/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the examples of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #ifndef QSYM_IAP_UTIL_H #define QSYM_IAP_UTIL_H // Symbian #include #include #include #include #include #include #include // OpenC #include #include //Qt #include #include //#include _LIT(KIapNameSetting, "IAP\\Name"); // text - mandatory _LIT(KIapDialogPref, "IAP\\DialogPref"); // TUnit32 - optional _LIT(KIapService, "IAP\\IAPService"); // TUnit32 - mandatory _LIT(KIapServiceType, "IAP\\IAPServiceType"); // text - mandatory _LIT(KIapBearer, "IAP\\IAPBearer"); // TUint32 - optional _LIT(KIapBearerType, "IAP\\IAPBearerType"); // text - optional _LIT(KIapNetwork, "IAP\\IAPNetwork"); // TUint32 - optional const QLatin1String qtOrganizationTag("Trolltech"); const QLatin1String qtNetworkModuleTag("QtNetwork"); const QLatin1String iapGroupTag("IAP"); const QLatin1String iapNamesArrayTag("Names"); const QLatin1String iapNameItemTag("Name"); static QTextCodec *utf16LETextCodec = 0; void clearIapNamesSettings(QSettings &settings) { settings.beginGroup(qtNetworkModuleTag); settings.beginGroup(iapGroupTag); settings.remove(iapNamesArrayTag); settings.endGroup(); settings.endGroup(); } void writeIapNamesSettings(QSettings &settings, const QStringList& iapNames) { clearIapNamesSettings(settings); settings.beginGroup(qtNetworkModuleTag); settings.beginGroup(iapGroupTag); settings.beginWriteArray(iapNamesArrayTag); for (int index = 0; index < iapNames.size(); ++index) { settings.setArrayIndex(index); settings.setValue(iapNameItemTag, iapNames.at(index)); } settings.endArray(); settings.endGroup(); settings.endGroup(); } void readIapNamesSettings(QSettings &settings, QStringList& iapNames) { settings.beginGroup(qtNetworkModuleTag); settings.beginGroup(iapGroupTag); int last = settings.beginReadArray(iapNamesArrayTag); for (int index = 0; index < last; ++index) { settings.setArrayIndex(index); iapNames.append(settings.value(iapNameItemTag).toString()); } settings.endArray(); settings.endGroup(); settings.endGroup(); } static QString qt_TNameToQString(TName data) { if(utf16LETextCodec == 0) utf16LETextCodec = QTextCodec::codecForName("UTF-16LE"); QByteArray tmpByteArray = QByteArray::fromRawData((char*)(data.PtrZ()), data.Length() * 2); return utf16LETextCodec->toUnicode(tmpByteArray); } static QString qt_InterfaceInfoL() { QString output; TBuf8<512> buffer; TBuf<128> t; TAutoClose ss; User::LeaveIfError(ss.iObj.Connect()); ss.PushL(); TAutoClose sock; User::LeaveIfError(sock.iObj.Open(ss.iObj, _L("udp"))); sock.PushL(); User::LeaveIfError(sock.iObj.SetOpt(KSoInetEnumInterfaces, KSolInetIfCtrl)); TProtocolDesc in; User::LeaveIfError(sock.iObj.Info(in)); printf("EPOC32 IP Configuration TCPIP Version %d.%d.%d\n", in.iVersion.iMajor, in.iVersion.iMinor, in.iVersion.iBuild); TPckgBuf info, next; TInt res=sock.iObj.GetOpt(KSoInetNextInterface, KSolInetIfCtrl, info); if(res!=KErrNone) User::Leave(res); TInt count = 0; while(res==KErrNone) { res=sock.iObj.GetOpt(KSoInetNextInterface, KSolInetIfCtrl, next); if(info().iName != _L("") && info().iName != _L("loop6") && info().iName != _L("loop4")) { printf("Interface %d\n", count++); printf("Name \"%s\"\n", qt_TNameToQString(info().iName).toLatin1().data()); printf("NIF tag \"%s\"\n", qt_TNameToQString(info().iTag).toLatin1().data()); printf("State "); switch (info().iState) { case EIfPending: printf("pending\n"); break; case EIfUp: printf("up\n"); break; case EIfBusy: printf("busy\n"); break; default: printf("down\n"); break; } printf("Mtu %d\n", info().iMtu); printf("Speed Metric %d\n", info().iSpeedMetric); printf("Features:"); info().iFeatures & KIfIsLoopback ? printf(" loopback") : printf(""); info().iFeatures & KIfIsDialup ? printf(" dialup") : printf(""); info().iFeatures & KIfIsPointToPoint ? printf(" pointtopoint") : printf(""); info().iFeatures & KIfCanBroadcast ? printf(" canbroadcast") : printf(""); info().iFeatures & KIfCanMulticast ? printf(" canmulticast") : printf(""); info().iFeatures & KIfCanSetMTU ? printf(" cansetmtu") : printf(""); info().iFeatures & KIfHasHardwareAddr ? printf(" hardwareaddr") : printf(""); info().iFeatures & KIfCanSetHardwareAddr ? printf(" cansethardwareaddr") : printf(""); printf("\n"); TName address; info().iAddress.Output(address); printf("Addr: %s\n", qt_TNameToQString(address).toLatin1().data()); if(info().iAddress.IsLinkLocal()) { printf(" -link local\n"); } else if(info().iAddress.IsSiteLocal()) { printf(" -site local\n"); } else { printf(" -global\n"); } info().iNetMask.Output(address); printf("Netmask %s\n", qt_TNameToQString(address).toLatin1().data()); info().iBrdAddr.Output(address); printf("Broadcast address %s\n", qt_TNameToQString(address).toLatin1().data()); info().iDefGate.Output(address); printf("Gatew: %s\n", qt_TNameToQString(address).toLatin1().data()); info().iNameSer1.Output(address); printf("DNS 1: %s\n", qt_TNameToQString(address).toLatin1().data()); info().iNameSer2.Output(address); printf("DNS 2: %s\n", qt_TNameToQString(address).toLatin1().data()); if (info().iHwAddr.Family() != KAFUnspec) { printf("Hardware address "); TUint j; for(j = sizeof(SSockAddr) ; j < sizeof(SSockAddr) + 6 ; ++j) { if(j < (TUint)info().iHwAddr.Length()) { printf("%02X", info().iHwAddr[j]); } else { printf("??"); } if(j < sizeof(SSockAddr) + 5) printf("-"); else printf("\n"); } } } if(res == KErrNone) { info = next; printf("\n"); } else { printf("\n"); } } sock.Pop(); ss.Pop(); return output; } static QString qt_RouteInfoL() { QString output; TAutoClose ss; User::LeaveIfError(ss.iObj.Connect()); ss.PushL(); TAutoClose sock; User::LeaveIfError(sock.iObj.Open(ss.iObj, _L("udp"))); sock.PushL(); TSoInetRouteInfo routeInfo; TPckg routeInfoPkg(routeInfo); TName destAddr; TName netMask; TName gateway; TName ifAddr; // Begins enumeration of routes by setting this option User::LeaveIfError(sock.iObj.SetOpt(KSoInetEnumRoutes, KSolInetRtCtrl)); // The TSoInetRouteInfo contains information for a new route each time GetOpt returns KErrNone for(TInt i = 0; sock.iObj.GetOpt(KSoInetNextRoute, KSolInetRtCtrl, routeInfoPkg) == KErrNone ; i++) { // Extract the destination and netmask routeInfo.iDstAddr.Output(destAddr); routeInfo.iNetMask.Output(netMask); routeInfo.iGateway.Output(gateway); routeInfo.iIfAddr.Output(ifAddr); /* if(destAddr.Length() <= 2) continue; if(netMask.Find(_L("255.255.255.255")) != KErrNotFound || netMask.Find(_L("0.0.0.0")) != KErrNotFound || netMask.Find(_L("ffff:ffff:ffff:ffff")) != KErrNotFound) continue; */ printf("Route Info #[%i]\n", i); printf("DstAddr %s\n", qt_TNameToQString(destAddr).toLatin1().data()); printf("NetMask %s\n", qt_TNameToQString(netMask).toLatin1().data()); printf("Gateway %s\n", qt_TNameToQString(gateway).toLatin1().data()); printf("IfAddr %s\n", qt_TNameToQString(ifAddr).toLatin1().data()); printf("\n"); } sock.Pop(); ss.Pop(); return output; } QString qt_TDesC2QStringL(const TDesC& aDescriptor) { #ifdef QT_NO_UNICODE return QString::fromLocal8Bit(aDescriptor.Ptr(), aDescriptor.Length()); #else return QString::fromUtf16(aDescriptor.Ptr(), aDescriptor.Length()); #endif } static bool qt_SetDefaultIapName(const QString &iapName, int &error) { struct ifreq ifReq; // clear structure memset(&ifReq, 0, sizeof(struct ifreq)); // set IAP name value // make sure it is in UTF8 strcpy(ifReq.ifr_name, iapName.toUtf8().data()); if(setdefaultif(&ifReq) == 0) { // OK error = 0; return true; } else { error = errno; return false; } } static bool qt_SetDefaultSnapId(const int snapId, int &error) { struct ifreq ifReq; // clear structure memset(&ifReq, 0, sizeof(struct ifreq)); // set SNAP ID value ifReq.ifr_ifru.snap_id = snapId; if(setdefaultif(&ifReq) == 0) { // OK error = 0; return true; } else { error = errno; return false; } } static void qt_SaveIapName(QSettings& settings, QStringList& iapNames, QString& iapNameValue) { if(iapNames.contains(iapNameValue) && iapNames.first() == iapNameValue) { // no need to update } else { if(iapNameValue != QString("Easy WLAN")) { // new selection alway on top iapNames.removeAll(iapNameValue); iapNames.prepend(iapNameValue); writeIapNamesSettings(settings, iapNames); } else { // Unbeliveable ... if IAP dodn't exist before // no matter what you choose from IAP selection list // you will get "Easy WLAN" as IAP name value // somehow commsdb is not in sync } } } static QString qt_OfferIapDialog() { TBuf8<256> iapName; RSocketServ socketServ; CleanupClosePushL(socketServ); RConnection connection; CleanupClosePushL(connection); socketServ.Connect(); connection.Open(socketServ); connection.Start(); connection.GetDesSetting(TPtrC(KIapNameSetting), iapName); //connection.Stop(); iapName.ZeroTerminate(); QString strIapName((char*)iapName.Ptr()); int error = 0; if(!qt_SetDefaultIapName(strIapName, error)) { //printf("failed setdefaultif @ %i with %s and errno = %d \n", __LINE__, strIapName.toUtf8().data(), error); strIapName = QString(""); } CleanupStack::PopAndDestroy(&connection); CleanupStack::PopAndDestroy(&socketServ); return strIapName; } static QString qt_CheckForActiveConnection() { TUint count; RSocketServ serv; CleanupClosePushL(serv); RConnection conn; CleanupClosePushL(conn); serv.Connect(); conn.Open(serv); TConnectionInfoBuf connInfo; TBuf8<256> iapName; TBuf8<256> iapServiceType; QString strIapName; if (conn.EnumerateConnections(count) == KErrNone) { if(count > 0) { for (TUint i = 1; i <= count; i++) { if (conn.GetConnectionInfo(i, connInfo) == KErrNone) { RConnection tempConn; CleanupClosePushL(tempConn); tempConn.Open(serv); if (tempConn.Attach(connInfo, RConnection::EAttachTypeNormal) == KErrNone) { tempConn.GetDesSetting(TPtrC(KIapNameSetting), iapName); tempConn.GetDesSetting(TPtrC(KIapServiceType), iapServiceType); //tempConn.Stop(); iapName.ZeroTerminate(); iapServiceType.ZeroTerminate(); // if(iapServiceType.Find(_L8("LANService")) != KErrNotFound) { // activeLanConnectionFound = ETrue; // break; // } strIapName = QString((char*)iapName.Ptr()); int error = 0; if(!qt_SetDefaultIapName(strIapName, error)) { //printf("failed setdefaultif @ %i with %s and errno = %d \n", __LINE__, strIapName.toUtf8().data(), error); strIapName = QString(""); } CleanupStack::PopAndDestroy(&tempConn); break; } } } } } //conn.Stop(); CleanupStack::PopAndDestroy(&conn); CleanupStack::PopAndDestroy(&serv); return strIapName; } static QString qt_CheckSettingsForConnection(QStringList& iapNames) { QString strIapName; for(int index = 0; index < iapNames.size(); ++index) { strIapName = iapNames.at(index); int error = 0; if(!qt_SetDefaultIapName(strIapName, error)) { //printf("failed setdefaultif @ %i with %s and errno = %d \n", __LINE__, strIapName.toUtf8().data(), error); strIapName = QString(""); } else { return strIapName; } } return strIapName; } static void qt_SetDefaultIapL() { // settings @ /c/data/.config/Trolltech.com QSettings settings(QSettings::UserScope, qtOrganizationTag); // populate iap name list QStringList iapNames; readIapNamesSettings(settings, iapNames); QString iapNameValue; iapNameValue = qt_CheckForActiveConnection(); if(!iapNameValue.isEmpty()) { qt_SaveIapName(settings, iapNames, iapNameValue); return; } iapNameValue = qt_CheckSettingsForConnection(iapNames); if(!iapNameValue.isEmpty()) { qt_SaveIapName(settings, iapNames, iapNameValue); return; } /* * no active LAN connections yet * no IAP in settings * offer IAP dialog to user */ iapNameValue = qt_OfferIapDialog(); qt_SaveIapName(settings, iapNames, iapNameValue); return; } static int qt_SetDefaultIap() { #ifndef __WINS__ TRAPD(err1, qt_SetDefaultIapL()); // TRAPD(err2, qt_InterfaceInfoL()); // TRAPD(err3, qt_RouteInfoL()); return err1; #else return 0; // IAP dialog not required for emulator #endif } #endif // QSYM_IAP_UTIL_H