// // Copyright 2015-2016 Ettus Research LLC // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . // #include #include #include #include #include #include "boost/date_time/gregorian/gregorian.hpp" #include #include #include #include #include #include #include #include #include "gpsd_iface.hpp" namespace uhd { namespace usrp { static const size_t TIMEOUT = 240; static const size_t CLICK_RATE = 250000; class gpsd_iface_impl : public virtual gpsd_iface { public: gpsd_iface_impl(const std::string &addr, uint16_t port) : _detected(false), _bthread(), _timeout_cnt(0) { boost::unique_lock l(_d_mutex); if (gps_open(addr.c_str(), str(boost::format("%u") % port).c_str(), &_gps_data) < 0) { throw uhd::runtime_error( str((boost::format("Failed to connect to gpsd: %s") % gps_errstr(errno)))); } // register for updates, we don't specify a specific device, // therefore no WATCH_DEVICE gps_stream(&_gps_data, WATCH_ENABLE, NULL); // create background thread talking to gpsd boost::thread t(boost::bind(&gpsd_iface_impl::_thread_fcn ,this)); _bthread.swap(t); _sensors = boost::assign::list_of("gps_locked")("gps_time") \ ("gps_position")("gps_gpgga")("gps_gprmc").to_container(_sensors); } virtual ~gpsd_iface_impl(void) { // interrupt the background thread and wait for it to finish _bthread.interrupt(); _bthread.join(); // clean up ... { boost::unique_lock l(_d_mutex); gps_stream(&_gps_data, WATCH_DISABLE, NULL); gps_close(&_gps_data); } } uhd::sensor_value_t get_sensor(std::string key) { if (key == "gps_locked") { return sensor_value_t( "GPS lock status", _gps_locked(), "locked", "unlocked"); } else if (key == "gps_time") { return sensor_value_t( "GPS epoch time", int(_epoch_time()), "seconds"); } else if (key == "gps_gpgga") { return sensor_value_t( "GPGGA", _gps_gpgga(), ""); } else if (key == "gps_gprmc") { return sensor_value_t( "GPRMC", _gps_gprmc(), ""); } else if (key == "gps_position") { return sensor_value_t( "GPS Position", str( boost::format("%s %s %s") % _gps_position()["lat"] % _gps_position()["lon"] % _gps_position()["alt"]), "lat/lon/alt"); } else throw uhd::key_error( str(boost::format("sensor %s unknown.") % key)); } bool gps_detected(void) { return _detected; }; std::vector get_sensors(void) { return _sensors; }; private: // member functions void _thread_fcn() { while (not boost::this_thread::interruption_requested()) { if (!gps_waiting(&_gps_data, CLICK_RATE)) { if (TIMEOUT < _timeout_cnt++) _detected = false; } else { boost::unique_lock l(_d_mutex); _timeout_cnt = 0; _detected = true; if (gps_read(&_gps_data) < 0) throw std::runtime_error("error while reading"); } } } bool _gps_locked(void) { boost::shared_lock l(_d_mutex); return _gps_data.fix.mode >= MODE_2D; } std::time_t _epoch_time(void) { boost::shared_lock l(_d_mutex); return (boost::posix_time::from_time_t(_gps_data.fix.time) - boost::posix_time::from_time_t(0)).total_seconds(); } boost::gregorian::date _gregorian_date(void) { boost::shared_lock l(_d_mutex); return boost::posix_time::from_time_t(_gps_data.fix.time).date(); } uhd::dict _gps_position(void) { boost::shared_lock l(_d_mutex); uhd::dict tmp; if (_gps_data.fix.mode >= MODE_2D) { tmp["lon"] = str(boost::format("%f deg") % _gps_data.fix.longitude); tmp["lat"] = str(boost::format("%f deg") % _gps_data.fix.latitude); tmp["alt"] = str(boost::format("%fm") % _gps_data.fix.altitude); } else { tmp["lon"] = "n/a"; tmp["lat"] = "n/a"; tmp["alt"] = "n/a"; } return tmp; } float _zeroize(float x) { return boost::math::isnan(x) ? 0.0 : x; } int _nmea_checksum(const std::string &s) { if ((s.at(0) != '$')) return 0; uint8_t sum = '\0'; for (size_t i = 1; i < s.size(); i++) sum ^= static_cast(s.at(i)); return sum; } double _deg_to_dm(double angle) { double fraction, integer; fraction = std::modf(angle, &integer); return std::floor(angle) * 100 + fraction * 60; } std::string _gps_gprmc(void) { struct tm tm; time_t intfixtime; boost::shared_lock l(_d_mutex); tm.tm_mday = tm.tm_mon = tm.tm_year = 0; tm.tm_hour = tm.tm_min = tm.tm_sec = 0; if (boost::math::isnan(_gps_data.fix.time) == 0) { intfixtime = (time_t) _gps_data.fix.time; (void)gmtime_r(&intfixtime, &tm); tm.tm_mon++; tm.tm_year %= 100; } std::string string = str(boost::format( "$GPRMC,%02d%02d%02d,%c,%09.4f,%c,%010.4f,%c,%.4f,%.3f,%02d%02d%02d,,") % tm.tm_hour % tm.tm_min % tm.tm_sec % (_gps_data.status ? 'A' : 'V') % _zeroize(_deg_to_dm(std::fabs(_gps_data.fix.latitude))) % ((_gps_data.fix.latitude > 0) ? 'N' : 'S') % _zeroize(_deg_to_dm(std::fabs(_gps_data.fix.longitude))) % ((_gps_data.fix.longitude > 0) ? 'E' : 'W') % _zeroize(_gps_data.fix.speed * MPS_TO_KNOTS) % _zeroize(_gps_data.fix.track) % tm.tm_mday % tm.tm_mon % tm.tm_year); string.append(str( boost::format("*%02X") % _nmea_checksum(string))); return string; } std::string _gps_gpgga(void) { struct tm tm; time_t intfixtime; // currently not supported, make it blank float mag_var = NAN; boost::shared_lock l(_d_mutex); intfixtime = (time_t) _gps_data.fix.time; (void) gmtime_r(&intfixtime, &tm); std::string string = str(boost::format( "$GPGGA,%02d%02d%02d,%09.4f,%c,%010.4f,%c,%d,%02d,") % tm.tm_hour % tm.tm_min % tm.tm_sec % _deg_to_dm(std::fabs(_gps_data.fix.latitude)) % ((_gps_data.fix.latitude > 0) ? 'N' : 'S') % _deg_to_dm(std::fabs(_gps_data.fix.longitude)) % ((_gps_data.fix.longitude > 0) ? 'E' : 'W') % _gps_data.status % _gps_data.satellites_used); if (boost::math::isnan(_gps_data.dop.hdop)) string.append(","); else string.append( str(boost::format("%.2f,") % _gps_data.dop.hdop)); if (boost::math::isnan(_gps_data.fix.altitude)) string.append(","); else string.append( str(boost::format("%.2f,M,") % _gps_data.fix.altitude)); if (boost::math::isnan(_gps_data.separation)) string.append(","); else string.append( str(boost::format("%.3f,M,") % _gps_data.separation)); if (boost::math::isnan(mag_var)) string.append(","); else { string.append( str(boost::format("%3.2f,%s") % std::fabs(mag_var) % (mag_var > 0 ? "E" : "W"))); } string.append(str( boost::format("*%02X") % _nmea_checksum(string))); return string; } private: // members std::vector _sensors; bool _detected; gps_data_t _gps_data; boost::shared_mutex _d_mutex; boost::thread _bthread; size_t _timeout_cnt; }; }} //namespace using namespace uhd::usrp; gpsd_iface::sptr gpsd_iface::make(const std::string &addr, const uint16_t port) { return gpsd_iface::sptr(new gpsd_iface_impl(addr, port)); }