static PyObject *meth_QBluetoothServiceInfo_setAttribute(PyObject *sipSelf, PyObject *sipArgs)
{
    PyObject *sipParseErr = NULL;

    {
        quint16 a0;
        const QBluetoothUuid* a1;
        QBluetoothServiceInfo *sipCpp;

        if (sipParseArgs(&sipParseErr, sipArgs, "BtJ9", &sipSelf, sipType_QBluetoothServiceInfo, &sipCpp, &a0, sipType_QBluetoothUuid, &a1))
        {
            sipCpp->setAttribute(a0,*a1);

            Py_INCREF(Py_None);
            return Py_None;
        }
    }

    {
        quint16 a0;
        const QBluetoothServiceInfo::Sequence* a1;
        int a1State = 0;
        QBluetoothServiceInfo *sipCpp;

        if (sipParseArgs(&sipParseErr, sipArgs, "BtJ1", &sipSelf, sipType_QBluetoothServiceInfo, &sipCpp, &a0, sipType_QBluetoothServiceInfo_Sequence,&a1, &a1State))
        {
            sipCpp->setAttribute(a0,*a1);
            sipReleaseType(const_cast<QBluetoothServiceInfo::Sequence *>(a1),sipType_QBluetoothServiceInfo_Sequence,a1State);

            Py_INCREF(Py_None);
            return Py_None;
        }
    }

    {
        quint16 a0;
        const QVariant* a1;
        int a1State = 0;
        QBluetoothServiceInfo *sipCpp;

        if (sipParseArgs(&sipParseErr, sipArgs, "BtJ1", &sipSelf, sipType_QBluetoothServiceInfo, &sipCpp, &a0, sipType_QVariant, &a1, &a1State))
        {
            sipCpp->setAttribute(a0,*a1);
            sipReleaseType(const_cast<QVariant *>(a1),sipType_QVariant,a1State);

            Py_INCREF(Py_None);
            return Py_None;
        }
    }

    /* Raise an exception if the arguments couldn't be parsed. */
    sipNoMethod(sipParseErr, sipName_QBluetoothServiceInfo, sipName_setAttribute, doc_QBluetoothServiceInfo_setAttribute);

    return NULL;
}
void tst_QBluetoothServiceInfo::tst_serviceClassUuids()
{
    QBluetoothServiceInfo info;
    QCOMPARE(info.serviceClassUuids().count(), 0);

    QBluetoothServiceInfo::Sequence classIds;
    classIds << QVariant::fromValue(QBluetoothUuid(QBluetoothUuid::SerialPort));
    QCOMPARE(classIds.count(), 1);

    QBluetoothUuid uuid(QString("e8e10f95-1a70-4b27-9ccf-02010264e9c8"));
    classIds.prepend(QVariant::fromValue(uuid));
    QCOMPARE(classIds.count(), 2);
    QCOMPARE(classIds.at(0).value<QBluetoothUuid>(), uuid);

    info.setAttribute(QBluetoothServiceInfo::ServiceClassIds, classIds);
    QList<QBluetoothUuid> svclids = info.serviceClassUuids();
    QCOMPARE(svclids.count(), 2);
    QCOMPARE(svclids.at(0), uuid);
    QCOMPARE(svclids.at(1), QBluetoothUuid(QBluetoothUuid::SerialPort));
}
Beispiel #3
0
void Tennis::nearFieldHandover()
{
    qDebug() << "Connecting to NFC provided address" << m_handover->bluetoothAddress().toString();

    QBluetoothDeviceInfo device = QBluetoothDeviceInfo(m_handover->bluetoothAddress(), QString(),
                                                       QBluetoothDeviceInfo::ComputerDevice);

    QBluetoothServiceInfo service;
    service.setServiceUuid(QBluetoothUuid(serviceUuid));
    service.setDevice(device);

    QBluetoothServiceInfo::Sequence protocolDescriptorList;
    QBluetoothServiceInfo::Sequence protocol;
    protocol << QVariant::fromValue(QBluetoothUuid(QBluetoothUuid::L2cap))
             << QVariant::fromValue(m_handover->serverPort());
    protocolDescriptorList.append(QVariant::fromValue(protocol));
    service.setAttribute(QBluetoothServiceInfo::ProtocolDescriptorList,
                         protocolDescriptorList);

    client->startClient(service);
    board->setStatus(tr("Connecting: %1 %2").arg(m_handover->bluetoothAddress().toString()).arg(m_handover->serverPort()), 100, 25);
}
Beispiel #4
0
void tst_QBluetoothServiceInfo::tst_assignment()
{
    QFETCH(QUuid, uuid);
    QFETCH(QBluetoothUuid::ProtocolUuid, protocolUuid);
    QFETCH(QBluetoothServiceInfo::Protocol, serviceInfoProtocol);

    const QString serviceName("My Service");
    const QBluetoothDeviceInfo deviceInfo(QBluetoothAddress("001122334455"), "Test Device", 0);

    QBluetoothServiceInfo serviceInfo;
    serviceInfo.setServiceName(serviceName);
    serviceInfo.setDevice(deviceInfo);

    QVERIFY(serviceInfo.isValid());

    {
        QBluetoothServiceInfo copyInfo = serviceInfo;

        QVERIFY(copyInfo.isValid());

        QCOMPARE(copyInfo.serviceName(), serviceName);
        QCOMPARE(copyInfo.device().address(), deviceInfo.address());
    }

    {
        QBluetoothServiceInfo copyInfo;

        QVERIFY(!copyInfo.isValid());

        copyInfo = serviceInfo;

        QVERIFY(copyInfo.isValid());

        QCOMPARE(copyInfo.serviceName(), serviceName);
        QCOMPARE(copyInfo.device().address(), deviceInfo.address());
    }

    {
        QBluetoothServiceInfo copyInfo1;
        QBluetoothServiceInfo copyInfo2;

        QVERIFY(!copyInfo1.isValid());
        QVERIFY(!copyInfo2.isValid());

        copyInfo1 = copyInfo2 = serviceInfo;

        QVERIFY(copyInfo1.isValid());
        QVERIFY(copyInfo2.isValid());

        QCOMPARE(copyInfo1.serviceName(), serviceName);
        QCOMPARE(copyInfo2.serviceName(), serviceName);
        QCOMPARE(copyInfo1.device().address(), deviceInfo.address());
        QCOMPARE(copyInfo2.device().address(), deviceInfo.address());
    }

    {
        QBluetoothServiceInfo copyInfo;
        QVERIFY(!copyInfo.isValid());
        copyInfo = serviceInfo;

        copyInfo.setAttribute(QBluetoothServiceInfo::ProtocolDescriptorList, uuid);
        QVERIFY(copyInfo.contains(QBluetoothServiceInfo::ProtocolDescriptorList));
        QVERIFY(copyInfo.isComplete());
        QVERIFY(copyInfo.attributes().count() > 0);

        copyInfo.removeAttribute(QBluetoothServiceInfo::ProtocolDescriptorList);
        QVERIFY(!copyInfo.contains(QBluetoothServiceInfo::ProtocolDescriptorList));
        QVERIFY(!copyInfo.isComplete());
    }

    {
        QBluetoothServiceInfo copyInfo;
        QVERIFY(!copyInfo.isValid());
        copyInfo = serviceInfo;

        QVERIFY(copyInfo.serverChannel() == -1);
        QVERIFY(copyInfo.protocolServiceMultiplexer() == -1);

        QBluetoothServiceInfo::Sequence protocolDescriptorList;
        QBluetoothServiceInfo::Sequence protocol;
        protocol << QVariant::fromValue(QBluetoothUuid(protocolUuid));
        protocolDescriptorList.append(QVariant::fromValue(protocol));
        protocol.clear();

        protocolDescriptorList.append(QVariant::fromValue(protocol));
        copyInfo.setAttribute(QBluetoothServiceInfo::ProtocolDescriptorList,
                                 protocolDescriptorList);
        QVERIFY(copyInfo.serverChannel() == -1);
        QVERIFY(copyInfo.protocolServiceMultiplexer() != -1);
        QVERIFY(copyInfo.socketProtocol() == serviceInfoProtocol);
    }

    {
        QBluetoothServiceInfo copyInfo;
        QVERIFY(!copyInfo.isValid());
        copyInfo = serviceInfo;
        QVERIFY(!copyInfo.isRegistered());

        QVERIFY(copyInfo.registerService());
        QVERIFY(copyInfo.isRegistered());

        QVERIFY(copyInfo.unregisterService());
        QVERIFY(!copyInfo.isRegistered());
    }
}
void QBluetoothServiceDiscoveryAgentPrivate::populateDiscoveredServices(const QBluetoothDeviceInfo &remoteDevice, const QList<QBluetoothUuid> &uuids)
{
    /* Android doesn't provide decent SDP data. A list of uuids is close to meaning-less
     *
     * The following approach is chosen:
     * - If we see an SPP service class and we see
     * one or more custom uuids we match them up. Such services will always be SPP services.
     * - If we see a custom uuid but no SPP uuid then we return
     * BluetoothServiceInfo instance with just a servuceUuid (no service class set)
     * - Any other service uuid will stand on its own.
     * */

    Q_Q(QBluetoothServiceDiscoveryAgent);

    //find SPP and custom uuid
    QBluetoothUuid uuid;
    int sppIndex = -1;
    QVector<int> customUuids;

    for (int i = 0; i < uuids.count(); i++) {
        uuid = uuids.at(i);

        if (uuid.isNull())
            continue;

        //check for SPP protocol
        bool ok = false;
        quint16 uuid16 = uuid.toUInt16(&ok);
        if (ok && uuid16 == QBluetoothUuid::SerialPort)
            sppIndex = i;

        //check for custom uuid
        if (uuid.minimumSize() == 16)
            customUuids.append(i);
    }

    for (int i = 0; i < uuids.count(); i++) {
        if (i == sppIndex && !customUuids.isEmpty())
            continue;

        QBluetoothServiceInfo serviceInfo;
        serviceInfo.setDevice(remoteDevice);

        QBluetoothServiceInfo::Sequence protocolDescriptorList;
        {
            QBluetoothServiceInfo::Sequence protocol;
            protocol << QVariant::fromValue(QBluetoothUuid(QBluetoothUuid::L2cap));
            protocolDescriptorList.append(QVariant::fromValue(protocol));
        }

        if (customUuids.contains(i) && sppIndex > -1) {
            //we have a custom uuid of service class type SPP

            //set rfcomm protocol
            QBluetoothServiceInfo::Sequence protocol;
            protocol << QVariant::fromValue(QBluetoothUuid(QBluetoothUuid::Rfcomm))
                     << QVariant::fromValue(0);
            protocolDescriptorList.append(QVariant::fromValue(protocol));

            //set SPP service class uuid
            QBluetoothServiceInfo::Sequence classId;
            classId << QVariant::fromValue(QBluetoothUuid(QBluetoothUuid::SerialPort));
            serviceInfo.setAttribute(QBluetoothServiceInfo::BluetoothProfileDescriptorList,
                                     classId);
            classId.prepend(QVariant::fromValue(uuids.at(i)));
            serviceInfo.setAttribute(QBluetoothServiceInfo::ServiceClassIds, classId);

            serviceInfo.setServiceName(QBluetoothServiceDiscoveryAgent::tr("Serial Port Profile"));
            serviceInfo.setServiceUuid(uuids.at(i));
        } else if (sppIndex == i && customUuids.isEmpty()) {
            //set rfcomm protocol
            QBluetoothServiceInfo::Sequence protocol;
            protocol << QVariant::fromValue(QBluetoothUuid(QBluetoothUuid::Rfcomm))
                     << QVariant::fromValue(0);
            protocolDescriptorList.append(QVariant::fromValue(protocol));

            QBluetoothServiceInfo::Sequence classId;
            classId << QVariant::fromValue(QBluetoothUuid(QBluetoothUuid::SerialPort));
            serviceInfo.setAttribute(QBluetoothServiceInfo::BluetoothProfileDescriptorList,
                                     classId);

            //also we need to set the custom uuid to the SPP uuid
            //otherwise QBluetoothSocket::connectToService() would fail due to a missing service uuid
            serviceInfo.setServiceUuid(uuids.at(i));
        } else if (customUuids.contains(i)) {
            //custom uuid but no serial port
            serviceInfo.setServiceUuid(uuids.at(i));
        }

        //Check if the UUID is in the uuidFilter
        if (!uuidFilter.isEmpty() && !uuidFilter.contains(serviceInfo.serviceUuid()))
            continue;

        serviceInfo.setAttribute(QBluetoothServiceInfo::ProtocolDescriptorList, protocolDescriptorList);
        serviceInfo.setAttribute(QBluetoothServiceInfo::BrowseGroupList,
                                 QBluetoothUuid(QBluetoothUuid::PublicBrowseGroup));

        if (!customUuids.contains(i)) {
            //if we don't have custom uuid use it as class id as well
            QBluetoothServiceInfo::Sequence classId;
            classId << QVariant::fromValue(uuids.at(i));
            serviceInfo.setAttribute(QBluetoothServiceInfo::ServiceClassIds, classId);
            QBluetoothUuid::ServiceClassUuid clsId
                = static_cast<QBluetoothUuid::ServiceClassUuid>(uuids.at(i).toUInt16());
            serviceInfo.setServiceName(QBluetoothUuid::serviceClassToString(clsId));
        }

        //don't include the service if we already discovered it before
        if (!isDuplicatedService(serviceInfo)) {
            discoveredServices << serviceInfo;
            //qCDebug(QT_BT_ANDROID) << serviceInfo;
            emit q->serviceDiscovered(serviceInfo);
        }
    }
}
Beispiel #6
0
int main(int argc, char *argv[])
{
    QCoreApplication app(argc, argv);    
    RfCommClient client;
    QBluetoothLocalDevice localDevice;
    MyThread mythread;
    
    QObject::connect(&client, SIGNAL(done()), &app, SLOT(quit()));

    QString address;
    QString port;
    QStringList args = QCoreApplication::arguments();
    
    if(args.length() >= 2){
        address = args.at(1);
        if(args.length() >= 3){
            port = args.at(2);
        }
    }

       // use previous value for client, stored earlier
//    if(address.isEmpty()){
//        QSettings settings("QtDF", "bttennis");
//        address = settings.value("lastclient").toString();
//    }

    // hard-code address and port number if not provided
    if(address.isEmpty()){
        address = "6C:9B:02:0C:91:D3";  // "J C7-2"
        port = QString("20");
    }
            
    if(!address.isEmpty()){
        qDebug() << "Connecting to" << address << port;
        QBluetoothDeviceInfo device = QBluetoothDeviceInfo(QBluetoothAddress(address), "", 
                QBluetoothDeviceInfo::MiscellaneousDevice);
        QBluetoothServiceInfo service;
        if (!port.isEmpty()) {
            QBluetoothServiceInfo::Sequence protocolDescriptorList;
            QBluetoothServiceInfo::Sequence protocol;
            protocol << QVariant::fromValue(QBluetoothUuid(QBluetoothUuid::Rfcomm))
                     << QVariant::fromValue(port.toUShort());
            protocolDescriptorList.append(QVariant::fromValue(protocol));
            service.setAttribute(QBluetoothServiceInfo::ProtocolDescriptorList,
                                 protocolDescriptorList);
            qDebug() << "port" << port.toUShort() << service.protocolServiceMultiplexer();
        }
        else {
            service.setServiceUuid(QBluetoothUuid(serviceUuid));
        }
        service.setDevice(device);
        // delay so that server is in waiting state
        qDebug() << "Starting sleep";
        mythread.sleep(10);  // seconds
        qDebug() << "Finished sleeping";
        client.startClient(service);
    } else {
        qDebug() << "failed because address and/or port is missing " << address << port;
    }

    
    return app.exec();
}
void tst_QBluetoothServiceInfo::tst_assignment()
{
    QFETCH(QUuid, uuid);
    QFETCH(QBluetoothUuid::ProtocolUuid, protocolUuid);
    QFETCH(QBluetoothServiceInfo::Protocol, serviceInfoProtocol);
    QFETCH(bool, protocolSupported);

    const QString serviceName("My Service");
    const QBluetoothDeviceInfo deviceInfo(QBluetoothAddress("001122334455"), "Test Device", 0);

    QBluetoothServiceInfo serviceInfo;
    serviceInfo.setServiceName(serviceName);
    serviceInfo.setDevice(deviceInfo);

    QVERIFY(serviceInfo.isValid());
    QVERIFY(!serviceInfo.isRegistered());
    QVERIFY(!serviceInfo.isComplete());

    {
        QBluetoothServiceInfo copyInfo = serviceInfo;

        QVERIFY(copyInfo.isValid());
        QVERIFY(!copyInfo.isRegistered());
        QVERIFY(!copyInfo.isComplete());

        QCOMPARE(copyInfo.serviceName(), serviceName);
        QCOMPARE(copyInfo.device().address(), deviceInfo.address());
    }

    {
        QBluetoothServiceInfo copyInfo;

        QVERIFY(!copyInfo.isValid());
        QVERIFY(!copyInfo.isRegistered());
        QVERIFY(!copyInfo.isComplete());

        copyInfo = serviceInfo;

        QVERIFY(copyInfo.isValid());
        QVERIFY(!copyInfo.isRegistered());
        QVERIFY(!copyInfo.isComplete());

        QCOMPARE(copyInfo.serviceName(), serviceName);
        QCOMPARE(copyInfo.device().address(), deviceInfo.address());
    }

    {
        QBluetoothServiceInfo copyInfo1;
        QBluetoothServiceInfo copyInfo2;

        QVERIFY(!copyInfo1.isValid());
        QVERIFY(!copyInfo1.isRegistered());
        QVERIFY(!copyInfo1.isComplete());
        QVERIFY(!copyInfo2.isValid());
        QVERIFY(!copyInfo2.isRegistered());
        QVERIFY(!copyInfo2.isComplete());

        copyInfo1 = copyInfo2 = serviceInfo;

        QVERIFY(copyInfo1.isValid());
        QVERIFY(!copyInfo1.isRegistered());
        QVERIFY(!copyInfo1.isComplete());
        QVERIFY(copyInfo2.isValid());
        QVERIFY(!copyInfo2.isRegistered());
        QVERIFY(!copyInfo2.isComplete());

        QCOMPARE(copyInfo1.serviceName(), serviceName);
        QCOMPARE(copyInfo2.serviceName(), serviceName);
        QCOMPARE(copyInfo1.device().address(), deviceInfo.address());
        QCOMPARE(copyInfo2.device().address(), deviceInfo.address());
    }

    {
        QBluetoothServiceInfo copyInfo;
        QVERIFY(!copyInfo.isValid());
        QVERIFY(!copyInfo.isRegistered());
        QVERIFY(!copyInfo.isComplete());
        copyInfo = serviceInfo;
        QVERIFY(copyInfo.contains(QBluetoothServiceInfo::ServiceName));

        copyInfo.setAttribute(QBluetoothServiceInfo::ProtocolDescriptorList, QBluetoothUuid(uuid));
        QVERIFY(copyInfo.contains(QBluetoothServiceInfo::ProtocolDescriptorList));
        QVERIFY(copyInfo.isComplete());
        QVERIFY(copyInfo.attributes().count() > 0);

        copyInfo.removeAttribute(QBluetoothServiceInfo::ProtocolDescriptorList);
        QVERIFY(!copyInfo.contains(QBluetoothServiceInfo::ProtocolDescriptorList));
        QVERIFY(!copyInfo.isComplete());
    }

    {
        QBluetoothServiceInfo copyInfo;
        QVERIFY(!copyInfo.isValid());
        copyInfo = serviceInfo;

        QVERIFY(copyInfo.serverChannel() == -1);
        QVERIFY(copyInfo.protocolServiceMultiplexer() == -1);

        QBluetoothServiceInfo::Sequence protocolDescriptorList;
        QBluetoothServiceInfo::Sequence protocol;
        protocol << QVariant::fromValue(QBluetoothUuid(protocolUuid));
        protocolDescriptorList.append(QVariant::fromValue(protocol));
        protocol.clear();

        protocolDescriptorList.append(QVariant::fromValue(protocol));
        copyInfo.setAttribute(QBluetoothServiceInfo::ProtocolDescriptorList,
                                 protocolDescriptorList);
        if (serviceInfoProtocol == QBluetoothServiceInfo::L2capProtocol) {
            QVERIFY(copyInfo.serverChannel() == -1);
            QVERIFY(copyInfo.protocolServiceMultiplexer() != -1);
        } else if (serviceInfoProtocol == QBluetoothServiceInfo::RfcommProtocol) {
            QVERIFY(copyInfo.serverChannel() != -1);
            QVERIFY(copyInfo.protocolServiceMultiplexer() == -1);
        }

        QVERIFY(copyInfo.socketProtocol() == serviceInfoProtocol);
    }

    {
        QBluetoothServiceInfo copyInfo;

        QVERIFY(!copyInfo.isValid());
        copyInfo = serviceInfo;
        copyInfo.setServiceUuid(QBluetoothUuid::SerialPort);
        QVERIFY(!copyInfo.isRegistered());

        if (!QBluetoothLocalDevice::allDevices().count()) {
            QSKIP("Skipping test due to missing Bluetooth device");
        } else if (protocolSupported) {
            QBluetoothServer server(serviceInfoProtocol);
            QVERIFY(server.listen());
            QTRY_VERIFY_WITH_TIMEOUT(server.isListening(), 5000);
            QVERIFY(server.serverPort() > 0);

            QBluetoothServiceInfo::Sequence protocolDescriptorList;
            QBluetoothServiceInfo::Sequence protocol;
            protocol << QVariant::fromValue(QBluetoothUuid(QBluetoothUuid::L2cap));

            if (serviceInfoProtocol == QBluetoothServiceInfo::L2capProtocol) {
                protocol << QVariant::fromValue(server.serverPort());
                protocolDescriptorList.append(QVariant::fromValue(protocol));
            } else if (serviceInfoProtocol == QBluetoothServiceInfo::RfcommProtocol) {
                protocolDescriptorList.append(QVariant::fromValue(protocol));
                protocol.clear();
                protocol << QVariant::fromValue(QBluetoothUuid(QBluetoothUuid::Rfcomm))
                         << QVariant::fromValue(quint8(server.serverPort()));
                protocolDescriptorList.append(QVariant::fromValue(protocol));
            }

            serviceInfo.setAttribute(QBluetoothServiceInfo::ProtocolDescriptorList,
                                     protocolDescriptorList);

            QVERIFY(copyInfo.registerService());
            QVERIFY(copyInfo.isRegistered());
            QVERIFY(serviceInfo.isRegistered());
            QBluetoothServiceInfo secondCopy;
            secondCopy = copyInfo;
            QVERIFY(secondCopy.isRegistered());

            QVERIFY(secondCopy.unregisterService());
            QVERIFY(!copyInfo.isRegistered());
            QVERIFY(!secondCopy.isRegistered());
            QVERIFY(!serviceInfo.isRegistered());
            QVERIFY(server.isListening());
            server.close();
            QVERIFY(!server.isListening());
        }
    }
}
Beispiel #8
0
Tennis::Tennis(QWidget *parent)
: QDialog(parent), ui(new Ui_Tennis), board(new Board), controller(new Controller), socket(0),
  m_discoveryAgent(new QBluetoothServiceDiscoveryAgent), m_handover(0)
{
    // start Bluetooth if not started
    QBluetoothLocalDevice *device = new QBluetoothLocalDevice();
    device->powerOn();
    delete device;
    device = 0;

    //! [Construct UI]
    ui->setupUi(this);

    isClient = false;
    isConnected = false;
    quickDiscovery = true;

#if defined (Q_OS_SYMBIAN) || defined(Q_OS_WINCE) || defined(Q_WS_MAEMO_5) || defined(Q_WS_MAEMO_6)
    setWindowState(Qt::WindowMaximized);
#endif

    ui->pongView->setScene(board->getScene());    

    connect(ui->pongView, SIGNAL(mouseMove(int, int)), this, SLOT(mouseMove(int, int)));
    ui->pongView->setMouseTracking(false);

    connect(board, SIGNAL(ballCollision(Board::Edge)), controller, SLOT(ballCollision(Board::Edge)));
    connect(board, SIGNAL(scored(Board::Edge)), controller, SLOT(scored(Board::Edge)));
    connect(controller, SIGNAL(moveBall(int,int)), board, SLOT(setBall(int,int)));
    connect(this, SIGNAL(moveLeftPaddle(int)), board, SLOT(setLeftPaddle(int)));
    connect(this, SIGNAL(moveRightPaddle(int)), board, SLOT(setRightPaddle(int)));
    connect(controller, SIGNAL(score(int,int)), board, SLOT(setScore(int,int)));
    connect(controller, SIGNAL(fps(const QString&)), this, SLOT(fps(const QString&)));

    setFocusPolicy(Qt::WheelFocus);

    paddle_pos = (Board::Height-12)/2-Board::Paddle/2;
    endPaddlePos = paddle_pos;

    emit moveLeftPaddle(paddle_pos);
    board->setRightPaddle(paddle_pos);

    server = new TennisServer(this);

    connect(controller, SIGNAL(moveBall(int,int)), server, SLOT(moveBall(int,int)));
    connect(controller, SIGNAL(score(int,int)), server, SLOT(score(int,int)));
    connect(this, SIGNAL(moveLeftPaddle(int)), server, SLOT(moveLeftPaddle(int)));
    connect(server, SIGNAL(clientConnected(QString)), this, SLOT(serverConnected(QString)));
    connect(server, SIGNAL(clientDisconnected(QString)), this, SLOT(serverDisconnected()));
    connect(server, SIGNAL(moveRightPaddle(int)), board, SLOT(setRightPaddle(int)));
    connect(server, SIGNAL(lag(int)), this, SLOT(lagReport(int)));

    connect(server, SIGNAL(clientConnected(QString)), controller, SLOT(refresh()));

    server->startServer();

    client = new TennisClient(this);

    connect(client, SIGNAL(moveBall(int,int)), board, SLOT(setBall(int,int)));
    connect(client, SIGNAL(moveLeftPaddle(int)), board, SLOT(setLeftPaddle(int)));
    connect(client, SIGNAL(connected(QString)), this, SLOT(clientConnected(QString)));
    connect(client, SIGNAL(disconnected()), this, SLOT(clientDisconnected()));
    connect(this, SIGNAL(moveRightPaddle(int)), client, SLOT(moveRightPaddle(int)));
    connect(client, SIGNAL(score(int,int)), board, SLOT(setScore(int,int)));
    connect(client, SIGNAL(lag(int)), this, SLOT(lagReport(int)));

    connect(this, SIGNAL(moveLeftPaddle(int)), controller, SLOT(moveLeftPaddle(int)));
    connect(this, SIGNAL(moveRightPaddle(int)), controller, SLOT(moveRightPaddle(int)));
    connect(server, SIGNAL(moveRightPaddle(int)), controller, SLOT(moveRightPaddle(int)));


//    ui->pongView->setBackgroundBrush(QBrush(Qt::white));
    ui->pongView->setCacheMode(QGraphicsView::CacheBackground);

    QNearFieldManager nearFieldManager;
    if (nearFieldManager.isAvailable()) {
        m_handover = new Handover(server->serverPort(), this);
        connect(m_handover, SIGNAL(bluetoothServiceChanged()), this, SLOT(nearFieldHandover()));

        connect(m_discoveryAgent, SIGNAL(serviceDiscovered(QBluetoothServiceInfo)),
                this, SLOT(serviceDiscovered(QBluetoothServiceInfo)));
        connect(m_discoveryAgent, SIGNAL(finished()), this, SLOT(discoveryFinished()));
    }


    m_discoveryAgent->setUuidFilter(QBluetoothUuid(serviceUuid));


    QString address;
    QString port;
    QStringList args = QCoreApplication::arguments();
    if(args.length() >= 2){
        address = args.at(1);
        if(args.length() >= 3){
            port = args.at(2);
        }
    }

    if(address.isEmpty()){
        QSettings settings("QtDF", "bttennis");
        address = settings.value("lastclient").toString();
    }

    if(!address.isEmpty()){
        qDebug() << "Connect to" << address << port;
        QBluetoothDeviceInfo device = QBluetoothDeviceInfo(QBluetoothAddress(address), "", QBluetoothDeviceInfo::ComputerDevice);
        QBluetoothServiceInfo service;
        if (!port.isEmpty()) {
            QBluetoothServiceInfo::Sequence protocolDescriptorList;
            QBluetoothServiceInfo::Sequence protocol;
            protocol << QVariant::fromValue(QBluetoothUuid(QBluetoothUuid::L2cap))
                     << QVariant::fromValue(port.toUShort());
            protocolDescriptorList.append(QVariant::fromValue(protocol));
            service.setAttribute(QBluetoothServiceInfo::ProtocolDescriptorList,
                                 protocolDescriptorList);
            qDebug() << "port" << port.toUShort() << service.protocolServiceMultiplexer();
        }
        else {
            service.setServiceUuid(QBluetoothUuid(serviceUuid));
        }
        service.setDevice(device);
        client->startClient(service);
        board->setStatus("Connecting", 100, 25);
    } else if (nearFieldManager.isAvailable()) {
        board->setStatus(tr("Touch to play"), 100, 25);
    }

    setEnabled(true);

    paddleAnimation = new QPropertyAnimation(this, "paddlePos", this);
    paddleAnimation->setEasingCurve(QEasingCurve::InOutQuad);

    ui->pongView->installEventFilter(this);

}