From b5bdfd2c41c0be5b79831c1b9d5a3f292d129264 Mon Sep 17 00:00:00 2001 From: Timothy Pearson Date: Sun, 9 Sep 2012 20:40:11 -0500 Subject: Extend API to include default device(s) --- .../network-manager/network-manager.cpp | 355 +++++++++++++++++++-- .../network-manager/network-manager.h | 4 +- tdecore/tdenetworkconnections.cpp | 30 +- tdecore/tdenetworkconnections.h | 62 +++- 4 files changed, 423 insertions(+), 28 deletions(-) (limited to 'tdecore') diff --git a/tdecore/networkbackends/network-manager/network-manager.cpp b/tdecore/networkbackends/network-manager/network-manager.cpp index 1b639aa25..d5af43248 100644 --- a/tdecore/networkbackends/network-manager/network-manager.cpp +++ b/tdecore/networkbackends/network-manager/network-manager.cpp @@ -16,6 +16,8 @@ Boston, MA 02110-1301, USA. */ +#include "tdehardwaredevices.h" + #include "network-manager.h" #include "network-manager_p.h" @@ -913,11 +915,21 @@ char tdeParityToNMParity(TDENetworkParity::TDENetworkParity parity) { return ret; } -TDENetworkWepKeyType::TDENetworkWepKeyType nmWepKeyTypeToTDEWepKeyType(unsigned int nm) { +TDENetworkWepKeyType::TDENetworkWepKeyType nmWepKeyTypeToTDEWepKeyType(unsigned int nm, TQString key=TQString::null) { TDENetworkWepKeyType::TDENetworkWepKeyType ret = TDENetworkWepKeyType::Hexadecimal; if (nm == NM_WEP_TYPE_HEXADECIMAL) { - ret = TDENetworkWepKeyType::Hexadecimal; + if (key.isNull()) { + ret = TDENetworkWepKeyType::Hexadecimal; + } + else { + if ((key.length() == 10) || (key.length() == 26)) { + ret = TDENetworkWepKeyType::Hexadecimal; + } + else { + ret = TDENetworkWepKeyType::Ascii; + } + } } else if (nm == NM_WEP_TYPE_PASSPHRASE) { ret = TDENetworkWepKeyType::Passphrase; @@ -932,6 +944,9 @@ unsigned int tdeWepKeyTypeToNMWepKeyType(TDENetworkWepKeyType::TDENetworkWepKeyT if (type == TDENetworkWepKeyType::Hexadecimal) { ret = NM_WEP_TYPE_HEXADECIMAL; } + else if (type == TDENetworkWepKeyType::Ascii) { + ret = NM_WEP_TYPE_HEXADECIMAL; + } else if (type == TDENetworkWepKeyType::Passphrase) { ret = NM_WEP_TYPE_PASSPHRASE; } @@ -1172,6 +1187,90 @@ TQString TDENetworkConnectionManager_BackendNM::deviceInterfaceString(TQString m } } +TQString macAddressForGenericDevice(TQT_DBusObjectPath path) { + TQT_DBusError error; + + DBus::DeviceProxy genericDevice(NM_DBUS_SERVICE, path); + genericDevice.setConnection(TQT_DBusConnection::systemBus()); + TQ_UINT32 deviceType = genericDevice.getDeviceType(error); + if (error.isValid()) { + // Error! + PRINT_ERROR(error.name()) + return TQString(); + } + else if (deviceType == NM_DEVICE_TYPE_ETHERNET) { + DBus::EthernetDeviceProxy ethernetDevice(NM_DBUS_SERVICE, path); + ethernetDevice.setConnection(TQT_DBusConnection::systemBus()); + TQString candidateMACAddress = ethernetDevice.getPermHwAddress(error); + if (!error.isValid()) { + return candidateMACAddress.lower(); + } + } + else if (deviceType == NM_DEVICE_TYPE_INFINIBAND) { + DBus::InfinibandDeviceProxy infinibandDevice(NM_DBUS_SERVICE, path); + infinibandDevice.setConnection(TQT_DBusConnection::systemBus()); + TQString candidateMACAddress = infinibandDevice.getHwAddress(error); + if (!error.isValid()) { + return candidateMACAddress.lower(); + } + } + else if (deviceType == NM_DEVICE_TYPE_WIFI) { + DBus::WiFiDeviceProxy wiFiDevice(NM_DBUS_SERVICE, path); + wiFiDevice.setConnection(TQT_DBusConnection::systemBus()); + TQString candidateMACAddress = wiFiDevice.getPermHwAddress(error); + if (!error.isValid()) { + return candidateMACAddress.lower(); + } + } + else if (deviceType == NM_DEVICE_TYPE_WIMAX) { + DBus::WiMaxDeviceProxy wiMaxDevice(NM_DBUS_SERVICE, path); + wiMaxDevice.setConnection(TQT_DBusConnection::systemBus()); + TQString candidateMACAddress = wiMaxDevice.getHwAddress(error); + if (!error.isValid()) { + return candidateMACAddress.lower(); + } + } + else if (deviceType == NM_DEVICE_TYPE_OLPC_MESH) { + DBus::OlpcMeshDeviceProxy olpcMeshDevice(NM_DBUS_SERVICE, path); + olpcMeshDevice.setConnection(TQT_DBusConnection::systemBus()); + TQString candidateMACAddress = olpcMeshDevice.getHwAddress(error); + if (!error.isValid()) { + return candidateMACAddress.lower(); + } + } + else if (deviceType == NM_DEVICE_TYPE_BT) { + DBus::BluetoothDeviceProxy bluetoothDevice(NM_DBUS_SERVICE, path); + bluetoothDevice.setConnection(TQT_DBusConnection::systemBus()); + TQString candidateMACAddress = bluetoothDevice.getHwAddress(error); + if (!error.isValid()) { + return candidateMACAddress.lower(); + } + } + // FIXME + // Add other supported device types here + + return TQString::null; +} + +TQString tdeDeviceUUIDForMACAddress(TQString macAddress) { + TDEHardwareDevices *hwdevices = KGlobal::hardwareDevices(); + if (!hwdevices) { + return TQString::null; + } + + TDEGenericHardwareList devices = hwdevices->listByDeviceClass(TDEGenericDeviceType::Network); + for (TDEGenericHardwareList::iterator it = devices.begin(); it != devices.end(); ++it) { + TDENetworkDevice* dev = dynamic_cast(*it); + if (dev) { + if (macAddress.lower() == dev->macAddress().lower()) { + return dev->uniqueID(); + } + } + } + + return TQString::null; +} + TDENetworkConnectionManager_BackendNM::TDENetworkConnectionManager_BackendNM(TQString macAddress) : TDENetworkConnectionManager(macAddress) { d = new TDENetworkConnectionManager_BackendNMPrivate(this); @@ -2603,8 +2702,34 @@ void TDENetworkConnectionManager_BackendNM::loadConnectionAllowedValues(TDENetwo // While this separate separate routine is needed to get the secrets, note that secrets must // be saved using the same connection map save routine that all other settings use above. bool TDENetworkConnectionManager_BackendNM::loadConnectionSecrets(TQString uuid) { + TDENetworkConnection* connection = findConnectionByUUID(uuid); + if (!connection) { + PRINT_ERROR(TQString("Unable to locate connection with uuid '%1' in local database. Did you run loadConnectionInformation() first?")); + return FALSE; + } + //TDEWiredEthernetConnection* ethernetConnection = dynamic_cast(connection); + //TDEWiredInfinibandConnection* infinibandConnection = dynamic_cast(connection); + TDEWiFiConnection* wiFiConnection = dynamic_cast(connection); + TDEVPNConnection* vpnConnection = dynamic_cast(connection); + //TDEWiMaxConnection* wiMaxConnection = dynamic_cast(connection); + //TDEVLANConnection* vlanConnection = dynamic_cast(connection); + //TDEOLPCMeshConnection* olpcMeshConnection = dynamic_cast(connection); + //TDEBluetoothConnection* bluetoothConnection = dynamic_cast(connection); + TDEModemConnection* modemConnection = dynamic_cast(connection); + bool ret = TRUE; ret = ret && loadConnectionSecretsForGroup(uuid, "802-1x"); + if (wiFiConnection) { + ret = ret && loadConnectionSecretsForGroup(uuid, "802-11-wireless-security"); + } + if (vpnConnection) { + ret = ret && loadConnectionSecretsForGroup(uuid, "vpn"); + } + ret = ret && loadConnectionSecretsForGroup(uuid, "pppoe"); + if (modemConnection) { + ret = ret && loadConnectionSecretsForGroup(uuid, "cdma"); + ret = ret && loadConnectionSecretsForGroup(uuid, "gsm"); + } return ret; } @@ -2713,15 +2838,19 @@ bool TDENetworkConnectionManager_BackendNM::loadConnectionSecretsForGroup(TQStri if ((outerKeyValue.lower() == "802-11-wireless-security") && (wiFiConnection)) { if (keyValue.lower() == "wep-key0") { wiFiConnection->securitySettings.wepKey0 = dataValue2.toString(); + wiFiConnection->securitySettings.wepKeyType = nmWepKeyTypeToTDEWepKeyType(tdeWepKeyTypeToNMWepKeyType(wiFiConnection->securitySettings.wepKeyType), wiFiConnection->securitySettings.wepKey0); } else if (keyValue.lower() == "wep-key1") { wiFiConnection->securitySettings.wepKey1 = dataValue2.toString(); + wiFiConnection->securitySettings.wepKeyType = nmWepKeyTypeToTDEWepKeyType(tdeWepKeyTypeToNMWepKeyType(wiFiConnection->securitySettings.wepKeyType), wiFiConnection->securitySettings.wepKey1); } else if (keyValue.lower() == "wep-key2") { wiFiConnection->securitySettings.wepKey2 = dataValue2.toString(); + wiFiConnection->securitySettings.wepKeyType = nmWepKeyTypeToTDEWepKeyType(tdeWepKeyTypeToNMWepKeyType(wiFiConnection->securitySettings.wepKeyType), wiFiConnection->securitySettings.wepKey2); } else if (keyValue.lower() == "wep-key3") { wiFiConnection->securitySettings.wepKey3 = dataValue2.toString(); + wiFiConnection->securitySettings.wepKeyType = nmWepKeyTypeToTDEWepKeyType(tdeWepKeyTypeToNMWepKeyType(wiFiConnection->securitySettings.wepKeyType), wiFiConnection->securitySettings.wepKey3); } else if (keyValue.lower() == "psk") { wiFiConnection->securitySettings.psk = dataValue2.toString(); @@ -3406,13 +3535,13 @@ bool TDENetworkConnectionManager_BackendNM::saveConnection(TDENetworkConnection* settingsMap["wep-key-type"] = convertDBUSDataToVariantData(TQT_DBusData::fromUInt32(tdeWepKeyTypeToNMWepKeyType(wiFiConnection->securitySettings.wepKeyType))); settingsMap["psk-flags"] = convertDBUSDataToVariantData(TQT_DBusData::fromUInt32(tdePasswordFlagsToNMPasswordFlags(wiFiConnection->securitySettings.pskFlags))); settingsMap["leap-password-flags"] = convertDBUSDataToVariantData(TQT_DBusData::fromUInt32(tdePasswordFlagsToNMPasswordFlags(wiFiConnection->securitySettings.leapPasswordFlags))); - if (connection->eapConfig.secretsValid) { - settingsMap["wep-key0"] = convertDBUSDataToVariantData(TQT_DBusData::fromString(wiFiConnection->securitySettings.wepKey0)); - settingsMap["wep-key1"] = convertDBUSDataToVariantData(TQT_DBusData::fromString(wiFiConnection->securitySettings.wepKey1)); - settingsMap["wep-key2"] = convertDBUSDataToVariantData(TQT_DBusData::fromString(wiFiConnection->securitySettings.wepKey2)); - settingsMap["wep-key3"] = convertDBUSDataToVariantData(TQT_DBusData::fromString(wiFiConnection->securitySettings.wepKey3)); - settingsMap["psk"] = convertDBUSDataToVariantData(TQT_DBusData::fromString(wiFiConnection->securitySettings.psk)); - settingsMap["leap-password"] = convertDBUSDataToVariantData(TQT_DBusData::fromString(wiFiConnection->securitySettings.leapPassword)); + if (wiFiConnection->securitySettings.secretsValid) { + UPDATE_STRING_SETTING_IF_VALID(wiFiConnection->securitySettings.wepKey0, "wep-key0", settingsMap) + UPDATE_STRING_SETTING_IF_VALID(wiFiConnection->securitySettings.wepKey1, "wep-key1", settingsMap) + UPDATE_STRING_SETTING_IF_VALID(wiFiConnection->securitySettings.wepKey2, "wep-key2", settingsMap) + UPDATE_STRING_SETTING_IF_VALID(wiFiConnection->securitySettings.wepKey3, "wep-key3", settingsMap) + UPDATE_STRING_SETTING_IF_VALID(wiFiConnection->securitySettings.psk, "psk", settingsMap) + UPDATE_STRING_SETTING_IF_VALID(wiFiConnection->securitySettings.leapPassword, "leap-password", settingsMap) } else { settingsMap.remove("wep-key0"); @@ -4133,14 +4262,166 @@ bool TDENetworkConnectionManager_BackendNM::deleteConnection(TQString uuid) { } } else { - PRINT_ERROR(TQString("invalid internal network-manager settings proxy object").arg(uuid)); + PRINT_ERROR(TQString("invalid internal network-manager settings proxy object")); return FALSE; } } -bool TDENetworkConnectionManager_BackendNM::verifyConnectionSettings(TDENetworkConnection* connection) { +bool TDENetworkConnectionManager_BackendNM::verifyConnectionSettings(TDENetworkConnection* connection, TDENetworkConnectionErrorFlags::TDENetworkConnectionErrorFlags* type, TDENetworkErrorStringMap* reason) { // FIXME - // This should actually attempt to validate the settings! + // This should actually attempt to validate all the settings! + + if (!connection) { + return false; + } + + if (connection->friendlyName == "") { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidConnectionSetting] = i18n("Connection name is invalid"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidConnectionSetting; + return false; + } + + if (connection->ipConfig.valid) { + // Iterate over all addresses + TDENetworkSingleIPConfigurationList::iterator it; + for (it = connection->ipConfig.ipConfigurations.begin(); it != connection->ipConfig.ipConfigurations.end(); ++it) { + if ((*it).isIPv4()) { + if (!(connection->ipConfig.connectionFlags & TDENetworkIPConfigurationFlags::IPV4DHCPIP)) { + if (!TDENetworkConnectionManager::validateIPAddress((*it).ipAddress)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidIPv4Setting] = i18n("IPv4 address is invalid"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidIPv4Setting; + return false; + } + } + } + else if ((*it).isIPv6()) { + if (!(connection->ipConfig.connectionFlags & TDENetworkIPConfigurationFlags::IPV6DHCPIP)) { + if (!TDENetworkConnectionManager::validateIPAddress((*it).ipAddress)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidIPv6Setting] = i18n("IPv6 address is invalid"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidIPv6Setting; + return false; + } + } + } + } + } + + TDEWiFiConnection* wiFiConnection = dynamic_cast(connection); + if (wiFiConnection) { + if (wiFiConnection->SSID.count() < 1) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessSetting] = i18n("No SSID provided"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessSetting; + return false; + } + if (wiFiConnection->securityRequired) { + if (wiFiConnection->securitySettings.secretsValid) { + if ((wiFiConnection->securitySettings.keyType == TDENetworkWiFiKeyType::WEP) || ((wiFiConnection->securitySettings.keyType == TDENetworkWiFiKeyType::DynamicWEP) && ((wiFiConnection->securitySettings.authType == TDENetworkWiFiAuthType::Open) || (wiFiConnection->securitySettings.authType == TDENetworkWiFiAuthType::Shared)))) { + if (wiFiConnection->securitySettings.wepKeyType == TDENetworkWepKeyType::Hexadecimal) { + if (wiFiConnection->securitySettings.wepKey0 != "") { + if ((wiFiConnection->securitySettings.wepKey0.length() != 10) && (wiFiConnection->securitySettings.wepKey0.length() != 26)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("WEP key 0 has invalid length"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + if (wiFiConnection->securitySettings.wepKey1 != "") { + if ((wiFiConnection->securitySettings.wepKey1.length() != 10) && (wiFiConnection->securitySettings.wepKey1.length() != 26)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("WEP key 1 has invalid length"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + if (wiFiConnection->securitySettings.wepKey2 != "") { + if ((wiFiConnection->securitySettings.wepKey2.length() != 10) && (wiFiConnection->securitySettings.wepKey2.length() != 26)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("WEP key 2 has invalid length"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + if (wiFiConnection->securitySettings.wepKey3 != "") { + if ((wiFiConnection->securitySettings.wepKey3.length() != 10) && (wiFiConnection->securitySettings.wepKey3.length() != 26)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("WEP key 3 has invalid length"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + if ((wiFiConnection->securitySettings.wepKey0 == "") && (wiFiConnection->securitySettings.wepKey1 == "") && (wiFiConnection->securitySettings.wepKey2 == "") && (wiFiConnection->securitySettings.wepKey3 == "")) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("No WEP key(s) provided"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + else if (wiFiConnection->securitySettings.wepKeyType == TDENetworkWepKeyType::Ascii) { + if (wiFiConnection->securitySettings.wepKey0 != "") { + if ((wiFiConnection->securitySettings.wepKey0.length() != 5) && (wiFiConnection->securitySettings.wepKey0.length() != 13)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("WEP key 0 has invalid length"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + if (wiFiConnection->securitySettings.wepKey1 != "") { + if ((wiFiConnection->securitySettings.wepKey1.length() != 5) && (wiFiConnection->securitySettings.wepKey1.length() != 13)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("WEP key 1 has invalid length"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + if (wiFiConnection->securitySettings.wepKey2 != "") { + if ((wiFiConnection->securitySettings.wepKey2.length() != 5) && (wiFiConnection->securitySettings.wepKey2.length() != 13)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("WEP key 2 has invalid length"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + if (wiFiConnection->securitySettings.wepKey3 != "") { + if ((wiFiConnection->securitySettings.wepKey3.length() != 5) && (wiFiConnection->securitySettings.wepKey3.length() != 13)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("WEP key 3 has invalid length"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + if ((wiFiConnection->securitySettings.wepKey0 == "") && (wiFiConnection->securitySettings.wepKey1 == "") && (wiFiConnection->securitySettings.wepKey2 == "") && (wiFiConnection->securitySettings.wepKey3 == "")) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("No WEP key(s) provided"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + else if (wiFiConnection->securitySettings.wepKeyType == TDENetworkWepKeyType::Ascii) { + if ((wiFiConnection->securitySettings.wepKey0 == "") && (wiFiConnection->securitySettings.wepKey1 == "") && (wiFiConnection->securitySettings.wepKey2 == "") && (wiFiConnection->securitySettings.wepKey3 == "")) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("No WEP key(s) provided"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + } + else if ((wiFiConnection->securitySettings.keyType == TDENetworkWiFiKeyType::DynamicWEP) && (wiFiConnection->securitySettings.authType == TDENetworkWiFiAuthType::LEAP)) { + if ((wiFiConnection->securitySettings.leapUsername.length() < 1) || (wiFiConnection->securitySettings.leapPassword.length() < 1)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("LEAP username and/or password not provided"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + else if ((wiFiConnection->securitySettings.keyType == TDENetworkWiFiKeyType::WPAAdHoc) || (wiFiConnection->securitySettings.keyType == TDENetworkWiFiKeyType::WPAInfrastructure) || (wiFiConnection->securitySettings.keyType == TDENetworkWiFiKeyType::WPAEnterprise)) { + if (wiFiConnection->securitySettings.psk.length() == 64) { + // Verify that only hex characters are present in the string + bool ok; + wiFiConnection->securitySettings.psk.toULongLong(&ok, 16); + if (!ok) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("Hexadecimal length PSK contains non-hexadecimal characters"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + else if ((wiFiConnection->securitySettings.psk.length() < 8) || (wiFiConnection->securitySettings.psk.length() > 63)) { + if (reason) (*reason)[TDENetworkConnectionErrorFlags::InvalidWirelessKey] = i18n("No PSK provided"); + if (type) *type |= TDENetworkConnectionErrorFlags::InvalidWirelessKey; + return false; + } + } + } + } + } + return TRUE; } @@ -4193,7 +4474,7 @@ TDENetworkConnectionStatus::TDENetworkConnectionStatus TDENetworkConnectionManag } } else { - PRINT_ERROR(TQString("invalid internal network-manager settings proxy object").arg(uuid)); + PRINT_ERROR(TQString("invalid internal network-manager settings proxy object")); return TDENetworkConnectionStatus::Invalid; } } @@ -4215,7 +4496,7 @@ TDENetworkConnectionStatus::TDENetworkConnectionStatus TDENetworkConnectionManag return TDENetworkConnectionStatus::Invalid; } else { - PRINT_ERROR(TQString("invalid internal network-manager settings proxy object").arg(uuid)); + PRINT_ERROR(TQString("invalid internal network-manager settings proxy object")); return TDENetworkConnectionStatus::Invalid; } } @@ -4238,9 +4519,8 @@ TQStringList TDENetworkConnectionManager_BackendNM::connectionPhysicalDeviceUUID TQValueList deviceList = activeConnection.getDevices(error); TQT_DBusObjectPathList::iterator it2; for (it2 = deviceList.begin(); it2 != deviceList.end(); ++it2) { - DBus::DeviceProxy underlyingNetworkDeviceProxy(NM_DBUS_SERVICE, *it2); - underlyingNetworkDeviceProxy.setConnection(TQT_DBusConnection::systemBus()); - TQString devUUID = underlyingNetworkDeviceProxy.getUdi(error); + TQString macAddress = macAddressForGenericDevice(*it2); + TQString devUUID = tdeDeviceUUIDForMACAddress(macAddress); if (devUUID != "") { ret.append(devUUID); } @@ -4250,7 +4530,7 @@ TQStringList TDENetworkConnectionManager_BackendNM::connectionPhysicalDeviceUUID return ret; } else { - PRINT_ERROR(TQString("invalid internal network-manager settings proxy object").arg(uuid)); + PRINT_ERROR(TQString("invalid internal network-manager settings proxy object")); return TQStringList(); } } @@ -4303,7 +4583,7 @@ TDENetworkConnectionStatus::TDENetworkConnectionStatus TDENetworkConnectionManag } } else { - PRINT_ERROR(TQString("invalid internal network-manager settings proxy object").arg(uuid)); + PRINT_ERROR(TQString("invalid internal network-manager settings proxy object")); return TDENetworkConnectionStatus::Invalid; } } @@ -4474,6 +4754,43 @@ bool TDENetworkConnectionManager_BackendNM::wiFiEnabled() { } } +TQStringList TDENetworkConnectionManager_BackendNM::defaultNetworkDevices() { + // Cycle through all available connections and see which one is default, then find all devices for that connection... + TQStringList ret; + + TQT_DBusObjectPath existingConnection; + TQT_DBusError error; + if (d->m_networkManagerProxy) { + TQT_DBusObjectPathList activeConnections = d->m_networkManagerProxy->getActiveConnections(error); + TQT_DBusObjectPathList::iterator it; + for (it = activeConnections.begin(); it != activeConnections.end(); ++it) { + DBus::ActiveConnectionProxy activeConnection(NM_DBUS_SERVICE, (*it)); + activeConnection.setConnection(TQT_DBusConnection::systemBus()); + if (activeConnection.getDefault(error)) { + // This is the default ipv4 connection + TQString uuid = activeConnection.getUuid(error); + TQStringList devices = connectionPhysicalDeviceUUIDs(uuid); + for (TQStringList::Iterator it2 = devices.begin(); it2 != devices.end(); ++it2) { + ret.append(*it); + } + } + else if (activeConnection.getDefault6(error)) { + // This is the default ipv6 connection + TQString uuid = activeConnection.getUuid(error); + TQStringList devices = connectionPhysicalDeviceUUIDs(uuid); + for (TQStringList::Iterator it2 = devices.begin(); it2 != devices.end(); ++it2) { + ret.append(*it); + } + } + } + return ret; + } + else { + PRINT_ERROR(TQString("invalid internal network-manager settings proxy object")); + return TQStringList(); + } +} + TDENetworkConnectionManager_BackendNMPrivate::TDENetworkConnectionManager_BackendNMPrivate(TDENetworkConnectionManager_BackendNM* parent) : m_networkManagerProxy(NULL), m_networkManagerSettings(NULL), m_networkDeviceProxy(NULL), m_wiFiDeviceProxy(NULL), m_parent(parent) { // } diff --git a/tdecore/networkbackends/network-manager/network-manager.h b/tdecore/networkbackends/network-manager/network-manager.h index 620841ba3..def7c9522 100644 --- a/tdecore/networkbackends/network-manager/network-manager.h +++ b/tdecore/networkbackends/network-manager/network-manager.h @@ -146,7 +146,7 @@ class TDECORE_EXPORT TDENetworkConnectionManager_BackendNM : public TDENetworkCo virtual bool loadConnectionSecrets(TQString uuid); virtual bool saveConnection(TDENetworkConnection* connection); virtual bool deleteConnection(TQString uuid); - virtual bool verifyConnectionSettings(TDENetworkConnection* connection); + virtual bool verifyConnectionSettings(TDENetworkConnection* connection, TDENetworkConnectionErrorFlags::TDENetworkConnectionErrorFlags* type=NULL, TDENetworkErrorStringMap* reason=NULL); virtual TDENetworkConnectionStatus::TDENetworkConnectionStatus initiateConnection(TQString uuid); virtual TDENetworkConnectionStatus::TDENetworkConnectionStatus checkConnectionStatus(TQString uuid); @@ -162,6 +162,8 @@ class TDECORE_EXPORT TDENetworkConnectionManager_BackendNM : public TDENetworkCo virtual bool enableWiFi(bool enable); virtual bool wiFiEnabled(); + virtual TQStringList defaultNetworkDevices(); + private: TDENetworkDeviceType::TDENetworkDeviceType nmDeviceTypeToTDEDeviceType(TQ_UINT32 nmType); TQString deviceInterfaceString(TQString macAddress); diff --git a/tdecore/tdenetworkconnections.cpp b/tdecore/tdenetworkconnections.cpp index 9b435b2ac..f3f427687 100644 --- a/tdecore/tdenetworkconnections.cpp +++ b/tdecore/tdenetworkconnections.cpp @@ -781,6 +781,27 @@ TQString TDENetworkConnectionManager::friendlyConnectionTypeName(TDENetworkConne } } +bool TDENetworkConnectionManager::validateIPAddress(TQHostAddress address) { + if (address.isIPv4Address()) { + TQ_UINT32 rawaddress = address.toIPv4Address(); + if ((((rawaddress & 0xff000000) >> 24) == 0) || ((rawaddress & 0x000000ff) == 0) || ((rawaddress & 0x000000ff) == 255)) { + return false; + } + } + else if (address.isIPv6Address()) { + Q_IPV6ADDR rawaddress = address.toIPv6Address(); + if (rawaddress.c[0] == 0xff) { + return false; + } + } + return true; +} + +bool TDENetworkConnectionManager::validateIPNeworkMask(TQHostAddress netmask) { + Q_UNUSED(netmask); + return TRUE; +} + void TDENetworkConnectionManager::clearTDENetworkConnectionList() { TDENetworkConnection *connection; for (connection = m_connectionList->first(); connection; connection = m_connectionList->next()) { @@ -870,9 +891,9 @@ bool TDEGlobalNetworkManager::deleteConnection(TQString uuid) { return m_internalConnectionManager->deleteConnection(uuid); } -bool TDEGlobalNetworkManager::verifyConnectionSettings(TDENetworkConnection* connection) { +bool TDEGlobalNetworkManager::verifyConnectionSettings(TDENetworkConnection* connection, TDENetworkConnectionErrorFlags::TDENetworkConnectionErrorFlags* type, TDENetworkErrorStringMap* reason) { if (!m_internalConnectionManager) return false; - return m_internalConnectionManager->verifyConnectionSettings(connection); + return m_internalConnectionManager->verifyConnectionSettings(connection, type, reason); } TDENetworkConnectionStatus::TDENetworkConnectionStatus TDEGlobalNetworkManager::initiateConnection(TQString uuid) { @@ -925,6 +946,11 @@ bool TDEGlobalNetworkManager::wiFiEnabled() { return m_internalConnectionManager->wiFiEnabled(); } +TQStringList TDEGlobalNetworkManager::defaultNetworkDevices() { + if (!m_internalConnectionManager) return NULL; + return m_internalConnectionManager->defaultNetworkDevices(); +} + TDENetworkConnectionList* TDEGlobalNetworkManager::connections() { if (!m_internalConnectionManager) return NULL; return m_internalConnectionManager->connections(); diff --git a/tdecore/tdenetworkconnections.h b/tdecore/tdenetworkconnections.h index 04a9e1c79..a193f3f6b 100644 --- a/tdecore/tdenetworkconnections.h +++ b/tdecore/tdenetworkconnections.h @@ -99,6 +99,23 @@ namespace TDENetworkConnectionType { }; }; +namespace TDENetworkConnectionErrorFlags { + enum TDENetworkConnectionErrorFlags { + NoError = 0x00000000, + InvalidConnectionSetting = 0x00000001, + InvalidIPv4Setting = 0x00000002, + InvalidIPv6Setting = 0x00000004, + InvalidEAPSetting = 0x00000008, + InvalidEAPKey = 0x00000010, + InvalidWirelessSetting = 0x00000020, + InvalidWirelessKey = 0x00000040 + }; + + CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkConnectionErrorFlags) +}; + +typedef TQMap TDENetworkErrorStringMap; + namespace TDENetworkInfinibandTransportMode { enum TDENetworkInfinibandTransportMode { Datagram, @@ -301,6 +318,7 @@ namespace TDENetworkWiFiConnectionCipher { namespace TDENetworkWepKeyType { enum TDENetworkWepKeyType { Hexadecimal, + Ascii, Passphrase }; }; @@ -1017,9 +1035,13 @@ class TDECORE_EXPORT TDENetworkConnectionManager : public TQObject /** * @param connection a pointer to a TDENetworkConnection object containing a * connection for which to verify integrity of all settings. + * @param type a pointer to an TDENetworkConnectionErrorFlags::TDENetworkConnectionErrorFlags + * which will be filled with the generic error type code if provided. + * @param reason a pointer to a TDENetworkErrorStringMap which will be filled with translated + * strings containing the reason for the failure if provided. * @return true on success, false if invalid settings are detected. */ - virtual bool verifyConnectionSettings(TDENetworkConnection* connection) = 0; + virtual bool verifyConnectionSettings(TDENetworkConnection* connection, TDENetworkConnectionErrorFlags::TDENetworkConnectionErrorFlags* type=NULL, TDENetworkErrorStringMap* reason=NULL) = 0; /** * Initiates a connection with UUID @param uuid. @@ -1055,7 +1077,8 @@ class TDECORE_EXPORT TDENetworkConnectionManager : public TQObject virtual TDENetworkHWNeighborList* siteSurvey() = 0; /** - * @return a TQStringList containing the UUIDs of all physical devices used by this connection + * @return a TQStringList containing the UUIDs of all physical devices used by the connection + * with UUID @param uuid. * This function may return an empty list if the connection is inactive, this behaviour is * dependend on the specific network backend in use. */ @@ -1088,6 +1111,12 @@ class TDECORE_EXPORT TDENetworkConnectionManager : public TQObject */ virtual bool wiFiEnabled() = 0; + /** + * @return a list of UUIDs of the default network devices, or an empty list if no such devices exist. + * The default network devices are normally the devices holding the highest priority default route. + */ + virtual TQStringList defaultNetworkDevices() = 0; + signals: /** * Emitted whenever the state of the system's connection changes @@ -1147,7 +1176,7 @@ class TDECORE_EXPORT TDENetworkConnectionManager : public TQObject /** * @return a pointer to a TDENetworkDevice object with the specified @param uuid, - * or a NULL pointer if no such connection exists. + * or a NULL pointer if no such device exists. * * Note that the returned object is internally managed and must not be deleted! */ @@ -1166,6 +1195,16 @@ class TDECORE_EXPORT TDENetworkConnectionManager : public TQObject */ static TQString friendlyConnectionTypeName(TDENetworkConnectionType::TDENetworkConnectionType type); + /** + * @return true if @param address is valid, false if not + */ + static bool validateIPAddress(TQHostAddress address); + + /** + * @return true if @param netmask is valid, false if not + */ + static bool validateIPNeworkMask(TQHostAddress netmask); + protected: /** * @internal Safely clears out the master connection list and deletes all member objects @@ -1275,9 +1314,13 @@ class TDECORE_EXPORT TDEGlobalNetworkManager : public TQObject /** * @param connection a pointer to a TDENetworkConnection object containing a * connection for which to verify integrity of all settings. + * @param type a pointer to an TDENetworkConnectionErrorFlags::TDENetworkConnectionErrorFlags + * which will be filled with the generic error type code if provided. + * @param reason a pointer to a TDENetworkErrorStringMap which will be filled with translated + * strings containing the reason for the failure if provided. * @return true on success, false if invalid settings are detected. */ - virtual bool verifyConnectionSettings(TDENetworkConnection* connection); + virtual bool verifyConnectionSettings(TDENetworkConnection* connection, TDENetworkConnectionErrorFlags::TDENetworkConnectionErrorFlags* type=NULL, TDENetworkErrorStringMap* reason=NULL); /** * Initiates a connection with UUID @param uuid. @@ -1311,7 +1354,8 @@ class TDECORE_EXPORT TDEGlobalNetworkManager : public TQObject virtual TDENetworkHWNeighborList* siteSurvey(); /** - * @return a TQStringList containing the UUIDs of all physical devices used by this connection + * @return a TQStringList containing the UUIDs of all physical devices used by the connection + * with UUID @param uuid. * This function may return an empty list if the connection is inactive, this behaviour is * dependend on the specific network backend in use. */ @@ -1344,6 +1388,12 @@ class TDECORE_EXPORT TDEGlobalNetworkManager : public TQObject */ virtual bool wiFiEnabled(); + /** + * @return a list of UUIDs of the default network devices, or an empty list if no such devices exist. + * The default network devices are normally the devices holding the highest priority default route. + */ + virtual TQStringList defaultNetworkDevices(); + signals: /** * Emitted whenever the state of the system's connection changes @@ -1397,7 +1447,7 @@ class TDECORE_EXPORT TDEGlobalNetworkManager : public TQObject /** * @return a pointer to a TDENetworkDevice object with the specified @param uuid, - * or a NULL pointer if no such connection exists. + * or a NULL pointer if no such device exists. * * Note that the returned object is internally managed and must not be deleted! */ -- cgit v1.2.1