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Completed AMBE handler

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This commit is contained in:
f4exb 2019-07-19 14:42:42 +02:00
parent dea6a71246
commit 418f083a81
4 changed files with 416 additions and 12 deletions
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105
sdrbase/ambe/ambeengine.cpp
View File

@ -198,16 +198,16 @@ bool AMBEEngine::scan(std::vector<std::string>& ambeDevices)
}
}
bool AMBEEngine::registerController(const std::string& ambeRef)
bool AMBEEngine::registerController(const std::string& deviceRef)
{
AMBEWorker *worker = new AMBEWorker();
if (worker->open(ambeRef))
if (worker->open(deviceRef))
{
m_controllers.push_back(AMBEController());
m_controllers.back().worker = worker;
m_controllers.back().thread = new QThread();
m_controllers.back().device = ambeRef;
m_controllers.back().device = deviceRef;
m_controllers.back().worker->moveToThread(m_controllers.back().thread);
connect(m_controllers.back().worker, SIGNAL(finished()), m_controllers.back().thread, SLOT(quit()));
@ -220,4 +220,101 @@ bool AMBEEngine::registerController(const std::string& ambeRef)
}
return false;
}
}
void AMBEEngine::releaseController(const std::string& deviceRef)
{
qDebug("AMBEEngine::releaseController");
std::vector<AMBEController>::iterator it = m_controllers.begin();
while (it != m_controllers.end())
{
if (it->device == deviceRef)
{
disconnect(&it->worker->m_inputMessageQueue, SIGNAL(messageEnqueued()), it->worker, SLOT(handleInputMessages()));
it->worker->stop();
it->thread->wait(100);
it->worker->m_inputMessageQueue.clear();
it->worker->close();
qDebug() << "DVSerialEngine::releaseController: closed device at: " << it->device.c_str();
break;
}
++it;
}
}
void AMBEEngine::releaseAll()
{
qDebug("AMBEEngine::releaseAll");
std::vector<AMBEController>::iterator it = m_controllers.begin();
while (it != m_controllers.end())
{
disconnect(&it->worker->m_inputMessageQueue, SIGNAL(messageEnqueued()), it->worker, SLOT(handleInputMessages()));
it->worker->stop();
it->thread->wait(100);
it->worker->m_inputMessageQueue.clear();
it->worker->close();
qDebug() << "DVSerialEngine::release: closed device at: " << it->device.c_str();
++it;
}
m_controllers.clear();
}
void AMBEEngine::getDeviceRefs(std::vector<std::string>& deviceNames)
{
std::vector<AMBEController>::iterator it = m_controllers.begin();
while (it != m_controllers.end())
{
deviceNames.push_back(it->device);
++it;
}
}
void AMBEEngine::pushMbeFrame(
const unsigned char *mbeFrame,
int mbeRateIndex,
int mbeVolumeIndex,
unsigned char channels,
bool useLP,
int upsampling,
AudioFifo *audioFifo)
{
std::vector<AMBEController>::iterator it = m_controllers.begin();
std::vector<AMBEController>::iterator itAvail = m_controllers.end();
bool done = false;
QMutexLocker locker(&m_mutex);
while (it != m_controllers.end())
{
if (it->worker->hasFifo(audioFifo))
{
it->worker->pushMbeFrame(mbeFrame, mbeRateIndex, mbeVolumeIndex, channels, useLP, upsampling, audioFifo);
done = true;
}
else if (it->worker->isAvailable())
{
itAvail = it;
}
++it;
}
if (!done)
{
if (itAvail != m_controllers.end())
{
int wNum = itAvail - m_controllers.begin();
qDebug("AMBEEngine::pushMbeFrame: push %p on empty queue %d", audioFifo, wNum);
itAvail->worker->pushMbeFrame(mbeFrame, mbeRateIndex, mbeVolumeIndex, channels, useLP, upsampling, audioFifo);
}
else
{
qDebug("AMBEEngine::pushMbeFrame: no DV device available. MBE frame dropped");
}
}
}

18
sdrbase/ambe/ambeengine.h
View File

@ -29,6 +29,7 @@
class QThread;
class AMBEWorker;
class AudioFifo;
class SDRBASE_API AMBEEngine : public QObject
{
@ -38,8 +39,21 @@ public:
~AMBEEngine();
bool scan(std::vector<std::string>& ambeDevices);
void getDevicesNames(std::vector<std::string>& devicesNames);
bool registerController(const std::string& ambeRef);
void releaseAll();
int getNbDevices() const { return m_controllers.size(); } //!< number of devices used
void getDeviceRefs(std::vector<std::string>& devicesRefs); //!< reference of the devices used (device path or url)
bool registerController(const std::string& deviceRef); //!< create a new controller for the device in reference
void releaseController(const std::string& deviceRef); //!< release controller resources for the device in reference
void pushMbeFrame(
const unsigned char *mbeFrame,
int mbeRateIndex,
int mbeVolumeIndex,
unsigned char channels,
bool useHP,
int upsampling,
AudioFifo *audioFifo);
private:
struct AMBEController

188
sdrbase/ambe/ambeworker.cpp
View File

@ -16,20 +16,200 @@
// along with this program. If not, see <http://www.gnu.org/licenses/>. //
///////////////////////////////////////////////////////////////////////////////////
#include <algorithm>
#include <chrono>
#include <thread>
#include "audio/audiofifo.h"
#include "ambeworker.h"
AMBEWorker::AMBEWorker()
{}
MESSAGE_CLASS_DEFINITION(AMBEWorker::MsgMbeDecode, Message)
MESSAGE_CLASS_DEFINITION(AMBEWorker::MsgTest, Message)
AMBEWorker::AMBEWorker() :
m_running(false),
m_currentGainIn(0),
m_currentGainOut(0),
m_upsamplerLastValue(0.0f),
m_phase(0),
m_upsampling(1),
m_volume(1.0f)
{
m_audioBuffer.resize(48000);
m_audioBufferFill = 0;
m_audioFifo = 0;
std::fill(m_dvAudioSamples, m_dvAudioSamples+SerialDV::MBE_AUDIO_BLOCK_SIZE, 0);
setVolumeFactors();
}
AMBEWorker::~AMBEWorker()
{}
bool AMBEWorker::open(const std::string& serialDevice)
bool AMBEWorker::open(const std::string& deviceRef)
{
return m_dvController.open(serialDevice);
return m_dvController.open(deviceRef);
}
void AMBEWorker::close()
{
m_dvController.close();
}
void AMBEWorker::process()
{
m_running = true;
qDebug("AMBEWorker::process: started");
while (m_running)
{
std::this_thread::sleep_for(std::chrono::seconds(1));
}
qDebug("AMBEWorker::process: stopped");
emit finished();
}
void AMBEWorker::stop()
{
m_running = false;
}
void AMBEWorker::handleInputMessages()
{
Message* message;
m_audioBufferFill = 0;
AudioFifo *audioFifo = 0;
while ((message = m_inputMessageQueue.pop()) != 0)
{
if (MsgMbeDecode::match(*message))
{
MsgMbeDecode *decodeMsg = (MsgMbeDecode *) message;
int dBVolume = (decodeMsg->getVolumeIndex() - 30) / 4;
float volume = pow(10.0, dBVolume / 10.0f);
int upsampling = decodeMsg->getUpsampling();
upsampling = upsampling > 6 ? 6 : upsampling < 1 ? 1 : upsampling;
if ((volume != m_volume) || (upsampling != m_upsampling))
{
m_volume = volume;
m_upsampling = upsampling;
setVolumeFactors();
}
m_upsampleFilter.useHP(decodeMsg->getUseHP());
if (m_dvController.decode(m_dvAudioSamples, decodeMsg->getMbeFrame(), decodeMsg->getMbeRate()))
{
if (upsampling > 1) {
upsample(upsampling, m_dvAudioSamples, SerialDV::MBE_AUDIO_BLOCK_SIZE, decodeMsg->getChannels());
} else {
noUpsample(m_dvAudioSamples, SerialDV::MBE_AUDIO_BLOCK_SIZE, decodeMsg->getChannels());
}
audioFifo = decodeMsg->getAudioFifo();
}
else
{
qDebug("AMBEWorker::handleInputMessages: MsgMbeDecode: decode failed");
}
}
delete message;
}
if (audioFifo)
{
uint res = audioFifo->write((const quint8*)&m_audioBuffer[0], m_audioBufferFill);
if (res != m_audioBufferFill)
{
qDebug("AMBEWorker::handleInputMessages: %u/%u audio samples written", res, m_audioBufferFill);
}
}
m_timestamp = QDateTime::currentDateTime();
}
void AMBEWorker::pushMbeFrame(const unsigned char *mbeFrame,
int mbeRateIndex,
int mbeVolumeIndex,
unsigned char channels,
bool useHP,
int upsampling,
AudioFifo *audioFifo)
{
m_audioFifo = audioFifo;
m_inputMessageQueue.push(MsgMbeDecode::create(mbeFrame, mbeRateIndex, mbeVolumeIndex, channels, useHP, upsampling, audioFifo));
}
bool AMBEWorker::isAvailable()
{
if (m_audioFifo == 0) {
return true;
}
return m_timestamp.time().msecsTo(QDateTime::currentDateTime().time()) > 1000; // 1 second inactivity timeout
}
bool AMBEWorker::hasFifo(AudioFifo *audioFifo)
{
return m_audioFifo == audioFifo;
}
void AMBEWorker::upsample(int upsampling, short *in, int nbSamplesIn, unsigned char channels)
{
for (int i = 0; i < nbSamplesIn; i++)
{
//float cur = m_upsampleFilter.usesHP() ? m_upsampleFilter.runHP((float) m_compressor.compress(in[i])) : (float) m_compressor.compress(in[i]);
float cur = m_upsampleFilter.usesHP() ? m_upsampleFilter.runHP((float) in[i]) : (float) in[i];
float prev = m_upsamplerLastValue;
qint16 upsample;
for (int j = 1; j <= upsampling; j++)
{
upsample = (qint16) m_upsampleFilter.runLP(cur*m_upsamplingFactors[j] + prev*m_upsamplingFactors[upsampling-j]);
m_audioBuffer[m_audioBufferFill].l = channels & 1 ? m_compressor.compress(upsample) : 0;
m_audioBuffer[m_audioBufferFill].r = (channels>>1) & 1 ? m_compressor.compress(upsample) : 0;
if (m_audioBufferFill < m_audioBuffer.size() - 1)
{
++m_audioBufferFill;
}
else
{
qDebug("AMBEWorker::upsample6: audio buffer is full check its size");
}
}
m_upsamplerLastValue = cur;
}
}
void AMBEWorker::noUpsample(short *in, int nbSamplesIn, unsigned char channels)
{
for (int i = 0; i < nbSamplesIn; i++)
{
float cur = m_upsampleFilter.usesHP() ? m_upsampleFilter.runHP((float) in[i]) : (float) in[i];
m_audioBuffer[m_audioBufferFill].l = channels & 1 ? cur*m_upsamplingFactors[0] : 0;
m_audioBuffer[m_audioBufferFill].r = (channels>>1) & 1 ? cur*m_upsamplingFactors[0] : 0;
if (m_audioBufferFill < m_audioBuffer.size() - 1)
{
++m_audioBufferFill;
}
else
{
qDebug("DVSerialWorker::noUpsample: audio buffer is full check its size");
}
}
}
void AMBEWorker::setVolumeFactors()
{
m_upsamplingFactors[0] = m_volume;
for (int i = 1; i <= m_upsampling; i++) {
m_upsamplingFactors[i] = (i*m_volume) / (float) m_upsampling;
}
}

117
sdrbase/ambe/ambeworker.h
View File

@ -20,24 +20,137 @@
#define SDRBASE_AMBE_AMBEWORKER_H_
#include <QObject>
#include <QDebug>
#include <QDateTime>
#include "util/messagequeue.h"
#include "export.h"
#include "dvcontroller.h"
#include "util/messagequeue.h"
#include "util/message.h"
#include "dsp/filtermbe.h"
#include "dsp/dsptypes.h"
#include "audio/audiocompressor.h"
class AudioFifo;
class SDRBASE_API AMBEWorker : public QObject {
Q_OBJECT
public:
class MsgTest : public Message
{
MESSAGE_CLASS_DECLARATION
public:
static MsgTest* create() { return new MsgTest(); }
private:
MsgTest() {}
};
class MsgMbeDecode : public Message
{
MESSAGE_CLASS_DECLARATION
public:
const unsigned char *getMbeFrame() const { return m_mbeFrame; }
SerialDV::DVRate getMbeRate() const { return m_mbeRate; }
int getVolumeIndex() const { return m_volumeIndex; }
unsigned char getChannels() const { return m_channels % 4; }
bool getUseHP() const { return m_useHP; }
int getUpsampling() const { return m_upsampling; }
AudioFifo *getAudioFifo() { return m_audioFifo; }
static MsgMbeDecode* create(
const unsigned char *mbeFrame,
int mbeRateIndex,
int volumeIndex,
unsigned char channels,
bool useHP,
int upsampling,
AudioFifo *audioFifo)
{
return new MsgMbeDecode(mbeFrame, (SerialDV::DVRate) mbeRateIndex, volumeIndex, channels, useHP, upsampling, audioFifo);
}
private:
unsigned char m_mbeFrame[SerialDV::MBE_FRAME_MAX_LENGTH_BYTES];
SerialDV::DVRate m_mbeRate;
int m_volumeIndex;
unsigned char m_channels;
bool m_useHP;
int m_upsampling;
AudioFifo *m_audioFifo;
MsgMbeDecode(const unsigned char *mbeFrame,
SerialDV::DVRate mbeRate,
int volumeIndex,
unsigned char channels,
bool useHP,
int upsampling,
AudioFifo *audioFifo) :
Message(),
m_mbeRate(mbeRate),
m_volumeIndex(volumeIndex),
m_channels(channels),
m_useHP(useHP),
m_upsampling(upsampling),
m_audioFifo(audioFifo)
{
memcpy((void *) m_mbeFrame, (const void *) mbeFrame, SerialDV::DVController::getNbMbeBytes(m_mbeRate));
}
};
AMBEWorker();
~AMBEWorker();
bool open(const std::string& serialDevice);
void pushMbeFrame(const unsigned char *mbeFrame,
int mbeRateIndex,
int mbeVolumeIndex,
unsigned char channels,
bool useHP,
int upsampling,
AudioFifo *audioFifo);
bool open(const std::string& deviceRef); //!< Either serial device or ip:port
void close();
void process();
void stop();
bool isAvailable();
bool hasFifo(AudioFifo *audioFifo);
void postTest()
{
//emit inputMessageReady();
m_inputMessageQueue.push(MsgTest::create());
}
MessageQueue m_inputMessageQueue; //!< Queue for asynchronous inbound communication
signals:
void finished();
public slots:
void handleInputMessages();
private:
void upsample(int upsampling, short *in, int nbSamplesIn, unsigned char channels);
void noUpsample(short *in, int nbSamplesIn, unsigned char channels);
void setVolumeFactors();
SerialDV::DVController m_dvController;
AudioFifo *m_audioFifo;
QDateTime m_timestamp;
volatile bool m_running;
int m_currentGainIn;
int m_currentGainOut;
short m_dvAudioSamples[SerialDV::MBE_AUDIO_BLOCK_SIZE];
AudioVector m_audioBuffer;
uint m_audioBufferFill;
float m_upsamplerLastValue;
float m_phase;
MBEAudioInterpolatorFilter m_upsampleFilter;
int m_upsampling;
float m_volume;
float m_upsamplingFactors[7];
AudioCompressor m_compressor;
};
#endif // SDRBASE_AMBE_AMBEWORKER_H_