#include // access to python config #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include eDVBServicePMTHandler::eDVBServicePMTHandler() :m_ca_servicePtr(0), m_dvb_scan(0), m_decode_demux_num(0xFF) { m_use_decode_demux = 0; m_pmt_pid = -1; eDVBResourceManager::getInstance(m_resourceManager); CONNECT(m_PMT.tableReady, eDVBServicePMTHandler::PMTready); CONNECT(m_PAT.tableReady, eDVBServicePMTHandler::PATready); } eDVBServicePMTHandler::~eDVBServicePMTHandler() { free(); } void eDVBServicePMTHandler::channelStateChanged(iDVBChannel *channel) { int state; channel->getState(state); if ((m_last_channel_state != iDVBChannel::state_ok) && (state == iDVBChannel::state_ok) && (!m_demux)) { if (m_channel) { if (m_pvr_demux_tmp) { m_demux = m_pvr_demux_tmp; m_pvr_demux_tmp = NULL; } else if (m_channel->getDemux(m_demux, (!m_use_decode_demux) ? 0 : iDVBChannel::capDecode)) eDebug("Allocating %s-decoding a demux for now tuned-in channel failed.", m_use_decode_demux ? "" : "non-"); } serviceEvent(eventTuned); if (m_demux) { eDebug("ok ... now we start!!"); if (!m_service || m_service->usePMT()) { if (m_pmt_pid == -1) m_PAT.begin(eApp, eDVBPATSpec(), m_demux); else m_PMT.begin(eApp, eDVBPMTSpec(m_pmt_pid, m_reference.getServiceID().get()), m_demux); } if ( m_service && !m_service->cacheEmpty() ) serviceEvent(eventNewProgramInfo); } } else if ((m_last_channel_state != iDVBChannel::state_failed) && (state == iDVBChannel::state_failed)) { eDebug("tune failed."); serviceEvent(eventTuneFailed); } } void eDVBServicePMTHandler::channelEvent(iDVBChannel *channel, int event) { switch (event) { case iDVBChannel::evtPreStart: serviceEvent(eventPreStart); break; case iDVBChannel::evtEOF: serviceEvent(eventEOF); break; case iDVBChannel::evtSOF: serviceEvent(eventSOF); break; default: break; } } void eDVBServicePMTHandler::PMTready(int error) { if (error) serviceEvent(eventNoPMT); else { m_have_cached_program = false; serviceEvent(eventNewProgramInfo); if (!m_pvr_channel) // don't send campmt to camd.socket for playbacked services { eEPGCache::getInstance()->PMTready(this); if(!m_ca_servicePtr) { int demuxes[2] = {0,0}; uint8_t tmp; m_demux->getCADemuxID(tmp); demuxes[0]=tmp; if (m_decode_demux_num != 0xFF) demuxes[1]=m_decode_demux_num; else demuxes[1]=demuxes[0]; eDVBCAService::register_service(m_reference, demuxes, m_ca_servicePtr); eDVBCIInterfaces::getInstance()->recheckPMTHandlers(); } eDVBCIInterfaces::getInstance()->gotPMT(this); } if (m_ca_servicePtr) { ePtr > ptr; if (!m_PMT.getCurrent(ptr)) m_ca_servicePtr->buildCAPMT(ptr); else eDebug("eDVBServicePMTHandler cannot call buildCAPMT"); } } } void eDVBServicePMTHandler::PATready(int) { ePtr > ptr; if (!m_PAT.getCurrent(ptr)) { int pmtpid = -1; std::vector::const_iterator i; for (i = ptr->getSections().begin(); pmtpid == -1 && i != ptr->getSections().end(); ++i) { const ProgramAssociationSection &pat = **i; ProgramAssociationConstIterator program; for (program = pat.getPrograms()->begin(); pmtpid == -1 && program != pat.getPrograms()->end(); ++program) if (eServiceID((*program)->getProgramNumber()) == m_reference.getServiceID()) pmtpid = (*program)->getProgramMapPid(); } if (pmtpid == -1) serviceEvent(eventNoPATEntry); else m_PMT.begin(eApp, eDVBPMTSpec(pmtpid, m_reference.getServiceID().get()), m_demux); } else serviceEvent(eventNoPAT); } PyObject *eDVBServicePMTHandler::getCaIds(bool pair) { ePyObject ret; program prog; if ( !getProgramInfo(prog) ) { if (pair) { int cnt=prog.caids.size(); if (cnt) { ret=PyList_New(cnt); std::list::iterator it(prog.caids.begin()); while(cnt--) { ePyObject tuple = PyTuple_New(2); PyTuple_SET_ITEM(tuple, 0, PyInt_FromLong(it->caid)); PyTuple_SET_ITEM(tuple, 1, PyInt_FromLong((it++)->capid)); PyList_SET_ITEM(ret, cnt, tuple); } } } else { std::set set(prog.caids.begin(), prog.caids.end()); std::set::iterator it(set.begin()); int cnt=set.size(); ret=PyList_New(cnt); while(cnt--) PyList_SET_ITEM(ret, cnt, PyInt_FromLong((it++)->caid)); } } return ret ? (PyObject*)ret : (PyObject*)PyList_New(0); } int eDVBServicePMTHandler::getProgramInfo(program &program) { ePtr > ptr; int cached_apid_ac3 = -1; int cached_apid_mpeg = -1; int cached_vpid = -1; int cached_tpid = -1; int ret = -1; program.videoStreams.clear(); program.audioStreams.clear(); program.pcrPid = -1; program.pmtPid = -1; program.textPid = -1; int first_ac3 = -1; program.defaultAudioStream = 0; audioStream *prev_audio = 0; if ( m_service && !m_service->cacheEmpty() ) { cached_vpid = m_service->getCacheEntry(eDVBService::cVPID); cached_apid_mpeg = m_service->getCacheEntry(eDVBService::cAPID); cached_apid_ac3 = m_service->getCacheEntry(eDVBService::cAC3PID); cached_tpid = m_service->getCacheEntry(eDVBService::cTPID); } if ( ((m_service && m_service->usePMT()) || !m_service) && !m_PMT.getCurrent(ptr)) { if (m_have_cached_program) { program = m_cached_program; ret = 0; } else { eDVBTableSpec table_spec; ptr->getSpec(table_spec); program.pmtPid = table_spec.pid < 0x1fff ? table_spec.pid : -1; std::vector::const_iterator i; for (i = ptr->getSections().begin(); i != ptr->getSections().end(); ++i) { const ProgramMapSection &pmt = **i; program.pcrPid = pmt.getPcrPid(); ElementaryStreamInfoConstIterator es; for (es = pmt.getEsInfo()->begin(); es != pmt.getEsInfo()->end(); ++es) { int isaudio = 0, isvideo = 0, issubtitle = 0, forced_video = 0, forced_audio = 0, isteletext = 0; int streamtype = (*es)->getType(); videoStream video; audioStream audio; audio.component_tag=video.component_tag=-1; video.type = videoStream::vtMPEG2; audio.type = audioStream::atMPEG; audio.rdsPid = -1; switch (streamtype) { case 0x1b: // AVC Video Stream (MPEG4 H264) video.type = videoStream::vtMPEG4_H264; isvideo = 1; //break; fall through !!! case 0x10: // MPEG 4 Part 2 if (!isvideo) { video.type = videoStream::vtMPEG4_Part2; isvideo = 1; } //break; fall through !!! case 0x01: // MPEG 1 video if (!isvideo) video.type = videoStream::vtMPEG1; //break; fall through !!! case 0x02: // MPEG 2 video isvideo = 1; forced_video = 1; //break; fall through !!! case 0x03: // MPEG 1 audio case 0x04: // MPEG 2 audio: if (!isvideo) { isaudio = 1; forced_audio = 1; } //break; fall through !!! case 0x0f: // MPEG 2 AAC if (!isvideo && !isaudio) { isaudio = 1; audio.type = audioStream::atAAC; forced_audio = 1; } //break; fall through !!! case 0x11: // MPEG 4 AAC if (!isvideo && !isaudio) { isaudio = 1; audio.type = audioStream::atAACHE; forced_audio = 1; } case 0x80: // user private ... but blueray LPCM if (!isvideo && !isaudio) { isaudio = 1; audio.type = audioStream::atLPCM; } case 0x81: // user private ... but blueray AC3 if (!isvideo && !isaudio) { isaudio = 1; audio.type = audioStream::atAC3; } case 0x82: // Blueray DTS (dvb user private...) case 0xA2: // Blueray secondary DTS if (!isvideo && !isaudio) { isaudio = 1; audio.type = audioStream::atDTS; } case 0x06: // PES Private case 0xEA: // TS_PSI_ST_SMPTE_VC1 { int num_descriptors = 0; for (DescriptorConstIterator desc = (*es)->getDescriptors()->begin(); desc != (*es)->getDescriptors()->end(); ++desc) { uint8_t tag = (*desc)->getTag(); /* check descriptors to get the exakt stream type. */ ++num_descriptors; if (!forced_video && !forced_audio) { switch (tag) { case AUDIO_STREAM_DESCRIPTOR: isaudio = 1; break; case VIDEO_STREAM_DESCRIPTOR: { isvideo = 1; VideoStreamDescriptor *d = (VideoStreamDescriptor*)(*desc); if (d->getMpeg1OnlyFlag()) video.type = videoStream::vtMPEG1; break; } case SUBTITLING_DESCRIPTOR: { SubtitlingDescriptor *d = (SubtitlingDescriptor*)(*desc); const SubtitlingList *list = d->getSubtitlings(); subtitleStream s; s.pid = (*es)->getPid(); for (SubtitlingConstIterator it(list->begin()); it != list->end(); ++it) { s.subtitling_type = (*it)->getSubtitlingType(); switch(s.subtitling_type) { case 0x10 ... 0x13: case 0x20 ... 0x23: // dvb subtitles break; default: eDebug("dvb subtitle %s PID %04x with wrong subtitling type (%02x)... force 0x10!!", s.language_code.c_str(), s.pid, s.subtitling_type); s.subtitling_type = 0x10; break; } s.composition_page_id = (*it)->getCompositionPageId(); s.ancillary_page_id = (*it)->getAncillaryPageId(); s.language_code = (*it)->getIso639LanguageCode(); // eDebug("add dvb subtitle %s PID %04x, type %d, composition page %d, ancillary_page %d", // s.language_code.c_str(), s.pid, s.subtitling_type, s.composition_page_id, s.ancillary_page_id); issubtitle=1; program.subtitleStreams.push_back(s); } break; } case TELETEXT_DESCRIPTOR: if ( program.textPid == -1 || (*es)->getPid() == cached_tpid ) { subtitleStream s; s.subtitling_type = 0x01; // EBU TELETEXT SUBTITLES s.pid = program.textPid = (*es)->getPid(); TeletextDescriptor *d = (TeletextDescriptor*)(*desc); isteletext = 1; const VbiTeletextList *list = d->getVbiTeletexts(); for (VbiTeletextConstIterator it(list->begin()); it != list->end(); ++it) { switch((*it)->getTeletextType()) { case 0x02: // Teletext subtitle page case 0x05: // Teletext subtitle page for hearing impaired pepople s.language_code = (*it)->getIso639LanguageCode(); s.teletext_page_number = (*it)->getTeletextPageNumber(); s.teletext_magazine_number = (*it)->getTeletextMagazineNumber(); // eDebug("add teletext subtitle %s PID %04x, page number %d, magazine number %d", // s.language_code.c_str(), s.pid, s.teletext_page_number, s.teletext_magazine_number); program.subtitleStreams.push_back(s); issubtitle=1; default: break; } } } break; case DTS_DESCRIPTOR: isaudio = 1; audio.type = audioStream::atDTS; break; case 0x2B: // TS_PSI_DT_MPEG2_AAC isaudio = 1; audio.type = audioStream::atAAC; // MPEG2-AAC break; case 0x1C: // TS_PSI_DT_MPEG4_Audio case AAC_DESCRIPTOR: isaudio = 1; audio.type = audioStream::atAACHE; // MPEG4-AAC break; case AC3_DESCRIPTOR: isaudio = 1; audio.type = audioStream::atAC3; break; case REGISTRATION_DESCRIPTOR: /* some services don't have a separate AC3 descriptor */ { RegistrationDescriptor *d = (RegistrationDescriptor*)(*desc); switch (d->getFormatIdentifier()) { case 0x44545331 ... 0x44545333: // DTS1/DTS2/DTS3 isaudio = 1; audio.type = audioStream::atDTS; break; case 0x41432d33: // == 'AC-3' isaudio = 1; audio.type = audioStream::atAC3; break; case 0x42535344: // == 'BSSD' (LPCM) isaudio = 1; audio.type = audioStream::atLPCM; break; case 0x56432d31: // == 'VC-1' { const AdditionalIdentificationInfoVector *vec = d->getAdditionalIdentificationInfo(); if (vec->size() > 1 && (*vec)[0] == 0x01) // subdescriptor tag { if ((*vec)[1] >= 0x90) // profile_level video.type = videoStream::vtVC1; // advanced profile else video.type = videoStream::vtVC1_SM; // simple main isvideo = 1; } } default: break; } break; } case 0x28: // TS_PSI_DT_AVC isvideo = 1; video.type = videoStream::vtMPEG4_H264; break; case 0x1B: // TS_PSI_DT_MPEG4_Video isvideo = 1; video.type = videoStream::vtMPEG4_Part2; break; default: break; } } switch (tag) { case ISO_639_LANGUAGE_DESCRIPTOR: if (!isvideo) { int cnt=0; const Iso639LanguageList *languages = ((Iso639LanguageDescriptor*)*desc)->getIso639Languages(); /* use last language code */ for (Iso639LanguageConstIterator i(languages->begin()); i != languages->end(); ++i, ++cnt) { if (cnt == 0) audio.language_code = (*i)->getIso639LanguageCode(); else audio.language_code += "/" + (*i)->getIso639LanguageCode(); } } break; case STREAM_IDENTIFIER_DESCRIPTOR: audio.component_tag = video.component_tag = ((StreamIdentifierDescriptor*)*desc)->getComponentTag(); break; case CA_DESCRIPTOR: { CaDescriptor *descr = (CaDescriptor*)(*desc); program::capid_pair pair; pair.caid = descr->getCaSystemId(); pair.capid = descr->getCaPid(); program.caids.push_back(pair); break; } default: break; } } if (!num_descriptors && streamtype == 0x06 && prev_audio) { prev_audio->rdsPid = (*es)->getPid(); eDebug("Rds PID %04x detected ? ! ?", prev_audio->rdsPid); } prev_audio = 0; } default: break; } if (isteletext && (isaudio || isvideo)) { eDebug("ambiguous streamtype for PID %04x detected.. forced as teletext!", (*es)->getPid()); continue; // continue with next PID } else if (issubtitle && (isaudio || isvideo)) eDebug("ambiguous streamtype for PID %04x detected.. forced as subtitle!", (*es)->getPid()); else if (isaudio && isvideo) eDebug("ambiguous streamtype for PID %04x detected.. forced as video!", (*es)->getPid()); if (issubtitle) // continue with next PID continue; else if (isvideo) { video.pid = (*es)->getPid(); if ( !program.videoStreams.empty() && video.pid == cached_vpid ) { program.videoStreams.push_back(program.videoStreams[0]); program.videoStreams[0] = video; } else program.videoStreams.push_back(video); } else if (isaudio) { audio.pid = (*es)->getPid(); /* if we find the cached pids, this will be our default stream */ if (audio.pid == cached_apid_ac3 || audio.pid == cached_apid_mpeg) program.defaultAudioStream = program.audioStreams.size(); /* also, we need to know the first non-mpeg (i.e. "ac3"/dts/...) stream */ if ((audio.type != audioStream::atMPEG) && ((first_ac3 == -1) || (audio.pid == cached_apid_ac3))) first_ac3 = program.audioStreams.size(); program.audioStreams.push_back(audio); prev_audio = &program.audioStreams.back(); } else continue; } for (DescriptorConstIterator desc = pmt.getDescriptors()->begin(); desc != pmt.getDescriptors()->end(); ++desc) { if ((*desc)->getTag() == CA_DESCRIPTOR) { CaDescriptor *descr = (CaDescriptor*)(*desc); program::capid_pair pair; pair.caid = descr->getCaSystemId(); pair.capid = descr->getCaPid(); program.caids.push_back(pair); } } } ret = 0; /* finally some fixup: if our default audio stream is an MPEG audio stream, and we have 'defaultac3' set, use the first available ac3 stream instead. (note: if an ac3 audio stream was selected before, this will be also stored in 'fisrt_ac3', so we don't need to worry. */ bool defaultac3 = false; std::string default_ac3; if (!ePythonConfigQuery::getConfigValue("config.av.defaultac3", default_ac3)) defaultac3 = default_ac3 == "True"; if (defaultac3 && (first_ac3 != -1)) program.defaultAudioStream = first_ac3; m_cached_program = program; m_have_cached_program = true; } } else if ( m_service && !m_service->cacheEmpty() ) { int cached_pcrpid = m_service->getCacheEntry(eDVBService::cPCRPID), vpidtype = m_service->getCacheEntry(eDVBService::cVTYPE), cnt=0; if ( vpidtype == -1 ) vpidtype = videoStream::vtMPEG2; if ( cached_vpid != -1 ) { videoStream s; s.pid = cached_vpid; s.type = vpidtype; program.videoStreams.push_back(s); ++cnt; } if ( cached_apid_ac3 != -1 ) { audioStream s; s.type = audioStream::atAC3; s.pid = cached_apid_ac3; s.rdsPid = -1; program.audioStreams.push_back(s); ++cnt; } if ( cached_apid_mpeg != -1 ) { audioStream s; s.type = audioStream::atMPEG; s.pid = cached_apid_mpeg; s.rdsPid = -1; program.audioStreams.push_back(s); ++cnt; } if ( cached_pcrpid != -1 ) { ++cnt; program.pcrPid = cached_pcrpid; } if ( cached_tpid != -1 ) { ++cnt; program.textPid = cached_tpid; } CAID_LIST &caids = m_service->m_ca; for (CAID_LIST::iterator it(caids.begin()); it != caids.end(); ++it) { program::capid_pair pair; pair.caid = *it; pair.capid = -1; // not known yet program.caids.push_back(pair); } if ( cnt ) ret = 0; } return ret; } int eDVBServicePMTHandler::getChannel(eUsePtr &channel) { channel = m_channel; if (channel) return 0; else return -1; } int eDVBServicePMTHandler::getDataDemux(ePtr &demux) { demux = m_demux; if (demux) return 0; else return -1; } int eDVBServicePMTHandler::getDecodeDemux(ePtr &demux) { int ret=0; /* if we're using the decoding demux as data source (for example in pvr playbacks), return that one. */ if (m_use_decode_demux) { demux = m_demux; return ret; } ASSERT(m_channel); /* calling without a previous ::tune is certainly bad. */ ret = m_channel->getDemux(demux, iDVBChannel::capDecode); if (!ret) demux->getCADemuxID(m_decode_demux_num); return ret; } int eDVBServicePMTHandler::getPVRChannel(ePtr &pvr_channel) { pvr_channel = m_pvr_channel; if (pvr_channel) return 0; else return -1; } void eDVBServicePMTHandler::SDTScanEvent(int event) { switch (event) { case eDVBScan::evtFinish: { ePtr db; if (m_resourceManager->getChannelList(db) != 0) eDebug("no channel list"); else { eDVBChannelID chid; m_reference.getChannelID(chid); if (chid == m_dvb_scan->getCurrentChannelID()) { m_dvb_scan->insertInto(db, true); eDebug("sdt update done!"); } else eDebug("ignore sdt update data.... incorrect transponder tuned!!!"); } break; } default: break; } } int eDVBServicePMTHandler::tune(eServiceReferenceDVB &ref, int use_decode_demux, eCueSheet *cue, bool simulate, eDVBService *service) { ePtr s; return tuneExt(ref, use_decode_demux, s, NULL, cue, simulate, service); } int eDVBServicePMTHandler::tuneExt(eServiceReferenceDVB &ref, int use_decode_demux, ePtr &source, const char *streaminfo_file, eCueSheet *cue, bool simulate, eDVBService *service) { RESULT res=0; m_reference = ref; m_use_decode_demux = use_decode_demux; /* use given service as backup. This is used for timeshift where we want to clone the live stream using the cache, but in fact have a PVR channel */ m_service = service; /* is this a normal (non PVR) channel? */ if (ref.path.empty()) { eDVBChannelID chid; ref.getChannelID(chid); res = m_resourceManager->allocateChannel(chid, m_channel, simulate); if (!simulate) eDebug("allocate Channel: res %d", res); ePtr db; if (!m_resourceManager->getChannelList(db)) db->getService((eServiceReferenceDVB&)m_reference, m_service); if (!res && !simulate) eDVBCIInterfaces::getInstance()->addPMTHandler(this); } else if (!simulate) // no simulation of playback services { if (!ref.getServiceID().get() /* incorrect sid in meta file or recordings.epl*/ ) { eWarning("no .meta file found, trying to find PMT pid"); eDVBTSTools tstools; if (source) tstools.setSource(source, streaminfo_file ? streaminfo_file : ref.path.c_str()); else if (tstools.openFile(ref.path.c_str())) eWarning("failed to open file"); else { int service_id, pmt_pid; if (!tstools.findPMT(pmt_pid, service_id)) { eDebug("PMT pid found on pid %04x, service id %d", pmt_pid, service_id); m_reference.setServiceID(service_id); m_pmt_pid = pmt_pid; } } } eDebug("alloc PVR"); /* allocate PVR */ res = m_resourceManager->allocatePVRChannel(m_pvr_channel); if (res) eDebug("allocatePVRChannel failed!\n"); m_channel = m_pvr_channel; } if (!simulate) { if (m_channel) { m_channel->connectStateChange( slot(*this, &eDVBServicePMTHandler::channelStateChanged), m_channelStateChanged_connection); m_last_channel_state = -1; channelStateChanged(m_channel); m_channel->connectEvent( slot(*this, &eDVBServicePMTHandler::channelEvent), m_channelEvent_connection); if (ref.path.empty()) { m_dvb_scan = 0; m_dvb_scan = new eDVBScan(m_channel, true, false); m_dvb_scan->connectEvent(slot(*this, &eDVBServicePMTHandler::SDTScanEvent), m_scan_event_connection); } } else { if (res == eDVBResourceManager::errAllSourcesBusy) serviceEvent(eventNoResources); else /* errChidNotFound, errNoChannelList, errChannelNotInList, errNoSourceFound */ serviceEvent(eventMisconfiguration); return res; } if (m_pvr_channel) { m_pvr_channel->setCueSheet(cue); if (m_pvr_channel->getDemux(m_pvr_demux_tmp, (!m_use_decode_demux) ? 0 : iDVBChannel::capDecode)) eDebug("Allocating %s-decoding a demux for PVR channel failed.", m_use_decode_demux ? "" : "non-"); else if (source) m_pvr_channel->playSource(source, streaminfo_file); else m_pvr_channel->playFile(ref.path.c_str()); } } return res; } void eDVBServicePMTHandler::free() { m_dvb_scan = 0; if (m_ca_servicePtr) { int demuxes[2] = {0,0}; uint8_t tmp; m_demux->getCADemuxID(tmp); demuxes[0]=tmp; if (m_decode_demux_num != 0xFF) demuxes[1]=m_decode_demux_num; else demuxes[1]=demuxes[0]; ePtr > ptr; m_PMT.getCurrent(ptr); eDVBCAService::unregister_service(m_reference, demuxes, ptr); m_ca_servicePtr = 0; } if (m_channel) eDVBCIInterfaces::getInstance()->removePMTHandler(this); if (m_pvr_channel) { m_pvr_channel->stopFile(); m_pvr_channel->setCueSheet(0); } m_PMT.stop(); m_PAT.stop(); m_service = 0; m_channel = 0; m_pvr_channel = 0; m_demux = 0; } CAServiceMap eDVBCAService::exist; ChannelMap eDVBCAService::exist_channels; ePtr eDVBCAService::m_chanAddedConn; eDVBCAService::eDVBCAService() :m_buffer(512), m_prev_build_hash(0), m_sendstate(0), m_retryTimer(eTimer::create(eApp)) { memset(m_used_demux, 0xFF, sizeof(m_used_demux)); CONNECT(m_retryTimer->timeout, eDVBCAService::sendCAPMT); Connect(); } eDVBCAService::~eDVBCAService() { eDebug("[eDVBCAService] free service %s", m_service.toString().c_str()); ::close(m_sock); } // begin static methods RESULT eDVBCAService::register_service( const eServiceReferenceDVB &ref, int demux_nums[2], eDVBCAService *&caservice ) { CAServiceMap::iterator it = exist.find(ref); if ( it != exist.end() ) caservice = it->second; else { caservice = (exist[ref]=new eDVBCAService()); caservice->m_service = ref; eDebug("[eDVBCAService] new service %s", ref.toString().c_str() ); } int loops = demux_nums[0] != demux_nums[1] ? 2 : 1; for (int i=0; i < loops; ++i) { // search free demux entry int iter=0, max_demux_slots = sizeof(caservice->m_used_demux); while ( iter < max_demux_slots && caservice->m_used_demux[iter] != 0xFF ) ++iter; if ( iter < max_demux_slots ) { caservice->m_used_demux[iter] = demux_nums[i] & 0xFF; eDebug("[eDVBCAService] add demux %d to slot %d service %s", caservice->m_used_demux[iter], iter, ref.toString().c_str()); } else { eDebug("[eDVBCAService] no more demux slots free for service %s!!", ref.toString().c_str()); return -1; } } return 0; } RESULT eDVBCAService::unregister_service( const eServiceReferenceDVB &ref, int demux_nums[2], eTable *ptr ) { CAServiceMap::iterator it = exist.find(ref); if ( it == exist.end() ) { eDebug("[eDVBCAService] try to unregister non registered %s", ref.toString().c_str()); return -1; } else { eDVBCAService *caservice = it->second; int loops = demux_nums[0] != demux_nums[1] ? 2 : 1; for (int i=0; i < loops; ++i) { bool freed = false; int iter = 0, used_demux_slots = 0, max_demux_slots = sizeof(caservice->m_used_demux)/sizeof(int); while ( iter < max_demux_slots ) { if ( caservice->m_used_demux[iter] != 0xFF ) { if ( !freed && caservice->m_used_demux[iter] == demux_nums[i] ) { eDebug("[eDVBCAService] free slot %d demux %d for service %s", iter, caservice->m_used_demux[iter], caservice->m_service.toString().c_str() ); caservice->m_used_demux[iter] = 0xFF; freed=true; } else ++used_demux_slots; } ++iter; } if (!freed) eDebug("[eDVBCAService] couldn't free demux slot for demux %d", demux_nums[i]); if (i || loops == 1) { if (!used_demux_slots) // no more used.. so we remove it { delete it->second; exist.erase(it); } else { if (ptr) it->second->buildCAPMT(ptr); else eDebug("[eDVBCAService] can not send updated demux info"); } } } } return 0; } void eDVBCAService::registerChannelCallback(eDVBResourceManager *res_mgr) { res_mgr->connectChannelAdded(slot(&DVBChannelAdded), m_chanAddedConn); } void eDVBCAService::DVBChannelAdded(eDVBChannel *chan) { if ( chan ) { eDebug("[eDVBCAService] new channel %p!", chan); channel_data *data = new channel_data(); data->m_channel = chan; data->m_prevChannelState = -1; data->m_dataDemux = -1; exist_channels[chan] = data; chan->connectStateChange(slot(&DVBChannelStateChanged), data->m_stateChangedConn); } } void eDVBCAService::DVBChannelStateChanged(iDVBChannel *chan) { ChannelMap::iterator it = exist_channels.find(chan); if ( it != exist_channels.end() ) { int state=0; chan->getState(state); if ( it->second->m_prevChannelState != state ) { switch (state) { case iDVBChannel::state_ok: { eDebug("[eDVBCAService] channel %p running", chan); break; } case iDVBChannel::state_release: { eDebug("[eDVBCAService] remove channel %p", chan); unsigned char msg[8] = { 0x9f,0x80,0x3f,0x04,0x83,0x02,0x00,0x00 }; msg[7] = it->second->m_dataDemux & 0xFF; int sock, clilen; struct sockaddr_un servaddr; memset(&servaddr, 0, sizeof(struct sockaddr_un)); servaddr.sun_family = AF_UNIX; strcpy(servaddr.sun_path, "/tmp/camd.socket"); clilen = sizeof(servaddr.sun_family) + strlen(servaddr.sun_path); sock = socket(PF_UNIX, SOCK_STREAM, 0); if (sock > -1) { connect(sock, (struct sockaddr *) &servaddr, clilen); fcntl(sock, F_SETFL, O_NONBLOCK); int val=1; setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, &val, 4); if (write(sock, msg, 8) != 8) eDebug("[eDVBCAService] write leave transponder failed!!"); close(sock); } exist_channels.erase(it); delete it->second; it->second=0; break; } default: // ignore all other events return; } if (it->second) it->second->m_prevChannelState = state; } } } channel_data *eDVBCAService::getChannelData(eDVBChannelID &chid) { for (ChannelMap::iterator it(exist_channels.begin()); it != exist_channels.end(); ++it) { if (chid == it->second->m_channel->getChannelID()) return it->second; } return 0; } // end static methods #define CA_REPLY_DEBUG #define MAX_LENGTH_BYTES 4 #define MIN_LENGTH_BYTES 1 void eDVBCAService::socketCB(int what) { if (what & (eSocketNotifier::Read | eSocketNotifier::Priority)) { char msgbuffer[4096]; ssize_t length = read(m_sock, msgbuffer, sizeof(msgbuffer)); if (length == -1) { if (errno != EAGAIN && errno != EINTR && errno != EBUSY) { eDebug("[eSocketMMIHandler] read (%m)"); what |= eSocketNotifier::Error; } } else if (length == 0) { what |= eSocketNotifier::Hungup; } else { int len = length; unsigned char *data = (unsigned char*)msgbuffer; int clear = 1; // If a new message starts, then the previous message // should already have been processed. Otherwise the // previous message was incomplete and should therefore // be deleted. if ((len >= 1) && ((data[0] & 0xFF) != 0x9f)) clear = 0; if ((len >= 2) && ((data[1] & 0x80) != 0x80)) clear = 0; if ((len >= 3) && ((data[2] & 0x80) != 0x00)) clear = 0; if (clear) { m_buffer.clear(); #ifdef CA_REPLY_DEBUG eDebug("clear buffer"); #endif } #ifdef CA_REPLY_DEBUG eDebug("Put to buffer:"); for (int i=0; i < len; ++i) eDebugNoNewLine("%02x ", data[i]); eDebug("\n--------"); #endif m_buffer.write( data, len ); while ( m_buffer.size() >= (3 + MIN_LENGTH_BYTES) ) { unsigned char tmp[3+MAX_LENGTH_BYTES]; m_buffer.peek(tmp, 3+MIN_LENGTH_BYTES); if (((tmp[0] & 0xFF) != 0x9f) || ((tmp[1] & 0x80) != 0x80) || ((tmp[2] & 0x80) != 0x00)) { m_buffer.skip(1); #ifdef CA_REPLY_DEBUG eDebug("skip %02x", tmp[0]); #endif continue; } if (tmp[3] & 0x80) { int peekLength = (tmp[3] & 0x7f) + 4; if (m_buffer.size() < peekLength) continue; m_buffer.peek(tmp, peekLength); } int size=0; int LengthBytes=eDVBCISession::parseLengthField(tmp+3, size); int messageLength = 3+LengthBytes+size; if ( m_buffer.size() >= messageLength ) { unsigned char dest[messageLength]; m_buffer.read(dest, messageLength); #ifdef CA_REPLY_DEBUG eDebug("dump ca reply:"); for (int i=0; i < messageLength; ++i) eDebugNoNewLine("%02x ", dest[i]); eDebug("\n--------"); #endif // /*emit*/ mmi_progress(0, dest, (const void*)(dest+3+LengthBytes), messageLength-3-LengthBytes); } } } } if (what & eSocketNotifier::Hungup) { /*eDebug("[eDVBCAService] connection closed")*/; m_sendstate=1; sendCAPMT(); } if (what & eSocketNotifier::Error) eDebug("[eDVBCAService] connection error"); } void eDVBCAService::Connect() { m_sn=0; memset(&m_servaddr, 0, sizeof(struct sockaddr_un)); m_servaddr.sun_family = AF_UNIX; strcpy(m_servaddr.sun_path, "/tmp/camd.socket"); m_clilen = sizeof(m_servaddr.sun_family) + strlen(m_servaddr.sun_path); m_sock = socket(PF_UNIX, SOCK_STREAM, 0); if (m_sock != -1) { if (!connect(m_sock, (struct sockaddr *) &m_servaddr, m_clilen)) { int val=1; fcntl(m_sock, F_SETFL, O_NONBLOCK); setsockopt(m_sock, SOL_SOCKET, SO_REUSEADDR, &val, 4); m_sn = eSocketNotifier::create(eApp, m_sock, eSocketNotifier::Read|eSocketNotifier::Priority|eSocketNotifier::Error|eSocketNotifier::Hungup); CONNECT(m_sn->activated, eDVBCAService::socketCB); } // else // eDebug("[eDVBCAService] connect failed %m"); } else eDebug("[eDVBCAService] create socket failed %m"); } void eDVBCAService::buildCAPMT(eTable *ptr) { if (!ptr) return; eDVBTableSpec table_spec; ptr->getSpec(table_spec); int pmtpid = table_spec.pid, pmt_version = table_spec.version; uint8_t demux_mask = 0; int data_demux = -1; int iter=0, max_demux_slots = sizeof(m_used_demux); while ( iter < max_demux_slots ) { if ( m_used_demux[iter] != 0xFF ) { if ( m_used_demux[iter] > data_demux ) data_demux = m_used_demux[iter]; demux_mask |= (1 << m_used_demux[iter]); } ++iter; } if ( data_demux == -1 ) { eDebug("[eDVBCAService] no data demux found for service %s", m_service.toString().c_str() ); return; } eDebug("demux %d mask %02x prevhash %08x", data_demux, demux_mask, m_prev_build_hash); unsigned int build_hash = ( pmtpid << 16); build_hash |= (demux_mask << 8); build_hash |= (pmt_version&0xFF); if ( build_hash == m_prev_build_hash ) { eDebug("[eDVBCAService] don't build/send the same CA PMT twice"); return; } std::vector::const_iterator i=ptr->getSections().begin(); if ( i != ptr->getSections().end() ) { CaProgramMapSection capmt(*i++, m_prev_build_hash ? 0x05 /*update*/ : 0x03 /*only*/, 0x01 ); while( i != ptr->getSections().end() ) { // eDebug("append"); capmt.append(*i++); } // add our private descriptors to capmt uint8_t tmp[10]; tmp[0]=0x84; // pmt pid tmp[1]=0x02; tmp[2]=pmtpid>>8; tmp[3]=pmtpid&0xFF; capmt.injectDescriptor(tmp, false); tmp[0] = 0x82; // demux tmp[1] = 0x02; tmp[2] = demux_mask; // descramble bitmask tmp[3] = data_demux&0xFF; // read section data from demux number capmt.injectDescriptor(tmp, false); tmp[0] = 0x81; // dvbnamespace tmp[1] = 0x08; tmp[2] = m_service.getDVBNamespace().get()>>24; tmp[3]=(m_service.getDVBNamespace().get()>>16)&0xFF; tmp[4]=(m_service.getDVBNamespace().get()>>8)&0xFF; tmp[5]=m_service.getDVBNamespace().get()&0xFF; tmp[6]=m_service.getTransportStreamID().get()>>8; tmp[7]=m_service.getTransportStreamID().get()&0xFF; tmp[8]=m_service.getOriginalNetworkID().get()>>8; tmp[9]=m_service.getOriginalNetworkID().get()&0xFF; capmt.injectDescriptor(tmp, false); capmt.writeToBuffer(m_capmt); } m_prev_build_hash = build_hash; if ( m_sendstate != 0xFFFFFFFF ) m_sendstate=0; sendCAPMT(); } void eDVBCAService::sendCAPMT() { if ( m_sendstate && m_sendstate != 0xFFFFFFFF ) // broken pipe retry { ::close(m_sock); Connect(); } int wp=0; if ( m_capmt[3] & 0x80 ) { int i=0; int lenbytes = m_capmt[3] & ~0x80; while(i < lenbytes) wp = (wp << 8) | m_capmt[4 + i++]; wp+=4; wp+=lenbytes; } else { wp = m_capmt[3]; wp+=4; } if ( write(m_sock, m_capmt, wp) == wp ) { m_sendstate=0xFFFFFFFF; eDebug("[eDVBCAService] send %d bytes",wp); eDVBChannelID chid; m_service.getChannelID(chid); channel_data *data = getChannelData(chid); if (data) { int lenbytes = m_capmt[3] & 0x80 ? m_capmt[3] & ~0x80 : 0; data->m_dataDemux = m_capmt[24+lenbytes]; } #if 1 for(int i=0;istart(0,true); // eDebug("[eDVBCAService] send failed .. immediate retry"); break; default: m_retryTimer->start(5000,true); // eDebug("[eDVBCAService] send failed .. retry in 5 sec"); break; } ++m_sendstate; } } static PyObject *createTuple(int pid, const char *type) { PyObject *r = PyTuple_New(2); PyTuple_SET_ITEM(r, 0, PyInt_FromLong(pid)); PyTuple_SET_ITEM(r, 1, PyString_FromString(type)); return r; } static inline void PyList_AppendSteal(PyObject *list, PyObject *item) { PyList_Append(list, item); Py_DECREF(item); } extern void PutToDict(ePyObject &dict, const char*key, ePyObject item); // defined in dvb/frontend.cpp PyObject *eDVBServicePMTHandler::program::createPythonObject() { ePyObject r = PyDict_New(); ePyObject l = PyList_New(0); PyList_AppendSteal(l, createTuple(0, "pat")); if (pmtPid != -1) PyList_AppendSteal(l, createTuple(pmtPid, "pmt")); for (std::vector::const_iterator i(videoStreams.begin()); i != videoStreams.end(); ++i) PyList_AppendSteal(l, createTuple(i->pid, "video")); for (std::vector::const_iterator i(audioStreams.begin()); i != audioStreams.end(); ++i) PyList_AppendSteal(l, createTuple(i->pid, "audio")); for (std::vector::const_iterator i(subtitleStreams.begin()); i != subtitleStreams.end(); ++i) PyList_AppendSteal(l, createTuple(i->pid, "subtitle")); PyList_AppendSteal(l, createTuple(pcrPid, "pcr")); if (textPid != -1) PyList_AppendSteal(l, createTuple(textPid, "text")); PutToDict(r, "pids", l); return r; }