void CubicSDR::setDevice(SDRDeviceInfo *dev) { if (!sdrThread->isTerminated()) { sdrThread->terminate(); if (t_SDR) { t_SDR->join(); delete t_SDR; } } for (SoapySDR::Kwargs::const_iterator i = settingArgs.begin(); i != settingArgs.end(); i++) { sdrThread->writeSetting(i->first, i->second); } sdrThread->setStreamArgs(streamArgs); sdrThread->setDevice(dev); DeviceConfig *devConfig = config.getDevice(dev->getDeviceId()); SoapySDR::Device *soapyDev = dev->getSoapyDevice(); if (soapyDev) { if (long devSampleRate = devConfig->getSampleRate()) { sampleRate = dev->getSampleRateNear(SOAPY_SDR_RX, 0, devSampleRate); sampleRateInitialized.store(true); } if (!sampleRateInitialized.load()) { sampleRate = dev->getSampleRateNear(SOAPY_SDR_RX, 0, DEFAULT_SAMPLE_RATE); sampleRateInitialized.store(true); } else { sampleRate = dev->getSampleRateNear(SOAPY_SDR_RX, 0, sampleRate); } if (frequency < sampleRate/2) { frequency = sampleRate/2; } setFrequency(frequency); setSampleRate(sampleRate); setPPM(devConfig->getPPM()); setOffset(devConfig->getOffset()); if (devConfig->getAGCMode()) { setAGCMode(true); } else { setAGCMode(false); } t_SDR = new std::thread(&SDRThread::threadMain, sdrThread); } stoppedDev = nullptr; }