mirror of
https://github.com/f4exb/sdrangel.git
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274 lines
12 KiB
C++
274 lines
12 KiB
C++
///////////////////////////////////////////////////////////////////////////////////
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// Copyright (C) 2016 Edouard Griffiths, F4EXB //
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// //
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// This program is free software; you can redistribute it and/or modify //
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// it under the terms of the GNU General Public License as published by //
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// the Free Software Foundation as version 3 of the License, or //
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// //
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// This program is distributed in the hope that it will be useful, //
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// but WITHOUT ANY WARRANTY; without even the implied warranty of //
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
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// GNU General Public License V3 for more details. //
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// //
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// You should have received a copy of the GNU General Public License //
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// along with this program. If not, see <http://www.gnu.org/licenses/>. //
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///////////////////////////////////////////////////////////////////////////////////
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#ifndef PLUGINS_SAMPLESOURCE_SDRDAEMONFEC_SDRDAEMONFECBUFFER_H_
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#define PLUGINS_SAMPLESOURCE_SDRDAEMONFEC_SDRDAEMONFECBUFFER_H_
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#include <QString>
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#include <QDebug>
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#include <cstdlib>
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#include "cm256.h"
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#include "util/movingaverage.h"
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#define SDRDAEMONFEC_UDPSIZE 512 // UDP payload size
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#define SDRDAEMONFEC_NBORIGINALBLOCKS 128 // number of sample blocks per frame excluding FEC blocks
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#define SDRDAEMONFEC_NBDECODERSLOTS 16 // power of two sub multiple of uint16_t size. A too large one is superfluous.
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class SDRdaemonFECBuffer
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{
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public:
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#pragma pack(push, 1)
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struct MetaDataFEC
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{
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uint32_t m_centerFrequency; //!< 4 center frequency in kHz
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uint32_t m_sampleRate; //!< 8 sample rate in Hz
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uint8_t m_sampleBytes; //!< 9 MSB(4): indicators, LSB(4) number of bytes per sample
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uint8_t m_sampleBits; //!< 10 number of effective bits per sample
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uint8_t m_nbOriginalBlocks; //!< 11 number of blocks with original (protected) data
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uint8_t m_nbFECBlocks; //!< 12 number of blocks carrying FEC
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uint32_t m_tv_sec; //!< 16 seconds of timestamp at start time of super-frame processing
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uint32_t m_tv_usec; //!< 20 microseconds of timestamp at start time of super-frame processing
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uint32_t m_crc32; //!< 24 CRC32 of the above
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bool operator==(const MetaDataFEC& rhs)
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{
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return (memcmp((const void *) this, (const void *) &rhs, 12) == 0); // Only the 12 first bytes are relevant
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}
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void init()
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{
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memset((void *) this, 0, sizeof(MetaDataFEC));
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}
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};
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struct Sample
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{
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int16_t i;
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int16_t q;
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};
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struct Header
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{
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uint16_t frameIndex;
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uint8_t blockIndex;
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uint8_t filler;
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};
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static const int samplesPerBlock = (SDRDAEMONFEC_UDPSIZE - sizeof(Header)) / sizeof(Sample);
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struct ProtectedBlock
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{
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Sample samples[samplesPerBlock];
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};
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struct SuperBlock
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{
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Header header;
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ProtectedBlock protectedBlock;
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};
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#pragma pack(pop)
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SDRdaemonFECBuffer(uint32_t throttlems);
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~SDRdaemonFECBuffer();
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// R/W operations
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void writeData(char *array, uint32_t length); //!< Write data into buffer.
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void writeData0(char *array, uint32_t length); //!< Write data into buffer.
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uint8_t *readData(int32_t length); //!< Read data from buffer
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// meta data
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const MetaDataFEC& getCurrentMeta() const { return m_currentMeta; }
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// samples timestamp
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uint32_t getTVOutSec() const { return m_tvOut_sec; }
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uint32_t getTVOutUsec() const { return m_tvOut_usec; }
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// stats
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int getCurNbBlocks() const { return m_curNbBlocks; }
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int getCurOriginalBlocks() const { return m_curOriginalBlocks; }
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int getCurNbRecovery() const { return m_curNbRecovery; }
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float getAvgNbBlocks() const { return m_avgNbBlocks; }
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float getAvgOriginalBlocks() const { return m_avgOrigBlocks; }
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float getAvgNbRecovery() const { return m_avgNbRecovery; }
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int getMinNbBlocks()
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{
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int minNbBlocks = m_minNbBlocks;
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m_minNbBlocks = 256;
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return minNbBlocks;
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}
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int getMinOriginalBlocks()
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{
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int minOriginalBlocks = m_minOriginalBlocks;
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m_minOriginalBlocks = 128;
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return minOriginalBlocks;
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}
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int getMaxNbRecovery()
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{
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int maxNbRecovery = m_maxNbRecovery;
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m_maxNbRecovery = 0;
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return maxNbRecovery;
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}
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bool allFramesDecoded()
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{
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bool framesDecoded = m_framesDecoded;
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m_framesDecoded = true;
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return framesDecoded;
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}
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float getBufferLengthInSecs() const { return m_bufferLenSec; }
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int32_t getRWBalanceCorrection() const { return m_balCorrection; }
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/** Get buffer gauge value in % of buffer size ([-50:50])
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* [-50:0] : write leads or read lags
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* [0:50] : read leads or write lags
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*/
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inline int32_t getBufferGauge() const
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{
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if (m_framesNbBytes)
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{
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int32_t val = (m_wrDeltaEstimate * 100) / (int32_t) m_framesNbBytes;
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int32_t ret = val < 0 ? -val - 50 : 50 -val;
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int32_t rp = (m_readIndex * 100) / (int32_t) m_framesNbBytes;
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return ret;
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}
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else
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{
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return 0; // default position
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}
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}
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static const int m_udpPayloadSize = SDRDAEMONFEC_UDPSIZE;
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static const int m_nbOriginalBlocks = SDRDAEMONFEC_NBORIGINALBLOCKS;
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static const int m_sampleSize;
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static const int m_iqSampleSize;
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private:
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static const int nbDecoderSlots = SDRDAEMONFEC_NBDECODERSLOTS;
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#pragma pack(push, 1)
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struct BufferFrame
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{
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ProtectedBlock m_blocks[m_nbOriginalBlocks - 1];
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};
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#pragma pack(pop)
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struct DecoderSlot
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{
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ProtectedBlock m_blockZero; //!< First block of a frame. Has meta data.
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ProtectedBlock m_originalBlocks[m_nbOriginalBlocks]; //!< Original blocks retrieved directly or by later FEC
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ProtectedBlock m_recoveryBlocks[m_nbOriginalBlocks]; //!< Recovery blocks (FEC blocks) with max size
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CM256::cm256_block m_cm256DescriptorBlocks[m_nbOriginalBlocks]; //!< CM256 decoder descriptors (block addresses and block indexes)
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int m_blockCount; //!< number of blocks received for this frame
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int m_originalCount; //!< number of original blocks received
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int m_recoveryCount; //!< number of recovery blocks received
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bool m_decoded; //!< true if decoded
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bool m_metaRetrieved; //!< true if meta data (block zero) was retrieved
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};
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MetaDataFEC m_currentMeta; //!< Stored current meta data
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CM256::cm256_encoder_params m_paramsCM256; //!< CM256 decoder parameters block
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DecoderSlot m_decoderSlots[nbDecoderSlots]; //!< CM256 decoding control/buffer slots
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BufferFrame m_frames[nbDecoderSlots]; //!< Samples buffer
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int m_framesNbBytes; //!< Number of bytes in samples buffer
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int m_decoderIndexHead; //!< index of the current head frame slot in decoding slots
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int m_frameHead; //!< index of the current head frame sent
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int m_curNbBlocks; //!< (stats) instantaneous number of blocks received
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int m_minNbBlocks; //!< (stats) minimum number of blocks received since last poll
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int m_curOriginalBlocks; //!< (stats) instantanous number of original blocks received
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int m_minOriginalBlocks; //!< (stats) minimum number of original blocks received since last poll
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int m_curNbRecovery; //!< (stats) instantaneous number of recovery blocks used
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int m_maxNbRecovery; //!< (stats) maximum number of recovery blocks used since last poll
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MovingAverage<int, int, 10> m_avgNbBlocks; //!< (stats) average number of blocks received
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MovingAverage<int, int, 10> m_avgOrigBlocks; //!< (stats) average number of original blocks received
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MovingAverage<int, int, 10> m_avgNbRecovery; //!< (stats) average number of recovery blocks used
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bool m_framesDecoded; //!< [stats] true if all frames were decoded since last poll
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int m_readIndex; //!< current byte read index in frames buffer
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int m_wrDeltaEstimate; //!< Sampled estimate of write to read indexes difference
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uint32_t m_tvOut_sec; //!< Estimated returned samples timestamp (seconds)
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uint32_t m_tvOut_usec; //!< Estimated returned samples timestamp (microseconds)
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int m_readNbBytes; //!< Nominal number of bytes per read (50ms)
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uint32_t m_throttlemsNominal; //!< Initial throttle in ms
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uint8_t* m_readBuffer; //!< Read buffer to hold samples when looping back to beginning of raw buffer
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uint32_t m_readSize; //!< Read buffer size
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float m_bufferLenSec;
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int m_nbReads; //!< Number of buffer reads since start of auto R/W balance correction period
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int m_nbWrites; //!< Number of buffer writes since start of auto R/W balance correction period
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int m_balCorrection; //!< R/W balance correction in number of samples
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int m_balCorrLimit; //!< Correction absolute value limit in number of samples
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CM256 m_cm256; //!< CM256 library
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bool m_cm256_OK; //!< CM256 library initialized OK
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inline ProtectedBlock* storeOriginalBlock(int slotIndex, int blockIndex, const ProtectedBlock& protectedBlock)
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{
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if (blockIndex == 0) {
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// m_decoderSlots[slotIndex].m_originalBlocks[0] = protectedBlock;
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// return &m_decoderSlots[slotIndex].m_originalBlocks[0];
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m_decoderSlots[slotIndex].m_blockZero = protectedBlock;
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return &m_decoderSlots[slotIndex].m_blockZero;
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} else {
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// m_decoderSlots[slotIndex].m_originalBlocks[blockIndex] = protectedBlock;
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// return &m_decoderSlots[slotIndex].m_originalBlocks[blockIndex];
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m_frames[slotIndex].m_blocks[blockIndex - 1] = protectedBlock;
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return &m_frames[slotIndex].m_blocks[blockIndex - 1];
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}
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}
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inline ProtectedBlock& getOriginalBlock(int slotIndex, int blockIndex)
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{
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if (blockIndex == 0) {
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// return m_decoderSlots[slotIndex].m_originalBlocks[0];
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return m_decoderSlots[slotIndex].m_blockZero;
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} else {
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// return m_decoderSlots[slotIndex].m_originalBlocks[blockIndex];
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return m_frames[slotIndex].m_blocks[blockIndex - 1];
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}
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}
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inline MetaDataFEC *getMetaData(int slotIndex)
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{
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// return (MetaDataFEC *) &m_decoderSlots[slotIndex].m_originalBlocks[0];
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return (MetaDataFEC *) &m_decoderSlots[slotIndex].m_blockZero;
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}
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inline void resetOriginalBlocks(int slotIndex)
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{
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// memset((void *) m_decoderSlots[slotIndex].m_originalBlocks, 0, m_nbOriginalBlocks * sizeof(ProtectedBlock));
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memset((void *) &m_decoderSlots[slotIndex].m_blockZero, 0, sizeof(ProtectedBlock));
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memset((void *) m_frames[slotIndex].m_blocks, 0, (m_nbOriginalBlocks - 1) * sizeof(ProtectedBlock));
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}
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void initDecodeAllSlots();
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void initReadIndex();
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void rwCorrectionEstimate(int slotIndex);
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void checkSlotData(int slotIndex);
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void initDecodeSlot(int slotIndex);
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static void printMeta(const QString& header, MetaDataFEC *metaData);
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};
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#endif /* PLUGINS_SAMPLESOURCE_SDRDAEMONFEC_SDRDAEMONFECBUFFER_H_ */
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