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sdrangel/modemm17/M17FrameDecoder.h
2022-09-06 17:10:25 -03:00

410 lines
13 KiB
C++

// Copyright 2021 Mobilinkd LLC.
#pragma once
#include <QDebug>
#include <QString>
#include "M17Randomizer.h"
#include "PolynomialInterleaver.h"
#include "Trellis.h"
#include "Viterbi.h"
#include "CRC16.h"
#include "LinkSetupFrame.h"
#include "Golay24.h"
#include <algorithm>
#include <array>
#include <cstddef>
#include <functional>
#include <iostream>
#include <iomanip>
namespace modemm17
{
template <typename C, size_t N>
QString dump(const std::array<C,N>& data, char header = 'D')
{
QString s(header);
s += "=";
for (auto c : data) {
s += QString("%1 ").arg((int) c, 2, 16, QChar('0'));
}
return s;
}
struct M17FrameDecoder
{
static const size_t MAX_LICH_FRAGMENT = 5;
M17Randomizer derandomize_;
PolynomialInterleaver<45, 92, 368> interleaver_;
Trellis<4,2> trellis_{makeTrellis<4, 2>({031,027})};
Viterbi<decltype(trellis_), 4> viterbi_{trellis_};
CRC16 crc_;
enum class State { LSF, STREAM, BASIC_PACKET, FULL_PACKET, BERT };
enum class SyncWordType { LSF, STREAM, PACKET, BERT };
enum class DecodeResult { FAIL, OK, EOS, INCOMPLETE, PACKET_INCOMPLETE };
enum class FrameType { LSF, LICH, STREAM, BASIC_PACKET, FULL_PACKET, BERT };
State state_ = State::LSF;
using input_buffer_t = std::array<int8_t, 368>;
using lsf_conv_buffer_t = std::array<uint8_t, 46>;
using audio_conv_buffer_t = std::array<uint8_t, 34>;
using lsf_buffer_t = std::array<uint8_t, 30>;
using lich_buffer_t = std::array<uint8_t, 6>;
using audio_buffer_t = std::array<uint8_t, 18>;
using packet_buffer_t = std::array<uint8_t, 26>;
using bert_buffer_t = std::array<uint8_t, 25>;
using output_buffer_t = struct {
FrameType type;
union {
lich_buffer_t lich;
audio_buffer_t stream;
packet_buffer_t packet;
bert_buffer_t bert;
};
lsf_buffer_t lsf;
};
using depunctured_buffer_t = union {
std::array<int8_t, 488> lsf;
std::array<int8_t, 296> stream;
std::array<int8_t, 420> packet;
std::array<int8_t, 402> bert;
};
using decode_buffer_t = union {
std::array<uint8_t, 240> lsf;
std::array<uint8_t, 144> stream;
std::array<uint8_t, 206> packet;
std::array<uint8_t, 197> bert;
};
/**
* Callback function for frame types. The caller is expected to return
* true if the data was good or unknown and false if the data is known
* to be bad.
*/
using callback_t = std::function<bool(const output_buffer_t&, int)>;
callback_t callback_;
output_buffer_t output_buffer;
decode_buffer_t decode_buffer;
uint16_t frame_number = 0;
uint8_t lich_segments{0}; ///< one bit per received LICH fragment.
M17FrameDecoder(callback_t callback) :
crc_(0x5935, 0xFFFF),
callback_(callback)
{}
void update_state(std::array<uint8_t, 240>& lsf_output)
{
if (lsf_output[111]) // LSF type bit 0
{
if (lsf_output[109] != 0) {
state_ = State::STREAM;
}
}
else // packet frame comes next.
{
uint8_t packet_type = (lsf_output[109] << 1) | lsf_output[110];
switch (packet_type)
{
case 1: // RAW -- ignore LSF.
state_ = State::BASIC_PACKET;
break;
case 2: // ENCAPSULATED
state_ = State::FULL_PACKET;
break;
default:
state_ = State::FULL_PACKET;
}
}
}
void reset()
{
state_ = State::LSF;
frame_number = 0;
}
/**
* Decode the LSF and, if it is valid, transition to the next state.
*
* The LSF is returned for STREAM mode, dropped for BASIC_PACKET mode,
* and captured for FULL_PACKET mode.
*
* @param buffer
* @param viterbi_cost
* @return
*/
DecodeResult decode_lsf(input_buffer_t& buffer, int& viterbi_cost)
{
depunctured_buffer_t depuncture_buffer;
depuncture<368, 488, 61>(buffer, depuncture_buffer.lsf, P1);
viterbi_cost = viterbi_.decode(depuncture_buffer.lsf, decode_buffer.lsf);
to_byte_array(decode_buffer.lsf, output_buffer.lsf);
// qDebug() << "modemm17::M17FrameDecoder::decode_lsf: vierbi:" << viterbi_cost <<dump(output_buffer.lsf);
crc_.reset();
for (auto c : output_buffer.lsf) crc_(c);
auto checksum = crc_.get();
if (checksum == 0)
{
update_state(decode_buffer.lsf);
output_buffer.type = FrameType::LSF;
callback_(output_buffer, viterbi_cost);
return DecodeResult::OK;
}
else
{
qDebug() << "modemm17::M17FrameDecoder::decode_lsf: bad CRC:" << dump(output_buffer.lsf);
}
lich_segments = 0;
output_buffer.lsf.fill(0);
return DecodeResult::FAIL;
}
// Unpack & decode LICH fragments into tmp_buffer.
bool unpack_lich(input_buffer_t& buffer)
{
size_t index = 0;
// Read the 4 24-bit codewords from LICH
for (size_t i = 0; i != 4; ++i) // for each codeword
{
uint32_t codeword = 0;
for (size_t j = 0; j != 24; ++j) // for each bit in codeword
{
codeword <<= 1;
codeword |= (buffer[i * 24 + j] > 0);
}
uint32_t decoded = 0;
if (!Golay24::decode(codeword, decoded))
{
return false;
}
decoded >>= 12; // Remove check bits and parity.
// append codeword.
if (i & 1)
{
output_buffer.lich[index++] |= (decoded >> 8); // upper 4 bits
output_buffer.lich[index++] = (decoded & 0xFF); // lower 8 bits
}
else
{
output_buffer.lich[index++] |= (decoded >> 4); // upper 8 bits
output_buffer.lich[index] = (decoded & 0x0F) << 4; // lower 4 bits
}
}
return true;
}
DecodeResult decode_lich(input_buffer_t& buffer, int& viterbi_cost)
{
output_buffer.lich.fill(0);
// Read the 4 12-bit codewords from LICH into buffers.lich.
if (!unpack_lich(buffer)) return DecodeResult::FAIL;
output_buffer.type = FrameType::LICH;
callback_(output_buffer, 0);
uint8_t fragment_number = output_buffer.lich[5]; // Get fragment number.
fragment_number = (fragment_number >> 5) & 7;
if (fragment_number > MAX_LICH_FRAGMENT)
{
viterbi_cost = -1;
return DecodeResult::INCOMPLETE; // More to go...
}
// Copy decoded LICH to superframe buffer.
std::copy(output_buffer.lich.begin(), output_buffer.lich.begin() + 5,
output_buffer.lsf.begin() + (fragment_number * 5));
lich_segments |= (1 << fragment_number); // Indicate segment received.
if ((lich_segments & 0x3F) != 0x3F)
{
viterbi_cost = -1;
return DecodeResult::INCOMPLETE; // More to go...
}
crc_.reset();
for (auto c : output_buffer.lsf) crc_(c);
auto checksum = crc_.get();
if (checksum == 0)
{
lich_segments = 0;
state_ = State::STREAM;
viterbi_cost = 0;
output_buffer.type = FrameType::LSF;
callback_(output_buffer, viterbi_cost);
return DecodeResult::OK;
}
// Failed CRC... try again.
// lich_segments = 0;
// output_buffer.lsf.fill(0);
viterbi_cost = 128;
return DecodeResult::INCOMPLETE;
}
DecodeResult decode_bert(input_buffer_t& buffer, int& viterbi_cost)
{
depunctured_buffer_t depuncture_buffer;
depuncture<368, 402, 12>(buffer, depuncture_buffer.bert, P2);
viterbi_cost = viterbi_.decode(depuncture_buffer.bert, decode_buffer.bert);
to_byte_array(decode_buffer.bert, output_buffer.bert);
output_buffer.type = FrameType::BERT;
callback_(output_buffer, viterbi_cost);
return DecodeResult::OK;
}
DecodeResult decode_stream(input_buffer_t& buffer, int& viterbi_cost)
{
std::array<int8_t, 272> tmp;
std::copy(buffer.begin() + 96, buffer.end(), tmp.begin());
depunctured_buffer_t depuncture_buffer;
depuncture<272, 296, 12>(tmp, depuncture_buffer.stream, P2);
viterbi_cost = viterbi_.decode(depuncture_buffer.stream, decode_buffer.stream);
to_byte_array(decode_buffer.stream, output_buffer.stream);
if ((viterbi_cost < 60) && (output_buffer.stream[0] & 0x80))
{
// fputs("\nEOS\n", stderr);
state_ = State::LSF;
}
output_buffer.type = FrameType::STREAM;
callback_(output_buffer, viterbi_cost);
return state_ == State::LSF ? DecodeResult::EOS : DecodeResult::OK;
}
/**
* Capture packet frames until an EOF bit is found.
* @param buffer the demodulated M17 symbols in LLR format.
* @param viterbi_cost the cost of traversing the trellis.
* @param frame_type is either BASIC_PACKET or FULL_PACKET.
* @return the result of decoding the packet frame.
*/
DecodeResult decode_packet(input_buffer_t& buffer, int& viterbi_cost, FrameType type)
{
depunctured_buffer_t depuncture_buffer;
depuncture<368, 420, 8>(buffer, depuncture_buffer.packet, P3);
viterbi_cost = viterbi_.decode(depuncture_buffer.packet, decode_buffer.packet);
to_byte_array(decode_buffer.packet, output_buffer.packet);
output_buffer.type = type;
auto result = callback_(output_buffer, viterbi_cost);
if (output_buffer.packet[25] & 0x80) // last packet;
{
state_ = State::LSF;
return result ? DecodeResult::OK : DecodeResult::FAIL;
}
return DecodeResult::PACKET_INCOMPLETE;
}
/**
* Decode M17 frames. The decoder uses the sync word to determine frame
* type and to update its state machine.
*
* The decoder receives M17 frame type indicator (based on sync word) and
* frames from the M17 demodulator.
*
* If the frame is an LSF, the state immediately changes to LSF. When
* in LSF mode, the state machine can transition to:
*
* - LSF if the CRC is bad.
* - STREAM if the LSF type field indicates Stream.
* - BASIC_PACKET if the LSF type field indicates Packet and the packet
* type is RAW.
* - FULL_PACKET if the LSF type field indicates Packet and the packet
* type is ENCAPSULATED or RESERVED.
*
* When in LSF mode, if an LSF frame is received it is parsed as an LSF.
* When a STREAM frame is received, it attempts to recover an LSF from
* the LICH. PACKET frame types are ignored when state is LSF.
*
* When in STREAM mode, the state machine can transition to either:
*
* - STREAM when a any stream frame is received.
* - LSF when the EOS indicator is set, or when a packet frame is received.
*
* When in BASIC_PACKET mode, the state machine can transition to either:
*
* - BASIC_PACKET when any packet frame is received.
* - LSF when the EOS indicator is set, or when a stream frame is received.
*
* When in FULL_PACKET mode, the state machine can transition to either:
*
* - FULL_PACKET when any packet frame is received.
* - LSF when the EOS indicator is set, or when a stream frame is received.
*/
DecodeResult operator()(SyncWordType frame_type, input_buffer_t& buffer, int& viterbi_cost)
{
derandomize_(buffer);
interleaver_.deinterleave(buffer);
// This is out state machined.
switch(frame_type)
{
case SyncWordType::LSF:
state_ = State::LSF;
return decode_lsf(buffer, viterbi_cost);
case SyncWordType::STREAM:
switch (state_)
{
case State::LSF:
return decode_lich(buffer, viterbi_cost);
case State::STREAM:
return decode_stream(buffer, viterbi_cost);
default:
state_ = State::LSF;
}
break;
case SyncWordType::PACKET:
switch (state_)
{
case State::BASIC_PACKET:
return decode_packet(buffer, viterbi_cost, FrameType::BASIC_PACKET);
case State::FULL_PACKET:
return decode_packet(buffer, viterbi_cost, FrameType::FULL_PACKET);
default:
state_ = State::LSF;
}
break;
case SyncWordType::BERT:
state_ = State::BERT;
return decode_bert(buffer, viterbi_cost);
}
return DecodeResult::FAIL;
}
State state() const { return state_; }
};
} // modemm17