qtsoundmodem/Config.cpp

467 lines
17 KiB
C++

/*extern "C"
Copyright (C) 2019-2020 Andrei Kopanchuk UZ7HO
This file is part of QtSoundModem
QtSoundModem 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 3 of the License, or
(at your option) any later version.
QtSoundModem 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 QtSoundModem. If not, see http://www.gnu.org/licenses
*/
// UZ7HO Soundmodem Port by John Wiseman G8BPQ
#include <QSettings>
#include <QDialog>
#include "UZ7HOStuff.h"
extern "C" void get_exclude_list(char * line, TStringList * list);
extern "C" void get_exclude_frm(char * line, TStringList * list);
extern "C" int SoundMode;
extern "C" int RX_SR;
extern "C" int TX_SR;
extern "C" int multiCore;
extern "C" char * Wisdom;
extern int WaterfallMin;
extern int WaterfallMax;
extern "C" word MEMRecovery[5];
extern int MintoTray;
extern "C" int UDPClientPort;
extern "C" int UDPServerPort;
extern "C" int TXPort;
extern char UDPHost[64];
extern QDialog * constellationDialog;
extern QRect PSKRect;
extern char CWIDCall[128];
extern "C" char CWIDMark[32];
extern int CWIDInterval;
extern int CWIDLeft;
extern int CWIDRight;
extern int CWIDType;
extern "C" int RSID_SABM[4];
extern "C" int RSID_UI[4];
extern "C" int RSID_SetModem[4];
QSettings* settings = new QSettings("QtSoundModem.ini", QSettings::IniFormat);
// This makes geting settings for more channels easier
char Prefix[16] = "AX25_A";
void GetPortSettings(int Chan);
QVariant getAX25Param(const char * key, QVariant Default)
{
char fullKey[64];
QVariant Q;
QByteArray x;
sprintf(fullKey, "%s/%s", Prefix, key);
Q = settings->value(fullKey, Default);
x = Q.toString().toUtf8();
return Q;
}
void getAX25Params(int chan)
{
Prefix[5] = chan + 'A';
GetPortSettings(chan);
}
void GetPortSettings(int Chan)
{
tx_hitoneraisedb[Chan] = getAX25Param("HiToneRaise", 0).toInt();
maxframe[Chan] = getAX25Param("Maxframe", 3).toInt();
fracks[Chan] = getAX25Param("Retries", 15).toInt();
frack_time[Chan] = getAX25Param("FrackTime", 5).toInt();
idletime[Chan] = getAX25Param("IdleTime", 180).toInt();
slottime[Chan] = getAX25Param("SlotTime", 100).toInt();
persist[Chan] = getAX25Param("Persist", 128).toInt();
resptime[Chan] = getAX25Param("RespTime", 1500).toInt();
TXFrmMode[Chan] = getAX25Param("TXFrmMode", 1).toInt();
max_frame_collector[Chan] = getAX25Param("FrameCollector", 6).toInt();
KISS_opt[Chan] = getAX25Param("KISSOptimization", false).toInt();;
dyn_frack[Chan] = getAX25Param("DynamicFrack", false).toInt();;
recovery[Chan] = getAX25Param("BitRecovery", 0).toInt();
NonAX25[Chan] = getAX25Param("NonAX25Frm", false).toInt();;
MEMRecovery[Chan]= getAX25Param("MEMRecovery", 200).toInt();
IPOLL[Chan] = getAX25Param("IPOLL", 80).toInt();
strcpy(MyDigiCall[Chan], getAX25Param("MyDigiCall", "").toString().toUtf8());
strcpy(exclude_callsigns[Chan], getAX25Param("ExcludeCallsigns", "").toString().toUtf8());
fx25_mode[Chan] = getAX25Param("FX25", FX25_MODE_RX).toInt();
il2p_mode[Chan] = getAX25Param("IL2P", IL2P_MODE_NONE).toInt();
RSID_UI[Chan] = getAX25Param("RSID_UI", 0).toInt();
RSID_SABM[Chan] = getAX25Param("RSID_SABM", 0).toInt();
RSID_SetModem[Chan] = getAX25Param("RSID_SetModem", 0).toInt();
}
void getSettings()
{
int snd_ch;
QSettings* settings = new QSettings("QtSoundModem.ini", QSettings::IniFormat);
settings->sync();
PSKRect = settings->value("PSKWindow").toRect();
SoundMode = settings->value("Init/SoundMode", 0).toInt();
UDPClientPort = settings->value("Init/UDPClientPort", 8888).toInt();
UDPServerPort = settings->value("Init/UDPServerPort", 8884).toInt();
TXPort = settings->value("Init/TXPort", UDPServerPort).toInt();
strcpy(UDPHost, settings->value("Init/UDPHost", "192.168.1.255").toString().toUtf8());
UDPServ = settings->value("Init/UDPServer", FALSE).toBool();
RX_SR = settings->value("Init/RXSampleRate", 12000).toInt();
TX_SR = settings->value("Init/TXSampleRate", 12000).toInt();
strcpy(CaptureDevice, settings->value("Init/SndRXDeviceName", "hw:1,0").toString().toUtf8());
strcpy(PlaybackDevice, settings->value("Init/SndTXDeviceName", "hw:1,0").toString().toUtf8());
raduga = settings->value("Init/DispMode", DISP_RGB).toInt();
strcpy(PTTPort, settings->value("Init/PTT", "").toString().toUtf8());
PTTMode = settings->value("Init/PTTMode", 19200).toInt();
PTTBAUD = settings->value("Init/PTTBAUD", 19200).toInt();
strcpy(PTTOnString, settings->value("Init/PTTOnString", "").toString().toUtf8());
strcpy(PTTOffString, settings->value("Init/PTTOffString", "").toString().toUtf8());
pttGPIOPin = settings->value("Init/pttGPIOPin", 17).toInt();
pttGPIOPinR = settings->value("Init/pttGPIOPinR", 17).toInt();
#ifdef WIN32
strcpy(CM108Addr, settings->value("Init/CM108Addr", "0xD8C:0x08").toString().toUtf8());
#else
strcpy(CM108Addr, settings->value("Init/CM108Addr", "/dev/hidraw0").toString().toUtf8());
#endif
HamLibPort = settings->value("Init/HamLibPort", 4532).toInt();
strcpy(HamLibHost, settings->value("Init/HamLibHost", "127.0.0.1").toString().toUtf8());
DualPTT = settings->value("Init/DualPTT", 1).toInt();
TX_rotate = settings->value("Init/TXRotate", 0).toInt();
multiCore = settings->value("Init/multiCore", 0).toInt();
MintoTray = settings->value("Init/MinimizetoTray", 1).toInt();
Wisdom = strdup(settings->value("Init/Wisdom", "").toString().toUtf8());
WaterfallMin = settings->value("Init/WaterfallMin", 0).toInt();
WaterfallMax = settings->value("Init/WaterfallMax", 3300).toInt();
rx_freq[0] = settings->value("Modem/RXFreq1", 1700).toInt();
rx_freq[1] = settings->value("Modem/RXFreq2", 1700).toInt();
rx_freq[2] = settings->value("Modem/RXFreq3", 1700).toInt();
rx_freq[3] = settings->value("Modem/RXFreq4", 1700).toInt();
rcvr_offset[0] = settings->value("Modem/RcvrShift1", 30).toInt();
rcvr_offset[1] = settings->value("Modem/RcvrShift2", 30).toInt();
rcvr_offset[2] = settings->value("Modem/RcvrShift3", 30).toInt();
rcvr_offset[3] = settings->value("Modem/RcvrShift4", 30).toInt();
speed[0] = settings->value("Modem/ModemType1", SPEED_1200).toInt();
speed[1] = settings->value("Modem/ModemType2", SPEED_1200).toInt();
speed[2] = settings->value("Modem/ModemType3", SPEED_1200).toInt();
speed[3] = settings->value("Modem/ModemType4", SPEED_1200).toInt();
RCVR[0] = settings->value("Modem/NRRcvrPairs1", 0).toInt();;
RCVR[1] = settings->value("Modem/NRRcvrPairs2", 0).toInt();;
RCVR[2] = settings->value("Modem/NRRcvrPairs3", 0).toInt();;
RCVR[3] = settings->value("Modem/NRRcvrPairs4", 0).toInt();;
soundChannel[0] = settings->value("Modem/soundChannel1", 1).toInt();
soundChannel[1] = settings->value("Modem/soundChannel2", 0).toInt();
soundChannel[2] = settings->value("Modem/soundChannel3", 0).toInt();
soundChannel[3] = settings->value("Modem/soundChannel4", 0).toInt();
SCO = settings->value("Init/SCO", 0).toInt();
dcd_threshold = settings->value("Modem/DCDThreshold", 40).toInt();
rxOffset = settings->value("Modem/rxOffset", 0).toInt();
AGWServ = settings->value("AGWHost/Server", TRUE).toBool();
AGWPort = settings->value("AGWHost/Port", 8000).toInt();
KISSServ = settings->value("KISS/Server", FALSE).toBool();
KISSPort = settings->value("KISS/Port", 8105).toInt();
RX_Samplerate = RX_SR + RX_SR * 0.000001*RX_PPM;
TX_Samplerate = TX_SR + TX_SR * 0.000001*TX_PPM;
emph_all[0] = settings->value("Modem/PreEmphasisAll1", FALSE).toBool();
emph_all[1] = settings->value("Modem/PreEmphasisAll2", FALSE).toBool();
emph_all[2] = settings->value("Modem/PreEmphasisAll3", FALSE).toBool();
emph_all[3] = settings->value("Modem/PreEmphasisAll4", FALSE).toBool();
emph_db[0] = settings->value("Modem/PreEmphasisDB1", 0).toInt();
emph_db[1] = settings->value("Modem/PreEmphasisDB2", 0).toInt();
emph_db[2] = settings->value("Modem/PreEmphasisDB3", 0).toInt();
emph_db[3] = settings->value("Modem/PreEmphasisDB4", 0).toInt();
Firstwaterfall = settings->value("Window/Waterfall1", TRUE).toInt();
Secondwaterfall = settings->value("Window/Waterfall2", TRUE).toInt();
txdelay[0] = settings->value("Modem/TxDelay1", 250).toInt();
txdelay[1] = settings->value("Modem/TxDelay2", 250).toInt();
txdelay[2] = settings->value("Modem/TxDelay3", 250).toInt();
txdelay[3] = settings->value("Modem/TxDelay4", 250).toInt();
txtail[0] = settings->value("Modem/TxTail1", 50).toInt();
txtail[1] = settings->value("Modem/TxTail2", 50).toInt();
txtail[2] = settings->value("Modem/TxTail3", 50).toInt();
txtail[3] = settings->value("Modem/TxTail4", 50).toInt();
strcpy(CWIDCall, settings->value("Modem/CWIDCall", "").toString().toUtf8().toUpper());
strcpy(CWIDMark, settings->value("Modem/CWIDMark", "").toString().toUtf8().toUpper());
CWIDInterval = settings->value("Modem/CWIDInterval", 0).toInt();
CWIDLeft = settings->value("Modem/CWIDLeft", 0).toInt();
CWIDRight = settings->value("Modem/CWIDRight", 0).toInt();
CWIDType = settings->value("Modem/CWIDType", 1).toInt(); // on/off
getAX25Params(0);
getAX25Params(1);
getAX25Params(2);
getAX25Params(3);
// Validate and process settings
UsingLeft = 0;
UsingRight = 0;
UsingBothChannels = 0;
for (int i = 0; i < 4; i++)
{
if (soundChannel[i] == LEFT)
{
UsingLeft = 1;
modemtoSoundLR[i] = 0;
}
else if (soundChannel[i] == RIGHT)
{
UsingRight = 1;
modemtoSoundLR[i] = 1;
}
}
if (UsingLeft && UsingRight)
UsingBothChannels = 1;
for (snd_ch = 0; snd_ch < 4; snd_ch++)
{
tx_hitoneraise[snd_ch] = powf(10.0f, -abs(tx_hitoneraisedb[snd_ch]) / 20.0f);
if (IPOLL[snd_ch] < 0)
IPOLL[snd_ch] = 0;
else if (IPOLL[snd_ch] > 65535)
IPOLL[snd_ch] = 65535;
if (MEMRecovery[snd_ch] < 1)
MEMRecovery[snd_ch] = 1;
// if (MEMRecovery[snd_ch]> 65535)
// MEMRecovery[snd_ch]= 65535;
/*
if resptime[snd_ch] < 0 then resptime[snd_ch]= 0;
if resptime[snd_ch] > 65535 then resptime[snd_ch]= 65535;
if persist[snd_ch] > 255 then persist[snd_ch]= 255;
if persist[snd_ch] < 32 then persist[snd_ch]= 32;
if fracks[snd_ch] < 1 then fracks[snd_ch]= 1;
if frack_time[snd_ch] < 1 then frack_time[snd_ch]= 1;
if idletime[snd_ch] < frack_time[snd_ch] then idletime[snd_ch]= 180;
*/
if (emph_db[snd_ch] < 0 || emph_db[snd_ch] > nr_emph)
emph_db[snd_ch] = 0;
if (max_frame_collector[snd_ch] > 6) max_frame_collector[snd_ch] = 6;
if (maxframe[snd_ch] == 0 || maxframe[snd_ch] > 7) maxframe[snd_ch] = 3;
if (qpsk_set[snd_ch].mode > 1) qpsk_set[snd_ch].mode = 0;
}
delete(settings);
}
void SavePortSettings(int Chan);
void saveAX25Param(const char * key, QVariant Value)
{
char fullKey[64];
sprintf(fullKey, "%s/%s", Prefix, key);
settings->setValue(fullKey, Value);
}
void saveAX25Params(int chan)
{
Prefix[5] = chan + 'A';
SavePortSettings(chan);
}
void SavePortSettings(int Chan)
{
saveAX25Param("Retries", fracks[Chan]);
saveAX25Param("HiToneRaise", tx_hitoneraisedb[Chan]);
saveAX25Param("Maxframe",maxframe[Chan]);
saveAX25Param("Retries", fracks[Chan]);
saveAX25Param("FrackTime", frack_time[Chan]);
saveAX25Param("IdleTime", idletime[Chan]);
saveAX25Param("SlotTime", slottime[Chan]);
saveAX25Param("Persist", persist[Chan]);
saveAX25Param("RespTime", resptime[Chan]);
saveAX25Param("TXFrmMode", TXFrmMode[Chan]);
saveAX25Param("FrameCollector", max_frame_collector[Chan]);
saveAX25Param("ExcludeCallsigns", exclude_callsigns[Chan]);
saveAX25Param("ExcludeAPRSFrmType", exclude_APRS_frm[Chan]);
saveAX25Param("KISSOptimization", KISS_opt[Chan]);
saveAX25Param("DynamicFrack", dyn_frack[Chan]);
saveAX25Param("BitRecovery", recovery[Chan]);
saveAX25Param("NonAX25Frm", NonAX25[Chan]);
saveAX25Param("MEMRecovery", MEMRecovery[Chan]);
saveAX25Param("IPOLL", IPOLL[Chan]);
saveAX25Param("MyDigiCall", MyDigiCall[Chan]);
saveAX25Param("FX25", fx25_mode[Chan]);
saveAX25Param("IL2P", il2p_mode[Chan]);
saveAX25Param("RSID_UI", RSID_UI[Chan]);
saveAX25Param("RSID_SABM", RSID_SABM[Chan]);
saveAX25Param("RSID_SetModem", RSID_SetModem[Chan]);
}
void saveSettings()
{
QSettings * settings = new QSettings("QtSoundModem.ini", QSettings::IniFormat);
settings->setValue("PSKWindow", constellationDialog->geometry());
settings->setValue("Init/SoundMode", SoundMode);
settings->setValue("Init/UDPClientPort", UDPClientPort);
settings->setValue("Init/UDPServerPort", UDPServerPort);
settings->setValue("Init/TXPort", TXPort);
settings->setValue("Init/UDPServer", UDPServ);
settings->setValue("Init/UDPHost", UDPHost);
settings->setValue("Init/TXSampleRate", TX_SR);
settings->setValue("Init/RXSampleRate", RX_SR);
settings->setValue("Init/SndRXDeviceName", CaptureDevice);
settings->setValue("Init/SndTXDeviceName", PlaybackDevice);
settings->setValue("Init/SCO", SCO);
settings->setValue("Init/DualPTT", DualPTT);
settings->setValue("Init/TXRotate", TX_rotate);
settings->setValue("Init/DispMode", raduga);
settings->setValue("Init/PTT", PTTPort);
settings->setValue("Init/PTTBAUD", PTTBAUD);
settings->setValue("Init/PTTMode", PTTMode);
settings->setValue("Init/PTTOffString", PTTOffString);
settings->setValue("Init/PTTOnString", PTTOnString);
settings->setValue("Init/pttGPIOPin", pttGPIOPin);
settings->setValue("Init/pttGPIOPinR", pttGPIOPinR);
settings->setValue("Init/CM108Addr", CM108Addr);
settings->setValue("Init/HamLibPort", HamLibPort);
settings->setValue("Init/HamLibHost", HamLibHost);
settings->setValue("Init/MinimizetoTray", MintoTray);
settings->setValue("Init/multiCore", multiCore);
settings->setValue("Init/Wisdom", Wisdom);
settings->setValue("Init/WaterfallMin", WaterfallMin);
settings->setValue("Init/WaterfallMax", WaterfallMax);
// Don't save freq on close as it could be offset by multiple decoders
settings->setValue("Modem/NRRcvrPairs1", RCVR[0]);
settings->setValue("Modem/NRRcvrPairs2", RCVR[1]);
settings->setValue("Modem/NRRcvrPairs3", RCVR[2]);
settings->setValue("Modem/NRRcvrPairs4", RCVR[3]);
settings->setValue("Modem/RcvrShift1", rcvr_offset[0]);
settings->setValue("Modem/RcvrShift2", rcvr_offset[1]);
settings->setValue("Modem/RcvrShift3", rcvr_offset[2]);
settings->setValue("Modem/RcvrShift4", rcvr_offset[3]);
settings->setValue("Modem/ModemType1", speed[0]);
settings->setValue("Modem/ModemType2", speed[1]);
settings->setValue("Modem/ModemType3", speed[2]);
settings->setValue("Modem/ModemType4", speed[3]);
settings->setValue("Modem/soundChannel1", soundChannel[0]);
settings->setValue("Modem/soundChannel2", soundChannel[1]);
settings->setValue("Modem/soundChannel3", soundChannel[2]);
settings->setValue("Modem/soundChannel4", soundChannel[3]);
settings->setValue("Modem/DCDThreshold", dcd_threshold);
settings->setValue("Modem/rxOffset", rxOffset);
settings->setValue("AGWHost/Server", AGWServ);
settings->setValue("AGWHost/Port", AGWPort);
settings->setValue("KISS/Server", KISSServ);
settings->setValue("KISS/Port", KISSPort);
settings->setValue("Modem/PreEmphasisAll1", emph_all[0]);
settings->setValue("Modem/PreEmphasisAll2", emph_all[1]);
settings->setValue("Modem/PreEmphasisAll3", emph_all[2]);
settings->setValue("Modem/PreEmphasisAll4", emph_all[3]);
settings->setValue("Modem/PreEmphasisDB1", emph_db[0]);
settings->setValue("Modem/PreEmphasisDB2", emph_db[1]);
settings->setValue("Modem/PreEmphasisDB3", emph_db[2]);
settings->setValue("Modem/PreEmphasisDB4", emph_db[3]);
settings->setValue("Window/Waterfall1", Firstwaterfall);
settings->setValue("Window/Waterfall2", Secondwaterfall);
settings->setValue("Modem/TxDelay1", txdelay[0]);
settings->setValue("Modem/TxDelay2", txdelay[1]);
settings->setValue("Modem/TxDelay3", txdelay[2]);
settings->setValue("Modem/TxDelay4", txdelay[3]);
settings->setValue("Modem/TxTail1", txtail[0]);
settings->setValue("Modem/TxTail2", txtail[1]);
settings->setValue("Modem/TxTail3", txtail[2]);
settings->setValue("Modem/TxTail4", txtail[3]);
settings->setValue("Modem/CWIDCall", CWIDCall);
settings->setValue("Modem/CWIDMark", CWIDMark);
settings->setValue("Modem/CWIDInterval", CWIDInterval);
settings->setValue("Modem/CWIDLeft", CWIDLeft);
settings->setValue("Modem/CWIDRight", CWIDRight);
settings->setValue("Modem/CWIDType", CWIDType);
saveAX25Params(0);
saveAX25Params(1);
saveAX25Params(2);
saveAX25Params(3);
settings->sync();
delete(settings);
}