { result = handleMemoryReadReport(packet); break; } case (mpsoc::TM_CAM_CMD_RPT): { result = handleCamCmdRpt(packet); break; } case (mpsoc::EXE_REPORT): { result = handleExecutionReport(packet); break; } default: { sif::debug << "PlocMPSoCHandler::interpretDeviceReply: Unknown device reply id" << std::endl; return DeviceHandlerIF::UNKNOWN_DEVICE_REPLY; } } return result; } void PlocMPSoCHandler::setNormalDatapoolEntriesInvalid() {} uint32_t PlocMPSoCHandler::getTransitionDelayMs(Mode_t modeFrom, Mode_t modeTo) { return 5000; } ReturnValue_t PlocMPSoCHandler::initializeLocalDataPool(localpool::DataPool& localDataPoolMap, LocalDataPoolManager& poolManager) { return HasReturnvaluesIF::RETURN_OK; } void PlocMPSoCHandler::handleEvent(EventMessage* eventMessage) { object_id_t objectId = eventMessage->getReporter(); switch (objectId) { case objects::PLOC_MPSOC_HELPER: { plocMPSoCHelperExecuting = false; break; } default: sif::debug << "PlocMPSoCHandler::handleEvent: Did not subscribe to this event" << std::endl; break; } } ReturnValue_t PlocMPSoCHandler::prepareTcMemWrite(const uint8_t* commandData, size_t commandDataLen) { ReturnValue_t result = RETURN_OK; sequenceCount++; mpsoc::TcMemWrite tcMemWrite(spParams, sequenceCount); result = tcMemWrite.buildPacket(commandData, commandDataLen); if (result != RETURN_OK) { sequenceCount--; return result; } finishTcPrep(); return RETURN_OK; } ReturnValue_t PlocMPSoCHandler::prepareTcMemRead(const uint8_t* commandData, size_t commandDataLen) { ReturnValue_t result = RETURN_OK; sequenceCount++; mpsoc::TcMemRead tcMemRead(spParams, sequenceCount); result = tcMemRead.buildPacket(commandData, commandDataLen); if (result != RETURN_OK) { sequenceCount--; return result; } finishTcPrep(); tmMemReadReport.rememberRequestedSize = tcMemRead.getMemLen() * 4 + TmMemReadReport::FIX_SIZE; return RETURN_OK; } ReturnValue_t PlocMPSoCHandler::prepareTcFlashDelete(const uint8_t* commandData, size_t commandDataLen) { if (commandDataLen > config::MAX_PATH_SIZE + config::MAX_FILENAME_SIZE) { return MPSoCReturnValuesIF::NAME_TOO_LONG; } ReturnValue_t result = RETURN_OK; sequenceCount++; mpsoc::TcFlashDelete tcFlashDelete(spParams, sequenceCount); result = tcFlashDelete.buildPacket( std::string(reinterpret_cast(commandData), commandDataLen)); if (result != RETURN_OK) { sequenceCount--; return result; } finishTcPrep(); return RETURN_OK; } ReturnValue_t PlocMPSoCHandler::prepareTcReplayStart(const uint8_t* commandData, size_t commandDataLen) { ReturnValue_t result = RETURN_OK; sequenceCount++; mpsoc::TcReplayStart tcReplayStart(spParams, sequenceCount); result = tcReplayStart.buildPacket(commandData, commandDataLen); if (result != RETURN_OK) { sequenceCount--; return result; } finishTcPrep(); return RETURN_OK; } ReturnValue_t PlocMPSoCHandler::prepareTcReplayStop() { ReturnValue_t result = RETURN_OK; sequenceCount++; mpsoc::TcReplayStop tcReplayStop(spParams, sequenceCount); result = tcReplayStop.buildPacket(); if (result != RETURN_OK) { sequenceCount--; return result; } finishTcPrep(); return RETURN_OK; } ReturnValue_t PlocMPSoCHandler::prepareTcDownlinkPwrOn(const uint8_t* commandData, size_t commandDataLen) { ReturnValue_t result = RETURN_OK; sequenceCount++; mpsoc::TcDownlinkPwrOn tcDownlinkPwrOn(spParams, sequenceCount); result = tcDownlinkPwrOn.buildPacket(commandData, commandDataLen); if (result != RETURN_OK) { sequenceCount--; return result; } finishTcPrep(); return RETURN_OK; } ReturnValue_t PlocMPSoCHandler::prepareTcDownlinkPwrOff() { ReturnValue_t result = RETURN_OK; sequenceCount++; mpsoc::TcDownlinkPwrOff tcDownlinkPwrOff(spParams, sequenceCount); result = tcDownlinkPwrOff.buildPacket(); if (result != RETURN_OK) { sequenceCount--; return result; } finishTcPrep(); return RETURN_OK; } ReturnValue_t PlocMPSoCHandler::prepareTcReplayWriteSequence(const uint8_t* commandData, size_t commandDataLen) { ReturnValue_t result = RETURN_OK; sequenceCount++; mpsoc::TcReplayWriteSeq tcReplayWriteSeq(spParams, sequenceCount); result = tcReplayWriteSeq.buildPacket(commandData, commandDataLen); if (result != RETURN_OK) { sequenceCount--; return result; } finishTcPrep(); return RETURN_OK; } ReturnValue_t PlocMPSoCHandler::prepareTcModeReplay() { ReturnValue_t result = RETURN_OK; sequenceCount++; mpsoc::TcModeReplay tcModeReplay(spParams, sequenceCount); result = tcModeReplay.buildPacket(); if (result != RETURN_OK) { sequenceCount--; return result; } finishTcPrep(); return RETURN_OK; } ReturnValue_t PlocMPSoCHandler::prepareTcModeIdle() { ReturnValue_t result = RETURN_OK; sequenceCount++; mpsoc::TcModeIdle tcModeIdle(spParams, sequenceCount); result = tcModeIdle.buildPacket(); if (result != RETURN_OK) { sequenceCount--; return result; } finishTcPrep(); return RETURN_OK; } ReturnValue_t PlocMPSoCHandler::prepareTcCamCmdSend(const uint8_t* commandData, size_t commandDataLen) { ReturnValue_t result = RETURN_OK; sequenceCount++; mpsoc::TcCamcmdSend tcCamCmdSend(spParams, sequenceCount); result = tcCamCmdSend.buildPacket(commandData, commandDataLen); if (result != RETURN_OK) { sequenceCount--; return result; } finishTcPrep(); nextReplyId = mpsoc::TM_CAM_CMD_RPT; return RETURN_OK; } void PlocMPSoCHandler::finishTcPrep() { nextReplyId = mpsoc::ACK_REPORT; } ReturnValue_t PlocMPSoCHandler::verifyPacket(const uint8_t* start, size_t foundLen) { uint16_t receivedCrc = *(start + foundLen - 2) << 8 | *(start + foundLen - 1); uint16_t recalculatedCrc = CRC::crc16ccitt(start, foundLen - 2); if (receivedCrc != recalculatedCrc) { return MPSoCReturnValuesIF::CRC_FAILURE; } return RETURN_OK; } ReturnValue_t PlocMPSoCHandler::handleAckReport(const uint8_t* data) { ReturnValue_t result = RETURN_OK; result = verifyPacket(data, mpsoc::SIZE_ACK_REPORT); if (result == MPSoCReturnValuesIF::CRC_FAILURE) { sif::warning << "PlocMPSoCHandler::handleAckReport: CRC failure" << std::endl; nextReplyId = mpsoc::NONE; replyRawReplyIfnotWiretapped(data, mpsoc::SIZE_ACK_REPORT); triggerEvent(MPSOC_HANDLER_CRC_FAILURE); sendFailureReport(mpsoc::ACK_REPORT, MPSoCReturnValuesIF::CRC_FAILURE); disableAllReplies(); return IGNORE_REPLY_DATA; } uint16_t apid = (*(data) << 8 | *(data + 1)) & APID_MASK; switch (apid) { case mpsoc::apid::ACK_FAILURE: { sif::debug << "PlocMPSoCHandler::handleAckReport: Received Ack failure report" << std::endl; DeviceCommandId_t commandId = getPendingCommand(); uint16_t status = getStatus(data); printStatus(data); if (commandId != DeviceHandlerIF::NO_COMMAND_ID) { triggerEvent(ACK_FAILURE, commandId, status); } sendFailureReport(mpsoc::ACK_REPORT, status); disableAllReplies(); nextReplyId = mpsoc::NONE; result = IGNORE_REPLY_DATA; break; } case mpsoc::apid::ACK_SUCCESS: { setNextReplyId(); break; } default: { sif::debug << "PlocMPSoCHandler::handleAckReport: Invalid APID in Ack report" << std::endl; result = RETURN_FAILED; break; } } return result; } ReturnValue_t PlocMPSoCHandler::handleExecutionReport(const uint8_t* data) { ReturnValue_t result = RETURN_OK; result = verifyPacket(data, mpsoc::SIZE_EXE_REPORT); if (result == MPSoCReturnValuesIF::CRC_FAILURE) { sif::warning << "PlocMPSoCHandler::handleExecutionReport: CRC failure" << std::endl; nextReplyId = mpsoc::NONE; return result; } uint16_t apid = (*(data) << 8 | *(data + 1)) & APID_MASK; switch (apid) { case (mpsoc::apid::EXE_SUCCESS): { break; } case (mpsoc::apid::EXE_FAILURE): { // TODO: Interpretation of status field in execution report sif::warning << "PlocMPSoCHandler::handleExecutionReport: Received execution failure report" << std::endl; DeviceCommandId_t commandId = getPendingCommand(); if (commandId != DeviceHandlerIF::NO_COMMAND_ID) { uint16_t status = getStatus(data); triggerEvent(EXE_FAILURE, commandId, status); } else { sif::debug << "PlocMPSoCHandler::handleExecutionReport: Unknown command id" << std::endl; } printStatus(data); sendFailureReport(mpsoc::EXE_REPORT, MPSoCReturnValuesIF::RECEIVED_EXE_FAILURE); disableExeReportReply(); result = IGNORE_REPLY_DATA; break; } default: { sif::warning << "PlocMPSoCHandler::handleExecutionReport: Unknown APID" << std::endl; result = RETURN_FAILED; break; } } nextReplyId = mpsoc::NONE; return result; } ReturnValue_t PlocMPSoCHandler::handleMemoryReadReport(const uint8_t* data) { ReturnValue_t result = RETURN_OK; result = verifyPacket(data, tmMemReadReport.rememberRequestedSize); if (result == MPSoCReturnValuesIF::CRC_FAILURE) { sif::warning << "PlocMPSoCHandler::handleMemoryReadReport: Memory read report has invalid crc" << std::endl; } uint16_t memLen = *(data + mpsoc::MEM_READ_RPT_LEN_OFFSET) << 8 | *(data + mpsoc::MEM_READ_RPT_LEN_OFFSET + 1); /** Send data to commanding queue */ handleDeviceTM(data + mpsoc::DATA_FIELD_OFFSET, mpsoc::SIZE_MEM_READ_RPT_FIX + memLen * 4, mpsoc::TM_MEMORY_READ_REPORT); nextReplyId = mpsoc::EXE_REPORT; return result; } ReturnValue_t PlocMPSoCHandler::handleCamCmdRpt(const uint8_t* data) { ReturnValue_t result = RETURN_OK; SpacePacket packet; std::memcpy(packet.getWholeData(), data, tmCamCmdRpt.rememberSpacePacketSize); result = verifyPacket(data, tmCamCmdRpt.rememberSpacePacketSize); if (result == MPSoCReturnValuesIF::CRC_FAILURE) { sif::warning << "PlocMPSoCHandler::handleCamCmdRpt: CRC failure" << std::endl; } const uint8_t* dataFieldPtr = data + mpsoc::SPACE_PACKET_HEADER_SIZE + sizeof(uint16_t); std::string camCmdRptMsg( reinterpret_cast(dataFieldPtr), tmCamCmdRpt.rememberSpacePacketSize - mpsoc::SPACE_PACKET_HEADER_SIZE - sizeof(uint16_t) - 3); #if OBSW_DEBUG_PLOC_MPSOC == 1 uint8_t ackValue = *(packet.getPacketData() + packet.getPacketDataLength() - 2); sif::info << "PlocMPSoCHandler: CamCmdRpt message: " << camCmdRptMsg << std::endl; sif::info << "PlocMPSoCHandler: CamCmdRpt Ack value: 0x" << std::hex << static_cast(ackValue) << std::endl; #endif /* OBSW_DEBUG_PLOC_MPSOC == 1 */ handleDeviceTM(packet.getPacketData() + sizeof(uint16_t), packet.getPacketDataLength() - 1, mpsoc::TM_CAM_CMD_RPT); return result; } ReturnValue_t PlocMPSoCHandler::enableReplyInReplyMap(DeviceCommandMap::iterator command, uint8_t expectedReplies, bool useAlternateId, DeviceCommandId_t alternateReplyID) { ReturnValue_t result = RETURN_OK; uint8_t enabledReplies = 0; switch (command->first) { case mpsoc::TC_MEM_WRITE: case mpsoc::TC_FLASHDELETE: case mpsoc::TC_REPLAY_START: case mpsoc::TC_REPLAY_STOP: case mpsoc::TC_DOWNLINK_PWR_ON: case mpsoc::TC_DOWNLINK_PWR_OFF: case mpsoc::TC_REPLAY_WRITE_SEQUENCE: case mpsoc::TC_MODE_REPLAY: case mpsoc::TC_MODE_IDLE: enabledReplies = 2; break; case mpsoc::TC_MEM_READ: { enabledReplies = 3; result = DeviceHandlerBase::enableReplyInReplyMap(command, enabledReplies, true, mpsoc::TM_MEMORY_READ_REPORT); if (result != RETURN_OK) { sif::debug << "PlocMPSoCHandler::enableReplyInReplyMap: Reply with id " << mpsoc::TM_MEMORY_READ_REPORT << " not in replyMap" << std::endl; return result; } break; } case mpsoc::TC_CAM_CMD_SEND: { enabledReplies = 3; result = DeviceHandlerBase::enableReplyInReplyMap(command, enabledReplies, true, mpsoc::TM_CAM_CMD_RPT); if (result != RETURN_OK) { sif::debug << "PlocMPSoCHandler::enableReplyInReplyMap: Reply with id " << mpsoc::TM_CAM_CMD_RPT << " not in replyMap" << std::endl; return result; } break; } case mpsoc::OBSW_RESET_SEQ_COUNT: break; default: sif::debug << "PlocMPSoCHandler::enableReplyInReplyMap: Unknown command id" << std::endl; break; } /** * Every command causes at least one acknowledgment and one execution report. Therefore both * replies will be enabled here. */ result = DeviceHandlerBase::enableReplyInReplyMap(command, enabledReplies, true, mpsoc::ACK_REPORT); if (result != RETURN_OK) { sif::debug << "PlocMPSoCHandler::enableReplyInReplyMap: Reply with id " << mpsoc::ACK_REPORT << " not in replyMap" << std::endl; } result = DeviceHandlerBase::enableReplyInReplyMap(command, enabledReplies, true, mpsoc::EXE_REPORT); if (result != RETURN_OK) { sif::debug << "PlocMPSoCHandler::enableReplyInReplyMap: Reply with id " << mpsoc::EXE_REPORT << " not in replyMap" << std::endl; } switch (command->first) { case mpsoc::TC_REPLAY_WRITE_SEQUENCE: { DeviceReplyIter iter = deviceReplyMap.find(mpsoc::EXE_REPORT); // Overwrite delay cycles because replay write sequence command can required up to // 30 seconds for execution iter->second.delayCycles = mpsoc::TC_WRITE_SEQ_EXECUTION_DELAY; break; } case mpsoc::TC_DOWNLINK_PWR_ON: { DeviceReplyIter iter = deviceReplyMap.find(mpsoc::EXE_REPORT); // iter->second.delayCycles = mpsoc::TC_DOWNLINK_PWR_ON; break; } default: break; } return RETURN_OK; } void PlocMPSoCHandler::setNextReplyId() { switch (getPendingCommand()) { case mpsoc::TC_MEM_READ: nextReplyId = mpsoc::TM_MEMORY_READ_REPORT; break; default: /* If no telemetry is expected the next reply is always the execution report */ nextReplyId = mpsoc::EXE_REPORT; break; } } size_t PlocMPSoCHandler::getNextReplyLength(DeviceCommandId_t commandId) { size_t replyLen = 0; if (nextReplyId == mpsoc::NONE) { return replyLen; } DeviceReplyIter iter = deviceReplyMap.find(nextReplyId); if (iter != deviceReplyMap.end()) { if (iter->second.delayCycles == 0) { /* Reply inactive */ return replyLen; } switch (nextReplyId) { case mpsoc::TM_MEMORY_READ_REPORT: { replyLen = tmMemReadReport.rememberRequestedSize; break; } case mpsoc::TM_CAM_CMD_RPT: // Read acknowledgment, camera and execution report in one go because length of camera // report is not fixed replyLen = mpsoc::SP_MAX_SIZE; break; default: { replyLen = iter->second.replyLen; break; } } } else { sif::debug << "PlocMPSoCHandler::getNextReplyLength: No entry for reply with reply id " << std::hex << nextReplyId << " in deviceReplyMap" << std::endl; } return replyLen; } ReturnValue_t PlocMPSoCHandler::doSendReadHook() { // Prevent DHB from polling UART during commands executed by the mpsoc helper task if (plocMPSoCHelperExecuting) { return RETURN_FAILED; } return RETURN_OK; } MessageQueueIF* PlocMPSoCHandler::getCommandQueuePtr() { return commandActionHelperQueue; } void PlocMPSoCHandler::stepSuccessfulReceived(ActionId_t actionId, uint8_t step) { return; } void PlocMPSoCHandler::stepFailedReceived(ActionId_t actionId, uint8_t step, ReturnValue_t returnCode) { switch (actionId) { case supv::START_MPSOC: { sif::warning << "PlocMPSoCHandler::stepFailedReceived: Failed to start MPSoC" << std::endl; // This usually happens when the supervisor handler is in off mode powerState = PowerState::OFF; setMode(MODE_OFF); break; } case supv::SHUTDOWN_MPSOC: { triggerEvent(MPSOC_SHUTDOWN_FAILED); sif::warning << "PlocMPSoCHandler::stepFailedReceived: Failed to shutdown MPSoC" << std::endl; powerState = PowerState::OFF; break; } default: sif::debug << "PlocMPSoCHandler::stepFailedReceived: Received unexpected action reply" << std::endl; break; } } void PlocMPSoCHandler::dataReceived(ActionId_t actionId, const uint8_t* data, uint32_t size) { return; } void PlocMPSoCHandler::completionSuccessfulReceived(ActionId_t actionId) { if (actionId != supv::EXE_REPORT) { sif::debug << "PlocMPSoCHandler::completionSuccessfulReceived: Did not expect this action " << "ID" << std::endl; return; } switch (powerState) { case PowerState::BOOTING: { powerState = PowerState::ON; break; } case PowerState::SHUTDOWN: { powerState = PowerState::OFF; break; } default: { break; } } } void PlocMPSoCHandler::completionFailedReceived(ActionId_t actionId, ReturnValue_t returnCode) { handleActionCommandFailure(actionId); } void PlocMPSoCHandler::handleDeviceTM(const uint8_t* data, size_t dataSize, DeviceCommandId_t replyId) { ReturnValue_t result = RETURN_OK; if (wiretappingMode == RAW) { /* Data already sent in doGetRead() */ return; } DeviceReplyMap::iterator iter = deviceReplyMap.find(replyId); if (iter == deviceReplyMap.end()) { sif::debug << "PlocMPSoCHandler::handleDeviceTM: Unknown reply id" << std::endl; return; } MessageQueueId_t queueId = iter->second.command->second.sendReplyTo; if (queueId == NO_COMMANDER) { return; } result = actionHelper.reportData(queueId, replyId, data, dataSize); if (result != RETURN_OK) { sif::debug << "PlocMPSoCHandler::handleDeviceTM: Failed to report data" << std::endl; } } void PlocMPSoCHandler::disableAllReplies() { using namespace mpsoc; DeviceReplyMap::iterator iter; /* Disable ack reply */ iter = deviceReplyMap.find(ACK_REPORT); DeviceReplyInfo* info = &(iter->second); info->delayCycles = 0; info->command = deviceCommandMap.end(); DeviceCommandId_t commandId = getPendingCommand(); /* If the command expects a telemetry packet the appropriate tm reply will be disabled here */ switch (commandId) { case TC_MEM_WRITE: break; case TC_MEM_READ: { iter = deviceReplyMap.find(TM_MEMORY_READ_REPORT); info = &(iter->second); info->delayCycles = 0; info->active = false; info->command = deviceCommandMap.end(); break; } case TC_CAM_CMD_SEND: { iter = deviceReplyMap.find(TM_CAM_CMD_RPT); info = &(iter->second); info->delayCycles = 0; info->active = false; info->command = deviceCommandMap.end(); break; } default: { sif::debug << "PlocMPSoCHandler::disableAllReplies: Unknown command id: " << commandId << std::endl; break; } } /* We always need to disable the execution report reply here */ disableExeReportReply(); nextReplyId = mpsoc::NONE; } void PlocMPSoCHandler::sendFailureReport(DeviceCommandId_t replyId, ReturnValue_t status) { DeviceReplyIter iter = deviceReplyMap.find(replyId); if (iter == deviceReplyMap.end()) { sif::debug << "PlocMPSoCHandler::sendFailureReport: Reply not in reply map" << std::endl; return; } DeviceCommandInfo* info = &(iter->second.command->second); if (info == nullptr) { sif::debug << "PlocMPSoCHandler::sendFailureReport: Reply has no active command" << std::endl; return; } if (info->sendReplyTo != NO_COMMANDER) { actionHelper.finish(false, info->sendReplyTo, iter->first, status); } info->isExecuting = false; } void PlocMPSoCHandler::disableExeReportReply() { DeviceReplyIter iter = deviceReplyMap.find(mpsoc::EXE_REPORT); DeviceReplyInfo* info = &(iter->second); info->delayCycles = 0; info->command = deviceCommandMap.end(); /* Expected replies is set to one here. The value will be set to 0 in replyToReply() */ info->command->second.expectedReplies = 0; } void PlocMPSoCHandler::printStatus(const uint8_t* data) { uint16_t status = *(data + STATUS_OFFSET) << 8 | *(data + STATUS_OFFSET + 1); sif::info << "Verification report status: " << getStatusString(status) << std::endl; } uint16_t PlocMPSoCHandler::getStatus(const uint8_t* data) { return *(data + STATUS_OFFSET) << 8 | *(data + STATUS_OFFSET + 1); } void PlocMPSoCHandler::handleActionCommandFailure(ActionId_t actionId) { switch (actionId) { case supv::ACK_REPORT: case supv::EXE_REPORT: break; default: sif::debug << "PlocMPSoCHandler::handleActionCommandFailure: Did not expect this action ID " << std::endl; return; } switch (powerState) { case PowerState::BOOTING: { sif::info << "PlocMPSoCHandler::handleActionCommandFailure: MPSoC boot command failed" << std::endl; // This is commonly the case when the MPSoC is already operational. Thus the power state is // set to on here powerState = PowerState::ON; break; } case PowerState::SHUTDOWN: { // FDIR will intercept event and switch PLOC power off triggerEvent(MPSOC_SHUTDOWN_FAILED); sif::warning << "PlocMPSoCHandler::handleActionCommandFailure: Failed to shutdown MPSoC" << std::endl; powerState = PowerState::OFF; break; } default: break; } return; } std::string PlocMPSoCHandler::getStatusString(uint16_t status) { switch (status) { case (mpsoc::status_code::UNKNOWN_APID): { return "Unknown APID"; break; } case (mpsoc::status_code::INCORRECT_LENGTH): { return "Incorrect length"; break; } case (mpsoc::status_code::INCORRECT_CRC): { return "Incorrect crc"; break; } case (mpsoc::status_code::INCORRECT_PKT_SEQ_CNT): { return "Incorrect packet sequence count"; break; } case (mpsoc::status_code::TC_NOT_ALLOWED_IN_MODE): { return "TC not allowed in this mode"; break; } case (mpsoc::status_code::TC_EXEUTION_DISABLED): { return "TC execution disabled"; break; } case (mpsoc::status_code::FLASH_MOUNT_FAILED): { return "Flash mount failed"; break; } case (mpsoc::status_code::FLASH_FILE_ALREADY_CLOSED): { return "Flash file already closed"; break; } case (mpsoc::status_code::FLASH_FILE_NOT_OPEN): { return "Flash file not open"; break; } case (mpsoc::status_code::FLASH_UNMOUNT_FAILED): { return "Flash unmount failed"; break; } case (mpsoc::status_code::HEAP_ALLOCATION_FAILED): { return "Heap allocation failed"; break; } case (mpsoc::status_code::INVALID_PARAMETER): { return "Invalid parameter"; break; } case (mpsoc::status_code::NOT_INITIALIZED): { return "Not initialized"; break; } case (mpsoc::status_code::REBOOT_IMMINENT): { return "Reboot imminent"; break; } case (mpsoc::status_code::CORRUPT_DATA): { return "Corrupt data"; break; } case (mpsoc::status_code::FLASH_CORRECTABLE_MISMATCH): { return "Flash correctable mismatch"; break; } case (mpsoc::status_code::FLASH_UNCORRECTABLE_MISMATCH): { return "Flash uncorrectable mismatch"; break; } default: break; } return ""; }