// =================================================================== // Title: Network VLAN 2.8 // Filename: Network28_VLAN.mof // Version: 2.8 // Status: Preliminary // Date: August 12, 2003 // =================================================================== // Copyright 1998-2003 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owner or claimant, and shall // have no liability or responsibility for costs or losses incurred if // a standard is withdrawn or modified after publication, and shall be // indemnified and held harmless by any party implementing the // standard from any and all claims of infringement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 VLAN (virtual LAN) // concepts. // // 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 v2.8 // CR1024 - Updated version of VLAN model // CR1123 - Incorporates member comments // CR1146 - Update cardinalities for associations VLANsInTrunk and // EndstationInVLAN // /Change Log for v2.7 // CR867 - Remove Min(1), Max(1) cardinality restrictions on Related // TransparentBridgingService // CR920 - Add missing parenthesis to the Description for CIM_VLAN // =================================================================== #pragma Locale ("en_US") // ================================================================== // VLAN // ================================================================== [Deprecated {"CIM_NetworkVLAN"}, Version ("2.7.1000"), Description ( "This property is deprecated in lieu of NetworkVLAN An instance " "of VLAN represents a VLAN within a switch. In a particular " "switch, there should be an instance of VLAN for every VLAN " "available. For example, in a switch with port-based VLANs, if " "there are 16 VLANs to which ports can be assigned (VLAN 1 " "through VLAN 16), there should be an instance of CIM_VLAN for " "each of VLAN 1 through VLAN 16.\n" "\n" "VLAN inherits Name from ServiceAccessPoint. Use this for the " "textual name of the VLAN, if there is one. Otherwise, " "synthesize a textual name, e.g., VLAN 0003. (Consider leading " "zero fill, as shown, to ensure that if the textual VLAN names " "are extracted and presented by a management applictions, the " "VLAN names will sort in the expected order.) The numeric part " "of the name should be at least four digits wide since 802.1Q " "specifies 4095 VLANs.\n" "\n" "It is intended that VLAN be subclassed only if necessary to " "add attributes. The type of the VLAN can be inferred from the " "VLANService(s) with which the VLAN is associated in the " "VLANFor association.\n" "\n" "An instance of VLAN may be associated with more than one " "VLANService. For example, there are switches that support " "both 802.1Q VLANs and the vendor's proprietary VLANs. In some " "such switches, if a broadcast packet is received on a port in " "an 802.1Q VLAN (VLAN 5, for example), it may be be transmitted " "from a port in a 'proprietary' VLAN 5. In effect, there is " "only one VLAN 5, and the type of port only determines the " "packet format for tagged packets. In the case just described, " "only one instance of CIM_VLAN should be instantiated for VLAN " "5, and it should be associated both with the 802.1Q " "VLANService and the proprietary VLANService.\n" "\n" "In typical VLAN-aware switches, packets can be assigned to a " "VLAN based on the port on which they are received (port-based " "VLANS), based on the source MAC address (MAC-based VLANs), or " "based on the value of a set of bits in the packet " "(protocol-based VLANs). If it is desirable to represent the " "VLAN assignment predicate for some MAC-based VLAN switch, it " "will be necessary to subclass VLAN. The list of MAC addresses " "associated with a VLAN might be an attribute of the subclass. " "If it is desirable to represent the VLAN assignment predicate " "in a protocol-based VLAN switch, it will also be necessary to " "subclass VLAN, InboundVLAN, or both. If the predicate applies " "to all ports in the switch, then only VLAN need be " "used/instantiated. If the predicate may vary based on the " "port, then InboundVLAN must be subclassed, and CIM_VLAN might " "have to be subclassed as well.") ] class CIM_VLAN : CIM_ServiceAccessPoint { [Deprecated {"CIM_NetworkVLAN.VLANId"}, Description ( "VLAN identifying number. This property is deprecated in " "lieu of VLANId in class NetworkVLAN.") ] uint16 VLANNumber; }; // ================================================================== // InboundVLAN // ================================================================== [Association, Deprecated {"No Value"}, Version ("2.7.1000"), Description ( "This class is deprecated in lieu or not being necessary to " "indicate whether the VLAN is inbound/outbound This association " "makes explicit the operational dependencies of a SwitchPort " "when operating in a VLAN. If there is an association between " "a particular SwitchPort and a particular VLAN, then there is " "the possibility that a packet received by the port will be " "assigned to the VLAN (or if the packet already has a VLAN tag, " "that the packet will not be dropped). If there is no such " "association, then there is NO possibility that a packet " "received by the port will progress through the switch having " "been assigned to the referenced VLAN.") ] class CIM_InboundVLAN : CIM_SAPSAPDependency { [Deprecated {"No Value"}, Override ("Antecedent"), Description ( "The VLAN to which the SwitchPort is assigned.") ] CIM_VLAN REF Antecedent; [Deprecated {"No Value"}, Override ("Dependent"), Description ( "The SwitchPort on the VLAN.") ] CIM_SwitchPort REF Dependent; [Deprecated {"No Value"}, Description ( "If TRUE, packets already tagged with this VLAN number will " "be accepted when arriving at this port. For example, if " "there is an InboundVLAN association between port 12 and " "VLAN 7 for which Tagged is true, then when a packet tagged " "with VLAN 7 arrives at port 12, the packet will be accepted " "into the switch for further processing. If there is no " "such association, then the packet will be dropped.\n" "\n" "If FALSE, it means that any untagged packets arriving at " "this port MIGHT be classified into the associated VLAN. " "If, for a particular SwitchPort, there is only one instance " "of the association for which Tagged is FALSE, then all " "incoming untagged packets will be classified into that " "VLAN. This is the typical configuration of a non-trunk " "port in a switch implementing port-based VLANs. If there " "is more than one such association instance, then the packet " "MIGHT be classified into any one of them, based on some " "criterion other than the identity of the switch port. For " "example, in a MAC-based VLAN switch, the decision would be " "based on the source MAC address. In a protocol-based VLAN " "switch, the decision would be based on the values of some " "set of bits in the packet.\n" "\n" "Note that 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.") ] boolean Tagged; [Deprecated {"No Value"}, Description ( "Default should be TRUE if untagged packets received by the " "SwitchPort are assigned to the VLAN. For 802.1Q-compliant " "ports, the Default property should be TRUE on the " "association instance connecting a SwitchPort to the VLAN " "corresponding to the port's PVID. Default MUST never be " "TRUE if Tagged is true -- it applies only to untagged " "packets.") ] boolean Default; }; // ================================================================== // OutboundVLAN // ================================================================== [Association, Deprecated {"No Value"}, Version ("2.7.1000"), Description ( "This class is deprecated in lieu or not being necessary to " "indicate whether the VLAN is inbound/outbound This association " "makes explicit the operational dependencies of a SwitchPort " "when operating in a VLAN. If there is no instance of " "OutboundVLAN between a given SwitchPort and VLAN, then any " "packet that has been assigned to the VLAN and whose " "destination address is associated with the port will be " "dropped by the switch without being transmitted. Otherwise, " "the packet will be transmitted.") ] class CIM_OutboundVLAN : CIM_SAPSAPDependency { [Deprecated {"No Value"}, Override ("Antecedent"), Description ( "The VLAN to which the SwitchPort is assigned.") ] CIM_VLAN REF Antecedent; [Deprecated {"No Value"}, Override ("Dependent"), Description ( "The SwitchPort on the VLAN.") ] CIM_SwitchPort REF Dependent; [Deprecated {"No Value"}, Description ( "If Tagged is TRUE, then the packet will be transmitted in " "encapsulated form, tagged with the associated VLAN tag. If " "Tagged is FALSE, the packet will be trasmitted without any " "VLAN tag.") ] boolean Tagged; }; // ================================================================== // VLANService // ================================================================== [Deprecated {"No Value"}, Abstract, Version ("2.7.1000"), Description ( "This class is deprecated following discussion as to the need " "of a modeling a VLAN as a service. It was determined that a " "VLAN service was not needed. VLANService represents the VLAN " "aspects of the function performed by a switch. Some " "VLAN-aware devices participate in protocols where VLAN " "information is propagated among switches, e.g., GVRP in 802.1Q " "switches and VTP in Cisco Catalyst switches. VLANService also " "represents the function performed by the switch as a " "participant in such a protocol. VLANService must be " "subclassed so that the type of instance can be distinguished " "by its class.") ] class CIM_VLANService : CIM_Service { }; // ================================================================== // 802dot1QVLANService // ================================================================== [Deprecated {"No Value"}, Version ("2.7.1000"), Description ( "This class is deprecated following discussion as to the need " "of a modeling a 802.1Q as a service. It was determined that a " "802.1Q service was not needed. If a switch supports 802.1Q, " "an instance of this class should be instantiated in the " "switch. If the switch supports GVRP, this class represents " "the function that the switch performs with respect to GVRP.") ] class CIM_802dot1QVLANService : CIM_VLANService { }; // ================================================================== // VLANFor // ================================================================== [Association, Deprecated {"No Value"}, Version ("2.7.1000"), Description ( "The VLAN for the VLAN Service.") ] class CIM_VLANFor : CIM_ServiceSAPDependency { [Deprecated {"No Value"}, Override ("Antecedent"), Description ( "The VLAN for the VLANService.") ] CIM_VLAN REF Antecedent; [Deprecated {"No Value"}, Override ("Dependent"), Min (1), Description ( "The VLANService which uses the VLAN for processing.") ] CIM_VLANService REF Dependent; }; // ================================================================== // SwitchServiceVLAN // ================================================================== [Association, Deprecated {"No Value"}, Aggregation, Version ("2.7.1000"), Description ( "This class is deprecated as a fall out of the previous " "deprecations within the existing model An association linking " "SwitchService to a component VLANService.") ] class CIM_SwitchServiceVLAN : CIM_ServiceComponent { [Deprecated {"No Value"}, Aggregate, Override ("GroupComponent"), Min (1), Max (1), Description ( "The SwitchService containing the VLANService.") ] CIM_SwitchService REF GroupComponent; [Deprecated {"No Value"}, Override ("PartComponent"), Description ( "The VLANService that is a component of the SwitchService.") ] CIM_VLANService REF PartComponent; }; // ================================================================== // RelatedTransparentBridgingService // ================================================================== [Association, Deprecated {"No Value"}, Version ("2.7.1000"), Description ( "This class is deprecated as a fall out of the previous " "deprecations within the existing model The association between " "a VLAN and the forwarding database (some use the term " "filtering database) used to determine which port a packet " "should be transmitted on, given that it is assigned to the " "VLAN and that it has a particular destination MAC address. " "The TransparentBridgingService represents a forwarding " "database.") ] class CIM_RelatedTransparentBridgingService : CIM_ServiceSAPDependency { [Deprecated {"No Value"}, Override ("Antecedent"), Description ( "The VLAN.") ] CIM_VLAN REF Antecedent; [Deprecated {"No Value"}, Override ("Dependent"), Description ( "The BridgingService that determines the port, given the the " "VLAN and addressing information.") ] CIM_TransparentBridgingService REF Dependent; }; // ================================================================== // NetworkVLAN // ================================================================== [Experimental, Version ("2.7.1000"), Description ( "An instance of NetworkVLAN represents a collection of " "VLANSwitchEndpoints and/or VLANEndstationEndpoints which are " "members of the VLAN. There SHOULD be an instance of " "NetworkVLAN for every VLAN available in a switch. For " "example, in a switch with port-based VLANs, if there are 16 " "VLANs to which ports can be assigned (VLAN 1 through VLAN 16), " "there SHOULD be an instance of NetworkVLAN for each of VLAN 1 " "through VLAN 16.") ] class CIM_NetworkVLAN : CIM_ConnectivityCollection { [Description ( "A 12-bit VLAN ID used in the VLAN Tag header."), MinValue (1), MaxValue (4094), MappingStrings {"MIB.IETF|Q-BRIDGE-MIB.VlanId"} ] uint16 VLANId; [Description ( "The value of this property is set to a positive integer " "when the value of the MTU for all members (switch " "endpoints/endstationendpoints of the VLAN is the same, " "otherwise is set to -1 and the MaxTransmission size is set " "on each of the individual endpoints.") ] sint32 MaxTransmissionSize; [Description ( "The value of the 802.10 SAID field which would be used for " "this VLAN.") ] uint32 SAIdentifier; }; // ================================================================== // OrgEntityAssignedVLAN // ================================================================== [Association, Experimental, Aggregation, Version ("2.7.1000"), Description ( "The organizations that are members of the VLAN.") ] class CIM_OrgEntityAssignedVLAN : CIM_MemberOfCollection { [Aggregate, Override ("Collection"), Max (1), Description ( "The VLAN to which the organization/group has been assigned " "to.") ] CIM_NetworkVLAN REF Collection; [Override ("Member"), Description ( "One of the organizations (groups) that have been assigned " "to this VLAN.") ] CIM_OrganizationalEntity REF Member; }; // ================================================================== // VLANSwitchEndpoint // ================================================================== [Experimental, Version ("2.7.1000"), Description ( "An endpoint on a switch which is assigned to a given VLAN or " "accepts traffic from one or more VLANs. As defined by the " "property, SwitchEndpointMode, the endpoint may be configured " "as trunking or nontrunking. When operating in trunking mode, " "the remaining properties of the class apply. Given this " "statement, one might ask why a subclassing structure was not " "chosen versus this design of a single class with properties " "that may not be applicable. The reason is that an endpoint " "may dynamically be converted to/from a trunking mode. When " "this occurs, it is not correct to delete the instance and " "recreate it, since the SwitchEndpoint itself has not been " "deleted/created, only its mode has changed. Note that when " "configured as a trunk, the VLANsInTrunk association is used to " "identify the VLANs which are allowed by the trunk.") ] class CIM_VLANSwitchEndpoint : CIM_ProtocolEndpoint { [Description ( "The configuration mode for the SwitchEndpoint/switch port. " "The following values are defined:\n" "- Access: Puts the endpoint/switch port into permanent " "nontrunking mode and negotiates to convert the link into a " "nontrunk link. The endpoint becomes a nontrunk interface.\n" "- Dynamic Auto: Makes the endpoint able to convert the link " "to a trunk link. The endpoint becomes a trunk interface if " "the neighboring interface is set to trunk or desirable mode.\n" "- Dynamic Desirable: Makes the endpoint actively attempt to " "convert the link to a trunk link. The endpoint becomes a " "trunk interface if the neighboring interface is set to " "trunk, desirable, or auto mode. The default switch-port " "mode for all Ethernet interfaces is 'dynamic desirable.'\n" "- Trunk: Puts the endpoint into permanent trunking mode and " "negotiates to convert the link into a trunk link. The " "endpoint becomes a trunk interface even if the neighboring " "interface is not a trunk interface.\n" "- Dot1Q Tunnel: Configures the interface as a tunnel " "(nontrunking) endpoint/port to be connected in an " "asymmetric link with an 802.1Q trunk port. 802.1Q " "tunneling is used to maintain customer VLAN integrity " "across a service provider network."), ValueMap {"0", "2", "3", "4", "5", "6"}, Values {"Unknown", "Access", "Dynamic Auto", "Dynamic Desirable", "Trunk", "Dot1Q Tunnel"} ] uint16 SwitchEndpointMode; [Write, Description ( "The type of VLAN encapsulation that is requested for use " "when trunking. (Note that the encapsulation currently in " "use is given by the VLANTrunkOperationalEncapsulation " "property.) This property is either 'not applicable' (i.e., " "the endpoint will never be placed in trunking mode), a " "particular type (802.1q or Cisco ISL today), or 'negotiate' " "(i.e., the result of the negotiation between this interface " "(PE) and its neighbor). The value, \"Negotiate\" is not " "allowed if the endpoint does not support negotiation. The " "ability to negotiate the trunk encapsulation is hardware " "and vendor dependent. Property " "VLANSwitchEndpointCapabilities. " "SupportsTrunkEncapsulationNegotiation is used to indicate " "whether or not a particular endpoint (port) supports " "encapsulation negotiation."), ValueMap {"2", "3", "4", "5", "6", "7"}, Values {"Not Applicable", "802.1q", "Cisco ISL", "Negotiate", "DMTF Reserved", "Vendor Reserved"}, ModelCorrespondence { "CIM_VLANSwitchCapabilities.SupportsTrunkEncapsulationNegotiation"} ] uint16 DesiredVLANTrunkEncapsulation; [Description ( "The type of VLAN encapsulation in use on a trunk " "endpoint/port. This property is either 'not applicable' " "(i.e., the endpoint is not operating in trunking mode), a " "particular type (802.1q or Cisco ISL), 'negotiating' (i.e., " "the endpoints are negotiating the encapsulation type)."), ValueMap {"2", "3", "4", "5", "6", "7"}, Values {"Not Applicable", "802.1q", "Cisco ISL", "Negotiating", "DMTF Reserved", "Vendor Reserved"} ] uint16 VLANTrunkOperationalEncapsulation; [Description ( "If a VLAN Id is part of this array, then the system MAY " "prune that VLAN on this trunk endpoint/port. This property " "is applicable only when the endpoint is operating in " "trunking mode (determined by examining the " "SwitchEndpointMode property)."), ModelCorrespondence {"CIM_VLANSwitchEndpoint.SwitchEndpointMode"} ] uint16 PruneElegibleVLANList[]; [Description ( "VLAN Id that is used to tag untagged traffic received on " "this trunk endpoint/port. This property is applicable only " "when the endpoint is operating in trunking mode (determined " "by examining the SwitchEndpointMode property)."), ModelCorrespondence {"CIM_VLANSwitchEndpoint.SwitchEndpointMode"} ] uint16 NativeVLAN; [Description ( "Default value for the native VLAN on this trunk " "endpoint/port. This property is applicable only when the " "endpoint is operating in trunking mode (determined by " "examining the SwitchEndpointMode property)."), ModelCorrespondence {"CIM_VLANSwitchEndpoint.SwitchEndpointMode"} ] uint16 DefaultVLAN; [Description ( "Indicates whether GARP VLAN Registration Protocol (GVRP) is " "enabled or disabled on the trunk endpoint/port. This " "property is 'not applicable' unless GVRP is supported by " "the endpoint. This is indicated in the Capabilities " "property, VLANSwitchEndpointCapabilities.Dot1QTagging. " "This property is applicable only when the endpoint is " "operating in trunking mode (determined by examining the " "SwitchEndpointMode property)."), ValueMap {"2", "3", "4"}, Values {"Not Applicable", "Enabled", "Disabled"}, ModelCorrespondence {"CIM_VLANSwitchEndpoint.SwitchEndpointMode", "CIM_VLANSwitchEndpointCapabilities.Dot1QTagging"} ] uint16 GVRPStatus; }; // ================================================================== // VLANsInTrunk // ================================================================== [Association, Experimental, Version ("2.7.1000"), Description ( "The VLANs allowed by the VLANSwitchEndpoint. The reason for " "the association is to permit query for either the endpoint or " "the VLAN, instead of being one directional information (stored " "as a property in the switch endpoint class). Note that this " "association only applies to switch endpoints operating in " "trunking mode (determined by examining the SwitchEndpointMode " "property).") ] class CIM_VLANsInTrunk : CIM_Dependency { [Override ("Antecedent"), Max (1), Description ( "The SwitchEndpoint configured for trunking.") ] CIM_VLANSwitchEndpoint REF Antecedent; [Override ("Dependent"), Description ( "The VLAN allowed by this SwitchEndpoint acting as a trunk.") ] CIM_NetworkVLAN REF Dependent; }; // ================================================================== // SwitchEndpointInVLAN // ================================================================== [Association, Experimental, Aggregation, Version ("2.7.1000"), Description ( "The switchendpoints which participate in this VLAN.") ] class CIM_SwitchEndpointInVLAN : CIM_MemberOfCollection { [Aggregate, Override ("Collection"), Max (1), Description ( "The VLAN to which the endpoint belongs.") ] CIM_NetworkVLAN REF Collection; [Override ("Member"), Description ( "One of the switch endpoints in this VLAN.") ] CIM_VLANSwitchEndpoint REF Member; }; // ================================================================== // VLANEndstationEndpoint // ================================================================== [Experimental, Version ("2.7.1000"), Description ( "An endpoint on an endstation which has been configured to " "belong to a given VLAN and is a VLAN aware endstation that " "sends traffic on a given VLAN.") ] class CIM_VLANEndstationEndpoint : CIM_ProtocolEndpoint { [Description ( "The type of VLAN encapsulation desired to be used on this " "trunk port. Today this is only 802.1q for VLAN aware " "endstations. The value of 'Not Applicable' is used when " "the endstation is not VLAN aware."), ValueMap {"2", "3", "4", "5"}, Values {"Not Applicable", "802.1q", "DMTF Reserved", "Vendor Reserved"}, ModelCorrespondence {"CIM_VLANEndstationEndpoint.VLANAware" } ] uint16 DesiredVLANTrunkEncapsulation; [Description ( "The type of VLAN encapsulation in use on this trunk port. " "Today this is only 802.1q for VLAN aware endstations. The " "value of 'Not Applicable' is used when the endstation is " "not VLAN aware."), ValueMap {"2", "3", "4", "5"}, Values {"Not Applicable", "802.1q", "DMTF Reserved", "Vendor Reserved"}, ModelCorrespondence {"CIM_VLANEndstationEndpoint.VLANAware" } ] uint16 VLANTrunkOperationalEncapsulation; [Description ( "The Endstation is VLAN aware (i.e. can send 802.1q tagged " "frames).") ] boolean VLANAware; }; // ================================================================== // EndstationInVLAN // ================================================================== [Association, Experimental, Aggregation, Version ("2.7.1000"), Description ( "The endstation port (endpoints) which participate in this " "VLAN.") ] class CIM_EndstationInVLAN : CIM_MemberOfCollection { [Aggregate, Override ("Collection"), Description ( "The VLAN to which the endpoint belongs.") ] CIM_NetworkVLAN REF Collection; [Override ("Member"), Description ( "One of the endstation endpoints in this VLAN.") ] CIM_VLANEndstationEndpoint REF Member; }; // ================================================================== // VLANCapabilities // ================================================================== [Experimental, Version ("2.7.1000"), Description ( "Properties in VLANCapabilities represent the ComputerSystem's " "constraints and capabilities for VLANs. The information " "included in this class addresses the resource limits for the " "ComputerSystem.") ] class CIM_VLANCapabilities : CIM_Capabilities { [Description ( "The maximum number of IEEE 802.1Q VLANs that this device " "supports."), MappingStrings { "MIB.IETF|Q-BRIDGE-MIB.dot11MaxSupportedVlans"} ] uint16 MaxSupportedVLANs; [Description ( "The maximum number of IEEE 802.1Q VLAN Ids that this device " "supports."), MappingStrings {"MIB.IETF|Q-BRIDGE-MIB.dot1qMaxVlanId"} ] uint16 MaxVLANId; }; // ================================================================== // VLANSwitchEndpointCapabilities // ================================================================== [Experimental, Version ("2.7.1000"), Description ( "Capabilities supported by the switch endpoint.") ] class CIM_VLANSwitchEndpointCapabilities : CIM_Capabilities { [Description ( "Indicates support for dot1Q tagging and GVRP."), MappingStrings { "MIB.IETF|P-BRIDGE-MIB.dot1dPortCapabilities"} ] boolean Dot1QTagging; [Description ( "Describes the type of frames that are accepted by the " "port."), ValueMap {"2", "3"}, Values {"Accept All", "Admit VLAN Tagged Only"}, MappingStrings { "MIB.IETF|P-BRIDGE-MIB.dot1dPortCapabilities"} ] uint16 Dot1ConfigurableAcceptableFrameTypes; [Description ( "Supports the discarding of any frame received on a " "ProtocolEndpoint whose VLAN classification does not include " "that ProtocolEndpoint in its Member set."), MappingStrings { "MIB.IETF|P-BRIDGE-MIB.dot1dPortCapabilities "} ] boolean Dot1qIngressFiltering; [Description ( "This property indicates whether or not the protocol " "endpoint supports negotiation of the trunk encapsulation."), ModelCorrespondence {"CIM_VLANSwitchEndpoint.SwitchEndpointMode"} ] boolean SupportsTrunkEncasulationNegotiation; }; // ================================================================== // GARPMembershipSettingData // ================================================================== [Experimental, Version ("2.7.1000"), Description ( "Configuration for the Generic Attribute Registration Protocol " "(GARP). GARP is a protocol used by switches and end stations " "to register and de-register attribute values, such as VLAN " "Ids. The GVRP is an application of GARP for VLAN " "registration. The properties (timers) in this class are GARP " "control information about every ProtocolEndpoint supporting " "GARP & GVRP.") ] class CIM_GARPMembershipSettingData: CIM_ConnectivityMembershipSettingData { [Description ( "The GARP join time."), Units ("MilliSeconds"), MappingStrings { "MIB.IETF|Q-BRIDGE-MIB.dot1dPortGarpJoinTime"} ] uint32 Dot1dPortGarpJoinTime; [Description ( "The GARP leave time."), Units ("MilliSeconds"), MappingStrings { "MIB.IETF|Q-BRIDGE-MIB.dot1dPortGarpLeaveTime"} ] uint32 Dot1dPortGarpLeaveTime; [Description ( "The GARP leave all time."), Units ("MilliSeconds"), MappingStrings { "MIB.IETF|Q-BRIDGE-MIB.dot1dPortGarpLeaveAllTime"} ] uint32 Dot1dPortGarpLeaveAllTime; }; // ================================================================== // VLANSwitchSettings // ================================================================== [Experimental, Version ("2.7.1000"), Description ( "The VLAN configuration data for a system. It is associated " "using ElementSettingData to the ComputerSystem to which it " "applies.") ] class CIM_VLANSwitchSettings : CIM_SettingData { [Description ( "List of VLANs which are reserved for pre-determined " "uses/media types, etc. An example of this is reservation " "of VLANs specifically for use with FDDI or Token Ring.") ] uint16 ReservedVLANList[ ]; [Description ( "This is a set of VLANs reserved for use internally by the " "switch.") ] uint16 InternalVLANList[ ]; [Description ( "The current number of VLANs configured in the switch.") ] uint16 NumberOfConfiguredVLANs; [Description ( "List of VLANs dynamically created in the switch.") ] uint16 DynamicVLANList[]; [Description ( "List of VLANs statically created in the switch.") ] uint16 StaticVLANList[]; }; // ================================================================== // VLANStatistics // ================================================================== [Experimental, Version ("2.7.1000"), Description ( "Performance metrics for a either a VLAN or a port (endpoint). " "Depending on the switch's ability to collect statistics, these " "statistics may be associated with all endpoints on the port " "(i.e. port level stats) or they may be per VLAN per port " "stats. When a port (endpoint) is configured as an access port " "then port stats are equivalent to the VLAN stats. The " "AssociatedStatisticalData association is used to tie the " "VLANNetwork with its statistics.") ] class CIM_VLANStatistics : CIM_StatisticalData { [Description ( "The number of valid frames received by this " "ProtocolEndpoint from its segment which were classified as " "belonging to this VLAN. Note that a frame received on this " "port is counted by this object if and only if it is for a " "protocol being processed by the local forwarding process " "for this VLAN. This object includes received bridge " "management frames classified as belonging to this VLAN " "(e.g. GMRP, but not GVRP or STP - RFC2674)."), Counter, MappingStrings { "MIB.IETF|Q-BRIDGE-MIB.Dot1qTpVlanPortHCInFrames"} ] uint64 Dot1qTpVlanPortHCInFrames; [Description ( "The number of valid frames transmitted by this port to its " "segment from the local forwarding process for this VLAN. " "This includes bridge management frames originated by this " "device which are classified as belonging to this VLAN " "(e.g. GMRP, but not GVRP or STP - RFC2674)."), Counter, MappingStrings { "MIB.IETF|Q-BRIDGE-MIB.Dot1qTpVlanPortHCOutFrames"} ] uint64 Dot1qTpVlanPortHCOutFrames; [Description ( "The number of valid frames received by this port from its " "segment which were classified as belonging to this VLAN " "which were discarded due to VLAN related reasons. " "Specifically, the IEEE 802.1Q counters for Discard Inbound " "and Discard on Ingress Filtering - RFC2674."), Counter, MappingStrings { "MIB.IETF|Q-BRIDGE-MIB. " "Dot1qTpVlanPortHCInDiscards"} ] uint64 Dot1qTpVlanPortHCInDiscards; [Description ( "A 12-bit VLAN ID used in the VLAN Tag header."), MinValue (1), MaxValue (4094), MappingStrings {"MIB.IETF|Q-BRIDGE-MIB.VlanId"} ] uint16 VLANId; }; // ================================================================== // VLANMembershipSettingData // ================================================================== [Experimental, Version ("2.7.1000"), Description ( "For dynamic VLAN assignment, these rules define how incoming " "traffic is assigned to a VLAN. A typical set of assignment " "rules include assignment based on MAC address, IP address, or " "IP subnet. Many other criteria or combination of criteria may " "be used.") ] class CIM_VLANMembershipSettingData: CIM_ConnectivityMembershipSettingData { }; // =================================================================== // end of file // ===================================================================