// terrasync.cxx -- "JIT" scenery fetcher // // Written by Curtis Olson, started November 2002. // // Copyright (C) 2002 Curtis L. Olson - http://www.flightgear.org/~curt // Copyright (C) 2008 Alexander R. Perry // Copyright (C) 2011 Thorsten Brehm // // 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 2 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, write to the Free Software // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. // // $Id$ #ifdef HAVE_CONFIG_H #include #endif #ifdef HAVE_WINDOWS_H #include #endif #ifdef __MINGW32__ #include #include #elif defined(_MSC_VER) # include #endif #include // atoi() atof() abs() system() #include // signal() #include #include #include #include #include #include #if defined(_MSC_VER) || defined(__MINGW32__) typedef void (__cdecl * sighandler_t)(int); #elif defined( __APPLE__ ) || defined (__FreeBSD__) typedef sig_t sighandler_t; #endif int termination_triggering_signals[] = { #if defined(_MSC_VER) || defined(__MINGW32__) SIGINT, SIGILL, SIGFPE, SIGSEGV, SIGTERM, SIGBREAK, SIGABRT, #else SIGHUP, SIGINT, SIGQUIT, SIGKILL, SIGTERM, #endif 0}; // zero terminated using namespace std; const char* svn_base = "http://terrascenery.googlecode.com/svn/trunk/data/Scenery"; const char* rsync_base = "scenery.flightgear.org::Scenery"; bool terminating = false; sighandler_t prior_signal_handlers[32]; simgear::Socket theSocket; simgear::SGTerraSync* pTerraSync = NULL; /** display usage information */ static void usage( const string& prog ) { cout << "Usage: terrasync [options]\n" "Options:\n" " -d destination directory [required]\n" " -R transport using pipe to rsync\n" " -S transport using built-in svn\n" " -e transport using external svn client\n" " -p listen on UDP port [default: 5501]\n" " -s source base [default: '']\n" " -pid write PID to file\n" " -v be more verbose\n"; cout << "\n" "Example:\n" " pid=$(cat $pidfile 2>/dev/null)\n" " if test -n \"$pid\" && kill -0 $pid ; then\n" " echo \"terrasync already running: $pid\"\n" " else\n" " nice /games/sport/fgs/utils/TerraSync/terrasync \\\n" " -v -pid $pidfile -S -p 5500 -d /games/orig/terrasync &\n" " fi\n"; } /** Signal handler for termination requests (Ctrl-C) */ void terminate_request_handler(int param) { char msg[] = "\nReceived signal XX, intend to exit soon.\n" "Repeat the signal to force immediate termination.\n"; msg[17] = '0' + param / 10; msg[18] = '0' + param % 10; if (write(1, msg, sizeof(msg) - 1) == -1) { // need to act write's return value to avoid GCC compiler warning // "'write' declared with attribute warn_unused_result" terminating = true; // dummy operation } terminating = true; signal(param, prior_signal_handlers[param]); theSocket.close(); if (pTerraSync) pTerraSync->unbind(); } /** Parse command-line options. */ void parseOptions(int argc, char** argv, SGPropertyNode_ptr config, bool& testing, int& verbose, int& port, const char* &pidfn) { // parse arguments for (int i=1; i < argc; ++i ) { string arg = argv[i]; if ( arg == "-p" ) { ++i; port = atoi( argv[i] ); } else if ( arg.find("-pid") == 0 ) { ++i; pidfn = argv[i]; cout << "pidfn: " << pidfn << endl; } else if ( arg == "-s" ) { ++i; config->setStringValue("svn-server", argv[i]); } else if ( arg == "-d" ) { ++i; config->setStringValue("scenery-dir", argv[i]); } else if ( arg == "-R" ) { config->setBoolValue("use-svn", false); } else if ( arg == "-S" ) { config->setBoolValue("use-built-in-svn", true); } else if ( arg == "-e" ) { config->setBoolValue("use-built-in-svn", false); } else if ( arg == "-v" ) { verbose++; } else if ( arg == "-T" ) { testing = true; } else if ( arg == "-h" ) { usage( argv[0] ); exit(0); } else { cerr << "Unrecognized command-line option '" << arg << "'" << endl; usage( argv[0] ); exit(-1); } } } /** parse a single NMEA-0183 position message */ static void parse_message( int verbose, const string &msg, int *lat, int *lon ) { double dlat, dlon; string text = msg; if (verbose>=3) cout << "message: '" << text << "'" << endl; // find GGA string and advance to start of lat (see NMEA-0183 for protocol specs) string::size_type pos = text.find( "$GPGGA" ); if ( pos == string::npos ) { *lat = simgear::NOWHERE; *lon = simgear::NOWHERE; return; } string tmp = text.substr( pos + 7 ); pos = tmp.find( "," ); tmp = tmp.substr( pos + 1 ); // cout << "-> " << tmp << endl; // find lat then advance to start of hemisphere pos = tmp.find( "," ); string lats = tmp.substr( 0, pos ); dlat = atof( lats.c_str() ) / 100.0; tmp = tmp.substr( pos + 1 ); // find N/S hemisphere and advance to start of lon if ( tmp.substr( 0, 1 ) == "S" ) { dlat = -dlat; } pos = tmp.find( "," ); tmp = tmp.substr( pos + 1 ); // find lon pos = tmp.find( "," ); string lons = tmp.substr( 0, pos ); dlon = atof( lons.c_str() ) / 100.0; tmp = tmp.substr( pos + 1 ); // find E/W hemisphere and advance to start of lon if ( tmp.substr( 0, 1 ) == "W" ) { dlon = -dlon; } if ( dlat < 0 ) { *lat = (int)dlat - 1; } else { *lat = (int)dlat; } if ( dlon < 0 ) { *lon = (int)dlon - 1; } else { *lon = (int)dlon; } if ((dlon == 0) && (dlat == 0)) { *lon = simgear::NOWHERE; *lat = simgear::NOWHERE; } } /** Monitor UDP socket and process NMEA position updates. */ int processRequests(SGPropertyNode_ptr config, bool testing, int verbose, int port) { const char* host = "localhost"; char msg[256]; int len; int lat, lon; bool connected = false; // Must call this before any other net stuff simgear::Socket::initSockets(); // open UDP socket if ( !theSocket.open( false ) ) { cerr << "error opening socket" << endl; return -1; } if ( theSocket.bind( host, port ) == -1 ) { cerr << "error binding to port " << port << endl; return -1; } theSocket.setBlocking(true); while ( (!terminating)&& (!config->getBoolValue("stalled", false)) ) { if (verbose >= 4) cout << "main loop" << endl; // main loop bool recv_msg = false; if ( testing ) { // Testing without FGFS communication lat = 37; lon = -123; recv_msg = true; } else { if (verbose && pTerraSync->isIdle()) { cout << "Idle; waiting for FlightGear position data" << endl; } len = theSocket.recv(msg, sizeof(msg)-1, 0); if (len >= 0) { msg[len] = '\0'; recv_msg = true; if (verbose>=2) cout << "recv length: " << len << endl; parse_message( verbose, msg, &lat, &lon ); if ((!connected)&& (lat != simgear::NOWHERE)&& (lon != simgear::NOWHERE)) { cout << "Valid position data received. Connected successfully." << endl; connected = true; } } } if ( recv_msg ) { pTerraSync->schedulePosition(lat, lon); } if ( testing ) { if (pTerraSync->isIdle()) terminating = true; else SGTimeStamp::sleepForMSec(1000); } } // while !terminating return 0; } int main( int argc, char **argv ) { int port = 5501; int verbose = 0; int exit_code = 0; bool testing = false; const char* pidfn = ""; // default configuration sglog().setLogLevels( SG_ALL, SG_ALERT); SGPropertyNode_ptr root = new SGPropertyNode(); SGPropertyNode_ptr config = root->getNode("/sim/terrasync", true); config->setStringValue("scenery-dir", "terrasyncdir"); config->setStringValue("svn-server", svn_base); config->setStringValue("rsync-server", rsync_base); config->setBoolValue("use-built-in-svn", true); config->setBoolValue("use-svn", true); config->setBoolValue("enabled", true); config->setIntValue("max-errors", -1); // -1 = infinite // parse command-line arguments parseOptions(argc, argv, config, testing, verbose, port, pidfn); if (verbose) sglog().setLogLevels( SG_ALL, SG_INFO); // create PID file if (*pidfn) { ofstream pidstream; pidstream.open(pidfn); if (!pidstream.good()) { cerr << "Cannot open pid file '" << pidfn << "': "; perror(0); exit(2); } pidstream << getpid() << endl; pidstream.close(); } // install signal handlers for (int* sigp=termination_triggering_signals; *sigp; sigp++) { prior_signal_handlers[*sigp] = signal(*sigp, *terminate_request_handler); if (verbose>=2) cout << "Intercepting signal " << *sigp << endl; } { pTerraSync = new simgear::SGTerraSync(root); pTerraSync->bind(); pTerraSync->init(); // now monitor and process position updates exit_code = processRequests(config, testing, verbose, port); pTerraSync->unbind(); delete pTerraSync; pTerraSync = NULL; } return exit_code; }