wfview/tciserver.cpp

309 wiersze
11 KiB
C++
Czysty Zwykły widok Historia

#include "tciserver.h"
#include "logcategories.h"
static const tciCommandStruct tci_commands[] =
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{
{ "vfo_limits", funcNone, 'l', 'l'},
{ "if_limits", funcNone, 'l', 'l'},
{ "trx_count", funcNone, 'u'},
{ "channel_count", funcNone, 'u'},
{ "device", funcNone, 't'},
{ "receive_only", funcNone, 'u'},
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{ "modulations_list", funcNone, 's'},
{ "tx_enable", funcNone, 'u','u'},
{ "ready", funcNone, },
{ "tx_footswitch", funcNone, 'u','b'},
{ "start", funcNone },
{ "stop", funcNone },
{ "dds", funcNone, 'u','u'},
{ "trx_count", funcNone, 'u'},
{ "trx_count", funcNone, 'u'},
{ "trx_count", funcNone, 'u'},
{ "trx_count", funcNone, 'u'},
{ "trx_count", funcNone, 'u'},
{ "trx_count", funcNone, 'u'},
{ "trx_count", funcNone, 'u'},
{ "trx_count", funcNone, 'u'},
{ "trx_count", funcNone, 'u'},
{ "trx_count", funcNone, 'u'},
{ "trx_count", funcNone, 'u'},
{ "", funcNone, 0x0 },
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};
tciServer::tciServer(QObject *parent) :
QObject(parent)
{
}
void tciServer::init(quint16 port) {
server = new QWebSocketServer(QStringLiteral("TCI Server"), QWebSocketServer::NonSecureMode, this);
if (server->listen(QHostAddress::Any,port)) {
qInfo() << "tciServer() listening on" << port;
connect (server, &QWebSocketServer::newConnection, this, &tciServer::onNewConnection);
connect (server, &QWebSocketServer::closed, this, &tciServer::socketDisconnected);
}
queue = cachingQueue::getInstance(this);
connect(queue,SIGNAL(cacheUpdated(cacheItem)),this,SLOT(receiveCache(cacheItem)));
// Setup txChrono packet.
txChrono.resize(iqHeaderSize);
dataStream *pStream = reinterpret_cast<dataStream*>(txChrono.data());
pStream->receiver = 0;
pStream->sampleRate = 48000;
pStream->format = IqFloat32;
pStream->codec = 0u;
pStream->type = TxChrono;
pStream->crc = 0u;
pStream->length = TCI_AUDIO_LENGTH;
}
void tciServer::setupTxPacket(int length)
{
}
tciServer::~tciServer()
{
server->close();
auto it = clients.begin();
if (it != clients.end())
{
it.key()->deleteLater();
it = clients.erase(it);
}
//qDeleteAll(clients.begin(), clients.end());
}
void tciServer::onNewConnection()
{
this->setObjectName("TCI Server");
QWebSocket *pSocket = server->nextPendingConnection();
connect(pSocket, &QWebSocket::textMessageReceived, this, &tciServer::processIncomingTextMessage);
connect(pSocket, &QWebSocket::binaryMessageReceived, this, &tciServer::processIncomingBinaryMessage);
connect(pSocket, &QWebSocket::disconnected, this, &tciServer::socketDisconnected);
qInfo() << "TCI client connected:" << pSocket;
clients.insert(pSocket,connStatus());
pSocket->sendTextMessage(QString("protocol:WFVIEW,1.5;\n"));
pSocket->sendTextMessage(QString("device:WFVIEW;\n"));
pSocket->sendTextMessage(QString("receive_only:false;\n"));
pSocket->sendTextMessage(QString("trx_count:1;\n"));
pSocket->sendTextMessage(QString("channel_count:1;\n"));
pSocket->sendTextMessage(QString("vfo_limits:10000,52000000;\n"));
pSocket->sendTextMessage(QString("if_limits:-48000,48000;\n"));
pSocket->sendTextMessage(QString("modulations_list:AM,LSB,USB,CW,NFM,WSPR,FT8,FT4,JT65,JT9,RTTY,BPSK,DIGL,DIGU,WFM,DRM;\n"));
pSocket->sendTextMessage(QString("iq_samplerate:48000;\n"));
pSocket->sendTextMessage(QString("audio_samplerate:48000;\n"));
pSocket->sendTextMessage(QString("mute:false;\n"));
pSocket->sendTextMessage(QString("vfo:0,0,%0;").arg(queue->getCache(funcSelectedFreq,false).value.value<freqt>().Hz));
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pSocket->sendTextMessage(QString("modulation:0,%0;").arg(queue->getCache(funcSelectedMode,false).value.value<modeInfo>().name.toLower()));
pSocket->sendTextMessage(QString("start;\n"));
pSocket->sendTextMessage(QString("ready;\n"));
}
void tciServer::processIncomingTextMessage(QString message)
{
QWebSocket *pClient = qobject_cast<QWebSocket *>(sender());
auto it = clients.find(pClient);
if (it == clients.end())
{
qInfo() << "Cannot find status for connection" << pClient;
return;
}
it.value().connected = true;
qInfo() << "TCI Text Message received:" << message;
QString cmd = message.section(':',0,0);
QStringList arg = message.section(':',1,1).split(',');
arg[arg.length()-1].chop(1);
QString reply = message;
uchar sub = arg[0].toUInt();
if (cmd.toLower() == "modulation")
{
reply = QString("%0:%1,%2;").arg(cmd).arg(sub)
.arg(queue->getCache(sub?funcUnselectedFreq:funcSelectedMode,sub).value.value<modeInfo>().name);
} else if (cmd == "rx_enable" || cmd == "tx_enable") {
reply = QString("%0:%1,%2;").arg(cmd).arg(sub).arg("true");
}
else if (cmd == "audio_start" ) {
it.value().rxaudio=true;
}
else if (cmd == "audio_stop" ) {
it.value().rxaudio=false;
}
else if (cmd == "rx_mute" ) {
}
else if (cmd == "drive" ) {
reply = QString("%0:%1,%2;").arg(cmd).arg(0).arg(50);
}
else if (cmd == "audio_samplerate" ) {
}
else if (cmd == "trx" ) {
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if (arg.size() == 1) {
it.value().rxaudio=false;
reply = QString("trx:%0,%1;").arg(QString::number(sub)).arg(queue->getCache(funcTransceiverStatus).value.value<bool>()?"true":"false");
}
else if (arg.size() > 1) {
bool on = arg[1]=="true"?true:false;
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queue->add(priorityImmediate,queueItem(funcTransceiverStatus,QVariant::fromValue(on),false,sub));
}
}
else if (cmd == "vfo")
{
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if (arg.size() == 2) {
reply = QString("%0:%1,%2,%3;").arg(cmd).arg(arg[0]).arg(arg[1])
.arg(queue->getCache(sub?funcUnselectedFreq:funcSelectedFreq,sub).value.value<freqt>().Hz);
}
else if (arg.size() == 3) {
qInfo() << "Freq" << arg[2];
freqt f;
f.Hz = arg[2].toUInt();
f.MHzDouble = f.Hz / (double)1E6;
queue->add(priorityImmediate,queueItem(sub?funcUnselectedFreq:funcSelectedFreq,QVariant::fromValue(f),false,sub));
}
}
else if (cmd == "modulation")
{
if (arg.size() == 1) {
reply = QString("modulation:%0,%1;").arg(QString::number(sub))
.arg(queue->getCache(sub?funcUnselectedMode:funcSelectedMode,sub).value.value<modeInfo>().name.toLower());
}
else if (arg.size() == 2) {
qInfo() << "Mode (TODO)" << arg[1];
reply = QString("modulation:%0,%1;").arg(QString::number(sub))
.arg(queue->getCache(sub?funcUnselectedMode:funcSelectedMode,sub).value.value<modeInfo>().name.toLower());
/*
freqt f;
f.Hz = arg[2].toUInt();
f.MHzDouble = f.Hz / (double)1E6;
queue->add(priorityImmediate,queueItem(sub?funcUnselectedFreq:funcSelectedFreq,QVariant::fromValue(f),false,sub));
*/
}
}
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//reply = QString("vfo:0,%0,%1;").arg(QString::number(item.sub)).arg(item.value.value<freqt>().Hz);
if (pClient && !reply.isEmpty()) {
qInfo() << "Reply:" << reply;
pClient->sendTextMessage(reply);
}
}
void tciServer::processIncomingBinaryMessage(QByteArray message)
{
QWebSocket *pClient = qobject_cast<QWebSocket *>(sender());
if (pClient) {
dataStream *pStream = reinterpret_cast<dataStream*>(message.data());
if (pStream->type == TxAudioStream && pStream->length > 0)
{
QByteArray tempData(pStream->length * sizeof(float),0x0);
memcpy(tempData.data(),pStream->data,tempData.size());
//qInfo() << QString("Received audio from client: %0 Sample: %1 Format: %2 Length: %3(%4 bytes) Type: %5").arg(pStream->receiver).arg(pStream->sampleRate).arg(pStream->format).arg(pStream->length).arg(tempData.size()).arg(pStream->type);
emit sendTCIAudio(tempData);
}
}
}
void tciServer::socketDisconnected()
{
QWebSocket *pClient = qobject_cast<QWebSocket *>(sender());
qInfo() << "TCI client disconnected:" << pClient;
if (pClient) {
clients.remove(pClient);
pClient->deleteLater();
}
}
void tciServer::receiveTCIAudio(audioPacket audio){
/*
* quint32 receiver; //!< receivers periodic number
quint32 sampleRate; //!< sample rate
quint32 format; //!< always equals 4 (float 32 bit)
quint32 codec; //!< compression algorithm (not implemented yet), always 0
quint32 crc; //!< check sum (not implemented yet), always 0
quint32 length; //!< length of data field
quint32 type; //!< type of data stream
quint32 reserv[9]; //!< reserved
float data[4096]; //!< data field
*/
//dataStream *pStream = reinterpret_cast<dataStream*>(audio.data());
rxAudioData.resize(iqHeaderSize + audio.data.size());
dataStream *pStream = reinterpret_cast<dataStream*>(rxAudioData.data());
pStream->receiver = 0;
pStream->sampleRate = 48000;
pStream->format = IqFloat32;
pStream->codec = 0u;
pStream->type = RxAudioStream;
pStream->crc = 0u;
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pStream->length = quint32(audio.data.size() / sizeof (float));
memcpy(pStream->data,audio.data.data(),audio.data.size());
auto it = clients.begin();
while (it != clients.end())
{
if (it.value().connected && it.value().rxaudio)
{
//qInfo() << "Sending audio to client:" << it.key() << "size" << audio.data.size();
it.key()->sendBinaryMessage(txChrono);
it.key()->sendBinaryMessage(rxAudioData);
}
++it;
}
}
void tciServer::receiveCache(cacheItem item)
{
auto it = clients.begin();
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QString reply;
while (it != clients.end())
{
if (it.value().connected)
{
switch (item.command)
{
case funcFreqTR:
case funcSelectedFreq:
case funcUnselectedFreq:
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reply = QString("vfo:0,%0,%1;").arg(QString::number(item.sub)).arg(item.value.value<freqt>().Hz);
break;
case funcModeTR:
case funcSelectedMode:
case funcUnselectedMode:
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reply = QString("modulation:%0,%1;").arg(QString::number(item.sub)).arg(item.value.value<modeInfo>().name.toLower());
break;
case funcTransceiverStatus:
reply = QString("trx:%0,%1;").arg(QString::number(item.sub)).arg(item.value.value<bool>()?"true":"false");
break;
default:
break;
}
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if (!reply.isEmpty()) {
it.key()->sendTextMessage(reply);
qInfo() << "Sending TCI:" << reply;
}
}
++it;
}
}