void JDnsShared::jdns_debugLinesReady() { QJDns *jdns = (QJDns *)sender(); int x = indexByJDns(jdns); if(x != -1) doDebug(jdns, x); }
STATIC void parseString( const char *str ) { /**/myassert( str != NULL ); for(;;) { while( isspace( *str ) ) ++str; switch( *str ) { case 0: return; case SWCHAR: case '-': str += 2; switch( str[-1] ) { case 'o': str = doOutput( str ); break; case 'd': str = doDebug( str ); break; case 'p': str = doParse( str ); break; case 'f': str = doFile( str ); break; case 'q': /* FALL THROUGH */ #if 0 case 'l': #endif case 'b': str = doToggle( str ); break; default: usage(); } if( !isBreakChar( *str ) ) usage(); break; case INCCHAR: str = doInclude( str + 1 ); break; case CMTCHAR: str = doComment( str + 1 ); break; default: str = addFile( str ); break; } } }
static void doAll() { doDebug(); doInfo(); doWarn(); doError(); }
bool JDnsShared::addInterface(const QHostAddress &addr) { if(shutting_down) return false; QString str; int index = instances.count(); str = QString("attempting to use interface %1").arg(addr.toString()); if(db) db->addDebug(dbname + QString::number(index), QStringList() << str); QJDns *jdns; if(mode == UnicastInternet || mode == UnicastLocal) { jdns = new QJDns(this); jdns_link(jdns); if(!jdns->init(QJDns::Unicast, addr)) { doDebug(jdns, index); delete jdns; return false; } if(mode == UnicastLocal) { QJDns::NameServer host; host.address = QHostAddress("224.0.0.251"); host.port = 5353; jdns->setNameServers(QList<QJDns::NameServer>() << host); } } else { // only one instance supported for now (see more in the // comment below) if(!instances.isEmpty()) return false; jdns = new QJDns(this); jdns_link(jdns); // instead of binding to the requested address, we'll bind // to "Any". this is because QJDns doesn't support // multiple interfaces. however, if that ever changes, // we can update the code here and things should be mostly // transparent to the user of JDnsShared. //if(!jdns->init(QJDns::Multicast, addr)) if(!jdns->init(QJDns::Multicast, QHostAddress::Any)) { doDebug(jdns, index); delete jdns; return false; } } Instance *i = new Instance; i->jdns = jdns; i->addr = addr; instances += i; if(mode == UnicastInternet) applyNameServers(i); str = QString("interface ready"); if(db) db->addDebug(dbname + QString::number(index), QStringList() << str); return true; }
int main(void) { /* Initialize System */ initSystem(); /* switch Spektrum Receiver ON */ /* no Bind at the moment */ *SPEKTRUM_BIND = 1; /* Init virtual EEPROM */ initEEPROM(); print_uart1("CorvusM3 FC - Version 0.1\r\n"); // for test //char x [80]; //sprintf(x,"%d:%d:%d\r\n",smoothValue(100,150,0),smoothValue(100,150,100),smoothValue(100,150,40)); //print_uart1(x); // read sensors for calibration setLEDStatus(LED_FLASH); // read parameters from flash loadParameter(); // function open .... setLEDStatus(LED_BLINK); // Controlloop --> statemachine() --> Timer 3 TIM_ITConfig(TIM3, TIM_IT_Update, ENABLE); while (1) { // test accu if (getParameter(PARA_VOLT) > ADCSensorValue[VOLT]) { // low accu errorCode |= ERROR_AKKU; // set bit } else { // accu OK errorCode &= ~ERROR_AKKU; // delete bit } // if something in RxBuffer if (is_read_uart1()) { getComm(); } /* Debug Output 20Hz ---------------------------------------------------*/ if (msCount % 50 == 0) { doDebug(); // for test //char x [80]; //sprintf(x,"%d\r\n",errorCode); //print_uart1(x); } /* do LED -----------------------------------------------------------*/ if (errorCode == 0) { setLEDStatus(LED_ON); } else if (errorCode < 2) // akku { setLEDStatus(LED_BLINK); } else if (errorCode < 8) // rc and sensor { setLEDStatus(LED_FLASH); } } }