#include "PCDUHandler.h" #include #include #include #include #include #include #include PCDUHandler::PCDUHandler(object_id_t setObjectId, size_t cmdQueueSize) : SystemObject(setObjectId), poolManager(this, nullptr), pdu1CoreHk(this), pdu2CoreHk(this), switcherSet(this), cmdQueueSize(cmdQueueSize) { auto mqArgs = MqArgs(setObjectId, static_cast(this)); commandQueue = QueueFactory::instance()->createMessageQueue( cmdQueueSize, MessageQueueMessage::MAX_MESSAGE_SIZE, &mqArgs); pwrMutex = MutexFactory::instance()->createMutex(); } PCDUHandler::~PCDUHandler() {} ReturnValue_t PCDUHandler::performOperation(uint8_t counter) { if (counter == DeviceHandlerIF::PERFORM_OPERATION) { readCommandQueue(); return RETURN_OK; } return RETURN_OK; } ReturnValue_t PCDUHandler::initialize() { ReturnValue_t result; IPCStore = ObjectManager::instance()->get(objects::IPC_STORE); if (IPCStore == nullptr) { return ObjectManagerIF::CHILD_INIT_FAILED; } result = poolManager.initialize(commandQueue); if (result != HasReturnvaluesIF::RETURN_OK) { return result; } /* Subscribing for housekeeping table update messages of the PDU2 */ HasLocalDataPoolIF* pdu2Handler = ObjectManager::instance()->get(objects::PDU2_HANDLER); if (pdu2Handler == nullptr) { sif::error << "PCDUHandler::initialize: Invalid pdu2Handler" << std::endl; return RETURN_FAILED; } result = pdu2Handler->getSubscriptionInterface()->subscribeForSetUpdateMessage( static_cast(P60System::SetIds::PDU_2_CORE), this->getObjectId(), commandQueue->getId(), true); if (result != RETURN_OK) { sif::error << "PCDUHandler::initialize: Failed to subscribe for set update messages from " << "PDU2Handler" << std::endl; return result; } /* Subscribing for housekeeping table update messages of the PDU1 */ HasLocalDataPoolIF* pdu1Handler = ObjectManager::instance()->get(objects::PDU1_HANDLER); if (pdu1Handler == nullptr) { sif::error << "PCDUHandler::initialize: Invalid pdu1Handler" << std::endl; return RETURN_FAILED; } result = pdu1Handler->getSubscriptionInterface()->subscribeForSetUpdateMessage( static_cast(P60System::SetIds::PDU_1_CORE), this->getObjectId(), commandQueue->getId(), true); if (result != RETURN_OK) { sif::error << "PCDUHandler::initialize: Failed to subscribe for set update messages from " << "PDU1Handler" << std::endl; return result; } return RETURN_OK; } void PCDUHandler::initializeSwitchStates() { using namespace pcdu; try { for (uint8_t idx = 0; idx < NUMBER_OF_SWITCHES; idx++) { if (idx < PDU::CHANNELS_LEN) { switchStates[idx] = INIT_SWITCHES_PDU1.at(idx); } else { switchStates[idx] = INIT_SWITCHES_PDU2.at(idx - PDU::CHANNELS_LEN); } } } catch (const std::out_of_range& err) { sif::error << "PCDUHandler::initializeSwitchStates: " << err.what() << std::endl; } } void PCDUHandler::readCommandQueue() { ReturnValue_t result = RETURN_OK; CommandMessage command; for (result = commandQueue->receiveMessage(&command); result == RETURN_OK; result = commandQueue->receiveMessage(&command)) { result = poolManager.handleHousekeepingMessage(&command); if (result == RETURN_OK) { continue; } } } MessageQueueId_t PCDUHandler::getCommandQueue() const { return commandQueue->getId(); } void PCDUHandler::handleChangedDataset(sid_t sid, store_address_t storeId, bool* clearMessage) { if (sid == sid_t(objects::PDU2_HANDLER, static_cast(P60System::SetIds::PDU_2_CORE))) { updateHkTableDataset(storeId, &pdu2CoreHk, &timeStampPdu2HkDataset); updatePdu2SwitchStates(); } else if (sid == sid_t(objects::PDU1_HANDLER, static_cast(P60System::SetIds::PDU_1_CORE))) { updateHkTableDataset(storeId, &pdu1CoreHk, &timeStampPdu1HkDataset); updatePdu1SwitchStates(); } else { sif::error << "PCDUHandler::handleChangedDataset: Invalid sid" << std::endl; } } void PCDUHandler::updateHkTableDataset(store_address_t storeId, LocalPoolDataSetBase* dataset, CCSDSTime::CDS_short* datasetTimeStamp) { ReturnValue_t result; HousekeepingSnapshot packetUpdate(reinterpret_cast(datasetTimeStamp), sizeof(CCSDSTime::CDS_short), dataset); const uint8_t* packet_ptr = nullptr; size_t size = 0; result = IPCStore->getData(storeId, &packet_ptr, &size); if (result != RETURN_OK) { sif::error << "PCDUHandler::updateHkTableDataset: Failed to get data from IPCStore." << std::endl; } result = packetUpdate.deSerialize(&packet_ptr, &size, SerializeIF::Endianness::MACHINE); if (result != RETURN_OK) { sif::error << "PCDUHandler::updateHkTableDataset: Failed to deserialize received packet " "in hk table dataset" << std::endl; } result = IPCStore->deleteData(storeId); if (result != RETURN_OK) { sif::error << "PCDUHandler::updateHkTableDataset: Failed to delete data in IPCStore" << std::endl; } } void PCDUHandler::updatePdu2SwitchStates() { using namespace pcdu; using namespace PDU2; GOMSPACE::Pdu pdu = GOMSPACE::Pdu::PDU2; PoolReadGuard rg0(&switcherSet); if (rg0.getReadResult() == RETURN_OK) { for (uint8_t idx = 0; idx < PDU::CHANNELS_LEN; idx++) { switcherSet.pdu2Switches[idx] = pdu2CoreHk.outputEnables[idx]; } MutexGuard mg(pwrMutex); checkAndUpdateSwitch(pdu, Switches::PDU2_CH0_Q7S, pdu2CoreHk.outputEnables[Channels::Q7S]); checkAndUpdateSwitch(pdu, Switches::PDU2_CH1_PL_PCDU_BATT_0_14V8, pdu2CoreHk.outputEnables[Channels::PAYLOAD_PCDU_CH1]); checkAndUpdateSwitch(pdu, Switches::PDU2_CH2_RW_5V, pdu2CoreHk.outputEnables[Channels::RW]); checkAndUpdateSwitch(pdu, Switches::PDU2_CH3_TCS_BOARD_HEATER_IN_8V, pdu2CoreHk.outputEnables[Channels::TCS_HEATER_IN]); checkAndUpdateSwitch(pdu, Switches::PDU2_CH4_SUS_REDUNDANT_3V3, pdu2CoreHk.outputEnables[Channels::SUS_REDUNDANT]); checkAndUpdateSwitch(pdu, Switches::PDU2_CH5_DEPLOYMENT_MECHANISM_8V, pdu2CoreHk.outputEnables[Channels::DEPY_MECHANISM]); checkAndUpdateSwitch(pdu, Switches::PDU2_CH6_PL_PCDU_BATT_1_14V8, pdu2CoreHk.outputEnables[Channels::PAYLOAD_PCDU_CH6]); checkAndUpdateSwitch(pdu, Switches::PDU2_CH7_ACS_BOARD_SIDE_B_3V3, pdu2CoreHk.outputEnables[Channels::ACS_B_SIDE]); checkAndUpdateSwitch(pdu, Switches::PDU2_CH8_PAYLOAD_CAMERA, pdu2CoreHk.outputEnables[Channels::PAYLOAD_CAMERA]); if (firstSwitchInfoPdu2) { firstSwitchInfoPdu2 = false; } } else { sif::debug << "PCDUHandler::updatePdu2SwitchStates: Failed to read PDU2 Hk Dataset" << std::endl; } } void PCDUHandler::updatePdu1SwitchStates() { using namespace pcdu; using namespace PDU1; PoolReadGuard rg0(&switcherSet); GOMSPACE::Pdu pdu = GOMSPACE::Pdu::PDU1; if (rg0.getReadResult() == RETURN_OK) { for (uint8_t idx = 0; idx < PDU::CHANNELS_LEN; idx++) { switcherSet.pdu1Switches[idx] = pdu1CoreHk.outputEnables[idx]; } MutexGuard mg(pwrMutex); checkAndUpdateSwitch(pdu, Switches::PDU1_CH0_TCS_BOARD_3V3, pdu1CoreHk.outputEnables[Channels::TCS_BOARD_3V3]); checkAndUpdateSwitch(pdu, Switches::PDU1_CH1_SYRLINKS_12V, pdu1CoreHk.outputEnables[Channels::SYRLINKS]); checkAndUpdateSwitch(pdu, Switches::PDU1_CH2_STAR_TRACKER_5V, pdu1CoreHk.outputEnables[Channels::STR]); checkAndUpdateSwitch(pdu, Switches::PDU1_CH3_MGT_5V, pdu1CoreHk.outputEnables[Channels::MGT]); checkAndUpdateSwitch(pdu, Switches::PDU1_CH4_SUS_NOMINAL_3V3, pdu1CoreHk.outputEnables[Channels::SUS_NOMINAL]); checkAndUpdateSwitch(pdu, Switches::PDU1_CH5_SOLAR_CELL_EXP_5V, pdu1CoreHk.outputEnables[Channels::SOL_CELL_EXPERIMENT]); checkAndUpdateSwitch(pdu, Switches::PDU1_CH6_PLOC_12V, pdu1CoreHk.outputEnables[Channels::PLOC]); checkAndUpdateSwitch(pdu, Switches::PDU1_CH7_ACS_A_SIDE_3V3, pdu1CoreHk.outputEnables[Channels::ACS_A_SIDE]); checkAndUpdateSwitch(pdu, Switches::PDU1_CH8_UNOCCUPIED, pdu1CoreHk.outputEnables[Channels::UNUSED]); if (firstSwitchInfoPdu1) { firstSwitchInfoPdu1 = false; } } else { sif::debug << "PCDUHandler::updatePdu1SwitchStates: Failed to read dataset" << std::endl; } } LocalDataPoolManager* PCDUHandler::getHkManagerHandle() { return &poolManager; } ReturnValue_t PCDUHandler::sendSwitchCommand(uint8_t switchNr, ReturnValue_t onOff) { using namespace pcdu; ReturnValue_t result; uint16_t memoryAddress = 0; size_t parameterValueSize = sizeof(uint8_t); uint8_t parameterValue = 0; GomspaceDeviceHandler* pdu = nullptr; switch (switchNr) { case pcdu::PDU1_CH0_TCS_BOARD_3V3: { memoryAddress = PDU1::CONFIG_ADDRESS_OUT_EN_TCS_BOARD_3V3; pdu = ObjectManager::instance()->get(objects::PDU1_HANDLER); break; } case pcdu::PDU1_CH1_SYRLINKS_12V: { memoryAddress = PDU1::CONFIG_ADDRESS_OUT_EN_SYRLINKS; pdu = ObjectManager::instance()->get(objects::PDU1_HANDLER); break; } case pcdu::PDU1_CH2_STAR_TRACKER_5V: { memoryAddress = PDU1::CONFIG_ADDRESS_OUT_EN_STAR_TRACKER; pdu = ObjectManager::instance()->get(objects::PDU1_HANDLER); break; } case pcdu::PDU1_CH3_MGT_5V: { memoryAddress = PDU1::CONFIG_ADDRESS_OUT_EN_MGT; pdu = ObjectManager::instance()->get(objects::PDU1_HANDLER); break; } case pcdu::PDU1_CH4_SUS_NOMINAL_3V3: { memoryAddress = PDU1::CONFIG_ADDRESS_OUT_EN_SUS_NOMINAL; pdu = ObjectManager::instance()->get(objects::PDU1_HANDLER); break; } case pcdu::PDU1_CH5_SOLAR_CELL_EXP_5V: { memoryAddress = PDU1::CONFIG_ADDRESS_OUT_EN_SOLAR_CELL_EXP; pdu = ObjectManager::instance()->get(objects::PDU1_HANDLER); break; } case pcdu::PDU1_CH6_PLOC_12V: { memoryAddress = PDU1::CONFIG_ADDRESS_OUT_EN_PLOC; pdu = ObjectManager::instance()->get(objects::PDU1_HANDLER); break; } case pcdu::PDU1_CH7_ACS_A_SIDE_3V3: { memoryAddress = PDU1::CONFIG_ADDRESS_OUT_EN_ACS_BOARD_SIDE_A; pdu = ObjectManager::instance()->get(objects::PDU1_HANDLER); break; } case pcdu::PDU1_CH8_UNOCCUPIED: { memoryAddress = PDU1::CONFIG_ADDRESS_OUT_EN_CHANNEL8; pdu = ObjectManager::instance()->get(objects::PDU1_HANDLER); break; } // This is a dangerous command. Reject/Igore it for now case pcdu::PDU2_CH0_Q7S: { return RETURN_FAILED; // memoryAddress = PDU2::CONFIG_ADDRESS_OUT_EN_Q7S; // pdu = ObjectManager::instance()->get(objects::PDU2_HANDLER); // break; } case pcdu::PDU2_CH1_PL_PCDU_BATT_0_14V8: { memoryAddress = PDU2::CONFIG_ADDRESS_OUT_EN_PAYLOAD_PCDU_CH1; pdu = ObjectManager::instance()->get(objects::PDU2_HANDLER); break; } case pcdu::PDU2_CH2_RW_5V: { memoryAddress = PDU2::CONFIG_ADDRESS_OUT_EN_RW; pdu = ObjectManager::instance()->get(objects::PDU2_HANDLER); break; } case pcdu::PDU2_CH3_TCS_BOARD_HEATER_IN_8V: { memoryAddress = PDU2::CONFIG_ADDRESS_OUT_EN_TCS_BOARD_HEATER_IN; pdu = ObjectManager::instance()->get(objects::PDU2_HANDLER); break; } case pcdu::PDU2_CH4_SUS_REDUNDANT_3V3: { memoryAddress = PDU2::CONFIG_ADDRESS_OUT_EN_SUS_REDUNDANT; pdu = ObjectManager::instance()->get(objects::PDU2_HANDLER); break; } case pcdu::PDU2_CH5_DEPLOYMENT_MECHANISM_8V: { memoryAddress = PDU2::CONFIG_ADDRESS_OUT_EN_DEPLOYMENT_MECHANISM; pdu = ObjectManager::instance()->get(objects::PDU2_HANDLER); break; } case pcdu::PDU2_CH6_PL_PCDU_BATT_1_14V8: { memoryAddress = PDU2::CONFIG_ADDRESS_OUT_EN_PAYLOAD_PCDU_CH6; pdu = ObjectManager::instance()->get(objects::PDU2_HANDLER); break; } case pcdu::PDU2_CH7_ACS_BOARD_SIDE_B_3V3: { memoryAddress = PDU2::CONFIG_ADDRESS_OUT_EN_ACS_BOARD_SIDE_B; pdu = ObjectManager::instance()->get(objects::PDU2_HANDLER); break; } case pcdu::PDU2_CH8_PAYLOAD_CAMERA: { memoryAddress = PDU2::CONFIG_ADDRESS_OUT_EN_PAYLOAD_CAMERA; pdu = ObjectManager::instance()->get(objects::PDU2_HANDLER); break; } default: { sif::error << "PCDUHandler::sendSwitchCommand: Invalid switch number " << std::endl; return RETURN_FAILED; } } switch (onOff) { case PowerSwitchIF::SWITCH_ON: parameterValue = 1; break; case PowerSwitchIF::SWITCH_OFF: parameterValue = 0; break; default: sif::error << "PCDUHandler::sendSwitchCommand: Invalid state commanded" << std::endl; return RETURN_FAILED; } GomspaceSetParamMessage setParamMessage(memoryAddress, ¶meterValue, parameterValueSize); size_t serializedLength = 0; uint8_t command[4]; uint8_t* commandPtr = command; size_t maxSize = sizeof(command); setParamMessage.serialize(&commandPtr, &serializedLength, maxSize, SerializeIF::Endianness::BIG); store_address_t storeAddress; result = IPCStore->addData(&storeAddress, command, sizeof(command)); CommandMessage message; ActionMessage::setCommand(&message, GomspaceCommands::PARAM_SET, storeAddress); result = commandQueue->sendMessage(pdu->getCommandQueue(), &message, 0); if (result != RETURN_OK) { sif::debug << "PCDUHandler::sendSwitchCommand: Failed to send message to PDU Handler" << std::endl; } else { // Can't use trigger event because of const function constraint, but this hack seems to work this->forwardEvent(power::SWITCH_CMD_SENT, parameterValue, switchNr); } return result; } ReturnValue_t PCDUHandler::sendFuseOnCommand(uint8_t fuseNr) { return RETURN_OK; } ReturnValue_t PCDUHandler::getSwitchState(uint8_t switchNr) const { if (switchNr >= pcdu::NUMBER_OF_SWITCHES) { sif::debug << "PCDUHandler::getSwitchState: Invalid switch number" << std::endl; return RETURN_FAILED; } pwrMutex->lockMutex(); uint8_t currentState = switchStates[switchNr]; pwrMutex->unlockMutex(); if (currentState == 1) { return PowerSwitchIF::SWITCH_ON; } else { return PowerSwitchIF::SWITCH_OFF; } } ReturnValue_t PCDUHandler::getFuseState(uint8_t fuseNr) const { return RETURN_OK; } uint32_t PCDUHandler::getSwitchDelayMs(void) const { return 20000; } object_id_t PCDUHandler::getObjectId() const { return SystemObject::getObjectId(); } ReturnValue_t PCDUHandler::initializeLocalDataPool(localpool::DataPool& localDataPoolMap, LocalDataPoolManager& poolManager) { using namespace pcdu; localDataPoolMap.emplace(PoolIds::PDU1_SWITCHES, &pdu1Switches); localDataPoolMap.emplace(PoolIds::PDU2_SWITCHES, &pdu2Switches); poolManager.subscribeForPeriodicPacket(switcherSet.getSid(), false, 5.0, true); return HasReturnvaluesIF::RETURN_OK; } ReturnValue_t PCDUHandler::initializeAfterTaskCreation() { if (executingTask != nullptr) { pstIntervalMs = executingTask->getPeriodMs(); } this->poolManager.initializeAfterTaskCreation(); initializeSwitchStates(); return HasReturnvaluesIF::RETURN_OK; } uint32_t PCDUHandler::getPeriodicOperationFrequency() const { return pstIntervalMs; } void PCDUHandler::setTaskIF(PeriodicTaskIF* task) { executingTask = task; } LocalPoolDataSetBase* PCDUHandler::getDataSetHandle(sid_t sid) { if (sid == switcherSet.getSid()) { return &switcherSet; } else { sif::error << "PCDUHandler::getDataSetHandle: Invalid sid" << std::endl; return nullptr; } } void PCDUHandler::checkAndUpdateSwitch(GOMSPACE::Pdu pdu, pcdu::Switches switchIdx, uint8_t setValue) { using namespace pcdu; if (switchStates[switchIdx] != setValue) { #if OBSW_INITIALIZE_SWITCHES == 1 // This code initializes the switches to the default init switch states on every reboot. // This is not done by the PCDU unless it is power-cycled. if (((pdu == GOMSPACE::Pdu::PDU1) and firstSwitchInfoPdu1) or ((pdu == GOMSPACE::Pdu::PDU2) and firstSwitchInfoPdu2)) { ReturnValue_t state = PowerSwitchIF::SWITCH_OFF; if (INIT_SWITCH_STATES[switchIdx] == ON) { state = PowerSwitchIF::SWITCH_ON; } sendSwitchCommand(switchIdx, state); } else { triggerEvent(power::SWITCH_HAS_CHANGED, setValue, switchIdx); } #else triggerEvent(power::SWITCH_HAS_CHANGED, setValue, switchIdx); #endif } switchStates[switchIdx] = setValue; }