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tdelibs/tdecore/tdehw/tdenetworkconnections.h

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46 KiB

/* This file is part of the TDE libraries
Copyright (C) 2012 Timothy Pearson <kb9vqf@pearsoncomputing.net>
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 <tqobject.h>
#include <tqstring.h>
#include <tqptrlist.h>
#include <tqdatetime.h>
#include <tqstringlist.h>
#include <tqhostaddress.h>
#include "kiconloader.h"
#include "tdelibs_export.h"
#define CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(x) \
inline x operator|(x a, x b) \
{ \
return static_cast<x>(static_cast<int>(a) | static_cast<int>(b)); \
} \
\
inline x operator&(x a, x b) \
{ \
return static_cast<x>(static_cast<int>(a) & static_cast<int>(b)); \
} \
\
inline x operator~(x a) \
{ \
return static_cast<x>(~static_cast<int>(a)); \
} \
\
inline x &operator|=(x& a, const x& b) \
{ \
a = static_cast<x>(static_cast<int>(a) | static_cast<int>(b)); \
return a; \
} \
\
inline x &operator&=(x& a, const x& b) \
{ \
a = static_cast<x>(static_cast<int>(a) & static_cast<int>(b)); \
return a; \
}
class TDENetworkDevice;
typedef TQValueList<TQ_UINT8> TDENetworkByteList;
typedef TQValueList<TQHostAddress> TDENetworkAddressList;
typedef TQMap<TQString, TQString> TDENetworkSettingsMap;
12 years ago
typedef TQMap<TQ_UINT32, TQ_UINT32> 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<TDENetworkConnectionErrorFlags::TDENetworkConnectionErrorFlags, TQString> 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 TDENetworkVPNEventType {
enum TDENetworkVPNEventType {
LoginBanner,
Failure,
Other,
Last = Other
};
};
namespace TDENetworkDeviceEventType {
enum TDENetworkDeviceEventType {
BitRateChanged,
Failure,
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,
VPNUnknown = 0x00000200,
VPNEstablishingLink = 0x00000400,
VPNNeedAuthorization = 0x00000800,
VPNConfiguringProtocols = 0x00001000,
VPNVerifyingProtocols = 0x00002000,
VPNConnected = 0x00004000,
VPNFailed = 0x00008000,
VPNDisconnected = 0x00010000,
GlobalMask = 0x000001ff,
VPNMask = 0x0001fe00
};
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 TDENetworkVPNType {
enum TDENetworkVPNType {
OpenVPN,
PPTP,
StrongSwan,
VPNC,
Other,
Last = Other
};
};
typedef TQValueList<TDENetworkVPNType::TDENetworkVPNType> TDENetworkVPNTypeList;
namespace TDENetworkWiFiConnectionCipher {
enum TDENetworkWiFiConnectionCipher {
None,
CipherWEP40,
CipherWEP104,
CipherTKIP,
CipherCCMP,
CipherWPA,
CipherRSN,
Any
};
};
typedef TQValueList<TDENetworkWiFiConnectionCipher::TDENetworkWiFiConnectionCipher> TDENetworkWiFiConnectionCipherList;
namespace TDENetworkWepKeyType {
enum TDENetworkWepKeyType {
Hexadecimal,
Ascii,
Passphrase
};
};
12 years ago
namespace TDENetworkVLANFlags {
enum TDENetworkVLANFlags {
None = 0x00000000,
ReorderPacketHeaders = 0x00000001,
UseGVRP = 0x00000002,
LooseBinding = 0x00000004
};
CREATE_FLAG_BITWISE_MANIPULATION_FUNCTIONS(TDENetworkVLANFlags)
};
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<TDENetworkIEEE8021xType::TDENetworkIEEE8021xType> 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<TDENetworkSearchDomain> 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<TDEMACAddress> TDEMACAddressList;
class TDECORE_EXPORT TDENetworkSingleIPConfiguration
{
public:
TDENetworkSingleIPConfiguration();
~TDENetworkSingleIPConfiguration();
bool isIPv4();
bool isIPv6();
public:
bool valid;
TQHostAddress ipAddress;
TDENetMask networkMask;
TQHostAddress gateway;
};
typedef TQValueList<TDENetworkSingleIPConfiguration> 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<TDENetworkSingleRouteConfiguration> TDENetworkSingleRouteConfigurationList;
class TDECORE_EXPORT 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;
};
12 years ago
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;
/**
* INTERNAL CLASS
*/
class TDENetworkEventQueueEvent_Private
{
public:
int eventType;
TDENetworkGlobalManagerFlags::TDENetworkGlobalManagerFlags newState;
TDENetworkGlobalManagerFlags::TDENetworkGlobalManagerFlags previousState;
TDENetworkConnectionStatus::TDENetworkConnectionStatus newConnStatus;
TDENetworkConnectionStatus::TDENetworkConnectionStatus previousConnStatus;
TDEMACAddress BSSID;
TQString message;
TQString deviceNode;
TDENetworkAPEventType::TDENetworkAPEventType apevent;
TDENetworkDeviceEventType::TDENetworkDeviceEventType ndevent;
TDENetworkVPNEventType::TDENetworkVPNEventType vpnevent;
TDENetworkGlobalEventType::TDENetworkGlobalEventType globalevent;
};
typedef TQValueList<TDENetworkEventQueueEvent_Private> TDENetworkEventQueueEvent_PrivateList;
class TQTimer;
class TDECORE_EXPORT TDENetworkConnectionManager : public TQObject
{
Q_OBJECT
public:
/**
* Constructor.
* @param networkDevice Pointer to holder network device
* If the network device is passed null, this object will make global networking backend
* methods available exclusively (TDENetworkDeviceType::BackendOnly).
*/
TDENetworkConnectionManager(TDENetworkDevice *networkDevice);
/**
* Destructor.
*/
~TDENetworkConnectionManager();
/**
* @return a TQString containing the name of the backend in use
*/
virtual TQString backendName() = 0;
/**
* @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 configuration and status of the network device.
*/
virtual TDENetworkDeviceInformation deviceInformation() = 0;
/**
* @return A TDENetworkDeviceInformation object containing a (limited) current status of the network device.
* Only the following object fields are populated:
* statusFlags
* UUID
* activeConnectionUUID
* valid
*/
virtual TDENetworkDeviceInformation deviceStatus() = 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;
12 years ago
/**
* @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 a TDENetworkVPNTypeList object containing all supported VPN types
* If a type is not in this list, it is not supported by the backend in use
*/
virtual TDENetworkVPNTypeList availableVPNTypes() = 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 deviceNode);
/**
* 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
* @param message contains additional information if available
*/
void networkDeviceEvent(TDENetworkDeviceEventType::TDENetworkDeviceEventType event, TQString message);
/**
* Emitted whenever a VPN-related event occurs
* The event type that caused the signal is available in @param event
* @param message contains additional information if available
*/
void vpnEvent(TDENetworkVPNEventType::TDENetworkVPNEventType event, TQString message);
/**
* 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 the interface name of this device
*/
TQString deviceNode();
/**
* @return the MAC address of this device
*/
TQString deviceMACAddress();
/**
* @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 deviceNode=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, TQString message);
/**
* @internal This method must be called by the network backend whenever a VPN event occurs
* It emits the appropriate signals to notify client applications of the network device event
*/
void internalVpnEvent(TDENetworkVPNEventType::TDENetworkVPNEventType event, TQString message);
/**
* @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 slots:
void emitQueuedSignals();
protected:
TDENetworkConnectionList* m_connectionList;
TDENetworkHWNeighborList* m_hwNeighborList;
TDENetworkDevice* m_networkDevice;
TDENetworkGlobalManagerFlags::TDENetworkGlobalManagerFlags m_prevConnectionStatus;
TQMap<TQString, TDENetworkConnectionStatus::TDENetworkConnectionStatus> m_prevDeviceStatus;
TQTimer* m_emissionTimer;
TDENetworkEventQueueEvent_PrivateList m_globalEventQueueEventList;
};
class TDECORE_EXPORT TDEGlobalNetworkManager : public TQObject
{
Q_OBJECT
public:
/**
* Constructor.
*/
TDEGlobalNetworkManager();
/**
* Destructor.
*/
~TDEGlobalNetworkManager();
/**
* @return a TQString containing the name of the backend in use
*/
virtual TQString backendName();
/**
* @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);
12 years ago
/**
* @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 a TDENetworkVPNTypeList object containing all supported VPN types
* If a type is not in this list, it is not supported by the backend in use
*/
virtual TDENetworkVPNTypeList availableVPNTypes();
/**
* @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 deviceNode);
/**
* 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 VPN-related event occurs
* The event type that caused the signal is available in @param event
* @param message contains additional information if available
*/
void vpnEvent(TDENetworkVPNEventType::TDENetworkVPNEventType event, TQString message);
/**
* 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