// =================================================================== // Title: Network Protocol Endpoints 2.7 // Filename: Network27_ProtocolEndpoints.mof // Version: 2.7.1 // Status: Preliminary // Date: November 12 2002 // =================================================================== // Copyright 1998-2002 Distributed Management Task Force, Inc. (DMTF). // All rights reserved. // DMTF is a not-for-profit association of industry members dedicated // to promoting enterprise and systems management and interoperability. // DMTF specifications and documents may be reproduced for uses // consistent with this purpose by members and non-members, // provided that correct attribution is given. // As DMTF specifications may be revised from time to time, // the particular version and release date should always be noted. // // Implementation of certain elements of this standard or proposed // standard may be subject to third party patent rights, including // provisional patent rights (herein "patent rights"). DMTF makes // no representations to users of the standard as to the existence // of such rights, and is not responsible to recognize, disclose, or // identify any or all such third party patent right, owners or // claimants, nor for any incomplete or inaccurate identification or // disclosure of such rights, owners or claimants. DMTF shall have no // liability to any party, in any manner or circumstance, under any // legal theory whatsoever, for failure to recognize, disclose, or // identify any such third party patent rights, or for such party's // reliance on the standard or incorporation thereof in its product, // protocols or testing procedures. DMTF shall have no liability to // any party implementing such standard, whether such implementation // is foreseeable or not, nor to any patent owner or claimant, and shall // have no liability or responsibility for costs or losses incurred if // a standard is withdrawn or modified after publication, and shall be // indemnified and held harmless by any party implementing the // standard from any and all claims of infringement by a patent owner // for such implementations. // // For information about patents held by third-parties which have // notified the DMTF that, in their opinion, such patent may relate to // or impact implementations of DMTF standards, visit // http://www.dmtf.org/about/policies/disclosures.php. // =================================================================== // Description: The Network Model extends the management concepts to // represent protocol interfaces and network/protocol // services. This file defines network interfaces - // subclasses of CIM_ProtocolEndpoint. // // The object classes below are listed in an order that // avoids forward references. Required objects, defined // by other working groups, are omitted. // ================================================================== // Change Log for v2.7.1 // CR920 - Add missing parenthesis to the Description for // BGPProtocolEndpoint.IsEBGPMultihop // // Change Log for v2.7 // CR788 - Add classes to support OSPF // CR789 - Add TCP and UDP Endpoints // CR790 - Add classes to support MPLS // CR792 - Add the Composition qualifer to ASBGPEndpoints // CR804 - Updates to LANEndpoint - Update description for .LANID; // Deprecate .LANType and .OtherLANType // - Updates to IPProtocolEndpoint - Deprecate .Address; Add // .IPv4Address, .IPv6Address, and .PrefixLength // - Update several property descriptions // CR837 - Move AuthType, OtherAuthType and AuthKey to the // OSPFProtocolEndpointBase class (from the OSPFProtocolEndpoint) // CR863 - Update the format of the MappingStrings qualifier when // referencing IETF RFCs // CR866 - Fixes to BGPProtocolEndpoint - Deprecated several // properties and added properties from BGPPeerGroup that // are per Endpoint // =================================================================== #pragma Locale ("en_US") // ================================================================== // LANEndpoint // ================================================================== [Version ("2.7.0"), Description ( "A communication endpoint which, when its associated " "interface device is connected to a LAN, may send and " "receive data frames. LANEndpoints link switch ports and " "host interfaces to LANs.") ] class CIM_LANEndpoint : CIM_ProtocolEndpoint { [Description ( "A label or identifier for the LAN Segment to which the " "Endpoint is connected. If the Endpoint is not currently " "active/connected or this information is not known, then " "LANID is NULL."), ModelCorrespondence {"CIM_LANSegment.LANID"} ] string LANID; [Deprecated {"CIM_ProtocolEndpoint.ProtocolType"}, Description ( "An indication of the kind of technology used on the LAN. This " "property is deprecated in lieu of ProtocolType, which is an " "enumeration inherited from ProtocolEndpoint and which includes " "the Values specified here."), ValueMap {"0", "1", "2", "3", "4"}, Values {"Unknown", "Other", "Ethernet", "TokenRing", "FDDI"}, ModelCorrespondence {"CIM_LANSegment.LANType"} ] uint16 LANType; [Deprecated {"CIM_ProtocolEndpoint.OtherTypeDescription"}, Description ( "A free-form string that describes the type of technology " "used on the LAN when the value of the LANType property " "is equal to 1 (i.e., \"Other\"). This property is deprecated " "since its purpose overlaps with OtherTypeDescription, which " "which is inherited from ProtocolEndpoint."), ModelCorrespondence {"CIM_LANEndpoint.LANType"} ] string OtherLANType; [MaxLen(12), Description ( "The principal unicast address used in communication " "with the LANEndpoint. The MAC address is formatted as " "twelve hexadecimal digits (e.g., \"010203040506\"), " "with each pair representing one of the six octets " "of the MAC address in \"canonical\" bit order " "according to RFC 2469.") ] string MACAddress; [Description ( "Other unicast addresses that may be used to communicate " "with the LANEndpoint.") ] string AliasAddresses[]; [Description ( "Multicast addresses to which the LANEndpoint listens.") ] string GroupAddresses[]; [Description ( "The largest information field that may be sent or received " "by the LANEndpoint."), Units ("Bits") ] uint32 MaxDataSize; }; // ================================================================== // InSegment // ================================================================== [Association, Aggregation, Version ("2.6.0"), Description ( "Defines a LANEndpoint as a member of a specific " "LANSegment.") ] class CIM_InSegment : CIM_InLogicalNetwork { [Override ("Collection"), Aggregate, Max (1), Description ( "The LANSegment that groups the LANEndpoint instances.") ] CIM_LANSegment REF Collection; [Override ("Member"), Description ( "A child LANEndpoint that is a component of the " "LANSegment.") ] CIM_LANEndpoint REF Member; }; // ================================================================== // BindsToLANEndpoint // ================================================================== [Association, Version ("2.6.0"), Description ( "This association makes explicit the dependency of a SAP or " "ProtocolEndpoint on an underlying LANEndpoint, on " "the same system.") ] class CIM_BindsToLANEndpoint : CIM_BindsTo { [Override ("Antecedent"), Description ( "The underlying LANEndpoint, which is depended upon.") ] CIM_LANEndpoint REF Antecedent; [Override ("Dependent"), Description ( "The AccessPoint or ProtocolEndpoint dependent on the " "LANEndpoint.") ] CIM_ServiceAccessPoint REF Dependent; [Description ( "This describes the framing method for the upper layer " "SAP or Endpoint that is bound to the LANEndpoint. Note: " "\"Raw802.3\" is only known to be used with the IPX " "protocol."), ValueMap {"0", "1", "2", "3", "4"}, Values {"Unknown", "Ethernet", "802.2", "SNAP", "Raw802.3"} ] uint16 FrameType; }; // ================================================================== // IPProtocolEndpoint // ================================================================== [Version ("2.7.0"), Description ( "A ProtocolEndpoint that is dedicated to running IP.") ] class CIM_IPProtocolEndpoint : CIM_ProtocolEndpoint { [Experimental, Description ( "The IPv4 address that this ProtocolEndpoint represents.") ] string IPv4Address; [Experimental, Description ( "The IPv6 address that this ProtocolEndpoint represents.") ] string IPv6Address; [Deprecated {"CIM_IPProtocolEndpoint.IPv4Address", "CIM_IPProtocolEndpoint.IPv6Address"}, Description ( "The IP address that this ProtocolEndpoint represents, " "formatted according to the appropriate convention as " "defined in the AddressType property of this class " "(e.g., 171.79.6.40). This single property is deprecated " "to replace it by specific IPv4 and v6 addresses.") ] string Address; [Description ( "The mask for the IPv4 address of this ProtocolEndpoint, " "if one is defined.") ] string SubnetMask; [Experimental, Description ( "The prefix length for the IPv6 address of this Protocol" "Endpoint, if one is defined.") ] uint8 PrefixLength; [Deprecated {"No value"}, Description ( "An enumeration that describes the format of the Address " "property. It is deprecated since it is not needed, " "as the class contains both IPv4 and v6 addresses)."), ValueMap {"0", "1", "2"}, Values {"Unknown", "IPv4", "IPv6"} ] uint16 AddressType; [Description ( "This property explicitly defines support for different " "versions of the IP protocol, for this Endpoint."), ValueMap {"0", "1", "2", "3"}, Values {"Unknown", "IPv4 Only", "IPv6 Only", "Both IPv4 and IPv6"} ] uint16 IPVersionSupport; }; // ================================================================== // BGPProtocolEndpoint // ================================================================== [Version ("2.7.0"), Description ( "A ProtocolEndpoint that is dedicated to running BGP.") ] class CIM_BGPProtocolEndpoint : CIM_ProtocolEndpoint { [Description ( "A boolean that, when TRUE, signifies that this is an " "instance of the external version of BGP (FALSE is the " "internal version).") ] boolean IsEBGP; [Description ( "Normally, two routers running EBGP must be physically " "connected. This boolean, when TRUE, denotes a LOGICAL " "connection between two routers that are running EBGP " "(e.g., there is an intermediate router or interface " "between them).") ] boolean IsEBGPMultihop; [Description ( "This is the unique identifier of the local BGP router. " "This is often the router ID (e.g., an IP address)."), MappingStrings {"MIB.IETF|BGP4-MIB.bgpIdentifier"} ] string LocalIdentifier; [Description ( "This is the unique identifier of the peer BGP router. " "This is often the router ID (e.g., an IP address)."), MappingStrings {"MIB.IETF|BGP4-MIB.bgpPeerIdentifier"} ] string PeerIdentifier; [Description ( "This defines the current connection state of the " "BGP Peer."), ValueMap {"1", "2", "3", "4", "5", "6"}, Values {"Idle", "Connect", "Active", "OpenSet", "OpenConfirm", "Established"}, MappingStrings {"MIB.IETF|BGP4-MIB.bgpPeerState"} ] uint16 State; [Deprecated {"CIM_EnabledLogicalElement.RequestedStatus"}, Description ( "This defines the desired state of the BGP connection. " "It is equivalent to the RequestedStatus property (i.e., " "enabled/disabled status) that is inherited from " "EnabledLogicalElement. AdminStatus is deprecated in " "lieu of this inherited property."), ValueMap {"1", "2"}, Values {"Stop", "Start"}, MappingStrings { "MIB.IETF|BGP4-MIB.bgpPeerAdminStatus"} ] uint16 AdminStatus; [Description ( "This defines the negotiated version of BGP that is " "running between the two peers."), MappingStrings { "MIB.IETF|BGP4-MIB.bgpPeerNegotiatedVersion"} ] string NegotiatedVersion; [Deprecated {"CIM_BindsTo", "CIM_IPProtocolEndpoint"}, Description ( "This is the local IP address of this router's BGP " "connection. It is deprecated since a binding should be " "defined using the CIM_BindsTo association. Ideally the " "binding is to a TCPProtocolEndpoint which then handles the " "association to its IPEndpoint."), MappingStrings {"MIB.IETF|BGP4-MIB.bgpPeerLocalAddr"} ] string LocalAddress; [Deprecated {"CIM_BindsTo", "CIM_TCPProtocolEndpoint"}, Description ( "This is the local port number for the TCP connection of " "this router's BGP connection. It is deprecated since a " "binding should be defined (to a TCPProtocolEndpoint) " "using the CIM_BindsTo association."), MappingStrings {"MIB.IETF|BGP4-MIB.bgpPeerLocalPort"} ] uint16 LocalPort; [Deprecated {"CIM_BindsTo", "CIM_RemoteServiceAccessPoint"}, Description ( "This is the remote IP address of this router's BGP " "connection. It is deprecated since a binding to a Remote" "ServiceAccessPoint should be instantiated, using " "CIM_BindsTo."), MappingStrings {"MIB.IETF|BGP4-MIB.bgpPeerRemoteAddr"} ] string RemoteAddress; [Deprecated {"CIM_BindsTo", "CIM_RemotePort"}, Description ( "This is the remote port number for the TCP connection of " "this router's BGP connection. It is deprecated since a " "binding to a RemotePort should be instantiated, using " "CIM_BindsTo."), MappingStrings {"MIB.IETF|BGP4-MIB.bgpPeerRemotePort"} ] uint16 RemotePort; [Description ( "This is the remote AS number for this router's BGP " "connection."), MappingStrings {"MIB.IETF|BGP4-MIB.bgpPeerRemoteAs"} ] uint16 RemoteAS; [Description ( "This defines the time interval, in seconds, for the " "ConnectRetry timer. The suggested value is 120 seconds."), Units ("Seconds"), MappingStrings { "MIB.IETF|BGP4-MIB.bgpConnectRetryInterval"} ] uint32 ConnectRetryInterval = 120; [Description ( "This defines the time interval in seconds for the Hold " "Time configured for this BGP speaker with a peer. This " "value is placed in an OPEN message sent to a peer by " "this BGP speaker, and is compared with the Hold Time " "field in the OPEN message received from the peer. It " "enables this speaker to establish a mutually agreeable " "Hold Time with the peer. This value must not be less " "than three seconds. If it is zero, then the Hold Time " "is NOT to be established with the peer. The suggested" "value for this timer is 90 seconds."), Units ("Seconds"), MappingStrings {"MIB.IETF|BGP4-MIB.bgpPeerHoldTimeConfigured"} ] uint16 HoldTimeConfigured = 90; [Description ( "This defines the time interval in seconds for the " "KeepAlive timer configured for this BGP speaker with " "a peer. This value will determine the frequency of " "the KEEPALIVE messages relative to the value of the " "HoldTimeConfigured property; the actual frequency is " "specified by the value of the KeepAlive property. A " "reasonable value is one third of that of the value of " "the HoldTimeConfigured property. If it is zero, then " "NO periodic KEEPALIVE messages are sent to the peer. " "The suggested value for this property is 30 seconds. " "The maximum value of this property is 21845 seconds."), Units ("Seconds"), MappingStrings { "MIB.IETF|BGP4-MIB.bgpPeerKeepAliveConfigured"} ] uint16 KeepAliveConfigured = 30; [Description ( "This defines the time interval in seconds for the " "MinASOriginationInterval timer. The suggested value for " "this property is 15 seconds."), Units ("Seconds"), MappingStrings {"MIB.IETF|BGP4-MIB.bgpPeerMinASOriginationInterval"} ] uint16 MinASOriginationInterval = 15; [Description ( "This defines the time interval in seconds for the " "MinRouteAdvertisementInterval timer. The suggested value " "for this property is 30 seconds."), Units ("Seconds"), MappingStrings { "MIB.IETF|BGP4-MIB.bgpPeerMinRouteAdvertisementInterval"} ] uint16 MinRouteAdvertisementInterval = 30; [Description ( "This defines the maximum amount of time in seconds that " "may elapse between the receipt of successive KEEPALIVE or " "UPDATE messages. This is instrumented as a counter that " "increments from zero to the value specified in this " "property. The value of this property is calculated by " "the BGP speaker by using the smaller of the values of " "bgpPeerHoldTimeConfigured and the Hold Time received in " "the OPEN message. This value, if not zero seconds, must " "be at least three seconds, up to a maximum of 65535 " "seconds. Receipt of either a KEEPALIVE or an UPDATE " "message resets this value."), Units ("Seconds"), MappingStrings {"MIB.IETF|BGP4-MIB.bgpPeerHoldTime"} ] uint16 HoldTime; [Description ( "This defines the time interval in seconds for the KeepAlive " "timer established with the peer. The value of this property " "is calculated by the speaker such that, when compared with " "the HoldTime property, it has the same proportion as the " "KeepAliveConfigured property has with the " "HoldTimeConfigured property. A value of 0 indicates that " "the KeepAlive timer has not yet been established. The " "maximum value of this property is 21845 seconds."), Units ("Seconds"), MappingStrings {"MIB.IETF|BGP4-MIB.bgpPeerKeepAlive"} ] uint16 KeepAlive; }; // ================================================================== // ASBGPEndpoints // ================================================================== [Association, Aggregation, Composition, Version ("2.7.0"), Description ( "This aggregation defines the different router interfaces " "that are running BGP in the AutonomousSystem.") ] class CIM_ASBGPEndpoints : CIM_SystemComponent { [Override ("GroupComponent"), Aggregate, Max (1), Description ( "The AutonomousSystem that aggregates the router interfaces " "that are running BGP.") ] CIM_AutonomousSystem REF GroupComponent; [Override ("PartComponent"), Description ( "The router interfaces that are contained in the AS.") ] CIM_BGPProtocolEndpoint REF PartComponent; }; // ================================================================== // IPXProtocolEndpoint // ================================================================== [Version ("2.6.0"), Description ( "An IPX communication point from which data may be sent " "or received.") ] class CIM_IPXProtocolEndpoint : CIM_ProtocolEndpoint { [Description ( "An IPX address formatted as eight hexadecimal digits " "representing the network number, followed by a colon, " "followed by twelve hexadecimal digits representing the " "host address (e.g. \"00112233:010203040506\").") ] string Address; }; // ================================================================== // TCPProtocolEndpoint // ================================================================== [Experimental, Version ("2.7.0"), Description ( "A protocol endpoint that is dedicated to running TCP.") ] class CIM_TCPProtocolEndpoint : CIM_ProtocolEndpoint { [Description ("The TCP port number.") ] uint32 PortNumber; }; // ================================================================== // UDPProtocolEndpoint // ================================================================== [Experimental, Version ("2.7.0"), Description ( "A protocol endpoint that is dedicated to running UDP.") ] class CIM_UDPProtocolEndpoint : CIM_ProtocolEndpoint { [Description ("The UDP port number.") ] uint32 PortNumber; }; // ==================================================================== // OSPFProtocolEndpointBase // ==================================================================== [Experimental, Version ("2.7.0"), Description ( "Base class for OSPF protocol endpoints, defining several" "general properties.")] class CIM_OSPFProtocolEndpointBase : CIM_ProtocolEndpoint { [Override ("EnabledStatus"), Description ( "The operational status of the interface, see ospfIfAdminStat " "in RFC 1850. It is an integer enumeration indicating " "whether the element is currently in an enabled " "(value = 1), disabled (value = 2) or an unknown (0) " "state. If this property does not apply, the value " "3 (\"Not Applicable\"), should be used."), ValueMap{"0", "1", "2", "3"}, Values {"Unknown", "Enabled", "Disabled", "Not Applicable"}, MappingStrings {"MIB.IETF|OSPF-MIB.ospfIfAdminStat"} ] uint16 EnabledStatus; [Description ( "Estimated delay, in seconds that it takes to transmit a " "Link State Update Packet over this interface, see C.3 in " "RFC 2328."), Units("Seconds"), MappingStrings {"MIB.IETF|OSPF-MIB.ospfIfTransitDelay"} ] uint16 TransitDelay; [Description ( "The number of seconds between LSA (Link State " "Advertisement) retransmissions, see C.3 in RFC 2328."), Units("Seconds"), MappingStrings {"MIB.IETF|OSPF-MIB.ospfIfRetransInterval"} ] uint16 RetransmitInterval; [Required, Description ( "Identifies the authentication procedure to be used on the " "attached network, see C.3 in RFC 2328."), MappingStrings {"MIB.IETF|OSPF-MIB.ospfIfAuthType"}, ValueMap{"1", "2", "3", "4"}, Values{"Other", "Null authentication", "Simple password", "Cryptographic authentication"} ] uint16 AuthType; [Description ( "Specifies the authentication procedure if the value, " "\"Other\" (1) is set for AuthType."), ModelCorrespondence {"CIM_OSPFProtocolEndpoint.AuthType"} ] string OtherAuthType; [Description ( "This key is used during the authentication procedure to " "verify OSPF protocol packets, see C.3 RFC 2328. It is used " "in the \"Simple password\" and in the \"Cryptographic " "authentication\" case too."), MappingStrings {"MIB.IETF|OSPF-MIB.ospfIfAuthKey"} ] string AuthKey; }; // ==================================================================== // OSPFProtocolEndpoint // ==================================================================== [Experimental, Version ("2.7.0"), Description ( "This class represents the OSPF configuration of an interface " "running OSPF. The instance of this class should be connected to " "an IPProtocolEndpoint instance via a BindsTo association. The " "IPProtocolEndpoint instance is the Antecedent and the " "OSPFProtocolEndpoint instance is the Dependent in the BindsTo " "association.") ] class CIM_OSPFProtocolEndpoint : CIM_OSPFProtocolEndpointBase { [Description ( "When two routers attached to a network both attempt to " "become the Designated Router, the one with the highest (i.e. " "largest) Priority takes precedence, see C.3 in RFC 2328. " "Only routers with greater than zero priority are eligible to " "become Designated Router."), MappingStrings {"MIB.IETF|OSPF-MIB.ospfIfRtrPriority"} ] uint8 Priority; [Description ( "If a neighbouring router on an NBMA (NonBroadcast " "MultiAccess) link becomes inactive, it is still necessary " "to send Hello Packets to the dead neighbor. These packets " "will be sent at the reduced rate, which should be much " "larger than HelloInterval, see C.5 in RFC 2328."), Units("Seconds"), MappingStrings {"MIB.IETF|OSPF-MIB.ospfIfPollInterval"} ] uint16 PollInterval; [Description ( "The cost of the routes through this OSPF endpoint, " "see C.3 in RFC 2328."), MappingStrings {"MIB.IETF|OSPF-MIB.ospfIfMetricStatus"} ] uint16 Cost; [Description ( "Indicates whether the interface connects to an on-demand " "circuit, see RFC 1793." ), MappingStrings {"MIB.IETF|OSPF-MIB.ospfIfDemand"} ] boolean IfDemand; }; // ==================================================================== // OSPFVirtualInterface // ==================================================================== [Experimental, Version ("2.7.0"), Description ( "This class represent an OSPF protocol endpoint on a virtual " "link. The definition of a virtual link from RFC2328, is " "'Virtual links can be configured between any two backbone " "routers that have an interface to a common non-backbone area. " "Virtual links belong to the backbone. The protocol treats two " "routers joined by a virtual link as if they were connected by an " "unnumbered point-to-point backbone network.'") ] class CIM_OSPFVirtualInterface : CIM_OSPFProtocolEndpointBase { }; // ================================================================== // MPLSProtocolEndpoint // ================================================================== [Experimental, Version ("2.7.0"), Description ( "This is the representation of an MPLS interface on a Label " "Switch Router (LSR).") ] class CIM_MPLSProtocolEndpoint : CIM_ProtocolEndpoint { [Description ( "If this property is true, the Label Min/Max In/Out values " "of the ProtocolEndpoint's MPLSCapabilities overrule the " "values specified for the Label Switched Router as a whole " "(where the LSR is indicated by the existence of an " "MPLSService). Note that the min/max in/out labels are only " "defined in the MPLSCapabilities class, which is associated " "with either an MPLSService or an MPLSProtocolEndpoint via " "the CIM_ElementCapabilities relationship.") ] boolean OverruleLSR; [Description ( "This property indicates the total amount of usable " "bandwidth on this interface and is specified in " "kilobits per second (Kbps)."), Units ("KiloBits per Second"), MappingStrings { "MIB.IETF|MPLS-LSR-MIB.MPLSInterfaceTotalBandwidth"} ] uint32 TotalBandwidth; [Description ( "This property indicates the total amount of available " "bandwidth for the interface and is specified in " "kilobits per second (Kbps). This value is calculated as " "the difference between the amount of bandwidth currently in " "use and that specified in TotalBandwidth. Note that this is " "not statistical data, since change is not frequent, " "and the property can be regarded as the 'current state' of " "the network. It is intended that this data be used by " "applications doing centralized LSP provisioning."), Units ("KiloBits per Second"), ModelCorrespondence { "CIM_MPLSProtocolEndpoint.TotalBandwidth"}, MappingStrings { "MIB.IETF|MPLS-LSR-MIB.MPLSInterfaceAvailableBandwidth"} ] uint32 AvailableBandwidth; [Description ( "The ResourceClasses property defines a 32-bit vector " "representing the classes associated with a link, " "where the link originates at this ProtocolEndpoint. A " "resource class is described in [RFC2702].") ] uint32 ResourceClasses; }; // =================================================================== // EndpointIdentity // =================================================================== [Association, Version ("2.6.0"), Description ( "CIM_EndpointIdentity indicates that two ProtocolEndpoints " "represent different aspects of the same underlying address " "or protocol-specific ID. This association refines the " "CIM_LogicalIdentity superclass by restricting it to the " "Endpoint level and defining its use in well understood " "scenarios. One of these scenarios is to represent that an " "Endpoint has both 'LAN' and protocol-specific aspects. " "For example, an Endpoint could be both a LANEndpoint as " "well as a DHCPEndpoint.") ] class CIM_EndpointIdentity : CIM_LogicalIdentity { [Override ("SystemElement"), Description ( "SystemElement represents one aspect of the " "Endpoint.") ] CIM_ProtocolEndpoint ref SystemElement; [Override ("SameElement"), Description ( "SameElement represents an alternate aspect of " "the Endpoint.") ] CIM_ProtocolEndpoint ref SameElement; }; // =================================================================== // SwitchPort // =================================================================== [Version ("2.7.0"), Description ( "Switch Port from which frames are received " "and out which they are transmitted. This endpoint is " "associated with its networking interface (such as " "Ethernet) via the EndpointIdentity relationship.") ] class CIM_SwitchPort : CIM_ProtocolEndpoint { [Description ( "Numeric identifier for a switch port."), MappingStrings {"MIB.IETF|BRIDGE-MIB.dot1dPort"} ] uint16 PortNumber; }; // =================================================================== // end of file // ===================================================================