void CFEManager::saveSettings(bool write) { configfile.clear(); satellite_map_t &satlist = CServiceManager::getInstance()->SatelliteList(); for(fe_map_iterator_t it = femap.begin(); it != femap.end(); it++) { CFrontend * fe = it->second; frontend_config_t & fe_config = fe->getConfig(); INFO("fe%d", fe->fenumber); setConfigValue(fe, "diseqcType", fe_config.diseqcType); setConfigValue(fe, "diseqcRepeats", fe_config.diseqcRepeats); setConfigValue(fe, "motorRotationSpeed", fe_config.motorRotationSpeed); setConfigValue(fe, "highVoltage", fe_config.highVoltage); setConfigValue(fe, "uni_scr", fe_config.uni_scr); setConfigValue(fe, "uni_qrg", fe_config.uni_qrg); setConfigValue(fe, "diseqc_order", fe_config.diseqc_order); setConfigValue(fe, "use_usals", fe_config.use_usals); setConfigValue(fe, "rotor_swap", fe_config.rotor_swap); setConfigValue(fe, "lastSatellitePosition", fe->getRotorSatellitePosition()); setConfigValue(fe, "mode", fe->getMode()); setConfigValue(fe, "master", fe->getMaster()); std::vector<int> satList; satellite_map_t satellites = fe->getSatellites(); for(sat_iterator_t sit = satellites.begin(); sit != satellites.end(); ++sit) { if (sit->second.configured) { sat_iterator_t tit = satlist.find(sit->first); if (tit != satlist.end()) sit->second.use_in_scan = tit->second.use_in_scan; satList.push_back(sit->first); setSatelliteConfig(fe, sit->second); } } char cfg_key[81]; sprintf(cfg_key, "fe%d_satellites", fe->fenumber); configfile.setInt32Vector(cfg_key, satList); } if (write && configfile.getModifiedFlag()) { config_exist = configfile.saveConfig(FECONFIGFILE); //configfile.setModifiedFlag(false); } }
void CFEManager::linkFrontends(bool init) { INFO("linking.."); OpenThreads::ScopedLock<OpenThreads::Mutex> m_lock(mutex); enabled_count = 0; unused_demux = 0; int demuxes[MAX_DMX_UNITS]; for(unsigned i = 0; i < MAX_DMX_UNITS; i++) demuxes[i] = 0; demuxes[0] = 1; for(fe_map_iterator_t it = femap.begin(); it != femap.end(); it++) { CFrontend * fe = it->second; int femode = fe->getMode(); fe->slave = false; fe->have_loop = false; fe->have_rotor = false; fe->linkmap.clear(); if (femode == CFrontend::FE_MODE_MASTER) { fe->linkmap.push_back(fe); /* fe is master, find all linked */ for(fe_map_iterator_t it2 = femap.begin(); it2 != femap.end(); it2++) { CFrontend * fe2 = it2->second; if (!CFrontend::linked(fe2->getMode())) continue; if (fe2->getType() != fe->getType() || (fe2->getMaster() != fe->fenumber)) continue; fe->linkmap.push_back(fe2); if (fe2->getMode() == CFrontend::FE_MODE_LINK_LOOP) { INFO("Frontend #%d: link to master %d as LOOP", fe2->fenumber, fe->fenumber); fe->have_loop = true; } else { INFO("Frontend #%d: link to master %d as TWIN", fe2->fenumber, fe->fenumber); } } frontend_config_t & fe_config = fe->getConfig(); satellite_map_t &satellites = fe->getSatellites(); for(sat_iterator_t sit = satellites.begin(); sit != satellites.end(); ++sit) { if (fe_config.use_usals || (sit->second.configured && (sit->second.motor_position || sit->second.use_usals))) { fe->have_rotor = true; break; } } INFO("Frontend #%d: is master, with loop: %s, with rotor: %s", fe->fenumber, fe->have_loop ? "yes" : "no", fe->have_rotor ? "yes" : "no"); } else if (femode == CFrontend::FE_MODE_LINK_LOOP) { INFO("Frontend #%d: is LOOP, master %d", fe->fenumber, fe->getMaster()); if (init) fe->setMasterSlave(true); //fe->slave = true; } else if (femode == CFrontend::FE_MODE_LINK_TWIN) { INFO("Frontend #%d: is TWIN, master %d", fe->fenumber, fe->getMaster()); } else if (femode == CFrontend::FE_MODE_INDEPENDENT) { INFO("Frontend #%d: is independent", fe->fenumber); } if (init && femode != CFrontend::FE_MODE_UNUSED) fe->Init(); if (femode != CFrontend::FE_MODE_UNUSED) { enabled_count++; if ((fe->fenumber + 1) < (int) MAX_DMX_UNITS) demuxes[fe->fenumber + 1] = 1; } } for(unsigned i = 0; i < MAX_DMX_UNITS; i++) { if (demuxes[i] == 0) { unused_demux = i; INFO("pip demux: %d\n", unused_demux); break; } } }
bool CFEManager::loadSettings() { config_exist = true; configfile.clear(); if (!configfile.loadConfig(FECONFIGFILE)) { WARN("%s not found", FECONFIGFILE); config_exist = false; } int def_mode0 = CFrontend::FE_MODE_INDEPENDENT; int def_modeX = CFrontend::FE_MODE_UNUSED; if (cableOnly()) def_modeX = CFrontend::FE_MODE_INDEPENDENT; int newmode = (fe_mode_t) configfile.getInt32("mode", -1); if (newmode >= 0) { INFO("old mode param: %d\n", newmode); if (newmode == FE_MODE_LOOP) { def_mode0 = CFrontend::FE_MODE_MASTER; def_modeX = CFrontend::FE_MODE_LINK_LOOP; } else if (newmode == FE_MODE_TWIN) { def_mode0 = CFrontend::FE_MODE_MASTER; def_modeX = CFrontend::FE_MODE_LINK_TWIN; } else if (newmode == FE_MODE_ALONE) { def_mode0 = CFrontend::FE_MODE_INDEPENDENT; def_modeX = CFrontend::FE_MODE_INDEPENDENT; } } bool fsat = true; //bool fcable = true; bool fterr = true; for(fe_map_iterator_t it = femap.begin(); it != femap.end(); it++) { CFrontend * fe = it->second; frontend_config_t & fe_config = fe->getConfig(); INFO("load config for fe%d", fe->fenumber); fe_config.diseqcType = (diseqc_t) getConfigValue(fe, "diseqcType", NO_DISEQC); fe_config.diseqcRepeats = getConfigValue(fe, "diseqcRepeats", 0); fe_config.motorRotationSpeed = getConfigValue(fe, "motorRotationSpeed", 18); fe_config.highVoltage = getConfigValue(fe, "highVoltage", 0); fe_config.uni_scr = getConfigValue(fe, "uni_scr", -1); fe_config.uni_qrg = getConfigValue(fe, "uni_qrg", 0); fe_config.diseqc_order = getConfigValue(fe, "diseqc_order", UNCOMMITED_FIRST); fe_config.use_usals = getConfigValue(fe, "use_usals", 0); fe_config.rotor_swap = getConfigValue(fe, "rotor_swap", 0); fe->setRotorSatellitePosition(getConfigValue(fe, "lastSatellitePosition", 0)); /* default mode for first / next frontends */ int def_mode = def_modeX; if (fe->hasSat() && fsat) { fsat = false; def_mode = def_mode0; } if (fe->hasCable()) { #if 0 if (fcable) { fcable = false; def_mode = def_mode0; } if (def_mode > CFrontend::FE_MODE_INDEPENDENT) def_mode = CFrontend::FE_MODE_INDEPENDENT; #endif def_mode = CFrontend::FE_MODE_INDEPENDENT; } if (fe->hasTerr()) { if (fterr) { fterr = false; def_mode = def_mode0; } if (def_mode > CFrontend::FE_MODE_INDEPENDENT) def_mode = CFrontend::FE_MODE_INDEPENDENT; } if (femap.size() == 1) def_mode = CFrontend::FE_MODE_INDEPENDENT; fe->setMode(getConfigValue(fe, "mode", def_mode)); fe->setMaster(getConfigValue(fe, "master", 0)); char cfg_key[81]; sprintf(cfg_key, "fe%d_satellites", fe->fenumber); satellite_map_t & satmap = fe->getSatellites(); satmap.clear(); satellite_map_t &satlist = CServiceManager::getInstance()->SatelliteList(); for(sat_iterator_t sit = satlist.begin(); sit != satlist.end(); ++sit) { if (!fe->supportsDelivery(sit->second.delsys)) continue; t_satellite_position position = sit->first; sat_config_t satconfig; /* defaults, to replace CServiceManager::InitSatPosition/LoadMotorPositions * in the future */ satconfig.position = position; satconfig.diseqc = -1; satconfig.commited = -1; satconfig.uncommited = -1; satconfig.motor_position = 0; satconfig.diseqc_order = 0; satconfig.lnbOffsetLow = 9750; satconfig.lnbOffsetHigh = 10600; satconfig.lnbSwitch = 11700; satconfig.use_in_scan = 0; satconfig.use_usals = 0; satconfig.input = 0; satconfig.configured = 0; satmap.insert(satellite_pair_t(position, satconfig)); if(getSatelliteConfig(fe, satconfig)) satmap[position] = satconfig; // overwrite if exist if (satconfig.use_in_scan) sit->second.use_in_scan = satconfig.use_in_scan; } } linkFrontends(); return true; }