/* Copyright (C) 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012 Her Majesty the Queen in Right of Canada (Communications Research Center Canada) Copyright (C) 2017 Matthias P. Braendli, matthias.braendli@mpb.li */ /* This file is part of ODR-DabMux. ODR-DabMux 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-DabMux 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-DabMux. If not, see . */ #include "fig/FIG0_21.h" #include "utils.h" namespace FIC { FIG0_21::FIG0_21(FIGRuntimeInformation *rti) : m_rti(rti), m_initialised(false) { } FillStatus FIG0_21::fill(uint8_t *buf, size_t max_size) { FillStatus fs; size_t remaining = max_size; auto ensemble = m_rti->ensemble; if (not m_initialised) { freqInfoFIG0_21 = ensemble->frequency_information.begin(); m_initialised = true; } FIGtype0* fig0 = nullptr; for (; freqInfoFIG0_21 != ensemble->frequency_information.end(); ++freqInfoFIG0_21) { size_t required_size = sizeof(struct FIGtype0_21_header); if (fig0 == nullptr) { if (remaining < 2 + required_size) { break; } fig0 = (FIGtype0*)buf; fig0->FIGtypeNumber = 0; fig0->Length = 1; // Database start or continuation flag, EN 300 401 Clause 5.2.2.1 part b) fig0->CN = (freqInfoFIG0_21 == ensemble->frequency_information.begin() ? 0 : 1); fig0->OE = 0; fig0->PD = false; fig0->Extension = 21; buf += 2; remaining -= 2; } if (remaining < required_size) { break; } for (const auto& fle : (*freqInfoFIG0_21)->frequency_information) { size_t list_entry_size = sizeof(FIGtype0_21_fi_list_header); switch (fle.rm) { case RangeModulation::dab_ensemble: list_entry_size += fle.fi_dab.frequencies.size() * 3; break; case RangeModulation::fm_with_rds: list_entry_size += fle.fi_fm.frequencies.size() * 3; break; case RangeModulation::amss: list_entry_size += 1; // Id field 2 list_entry_size += fle.fi_amss.frequencies.size() * 3; break; case RangeModulation::drm: list_entry_size += 1; // Id field 2 list_entry_size += fle.fi_drm.frequencies.size() * 3; break; } if (remaining < list_entry_size) { break; } auto *fig0_21_header = (FIGtype0_21_header*)buf; fig0_21_header->rfa = 0; // This was RegionId in EN 300 401 V1.4.1 switch (fle.rm) { case RangeModulation::dab_ensemble: fig0_21_header->length_fi = fle.fi_dab.frequencies.size(); break; case RangeModulation::fm_with_rds: fig0_21_header->length_fi = fle.fi_fm.frequencies.size(); break; case RangeModulation::drm: fig0_21_header->length_fi = fle.fi_drm.frequencies.size(); break; case RangeModulation::amss: fig0_21_header->length_fi = fle.fi_amss.frequencies.size(); break; } fig0->Length += sizeof(struct FIGtype0_21_header); buf += sizeof(struct FIGtype0_21_header); remaining -= sizeof(struct FIGtype0_21_header); auto *fi_list_header = (FIGtype0_21_fi_list_header*)buf; fig0->Length += sizeof(struct FIGtype0_21_fi_list_header); buf += sizeof(struct FIGtype0_21_fi_list_header); remaining -= sizeof(struct FIGtype0_21_fi_list_header); fi_list_header->continuity = fle.continuity; switch (fle.rm) { case RangeModulation::dab_ensemble: fi_list_header->id = fle.fi_dab.eid; fi_list_header->range_modulation = static_cast(fle.rm); assert(fle.fi_dab.frequencies.size() < 8); fi_list_header->length_freq_list = fle.fi_dab.frequencies.size(); for (const auto& freq : fle.fi_dab.frequencies) { auto *field = (FIGtype0_21_fi_dab_entry*)buf; field->control_field = static_cast(freq.control_field); field->setFreq(static_cast( freq.frequency * 1000.0f / 16.0f)); fig0->Length += 3; buf += 3; remaining -= 3; } break; case RangeModulation::fm_with_rds: fi_list_header->id = fle.fi_fm.pi_code; for (const auto& freq : fle.fi_fm.frequencies) { // RealFreq = 87.5 MHz + (F * 100kHz) // => F = (RealFreq - 87.5 MHz) / 100kHz // Do the whole calculation in kHz: *buf = (freq * 1000.0f - 87500.0f) / 100.0f; fig0->Length += 1; buf += 1; remaining -= 1; } break; case RangeModulation::drm: fi_list_header->id = (fle.fi_drm.drm_service_id) & 0xFFFF; // Id field 2 *buf = (fle.fi_drm.drm_service_id >> 16) & 0xFF; fig0->Length += 1; buf += 1; remaining -= 1; for (const auto& freq : fle.fi_drm.frequencies) { uint16_t *freq_field = (uint16_t*)buf; *freq_field = static_cast(freq * 1000.0f); fig0->Length += 2; buf += 2; remaining -= 2; } break; case RangeModulation::amss: fi_list_header->id = (fle.fi_amss.amss_service_id) & 0xFFFF; // Id field 2 *buf = (fle.fi_amss.amss_service_id >> 16) & 0xFF; fig0->Length += 1; buf += 1; remaining -= 1; for (const auto& freq : fle.fi_amss.frequencies) { uint16_t *freq_field = (uint16_t*)buf; *freq_field = static_cast(freq * 1000.0f); fig0->Length += 2; buf += 2; remaining -= 2; } break; } } // for over fle } // for over FI if (freqInfoFIG0_21 == ensemble->frequency_information.end()) { fs.complete_fig_transmitted = true; } fs.num_bytes_written = max_size - remaining; return fs; } }