/*
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) 2016
Matthias P. Braendli, matthias.braendli@mpb.li
Implementation of FIG0
*/
/*
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.h"
#include "fig/FIG0structs.h"
#include "utils.h"
namespace FIC {
//=========== FIG 0/0 ===========
FillStatus FIG0_0::fill(uint8_t *buf, size_t max_size)
{
FillStatus fs;
if (max_size < 6) {
fs.num_bytes_written = 0;
return fs;
}
FIGtype0_0 *fig0_0;
fig0_0 = (FIGtype0_0 *)buf;
fig0_0->FIGtypeNumber = 0;
fig0_0->Length = 5;
fig0_0->CN = 0;
fig0_0->OE = 0;
fig0_0->PD = 0;
fig0_0->Extension = 0;
fig0_0->EId = htons(m_rti->ensemble->id);
fig0_0->Change = 0;
fig0_0->Al = 0;
fig0_0->CIFcnt_hight = (m_rti->currentFrame / 250) % 20;
fig0_0->CIFcnt_low = (m_rti->currentFrame % 250);
fs.complete_fig_transmitted = true;
fs.num_bytes_written = 6;
return fs;
}
//=========== FIG 0/1 ===========
FIG0_1::FIG0_1(FIGRuntimeInformation *rti) :
m_rti(rti),
m_initialised(false),
m_watermarkSize(0),
m_watermarkPos(0)
{
uint8_t buffer[sizeof(m_watermarkData) / 2];
snprintf((char*)buffer, sizeof(buffer),
"%s %s, %s %s",
PACKAGE_NAME,
#if defined(GITVERSION)
GITVERSION,
#else
PACKAGE_VERSION,
#endif
__DATE__, __TIME__);
memset(m_watermarkData, 0, sizeof(m_watermarkData));
m_watermarkData[0] = 0x55; // Sync
m_watermarkData[1] = 0x55;
m_watermarkSize = 16;
for (unsigned i = 0; i < strlen((char*)buffer); ++i) {
for (int j = 0; j < 8; ++j) {
uint8_t bit = (buffer[m_watermarkPos >> 3] >> (7 - (m_watermarkPos & 0x07))) & 1;
m_watermarkData[m_watermarkSize >> 3] |= bit << (7 - (m_watermarkSize & 0x07));
++m_watermarkSize;
bit = 1;
m_watermarkData[m_watermarkSize >> 3] |= bit << (7 - (m_watermarkSize & 0x07));
++m_watermarkSize;
++m_watermarkPos;
}
}
m_watermarkPos = 0;
}
FillStatus FIG0_1::fill(uint8_t *buf, size_t max_size)
{
#define FIG0_1_TRACE discard
FillStatus fs;
size_t remaining = max_size;
etiLog.level(FIG0_1_TRACE) << "FIG0_1::fill initialised=" <<
(m_initialised ? 1 : 0);
const int watermark_bit = (m_watermarkData[m_watermarkPos >> 3] >>
(7 - (m_watermarkPos & 0x07))) & 1;
const bool iterate_forward = (watermark_bit == 1);
if (not m_initialised) {
m_initialised = true;
subchannels = m_rti->ensemble->subchannels;
if (not iterate_forward) {
std::reverse(subchannels.begin(), subchannels.end());
}
subchannelFIG0_1 = subchannels.begin();
}
if (max_size < 6) {
return fs;
}
FIGtype0_1 *figtype0_1 = NULL;
// Rotate through the subchannels until there is no more
// space in the FIG0/1
for (; subchannelFIG0_1 != subchannels.end(); ++subchannelFIG0_1 ) {
size_t subch_iter_ix = std::distance(subchannels.begin(), subchannelFIG0_1);
etiLog.level(FIG0_1_TRACE) << "FIG0_1::fill loop ix=" << subch_iter_ix;
dabProtection* protection = &(*subchannelFIG0_1)->protection;
if (figtype0_1 == NULL) {
etiLog.level(FIG0_1_TRACE) << "FIG0_1::fill header " <<
(protection->form == UEP ? "UEP " : "EEP ") << remaining;
if ( (protection->form == UEP && remaining < 2 + 3) ||
(protection->form == EEP && remaining < 2 + 4) ) {
etiLog.level(FIG0_1_TRACE) << "FIG0_1::fill no space for header";
break;
}
figtype0_1 = (FIGtype0_1*)buf;
figtype0_1->FIGtypeNumber = 0;
figtype0_1->Length = 1;
figtype0_1->CN = 0;
figtype0_1->OE = 0;
figtype0_1->PD = 0;
figtype0_1->Extension = 1;
buf += 2;
remaining -= 2;
}
else if ( (protection->form == UEP && remaining < 3) ||
(protection->form == EEP && remaining < 4) ) {
etiLog.level(FIG0_1_TRACE) << "FIG0_1::fill no space for fig " <<
(protection->form == UEP ? "UEP " : "EEP ") << remaining;
break;
}
if (protection->form == UEP) {
FIG_01_SubChannel_ShortF *fig0_1subchShort =
(FIG_01_SubChannel_ShortF*)buf;
fig0_1subchShort->SubChId = (*subchannelFIG0_1)->id;
fig0_1subchShort->StartAdress_high =
(*subchannelFIG0_1)->startAddress / 256;
fig0_1subchShort->StartAdress_low =
(*subchannelFIG0_1)->startAddress % 256;
fig0_1subchShort->Short_Long_form = 0;
fig0_1subchShort->TableSwitch = 0;
fig0_1subchShort->TableIndex =
protection->uep.tableIndex;
buf += 3;
remaining -= 3;
figtype0_1->Length += 3;
etiLog.level(FIG0_1_TRACE) << "FIG0_1::fill insert UEP id=" <<
(int)fig0_1subchShort->SubChId << " rem=" << remaining
<< " ix=" << subch_iter_ix;
}
else if (protection->form == EEP) {
FIG_01_SubChannel_LongF *fig0_1subchLong1 =
(FIG_01_SubChannel_LongF*)buf;
fig0_1subchLong1->SubChId = (*subchannelFIG0_1)->id;
fig0_1subchLong1->StartAdress_high =
(*subchannelFIG0_1)->startAddress / 256;
fig0_1subchLong1->StartAdress_low =
(*subchannelFIG0_1)->startAddress % 256;
fig0_1subchLong1->Short_Long_form = 1;
fig0_1subchLong1->Option = protection->eep.GetOption();
fig0_1subchLong1->ProtectionLevel =
protection->level;
fig0_1subchLong1->Sub_ChannelSize_high =
(*subchannelFIG0_1)->getSizeCu() / 256;
fig0_1subchLong1->Sub_ChannelSize_low =
(*subchannelFIG0_1)->getSizeCu() % 256;
buf += 4;
remaining -= 4;
figtype0_1->Length += 4;
etiLog.level(FIG0_1_TRACE) << "FIG0_1::fill insert EEP id=" <<
(int)fig0_1subchLong1->SubChId << " rem=" << remaining
<< " ix=" << subch_iter_ix;
}
}
size_t subch_iter_ix = std::distance(subchannels.begin(), subchannelFIG0_1);
etiLog.level(FIG0_1_TRACE) << "FIG0_1::fill loop out, rem=" << remaining
<< " ix=" << subch_iter_ix;
if (subchannelFIG0_1 == subchannels.end()) {
etiLog.level(FIG0_1_TRACE) << "FIG0_1::fill completed, rem=" << remaining;
m_initialised = false;
fs.complete_fig_transmitted = true;
m_watermarkPos++;
if (m_watermarkPos == m_watermarkSize) {
m_watermarkPos = 0;
}
}
fs.num_bytes_written = max_size - remaining;
etiLog.level(FIG0_1_TRACE) << "FIG0_1::fill wrote " << fs.num_bytes_written;
return fs;
}
//=========== FIG 0/2 ===========
FIG0_2::FIG0_2(FIGRuntimeInformation *rti) :
m_rti(rti),
m_initialised(false),
m_inserting_audio_not_data(false)
{
}
FillStatus FIG0_2::fill(uint8_t *buf, size_t max_size)
{
#define FIG0_2_TRACE discard
using namespace std;
FillStatus fs;
FIGtype0_2 *fig0_2 = NULL;
int cur = 0;
ssize_t remaining = max_size;
const auto ensemble = m_rti->ensemble;
etiLog.level(FIG0_2_TRACE) << "FIG0_2::fill init " << (m_initialised ? 1 : 0) <<
" ********************************";
for (const auto& s : ensemble->services) {
// Exclude Fidc type services, TODO unsupported
auto type = s->getType(ensemble);
if (type == subchannel_type_t::Fidc) {
throw invalid_argument("FIG0/2 does not support FIDC");
}
}
if (not m_initialised) {
m_audio_services.clear();
copy_if(ensemble->services.begin(),
ensemble->services.end(),
back_inserter(m_audio_services),
[&](shared_ptr& s) {
return s->isProgramme(ensemble);
} );
m_data_services.clear();
copy_if(ensemble->services.begin(),
ensemble->services.end(),
back_inserter(m_data_services),
[&](shared_ptr& s) {
return not s->isProgramme(ensemble);
} );
m_initialised = true;
m_inserting_audio_not_data = !m_inserting_audio_not_data;
if (m_inserting_audio_not_data) {
serviceFIG0_2 = m_audio_services.begin();
}
else {
serviceFIG0_2 = m_data_services.begin();
}
etiLog.level(FIG0_2_TRACE) << "FIG0_2::fill we have " <<
m_audio_services.size() << " audio and " <<
m_data_services.size() << " data services. Inserting " <<
(m_inserting_audio_not_data ? "AUDIO" : "DATA");
}
const auto last_service = m_inserting_audio_not_data ?
m_audio_services.end() : m_data_services.end();
// Rotate through the subchannels until there is no more
// space
for (; serviceFIG0_2 != last_service; ++serviceFIG0_2) {
const auto type = (*serviceFIG0_2)->getType(ensemble);
const auto isProgramme = (*serviceFIG0_2)->isProgramme(ensemble);
etiLog.log(FIG0_2_TRACE, "FIG0_2::fill loop SId=%04x %s/%s",
(*serviceFIG0_2)->id,
m_inserting_audio_not_data ? "AUDIO" : "DATA",
type == subchannel_type_t::Audio ? "Audio" :
type == subchannel_type_t::Packet ? "Packet" :
type == subchannel_type_t::DataDmb ? "DataDmb" :
type == subchannel_type_t::Fidc ? "Fidc" : "?");
// filter out services which have no components
if ((*serviceFIG0_2)->nbComponent(ensemble->components) == 0) {
etiLog.level(FIG0_2_TRACE) << "FIG0_2::fill no components ";
continue;
}
++cur;
const int required_size = isProgramme ?
3 + 2 * (*serviceFIG0_2)->nbComponent(ensemble->components) :
5 + 2 * (*serviceFIG0_2)->nbComponent(ensemble->components);
if (fig0_2 == NULL) {
etiLog.level(FIG0_2_TRACE) << "FIG0_2::fill header";
if (remaining < 2 + required_size) {
etiLog.level(FIG0_2_TRACE) << "FIG0_2::fill header no place" <<
" rem=" << remaining << " req=" << 2 + required_size;
break;
}
fig0_2 = (FIGtype0_2 *)buf;
fig0_2->FIGtypeNumber = 0;
fig0_2->Length = 1;
fig0_2->CN = 0;
fig0_2->OE = 0;
fig0_2->PD = isProgramme ? 0 : 1;
fig0_2->Extension = 2;
buf += 2;
remaining -= 2;
}
else if (remaining < required_size) {
etiLog.level(FIG0_2_TRACE) << "FIG0_2::fill no place" <<
" rem=" << remaining << " req=" << required_size;
break;
}
if (type == subchannel_type_t::Audio) {
auto fig0_2serviceAudio = (FIGtype0_2_Service*)buf;
fig0_2serviceAudio->SId = htons((*serviceFIG0_2)->id);
fig0_2serviceAudio->Local_flag = 0;
fig0_2serviceAudio->CAId = 0;
fig0_2serviceAudio->NbServiceComp =
(*serviceFIG0_2)->nbComponent(ensemble->components);
buf += 3;
fig0_2->Length += 3;
remaining -= 3;
etiLog.log(FIG0_2_TRACE, "FIG0_2::fill audio SId=%04x",
(*serviceFIG0_2)->id);
}
else {
auto fig0_2serviceData = (FIGtype0_2_Service_data*)buf;
fig0_2serviceData->SId = htonl((*serviceFIG0_2)->id);
fig0_2serviceData->Local_flag = 0;
fig0_2serviceData->CAId = 0;
fig0_2serviceData->NbServiceComp =
(*serviceFIG0_2)->nbComponent(ensemble->components);
buf += 5;
fig0_2->Length += 5;
remaining -= 5;
etiLog.log(FIG0_2_TRACE, "FIG0_2::fill data SId=%04x",
(*serviceFIG0_2)->id);
}
int curCpnt = 0;
for (auto component = getComponent(
ensemble->components, (*serviceFIG0_2)->id );
component != ensemble->components.end();
component = getComponent(
ensemble->components,
(*serviceFIG0_2)->id,
component )
) {
auto subchannel = getSubchannel(
ensemble->subchannels, (*component)->subchId);
etiLog.log(FIG0_2_TRACE, "FIG0_2::fill comp sub=%04x srv=%04x",
(*component)->subchId, (*component)->serviceId);
if (subchannel == ensemble->subchannels.end()) {
etiLog.log(error,
"Subchannel %i does not exist for component "
"of service %i\n",
(*component)->subchId, (*component)->serviceId);
throw MuxInitException();
}
switch ((*subchannel)->type) {
case subchannel_type_t::Audio:
{
auto audio_description = (FIGtype0_2_audio_component*)buf;
audio_description->TMid = 0;
audio_description->ASCTy = (*component)->type;
audio_description->SubChId = (*subchannel)->id;
audio_description->PS = ((curCpnt == 0) ? 1 : 0);
audio_description->CA_flag = 0;
}
break;
case subchannel_type_t::DataDmb:
{
auto data_description = (FIGtype0_2_data_component*)buf;
data_description->TMid = 1;
data_description->DSCTy = (*component)->type;
data_description->SubChId = (*subchannel)->id;
data_description->PS = ((curCpnt == 0) ? 1 : 0);
data_description->CA_flag = 0;
}
break;
case subchannel_type_t::Packet:
{
auto packet_description = (FIGtype0_2_packet_component*)buf;
packet_description->TMid = 3;
packet_description->setSCId((*component)->packet.id);
packet_description->PS = ((curCpnt == 0) ? 1 : 0);
packet_description->CA_flag = 0;
}
break;
default:
etiLog.log(error,
"Component type not supported\n");
throw MuxInitException();
}
buf += 2;
fig0_2->Length += 2;
remaining -= 2;
if (remaining < 0) {
etiLog.log(error,
"Sorry, no space left in FIG 0/2 to insert "
"component %i of program service %i.\n",
curCpnt, cur);
throw MuxInitException();
}
++curCpnt;
etiLog.log(FIG0_2_TRACE, "FIG0_2::fill comp length=%d",
fig0_2->Length);
}
}
if (serviceFIG0_2 == last_service) {
etiLog.log(FIG0_2_TRACE, "FIG0_2::loop reached last");
m_initialised = false;
fs.complete_fig_transmitted = !m_inserting_audio_not_data;
}
etiLog.log(FIG0_2_TRACE, "FIG0_2::loop end complete=%d",
fs.complete_fig_transmitted ? 1 : 0);
fs.num_bytes_written = max_size - remaining;
return fs;
}
//=========== FIG 0/3 ===========
FIG0_3::FIG0_3(FIGRuntimeInformation *rti) :
m_rti(rti),
m_initialised(false)
{
}
FillStatus FIG0_3::fill(uint8_t *buf, size_t max_size)
{
FillStatus fs;
ssize_t remaining = max_size;
auto ensemble = m_rti->ensemble;
if (not m_initialised) {
componentFIG0_3 = m_rti->ensemble->components.end();
m_initialised = true;
}
FIGtype0 *fig0 = NULL;
for (; componentFIG0_3 != ensemble->components.end();
++componentFIG0_3) {
auto subchannel = getSubchannel(ensemble->subchannels,
(*componentFIG0_3)->subchId);
if (subchannel == ensemble->subchannels.end()) {
etiLog.log(error,
"Subchannel %i does not exist for component "
"of service %i\n",
(*componentFIG0_3)->subchId, (*componentFIG0_3)->serviceId);
throw MuxInitException();
}
if ((*subchannel)->type != subchannel_type_t::Packet)
continue;
const int required_size = 5 + (m_rti->factumAnalyzer ? 2 : 0);
if (fig0 == NULL) {
if (remaining < 2 + required_size) {
break;
}
fig0 = (FIGtype0*)buf;
fig0->FIGtypeNumber = 0;
fig0->Length = 1;
fig0->CN = 0;
fig0->OE = 0;
fig0->PD = 0;
fig0->Extension = 3;
buf += 2;
remaining -= 2;
}
else if (remaining < required_size) {
break;
}
/* Warning: When bit SCCA_flag is unset(0), the multiplexer
* R&S does not send the SCCA field. But, in the Factum ETI
* analyzer, if this field is not there, it is an error.
*/
FIGtype0_3 *fig0_3 = (FIGtype0_3*)buf;
fig0_3->setSCId((*componentFIG0_3)->packet.id);
fig0_3->rfa = 0;
fig0_3->SCCA_flag = 0;
// if 0, datagroups are used
fig0_3->DG_flag = !(*componentFIG0_3)->packet.datagroup;
fig0_3->rfu = 0;
fig0_3->DSCTy = (*componentFIG0_3)->type;
fig0_3->SubChId = (*subchannel)->id;
fig0_3->setPacketAddress((*componentFIG0_3)->packet.address);
if (m_rti->factumAnalyzer) {
fig0_3->SCCA = 0;
}
fig0->Length += 5;
buf += 5;
remaining -= 5;
if (m_rti->factumAnalyzer) {
fig0->Length += 2;
buf += 2;
remaining -= 2;
}
}
if (componentFIG0_3 == ensemble->components.end()) {
componentFIG0_3 = ensemble->components.begin();
fs.complete_fig_transmitted = true;
}
fs.num_bytes_written = max_size - remaining;
return fs;
}
//=========== FIG 0/5 ===========
FIG0_5::FIG0_5(FIGRuntimeInformation *rti) :
m_rti(rti),
m_initialised(false)
{
}
FillStatus FIG0_5::fill(uint8_t *buf, size_t max_size)
{
FillStatus fs;
ssize_t remaining = max_size;
auto ensemble = m_rti->ensemble;
if (not m_initialised) {
componentFIG0_5 = m_rti->ensemble->components.end();
m_initialised = true;
}
FIGtype0* fig0 = NULL;
for (; componentFIG0_5 != ensemble->components.end();
++componentFIG0_5) {
auto service = getService(*componentFIG0_5,
ensemble->services);
auto subchannel = getSubchannel(ensemble->subchannels,
(*componentFIG0_5)->subchId);
if (subchannel == ensemble->subchannels.end()) {
etiLog.log(error,
"Subchannel %i does not exist for component "
"of service %i\n",
(*componentFIG0_5)->subchId,
(*componentFIG0_5)->serviceId);
throw MuxInitException();
}
if ( (*service)->language == 0) {
continue;
}
const int required_size = 2;
if (fig0 == NULL) {
if (remaining < 2 + required_size) {
break;
}
fig0 = (FIGtype0*)buf;
fig0->FIGtypeNumber = 0;
fig0->Length = 1;
fig0->CN = 0;
fig0->OE = 0;
fig0->PD = 0;
fig0->Extension = 5;
buf += 2;
remaining -= 2;
}
else if (remaining < required_size) {
break;
}
FIGtype0_5_short *fig0_5 = (FIGtype0_5_short*)buf;
fig0_5->LS = 0;
fig0_5->rfu = 0;
fig0_5->SubChId = (*subchannel)->id;
fig0_5->language = (*service)->language;
fig0->Length += 2;
buf += 2;
remaining -= 2;
}
if (componentFIG0_5 == ensemble->components.end()) {
componentFIG0_5 = ensemble->components.begin();
fs.complete_fig_transmitted = true;
}
fs.num_bytes_written = max_size - remaining;
return fs;
}
//=========== FIG 0/6 ===========
FIG0_6::FIG0_6(FIGRuntimeInformation *rti) :
m_rti(rti),
m_initialised(false)
{
}
FillStatus FIG0_6::fill(uint8_t *buf, size_t max_size)
{
FillStatus fs;
ssize_t remaining = max_size;
auto ensemble = m_rti->ensemble;
if (not m_initialised) {
linkageSetFIG0_6 = m_rti->ensemble->linkagesets.end();
m_initialised = true;
}
FIGtype0* fig0 = NULL;
for (; linkageSetFIG0_6 != ensemble->linkagesets.end();
++linkageSetFIG0_6) {
const bool PD = false;
const bool ILS = (*linkageSetFIG0_6)->international;
// need to add key service to num_ids
const size_t num_ids = 1 + (*linkageSetFIG0_6)->id_list.size();
const size_t headersize = sizeof(struct FIGtype0_6_header);
const int required_size = sizeof(struct FIGtype0_6) +
(num_ids > 0 ?
headersize + (PD == 0 ? (ILS == 0 ? 2*num_ids : 3*num_ids) : 4*num_ids) :
0);
if (fig0 == NULL) {
if (remaining < 2 + required_size) {
break;
}
fig0 = (FIGtype0*)buf;
fig0->FIGtypeNumber = 0;
fig0->Length = 1;
fig0->CN = 0;
fig0->OE = 0;
fig0->PD = PD;
fig0->Extension = 5;
buf += 2;
remaining -= 2;
}
else if (remaining < required_size) {
break;
}
FIGtype0_6 *fig0_6 = (FIGtype0_6*)buf;
fig0_6->IdListFlag = (num_ids > 0);
fig0_6->LA = (*linkageSetFIG0_6)->active;
fig0_6->SH = (*linkageSetFIG0_6)->hard;
fig0_6->ILS = ILS;
fig0_6->LSN = (*linkageSetFIG0_6)->lsn;
fig0->Length += sizeof(struct FIGtype0_6);
buf += sizeof(struct FIGtype0_6);
remaining -= sizeof(struct FIGtype0_6);
if (num_ids > 0) {
FIGtype0_6_header *header = (FIGtype0_6_header*)buf;
header->rfu = 0;
if (num_ids > 0x0F) {
etiLog.log(error, "Too large number of links for linkage set 0x%04x",
(*linkageSetFIG0_6)->lsn);
throw MuxInitException();
}
header->IdLQ = 0; // TODO not only DAB
header->rfa = 0;
header->num_ids = num_ids;
fig0->Length += headersize;
buf += headersize;
remaining -= headersize;
// TODO insert key service first
const std::string keyserviceuid =(*linkageSetFIG0_6)->keyservice;
const auto& keyservice = std::find_if(
ensemble->services.begin(),
ensemble->services.end(),
[&](const std::shared_ptr srv) {
return srv->uid == keyserviceuid;
});
if (keyservice == ensemble->services.end()) {
etiLog.log(error, "Invalid key service %s in linkage set 0x%04x",
keyserviceuid.c_str(), (*linkageSetFIG0_6)->lsn);
throw MuxInitException();
}
for (const auto& l : (*linkageSetFIG0_6)->id_list) {
if (l.type != ServiceLinkType::DAB) {
etiLog.log(error, "TODO only DAB links supported. (linkage set 0x%04x)",
(*linkageSetFIG0_6)->lsn);
throw MuxInitException();
}
}
if (not PD and not ILS) {
buf[0] = (*keyservice)->id >> 8;
buf[1] = (*keyservice)->id & 0xFF;
fig0->Length += 2;
buf += 2;
remaining -= 2;
for (const auto& l : (*linkageSetFIG0_6)->id_list) {
buf[0] = l.id >> 8;
buf[1] = l.id & 0xFF;
fig0->Length += 2;
buf += 2;
remaining -= 2;
}
}
if (not PD and ILS) {
buf[0] = ensemble->ecc;
buf[1] = (*keyservice)->id >> 8;
buf[2] = (*keyservice)->id & 0xFF;
fig0->Length += 3;
buf += 3;
remaining -= 3;
for (const auto& l : (*linkageSetFIG0_6)->id_list) {
buf[0] = l.ecc;
buf[1] = l.id >> 8;
buf[2] = l.id & 0xFF;
fig0->Length += 3;
buf += 3;
remaining -= 3;
}
}
else { // PD == true
// TODO if IdLQ is 11, MSB shall be zero
buf[0] = (*keyservice)->id >> 24;
buf[1] = (*keyservice)->id >> 16;
buf[2] = (*keyservice)->id >> 8;
buf[3] = (*keyservice)->id & 0xFF;
fig0->Length += 4;
buf += 4;
remaining -= 4;
for (const auto& l : (*linkageSetFIG0_6)->id_list) {
buf[0] = l.id >> 24;
buf[1] = l.id >> 16;
buf[2] = l.id >> 8;
buf[3] = l.id & 0xFF;
fig0->Length += 4;
buf += 4;
remaining -= 4;
}
}
}
fig0->Length += required_size;
buf += required_size;
remaining -= required_size;
}
if (linkageSetFIG0_6 == ensemble->linkagesets.end()) {
linkageSetFIG0_6 = ensemble->linkagesets.begin();
fs.complete_fig_transmitted = true;
}
fs.num_bytes_written = max_size - remaining;
return fs;
}
//=========== FIG 0/8 ===========
FIG0_8::FIG0_8(FIGRuntimeInformation *rti) :
m_rti(rti),
m_initialised(false),
m_transmit_programme(false)
{
}
FillStatus FIG0_8::fill(uint8_t *buf, size_t max_size)
{
FillStatus fs;
auto ensemble = m_rti->ensemble;
ssize_t remaining = max_size;
if (not m_initialised) {
componentFIG0_8 = m_rti->ensemble->components.end();
m_initialised = true;
}
FIGtype0* fig0 = NULL;
for (; componentFIG0_8 != ensemble->components.end();
++componentFIG0_8) {
auto service = getService(*componentFIG0_8,
ensemble->services);
auto subchannel = getSubchannel(ensemble->subchannels,
(*componentFIG0_8)->subchId);
if (subchannel == ensemble->subchannels.end()) {
etiLog.log(error,
"Subchannel %i does not exist for component "
"of service %i\n",
(*componentFIG0_8)->subchId,
(*componentFIG0_8)->serviceId);
throw MuxInitException();
}
if (m_transmit_programme and (*service)->isProgramme(ensemble)) {
const int required_size =
((*subchannel)->type == subchannel_type_t::Packet ? 5 : 4);
if (fig0 == NULL) {
if (remaining < 2 + required_size) {
break;
}
fig0 = (FIGtype0*)buf;
fig0->FIGtypeNumber = 0;
fig0->Length = 1;
fig0->CN = 0;
fig0->OE = 0;
fig0->PD = 0;
fig0->Extension = 8;
buf += 2;
remaining -= 2;
}
else if (remaining < required_size) {
break;
}
if ((*subchannel)->type == subchannel_type_t::Packet) { // Data packet
buf[0] = ((*componentFIG0_8)->serviceId >> 8) & 0xFF;
buf[1] = ((*componentFIG0_8)->serviceId) & 0xFF;
fig0->Length += 2;
buf += 2;
remaining -= 2;
FIGtype0_8_long* definition = (FIGtype0_8_long*)buf;
memset(definition, 0, 3);
definition->ext = 0; // no rfa
definition->SCIdS = (*componentFIG0_8)->SCIdS;
definition->LS = 1;
definition->setSCId((*componentFIG0_8)->packet.id);
fig0->Length += 3;
buf += 3; // 8 minus rfa
remaining -= 3;
}
else { // Audio, data stream or FIDC
buf[0] = ((*componentFIG0_8)->serviceId >> 8) & 0xFF;
buf[1] = ((*componentFIG0_8)->serviceId) & 0xFF;
fig0->Length += 2;
buf += 2;
remaining -= 2;
FIGtype0_8_short* definition = (FIGtype0_8_short*)buf;
memset(definition, 0, 2);
definition->ext = 0; // no rfa
definition->SCIdS = (*componentFIG0_8)->SCIdS;
definition->LS = 0;
definition->MscFic = 0;
definition->Id = (*componentFIG0_8)->subchId;
fig0->Length += 2;
buf += 2; // 4 minus rfa
remaining -= 2;
}
}
else if (!m_transmit_programme and !(*service)->isProgramme(ensemble)) {
// Data
const int required_size =
((*subchannel)->type == subchannel_type_t::Packet ? 7 : 6);
if (fig0 == NULL) {
if (remaining < 2 + required_size) {
break;
}
fig0 = (FIGtype0*)buf;
fig0->FIGtypeNumber = 0;
fig0->Length = 1;
fig0->CN = 0;
fig0->OE = 0;
fig0->PD = 1;
fig0->Extension = 8;
buf += 2;
remaining -= 2;
}
else if (remaining < required_size) {
break;
}
if ((*subchannel)->type == subchannel_type_t::Packet) { // Data packet
buf[0] = ((*componentFIG0_8)->serviceId >> 8) & 0xFF;
buf[1] = ((*componentFIG0_8)->serviceId) & 0xFF;
fig0->Length += 4;
buf += 4;
remaining -= 4;
FIGtype0_8_long* definition = (FIGtype0_8_long*)buf;
memset(definition, 0, 3);
definition->ext = 0; // no rfa
definition->SCIdS = (*componentFIG0_8)->SCIdS;
definition->LS = 1;
definition->setSCId((*componentFIG0_8)->packet.id);
fig0->Length += 3;
buf += 3; // 8 minus rfa
remaining -= 3;
}
else { // Audio, data stream or FIDC
buf[0] = ((*componentFIG0_8)->serviceId >> 8) & 0xFF;
buf[1] = ((*componentFIG0_8)->serviceId) & 0xFF;
fig0->Length += 4;
buf += 4;
remaining -= 4;
FIGtype0_8_short* definition = (FIGtype0_8_short*)buf;
memset(definition, 0, 2);
definition->ext = 0; // no rfa
definition->SCIdS = (*componentFIG0_8)->SCIdS;
definition->LS = 0;
definition->MscFic = 0;
definition->Id = (*componentFIG0_8)->subchId;
fig0->Length += 2;
buf += 2; // 4 minus rfa
remaining -= 2;
}
}
}
if (componentFIG0_8 == ensemble->components.end()) {
componentFIG0_8 = ensemble->components.begin();
// The full database is sent every second full loop
fs.complete_fig_transmitted = m_transmit_programme;
m_transmit_programme = not m_transmit_programme;
// Alternate between data and and programme FIG0/13,
// do not mix fig0 with PD=0 with extension 13 stuff
// that actually needs PD=1, and vice versa
}
fs.num_bytes_written = max_size - remaining;
return fs;
}
//=========== FIG 0/9 ===========
FIG0_9::FIG0_9(FIGRuntimeInformation *rti) :
m_rti(rti) {}
FillStatus FIG0_9::fill(uint8_t *buf, size_t max_size)
{
FillStatus fs;
auto ensemble = m_rti->ensemble;
size_t remaining = max_size;
if (remaining < 5) {
fs.num_bytes_written = 0;
return fs;
}
auto fig0_9 = (FIGtype0_9*)buf;
fig0_9->FIGtypeNumber = 0;
fig0_9->Length = 4;
fig0_9->CN = 0;
fig0_9->OE = 0;
fig0_9->PD = 0;
fig0_9->Extension = 9;
fig0_9->ext = 0;
fig0_9->rfa1 = 0; // Had a different meaning in EN 300 401 V1.4.1
if (ensemble->lto_auto) {
time_t now = time(NULL);
struct tm* ltime = localtime(&now);
time_t now2 = timegm(ltime);
ensemble->lto = (now2 - now) / 1800;
}
if (ensemble->lto >= 0) {
fig0_9->ensembleLto = ensemble->lto;
}
else {
/* Convert to 1-complement representation */
fig0_9->ensembleLto = (-ensemble->lto) | (1<<5);
}
fig0_9->ensembleEcc = ensemble->ecc;
fig0_9->tableId = ensemble->international_table;
buf += 5;
remaining -= 5;
/* No extended field, no support for services with different ECC */
fs.num_bytes_written = max_size - remaining;
fs.complete_fig_transmitted = true;
return fs;
}
//=========== FIG 0/10 ===========
FIG0_10::FIG0_10(FIGRuntimeInformation *rti) :
m_rti(rti)
{
}
FillStatus FIG0_10::fill(uint8_t *buf, size_t max_size)
{
FillStatus fs;
auto ensemble = m_rti->ensemble;
size_t remaining = max_size;
if (remaining < 8) {
fs.num_bytes_written = 0;
return fs;
}
//Time and country identifier
auto fig0_10 = (FIGtype0_10_LongForm*)buf;
fig0_10->FIGtypeNumber = 0;
fig0_10->Length = 7;
fig0_10->CN = 0;
fig0_10->OE = 0;
fig0_10->PD = 0;
fig0_10->Extension = 10;
buf += 2;
remaining -= 2;
tm* timeData;
time_t dab_time_seconds = 0;
uint32_t dab_time_millis = 0;
get_dab_time(&dab_time_seconds, &dab_time_millis);
timeData = gmtime(&dab_time_seconds);
fig0_10->RFU = 0;
fig0_10->setMJD(gregorian2mjd(timeData->tm_year + 1900,
timeData->tm_mon + 1,
timeData->tm_mday));
fig0_10->LSI = 0;
fig0_10->ConfInd = 1;
fig0_10->UTC = 1;
fig0_10->setHours(timeData->tm_hour);
fig0_10->Minutes = timeData->tm_min;
fig0_10->Seconds = timeData->tm_sec;
fig0_10->setMilliseconds(dab_time_millis);
buf += 6;
remaining -= 6;
fs.num_bytes_written = max_size - remaining;
fs.complete_fig_transmitted = true;
return fs;
}
//=========== FIG 0/13 ===========
FIG0_13::FIG0_13(FIGRuntimeInformation *rti) :
m_rti(rti),
m_initialised(false),
m_transmit_programme(false)
{
}
FillStatus FIG0_13::fill(uint8_t *buf, size_t max_size)
{
FillStatus fs;
auto ensemble = m_rti->ensemble;
ssize_t remaining = max_size;
if (not m_initialised) {
componentFIG0_13 = m_rti->ensemble->components.end();
m_initialised = true;
}
FIGtype0* fig0 = NULL;
for (; componentFIG0_13 != ensemble->components.end();
++componentFIG0_13) {
auto subchannel = getSubchannel(ensemble->subchannels,
(*componentFIG0_13)->subchId);
if (subchannel == ensemble->subchannels.end()) {
etiLog.log(error,
"Subchannel %i does not exist for component "
"of service %i\n",
(*componentFIG0_13)->subchId,
(*componentFIG0_13)->serviceId);
throw MuxInitException();
}
if ( m_transmit_programme &&
(*subchannel)->type == subchannel_type_t::Audio &&
(*componentFIG0_13)->audio.uaType != 0xffff) {
const int required_size = 3+4+11;
if (fig0 == NULL) {
if (remaining < 2 + required_size) {
break;
}
fig0 = (FIGtype0*)buf;
fig0->FIGtypeNumber = 0;
fig0->Length = 1;
fig0->CN = 0;
fig0->OE = 0;
fig0->PD = 0;
fig0->Extension = 13;
buf += 2;
remaining -= 2;
}
else if (remaining < required_size) {
break;
}
FIG0_13_shortAppInfo* info = (FIG0_13_shortAppInfo*)buf;
info->SId = htonl((*componentFIG0_13)->serviceId) >> 16;
info->SCIdS = (*componentFIG0_13)->SCIdS;
info->No = 1;
buf += 3;
remaining -= 3;
fig0->Length += 3;
FIG0_13_app* app = (FIG0_13_app*)buf;
app->setType((*componentFIG0_13)->audio.uaType);
app->length = 2;
app->xpad = htons(0x0c3c);
/* xpad meaning
CA = 0
CAOrg = 0
Rfu = 0
AppTy(5) = 12 (MOT, start of X-PAD data group)
DG = 0 (MSC data groups used)
Rfu = 0
DSCTy(6) = 60 (MOT)
*/
buf += 2 + app->length;
remaining -= 2 + app->length;
fig0->Length += 2 + app->length;
}
else if (!m_transmit_programme &&
(*subchannel)->type == subchannel_type_t::Packet &&
(*componentFIG0_13)->packet.appType != 0xffff) {
const int required_size = 5+2+2;
if (fig0 == NULL) {
if (remaining < 2 + required_size) {
break;
}
fig0 = (FIGtype0*)buf;
fig0->FIGtypeNumber = 0;
fig0->Length = 1;
fig0->CN = 0;
fig0->OE = 0;
fig0->PD = 1;
fig0->Extension = 13;
buf += 2;
remaining -= 2;
}
else if (remaining < required_size) {
break;
}
FIG0_13_longAppInfo* info = (FIG0_13_longAppInfo*)buf;
info->SId = htonl((*componentFIG0_13)->serviceId);
info->SCIdS = (*componentFIG0_13)->SCIdS;
info->No = 1;
buf += 5;
remaining -= 5;
fig0->Length += 5;
FIG0_13_app* app = (FIG0_13_app*)buf;
app->setType((*componentFIG0_13)->packet.appType);
if (app->typeLow == FIG0_13_APPTYPE_EPG) {
app->length = 2;
app->xpad = htons(0x0100);
/* xpad used to hold two bytes of EPG profile information
01 = basic profile
00 = list terminator */
}
else {
app->length = 0;
}
buf += 2 + app->length;
remaining -= 2 + app->length;
fig0->Length += 2 + app->length;
}
}
if (componentFIG0_13 == ensemble->components.end()) {
componentFIG0_13 = ensemble->components.begin();
// The full database is sent every second full loop
fs.complete_fig_transmitted = m_transmit_programme;
m_transmit_programme = not m_transmit_programme;
// Alternate between data and and programme FIG0/13,
// do not mix fig0 with PD=0 with extension 13 stuff
// that actually needs PD=1, and vice versa
}
fs.num_bytes_written = max_size - remaining;
return fs;
}
//=========== FIG 0/17 PTy ===========
FIG0_17::FIG0_17(FIGRuntimeInformation *rti) :
m_rti(rti),
m_initialised(false)
{
}
FillStatus FIG0_17::fill(uint8_t *buf, size_t max_size)
{
FillStatus fs;
ssize_t remaining = max_size;
if (not m_initialised) {
serviceFIG0_17 = m_rti->ensemble->services.end();
m_initialised = true;
}
auto ensemble = m_rti->ensemble;
FIGtype0* fig0 = NULL;
for (; serviceFIG0_17 != ensemble->services.end();
++serviceFIG0_17) {
if ((*serviceFIG0_17)->pty == 0) {
continue;
}
const int required_size = 4;
if (fig0 == NULL) {
if (remaining < 2 + required_size) {
break;
}
fig0 = (FIGtype0*)buf;
fig0->FIGtypeNumber = 0;
fig0->Length = 1;
fig0->CN = 0;
fig0->OE = 0;
fig0->PD = 0;
fig0->Extension = 17;
buf += 2;
remaining -= 2;
}
else if (remaining < required_size) {
break;
}
auto fig0_17 = (FIGtype0_17*)buf;
fig0_17->SId = htons((*serviceFIG0_17)->id);
fig0_17->SD = 1; // We only transmit dynamic PTy
fig0_17->rfa1 = 0;
fig0_17->rfu1 = 0;
fig0_17->rfa2_low = 0;
fig0_17->rfa2_high = 0;
fig0_17->rfu2 = 0;
fig0_17->IntCode = (*serviceFIG0_17)->pty;
fig0->Length += 4;
buf += 4;
remaining -= 4;
}
if (serviceFIG0_17 == ensemble->services.end()) {
serviceFIG0_17 = ensemble->services.begin();
fs.complete_fig_transmitted = true;
}
fs.num_bytes_written = max_size - remaining;
return fs;
}
//=========== FIG 0/18 ===========
FIG0_18::FIG0_18(FIGRuntimeInformation *rti) :
m_rti(rti),
m_initialised(false)
{
}
FillStatus FIG0_18::fill(uint8_t *buf, size_t max_size)
{
FillStatus fs;
ssize_t remaining = max_size;
if (not m_initialised) {
service = m_rti->ensemble->services.end();
m_initialised = true;
}
auto ensemble = m_rti->ensemble;
FIGtype0* fig0 = NULL;
for (; service != ensemble->services.end();
++service) {
if ( (*service)->ASu == 0 ) {
continue;
}
const ssize_t numclusters = (*service)->clusters.size();
const int required_size = 5 + numclusters;
if (fig0 == NULL) {
if (remaining < 2 + required_size) {
break;
}
fig0 = (FIGtype0*)buf;
fig0->FIGtypeNumber = 0;
fig0->Length = 1;
fig0->CN = 0;
fig0->OE = 0;
fig0->PD = 0;
fig0->Extension = 18;
buf += 2;
remaining -= 2;
}
else if (remaining < required_size) {
break;
}
auto programme = (FIGtype0_18*)buf;
programme->SId = htons((*service)->id);
programme->ASu = htons((*service)->ASu);
programme->Rfa = 0;
programme->NumClusters = numclusters;
buf += 5;
for (uint8_t cluster : (*service)->clusters) {
*(buf++) = cluster;
}
fig0->Length += 5 + numclusters;
remaining -= 5 + numclusters;
}
if (service == ensemble->services.end()) {
service = ensemble->services.begin();
fs.complete_fig_transmitted = true;
}
fs.num_bytes_written = max_size - remaining;
return fs;
}
//=========== FIG 0/19 ===========
FIG0_19::FIG0_19(FIGRuntimeInformation *rti) :
m_rti(rti)
{ }
FillStatus FIG0_19::fill(uint8_t *buf, size_t max_size)
{
using namespace std;
update_state();
FillStatus fs;
ssize_t remaining = max_size;
auto ensemble = m_rti->ensemble;
FIGtype0* fig0 = NULL;
// Combine all clusters into one list
set allclusters;
for (const auto& cluster : m_new_announcements) {
allclusters.insert(cluster.first.get());
}
for (const auto& cluster : m_repeated_announcements) {
allclusters.insert(cluster.get());
}
for (const auto& cluster : m_disabled_announcements) {
allclusters.insert(cluster.first.get());
}
const int length_0_19 = 4;
fs.complete_fig_transmitted = true;
for (auto& cluster : allclusters) {
if (fig0 == NULL) {
if (remaining < 2 + length_0_19) {
fs.complete_fig_transmitted = false;
break;
}
fig0 = (FIGtype0*)buf;
fig0->FIGtypeNumber = 0;
fig0->Length = 1;
fig0->CN = 0;
fig0->OE = 0;
fig0->PD = 0;
fig0->Extension = 19;
buf += 2;
remaining -= 2;
}
else if (remaining < length_0_19) {
fs.complete_fig_transmitted = false;
break;
}
auto fig0_19 = (FIGtype0_19*)buf;
fig0_19->ClusterId = cluster->cluster_id;
if (cluster->is_active()) {
fig0_19->ASw = htons(cluster->flags);
}
else {
fig0_19->ASw = 0;
}
fig0_19->NewFlag = 1;
fig0_19->RegionFlag = 0;
fig0_19->SubChId = 0;
bool found = false;
for (const auto& subchannel : ensemble->subchannels) {
if (subchannel->uid == cluster->subchanneluid) {
fig0_19->SubChId = subchannel->id;
found = true;
break;
}
}
if (not found) {
etiLog.level(warn) << "FIG0/19: could not find subchannel " <<
cluster->subchanneluid << " for cluster " <<
(int)cluster->cluster_id;
continue;
}
fig0->Length += length_0_19;
buf += length_0_19;
remaining -= length_0_19;
}
fs.num_bytes_written = max_size - remaining;
return fs;
}
void FIG0_19::update_state()
{
auto ensemble = m_rti->ensemble;
// We are called every 24ms, and must timeout after 2s
const int timeout = 2000/24;
//#define DEBUG_FIG0_19
#ifdef DEBUG_FIG0_19
etiLog.level(info) << " FIG0/19 new";
for (const auto& cluster : m_new_announcements) {
etiLog.level(info) << " " << cluster.first->tostring()
<< ": " << cluster.second;
}
etiLog.level(info) << " FIG0/19 repeated";
for (const auto& cluster : m_repeated_announcements) {
etiLog.level(info) << " " << cluster->tostring();
}
etiLog.level(info) << " FIG0/19 disabled";
for (const auto& cluster : m_disabled_announcements) {
etiLog.level(info) << " " << cluster.first->tostring()
<< ": " << cluster.second;
}
etiLog.level(info) << " FIG0/19 in ensemble";
#endif
for (const auto& cluster : ensemble->clusters) {
#ifdef DEBUG_FIG0_19
etiLog.level(info) << " " << cluster->tostring();
#endif
if (cluster->is_active()) {
if (m_repeated_announcements.count(cluster) > 0) {
// We are currently announcing this cluster
continue;
}
if (m_new_announcements.count(cluster) > 0) {
// We are currently announcing this cluster at a
// fast rate. Handle timeout:
m_new_announcements[cluster] -= 1;
if (m_new_announcements[cluster] <= 0) {
m_repeated_announcements.insert(cluster);
m_new_announcements.erase(cluster);
}
continue;
}
// unlikely
if (m_disabled_announcements.count(cluster) > 0) {
m_new_announcements[cluster] = timeout;
m_disabled_announcements.erase(cluster);
continue;
}
// It's a new announcement!
m_new_announcements[cluster] = timeout;
}
else { // Not active
if (m_disabled_announcements.count(cluster) > 0) {
m_disabled_announcements[cluster] -= 1;
if (m_disabled_announcements[cluster] <= 0) {
m_disabled_announcements.erase(cluster);
}
continue;
}
if (m_repeated_announcements.count(cluster) > 0) {
// We are currently announcing this cluster
m_disabled_announcements[cluster] = timeout;
m_repeated_announcements.erase(cluster);
continue;
}
// unlikely
if (m_new_announcements.count(cluster) > 0) {
// We are currently announcing this cluster at a
// fast rate. We must stop announcing it
m_disabled_announcements[cluster] = timeout;
m_new_announcements.erase(cluster);
continue;
}
}
}
}
FIG_rate FIG0_19::repetition_rate(void)
{
if ( m_new_announcements.size() > 0 or
m_disabled_announcements.size() ) {
return FIG_rate::A_B;
}
else {
return FIG_rate::B;
}
}
} // namespace FIC