// // Copyright 2010-2011,2014 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 #include #include #include #include #include #include #include #include "boost/tuple/tuple.hpp" #include "boost/foreach.hpp" using namespace uhd; using namespace boost::gregorian; using namespace boost::posix_time; using namespace boost::algorithm; using namespace boost::this_thread; /*! * A control for GPSDO devices */ gps_ctrl::~gps_ctrl(void){ /* NOP */ } class gps_ctrl_impl : public gps_ctrl{ private: std::map > sensors; std::string get_cached_sensor(const std::string sensor, const int freshness, const bool once, const bool touch=true) { boost::system_time time = boost::get_system_time(); try { // this is nasty ... //std::cout << boost::format("Requested %s - seen? ") % sensor << sensors[sensor].get<2>() << " once? " << once << std::endl; if(time - sensors[sensor].get<1>() < milliseconds(freshness) && (!once or !sensors[sensor].get<2>())) { sensors[sensor] = boost::make_tuple(sensors[sensor].get<0>(), sensors[sensor].get<1>(), touch); return sensors[sensor].get<0>(); } else { return update_cached_sensors(sensor); } } catch(std::exception &e) { UHD_MSG(warning) << "get_cached_sensor: " << e.what(); } return std::string(); } static bool is_nmea_checksum_ok(std::string nmea) { if (nmea.length() < 5 || nmea[0] != '$' || nmea[nmea.length()-3] != '*') return false; std::stringstream ss; boost::uint32_t string_crc; boost::uint32_t calculated_crc = 0; // get crc from string ss << std::hex << nmea.substr(nmea.length()-2, 2); ss >> string_crc; // calculate crc for (size_t i = 1; i < nmea.length()-3; i++) calculated_crc ^= nmea[i]; // return comparison return (string_crc == calculated_crc); } std::string update_cached_sensors(const std::string sensor) { if(not gps_detected() || (gps_type != GPS_TYPE_INTERNAL_GPSDO)) { UHD_MSG(error) << "get_stat(): unsupported GPS or no GPS detected"; return std::string(); } const std::list list = boost::assign::list_of("GPGGA")("GPRMC")("SERVO"); static const boost::regex status_regex("\\d\\d-\\d\\d-\\d\\d"); static const boost::regex gp_msg_regex("^\\$GP.*,\\*[0-9A-F]{2}$"); std::map msgs; // Get all GPSDO messages available // Creating a map here because we only want the latest of each message type for (std::string msg = _recv(); msg.length(); msg = _recv()) { // Strip any end of line characters erase_all(msg, "\r"); erase_all(msg, "\n"); if (msg.length() < 6) { UHD_LOGV(regularly) << __FUNCTION__ << ": Short NMEA string: " << msg << std::endl; continue; } // Look for SERVO message if (boost::regex_search(msg, status_regex, boost::regex_constants::match_continuous)) { msgs["SERVO"] = msg; } else if (boost::regex_match(msg, gp_msg_regex) and is_nmea_checksum_ok(msg)) { msgs[msg.substr(1,5)] = msg; } else { UHD_LOGV(regularly) << __FUNCTION__ << ": Malformed NMEA string: " << msg << std::endl; } } boost::system_time time = boost::get_system_time(); // Update sensors with newly read data BOOST_FOREACH(std::string key, list) { if (msgs[key].length()) sensors[key] = boost::make_tuple(msgs[key], time, !sensor.compare(key)); } // Return requested sensor if it was updated if (msgs[sensor].length()) return msgs[sensor]; return std::string(); } public: gps_ctrl_impl(uart_iface::sptr uart){ _uart = uart; std::string reply; bool i_heard_some_nmea = false, i_heard_something_weird = false; gps_type = GPS_TYPE_NONE; //first we look for an internal GPSDO _flush(); //get whatever junk is in the rx buffer right now, and throw it away _send("HAAAY GUYYYYS\n"); //to elicit a response from the GPSDO //wait for _send(...) to return sleep(milliseconds(GPSDO_STUPID_DELAY_MS)); //then we loop until we either timeout, or until we get a response that indicates we're a JL device const boost::system_time comm_timeout = boost::get_system_time() + milliseconds(GPS_COMM_TIMEOUT_MS); while(boost::get_system_time() < comm_timeout) { reply = _recv(); if(reply.find("Command Error") != std::string::npos) { gps_type = GPS_TYPE_INTERNAL_GPSDO; break; } else if(reply.substr(0, 3) == "$GP") i_heard_some_nmea = true; //but keep looking for that "Command Error" response else if(reply.length() != 0) i_heard_something_weird = true; //probably wrong baud rate } if((i_heard_some_nmea) && (gps_type != GPS_TYPE_INTERNAL_GPSDO)) gps_type = GPS_TYPE_GENERIC_NMEA; if((gps_type == GPS_TYPE_NONE) && i_heard_something_weird) { UHD_MSG(error) << "GPS invalid reply \"" << reply << "\", assuming none available" << std::endl; } switch(gps_type) { case GPS_TYPE_INTERNAL_GPSDO: UHD_MSG(status) << "Found an internal GPSDO" << std::endl; init_gpsdo(); break; case GPS_TYPE_GENERIC_NMEA: UHD_MSG(status) << "Found a generic NMEA GPS device" << std::endl; break; case GPS_TYPE_NONE: default: UHD_MSG(status) << "No GPSDO found" << std::endl; break; } } ~gps_ctrl_impl(void){ /* NOP */ } //return a list of supported sensors std::vector get_sensors(void) { std::vector ret = boost::assign::list_of ("gps_gpgga") ("gps_gprmc") ("gps_time") ("gps_locked") ("gps_servo"); return ret; } uhd::sensor_value_t get_sensor(std::string key) { if(key == "gps_gpgga" or key == "gps_gprmc") { return sensor_value_t( boost::to_upper_copy(key), get_cached_sensor(boost::to_upper_copy(key.substr(4,8)), GPS_NMEA_NORMAL_FRESHNESS, false, false), ""); } else if(key == "gps_time") { return sensor_value_t("GPS epoch time", int(get_epoch_time()), "seconds"); } else if(key == "gps_locked") { return sensor_value_t("GPS lock status", locked(), "locked", "unlocked"); } else if(key == "gps_servo") { return sensor_value_t("GPS servo status", get_servo(), ""); } else { throw uhd::value_error("gps ctrl get_sensor unknown key: " + key); } } private: void init_gpsdo(void) { //issue some setup stuff so it spits out the appropriate data //none of these should issue replies so we don't bother looking for them //we have to sleep between commands because the JL device, despite not acking, takes considerable time to process each command. sleep(milliseconds(GPSDO_STUPID_DELAY_MS)); _send("SYST:COMM:SER:ECHO OFF\n"); sleep(milliseconds(GPSDO_STUPID_DELAY_MS)); _send("SYST:COMM:SER:PRO OFF\n"); sleep(milliseconds(GPSDO_STUPID_DELAY_MS)); _send("GPS:GPGGA 1\n"); sleep(milliseconds(GPSDO_STUPID_DELAY_MS)); _send("GPS:GGAST 0\n"); sleep(milliseconds(GPSDO_STUPID_DELAY_MS)); _send("GPS:GPRMC 1\n"); sleep(milliseconds(GPSDO_STUPID_DELAY_MS)); _send("SERV:TRAC 0\n"); sleep(milliseconds(GPSDO_STUPID_DELAY_MS)); } //retrieve a raw NMEA sentence std::string get_nmea(std::string msgtype) { std::string reply; const boost::system_time comm_timeout = boost::get_system_time() + milliseconds(GPS_COMM_TIMEOUT_MS); while(boost::get_system_time() < comm_timeout) { if(!msgtype.compare("GPRMC")) { reply = get_cached_sensor(msgtype, GPS_NMEA_FRESHNESS, true); } else { reply = get_cached_sensor(msgtype, GPS_NMEA_LOW_FRESHNESS, false); } if(reply.size()) { if(reply.substr(1, 5) == msgtype) return reply; } boost::this_thread::sleep(milliseconds(GPS_TIMEOUT_DELAY_MS)); } throw uhd::value_error(str(boost::format("get_nmea(): no %s message found") % msgtype)); } //helper function to retrieve a field from an NMEA sentence std::string get_token(std::string sentence, size_t offset) { boost::tokenizer > tok(sentence); std::vector toked; tok.assign(sentence); //this can throw toked.assign(tok.begin(), tok.end()); if(toked.size() <= offset) { throw uhd::value_error(str(boost::format("Invalid response \"%s\"") % sentence)); } return toked[offset]; } ptime get_time(void) { _flush(); int error_cnt = 0; ptime gps_time; while(error_cnt < 2) { try { std::string reply = get_nmea("GPRMC"); std::string datestr = get_token(reply, 9); std::string timestr = get_token(reply, 1); if(datestr.size() == 0 or timestr.size() == 0) { throw uhd::value_error(str(boost::format("Invalid response \"%s\"") % reply)); } //just trust me on this one gps_time = ptime( date( greg_year(boost::lexical_cast(datestr.substr(4, 2)) + 2000), greg_month(boost::lexical_cast(datestr.substr(2, 2))), greg_day(boost::lexical_cast(datestr.substr(0, 2))) ), hours( boost::lexical_cast(timestr.substr(0, 2))) + minutes(boost::lexical_cast(timestr.substr(2, 2))) + seconds(boost::lexical_cast(timestr.substr(4, 2))) ); return gps_time; } catch(std::exception &e) { UHD_MSG(warning) << "get_time: " << e.what(); _flush(); error_cnt++; } } throw uhd::value_error("Timeout after no valid message found"); return gps_time; //keep gcc from complaining } time_t get_epoch_time(void) { return (get_time() - from_time_t(0)).total_seconds(); } bool gps_detected(void) { return (gps_type != GPS_TYPE_NONE); } bool locked(void) { int error_cnt = 0; while(error_cnt < 3) { try { std::string reply = get_cached_sensor("GPGGA", GPS_LOCK_FRESHNESS, false, false); if(reply.size() <= 1) return false; return (get_token(reply, 6) != "0"); } catch(std::exception &e) { UHD_MSG(warning) << "locked: " << e.what(); error_cnt++; } } throw uhd::value_error("Timeout after no valid message found"); return false; } std::string get_servo(void) { //enable servo reporting _send("SERV:TRAC 1\n"); sleep(milliseconds(GPSDO_STUPID_DELAY_MS)); std::string reply; const boost::system_time comm_timeout = boost::get_system_time() + milliseconds(GPS_COMM_TIMEOUT_MS); while(boost::get_system_time() < comm_timeout) { reply = get_cached_sensor("SERVO", GPS_NMEA_LOW_FRESHNESS, false); if(reply.size()) { //disable it before leaving function _send("SERV:TRAC 0\n"); return reply; } boost::this_thread::sleep(milliseconds(GPS_TIMEOUT_DELAY_MS)); } throw uhd::value_error("get_stat(): no servo message found"); } uart_iface::sptr _uart; void _flush(void){ while (not _uart->read_uart(0.0).empty()){ //NOP } } std::string _recv(double timeout = GPS_TIMEOUT_DELAY_MS/1000.){ return _uart->read_uart(timeout); } void _send(const std::string &buf){ return _uart->write_uart(buf); } enum { GPS_TYPE_INTERNAL_GPSDO, GPS_TYPE_GENERIC_NMEA, GPS_TYPE_NONE } gps_type; static const int GPS_COMM_TIMEOUT_MS = 1300; static const int GPS_NMEA_FRESHNESS = 10; static const int GPS_NMEA_LOW_FRESHNESS = 2500; static const int GPS_NMEA_NORMAL_FRESHNESS = 1000; static const int GPS_SERVO_FRESHNESS = 2500; static const int GPS_LOCK_FRESHNESS = 2500; static const int GPS_TIMEOUT_DELAY_MS = 200; static const int GPSDO_STUPID_DELAY_MS = 200; }; /*********************************************************************** * Public make function for the GPS control **********************************************************************/ gps_ctrl::sptr gps_ctrl::make(uart_iface::sptr uart){ return sptr(new gps_ctrl_impl(uart)); }