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sdrangel/plugins/samplesource/sdrdaemon/sdrdaemonbuffer.cpp

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///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2016 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 "sdrdaemonbuffer.h"
#include <QDebug>
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#include <cassert>
#include <cstring>
#include <cmath>
#include <lz4.h>
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const int SDRdaemonBuffer::m_udpPayloadSize = 512;
const int SDRdaemonBuffer::m_sampleSize = 2;
const int SDRdaemonBuffer::m_iqSampleSize = 2 * m_sampleSize;
const int SDRdaemonBuffer::m_rawBufferLengthSeconds = 8; // should be even
const int SDRdaemonBuffer::m_rawBufferMinNbFrames = 50;
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SDRdaemonBuffer::SDRdaemonBuffer(uint32_t throttlems) :
m_throttlemsNominal(throttlems),
m_rawSize(0),
m_rawBuffer(0),
m_sampleRateStream(0),
m_sampleRate(0),
m_sampleBytes(2),
m_sampleBits(12),
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m_sync(false),
m_syncLock(false),
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m_lz4(false),
m_nbBlocks(0),
m_bytesInBlock(0),
m_dataCRC(0),
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m_inCount(0),
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m_lz4InCount(0),
m_lz4InSize(0),
m_lz4InBuffer(0),
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m_lz4OutBuffer(0),
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m_frameSize(0),
m_bufferLenSec(0.0),
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m_nbLz4Decodes(0),
m_nbLz4SuccessfulDecodes(0),
m_nbLz4CRCOK(0),
m_nbLastLz4SuccessfulDecodes(0),
m_nbLastLz4CRCOK(0),
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m_writeIndex(0),
m_readIndex(0),
m_readSize(0),
m_readBuffer(0),
m_autoFollowRate(false),
m_autoCorrBuffer(false),
m_skewTest(false),
m_skewCorrection(false),
m_resetIndexes(false),
m_readCount(0),
m_writeCount(0),
m_nbCycles(0),
m_nbReads(0),
m_balCorrection(0),
m_balCorrLimit(0)
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{
m_currentMeta.init();
}
SDRdaemonBuffer::~SDRdaemonBuffer()
{
if (m_rawBuffer) {
delete[] m_rawBuffer;
}
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if (m_lz4InBuffer) {
delete[] m_lz4InBuffer;
}
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if (m_lz4OutBuffer) {
delete[] m_lz4OutBuffer;
}
if (m_readBuffer) {
delete[] m_readBuffer;
}
}
void SDRdaemonBuffer::updateBufferSize(uint32_t sampleRate)
{
uint32_t rawSize = sampleRate * m_iqSampleSize * m_rawBufferLengthSeconds; // store worth of this seconds of samples at this sample rate
if ((m_frameSize > 0) && (rawSize / m_frameSize < m_rawBufferMinNbFrames))
{
rawSize = m_rawBufferMinNbFrames * m_frameSize; // ensure a minimal size of this times the write block size so that auto follow ups work fine
}
if (rawSize != m_rawSize)
{
m_rawSize = rawSize;
m_balCorrLimit = sampleRate / 50; // +/- 20 ms correction max per read
m_bufferLenSec = m_rawSize / (sampleRate * m_iqSampleSize);
if (m_rawBuffer) {
delete[] m_rawBuffer;
}
m_rawBuffer = new uint8_t[m_rawSize];
resetIndexes();
qDebug() << "SDRdaemonBuffer::updateBufferSize:"
<< " sampleRate: " << sampleRate
<< " m_frameSize: " << m_frameSize
<< " m_rawSize: " << m_rawSize;
}
}
void SDRdaemonBuffer::updateLZ4Sizes(uint32_t frameSize)
{
uint32_t maxInputSize = LZ4_compressBound(frameSize);
if (m_lz4InBuffer) {
delete[] m_lz4InBuffer;
}
m_lz4InBuffer = new uint8_t[maxInputSize];
if (m_lz4OutBuffer) {
delete[] m_lz4OutBuffer;
}
m_lz4OutBuffer = new uint8_t[frameSize];
}
void SDRdaemonBuffer::updateReadBufferSize(uint32_t length)
{
if (m_readBuffer) {
delete[] m_readBuffer;
}
m_readBuffer = new uint8_t[length];
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}
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bool SDRdaemonBuffer::readMeta(char *array, uint32_t length)
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{
assert(length >= sizeof(MetaData) + 8);
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MetaData *metaData = (MetaData *) array;
if (m_crc64.calculate_crc((uint8_t *) array, sizeof(MetaData) - 8) == metaData->m_crc)
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{
// sync condition:
if (m_currentMeta.m_blockSize > 0)
{
uint32_t nbBlocks = m_currentMeta.m_nbBytes / m_currentMeta.m_blockSize;
m_syncLock = nbBlocks + (m_lz4 ? 2 : 1) == m_nbBlocks;
//qDebug("SDRdaemonBuffer::readMeta: m_nbBlocks: %d:%d %s", nbBlocks, m_nbBlocks, (m_syncLock ? "locked" : "unlocked"));
}
else
{
m_syncLock = false;
}
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memcpy((void *) &m_dataCRC, (const void *) &array[sizeof(MetaData)], 8);
m_nbBlocks = 0;
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m_inCount = 0;
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if (!m_lz4 && !(m_currentMeta == *metaData))
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{
printMeta(QString("SDRdaemonBuffer::readMeta"), metaData);
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}
m_currentMeta = *metaData;
// sanity checks
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if (metaData->m_blockSize == m_udpPayloadSize) // sent blocksize matches given blocksize
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{
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m_sampleBytes = metaData->m_sampleBytes & 0x0F;
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uint32_t frameSize = m_iqSampleSize * metaData->m_nbSamples * metaData->m_nbBlocks;
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int sampleRate = metaData->m_sampleRate;
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if (sampleRate != m_sampleRateStream) // change of nominal stream sample rate
{
updateBufferSize(sampleRate);
m_sampleRateStream = sampleRate;
m_sampleRate = sampleRate;
}
// auto skew rate compensation
if (m_autoFollowRate)
{
if (m_skewCorrection)
{
int64_t deltaRate = (m_writeCount - m_readCount) / (m_nbCycles * m_rawBufferLengthSeconds * m_iqSampleSize);
m_sampleRate = ((m_sampleRate + deltaRate) / m_iqSampleSize) * m_iqSampleSize; // ensure it is a multiple of the I/Q sample size
resetIndexes();
}
}
else
{
m_sampleRate = sampleRate;
}
// Reset indexes if requested
if (m_resetIndexes)
{
resetIndexes();
m_resetIndexes = false;
}
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if (metaData->m_sampleBytes & 0x10)
{
m_lz4 = true;
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m_lz4InSize = metaData->m_nbBytes; // compressed input size
m_lz4InCount = 0;
if (frameSize != m_frameSize)
{
updateLZ4Sizes(frameSize);
}
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}
else
{
m_lz4 = false;
}
if (frameSize != m_frameSize) {
m_frameSize = frameSize;
updateBufferSize(m_sampleRate);
}
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m_sync = true;
}
else
{
m_sync = false;
}
return m_sync;
}
else
{
return false;
}
}
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void SDRdaemonBuffer::writeData(char *array, uint32_t length)
{
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if ((m_sync) && (m_nbBlocks > 0))
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{
if (m_lz4)
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{
writeDataLZ4(array, length);
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}
else
{
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writeToRawBufferUncompressed(array, length);
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}
}
}
uint8_t *SDRdaemonBuffer::readData(int32_t length)
{
// auto compensation calculations
if (m_skewTest && ((m_readIndex + length) > (m_rawSize / 2)))
{
// auto follow sample rate calculation
int dIndex = (m_readIndex - m_writeIndex > 0 ? m_readIndex - m_writeIndex : m_writeIndex - m_readIndex); // absolute delta
m_skewCorrection = (dIndex < m_rawSize / 10); // close by 10%
m_nbCycles++;
// auto R/W balance calculation
if ((m_nbReads > 5*m_rawBufferLengthSeconds) && m_autoCorrBuffer)
{
int32_t dBytes;
int32_t dI = (m_rawSize / 2) - m_readIndex; // delta of read index to the middle of buffer (positive)
if (m_readIndex > m_writeIndex) { // write leads
dBytes = m_writeIndex + dI; // positive from start of buffer + delta read index
} else { // read leads
dBytes = m_writeIndex - (int32_t) m_rawSize + dI; // negative from end of buffer minus delta read index
}
m_balCorrection = (m_balCorrection / 4) + ((int32_t) dBytes / (int32_t) (m_nbReads * m_iqSampleSize)); // correction is in number of samples. Alpha = 0.25
if (m_balCorrection < -m_balCorrLimit) {
m_balCorrection = -m_balCorrLimit;
} else if (m_balCorrection > m_balCorrLimit) {
m_balCorrection = m_balCorrLimit;
}
}
else
{
m_balCorrection = 0;
}
m_nbReads = 0;
// un-arm
m_skewTest = false;
}
m_readCount += length;
m_nbReads++;
if (m_readIndex + length < m_rawSize)
{
uint32_t readIndex = m_readIndex;
m_readIndex += length;
return &m_rawBuffer[readIndex];
}
else if (m_readIndex + length == m_rawSize)
{
uint32_t readIndex = m_readIndex;
m_readIndex = 0;
m_skewTest = true; // re-arm
return &m_rawBuffer[readIndex];
}
else
{
if (length > m_readSize)
{
updateReadBufferSize(length);
m_readSize = length;
}
std::memcpy((void *) m_readBuffer, (const void *) &m_rawBuffer[m_readIndex], m_rawSize - m_readIndex);
length -= m_rawSize - m_readIndex;
std::memcpy((void *) &m_readBuffer[m_rawSize - m_readIndex], (const void *) m_rawBuffer, length);
m_readIndex = length;
m_skewTest = true; // re-arm
return m_readBuffer;
}
}
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void SDRdaemonBuffer::writeDataLZ4(const char *array, uint32_t length)
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{
if (m_lz4InCount + length < m_lz4InSize)
{
std::memcpy((void *) &m_lz4InBuffer[m_lz4InCount], (const void *) array, length);
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m_lz4InCount += length;
}
else
{
std::memcpy((void *) &m_lz4InBuffer[m_lz4InCount], (const void *) array, m_lz4InSize - m_lz4InCount); // copy rest of data in compressed Buffer
m_lz4InCount += length;
}
if (m_lz4InCount >= m_lz4InSize) // full input compressed block retrieved
{
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if (m_nbLz4Decodes == 100)
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{
qDebug() << "SDRdaemonBuffer::writeAndReadLZ4:"
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<< " decoding: " << m_nbLz4CRCOK
<< ":" << m_nbLz4SuccessfulDecodes
<< "/" << m_nbLz4Decodes;
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m_nbLastLz4SuccessfulDecodes = m_nbLz4SuccessfulDecodes;
m_nbLastLz4CRCOK = m_nbLz4CRCOK;
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m_nbLz4Decodes = 0;
m_nbLz4SuccessfulDecodes = 0;
m_nbLz4CRCOK = 0;
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}
writeToRawBufferLZ4();
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m_lz4InCount = 0;
}
}
void SDRdaemonBuffer::writeToRawBufferLZ4()
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{
uint64_t crc64 = m_crc64.calculate_crc(m_lz4InBuffer, m_lz4InSize);
if (memcmp(&crc64, &m_dataCRC, 8) == 0)
{
m_nbLz4CRCOK++;
}
else
{
return;
}
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int compressedSize = LZ4_decompress_fast((const char*) m_lz4InBuffer, (char*) m_lz4OutBuffer, m_frameSize);
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m_nbLz4Decodes++;
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if (compressedSize == m_lz4InSize)
{
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m_nbLz4SuccessfulDecodes++;
writeToRawBufferUncompressed((const char *) m_lz4OutBuffer, m_frameSize);
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}
}
void SDRdaemonBuffer::writeToRawBufferUncompressed(const char *array, uint32_t length)
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{
// TODO: handle the 1 byte per I or Q sample
if (m_writeIndex + length < m_rawSize)
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{
std::memcpy((void *) &m_rawBuffer[m_writeIndex], (const void *) array, length);
m_writeIndex += length;
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}
else if (m_writeIndex + length == m_rawSize)
{
std::memcpy((void *) &m_rawBuffer[m_writeIndex], (const void *) array, length);
m_writeIndex = 0;
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}
else
{
std::memcpy((void *) &m_rawBuffer[m_writeIndex], (const void *) array, m_rawSize - m_writeIndex);
length -= m_rawSize - m_writeIndex;
std::memcpy((void *) m_rawBuffer, (const void *) &array[m_rawSize - m_writeIndex], length);
m_writeIndex = length;
}
m_writeCount += length;
}
void SDRdaemonBuffer::resetIndexes()
{
m_writeIndex = 0;
m_readIndex = m_rawSize / 2;
m_readCount = 0;
m_writeCount = 0;
m_nbCycles = 0;
m_skewTest = false;
m_skewCorrection = false;
m_nbReads = 0;
m_balCorrection = 0;
}
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void SDRdaemonBuffer::updateBlockCounts(uint32_t nbBytesReceived)
{
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m_nbBlocks += m_bytesInBlock + nbBytesReceived > m_udpPayloadSize ? 1 : 0;
m_bytesInBlock = m_bytesInBlock + nbBytesReceived > m_udpPayloadSize ? nbBytesReceived : m_bytesInBlock + nbBytesReceived;
}
void SDRdaemonBuffer::printMeta(const QString& header, MetaData *metaData)
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{
qDebug() << header << ": "
<< "|" << metaData->m_centerFrequency
<< ":" << metaData->m_sampleRate
<< ":" << (int) (metaData->m_sampleBytes & 0xF)
<< ":" << (int) metaData->m_sampleBits
<< ":" << metaData->m_blockSize
<< ":" << metaData->m_nbSamples
<< "||" << metaData->m_nbBlocks
<< ":" << metaData->m_nbBytes
<< "|" << metaData->m_tv_sec
<< ":" << metaData->m_tv_usec;
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}