wfview/rigctld.cpp

1499 wiersze
47 KiB
C++

#include "rigctld.h"
#include "logcategories.h"
static struct
{
quint64 mode;
const char* str;
} mode_str[] =
{
{ RIG_MODE_AM, "AM" },
{ RIG_MODE_CW, "CW" },
{ RIG_MODE_USB, "USB" },
{ RIG_MODE_LSB, "LSB" },
{ RIG_MODE_RTTY, "RTTY" },
{ RIG_MODE_FM, "FM" },
{ RIG_MODE_WFM, "WFM" },
{ RIG_MODE_CWR, "CWR" },
{ RIG_MODE_RTTYR, "RTTYR" },
{ RIG_MODE_AMS, "AMS" },
{ RIG_MODE_PKTLSB, "PKTLSB" },
{ RIG_MODE_PKTUSB, "PKTUSB" },
{ RIG_MODE_PKTFM, "PKTFM" },
{ RIG_MODE_PKTFMN, "PKTFMN" },
{ RIG_MODE_ECSSUSB, "ECSSUSB" },
{ RIG_MODE_ECSSLSB, "ECSSLSB" },
{ RIG_MODE_FAX, "FAX" },
{ RIG_MODE_SAM, "SAM" },
{ RIG_MODE_SAL, "SAL" },
{ RIG_MODE_SAH, "SAH" },
{ RIG_MODE_DSB, "DSB"},
{ RIG_MODE_FMN, "FMN" },
{ RIG_MODE_PKTAM, "PKTAM"},
{ RIG_MODE_P25, "P25"},
{ RIG_MODE_DSTAR, "D-STAR"},
{ RIG_MODE_DPMR, "DPMR"},
{ RIG_MODE_NXDNVN, "NXDN-VN"},
{ RIG_MODE_NXDN_N, "NXDN-N"},
{ RIG_MODE_DCR, "DCR"},
{ RIG_MODE_AMN, "AMN"},
{ RIG_MODE_PSK, "PSK"},
{ RIG_MODE_PSKR, "PSKR"},
{ RIG_MODE_C4FM, "C4FM"},
{ RIG_MODE_SPEC, "SPEC"},
{ RIG_MODE_NONE, "" },
};
rigCtlD::rigCtlD(QObject* parent) :
QTcpServer(parent)
{
}
rigCtlD::~rigCtlD()
{
qInfo(logRigCtlD()) << "closing rigctld";
}
void rigCtlD::receiveStateInfo(rigstate* state)
{
qInfo("Setting rig state");
rigState = state;
}
int rigCtlD::startServer(qint16 port)
{
if (!this->listen(QHostAddress::Any, port)) {
qInfo(logRigCtlD()) << "could not start on port " << port;
return -1;
}
else
{
qInfo(logRigCtlD()) << "started on port " << port;
}
return 0;
}
void rigCtlD::incomingConnection(qintptr socket) {
rigCtlClient* client = new rigCtlClient(socket, rigCaps, rigState, this);
connect(this, SIGNAL(onStopped()), client, SLOT(closeSocket()));
}
void rigCtlD::stopServer()
{
qInfo(logRigCtlD()) << "stopping server";
emit onStopped();
}
void rigCtlD::receiveRigCaps(rigCapabilities caps)
{
qInfo(logRigCtlD()) << "Got rigcaps for:" << caps.modelName;
this->rigCaps = caps;
}
rigCtlClient::rigCtlClient(int socketId, rigCapabilities caps, rigstate* state, rigCtlD* parent) : QObject(parent)
{
commandBuffer.clear();
sessionId = socketId;
rigCaps = caps;
rigState = state;
socket = new QTcpSocket(this);
this->parent = parent;
if (!socket->setSocketDescriptor(sessionId))
{
qInfo(logRigCtlD()) << " error binding socket: " << sessionId;
return;
}
connect(socket, SIGNAL(readyRead()), this, SLOT(socketReadyRead()), Qt::DirectConnection);
connect(socket, SIGNAL(disconnected()), this, SLOT(socketDisconnected()), Qt::DirectConnection);
connect(parent, SIGNAL(sendData(QString)), this, SLOT(sendData(QString)), Qt::DirectConnection);
qInfo(logRigCtlD()) << " session connected: " << sessionId;
emit parent->stateUpdated(); // Get the current state.
}
void rigCtlClient::socketReadyRead()
{
QByteArray data = socket->readAll();
commandBuffer.append(data);
QStringList commandList(commandBuffer.split('\n'));
QString sep = "\n";
static int num = 0;
for (QString &commands : commandList)
{
bool longReply = false;
char responseCode = 0;
QStringList response;
bool setCommand = false;
//commands.chop(1); // Remove \n character
if (commands.endsWith('\r'))
{
commands.chop(1); // Remove \n character
}
if (commands.isEmpty())
{
continue;
}
//qDebug(logRigCtlD()) << sessionId << "command received" << commands;
// We have a full line so process command.
if (rigState == Q_NULLPTR)
{
qInfo(logRigCtlD()) << "no rigState!";
return;
}
if (commands[num] == ";" || commands[num] == "|" || commands[num] == ",")
{
sep = commands[num].toLatin1();
num++;
}
else if (commands[num] == "+")
{
longReply = true;
sep = "\n";
num++;
}
else if (commands[num] == "#")
{
continue;
}
else if (commands[num].toLower() == "q")
{
closeSocket();
return;
}
if (commands[num] == "\\")
{
num++;
}
QStringList command = commands.mid(num).split(" ");
if (command[0] == 0xf0 || command[0] == "chk_vfo")
{
chkVfoEecuted = true;
QString resp;
if (longReply) {
resp.append(QString("ChkVFO: "));
}
resp.append(QString("%1").arg(rigState->getChar(CURRENTVFO)));
response.append(resp);
}
else if (command[0] == "dump_state")
{
// Currently send "fake" state information until I can work out what is required!
response.append("1"); // rigctld protocol version
response.append(QString("%1").arg(rigCaps.rigctlModel));
response.append("0"); // Print something
bandType lastBand;
for (bandType band : rigCaps.bands)
{
if (band != lastBand)
response.append(generateFreqRange(band));
lastBand = band;
}
response.append("0 0 0 0 0 0 0");
if (rigCaps.hasTransmit) {
for (bandType band : rigCaps.bands)
{
if (band != lastBand)
response.append(generateFreqRange(band));
lastBand = band;
}
}
response.append("0 0 0 0 0 0 0");
response.append(QString("0x%1 1").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 10").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 100").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 1000").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 2500").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 5000").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 6125").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 8333").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 10000").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 12500").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 25000").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 100000").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 250000").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 1000000").arg(getRadioModes(), 0, 16));
response.append("0 0");
response.append(QString("0x%1 1200").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 2400").arg(getRadioModes(), 0, 16));
response.append(QString("0x%1 3000").arg(getRadioModes(), 0, 16));
response.append("0 0");
response.append("9900");
response.append("9900");
response.append("10000");
response.append("0");
QString preamps="";
if (rigCaps.hasPreamp) {
for (unsigned char pre : rigCaps.preamps)
{
if (pre == 0)
continue;
preamps.append(QString("%1 ").arg(pre*10));
}
if (preamps.endsWith(" "))
preamps.chop(1);
}
else {
preamps = "0";
}
response.append(preamps);
QString attens = "";
if (rigCaps.hasAttenuator) {
for (unsigned char att : rigCaps.attenuators)
{
if (att == 0)
continue;
attens.append(QString("%1 ").arg(att,0,16));
}
if (attens.endsWith(" "))
attens.chop(1);
}
else {
attens = "0";
}
response.append(attens);
response.append("0xffffffffffffffff");
response.append("0xffffffffffffffff");
response.append("0xffffffffffffffff");
response.append("0xffffffffffffffff");
response.append("0xffffffffffffffff");
response.append("0xffffffffffffffff");
/*
response.append("0xffffffffffffffff");
response.append("0xffffffffffffffff");
response.append("0xfffffffff7ffffff");
response.append("0xfffffff083ffffff");
response.append("0xffffffffffffffff");
response.append("0xffffffffffffffbf");
*/
/*
response.append("0x3effffff");
response.append("0x3effffff");
response.append("0x7fffffff");
response.append("0x7fffffff");
response.append("0x7fffffff");
response.append("0x7fffffff");
*/
if (chkVfoEecuted) {
response.append(QString("vfo_ops=0x%1").arg(255, 0, 16));
response.append(QString("ptt_type=0x%1").arg(rigCaps.hasTransmit, 0, 16));
response.append(QString("has_set_vfo=0x%1").arg(1, 0, 16));
response.append(QString("has_get_vfo=0x%1").arg(1, 0, 16));
response.append(QString("has_set_freq=0x%1").arg(1, 0, 16));
response.append(QString("has_get_freq=0x%1").arg(1, 0, 16));
response.append(QString("has_set_conf=0x%1").arg(1, 0, 16));
response.append(QString("has_get_conf=0x%1").arg(1, 0, 16));
response.append(QString("has_power2mW=0x%1").arg(1, 0, 16));
response.append(QString("has_mW2power=0x%1").arg(1, 0, 16));
response.append(QString("timeout=0x%1").arg(1000, 0, 16));
response.append("done");
}
}
else if (command[0] == "f" || command[0] == "get_freq")
{
QString resp;
if (longReply) {
resp.append(QString("Frequency: "));
}
if (rigState->getChar(CURRENTVFO)==0) {
resp.append(QString("%1").arg(rigState->getInt64(VFOAFREQ)));
}
else {
resp.append(QString("%1").arg(rigState->getInt64(VFOBFREQ)));
}
response.append(resp);
}
else if (command[0] == "F" || command[0] == "set_freq")
{
setCommand = true;
freqt freq;
bool ok=false;
double newFreq=0.0f;
unsigned char vfo=0;
if (command.length() == 2)
{
newFreq = command[1].toDouble(&ok);
}
else if (command.length() == 3) // Includes VFO
{
newFreq = command[2].toDouble(&ok);
if (command[1] == "VFOB")
{
vfo = 1;
}
}
if (ok) {
freq.Hz = static_cast<int>(newFreq);
qDebug(logRigCtlD()) << QString("Set frequency: %1 (%2)").arg(freq.Hz).arg(command[1]);
if (vfo == 0) {
rigState->set(VFOAFREQ, freq.Hz,true);
}
else {
rigState->set(VFOBFREQ, freq.Hz,true);
}
}
}
else if (command[0] == "1" || command[0] == "dump_caps")
{
response.append(QString("Caps dump for model: %1").arg(rigCaps.modelID));
response.append(QString("Model Name:\t%1").arg(rigCaps.modelName));
response.append(QString("Mfg Name:\tIcom"));
response.append(QString("Backend version:\t0.1"));
response.append(QString("Backend copyright:\t2021"));
if (rigCaps.hasTransmit) {
response.append(QString("Rig type:\tTransceiver"));
}
else
{
response.append(QString("Rig type:\tReceiver"));
}
if (rigCaps.hasPTTCommand) {
response.append(QString("PTT type:\tRig capable"));
}
response.append(QString("DCD type:\tRig capable"));
response.append(QString("Port type:\tNetwork link"));
}
else if (command[0] == "t" || command[0] == "get_ptt")
{
if (rigCaps.hasPTTCommand) {
QString resp;
if (longReply) {
resp.append(QString("PTT: "));
}
resp.append(QString("%1").arg(rigState->getBool(PTT)));
response.append(resp);
}
else
{
responseCode = -1;
}
}
else if (command.length() > 1 && (command[0] == "T" || command[0] == "set_ptt"))
{
setCommand = true;
if (rigCaps.hasPTTCommand) {
rigState->set(PTT, (bool)command[1].toInt(), true);
}
else
{
responseCode = -1;
}
}
else if (command[0] == "v" || command[0] == "v\nv" || command[0] == "get_vfo")
{
QString resp;
if (longReply) {
resp.append("VFO: ");
}
if (rigState->getChar(CURRENTVFO) == 0) {
resp.append("VFOA");
}
else {
resp.append("VFOB");
}
response.append(resp);
}
else if (command.length() > 1 && (command[0] == "V" || command[0] == "set_vfo"))
{
setCommand = true;
if (command[1] == "?") {
response.append("set_vfo: ?");
response.append("VFOA");
response.append("VFOB");
response.append("Sub");
response.append("Main");
response.append("MEM");
}
else if (command[1] == "VFOB" || command[1] == "Sub") {
rigState->set(CURRENTVFO, (quint8)1, true);
}
else {
rigState->set(CURRENTVFO, (quint8)0, true);
}
}
else if (command[0] == "s" || command[0] == "get_split_vfo")
{
if (longReply) {
response.append(QString("Split: %1").arg(rigState->getChar(DUPLEX)));
}
else {
response.append(QString("%1").arg(rigState->getChar(DUPLEX)));
}
QString resp;
if (longReply) {
resp.append("TX VFO: ");
}
if (rigState->getChar(CURRENTVFO) == 0)
{
resp.append(QString("%1").arg("VFOB"));
}
else {
resp.append(QString("%1").arg("VFOA"));
}
response.append(resp);
}
else if (command.length() > 1 && (command[0] == "S" || command[0] == "set_split_vfo"))
{
setCommand = true;
if (command[1] == "1")
{
rigState->set(DUPLEX, dmSplitOn, true);
}
else {
rigState->set(DUPLEX, dmSplitOff, true);
}
}
else if (command[0] == "\xf3" || command[0] == "get_vfo_info")
{
if (longReply) {
if (command[1] == "?") {
if (rigState->getChar(CURRENTVFO) == 0) {
response.append(QString("set_vfo: VFOA"));
}
else
{
response.append(QString("set_vfo: VFOB"));
}
}
if (command[1] == "VFOB") {
response.append(QString("Freq: %1").arg(rigState->getInt64(VFOBFREQ)));
}
else {
response.append(QString("Freq: %1").arg(rigState->getInt64(VFOAFREQ)));
}
response.append(QString("Mode: %1").arg(getMode(rigState->getChar(MODE), rigState->getBool(DATAMODE))));
response.append(QString("Width: %1").arg(getFilter(rigState->getChar(MODE), rigState->getChar(FILTER))));
response.append(QString("Split: %1").arg(rigState->getDuplex(DUPLEX)));
response.append(QString("SatMode: %1").arg(0)); // Need to get satmode
}
else {
if (command[1] == "VFOB") {
response.append(QString("%1").arg(rigState->getInt64(VFOBFREQ)));
}
else {
response.append(QString("%1").arg(rigState->getInt64(VFOAFREQ)));
}
response.append(QString("%1").arg(getMode(rigState->getChar(MODE), rigState->getBool(DATAMODE))));
response.append(QString("%1").arg(getFilter(rigState->getChar(MODE), rigState->getChar(FILTER))));
}
}
else if (command[0] == "i" || command[0] == "get_split_freq")
{
QString resp;
if (longReply) {
resp.append("TX VFO: ");
}
if (rigState->getInt64(CURRENTVFO) == 0) {
resp.append(QString("%1").arg(rigState->getInt64(VFOBFREQ)));
}
else {
resp.append(QString("%1").arg(rigState->getInt64(VFOAFREQ)));
}
response.append(resp);
}
else if (command.length() > 1 && (command[0] == "I" || command[0] == "set_split_freq"))
{
setCommand = true;
bool ok = false;
double newFreq = 0.0f;
newFreq = command[1].toDouble(&ok);
if (ok) {
qDebug(logRigCtlD()) << QString("set_split_freq: %1 (%2)").arg(newFreq).arg(command[1]);
rigState->set(VFOBFREQ, static_cast<quint64>(newFreq),false);
}
}
else if (command.length() > 2 && (command[0] == "X" || command[0] == "set_split_mode"))
{
setCommand = true;
}
else if (command.length() > 0 && (command[0] == "x" || command[0] == "get_split_mode"))
{
if (longReply) {
response.append(QString("TX Mode: %1").arg(getMode(rigState->getChar(MODE), rigState->getBool(DATAMODE))));
response.append(QString("TX Passband: %1").arg(getFilter(rigState->getChar(MODE), rigState->getChar(FILTER))));
}
else {
response.append(QString("%1").arg(getMode(rigState->getChar(MODE), rigState->getBool(DATAMODE))));
response.append(QString("%1").arg(getFilter(rigState->getChar(MODE), rigState->getChar(FILTER))));
}
}
else if (command[0] == "m" || command[0] == "get_mode")
{
if (longReply) {
response.append(QString("TX Mode: %1").arg(getMode(rigState->getChar(MODE), rigState->getBool(DATAMODE))));
response.append(QString("TX Passband: %1").arg(getFilter(rigState->getChar(MODE), rigState->getChar(FILTER))));
}
else {
response.append(QString("%1").arg(getMode(rigState->getChar(MODE), rigState->getBool(DATAMODE))));
response.append(QString("%1").arg(getFilter(rigState->getChar(MODE), rigState->getChar(FILTER))));
}
}
else if (command[0] == "M" || command[0] == "set_mode")
{
// Set mode
setCommand = true;
int width = -1;
QString vfo = "VFOA";
QString mode = "USB";
if (command.length() == 3) {
width = command[2].toInt();
mode = command[1];
}
else if (command.length() == 4) {
width = command[3].toInt();
mode = command[2];
vfo = command[1];
}
qDebug(logRigCtlD()) << "setting mode: VFO:" << vfo << getMode(mode) << mode << "width" << width;
if (width != -1 && width <= 1800)
width = 2;
else
width = 1;
rigState->set(MODE,getMode(mode),true);
rigState->set(FILTER,(quint8)width, true);
if (mode.mid(0, 3) == "PKT") {
rigState->set(DATAMODE, true, true);
}
else {
rigState->set(DATAMODE, false, true);
}
}
else if (command[0] == "s" || command[0] == "get_split_vfo")
{
if (longReply) {
response.append(QString("Split: 1"));
response.append(QString("TX VFO: VFOB"));
}
else
{
response.append("1");
response.append("VFOb");
}
}
else if (command[0] == "j" || command[0] == "get_rit")
{
QString resp;
if (longReply) {
resp.append("RIT: ");
}
resp.append(QString("%1").arg(rigState->getInt32(RITVALUE)));
response.append(resp);
}
else if (command[0] == "J" || command[0] == "set_rit")
{
rigState->set(RITVALUE, command[1].toInt(),true);
setCommand = true;
}
else if (command[0] == "y" || command[0] == "get_ant")
{
qInfo(logRigCtlD()) << "get_ant:";
if (command.length() > 1) {
if (longReply) {
response.append(QString("AntCurr: %1").arg(getAntName((unsigned char)command[1].toInt())));
response.append(QString("Option: %1").arg(0));
response.append(QString("AntTx: %1").arg(getAntName(rigState->getChar(ANTENNA))));
response.append(QString("AntRx: %1").arg(getAntName(rigState->getChar(ANTENNA))));
}
else {
response.append(QString("%1").arg(getAntName((unsigned char)command[1].toInt())));
response.append(QString("%1").arg(0));
response.append(QString("%1").arg(getAntName(rigState->getChar(ANTENNA))));
response.append(QString("%1").arg(getAntName(rigState->getChar(ANTENNA))));
}
}
}
else if (command.length() > 1 && (command[0] == "Y" || command[0] == "set_ant"))
{
setCommand = true;
qInfo(logRigCtlD()) << "set_ant:" << command[1];
rigState->set(ANTENNA,antFromName(command[1]),true);
}
else if (command[0] == "z" || command[0] == "get_xit")
{
QString resp;
if (longReply) {
resp.append("XIT: ");
}
resp.append(QString("%1").arg(0));
response.append(resp);
}
else if (command[0] == "Z" || command[0] == "set_xit")
{
setCommand = true;
}
else if (command.length() > 1 && (command[0] == "l" || command[0] == "get_level"))
{
QString resp;
int value = 0;
if (longReply) {
resp.append("Level Value: ");
}
if (command[1] == "STRENGTH") {
if (rigCaps.model == model7610)
value = getCalibratedValue(rigState->getChar(SMETER), IC7610_STR_CAL);
else if (rigCaps.model == model7850)
value = getCalibratedValue(rigState->getChar(SMETER), IC7850_STR_CAL);
else
value = getCalibratedValue(rigState->getChar(SMETER), IC7300_STR_CAL);
//qInfo(logRigCtlD()) << "Calibration IN:" << rigState->sMeter << "OUT" << value;
resp.append(QString("%1").arg(value));
}
else if (command[1] == "AF") {
resp.append(QString("%1").arg((float)rigState->getChar(AFGAIN) / 255.0));
}
else if (command[1] == "RF") {
resp.append(QString("%1").arg((float)rigState->getChar(RFGAIN) / 255.0));
}
else if (command[1] == "SQL") {
resp.append(QString("%1").arg((float)rigState->getChar(SQUELCH) / 255.0));
}
else if (command[1] == "COMP") {
resp.append(QString("%1").arg((float)rigState->getChar(COMPLEVEL) / 255.0));
}
else if (command[1] == "MICGAIN") {
resp.append(QString("%1").arg((float)rigState->getChar(MICGAIN) / 255.0));
}
else if (command[1] == "MON") {
resp.append(QString("%1").arg((float)rigState->getChar(MONITORLEVEL) / 255.0));
}
else if (command[1] == "VOXGAIN") {
resp.append(QString("%1").arg((float)rigState->getChar(VOXGAIN) / 255.0));
}
else if (command[1] == "ANTIVOX") {
resp.append(QString("%1").arg((float)rigState->getChar(ANTIVOXGAIN) / 255.0));
}
else if (command[1] == "RFPOWER") {
resp.append(QString("%1").arg((float)rigState->getChar(TXPOWER) / 255.0));
}
else if (command[1] == "PREAMP") {
resp.append(QString("%1").arg(rigState->getChar(PREAMP)*10));
}
else if (command[1] == "ATT") {
resp.append(QString("%1").arg(rigState->getChar(ATTENUATOR)));
}
else {
resp.append(QString("%1").arg(value));
}
response.append(resp);
}
else if (command.length() > 2 && (command[0] == "L" || command[0] == "set_level"))
{
unsigned char value=0;
setCommand = true;
if (command[1] == "AF") {
value = command[2].toFloat() * 255;
rigState->set(AFGAIN, value, true);
}
else if (command[1] == "RF") {
value = command[2].toFloat() * 255;
rigState->set(RFGAIN, value, true);
}
else if (command[1] == "SQL") {
value = command[2].toFloat() * 255;
rigState->set(SQUELCH, value, true);
}
else if (command[1] == "COMP") {
value = command[2].toFloat() * 255;
rigState->set(COMPLEVEL, value, true);
}
else if (command[1] == "MICGAIN") {
value = command[2].toFloat() * 255;
rigState->set(MICGAIN, value, true);
}
else if (command[1] == "MON") {
value = command[2].toFloat() * 255;
rigState->set(MONITORLEVEL, value, true);
}
else if (command[1] == "VOXGAIN") {
value = command[2].toFloat() * 255;
rigState->set(VOXGAIN, value, true);
}
else if (command[1] == "ANTIVOX") {
value = command[2].toFloat() * 255;
rigState->set(ANTIVOXGAIN, value, true);
}
else if (command[1] == "ATT") {
value = command[2].toInt();
rigState->set(ATTENUATOR, value, true);
}
else if (command[1] == "PREAMP") {
value = command[2].toFloat() / 10;
rigState->set(PREAMP, value, true);
}
else if (command[1] == "AGC") {
value = command[2].toInt();;
rigState->set(AGC, value, true);
}
qInfo(logRigCtlD()) << "Setting:" << command[1] << command[2] << value;
}
else if (command.length()>1 && (command[0] == "u" || command[0] == "get_func"))
{
QString resp="";
bool result = 0;
if (longReply) {
resp.append(QString("Func Status: "));
}
if (command[1] == "FAGC")
{
result=rigState->getBool(FAGCFUNC);
}
else if (command[1] == "NB")
{
result = rigState->getBool(NBFUNC);
}
else if (command[1] == "COMP")
{
result=rigState->getBool(COMPFUNC);
}
else if (command[1] == "VOX")
{
result = rigState->getBool(VOXFUNC);
}
else if (command[1] == "TONE")
{
result = rigState->getBool(TONEFUNC);
}
else if (command[1] == "TSQL")
{
result = rigState->getBool(TSQLFUNC);
}
else if (command[1] == "SBKIN")
{
result = rigState->getBool(SBKINFUNC);
}
else if (command[1] == "FBKIN")
{
result = rigState->getBool(FBKINFUNC);
}
else if (command[1] == "ANF")
{
result = rigState->getBool (ANFFUNC);
}
else if (command[1] == "NR")
{
result = rigState->getBool(NRFUNC);
}
else if (command[1] == "AIP")
{
result = rigState->getBool(AIPFUNC);
}
else if (command[1] == "APF")
{
result = rigState->getBool(APFFUNC);
}
else if (command[1] == "MON")
{
result = rigState->getBool(MONFUNC);
}
else if (command[1] == "MN")
{
result = rigState->getBool(MNFUNC);
}
else if (command[1] == "RF")
{
result = rigState->getBool(RFFUNC);
}
else if (command[1] == "ARO")
{
result = rigState->getBool(AROFUNC);
}
else if (command[1] == "MUTE")
{
result = rigState->getBool(MUTEFUNC);
}
else if (command[1] == "VSC")
{
result = rigState->getBool(VSCFUNC);
}
else if (command[1] == "REV")
{
result = rigState->getBool(REVFUNC);
}
else if (command[1] == "SQL")
{
result = rigState->getBool(SQLFUNC);
}
else if (command[1] == "ABM")
{
result = rigState->getBool(ABMFUNC);
}
else if (command[1] == "BC")
{
result = rigState->getBool(BCFUNC);
}
else if (command[1] == "MBC")
{
result = rigState->getBool(MBCFUNC);
}
else if (command[1] == "RIT")
{
result = rigState->getBool(RITFUNC);
}
else if (command[1] == "AFC")
{
result = rigState->getBool(AFCFUNC);
}
else if (command[1] == "SATMODE")
{
result = rigState->getBool(SATMODEFUNC);
}
else if (command[1] == "SCOPE")
{
result = rigState->getBool(SCOPEFUNC);
}
else if (command[1] == "RESUME")
{
result = rigState->getBool(RESUMEFUNC);
}
else if (command[1] == "TBURST")
{
result = rigState->getBool(TBURSTFUNC);
}
else if (command[1] == "TUNER")
{
result = rigState->getBool(TUNERFUNC);
}
else if (command[1] == "LOCK")
{
result = rigState->getBool(LOCKFUNC);
}
else {
qInfo(logRigCtlD()) << "Unimplemented func:" << command[0] << command[1];
}
resp.append(QString("%1").arg(result));
response.append(resp);
}
else if (command.length() >2 && (command[0] == "U" || command[0] == "set_func"))
{
setCommand = true;
if (command[1] == "FAGC")
{
rigState->set(FAGCFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "NB")
{
rigState->set(NBFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "COMP")
{
rigState->set(COMPFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "VOX")
{
rigState->set(VOXFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "TONE")
{
rigState->set(TONEFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "TSQL")
{
rigState->set(TSQLFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "SBKIN")
{
rigState->set(SBKINFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "FBKIN")
{
rigState->set(FBKINFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "ANF")
{
rigState->set(ANFFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "NR")
{
rigState->set(NRFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "AIP")
{
rigState->set(AIPFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "APF")
{
rigState->set(APFFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "MON")
{
rigState->set(MONFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "MN")
{
rigState->set(MNFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "RF")
{
rigState->set(RFFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "ARO")
{
rigState->set(AROFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "MUTE")
{
rigState->set(MUTEFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "VSC")
{
rigState->set(VSCFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "REV")
{
rigState->set(REVFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "SQL")
{
rigState->set(SQLFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "ABM")
{
rigState->set(ABMFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "BC")
{
rigState->set(BCFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "MBC")
{
rigState->set(MBCFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "RIT")
{
rigState->set(RITFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "AFC")
{
rigState->set(AFCFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "SATMODE")
{
rigState->set(SATMODEFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "SCOPE")
{
rigState->set(SCOPEFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "RESUME")
{
rigState->set(RESUMEFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "TBURST")
{
rigState->set(TBURSTFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "TUNER")
{
rigState->set(TUNERFUNC, (quint8)command[2].toInt(), true);
}
else if (command[1] == "LOCK")
{
rigState->set(LOCKFUNC, (quint8)command[2].toInt(), true);
}
else {
qInfo(logRigCtlD()) << "Unimplemented func:" << command[0] << command[1] << command[2];
}
qInfo(logRigCtlD()) << "Setting:" << command[1] << command[2];
}
else if (command.length() > 0 && (command[0] == 0x88 || command[0] == "get_powerstat"))
{
QString resp;
if (longReply && command.length() > 1) {
resp.append(QString("Power Status: "));
}
resp.append(QString("%1").arg(1)); // Always reply with ON
response.append(resp);
}
else if (command.length() > 1 && (command[0] == 0x87 || command[0] == "set_powerstat"))
{
setCommand = true;
if (command[1] == "0")
{
rigState->set(POWERONOFF, false, true);
}
else {
rigState->set(POWERONOFF, true, true);
}
}
else {
qInfo(logRigCtlD()) << "Unimplemented command" << commands;
}
if (longReply) {
if (command.length() == 2)
sendData(QString("%1: %2%3").arg(command[0]).arg(command[1]).arg(sep));
if (command.length() == 3)
sendData(QString("%1: %2 %3%4").arg(command[0]).arg(command[1]).arg(command[2]).arg(sep));
if (command.length() == 4)
sendData(QString("%1: %2 %3 %4%5").arg(command[0]).arg(command[1]).arg(command[2]).arg(command[3]).arg(sep));
}
if (setCommand)
{
// This was a set command so state has likely been updated.
emit parent->stateUpdated();
}
if (setCommand || responseCode != 0 || longReply) {
if (responseCode == 0) {
response.append(QString("RPRT 0"));
}
else {
response.append(QString("RPRT %1").arg(responseCode));
}
}
for (QString str : response)
{
if (str != "")
sendData(QString("%1%2").arg(str).arg(sep));
}
if (sep != "\n") {
sendData(QString("\n"));
}
sep = "\n";
num = 0;
}
commandBuffer.clear();
}
void rigCtlClient::socketDisconnected()
{
qInfo(logRigCtlD()) << sessionId << "disconnected";
socket->deleteLater();
this->deleteLater();
}
void rigCtlClient::closeSocket()
{
socket->close();
}
void rigCtlClient::sendData(QString data)
{
//qDebug(logRigCtlD()) << "Sending:" << data;
if (socket != Q_NULLPTR && socket->isValid() && socket->isOpen())
{
socket->write(data.toLatin1());
}
else
{
qInfo(logRigCtlD()) << "socket not open!";
}
}
QString rigCtlClient::getFilter(unsigned char mode, unsigned char filter) {
if (mode == 3 || mode == 7 || mode == 12 || mode == 17) {
switch (filter) {
case 1:
return QString("1200");
case 2:
return QString("500");
case 3:
return QString("250");
}
}
else if (mode == 4 || mode == 8)
{
switch (filter) {
case 1:
return QString("2400");
case 2:
return QString("500");
case 3:
return QString("250");
}
}
else if (mode == 2)
{
switch (filter) {
case 1:
return QString("9000");
case 2:
return QString("6000");
case 3:
return QString("3000");
}
}
else if (mode == 5)
{
switch (filter) {
case 1:
return QString("15000");
case 2:
return QString("10000");
case 3:
return QString("7000");
}
}
else { // SSB or unknown mode
switch (filter) {
case 1:
return QString("3000");
case 2:
return QString("2400");
case 3:
return QString("1800");
}
}
return QString("");
}
QString rigCtlClient::getMode(unsigned char mode, bool datamode) {
QString ret;
switch (mode) {
case 0:
if (datamode) { ret = "PKT"; }
ret.append("LSB");
break;
case 1:
if (datamode) { ret = "PKT"; }
ret.append("USB");
break;
case 2:
if (datamode) { ret = "PKT"; }
ret.append("AM");
break;
case 3:
ret.append("CW");
break;
case 4:
ret.append("RTTY");
break;
case 5:
if (datamode) { ret = "PKT"; }
ret.append("FM");
break;
case 6:
ret.append("WFM");
break;
case 7:
ret.append("CWR");
break;
case 8:
ret.append("RTTYR");
break;
case 12:
if (datamode) { ret = "PKT"; }
ret.append("USB");
break;
case 17:
if (datamode) { ret = "PKT"; }
ret.append("LSB");
break;
case 22:
if (datamode) { ret = "PKT"; }
ret.append("FM");
break;
}
return ret;
}
unsigned char rigCtlClient::getMode(QString modeString) {
if (modeString == QString("LSB")) {
return 0;
}
else if (modeString == QString("USB")) {
return 1;
}
else if (modeString == QString("AM")) {
return 2;
}
else if (modeString == QString("CW")) {
return 3;
}
else if (modeString == QString("RTTY")) {
return 4;
}
else if (modeString == QString("FM")) {
return 5;
}
else if (modeString == QString("WFM")) {
return 6;
}
else if (modeString == QString("CWR")) {
return 7;
}
else if (modeString == QString("RTTYR")) {
return 8;
}
else if (modeString == QString("PKTUSB")) {
return 1;
}
else if (modeString == QString("PKTLSB")) {
return 0;
}
else if (modeString == QString("PKTFM")) {
return 22;
}
else {
return 0;
}
return 0;
}
QString rigCtlClient::generateFreqRange(bandType band)
{
unsigned int lowFreq = 0;
unsigned int highFreq = 0;
switch (band) {
case band2200m:
lowFreq = 135000;
highFreq = 138000;
break;
case band630m:
lowFreq = 493000;
highFreq = 595000;
break;
case band160m:
lowFreq = 1800000;
highFreq = 2000000;
break;
case band80m:
lowFreq = 3500000;
highFreq = 4000000;
break;
case band60m:
lowFreq = 5250000;
highFreq = 5450000;
break;
case band40m:
lowFreq = 7000000;
highFreq = 7300000;
break;
case band30m:
lowFreq = 10100000;
highFreq = 10150000;
break;
case band20m:
lowFreq = 14000000;
highFreq = 14350000;
break;
case band17m:
lowFreq = 18068000;
highFreq = 18168000;
break;
case band15m:
lowFreq = 21000000;
highFreq = 21450000;
break;
case band12m:
lowFreq = 24890000;
highFreq = 24990000;
break;
case band10m:
lowFreq = 28000000;
highFreq = 29700000;
break;
case band6m:
lowFreq = 50000000;
highFreq = 54000000;
break;
case band4m:
lowFreq = 70000000;
highFreq = 70500000;
break;
case band2m:
lowFreq = 144000000;
highFreq = 148000000;
break;
case band70cm:
lowFreq = 420000000;
highFreq = 450000000;
break;
case band23cm:
lowFreq = 1240000000;
highFreq = 1400000000;
break;
case bandAir:
lowFreq = 108000000;
highFreq = 137000000;
break;
case bandWFM:
lowFreq = 88000000;
highFreq = 108000000;
break;
case bandGen:
lowFreq = 10000;
highFreq = 30000000;
break;
}
QString ret = "";
if (lowFreq > 0 && highFreq > 0) {
ret = QString("%1.000000 %2.000000 0x%3 %4 %5 0x%6 0x%7").arg(lowFreq).arg(highFreq).arg(getRadioModes(),0,16).arg(-1).arg(-1).arg(0x16000003,0,16).arg(getAntennas(),0,16);
}
return ret;
}
unsigned char rigCtlClient::getAntennas()
{
unsigned char ant=0;
for (unsigned char i : rigCaps.antennas)
{
ant |= 1<<i;
}
return ant;
}
quint64 rigCtlClient::getRadioModes()
{
quint64 modes = 0;
for (mode_info mode : rigCaps.modes)
{
for (int i = 0; mode_str[i].str[0] != '\0'; i++)
{
QString curMode = mode.name;
if (!strcmp(curMode.toLocal8Bit(), mode_str[i].str))
{
//qDebug(logRigCtlD()) << "Found mode:" << mode.name << mode_str[i].mode;
modes |= mode_str[i].mode;
}
if (rigCaps.hasDataModes) {
curMode = "PKT" + mode.name;
if (!strcmp(curMode.toLocal8Bit(), mode_str[i].str))
{
if (mode.name == "LSB" || mode.name == "USB" || mode.name == "FM" || mode.name == "AM")
{
// qDebug(logRigCtlD()) << "Found data mode:" << mode.name << mode_str[i].mode;
modes |= mode_str[i].mode;
}
}
}
}
}
return modes;
}
QString rigCtlClient::getAntName(unsigned char ant)
{
QString ret;
switch (ant)
{
case 0: ret = "ANT1"; break;
case 1: ret = "ANT2"; break;
case 2: ret = "ANT3"; break;
case 3: ret = "ANT4"; break;
case 4: ret = "ANT5"; break;
case 30: ret = "ANT_UNKNOWN"; break;
case 31: ret = "ANT_CURR"; break;
default: ret = "ANT_UNK"; break;
}
return ret;
}
unsigned char rigCtlClient::antFromName(QString name) {
unsigned char ret;
if (name == "ANT1")
ret = 0;
else if (name == "ANT2")
ret = 1;
else if (name == "ANT3")
ret = 2;
else if (name == "ANT4")
ret = 3;
else if (name == "ANT5")
ret = 4;
else if (name == "ANT_UNKNOWN")
ret = 30;
else if (name == "ANT_CURR")
ret = 31;
else
ret = 99;
return ret;
}
int rigCtlClient::getCalibratedValue(unsigned char meter,cal_table_t cal) {
int interp;
int i = 0;
for (i = 0; i < cal.size; i++) {
if (meter < cal.table[i].raw)
{
break;
}
}
if (i == 0)
{
return cal.table[0].val;
}
else if (i >= cal.size)
{
return cal.table[i - 1].val;
}
else if (cal.table[i].raw == cal.table[i - 1].raw)
{
return cal.table[i].val;
}
interp = ((cal.table[i].raw - meter)
* (cal.table[i].val - cal.table[i - 1].val))
/ (cal.table[i].raw - cal.table[i - 1].raw);
return cal.table[i].val - interp;
}