/* Copyright (C) 2007, 2008, 2009, 2010, 2011, 2012 Her Majesty the Queen in Right of Canada (Communications Research Center Canada) Copyright (C) 2015 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 "DabModulator.h" #include "PcDebug.h" #include "FrameMultiplexer.h" #include "PrbsGenerator.h" #include "BlockPartitioner.h" #include "QpskSymbolMapper.h" #include "FrequencyInterleaver.h" #include "PhaseReference.h" #include "DifferentialModulator.h" #include "NullSymbol.h" #include "SignalMultiplexer.h" #include "CicEqualizer.h" #include "OfdmGenerator.h" #include "GainControl.h" #include "GuardIntervalInserter.h" #include "Resampler.h" #include "ConvEncoder.h" #include "FIRFilter.h" #include "TII.h" #include "PuncturingEncoder.h" #include "TimeInterleaver.h" #include "TimestampDecoder.h" #include "RemoteControl.h" #include "Log.h" using namespace boost; DabModulator::DabModulator( double tist_offset_s, unsigned tist_delay_stages, RemoteControllers* rcs, unsigned outputRate, unsigned clockRate, unsigned dabMode, GainMode gainMode, float digGain, float normalise, std::string filterTapsFilename ) : ModCodec(ModFormat(1), ModFormat(0)), myOutputRate(outputRate), myClockRate(clockRate), myDabMode(dabMode), myGainMode(gainMode), myDigGain(digGain), myNormalise(normalise), myEtiReader(EtiReader(tist_offset_s, tist_delay_stages, rcs)), myFlowgraph(NULL), myFilterTapsFilename(filterTapsFilename), myRCs(rcs) { PDEBUG("DabModulator::DabModulator(%u, %u, %u, %u) @ %p\n", outputRate, clockRate, dabMode, gainMode, this); if (myDabMode == 0) { setMode(2); } else { setMode(myDabMode); } } DabModulator::~DabModulator() { PDEBUG("DabModulator::~DabModulator() @ %p\n", this); delete myFlowgraph; } 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"); } myOutputFormat.size((size_t)((myNullSize + (myNbSymbols * mySymSize)) * sizeof(complexf) / 2048000.0 * myOutputRate)); } int DabModulator::process(Buffer* const dataIn, Buffer* dataOut) { PDEBUG("DabModulator::process(dataIn: %p, dataOut: %p)\n", dataIn, dataOut); myEtiReader.process(dataIn); if (myFlowgraph == NULL) { unsigned mode = myEtiReader.getMode(); if (myDabMode != 0) { mode = myDabMode; } else if (mode == 0) { mode = 4; } setMode(mode); myFlowgraph = new Flowgraph(); //////////////////////////////////////////////////////////////// // CIF data initialisation //////////////////////////////////////////////////////////////// shared_ptr cifPrbs(new PrbsGenerator(864 * 8, 0x110)); shared_ptr cifMux( new FrameMultiplexer(myFicSizeOut + 864 * 8, &myEtiReader.getSubchannels())); shared_ptr cifPart( new BlockPartitioner(mode, myEtiReader.getFp())); shared_ptr cifMap(new QpskSymbolMapper(myNbCarriers)); shared_ptr cifRef(new PhaseReference(mode)); shared_ptr cifFreq(new FrequencyInterleaver(mode)); shared_ptr cifDiff( new DifferentialModulator(myNbCarriers)); shared_ptr cifNull(new NullSymbol(myNbCarriers)); shared_ptr cifSig(new SignalMultiplexer( (1 + myNbSymbols) * myNbCarriers * sizeof(complexf))); // TODO this needs a review bool useCicEq = false; unsigned cic_ratio = 1; if (myClockRate) { cic_ratio = myClockRate / myOutputRate; cic_ratio /= 4; // FPGA DUC if (myClockRate == 400000000) { // USRP2 if (cic_ratio & 1) { // odd useCicEq = true; } // even, no filter } else { useCicEq = true; } } shared_ptr cifCicEq(new CicEqualizer(myNbCarriers, (float)mySpacing * (float)myOutputRate / 2048000.0f, cic_ratio)); shared_ptr tii(new TII(myDabMode, 3, 16)); shared_ptr cifOfdm( new OfdmGenerator((1 + myNbSymbols), myNbCarriers, mySpacing)); shared_ptr cifGain( new GainControl(mySpacing, myGainMode, myDigGain, myNormalise)); cifGain->enrol_at(*myRCs); shared_ptr cifGuard( new GuardIntervalInserter(myNbSymbols, mySpacing, myNullSize, mySymSize)); FIRFilter* cifFilter = NULL; if (myFilterTapsFilename != "") { cifFilter = new FIRFilter(myFilterTapsFilename); cifFilter->enrol_at(*myRCs); } shared_ptr myOutput(new OutputMemory(dataOut)); Resampler* cifRes = NULL; if (myOutputRate != 2048000) { cifRes = new Resampler(2048000, myOutputRate, mySpacing); } else { fprintf(stderr, "No resampler\n"); } myFlowgraph->connect(cifPrbs, cifMux); //////////////////////////////////////////////////////////////// // Processing FIC //////////////////////////////////////////////////////////////// shared_ptr fic(myEtiReader.getFic()); //////////////////////////////////////////////////////////////// // Data initialisation //////////////////////////////////////////////////////////////// myFicSizeIn = fic->getFramesize(); //////////////////////////////////////////////////////////////// // Modules configuration //////////////////////////////////////////////////////////////// // Configuring FIC channel PDEBUG("FIC:\n"); PDEBUG(" Framesize: %zu\n", fic->getFramesize()); // Configuring prbs generator shared_ptr ficPrbs(new PrbsGenerator(myFicSizeIn, 0x110)); // Configuring convolutionnal encoder shared_ptr ficConv(new ConvEncoder(myFicSizeIn)); // Configuring puncturing encoder shared_ptr ficPunc(new PuncturingEncoder()); std::vector rules = fic->get_rules(); std::vector::const_iterator rule; for (rule = rules.begin(); rule != rules.end(); ++rule) { 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 //////////////////////////////////////////////////////////////// std::vector > subchannels = myEtiReader.getSubchannels(); std::vector >::const_iterator subchannel; for (subchannel = subchannels.begin(); subchannel != subchannels.end(); ++subchannel) { //////////////////////////////////////////////////////////// // 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 shared_ptr subchPrbs( new PrbsGenerator(subchSizeIn, 0x110)); // Configuring convolutionnal encoder shared_ptr subchConv( new ConvEncoder(subchSizeIn)); // Configuring puncturing encoder shared_ptr subchPunc( new PuncturingEncoder()); std::vector rules = (*subchannel)->get_rules(); std::vector::const_iterator rule; for (rule = rules.begin(); rule != rules.end(); ++rule) { 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 shared_ptr subchInterleaver( new TimeInterleaver(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); myFlowgraph->connect(cifPart, cifMap); myFlowgraph->connect(cifMap, cifFreq); myFlowgraph->connect(cifRef, cifDiff); myFlowgraph->connect(cifFreq, cifDiff); myFlowgraph->connect(cifNull, cifSig); myFlowgraph->connect(cifDiff, cifSig); myFlowgraph->connect(tii, cifSig); if (useCicEq) { myFlowgraph->connect(cifSig, cifCicEq); myFlowgraph->connect(cifCicEq, cifOfdm); } else { myFlowgraph->connect(cifSig, cifOfdm); } myFlowgraph->connect(cifOfdm, cifGain); myFlowgraph->connect(cifGain, cifGuard); if (myFilterTapsFilename != "") { shared_ptr cifFilterptr(cifFilter); myFlowgraph->connect(cifGuard, cifFilterptr); if (cifRes != NULL) { shared_ptr res(cifRes); myFlowgraph->connect(cifFilterptr, res); myFlowgraph->connect(res, myOutput); } else { myFlowgraph->connect(cifFilterptr, myOutput); } } else { //no filtering if (cifRes != NULL) { shared_ptr res(cifRes); myFlowgraph->connect(cifGuard, res); myFlowgraph->connect(res, myOutput); } else { myFlowgraph->connect(cifGuard, myOutput); } } } //////////////////////////////////////////////////////////////////// // Proccessing data //////////////////////////////////////////////////////////////////// return myFlowgraph->run(); }