// Part of BNC, a utility for retrieving decoding and // converting GNSS data streams from NTRIP broadcasters. // // Copyright (C) 2007 // German Federal Agency for Cartography and Geodesy (BKG) // http://www.bkg.bund.de // Czech Technical University Prague, Department of Geodesy // http://www.fsv.cvut.cz // // Email: euref-ip@bkg.bund.de // // 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, version 2. // // 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. /* ------------------------------------------------------------------------- * BKG NTRIP Client * ------------------------------------------------------------------------- * * Class: bncCaster * * Purpose: buffers and disseminates the data * * Author: L. Mervart * * Created: 24-Dec-2005 * * Changes: * * -----------------------------------------------------------------------*/ #include #include #include "bnccaster.h" #include "bncapp.h" #include "bncgetthread.h" #include "bncutils.h" #include "bncsettings.h" #include "RTCM/GPSDecoder.h" // Constructor //////////////////////////////////////////////////////////////////////////// bncCaster::bncCaster(const QString& outFileName, int port) { bncSettings settings; connect(this, SIGNAL(newMessage(QByteArray,bool)), (bncApp*) qApp, SLOT(slotMessage(const QByteArray,bool))); if ( !outFileName.isEmpty() ) { QString lName = outFileName; expandEnvVar(lName); _outFile = new QFile(lName); if ( Qt::CheckState(settings.value("rnxAppend").toInt()) == Qt::Checked) { _outFile->open(QIODevice::WriteOnly | QIODevice::Append); } else { _outFile->open(QIODevice::WriteOnly); } _out = new QTextStream(_outFile); _out->setRealNumberNotation(QTextStream::FixedNotation); } else { _outFile = 0; _out = 0; } _port = port; if (_port != 0) { _server = new QTcpServer; if ( !_server->listen(QHostAddress::Any, _port) ) { emit newMessage("bncCaster: Cannot listen on sync port", true); } connect(_server, SIGNAL(newConnection()), this, SLOT(slotNewConnection())); _sockets = new QList; } else { _server = 0; _sockets = 0; } int uPort = settings.value("outUPort").toInt(); if (uPort != 0) { _uServer = new QTcpServer; if ( !_uServer->listen(QHostAddress::Any, uPort) ) { emit newMessage("bncCaster: Cannot listen on usync port", true); } connect(_uServer, SIGNAL(newConnection()), this, SLOT(slotNewUConnection())); _uSockets = new QList; } else { _uServer = 0; _uSockets = 0; } _epochs = new QMultiMap; _lastDumpSec = 0; _confInterval = -1; } // Destructor //////////////////////////////////////////////////////////////////////////// bncCaster::~bncCaster() { QListIterator it(_threads); while(it.hasNext()){ bncGetThread* thread = it.next(); thread->terminate(); } delete _out; delete _outFile; delete _server; delete _sockets; delete _uServer; delete _uSockets; if (_epochs) { QListIterator it(_epochs->values()); while (it.hasNext()) { delete it.next(); } delete _epochs; } } // New Observations //////////////////////////////////////////////////////////////////////////// void bncCaster::newObs(const QByteArray staID, bool firstObs, p_obs obs) { QMutexLocker locker(&_mutex); obs->_status = t_obs::received; long iSec = long(floor(obs->_o.GPSWeeks+0.5)); long newTime = obs->_o.GPSWeek * 7*24*3600 + iSec; // Rename the Station // ------------------ strncpy(obs->_o.StatID, staID.constData(),sizeof(obs->_o.StatID)); obs->_o.StatID[sizeof(obs->_o.StatID)-1] = '\0'; const char begObs[] = "BEGOBS"; const int begObsNBytes = sizeof(begObs) - 1; // Output into the socket // ---------------------- if (_uSockets) { QMutableListIterator is(*_uSockets); while (is.hasNext()) { QTcpSocket* sock = is.next(); if (sock->state() == QAbstractSocket::ConnectedState) { bool ok = true; if (myWrite(sock, begObs, begObsNBytes) != begObsNBytes) { ok = false; } int numBytes = sizeof(obs->_o); if (myWrite(sock, (const char*)(&obs->_o), numBytes) != numBytes) { ok = false; } if (!ok) { delete sock; is.remove(); } } else if (sock->state() != QAbstractSocket::ConnectingState) { delete sock; is.remove(); } } } // First time, set the _lastDumpSec immediately // -------------------------------------------- if (_lastDumpSec == 0) { _lastDumpSec = newTime - 1; } // An old observation - throw it away // ---------------------------------- if (newTime <= _lastDumpSec) { if (firstObs) { bncSettings settings; if ( !settings.value("outFile").toString().isEmpty() || !settings.value("outPort").toString().isEmpty() ) { QTime enomtime = QTime(0,0,0).addSecs(iSec); emit( newMessage(QString("%1: Old epoch %2 (%3) thrown away") .arg(staID.data()).arg(iSec) .arg(enomtime.toString("HH:mm:ss")) .toAscii(), true) ); } } delete obs; return; } // Save the observation // -------------------- _epochs->insert(newTime, obs); // Dump Epochs // ----------- if (newTime - _waitTime > _lastDumpSec) { dumpEpochs(_lastDumpSec + 1, newTime - _waitTime); _lastDumpSec = newTime - _waitTime; } } // New Connection //////////////////////////////////////////////////////////////////////////// void bncCaster::slotNewConnection() { _sockets->push_back( _server->nextPendingConnection() ); emit( newMessage(QString("New client connection on sync port: # %1") .arg(_sockets->size()).toAscii(), true) ); } void bncCaster::slotNewUConnection() { _uSockets->push_back( _uServer->nextPendingConnection() ); emit( newMessage(QString("New client connection on usync port: # %1") .arg(_uSockets->size()).toAscii(), true) ); } // Add New Thread //////////////////////////////////////////////////////////////////////////// void bncCaster::addGetThread(bncGetThread* getThread) { qRegisterMetaType("p_obs"); connect(getThread, SIGNAL(newObs(QByteArray, bool, p_obs)), this, SLOT(newObs(QByteArray, bool, p_obs))); connect(getThread, SIGNAL(getThreadFinished(QByteArray)), this, SLOT(slotGetThreadFinished(QByteArray))); connect(((bncApp*)qApp), SIGNAL(newEphGPS(gpsephemeris)), getThread, SLOT(slotNewEphGPS(gpsephemeris))); _staIDs.push_back(getThread->staID()); _threads.push_back(getThread); getThread->start(); } // Get Thread destroyed //////////////////////////////////////////////////////////////////////////// void bncCaster::slotGetThreadFinished(QByteArray staID) { QMutexLocker locker(&_mutex); QListIterator it(_threads); while (it.hasNext()) { bncGetThread* thread = it.next(); if (thread->staID() == staID) { _threads.removeOne(thread); } } _staIDs.removeAll(staID); emit( newMessage( QString("Mountpoint size %1").arg(_staIDs.size()).toAscii(), true) ); if (_staIDs.size() == 0) { emit(newMessage("bncCaster: Last get thread terminated", true)); emit getThreadsFinished(); } } // Dump Complete Epochs //////////////////////////////////////////////////////////////////////////// void bncCaster::dumpEpochs(long minTime, long maxTime) { const char begEpoch[] = "BEGEPOCH"; const char endEpoch[] = "ENDEPOCH"; const int begEpochNBytes = sizeof(begEpoch) - 1; const int endEpochNBytes = sizeof(endEpoch) - 1; for (long sec = minTime; sec <= maxTime; sec++) { bool first = true; QList allObs = _epochs->values(sec); QListIterator it(allObs); while (it.hasNext()) { p_obs obs = it.next(); if (_samplingRate == 0 || sec % _samplingRate == 0) { if (first) { QTime enomtime = QTime(0,0,0).addSecs(static_cast(floor(obs->_o.GPSWeeks+0.5))); // emit( newMessage( QString("Epoch %1 dumped").arg(enomtime.toString("HH:mm:ss")).toAscii(), true) ); // weber } // Output into the file // -------------------- if (_out) { if (first) { _out->setFieldWidth(1); *_out << begEpoch << endl; } _out->setFieldWidth(0); *_out << obs->_o.StatID; _out->setFieldWidth(1); *_out << " " << obs->_o.satSys; _out->setPadChar('0'); _out->setFieldWidth(2); *_out << obs->_o.satNum; _out->setPadChar(' '); _out->setFieldWidth(1); *_out << " "; _out->setFieldWidth(4); *_out << obs->_o.GPSWeek; _out->setFieldWidth(1); *_out << " "; _out->setFieldWidth(14); _out->setRealNumberPrecision(7); *_out << obs->_o.GPSWeeks; _out->setFieldWidth(1); *_out << " "; _out->setFieldWidth(14); _out->setRealNumberPrecision(3); *_out << obs->_o.C1; _out->setFieldWidth(1); *_out << " "; _out->setFieldWidth(14); _out->setRealNumberPrecision(3); *_out << obs->_o.C2; _out->setFieldWidth(1); *_out << " "; _out->setFieldWidth(14); _out->setRealNumberPrecision(3); *_out << obs->_o.P1; _out->setFieldWidth(1); *_out << " "; _out->setFieldWidth(14); _out->setRealNumberPrecision(3); *_out << obs->_o.P2; _out->setFieldWidth(1); *_out << " "; _out->setFieldWidth(14); _out->setRealNumberPrecision(3); *_out << obs->_o.L1; _out->setFieldWidth(1); *_out << " "; _out->setFieldWidth(14); _out->setRealNumberPrecision(3); *_out << obs->_o.L2; _out->setFieldWidth(1); *_out << " "; _out->setFieldWidth(14); _out->setRealNumberPrecision(3); *_out << obs->_o.S1; _out->setFieldWidth(1); *_out << " "; _out->setFieldWidth(14); _out->setRealNumberPrecision(3); *_out << obs->_o.S2; _out->setFieldWidth(1); *_out << " " << obs->_o.SNR1 << " " << obs->_o.SNR2 << endl; if (!it.hasNext()) { _out->setFieldWidth(1); *_out << endEpoch << endl; } _out->flush(); } // Output into the socket // ---------------------- if (_sockets) { QMutableListIterator is(*_sockets); while (is.hasNext()) { QTcpSocket* sock = is.next(); if (sock->state() == QAbstractSocket::ConnectedState) { bool ok = true; if (first) { if (myWrite(sock, begEpoch, begEpochNBytes) != begEpochNBytes) { ok = false; } } int numBytes = sizeof(obs->_o); if (myWrite(sock, (const char*)(&obs->_o), numBytes) != numBytes) { ok = false; } if (!it.hasNext()) { if (myWrite(sock, endEpoch, endEpochNBytes) != endEpochNBytes) { ok = false; } } if (!ok) { delete sock; is.remove(); } } else if (sock->state() != QAbstractSocket::ConnectingState) { delete sock; is.remove(); } } } } delete obs; _epochs->remove(sec); first = false; } } } // Reread configuration //////////////////////////////////////////////////////////////////////////// void bncCaster::slotReadMountPoints() { bncSettings settings; // Reread several options // ---------------------- _samplingRate = settings.value("binSampl").toInt(); _waitTime = settings.value("waitTime").toInt(); if (_waitTime < 1) { _waitTime = 1; } // Add new mountpoints // ------------------- int iMount = -1; QListIterator it(settings.value("mountPoints").toStringList()); while (it.hasNext()) { ++iMount; QStringList hlp = it.next().split(" "); if (hlp.size() <= 1) continue; QUrl url(hlp[0]); // Does it already exist? // ---------------------- bool existFlg = false; QListIterator iTh(_threads); while (iTh.hasNext()) { bncGetThread* thread = iTh.next(); if (thread->mountPoint() == url) { existFlg = true; break; } } // New bncGetThread // ---------------- if (!existFlg) { QByteArray format = hlp[1].toAscii(); QByteArray latitude = hlp[2].toAscii(); QByteArray longitude = hlp[3].toAscii(); QByteArray nmea = hlp[4].toAscii(); QByteArray ntripVersion = hlp[5].toAscii(); bncGetThread* getThread = new bncGetThread(url, format, latitude, longitude, nmea, ntripVersion, ""); addGetThread(getThread); } } // Remove mountpoints // ------------------ QListIterator iTh(_threads); while (iTh.hasNext()) { bncGetThread* thread = iTh.next(); bool existFlg = false; QListIterator it(settings.value("mountPoints").toStringList()); while (it.hasNext()) { QStringList hlp = it.next().split(" "); if (hlp.size() <= 1) continue; QUrl url(hlp[0]); if (thread->mountPoint() == url) { existFlg = true; break; } } if (!existFlg) { disconnect(thread, 0, 0, 0); _staIDs.removeAll(thread->staID()); _threads.removeAll(thread); thread->terminate(); } } emit mountPointsRead(_threads); emit( newMessage(QString("Configuration read: " + ((bncApp*) qApp)->confFileName() + ", %1 stream(s)") .arg(_threads.count()).toAscii(), true) ); // (Re-) Start the configuration timer // ----------------------------------- int ms = 0; if (_confInterval != -1) { ms = 1000 * _confInterval; } else { QTime currTime = currentDateAndTimeGPS().time(); QTime nextShotTime; if (settings.value("onTheFlyInterval").toString() == "1 min") { _confInterval = 60; nextShotTime = QTime(currTime.hour(), currTime.minute()+1, 0); } else if (settings.value("onTheFlyInterval").toString() == "1 hour") { _confInterval = 3600; nextShotTime = QTime(currTime.hour()+1, 0, 0); } else { _confInterval = 86400; nextShotTime = QTime(23, 59, 59, 999); } ms = currTime.msecsTo(nextShotTime); if (ms < 30000) { ms = 30000; } } QTimer::singleShot(ms, this, SLOT(slotReadMountPoints())); } // //////////////////////////////////////////////////////////////////////////// int bncCaster::myWrite(QTcpSocket* sock, const char* buf, int bufLen) { sock->write(buf, bufLen); for (int ii = 1; ii <= 10; ii++) { if (sock->waitForBytesWritten(10)) { // wait 10 ms return bufLen; } } return -1; }