RC-VRF-MIB: View SNMP OID List / Download MIB

The MIB module is the definition of the managed objects for the Virtual Router.

The next available Virtual Router Id (index). This object provides a hint for the rcVrfId value to use when administratively creating a new rcVrfConfigEntry. A GET of this object returns the next available rcVrfId value to be used to create an entry in the associated rcVrfConfigTable; or zero, if no valid rcVrfId value is available. A value of zero(0) indicates that it is not possible to create a new rcVrfConfigEntry. This object also returns a value of zero when it is the lexicographic successor of a varbind presented in an SNMP GETNEXT or GETBULK request, for which circumstance it is assumed that ifIndex allocation is unintended. Successive GETs will typically return different values, thus avoiding collisions among cooperating management clients seeking to create table entries simultaneously. Unless specified otherwise by its MAX-ACCESS and DESCRIPTION clauses, an object of this type is read-only, and a SET of such an object returns a notWritable error.

This table is for creating the new Virtual Routers.

The entries in this table can be added/deleted using the rcVrfRowStatus.

The unique id of this virtual router instance. A Virtual Router cannot not be created with rcVrfId = 0. VRFID 0 is reserved for the Administrative VRF.

The status column has three defined values: - `active', which indicates that the conceptual row is available for use by the managed device; - `createAndGo', which is supplied by a management station wishing to create a new instance of a conceptual row and to have its status automatically set to active, making it available for use by the managed device; - `destroy', which is supplied by a management station wishing to delete all of the instances associated with an existing conceptual row.

The Name of the Virtual Router.

The SNMPv2 Community String or SNMPv3 contextName denotes the VRF 'context' and is used to logically separate the MIB module management.

This objects is used to enable the generation of the VrfUp and VrfDown traps. true(1) - VRF Traps Enabled false(2) - VRF Traps Disabled

This object specifies the maximum number of routes that this VRF can support. The default value is 10000.

The administrative state of the Virtual Router. Enumeration: 'down': 2, 'unknown': 4, 'testing': 3, 'up': 1.

The Virtual Private Network Identifier of the Virtual Router.

This object represents Routing Protocol (RP) Triggers on a Virtual Router and it meant to be used to initiate or shutdown routing protocols on a VRF. Multiple RPs can be acted on simultaneously. Also, individual RPs can be brought up in steps, which should not affect the RPs that were running. The BITS represent an Action-code that specifies what action is to be performed for the RPs. The actions are: initiate(1) or shutdown(0). The running status of an RP shall be available in the VRF stats table's rcVrfRpStatus, which has a similar format, but represents the status. Bits 0-3 may be specified in any combination. Individual routing protocols may be enabled and disabled independently. Protocols are enabled by setting the respective BIT and are disabled by resetting the BIT. So, for example, to enable RIP and BGP protocols the rcVrfRpTrigger bits 0 and 2 need to be set, and as encoded as 10100000. All zeros should be interpreted as all protocols disable.

This objects is used to enable the generation of the VRF Max Routes Exceeded traps. true(1) - VRF Max Routes Exceeded Traps Enabled false(2) - VRF Max Routes Exceeded Traps Disabled

The number of VRFs configured on this network element.

The number of VRFs that are active on the network element. These are VRFs for which the rcVrfStatOperStatus = up(1)

This table contains statistics for the Virtual Router.

Entries in this table are per rcVrfId.

Total number of routes for this VRF.

Total number of FIB Entries for this VRF.

The time in (in hundredths of a second) since this VRF entry has been operational.

The operational status of the Virtual Router. Enumeration: 'down': 2, 'unknown': 3, 'up': 1.

This object represents the status of Routing Protocols on this VRF corresponding to the list of RP specified in rcVrfRpTrigger. The BITS represent an Action-code that specifies the status of the RPs. The status are: initiated (1) or shutdown (0). Initiated status is indicated when the respective BIT value is 1 and indicates shutdown when the respective BIT value is 0. Bits 0-3 may appear in any combination to indicate that RPs may be enabled and disabled independently or that multiple RP are acted on simultaneously.

Router Address Type of this VRF.

Router Address of this VRF. It is derived from one of the interfaces. If loopback interface is present, the loopback interface address can be used. However, loopback interface is optional.

Size of Vrf IpVpn Table

Table required to configure vpn under ip.

Entries in this table are per rcVrfId.

The VrfId serves as the Index for the rcIpVpnVrfTable and also for the rcIpVpnRouteDistinguisherTable. It allows to connect to the vrf table to obtain other attributes like the vrf name, rcVrfMaxRoutesTrapEnable etc.

The status of IpVpn.

The Import RT list is a list of all the route-targets attached to a particular vrf behaving in the import mode.

The Export RT list is a list of all the route-targets attached to a particular vrf in the export mode.

The service label allocation option for the ipvpn Enumeration: 'perVrfperNexthop': 1, 'perVrf': 2.

RowStatus for the Vpn Entry.