#include #include #include #include #include #include eDVBServicePMTHandler::eDVBServicePMTHandler(int record) :m_pmt_pid(0xFFFF), m_ca_servicePtr(0) { m_record = record; eDVBResourceManager::getInstance(m_resourceManager); CONNECT(m_PMT.tableReady, eDVBServicePMTHandler::PMTready); CONNECT(m_PAT.tableReady, eDVBServicePMTHandler::PATready); } eDVBServicePMTHandler::~eDVBServicePMTHandler() { delete m_ca_servicePtr; } 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_channel->getDemux(m_demux, m_record ? 0 : iDVBChannel::capDecode)) eDebug("Allocating a demux for now tuned-in channel failed."); serviceEvent(eventTuned); if (m_demux) { eDebug("ok ... now we start!!"); /* emit */ m_resourceManager->m_channelRunning(channel); m_PAT.begin(eApp, eDVBPATSpec(), 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::PMTready(int error) { if (error) serviceEvent(eventNoPMT); else { serviceEvent(eventNewProgramInfo); if (!m_pvr_channel && !m_ca_servicePtr) // don't send campmt to camd.socket for playbacked services m_ca_servicePtr = new eDVBCAService(*this); if (m_ca_servicePtr) m_ca_servicePtr->buildCAPMT(); } } void eDVBServicePMTHandler::PATready(int) { eDebug("got PAT"); ePtr > ptr; if (!m_PAT.getCurrent(ptr)) { int pmtpid = -1; std::vector::const_iterator i; for (i = ptr->getSections().begin(); i != ptr->getSections().end(); ++i) { const ProgramAssociationSection &pat = **i; ProgramAssociationConstIterator program; for (program = pat.getPrograms()->begin(); 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); m_pmt_pid = pmtpid; } } else serviceEvent(eventNoPAT); } int eDVBServicePMTHandler::getProgramInfo(struct program &program) { eDebug("got PMT"); ePtr > ptr; program.videoStreams.clear(); program.audioStreams.clear(); program.pcrPid = -1; program.pmtPid = m_pmt_pid < 0x1fff ? m_pmt_pid : -1; if (!m_PMT.getCurrent(ptr)) { 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; videoStream video; audioStream audio; video.pid = (*es)->getPid(); audio.pid = (*es)->getPid(); switch ((*es)->getType()) { case 0x01: // MPEG 1 video case 0x02: // MPEG 2 video isvideo = 1; break; case 0x03: // MPEG 1 audio case 0x04: // MPEG 2 audio: isaudio = 1; audio.type = audioStream::atMPEG; break; } if (isaudio) program.audioStreams.push_back(audio); if (isvideo) program.videoStreams.push_back(video); } } return 0; } else if ( m_service && !m_service->cacheEmpty() ) { int vpid = m_service->getCachePID(eDVBService::cVPID), apid_ac3 = m_service->getCachePID(eDVBService::cAPID), apid_mpeg = m_service->getCachePID(eDVBService::cAC3PID), pcrpid = m_service->getCachePID(eDVBService::cPCRPID), cnt=0; if ( vpid != -1 ) { videoStream s; s.pid = vpid; program.videoStreams.push_back(s); ++cnt; } if ( apid_ac3 != -1 ) { audioStream s; s.type = audioStream::atAC3; s.pid = apid_ac3; program.audioStreams.push_back(s); ++cnt; } if ( apid_mpeg != -1 ) { audioStream s; s.type = audioStream::atMPEG; s.pid = apid_mpeg; program.audioStreams.push_back(s); ++cnt; } if ( pcrpid != -1 ) { ++cnt; program.pcrPid = pcrpid; } if ( cnt ) return 0; } return -1; } int eDVBServicePMTHandler::getDemux(ePtr &demux) { demux = m_demux; if (demux) return 0; else return -1; } int eDVBServicePMTHandler::getPVRChannel(ePtr &pvr_channel) { pvr_channel = m_pvr_channel; if (pvr_channel) return 0; else return -1; } int eDVBServicePMTHandler::tune(eServiceReferenceDVB &ref) { RESULT res; m_reference = ref; /* is this a normal (non PVR) channel? */ if (ref.path.empty()) { eDVBChannelID chid; ref.getChannelID(chid); res = m_resourceManager->allocateChannel(chid, m_channel); eDebug("allocate Channel: res %d", res); } else { eDVBMetaParser parser; if (parser.parseFile(ref.path)) eWarning("no .meta file found, trying original service ref."); else m_reference = parser.m_ref; eDebug("alloc PVR"); /* allocate PVR */ res = m_resourceManager->allocatePVRChannel(m_pvr_channel); if (res) eDebug("allocatePVRChannel failed!\n"); m_channel = m_pvr_channel; } if (m_channel) { m_channel->connectStateChange( slot(*this, &eDVBServicePMTHandler::channelStateChanged), m_channelStateChanged_connection); m_last_channel_state = -1; channelStateChanged(m_channel); } else { serviceEvent(eventTuneFailed); return res; } if (m_pvr_channel) m_pvr_channel->playFile(ref.path.c_str()); ePtr db; if (!m_resourceManager->getChannelList(db)) db->getService((eServiceReferenceDVB&)m_reference, m_service); return res; } void eDVBCAService::Connect() { 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); connect(m_sock, (struct sockaddr *) &m_servaddr, m_clilen); fcntl(m_sock, F_SETFL, O_NONBLOCK); int val=1; setsockopt(m_sock, SOL_SOCKET, SO_REUSEADDR, &val, 4); } void eDVBCAService::buildCAPMT() { ePtr > ptr; if (m_parent.m_PMT.getCurrent(ptr)) return; std::vector::const_iterator i=ptr->getSections().begin(); if ( i != ptr->getSections().end() ) { CaProgramMapSection capmt(*i++, m_capmt == NULL ? 0x03 /*only*/: 0x05 /*update*/, 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]=m_parent.m_pmt_pid>>8; tmp[3]=m_parent.m_pmt_pid&0xFF; capmt.injectDescriptor(tmp, false); tmp[0] = 0x82; // demux tmp[1] = 0x02; m_parent.m_demux->getCADemuxID(tmp[3]); // read section data from demux number tmp[2] = 1 << tmp[3]; // descramble bitmask capmt.injectDescriptor(tmp, false); tmp[0] = 0x81; // dvbnamespace tmp[1] = 0x08; tmp[2] = m_parent.m_reference.getDVBNamespace().get()>>24; tmp[3]=(m_parent.m_reference.getDVBNamespace().get()>>16)&0xFF; tmp[4]=(m_parent.m_reference.getDVBNamespace().get()>>8)&0xFF; tmp[5]=m_parent.m_reference.getDVBNamespace().get()&0xFF; tmp[6]=m_parent.m_reference.getTransportStreamID().get()>>8; tmp[7]=m_parent.m_reference.getTransportStreamID().get()&0xFF; tmp[8]=m_parent.m_reference.getOriginalNetworkID().get()>>8; tmp[9]=m_parent.m_reference.getOriginalNetworkID().get()&0xFF; capmt.injectDescriptor(tmp, false); if ( !m_capmt ) m_capmt = new uint8_t[2048]; capmt.writeToBuffer(m_capmt); } 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 |= (m_capmt[4+i] << (8 * i++)); wp+=4; wp+=lenbytes; } else { wp = m_capmt[3]; wp+=4; } if ( write(m_sock, m_capmt, wp) == wp ) { m_sendstate=0xFFFFFFFF; eDebug("[eDVBCAHandler] send %d bytes",wp); #if 1 for(int i=0;i