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These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ //#define QNETWORKINTERFACE_DEBUG #include "qnetworkinterface.h" #include "qnetworkinterface_p.h" #include #ifndef QT_NO_NETWORKINTERFACE #include #include #include QT_BEGIN_NAMESPACE static QNetworkInterface::InterfaceFlags convertFlags(const TSoInetInterfaceInfo& aInfo) { QNetworkInterface::InterfaceFlags flags = 0; flags |= (aInfo.iState == EIfUp) ? QNetworkInterface::IsUp : QNetworkInterface::InterfaceFlag(0); // We do not have separate flag for running in Symbian OS flags |= (aInfo.iState == EIfUp) ? QNetworkInterface::IsRunning : QNetworkInterface::InterfaceFlag(0); flags |= (aInfo.iFeatures & KIfCanBroadcast) ? QNetworkInterface::CanBroadcast : QNetworkInterface::InterfaceFlag(0); flags |= (aInfo.iFeatures & KIfIsLoopback) ? QNetworkInterface::IsLoopBack : QNetworkInterface::InterfaceFlag(0); flags |= (aInfo.iFeatures & KIfIsPointToPoint) ? QNetworkInterface::IsPointToPoint : QNetworkInterface::InterfaceFlag(0); flags |= (aInfo.iFeatures & KIfCanMulticast) ? QNetworkInterface::CanMulticast : QNetworkInterface::InterfaceFlag(0); return flags; } QHostAddress qt_QHostAddressFromTInetAddr(const TInetAddr& addr) { if (addr.IsV4Mapped() || addr.Family() == KAfInet) { //convert v4 host address return QHostAddress(addr.Address()); } else { //convert v6 host address return QHostAddress((quint8 *)(addr.Ip6Address().u.iAddr8)); } } static QList interfaceListing() { TInt err(KErrNone); QList interfaces; QList addressesWithEstimatedNetmasks; // Open dummy socket for interface queries RSocket socket; err = socket.Open(qt_symbianGetSocketServer(), _L("udp")); if (err) { return interfaces; } // Ask socket to start enumerating interfaces err = socket.SetOpt(KSoInetEnumInterfaces, KSolInetIfCtrl); if (err) { socket.Close(); return interfaces; } int ifindex = 0; TPckgBuf infoPckg; TSoInetInterfaceInfo &info = infoPckg(); while (socket.GetOpt(KSoInetNextInterface, KSolInetIfCtrl, infoPckg) == KErrNone) { if (info.iName != KNullDesC) { TName address; QNetworkAddressEntry entry; QNetworkInterfacePrivate *iface = 0; iface = new QNetworkInterfacePrivate; iface->index = ifindex++; interfaces << iface; iface->name = qt_TDesC2QString(info.iName); iface->flags = convertFlags(info); if (/*info.iFeatures&KIfHasHardwareAddr &&*/ info.iHwAddr.Family() != KAFUnspec) { for (TInt i = sizeof(SSockAddr); i < sizeof(SSockAddr) + info.iHwAddr.GetUserLen(); i++) { address.AppendNumFixedWidth(info.iHwAddr[i], EHex, 2); if ((i + 1) < sizeof(SSockAddr) + info.iHwAddr.GetUserLen()) address.Append(_L(":")); } address.UpperCase(); iface->hardwareAddress = qt_TDesC2QString(address); } // Get the address of the interface entry.setIp(qt_QHostAddressFromTInetAddr(info.iAddress)); #if defined(QNETWORKINTERFACE_DEBUG) qDebug() << "address is" << info.iAddress.Family() << entry.ip(); qDebug() << "netmask is" << info.iNetMask.Family() << qt_QHostAddressFromTInetAddr( info.iNetMask ); #endif // Get the interface netmask if (info.iNetMask.IsUnspecified()) { // For some reason netmask is always 0.0.0.0 for IPv4 interfaces // and loopback interfaces (which we statically know) if (info.iAddress.IsV4Mapped()) { if (info.iFeatures & KIfIsLoopback) { entry.setPrefixLength(32); } else { // Workaround: Let Symbian determine netmask based on IP address class (IPv4 only API) TInetAddr netmask; netmask.NetMask(info.iAddress); entry.setNetmask(QHostAddress(netmask.Address())); //binary convert v4 address addressesWithEstimatedNetmasks << entry.ip(); #if defined(QNETWORKINTERFACE_DEBUG) qDebug() << "address class determined netmask" << entry.netmask(); #endif } } else { // For IPv6 interfaces if (info.iFeatures & KIfIsLoopback) { entry.setPrefixLength(128); } else if (info.iNetMask.IsUnspecified()) { //Don't see this error for IPv6, but try to handle it if it happens entry.setPrefixLength(64); //most common #if defined(QNETWORKINTERFACE_DEBUG) qDebug() << "total guess netmask" << entry.netmask(); #endif addressesWithEstimatedNetmasks << entry.ip(); } } } else { //Expected code path for IPv6 non loopback interfaces (IPv4 could come here if symbian is fixed) entry.setNetmask(qt_QHostAddressFromTInetAddr(info.iNetMask)); #if defined(QNETWORKINTERFACE_DEBUG) qDebug() << "reported netmask" << entry.netmask(); #endif } // broadcast address is determined from the netmask in postProcess() // Add new entry to interface address entries iface->addressEntries << entry; #if defined(QNETWORKINTERFACE_DEBUG) qDebug("\n Found network interface %s, interface flags:\n\ IsUp = %d, IsRunning = %d, CanBroadcast = %d,\n\ IsLoopBack = %d, IsPointToPoint = %d, CanMulticast = %d, \n\ ip = %s, netmask = %s, broadcast = %s,\n\ hwaddress = %s", iface->name.toLatin1().constData(), iface->flags & QNetworkInterface::IsUp, iface->flags & QNetworkInterface::IsRunning, iface->flags & QNetworkInterface::CanBroadcast, iface->flags & QNetworkInterface::IsLoopBack, iface->flags & QNetworkInterface::IsPointToPoint, iface->flags & QNetworkInterface::CanMulticast, entry.ip().toString().toLatin1().constData(), entry.netmask().toString().toLatin1().constData(), entry.broadcast().toString().toLatin1().constData(), iface->hardwareAddress.toLatin1().constData()); #endif } } // if we didn't have to guess any netmasks, then we're done. if (addressesWithEstimatedNetmasks.isEmpty()) { socket.Close(); return interfaces; } // we will try to use routing info to detect more precisely // estimated netmasks and then ::postProcess() should calculate // broadcast addresses // use dummy socket to start enumerating routes err = socket.SetOpt(KSoInetEnumRoutes, KSolInetRtCtrl); if (err) { socket.Close(); // return what we have // up to this moment return interfaces; } TSoInetRouteInfo routeInfo; TPckg routeInfoPkg(routeInfo); while (socket.GetOpt(KSoInetNextRoute, KSolInetRtCtrl, routeInfoPkg) == KErrNone) { // get interface address QHostAddress ifAddr(qt_QHostAddressFromTInetAddr(routeInfo.iIfAddr)); if (ifAddr.isNull()) continue; if (!addressesWithEstimatedNetmasks.contains(ifAddr)) { #if defined(QNETWORKINTERFACE_DEBUG) qDebug() << "skipping route from" << ifAddr << "because it wasn't an estimated netmask"; #endif continue; } QHostAddress destination(qt_QHostAddressFromTInetAddr(routeInfo.iDstAddr)); #if defined(QNETWORKINTERFACE_DEBUG) qDebug() << "route from" << ifAddr << "to" << destination; #endif if (destination.isNull() || destination != ifAddr) continue; // search interfaces for (int ifindex = 0; ifindex < interfaces.size(); ++ifindex) { QNetworkInterfacePrivate *iface = interfaces.at(ifindex); for (int eindex = 0; eindex < iface->addressEntries.size(); ++eindex) { QNetworkAddressEntry entry = iface->addressEntries.at(eindex); if (entry.ip() != ifAddr) { continue; } else if (!routeInfo.iNetMask.IsUnspecified()) { //the route may also return 0.0.0.0 netmask, in which case don't use it. QHostAddress netmask(qt_QHostAddressFromTInetAddr(routeInfo.iNetMask)); entry.setNetmask(netmask); #if defined(QNETWORKINTERFACE_DEBUG) qDebug() << " - route netmask" << routeInfo.iNetMask.Family() << netmask << " (using route determined netmask)"; #endif iface->addressEntries.replace(eindex, entry); } } } } socket.Close(); return interfaces; } QList QNetworkInterfaceManager::scan() { return interfaceListing(); } QT_END_NAMESPACE #endif // QT_NO_NETWORKINTERFACE