kopia lustrzana https://gitlab.com/eliggett/wfview
373 wiersze
12 KiB
C++
373 wiersze
12 KiB
C++
#include "commhandler.h"
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#include "logcategories.h"
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#include <QDebug>
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// Copyright 2017-2020 Elliott H. Liggett
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commHandler::commHandler()
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{
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//constructor
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// grab baud rate and other comm port details
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// if they need to be changed later, please
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// destroy this and create a new one.
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port = new QSerialPort();
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// TODO: The following should become arguments and/or functions
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// Add signal/slot everywhere for comm port setup.
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// Consider how to "re-setup" and how to save the state for next time.
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baudrate = 115200;
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stopbits = 1;
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portName = "/dev/ttyUSB0";
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this->PTTviaRTS = false;
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setupComm(); // basic parameters
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openPort();
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//qInfo(logSerial()) << "Serial buffer size: " << port->readBufferSize();
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//port->setReadBufferSize(1024); // manually. 256 never saw any return from the radio. why...
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//qInfo(logSerial()) << "Serial buffer size: " << port->readBufferSize();
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connect(port, SIGNAL(readyRead()), this, SLOT(receiveDataIn()));
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}
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commHandler::commHandler(QString portName, quint32 baudRate, quint8 wfFormat)
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{
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//constructor
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// grab baud rate and other comm port details
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// if they need to be changed later, please
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// destroy this and create a new one.
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port = new QSerialPort();
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if (wfFormat == 1) { // Single waterfall packet
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combineWf = true;
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qDebug(logSerial()) << "*********** Combine Waterfall Mode Enabled!";
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}
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// TODO: The following should become arguments and/or functions
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// Add signal/slot everywhere for comm port setup.
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// Consider how to "re-setup" and how to save the state for next time.
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baudrate = baudRate;
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stopbits = 1;
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this->portName = portName;
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this->PTTviaRTS = false;
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setupComm(); // basic parameters
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openPort();
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// qInfo(logSerial()) << "Serial buffer size: " << port->readBufferSize();
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//port->setReadBufferSize(1024); // manually. 256 never saw any return from the radio. why...
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//qInfo(logSerial()) << "Serial buffer size: " << port->readBufferSize();
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connect(port, SIGNAL(readyRead()), this, SLOT(receiveDataIn()));
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}
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commHandler::~commHandler()
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{
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if (isConnected) {
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this->closePort();
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}
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delete port;
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}
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void commHandler::setupComm()
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{
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serialError = false;
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port->setPortName(portName);
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port->setBaudRate(baudrate);
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port->setStopBits(QSerialPort::OneStop);// OneStop is other option
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}
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void commHandler::receiveDataFromUserToRig(const QByteArray &data)
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{
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sendDataOut(data);
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}
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void commHandler::sendDataOut(const QByteArray &writeData)
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{
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mutex.lock();
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// Recycle port to attempt reconnection.
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if (!this->isConnected) {
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closePort();
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openPort();
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}
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if (!this->isConnected) {
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return;
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}
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qint64 bytesWritten;
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if(PTTviaRTS)
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{
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// Size: 1 2 3 4 5 6 7 8
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//index: 0 1 2 3 4 5 6 7
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//Query: FE FE TO FROM 0x1C 0x00 0xFD
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//PTT On: FE FE TO FROM 0x1C 0x00 0x01 0xFD
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//PTT Off: FE FE TO FROM 0x1C 0x00 0x00 0xFD
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if(writeData.endsWith(QByteArrayLiteral("\x1C\x00\xFD")))
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{
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// Query
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//qDebug(logSerial()) << "Looks like PTT Query";
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bool pttOn = this->rtsStatus();
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QByteArray pttreturncmd = QByteArray("\xFE\xFE");
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pttreturncmd.append(writeData.at(3));
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pttreturncmd.append(writeData.at(2));
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pttreturncmd.append(QByteArray("\x1C\x00", 2));
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pttreturncmd.append((char)pttOn);
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pttreturncmd.append("\xFD");
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//qDebug(logSerial()) << "Sending fake PTT query result: " << (bool)pttOn;
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printHex(pttreturncmd, false, true);
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emit haveDataFromPort(pttreturncmd);
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mutex.unlock();
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return;
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} else if(writeData.endsWith(QByteArrayLiteral("\x1C\x00\x01\xFD")))
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{
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// PTT ON
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//qDebug(logSerial()) << "Looks like PTT ON";
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setRTS(true);
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mutex.unlock();
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return;
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} else if(writeData.endsWith(QByteArrayLiteral("\x1C\x00\x00\xFD")))
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{
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// PTT OFF
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//qDebug(logSerial()) << "Looks like PTT OFF";
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setRTS(false);
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mutex.unlock();
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return;
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}
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}
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bytesWritten = port->write(writeData);
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if(bytesWritten != (qint64)writeData.size())
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{
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qDebug(logSerial()) << "bytesWritten: " << bytesWritten << " length of byte array: " << writeData.length()\
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<< " size of byte array: " << writeData.size()\
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<< " Wrote all bytes? " << (bool) (bytesWritten == (qint64)writeData.size());
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}
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mutex.unlock();
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}
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void commHandler::receiveDataIn()
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{
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// connected to comm port data signal
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// Here we get a little specific to CIV radios
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// because we know what constitutes a valid "frame" of data.
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// new code:
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port->startTransaction();
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inPortData = port->readAll();
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if(inPortData.size() == 1)
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{
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// Generally for baud <= 9600
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if (inPortData == "\xFE")
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{
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// This will get hit twice.
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// After the FE FE, we transition into
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// the normal .startsWith FE FE block
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// where the normal rollback code can handle things.
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port->rollbackTransaction();
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rolledBack = true;
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return;
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}
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}
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if (inPortData.startsWith("\xFE\xFE"))
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{
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if(inPortData.contains("\xFC"))
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{
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//qInfo(logSerial()) << "Transaction contains collision data. Dumping.";
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//printHex(inPortData, false, true);
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port->commitTransaction();
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return;
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}
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if(inPortData.endsWith("\xFD"))
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{
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// good!
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port->commitTransaction();
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//payloadIn = data.right(data.length() - 4);
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// Do we need to combine waterfall into single packet?
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int combined = 0;
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if (combineWf) {
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int pos = inPortData.indexOf(QByteArrayLiteral("\x27\x00\x00"));
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int fdPos = inPortData.mid(pos).indexOf(QByteArrayLiteral("\xfd"));
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//printHex(inPortData, false, true);
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while (pos > -1 && fdPos > -1) {
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combined++;
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spectrumDivisionNumber = 0;
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spectrumDivisionNumber = inPortData[pos + 3] & 0x0f;
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spectrumDivisionNumber += ((inPortData[pos + 3] & 0xf0) >> 4) * 10;
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if (spectrumDivisionNumber == 1) {
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// This is the first waveform data.
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spectrumDivisionMax = 0;
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spectrumDivisionMax = inPortData[pos + 4] & 0x0f;
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spectrumDivisionMax += ((inPortData[pos + 4] & 0xf0) >> 4) * 10;
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spectrumData.clear();
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spectrumData = inPortData.mid(pos - 4, fdPos+4); // Don't include terminating FD
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spectrumData[8] = spectrumData[7]; // Make max = current;
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//qDebug() << "New Spectrum seq:" << spectrumDivisionNumber << "pos = " << pos << "len" << fdPos;
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}
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else if (spectrumDivisionNumber > lastSpectrum && spectrumDivisionNumber <= spectrumDivisionMax) {
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spectrumData.insert(spectrumData.length(), inPortData.mid(pos + 4, fdPos-5));
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//qDebug() << "Added spectrum seq:" << spectrumDivisionNumber << "len" << fdPos-5;
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//printHex(inPortData.mid((pos+4),fdPos - (pos+5)), false, true);
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}
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else {
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qDebug() << "Invalid Spectrum Division received" << spectrumDivisionNumber << "last Spectrum" << lastSpectrum;
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}
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lastSpectrum = spectrumDivisionNumber;
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if (spectrumDivisionNumber == spectrumDivisionMax) {
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//qDebug() << "Got Spectrum! length=" << spectrumData.length();
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spectrumData.append("\xfd"); // Need to add FD on the end.
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//printHex(spectrumData, false, true);
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emit haveDataFromPort(spectrumData);
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lastSpectrum = 0;
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}
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inPortData = inPortData.remove(pos-4, fdPos+5);
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pos = inPortData.indexOf(QByteArrayLiteral("\x27\x00\x00"));
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fdPos = inPortData.mid(pos).indexOf(QByteArrayLiteral("\xfd"));
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}
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// If we still have data left, let the main function deal with it, any spectrum data has been removed
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if (inPortData.length() == 0)
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{
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return;
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}
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// qDebug() << "Got extra data!";
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//printHex(inPortData, false, true);
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}
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//
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emit haveDataFromPort(inPortData);
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if(rolledBack)
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{
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// qInfo(logSerial()) << "Rolled back and was successful. Length: " << inPortData.length();
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//printHex(inPortData, false, true);
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rolledBack = false;
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}
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} else {
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// did not receive the entire thing so roll back:
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// qInfo(logSerial()) << "Rolling back transaction. End not detected. Length: " << inPortData.length();
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//printHex(inPortData, false, true);
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port->rollbackTransaction();
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rolledBack = true;
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}
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} else {
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port->commitTransaction(); // do not emit data, do not keep data.
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//qInfo(logSerial()) << "Warning: received data with invalid start. Dropping data.";
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//qInfo(logSerial()) << "THIS SHOULD ONLY HAPPEN ONCE!!";
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// THIS SHOULD ONLY HAPPEN ONCE!
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// unrecoverable. We did not receive the start and must
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// have missed it earlier because we did not roll back to
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// preserve the beginning.
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//printHex(inPortData, false, true);
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}
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}
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void commHandler::setRTS(bool rtsOn)
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{
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bool success = port->setRequestToSend(rtsOn);
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if(!success)
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{
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qInfo(logSerial()) << "Error, could not set RTS on port " << portName;
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}
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}
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bool commHandler::rtsStatus()
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{
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return port->isRequestToSend();
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}
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void commHandler::setUseRTSforPTT(bool PTTviaRTS)
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{
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this->PTTviaRTS = PTTviaRTS;
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}
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void commHandler::openPort()
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{
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bool success;
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success = port->open(QIODevice::ReadWrite);
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if(success)
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{
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port->setDataTerminalReady(false);
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port->setRequestToSend(false);
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isConnected = true;
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qInfo(logSerial()) << "Opened port: " << portName;
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return;
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} else {
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qInfo(logSerial()) << "Could not open serial port " << portName << " , please restart.";
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isConnected = false;
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serialError = true;
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emit haveSerialPortError(portName, "Could not open port. Please restart.");
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return;
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}
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}
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void commHandler::closePort()
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{
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if(port)
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{
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port->close();
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//delete port;
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}
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isConnected = false;
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}
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void commHandler::debugThis()
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{
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// Do not use, function is for debug only and subject to change.
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qInfo(logSerial()) << "comm debug called.";
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inPortData = port->readAll();
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emit haveDataFromPort(inPortData);
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}
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void commHandler::printHex(const QByteArray &pdata, bool printVert, bool printHoriz)
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{
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qDebug(logSerial()) << "---- Begin hex dump -----:";
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QString sdata("DATA: ");
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QString index("INDEX: ");
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QStringList strings;
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for(int i=0; i < pdata.length(); i++)
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{
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strings << QString("[%1]: %2").arg(i,8,10,QChar('0')).arg((unsigned char)pdata[i], 2, 16, QChar('0'));
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sdata.append(QString("%1 ").arg((unsigned char)pdata[i], 2, 16, QChar('0')) );
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index.append(QString("%1 ").arg(i, 2, 10, QChar('0')));
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}
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if(printVert)
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{
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for(int i=0; i < strings.length(); i++)
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{
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qDebug(logSerial()) << strings.at(i);
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}
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}
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if(printHoriz)
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{
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qDebug(logSerial()) << index;
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qDebug(logSerial()) << sdata;
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}
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qDebug(logSerial()) << "----- End hex dump -----";
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}
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