// fgcom.cxx -- FGCom: Voice communication // // Written by Clement de l'Hamaide, started Mai 2013. // // 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. #ifdef HAVE_CONFIG_H # include #endif #include "fgcom.hxx" // standard library includes #include // simgear includes #include #include #include #include #include // flightgear includes #include
#include
#include #include #include #include #define NUM_CALLS 4 #define MAX_RANGE 100.0 #define MIN_RANGE 20.0 #define DEFAULT_SERVER "fgcom.flightgear.org" #define IAX_DELAY 300 // delay between calls in milliseconds #define TEST_FREQ 910.00 #define NULL_ICAO "ZZZZ" const int special_freq[] = { // Define some freq who need to be used with NULL_ICAO 911000, 700000, 123450, 122750, 121500, 123500, 121000, 723340 }; FGCom::FGCom() : _register(true) { _listener_active = 0; } FGCom::~FGCom() { } void FGCom::bind() { SGPropertyNode *node = fgGetNode("/sim/fgcom", 0, true); _test_node = node->getChild( "test", 0, true ); _server_node = node->getChild( "server", 0, true ); _enabled_node = node->getChild( "enabled", 0, true ); _micBoost_node = node->getChild( "mic-boost", 0, true ); _micLevel_node = node->getChild( "mic-level", 0, true ); _speakerLevel_node = node->getChild( "speaker-level", 0, true ); _selectedInput_node = node->getChild( "device-input", 0, true ); _selectedOutput_node = node->getChild( "device-output", 0, true ); SGPropertyNode *reg_node = node->getChild("register", 0, true); _register_node = reg_node->getChild( "enabled", 0, true ); _username_node = reg_node->getChild( "username", 0, true ); _password_node = reg_node->getChild( "password", 0, true ); //_nav0_node = fgGetNode("/instrumentation/nav[0]/frequencies/selected-mhz", true); //_nav1_node = fgGetNode("/instrumentation/nav[1]/frequencies/selected-mhz", true); _comm0_node = fgGetNode("/instrumentation/comm[0]/frequencies/selected-mhz", true); //_comm1_node = fgGetNode("/instrumentation/comm[1]/frequencies/selected-mhz", true); _ptt0_node = fgGetNode("/instrumentation/comm[0]/ptt", true); //FIXME: what about /instrumentation/comm[1]/ptt ? _callsign_node = fgGetNode("/sim/multiplay/callsign", true); // Set default values if not provided if ( !_enabled_node->hasValue() ) _enabled_node->setBoolValue(true); if ( !_test_node->hasValue() ) _test_node->setBoolValue(false); if ( !_micBoost_node->hasValue() ) _micBoost_node->setIntValue(1); if ( !_server_node->hasValue() ) _server_node->setStringValue(DEFAULT_SERVER); if ( !_speakerLevel_node->hasValue() ) _speakerLevel_node->setFloatValue(1.0); if ( !_micLevel_node->hasValue() ) _micLevel_node->setFloatValue(1.0); if ( !_register_node->hasValue() ) _register_node->setBoolValue(false); if ( !_username_node->hasValue() ) _username_node->setStringValue("guest"); if ( !_password_node->hasValue() ) _password_node->setStringValue("guest"); _selectedOutput_node->addChangeListener(this); _selectedInput_node->addChangeListener(this); _speakerLevel_node->addChangeListener(this); _micBoost_node->addChangeListener(this); _micLevel_node->addChangeListener(this); _enabled_node->addChangeListener(this); _comm0_node->addChangeListener(this); //_comm1_node->addChangeListener(this); //_nav0_node->addChangeListener(this); //_nav1_node->addChangeListener(this); _ptt0_node->addChangeListener(this); _test_node->addChangeListener(this); } void FGCom::unbind() { } void FGCom::init() { _enabled = _enabled_node->getBoolValue(); _server = _server_node->getStringValue(); _register = _register_node->getBoolValue(); _username = _username_node->getStringValue(); _password = _password_node->getStringValue(); _currentComm0 = _comm0_node->getDoubleValue(); //_currentComm1 = _comm1_node->getDoubleValue(); //_currentNav0 = _nav0_node->getDoubleValue(); //_currentNav1 = _nav1_node->getDoubleValue(); _comm0Changed = false; //_comm1Changed = false; //_nav0Changed = false; //_nav1Changed = false; } void FGCom::postinit() { if( !_enabled ) { return; } //WARNING: this _must_ be executed after sound system is totally initialized ! if( iaxc_initialize(NUM_CALLS) ) { SG_LOG(SG_IO, SG_ALERT, "FGCom: cannot initialize iaxclient!"); _enabled = false; return; } // FIXME: To be implemented in IAX audio driver //iaxc_mic_boost_set( _micBoost_node->getIntValue() ); iaxc_set_formats( IAXC_FORMAT_GSM, IAXC_FORMAT_GSM ); iaxc_start_processing_thread (); if ( _register ) { _regId = iaxc_register( const_cast(_username.c_str()), const_cast(_password.c_str()), const_cast(_server.c_str()) ); if( _regId == -1 ) { SG_LOG(SG_IO, SG_INFO, "FGCom: cannot register iaxclient!"); return; } } /* Here we will create the list of available audio devices Each audio device has a name, an ID, and a list of capabilities If an audio device can output sound, available-output=true If an audio device can input sound, available-input=true /sim/fgcom/selected-input (int) /sim/fgcom/selected-output (int) /sim/fgcom/device[n]/id (int) /sim/fgcom/device[n]/name (string) /sim/fgcom/device[n]/available-input (bool) /sim/fgcom/device[n]/available-output (bool) */ //FIXME: OpenAL driver use an hard-coded device // so all following is unused finally until someone // implement "multi-device" support in IAX audio driver SGPropertyNode *node = fgGetNode("/sim/fgcom", 0, true); struct iaxc_audio_device *devs; int nDevs, input, output, ring; iaxc_audio_devices_get(&devs,&nDevs, &input, &output, &ring); for(int i=0; igetChild("device", i, true); // devID _deviceID_node[i] = in_node->getChild("id", 0, true); _deviceID_node[i]->setIntValue(devs[i].devID); // name _deviceName_node[i] = in_node->getChild("name", 0, true); _deviceName_node[i]->setStringValue(devs[i].name); // input capability _deviceInput_node[i] = in_node->getChild("available-input", 0, true); if( devs[i].capabilities & IAXC_AD_INPUT ) _deviceInput_node[i]->setBoolValue(true); else _deviceInput_node[i]->setBoolValue(false); // output capability _deviceOutput_node[i] = in_node->getChild("available-output", 0, true); if( devs[i].capabilities & IAXC_AD_OUTPUT ) _deviceOutput_node[i]->setBoolValue(true); else _deviceOutput_node[i]->setBoolValue(false); // use default device at start if( devs[i].capabilities & IAXC_AD_INPUT_DEFAULT ) _selectedInput_node->setIntValue(devs[i].devID); if( devs[i].capabilities & IAXC_AD_OUTPUT_DEFAULT ) _selectedOutput_node->setIntValue(devs[i].devID); } iaxc_millisleep(50); // Do the first call at start const double freq = _comm0_node->getDoubleValue(); std::string num = computePhoneNumber(freq, getAirportCode(freq)); if( num.size() > 0 ) { SG_LOG( SG_IO, SG_INFO, "FGCom comm[0] number=" << num ); _callComm0 = iaxc_call(num.c_str()); } if( _callComm0 == -1 ) SG_LOG( SG_IO, SG_ALERT, "FGCom cannot call selected freq" ); } void FGCom::updateCall(bool& changed, int& callNo, double freqMHz) { if (!changed) { if( !isInRange(freqMHz) ) { iaxc_dump_call_number(callNo); callNo = -1; return; } else { if(callNo != -1) return; } } SG_LOG( SG_IO, SG_INFO, "FGCom manage change" ); changed = false; // FIXME, out-params are confusing if( callNo != -1 ) { iaxc_dump_call_number( callNo ); callNo = -1; } if(_p.elapsedMSec() > IAX_DELAY) { std::string num = computePhoneNumber(freqMHz, getAirportCode(freqMHz)); if( !isInRange(freqMHz) ) return; if( !num.empty() ) { SG_LOG( SG_IO, SG_INFO, "FGCom number=" << num ); callNo = iaxc_call_ex(num.c_str(), _callsign.c_str(), NULL, 0 /* no video */); if( callNo == -1 ) SG_LOG( SG_IO, SG_ALERT, "FGCom cannot call selected freq" ); } } else { changed = true; } } void FGCom::update(double dt) { if ( !_enabled ) { return; } // For now we manage FGCom for only one freq because IAXClient // is not able to handle multiple calls at same time. updateCall(_comm0Changed, _callComm0, _comm0_node->getDoubleValue()); // updateCall(_comm1Changed, _callComm1, _comm1_node->getDoubleValue()); // updateCall(_nav0Changed, _callNav0, _nav0_node->getDoubleValue()); // updateCall(_nav1Changed, _callNav1, _nav1_node->getDoubleValue()); } void FGCom::shutdown() { SG_LOG( SG_IO, SG_INFO, "FGCom shutdown()" ); _enabled = false; iaxc_unregister(_regId); iaxc_stop_processing_thread(); iaxc_shutdown(); } void FGCom::valueChanged(SGPropertyNode *prop) { if (prop == _enabled_node) { SG_LOG( SG_IO, SG_INFO, "FGCom enabled= " << prop->getBoolValue() ); if( prop->getBoolValue() ) { init(); postinit(); } else { shutdown(); } return; } if (prop == _ptt0_node && _enabled) { if( _ptt0_node->getBoolValue() ) { iaxc_input_level_set( _micLevel_node->getFloatValue() ); //0.0 = min , 1.0 = max iaxc_output_level_set( 0.0 ); } else { iaxc_input_level_set( 0.0 ); iaxc_output_level_set( _speakerLevel_node->getFloatValue() ); } } if (prop == _test_node) { SG_LOG( SG_IO, SG_INFO, "FGCom test= " << prop->getBoolValue() ); testMode( prop->getBoolValue() ); return; } //FIXME: not implemented in IAX audio driver (audio_openal.c) if (prop == _micBoost_node && _enabled) { int micBoost = prop->getIntValue(); SG_LOG( SG_IO, SG_INFO, "FGCom mic-boost= " << micBoost ); SG_CLAMP_RANGE( micBoost, 0, 1 ); iaxc_mic_boost_set( micBoost ) ; // 0 = enabled , 1 = disabled return; } //FIXME: not implemented in IAX audio driver (audio_openal.c) if ((prop == _selectedInput_node || prop == _selectedOutput_node) && _enabled) { int selectedInput = _selectedInput_node->getIntValue(); int selectedOutput = _selectedOutput_node->getIntValue(); SG_LOG( SG_IO, SG_INFO, "FGCom selected-input= " << selectedInput ); SG_LOG( SG_IO, SG_INFO, "FGCom selected-output= " << selectedOutput ); iaxc_audio_devices_set(selectedInput, selectedOutput, 0); return; } if (_listener_active) return; _listener_active++; if (prop == _speakerLevel_node && _enabled) { float speakerLevel = prop->getFloatValue(); SG_LOG( SG_IO, SG_INFO, "FGCom speaker-level= " << speakerLevel ); SG_CLAMP_RANGE( speakerLevel, 0.0, 1.0 ); _speakerLevel_node->setFloatValue(speakerLevel); iaxc_output_level_set(speakerLevel); } if (prop == _micLevel_node && _enabled) { float micLevel = prop->getFloatValue(); SG_LOG( SG_IO, SG_INFO, "FGCom mic-level= " << micLevel ); SG_CLAMP_RANGE( micLevel, 0.0, 1.0 ); _micLevel_node->setFloatValue(micLevel); iaxc_input_level_set(micLevel); } if (prop == _comm0_node) { if( _currentComm0 != prop->getDoubleValue() ) { SG_LOG( SG_IO, SG_INFO, "FGCom comm[0]/freq= " << prop->getDoubleValue() ); _currentComm0 = prop->getDoubleValue(); _p.stamp(); _comm0Changed = true; } } /* if (prop == _comm1_node) { if( _currentComm1 != prop->getDoubleValue() ) { SG_LOG( SG_IO, SG_INFO, "FGCom comm[1]/freq= " << prop->getDoubleValue() ); _currentComm1 = prop->getDoubleValue(); _p.stamp(); _comm1Changed = true; } } if (prop == _nav0_node) { if( _currentNav0 != prop->getDoubleValue() ) { SG_LOG( SG_IO, SG_INFO, "FGCom nav[0]/freq= " << prop->getDoubleValue() ); _currentNav0 = prop->getDoubleValue(); _nav0Changed = true; } } if (prop == _nav1_node) { if( _currentNav1 != prop->getDoubleValue() ) { SG_LOG( SG_IO, SG_INFO, "FGCom nav[1]/freq= " << prop->getDoubleValue() ); _currentNav1 = prop->getDoubleValue(); _nav1Changed = true; } } */ _listener_active--; } void FGCom::testMode(bool testMode) { if(testMode) { _enabled = false; iaxc_dump_call_number(_callComm0); iaxc_input_level_set( _micLevel_node->getFloatValue() ); iaxc_output_level_set( _speakerLevel_node->getFloatValue() ); std::string num = computePhoneNumber(TEST_FREQ, NULL_ICAO); if( num.size() > 0 ) { SG_LOG( SG_IO, SG_INFO, "FGCom test mode =" << num ); iaxc_millisleep(IAX_DELAY); _callComm0 = iaxc_call(num.c_str()); } if( _callComm0 == -1 ) SG_LOG( SG_IO, SG_ALERT, "FGCom cannot call selected freq (test mode)" ); } else { iaxc_dump_call_number(_callComm0); iaxc_millisleep(IAX_DELAY); _callComm0 = -1; _enabled = true; } } /* \param freq The requested frequency e.g 120.825 \return The ICAO code as string e.g LFMV */ std::string FGCom::getAirportCode(const double& freq) { SGGeod aircraftPos = globals->get_aircraft_position(); int freqKhz = 10 * static_cast(freq * 100 + 0.25); for(size_t i=0; iairport()->ident() ); _aptPos = apt->geod(); return apt->airport()->ident(); } /* \param freq The requested frequency e.g 112.7 \return The ICAO code as string e.g ITS */ /* std::string FGCom::getVorCode(const double& freq) const { SGGeod aircraftPos = globals->get_aircraft_position(); FGNavList::TypeFilter filter(FGPositioned::VOR); FGNavRecord* vor = FGNavList::findByFreq( freq, aircraftPos, &filter); if( !vor ) { SG_LOG( SG_IO, SG_INFO, "FGCom getVorCode: not found" ); return std::string(); } SG_LOG( SG_IO, SG_INFO, "FGCom getVorCode: found " << vor->get_ident(); ); return vor->get_ident(); } */ /* \param freq The requested frequency e.g 120.825 \param iaco The associated ICAO code e.g LFMV \return The phone number as string i.e username:password@fgcom.flightgear.org/0176707786120825 */ std::string FGCom::computePhoneNumber(const double& freq, const std::string& icao) const { if( icao.empty() ) return std::string(); char phoneNumber[256]; char exten[32]; char tmp[5]; /*Convert ICAO to ASCII */ sprintf( tmp, "%4s", icao.c_str() ); /*Built the phone number */ sprintf( exten, "%02d%02d%02d%02d%02d%06d", 01, tmp[0], tmp[1], tmp[2], tmp[3], (int) (freq * 1000 + 0.5) ); exten[16] = '\0'; snprintf( phoneNumber, sizeof (phoneNumber), "%s:%s@%s/%s", _username.c_str(), _password.c_str(), _server.c_str(), exten); return phoneNumber; } /* \return A boolean value, 1=in range, 0=out of range */ bool FGCom::isInRange(const double &freq) const { SGGeod acftPos = globals->get_aircraft_position(); double distNm = SGGeodesy::distanceNm(_aptPos, acftPos); double delta_elevation_ft = fabs(acftPos.getElevationFt() - _aptPos.getElevationFt()); double rangeNm = 1.23 * sqrt(delta_elevation_ft); if (rangeNm > MAX_RANGE) rangeNm = MAX_RANGE; if (rangeNm < MIN_RANGE) rangeNm = MIN_RANGE; if( distNm > rangeNm ) return 0; return 1; }