// // Copyright 2010-2011,2015 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 //for split #include #include #include #include #include #include #include #include #include #include namespace po = boost::program_options; using namespace uhd; static std::string make_border(const std::string &text){ std::stringstream ss; ss << boost::format(" _____________________________________________________") << std::endl; ss << boost::format(" /") << std::endl; std::vector lines; boost::split(lines, text, boost::is_any_of("\n")); while (lines.back().empty()) lines.pop_back(); //strip trailing newlines if (lines.size()) lines[0] = " " + lines[0]; //indent the title line BOOST_FOREACH(const std::string &line, lines){ ss << boost::format("| %s") % line << std::endl; } //ss << boost::format(" \\_____________________________________________________") << std::endl; return ss.str(); } static std::string get_dsp_pp_string(const std::string &type, property_tree::sptr tree, const fs_path &path){ std::stringstream ss; ss << boost::format("%s DSP: %s") % type % path.leaf() << std::endl; //ss << std::endl; meta_range_t freq_range = tree->access(path / "freq/range").get(); ss << boost::format("Freq range: %.3f to %.3f MHz") % (freq_range.start()/1e6) % (freq_range.stop()/1e6) << std::endl;; return ss.str(); } static std::string prop_names_to_pp_string(const std::vector &prop_names){ std::stringstream ss; size_t count = 0; BOOST_FOREACH(const std::string &prop_name, prop_names){ ss << ((count++)? ", " : "") << prop_name; } return ss.str(); } static std::string get_frontend_pp_string(const std::string &type, property_tree::sptr tree, const fs_path &path){ std::stringstream ss; ss << boost::format("%s Frontend: %s") % type % path.leaf() << std::endl; //ss << std::endl; ss << boost::format("Name: %s") % (tree->access(path / "name").get()) << std::endl; ss << boost::format("Antennas: %s") % prop_names_to_pp_string(tree->access >(path / "antenna/options").get()) << std::endl; ss << boost::format("Sensors: %s") % prop_names_to_pp_string(tree->list(path / "sensors")) << std::endl; meta_range_t freq_range = tree->access(path / "freq/range").get(); ss << boost::format("Freq range: %.3f to %.3f MHz") % (freq_range.start()/1e6) % (freq_range.stop()/1e6) << std::endl; std::vector gain_names = tree->list(path / "gains"); if (gain_names.size() == 0) ss << "Gain Elements: None" << std::endl; BOOST_FOREACH(const std::string &name, gain_names){ meta_range_t gain_range = tree->access(path / "gains" / name / "range").get(); ss << boost::format("Gain range %s: %.1f to %.1f step %.1f dB") % name % gain_range.start() % gain_range.stop() % gain_range.step() << std::endl; } if (tree->exists(path / "bandwidth" / "range")) { meta_range_t bw_range = tree->access(path / "bandwidth" / "range").get(); ss << boost::format("Bandwidth range: %.1f to %.1f step %.1f Hz") % bw_range.start() % bw_range.stop() % bw_range.step() << std::endl; } ss << boost::format("Connection Type: %s") % (tree->access(path / "connection").get()) << std::endl; ss << boost::format("Uses LO offset: %s") % ((tree->access(path / "use_lo_offset").get())? "Yes" : "No") << std::endl; return ss.str(); } static std::string get_codec_pp_string(const std::string &type, property_tree::sptr tree, const fs_path &path){ std::stringstream ss; ss << boost::format("%s Codec: %s") % type % path.leaf() << std::endl; //ss << std::endl; ss << boost::format("Name: %s") % (tree->access(path / "name").get()) << std::endl; std::vector gain_names = tree->list(path / "gains"); if (gain_names.size() == 0) ss << "Gain Elements: None" << std::endl; BOOST_FOREACH(const std::string &name, gain_names){ meta_range_t gain_range = tree->access(path / "gains" / name / "range").get(); ss << boost::format("Gain range %s: %.1f to %.1f step %.1f dB") % name % gain_range.start() % gain_range.stop() % gain_range.step() << std::endl; } return ss.str(); } static std::string get_dboard_pp_string(const std::string &type, property_tree::sptr tree, const fs_path &path){ std::stringstream ss; ss << boost::format("%s Dboard: %s") % type % path.leaf() << std::endl; //ss << std::endl; const std::string prefix = (type == "RX")? "rx" : "tx"; if (tree->exists(path / (prefix + "_eeprom"))) { usrp::dboard_eeprom_t db_eeprom = tree->access(path / (prefix + "_eeprom")).get(); if (db_eeprom.id != usrp::dboard_id_t::none()) ss << boost::format("ID: %s") % db_eeprom.id.to_pp_string() << std::endl; if (not db_eeprom.serial.empty()) ss << boost::format("Serial: %s") % db_eeprom.serial << std::endl; if (type == "TX"){ usrp::dboard_eeprom_t gdb_eeprom = tree->access(path / "gdb_eeprom").get(); if (gdb_eeprom.id != usrp::dboard_id_t::none()) ss << boost::format("ID: %s") % gdb_eeprom.id.to_pp_string() << std::endl; if (not gdb_eeprom.serial.empty()) ss << boost::format("Serial: %s") % gdb_eeprom.serial << std::endl; } } BOOST_FOREACH(const std::string &name, tree->list(path / (prefix + "_frontends"))){ ss << make_border(get_frontend_pp_string(type, tree, path / (prefix + "_frontends") / name)); } ss << make_border(get_codec_pp_string(type, tree, path.branch_path().branch_path() / (prefix + "_codecs") / path.leaf())); return ss.str(); } static std::string get_mboard_pp_string(property_tree::sptr tree, const fs_path &path){ std::stringstream ss; ss << boost::format("Mboard: %s") % (tree->access(path / "name").get()) << std::endl; //ss << std::endl; usrp::mboard_eeprom_t mb_eeprom = tree->access(path / "eeprom").get(); BOOST_FOREACH(const std::string &key, mb_eeprom.keys()){ if (not mb_eeprom[key].empty()) ss << boost::format("%s: %s") % key % mb_eeprom[key] << std::endl; } if (tree->exists(path / "fw_version")){ ss << "FW Version: " << tree->access(path / "fw_version").get() << std::endl; } if (tree->exists(path / "fpga_version")){ ss << "FPGA Version: " << tree->access(path / "fpga_version").get() << std::endl; } ss << std::endl; try { if (tree->exists(path / "time_source" / "options")){ const std::vector< std::string > time_sources = tree->access >(path / "time_source" / "options").get(); ss << "Time sources: " << prop_names_to_pp_string(time_sources) << std::endl; } if (tree->exists(path / "clock_source" / "options")){ const std::vector< std::string > clock_sources = tree->access >(path / "clock_source" / "options").get(); ss << "Clock sources: " << prop_names_to_pp_string(clock_sources) << std::endl; } ss << "Sensors: " << prop_names_to_pp_string(tree->list(path / "sensors")) << std::endl; BOOST_FOREACH(const std::string &name, tree->list(path / "rx_dsps")){ ss << make_border(get_dsp_pp_string("RX", tree, path / "rx_dsps" / name)); } BOOST_FOREACH(const std::string &name, tree->list(path / "dboards")){ ss << make_border(get_dboard_pp_string("RX", tree, path / "dboards" / name)); } BOOST_FOREACH(const std::string &name, tree->list(path / "tx_dsps")){ ss << make_border(get_dsp_pp_string("TX", tree, path / "tx_dsps" / name)); } BOOST_FOREACH(const std::string &name, tree->list(path / "dboards")){ ss << make_border(get_dboard_pp_string("TX", tree, path / "dboards" / name)); } } catch (const uhd::lookup_error &e) { /* nop */ } return ss.str(); } static std::string get_device_pp_string(property_tree::sptr tree){ std::stringstream ss; ss << boost::format("Device: %s") % (tree->access("/name").get()) << std::endl; //ss << std::endl; BOOST_FOREACH(const std::string &name, tree->list("/mboards")){ ss << make_border(get_mboard_pp_string(tree, "/mboards/" + name)); } return ss.str(); } void print_tree(const uhd::fs_path &path, uhd::property_tree::sptr tree){ std::cout << path << std::endl; BOOST_FOREACH(const std::string &name, tree->list(path)){ print_tree(path / name, tree); } } int UHD_SAFE_MAIN(int argc, char *argv[]){ po::options_description desc("Allowed options"); desc.add_options() ("help", "help message") ("version", "print the version string and exit") ("args", po::value()->default_value(""), "device address args") ("tree", "specify to print a complete property tree") ("string", po::value(), "query a string value from the property tree") ("double", po::value(), "query a double precision floating point value from the property tree") ("int", po::value(), "query a integer value from the property tree") ("range", po::value(), "query a range (gain, bandwidth, frequency, ...) from the property tree") ("init-only", "skip all queries, only initialize device") ; po::variables_map vm; po::store(po::parse_command_line(argc, argv, desc), vm); po::notify(vm); //print the help message if (vm.count("help")){ std::cout << boost::format("UHD USRP Probe %s") % desc << std::endl; return EXIT_FAILURE; } if (vm.count("version")){ std::cout << uhd::get_version_string() << std::endl; return EXIT_SUCCESS; } device::sptr dev = device::make(vm["args"].as()); property_tree::sptr tree = dev->get_tree(); if (vm.count("string")){ std::cout << tree->access(vm["string"].as()).get() << std::endl; return EXIT_SUCCESS; } if (vm.count("double")){ std::cout << tree->access(vm["double"].as()).get() << std::endl; return EXIT_SUCCESS; } if (vm.count("int")){ std::cout << tree->access(vm["int"].as()).get() << std::endl; return EXIT_SUCCESS; } if (vm.count("range")){ meta_range_t range = tree->access(vm["range"].as()).get(); std::cout << boost::format("%.1f:%.1f:%.1f") % range.start() % range.step() % range.stop() << std::endl; return EXIT_SUCCESS; } if (vm.count("tree") != 0) print_tree("/", tree); else if (not vm.count("init-only")) std::cout << make_border(get_device_pp_string(tree)) << std::endl; return EXIT_SUCCESS; }