#include "GpsHyperionLinuxController.h" #include #include #include "OBSWConfig.h" #include "fsfw/FSFW.h" #include "fsfw/datapool/PoolReadGuard.h" #include "fsfw/timemanager/Clock.h" #include "linux/utility/utility.h" #include "mission/utility/compileTime.h" #if FSFW_DEV_HYPERION_GPS_CREATE_NMEA_CSV == 1 #include #include #endif #include #include GpsHyperionLinuxController::GpsHyperionLinuxController(object_id_t objectId, object_id_t parentId, bool debugHyperionGps) : ExtendedControllerBase(objectId), gpsSet(this), debugHyperionGps(debugHyperionGps) { timeUpdateCd.resetTimer(); } GpsHyperionLinuxController::~GpsHyperionLinuxController() { gps_stream(&gps, WATCH_DISABLE, nullptr); gps_close(&gps); } LocalPoolDataSetBase *GpsHyperionLinuxController::getDataSetHandle(sid_t sid) { return &gpsSet; } ReturnValue_t GpsHyperionLinuxController::checkModeCommand(Mode_t mode, Submode_t submode, uint32_t *msToReachTheMode) { if (not modeCommanded) { if (mode == MODE_ON or mode == MODE_OFF) { // 5h time to reach fix *msToReachTheMode = MAX_SECONDS_TO_REACH_FIX; maxTimeToReachFix.resetTimer(); modeCommanded = true; } else if (mode == MODE_NORMAL) { return HasModesIF::INVALID_MODE; } } if (mode == MODE_OFF) { PoolReadGuard pg(&gpsSet); gpsSet.setValidity(false, true); // There can't be a fix with a device that is off. triggerEvent(GpsHyperion::GPS_FIX_CHANGE, gpsSet.fixMode.value, 0); oneShotSwitches.reset(); modeCommanded = false; } return returnvalue::OK; } ReturnValue_t GpsHyperionLinuxController::executeAction(ActionId_t actionId, MessageQueueId_t commandedBy, const uint8_t *data, size_t size) { switch (actionId) { case (GpsHyperion::TRIGGER_RESET_PIN_GNSS): { if (resetCallback != nullptr) { PoolReadGuard pg(&gpsSet); // Set HK entries invalid gpsSet.setValidity(false, true); resetCallback(data, size, resetCallbackArgs); return HasActionsIF::EXECUTION_FINISHED; } return DeviceHandlerIF::COMMAND_NOT_IMPLEMENTED; } } return returnvalue::OK; } ReturnValue_t GpsHyperionLinuxController::initializeLocalDataPool( localpool::DataPool &localDataPoolMap, LocalDataPoolManager &poolManager) { localDataPoolMap.emplace(GpsHyperion::ALTITUDE, new PoolEntry({0.0})); localDataPoolMap.emplace(GpsHyperion::LONGITUDE, new PoolEntry({0.0})); localDataPoolMap.emplace(GpsHyperion::LATITUDE, new PoolEntry({0.0})); localDataPoolMap.emplace(GpsHyperion::SPEED, new PoolEntry({0.0})); localDataPoolMap.emplace(GpsHyperion::YEAR, new PoolEntry()); localDataPoolMap.emplace(GpsHyperion::MONTH, new PoolEntry()); localDataPoolMap.emplace(GpsHyperion::DAY, new PoolEntry()); localDataPoolMap.emplace(GpsHyperion::HOURS, new PoolEntry()); localDataPoolMap.emplace(GpsHyperion::MINUTES, new PoolEntry()); localDataPoolMap.emplace(GpsHyperion::SECONDS, new PoolEntry()); localDataPoolMap.emplace(GpsHyperion::UNIX_SECONDS, new PoolEntry()); localDataPoolMap.emplace(GpsHyperion::SATS_IN_USE, new PoolEntry()); localDataPoolMap.emplace(GpsHyperion::SATS_IN_VIEW, new PoolEntry()); localDataPoolMap.emplace(GpsHyperion::FIX_MODE, new PoolEntry()); poolManager.subscribeForRegularPeriodicPacket({gpsSet.getSid(), false, 30.0}); return returnvalue::OK; } void GpsHyperionLinuxController::setResetPinTriggerFunction(gpioResetFunction_t resetCallback, void *args) { this->resetCallback = resetCallback; resetCallbackArgs = args; } ReturnValue_t GpsHyperionLinuxController::performOperation(uint8_t opCode) { handleQueue(); poolManager.performHkOperation(); while (true) { bool callAgainImmediately = readGpsDataFromGpsd(); if (not callAgainImmediately) { handleQueue(); poolManager.performHkOperation(); TaskFactory::delayTask(250); } } // Should never be reached. return returnvalue::OK; } ReturnValue_t GpsHyperionLinuxController::initialize() { ReturnValue_t result = ExtendedControllerBase::initialize(); if (result != returnvalue::OK) { return result; } auto openError = [&](const char *type, int error) { // Opening failed #if FSFW_VERBOSE_LEVEL >= 1 sif::warning << "GPSHyperionHandler::readGpsDataFromGpsd: Opening GPSMM " << type << " failed | Error " << error << " | " << gps_errstr(error) << std::endl; #endif }; if (readMode == ReadModes::SOCKET) { int retval = gps_open("localhost", DEFAULT_GPSD_PORT, &gps); if (retval != 0) { openError("Socket", retval); return ObjectManager::CHILD_INIT_FAILED; } gps_stream(&gps, WATCH_ENABLE | WATCH_JSON, nullptr); } else if (readMode == ReadModes::SHM) { int retval = gps_open(GPSD_SHARED_MEMORY, "", &gps); if (retval != 0) { openError("SHM", retval); return ObjectManager::CHILD_INIT_FAILED; } } return result; } ReturnValue_t GpsHyperionLinuxController::handleCommandMessage(CommandMessage *message) { return ExtendedControllerBase::handleCommandMessage(message); } void GpsHyperionLinuxController::performControlOperation() {} bool GpsHyperionLinuxController::readGpsDataFromGpsd() { auto readError = [&]() { if (oneShotSwitches.gpsReadFailedSwitch) { oneShotSwitches.gpsReadFailedSwitch = false; sif::warning << "GPSHyperionHandler::readGpsDataFromGpsd: Reading GPS data failed | " "Error " << errno << " | " << gps_errstr(errno) << std::endl; } }; // GPS is off, no point in reading data from GPSD. if(mode == MODE_OFF) { return false; } if (readMode == ReadModes::SOCKET) { // Perform other necessary handling if not data seen for 0.2 seconds. if (gps_waiting(&gps, 0)) { if (-1 == gps_read(&gps)) { readError(); return false; } oneShotSwitches.gpsReadFailedSwitch = true; if (MODE_SET != (MODE_SET & gps.set)) { if (mode != MODE_OFF and maxTimeToReachFix.hasTimedOut() and oneShotSwitches.cantGetFixSwitch) { sif::warning << "GPSHyperionHandler::readGpsDataFromGpsd: No mode could be set in allowed " << maxTimeToReachFix.timeout / 1000 << " seconds" << std::endl; triggerEvent(GpsHyperion::CANT_GET_FIX, maxTimeToReachFix.timeout); oneShotSwitches.cantGetFixSwitch = false; // did not event get mode, nothing to see. return false; } } noModeSetCntr = 0; } else { return false; } } else if (readMode == ReadModes::SHM) { sif::error << "GpsHyperionLinuxController::readGpsDataFromGpsdPermanentLoop: " "SHM read not implemented" << std::endl; } handleGpsReadData(); return true; } ReturnValue_t GpsHyperionLinuxController::handleGpsReadData() { PoolReadGuard pg(&gpsSet); if (pg.getReadResult() != returnvalue::OK) { #if FSFW_VERBOSE_LEVEL >= 1 sif::warning << "GPSHyperionHandler::readGpsDataFromGpsd: Reading dataset failed" << std::endl; #endif return returnvalue::FAILED; } bool validFix = false; // 0: Not seen, 1: No fix, 2: 2D-Fix, 3: 3D-Fix if (gps.fix.mode == 2 or gps.fix.mode == 3) { validFix = true; } if (gpsSet.fixMode.value != gps.fix.mode) { triggerEvent(GpsHyperion::GPS_FIX_CHANGE, gpsSet.fixMode.value, gps.fix.mode); } gpsSet.fixMode.value = gps.fix.mode; if (gps.fix.mode == 0 or gps.fix.mode == 1) { if (modeCommanded and maxTimeToReachFix.hasTimedOut()) { // We are supposed to be on and functioning, but no fix was found if (mode == MODE_ON or mode == MODE_NORMAL) { mode = MODE_OFF; } modeCommanded = false; } gpsSet.setValidity(false, true); } else if (gps.satellites_used > 0 && validFix && mode != MODE_OFF) { gpsSet.setValidity(true, true); } gpsSet.satInUse.value = gps.satellites_used; gpsSet.satInView.value = gps.satellites_visible; bool latValid = false; if (std::isfinite(gps.fix.latitude)) { // Negative latitude -> South direction gpsSet.latitude.value = gps.fix.latitude; if (gps.fix.mode >= 2) { latValid = true; } } gpsSet.latitude.setValid(latValid); bool longValid = false; if (std::isfinite(gps.fix.longitude)) { // Negative longitude -> West direction gpsSet.longitude.value = gps.fix.longitude; if (gps.fix.mode >= 2) { longValid = true; } } gpsSet.latitude.setValid(longValid); bool altitudeValid = false; if (std::isfinite(gps.fix.altitude)) { gpsSet.altitude.value = gps.fix.altitude; if (gps.fix.mode == 3) { altitudeValid = true; } } gpsSet.altitude.setValid(altitudeValid); if (std::isfinite(gps.fix.speed)) { gpsSet.speed.value = gps.fix.speed; } else { gpsSet.speed.setValid(false); } if (TIME_SET == (TIME_SET & gps.set)) { timeval time = {}; #if LIBGPS_VERSION_MINOR <= 17 gpsSet.unixSeconds.value = std::floor(gps.fix.time); double fractionalPart = gps.fix.time - gpsSet.unixSeconds.value; time.tv_usec = fractionalPart * 1000.0 * 1000.0; #else gpsSet.unixSeconds.value = gps.fix.time.tv_sec; time.tv_usec = gps.fix.time.tv_nsec / 1000; #endif time.tv_sec = gpsSet.unixSeconds.value; // If the time is totally wrong (e.g. year 2000 after system reset because we do not have a RTC // and no time file available) we set it with the roughly valid time from the GPS. // NTP might only work if the time difference between sys time and current time is not too // large. overwriteTimeIfNotSane(time, validFix); Clock::TimeOfDay_t timeOfDay = {}; Clock::convertTimevalToTimeOfDay(&time, &timeOfDay); gpsSet.year = timeOfDay.year; gpsSet.month = timeOfDay.month; gpsSet.day = timeOfDay.day; gpsSet.hours = timeOfDay.hour; gpsSet.minutes = timeOfDay.minute; gpsSet.seconds = timeOfDay.second; } else { gpsSet.unixSeconds.setValid(false); gpsSet.year.setValid(false); gpsSet.month.setValid(false); gpsSet.day.setValid(false); gpsSet.hours.setValid(false); gpsSet.minutes.setValid(false); gpsSet.seconds.setValid(false); } if (debugHyperionGps) { sif::info << "-- Hyperion GPS Data --" << std::endl; #if LIBGPS_VERSION_MINOR <= 17 time_t timeRaw = gpsSet.unixSeconds.value; #else time_t timeRaw = gps.fix.time.tv_sec; #endif std::tm *time = gmtime(&timeRaw); std::cout << "Time: " << std::put_time(time, "%c %Z") << std::endl; std::cout << "Visible satellites: " << gps.satellites_visible << std::endl; std::cout << "Satellites used: " << gps.satellites_used << std::endl; std::cout << "Fix (0:Not Seen|1:No Fix|2:2D|3:3D): " << gps.fix.mode << std::endl; std::cout << "Latitude: " << gps.fix.latitude << std::endl; std::cout << "Longitude: " << gps.fix.longitude << std::endl; #if LIBGPS_VERSION_MINOR <= 17 std::cout << "Altitude(MSL): " << gps.fix.altitude << std::endl; #else std::cout << "Altitude(MSL): " << gps.fix.altMSL << std::endl; #endif std::cout << "Speed(m/s): " << gps.fix.speed << std::endl; std::time_t t = std::time(nullptr); std::tm tm = *std::gmtime(&t); std::cout << "C Time: " << std::put_time(&tm, "%c") << std::endl; } return returnvalue::OK; } void GpsHyperionLinuxController::overwriteTimeIfNotSane(timeval time, bool validFix) { if (not timeInit and validFix) { if (not utility::timeSanityCheck()) { #if OBSW_VERBOSE_LEVEL >= 1 time_t timeRaw = time.tv_sec; std::tm *timeTm = std::gmtime(&timeRaw); sif::info << "Overwriting invalid system time from GPS data directly: " << std::put_time(timeTm, "%c %Z") << std::endl; #endif // For some reason, the clock needs to be somewhat correct for NTP to work. Really dumb.. Clock::setClock(&time); } timeInit = true; } }