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sdrangel/sdrbase/channel/remotedatablock.h

179 lines
6.2 KiB
C++

///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2018 Edouard Griffiths, F4EXB. //
// //
// Remote sink channel (Rx) data block //
// //
// SDRangel can serve as a remote SDR front end that handles the interface //
// with a physical device and sends or receives the I/Q samples stream via UDP //
// to or from another SDRangel instance or any program implementing the same //
// protocol. The remote SDRangel is controlled via its 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 //
// (at your option) any later version. //
// //
// 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/>. //
///////////////////////////////////////////////////////////////////////////////////
#ifndef CHANNEL_REMOTEDATABLOCK_H_
#define CHANNEL_REMOTEDATABLOCK_H_
#include <stdint.h>
#include <string.h>
#include <algorithm>
#include <QString>
#include "dsp/dsptypes.h"
#define UDPSINKFEC_UDPSIZE 512
#define UDPSINKFEC_NBORIGINALBLOCKS 128
//#define UDPSINKFEC_NBTXBLOCKS 8
#pragma pack(push, 1)
struct RemoteMetaDataFEC
{
uint64_t m_centerFrequency; //!< 8 center frequency in kHz
uint32_t m_sampleRate; //!< 12 sample rate in Hz
uint8_t m_sampleBytes; //!< 13 4 LSB: number of bytes per sample (2 or 4)
uint8_t m_sampleBits; //!< 14 number of effective bits per sample (deprecated)
uint8_t m_nbOriginalBlocks; //!< 15 number of blocks with original (protected) data
uint8_t m_nbFECBlocks; //!< 16 number of blocks carrying FEC
uint8_t m_deviceIndex; //!< 29 index of device set in instance
uint8_t m_channelIndex; //!< 30 index of channel in device set
uint32_t m_tv_sec; //!< 34 seconds of timestamp at start time of super-frame processing
uint32_t m_tv_usec; //!< 38 microseconds of timestamp at start time of super-frame processing
uint32_t m_crc32; //!< 42 CRC32 of the above
bool operator==(const RemoteMetaDataFEC& rhs)
{
// Only the first 6 fields are relevant
return (m_centerFrequency == rhs.m_centerFrequency)
&& (m_sampleRate == rhs.m_sampleRate)
&& (m_sampleBytes == rhs.m_sampleBytes)
&& (m_sampleBits == rhs.m_sampleBits)
&& (m_nbOriginalBlocks == rhs.m_nbOriginalBlocks)
&& (m_nbFECBlocks == rhs.m_nbFECBlocks);
}
void init()
{
m_centerFrequency = 0;
m_sampleRate = 0;
m_sampleBytes = 0;
m_sampleBits = 0;
m_nbOriginalBlocks = 0;
m_nbFECBlocks = 0;
m_deviceIndex = 0;
m_channelIndex = 0;
m_tv_sec = 0;
m_tv_usec = 0;
m_crc32 = 0;
}
};
struct RemoteHeader
{
uint16_t m_frameIndex;
uint8_t m_blockIndex;
uint8_t m_sampleBytes; //!< number of bytes per sample (2 or 4) for this block
uint8_t m_sampleBits; //!< number of bits per sample
uint8_t m_filler;
uint16_t m_filler2;
void init()
{
m_frameIndex = 0;
m_blockIndex = 0;
m_sampleBytes = 2;
m_sampleBits = 16;
m_filler = 0;
m_filler2 = 0;
}
};
static const int RemoteUdpSize = UDPSINKFEC_UDPSIZE;
static const int RemoteNbOrginalBlocks = UDPSINKFEC_NBORIGINALBLOCKS;
static const int RemoteNbBytesPerBlock = UDPSINKFEC_UDPSIZE - sizeof(RemoteHeader);
struct RemoteProtectedBlock
{
uint8_t buf[RemoteNbBytesPerBlock];
void init() {
std::fill(buf, buf+RemoteNbBytesPerBlock, 0);
}
};
struct RemoteSuperBlock
{
RemoteHeader m_header;
RemoteProtectedBlock m_protectedBlock;
void init()
{
m_header.init();
m_protectedBlock.init();
}
};
#pragma pack(pop)
struct RemoteTxControlBlock
{
bool m_complete;
bool m_processed;
uint16_t m_frameIndex;
int m_nbBlocksFEC;
QString m_dataAddress;
uint16_t m_dataPort;
RemoteTxControlBlock()
{
m_complete = false;
m_processed = false;
m_frameIndex = 0;
m_nbBlocksFEC = 0;
m_dataAddress = "127.0.0.1";
m_dataPort = 9090;
}
};
struct RemoteRxControlBlock
{
int m_blockCount; //!< number of blocks received for this frame
int m_originalCount; //!< number of original blocks received
int m_recoveryCount; //!< number of recovery blocks received
bool m_metaRetrieved; //!< true if meta data (block zero) was retrieved
int m_frameIndex; //!< this frame index or -1 if unset
RemoteRxControlBlock() {
m_blockCount = 0;
m_originalCount = 0;
m_recoveryCount = 0;
m_metaRetrieved = false;
m_frameIndex = -1;
}
};
class RemoteDataFrame
{
public:
RemoteDataFrame() {
m_superBlocks = new RemoteSuperBlock[256]; //!< 128 original bloks + 128 possible recovery blocks
}
~RemoteDataFrame() {
delete[] m_superBlocks;
}
RemoteTxControlBlock m_txControlBlock;
RemoteRxControlBlock m_rxControlBlock;
RemoteSuperBlock *m_superBlocks;
};
#endif /* CHANNEL_REMOTEDATABLOCK_H_ */