/* This file is part of the TDE libraries Copyright (C) 2012 Timothy Pearson This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License version 2 as published by the Free Software Foundation. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef _TDENETWORKCONNECTIONS_H #define _TDENETWORKCONNECTIONS_H // TDE includes #include #include #include #include #include #include #include "kiconloader.h" #include "tdelibs_export.h" #define CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(x) \ inline x operator|(x a, x b) \ { \ return static_cast(static_cast(a) | static_cast(b)); \ } \ \ inline x operator&(x a, x b) \ { \ return static_cast(static_cast(a) & static_cast(b)); \ } \ \ inline x operator~(x a) \ { \ return static_cast(~static_cast(a)); \ } \ \ inline x &operator|=(x& a, const x& b) \ { \ a = static_cast(static_cast(a) | static_cast(b)); \ return a; \ } \ \ inline x &operator&=(x& a, const x& b) \ { \ a = static_cast(static_cast(a) & static_cast(b)); \ return a; \ } class TDENetworkDevice; typedef TQValueList TDENetworkByteList; typedef TQValueList TDENetworkAddressList; typedef TQMap TDENetworkSettingsMap; typedef TQMap TDENetworkPriorityMap; namespace TDENetworkDeviceType { enum TDENetworkDeviceType { BackendOnly, WiredEthernet, WiFi, Bluetooth, OLPCMesh, WiMax, Modem, Infiniband, Bond, VLAN, ADSL, Other, Last = Other }; }; namespace TDENetworkConnectionType { enum TDENetworkConnectionType { WiredEthernet, WiFi, Bluetooth, OLPCMesh, WiMax, Modem, Infiniband, Bond, VLAN, ADSL, VPN, Other, Last = Other }; }; 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, Connected, Other, Last = Other }; }; namespace TDEWiFiMode { enum TDEWiFiMode { AdHoc, Infrastructure, Other, Last = Other }; }; namespace TDEWiFiFrequencyBand { enum TDEWiFiFrequencyBand { None, Band2_4GHz, Band5GHz, Other, Last = Other }; }; namespace TDEBluetoothConnectionType { enum TDEBluetoothConnectionType { DUN, PAN, Other, Last = Other }; }; namespace TDEModemConnectionType { enum TDEModemConnectionType { CDMA, GSM, Other, Last = Other }; }; namespace TDEGSMNetworkType { enum TDEGSMNetworkType { Any, Only3G, GPRSEdge, Prefer3G, Prefer2G, Other, Last = Other }; }; namespace TDENetworkParity { enum TDENetworkParity { None, Even, Odd, Other, Last = Other }; }; namespace TDENetworkSlaveDeviceType { enum TDENetworkSlaveDeviceType { None, Bond, Other, Last = Other }; }; namespace TDENetworkGlobalEventType { enum TDENetworkGlobalEventType { ConnectionListChanged, Other, Last = Other }; }; namespace TDENetworkDeviceEventType { enum TDENetworkDeviceEventType { BitRateChanged, Other, Last = Other }; }; namespace TDENetworkAPEventType { enum TDENetworkAPEventType { Discovered, Lost, SignalStrengthChanged, AccessPointChanged, Other, Last = Other }; }; namespace TDENetworkGlobalManagerFlags { enum TDENetworkGlobalManagerFlags { Unknown = 0x00000000, Disconnected = 0x00000001, Connected = 0x00000002, EstablishingLink = 0x00000004, DeactivatingLink = 0x00000008, LinkLocalAccess = 0x00000010, SiteLocalAccess = 0x00000020, GlobalAccess = 0x00000040, Sleeping = 0x00000080, BackendUnavailable = 0x00000100 }; CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkGlobalManagerFlags) }; namespace TDENetworkDeviceCapabilityFlags { enum TDENetworkDeviceCapabilityFlags { None = 0x00000000, Supported = 0x00000001, CanDetectLink = 0x00000002 }; CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkDeviceCapabilityFlags) }; namespace TDENetworkPPPFlags { enum TDENetworkPPPFlags { None = 0x00000000, DisableEAP = 0x00000001, DisablePAP = 0x00000002, DisableCHAP = 0x00000004, DisableMSCHAP = 0x00000008, DisableMSCHAPv2 = 0x00000010, AllowBSDCompression = 0x00000020, AllowDeflateCompression = 0x00000040, AllowVJCompression = 0x00000080, RequireMPPE = 0x00000100, RequireMPPE128 = 0x00000200, StatefulMPPE = 0x00000400, UseHardwareFlowControl = 0x00000800 }; CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkPPPFlags) }; namespace TDENetworkWiFiAPFlags { enum TDENetworkWiFiAPFlags { None = 0x00000000, PrivacySupport = 0x00000001, PairWEP40 = 0x00000002, PairWEP104 = 0x00000004, PairTKIP = 0x00000008, PairCCMP = 0x00000010, GroupWEP40 = 0x00000020, GroupWEP104 = 0x00000040, GroupTKIP = 0x00000080, GroupCCMP = 0x00000100, KeyManagementPSK = 0x00000200, KeyManagement80211 = 0x00000400, GeneralFlagsMask = 0x00000001, EncryptionFlagsMask = 0xfffffffe }; CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkWiFiAPFlags) }; namespace TDENetworkWiFiClientFlags { enum TDENetworkWiFiClientFlags { None = 0x00000000, CipherWEP40 = 0x00000002, CipherWEP104 = 0x00000004, CipherTKIP = 0x00000008, CipherCCMP = 0x00000010, CipherWPA = 0x00000020, CipherRSN = 0x00000040 }; CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkWiFiClientFlags) }; namespace TDENetworkWiFiConnectionCipher { enum TDENetworkWiFiConnectionCipher { None, CipherWEP40, CipherWEP104, CipherTKIP, CipherCCMP, CipherWPA, CipherRSN, Any }; }; namespace TDENetworkWepKeyType { enum TDENetworkWepKeyType { Hexadecimal, Ascii, Passphrase }; }; namespace TDENetworkVLANFlags { enum TDENetworkVLANFlags { None = 0x00000000, ReorderPacketHeaders = 0x00000001, UseGVRP = 0x00000002, LooseBinding = 0x00000004 }; CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkVLANFlags) }; typedef TQValueList TDENetworkWiFiConnectionCipherList; namespace TDENetworkWiFiKeyType { enum TDENetworkWiFiKeyType { WEP, DynamicWEP, WPAAdHoc, WPAInfrastructure, WPAEnterprise, Other, Last = Other }; }; namespace TDENetworkWiFiAuthType { enum TDENetworkWiFiAuthType { Open, Shared, LEAP, Other, Last = Other }; }; namespace TDENetworkIEEE8021xType { enum TDENetworkIEEE8021xType { None, LEAP, MD5, PAP, CHAP, MSCHAP, MSCHAPV2, Fast, PSK, PAX, SAKE, GPSK, TLS, PEAP, TTLS, SIM, GTC, OTP }; }; typedef TQValueList TDENetworkIEEE8021xTypeList; namespace TDENetworkIEEE8021xFastFlags { enum TDENetworkIEEE8021xFastFlags { None = 0x00000000, AllowUnauthenticated = 0x00000001, AllowAuthenticated = 0x00000002 }; CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkIEEE8021xFastFlags) }; namespace TDENetworkWiFiWPAVersionFlags { enum TDENetworkWiFiWPAVersionFlags { None = 0x00000000, WPA = 0x00000001, RSN = 0x00000002, Any = 0x00000003 }; CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkWiFiWPAVersionFlags) }; namespace TDENetworkPasswordHandlingFlags { enum TDENetworkPasswordHandlingFlags { None = 0x00000000, NoSave = 0x00000001, NoPrompt = 0x00000002, ExternalStorage = 0x00000004 }; CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkPasswordHandlingFlags) }; namespace TDENetworkConnectionStatus { enum TDENetworkConnectionStatus { None = 0x00000000, Invalid = 0x00000001, Disconnected = 0x00000002, Connected = 0x00000004, LinkUnavailable = 0x00000008, EstablishingLink = 0x00000010, DeactivatingLink = 0x00000020, ConfiguringProtocols = 0x00000040, Reconnecting = 0x00000080, LinkLost = 0x00000100, LinkLocalAccess = 0x00000200, SiteLocalAccess = 0x00000400, GlobalAccess = 0x00000800, UnManaged = 0x00001000, NeedAuthorization = 0x00002000, Failed = 0x00004000, VerifyingProtocols = 0x00008000, DependencyWait = 0x00010000 }; CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkConnectionStatus) }; namespace TDENetworkIPConfigurationFlags { enum TDENetworkIPConfigurationFlags { None = 0x00000000, IPV4DHCPIP = 0x00000001, IPV4DHCPDNS = 0x00000002, IPV4DHCPRoutes = 0x00000004, IPV4LocalOnly = 0x00000008, IPV4StartConnectionSharingServer = 0x00000010, IPV4Disabled = 0x00000020, IPV4MayUseAsDefaultRoute = 0x00000040, IPV6DHCPIP = 0x00000080, IPV6DHCPDNS = 0x00000100, IPV6DHCPRoutes = 0x00000200, IPV6LocalOnly = 0x00000400, IPV6StartConnectionSharingServer = 0x00000800, IPV6Disabled = 0x00001000, IPV6MayUseAsDefaultRoute = 0x00002000 }; CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkIPConfigurationFlags) }; class TDECORE_EXPORT TDENetworkSearchDomain { public: TDENetworkSearchDomain(); TDENetworkSearchDomain(TQString domain, bool ipv6=false); ~TDENetworkSearchDomain(); TQString searchDomain(); void setSearchDomain(TQString domain, bool ipv6=false); bool isIPv4(); bool isIPv6(); private: TQString m_domain; bool m_isIPV6; }; typedef TQValueList TDENetworkSearchDomainList; class TDECORE_EXPORT TDENetMask { public: TDENetMask(); TDENetMask(TQ_UINT32 netmask); TDENetMask(TQ_UINT8* netmask); ~TDENetMask(); void fromCIDRMask(unsigned char mask, bool ipv6=false); unsigned char toCIDRMask(); void fromString(TQString mask); TQString toString(); bool isIPv4(); bool isIPv6(); private: TQ_UINT32 m_ipv4NetMask; TQHostAddress m_ipv6NetMask; bool m_isIPV6; }; class TDECORE_EXPORT TDEMACAddress { public: TDEMACAddress(); TDEMACAddress(TDENetworkByteList address); ~TDEMACAddress(); TDENetworkByteList address(); void setAddress(TDENetworkByteList address); TQString toString(); void fromString(TQString address); bool isValid(); private: bool m_isValid; TDENetworkByteList m_macAddress; friend bool operator==(const TDEMACAddress &a1, const TDEMACAddress &a2); friend bool operator<(const TDEMACAddress &a1, const TDEMACAddress &a2); }; TDECORE_EXPORT bool operator==(const TDEMACAddress &a1, const TDEMACAddress &a2); TDECORE_EXPORT bool operator<(const TDEMACAddress &a1, const TDEMACAddress &a2); typedef TQValueList TDEMACAddressList; class TDECORE_EXPORT TDENetworkSingleIPConfiguration { public: TDENetworkSingleIPConfiguration(); ~TDENetworkSingleIPConfiguration(); bool isIPv4(); bool isIPv6(); public: bool valid; TQHostAddress ipAddress; TDENetMask networkMask; TQHostAddress gateway; }; typedef TQValueList TDENetworkSingleIPConfigurationList; class TDECORE_EXPORT TDENetworkSingleRouteConfiguration { public: TDENetworkSingleRouteConfiguration(); ~TDENetworkSingleRouteConfiguration(); bool isIPv4(); bool isIPv6(); public: bool valid; TQHostAddress ipAddress; TDENetMask networkMask; TQHostAddress gateway; TQ_UINT32 metric; }; typedef TQValueList TDENetworkSingleRouteConfigurationList; class TDENetworkIEEE8021xConfiguration { public: TDENetworkIEEE8021xConfiguration(); ~TDENetworkIEEE8021xConfiguration(); public: bool valid; bool allowedValid; bool secretsValid; TDENetworkIEEE8021xType::TDENetworkIEEE8021xType type; TQString userName; TQString anonymousUserName; TQString pacFileName; TQByteArray caCertificate; TQString additionalCAFilesPath; TQString authServerCertSubjectMatch; TQStringList alternateAuthServerCertSubjectMatch; TQByteArray clientCertificate; TQString forcePEAPVersion; TQString forcePEAPLabel; TDENetworkIEEE8021xFastFlags::TDENetworkIEEE8021xFastFlags fastProvisioningFlags; TDENetworkIEEE8021xType::TDENetworkIEEE8021xType phase2NonEAPAuthMethod; TDENetworkIEEE8021xType::TDENetworkIEEE8021xType phase2EAPAuthMethod; TDENetworkIEEE8021xTypeList allowedPhase2NonEAPMethods; TDENetworkIEEE8021xTypeList allowedPhase2EAPMethods; TQByteArray phase2CaCertificate; TQString phase2CaFilesPath; TQString phase2AuthServerCertSubjectMatch; TQStringList phase2AlternateAuthServerCertSubjectMatch; TQByteArray phase2ClientCertificate; TQString password; TDENetworkPasswordHandlingFlags::TDENetworkPasswordHandlingFlags passwordFlags; TQByteArray binaryPassword; TDENetworkPasswordHandlingFlags::TDENetworkPasswordHandlingFlags binaryPasswordFlags; TQByteArray privateKey; TQString privateKeyPassword; TDENetworkPasswordHandlingFlags::TDENetworkPasswordHandlingFlags privateKeyPasswordFlags; TQByteArray phase2PrivateKey; TQString phase2PrivateKeyPassword; TDENetworkPasswordHandlingFlags::TDENetworkPasswordHandlingFlags phase2PrivateKeyPasswordFlags; bool forceSystemCaCertificates; }; class TDECORE_EXPORT TDENetworkPPPConfiguration { public: TDENetworkPPPConfiguration(); virtual ~TDENetworkPPPConfiguration(); public: bool valid; bool requireServerAuthentication; TDENetworkPPPFlags::TDENetworkPPPFlags flags; TQ_UINT32 baudRate; TQ_UINT32 mru; TQ_UINT32 mtu; TQ_UINT32 lcpEchoPingInterval; TQ_UINT32 lcpEchoFailureThreshold; }; class TDECORE_EXPORT TDENetworkPPPOEConfiguration { public: TDENetworkPPPOEConfiguration(); virtual ~TDENetworkPPPOEConfiguration(); public: bool valid; bool secretsValid; TQString networkServiceProvider; TQString username; TQString password; TDENetworkPasswordHandlingFlags::TDENetworkPasswordHandlingFlags passwordFlags; }; class TDECORE_EXPORT TDENetworkSerialConfiguration { public: TDENetworkSerialConfiguration(); virtual ~TDENetworkSerialConfiguration(); public: bool valid; TQ_UINT32 baudRate; TQ_UINT32 byteWidth; TDENetworkParity::TDENetworkParity parity; TQ_UINT32 stopBits; TQ_UINT64 txDelay; }; class TDECORE_EXPORT TDENetworkCDMAConfiguration { public: TDENetworkCDMAConfiguration(); virtual ~TDENetworkCDMAConfiguration(); public: bool valid; bool secretsValid; TQString providerDataNumber; TQString username; TQString password; TDENetworkPasswordHandlingFlags::TDENetworkPasswordHandlingFlags passwordFlags; }; class TDECORE_EXPORT TDENetworkGSMConfiguration { public: TDENetworkGSMConfiguration(); virtual ~TDENetworkGSMConfiguration(); public: bool valid; bool secretsValid; TQString providerDataNumber; TQString username; TQString password; TDENetworkPasswordHandlingFlags::TDENetworkPasswordHandlingFlags passwordFlags; TQString accessPointName; TQString networkID; TDEGSMNetworkType::TDEGSMNetworkType networkType; TQString pin; TDENetworkPasswordHandlingFlags::TDENetworkPasswordHandlingFlags pinFlags; TQ_UINT32 allowedFrequencyBands; bool allowRoaming; }; class TDENetworkWiFiSecurityConfiguration { public: TDENetworkWiFiSecurityConfiguration(); ~TDENetworkWiFiSecurityConfiguration(); public: bool valid; bool secretsValid; TDENetworkWiFiKeyType::TDENetworkWiFiKeyType keyType; TDENetworkWiFiAuthType::TDENetworkWiFiAuthType authType; TDENetworkWiFiWPAVersionFlags::TDENetworkWiFiWPAVersionFlags wpaVersion; TDENetworkWiFiConnectionCipher::TDENetworkWiFiConnectionCipher cipher; TQString wepKey0; TQString wepKey1; TQString wepKey2; TQString wepKey3; TDENetworkPasswordHandlingFlags::TDENetworkPasswordHandlingFlags wepKeyFlags; TQ_UINT32 wepKeyIndex; TDENetworkWepKeyType::TDENetworkWepKeyType wepKeyType; TDENetworkWiFiConnectionCipherList allowedPairWiseCiphers; TDENetworkWiFiConnectionCipherList allowedGroupWiseCiphers; TQString psk; TDENetworkPasswordHandlingFlags::TDENetworkPasswordHandlingFlags pskFlags; TQString leapUsername; TQString leapPassword; TDENetworkPasswordHandlingFlags::TDENetworkPasswordHandlingFlags leapPasswordFlags; }; class TDECORE_EXPORT TDENetworkIPConfiguration { public: TDENetworkIPConfiguration(); ~TDENetworkIPConfiguration(); public: bool valid; TDENetworkIPConfigurationFlags::TDENetworkIPConfigurationFlags connectionFlags; TDENetworkSingleIPConfigurationList ipConfigurations; TDENetworkSingleRouteConfigurationList routeConfigurations; TQHostAddress broadcast; TQHostAddress destination; TDENetworkAddressList resolvers; TDENetworkSearchDomainList searchDomains; TQString dhcpClientIdentifier; }; class TDECORE_EXPORT TDENetworkWiFiDeviceInfo { public: TDENetworkWiFiDeviceInfo(); ~TDENetworkWiFiDeviceInfo(); public: bool valid; TDEMACAddress hwAddress; TDEMACAddress permanentHWAddress; TDEWiFiMode::TDEWiFiMode operatingMode; unsigned int bitrate; TDEMACAddress activeAccessPointBSSID; TDENetworkWiFiClientFlags::TDENetworkWiFiClientFlags wirelessFlags; }; class TDECORE_EXPORT TDENetworkDeviceInformation { public: TDENetworkDeviceInformation(); ~TDENetworkDeviceInformation(); public: bool valid; TDENetworkConnectionStatus::TDENetworkConnectionStatus statusFlags; TQString UUID; TQString backendDriver; TQString backendDriverVersion; TQString firmwareVersion; TDENetworkDeviceCapabilityFlags::TDENetworkDeviceCapabilityFlags capabilityFlags; TDENetworkIPConfiguration ipConfiguration; bool managed; bool autoConnect; bool firmwareMissing; TDENetworkDeviceType::TDENetworkDeviceType deviceType; TQString activeConnectionUUID; TDENetworkWiFiDeviceInfo wiFiInfo; }; class TDECORE_EXPORT TDENetworkHWNeighbor { public: TDENetworkHWNeighbor(); virtual ~TDENetworkHWNeighbor(); public: bool valid; }; class TDECORE_EXPORT TDENetworkWiFiAPInfo : public TDENetworkHWNeighbor { public: TDENetworkWiFiAPInfo(); virtual ~TDENetworkWiFiAPInfo(); public: TQString friendlySSID() const; public: TQByteArray SSID; TDENetworkWiFiAPFlags::TDENetworkWiFiAPFlags wpaFlags; TDENetworkWiFiAPFlags::TDENetworkWiFiAPFlags rsnFlags; unsigned int frequency; TDEMACAddress BSSID; unsigned int maxBitrate; double signalQuality; }; typedef TQPtrList< TDENetworkHWNeighbor > TDENetworkHWNeighborList; class TDECORE_EXPORT TDENetworkConnection { public: TDENetworkConnection(); virtual ~TDENetworkConnection(); public: TDENetworkConnectionType::TDENetworkConnectionType type(); public: TQString UUID; TQString friendlyName; TDENetworkIPConfiguration ipConfig; TDEMACAddress lockedHWAddress; TDEMACAddress manualHWAddress; bool readOnly; bool autoConnect; bool fullDuplex; bool requireIPV4; bool requireIPV6; TQ_UINT32 mtu; TDENetworkIEEE8021xConfiguration eapConfig; TDENetworkPPPConfiguration pppConfig; TDENetworkPPPOEConfiguration pppoeConfig; TDENetworkSerialConfiguration serialConfig; TQStringList authorizedUsers; TQString masterConnectionUUID; TDENetworkSlaveDeviceType::TDENetworkSlaveDeviceType slaveType; TQDateTime lastKnownConnection; }; class TDECORE_EXPORT TDEWiredEthernetConnection : public TDENetworkConnection { public: TDEWiredEthernetConnection(); virtual ~TDEWiredEthernetConnection(); }; class TDECORE_EXPORT TDEWiFiConnection : public TDENetworkConnection { public: TDEWiFiConnection(); virtual ~TDEWiFiConnection(); public: TQByteArray SSID; TDEWiFiMode::TDEWiFiMode operatingMode; TDEWiFiFrequencyBand::TDEWiFiFrequencyBand bandRestriction; TQ_INT32 channelRestriction; TQ_INT32 bitRateRestriction; TQ_INT32 powerRestriction; TDEMACAddress accessPointRestriction; TDEMACAddressList blacklistedBSSIDs; TDEMACAddressList heardBSSIDs; bool isHiddenNetwork; bool securityRequired; TDENetworkWiFiSecurityConfiguration securitySettings; }; class TDECORE_EXPORT TDEWiredInfinibandConnection : public TDENetworkConnection { public: TDEWiredInfinibandConnection(); virtual ~TDEWiredInfinibandConnection(); public: TDENetworkInfinibandTransportMode::TDENetworkInfinibandTransportMode transportMode; }; class TDECORE_EXPORT TDEVPNConnection : public TDENetworkConnection { public: TDEVPNConnection(); virtual ~TDEVPNConnection(); public: TQString vpnPluginID; TQString lockedUserName; TDENetworkSettingsMap pluginData; bool secretsValid; TDENetworkSettingsMap pluginSecrets; }; class TDECORE_EXPORT TDEWiMaxConnection : public TDENetworkConnection { public: TDEWiMaxConnection(); virtual ~TDEWiMaxConnection(); public: TQString networkServiceProvider; }; class TDECORE_EXPORT TDEVLANConnection : public TDENetworkConnection { public: TDEVLANConnection(); virtual ~TDEVLANConnection(); public: TQString kernelName; TQString parentConnectionUUID; TQ_UINT32 vlanID; TDENetworkVLANFlags::TDENetworkVLANFlags vlanFlags; TDENetworkPriorityMap ingressPriorityMap; TDENetworkPriorityMap egressPriorityMap; }; class TDECORE_EXPORT TDEOLPCMeshConnection : public TDENetworkConnection { public: TDEOLPCMeshConnection(); virtual ~TDEOLPCMeshConnection(); public: TQByteArray SSID; TQ_INT32 channel; TQByteArray anycastDHCPHWAddress; }; class TDECORE_EXPORT TDEBluetoothConnection : public TDENetworkConnection { public: TDEBluetoothConnection(); virtual ~TDEBluetoothConnection(); public: TDEBluetoothConnectionType::TDEBluetoothConnectionType type; }; class TDECORE_EXPORT TDEModemConnection : public TDENetworkConnection { public: TDEModemConnection(); virtual ~TDEModemConnection(); public: TDEModemConnectionType::TDEModemConnectionType type; TDENetworkCDMAConfiguration cdmaConfig; TDENetworkGSMConfiguration gsmConfig; }; typedef TQPtrList< TDENetworkConnection > TDENetworkConnectionList; class TDECORE_EXPORT TDENetworkConnectionManager : public TQObject { Q_OBJECT public: /** * Constructor. * @param macAddress The MAC address of the hardware device * If an empty MAC address is passed, this object will make global networking backend * methods available exclusively (TDENetworkDeviceType::BackendOnly). */ TDENetworkConnectionManager(TQString macAddress); /** * Destructor. */ ~TDENetworkConnectionManager(); /** * @return the MAC address of this device */ TQString deviceMACAddress(); /** * @return the type of connection supported by this device */ virtual TDENetworkDeviceType::TDENetworkDeviceType deviceType() = 0; /** * @return A TDENetworkGlobalManagerFlags enum value with the current status of the networking backend. */ virtual TDENetworkGlobalManagerFlags::TDENetworkGlobalManagerFlags backendStatus() = 0; /** * @return A TDENetworkDeviceInformation object containing the current status of the network device. */ virtual TDENetworkDeviceInformation deviceInformation() = 0; /** * Loads all connection information from the configuration backend * Secret information must be loaded separately via a call to * loadConnectionSecrets(TQString uuid) after this method has been * executed at least once. */ virtual void loadConnectionInformation() = 0; /** * @param connection a pointer to a TDENetworkConnection object containing a * connection in which to load the values allowed by the backend. * This is normally called as part of loadConnectionInformation(), but should * manually be called immediately after creation of a new TDENetworkConnection object. */ virtual void loadConnectionAllowedValues(TDENetworkConnection* connection) = 0; /** * @param uuid a TQString conntaining the UUID of a connection for which to * load secrets from the configuration backend. * @return true on success, false on failure. */ virtual bool loadConnectionSecrets(TQString uuid) = 0; /** * @param connection a pointer to a TDENetworkConnection object containing a * connection to save to the configuration backend. * @return true on success, false on failure. */ virtual bool saveConnection(TDENetworkConnection* connection) = 0; /** * @param uuid a TQString conntaining the UUID of a connection to * delete from the configuration backend. * @return true on success, false on failure. */ virtual bool deleteConnection(TQString uuid) = 0; /** * @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, TDENetworkConnectionErrorFlags::TDENetworkConnectionErrorFlags* type=NULL, TDENetworkErrorStringMap* reason=NULL) = 0; /** * Initiates a connection with UUID @param uuid. * @return A TDENetworkConnectionStatus enum value with the current connection status * The client application should poll for status updates using checkConnectionStatus() * Note that if this manager's type is not TDENetworkDeviceType::BackendOnly, the connection * will be initiated on the internal device specified when this object was created */ virtual TDENetworkConnectionStatus::TDENetworkConnectionStatus initiateConnection(TQString uuid) = 0; /** * Checks the status of a connection with UUID @param uuid. * @return A TDENetworkConnectionStatus enum value with the current connection status */ virtual TDENetworkConnectionStatus::TDENetworkConnectionStatus checkConnectionStatus(TQString uuid) = 0; /** * Disconnects a connection with UUID @param uuid. * @return A TDENetworkConnectionStatus enum value with the current connection status * The client application should poll for status updates using checkConnectionStatus() */ virtual TDENetworkConnectionStatus::TDENetworkConnectionStatus deactivateConnection(TQString uuid) = 0; /** * @return a TQStringList object containing all valid network settings * Each string has the form "TDENetworkConfigObject::member" * If a setting is not in this list, it is not supported by the backend in use */ virtual TQStringList validSettings() = 0; /** * @return a TDENetworkHWNeighborList object containing the result of a site survey; * i.e. all nearby access points or devices. This function only returns valid information * if the underlying network device supports site surveys. * * Note that the returned list is internally managed and must not be deleted! * Also note that pointers in the list may become invalid on subsequent calls to * siteSurvey(). */ virtual TDENetworkHWNeighborList* siteSurvey() = 0; /** * @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. */ virtual TQStringList connectionPhysicalDeviceUUIDs(TQString uuid) = 0; /** * @return true if networking is enabled, false if not. */ virtual bool networkingEnabled() = 0; /** * @param enable true to enable networking, false to disable it. * @return true on success, false on failure. */ virtual bool enableNetworking(bool enable) = 0; /** * @return true if WiFi hardware is enabled, false if not. */ virtual bool wiFiHardwareEnabled() = 0; /** * @param enable true to enable WiFi, false to disable it. * @return true on success, false on failure. */ virtual bool enableWiFi(bool enable) = 0; /** * @return true if WiFi is enabled, false if not. */ 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 * If previous state data was unavailable, @param previousState will contain TDENetworkConnectionStatus::Invalid */ void networkConnectionStateChanged(TDENetworkGlobalManagerFlags::TDENetworkGlobalManagerFlags newState, TDENetworkGlobalManagerFlags::TDENetworkGlobalManagerFlags previousState); /** * Emitted whenever the state of a device changes * If previous state data was unavailable, @param previousState will contain TDENetworkConnectionStatus::Invalid * If the global connection state has changed, @param hwAddress will be empty, otherwise it will contain the MAC address * of the networking hardware that has changed state. */ void networkDeviceStateChanged(TDENetworkConnectionStatus::TDENetworkConnectionStatus newState, TDENetworkConnectionStatus::TDENetworkConnectionStatus previousState, TQString hwAddress); /** * Emitted whenever the status of a wireless access point changes * The event type that caused the signal is available in @param event */ void accessPointStatusChanged(TDEMACAddress BSSID, TDENetworkAPEventType::TDENetworkAPEventType event); /** * Emitted whenever a network device event occurs * The event type that caused the signal is available in @param event */ void networkDeviceEvent(TDENetworkDeviceEventType::TDENetworkDeviceEventType event); /** * Emitted whenever a global network management event occurs * The event type that caused the signal is available in @param event */ void networkManagementEvent(TDENetworkGlobalEventType::TDENetworkGlobalEventType event); public: /** * @return a TDENetworkConnectionList object containing a list of all * possible connections this connection manager is aware of, regardless * of current state or availability. * * loadConnectionInformation() should be called at least once before calling * this method, in order to update internal connection information from the * configuration backend. * * Note that the returned list is internally managed and must not be deleted! * Also note that pointers in the list may become invalid on subsequent calls to * loadConnectionInformation(), saveConnection(), deleteConnection(), or connections(). */ virtual TDENetworkConnectionList* connections(); /** * @return a pointer to a TDENetworkConnection object with the specified @param uuid, * or a NULL pointer if no such connection exists. * * Note that the returned object is internally managed and must not be deleted! */ TDENetworkConnection* findConnectionByUUID(TQString uuid); /** * @return a pointer to a TDENetworkDevice object with the specified @param uuid, * or a NULL pointer if no such device exists. * * Note that the returned object is internally managed and must not be deleted! */ TDENetworkDevice* findDeviceByUUID(TQString uuid); /** * @return a pointer to a TDENetworkWiFiAPInfo object with the specified @param bssid, * or a NULL pointer if no such access point exists. * * Note that the returned object is internally managed and must not be deleted! */ TDENetworkWiFiAPInfo* findAccessPointByBSSID(TDEMACAddress bssid); /** * @return a string containing the friendly name of the connection type @param type given */ 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 */ void clearTDENetworkConnectionList(); /** * @internal Safely clears out the neighboring devices list and deletes all member objects */ void clearTDENetworkHWNeighborList(); /** * @internal This method must be called by the network backend whenever a connection changes state * It emits the appropriate signals to notify client applications of the state change */ void internalNetworkConnectionStateChanged(TDENetworkGlobalManagerFlags::TDENetworkGlobalManagerFlags newState); /** * @internal This method must be called by the network backend whenever a device changes state * It emits the appropriate signals to notify client applications of the state change */ void internalNetworkDeviceStateChanged(TDENetworkConnectionStatus::TDENetworkConnectionStatus newState, TQString hwAddress=TQString::null); /** * @internal This method must be called by the network backend whenever a wireless access point changes state * It emits the appropriate signals to notify client applications of the state change */ void internalAccessPointStatusChanged(TDEMACAddress BSSID, TDENetworkAPEventType::TDENetworkAPEventType event); /** * @internal This method must be called by the network backend whenever a device event occurs * It emits the appropriate signals to notify client applications of the network device event */ void internalNetworkDeviceEvent(TDENetworkDeviceEventType::TDENetworkDeviceEventType event); /** * @internal This method must be called by the network backend whenever it changes state * It emits the appropriate signals to notify client applications of the state change */ void internalNetworkManagementEvent(TDENetworkGlobalEventType::TDENetworkGlobalEventType event); protected: TDENetworkConnectionList* m_connectionList; TDENetworkHWNeighborList* m_hwNeighborList; TQString m_macAddress; TDENetworkGlobalManagerFlags::TDENetworkGlobalManagerFlags m_prevConnectionStatus; TQMap m_prevDeviceStatus; }; class TDECORE_EXPORT TDEGlobalNetworkManager : public TQObject { Q_OBJECT public: /** * Constructor. */ TDEGlobalNetworkManager(); /** * Destructor. */ ~TDEGlobalNetworkManager(); /** * @return A TDENetworkGlobalManagerFlags enum value with the current status of the networking backend. */ virtual TDENetworkGlobalManagerFlags::TDENetworkGlobalManagerFlags backendStatus(); /** * Loads all connection information from the configuration backend * Secret information must be loaded separately via a call to * loadConnectionSecrets(TQString uuid) after this method has been * executed at least once. */ virtual void loadConnectionInformation(); /** * @param connection a pointer to a TDENetworkConnection object containing a * connection in which to load the values allowed by the backend. * This is normally called as part of loadConnectionInformation(), but should * manually be called immediately after creation of a new TDENetworkConnection object. */ virtual void loadConnectionAllowedValues(TDENetworkConnection* connection); /** * @param uuid a TQString conntaining the UUID of a connection for which to * load secrets from the configuration backend. * @return true on success, false on failure. */ virtual bool loadConnectionSecrets(TQString uuid); /** * @param connection a pointer to a TDENetworkConnection object containing a * connection to save to the configuration backend. * @return true on success, false on failure. */ virtual bool saveConnection(TDENetworkConnection* connection); /** * @param uuid a TQString conntaining the UUID of a connection to * delete from the configuration backend. * @return true on success, false on failure. */ virtual bool deleteConnection(TQString uuid); /** * @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, TDENetworkConnectionErrorFlags::TDENetworkConnectionErrorFlags* type=NULL, TDENetworkErrorStringMap* reason=NULL); /** * Initiates a connection with UUID @param uuid. * @return A TDENetworkConnectionStatus enum value with the current connection status * The client application should poll for status updates using checkConnectionStatus() */ virtual TDENetworkConnectionStatus::TDENetworkConnectionStatus initiateConnection(TQString uuid); /** * Checks the status of a connection with UUID @param uuid. * @return A TDENetworkConnectionStatus enum value with the current connection status */ virtual TDENetworkConnectionStatus::TDENetworkConnectionStatus checkConnectionStatus(TQString uuid); /** * Disconnects a connection with UUID @param uuid. * @return A TDENetworkConnectionStatus enum value with the current connection status * The client application should poll for status updates using checkConnectionStatus() */ virtual TDENetworkConnectionStatus::TDENetworkConnectionStatus deactivateConnection(TQString uuid); /** * @return a TQStringList object containing all valid network settings * Each string has the form "TDENetworkConfigObject::member" * If a setting is not in this list, it is not supported by the backend in use */ virtual TQStringList validSettings(); /** * @return a TDENetworkHWNeighborList object containing the result of a site survey; * i.e. all nearby access points or devices. This function only returns valid information * if the underlying network device supports site surveys. * * Note that the returned list is internally managed and must not be deleted! * Also note that pointers in the list may become invalid on subsequent calls to * siteSurvey(). */ virtual TDENetworkHWNeighborList* siteSurvey(); /** * @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. */ virtual TQStringList connectionPhysicalDeviceUUIDs(TQString uuid); /** * @return true if networking is enabled, false if not. */ virtual bool networkingEnabled(); /** * @param enable true to enable networking, false to disable it. * @return true on success, false on failure. */ virtual bool enableNetworking(bool enable); /** * @return true if WiFi hardware is enabled, false if not. */ virtual bool wiFiHardwareEnabled(); /** * @param enable true to enable WiFi, false to disable it. * @return true on success, false on failure. */ virtual bool enableWiFi(bool enable); /** * @return true if WiFi is enabled, false if not. */ 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 * If previous state data was unavailable, @param previousState will contain TDENetworkConnectionStatus::Invalid */ void networkConnectionStateChanged(TDENetworkGlobalManagerFlags::TDENetworkGlobalManagerFlags newState, TDENetworkGlobalManagerFlags::TDENetworkGlobalManagerFlags previousState); /** * Emitted whenever the state of a device changes * If previous state data was unavailable, @param previousState will contain TDENetworkConnectionStatus::Invalid * If the global connection state has changed, @param hwAddress will be empty, otherwise it will contain the MAC address * of the networking hardware that has changed state. */ void networkDeviceStateChanged(TDENetworkConnectionStatus::TDENetworkConnectionStatus newState, TDENetworkConnectionStatus::TDENetworkConnectionStatus previousState, TQString hwAddress); /** * Emitted whenever the status of a wireless access point changes * The event type that caused the signal is available in @param event */ void accessPointStatusChanged(TDEMACAddress BSSID, TDENetworkAPEventType::TDENetworkAPEventType event); /** * Emitted whenever a global network management event occurs * The event type that caused the signal is available in @param event */ void networkManagementEvent(TDENetworkGlobalEventType::TDENetworkGlobalEventType event); public: /** * @return a TDENetworkConnectionList object containing a list of all * possible connections this connection manager is aware of, regardless * of current state or availability. * * loadConnectionInformation() should be called at least once before calling * this method, in order to update internal connection information from the * configuration backend. * * Note that the returned list is internally managed and must not be deleted! * Also note that pointers in the list may become invalid on subsequent calls to * loadConnectionInformation(), saveConnection(), deleteConnection(), or connections(). */ virtual TDENetworkConnectionList* connections(); /** * @return a pointer to a TDENetworkConnection object with the specified @param uuid, * or a NULL pointer if no such connection exists. * * Note that the returned object is internally managed and must not be deleted! */ TDENetworkConnection* findConnectionByUUID(TQString uuid); /** * @return a pointer to a TDENetworkDevice object with the specified @param uuid, * or a NULL pointer if no such device exists. * * Note that the returned object is internally managed and must not be deleted! */ TDENetworkDevice* findDeviceByUUID(TQString uuid); /** * @return a pointer to a TDENetworkWiFiAPInfo object with the specified @param bssid, * or a NULL pointer if no such access point exists. * * Note that the returned object is internally managed and must not be deleted! */ TDENetworkWiFiAPInfo* findAccessPointByBSSID(TDEMACAddress bssid); private: TDENetworkConnectionManager* m_internalConnectionManager; }; #endif // _TDENETWORKCONNECTIONS_H