/*! * \file nmea_printer.cc * \brief Implementation of a NMEA 2.1 printer for GNSS-SDR * This class provides a implementation of a subset of the NMEA-0183 standard for interfacing * marine electronic devices as defined by the National Marine Electronics Association (NMEA). * See http://www.nmea.org/ for the NMEA 183 standard * * \author Javier Arribas, 2012. jarribas(at)cttc.es * * * ------------------------------------------------------------------------- * * Copyright (C) 2010-2018 (see AUTHORS file for a list of contributors) * * GNSS-SDR is a software defined Global Navigation * Satellite Systems receiver * * This file is part of GNSS-SDR. * * GNSS-SDR 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. * * GNSS-SDR 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 GNSS-SDR. If not, see . * * ------------------------------------------------------------------------- */ #include "nmea_printer.h" #include "rtklib_solution.h" #include "rtklib_solver.h" #include #include #include #include #include // for cout, cerr #include #if HAS_STD_FILESYSTEM #include namespace errorlib = std; #if HAS_STD_FILESYSTEM_EXPERIMENTAL #include namespace fs = std::experimental::filesystem; #else #include namespace fs = std::filesystem; #endif #else #include // for create_directories, exists #include // for path, operator<< #include // for filesystem #include // for error_code namespace fs = boost::filesystem; namespace errorlib = boost::system; #endif Nmea_Printer::Nmea_Printer(const std::string& filename, bool flag_nmea_output_file, bool flag_nmea_tty_port, std::string nmea_dump_devname, const std::string& base_path) { nmea_base_path = base_path; d_flag_nmea_output_file = flag_nmea_output_file; if (d_flag_nmea_output_file == true) { fs::path full_path(fs::current_path()); const fs::path p(nmea_base_path); if (!fs::exists(p)) { std::string new_folder; for (auto& folder : fs::path(nmea_base_path)) { new_folder += folder.string(); errorlib::error_code ec; if (!fs::exists(new_folder)) { if (!fs::create_directory(new_folder, ec)) { std::cout << "Could not create the " << new_folder << " folder." << std::endl; nmea_base_path = full_path.string(); } } new_folder += fs::path::preferred_separator; } } else { nmea_base_path = p.string(); } if ((nmea_base_path != ".") and (d_flag_nmea_output_file == true)) { std::cout << "NMEA files will be stored at " << nmea_base_path << std::endl; } nmea_base_path = nmea_base_path + fs::path::preferred_separator; nmea_filename = nmea_base_path + filename; nmea_file_descriptor.open(nmea_filename.c_str(), std::ios::out); if (nmea_file_descriptor.is_open()) { DLOG(INFO) << "NMEA printer writing on " << nmea_filename.c_str(); } else { std::cout << "File " << nmea_filename << " cannot be saved. Wrong permissions?" << std::endl; } } nmea_devname = std::move(nmea_dump_devname); if (flag_nmea_tty_port == true) { nmea_dev_descriptor = init_serial(nmea_devname); if (nmea_dev_descriptor != -1) { DLOG(INFO) << "NMEA printer writing on " << nmea_devname.c_str(); } } else { nmea_dev_descriptor = -1; } print_avg_pos = false; } Nmea_Printer::~Nmea_Printer() { try { if (nmea_file_descriptor.is_open()) { nmea_file_descriptor.close(); } } catch (const std::ofstream::failure& e) { std::cerr << "Problem closing NMEA dump file: " << nmea_filename << '\n'; } catch (const std::exception& e) { std::cerr << e.what() << '\n'; } try { close_serial(); } catch (const std::exception& e) { std::cerr << e.what() << '\n'; } } int Nmea_Printer::init_serial(const std::string& serial_device) { /*! * Opens the serial device and sets the default baud rate for a NMEA transmission (9600,8,N,1) */ int fd = 0; struct termios options { }; int64_t BAUD; int64_t DATABITS; int64_t STOPBITS; int64_t PARITYON; int64_t PARITY; fd = open(serial_device.c_str(), O_RDWR | O_NOCTTY | O_NDELAY | O_CLOEXEC); if (fd == -1) { return fd; // failed to open TTY port } if (fcntl(fd, F_SETFL, 0) == -1) { LOG(INFO) << "Error enabling direct I/O"; // clear all flags on descriptor, enable direct I/O } tcgetattr(fd, &options); // read serial port options BAUD = B9600; // BAUD = B38400; DATABITS = CS8; STOPBITS = 0; PARITYON = 0; PARITY = 0; options.c_cflag = BAUD | DATABITS | STOPBITS | PARITYON | PARITY | CLOCAL | CREAD; // enable receiver, set 8 bit data, ignore control lines // options.c_cflag |= (CLOCAL | CREAD | CS8); options.c_iflag = IGNPAR; // set the new port options tcsetattr(fd, TCSANOW, &options); return fd; } void Nmea_Printer::close_serial() { if (nmea_dev_descriptor != -1) { close(nmea_dev_descriptor); } } bool Nmea_Printer::Print_Nmea_Line(const std::shared_ptr& pvt_data, bool print_average_values) { std::string GPRMC; std::string GPGGA; std::string GPGSA; std::string GPGSV; // set the new PVT data d_PVT_data = pvt_data; print_avg_pos = print_average_values; // generate the NMEA sentences // GPRMC GPRMC = get_GPRMC(); // GPGGA (Global Positioning System Fixed Data) GPGGA = get_GPGGA(); // GPGSA GPGSA = get_GPGSA(); // GPGSV GPGSV = get_GPGSV(); // write to log file if (d_flag_nmea_output_file) { try { // GPRMC nmea_file_descriptor << GPRMC; // GPGGA (Global Positioning System Fixed Data) nmea_file_descriptor << GPGGA; // GPGSA nmea_file_descriptor << GPGSA; // GPGSV nmea_file_descriptor << GPGSV; } catch (const std::exception& ex) { DLOG(INFO) << "NMEA printer can not write on output file" << nmea_filename.c_str(); } } // write to serial device if (nmea_dev_descriptor != -1) { if (write(nmea_dev_descriptor, GPRMC.c_str(), GPRMC.length()) == -1) { DLOG(INFO) << "NMEA printer cannot write on serial device" << nmea_devname.c_str(); return false; } if (write(nmea_dev_descriptor, GPGGA.c_str(), GPGGA.length()) == -1) { DLOG(INFO) << "NMEA printer cannot write on serial device" << nmea_devname.c_str(); return false; } if (write(nmea_dev_descriptor, GPGSA.c_str(), GPGSA.length()) == -1) { DLOG(INFO) << "NMEA printer cannot write on serial device" << nmea_devname.c_str(); return false; } if (write(nmea_dev_descriptor, GPGSV.c_str(), GPGSV.length()) == -1) { DLOG(INFO) << "NMEA printer cannot write on serial device" << nmea_devname.c_str(); return false; } } return true; } char Nmea_Printer::checkSum(const std::string& sentence) { char check = 0; // iterate over the string, XOR each byte with the total sum: for (char c : sentence) { check = char(check ^ c); } // return the result return check; } std::string Nmea_Printer::latitude_to_hm(double lat) { bool north; if (lat < 0.0) { north = false; lat = -lat; } else { north = true; } int deg = static_cast(lat); double mins = lat - static_cast(deg); mins *= 60.0; std::ostringstream out_string; out_string.setf(std::ios::fixed, std::ios::floatfield); out_string.fill('0'); out_string.width(2); out_string << deg; out_string.width(2); out_string << static_cast(mins) << "."; out_string.width(4); out_string << static_cast((mins - static_cast(static_cast(mins))) * 1e4); if (north == true) { out_string << ",N"; } else { out_string << ",S"; } return out_string.str(); } std::string Nmea_Printer::longitude_to_hm(double longitude) { bool east; if (longitude < 0.0) { east = false; longitude = -longitude; } else { east = true; } int deg = static_cast(longitude); double mins = longitude - static_cast(deg); mins *= 60.0; std::ostringstream out_string; out_string.setf(std::ios::fixed, std::ios::floatfield); out_string.width(3); out_string.fill('0'); out_string << deg; out_string.width(2); out_string << static_cast(mins) << "."; out_string.width(4); out_string << static_cast((mins - static_cast(static_cast(mins))) * 1e4); if (east == true) { out_string << ",E"; } else { out_string << ",W"; } return out_string.str(); } std::string Nmea_Printer::get_UTC_NMEA_time(boost::posix_time::ptime d_position_UTC_time) { // UTC Time: hhmmss.sss std::stringstream sentence_str; boost::posix_time::time_duration td = d_position_UTC_time.time_of_day(); int utc_hours; int utc_mins; int utc_seconds; int utc_milliseconds; utc_hours = td.hours(); utc_mins = td.minutes(); utc_seconds = td.seconds(); utc_milliseconds = td.total_milliseconds() - td.total_seconds() * 1000; if (utc_hours < 10) { sentence_str << "0"; // two digits for hours } sentence_str << utc_hours; if (utc_mins < 10) { sentence_str << "0"; // two digits for minutes } sentence_str << utc_mins; if (utc_seconds < 10) { sentence_str << "0"; // two digits for seconds } sentence_str << utc_seconds; if (utc_milliseconds < 10) { sentence_str << ".00"; // three digits for ms sentence_str << utc_milliseconds; } else if (utc_milliseconds < 100) { sentence_str << ".0"; // three digits for ms sentence_str << utc_milliseconds; } else { sentence_str << "."; // three digits for ms sentence_str << utc_milliseconds; } return sentence_str.str(); } std::string Nmea_Printer::get_GPRMC() { // Sample -> $GPRMC,161229.487,A,3723.2475,N,12158.3416,W,0.13,309.62,120598,*10 std::stringstream sentence_str; unsigned char buff[1024] = {0}; outnmea_rmc(buff, &d_PVT_data->pvt_sol); sentence_str << buff; return sentence_str.str(); } std::string Nmea_Printer::get_GPGSA() { // $GPGSA,A,3,07,02,26,27,09,04,15, , , , , ,1.8,1.0,1.5*33 // GSA-GNSS DOP and Active Satellites std::stringstream sentence_str; unsigned char buff[1024] = {0}; outnmea_gsa(buff, &d_PVT_data->pvt_sol, d_PVT_data->pvt_ssat.data()); sentence_str << buff; return sentence_str.str(); } std::string Nmea_Printer::get_GPGSV() { // GSV-GNSS Satellites in View // $GPGSV,2,1,07,07,79,048,42,02,51,062,43,26,36,256,42,27,27,138,42*71 // Notice that NMEA 2.1 only supports 12 channels std::stringstream sentence_str; unsigned char buff[1024] = {0}; outnmea_gsv(buff, &d_PVT_data->pvt_sol, d_PVT_data->pvt_ssat.data()); sentence_str << buff; return sentence_str.str(); } std::string Nmea_Printer::get_GPGGA() { std::stringstream sentence_str; unsigned char buff[1024] = {0}; outnmea_gga(buff, &d_PVT_data->pvt_sol); sentence_str << buff; return sentence_str.str(); // $GPGGA,104427.591,5920.7009,N,01803.2938,E,1,05,3.3,78.2,M,23.2,M,0.0,0000*4A }