// 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: bncGetThread
*
* Purpose: Thread that retrieves data from NTRIP caster
*
* Author: L. Mervart
*
* Created: 24-Dec-2005
*
* Changes:
*
* -----------------------------------------------------------------------*/
#include <stdlib.h>
#include <iomanip>
#include <sstream>
#include <QFile>
#include <QTextStream>
#include <QtNetwork>
#include <QTime>
#include "bncgetthread.h"
#include "bnctabledlg.h"
#include "bncapp.h"
#include "bncutils.h"
#include "bncrinex.h"
#include "bnczerodecoder.h"
#include "bncnetqueryv0.h"
#include "bncnetqueryv1.h"
#include "bncnetqueryv2.h"
#include "bncnetqueryrtp.h"
#include "bncnetqueryudp.h"
#include "bncnetqueryudp0.h"
#include "bncnetquerys.h"
#include "bncsettings.h"
#include "latencychecker.h"
#include "bncpppclient.h"
#include "RTCM/RTCM2Decoder.h"
#include "RTCM3/RTCM3Decoder.h"
#include "RTIGS/RTIGSDecoder.h"
#include "GPSS/gpssDecoder.h"
#include "serial/qextserialport.h"
using namespace std;
// Constructor 1
////////////////////////////////////////////////////////////////////////////
bncGetThread::bncGetThread(bncRawFile* rawFile) {
_rawFile = rawFile;
_format = rawFile->format();
_staID = rawFile->staID();
_rawOutput = false;
_ntripVersion = "N";
initialize();
}
// Constructor 2
////////////////////////////////////////////////////////////////////////////
bncGetThread::bncGetThread(const QUrl& mountPoint,
const QByteArray& format,
const QByteArray& latitude,
const QByteArray& longitude,
const QByteArray& nmea,
const QByteArray& ntripVersion, const QByteArray& extraStaID) {
_rawFile = 0;
_mountPoint = mountPoint;
_staID = (extraStaID.size() == 0 ? mountPoint.path().mid(1).toAscii() : extraStaID);
_format = format;
_latitude = latitude;
_longitude = longitude;
_nmea = nmea;
_ntripVersion = ntripVersion;
bncSettings settings;
if (!settings.value("rawOutFile").toString().isEmpty()) {
_rawOutput = true;
}
initialize();
}
// Initialization (common part of the constructor)
////////////////////////////////////////////////////////////////////////////
void bncGetThread::initialize() {
setTerminationEnabled(true);
bncApp* app = (bncApp*) qApp;
connect(this, SIGNAL(newMessage(QByteArray,bool)),
app, SLOT(slotMessage(const QByteArray,bool)));
_isToBeDeleted = false;
_decoder = 0;
_query = 0;
_nextSleep = 0;
_PPPclient = 0;
bncSettings settings;
_miscMount = settings.value("miscMount").toString();
// RINEX writer
// ------------
_samplingRate = settings.value("rnxSampl").toInt();
if ( settings.value("rnxPath").toString().isEmpty() ) {
_rnx = 0;
}
else {
_rnx = new bncRinex(_staID, _mountPoint, _format, _latitude,
_longitude, _nmea, _ntripVersion);
}
// Serial Port
// -----------
_serialNMEA = NO_NMEA;
_serialOutFile = 0;
_serialPort = 0;
if (settings.value("serialMountPoint").toString() == _staID) {
_serialPort = new QextSerialPort(settings.value("serialPortName").toString() );
_serialPort->setTimeout(0,100);
// Baud Rate
// ---------
QString hlp = settings.value("serialBaudRate").toString();
if (hlp == "110") {
_serialPort->setBaudRate(BAUD110);
}
else if (hlp == "300") {
_serialPort->setBaudRate(BAUD300);
}
else if (hlp == "600") {
_serialPort->setBaudRate(BAUD600);
}
else if (hlp == "1200") {
_serialPort->setBaudRate(BAUD1200);
}
else if (hlp == "2400") {
_serialPort->setBaudRate(BAUD2400);
}
else if (hlp == "4800") {
_serialPort->setBaudRate(BAUD4800);
}
else if (hlp == "9600") {
_serialPort->setBaudRate(BAUD9600);
}
else if (hlp == "19200") {
_serialPort->setBaudRate(BAUD19200);
}
else if (hlp == "38400") {
_serialPort->setBaudRate(BAUD38400);
}
else if (hlp == "57600") {
_serialPort->setBaudRate(BAUD57600);
}
else if (hlp == "115200") {
_serialPort->setBaudRate(BAUD115200);
}
// Parity
// ------
hlp = settings.value("serialParity").toString();
if (hlp == "NONE") {
_serialPort->setParity(PAR_NONE);
}
else if (hlp == "ODD") {
_serialPort->setParity(PAR_ODD);
}
else if (hlp == "EVEN") {
_serialPort->setParity(PAR_EVEN);
}
else if (hlp == "SPACE") {
_serialPort->setParity(PAR_SPACE);
}
// Data Bits
// ---------
hlp = settings.value("serialDataBits").toString();
if (hlp == "5") {
_serialPort->setDataBits(DATA_5);
}
else if (hlp == "6") {
_serialPort->setDataBits(DATA_6);
}
else if (hlp == "7") {
_serialPort->setDataBits(DATA_7);
}
else if (hlp == "8") {
_serialPort->setDataBits(DATA_8);
}
hlp = settings.value("serialStopBits").toString();
if (hlp == "1") {
_serialPort->setStopBits(STOP_1);
}
else if (hlp == "2") {
_serialPort->setStopBits(STOP_2);
}
// Flow Control
// ------------
hlp = settings.value("serialFlowControl").toString();
if (hlp == "XONXOFF") {
_serialPort->setFlowControl(FLOW_XONXOFF);
}
else if (hlp == "HARDWARE") {
_serialPort->setFlowControl(FLOW_HARDWARE);
}
else {
_serialPort->setFlowControl(FLOW_OFF);
}
// Open Serial Port
// ----------------
_serialPort->open(QIODevice::ReadWrite|QIODevice::Unbuffered);
if (!_serialPort->isOpen()) {
delete _serialPort;
_serialPort = 0;
emit(newMessage((_staID + ": Cannot open serial port\n"), true));
}
connect(_serialPort, SIGNAL(readyRead()),
this, SLOT(slotSerialReadyRead()));
// Automatic NMEA
// --------------
if (settings.value("serialAutoNMEA").toString() == "Auto") {
_serialNMEA = AUTO_NMEA;
QString fName = settings.value("serialFileNMEA").toString();
if (!fName.isEmpty()) {
_serialOutFile = new QFile(fName);
if ( Qt::CheckState(settings.value("rnxAppend").toInt()) == Qt::Checked) {
_serialOutFile->open(QIODevice::WriteOnly | QIODevice::Append);
}
else {
_serialOutFile->open(QIODevice::WriteOnly);
}
}
}
// Manual NMEA
// -----------
else {
_serialNMEA = MANUAL_NMEA;
}
}
// Initialize PPP Client?
// ----------------------
#ifndef MLS_SOFTWARE
if (settings.value("pppMount").toString() == _staID) {
_PPPclient = new bncPPPclient(_staID);
qRegisterMetaType<bncTime>("bncTime");
connect(_PPPclient, SIGNAL(newPosition(bncTime, double, double, double)),
this, SIGNAL(newPosition(bncTime, double, double, double)));
connect(_PPPclient, SIGNAL(newNMEAstr(QByteArray)),
this, SIGNAL(newNMEAstr(QByteArray)));
}
#endif
// Instantiate the decoder
// -----------------------
if (_format.indexOf("RTCM_2") != -1 || _format.indexOf("RTCM2") != -1 ||
_format.indexOf("RTCM 2") != -1 ) {
emit(newMessage(_staID + ": Get data in RTCM 2.x format", true));
_decoder = new RTCM2Decoder(_staID.data());
}
else if (_format.indexOf("RTCM_3") != -1 || _format.indexOf("RTCM3") != -1 ||
_format.indexOf("RTCM 3") != -1 ) {
emit(newMessage(_staID + ": Get data in RTCM 3.x format", true));
_decoder = new RTCM3Decoder(_staID, _rawFile);
connect((RTCM3Decoder*) _decoder, SIGNAL(newMessage(QByteArray,bool)),
this, SIGNAL(newMessage(QByteArray,bool)));
}
else if (_format.indexOf("RTIGS") != -1) {
emit(newMessage(_staID + ": Get data in RTIGS format", true));
_decoder = new RTIGSDecoder();
}
else if (_format.indexOf("GPSS") != -1 || _format.indexOf("BNC") != -1) {
emit(newMessage(_staID + ": Get Data in GPSS format", true));
_decoder = new gpssDecoder();
}
else if (_format.indexOf("ZERO") != -1) {
emit(newMessage(_staID + ": Get data in original format", true));
_decoder = new bncZeroDecoder(_staID);
}
else {
emit(newMessage(_staID + ": Unknown data format " + _format, true));
_isToBeDeleted = true;
}
_latencyChecker = new latencyChecker(_staID);
msleep(100); //sleep 0.1 sec
}
// Destructor
////////////////////////////////////////////////////////////////////////////
bncGetThread::~bncGetThread() {
if (isRunning()) {
wait();
}
if (_query) {
_query->stop();
_query->deleteLater();
}
delete _PPPclient;
delete _decoder;
delete _rnx;
delete _rawFile;
delete _serialOutFile;
delete _serialPort;
delete _latencyChecker;
emit getThreadFinished(_staID);
}
//
////////////////////////////////////////////////////////////////////////////
void bncGetThread::terminate() {
_isToBeDeleted = true;
if (!isRunning()) {
delete this;
}
}
// Run
////////////////////////////////////////////////////////////////////////////
void bncGetThread::run() {
while (true) {
try {
if (_isToBeDeleted) {
QThread::exit(0);
this->deleteLater();
return;
}
if (tryReconnect() != success) {
_latencyChecker->checkReconnect();
continue;
}
// Delete old observations
// -----------------------
QListIterator<p_obs> itOld(_decoder->_obsList);
while (itOld.hasNext()) {
delete itOld.next();
}
_decoder->_obsList.clear();
// Read Data
// ---------
QByteArray data;
if (_query) {
_query->waitForReadyRead(data);
}
else if (_rawFile) {
data = _rawFile->readChunk();
if (data.isEmpty()) {
cout << "no more data" << endl;
QThread::exit(0);
this->deleteLater();
return;
}
}
qint64 nBytes = data.size();
// Timeout, reconnect
// ------------------
if (nBytes == 0) {
_latencyChecker->checkReconnect();
emit(newMessage(_staID + ": Data timeout, reconnecting", true));
msleep(10000); //sleep 10 sec, G. Weber
continue;
}
else {
emit newBytes(_staID, nBytes);
}
// Output Data
// -----------
if (_rawOutput) {
bncApp* app = (bncApp*) qApp;
app->writeRawData(data, _staID, _format);
}
if (_serialPort) {
slotSerialReadyRead();
_serialPort->write(data);
}
// Decode Data
// -----------
vector<string> errmsg;
t_irc irc = _decoder->Decode(data.data(), data.size(), errmsg);
// Perform various scans and checks
// --------------------------------
_latencyChecker->checkOutage(irc == success);
_latencyChecker->checkObsLatency(_decoder->_obsList);
_latencyChecker->checkCorrLatency(_decoder->corrGPSEpochTime());
emit newLatency(_staID, _latencyChecker->currentLatency());
scanRTCM();
// Loop over all observations (observations output)
// ------------------------------------------------
QListIterator<p_obs> it(_decoder->_obsList);
while (it.hasNext()) {
p_obs obs = it.next();
// Check observation epoch
// -----------------------
if (!_rawFile && !dynamic_cast<gpssDecoder*>(_decoder)) {
int week;
double sec;
currentGPSWeeks(week, sec);
const double secPerWeek = 7.0 * 24.0 * 3600.0;
double currSec = week * secPerWeek + sec;
double obsSec = obs->_o.GPSWeek * secPerWeek + obs->_o.GPSWeeks;
const double maxDt = 600.0;
if (fabs(currSec - obsSec) > maxDt) {
emit( newMessage(_staID + ": Wrong observation epoch(s)", false) );
delete obs;
continue;
}
}
// RINEX Output
// ------------
if (_rnx) {
long iSec = long(floor(obs->_o.GPSWeeks+0.5));
long newTime = obs->_o.GPSWeek * 7*24*3600 + iSec;
if (_samplingRate == 0 || iSec % _samplingRate == 0) {
_rnx->deepCopy(obs);
}
_rnx->dumpEpoch(newTime);
}
// PPP Client
// ----------
#ifndef MLS_SOFTWARE
if (_PPPclient) {
_PPPclient->putNewObs(obs);
}
#endif
// Emit new observation signal
// ---------------------------
bool firstObs = (obs == _decoder->_obsList.first());
obs->_status = t_obs::posted;
emit newObs(_staID, firstObs, obs);
}
_decoder->_obsList.clear();
}
catch (...) {
emit(newMessage(_staID + "bncGetThread exception", true));
_isToBeDeleted = true;
}
}
}
// Try Re-Connect
////////////////////////////////////////////////////////////////////////////
t_irc bncGetThread::tryReconnect() {
// Easy Return
// -----------
if (_query && _query->status() == bncNetQuery::running) {
_nextSleep = 0;
if (_rnx) {
_rnx->setReconnectFlag(false);
}
return success;
}
// Start a new query
// -----------------
if (!_rawFile) {
sleep(_nextSleep);
if (_nextSleep == 0) {
_nextSleep = 1;
}
else {
_nextSleep = 2 * _nextSleep;
if (_nextSleep > 256) {
_nextSleep = 256;
}
#ifdef MLS_SOFTWARE
if (_nextSleep > 4) {
_nextSleep = 4;
}
#endif
}
delete _query;
if (_ntripVersion == "U") {
_query = new bncNetQueryUdp();
}
else if (_ntripVersion == "R") {
_query = new bncNetQueryRtp();
}
else if (_ntripVersion == "S") {
_query = new bncNetQueryS();
}
else if (_ntripVersion == "N") {
_query = new bncNetQueryV0();
}
else if (_ntripVersion == "UN") {
_query = new bncNetQueryUdp0();
}
else if (_ntripVersion == "2") {
_query = new bncNetQueryV2();
}
else {
_query = new bncNetQueryV1();
}
if (_nmea == "yes" && _serialNMEA != AUTO_NMEA) {
QByteArray gga = ggaString(_latitude, _longitude, "100.0");
_query->startRequest(_mountPoint, gga);
}
else {
_query->startRequest(_mountPoint, "");
}
if (_query->status() != bncNetQuery::running) {
return failure;
}
}
if (_rnx) {
_rnx->setReconnectFlag(true);
}
return success;
}
// RTCM scan output
//////////////////////////////////////////////////////////////////////////////
void bncGetThread::scanRTCM() {
bncSettings settings;
if ( Qt::CheckState(settings.value("scanRTCM").toInt()) == Qt::Checked ) {
if ( _miscMount == _staID || _miscMount == "ALL" ) {
// RTCM message types
// ------------------
for (int ii = 0; ii <_decoder->_typeList.size(); ii++) {
QString type = QString("%1 ").arg(_decoder->_typeList[ii]);
emit(newMessage(_staID + ": Received message type " + type.toAscii(), true));
}
// RTCMv3 antenna descriptor
// -------------------------
for (int ii=0;ii<_decoder->_antType.size();ii++) {
QString ant1 = QString("%1 ").arg(_decoder->_antType[ii]);
emit(newMessage(_staID + ": Antenna descriptor " + ant1.toAscii(), true));
}
// RTCM Antenna Coordinates
// ------------------------
for (int ii=0; ii <_decoder->_antList.size(); ii++) {
QByteArray antT;
if (_decoder->_antList[ii].type == GPSDecoder::t_antInfo::ARP) {
antT = "ARP";
}
else if (_decoder->_antList[ii].type == GPSDecoder::t_antInfo::APC) {
antT = "APC";
}
QByteArray ant1, ant2, ant3;
ant1 = QString("%1 ").arg(_decoder->_antList[ii].xx,0,'f',4).toAscii();
ant2 = QString("%1 ").arg(_decoder->_antList[ii].yy,0,'f',4).toAscii();
ant3 = QString("%1 ").arg(_decoder->_antList[ii].zz,0,'f',4).toAscii();
emit(newMessage(_staID + ": " + antT + " (ITRF) X " + ant1 + "m", true));
emit(newMessage(_staID + ": " + antT + " (ITRF) Y " + ant2 + "m", true));
emit(newMessage(_staID + ": " + antT + " (ITRF) Z " + ant3 + "m", true));
if (_decoder->_antList[ii].height_f) {
QByteArray ant4 = QString("%1 ").arg(_decoder->_antList[ii].height,0,'f',4).toAscii();
emit(newMessage(_staID + ": Antenna height above marker " + ant4 + "m", true));
}
emit(newAntCrd(_staID, _decoder->_antList[ii].xx,
_decoder->_antList[ii].yy, _decoder->_antList[ii].zz,
antT));
}
}
}
#ifdef MLS_SOFTWARE
for (int ii=0; ii <_decoder->_antList.size(); ii++) {
QByteArray antT;
if (_decoder->_antList[ii].type == GPSDecoder::t_antInfo::ARP) {
antT = "ARP";
}
else if (_decoder->_antList[ii].type == GPSDecoder::t_antInfo::APC) {
antT = "APC";
}
emit(newAntCrd(_staID, _decoder->_antList[ii].xx,
_decoder->_antList[ii].yy, _decoder->_antList[ii].zz,
antT));
}
for (int ii = 0; ii <_decoder->_typeList.size(); ii++) {
emit(newRTCMMessage(_staID, _decoder->_typeList[ii]));
}
#endif
_decoder->_typeList.clear();
_decoder->_antType.clear();
_decoder->_antList.clear();
}
// Handle Data from Serial Port
////////////////////////////////////////////////////////////////////////////
void bncGetThread::slotSerialReadyRead() {
if (_serialPort) {
int nb = _serialPort->bytesAvailable();
if (nb > 0) {
QByteArray data = _serialPort->read(nb);
if (_serialNMEA == AUTO_NMEA) {
int i1 = data.indexOf("$GPGGA");
if (i1 != -1) {
int i2 = data.indexOf("*", i1);
if (i2 != -1 && data.size() > i2 + 1) {
QByteArray gga = data.mid(i1,i2-i1+3);
_query->sendNMEA(gga);
}
}
}
if (_serialOutFile) {
_serialOutFile->write(data);
_serialOutFile->flush();
}
}
}
}
//
//////////////////////////////////////////////////////////////////////////////
void bncGetThread::slotNewEphGPS(gpsephemeris gpseph) {
RTCM2Decoder* decoder2 = dynamic_cast<RTCM2Decoder*>(_decoder);
RTCM3Decoder* decoder3 = dynamic_cast<RTCM3Decoder*>(_decoder);
if ( decoder2 ) {
QMutexLocker locker(&_mutex);
string storedPRN;
vector<int> IODs;
if ( decoder2->storeEph(gpseph, storedPRN, IODs) ) {
#ifdef DEBUG_RTCM2_2021
QString msg = _staID + QString(": stored eph %1 IODs").arg(storedPRN.c_str());
for (unsigned ii = 0; ii < IODs.size(); ii++) {
msg += QString(" %1").arg(IODs[ii],4);
}
emit(newMessage(msg.toAscii()));
#endif
}
}
if ( decoder3 ) {
QMutexLocker locker(&_mutex);
if ( decoder3->storeEph(gpseph) ) {
#ifdef DEBUG_RTCM3
QString msg = _staID + QString(": RTCM3Decoder, stored eph for satellite %1").arg(gpseph.satellite);
emit(newMessage(msg.toAscii(),true));
#endif
}
}
}