CubicSDR/src/sdr/SDRThread.cpp

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#include "SDRThread.h"
#include "CubicSDRDefs.h"
#include <vector>
#include "CubicSDR.h"
SDRThread::SDRThread(SDRThreadCommandQueue* pQueue) :
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commandQueue(pQueue), iqDataOutQueue(NULL) {
terminated.store(false);
offset.store(0);
deviceId.store(-1);
dev = NULL;
sampleRate.store(DEFAULT_SAMPLE_RATE);
}
SDRThread::~SDRThread() {
rtlsdr_close(dev);
}
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int SDRThread::enumerate_rtl(std::vector<SDRDeviceInfo *> *devs) {
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int first_available = -1;
char manufact[256], product[256], serial[256];
unsigned int rtl_count = rtlsdr_get_device_count();
std::cout << "RTL Devices: " << rtl_count << std::endl;
for (int i = 0; i < rtl_count; i++) {
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std::string deviceName(rtlsdr_get_device_name(i));
std::string deviceManufacturer;
std::string deviceProduct;
std::string deviceTuner;
std::string deviceSerial;
bool deviceAvailable = false;
std::cout << "Device #" << i << ": " << deviceName << std::endl;
if (rtlsdr_get_device_usb_strings(i, manufact, product, serial) == 0) {
std::cout << "\tManufacturer: " << manufact << ", Product Name: " << product << ", Serial: " << serial << std::endl;
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deviceSerial = serial;
deviceAvailable = true;
deviceProduct = product;
deviceManufacturer = manufact;
rtlsdr_dev_t *devTest;
rtlsdr_open(&devTest, i);
std::cout << "\t Tuner type: ";
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switch (rtlsdr_get_tuner_type(devTest)) {
case RTLSDR_TUNER_UNKNOWN:
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deviceTuner = "Unknown";
break;
case RTLSDR_TUNER_E4000:
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deviceTuner = "Elonics E4000";
break;
case RTLSDR_TUNER_FC0012:
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deviceTuner = "Fitipower FC0012";
break;
case RTLSDR_TUNER_FC0013:
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deviceTuner = "Fitipower FC0013";
break;
case RTLSDR_TUNER_FC2580:
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deviceTuner = "Fitipower FC2580";
break;
case RTLSDR_TUNER_R820T:
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deviceTuner = "Rafael Micro R820T";
break;
case RTLSDR_TUNER_R828D:
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deviceTuner = "Rafael Micro R828D";
break;
}
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std::cout << deviceTuner << std::endl;
/*
int num_gains = rtlsdr_get_tuner_gains(dev, NULL);
int *gains = (int *)malloc(sizeof(int) * num_gains);
rtlsdr_get_tuner_gains(dev, gains);
std::cout << "\t Valid gains: ";
for (int g = 0; g < num_gains; g++) {
if (g > 0) {
std::cout << ", ";
}
std::cout << ((float)gains[g]/10.0f);
}
std::cout << std::endl;
free(gains);
*/
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rtlsdr_close(devTest);
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if (first_available == -1) {
first_available = i;
}
} else {
std::cout << "\tUnable to access device #" << i << " (in use?)" << std::endl;
}
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if (devs != NULL) {
SDRDeviceInfo *devInfo = new SDRDeviceInfo();
devInfo->setName(deviceName);
devInfo->setAvailable(deviceAvailable);
devInfo->setProduct(deviceProduct);
devInfo->setSerial(deviceSerial);
devInfo->setManufacturer(deviceManufacturer);
devs->push_back(devInfo);
}
}
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return first_available;
}
void SDRThread::threadMain() {
#ifdef __APPLE__
pthread_t tID = pthread_self(); // ID of this thread
int priority = sched_get_priority_max( SCHED_FIFO) - 1;
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sched_param prio = { priority }; // scheduling priority of thread
pthread_setschedparam(tID, SCHED_FIFO, &prio);
#endif
std::cout << "SDR thread initializing.." << std::endl;
int devCount = rtlsdr_get_device_count();
std::vector<SDRDeviceInfo *> devs;
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if (deviceId == -1) {
deviceId = enumerate_rtl(&devs);
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} else {
enumerate_rtl(&devs);
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}
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if (deviceId == -1) {
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std::cout << "No devices found.. SDR Thread exiting.." << std::endl;
return;
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} else {
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std::cout << "Using device #" << deviceId << std::endl;
}
DeviceConfig *devConfig = wxGetApp().getConfig()->getDevice(devs[deviceId]->getDeviceId());
signed char buf[BUF_SIZE];
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long long frequency = wxGetApp().getConfig()->getCenterFreq();
int ppm = devConfig->getPPM();
int direct_sampling_mode = devConfig->getDirectSampling();;
int buf_size = BUF_SIZE;
offset.store(devConfig->getOffset());
wxGetApp().setSwapIQ(devConfig->getIQSwap());
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rtlsdr_open(&dev, deviceId);
rtlsdr_set_sample_rate(dev, sampleRate.load());
rtlsdr_set_center_freq(dev, frequency - offset.load());
rtlsdr_set_freq_correction(dev, ppm);
rtlsdr_set_agc_mode(dev, 1);
rtlsdr_set_offset_tuning(dev, 0);
rtlsdr_reset_buffer(dev);
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// sampleRate = rtlsdr_get_sample_rate(dev);
std::cout << "Sample Rate is: " << sampleRate.load() << std::endl;
int n_read;
double seconds = 0.0;
std::cout << "SDR thread started.." << std::endl;
ReBuffer<SDRThreadIQData> buffers;
while (!terminated) {
SDRThreadCommandQueue *cmdQueue = commandQueue.load();
if (!cmdQueue->empty()) {
bool freq_changed = false;
bool offset_changed = false;
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bool rate_changed = false;
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bool device_changed = false;
bool ppm_changed = false;
bool direct_sampling_changed = false;
long long new_freq = frequency;
long long new_offset = offset.load();
long long new_rate = sampleRate.load();
int new_device = deviceId;
int new_ppm = ppm;
while (!cmdQueue->empty()) {
SDRThreadCommand command;
cmdQueue->pop(command);
switch (command.cmd) {
case SDRThreadCommand::SDR_THREAD_CMD_TUNE:
freq_changed = true;
new_freq = command.llong_value;
if (new_freq < sampleRate.load() / 2) {
new_freq = sampleRate.load() / 2;
}
// std::cout << "Set frequency: " << new_freq << std::endl;
break;
case SDRThreadCommand::SDR_THREAD_CMD_SET_OFFSET:
offset_changed = true;
new_offset = command.llong_value;
std::cout << "Set offset: " << new_offset << std::endl;
break;
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case SDRThreadCommand::SDR_THREAD_CMD_SET_SAMPLERATE:
rate_changed = true;
new_rate = command.llong_value;
if (new_rate <= 250000) {
buf_size = BUF_SIZE/4;
} else if (new_rate < 1500000) {
buf_size = BUF_SIZE/2;
} else {
buf_size = BUF_SIZE;
}
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std::cout << "Set sample rate: " << new_rate << std::endl;
break;
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case SDRThreadCommand::SDR_THREAD_CMD_SET_DEVICE:
device_changed = true;
new_device = (int) command.llong_value;
std::cout << "Set device: " << new_device << std::endl;
break;
case SDRThreadCommand::SDR_THREAD_CMD_SET_PPM:
ppm_changed = true;
new_ppm = (int) command.llong_value;
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//std::cout << "Set PPM: " << new_ppm << std::endl;
break;
case SDRThreadCommand::SDR_THREAD_CMD_SET_DIRECT_SAMPLING:
direct_sampling_mode = (int)command.llong_value;
direct_sampling_changed = true;
break;
default:
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break;
}
}
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if (device_changed) {
rtlsdr_close(dev);
rtlsdr_open(&dev, new_device);
rtlsdr_set_sample_rate(dev, sampleRate.load());
rtlsdr_set_center_freq(dev, frequency - offset.load());
rtlsdr_set_freq_correction(dev, ppm);
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rtlsdr_set_agc_mode(dev, 1);
rtlsdr_set_offset_tuning(dev, 0);
rtlsdr_set_direct_sampling(dev, direct_sampling_mode);
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rtlsdr_reset_buffer(dev);
}
if (offset_changed) {
if (!freq_changed) {
new_freq = frequency;
freq_changed = true;
}
offset.store(new_offset);
}
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if (rate_changed) {
rtlsdr_set_sample_rate(dev, new_rate);
rtlsdr_reset_buffer(dev);
sampleRate.store(rtlsdr_get_sample_rate(dev));
}
if (freq_changed) {
frequency = new_freq;
rtlsdr_set_center_freq(dev, frequency - offset.load());
}
if (ppm_changed) {
ppm = new_ppm;
rtlsdr_set_freq_correction(dev, ppm);
}
if (direct_sampling_changed) {
rtlsdr_set_direct_sampling(dev, direct_sampling_mode);
}
}
rtlsdr_read_sync(dev, buf, buf_size, &n_read);
SDRThreadIQData *dataOut = buffers.getBuffer();
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// std::lock_guard < std::mutex > lock(dataOut->m_mutex);
dataOut->setRefCount(1);
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dataOut->frequency = frequency;
dataOut->sampleRate = sampleRate.load();
if (dataOut->data.capacity() < n_read) {
dataOut->data.reserve(n_read);
}
if (dataOut->data.size() != n_read) {
dataOut->data.resize(n_read);
}
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memcpy(&dataOut->data[0], buf, n_read);
double time_slice = (double) n_read / (double) sampleRate.load();
seconds += time_slice;
if (iqDataOutQueue.load() != NULL) {
iqDataOutQueue.load()->push(dataOut);
}
}
// buffers.purge();
std::cout << "SDR thread done." << std::endl;
}
void SDRThread::terminate() {
terminated = true;
}