// // Copyright 2011 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 #ifdef BOOST_MSVC //whoops! https://svn.boost.org/trac/boost/ticket/5287 //enjoy this useless dummy class instead namespace boost{ namespace interprocess{ struct file_lock{ file_lock(const char * = NULL){} void lock(void){} void unlock(void){} }; }} //namespace #else #include #endif #ifdef BOOST_MSVC #define USE_GET_TEMP_PATH #include //GetTempPath #endif #include //P_tmpdir #include //getenv #include #include namespace fs = boost::filesystem; namespace pt = boost::posix_time; namespace ip = boost::interprocess; /*********************************************************************** * Helper function to get the system's temporary path **********************************************************************/ static fs::path get_temp_path(void){ const char *tmp_path = NULL; //try the official uhd temp path environment variable tmp_path = std::getenv("UHD_TEMP_PATH"); if (tmp_path != NULL) return tmp_path; //try the windows function if available #ifdef USE_GET_TEMP_PATH char lpBuffer[2048]; if (GetTempPath(sizeof(lpBuffer), lpBuffer)) return lpBuffer; #endif //try windows environment variables tmp_path = std::getenv("TMP"); if (tmp_path != NULL) return tmp_path; tmp_path = std::getenv("TEMP"); if (tmp_path != NULL) return tmp_path; //try the stdio define if available #ifdef P_tmpdir return P_tmpdir; #endif //try unix environment variables tmp_path = std::getenv("TMPDIR"); if (tmp_path != NULL) return tmp_path; //give up and use the unix default return "/tmp"; } /*********************************************************************** * The library's streamer resource (static initialization) **********************************************************************/ class null_streambuf_class : public std::streambuf{ int overflow(int c) { return c; } }; UHD_SINGLETON_FCN(null_streambuf_class, null_streambuf); class uhd_logger_stream_resource_class{ public: uhd_logger_stream_resource_class(void) : _null_stream(&null_streambuf()){ const std::string log_path = (get_temp_path() / "uhd.log").string(); _file_stream.open(log_path.c_str(), std::fstream::out | std::fstream::app); _file_lock = ip::file_lock(log_path.c_str()); //set the default log level _log_level = uhd::_log::regularly; //allow override from macro definition #ifdef UHD_LOG_LEVEL _set_log_level(BOOST_STRINGIZE(UHD_LOG_LEVEL)); #endif //allow override from environment variable const char * log_level_env = std::getenv("UHD_LOG_LEVEL"); if (log_level_env != NULL) _set_log_level(log_level_env); } ~uhd_logger_stream_resource_class(void){ _file_stream.close(); } std::ostream &get(void){ if (_verbosity >= _log_level) return _file_stream; return _null_stream; } void aquire(bool lock){ if (lock){ _mutex.lock(); _file_lock.lock(); } else{ _file_lock.unlock(); _mutex.unlock(); } } void set_verbosity(uhd::_log::verbosity_t verbosity){ _verbosity = verbosity; } private: //! set the log level from a string that is either a digit or an enum name void _set_log_level(const std::string &log_level_str){ const uhd::_log::verbosity_t log_level = uhd::_log::verbosity_t(log_level_str[0]-'0'); if (std::isdigit(log_level_str[0]) and log_level >= uhd::_log::always and log_level <= uhd::_log::very_rarely){ _log_level = log_level; } #define if_lls_equal(name) else if(log_level_str == #name) _log_level = uhd::_log::name if_lls_equal(always); if_lls_equal(often); if_lls_equal(regularly); if_lls_equal(rarely); if_lls_equal(very_rarely); } //available stream objects std::ofstream _file_stream; std::ostream _null_stream; //synchronization mechanisms boost::mutex _mutex; //process-level ip::file_lock _file_lock; //system-level //log-level settings uhd::_log::verbosity_t _verbosity; uhd::_log::verbosity_t _log_level; }; UHD_SINGLETON_FCN(uhd_logger_stream_resource_class, uhd_logger_stream_resource); /*********************************************************************** * The logger function implementation **********************************************************************/ //! get the relative file path from the host directory static std::string get_rel_file_path(const fs::path &file){ fs::path abs_path = file.branch_path(); fs::path rel_path = file.leaf(); while (not abs_path.empty() and abs_path.leaf() != "host"){ rel_path = abs_path.leaf() / rel_path; abs_path = abs_path.branch_path(); } return rel_path.string(); } uhd::_log::log::log( const verbosity_t verbosity, const std::string &file, const unsigned int line, const std::string &function ){ uhd_logger_stream_resource().aquire(true); uhd_logger_stream_resource().set_verbosity(verbosity); const std::string time = pt::to_simple_string(pt::microsec_clock::local_time()); const std::string header1 = str(boost::format("-- %s - level %d") % time % int(verbosity)); const std::string header2 = str(boost::format("-- %s") % function).substr(0, 80); const std::string header3 = str(boost::format("-- %s:%u") % get_rel_file_path(file) % line); const std::string border = std::string(std::max(std::max(header1.size(), header2.size()), header3.size()), '-'); uhd_logger_stream_resource().get() << std::endl << border << std::endl << header1 << std::endl << header2 << std::endl << header3 << std::endl << border << std::endl ; } uhd::_log::log::~log(void){ uhd_logger_stream_resource().get() << std::endl; uhd_logger_stream_resource().aquire(false); } std::ostream & uhd::_log::log::get(void){ return uhd_logger_stream_resource().get(); }