/////////////////////////////////////////////////////////////////////////////////// // Copyright (C) 2018 Edouard Griffiths, F4EXB. // // // // SDRdaemon sink channel (Rx) data blocks to read queue // // // // SDRdaemon is a detached SDR front end that handles the interface with a // // physical device and sends or receives the I/Q samples stream to or from a // // SDRangel instance via UDP. It is controlled via a Web REST API. // // // // 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 . // /////////////////////////////////////////////////////////////////////////////////// #ifndef SDRDAEMON_CHANNEL_SDRDAEMONDATAREADQUEUE_H_ #define SDRDAEMON_CHANNEL_SDRDAEMONDATAREADQUEUE_H_ #include class SDRDaemonDataBlock; class Sample; class SDRDaemonDataReadQueue { public: SDRDaemonDataReadQueue(); ~SDRDaemonDataReadQueue(); void push(SDRDaemonDataBlock* dataBlock); //!< push block on the queue SDRDaemonDataBlock* pop(); //!< Pop block from the queue void readSample(Sample& s, bool scaleForTx = false); //!< Read sample from queue possibly scaling to Tx size uint32_t length() const { return m_dataReadQueue.size(); } //!< Returns queue length uint32_t size() const { return m_maxSize; } //!< Returns queue size (max length) void setSize(uint32_t size); //!< Sets the queue size (max length) uint32_t readSampleCount() const { return m_sampleCount; } //!< Returns the absolute number of samples read static const uint32_t MinimumMaxSize; private: QQueue m_dataReadQueue; SDRDaemonDataBlock *m_dataBlock; uint32_t m_maxSize; uint32_t m_blockIndex; uint32_t m_sampleIndex; uint32_t m_sampleCount; //!< use a counter capped below 2^31 as it is going to be converted to an int in the web interface bool m_full; //!< full condition was hit inline void convertDataToSample(Sample& s, uint32_t blockIndex, uint32_t sampleIndex, bool scaleForTx) { int sampleSize = m_dataBlock->m_superBlocks[blockIndex].m_header.m_sampleBytes * 2; // I/Q sample size in data block int samplebits = m_dataBlock->m_superBlocks[blockIndex].m_header.m_sampleBits; // I or Q sample size in bits int32_t iconv, qconv; if ((sizeof(Sample) == 4) && (sampleSize == 8)) // generally 24->16 bits { iconv = ((int32_t*) &(m_dataBlock->m_superBlocks[blockIndex].m_protectedBlock.buf[sampleIndex*sampleSize]))[0]; qconv = ((int32_t*) &(m_dataBlock->m_superBlocks[blockIndex].m_protectedBlock.buf[sampleIndex*sampleSize+4]))[0]; iconv >>= scaleForTx ? (SDR_TX_SAMP_SZ-SDR_RX_SAMP_SZ) : (samplebits-SDR_RX_SAMP_SZ); qconv >>= scaleForTx ? (SDR_TX_SAMP_SZ-SDR_RX_SAMP_SZ) : (samplebits-SDR_RX_SAMP_SZ); s.setReal(iconv); s.setImag(qconv); } else if ((sizeof(Sample) == 8) && (sampleSize == 4)) // generally 16->24 bits { iconv = ((int16_t*) &(m_dataBlock->m_superBlocks[blockIndex].m_protectedBlock.buf[sampleIndex*sampleSize]))[0]; qconv = ((int16_t*) &(m_dataBlock->m_superBlocks[blockIndex].m_protectedBlock.buf[sampleIndex*sampleSize+2]))[0]; iconv <<= scaleForTx ? (SDR_TX_SAMP_SZ-samplebits) : (SDR_RX_SAMP_SZ-samplebits); qconv <<= scaleForTx ? (SDR_TX_SAMP_SZ-samplebits) : (SDR_RX_SAMP_SZ-samplebits); s.setReal(iconv); s.setImag(qconv); } else if ((sampleSize == 4) || (sampleSize == 8)) // generally 16->16 or 24->24 bits { s = *((Sample*) &(m_dataBlock->m_superBlocks[blockIndex].m_protectedBlock.buf[sampleIndex*sampleSize])); } else // invalid size { s = Sample{0, 0}; } } }; #endif /* SDRDAEMON_CHANNEL_SDRDAEMONDATAREADQUEUE_H_ */