/*
Copyright (C) 2007, 2008, 2009, 2010, 2011, 2012
Her Majesty the Queen in Right of Canada (Communications Research
Center Canada)
Copyright (C) 2019
Matthias P. Braendli, matthias.braendli@mpb.li
http://opendigitalradio.org
*/
/*
This file is part of ODR-DabMod.
ODR-DabMod 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, either version 3 of the
License, or (at your option) any later version.
ODR-DabMod 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 for more details.
You should have received a copy of the GNU General Public License
along with ODR-DabMod. If not, see .
*/
#include
#include
#include "DabModulator.h"
#include "PcDebug.h"
#if !defined(BUILD_FOR_EASYDABV3)
# include "QpskSymbolMapper.h"
# include "FrequencyInterleaver.h"
# include "PhaseReference.h"
# include "DifferentialModulator.h"
# include "NullSymbol.h"
# include "CicEqualizer.h"
# include "OfdmGenerator.h"
# include "GainControl.h"
# include "GuardIntervalInserter.h"
# include "Resampler.h"
# include "FIRFilter.h"
# include "MemlessPoly.h"
# include "TII.h"
#endif
#include "FrameMultiplexer.h"
#include "PrbsGenerator.h"
#include "BlockPartitioner.h"
#include "SignalMultiplexer.h"
#include "ConvEncoder.h"
#include "PuncturingEncoder.h"
#include "TimeInterleaver.h"
#include "TimestampDecoder.h"
#include "RemoteControl.h"
#include "Log.h"
using namespace std;
DabModulator::DabModulator(EtiSource& etiSource,
mod_settings_t& settings) :
ModInput(),
RemoteControllable("modulator"),
m_settings(settings),
myEtiSource(etiSource),
myFlowgraph()
{
PDEBUG("DabModulator::DabModulator() @ %p\n", this);
RC_ADD_PARAMETER(rate, "(Read-only) IQ output samplerate");
if (m_settings.dabMode == 0) {
setMode(2);
}
else {
setMode(m_settings.dabMode);
}
}
void DabModulator::setMode(unsigned mode)
{
switch (mode) {
case 1:
myNbSymbols = 76;
myNbCarriers = 1536;
mySpacing = 2048;
myNullSize = 2656;
mySymSize = 2552;
myFicSizeOut = 288;
break;
case 2:
myNbSymbols = 76;
myNbCarriers = 384;
mySpacing = 512;
myNullSize = 664;
mySymSize = 638;
myFicSizeOut = 288;
break;
case 3:
myNbSymbols = 153;
myNbCarriers = 192;
mySpacing = 256;
myNullSize = 345;
mySymSize = 319;
myFicSizeOut = 384;
break;
case 4:
myNbSymbols = 76;
myNbCarriers = 768;
mySpacing = 1024;
myNullSize = 1328;
mySymSize = 1276;
myFicSizeOut = 288;
break;
default:
throw std::runtime_error("DabModulator::setMode invalid mode size");
}
}
int DabModulator::process(Buffer* dataOut)
{
using namespace std;
PDEBUG("DabModulator::process(dataOut: %p)\n", dataOut);
if (not myFlowgraph) {
const unsigned mode = m_settings.dabMode;
setMode(mode);
myFlowgraph = make_shared();
////////////////////////////////////////////////////////////////
// CIF data initialisation
////////////////////////////////////////////////////////////////
auto cifPrbs = make_shared(864 * 8, 0x110);
auto cifMux = make_shared(myEtiSource);
auto cifPart = make_shared(mode);
#if !defined(BUILD_FOR_EASYDABV3)
auto cifMap = make_shared(myNbCarriers);
auto cifRef = make_shared(mode);
auto cifFreq = make_shared(mode);
auto cifDiff = make_shared(myNbCarriers);
auto cifNull = make_shared(myNbCarriers);
auto cifSig = make_shared(
(1 + myNbSymbols) * myNbCarriers * sizeof(complexf));
// TODO this needs a review
bool useCicEq = false;
unsigned cic_ratio = 1;
if (m_settings.clockRate) {
cic_ratio = m_settings.clockRate / m_settings.outputRate;
cic_ratio /= 4; // FPGA DUC
if (m_settings.clockRate == 400000000) { // USRP2
if (cic_ratio & 1) { // odd
useCicEq = true;
} // even, no filter
}
else {
useCicEq = true;
}
}
shared_ptr cifCicEq;
if (useCicEq) {
cifCicEq = make_shared(
myNbCarriers,
(float)mySpacing * (float)m_settings.outputRate / 2048000.0f,
cic_ratio);
}
shared_ptr tii;
shared_ptr tiiRef;
try {
tii = make_shared(
m_settings.dabMode,
m_settings.tiiConfig);
rcs.enrol(tii.get());
tiiRef = make_shared(mode);
}
catch (TIIError& e) {
etiLog.level(error) << "Could not initialise TII: " << e.what();
}
auto cifOfdm = make_shared(
(1 + myNbSymbols),
myNbCarriers,
mySpacing,
m_settings.enableCfr,
m_settings.cfrClip,
m_settings.cfrErrorClip);
rcs.enrol(cifOfdm.get());
auto cifGain = make_shared(
mySpacing,
m_settings.gainMode,
m_settings.digitalgain,
m_settings.normalise,
m_settings.gainmodeVariance);
rcs.enrol(cifGain.get());
auto cifGuard = make_shared(
myNbSymbols, mySpacing, myNullSize, mySymSize,
m_settings.ofdmWindowOverlap);
rcs.enrol(cifGuard.get());
shared_ptr cifFilter;
if (not m_settings.filterTapsFilename.empty()) {
cifFilter = make_shared(m_settings.filterTapsFilename);
rcs.enrol(cifFilter.get());
}
shared_ptr cifPoly;
if (not m_settings.polyCoefFilename.empty()) {
cifPoly = make_shared(m_settings.polyCoefFilename,
m_settings.polyNumThreads);
rcs.enrol(cifPoly.get());
}
shared_ptr cifRes;
if (m_settings.outputRate != 2048000) {
cifRes = make_shared(
2048000,
m_settings.outputRate,
mySpacing);
}
#endif
myOutput = make_shared(dataOut);
myFlowgraph->connect(cifPrbs, cifMux);
////////////////////////////////////////////////////////////////
// Processing FIC
////////////////////////////////////////////////////////////////
shared_ptr fic(myEtiSource.getFic());
////////////////////////////////////////////////////////////////
// Data initialisation
////////////////////////////////////////////////////////////////
size_t ficSizeIn = fic->getFramesize();
////////////////////////////////////////////////////////////////
// Modules configuration
////////////////////////////////////////////////////////////////
// Configuring FIC channel
PDEBUG("FIC:\n");
PDEBUG(" Framesize: %zu\n", fic->getFramesize());
// Configuring prbs generator
auto ficPrbs = make_shared(ficSizeIn, 0x110);
// Configuring convolutionnal encoder
auto ficConv = make_shared(ficSizeIn);
// Configuring puncturing encoder
auto ficPunc = make_shared();
for (const auto &rule : fic->get_rules()) {
PDEBUG(" Adding rule:\n");
PDEBUG(" Length: %zu\n", rule.length());
PDEBUG(" Pattern: 0x%x\n", rule.pattern());
ficPunc->append_rule(rule);
}
PDEBUG(" Adding tail\n");
ficPunc->append_tail_rule(PuncturingRule(3, 0xcccccc));
myFlowgraph->connect(fic, ficPrbs);
myFlowgraph->connect(ficPrbs, ficConv);
myFlowgraph->connect(ficConv, ficPunc);
myFlowgraph->connect(ficPunc, cifPart);
////////////////////////////////////////////////////////////////
// Configuring subchannels
////////////////////////////////////////////////////////////////
for (const auto& subchannel : myEtiSource.getSubchannels()) {
////////////////////////////////////////////////////////////
// Data initialisation
////////////////////////////////////////////////////////////
size_t subchSizeIn = subchannel->framesize();
size_t subchSizeOut = subchannel->framesizeCu() * 8;
////////////////////////////////////////////////////////////
// Modules configuration
////////////////////////////////////////////////////////////
// Configuring subchannel
PDEBUG("Subchannel:\n");
PDEBUG(" Start address: %zu\n",
subchannel->startAddress());
PDEBUG(" Framesize: %zu\n",
subchannel->framesize());
PDEBUG(" Bitrate: %zu\n", subchannel->bitrate());
PDEBUG(" Framesize CU: %zu\n",
subchannel->framesizeCu());
PDEBUG(" Protection: %zu\n",
subchannel->protection());
PDEBUG(" Form: %zu\n",
subchannel->protectionForm());
PDEBUG(" Level: %zu\n",
subchannel->protectionLevel());
PDEBUG(" Option: %zu\n",
subchannel->protectionOption());
// Configuring prbs genrerator
auto subchPrbs = make_shared(subchSizeIn, 0x110);
// Configuring convolutionnal encoder
auto subchConv = make_shared(subchSizeIn);
// Configuring puncturing encoder
auto subchPunc =
make_shared(subchannel->framesizeCu());
for (const auto& rule : subchannel->get_rules()) {
PDEBUG(" Adding rule:\n");
PDEBUG(" Length: %zu\n", rule.length());
PDEBUG(" Pattern: 0x%x\n", rule.pattern());
subchPunc->append_rule(rule);
}
PDEBUG(" Adding tail\n");
subchPunc->append_tail_rule(PuncturingRule(3, 0xcccccc));
// Configuring time interleaver
auto subchInterleaver = make_shared(subchSizeOut);
myFlowgraph->connect(subchannel, subchPrbs);
myFlowgraph->connect(subchPrbs, subchConv);
myFlowgraph->connect(subchConv, subchPunc);
myFlowgraph->connect(subchPunc, subchInterleaver);
myFlowgraph->connect(subchInterleaver, cifMux);
}
myFlowgraph->connect(cifMux, cifPart);
#if defined(BUILD_FOR_EASYDABV3)
myFlowgraph->connect(cifPart, myOutput);
#else
myFlowgraph->connect(cifPart, cifMap);
myFlowgraph->connect(cifMap, cifFreq);
myFlowgraph->connect(cifRef, cifDiff);
myFlowgraph->connect(cifFreq, cifDiff);
myFlowgraph->connect(cifNull, cifSig);
myFlowgraph->connect(cifDiff, cifSig);
if (tii) {
myFlowgraph->connect(tiiRef, tii);
myFlowgraph->connect(tii, cifSig);
}
shared_ptr prev_plugin = static_pointer_cast(cifSig);
const std::list > plugins({
static_pointer_cast(cifCicEq),
static_pointer_cast(cifOfdm),
static_pointer_cast(cifGain),
static_pointer_cast(cifGuard),
static_pointer_cast(cifFilter), // optional block
static_pointer_cast(cifRes), // optional block
static_pointer_cast(cifPoly), // optional block
static_pointer_cast(myOutput),
});
for (auto& p : plugins) {
if (p) {
myFlowgraph->connect(prev_plugin, p);
prev_plugin = p;
}
}
#endif
}
////////////////////////////////////////////////////////////////////
// Processing data
////////////////////////////////////////////////////////////////////
return myFlowgraph->run();
}
meta_vec_t DabModulator::process_metadata(const meta_vec_t& metadataIn)
{
if (myOutput) {
return myOutput->get_latest_metadata();
}
return {};
}
void DabModulator::set_parameter(const string& parameter, const string& value)
{
if (parameter == "rate") {
throw ParameterError("Parameter 'rate' is read-only");
}
else {
stringstream ss;
ss << "Parameter '" << parameter <<
"' is not exported by controllable " << get_rc_name();
throw ParameterError(ss.str());
}
}
const string DabModulator::get_parameter(const string& parameter) const
{
stringstream ss;
if (parameter == "rate") {
ss << m_settings.outputRate;
}
else {
ss << "Parameter '" << parameter <<
"' is not exported by controllable " << get_rc_name();
throw ParameterError(ss.str());
}
return ss.str();
}