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///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2017 Edouard Griffiths, F4EXB //
// //
// 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 as version 3 of the License, or //
// //
// 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 V3 for more details. //
// //
// You should have received a copy of the GNU General Public License //
// along with this program. If not, see <http://www.gnu.org/licenses/>. //
///////////////////////////////////////////////////////////////////////////////////
# include <QDebug>
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# include "device/devicesinkapi.h"
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# include "dsp/upchannelizer.h"
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# include "dsp/threadedbasebandsamplesource.h"
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# include "dsp/dspcommands.h"
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# include "util/db.h"
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# include "udpsinkmsg.h"
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# include "udpsink.h"
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MESSAGE_CLASS_DEFINITION ( UDPSink : : MsgConfigureUDPSink , Message )
MESSAGE_CLASS_DEFINITION ( UDPSink : : MsgConfigureChannelizer , Message )
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MESSAGE_CLASS_DEFINITION ( UDPSink : : MsgUDPSinkSpectrum , Message )
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MESSAGE_CLASS_DEFINITION ( UDPSink : : MsgResetReadIndex , Message )
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const QString UDPSink : : m_channelIdURI = " sdrangel.channeltx.udpsink " ;
const QString UDPSink : : m_channelId = " UDPSink " ;
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UDPSink : : UDPSink ( DeviceSinkAPI * deviceAPI ) :
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ChannelSourceAPI ( m_channelIdURI ) ,
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m_deviceAPI ( deviceAPI ) ,
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m_basebandSampleRate ( 48000 ) ,
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m_outputSampleRate ( 48000 ) ,
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m_inputFrequencyOffset ( 0 ) ,
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m_squelch ( 1e-6 ) ,
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m_spectrum ( 0 ) ,
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m_spectrumEnabled ( false ) ,
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m_spectrumChunkSize ( 2160 ) ,
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m_spectrumChunkCounter ( 0 ) ,
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m_magsq ( 1e-10 ) ,
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m_movingAverage ( 16 , 1e-10 ) ,
m_inMovingAverage ( 480 , 1e-10 ) ,
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m_sampleRateSum ( 0 ) ,
m_sampleRateAvgCounter ( 0 ) ,
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m_levelCalcCount ( 0 ) ,
m_peakLevel ( 0.0f ) ,
m_levelSum ( 0.0f ) ,
m_levelNbSamples ( 480 ) ,
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m_squelchOpen ( false ) ,
m_squelchOpenCount ( 0 ) ,
m_squelchCloseCount ( 0 ) ,
m_squelchThreshold ( 4800 ) ,
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m_modPhasor ( 0.0f ) ,
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m_SSBFilterBufferIndex ( 0 ) ,
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m_settingsMutex ( QMutex : : Recursive )
{
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setObjectName ( m_channelId ) ;
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m_udpHandler . setFeedbackMessageQueue ( & m_inputMessageQueue ) ;
m_SSBFilter = new fftfilt ( m_settings . m_lowCutoff / m_settings . m_inputSampleRate , m_settings . m_rfBandwidth / m_settings . m_inputSampleRate , m_ssbFftLen ) ;
m_SSBFilterBuffer = new Complex [ m_ssbFftLen > > 1 ] ; // filter returns data exactly half of its size
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m_channelizer = new UpChannelizer ( this ) ;
m_threadedChannelizer = new ThreadedBasebandSampleSource ( m_channelizer , this ) ;
m_deviceAPI - > addThreadedSource ( m_threadedChannelizer ) ;
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m_deviceAPI - > addChannelAPI ( this ) ;
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applyChannelSettings ( m_basebandSampleRate , m_outputSampleRate , m_inputFrequencyOffset , true ) ;
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applySettings ( m_settings , true ) ;
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}
UDPSink : : ~ UDPSink ( )
{
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delete [ ] m_SSBFilterBuffer ;
delete m_SSBFilter ;
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m_deviceAPI - > removeChannelAPI ( this ) ;
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m_deviceAPI - > removeThreadedSource ( m_threadedChannelizer ) ;
delete m_threadedChannelizer ;
delete m_channelizer ;
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}
void UDPSink : : start ( )
{
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m_udpHandler . start ( ) ;
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applyChannelSettings ( m_basebandSampleRate , m_outputSampleRate , m_inputFrequencyOffset , true ) ;
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}
void UDPSink : : stop ( )
{
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m_udpHandler . stop ( ) ;
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}
void UDPSink : : pull ( Sample & sample )
{
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if ( m_settings . m_channelMute )
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{
sample . m_real = 0.0f ;
sample . m_imag = 0.0f ;
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initSquelch ( false ) ;
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return ;
}
Complex ci ;
m_settingsMutex . lock ( ) ;
if ( m_interpolatorDistance > 1.0f ) // decimate
{
modulateSample ( ) ;
while ( ! m_interpolator . decimate ( & m_interpolatorDistanceRemain , m_modSample , & ci ) )
{
modulateSample ( ) ;
}
}
else
{
if ( m_interpolator . interpolate ( & m_interpolatorDistanceRemain , m_modSample , & ci ) )
{
modulateSample ( ) ;
}
}
m_interpolatorDistanceRemain + = m_interpolatorDistance ;
ci * = m_carrierNco . nextIQ ( ) ; // shift to carrier frequency
m_settingsMutex . unlock ( ) ;
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double magsq = ci . real ( ) * ci . real ( ) + ci . imag ( ) * ci . imag ( ) ;
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magsq / = ( SDR_TX_SCALED * SDR_TX_SCALED ) ;
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m_movingAverage . feed ( magsq ) ;
m_magsq = m_movingAverage . average ( ) ;
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sample . m_real = ( FixReal ) ci . real ( ) ;
sample . m_imag = ( FixReal ) ci . imag ( ) ;
}
void UDPSink : : modulateSample ( )
{
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if ( m_settings . m_sampleFormat = = UDPSinkSettings : : FormatS16LE ) // Linear I/Q transponding
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{
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Sample s ;
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m_udpHandler . readSample ( s ) ;
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uint64_t magsq = s . m_real * s . m_real + s . m_imag * s . m_imag ;
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m_inMovingAverage . feed ( magsq / ( SDR_TX_SCALED * SDR_TX_SCALED ) ) ;
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m_inMagsq = m_inMovingAverage . average ( ) ;
calculateSquelch ( m_inMagsq ) ;
if ( m_squelchOpen )
{
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m_modSample . real ( s . m_real * m_settings . m_gainOut ) ;
m_modSample . imag ( s . m_imag * m_settings . m_gainOut ) ;
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calculateLevel ( m_modSample ) ;
}
else
{
m_modSample . real ( 0.0f ) ;
m_modSample . imag ( 0.0f ) ;
}
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}
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else if ( m_settings . m_sampleFormat = = UDPSinkSettings : : FormatNFM )
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{
FixReal t ;
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readMonoSample ( t ) ;
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m_inMovingAverage . feed ( ( t * t ) / 1073741824.0 ) ;
m_inMagsq = m_inMovingAverage . average ( ) ;
calculateSquelch ( m_inMagsq ) ;
if ( m_squelchOpen )
{
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m_modPhasor + = ( m_settings . m_fmDeviation / m_settings . m_inputSampleRate ) * ( t / SDR_TX_SCALEF ) * M_PI * 2.0f ;
m_modSample . real ( cos ( m_modPhasor ) * 0.3162292f * SDR_TX_SCALEF * m_settings . m_gainOut ) ;
m_modSample . imag ( sin ( m_modPhasor ) * 0.3162292f * SDR_TX_SCALEF * m_settings . m_gainOut ) ;
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calculateLevel ( m_modSample ) ;
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}
else
{
m_modSample . real ( 0.0f ) ;
m_modSample . imag ( 0.0f ) ;
}
}
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else if ( m_settings . m_sampleFormat = = UDPSinkSettings : : FormatAM )
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{
FixReal t ;
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readMonoSample ( t ) ;
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m_inMovingAverage . feed ( ( t * t ) / ( SDR_TX_SCALED * SDR_TX_SCALED ) ) ;
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m_inMagsq = m_inMovingAverage . average ( ) ;
calculateSquelch ( m_inMagsq ) ;
if ( m_squelchOpen )
{
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m_modSample . real ( ( ( t / SDR_TX_SCALEF ) * m_settings . m_amModFactor * m_settings . m_gainOut + 1.0f ) * ( SDR_TX_SCALEF / 2 ) ) ; // modulate and scale zero frequency carrier
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m_modSample . imag ( 0.0f ) ;
calculateLevel ( m_modSample ) ;
}
else
{
m_modSample . real ( 0.0f ) ;
m_modSample . imag ( 0.0f ) ;
}
}
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else if ( ( m_settings . m_sampleFormat = = UDPSinkSettings : : FormatLSB ) | | ( m_settings . m_sampleFormat = = UDPSinkSettings : : FormatUSB ) )
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{
FixReal t ;
Complex c , ci ;
fftfilt : : cmplx * filtered ;
int n_out = 0 ;
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readMonoSample ( t ) ;
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m_inMovingAverage . feed ( ( t * t ) / ( SDR_TX_SCALED * SDR_TX_SCALED ) ) ;
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m_inMagsq = m_inMovingAverage . average ( ) ;
calculateSquelch ( m_inMagsq ) ;
if ( m_squelchOpen )
{
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ci . real ( ( t / SDR_TX_SCALEF ) * m_settings . m_gainOut ) ;
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ci . imag ( 0.0f ) ;
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n_out = m_SSBFilter - > runSSB ( ci , & filtered , ( m_settings . m_sampleFormat = = UDPSinkSettings : : FormatUSB ) ) ;
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if ( n_out > 0 )
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{
memcpy ( ( void * ) m_SSBFilterBuffer , ( const void * ) filtered , n_out * sizeof ( Complex ) ) ;
m_SSBFilterBufferIndex = 0 ;
}
c = m_SSBFilterBuffer [ m_SSBFilterBufferIndex ] ;
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m_modSample . real ( m_SSBFilterBuffer [ m_SSBFilterBufferIndex ] . real ( ) * SDR_TX_SCALEF ) ;
m_modSample . imag ( m_SSBFilterBuffer [ m_SSBFilterBufferIndex ] . imag ( ) * SDR_TX_SCALEF ) ;
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m_SSBFilterBufferIndex + + ;
calculateLevel ( m_modSample ) ;
}
else
{
m_modSample . real ( 0.0f ) ;
m_modSample . imag ( 0.0f ) ;
}
}
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else
{
m_modSample . real ( 0.0f ) ;
m_modSample . imag ( 0.0f ) ;
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initSquelch ( false ) ;
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}
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if ( m_spectrum & & m_spectrumEnabled & & ( m_spectrumChunkCounter < m_spectrumChunkSize - 1 ) )
{
Sample s ;
s . m_real = ( FixReal ) m_modSample . real ( ) ;
s . m_imag = ( FixReal ) m_modSample . imag ( ) ;
m_sampleBuffer . push_back ( s ) ;
m_spectrumChunkCounter + + ;
}
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else if ( m_spectrum )
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{
m_spectrum - > feed ( m_sampleBuffer . begin ( ) , m_sampleBuffer . end ( ) , false ) ;
m_sampleBuffer . clear ( ) ;
m_spectrumChunkCounter = 0 ;
}
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}
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void UDPSink : : calculateLevel ( Real sample )
{
if ( m_levelCalcCount < m_levelNbSamples )
{
m_peakLevel = std : : max ( std : : fabs ( m_peakLevel ) , sample ) ;
m_levelSum + = sample * sample ;
m_levelCalcCount + + ;
}
else
{
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qreal rmsLevel = m_levelSum > 0.0 ? sqrt ( m_levelSum / m_levelNbSamples ) : 0.0 ;
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//qDebug("NFMMod::calculateLevel: %f %f", rmsLevel, m_peakLevel);
emit levelChanged ( rmsLevel , m_peakLevel , m_levelNbSamples ) ;
m_peakLevel = 0.0f ;
m_levelSum = 0.0f ;
m_levelCalcCount = 0 ;
}
}
void UDPSink : : calculateLevel ( Complex sample )
{
Real t = std : : abs ( sample ) ;
if ( m_levelCalcCount < m_levelNbSamples )
{
m_peakLevel = std : : max ( std : : fabs ( m_peakLevel ) , t ) ;
m_levelSum + = ( t * t ) ;
m_levelCalcCount + + ;
}
else
{
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qreal rmsLevel = m_levelSum > 0.0 ? sqrt ( ( m_levelSum / ( SDR_TX_SCALED * SDR_TX_SCALED ) ) / m_levelNbSamples ) : 0.0 ;
emit levelChanged ( rmsLevel , m_peakLevel / SDR_TX_SCALEF , m_levelNbSamples ) ;
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m_peakLevel = 0.0f ;
m_levelSum = 0.0f ;
m_levelCalcCount = 0 ;
}
}
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bool UDPSink : : handleMessage ( const Message & cmd )
{
if ( UpChannelizer : : MsgChannelizerNotification : : match ( cmd ) )
{
UpChannelizer : : MsgChannelizerNotification & notif = ( UpChannelizer : : MsgChannelizerNotification & ) cmd ;
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qDebug ( ) < < " UDPSink::handleMessage: MsgChannelizerNotification " ;
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applyChannelSettings ( notif . getBasebandSampleRate ( ) , notif . getSampleRate ( ) , notif . getFrequencyOffset ( ) ) ;
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return true ;
}
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else if ( MsgConfigureChannelizer : : match ( cmd ) )
{
MsgConfigureChannelizer & cfg = ( MsgConfigureChannelizer & ) cmd ;
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qDebug ( ) < < " UDPSink::handleMessage: MsgConfigureChannelizer: "
< < " sampleRate: " < < cfg . getSampleRate ( )
< < " centerFrequency: " < < cfg . getCenterFrequency ( ) ;
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m_channelizer - > configure ( m_channelizer - > getInputMessageQueue ( ) ,
cfg . getSampleRate ( ) ,
cfg . getCenterFrequency ( ) ) ;
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return true ;
}
else if ( MsgConfigureUDPSink : : match ( cmd ) )
{
MsgConfigureUDPSink & cfg = ( MsgConfigureUDPSink & ) cmd ;
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qDebug ( ) < < " UDPSink::handleMessage: MsgConfigureUDPSink " ;
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applySettings ( cfg . getSettings ( ) , cfg . getForce ( ) ) ;
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return true ;
}
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else if ( UDPSinkMessages : : MsgSampleRateCorrection : : match ( cmd ) )
{
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UDPSinkMessages : : MsgSampleRateCorrection & cfg = ( UDPSinkMessages : : MsgSampleRateCorrection & ) cmd ;
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Real newSampleRate = m_actualInputSampleRate + cfg . getCorrectionFactor ( ) * m_actualInputSampleRate ;
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// exclude values too way out nominal sample rate (20%)
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if ( ( newSampleRate < m_settings . m_inputSampleRate * 1.2 ) & & ( newSampleRate > m_settings . m_inputSampleRate * 0.8 ) )
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{
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m_actualInputSampleRate = newSampleRate ;
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if ( ( cfg . getRawDeltaRatio ( ) > - 0.05 ) & & ( cfg . getRawDeltaRatio ( ) < 0.05 ) )
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{
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if ( m_sampleRateAvgCounter < m_sampleRateAverageItems )
{
m_sampleRateSum + = m_actualInputSampleRate ;
m_sampleRateAvgCounter + + ;
}
}
else
{
m_sampleRateSum = 0.0 ;
m_sampleRateAvgCounter = 0 ;
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}
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if ( m_sampleRateAvgCounter = = m_sampleRateAverageItems )
{
float avgRate = m_sampleRateSum / m_sampleRateAverageItems ;
qDebug ( " UDPSink::handleMessage: MsgSampleRateCorrection: corr: %+.6f new rate: %.0f: avg rate: %.0f " ,
cfg . getCorrectionFactor ( ) ,
m_actualInputSampleRate ,
avgRate ) ;
m_actualInputSampleRate = avgRate ;
m_sampleRateSum = 0.0 ;
m_sampleRateAvgCounter = 0 ;
}
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// else
// {
// qDebug("UDPSink::handleMessage: MsgSampleRateCorrection: corr: %+.6f new rate: %.0f",
// cfg.getCorrectionFactor(),
// m_actualInputSampleRate);
// }
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m_settingsMutex . lock ( ) ;
m_interpolatorDistanceRemain = 0 ;
m_interpolatorConsumed = false ;
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m_interpolatorDistance = ( Real ) m_actualInputSampleRate / ( Real ) m_outputSampleRate ;
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//m_interpolator.create(48, m_actualInputSampleRate, m_settings.m_rfBandwidth / 2.2, 3.0); // causes clicking: leaving at standard frequency
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m_settingsMutex . unlock ( ) ;
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}
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return true ;
}
else if ( MsgUDPSinkSpectrum : : match ( cmd ) )
{
MsgUDPSinkSpectrum & spc = ( MsgUDPSinkSpectrum & ) cmd ;
m_spectrumEnabled = spc . getEnabled ( ) ;
qDebug ( ) < < " UDPSink::handleMessage: MsgUDPSinkSpectrum: m_spectrumEnabled: " < < m_spectrumEnabled ;
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return true ;
}
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else if ( MsgResetReadIndex : : match ( cmd ) )
{
m_settingsMutex . lock ( ) ;
m_udpHandler . resetReadIndex ( ) ;
m_settingsMutex . unlock ( ) ;
qDebug ( ) < < " UDPSink::handleMessage: MsgResetReadIndex " ;
return true ;
}
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else if ( DSPSignalNotification : : match ( cmd ) )
{
return true ;
}
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else
{
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if ( m_spectrum ! = 0 )
{
return m_spectrum - > handleMessage ( cmd ) ;
}
else
{
return false ;
}
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}
}
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void UDPSink : : setSpectrum ( bool enabled )
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{
Message * cmd = MsgUDPSinkSpectrum : : create ( enabled ) ;
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getInputMessageQueue ( ) - > push ( cmd ) ;
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}
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void UDPSink : : resetReadIndex ( )
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{
Message * cmd = MsgResetReadIndex : : create ( ) ;
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getInputMessageQueue ( ) - > push ( cmd ) ;
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}
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void UDPSink : : applyChannelSettings ( int basebandSampleRate , int outputSampleRate , int inputFrequencyOffset , bool force )
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{
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qDebug ( ) < < " UDPSink::applyChannelSettings: "
< < " basebandSampleRate: " < < basebandSampleRate
< < " outputSampleRate: " < < outputSampleRate
< < " inputFrequencyOffset: " < < inputFrequencyOffset ;
if ( ( inputFrequencyOffset ! = m_inputFrequencyOffset ) | |
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( outputSampleRate ! = m_outputSampleRate ) | | force )
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{
m_settingsMutex . lock ( ) ;
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m_carrierNco . setFreq ( inputFrequencyOffset , outputSampleRate ) ;
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m_settingsMutex . unlock ( ) ;
}
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if ( ( ( outputSampleRate ! = m_outputSampleRate ) & & ( ! m_settings . m_autoRWBalance ) ) | | force )
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{
m_settingsMutex . lock ( ) ;
m_interpolatorDistanceRemain = 0 ;
m_interpolatorConsumed = false ;
m_interpolatorDistance = ( Real ) m_settings . m_inputSampleRate / ( Real ) outputSampleRate ;
m_interpolator . create ( 48 , m_settings . m_inputSampleRate , m_settings . m_rfBandwidth / 2.2 , 3.0 ) ;
m_settingsMutex . unlock ( ) ;
}
m_basebandSampleRate = basebandSampleRate ;
m_outputSampleRate = outputSampleRate ;
m_inputFrequencyOffset = inputFrequencyOffset ;
}
void UDPSink : : applySettings ( const UDPSinkSettings & settings , bool force )
{
qDebug ( ) < < " UDPSink::applySettings: "
< < " m_inputFrequencyOffset: " < < settings . m_inputFrequencyOffset
< < " m_sampleFormat: " < < settings . m_sampleFormat
< < " m_inputSampleRate: " < < settings . m_inputSampleRate
< < " m_rfBandwidth: " < < settings . m_rfBandwidth
< < " m_fmDeviation: " < < settings . m_fmDeviation
< < " m_udpAddressStr: " < < settings . m_udpAddress
< < " m_udpPort: " < < settings . m_udpPort
< < " m_channelMute: " < < settings . m_channelMute
< < " m_gainIn: " < < settings . m_gainIn
< < " m_gainOut: " < < settings . m_gainOut
< < " m_squelchGate: " < < settings . m_squelchGate
< < " m_squelch: " < < settings . m_squelch < < " dB "
< < " m_squelchEnabled: " < < settings . m_squelchEnabled
< < " m_autoRWBalance: " < < settings . m_autoRWBalance
< < " m_stereoInput: " < < settings . m_stereoInput
< < " force: " < < force ;
if ( ( settings . m_rfBandwidth ! = m_settings . m_rfBandwidth ) | |
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( settings . m_inputSampleRate ! = m_settings . m_inputSampleRate ) | | force )
{
m_settingsMutex . lock ( ) ;
m_interpolatorDistanceRemain = 0 ;
m_interpolatorConsumed = false ;
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m_interpolatorDistance = ( Real ) settings . m_inputSampleRate / ( Real ) m_outputSampleRate ;
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m_interpolator . create ( 48 , settings . m_inputSampleRate , settings . m_rfBandwidth / 2.2 , 3.0 ) ;
m_actualInputSampleRate = settings . m_inputSampleRate ;
m_udpHandler . resetReadIndex ( ) ;
m_sampleRateSum = 0.0 ;
m_sampleRateAvgCounter = 0 ;
m_spectrumChunkSize = settings . m_inputSampleRate * 0.05 ; // 50 ms chunk
m_spectrumChunkCounter = 0 ;
m_levelNbSamples = settings . m_inputSampleRate * 0.01 ; // every 10 ms
m_levelCalcCount = 0 ;
m_peakLevel = 0.0f ;
m_levelSum = 0.0f ;
m_udpHandler . resizeBuffer ( settings . m_inputSampleRate ) ;
m_inMovingAverage . resize ( settings . m_inputSampleRate * 0.01 , 1e-10 ) ; // 10 ms
m_squelchThreshold = settings . m_inputSampleRate * settings . m_squelchGate ;
initSquelch ( m_squelchOpen ) ;
m_SSBFilter - > create_filter ( settings . m_lowCutoff / settings . m_inputSampleRate , settings . m_rfBandwidth / settings . m_inputSampleRate ) ;
m_settingsMutex . unlock ( ) ;
}
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if ( ( settings . m_squelch ! = m_settings . m_squelch ) | | force )
{
m_squelch = CalcDb : : powerFromdB ( settings . m_squelch ) ;
}
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if ( ( settings . m_squelchGate ! = m_settings . m_squelchGate ) | | force )
{
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m_squelchThreshold = m_outputSampleRate * settings . m_squelchGate ;
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initSquelch ( m_squelchOpen ) ;
}
if ( ( settings . m_udpAddress ! = m_settings . m_udpAddress ) | |
( settings . m_udpPort ! = m_settings . m_udpPort ) | | force )
{
m_settingsMutex . lock ( ) ;
m_udpHandler . configureUDPLink ( settings . m_udpAddress , settings . m_udpPort ) ;
m_settingsMutex . unlock ( ) ;
}
if ( ( settings . m_channelMute ! = m_settings . m_channelMute ) | | force )
{
if ( ! settings . m_channelMute ) {
m_udpHandler . resetReadIndex ( ) ;
}
}
if ( ( settings . m_autoRWBalance ! = m_settings . m_autoRWBalance ) | | force )
{
m_settingsMutex . lock ( ) ;
m_udpHandler . setAutoRWBalance ( settings . m_autoRWBalance ) ;
if ( ! settings . m_autoRWBalance )
{
m_interpolatorDistanceRemain = 0 ;
m_interpolatorConsumed = false ;
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m_interpolatorDistance = ( Real ) settings . m_inputSampleRate / ( Real ) m_outputSampleRate ;
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m_interpolator . create ( 48 , settings . m_inputSampleRate , settings . m_rfBandwidth / 2.2 , 3.0 ) ;
m_actualInputSampleRate = settings . m_inputSampleRate ;
m_udpHandler . resetReadIndex ( ) ;
}
m_settingsMutex . unlock ( ) ;
}
m_settings = settings ;
}
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QByteArray UDPSink : : serialize ( ) const
{
return m_settings . serialize ( ) ;
}
bool UDPSink : : deserialize ( const QByteArray & data )
{
if ( m_settings . deserialize ( data ) )
{
MsgConfigureUDPSink * msg = MsgConfigureUDPSink : : create ( m_settings , true ) ;
m_inputMessageQueue . push ( msg ) ;
return true ;
}
else
{
m_settings . resetToDefaults ( ) ;
MsgConfigureUDPSink * msg = MsgConfigureUDPSink : : create ( m_settings , true ) ;
m_inputMessageQueue . push ( msg ) ;
return false ;
}
}