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vdr/libsi/section.c

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2003-11-22 17:56:45 +01:00
/***************************************************************************
* Copyright (c) 2003 by Marcel Wiesweg *
* *
* This program 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 2 of the License, or *
* (at your option) any later version. *
* *
* $Id: section.c 1.2 2003/12/13 10:42:14 kls Exp $
* *
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***************************************************************************/
#include "section.h"
#include <stdio.h>
namespace SI {
/*********************** PAT ***********************/
void PAT::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const pat>(s, offset);
associationLoop.setData(data+offset, getLength()-offset-4);
}
int PAT::getTransportStreamId() const {
return HILO(s->transport_stream_id);
}
int PAT::Association::getServiceId() const {
return HILO(s->program_number);
}
int PAT::Association::getPid() const {
return HILO(s->network_pid);
}
void PAT::Association::Parse() {
s=data.getData<pat_prog>();
}
/*********************** CAT ***********************/
void CAT::Parse() {
loop.setData(data+sizeof(cat), getLength()-sizeof(cat)-4);
}
/*********************** PMT ***********************/
void PMT::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const pmt>(s, offset);
commonDescriptors.setDataAndOffset(data+offset, HILO(s->program_info_length), offset);
streamLoop.setData(data+offset, getLength()-offset-4);
}
int PMT::getServiceId() const {
return HILO(s->program_number);
}
int PMT::getPCRPid() const {
return HILO(s->PCR_PID);
}
int PMT::Stream::getPid() const {
return HILO(s->elementary_PID);
}
int PMT::Stream::getStreamType() const {
return s->stream_type;
}
void PMT::Stream::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const pmt_info>(s, offset);
streamDescriptors.setData(data+offset, HILO(s->ES_info_length));
}
/*********************** NIT ***********************/
int NIT::getNetworkId() const {
return HILO(s->network_id);
}
void NIT::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const nit>(s, offset);
commonDescriptors.setDataAndOffset(data+offset, HILO(s->network_descriptor_length), offset);
const nit_mid *mid;
data.setPointerAndOffset<const nit_mid>(mid, offset);
transportStreamLoop.setData(data+offset, HILO(mid->transport_stream_loop_length));
}
int NIT::TransportStream::getTransportStreamId() const {
return HILO(s->transport_stream_id);
}
int NIT::TransportStream::getOriginalNetworkId() const {
return HILO(s->original_network_id);
}
void NIT::TransportStream::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const ni_ts>(s, offset);
transportStreamDescriptors.setData(data+offset, HILO(s->transport_descriptors_length));
}
/*********************** SDT ***********************/
void SDT::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const sdt>(s, offset);
serviceLoop.setData(data+offset, getLength()-offset-4); //4 is for CRC
}
int SDT::getTransportStreamId() const {
return HILO(s->transport_stream_id);
}
int SDT::getOriginalNetworkId() const {
return HILO(s->original_network_id);
}
int SDT::Service::getServiceId() const {
return HILO(s->service_id);
}
int SDT::Service::getEITscheduleFlag() const {
return s->eit_schedule_flag;
}
int SDT::Service::getEITpresentFollowingFlag() const {
return s->eit_present_following_flag;
}
RunningStatus SDT::Service::getRunningStatus() const {
return (RunningStatus)s->running_status;
}
int SDT::Service::getFreeCaMode() const {
return s->free_ca_mode;
}
void SDT::Service::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const sdt_descr>(s, offset);
serviceDescriptors.setData(data+offset, HILO(s->descriptors_loop_length));
}
/*********************** EIT ***********************/
int EIT::getServiceId() const {
return HILO(s->service_id);
}
int EIT::getTransportStreamId() const {
return HILO(s->transport_stream_id);
}
int EIT::getOriginalNetworkId() const {
return HILO(s->original_network_id);
}
bool EIT::isPresentFollowing() const {
return getTableId() == TableIdEIT_presentFollowing || getTableId() == TableIdEIT_presentFollowing_other;
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}
bool EIT::isActualTS() const {
return
(getTableId() ==TableIdEIT_presentFollowing)
|| (TableIdEIT_schedule_first <= getTableId() && getTableId() <= TableIdEIT_schedule_last);
}
void EIT::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const eit>(s, offset);
//printf("%d %d %d %d %d\n", getServiceId(), getTransportStreamId(), getOriginalNetworkId(), isPresentFollowing(), isActualTS());
eventLoop.setData(data+offset, getLength()-offset-4); //4 is for CRC
}
time_t EIT::Event::getStartTime() const {
return DVBTime::getTime(s->mjd_hi, s->mjd_lo, s->start_time_h, s->start_time_m, s->start_time_s);
}
time_t EIT::Event::getDuration() const {
return DVBTime::getDuration(s->duration_h, s->duration_m, s->duration_s);
}
int EIT::Event::getEventId() const {
return HILO(s->event_id);
}
int EIT::Event::getMJD() const {
return HILO(s->mjd);
}
int EIT::Event::getStartTimeHour() const {
return DVBTime::bcdToDec(s->start_time_h);
}
int EIT::Event::getStartTimeMinute() const {
return DVBTime::bcdToDec(s->start_time_m);
}
int EIT::Event::getStartTimeSecond() const {
return DVBTime::bcdToDec(s->start_time_s);
}
int EIT::Event::getDurationHour() const {
return DVBTime::bcdToDec(s->duration_h);
}
int EIT::Event::getDurationMinute() const {
return DVBTime::bcdToDec(s->duration_m);
}
int EIT::Event::getDurationSecond() const {
return DVBTime::bcdToDec(s->duration_s);
}
RunningStatus EIT::Event::getRunningStatus() const {
return (RunningStatus)s->running_status;
}
int EIT::Event::getFreeCaMode() const {
return s->free_ca_mode;
}
void EIT::Event::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const eit_event>(s, offset);
//printf("%d %d %d\n", getStartTime(), getDuration(), getRunningStatus());
eventDescriptors.setData(data+offset, HILO(s->descriptors_loop_length));
}
/*********************** TDT ***********************/
time_t TDT::getTime() const {
return DVBTime::getTime(s->utc_mjd_hi, s->utc_mjd_lo, s->utc_time_h, s->utc_time_m, s->utc_time_s);
}
void TDT::Parse() {
s=data.getData<const tdt>();
}
/*********************** TOT ***********************/
time_t TOT::getTime() const {
return DVBTime::getTime(s->utc_mjd_hi, s->utc_mjd_lo, s->utc_time_h, s->utc_time_m, s->utc_time_s);
}
void TOT::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const tot>(s, offset);
descriptorLoop.setData(data+offset, getLength()-offset-4);
}
/*********************** RST ***********************/
void RST::Parse() {
unsigned int offset=0;
const rst *s;
data.setPointerAndOffset<const rst>(s, offset);
infoLoop.setData(data+offset, getLength()-offset);
}
int RST::RunningInfo::getTransportStreamId() const {
return HILO(s->transport_stream_id);
}
int RST::RunningInfo::getOriginalNetworkId() const {
return HILO(s->original_network_id);
}
int RST::RunningInfo::getServiceId() const {
return HILO(s->service_id);
}
int RST::RunningInfo::getEventId() const {
return HILO(s->event_id);
}
RunningStatus RST::RunningInfo::getRunningStatus() const {
return (RunningStatus)s->running_status;
}
void RST::RunningInfo::Parse() {
s=data.getData<const rst_info>();
}
/*********************** AIT ***********************/
int AIT::getApplicationType() const {
return HILO(first->application_type);
}
int AIT::getAITVersion() const {
return first->version_number;
}
void AIT::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const ait>(first, offset);
commonDescriptors.setDataAndOffset(data+offset, HILO(first->common_descriptors_length), offset);
const ait_mid *mid;
data.setPointerAndOffset<const ait_mid>(mid, offset);
applicationLoop.setData(data+offset, HILO(mid->application_loop_length));
}
long AIT::Application::getOrganisationId() const {
return data.FourBytes(0);
}
int AIT::Application::getApplicationId() const {
return HILO(s->application_id);
}
int AIT::Application::getControlCode() const {
return s->application_control_code;
}
void AIT::Application::Parse() {
unsigned int offset=0;
data.setPointerAndOffset<const ait_app>(s, offset);
applicationDescriptors.setData(data+offset, HILO(s->application_descriptors_length));
}
} //end of namespace