TIMETRA-VRTR-MIB: View SNMP OID List / Download MIB
VENDOR: NOKIA
Home | MIB: TIMETRA-VRTR-MIB | |||
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Object Name | OID | Type | Access | Info |
timetraVRtrMIBModule | 1.3.6.1.4.1.6527.1.1.3.3 | |||
tmnxVRtrConformance | 1.3.6.1.4.1.6527.3.1.1.3 | |||
tmnxVRtrCompliances | 1.3.6.1.4.1.6527.3.1.1.3.1 | |||
tmnxVRtrGroups | 1.3.6.1.4.1.6527.3.1.1.3.2 | |||
tmnxVRtrMobGatewayCompliances | 1.3.6.1.4.1.6527.3.1.1.3.3 | |||
tmnxVRtrMobGatewayGroups | 1.3.6.1.4.1.6527.3.1.1.3.4 | |||
tmnxVRtrObjs | 1.3.6.1.4.1.6527.3.1.2.3 | |||
vRtrConfTable | 1.3.6.1.4.1.6527.3.1.2.3.1 |
The vRtrConfTable has an entry for each virtual router configured in the system. |
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1.3.6.1.4.1.6527.3.1.2.3.1.1 |
Each row entry represents a virtual router in the system. Entries can be created and deleted via SNMP SET operations. Creation requires a SET request containing vRtrRowStatus, vRtrName and vRtrType. Note that rows in this table are usually created by the agent itself as a side affect of some other configuration; for example, when a service vprn is created by setting the appropriate objects in the TIMETRA-SERV-MIB. There will always be at least two row entries in this table, one of these entries represents the base or transport router and the other represents the management router. These entries are created when the system is initialized and can never be deleted. |
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vRtrID | 1.3.6.1.4.1.6527.3.1.2.3.1.1.1 |
The unique value which identifies this virtual router in the Tmnx system. The vRtrID value for each virtual router must remain constant at least from one re-initialization of the system management processor (CPM) to the next. There will always be at least one router entry defined by the agent with vRtrID=1 which represents the transport router. |
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vRtrRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.2 |
The row status. The creation or deletion of a virtual router entry causes creation or deletion of corresponding entries in other Tmnx MIB tables with the same vRtrID value. Note that it is not allowed to destroy the row entry for vRtrID = 1. In order for row creation to succeed, values for vRtrName and vRtrType must be included in the same SNMP SET PDU as vRtrRowStatus. |
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vRtrAdminState | 1.3.6.1.4.1.6527.3.1.2.3.1.1.3 |
The desired administrative state for this virtual router. Note that it is not allowed to set vRtrAdminState to outOfService for the row entry with vRtrID = 1. |
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vRtrName | 1.3.6.1.4.1.6527.3.1.2.3.1.1.4 |
The administritive name for this virtual router. The router name must be unique among all virtual routers in the system. For row creation to succeed a value must be specified for vRtrName. When a row is created in the vRtrConfTable for a service vprn (i.e. when vRtrType is set to vprn), the agent automatically assigns the name vprn<service-id>. |
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vRtrMaxNumRoutes | 1.3.6.1.4.1.6527.3.1.2.3.1.1.5 |
The maximum number of routes that can be configured on this virtual router. If the value is -1, then there is no limit. |
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vRtrBgpStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.6 |
The desired state for BGP on this virtual router. An attempt to set vRtrBgpStatus to delete will fail if the BGP protocol is not in the administrative outOfService state. |
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vRtrMplsStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.7 |
The desired state for MPLS on this virtual router. An attempt to set vRtrMplsStatus to delete will fail if the MPLS protocol is not in the administrative outOfService state, i.e. TIMETRA-MPLS-MIB::vRtrMplsGeneralAdminState must be set to outOfService. |
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vRtrOspfStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.8 |
The desired state for OSPFv2 on this virtual router. An attempt to set vRtrOspfStatus to delete will fail if the OSPFv2 protocol is not in the administrative outOfService state, i.e. TIMETRA-OSPF-NG-MIB::tmnxOspfAdminState must be set to disabled. This object was obsoleted in release 5.0. |
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vRtrRipStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.9 |
The desired state for RIP on this virtual router. An attempt to set vRtrRipStatus to delete will fail if the RIP protocol is not in the admininistrative outOfService state. |
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vRtrRsvpStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.10 |
The desired state for RSVP on this virtual router. An attempt to set vRtrRsvpStatus to delete will fail if the RSVP protocol is not in the administrative outOfService state, i.e. TIMETRA-RSVP-MIB::vRtrRsvpGeneralAdminState must be set to outOfService. |
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vRtrEcmpMaxRoutes | 1.3.6.1.4.1.6527.3.1.2.3.1.1.11 |
The value of vRtrEcmpMaxRoutes specifies the maximum number of equal cost routes allowed on this routing table instance. When the number ecmp routes available at the best preference value exceed the number of vRtrEcmpMaxRoutes allowed, then the lowest next-hop IP address algorithm is used to select the ecmp routes used. When vRtrEcmpMaxRoutes is set to zero (0), and multiple routes are available with the same best preference value and equal cost values, then the route with the lowest next-hop IP address is used. |
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vRtrAS | 1.3.6.1.4.1.6527.3.1.2.3.1.1.12 |
The value of vRtrAS specifies the autonomous system number to be advertised to this peer. This object is MUST be set before BGP can be activated. This object was obsoleted in release 7.0. It is replaced with the 4-byte AS number defined by vRtrAS4Byte. |
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vRtrNewIfIndex | 1.3.6.1.4.1.6527.3.1.2.3.1.1.13 |
This object is used to assign values to vRtrIfIndex as described in Textual Conventions for SNMPv2. The network manager reads the object, and then writes the value back in the SET request that creates a new instance of vRtrIfEntry. If the SET fails with the code inconsistentValue, then the process must be repeated. If the the SET succeeds, then the object is incremented and the new instance is created according to the managers directions. |
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vRtrLdpStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.14 |
The desired state for LDP on this virtual router. An attempt to set vRtrLdpStatus to delete will fail if the LDP protocol is not in the administrative outOfService state, i.e. TIMETRA-LDP-MIB::vRtrLdpGenAdminState must be set to outOfService. |
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vRtrIsIsStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.15 |
The desired state for ISIS on this virtual router. An attempt to set vRtrIsIsStatus to delete will fail if the ISIS protocol is not in the administrative outOfService state. |
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vRtrRouterId | 1.3.6.1.4.1.6527.3.1.2.3.1.1.16 |
A 32-bit integer uniquely identifying the router in the Autonomous System. By convention, to ensure uniqueness, this should default to the value of one of the routers IP interface addresses. |
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vRtrTriggeredPolicy | 1.3.6.1.4.1.6527.3.1.2.3.1.1.17 |
If the value of vRtrTriggeredPolicy is false, all routing protocols automatically reevaluate their routes when the route policies are changed. If this value is true, then the user must trigger the recalculation of routes when the route policies are changed. |
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vRtrConfederationAS | 1.3.6.1.4.1.6527.3.1.2.3.1.1.18 |
The value of vRtrConfederationAS specifies the confederation AS number for the virtual router. A value of 0 means no confederation AS. This object was obsoleted in release 7.0. It is replaced with the 4-byte AS number defined by vRtrConfederationAS4Byte. |
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vRtrRouteDistinguisher | 1.3.6.1.4.1.6527.3.1.2.3.1.1.19 |
The value of vRtrRouteDistinguisher is an identifier attached to routes that distinguishes to which VPN it belongs. The VPRN cannot be operationally inService until a route distinguisher has been assigned. |
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vRtrMidRouteThreshold | 1.3.6.1.4.1.6527.3.1.2.3.1.1.20 |
The value of vRtrMidRouteThreshold specifies the mid-level water marker for the number of routes which this VRF may hold. When this limit is exceeded a tmnxVRtrMidRouteTCA notification is generated. A value of 0 (zero) for this object indicates that the threshold is infinite, and the notification will never be sent. |
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vRtrHighRouteThreshold | 1.3.6.1.4.1.6527.3.1.2.3.1.1.21 |
The value of vRtrHighRouteThreshold specifies the high-level water marker for the number of routes which this VRF may hold. When this limit is exceeded a tmnxVRtrHighRouteTCA notification is generated. A value of 0 (zero) for this object indicates that the threshold is infinite, and the notification will never be sent. |
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vRtrIllegalLabelThreshold | 1.3.6.1.4.1.6527.3.1.2.3.1.1.22 |
The value of vRtrIllegalLabelThreshold specifies the allowed limit for illegal label violations on this VRF. When this limit is exceeded a tmnxVRtrIllegalLabelTCA notification is generated. A value of 0 (zero) for this object indicates that the threshold is infinite, and the notification will never be sent. |
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vRtrVpnId | 1.3.6.1.4.1.6527.3.1.2.3.1.1.23 |
The value of vRtrVpnId is the Virtual Private Network Identifier of this virtual router. |
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vRtrDescription | 1.3.6.1.4.1.6527.3.1.2.3.1.1.25 |
The value of vRtrDescription is a user provided description string for this virtual router. It can consist of any printable, seven-bit ASCII characters up to 80 characters in length. |
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vRtrGracefulRestart | 1.3.6.1.4.1.6527.3.1.2.3.1.1.26 |
The value of vRtrGracefulRestart indicates whether or not graceful restart capabilities are enabled on this virtual router. In order for any protocol to perform graceful restart vRtrGracefulRestart must have a value of true. Graceful restart capabilities can then be enabled or disabled on an individual protocol basis. |
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vRtrGracefulRestartType | 1.3.6.1.4.1.6527.3.1.2.3.1.1.27 |
The value of vRtrGracefulRestartType specifies when to include grace restart of routing protocols as a result of a switchover from primary CPM in a redundant system. never - always switch without graceful restart manual - perform graceful restart only on a forced switchover automatic - perform graceful restart on either a switchover caused by an error or a forced switchover |
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vRtrType | 1.3.6.1.4.1.6527.3.1.2.3.1.1.28 |
The value of vRtrType specifies the type of virtual router represented by this row entry. When a row is created in this table using createAndGo, vRtrType must be specified or the row creation will fail. Only the value of vr (3) can be set with a SNMP SET request. The other values are used for row entries created internally by the agent. The value of vRtrType cannot be modified if vRtrRowStatus has a value of active. |
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vRtrServiceId | 1.3.6.1.4.1.6527.3.1.2.3.1.1.29 |
When vRtrType has a value of vprn, the value of vRtrServiceId indicates the service-id of the associated service that created this row entry. |
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vRtrCustId | 1.3.6.1.4.1.6527.3.1.2.3.1.1.30 |
When vRtrType has a value of vprn, the value of vRtrCustId indicates the customer-id of the associated service that created this row entry. |
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vRtrIgmpStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.31 |
The desired state for IGMP on this virtual router. An attempt to set vRtrIgmpStatus to delete will fail if the IGMP protocol is not in the administrative outOfService state, i.e. TIMETRA-IGMP-MIB::vRtrIgmpGenAdminState must be set to outOfService. |
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vRtrMaxNumRoutesLogOnly | 1.3.6.1.4.1.6527.3.1.2.3.1.1.32 |
The value of vRtrMaxNumRoutesLogOnly specifies the action to be taken when the maximum number of routes that can be held within a given VRF context is reached. If the value is true the event is logged (a trap is sent) and the learning of new routes is not disabled. If the value is false the event is logged and the learning of new routes is disabled. |
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vRtrVrfTarget | 1.3.6.1.4.1.6527.3.1.2.3.1.1.33 |
The value of vRtrVrfTarget specifies the extended community name for the default vrf-import or vrf-export policy to use for the vRtrID if no entries are configured in the vRtrPolicyTable for this vRtrID instance. This object can not be set if either vRtrVrfExportTarget or vRtrVrfImportTarget has been set. |
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vRtrVrfExportTarget | 1.3.6.1.4.1.6527.3.1.2.3.1.1.34 |
The value of vRtrVrfExportTarget specifies the extended community name for the default vrf-export policy to use for the vRtrID if no entries are configured in the vRtrPolicyTable for this vRtrID instance. This object can not be set if vRtrVrfTarget has been set. |
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vRtrVrfImportTarget | 1.3.6.1.4.1.6527.3.1.2.3.1.1.35 |
The value of vRtrVrfImportTarget specifies the extended community name for the default vrf-import policy to use for the vRtrID if no entries are configured in the vRtrPolicyTable for this vRtrID instance. This object can not be set if vRtrVrfTarget has been set. |
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vRtrPimStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.36 |
The desired state for PIM on this virtual router. When the object is set to create, PIM protocol instance is enabled on the virtual router. Setting the value to delete disables PIM on the virtual router. |
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vRtrMaxMcastNumRoutes | 1.3.6.1.4.1.6527.3.1.2.3.1.1.37 |
The maximum number of multicast routes that can be configured on this virtual router. If the value is -1, then there is no limit. |
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vRtrMaxMcastNumRoutesLogOnly | 1.3.6.1.4.1.6527.3.1.2.3.1.1.38 |
The value of vRtrMaxMcastNumRoutesLogOnly specifies the action to be taken when the maximum number of multicast routes that can be held within a given VRF context is reached. If the value is true the event is logged (a trap is sent) and the learning of new multicast routes is not disabled. If the value is false the event is logged and the learning of new routes is disabled. |
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vRtrMcastMidRouteThreshold | 1.3.6.1.4.1.6527.3.1.2.3.1.1.39 |
The value of vRtrMcastMidRouteThreshold specifies the mid-level water marker for the number of multicast routes which this VRF may hold. When this limit is exceeded a tmnxVRtrMcastMidRouteTCA notification is generated. A value of 0 (zero) for this object indicates that the threshold is infinite, and the notification will never be sent. |
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vRtrIgnoreIcmpRedirect | 1.3.6.1.4.1.6527.3.1.2.3.1.1.40 |
If the value of vRtrIgnoreIcmpRedirect is true, the virtual router will drop all ICMP Redirects received on the management interface. If the value of vRtrIgnoreIcmpRedirect is false and an ICMP Redirect is received on the management interface, a /32 route will be created in the route table. If the value of vRtrName is not management, an SNMP set request to vRtrIgnoreIcmpRedirect will fail with an inconsistentValue error. |
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vRtrOspfv3Status | 1.3.6.1.4.1.6527.3.1.2.3.1.1.41 |
The desired state for OSPFv3 on this virtual router. An attempt to set vRtrOspfv3Status to delete will fail if the OSPFv3 protocol is not in the administrative outOfService state, i.e. TIMETRA-OSPF-NG-MIB::tmnxOspfAdminState must be set to disabled. This object was obsoleted in release 5.0. |
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vRtrMsdpStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.42 |
The desired state for Msdp on this virtual router. An attempt to set vRtrMsdpStatus to delete will fail if the Msdp protocol is not in the administrative outOfService state, i.e. TIMETRA-MSDP-MIB::tmnxMsdpAdminState must be set to outOfService. |
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vRtrVprnType | 1.3.6.1.4.1.6527.3.1.2.3.1.1.43 |
The value of vRtrVprnType specifies how traffic is routed. regular (1) - All traffic is routed to all destinations. hub (2) - Network traffic is routed only to the access side. Access traffic is routed to all destinations. spoke (3) - Networks traffic is routed to all destinations. Access traffic is routed only to the network side. subscriberSplitHorizon (4) - Subscriber-interface traffic is routed only to the network side. All other traffic is routed to all destinations. This object cannot be modified if vRtrType is not vprn. |
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vRtrSecondaryVrfId | 1.3.6.1.4.1.6527.3.1.2.3.1.1.44 |
The unique value of vRtrSecondaryVrfId specifies the secondary vrf-id for hub and spoke vprn. Non-zero value of vRtrSecondaryVrfId indicates that two route-tables exist for hub and spoke vprn system one each for hub and spoke. One of which is indexed by vRtrSecondaryVrfId. If the value of vRtrSecondaryVrfId is zero, it indicates that there is only one route-table for hub and spoke vprn system. |
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vRtrMldStatus | 1.3.6.1.4.1.6527.3.1.2.3.1.1.45 |
The desired state for Multicast Listener Discovery (MLD) Protocol on this virtual router. An attempt to set vRtrMldStatus to delete will fail if the MLD protocol is not in the administrative outOfService state, i.e. TIMETRA-MLD-MIB::vRtrMldGenAdminState must be set to outOfService. |
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vRtrIPv6MaxNumRoutes | 1.3.6.1.4.1.6527.3.1.2.3.1.1.46 |
The maximum number of IPv6 routes that can be configured on this virtual router. If the value is -1, then there is no limit. This object is not supported on SR-1, where the value of TIMETRA-CHASSIS-MIB::tmnxChassisType is 5. |
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vRtrIPv6MidRouteThreshold | 1.3.6.1.4.1.6527.3.1.2.3.1.1.47 |
The value of vRtrIPv6MidRouteThreshold specifies the mid-level water marker for the number of IPv6 routes which this VRF may hold. When this limit is exceeded a tmnxVRtrIPv6MidRouteTCA notification is generated. A value of 0 (zero) for this object indicates that the threshold is infinite, and the notification will never be sent. |
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vRtrIPv6HighRouteThreshold | 1.3.6.1.4.1.6527.3.1.2.3.1.1.48 |
The value of vRtrIPv6HighRouteThreshold specifies the high-level water marker for the number of IPv6 routes which this VRF may hold. When this limit is exceeded a tmnxVRtrIPv6HighRouteTCA notification is generated. A value of 0 (zero) for this object indicates that the threshold is infinite, and the notification will never be sent. |
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vRtrIPv6MaxNumRoutesLogOnly | 1.3.6.1.4.1.6527.3.1.2.3.1.1.49 |
The value of vRtrIPv6MaxNumRoutesLogOnly specifies the action to be taken when the maximum number of IPv6 routes that can be held within a given VRF context is reached. If the value is true the event is logged (a trap is sent) and the learning of new routes is not disabled. If the value is false the event is logged and the learning of new routes is disabled. |
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vRtrIPv6IgnoreIcmpRedirect | 1.3.6.1.4.1.6527.3.1.2.3.1.1.50 |
If the value of vRtrIPv6IgnoreIcmpRedirect is true, the virtual router will drop all IPv6 ICMP Redirects received on the management interface. If the value of vRtrIPv6IgnoreIcmpRedirect is false and an IPv6 ICMP Redirect is received on the management interface, a /128 route will be created in the route table. If the value of vRtrName is not management, an SNMP set request to vRtrIPv6IgnoreIcmpRedirect will fail with an inconsistentValue error. |
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vRtrMcPathMgmtPlcyName | 1.3.6.1.4.1.6527.3.1.2.3.1.1.51 |
The value of vRtrMcPathMgmtPlcyName specifies the multicast policy name configured on this virtual router. |
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vRtrIgnoreNextHopMetric | 1.3.6.1.4.1.6527.3.1.2.3.1.1.52 |
The value of vRtrIgnoreNextHopMetric specifies whether next-hop metric should be ignored when computing ECMP paths for VPRN routes. |
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vRtrMvpnVrfTarget | 1.3.6.1.4.1.6527.3.1.2.3.1.1.53 |
The value of vRtrMvpnVrfTarget specifies the extended community name for the Multicast VPN (MVPN) vrf-import or vrf-export policy to use for the vRtrID if no entries are configured in the vRtrPolicyTable for this vRtrID instance. This object can not be set if either vRtrMvpnVrfExportTarget or vRtrMvpnVrfImportTarget has been set. |
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vRtrMvpnVrfExportTarget | 1.3.6.1.4.1.6527.3.1.2.3.1.1.54 |
The value of vRtrMvpnVrfExportTarget specifies the extended community name for the Multicast VPN (MVPN) vrf-export policy to use for the vRtrID if no entries are configured in the vRtrPolicyTable for this vRtrID instance. This object can not be set if vRtrMvpnVrfTarget has been set. |
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vRtrMvpnVrfImportTarget | 1.3.6.1.4.1.6527.3.1.2.3.1.1.55 |
The value of vRtrMvpnVrfImportTarget specifies the extended community name for the Multicast VPN (MVPN) vrf-import policy to use for the vRtrID if no entries are configured in the vRtrPolicyTable for this vRtrID instance. This object can not be set if vRtrMvpnVrfTarget has been set. |
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vRtrMvpnVrfTargetUnicast | 1.3.6.1.4.1.6527.3.1.2.3.1.1.56 |
The value of vRtrMvpnVrfTargetUnicast specifies whether unicast vrf-target extended community is used for the Multicast VPN (MVPN) as well. If the value is true, vRtrVrfTarget extended community is used for MVPN. If the value is false, vRtrMvpnVrfTarget extended community is used for MVPN. |
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vRtrMvpnVrfExportTargetUnicast | 1.3.6.1.4.1.6527.3.1.2.3.1.1.57 |
The value of vRtrMvpnVrfExportTargetUnicast specifies whether unicast vrf-target import extended community is used for the Multicast VPN (MVPN) as well. If the value is true, vRtrVrfExportTarget extended community is used for MVPN. If the value is false, vRtrMvpnVrfExportTarget extended community is used for MVPN. |
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vRtrMvpnVrfImportTargetUnicast | 1.3.6.1.4.1.6527.3.1.2.3.1.1.58 |
The value of vRtrMvpnVrfImportTargetUnicast specifies whether unicast vrf-target export extended community is used for the Multicast VPN (MVPN) as well. If the value is true, vRtrVrfImportTarget extended community is used for MVPN. If the value is false, vRtrMvpnVrfImportTarget extended community is used for MVPN. |
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vRtrAS4Byte | 1.3.6.1.4.1.6527.3.1.2.3.1.1.59 |
The value of vRtrAS4Byte specifies the autonomous system number to be advertised to this peer. This object MUST be set before BGP can be activated. |
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vRtrConfederationAS4Byte | 1.3.6.1.4.1.6527.3.1.2.3.1.1.60 |
The value of vRtrConfederationAS4Byte specifies the confederation AS number for the virtual router. A value of 0 means no confederation AS. |
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vRtrMvpnCMcastImportRT | 1.3.6.1.4.1.6527.3.1.2.3.1.1.61 |
The value of vRtrMvpnCMcastImportRT indicates C-multicast Import Route that uniquely identifies a VRF. vRtrMvpnCMcastImportRT controls imports of C-multicast routes into a particular VRF. A PE that has sites of a given MVPN connected to it needs to communicate the value of the C-multicast Import RT associated with the VRF of that MVPN on the PE to all other PEs that have sites of that MVPN. A PE that originates a (unicast) route to VPN-IP addresses must include in the BGP Update message the value of the C-multicast Import RT of the VRF associated with the route. |
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vRtrInterASMvpn | 1.3.6.1.4.1.6527.3.1.2.3.1.1.64 |
When the object vRtrType has a value of vprn, the value of vRtrInterASMvpn indicates whether the VPRN service is used for inter-AS MVPN or not. If the value of the object is true, it indicates that the vprn service is used for inter-AS MVPN only. If the value of the object is false, it indicates that the vprn service is not used for inter-AS MVPN. |
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vRtrStatTable | 1.3.6.1.4.1.6527.3.1.2.3.2 |
The vRtrStatTable has an entry for each virtual router configured in the system. |
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1.3.6.1.4.1.6527.3.1.2.3.2.1 |
Each row entry represents a collection of statistics for a virtual router in the system. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrOperState | 1.3.6.1.4.1.6527.3.1.2.3.2.1.1 |
vRtrOperState indicates current operational status of this virtual router. |
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vRtrDirectRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.2 |
vRtrDirectRoutes indicates the current number of direct routes for this instance of the route table. |
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vRtrDirectActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.3 |
vRtrDirectActiveRoutes indicates the current number of active direct routes for this instance of the route table. |
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vRtrStaticRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.4 |
vRtrStaticRoutes indicates the current number of static routes for this instance of the route table. |
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vRtrStaticActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.5 |
vRtrStaticActiveRoutes indicates the current number of active static routes for this instance of the route table. |
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vRtrOSPFRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.6 |
vRtrOSPFRoutes indicates the current number of ospf routes for this instance of the route table. |
||
vRtrOSPFActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.7 |
vRtrOSPFActiveRoutes indicates the current number of active ospf routes for this instance of the route table. |
||
vRtrBGPRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.8 |
vRtrBGPRoutes indicates the current number of bgp routes for this instance of the route table. |
||
vRtrBGPActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.9 |
vRtrBGPActiveRoutes indicates the current number of active bgp routes for this instance of the route table. |
||
vRtrISISRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.10 |
vRtrISISRoutes indicates the current number of isis routes for this instance of the route table. |
||
vRtrISISActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.11 |
vRtrISISActiveRoutes indicates the current number of active isis routes for this instance of the route table. |
||
vRtrRIPRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.12 |
vRtrRIPRoutes indicates the current number of rip routes for this instance of the route table. |
||
vRtrRIPActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.13 |
vRtrRIPActiveRoutes indicates the current number of active rip routes for this instance of the route table. |
||
vRtrAggregateRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.14 |
vRtrAggregateRoutes indicates the current number of aggregate routes for this instance of the route table. |
||
vRtrAggregateActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.15 |
vRtrAggregateActiveRoutes indicates the current number of active aggregate routes for this instance of the route table. |
||
vRtrStatConfiguredIfs | 1.3.6.1.4.1.6527.3.1.2.3.2.1.16 |
vRtrStatConfiguredIfs indicates the current number of router interfaces configured on this virtual router. |
||
vRtrStatActiveIfs | 1.3.6.1.4.1.6527.3.1.2.3.2.1.17 |
vRtrStatActiveIfs indicates the current number of router interfaces with vRtrIfAdminState equal inService on this virtual router. |
||
vRtrStatIllegalLabels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.18 |
vRtrStatIllegalLabels indicates the number of illegally received labels on this virtual router. |
||
vRtrStatCurrNumRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.19 |
vRtrStatCurrNumRoutes indicates the current number of routes in the VRF for this virtual router. |
||
vRtrStatBGPVpnRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.20 |
vRtrStatBGPVpnRoutes indicates the current number of VPN-IPV4 routes learned by MP-BGP for this virtual router. |
||
vRtrStatBGPVpnActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.21 |
vRtrStatBGPVpnActiveRoutes indicates the current number of active VPN-IPV4 routes learned by MP-BGP for this virtual router. |
||
vRtrStatTotalLdpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.22 |
vRtrStatTotalLdpTunnels indicates the current number of both active and inactive LDP tunnels. |
||
vRtrStatTotalSdpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.23 |
vRtrStatTotalSdpTunnels indicates the current number of both active and inactive SDP tunnels. |
||
vRtrStatActiveLdpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.24 |
vRtrStatActiveLdpTunnels indicates the current number of rows in the vRtrTunnelTable where vRtrTunnelType has a value of ldp. |
||
vRtrStatActiveSdpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.25 |
vRtrStatActiveSdpTunnels indicates the current number of rows in the vRtrTunnelTable where vRtrTunnelType has a value of sdp. |
||
vRtrMulticastRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.26 |
vRtrMulticastRoutes indicates the current number of rows in the vRtrPimNgGrpSrcTable. |
||
vRtrStatActiveARPEntries | 1.3.6.1.4.1.6527.3.1.2.3.2.1.27 |
vRtrStatActiveARPEntries indicates the number of active ARP entries for the specified virtual router in the system. |
||
vRtrStatTotalARPEntries | 1.3.6.1.4.1.6527.3.1.2.3.2.1.28 |
vRtrStatTotalARPEntries indicates the total number of active and inactive ARP entries for the specified virtual router in the system. |
||
vRtrV6DirectRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.29 |
vRtrV6DirectRoutes indicates the current number of v6 direct routes for this instance of the route table. |
||
vRtrV6DirectActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.30 |
vRtrV6DirectActiveRoutes indicates the current number of v6 active direct routes for this instance of the route table. |
||
vRtrV6StaticRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.31 |
vRtrV6StaticRoutes indicates the current number of v6 static routes for this instance of the route table. |
||
vRtrV6StaticActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.32 |
vRtrV6StaticActiveRoutes indicates the current number of v6 active static routes for this instance of the route table. |
||
vRtrV6OSPFRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.33 |
vRtrV6OSPFRoutes indicates the current number of v6 ospf routes for this instance of the route table. |
||
vRtrV6OSPFActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.34 |
vRtrV6OSPFActiveRoutes indicates the current number of v6 active ospf routes for this instance of the route table. |
||
vRtrV6BGPRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.35 |
vRtrV6BGPRoutes indicates the current number of v6 bgp routes for this instance of the route table. |
||
vRtrV6BGPActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.36 |
vRtrV6BGPActiveRoutes indicates the current number of v6 active bgp routes for this instance of the route table. |
||
vRtrV6ISISRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.37 |
vRtrV6ISISRoutes indicates the current number of v6 isis routes for this instance of the route table. |
||
vRtrV6ISISActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.38 |
vRtrV6ISISActiveRoutes indicates the current number of v6 active isis routes for this instance of the route table. |
||
vRtrV6RIPRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.39 |
vRtrV6RIPRoutes indicates the current number of v6 rip routes for this instance of the route table. |
||
vRtrV6RIPActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.40 |
vRtrV6RIPActiveRoutes indicates the current number of active v6 rip routes for this instance of the route table. |
||
vRtrV6AggregateRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.41 |
vRtrV6AggregateRoutes indicates the current number of v6 aggregate routes for this instance of the route table. |
||
vRtrV6AggregateActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.42 |
vRtrV6AggregateActiveRoutes indicates the current number of active v6 aggregate routes for this instance of the route table. |
||
vRtrV6StatConfiguredIfs | 1.3.6.1.4.1.6527.3.1.2.3.2.1.43 |
vRtrV6StatConfiguredIfs indicates the current number of v6 router interfaces configured on this virtual router. |
||
vRtrV6StatActiveIfs | 1.3.6.1.4.1.6527.3.1.2.3.2.1.44 |
vRtrV6StatActiveIfs indicates the current number of v6 router interfaces with vRtrIfAdminState equal inService on this virtual router. |
||
vRtrV6StatIllegalLabels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.45 |
vRtrV6StatIllegalLabels indicates the number of illegally received v6 labels on this virtual router. |
||
vRtrV6StatCurrNumRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.46 |
vRtrV6StatCurrNumRoutes indicates the current number of v6 routes in the VRF for this virtual router. |
||
vRtrV6StatBGPVpnRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.47 |
vRtrV6StatBGPVpnRoutes indicates the current number of VPN-IPV6 routes learned by MP-BGP for this virtual router. |
||
vRtrV6StatBGPVpnActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.48 |
vRtrV6StatBGPVpnActiveRoutes indicates the current number of active VPN-IPV6 routes learned by MP-BGP for this virtual router. |
||
vRtrV6StatTotalLdpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.49 |
vRtrV6StatTotalLdpTunnels indicates the current number of both active and inactive v6 LDP tunnels. |
||
vRtrV6StatTotalSdpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.50 |
vRtrV6StatTotalSdpTunnels indicates the current number of both active and inactive v6 SDP tunnels. |
||
vRtrV6StatActiveLdpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.51 |
vRtrV6StatActiveLdpTunnels indicates the current number of v6 rows in the vRtrTunnelTable where vRtrTunnelType has a value of ldp. |
||
vRtrV6StatActiveSdpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.52 |
vRtrV6StatActiveSdpTunnels indicates the current number of v6 rows in the vRtrTunnelTable where vRtrTunnelType has a value of sdp. |
||
vRtrV6MulticastRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.53 |
vRtrV6MulticastRoutes indicates the current number of v6 rows in the vRtrPimNgGrpSrcTable. |
||
vRtrV6StatActiveNbrEntries | 1.3.6.1.4.1.6527.3.1.2.3.2.1.54 |
vRtrV6StatActiveNbrEntries indicates the number of active V6 neighbor discovery entries for the specified virtual router in the system. |
||
vRtrV6StatTotalNbrEntries | 1.3.6.1.4.1.6527.3.1.2.3.2.1.55 |
vRtrV6StatTotalNbrEntries indicates the total number of active and inactive v6 neighbor discovery entries for the specified virtual router in the system. |
||
vRtrSubMgmtRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.56 |
The value of vRtrSubMgmtRoutes indicates the total number of subscriber management routes in the route Table. |
||
vRtrSubMgmtActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.57 |
The value of vRtrSubMgmtActiveRoutes indicates the number of active subscriber management routes. |
||
vRtrStatTotalRsvpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.58 |
The value of vRtrStatTotalRsvpTunnels indicates the current number of both active and inactive RSVP tunnels. |
||
vRtrStatActiveRsvpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.59 |
The value of vRtrStatActiveRsvpTunnels indicates the current number of rows in the vRtrTunnelTable where vRtrTunnelType has a value of rsvp. |
||
vRtrV6StatTotalRsvpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.60 |
The value of vRtrV6StatTotalRsvpTunnels indicates the current number of both active and inactive IPv6 RSVP tunnels. |
||
vRtrV6StatActiveRsvpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.61 |
The value of vRtrV6StatActiveRsvpTunnels indicates the current number of IPv6 rows in the vRtrTunnelTable where vRtrTunnelType has a value of rsvp. |
||
vRtrHostRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.62 |
The value of vRtrHostRoutes indicates the current number of direct routes with prefix value 32 for this instance of the route table. |
||
vRtrHostActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.63 |
The value of vRtrHostActiveRoutes indicates the current number of active direct routes with prefix value 32 for this instance of the route table. |
||
vRtrV6HostRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.64 |
The value of vRtrV6HostRoutes indicates the current number of v6 direct routes with prefix value 128 for this instance of the route table. |
||
vRtrV6HostActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.65 |
The value of vRtrV6HostActiveRoutes indicates the current number of v6 active direct routes with prefix value 128 for this instance of the route table. |
||
vRtrStatLocalARPEntries | 1.3.6.1.4.1.6527.3.1.2.3.2.1.66 |
The value of vRtrStatLocalARPEntries indicates the total number of active and inactive local ARP entries for the specified virtual router in the system. |
||
vRtrStatStaticARPEntries | 1.3.6.1.4.1.6527.3.1.2.3.2.1.67 |
The value of vRtrStatStaticARPEntries indicates the total number of active and inactive static ARP entries for the specified virtual router in the system. |
||
vRtrStatDynamicARPEntries | 1.3.6.1.4.1.6527.3.1.2.3.2.1.68 |
The value of vRtrStatDynamicARPEntries indicates the total number of active and inactive dynamic ARP entries for the specified virtual router in the system. |
||
vRtrStatManagedARPEntries | 1.3.6.1.4.1.6527.3.1.2.3.2.1.69 |
The value of vRtrStatManagedARPEntries indicates the total number of active and inactive managed ARP entries for the specified virtual router in the system. |
||
vRtrStatInternalARPEntries | 1.3.6.1.4.1.6527.3.1.2.3.2.1.70 |
The value of vRtrStatInternalARPEntries indicates the total number of active and inactive internal ARP entries for the specified virtual router in the system. |
||
vRtrManagedRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.71 |
The value of vRtrManagedRoutes indicates the total number of active and inactive managed routes for the specified virtual router in the system. |
||
vRtrManagedActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.72 |
The value of vRtrManagedActiveRoutes indicates the total number of active managed routes for the specified virtual router in the system. |
||
vRtrLDPRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.73 |
vRtrLDPRoutes indicates the current number of ldp routes for this instance of the route table. |
||
vRtrLDPActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.74 |
vRtrLDPActiveRoutes indicates the current number of active ldp routes for this instance of the route table. |
||
vRtrVPNLeakRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.75 |
vRtrVPNLeakRoutes indicates the current number of VPN Leak routes for this instance of the route table. |
||
vRtrVPNLeakActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.76 |
vRtrVPNLeakActiveRoutes indicates the current number of active VPN Leak routes for this instance of the route table. |
||
vRtrV6VPNLeakRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.77 |
vRtrV6VPNLeakRoutes indicates the current number of v6 VPN Leak routes for this instance of the route table. |
||
vRtrV6VPNLeakActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.78 |
vRtrV6VPNLeakActiveRoutes indicates the current number of v6 active VPN Leak routes for this instance of the route table. |
||
vRtrV6SubMgmtRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.79 |
vRtrV6SubMgmtRoutes indicates the current number of v6 subscriber management routes for this instance of the route table. |
||
vRtrV6SubMgmtActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.80 |
vRtrV6SubMgmtActiveRoutes indicates the current number of v6 active subscriber management routes for this instance of the route table. |
||
vRtrMobileHostRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.81 |
The value of vRtrMobileHostRoutes indicates the current number of IPv4 Mobile Host routes for this instance of the route table. |
||
vRtrMobileHostActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.82 |
The value of vRtrMobileHostActiveRoutes indicates the current number of IPv4 active Mobile Host routes for this instance of the route table. |
||
vRtrV6MobileHostRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.83 |
The value of vRtrV6MobileHostRoutes indicates the current number of IPv6 Mobile Host routes for this instance of the route table. |
||
vRtrV6MobileHostActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.84 |
The value of vRtrV6MobileHostActiveRoutes indicates the current number of IPv6 active Mobile Host routes for this instance of the route table. |
||
vRtrStatTotalBgpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.85 |
vRtrStatTotalBgpTunnels indicates the current number of both active and inactive BGP tunnels. |
||
vRtrStatActiveBgpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.86 |
vRtrStatActiveBgpTunnels indicates the current number of rows in the vRtrTunnelTable where vRtrTunnelType has a value of bgp. |
||
vRtrNatRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.87 |
The value of vRtrNatRoutes indicates the current number of IPv4 NAT (Network Address Translation) routes for this instance of the route table. |
||
vRtrNatActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.88 |
The value of vRtrNatActiveRoutes indicates the current number of IPv4 NAT routes for this instance of the route table. |
||
vRtrV6NatRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.89 |
The value of vRtrV6NatRoutes indicates the current number of IPv6 NAT routes for this instance of the route table. |
||
vRtrV6NatActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.90 |
The value of vRtrV6NatActiveRoutes indicates the current number of IPv6 active NAT routes for this instance of the route table. |
||
vRtrPeriodicRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.91 |
The value of vRtrPeriodicRoutes indicates the current number of periodic routes for this instance of the route table. |
||
vRtrPeriodicActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.92 |
The value of vRtrPeriodicActiveRoutes indicates the current number of active periodic routes for this instance of the route table. |
||
vRtrV6PeriodicRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.93 |
The value of vRtrV6PeriodicRoutes indicates the current number of IPv6 periodic routes for this instance of the route table. |
||
vRtrV6PeriodicActiveRoutes | 1.3.6.1.4.1.6527.3.1.2.3.2.1.94 |
The value of vRtrV6PeriodicActiveRoutes indicates the current number of active IPv6 periodic routes for this instance of the route table. |
||
vRtrStatTotalMplsTpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.97 |
vRtrStatTotalMplsTpTunnels indicates the current number of both active and inactive MPLS-TP tunnels. |
||
vRtrStatActiveMplsTpTunnels | 1.3.6.1.4.1.6527.3.1.2.3.2.1.98 |
vRtrStatActiveMplsTpTunnels indicates the current number of active MPLS-TP tunnels. |
||
vRtrIfTotalNumber | 1.3.6.1.4.1.6527.3.1.2.3.3 |
The number of router interfaces configured in this system. |
||
vRtrIfTable | 1.3.6.1.4.1.6527.3.1.2.3.4 |
The vRtrIfTable has an entry for each router interface configured in the system. |
||
1.3.6.1.4.1.6527.3.1.2.3.4.1 |
Each row entry represents a virtual router interface in the system. Entries can be created and deleted via SNMP SET operations using the vRtrIfRowStatus variable. |
|||
vRtrIfIndex | 1.3.6.1.4.1.6527.3.1.2.3.4.1.1 |
The unique value which identifies this interface of this virtual router in the Tmnx system. This field provides an identifier for virtual router interfaces similar to the ifIndex values used in the mib-2 interfaces table for physical interfaces. The vRtrIfIndex values can be reused for different virtual routers, but are unique within those entries with the same vRtrID. The vRtrIfIndex value for each virtual interface must remain constant at least from one re-initialization of the system management processor to the next. |
||
vRtrIfRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.4.1.2 |
The row status. The creation or deletion of a router interface entry causes creation or deletion of corresponding entries in other Tmnx MIB tables with the same vRtrID and vRtrIfIndex values, such as the vRtrIpAddrTable. The router interface is associated to a physical port interface through the vRtrIfPortID and vRtrIfEncapValue variables. The RowStatus cannot be SET to active unless vRtrIfName has been initialized. |
||
vRtrIfType | 1.3.6.1.4.1.6527.3.1.2.3.4.1.3 |
The value of vRtrIfType specifies the type of this interface. Different virtual router interface types are defined as follows: network - defined on a network port. service - used internally. serviceIes - defined on a SAP or Spoke SDP. serviceRtdVpls - obsoleted. serviceVprn - defined on a SAP or Spoke SDP. serviceIesSubscriber - used internally. serviceIesGroup - defined on a SAP serviceVprnSubscriber - used internally. serviceVprnGroup - defined on a SAP. serviceIesRedundant - defined on a Spoke SDP. serviceVprnRedundant - defined on a Spoke SDP. serviceVpls - defined on an IP endpoint for VPLS. serviceIesCem - defined on a SAP. --not supported serviceVprnCem - defined on a SAP. --not supported serviceVprnIPsec - defined on a SAP. serviceVprnIPMirror - defined on a Mirror. serviceVideo - defined on a video SAP. serviceVplsVideo - defined on an IP endpoint for video interface for VPLS. multiHomingPrimary - defined for a primary interface. multiHomingSecondary - defined for a secondary interface. serviceIesTunnel - defined on a SAP. serviceIpReas - defined on a network port. networkIpReas - defined on a network port. networkVprn - network interface defined in a VPRN. tmsService - threat management service interface. serviceIesAarp - defined on an AARP (Assymetry Removal) Spoke SDP. serviceVprnAarp - defined on an AARP Spoke SDP. serviceIesAa - defined on an AA (Application Assurance) SAP. serviceVprnAa - defined on an AA SAP. unnumMplsTp - defined for an unummbered mpls tp interface. |
||
vRtrIfName | 1.3.6.1.4.1.6527.3.1.2.3.4.1.4 |
The administrative name assigned this router interface. The interface name must be unique among entries with the same vRtrID value. In order for row creation to succeed, a value must also be assigned to vRtrIfName. |
||
vRtrIfPortID | 1.3.6.1.4.1.6527.3.1.2.3.4.1.5 |
The physical port to which this interface is bound. If vRtrIfPortID is zero (0), then there is no binding between this virtual router interface and a physical port. Once an interface has been bound to a port, several steps are required to change the binding to some other TmnxPortID value. vRtrIfAdminState must be outOfService; vRtrIfPortID must be set to zero (0) to disassociate the interface from the original port binding; finally, set vRtrIfPortID to the value for the new port binding. Setting vRtrIfPortID to 0x20000001 indicates that this interface is the system interface for the device. |
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vRtrIfChannelID | 1.3.6.1.4.1.6527.3.1.2.3.4.1.6 |
When the physical port, vRtrIfPortID, is a SONET port, vRtrIfChannelID is the STSx channel number used by this interface. If vRtrIfPortID is not a SONET port or the interface has not yet been bound to a physical port, vRtrIfChannelID will be zero (0). This object was obsoleted in release 5.0. |
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vRtrIfEncapValue | 1.3.6.1.4.1.6527.3.1.2.3.4.1.7 |
The value of the label used along with vRtrIfPortID to identify a SAP on the specified access port. |
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vRtrIfAdminState | 1.3.6.1.4.1.6527.3.1.2.3.4.1.8 |
The desired administrative state for this router interface. |
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vRtrIfOperState | 1.3.6.1.4.1.6527.3.1.2.3.4.1.9 |
The current operational status of this router interface. |
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vRtrIfAlias | 1.3.6.1.4.1.6527.3.1.2.3.4.1.10 |
An alternative administrative name assigned this router interface. |
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vRtrIfPhysicalAddress | 1.3.6.1.4.1.6527.3.1.2.3.4.1.11 |
The interfaces address at its protocol sub-layer. For example, for an 802.x interface, this object normally contains a MAC address. The interfaces media-specific MIB must define the bit and byte ordering and the format of the value of this object. For interfaces which do not have such an address (e.g., a serial line), this object should contain an octet string of zero length. |
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vRtrIfArpTimeout | 1.3.6.1.4.1.6527.3.1.2.3.4.1.12 |
The value of vRtrIfArpTimeout determines how long an ARP entry associated with this interface remains in the ARP cache. When vRtrIfArpTimeout has a value of zero, 0, the entry will never be cleared from the cache. |
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vRtrIfIcmpMaskReply | 1.3.6.1.4.1.6527.3.1.2.3.4.1.13 |
When vRtrIfIcmpMaskReply is set to true, a reply will be issued when this node is requested for the network mask for this subnet. The requesting node must be attached to the local network. When vRtrIfIcmpMaskReply is set to false, no reply is issued if an ICMP mask request is received. |
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vRtrIfIcmpRedirects | 1.3.6.1.4.1.6527.3.1.2.3.4.1.14 |
When vRtrIfIcmpRedirects is set to true, ICMP redirects are generated when routes are not optimal on this router and another router on the same subnetwork has a better route in order to alert that node that a better route is available. When vRtrIfIcmpRedirects is set to false, ICMP redirects are not generated. |
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vRtrIfIcmpNumRedirects | 1.3.6.1.4.1.6527.3.1.2.3.4.1.15 |
The value of vRtrIfIcmpNumRedirects limits the number of redirects issued per the time frame specified in vRtrIfIcmpRedirectsTime. |
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vRtrIfIcmpRedirectsTime | 1.3.6.1.4.1.6527.3.1.2.3.4.1.16 |
The value of vRtrIfIcmpRedirectsTime determines the time frame in seconds that is used to limit the number of redirects issued per time frame. |
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vRtrIfIcmpUnreachables | 1.3.6.1.4.1.6527.3.1.2.3.4.1.17 |
When vRtrIfIcmpUnreachables is set to true, ICMP host and network unreachable messages are generated by this interface. When vRtrIfIcmpUnreachables is set to false, ICMP host and network unreachable messages are not sent. |
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vRtrIfIcmpNumUnreachables | 1.3.6.1.4.1.6527.3.1.2.3.4.1.18 |
The value of vRtrIfIcmpNumUnreachables determines how many destination unreachable messages are issued in the time frame specified by vRtrIfIcmpUnreachablesTime. |
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vRtrIfIcmpUnreachablesTime | 1.3.6.1.4.1.6527.3.1.2.3.4.1.19 |
The value of vRtrIfIcmpUnreachablesTime sets the time frame in seconds that is used to limit the number of destination unreachable messages issued per time frame. |
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vRtrIfIcmpTtlExpired | 1.3.6.1.4.1.6527.3.1.2.3.4.1.20 |
When vRtrIfIcmpTtlExpired is set to true, the rate that ttl-expired messages by this interface is throttled based on the values of vRtrIfIcmpNumTtlExpired and vRtrIfIcmpTtlExpiredTime. When vRtrIfIcmpTtlExpired is set to false, unlimited ttl-expired messages are sent. |
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vRtrIfIcmpNumTtlExpired | 1.3.6.1.4.1.6527.3.1.2.3.4.1.21 |
The value of vRtrIfIcmpNumTtlExpired defines how many ttl-expired messages will be issued in the time frame specified by vRtrIfIcmpTtlExpiredTime. |
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vRtrIfIcmpTtlExpiredTime | 1.3.6.1.4.1.6527.3.1.2.3.4.1.22 |
The value of vRtrIfIcmpTtlExpiredTime sets the time frame in seconds that is used to limit the number of ttl-expired messages issued by this interface with the specified time frame. |
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vRtrIfNtpBroadcast | 1.3.6.1.4.1.6527.3.1.2.3.4.1.23 |
When vRtrIfNtpBroadcast is set to true, NTP/SNTP broadcasts will be received on this interface. |
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vRtrIfUnnumbered | 1.3.6.1.4.1.6527.3.1.2.3.4.1.24 |
The IP address to be used when generating packets on this interface. This variable is complemented by vRtrIfUnnumbered. If vRtrIfUnnumberedIf is a null-string and vRtrIfUnnumbered is 0.0.0.0 it implies that no unnumbered interface is configured. At any instant only one of the two members can be non-null. A value of 255.255.255.255 implies the use of system-ip. It is strongly suggested to use the nodes system IP address as it is not associated with a particular physical interface and is therefore always reachable. |
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vRtrIfMtu | 1.3.6.1.4.1.6527.3.1.2.3.4.1.25 |
The value of vRtrIfMtu is used to reflect the MTU size of this interface in the header of an ICMP MTU exceeded message when a packet is too large to be transmitted on this interface. The default size is calculated by subtracting the DLC header size from the physical MTU size of the interface. When a SNMP SET request is received with a value of zero (0), the agent actually sets vRtrIfMtu to the calculated default size. |
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vRtrIfQosPolicyId | 1.3.6.1.4.1.6527.3.1.2.3.4.1.26 |
The value of vRtrIfQosPolicyId associates a pre-existing network-policy-id to a network interface. Packets are marked using qos policies on edge switches; invoking a qos policy on a network port allows for the packets that match the policy criteria to be remarked. If this entry indicates a service virtual router interface or the special out-of-band management interface, this object is meaningless and is not applied to the interface. This object is obsoleted in release 10.0 and replaced with object vRtrIfQosNetworkPolicyId. |
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vRtrIfIngressFilterId | 1.3.6.1.4.1.6527.3.1.2.3.4.1.27 |
The value of vRtrIfIngressFilterId associates an ip-filter-id with an ingress interface. Filters control the forwarding and dropping of packets based on IP criteria. A value of zero (0) indicates that there is no ip-filter-id associated with this interface. If this entry indicates a service virtual router interface or the special out-of-band management interface, this object is meaningless and is not applied to the interface. |
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vRtrIfEgressFilterId | 1.3.6.1.4.1.6527.3.1.2.3.4.1.28 |
The value of vRtrIfEgressFilterId associates an ip-filter-id with an egress interface. Filters control the forwarding and dropping of packets based on IP criteria. A value of zero (0) indicates that there is no ip-filter-id associated with this interface. If this entry indicates a service virtual router interface or the special out-of-band management interface, this object is meaningless and is not applied to the interface. |
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vRtrIfDirectedBroadcast | 1.3.6.1.4.1.6527.3.1.2.3.4.1.29 |
When vRtrIfDirectedBroadcast is set to true, allows broadcasts directed to this interface to be accepted. When false, directed broadcasts are dropped. This is of particular use when preventing denial of service attacks. |
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vRtrIfMplsStatus | 1.3.6.1.4.1.6527.3.1.2.3.4.1.30 |
Setting this variable to create causes this interface to be used with MPLS. It also causes a row to be created in the vRtrMplsIfTable. Setting it to delete removes the interface from MPLS and causes the corresponding row in the vRtrMplsIfTable to be removed. However, an attempt to set vRtrIfMplsStatus to delete will fail if MPLS activity on this interface is not administratively in the outOfService state, i.e. vRtrMplsIfAdminState of the vRtrMplsIfTable must be set to outOfService. |
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vRtrIfUnnumberedIf | 1.3.6.1.4.1.6527.3.1.2.3.4.1.31 |
The name of the interface to which this unnumbered interface will refer to. This variable is complemented by vRtrIfUnnumbered. If vRtrIfUnnumberedIf is a null-string and vRtrIfUnnumbered is 0 it implies that no unnumbered interface is configured. At any instant only one of the two members can be non-null. |
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vRtrIfCflowd | 1.3.6.1.4.1.6527.3.1.2.3.4.1.32 |
The value of vRtrIfCflowd specifies the type and direction of Cflowd analysis applied to this interface. A Cflowd profile controls the sampling and analysis of data flows through the router. A value of none (1) indicates that there is no Cflowd analysis associated with this interface. |
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vRtrIfVPNClass | 1.3.6.1.4.1.6527.3.1.2.3.4.1.33 |
The value of vRtrIfVPNClass specifies the type of VPN scenario supported on this virtual router interface. |
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vRtrIfDescription | 1.3.6.1.4.1.6527.3.1.2.3.4.1.34 |
The value of vRtrIfDescription is a user provided description string for this virtual router interface. It can consist of any printable, seven-bit ASCII characters up to 80 characters in length. |
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vRtrIfProtocol | 1.3.6.1.4.1.6527.3.1.2.3.4.1.35 |
The value of vRtrIfProtocol indicates which protocols are running on this virtual router interface. If the bit corresponding to a protocol is set, then the protocol is enabled on this interface. |
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vRtrIfTosMarkingTrusted | 1.3.6.1.4.1.6527.3.1.2.3.4.1.36 |
The value of vRtrIfTosMarkingTrusted specifies whether the TOS bits on the packets ingressing on the interface should be trusted by the system or not. If the value is set to true, the TOS bits should be trusted. If the system does not trust these packets, it will remark the packets upon egress as indicated by the value of the egress remark flag, TIMETRA-QOS-MIB:: tNetworkPolicyEgressRemark. The egress remark flag is part of the QoS policy applied to the network interface. The interfaces belonging to the IES service have the egress remark flag set to not trusted, false, by default. For all other interface types, the TOS bits are trusted by default. |
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vRtrIfServiceId | 1.3.6.1.4.1.6527.3.1.2.3.4.1.37 |
The value of vRtrIfServiceId specifies the service id for this interface. This object must always be set at row creation when the vRtrIfType is not network(1). This object cannot be modified once the row is created. |
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vRtrIfArpPopulate | 1.3.6.1.4.1.6527.3.1.2.3.4.1.38 |
The value of the object vRtrIfArpPopulate specifies the ARP populate action. The value disabled means that the normal ARP protocol is active. The value enabled means that the system will not originate ARP requests on this interface. The ARP cache is only populated with MAC addresses learned via the DHCP protocol. If the value of vRtrIfType is network, this object can only be set to disabled. |
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vRtrIfIPv6ConfigAllowed | 1.3.6.1.4.1.6527.3.1.2.3.4.1.39 |
The value of vRtrIfIPv6ConfigAllowed specifies whether IPv6 can be configured on this router interface. When the value is true, IPv6 can be configured on this interface. When it is false, IPv6 cannot be configured. Object iesIfIPv6ConfigAllowed should be set if vRtrIfType is subscriber or group. |
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vRtrIfIPv6OperState | 1.3.6.1.4.1.6527.3.1.2.3.4.1.40 |
The current operational status for IPv6 on this router interface. |
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vRtrIfIPv6IngressFilterId | 1.3.6.1.4.1.6527.3.1.2.3.4.1.41 |
The value of vRtrIfIPv6IngressFilterId associates an ip-filter-id with an ingress v6 interface. Filters control the forwarding and dropping of packets based on IP criteria. A value of zero (0) indicates that there is no ip-filter-id associated with this interface. If this entry indicates a service virtual router interface or the special out-of-band management interface, this object is meaningless and is not applied to the interface. |
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vRtrIfIPv6EgressFilterId | 1.3.6.1.4.1.6527.3.1.2.3.4.1.42 |
The value of vRtrIfIPv6EgressFilterId associates an ip-filter-id with an egress v6 interface. Filters control the forwarding and dropping of packets based on IP criteria. A value of zero (0) indicates that there is no ip-filter-id associated with this interface. If this entry indicates a service virtual router interface or the special out-of-band management interface, this object is meaningless and is not applied to the interface. |
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vRtrIfIcmpV6Redirects | 1.3.6.1.4.1.6527.3.1.2.3.4.1.43 |
When vRtrIfIcmpV6Redirects is set to true, ICMPv6 redirects are generated when routes are not optimal on this router and another router on the same subnetwork has a better route in order to alert that node that a better route is available. When vRtrIfIcmpV6Redirects is set to false, ICMPv6 redirects are not generated. |
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vRtrIfIcmpV6NumRedirects | 1.3.6.1.4.1.6527.3.1.2.3.4.1.44 |
The value of vRtrIfIcmpV6NumRedirects limits the number of v6 redirects issued per the time frame specified in vRtrIfIcmpV6RedirectsTime. |
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vRtrIfIcmpV6RedirectsTime | 1.3.6.1.4.1.6527.3.1.2.3.4.1.45 |
The value of vRtrIfIcmpV6RedirectsTime determines the time frame in seconds that is used to limit the number of v6 redirects issued per time frame. |
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vRtrIfIcmpV6Unreachables | 1.3.6.1.4.1.6527.3.1.2.3.4.1.46 |
When vRtrIfIcmpV6Unreachables is set to true, ICMPv6 host and network unreachable messages are generated by this interface. When vRtrIfIcmpV6Unreachables is set to false, ICMPv6 host and network unreachable messages are not sent. |
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vRtrIfIcmpV6NumUnreachables | 1.3.6.1.4.1.6527.3.1.2.3.4.1.47 |
The value of vRtrIfIcmpV6NumUnreachables determines how many destination unreachable ICMPv6 messages are issued in the time frame specified by vRtrIfIcmpV6UnreachablesTime. |
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vRtrIfIcmpV6UnreachablesTime | 1.3.6.1.4.1.6527.3.1.2.3.4.1.48 |
The value of vRtrIfIcmpV6UnreachablesTime sets the time frame in seconds that is used to limit the number of destination unreachable ICMPv6 messages issued per time frame. |
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vRtrIfIcmpV6TimeExceeded | 1.3.6.1.4.1.6527.3.1.2.3.4.1.49 |
The value of vRtrIfIcmpV6TimeExceeded specifies whether time-exceeded ICMP messages should be sent. When it is set to true, ICMPv6 time-exceeded messages are generated by this interface. When vRtrIfIcmpV6TimeExceeded is set to false, ICMPv6 time-exceeded messages are not sent. |
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vRtrIfIcmpV6NumTimeExceeded | 1.3.6.1.4.1.6527.3.1.2.3.4.1.50 |
The value of vRtrIfIcmpV6NumTimeExceeded specifies how many time-exceeded ICMPv6 messages are issued in the time frame specified by vRtrIfIcmpV6TimeExceededTime. |
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vRtrIfIcmpV6TimeExceededTime | 1.3.6.1.4.1.6527.3.1.2.3.4.1.51 |
The value of vRtrIfIcmpV6TimeExceededTime specifies the time frame in seconds that is used to limit the number of time-exceeded ICMPv6 messages issued per time frame. |
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vRtrIfIcmpV6PktTooBig | 1.3.6.1.4.1.6527.3.1.2.3.4.1.52 |
The value of vRtrIfIcmpV6PktTooBig specifies whether packet-too-big ICMP messages should be sent. When it is set to true, ICMPv6 packet-too-big messages are generated by this interface. When vRtrIfIcmpV6PktTooBig is set to false, ICMPv6 packet-too-big messages are not sent. |
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vRtrIfIcmpV6NumPktTooBig | 1.3.6.1.4.1.6527.3.1.2.3.4.1.53 |
The value of vRtrIfIcmpV6NumPktTooBig specifies how many packet-too-big ICMPv6 messages are issued in the time frame specified by vRtrIfIcmpV6PktTooBigTime. |
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vRtrIfIcmpV6PktTooBigTime | 1.3.6.1.4.1.6527.3.1.2.3.4.1.54 |
The value of vRtrIfIcmpV6PktTooBigTime specifies the time frame in seconds that is used to limit the number of packet-too-big ICMPv6 messages issued per time frame. |
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vRtrIfIcmpV6ParamProblem | 1.3.6.1.4.1.6527.3.1.2.3.4.1.55 |
The value of vRtrIfIcmpV6ParamProblem specifies whether parameter-problem ICMP messages should be sent. When it is set to true, ICMPv6 parameter-problem messages are generated by this interface. When vRtrIfIcmpV6ParamProblem is set to false, ICMPv6 parameter-problem messages are not sent. |
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vRtrIfIcmpV6NumParamProblem | 1.3.6.1.4.1.6527.3.1.2.3.4.1.56 |
The value of vRtrIfIcmpV6NumParamProblem specifies how many parameter-problem ICMPv6 messages are issued in the time frame specified by vRtrIfIcmpV6ParamProblemTime. |
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vRtrIfIcmpV6ParamProblemTime | 1.3.6.1.4.1.6527.3.1.2.3.4.1.57 |
The value of vRtrIfIcmpV6ParamProblemTime specifies the time frame in seconds that is used to limit the number of parameter-problem ICMPv6 messages issued per time frame. |
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vRtrIfLinkLocalAddressType | 1.3.6.1.4.1.6527.3.1.2.3.4.1.58 |
The value of vRtrIfLinkLocalAddressType indicates the IP address type of the link local address of this virtual router interface. When the value of vRtrIfIPv6OperState is inService, this object will have a value of ipv6z, and unknown otherwise. |
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vRtrIfLinkLocalAddress | 1.3.6.1.4.1.6527.3.1.2.3.4.1.59 |
The value of vRtrIfLinkLocalAddress indicates the link local IP address of this virtual router interface. This address valid when the value of vRtrIfIPv6OperState is inService. |
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vRtrIfLinkLocalAddressState | 1.3.6.1.4.1.6527.3.1.2.3.4.1.60 |
The value of vRtrIfLinkLocalAddressState indicates the address state of vRtrIfLinkLocalAddress. When vRtrIfIPv6OperState is outOfService, the value of this object is unknown. |
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vRtrIfLastOperStateChange | 1.3.6.1.4.1.6527.3.1.2.3.4.1.61 |
The value of vRtrIfLastOperStateChange indicates the sysUpTime when the operational state of this interface last changed. |
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vRtrIfOperMtu | 1.3.6.1.4.1.6527.3.1.2.3.4.1.62 |
The value of vRtrIfOperMtu indicates the operational value of the IP MTU on this interface. It is the minimum of the vRtrIfMtu and the MTU of the physical port this interface is bound to. |
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vRtrIfGlobalIndex | 1.3.6.1.4.1.6527.3.1.2.3.4.1.63 |
The value of vRtrIfGlobalIndex uniquely identifies this interface in the tmnx system. This field provides an identifier for router interfaces similar to the vRtrIfIndex value, except that vRtrIfIndex is unique within each virtual router. The vRtrIfGlobalIndex is unique system wide regardless of the vRtrID. The vRtrIfGlobalIndex value for each virtual interface must remain constant at least from one re-initialization of the system management processor to the next. |
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vRtrIfDelaySeconds | 1.3.6.1.4.1.6527.3.1.2.3.4.1.64 |
The value of vRtrIfDelaySeconds specifies the time in seconds that is used to bring up the interface. When interface comes up, it will not become operational until after the specified delay. When used to configure delayed-enable for a router interface, the values specified for vRtrIfDelaySeconds can be in the range of 0..1200. When used to configure hold-time of a Multi-homing secondary interface, the values specified can be in the range of 0..65535. The default value of vRtrIfDelaySeconds is also based on the router interface type. When used for a regular interface its default value is 0. When used for a Multi-homing secondary interface, its default value is 30. |
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vRtrIfDelayUpTimer | 1.3.6.1.4.1.6527.3.1.2.3.4.1.65 |
The value of vRtrIfDelayUpTimer indicates the time left before the interface comes up when vRtrIfDelaySeconds is configured to a non-zero value. When the interface is down, this object will return the value -1. Its value can be in the range 0 to vRtrIfDelaySecondss value if the interface is about to come up. If the interface is up, the value of vRtrIfDelayUpTimer will be 0. |
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vRtrIfLocalDhcpServerName | 1.3.6.1.4.1.6527.3.1.2.3.4.1.66 |
The value of vRtrIfLocalDhcpServerName specifies the local DHCP server that can be reached via this interface. The server itself is configured on virtual router level in object TIMETRA-DHCP-SERVER-MIB::tmnxDhcpServerCfgServerName. Assigning an ip-address to it is done here by linking it to an interface. A server can be linked to several interfaces on the same virtual router. |
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vRtrIfInitDelayEnable | 1.3.6.1.4.1.6527.3.1.2.3.4.1.67 |
The value of vRtrIfInitDelayEnable specifies whether vRtrIfDelaySeconds is used only the next time or everytime the system attempts to bring the interface operationally up. The value of vRtrIfInitDelayEnable is ignored if the value of vRtrIfDelaySeconds is set to 0. The value of vRtrIfInitDelayEnable is only set when interface is of type subscriber-interface. When the value vRtrIfInitDelayEnable is set to false, everytime the system attempts to bring the interface operationally up, it will be delayed by the value of vRtrIfDelaySeconds. When the value vRtrIfInitDelayEnable is set to true, only the next time the system attempts to bring the interface operationally up, it will be delayed by the value of vRtrIfDelaySeconds. |
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vRtrIfCpmProtPolicyId | 1.3.6.1.4.1.6527.3.1.2.3.4.1.68 |
The value of vRtrIfCpmProtPolicyId associates a CPM Protection policy with an interface. A value of zero (0) specifies that no CPM Protection policy is associated with this interface. A value of one (1) specifies that the default CPM Protection policy is associated with this interface. If no value for vRtrIfCpmProtPolicyId is specified when the vRtrIfEntry is created, the system assigns a default value, derived from the value of the object vRtrIfType, as follows: vRtrIfType vRtrIfCpmProtPolicyId --------------------------------------------------------------------- network 1 service used internally. serviceIes 1 serviceRtdVpls obsoleted. serviceVprn 1 serviceIesSubscriber 0 serviceIesGroup 0 serviceVprnSubscriber used internally. serviceVprnGroup 0 serviceIesRedundant 0 serviceVprnRedundant 0 serviceVpls 0 serviceIesCem defined on a SAP. --not supported serviceVprnCem defined on a SAP. --not supported serviceVprnIPsec 0 serviceVprnIPMirror 0 If an interface would get a default value of one, it is not allowed to set the value of vRtrIfCpmProtPolicyId to zero. If an interface would get a default value of zero, it is not allowed to modify the value of vRtrIfCpmProtPolicyId. This object is not supported on SR-1 and ESS-1, where the value of TIMETRA-CHASSIS-MIB::tmnxChassisType is 5, and 7710, where the value of TIMETRA-CHASSIS-MIB::tmnxChassisType is 7 or 9. |
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vRtrIfCpmProtUncfgdProtoDropCnt | 1.3.6.1.4.1.6527.3.1.2.3.4.1.69 |
The value of vRtrIfCpmProtUncfgdProtoDropCnt indicates the number of network control protocol messages dropped due to the operation of the protocol protection facility. The protocol protection facility can be enabled and disabled by means of the object TIMETRA-SECURITY-MIB::tmnxCpmProtDropUncfgdProtocolMsg. When the protocol protection facility is enabled, network control protocol traffic received on this virtual router interface is dropped if the protocol is not configured on this virtual router interface. The value of vRtrIfProtocol indicates which protocols are configured on this virtual router interface. This object is not supported on SR-1 and ESS-1, where the value of TIMETRA-CHASSIS-MIB::tmnxChassisType is 5, and 7710, where the value of TIMETRA-CHASSIS-MIB::tmnxChassisType is 7 or 9. |
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vRtrIfLdpSyncTimer | 1.3.6.1.4.1.6527.3.1.2.3.4.1.70 |
The value of vRtrIfLdpSyncTimer specifies a time interval used for IGP-LDP synchronization. The timer is started from the time the LDP session to the neighbor is up over the interface. This is to allow for the label FEC bindings to be exchanged. When the timer expires, the link cost is restored and is re-advertised. IGP will announce a new best next-hop and LDP will use it if the label binding for the neighbors FEC is available. |
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vRtrIfStripLabel | 1.3.6.1.4.1.6527.3.1.2.3.4.1.71 |
The value of vRtrIfStripLabel specifies whether a packet received on the interface will have its MPLS labels stripped from the packet (true) or not (false). |
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vRtrIfuRPFCheckState | 1.3.6.1.4.1.6527.3.1.2.3.4.1.72 |
The value of vRtrIfuRPFCheckState specifies whether unicast RPF (uRPF) Check is enabled on this interface. |
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vRtrIfuRPFCheckMode | 1.3.6.1.4.1.6527.3.1.2.3.4.1.73 |
The value of vRtrIfuRPFCheckMode specifies the mode of unicast RPF check. In strict mode, uRPF checks whether incoming packet has a source address that matches a prefix in the routing table, and whether the interface expects to receive a packet with this source address prefix. In loose mode, uRPF checks whether incoming packet has source address with a corresponding prefix in the routing table, however loose mode does not check whether the interface expects to receive a packet with a specific source address prefix. This object is valid only when value of vRtrIfuRPFCheckState is set to enabled. |
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vRtrIfQosQGrp | 1.3.6.1.4.1.6527.3.1.2.3.4.1.74 |
The value of vRtrIfQosQGrp specifies the name of the QoS queue-group (TIMETRA-QOS-MIB::tQosEgrQGroupName) used with this interface. An inconsistentValue error is returned if this object is set to a non-default value and an entry corresponding to vRtrIfPortID does not exist in TIMETRA-PORT-MIB::tPortNetEgrQGrpTable. This object is obsoleted in release 10.0 and replaced with object vRtrIfQosEgrPortRedirectQGrp. |
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vRtrIfAdminLinkLocalAddrType | 1.3.6.1.4.1.6527.3.1.2.3.4.1.75 |
The value of vRtrIfAdminLinkLocalAddrType specifies the IP address type of the link local address of this virtual router interface. |
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vRtrIfAdminLinkLocalAddr | 1.3.6.1.4.1.6527.3.1.2.3.4.1.76 |
The value of vRtrIfAdminLinkLocalAddr specifies the link local IP address of this virtual router interface. |
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vRtrIfAdmLnkLclAddrPreferred | 1.3.6.1.4.1.6527.3.1.2.3.4.1.77 |
The value of vRtrIfAdmLnkLclAddrPreferred specifies whether vRtrIfAdminLinkLocalAddr specified for this interface should be treated as preferred. |
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vRtrIfOperDownReason | 1.3.6.1.4.1.6527.3.1.2.3.4.1.78 |
The value of vRtrIfOperDownReason specifies the reason why the interface is operationally down. The bit values are: ifAdminDown (0) - Interface is administratively down svcAdminDown (1) - Service is administratively down portOperDown (2) - SAP port is operationally down addrOrIfNotReady (3) - Address or Parent interface is not ready assocObjNotReady (4) - Associated object is not ready rvplsDown (5) - R-VPLS service is down operGrpDown (6) - Associated Operational Group is down ifAdminDestroy (7) - Interface is being deleted noIfAddress (8) - Interface address is not configured noIfInfo (9) - Interface info not present delayedStartEnabled (10) - Delayed start timer is enabled on the interface ifProtoOperDown (11) - Protocols on interface are operationally down invalidPortCfg (12) - Port configuration is not valid unknown (13) - Reason is unknown ipv6Misconfig (14) - Ipv6 misconfiguration. |
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vRtrIfNameTable | 1.3.6.1.4.1.6527.3.1.2.3.5 |
This is a read-only table, each row of which represents a one to one equivalence between a router interface name (vRtrIfName) and its corresponding index in the vRtrIfTable (vRtrIfIndex). |
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1.3.6.1.4.1.6527.3.1.2.3.5.1 |
Each row entry in the vRtrIfNameTable corresponds to a row in the vRtrIfTable. When an entry is created or deleted in the vRtrIfTable, a corresponding entry is created or deleted in this table. |
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vRtrIfNameIndex | 1.3.6.1.4.1.6527.3.1.2.3.5.1.1 |
The value of vRtrIfNameIndex gives the value of vRtrIfIndex for a row in the vRtrIfTable. This row corresponds to the virtual router interface which has interface name as vRtrIfName. Every vRtrIfName is unique within a specific instance of vRtrID. |
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vRtrIpAddrTable | 1.3.6.1.4.1.6527.3.1.2.3.6 |
The vRtrIpAddrTable has an entry for each IP address configured for a virtual router in the system. An interface on the virtual router may have more than one IP address assigned to it. |
||
1.3.6.1.4.1.6527.3.1.2.3.6.1 |
Each row entry represents an IP address assigned a virtual router interface. Entries can be created and deleted via SNMP SET operations. Setting RowStatus to active requires a values for all column variables to have been assigned. |
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vRiaIndex | 1.3.6.1.4.1.6527.3.1.2.3.6.1.1 |
The unique value which identifies this IP address entry for this interface of this virtual router in the Tmnx system. Those row entries with vRiaIndex = 1 represent the primary IP address for the interface identified by the vRtrID and vRtrIfIndex pair. Row entries with other values for vRiaIndex are secondary IP addresses. There must always be a primary IP address assigned an interface. This implies that if the primary address row is deleted, the secondary rows are also deleted. |
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vRiaRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.6.1.2 |
The row status used for creation, deletion, or control of vRtrIpAddrTable entries. All the other row variables must have been assigned values before the row can be place into the active state. |
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vRiaIpAddress | 1.3.6.1.4.1.6527.3.1.2.3.6.1.3 |
The IP address assigned to a routers interface. |
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vRiaNetMask | 1.3.6.1.4.1.6527.3.1.2.3.6.1.4 |
The subnet mask associated with the IP address of this entry. The value of the mask is an IP address with all the network bits set to 1 and all the host bits set to 0. |
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vRiaBcastAddrFormat | 1.3.6.1.4.1.6527.3.1.2.3.6.1.5 |
When vRiaBcastAddrFormat is set to allOnes, the 255.255.255.255 address is used for local broadcast. When vRiaBcastAddrFormat is set to hostOnes, the <prefix>-1 address is used for the local broadcast. For example for subnet 10.10.16.0/20 the <prefix>-1 address is 10.10.31.255. |
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vRiaReasmMaxSize | 1.3.6.1.4.1.6527.3.1.2.3.6.1.6 |
The size of the largest IP datagram which this entry can reassemble from incoming IP fragmented datagrams received on this interface. |
||
vRiaIgpInhibit | 1.3.6.1.4.1.6527.3.1.2.3.6.1.7 |
This variable should only be associated with secondary ip addresses, i.e., when the value of vRiaIndex is other than 1. When vRiaIgpInhibit has a value of true, it indicates that the given secondary IP address should not be recognized as a local interface by the running IGP. For OSPF and IS-IS, this means that the given secondary IP addresses will not be injected as passive interfaces and will not be advertised as internal IP interfaces into the IGPs link state database. For RIP this means these secondary IP interfaces will not source RIP updates. |
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vRiaInetAddressType | 1.3.6.1.4.1.6527.3.1.2.3.6.1.8 |
vRiaInetAddressType specifies the type of the vRiaInetAddress address assigned to a routers interface. |
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vRiaInetAddress | 1.3.6.1.4.1.6527.3.1.2.3.6.1.9 |
The type of this address is determined by the value of the vRiaInetAddressType object. vRiaInetAddress indicates the IPv4/IPv6 address assigned to a routers interface. |
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vRiaInetPrefixLen | 1.3.6.1.4.1.6527.3.1.2.3.6.1.10 |
The value of vRiaInetPrefixLen specifies the length of the IP netmask for this interface address. |
||
vRiaInetAddrState | 1.3.6.1.4.1.6527.3.1.2.3.6.1.11 |
The value of vRiaInetAddrState indicates the address state of the IPv6 address of the interface. |
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vRiaInetEui64 | 1.3.6.1.4.1.6527.3.1.2.3.6.1.12 |
The value of vRiaInetEui64 specifies whether the vRiaInetOperAddress is an eui64 address. This object can only be set at creation time. When vRiaInetEui64 is true, then the vRiaInetOperAddress is derived from the vRiaInetAddress and the physical address of the interface this address is attached to. vRiaInetAddress has to have all zeros the least significant 8 bytes. Also, vRiaInetPrefixLen cannot be longer than 64. When vRiaInetEui64 is false, then the vRiaInetOperAddress is a copy of vRiaInetAddress. The value is always false when vRiaInetAddressType is not ipv6. |
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vRiaInetOperAddress | 1.3.6.1.4.1.6527.3.1.2.3.6.1.13 |
The value of vRiaInetOperAddress indicates the operational address of this entry. The type of this address is determined by the value of the vRiaInetAddressType object. |
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vRiaInetGwAddressType | 1.3.6.1.4.1.6527.3.1.2.3.6.1.14 |
The value of vRiaInetGwAddressType specifies the address type of vRiaInetGwAddress. |
||
vRiaInetGwAddress | 1.3.6.1.4.1.6527.3.1.2.3.6.1.15 |
The value of vRiaInetGwAddress specifies the gateway address for the subnet specified by vRiaInetAddress and vRiaInetPrefixLen. The address type is defined by vRiaInetGwAddressType. This field is only valid when the address is configured on a subscriber interface. |
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vRiaInetRemoteIpType | 1.3.6.1.4.1.6527.3.1.2.3.6.1.16 |
The value of vRiaInetRemoteIpType specifies the address type of vRiaInetRemoteIp. |
||
vRiaInetRemoteIp | 1.3.6.1.4.1.6527.3.1.2.3.6.1.17 |
The value of vRiaInetRemoteIp specifies the IP address of the remote redundant interface. This field is only valid when the address is configured on a redundant interface. |
||
vRiaInetAddrPreferred | 1.3.6.1.4.1.6527.3.1.2.3.6.1.18 |
The value of vRiaInetAddrPreferred specifies whether vRiaInetAddress specified for this interface should be treated as preferred. |
||
vRiaSubscrPrefix | 1.3.6.1.4.1.6527.3.1.2.3.6.1.19 |
The value of vRiaSubscrPrefix specifies whether the vRiaIpAddress specified for this interface should be treated as a subscriber prefix. This object cannot be modified once the row is created. |
||
vRiaSubscrPrefixType | 1.3.6.1.4.1.6527.3.1.2.3.6.1.20 |
The value of vRiaSubscrPrefixType indicates the type of subscriber prefix contained in vRiaIpAddress if vRiaSubscrPrefix is TRUE. This object cannot be modified once the row is created. |
||
vRiaSubscrHostRoutePopulate | 1.3.6.1.4.1.6527.3.1.2.3.6.1.21 |
The value of vRiaSubscrHostRoutePopulate specifies if subscriber host routes are populated in the FIB (Forwarding Information Base). This object can only be set to true if the address is configured on a subscriber interface. |
||
vRiaTrackSrrpInstance | 1.3.6.1.4.1.6527.3.1.2.3.6.1.22 |
The value of vRiaTrackSrrpInstance specifies the SRRP instance whose state is tracked on this ipaddress. |
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vRiaHoldUpTime | 1.3.6.1.4.1.6527.3.1.2.3.6.1.23 |
The value of vRiaHoldUpTime specifies the time to wait for the route to accept new state of the SRRP instance which is being tracked with this address. An inconsistentValue error is returned if vRiaHoldUpTime is set to non-default value when vRiaTrackSrrpInstance is set to its default value. |
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vRtrIpCidrRouteTable | 1.3.6.1.4.1.6527.3.1.2.3.7 |
The vRtrIpCidrRouteTable provides an extension of the ipCidrRouteTable in the IP-FORWARD-MIB. |
||
1.3.6.1.4.1.6527.3.1.2.3.7.1 |
Each row entry in the vRtrIpCidrRouteTable represents additional columns for attributes specific to the Alcatel-Lucent SROS series implementation for the IP route table. |
|||
vRtrIpCidrRouteLastEnabledTime | 1.3.6.1.4.1.6527.3.1.2.3.7.1.1 |
The vRtrIpCidrRouteLastEnabledTime variable contains the sysUpTime value when ipCidrRouteStatus was last set to active (1) to allow IP forwarding on this route entry. |
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vRtrIpCidrRoutePreference | 1.3.6.1.4.1.6527.3.1.2.3.7.1.2 |
When ipCidrRouteProto has a value of netmgmt to indicate that this entry is a static route, the value of vRtrIpCidrRoutePreference determines the priority of this static route versus the routes from different sources such as BGP or OSPF etc. Different protocols should not be configured with the same preference, if this occurs the tiebreaker is determined per the default preference value as defined in the table below. If multiple routes are learned with an identical preference using the same protocol, the lowest cost is used. If multiple routes are learned with an identical preference using the same protocol and the costs (metrics) are equal, then the decision as to what route to use is determined by the configuration of the ecmp command. Default preferences: Route Type Preference Configurable ---------- ---------- ------------ Direct attached 0 no Static-route 5 yes MPLS (post FCS) 7 OSPF Internal routes 10 no OSPF External 150 yes BGP 170 yes |
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vRtrIpCidrRouteMetric | 1.3.6.1.4.1.6527.3.1.2.3.7.1.3 |
The primary routing metric for this route. The semantics of this metric are determined by the routing-protocol specified in the routes ipCidrRouteProto value. |
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vRtrStaticRouteNumber | 1.3.6.1.4.1.6527.3.1.2.3.8 |
The number of current vRtrStaticRouteTable entries that are active. |
||
vRtrStaticRouteTable | 1.3.6.1.4.1.6527.3.1.2.3.9 |
This entitys Static Routing table. |
||
1.3.6.1.4.1.6527.3.1.2.3.9.1 |
A particular route to a particular destination, through a particular next hop. |
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vRtrStaticRouteDest | 1.3.6.1.4.1.6527.3.1.2.3.9.1.1 |
The destination IP address of this route. This object may not take a Multicast (Class D) address value. Any assignment (implicit or otherwise) of an instance of this object to a value x must be rejected if the bitwise logical-AND of x with the value of the corresponding instance of the vRtrStaticRouteMask object is not equal to x. |
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vRtrStaticRouteMask | 1.3.6.1.4.1.6527.3.1.2.3.9.1.2 |
Indicate the mask to be logical-ANDed with the destination address before being compared to the value in the vRtrStaticRouteDest field. For those systems that do not support arbitrary subnet masks, an agent constructs the value of the vRtrStaticRouteMask by reference to the IP Address Class. Any assignment (implicit or otherwise) of an instance of this object to a value x must be rejected if the bitwise logical-AND of x with the value of the corresponding instance of the vRtrStaticRouteDest object is not equal to vRtrStaticRouteDest. |
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vRtrStaticRouteIndex | 1.3.6.1.4.1.6527.3.1.2.3.9.1.3 |
The quaternary index for the vRtrStaticRouteTable. |
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vRtrStaticRouteRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.9.1.4 |
The row status variable, used according to row installation and removal conventions. |
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vRtrStaticRouteLastEnabledTime | 1.3.6.1.4.1.6527.3.1.2.3.9.1.5 |
The vRtrStaticRouteLastEnabledTime variable contains the sysUpTime value when vRtrStaticRouteStatus was last set to active (1) to allow IP forwarding on this static route entry. |
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vRtrStaticRouteStatus | 1.3.6.1.4.1.6527.3.1.2.3.9.1.6 |
The value of vRtrStaticRouteStatus indicates whether or not this route entry is active in the system. When an interface transitions to the down state, any associated route entries are marked as inactive and are usually not displayed in a standard route table listing. When the interface transitions to the up state, the agent marks the associated routes as active |
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vRtrStaticRouteStaticType | 1.3.6.1.4.1.6527.3.1.2.3.9.1.7 |
The value of vRtrStaticRouteStaticType indicates the type of static route represented by this row entry. |
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vRtrStaticRoutePreference | 1.3.6.1.4.1.6527.3.1.2.3.9.1.8 |
The value of vRtrStaticRoutePreference determines the priority of this static route versus the routes from different sources such as BGP or OSPF etc. Different protocols should not be configured with the same preference, if this occurs the tiebreaker is determined per the default preference value as defined in the table below. If multiple routes are learned with an identical preference using the same protocol, the lowest cost is used. If multiple routes are learned with an identical preference using the same protocol and the costs (metrics) are equal, then the decision as to what route to use is determined by the configuration of the ecmp command. Default preferences. Route Type Preference Configurable ---------- ---------- ------------ Direct attached 0 no Static-route 5 yes MPLS (post FCS) 7 OSPF Internal routes 10 no OSPF External 150 yes BGP 170 yes |
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vRtrStaticRouteMetric | 1.3.6.1.4.1.6527.3.1.2.3.9.1.9 |
When ipCidrRouteProto has a value of netmgmt to indicate that this entry is a static route, the value of vRtrStaticRouteMetric associates a metric value with the route. This value is used when importing this static route into other protocols such as OSPF. When the metric is configured as zero then the metric configured in OSPF, default-import-metric, applies. This value is also used to determine which static route to install in the forwarding table: If there are multiple static routes with the same preference but unequal metric then the lower cost (metric) route will be installed. If there are multiple static routes with equal preference and metrics then ecmp rules apply. If there are multiple routes with unequal preference then the lower preference route will be installed. |
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vRtrStaticRouteEgressIfIndex | 1.3.6.1.4.1.6527.3.1.2.3.9.1.11 |
The outgoing ifIndex for this route as computed by the static-route module. This variable will have a value of 0 if vRtrStaticRouteStatus is inactive or if this static route is configured as a black hole. |
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vRtrStaticRouteNextHop | 1.3.6.1.4.1.6527.3.1.2.3.9.1.12 |
In case of remote routes, the address of the next system en route. This member is complemented by vRtrStaticRouteNextHopUnnumberedIf. Atmost only one of them can be non-null. If vRtrStaticRouteNextHop is 0.0.0.0 and vRtrStaticRouteNextHopUnnumberedIf is a null string then this static route is configured as a black hole. |
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vRtrStaticRouteNextHopUnnumberedIf | 1.3.6.1.4.1.6527.3.1.2.3.9.1.13 |
The name of the unnumbered Interface which will be the nexthop for this route. This member is complemented by vRtrStaticRouteNextHop. Atmost only one of them can be non-null. If vRtrStaticRouteNextHop is 0.0.0.0 and vRtrStaticRouteNextHopUnnumberedIf is a null string then this static route is configured as a black hole. |
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vRtrStaticRouteAdminState | 1.3.6.1.4.1.6527.3.1.2.3.9.1.14 |
The desired administrative state for this virtual router static route |
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vRtrStaticRouteIgpShortcut | 1.3.6.1.4.1.6527.3.1.2.3.9.1.15 |
The value of vRtrStaticRouteIgpShortcut is valid only for indirect static routes (i.e. vRtrStaticRouteStaticType is indirect). The bits of vRtrStaticRouteIgpShortcut identify Layer 2 tunneling mechanisms used for IGP shortcuts. If a bit is set, IGP shortcuts associated with that tunneling mechanism will be used to resolve next-hop for the static-route. If no bits are set, IGP shortcuts will not be used to resolve next-hop for the static routes. The tunneling mechanisms represented by each bit are: te(0) - RSVP Traffic Engineering ldp(1) - LDP /32 Route Forwarding Equivalence Class (FEC) ip(2) - IP (IP-in-IP or GRE) Evaluation of tunnel preference is based on the following order, in descending priority: 1. Traffic Engineered Shortcut (RSVP-TE) 2. LDP /32 Route FEC Shortcut 3. IP Shortcut (IP-in-IP or GRE) 4. Actual IGP Next-Hop. |
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vRtrStaticRouteDisallowIgp | 1.3.6.1.4.1.6527.3.1.2.3.9.1.16 |
The value of vRtrStaticRouteDisallowIgp is valid only for indirect static routes (i.e. vRtrStaticRouteStaticType is indirect). If the value of vRtrStaticRouteDisallowIgp is set to true, and if none of the defined tunneling mechanisms (RSVP-TE, LDP or IP) qualify as a next-hop, the normal IGP next-hop to the indirect next-hop address will not be used. If the value is set to false, IGP next-hop to the indirect next-hop address can be used as the next-hop of the last resort. |
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vRtrStaticRouteTag | 1.3.6.1.4.1.6527.3.1.2.3.9.1.17 |
The value of vRtrStaticRouteTag is used to add a 32-bit integer tag to the static route. This tag could then be used in route policies to control distribution of the route into other protocols. A value of 0 indicates that the tag has not been set. |
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vRtrSvcIpRangeTable | 1.3.6.1.4.1.6527.3.1.2.3.10 |
The vRtrSvcIpRangeTable has an entry for each IP address range configured for a virtual interface in a virtual router in the system. An interface on the virtual router may have more than one Service IP address ranges assigned to it. |
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1.3.6.1.4.1.6527.3.1.2.3.10.1 |
Each row entry represents an IP address range assigned a virtual router service interface. Entries can be created and deleted via SNMP SET operations. Setting RowStatus to active requires values for all column variables to have been assigned. |
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vRtrSvcIpRangeAddress | 1.3.6.1.4.1.6527.3.1.2.3.10.1.1 |
The IP address prefix range assigned to a routers service interface. |
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vRtrSvcIpRangeMask | 1.3.6.1.4.1.6527.3.1.2.3.10.1.2 |
The subnet mask associated with the Service IP address of this entry. The value of the mask is an 32-bit integer with all the network bits set to 1 and all the host bits set to 0. |
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vRtrSvcIpRangeRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.10.1.3 |
The row status used for creation, deletion, or control of vRtrSvcIpRangeTable entries. |
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vRtrSvcIpRangeExclusive | 1.3.6.1.4.1.6527.3.1.2.3.10.1.4 |
When vRtrSvcIpRangeExclusive has a value of true, this set of addresses is reserved for services only and cannot be assigned to network ports. When it has a value of false, it could be used for services as well as network ports. |
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vRtrIpNetToMediaTable | 1.3.6.1.4.1.6527.3.1.2.3.11 |
The vRtrIpNetToMediaTable provides an extension of the ipNetToMediaTable in the IP-MIB. |
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1.3.6.1.4.1.6527.3.1.2.3.11.1 |
Each row entry in the vRtrIpNetToMediaTable represents additional columns for attributes specific to the Alcatel-Lucent SROS series implementation for the vRtrIpNetToMediaTable. |
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vRtrIpNetToMediaTimer | 1.3.6.1.4.1.6527.3.1.2.3.11.1.1 |
The value of vRtrIpNetToMediaTimer determines how much longer an ARP entry associated with an vRtrIpNetToMediaTable entry remains in the ARP cache. It is initially set to vRtrIfArpTimeout. When vRtrIpNetToMediaTimer has a value of zero, 0, the entry is cleared from the cache. |
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vRtrIpNetToMediaOperState | 1.3.6.1.4.1.6527.3.1.2.3.11.1.2 |
The value of vRtrIpNetToMediaOperState specifies if the ARP entry is being used actively in the ARP Table. When ipNetToMediaType has a value dynamic, vRtrIpNetToMediaOperState will never have a value of outOfService. |
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vRtrInstanceAggregationTableLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.12 |
Timestamp of the last change to the vRtrInstanceAggregationTable either from adding a row or removing a row. |
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vRtrInstanceAggregationTable | 1.3.6.1.4.1.6527.3.1.2.3.13 |
The vRtrInstanceAggregationTable is the list of configured VRtr aggregations and their operational status information. Specifies the route aggregates that should be generated into the virtual router if at least one contributing route (more specific) is learned. A route could match multiple aggregate statements. For instance, with the following entries: aggregate 10.0.0.0/8 aggregate 10.1.0.0/16 If the route 10.1.1.0/24 is learned, both aggregates would be generated. This table was obsoleted in release 7.0. It is replaced with the vRtrInetInstAggrTable to support ipv6 addresses. |
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1.3.6.1.4.1.6527.3.1.2.3.13.1 |
An entry (conceptual row) in the vRtrInstanceAggregationTable. Entries are created by user. Entries are destroyed by user. |
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vRtrAggregationIpPrefix | 1.3.6.1.4.1.6527.3.1.2.3.13.1.1 |
IP address prefix to match for the aggregation. |
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vRtrAggregationIpPrefixMask | 1.3.6.1.4.1.6527.3.1.2.3.13.1.2 |
Mask length for vRtrAggregationIpPrefix, to match for the aggregation. |
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vRtrAggregationRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.13.1.3 |
Row status for this entry. |
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vRtrAggregationLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.13.1.4 |
Time stamp of last change of any object for this entry. |
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vRtrAggregationSummaryOnly | 1.3.6.1.4.1.6527.3.1.2.3.13.1.5 |
When true(1), only the aggregate is advertised, the more specfic routes that make up the aggregate are not. When false(2), both the aggregate and more specific components are advertised. |
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vRtrAggregationASSet | 1.3.6.1.4.1.6527.3.1.2.3.13.1.6 |
When true(1), the AS-Path of the resulting aggregate will contain an AS-SET containing all AS numbers from the contributing routes. When false(2), the AS-Path will contain no AS-SET and will be originated by the ESR. |
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vRtrAggregationAggregatorAS | 1.3.6.1.4.1.6527.3.1.2.3.13.1.7 |
When vRtrAggregationAggregatorAS is set to non zero, and vRtrAggregationAggregatorIPAddr is set to non-zero, the supplied ASN and IP address will be used for the aggregator path attributes. When omitted, automatically uses its own ASN & Router-ID. |
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vRtrAggregationAggregatorIPAddr | 1.3.6.1.4.1.6527.3.1.2.3.13.1.8 |
When vRtrAggregationAggregatorAS is set to non zero, and vRtrAggregationAggregatorIPAddr is set to non-zero, the supplied ASN and IP address will be used for the aggregator path attributes. When omitted, automatically uses its own ASN & Router-ID. |
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vRtrAggregationOperState | 1.3.6.1.4.1.6527.3.1.2.3.13.1.9 |
vRtrAggregationOperState specifies the current operational status of the aggregation entry. |
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vRtrStaticRouteIndexTable | 1.3.6.1.4.1.6527.3.1.2.3.14 |
This entitys Static Route Index Table. |
||
1.3.6.1.4.1.6527.3.1.2.3.14.1 |
The available index for the vRtrStaticRouteTable for every destination per virtual router. |
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vRtrStaticRouteIndexDest | 1.3.6.1.4.1.6527.3.1.2.3.14.1.1 |
The destination IP address of this index entry. This object may not take a Multicast (Class D) address value. Any assignment (implicit or otherwise) of an instance of this object to a value x must be rejected if the bitwise logical-AND of x with the value of the corresponding instance of the vRtrStaticRouteMask object is not equal to x. |
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vRtrStaticRouteIndexMask | 1.3.6.1.4.1.6527.3.1.2.3.14.1.2 |
Indicate the mask to be logical-ANDed with the destination address before being compared to the value in the vRtrStaticRouteDest field. For those systems that do not support arbitrary subnet masks, an agent constructs the value of the vRtrStaticRouteMask by reference to the IP Address Class. Any assignment (implicit or otherwise) of an instance of this object to a value x must be rejected if the bitwise logical-AND of x with the value of the corresponding instance of the vRtrStaticRouteDest object is not equal to vRtrStaticRouteDest. |
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vRtrStaticRouteAvailableIndex | 1.3.6.1.4.1.6527.3.1.2.3.14.1.3 |
The available quaternary index for the vRtrStaticRouteTable. |
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tmnxVRtrGlobalObjs | 1.3.6.1.4.1.6527.3.1.2.3.15 | |||
vRtrNextVRtrID | 1.3.6.1.4.1.6527.3.1.2.3.15.1 |
The vRtrNextVRtrID object is used to assign values to vRtrID to be used to create a new row in the vRtrConfTable as described in Textual Conventions for SNMPv2. The network manager reads the object, and then writes the value back in the SET request that creates a new instance of vRtrConfEntry. If the SET fails with the code inconsistentValue, then the process must be repeated. If the the SET succeeds, then the object is incremented and the new instance is created according to the managers directions. |
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vRtrConfiguredVRtrs | 1.3.6.1.4.1.6527.3.1.2.3.15.2 |
The value of vRtrConfiguredVRtrs indicates the current number of virtual routers configured in the system and represented as rows in the vRtrConfTable. |
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vRtrActiveVRtrs | 1.3.6.1.4.1.6527.3.1.2.3.15.3 |
The value of vRtrActiveVRtrs indicates the current number of virtual routers in the system with vRtrAdminState equal inService. |
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vRtrRouteThresholdSoakTime | 1.3.6.1.4.1.6527.3.1.2.3.15.4 |
Following the generation of a tmnxVRtrHighRouteTCA notification, the value of vRtrRouteThresholdSoakTime indicates the soak interval in seconds before another tmnxVRtrHighRouteTCA notification will be re-issued. Imposing this soak period prevents continuous generation of notifications by the agent in the event that routes are continually added to a VRF after it has reached its maximum capacity. When this object has a value of 0, it indicates that the agent should issue a single notification at the time that the value of vRtrHighRouteThreshold is exceeded and another notification should not be sent until the number of routes has fallen below the value configured in vRtrMidRouteThreshold. |
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vRtrMaxARPEntries | 1.3.6.1.4.1.6527.3.1.2.3.15.5 |
vRtrMaxARPEntries indicates the maximum number of active and inactive ARP entries supported across all virtual routers in the system. |
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vRtrIPv6RouteThresholdSoakTime | 1.3.6.1.4.1.6527.3.1.2.3.15.6 |
The value of object vRtrIPv6RouteThresholdSoakTime specifies the soak interval in seconds before another tmnxVRtrIPv6HighRouteTCA notification will be re-issued, after the generation of a tmnxVRtrIPv6HighRouteTCA notification. Imposing this soak period prevents continuous generation of notifications by the agent, in the event that routes are continually added to a VRF after it has reached its maximum capacity. When this object has a value of 0, it indicates that the agent should issue a single notification at the time that the value of vRtrIPv6HighRouteThreshold is exceeded and another notification should not be sent until the number of routes has fallen below the value configured in vRtrIPv6MidRouteThreshold. |
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vRtrPolicyTable | 1.3.6.1.4.1.6527.3.1.2.3.16 |
The vRtrPolicyTable has an entry for each virtual router configured in the system. |
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1.3.6.1.4.1.6527.3.1.2.3.16.1 |
Each row entry represents a collection of statistics for a virtual router in the system. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrImportPolicy1 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.1 |
The value of vRtrImportPolicy1 is the name of the first policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrImportPolicy1 through vRtrImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrVrfImportPolicy1. |
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vRtrImportPolicy2 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.2 |
The value of vRtrImportPolicy2 is the name of the second policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrImportPolicy1 through vRtrImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrVrfImportPolicy2. |
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vRtrImportPolicy3 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.3 |
The value of vRtrImportPolicy3 is the name of the third policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrImportPolicy1 through vRtrImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrVrfImportPolicy3. |
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vRtrImportPolicy4 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.4 |
The value of vRtrImportPolicy4 is the name of the fourth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrImportPolicy1 through vRtrImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrVrfImportPolicy4. |
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vRtrImportPolicy5 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.5 |
The value of vRtrImportPolicy5 is the name of the fifth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrImportPolicy1 through vRtrImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrVrfImportPolicy5. |
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vRtrExportPolicy1 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.6 |
The value of vRtrExportPolicy1 is the name of the first policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrExportPolicy1 through vRtrExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrVrfExportPolicy1. |
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vRtrExportPolicy2 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.7 |
The value of vRtrExportPolicy2 is the name of the second policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrExportPolicy1 through vRtrExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrVrfExportPolicy2. |
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vRtrExportPolicy3 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.8 |
The value of vRtrExportPolicy3 is the name of the third policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrExportPolicy1 through vRtrExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrVrfExportPolicy3. |
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vRtrExportPolicy4 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.9 |
The value of vRtrExportPolicy4 is the name of the fourth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrExportPolicy1 through vRtrExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrVrfExportPolicy4. |
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vRtrExportPolicy5 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.10 |
The value of vRtrExportPolicy4 is the name of the fifth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrExportPolicy1 through vRtrExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrVrfExportPolicy5. |
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vRtrMvpnImportPolicy1 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.11 |
The value of vRtrMvpnImportPolicy1 is the name of the first policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnImportPolicy1 through vRtrMvpnImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrMvpnVrfImportPolicy1. |
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vRtrMvpnImportPolicy2 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.12 |
The value of vRtrMvpnImportPolicy2 is the name of the second policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnImportPolicy1 through vRtrMvpnImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrMvpnVrfImportPolicy2. |
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vRtrMvpnImportPolicy3 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.13 |
The value of vRtrMvpnImportPolicy3 is the name of the third policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnImportPolicy1 through vRtrMvpnImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrMvpnVrfImportPolicy3. |
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vRtrMvpnImportPolicy4 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.14 |
The value of vRtrMvpnImportPolicy4 is the name of the fourth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnImportPolicy1 through vRtrMvpnImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrMvpnVrfImportPolicy4. |
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vRtrMvpnImportPolicy5 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.15 |
The value of vRtrMvpnImportPolicy5 is the name of the fifth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnImportPolicy1 through vRtrMvpnImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrMvpnVrfImportPolicy5. |
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vRtrMvpnExportPolicy1 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.16 |
The value of vRtrMvpnExportPolicy1 is the name of the first policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnExportPolicy1 through vRtrMvpnExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrMvpnVrfExportPolicy1. |
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vRtrMvpnExportPolicy2 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.17 |
The value of vRtrMvpnExportPolicy2 is the name of the second policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnExportPolicy1 through vRtrMvpnExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrMvpnVrfExportPolicy2. |
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vRtrMvpnExportPolicy3 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.18 |
The value of vRtrMvpnExportPolicy3 is the name of the third policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnExportPolicy1 through vRtrMvpnExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrMvpnVrfExportPolicy3. |
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vRtrMvpnExportPolicy4 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.19 |
The value of vRtrMvpnExportPolicy4 is the name of the fourth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnExportPolicy1 through vRtrMvpnExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrMvpnVrfExportPolicy4. |
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vRtrMvpnExportPolicy5 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.20 |
The value of vRtrMvpnExportPolicy5 is the name of the fifth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnExportPolicy1 through vRtrMvpnExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. This object was obsoleted in release 10.0. It is replaced by object vRtrMvpnVrfExportPolicy5. |
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vRtrMvpnImportPolicyUnicast | 1.3.6.1.4.1.6527.3.1.2.3.16.1.21 |
The value of vRtrMvpnImportPolicyUnicast specifies whether unicast vrf-import policy is used for the Multicast VPN (MVPN) as well. If the value is true, vRtrImportPolicy1 through vRtrImportPolicy5 are used for MVPN. If the value is false, vRtrMvpnImportPolicy1 through vRtrMvpnImportPolicy5 are used for MVPN. |
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vRtrMvpnExportPolicyUnicast | 1.3.6.1.4.1.6527.3.1.2.3.16.1.22 |
The value of vRtrMvpnExportPolicyUnicast specifies whether unicast vrf-export policy is used for the Multicast VPN (MVPN) as well. If the value is true, vRtrExportPolicy1 through vRtrExportPolicy5 is used for MVPN. If the value is false, vRtrMvpnExportPolicy1 through vRtrMvpnExportPolicy5 is used for MVPN. |
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vRtrGrtMaxExportRoutes | 1.3.6.1.4.1.6527.3.1.2.3.16.1.23 |
The value of vRtrGrtMaxExportRoutes specifies the maximum number of routes that can be exported from the VRF to the GRT. |
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vRtrGrtExportPolicy1 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.24 |
The value of vRtrGrtExportPolicy1 specifies the name of the first policy to be used for determining which routes are exported from the VRF to the GRT. These entries will be marked as BGP-VPN routes in the GRT. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrGrtExportPolicy1 through vRtrGrtExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrGrtExportPolicy2 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.25 |
The value of vRtrGrtExportPolicy2 specifies the name of the second policy to be used for determining which routes are exported from the VRF to the GRT. These entries will be marked as BGP-VPN routes in the GRT. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrGrtExportPolicy1 through vRtrGrtExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrGrtExportPolicy3 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.26 |
The value of vRtrGrtExportPolicy3 specifies the name of the third policy to be used for determining which routes are exported from the VRF to the GRT. These entries will be marked as BGP-VPN routes in the GRT. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrGrtExportPolicy1 through vRtrGrtExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrGrtExportPolicy4 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.27 |
The value of vRtrGrtExportPolicy4 specifies the name of the fourth policy to be used for determining which routes are exported from the VRF to the GRT. These entries will be marked as BGP-VPN routes in the GRT. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrGrtExportPolicy1 through vRtrGrtExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrGrtExportPolicy5 | 1.3.6.1.4.1.6527.3.1.2.3.16.1.28 |
The value of vRtrGrtExportPolicy5 specifies the name of the fifth policy to be used for determining which routes are exported from the VRF to the GRT. These entries will be marked as BGP-VPN routes in the GRT. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrGrtExportPolicy1 through vRtrGrtExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrGrtMaxIpv6ExportRoutes | 1.3.6.1.4.1.6527.3.1.2.3.16.1.29 |
The value of vRtrGrtMaxIpv6ExportRoutes specifies the maximum number of IPv6 routes that can be exported from the VRF to the GRT. When the value of this object is set to 0, there is no limit on the number of routes exported from the VRF to the GRT. |
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vRtrTunnelTable | 1.3.6.1.4.1.6527.3.1.2.3.17 |
vRtrTunnelTable maintains a list of tunnels for the specific router instance. |
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1.3.6.1.4.1.6527.3.1.2.3.17.1 |
vRtrTunnelEntry defines a tunnel to a particular destination in a specific router context. A tunnel to a specific destination could established using GRE, LDP, RSVP or could be a static LSP. |
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vRtrTunnelDest | 1.3.6.1.4.1.6527.3.1.2.3.17.1.1 |
vRtrTunnelDest maintains the destination IP address of this tunnel. This object may not take a Multicast (Class D) address value. Any assignment (implicit or otherwise) of an instance of this object to a value x must be rejected if the bitwise logical-AND of x with the value of the corresponding instance of the vRtrTunnelMask object is not equal to x. |
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vRtrTunnelMask | 1.3.6.1.4.1.6527.3.1.2.3.17.1.2 |
vRtrTunnelMask indicates the mask to be logical-ANDed with the destination address before being compared to the value in the vRtrTunnelDest field. For those systems that do not support arbitrary subnet masks, an agent constructs the value of the vRtrTunnelMask by reference to the IP Address Class. Any assignment (implicit or otherwise) of an instance of this object to a value x must be rejected if the bitwise logical-AND of x with the value of the corresponding instance of the ipCidrRouteDest object is not equal to ipCidrRouteDest. |
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vRtrTunnelPreference | 1.3.6.1.4.1.6527.3.1.2.3.17.1.3 |
The value of vRtrTunnelPreference determines the priority of this tunnel versus the other tunnels from different sources such as LDP, RSVP, GRE etc. This is an absolute number used internally by the system to specify preferences for the tunnel. Lowest number signifies the most preferred entry in the table. |
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vRtrTunnelType | 1.3.6.1.4.1.6527.3.1.2.3.17.1.4 |
The type of this tunnel entity. |
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vRtrTunnelID | 1.3.6.1.4.1.6527.3.1.2.3.17.1.5 |
Additional index provided to distinguish between multiple tunnels to same destination having same characteristics. There could be multiple tunnels for the type sdp. In such cases the vRtrTunnelID will hold the SDP Id. There could be multiple tunnels for the type ldp. In such cases the vRtrTunnelID will hold the LSPId of the LSP in use. For other vRtrTunnelType values this field will always be 0 as only a single tunnel is established using other tunnel types. |
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vRtrTunnelNexthop | 1.3.6.1.4.1.6527.3.1.2.3.17.1.6 |
The address of the next system en route; Otherwise, 0.0.0.0. |
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vRtrTunnelMetric | 1.3.6.1.4.1.6527.3.1.2.3.17.1.7 |
vRtrTunnelMetric maintains the metric of the tunnel. This is used in addition to the preference for this tunnel. |
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vRtrTunnelAge | 1.3.6.1.4.1.6527.3.1.2.3.17.1.8 |
The number of seconds since this tunnel entry was last updated or otherwise determined to be correct. No semantics of `too old can be implied except through knowledge of owner of the tunnel. |
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vRtrIfProxyArpTable | 1.3.6.1.4.1.6527.3.1.2.3.18 |
The vRtrIfProxyArpTable provides an extension to the vRtrIfTable. It has an entry for each virtual router interface configured in the system. |
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1.3.6.1.4.1.6527.3.1.2.3.18.1 |
Each row entry represents information related to Proxy ARP for a virtual router interface in the system. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrIfProxyArp | 1.3.6.1.4.1.6527.3.1.2.3.18.1.1 |
If the value of vRtrIfProxyArp is set to true, proxy ARP is enabled on this interface. If this value is false, proxy ARP is disabled on the interface. |
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vRtrIfProxyArpLocal | 1.3.6.1.4.1.6527.3.1.2.3.18.1.2 |
If the value of vRtrIfProxyArpLocal is set to true, local proxy ARP is enabled, that is, the interface will reply to ARP requests even if both the hosts are on the same subnet. In this case ICMP redirects will be disabled. If the value of vRtrIfProxyArpLocal is set to false, the interface will not reply to ARP requests if both the hosts are on the same subnet. |
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vRtrIfProxyArpPolicy1 | 1.3.6.1.4.1.6527.3.1.2.3.18.1.3 |
The value of vRtrIfProxyArpPolicy1 is used to specify the first proxy ARP policy for this interface. This policy determines networks and sources for which proxy ARP will be attempted. If this value is set to an empty string, H, the interface does not have a proxy ARP policy associated with it. The value of vRtrIfProxyArpPolicy1 has no effect if vRtrIfProxyArp is set to false. |
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vRtrIfProxyArpPolicy2 | 1.3.6.1.4.1.6527.3.1.2.3.18.1.4 |
The value of vRtrIfProxyArpPolicy2 is used to specify the second proxy ARP policy for this interface. This policy determines networks and sources for which proxy ARP will be attempted. If this value is set to an empty string, H, the interface does not have a proxy ARP policy associated with it. The value of vRtrIfProxyArpPolicy2 has no effect if vRtrIfProxyArp is set to false. |
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vRtrIfProxyArpPolicy3 | 1.3.6.1.4.1.6527.3.1.2.3.18.1.5 |
The value of vRtrIfProxyArpPolicy3 is used to specify the third proxy ARP policy for this interface. This policy determines networks and sources for which proxy ARP will be attempted. If this value is set to an empty string, H, the interface does not have a proxy ARP policy associated with it. The value of vRtrIfProxyArpPolicy3 has no effect if vRtrIfProxyArp is set to false. |
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vRtrIfProxyArpPolicy4 | 1.3.6.1.4.1.6527.3.1.2.3.18.1.6 |
The value of vRtrIfProxyArpPolicy4 is used to specify the fourth proxy ARP policy for this interface. This policy determines networks and sources for which proxy ARP will be attempted. If this value is set to an empty string, H, the interface does not have a proxy ARP policy associated with it. The value of vRtrIfProxyArpPolicy4 has no effect if vRtrIfProxyArp is set to false. |
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vRtrIfProxyArpPolicy5 | 1.3.6.1.4.1.6527.3.1.2.3.18.1.7 |
The value of vRtrIfProxyArpPolicy5 is used to specify the fifth proxy ARP policy for this interface. This policy determines networks and sources for which proxy ARP will be attempted. If this value is set to an empty string, H, the interface does not have a proxy ARP policy associated with it. The value of vRtrIfProxyArpPolicy5 has no effect if vRtrIfProxyArp is set to false. |
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vRtrIfDHCPTable | 1.3.6.1.4.1.6527.3.1.2.3.19 |
The vRtrIfDHCPTable is used to configure the interface parameters for the DHCP Relay agent. |
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1.3.6.1.4.1.6527.3.1.2.3.19.1 |
Each row entry represents information related to DHCP Relay for a virtual router interface in the system. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrIfDHCPRelayInfoOption | 1.3.6.1.4.1.6527.3.1.2.3.19.1.1 |
vRtrIfDHCPRelayInfoOption is used to enable/disable DHCP Option 82. If the value of this object is set to false, DHCP Relay is disabled. |
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vRtrIfDHCPRelayInfoAction | 1.3.6.1.4.1.6527.3.1.2.3.19.1.2 |
vRtrIfDHCPRelayInfoAction is used to configure the DHCP Relay reforwarding policy. replace(1) - replace existing information with DHCP relay information drop(2) - discard messages with existing relay information if the option-82 information is also present. keep(3) - retain the existing relay information. |
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vRtrIfDHCPRelayCircuitId | 1.3.6.1.4.1.6527.3.1.2.3.19.1.3 |
The value of the object vRtrIfDHCPRelayCircuitId specifies whether or not the circuit-id suboption is present, and if it is present what information goes in it. If the value of this object is set to none, the circuit-id suboption will not be part of the information option (option 82). If the value of this object is set to ifIndex, the value of the interface index is used. If the value of this object is set to asciiTuple, the ASCII-encoded concatenated tuple consisting of the - access-node-identifier - service-id - interface-name - SAP-id (only if the value of vRtrIfType is serviceIesGroup) is used. If the value of this object is set to sapId, the ASCII-encoded SAP-id is used. If the value of this object is set to vlan-ascii-tuple - the format will include VLAN-id and dot1p bits in addition to what is included in ascii-tuple already. The format is supported on dot1q and qinq encapsulated ports only. Thus, when the option 82 bits are stripped, dot1p bits will be copied to the Ethernet header of an outgoing packet. -- -- The value sapId(3) can only be used if the interface is a service -- interface. -- The values portId(5) and ifName(6) can only be used if the -- interface is a network interface. |
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vRtrIfDHCPRelayRemoteId | 1.3.6.1.4.1.6527.3.1.2.3.19.1.4 |
The value of vRtrIfDHCPRelayRemoteId specifies what information goes into the remote-id suboption in the DHCP Relay packet. If the value of this object is set to none, the remote-id suboption is left blank. If the value of this object is set to mac, the MAC address of the remote end is encoded in the suboption. If the value of the object is set to remote-id, vRtrIfDHCPRelayRemoteIdStr will be the remote-id. |
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vRtrIfDHCPAutoFilter | 1.3.6.1.4.1.6527.3.1.2.3.19.1.5 |
vRtrIfDHCPAutoFilter allows the router to automatically build anti-spoofing filter lists. When this object is set to a non-zero value, auto-filtering is enabled and a filter allowing only PPPoE or DHCP traffic is established on the interface. The non-zero value indicates the maximum number of entries that the auto-filter can have. These entries are created by the agent upon snooping a valid DHCP Reply packet and are used to allow traffic sourced by the given DHCP-assigned IP address. |
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vRtrIfDHCPRelayServer1 | 1.3.6.1.4.1.6527.3.1.2.3.19.1.6 |
vRtrIfDHCPRelayServer1 is used to configure the first DHCP server where the requests will be forwarded. |
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vRtrIfDHCPRelayServer2 | 1.3.6.1.4.1.6527.3.1.2.3.19.1.7 |
vRtrIfDHCPRelayServer2 is used to configure the second DHCP server where the requests will be forwarded. |
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vRtrIfDHCPRelayServer3 | 1.3.6.1.4.1.6527.3.1.2.3.19.1.8 |
vRtrIfDHCPRelayServer3 is used to configure the third DHCP server where the requests will be forwarded. |
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vRtrIfDHCPRelayServer4 | 1.3.6.1.4.1.6527.3.1.2.3.19.1.9 |
vRtrIfDHCPRelayServer4 is used to configure the fourth DHCP server where the requests will be forwarded. |
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vRtrIfDHCPRelayServer5 | 1.3.6.1.4.1.6527.3.1.2.3.19.1.10 |
vRtrIfDHCPRelayServer5 is used to configure the fifth DHCP server where the requests will be forwarded. |
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vRtrIfDHCPRelayServer6 | 1.3.6.1.4.1.6527.3.1.2.3.19.1.11 |
vRtrIfDHCPRelayServer6 is used to configure the sixth DHCP server where the requests will be forwarded. |
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vRtrIfDHCPRelayServer7 | 1.3.6.1.4.1.6527.3.1.2.3.19.1.12 |
vRtrIfDHCPRelayServer7 is used to configure the seventh DHCP server where the requests will be forwarded. |
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vRtrIfDHCPRelayServer8 | 1.3.6.1.4.1.6527.3.1.2.3.19.1.13 |
vRtrIfDHCPRelayServer8 is used to configure the eighth DHCP server where the requests will be forwarded. |
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vRtrIfDHCPRelayTrusted | 1.3.6.1.4.1.6527.3.1.2.3.19.1.14 |
When the value of vRtrIfDHCPRelayTrusted is set to true(1), the router will relay requests where the DHCP giaddr is zero. |
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vRtrIfDHCPAdminState | 1.3.6.1.4.1.6527.3.1.2.3.19.1.15 |
vRtrIfDHCPAdminState is used to configure the desired administrative state of DHCP on this interface. If the value of vRtrIfType is network this object can only be set to outOfService. |
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vRtrIfDHCPSnooping | 1.3.6.1.4.1.6527.3.1.2.3.19.1.16 |
vRtrIfDHCPSnooping is used to enable/disable snooping of DHCP packets received on interface. |
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vRtrIfDHCPDescription | 1.3.6.1.4.1.6527.3.1.2.3.19.1.17 |
The value of vRtrIfDHCPDescription is a user provided description string for DHCP on this virtual router interface. It can consist of any printable, seven-bit ASCII characters up to 80 characters in length. |
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vRtrIfDHCPAutoFilterId | 1.3.6.1.4.1.6527.3.1.2.3.19.1.18 |
vRtrIfDHCPAutoFilterId maintains the auto-filter identifier being used for this interface. |
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vRtrIfDHCPOperAutoFilter | 1.3.6.1.4.1.6527.3.1.2.3.19.1.19 |
The value of vRtrIfDHCPOperAutoFilter indicates the number of active auto-filter entries per interface. These entries are created in the TIMETRA-FILTER-MIB::tIPFilterTable by the agent by snooping valid DHCP ACK messages. |
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vRtrIfDHCPAuthPolicy | 1.3.6.1.4.1.6527.3.1.2.3.19.1.20 |
Defines which subscriber authentication policy must be applied when a subscriber message (e.g. DHCP, PPPoE, ...) is received on the interface. The authentication policy must be defined in tmnxSubAuthPlcyTable. |
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vRtrIfDHCPLeasePopulate | 1.3.6.1.4.1.6527.3.1.2.3.19.1.21 |
The value of the object vRtrIfDHCPLeasePopulate specifies the maximum number of DHCP lease states allowed on this interface. |
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vRtrIfDHCPOperLeasePopulate | 1.3.6.1.4.1.6527.3.1.2.3.19.1.22 |
The value of the object vRtrIfDHCPOperLeasePopulate indicates the maximum number of DHCP lease states allocated on this interface. |
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vRtrIfDHCPGiAddressType | 1.3.6.1.4.1.6527.3.1.2.3.19.1.23 |
The value of vRtrIfDHCPGiAddressType specifies the type of vRtrIfDHCPGiAddress, the gateway interface address. |
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vRtrIfDHCPGiAddress | 1.3.6.1.4.1.6527.3.1.2.3.19.1.24 |
The value of vRtrIfDHCPGiAddress specifies the gateway interface address. The type of this address is specified by the value of vRtrIfDHCPGiAddressType. |
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vRtrIfDHCPGiAddressAsSrc | 1.3.6.1.4.1.6527.3.1.2.3.19.1.25 |
The value of vRtrIfDHCPGiAddressAsSrc specifies whether the DHCP relay should use the gateway interface address as the source IP address when communicating with the DHCP server. When it is set to true(1), the source IP address used to communicate with the DHCP server is the gateway interface address. When it is false, the source IP is the IP of the egress interface the IP packet goes out on. |
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vRtrIfDHCPMatchOption82 | 1.3.6.1.4.1.6527.3.1.2.3.19.1.26 |
The value of vRtrIfDHCPMatchOption82 specifies whether the DHCP relay should use the circuit ID in the option 82 field in DHCP packets to match DHCP messages. When it is set to true(1), the option 82 circuit ID is used in addition to the MAC address and transaction ID. When it is set to false, only the MAC address and transaction ID are used. |
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vRtrIfDHCPRelayRemoteIdStr | 1.3.6.1.4.1.6527.3.1.2.3.19.1.27 |
The value of vRtrIfDHCPRelayRemoteIdStr specifies the remote-id in the DHCP Relay packet if value of vRtrIfDHCPRelayRemoteId is set to remote-id. |
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vRtrIfDHCPProxyAdminState | 1.3.6.1.4.1.6527.3.1.2.3.19.1.28 |
The value of vRtrIfDHCPProxyAdminState specifies the desired administrative state of the proxy server on this interface. When it is set to inService, the proxy server is enabled only if vRtrIfDHCPAdminState is also set to inService. |
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vRtrIfDHCPProxyServerAddr | 1.3.6.1.4.1.6527.3.1.2.3.19.1.29 |
The value of vRtrIfDHCPProxyServerAddr specifies the IP address which will be used as the source address of the emulated DHCP server. If this IP address is not configured, the value of vRiaIpAddress will be used as the source address of the emulated DHCP server. |
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vRtrIfDHCPProxyLeaseTime | 1.3.6.1.4.1.6527.3.1.2.3.19.1.30 |
The value of vRtrIfDHCPProxyLeaseTime specifies in seconds how long a DHCP client is allowed to use the offered IP address. Value 0 means the lease time provided by a RADIUS or an upstream DHCP server will not be overridden. A lease time of 7 days is used when RADIUS does not provide a lease time. |
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vRtrIfDHCPProxyLTRadiusOverride | 1.3.6.1.4.1.6527.3.1.2.3.19.1.31 |
The value of vRtrIfDHCPProxyLTRadiusOverride specifies whether or not the lease time provided by the RADIUS server is presented to the DHCP client. By default the proxy-server will always make use of vRtrIfDHCPProxyLeaseTime, regardless of what lease time information is provided from the RADIUS server. When vRtrIfDHCPProxyLTRadiusOverride is set to true(1), the proxy-server will use the lease time information provided by the RADIUS server, regardless of the configured one. |
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vRtrIfDHCPVendorIncludeOptions | 1.3.6.1.4.1.6527.3.1.2.3.19.1.32 |
The value of vRtrIfDHCPVendorIncludeOptions specifies what is encoded in the Alcatel-Lucent vendor specific sub-option of option 82. -- The values serviceId(2) and sapId(3) can only be used if the -- interface is a service interface. -- The values portId(5) and ifName(6) can only be used if the -- interface is a network interface. -- The value of this object is only used when vRtrIfDHCPRelayInfoAction is replace(1). |
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vRtrIfDHCPVendorOptionString | 1.3.6.1.4.1.6527.3.1.2.3.19.1.33 |
The value of vRtrIfDHCPVendorOptionString specifies the string that goes into the Alcatel-Lucent vendor specific sub-option of option 82. This string is only used when vRtrIfDHCPRelayInfoAction is set to replace(1). |
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vRtrIfDHCPLayer2Header | 1.3.6.1.4.1.6527.3.1.2.3.19.1.34 |
The value of vRtrIfDHCPLayer2Header specificies, together with the value of object vRtrIfDHCPAntiSpoofMacAddr, the MAC address that is used in anti-spoof entries for the lease states on this interface. When it is set to false (2), the client hardware address from the DHCP payload, stored in TIMETRA-SERV-MIB::svcDhcpLseStateChAddr, is used. When it is set to true (1), the behavior depends on the value of vRtrIfDHCPAntiSpoofMacAddr. If vRtrIfDHCPAntiSpoofMacAddr is set to all zeros, the source MAC address in the L2 header of the DHCP packet is used. If vRtrIfDHCPAntiSpoofMacAddr is configured, then its value is used. Only if the corresponding row in the vRtrIfTable has the value of the object vRtrIfType equal to serviceIesGroup, it is allowed to set the value of vRtrIfDHCPLayer2Header to true. |
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vRtrIfDHCPAntiSpoofMacAddr | 1.3.6.1.4.1.6527.3.1.2.3.19.1.35 |
The value of vRtrIfDHCPAntiSpoofMacAddr specifies, together with the value of object vRtrIfDHCPLayer2Header, the MAC address that is used in anti-spoof entries for the lease states on this interface. When vRtrIfDHCPLayer2Header is false (2), the client hardware address from the DHCP payload, stored in TIMETRA-SERV-MIB::svcDhcpLseStateChAddr, is used. When vRtrIfDHCPLayer2Header is true (1) and the value of this object is all zeros, the source MAC address in the L2 header of the DHCP packet is used. When vRtrIfDHCPLayer2Header is true (1) and the value of this object is not all zeros, then this value is used. This object can only be configured if the value of object vRtrIfDHCPLayer2Header is set to true (1). |
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vRtrIfDHCPClientApplications | 1.3.6.1.4.1.6527.3.1.2.3.19.1.36 |
The value of vRtrIfDHCPClientApplications specifies the set of client applications that can make use of the DHCP relay functionality on this interface. |
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vRtrIfDHCPRelayPlainBootp | 1.3.6.1.4.1.6527.3.1.2.3.19.1.37 |
The value of vRtrIfDHCPRelayPlainBootp specifies whether plain bootp messages will be relayed. If set to disabled, the system will consider plain bootp packets as malformed DHCP packets and hence will not relay these messages. |
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vRtrIfDHCPUserDb | 1.3.6.1.4.1.6527.3.1.2.3.19.1.38 |
The value of vRtrIfDHCPUserDb specifies the local user database to authenticate against. If no authentication with the local user database is required, the value of this object must be set to the empty string. |
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vRtrIfDHCPUseArpForReply | 1.3.6.1.4.1.6527.3.1.2.3.19.1.39 |
The value of vRtrIfDHCPUseArpForReply specifies, how the system determines the Hw address for outgoing IP packets. If set to false, the DHCP CHADDR (Client Hardware Address) is used. If set to true the CHADDR is ignored, and ARP is used to determine the Hw address. Is set to TRUE, the system will accept all DHCP messages with CHADDR set to 00:00:00:00:00:00. This option only has effect on ethernet interfaces. |
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vRtrIfDHCPFilterId | 1.3.6.1.4.1.6527.3.1.2.3.19.1.40 |
The value of vRtrIfDHCPFilterId specifies the DHCP filter to apply. If no filtering is required, the value of this object must be set to 0. |
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vRtrIfDHCPRelayStatsTable | 1.3.6.1.4.1.6527.3.1.2.3.20 |
The vRtrIfDHCPRelayStatsTable contains the statistics for the DHCP Relay agent. |
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1.3.6.1.4.1.6527.3.1.2.3.20.1 |
Each row entry represents information related to DHCP Relay statistics for a virtual router interface in the system. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrIfDHCPRelayRxPkts | 1.3.6.1.4.1.6527.3.1.2.3.20.1.1 |
vRtrIfDHCPRelayRxPkts indicates the total number of packets received by the DHCP relay agent. |
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vRtrIfDHCPRelayTxPkts | 1.3.6.1.4.1.6527.3.1.2.3.20.1.2 |
vRtrIfDHCPRelayTxPkts indicates the total number of packets transmitted by the DHCP relay agent. |
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vRtrIfDHCPRelayRxMalformedPkts | 1.3.6.1.4.1.6527.3.1.2.3.20.1.3 |
vRtrIfDHCPRelayRxMalformedPkts indicates the total number of malformed packets received by the DHCP relay agent. |
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vRtrIfDHCPRelayRxUntrustedPkts | 1.3.6.1.4.1.6527.3.1.2.3.20.1.4 |
vRtrIfDHCPRelayRxUntrustedPkts indicates the total number of untrusted packets received by the DHCP relay agent. |
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vRtrIfDHCPRelayClientPktsDiscarded | 1.3.6.1.4.1.6527.3.1.2.3.20.1.5 |
vRtrIfDHCPRelayClientPktsDiscarded indicates the total number of client packets dicarded by the DHCP relay agent. |
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vRtrIfDHCPRelayClientPktsRelayed | 1.3.6.1.4.1.6527.3.1.2.3.20.1.6 |
vRtrIfDHCPRelayClientPktsRelayed indicates the total number of client packets relayed by the DHCP relay agent. |
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vRtrIfDHCPRelayServerPktsDiscarded | 1.3.6.1.4.1.6527.3.1.2.3.20.1.7 |
vRtrIfDHCPRelayServerPktsDiscarded indicates the total number of server packets discarded by the DHCP relay agent. |
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vRtrIfDHCPRelayServerPktsRelayed | 1.3.6.1.4.1.6527.3.1.2.3.20.1.8 |
vRtrIfDHCPRelayServerPktsRelayed indicates the total number of server packets relayed by the DHCP relay agent. |
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vRtrIfDHCPRelayAuthPktsDiscarded | 1.3.6.1.4.1.6527.3.1.2.3.20.1.9 |
vRtrIfDHCPRelayAuthPktsDiscarded indicates the total number of packets discarded because authentication was not successful. |
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vRtrIfDHCPRelayAuthPktsSuccess | 1.3.6.1.4.1.6527.3.1.2.3.20.1.10 |
vRtrIfDHCPRelayAuthPktsSuccess indicates the total number of packets for which authentication was successful. |
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vRtrIfDHCPRelayClientPktsSnooped | 1.3.6.1.4.1.6527.3.1.2.3.20.1.11 |
vRtrIfDHCPRelayClientPktsSnooped indicates the total number of client packets snooped by the DHCP relay agent. |
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vRtrIfDHCPRelayServerPktsSnooped | 1.3.6.1.4.1.6527.3.1.2.3.20.1.12 |
vRtrIfDHCPRelayServerPktsSnooped indicates the total number of server packets snooped by the DHCP relay agent. |
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vRtrIfDHCPRelayClientPktsProxRad | 1.3.6.1.4.1.6527.3.1.2.3.20.1.13 |
vRtrIfDHCPRelayClientPktsProxRad indicates the total number of client packets proxied by the DHCP relay agent based on data received from a RADIUS server. |
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vRtrIfDHCPRelayClientPktsProxLS | 1.3.6.1.4.1.6527.3.1.2.3.20.1.14 |
vRtrIfDHCPRelayClientPktsProxLS indicates the total number of client packets proxied by the DHCP relay agent based on a lease state. The lease itself can have been obtained from a DHCP or RADIUS server. This is the so called lease split functionality. |
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vRtrIfDHCPRelayPktsGenRelease | 1.3.6.1.4.1.6527.3.1.2.3.20.1.15 |
vRtrIfDHCPRelayPktsGenRelease indicates the total number of DHCP RELEASE messages spoofed by the DHCP relay agent to the DHCP server. |
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vRtrIfDHCPRelayPktsGenForceRenew | 1.3.6.1.4.1.6527.3.1.2.3.20.1.16 |
vRtrIfDHCPRelayPktsGenForceRenew indicates the total number of DHCP FORCERENEW messages spoofed by the DHCP relay agent to the DHCP clients. |
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tmnxVRtrNotificationObjects | 1.3.6.1.4.1.6527.3.1.2.3.21 | |||
vRtrAutoFilterDHCPClientAddress | 1.3.6.1.4.1.6527.3.1.2.3.21.1 |
The Client IP address from the PDU causing the trap. Used by tmnxVRtrDHCPAFEntriesExceeded to report the clients IP address. |
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vRtrAutoFilterDHCPClientLease | 1.3.6.1.4.1.6527.3.1.2.3.21.2 |
The lease time specified in the PDU causing the trap. Used by tmnxVRtrDHCPAFEntriesExceeded to report the lease time. |
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vRtrDHCPClientLease | 1.3.6.1.4.1.6527.3.1.2.3.21.3 |
The value of the object vRtrDHCPClientLease indicates the lease time specified in the PDU causing the trap. |
||
vRtrDhcpLseStateOldCiAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.4 |
The value of the object vRtrDhcpLseStateOldCiAddr indicates the Client IP address that was formerly assigned to this Least state. |
||
vRtrDhcpLseStateOldChAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.5 |
The value of the object vRtrDhcpLseStateOldChAddr indicates the Client MAC address that was formerly assigned to this Least state. |
||
vRtrDhcpLseStateNewCiAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.6 |
The value of the object vRtrDhcpLseStateNewCiAddr indicates the Client IP address specified in the PDU causing the trap. |
||
vRtrDhcpLseStateNewChAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.7 |
The value of the object vRtrDhcpLseStateNewChAddr indicates the Client MAC address specified in the PDU causing the trap. |
||
vRtrDhcpRestoreLseStateCiAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.8 |
The value of the object vRtrDhcpRestoreLseStateCiAddr indicates the IP address specified in the persistency record causing the trap. |
||
vRtrDhcpRestoreLseStateVRtrId | 1.3.6.1.4.1.6527.3.1.2.3.21.9 |
The value of the object vRtrDhcpRestoreLseStateVRtrId indicates the serviceId specified in the persistency record causing the trap. |
||
vRtrDhcpRestoreLseStateIfIndex | 1.3.6.1.4.1.6527.3.1.2.3.21.10 |
The value of the object vRtrDhcpRestoreLseStateIfIndex indicates the Port ID specified in the persistency record causing the trap. |
||
vRtrDhcpRestoreLseStateProblem | 1.3.6.1.4.1.6527.3.1.2.3.21.11 |
The value of the object vRtrDhcpRestoreLseStateProblem indicates why the persisency record cannot be restored. |
||
vRtrDhcpPacketProblem | 1.3.6.1.4.1.6527.3.1.2.3.21.12 |
The value of the object vRtrDhcpPacketProblem indicates information on a received DHCP packet is considered suspicious by the system. |
||
vRtrDhcpLseStatePopulateError | 1.3.6.1.4.1.6527.3.1.2.3.21.13 |
The value of the object vRtrDhcpLseStatePopulateError indicates the reason why the system was unable to update the Lease state table with the information contained in the received DHCP ACK message. |
||
vRtrBfdSlotNumber | 1.3.6.1.4.1.6527.3.1.2.3.21.14 |
The value of vRtrBfdSlotNumber indicates the IOM slot number where the number of supported BFD sessions has reached the maximum value. This object is reported when the tmnxVRtrBfdMaxSessionOnSlot notification is generated. |
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vRtrNumberOfBfdSessionsOnSlot | 1.3.6.1.4.1.6527.3.1.2.3.21.15 |
The value of vRtrNumberOfBfdSessionsOnSlot indicates the current number of BFD sessions on the slot indicated by vRtrBfdSlotNumber. This object is reported when the tmnxVRtrBfdMaxSessionOnSlot notification is generated. |
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vRtrBfdMaxSessionReason | 1.3.6.1.4.1.6527.3.1.2.3.21.16 |
The value of vRtrBfdMaxSessionReason indicates the reason the maximum numbers of sessions on this IOM slot was reached. This object is reported when the tmnxVRtrBfdMaxSessionOnSlot notification is generated. |
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vRtrDHCP6ServerNetAddrType | 1.3.6.1.4.1.6527.3.1.2.3.21.17 |
The value of the object vRtrDHCP6ServerNetAddrType indicates the address type of vRtrDHCP6ServerNetAddr. |
||
vRtrDHCP6ServerNetAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.18 |
The value of the object vRtrDHCP6ServerNetAddr indicates the IP address of the DHCP server. |
||
vRtrDHCP6ClientNetAddrType | 1.3.6.1.4.1.6527.3.1.2.3.21.19 |
The value of the object vRtrDHCP6ClientNetAddrType indicates the address type of vRtrDHCP6ClientNetAddr. |
||
vRtrDHCP6ClientNetAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.20 |
The value of the object vRtrDHCP6ClientNetAddr indicates the IP address of the DHCP client. |
||
vRtrDHCP6AssignedNetAddrType | 1.3.6.1.4.1.6527.3.1.2.3.21.21 |
The value of the object vRtrDHCP6AssignedNetAddrType indicates the address type of vRtrDHCP6AssignedNetAddr. |
||
vRtrDHCP6AssignedNetAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.22 |
The value of the object vRtrDHCP6AssignedNetAddr indicates the IP address assigned to the DHCP client. |
||
vRtrDHCP6AssignedPrefixLen | 1.3.6.1.4.1.6527.3.1.2.3.21.23 |
The value of vRtrDHCP6AssignedPrefixLen specifies the length of the IP netmask for vRtrDHCP6AssignedNetAddr. |
||
vRtrDHCP6OldAssignedNetAddrType | 1.3.6.1.4.1.6527.3.1.2.3.21.24 |
The value of the object vRtrDHCP6OldAssignedNetAddrType indicates the address type of vRtrDHCP6OldAssignedNetAddr. |
||
vRtrDHCP6OldAssignedNetAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.25 |
The value of the object vRtrDHCP6OldAssignedNetAddr indicates the IP address formerly assigned to the DHCP client. |
||
vRtrDHCP6OldAssignedPrefixLen | 1.3.6.1.4.1.6527.3.1.2.3.21.26 |
The value of vRtrDHCP6OldAssignedPrefixLen specifies the length of the IP netmask for vRtrDHCP6OldAssignedNetAddr. |
||
vRtrDHCP6NewClientId | 1.3.6.1.4.1.6527.3.1.2.3.21.27 |
The value of vRtrDHCP6NewClientId indicates the new DHCP6 clients unique identifier (DUID). |
||
vRtrDHCP6OldClientId | 1.3.6.1.4.1.6527.3.1.2.3.21.28 |
The value of vRtrDHCP6OldClientId indicates the old DHCP6 clients unique identifier (DUID). |
||
vRtrDHCP6LeaseOverrideResult | 1.3.6.1.4.1.6527.3.1.2.3.21.29 |
The value of the object vRtrDHCP6LeaseOverrideResult indicates whether or not the lease state has been overridden. |
||
vRtrInetStatRteCpeNotifyAddrType | 1.3.6.1.4.1.6527.3.1.2.3.21.30 |
The value of the object vRtrInetStatRteCpeNotifyAddrType indicates the address type of vRtrInetStatRteCpeNotifyAddr. |
||
vRtrInetStatRteCpeNotifyAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.31 |
The value of the object vRtrInetStatRteCpeNotifyAddr indicates the IP address of the CPE. |
||
vRtrInetStaticRouteCpeStatus | 1.3.6.1.4.1.6527.3.1.2.3.21.32 |
The value of the object vRtrInetStaticRouteCpeStatus indicates whether or not the CPE associated with a static route is reachable or unreachable. |
||
vRtrManagedRouteInetAddrType | 1.3.6.1.4.1.6527.3.1.2.3.21.33 |
The value of vRtrManagedRouteInetAddrType indicates the address type of vRtrManagedRouteInetAddr. |
||
vRtrManagedRouteInetAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.34 |
The value of vRtrManagedRouteInetAddr indicates the IP address of the managed route. |
||
vRtrManagedRoutePrefixLen | 1.3.6.1.4.1.6527.3.1.2.3.21.35 |
The value of vRtrManagedRoutePrefixLen indicates the prefix length of the subnet associated with vRtrManagedRouteInetAddr. |
||
vRtrFailureDescription | 1.3.6.1.4.1.6527.3.1.2.3.21.36 |
The value of the object vRtrFailureDescription is a printable character string which contains information about the reason why the notification is sent. |
||
vRtrMaxRoutesType | 1.3.6.1.4.1.6527.3.1.2.3.21.37 |
The value of the object vRtrMaxRoutesType indicates the type of the maximum number of routes indicated by vRtrMaxNumRoutes |
||
vRtrSlotOrCpmFlag | 1.3.6.1.4.1.6527.3.1.2.3.21.38 |
The value of the object vRtrSlotOrCpmFlag indicates slot, when we have IOM based sessions and CPM when the sessions are centralised. |
||
vRtrNotifInetAddrType | 1.3.6.1.4.1.6527.3.1.2.3.21.39 |
The value of vRtrNotifInetAddrType indicates the address type of vRtrNotifInetAddr. |
||
vRtrNotifInetAddr | 1.3.6.1.4.1.6527.3.1.2.3.21.40 |
The value of vRtrNotifInetAddr indicates an IP address. |
||
vRtrIfBfdSessChangedProtocol | 1.3.6.1.4.1.6527.3.1.2.3.21.41 |
The value of the object vRtrIfBfdSessChangedProtocol indicates the protocol that changed the state in BFD. |
||
vRtrIfBfdSessProtoChngdState | 1.3.6.1.4.1.6527.3.1.2.3.21.42 |
The value of the object vRtrIfBfdSessProtoChngdState indicates the changed state of vRtrIfBfdSessChangedProtocol in BFD. |
||
vRtrIfDHCPLeaseStateTable | 1.3.6.1.4.1.6527.3.1.2.3.22 |
vRtrIfDHCPLeaseStateTable contains DHCP lease state info for a virtual router interface in the system. The content of this table is moved to the TIMETRA-SERV-MIB::svcDhcpLeaseStateTable. |
||
1.3.6.1.4.1.6527.3.1.2.3.22.1 |
DHCP lease state information for a virtual router interface. |
|||
vRtrIfDHCPLseStateCiAddr | 1.3.6.1.4.1.6527.3.1.2.3.22.1.1 |
The value of the object vRtrIfDHCPLseStateCiAddr indicates the IP address of the DHCP lease state. |
||
vRtrIfDHCPLseStateChAddr | 1.3.6.1.4.1.6527.3.1.2.3.22.1.2 |
The value of the object vRtrIfDHCPLseStateChAddr indicates the MAC address of the DHCP lease state. |
||
vRtrIfDHCPLseStateRemainLseTime | 1.3.6.1.4.1.6527.3.1.2.3.22.1.3 |
The value of the object vRtrIfDHCPLseStateRemainLseTime indicates the remaining lease time of the IP address of the DHCP lease state. |
||
vRtrIfDHCPLseStateOption82 | 1.3.6.1.4.1.6527.3.1.2.3.22.1.4 |
vRtrIfDHCPLseStateOption82 indicates the content of the Option82 for this DHCP lease state. |
||
vRtrIfDHCPLseStatePersistKey | 1.3.6.1.4.1.6527.3.1.2.3.22.1.5 |
The value of the object vRtrIfDHCPLseStatePersistKey indicates a key value that can be used to track this lease state in the persistence file. |
||
vRtrAdvPrefixTable | 1.3.6.1.4.1.6527.3.1.2.3.23 |
This table allows the user to configure IPv6 prefixes for router advertisements on an interface |
||
1.3.6.1.4.1.6527.3.1.2.3.23.1 |
An entry in the vRtrAdvPrefixTable. |
|||
vRtrAdvPrefixIfIndex | 1.3.6.1.4.1.6527.3.1.2.3.23.1.1 |
The index value which uniquely identifies the interface on which this prefix is configured. The interface identified by a particular value of this index is the same interface as identified by the same value of the IF-MIBs ifIndex. |
||
vRtrAdvPrefixPrefix | 1.3.6.1.4.1.6527.3.1.2.3.23.1.2 |
The ipv6 address prefix. The length of this object is the standard length (16 bytes ) for IPv6 prefixes. |
||
vRtrAdvPrefixLength | 1.3.6.1.4.1.6527.3.1.2.3.23.1.3 |
The prefix length associated with this prefix. The value 0 has no special meaning for this object. |
||
vRtrAdvPrefixRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.23.1.4 |
The row status used for creation and deletion of router advertisement prefix entries. |
||
vRtrAdvPrefixOnLinkFlag | 1.3.6.1.4.1.6527.3.1.2.3.23.1.5 |
This object has the value true(1), if this prefix can be used for on-link determination and the value false(2) otherwise. |
||
vRtrAdvPrefixAutonomousFlag | 1.3.6.1.4.1.6527.3.1.2.3.23.1.6 |
Autonomous address configuration flag. When true(1), indicates that this prefix can be used for autonomous address configuration (i.e. can be used to form a local interface address). If false(2), it is not used to auto- configure a local interface address. |
||
vRtrAdvPrefixPreferredLifetime | 1.3.6.1.4.1.6527.3.1.2.3.23.1.7 |
The remaining length of time in seconds that this prefix will continue to be preferred, i.e. time until deprecation. A value of 4,294,967,295 represents infinity. The address generated from a deprecated prefix should no longer be used as a source address in new communications, but packets received on such an interface are processed as expected. |
||
vRtrAdvPrefixValidLifetime | 1.3.6.1.4.1.6527.3.1.2.3.23.1.8 |
The remaining length of time, in seconds, that this prefix will continue to be valid, i.e. time until invalidation. A value of 4,294,967,295 represents infinity. The address generated from an invalidated prefix should not appear as the destination or source address of a packet. |
||
vRtrInetStaticRouteTable | 1.3.6.1.4.1.6527.3.1.2.3.24 |
The table of addressing information relevant to this entitys Static Routing table. |
||
1.3.6.1.4.1.6527.3.1.2.3.24.1 |
A particular route to a particular destination, through a particular next hop. |
|||
vRtrInetStaticRouteDestType | 1.3.6.1.4.1.6527.3.1.2.3.24.1.1 |
The value of vRtrInetStaticRouteDestType indicates the address type of vRtrInetStaticRouteDest address. |
||
vRtrInetStaticRouteDest | 1.3.6.1.4.1.6527.3.1.2.3.24.1.2 |
The value of vRtrInetStaticRouteDest indicates the destination IP address of this static route. |
||
vRtrInetStaticRouteDestPfxLen | 1.3.6.1.4.1.6527.3.1.2.3.24.1.3 |
The value of vRtrInetStaticRouteDestPfxLen indicates the prefix length associated with the vRtrInetStaticRouteDest address. |
||
vRtrInetStaticRouteIndex | 1.3.6.1.4.1.6527.3.1.2.3.24.1.4 |
The value of vRtrInetStaticRouteIndex indicates the fifth index for the vRtrInetStaticRouteTable. The fifth index to vRtrInetStaticRouteTable identifies a specific next-hop route to distinguish it from other routes that share the same destination address. |
||
vRtrInetStaticRouteRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.24.1.5 |
vRtrInetStaticRouteRowStatus controls the creation and deletion of rows in the table. |
||
vRtrInetStaticRouteLastEnabledTime | 1.3.6.1.4.1.6527.3.1.2.3.24.1.6 |
The value of vRtrInetStaticRouteLastEnabledTime indicates the sysUpTime value when vRtrInetStaticRouteStatus was last set to active (1) to allow IP forwarding on this static route entry. |
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vRtrInetStaticRouteStatus | 1.3.6.1.4.1.6527.3.1.2.3.24.1.7 |
The value of vRtrInetStaticRouteStatus indicates whether or not this route entry is active in the system. When an interface transitions to the down state, any associated route entries are marked as inactive and are usually not displayed in a standard route table listing. When the interface transitions to the up state, the agent marks the associated routes as active |
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vRtrInetStaticRouteStaticType | 1.3.6.1.4.1.6527.3.1.2.3.24.1.8 |
The value of vRtrInetStaticRouteStaticType specifies the type of static route represented by this row entry. The values of vRtrInetStaticRouteNextHopType, vRtrInetStaticRouteNextHop, vRtrInetStaticRouteNextHopIf and vRtrInetStaticRouteNHTunnelName depends on the value of vRtrInetStaticRouteStaticType. For details please look at the following chart: vRtrInetStaticRouteStaticType unknown nexthop indirect blackHole grt --------------------------------------------------------------------- vRtrInetStaticRouteNextHopType unknown valid valid unknown unknown vRtrInetStaticRouteNextHop null valid valid null null vRtrInetStaticRouteNextHopIf null valid null null null vRtrInetStaticRouteNHTunnelName null valid null null null Though all the values of vRtrInetStaticRouteNextHop, vRtrInetStaticRouteNextHopIf and vRtrInetStaticRouteNHTunnelName can be valid when the value of vRtrInetStaticRouteStaticType is nexthop, please note that at most only one of them can have a non null string. |
||
vRtrInetStaticRoutePreference | 1.3.6.1.4.1.6527.3.1.2.3.24.1.9 |
The value of vRtrInetStaticRoutePreference specifies the priority of this static route versus the routes from different sources such as BGP or OSPF etc. Different protocols should not be configured with the same preference, if this occurs the tiebreaker is determined per the default preference value as defined in the table below. If multiple routes are learned with an identical preference using the same protocol, the lowest cost is used. If multiple routes are learned with an identical preference using the same protocol and the costs (metrics) are equal, then the decision as to what route to use is determined by the configuration of the ecmp command. Default preferences. Route Type Preference Configurable ---------- ---------- ------------ Direct attached 0 no Static-route 5 yes MPLS (post FCS) 7 OSPF Internal routes 10 no OSPF External 150 yes BGP 170 yes |
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vRtrInetStaticRouteMetric | 1.3.6.1.4.1.6527.3.1.2.3.24.1.10 |
The value of vRtrInetStaticRouteMetric specifies the metric for the static route. When ipCidrRouteProto has a value of netmgmt to specify that this entry is a static route, the value of vRtrInetStaticRouteMetric associates a metric value with the route. This value is used when importing this static route into other protocols such as OSPF. When the metric is configured as zero then the metric configured in OSPF, default-import-metric, applies. This value is also used to determine which static route to install in the forwarding table: If there are multiple static routes with the same preference but unequal metric then the lower cost (metric) route will be installed. If there are multiple static routes with equal preference and metrics then ecmp rules apply. If there are multiple routes with unequal preference then the lower preference route will be installed. |
||
vRtrInetStaticRouteEgressIfIndex | 1.3.6.1.4.1.6527.3.1.2.3.24.1.11 |
The value of vRtrInetStaticRouteEgressIfIndex indicates the outgoing ifIndex for this route as computed by the static-route module. This variable will have a value of 0 if vRtrInetStaticRouteStatus is inactive or if this static route is configured as a black hole. |
||
vRtrInetStaticRouteNextHopType | 1.3.6.1.4.1.6527.3.1.2.3.24.1.12 |
The value of vRtrInetStaticRouteNextHopType specifies the address type of vRtrInetStaticRouteNextHop address. |
||
vRtrInetStaticRouteNextHop | 1.3.6.1.4.1.6527.3.1.2.3.24.1.13 |
The value of vRtrInetStaticRouteNextHop specifies the ip address of the next hop for the static route and it depends on the value of vRtrInetStaticRouteStaticType. At most only one of the values of the three objects: vRtrInetStaticRouteNextHop, vRtrInetStaticRouteNextHopIf and vRtrInetStaticRouteNHTunnelName can be a non null string. If the value of vRtrInetStaticRouteStaticType is unknown or blackHole then the value of vRtrInetStaticRouteNextHopType should be unknown and the values of vRtrInetStaticRouteNextHop, vRtrInetStaticRouteNextHopIf, vRtrInetStaticRouteNHTunnelName should be null strings. |
||
vRtrInetStaticRouteNextHopIf | 1.3.6.1.4.1.6527.3.1.2.3.24.1.14 |
The value of vRtrInetStaticRouteNextHopIf specifies the name of the interface to be used for the next hop of this static route and it depends on the value of vRtrInetStaticRouteStaticType. At most only one of the values of the three objects: vRtrInetStaticRouteNextHop, vRtrInetStaticRouteNextHopIf and vRtrInetStaticRouteNHTunnelName can be a non null string. If the value of vRtrInetStaticRouteStaticType is unknown or blackHole then the value of vRtrInetStaticRouteNextHopType should be unknown and the values of vRtrInetStaticRouteNextHop, vRtrInetStaticRouteNextHopIf, vRtrInetStaticRouteNHTunnelName should be null strings. |
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vRtrInetStaticRouteAdminState | 1.3.6.1.4.1.6527.3.1.2.3.24.1.15 |
The value of vRtrInetStaticRouteAdminState specifies the desired administrative state for this virtual router static route |
||
vRtrInetStaticRouteIgpShortcut | 1.3.6.1.4.1.6527.3.1.2.3.24.1.16 |
The value of vRtrInetStaticRouteIgpShortcut specifies the Layer 2 tunneling mechanism used for IGP shortcuts. The value of vRtrInetStaticRouteIgpShortcut is valid only for indirect static routes (i.e. vRtrInetStaticRouteStaticType is indirect). The bits of vRtrInetStaticRouteIgpShortcut identify Layer 2 tunneling mechanisms used for IGP shortcuts. If a bit is set, IGP shortcuts associated with that tunneling mechanism will be used to resolve next-hop for the static-route. If no bits are set, IGP shortcuts will not be used to resolve next-hop for the static routes. The tunneling mechanisms represented by each bit are: te(0) - RSVP Traffic Engineering ldp(1) - LDP /32 Route Forwarding Equivalence Class (FEC) ip(2) - IP (IP-in-IP or GRE) Evaluation of tunnel preference is based on the following order, in descending priority: 1. Traffic Engineered Shortcut (RSVP-TE) 2. LDP /32 Route FEC Shortcut 3. IP Shortcut (IP-in-IP or GRE) 4. Actual IGP Next-Hop. |
||
vRtrInetStaticRouteDisallowIgp | 1.3.6.1.4.1.6527.3.1.2.3.24.1.17 |
The value of vRtrInetStaticRouteDisallowIgp specifies if IGP shortcuts are to be used or not. The value of vRtrInetStaticRouteDisallowIgp is valid only for indirect static routes (i.e. vRtrInetStaticRouteStaticType is indirect). If the value of vRtrInetStaticRouteDisallowIgp is set to true, and if none of the defined tunneling mechanisms (RSVP-TE, LDP or IP) qualify as a next-hop, the normal IGP next-hop to the indirect next-hop address will not be used. If the value is set to false, IGP next-hop to the indirect next-hop address can be used as the next-hop of the last resort. |
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vRtrInetStaticRouteTag | 1.3.6.1.4.1.6527.3.1.2.3.24.1.18 |
The value of vRtrInetStaticRouteTag specifies a 32-bit integer tag that is used to add to the static route. This tag could then be used in route policies to control distribution of the route into other protocols. A value of 0 indicates that the tag has not been set. |
||
vRtrInetStaticRouteEnableBfd | 1.3.6.1.4.1.6527.3.1.2.3.24.1.19 |
The value of vRtrInetStaticRouteEnableBfd specifies whether or not Bi-directional Forwarding Detection is enabled on this static route. When the value is true, this static-route can establish BFD sessions and use BFD as a signalling mechanism. When it is false, it cannot use BFD. |
||
vRtrInetStaticRouteCpeAddrType | 1.3.6.1.4.1.6527.3.1.2.3.24.1.20 |
The value of vRtrInetStaticRouteCpeAddrType specifies the address type of vRtrInetStaticRouteCpeAddr address. When the value of vRtrInetStaticRouteCpeAddrType is not unknown, statitistics for the Customer-Provided Equipment (CPE) host checks for this static route entry will be found in the sparsely dependent table extension, vRtrInetStatRteCpeChkStatsTable. |
||
vRtrInetStaticRouteCpeAddr | 1.3.6.1.4.1.6527.3.1.2.3.24.1.21 |
The value of vRtrInetStaticRouteCpeAddr specifies the IP address of the target CPE device. When this object is configured, ICMP pings will be sent to this target IP address to determine CPE connectivity and whether this static route should be active. When the value of vRtrInetStaticRouteCpeAddr is non-empty, statitistics for the CPE host checks for this static route entry will be found in the sparsely dependent table extension, vRtrInetStatRteCpeChkStatsTable. |
||
vRtrInetStaticRouteCpeInterval | 1.3.6.1.4.1.6527.3.1.2.3.24.1.22 |
The value of vRtrInetStaticRouteCpeInterval specifies the interval, in seconds, between ICMP pings to the target CPE IP address, vRtrInetStaticRouteCpeAddr. |
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vRtrInetStaticRouteCpeDropCnt | 1.3.6.1.4.1.6527.3.1.2.3.24.1.23 |
The value of vRtrInetStaticRouteCpeDropCnt specifies the number of consecutive ping-replies that must be missed before concluding the CPE is down. If the CPE is determined to be down, the associated static route will be deactivated. |
||
vRtrInetStaticRouteCpeEnableLog | 1.3.6.1.4.1.6527.3.1.2.3.24.1.24 |
The value of vRtrInetStaticRouteCpeEnableLog specifies whether to enable the logging of transitions between active and in-active based on the CPE connectivity check. A value of true (1) indicates that logging should be enabled. |
||
vRtrInetStaticRouteNHTunnelName | 1.3.6.1.4.1.6527.3.1.2.3.24.1.25 |
The value of vRtrInetStaticRouteNHTunnelName specifies the name of the IPsec tunnel to be used for the nexthop of this static route and it depends on the value of vRtrInetStaticRouteStaticType. The value of vRtrInetStaticRouteNHTunnelName is valid only for static routes configured for a vprn service. An inconsistentValue error is returned if an attempt is made to set this object for the base instance which can be identified by vRtrID value of 1. At most only one of the values of the three objects: vRtrInetStaticRouteNextHop, vRtrInetStaticRouteNextHopIf and vRtrInetStaticRouteNHTunnelName can be a non null string. If the value of vRtrInetStaticRouteStaticType is blackHole then the value of vRtrInetStaticRouteNextHopType should be unknown and the values of vRtrInetStaticRouteNextHop, vRtrInetStaticRouteNextHopIf, vRtrInetStaticRouteNHTunnelName should be null strings. |
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vRtrInetStaticRoutePrefixListName | 1.3.6.1.4.1.6527.3.1.2.3.24.1.26 |
The value of vRtrInetStaticRoutePrefixListName specifies the name of a prefix list to match on. This value allows the existence of specified routes within the Route Table Manager (RTM) to trigger the addition of a static route in the RTM. If any of the routes specified in the vRtrInetStaticRoutePrefixListName exists in the RTM, then the associated static route should be added to the RTM. |
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vRtrInetStaticRoutePrefixListFlag | 1.3.6.1.4.1.6527.3.1.2.3.24.1.27 |
The value of vRtrInetStaticRoutePrefixListFlag specifies the routes to match on from vRtrInetStaticRoutePrefixListName. If all (1) is specified, all of the routes specified in the vRtrInetStaticRoutePrefixListName should exist in the Route Table Manager (RTM) for the associated static-route to be added in the RTM. If none (2) is specified, none of the routes specified in the vRtrInetStaticRoutePrefixListName should exist in the RTM for the associated static-route to be added in the RTM. The value of vRtrInetStaticRoutePrefixListFlag will be reset to the default value when vRtrInetStaticRoutePrefixListName is set to the default value. |
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vRtrInetStaticRouteLdpSync | 1.3.6.1.4.1.6527.3.1.2.3.24.1.28 |
The value of vRtrInetStaticRouteLdpSync specifies whether the the LDP synchronization timer for this route on an interface, vRtrIfLdpSyncTimer, is enabled or not. If the value of vRtrInetStaticRouteLdpSync is true (1), this static route would not enable the preferred route immediately after the interface to the next-hop comes up but would wait for the LDP adjacency on the link to come up and start the ldp sync timer, vRtrIfLdpSyncTimer. On timer expiration, routing will enable the static route. If the value of vRtrInetStaticRouteLdpSync is false (2), vRtrIfLdpSyncTimer would not be applied to this static route. |
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vRtrInetStaticRouteFC | 1.3.6.1.4.1.6527.3.1.2.3.24.1.29 |
The value of vRtrInetStaticRouteFC specifies the forwarding class associated with the static route. This object can take one of the following eight values - be, l2, af, l1, h2, ef, h1 or nc. An inconsistentValue error is returned if an attempt is made to set this object to a non-default value when vRtrInetStaticRouteStaticType is not set to either indirect or nexthop. |
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vRtrInetStaticRouteFCPriority | 1.3.6.1.4.1.6527.3.1.2.3.24.1.30 |
The value of vRtrInetStaticRouteFCPriority specifies the priority to be assigned to the static routes. An inconsistentValue error is returned if an attempt is made to set this object to a non-default value when vRtrInetStaticRouteStaticType is not set to either indirect or nexthop. |
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vRtrInetStaticRouteIndexTable | 1.3.6.1.4.1.6527.3.1.2.3.25 |
This entitys Static Route Index Table. |
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1.3.6.1.4.1.6527.3.1.2.3.25.1 |
The available index for the vRtrInetStaticRouteTable for every destination per virtual router. |
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vRtrInetStaticRouteAvailIndex | 1.3.6.1.4.1.6527.3.1.2.3.25.1.1 |
The value of vRtrInetStaticRouteAvailIndex indicates the available fifth index for the vRtrInetStaticRouteTable. The fifth index to vRtrInetStaticRouteTable identifies a specific next-hop route to distinguish it from other routes that share the same destination address. |
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vRtrInetInstAggrTblLastChged | 1.3.6.1.4.1.6527.3.1.2.3.26 |
Timestamp of the last change to the vRtrInetInstAggrTable either from adding a row or removing a row. |
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vRtrInetInstAggrTable | 1.3.6.1.4.1.6527.3.1.2.3.27 |
The vRtrInetInstAggrTable is the list of configured virtual router aggregations and their operational status information. vRtrInetInstAggrTable specifies the route aggregates that should be generated into the virtual router if at least one contributing route (more specific) is learned. A route could match multiple aggregate statements. For instance, with the following entries: aggregate 10.0.0.0/8 aggregate 10.1.0.0/16 If the route 10.1.1.0/24 is learned, both aggregates would be generated. |
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1.3.6.1.4.1.6527.3.1.2.3.27.1 |
vRtrInetInstAggrEntry indicates an entry (conceptual row) in the vRtrInetInstAggrTable. Entries are created and destroyed by user. |
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vRtrInetAggrIpPrefixType | 1.3.6.1.4.1.6527.3.1.2.3.27.1.1 |
The value of vRtrInetAggrIpPrefixType indicates the IP address type of vRtrInetAggrIpPrefix. |
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vRtrInetAggrIpPrefix | 1.3.6.1.4.1.6527.3.1.2.3.27.1.2 |
The value of vRtrInetAggrIpPrefixType indicates the IP address prefix to match for the aggregation. |
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vRtrInetAggrIpPrefixLen | 1.3.6.1.4.1.6527.3.1.2.3.27.1.3 |
The value of vRtrInetAggrIpPrefixLen indicates the prefix length for vRtrInetAggrIpPrefix, to match for the aggregation. |
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vRtrInetAggrRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.27.1.4 |
vRtrInetAggrRowStatus controls the creation and deletion of rows in the table. |
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vRtrInetAggrLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.27.1.5 |
The value of vRtrInetAggrLastChanged indicates the time stamp of the last change to this row of vRtrInetInstAggrTable. |
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vRtrInetAggrSummaryOnly | 1.3.6.1.4.1.6527.3.1.2.3.27.1.6 |
The value of vRtrInetAggrSummaryOnly specifies if specific routes that make up aggregates are advertised or not. When vRtrInetAggrSummaryOnly has value of true(1), only the aggregate is advertised, the more specfic routes that make up the aggregate are not. When vRtrInetAggrSummaryOnly has value of false(2), both the aggregate and more specific components are advertised. |
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vRtrInetAggrASSet | 1.3.6.1.4.1.6527.3.1.2.3.27.1.7 |
The value of vRtrInetAggrASSet specifies whether the aggregate route has AS-SET. When vRtrInetAggrASSet has value of true(1), the AS-Path of the resulting aggregate will contain an AS-SET containing all AS numbers from the contributing routes. When vRtrInetAggrASSet has value of false(2), the AS-Path will contain no AS-SET and will be originated by the ESR. |
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vRtrInetAggrAggregatorAS | 1.3.6.1.4.1.6527.3.1.2.3.27.1.8 |
The value of vRtrInetAggrAggregatorAS specifies the aggregators ASN. When vRtrInetAggrAggregatorAS is set to non zero, and vRtrInetAggrAggregatorIPAddr is set to non-zero, the supplied ASN and IP address will be used for the aggregator path attributes. When vRtrInetAggrAggregatorAS is not set, the aggregate routes ASN & Router-ID will be used for the aggregator path attributes. This object was obsoleted in release 7.0. It is replaced with the 4-byte AS number defined by vRtrInetAggrAggregatorAS4Byte. |
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vRtrInetAggrAggregatorIPAddr | 1.3.6.1.4.1.6527.3.1.2.3.27.1.9 |
The value of vRtrInetAggrAggregatorIPAddr specifies the aggregators IP address. When vRtrInetAggrAggregatorAS is set to non zero, and vRtrInetAggrAggregatorIPAddr is set to non-zero, the supplied ASN and IP address will be used for the aggregator path attributes. When vRtrInetAggrAggregatorIPAddr is not set, the aggregate routes ASN & Router-ID will be used for the aggregator path attributes. |
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vRtrInetAggrOperState | 1.3.6.1.4.1.6527.3.1.2.3.27.1.10 |
The value of vRtrInetAggrOperState specifies the current operational status of the aggregation entry. |
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vRtrInetAggrAggregatorAS4Byte | 1.3.6.1.4.1.6527.3.1.2.3.27.1.11 |
The value of vRtrInetAggrAggregatorAS4Byte specifies the aggregators Autonomous System Number (ASN). When vRtrInetAggrAggregatorAS4Byte is set to non zero, and vRtrInetAggrAggregatorIPAddr is set to non-zero, the supplied ASN and IP address will be used for the aggregator path attributes. When vRtrInetAggrAggregatorAS4Byte is not set, the aggregate routes ASN and Router-ID will be used for the aggregator path attributes. |
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vRtrInetAggrNextHopType | 1.3.6.1.4.1.6527.3.1.2.3.27.1.12 |
The value of vRtrInetAggrNextHopType specifies whether the aggregate route will be installed in the Forwarding Information Base (FIB) when the route is activated. When vRtrInetAggrNextHopType has a value of none, the aggregate route will not be installed in the FIB. When vRtrInetAggrNextHopType has a value of blackHole and the aggregate route is active, it will be installed in the FIB with a black-hole next-hop and packets matching this route will be discarded. |
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vRtrInetSvcIpRangeTable | 1.3.6.1.4.1.6527.3.1.2.3.28 |
The vRtrInetSvcIpRangeTable has an entry for each IP address range configured for a virtual interface in a virtual router in the system. An interface on the virtual router may have more than one Service IP address range assigned to it. |
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1.3.6.1.4.1.6527.3.1.2.3.28.1 |
Each row entry represents an IP address range assigned a virtual router service interface. Setting RowStatus to active requires values for all column variables to have been assigned. |
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vRtrInetSvcIpRangeAddrType | 1.3.6.1.4.1.6527.3.1.2.3.28.1.1 |
The value of vRtrInetSvcIpRangeAddrType indicates the IP address type of vRtrInetSvcIpRangeAddr. |
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vRtrInetSvcIpRangeAddr | 1.3.6.1.4.1.6527.3.1.2.3.28.1.2 |
The value of vRtrInetSvcIpRangeAddr indicates the IP address service range assigned to a routers service interface. The address type of vRtrInetSvcIpRangeAddr is indicated by vRtrInetSvcIpRangeAddrType. |
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vRtrInetSvcIpRangePfxLen | 1.3.6.1.4.1.6527.3.1.2.3.28.1.3 |
The value of vRtrInetSvcIpRangePfxLen specifies the prefix length to be used with vRtrInetSvcIpRangeAddr for determining the IP address range. |
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vRtrInetSvcIpRangeRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.28.1.4 |
The value of vRtrInetSvcIpRangeRowStatus is used for creation and deletion of IP service prefix ranges. |
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vRtrInetSvcIpRangeExclusive | 1.3.6.1.4.1.6527.3.1.2.3.28.1.5 |
The value of vRtrInetSvcIpRangeExclusive specifies how the set of addresses specified by this entry are interpreted. When the value is true, they are reserved for services only and cannot be assigned to network ports. When the value is false, it could be used for services as well as network ports. |
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vRtrIpNetToPhysicalTable | 1.3.6.1.4.1.6527.3.1.2.3.29 |
The vRtrIpNetToPhysicalTable provides an extension of the ipNetToPhysicalTable in the IP-MIB. |
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1.3.6.1.4.1.6527.3.1.2.3.29.1 |
Each row entry in the vRtrIpNetToPhysicalTable represents additional columns for attributes specific to the Alcatel-Lucent SROS series implementation for the vRtrIpNetToPhysicalTable. |
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vRtrIpNetToPhysicalTimer | 1.3.6.1.4.1.6527.3.1.2.3.29.1.1 |
The value of vRtrIpNetToPhysicalTimer indicates how much longer an ARP entry associated with an vRtrIpNetToPhysicalTable entry remains in the ARP cache. It is initially set to vRtrIfArpTimeout. When vRtrIpNetToPhysicalTimer has a value of zero, 0, the entry is cleared from the cache. |
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vRtrIpNetToPhysicalOperState | 1.3.6.1.4.1.6527.3.1.2.3.29.1.2 |
The value of vRtrIpNetToPhysicalOperState indicates if the ARP entry is being used actively in the ARP Table. When ipNetToPhysicalType has a value dynamic, vRtrIpNetToPhysicalOperState will never have a value of outOfService. |
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vRtrIpNetToPhysicalIsRouter | 1.3.6.1.4.1.6527.3.1.2.3.29.1.3 |
The value of vRtrIpNetToPhysicalIsRouter indicates whether this ipNetToPhysicalEntry is a router. |
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vRtrIpNetToPhysicalMTU | 1.3.6.1.4.1.6527.3.1.2.3.29.1.4 |
The value of vRtrIpNetToPhysicalMTU indicates the MTU of the link attached to this ipNetToPhysicalEntry. |
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vRtrIpNetToPhysicalPort | 1.3.6.1.4.1.6527.3.1.2.3.29.1.5 |
The value of vRtrIpNetToPhysicalPort indicates the ID of the port on which this entry was learned. |
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vRtrIpNetToPhysicalEncap | 1.3.6.1.4.1.6527.3.1.2.3.29.1.6 |
The value of vRtrIpNetToPhysicalEncap indicates the encap value of the SAP this entry was learned on. If this entry was learned on a network port or null-encap SAP, the value of this object will be zero. |
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vRtrInetCidrRouteTable | 1.3.6.1.4.1.6527.3.1.2.3.30 |
The vRtrInetCidrRouteTable provides an extension of the inetCidrRouteTable in the IP-FORWARD-MIB. |
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1.3.6.1.4.1.6527.3.1.2.3.30.1 |
Each row entry in the vRtrInetCidrRouteTable represents additional columns for attributes specific to the Alcatel-Lucent SROS series implementation for the IP route table. |
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vRtrInetCidrRouteLastEnabledTime | 1.3.6.1.4.1.6527.3.1.2.3.30.1.1 |
The vRtrInetCidrRouteLastEnabledTime variable indicates the sysUpTime value when ipCidrRouteStatus was last set to active (1) to allow IP forwarding on this route entry. |
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vRtrInetCidrRoutePreference | 1.3.6.1.4.1.6527.3.1.2.3.30.1.2 |
The value of vRtrInetCidrRoutePreference specifies the priority of this static route versus the routes from different sources such as BGP or OSPF etc, when ipCidrRouteProto has a value of netmgmt to indicate that this entry is a static route. Different protocols should not be configured with the same preference, if this occurs the tiebreaker is determined per the default preference value as defined in the table below. If multiple routes are learned with an identical preference using the same protocol, the lowest cost is used. If multiple routes are learned with an identical preference using the same protocol and the costs (metrics) are equal, then the decision as to what route to use is determined by the configuration of the ecmp command. Default preferences: Route Type Preference Configurable ---------- ---------- ------------ Direct attached 0 no Static-route 5 yes MPLS (post FCS) 7 OSPF Internal routes 10 no OSPF External 150 yes BGP 170 yes |
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vRtrInetCidrRouteMetric | 1.3.6.1.4.1.6527.3.1.2.3.30.1.3 |
The value of vRtrInetCidrRouteMetric indicates the primary routing metric for this route. The semantics of this metric are determined by the routing-protocol specified in the routes ipCidrRouteProto value. |
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vRtrInetCidrRouteIfVRtrId | 1.3.6.1.4.1.6527.3.1.2.3.30.1.4 |
The value of vRtrInetCidrRouteIfVRtrId indicates the virtual router instance of the egress interface defined by inetCidrRouteIfIndex. This object is valid only for subscriber management routes. For all other route types, this object will have a value of zero. |
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vRtrInetCidrRouteTunnEndpntInfo | 1.3.6.1.4.1.6527.3.1.2.3.30.1.5 |
The value of vRtrInetCidrRouteTunnEndpntInfo indicates tunnel endpoint information. The first 4 bytes indicate number of tunnel end-points, the next 4 bytes indicate IGP cost to reach tunnel end-points and the next 64 bytes indicate upto 16 4-byte IPv4 addresses (the number of end-points represented by bytes 1-4 indicate how many addresses are present). When no tunnel endpoints exist, the size of this object will be 0. When atleast one tunnel-endpoint exists, there would be 12 bytes to represent the information related to one tunnel endpoint. |
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vRtrInetCidrProtocolInstance | 1.3.6.1.4.1.6527.3.1.2.3.30.1.6 |
The value of vRtrInetCidrProtocolInstance indicates the instance of the protocol through which this route was learned. A single instance protocol will always return an instance value 0. |
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vRtrInetCidrRouteNextHopType | 1.3.6.1.4.1.6527.3.1.2.3.30.1.7 |
The value of vRtrInetCidrRouteNextHopType indicates the type of next hop for this route. |
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vRtrInetCidrRouteNextHopOwner | 1.3.6.1.4.1.6527.3.1.2.3.30.1.8 |
The value of vRtrInetCidrRouteNextHopOwner indicates the owner of next hop for this route. |
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vRtrInetCidrRouteNHOwnerAuxInfo | 1.3.6.1.4.1.6527.3.1.2.3.30.1.9 |
The value of vRtrInetCidrRouteNHOwnerAuxInfo indicates the auxiliary information for next hop owner as indicated by vRtrInetCidrRouteNextHopOwner. The value of vRtrInetCidrRouteNHOwnerAuxInfo indicates the number of tunnel-ids existing for this next hop type and owner. |
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vRtrInetCidrRouteNHFC | 1.3.6.1.4.1.6527.3.1.2.3.30.1.10 |
The value of vRtrInetCidrRouteNHFC indicates the forwarding class or the sub forwarding class associated with the CIDR route. Specification of a sub forwarding class is also allowed. The format of a sub forwarding class is the concatenation of the base forwarding class and a sub class identifier in the form base-fc-name[.sub-fc-name]. |
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vRtrInetCidrRouteNHPriority | 1.3.6.1.4.1.6527.3.1.2.3.30.1.11 |
The value of vRtrInetCidrRouteNHPriority indicates the priority to be assigned to the CIDR routes. |
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vRtrInetCidrRouteBkupFlags | 1.3.6.1.4.1.6527.3.1.2.3.30.1.12 |
The value of vRtrInetCidrRouteBkupFlags indicates the presence or absence of LFA next-hops and backup routes. none indicates that no next-hop is present. hasLfa indicates that an LFA next-hop is present in addition to the regular next-hop. hasBackup indicates that this route has a backup route. isBackup indicates that this route is a backup route to another route with the same prefix. |
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vRtrInetCidrRouteBkupNextHopType | 1.3.6.1.4.1.6527.3.1.2.3.30.1.13 |
The value of vRtrInetCidrRouteBkupNextHopType indicates the IP address type of vRtrInetCidrRouteBkupNextHop. The value of vRtrInetCidrRouteBkupNextHopType is only valid when vRtrInetCidrRouteBkupFlags has a value of hasLfa. |
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vRtrInetCidrRouteBkupNextHop | 1.3.6.1.4.1.6527.3.1.2.3.30.1.14 |
The value of vRtrInetCidrRouteBkupNextHop indicates the IP address of a backup next-hop. The value of vRtrInetCidrRouteBkupNextHop is only valid when vRtrInetCidrRouteBkupFlags has a value of hasLfa. |
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vRtrInetCidrRouteBkupMetric | 1.3.6.1.4.1.6527.3.1.2.3.30.1.15 |
The value of vRtrInetCidrRouteBkupMetric indicates the routing metric for a backup route. The semantics of this metric are determined by the routing-protocol specified in the routes ipCidrRouteProto value. The value of vRtrInetCidrRouteBkupMetric is only valid when vRtrInetCidrRouteBkupFlags has a value of hasLfa. |
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vRtrInetCidrRouteNextHopRepCount | 1.3.6.1.4.1.6527.3.1.2.3.30.1.16 |
The value of vRtrInetCidrRouteNextHopRepCount indicates the number of times the next-hop repeats for a particular route. |
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vRtrInetCidrRouteBkupNHType | 1.3.6.1.4.1.6527.3.1.2.3.30.1.17 |
The value of vRtrInetCidrRouteBkupNHType indicates the type of next hop for this backup route. |
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vRtrInetCidrRouteBkupNHOwner | 1.3.6.1.4.1.6527.3.1.2.3.30.1.18 |
The value of vRtrInetCidrRouteBkupNHOwner indicates the owner of next hop for this backup route. |
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vRtrInetCidrRouteBkupNHOwnAxInfo | 1.3.6.1.4.1.6527.3.1.2.3.30.1.19 |
The value of vRtrInetCidrRouteBkupNHOwnAxInfo indicates the auxiliary information for next hop owner as indicated by vRtrInetCidrRouteBkupNHOwner. The value of vRtrInetCidrRouteBkupNHOwnAxInfo indicates the tunnel-id existing for this backup next hop type and owner. |
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vRtrIcmp6Table | 1.3.6.1.4.1.6527.3.1.2.3.31 |
The vRtrIcmp6Table table contains statistics of ICMPv6 messages that are received and sourced by a router instance. |
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1.3.6.1.4.1.6527.3.1.2.3.31.1 |
Each row entry represents the ICMP statistics of a virtual router instance. Entries are created and deleted when entries in the vRtrConfEntry are created and deleted. |
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vRtrIcmp6InMsgs | 1.3.6.1.4.1.6527.3.1.2.3.31.1.1 |
The value of vRtrIcmp6InMsgs indicates the total number of ICMP messages received by this router instance which includes all those counted by vRtrIcmp6InErrors. |
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vRtrIcmp6InErrors | 1.3.6.1.4.1.6527.3.1.2.3.31.1.2 |
The value of vRtrIcmp6InErrors indicates the number of ICMP messages which this router instance received but determined as having ICMP-specific errors (bad ICMP checksums, bad length , etc.). |
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vRtrIcmp6InDestUnreachs | 1.3.6.1.4.1.6527.3.1.2.3.31.1.3 |
The value of vRtrIcmp6InDestUnreachs indicates the number of ICMP Destination Unreachable messages received by this router instance. |
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vRtrIcmp6InAdminProhibs | 1.3.6.1.4.1.6527.3.1.2.3.31.1.4 |
The value of vRtrIcmp6InAdminProhibs indicates the number of ICMP destination unreachable/communication administratively prohibited messages received by this router instance. |
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vRtrIcmp6InTimeExcds | 1.3.6.1.4.1.6527.3.1.2.3.31.1.5 |
The value of vRtrIcmp6InTimeExcds indicates the number of ICMP Time Exceeded messages received by this router instance. |
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vRtrIcmp6InParmProblems | 1.3.6.1.4.1.6527.3.1.2.3.31.1.6 |
The value of vRtrIcmp6InParmProblems indicates the number of ICMP Parameter Problem messages received by this router instance. |
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vRtrIcmp6InPktTooBigs | 1.3.6.1.4.1.6527.3.1.2.3.31.1.7 |
The value of vRtrIcmp6InPktTooBigs indicates the number of ICMP Packet Too Big messages received by this router instance. |
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vRtrIcmp6InEchos | 1.3.6.1.4.1.6527.3.1.2.3.31.1.8 |
The value of vRtrIcmp6InEchos indicates the number of ICMP Echo (request) messages received by this router instance. |
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vRtrIcmp6InEchoReplies | 1.3.6.1.4.1.6527.3.1.2.3.31.1.9 |
The value of vRtrIcmp6InEchoReplies indicates the number of ICMP Echo Reply messages received by this router instance. |
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vRtrIcmp6InRtrSolicits | 1.3.6.1.4.1.6527.3.1.2.3.31.1.10 |
The value of vRtrIcmp6InRtrSolicits indicates the number of ICMP Router Solicit messages received by this router instance. |
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vRtrIcmp6InRtrAdvertisements | 1.3.6.1.4.1.6527.3.1.2.3.31.1.11 |
The value of vRtrIcmp6InRtrAdvertisements indicates the number of ICMP Router Advertisement messages received by this router instance. |
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vRtrIcmp6InNbrSolicits | 1.3.6.1.4.1.6527.3.1.2.3.31.1.12 |
The value of vRtrIcmp6InNbrSolicits indicates the number of ICMP Neighbor Solicit messages received by this router instance. |
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vRtrIcmp6InNbrAdvertisements | 1.3.6.1.4.1.6527.3.1.2.3.31.1.13 |
The value of vRtrIcmp6InNbrAdvertisements indicates the number of ICMP Neighbor Advertisement messages received by this router instance. |
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vRtrIcmp6InRedirects | 1.3.6.1.4.1.6527.3.1.2.3.31.1.14 |
The value of vRtrIcmp6InRedirects indicates number of ICMP Redirect messages received by this router instance. |
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vRtrIcmp6InGrpMembQueries | 1.3.6.1.4.1.6527.3.1.2.3.31.1.15 |
The value of vRtrIcmp6InGrpMembQueries indicates the number of ICMP Group Membership Query messages received by this router instance. |
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vRtrIcmp6InGrpMembResponses | 1.3.6.1.4.1.6527.3.1.2.3.31.1.16 |
The value of vRtrIcmp6InGrpMembResponses indicates the number of ICMP Group Membership Response messages received by this router instance. |
||
vRtrIcmp6InGrpMembReductions | 1.3.6.1.4.1.6527.3.1.2.3.31.1.17 |
The value of vRtrIcmp6InGrpMembReductions indicates the number of ICMP Group Membership Reduction messages received by this router instance. |
||
vRtrIcmp6OutMsgs | 1.3.6.1.4.1.6527.3.1.2.3.31.1.18 |
The value of vRtrIcmp6OutMsgs indicates the total number of ICMP messages which this router instance attempted to send. Note that this counter includes all those counted by icmpOutErrors. |
||
vRtrIcmp6OutErrors | 1.3.6.1.4.1.6527.3.1.2.3.31.1.19 |
The value of vRtrIcmp6OutErrors indicates the number of ICMP messages which this router instance did not send due to problems discovered within ICMP such as a lack of buffers. This value should not include errors discovered outside the ICMP layer such as the inability of VRtr IPv6 to route the resultant datagram. In some implementations there may be no types of error which contribute to this counters value. |
||
vRtrIcmp6OutDestUnreachs | 1.3.6.1.4.1.6527.3.1.2.3.31.1.20 |
The value of vRtrIcmp6OutDestUnreachs indicates the number of ICMP Destination Unreachable messages sent by this router instance. |
||
vRtrIcmp6OutAdminProhibs | 1.3.6.1.4.1.6527.3.1.2.3.31.1.21 |
The value of vRtrIcmp6OutAdminProhibs indicates the number of ICMP destination unreachable/communication administratively prohibited messages sent by this router instance. |
||
vRtrIcmp6OutTimeExcds | 1.3.6.1.4.1.6527.3.1.2.3.31.1.22 |
The value of vRtrIcmp6OutTimeExcds indicates the number of ICMP Time Exceeded messages sent by this router instance. |
||
vRtrIcmp6OutParmProblems | 1.3.6.1.4.1.6527.3.1.2.3.31.1.23 |
The value of vRtrIcmp6OutParmProblems indicates the number of ICMP Parameter Problem messages sent by this router instance. |
||
vRtrIcmp6OutPktTooBigs | 1.3.6.1.4.1.6527.3.1.2.3.31.1.24 |
The value of vRtrIcmp6OutPktTooBigs indicates the number of ICMP Packet Too Big messages sent by this router instance. |
||
vRtrIcmp6OutEchos | 1.3.6.1.4.1.6527.3.1.2.3.31.1.25 |
The value of vRtrIcmp6OutEchos indicates the number of ICMP Echo Request messages sent by this router instance. |
||
vRtrIcmp6OutEchoReplies | 1.3.6.1.4.1.6527.3.1.2.3.31.1.26 |
The value of vRtrIcmp6OutEchoReplies indicates the number of ICMP Echo Reply messages sent by this router instance. |
||
vRtrIcmp6OutRtrSolicits | 1.3.6.1.4.1.6527.3.1.2.3.31.1.27 |
The value of vRtrIcmp6OutRtrSolicits indicates the number of ICMP Router Solicitation messages sent by this router instance. |
||
vRtrIcmp6OutRtrAdvertisements | 1.3.6.1.4.1.6527.3.1.2.3.31.1.28 |
The value of vRtrIcmp6OutRtrAdvertisements indicates the number of ICMP Router Advertisement messages sent by this router instance. |
||
vRtrIcmp6OutNbrSolicits | 1.3.6.1.4.1.6527.3.1.2.3.31.1.29 |
The value of vRtrIcmp6OutNbrSolicits indicates the number of ICMP Neighbor Solicitation messages sent by this router instance. |
||
vRtrIcmp6OutNbrAdvertisements | 1.3.6.1.4.1.6527.3.1.2.3.31.1.30 |
The value of vRtrIcmp6OutNbrAdvertisements indicates the number of ICMP Neighbor Advertisement messages sent by this router instance. |
||
vRtrIcmp6OutRedirects | 1.3.6.1.4.1.6527.3.1.2.3.31.1.31 |
The value of vRtrIcmp6OutRedirects indicates the number of ICMP Redirect messages sent by this router instance. |
||
vRtrIcmp6OutGrpMembQueries | 1.3.6.1.4.1.6527.3.1.2.3.31.1.32 |
The value of vRtrIcmp6OutGrpMembQueries indicates the number of ICMP Group Membership Query messages sent by this router instance. |
||
vRtrIcmp6OutGrpMembResponses | 1.3.6.1.4.1.6527.3.1.2.3.31.1.33 |
The value of vRtrIcmp6OutGrpMembResponses indicates the number of ICMP Group Membership Response messages sent by this router instance. |
||
vRtrIcmp6OutGrpMembReductions | 1.3.6.1.4.1.6527.3.1.2.3.31.1.34 |
The value of vRtrIcmp6OutGrpMembReductions indicates the number of ICMP Group Membership Reduction messages sent by this router instance. |
||
vRtrIfIcmp6Table | 1.3.6.1.4.1.6527.3.1.2.3.32 |
The vRtrIfIcmp6Table table contains statistics of ICMPv6 messages that are received and sourced by a router interface. |
||
1.3.6.1.4.1.6527.3.1.2.3.32.1 |
Each row entry represents the ICMP statistics of a virtual router interface. Entries are created and deleted when entries in the vRtrIfTable are created and deleted. |
|||
vRtrIfIcmp6InMsgs | 1.3.6.1.4.1.6527.3.1.2.3.32.1.1 |
The value of vRtrIfIcmp6InMsgs indicates the total number of ICMP messages received by this interface which includes all those counted by vRtrIfIcmp6InErrors. Note that this interface is the interface to which the ICMP messages were addressed which may not be necessarily the input interface for the messages. |
||
vRtrIfIcmp6InErrors | 1.3.6.1.4.1.6527.3.1.2.3.32.1.2 |
The value of vRtrIfIcmp6InErrors indicates the number of ICMP messages which this interface received but determined as having ICMP-specific errors (bad ICMP checksums, bad length , etc.). |
||
vRtrIfIcmp6InDestUnreachs | 1.3.6.1.4.1.6527.3.1.2.3.32.1.3 |
The value of vRtrIfIcmp6InDestUnreachs indicates the number of ICMP Destination Unreachable messages received by this interface. |
||
vRtrIfIcmp6InAdminProhibs | 1.3.6.1.4.1.6527.3.1.2.3.32.1.4 |
The value of vRtrIfIcmp6InAdminProhibs indicates the number of ICMP destination unreachable/communication administratively prohibited messages received by this interface. |
||
vRtrIfIcmp6InTimeExcds | 1.3.6.1.4.1.6527.3.1.2.3.32.1.5 |
The value of vRtrIfIcmp6InTimeExcds indicates the number of ICMP Time Exceeded messages received by this interface. |
||
vRtrIfIcmp6InParmProblems | 1.3.6.1.4.1.6527.3.1.2.3.32.1.6 |
The value of vRtrIfIcmp6InParmProblems indicates the number of ICMP Parameter Problem messages received by this interface. |
||
vRtrIfIcmp6InPktTooBigs | 1.3.6.1.4.1.6527.3.1.2.3.32.1.7 |
The value of vRtrIfIcmp6InPktTooBigs indicates the number of ICMP Packet Too Big messages received by this interface. |
||
vRtrIfIcmp6InEchos | 1.3.6.1.4.1.6527.3.1.2.3.32.1.8 |
The value of vRtrIfIcmp6InEchos indicates the number of ICMP Echo (request) messages received by this interface. |
||
vRtrIfIcmp6InEchoReplies | 1.3.6.1.4.1.6527.3.1.2.3.32.1.9 |
The value of vRtrIfIcmp6InEchoReplies indicates the number of ICMP Echo Reply messages received by this interface. |
||
vRtrIfIcmp6InRtrSolicits | 1.3.6.1.4.1.6527.3.1.2.3.32.1.10 |
The value of vRtrIfIcmp6InRtrSolicits indicates the number of ICMP Router Solicit messages received by this interface. |
||
vRtrIfIcmp6InRtrAdvertisements | 1.3.6.1.4.1.6527.3.1.2.3.32.1.11 |
The value of vRtrIfIcmp6InRtrAdvertisements indicates the number of ICMP Router Advertisement messages received by this interface. |
||
vRtrIfIcmp6InNbrSolicits | 1.3.6.1.4.1.6527.3.1.2.3.32.1.12 |
The value of vRtrIfIcmp6InNbrSolicits indicates the number of ICMP Neighbor Solicit messages received by this interface. |
||
vRtrIfIcmp6InNbrAdvertisements | 1.3.6.1.4.1.6527.3.1.2.3.32.1.13 |
The value of vRtrIfIcmp6InNbrAdvertisements indicates the number of ICMP Neighbor Advertisement messages received by this interface. |
||
vRtrIfIcmp6InRedirects | 1.3.6.1.4.1.6527.3.1.2.3.32.1.14 |
The value of vRtrIfIcmp6InRedirects indicates number of ICMP Redirect messages received by this interface. |
||
vRtrIfIcmp6InGrpMembQueries | 1.3.6.1.4.1.6527.3.1.2.3.32.1.15 |
The value of vRtrIfIcmp6InGrpMembQueries indicates the number of ICMP Group Membership Query messages received by this interface. |
||
vRtrIfIcmp6InGrpMembResponses | 1.3.6.1.4.1.6527.3.1.2.3.32.1.16 |
The value of vRtrIfIcmp6InGrpMembResponses indicates the number of ICMP Group Membership Response messages received by this interface. |
||
vRtrIfIcmp6InGrpMembReductions | 1.3.6.1.4.1.6527.3.1.2.3.32.1.17 |
The value of vRtrIfIcmp6InGrpMembReductions indicates the number of ICMP Group Membership Reduction messages received by this interface. |
||
vRtrIfIcmp6OutMsgs | 1.3.6.1.4.1.6527.3.1.2.3.32.1.18 |
The value of vRtrIfIcmp6OutMsgs indicates the total number of ICMP messages which this interface attempted to send. Note that this counter includes all those counted by icmpOutErrors. |
||
vRtrIfIcmp6OutErrors | 1.3.6.1.4.1.6527.3.1.2.3.32.1.19 |
The value of vRtrIfIcmp6OutErrors indicates the number of ICMP messages which this interface did not send due to problems discovered within ICMP such as a lack of buffers. This value should not include errors discovered outside the ICMP layer such as the inability of VRtr IPv6 to route the resultant datagram. In some implementations there may be no types of error which contribute to this counters value. |
||
vRtrIfIcmp6OutDestUnreachs | 1.3.6.1.4.1.6527.3.1.2.3.32.1.20 |
The value of vRtrIfIcmp6OutDestUnreachs indicates the number of ICMP Destination Unreachable messages sent by this interface. |
||
vRtrIfIcmp6OutAdminProhibs | 1.3.6.1.4.1.6527.3.1.2.3.32.1.21 |
The value of vRtrIfIcmp6OutAdminProhibs indicates the number of ICMP destination unreachable/communication administratively prohibited messages sent by this interface. |
||
vRtrIfIcmp6OutTimeExcds | 1.3.6.1.4.1.6527.3.1.2.3.32.1.22 |
The value of vRtrIfIcmp6OutTimeExcds indicates the number of ICMP Time Exceeded messages sent by this interface. |
||
vRtrIfIcmp6OutParmProblems | 1.3.6.1.4.1.6527.3.1.2.3.32.1.23 |
The value of vRtrIfIcmp6OutParmProblems indicates the number of ICMP Parameter Problem messages sent by this interface. |
||
vRtrIfIcmp6OutPktTooBigs | 1.3.6.1.4.1.6527.3.1.2.3.32.1.24 |
The value of vRtrIfIcmp6OutPktTooBigs indicates the number of ICMP Packet Too Big messages sent by this interface. |
||
vRtrIfIcmp6OutEchos | 1.3.6.1.4.1.6527.3.1.2.3.32.1.25 |
The value of vRtrIfIcmp6OutEchos indicates the number of ICMP Echo Request messages sent by this interface. |
||
vRtrIfIcmp6OutEchoReplies | 1.3.6.1.4.1.6527.3.1.2.3.32.1.26 |
The value of vRtrIfIcmp6OutEchoReplies indicates the number of ICMP Echo Reply messages sent by this interface. |
||
vRtrIfIcmp6OutRtrSolicits | 1.3.6.1.4.1.6527.3.1.2.3.32.1.27 |
The value of vRtrIfIcmp6OutRtrSolicits indicates the number of ICMP Router Solicitation messages sent by this interface. |
||
vRtrIfIcmp6OutRtrSolicitsTime | 1.3.6.1.4.1.6527.3.1.2.3.32.1.28 |
The value of vRtrIfIcmp6OutRtrSolicitsTime indicates the system time when the last router solicitation message was sent by this interface. |
||
vRtrIfIcmp6OutRtrAdvertisements | 1.3.6.1.4.1.6527.3.1.2.3.32.1.29 |
The value of vRtrIfIcmp6OutRtrAdvertisements indicates the number of ICMP Router Advertisement messages sent by this interface. |
||
vRtrIfIcmp6OutRtrAdvTime | 1.3.6.1.4.1.6527.3.1.2.3.32.1.30 |
The value of vRtrIfIcmp6OutRtrAdvTime indicates the system time when the last router advertisement message was sent by this interface. |
||
vRtrIfIcmp6OutNbrSolicits | 1.3.6.1.4.1.6527.3.1.2.3.32.1.31 |
The value of vRtrIfIcmp6OutNbrSolicits indicates the number of ICMP Neighbor Solicitation messages sent by this interface. |
||
vRtrIfIcmp6OutNbrSolicitsTime | 1.3.6.1.4.1.6527.3.1.2.3.32.1.32 |
The value of vRtrIfIcmp6OutNbrSolicitsTime indicates the system time when the last neighbor solicitation message was sent by this interface. |
||
vRtrIfIcmp6OutNbrAdvertisements | 1.3.6.1.4.1.6527.3.1.2.3.32.1.33 |
The value of vRtrIfIcmp6OutNbrAdvertisements indicates the number of ICMP Neighbor Advertisement messages sent by this interface. |
||
vRtrIfIcmp6OutNbrAdvTime | 1.3.6.1.4.1.6527.3.1.2.3.32.1.34 |
The value of vRtrIfIcmp6OutNbrAdvTime indicates the system time when the last neighbor advertisement message was sent by this interface. |
||
vRtrIfIcmp6OutRedirects | 1.3.6.1.4.1.6527.3.1.2.3.32.1.35 |
The value of vRtrIfIcmp6OutRedirects indicates the number of ICMP Redirect messages sent by this interface. |
||
vRtrIfIcmp6OutGrpMembQueries | 1.3.6.1.4.1.6527.3.1.2.3.32.1.36 |
The value of vRtrIfIcmp6OutGrpMembQueries indicates the number of ICMP Group Membership Query messages sent by this interface. |
||
vRtrIfIcmp6OutGrpMembResponses | 1.3.6.1.4.1.6527.3.1.2.3.32.1.37 |
The value of vRtrIfIcmp6OutGrpMembResponses indicates the number of ICMP Group Membership Response messages sent by this interface. |
||
vRtrIfIcmp6OutGrpMembReductions | 1.3.6.1.4.1.6527.3.1.2.3.32.1.38 |
The value of vRtrIfIcmp6OutGrpMembReductions indicates the number of ICMP Group Membership Reduction messages sent by this interface. |
||
vRtrIfBfdTable | 1.3.6.1.4.1.6527.3.1.2.3.33 |
The vRtrIfBfdTable table contains the configuration for Bi-directional Forwarding Detection (BFD) on the vRtrIfEntry with the same indices. The vRtrIfBfdTable is obsoleted and replaced with vRtrIfBfdExtTable in 9.0 Release. |
||
1.3.6.1.4.1.6527.3.1.2.3.33.1 |
Each row entry represents the BFD configuration for an interface. Entries are created and deleted when entries in the vRtrIfTable are created and deleted. The vRtrIfBfdEntry is obsoleted and replaced with vRtrIfBfdExtEntry in 9.0 Release. |
|||
vRtrIfBfdAdminState | 1.3.6.1.4.1.6527.3.1.2.3.33.1.1 |
The value of vRtrIfBfdAdminState specifies the admin state of BFD on this interface. When it is inService, BFD sessions can be established on this interface. When it is outOfService, they cannot. The vRtrIfBfdAdminState object is obsoleted and replaced with vRtrIfBfdExtAdminState object in 9.0 Release. |
||
vRtrIfBfdTransmitInterval | 1.3.6.1.4.1.6527.3.1.2.3.33.1.2 |
The value of vRtrIfBfdTransmitInterval specifies the BFD transmit interval over this interface. The minimum accepted value depends on the value of vRtrIfBfdType, as follows: cpmNp(1) : 10 milliseconds auto(2) : 100 milliseconds. The vRtrIfBfdTransmitInterval object is obsoleted and replaced with vRtrIfBfdExtTransmitInterval object in 9.0 Release. |
||
vRtrIfBfdReceiveInterval | 1.3.6.1.4.1.6527.3.1.2.3.33.1.3 |
The value of vRtrIfBfdReceiveInterval specifies the BFD receive interval over this interface. The minimum accepted value depends on the value of vRtrIfBfdType, as follows: cpmNp(1) : 10 milliseconds auto(2) : 100 milliseconds. The vRtrIfBfdReceiveInterval object is obsoleted and replaced with vRtrIfBfdExtReceiveInterval object in 9.0 Release. |
||
vRtrIfBfdMultiplier | 1.3.6.1.4.1.6527.3.1.2.3.33.1.4 |
The value of vRtrIfBfdMultiplier specifies the the number of consecutive BFD messages that must be missed from the peer before the BFD session state is changed to down and the upper level protocols (OSPF, IS-IS or PIM) are notified of the fault. The vRtrIfBfdMultiplier object is obsoleted and replaced with vRtrIfBfdExtMultiplier object in 9.0 Release. |
||
vRtrIfBfdEchoInterval | 1.3.6.1.4.1.6527.3.1.2.3.33.1.5 |
The value of vRtrIfBfdEchoInterval specifies the BFD echo interval over this interface. The vRtrIfBfdEchoInterval object is obsoleted and replaced with vRtrIfBfdExtEchoInterval object in 9.0 Release. |
||
vRtrIfBfdType | 1.3.6.1.4.1.6527.3.1.2.3.33.1.6 |
The value of vRtrIfBfdType specifies the configured termination of a BFD session on this interface. cpmNp(1) specifies termination on the CPM cards Network Processor. auto(2) specifies a system-selected termination other than the CPM Network Processor. The vRtrIfBfdType object is obsoleted and replaced with vRtrIfBfdExtType object in 9.0 Release. |
||
vRtrIfBfdSessionTable | 1.3.6.1.4.1.6527.3.1.2.3.34 |
The vRtrIfBfdSessionTable table contains per BFD session statistics and operational settings. |
||
1.3.6.1.4.1.6527.3.1.2.3.34.1 |
Each row entry represents a BFD session. Entries are created automatically by the system, or when a static-route is configured to use BFD. |
|||
vRtrIfBfdSessionLclAddrType | 1.3.6.1.4.1.6527.3.1.2.3.34.1.1 |
The value of vRtrIfBfdSessionLclAddrType indicates the address type in vRtrIfBfdSessionLclAddr. |
||
vRtrIfBfdSessionLclAddr | 1.3.6.1.4.1.6527.3.1.2.3.34.1.2 |
The value of vRtrIfBfdSessionLclAddr indicates the address of the local endpoint of this BFD session. Its type is specified by vRtrIfBfdSessionLclAddrType. |
||
vRtrIfBfdSessionRemAddrType | 1.3.6.1.4.1.6527.3.1.2.3.34.1.3 |
The value of vRtrIfBfdSessionRemAddrType indicates the address type in vRtrIfBfdSessionRemAddr. |
||
vRtrIfBfdSessionRemAddr | 1.3.6.1.4.1.6527.3.1.2.3.34.1.4 |
The value of vRtrIfBfdSessionRemAddr indicates the address of the local endpoint of this BFD session. Its type is specified by vRtrIfBfdSessionRemAddrType. |
||
vRtrIfBfdSessionOperState | 1.3.6.1.4.1.6527.3.1.2.3.34.1.5 |
The value of vRtrIfBfdSessionOperState indicates the operational state of BFD on this interface. |
||
vRtrIfBfdSessionState | 1.3.6.1.4.1.6527.3.1.2.3.34.1.6 |
The value of vRtrIfBfdSessionState indicates the state of the BFD protocol on this interface. |
||
vRtrIfBfdSessionOperFlags | 1.3.6.1.4.1.6527.3.1.2.3.34.1.7 |
The value of vRtrIfBfdSessionOperFlags indicates the reasons why a BFD session is not up. |
||
vRtrIfBfdSessionMesgRecv | 1.3.6.1.4.1.6527.3.1.2.3.34.1.8 |
The value of vRtrIfBfdSessionMesgRecv indicates the number of messages received in this session. This object is applicable if vRtrIfBfdSessionType is iom(1) or cpm(2). Otherwise, zero is returned. |
||
vRtrIfBfdSessionMesgSent | 1.3.6.1.4.1.6527.3.1.2.3.34.1.9 |
The value of vRtrIfBfdSessionMesgSent indicates the number of messages sent in this session. This object is applicable if vRtrIfBfdSessionType is iom(1) or cpm(2). Otherwise, zero is returned. |
||
vRtrIfBfdSessionLastDownTime | 1.3.6.1.4.1.6527.3.1.2.3.34.1.10 |
The value of vRtrIfBfdSessionLastDownTime indicates the system time when this session last went down. |
||
vRtrIfBfdSessionLastUpTime | 1.3.6.1.4.1.6527.3.1.2.3.34.1.11 |
The value of vRtrIfBfdSessionLastUpTime indicates the system time when this session last came up. |
||
vRtrIfBfdSessionUpCount | 1.3.6.1.4.1.6527.3.1.2.3.34.1.12 |
The value of vRtrIfBfdSessionUpCount indicates the number of times vRtrIfBfdSessionOperState changed from outOfService to inService. |
||
vRtrIfBfdSessionDownCount | 1.3.6.1.4.1.6527.3.1.2.3.34.1.13 |
The value of vRtrIfBfdSessionDownCount indicates the number of times vRtrIfBfdSessionOperState changed from inService to outOfService. |
||
vRtrIfBfdSessionLclDisc | 1.3.6.1.4.1.6527.3.1.2.3.34.1.14 |
The value of vRtrIfBfdSessionLclDisc indicates the unique local discriminator for this session. |
||
vRtrIfBfdSessionRemDisc | 1.3.6.1.4.1.6527.3.1.2.3.34.1.15 |
The value of vRtrIfBfdSessionRemDisc indicates the remote discriminator for this session. |
||
vRtrIfBfdSessionProtocols | 1.3.6.1.4.1.6527.3.1.2.3.34.1.16 |
The value of vRtrIfBfdSessionProtocols indicates which protocols are using this BFD session. |
||
vRtrIfBfdSessionTxInterval | 1.3.6.1.4.1.6527.3.1.2.3.34.1.17 |
The value of vRtrIfBfdSessionTxInterval indicates the negotiated transmit interval. This value is the minimum of the local nodes vRtrIfBfdExtTransmitInterval and the remote nodes receive interval. |
||
vRtrIfBfdSessionRxInterval | 1.3.6.1.4.1.6527.3.1.2.3.34.1.18 |
The value of vRtrIfBfdSessionRxInterval indicates the negotiated receive interval. This value is the minimum of the local nodes vRtrIfBfdExtReceiveInterval and the remote nodes transmit interval. |
||
vRtrIfBfdSessionType | 1.3.6.1.4.1.6527.3.1.2.3.34.1.19 |
The value of vRtrIfBfdSessionType indicates the termination of the BFD session, as follows: iom (1) - termination on the IOM card main processor, cpm (2) - termination on the CPM card main processor, cpmNp (3) - termination on the CPM card Network Processor. |
||
vRtrIfBfdSessionVerMismatch | 1.3.6.1.4.1.6527.3.1.2.3.34.1.20 |
The value of vRtrIfBfdSessionVerMismatch indicates the number of version mismatch errors for the bfd session. |
||
vRtrIfBfdSessionTimeSinceLastRx | 1.3.6.1.4.1.6527.3.1.2.3.34.1.21 |
The value of vRtrIfBfdSessionTimeSinceLastRx indicates the number of milliseconds elapsed since the most recent message was received on the BFD session. If the session is down, zero is returned. This object is applicable to sessions with vRtrIfBfdSessionType equal to cpmNp(3). Otherwise, zero is returned. |
||
vRtrIfBfdSessionTimeSinceLastTx | 1.3.6.1.4.1.6527.3.1.2.3.34.1.22 |
The value of vRtrIfBfdSessionTimeSinceLastTx indicates the number of milliseconds elapsed since the most recent message was transmitted on the BFD session. If the session is down, zero is returned. This object is applicable to sessions with vRtrIfBfdSessionType equal to cpmNp(3). Otherwise, zero is returned. |
||
vRtrIfDHCP6TableLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.35 |
The value of the object vRtrIfDHCP6TableLastChanged indicates the time of the last change to any row of vRtrIfDHCP6Table |
||
vRtrIfDHCP6Table | 1.3.6.1.4.1.6527.3.1.2.3.36 |
The vRtrIfDHCP6Table is used to configure the interface parameters for DHCP6. |
||
1.3.6.1.4.1.6527.3.1.2.3.36.1 |
Each row entry represents information related to DHCP6 for a virtual router interface in the system. Entries cannot be created and deleted via SNMP SET operations. |
|||
vRtrIfDHCP6LastChanged | 1.3.6.1.4.1.6527.3.1.2.3.36.1.1 |
The value of the object vRtrIfDHCP6LastChanged indicates the time of the last change to this row of VRtrIfDHCP6Entry. |
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vRtrIfDHCP6AdminState | 1.3.6.1.4.1.6527.3.1.2.3.36.1.2 |
The value of the object vRtrIfDHCP6AdminState specifies the desired administrative status of the DHCP6 relay agent on this interface. The value can only be set to inService if the value of vRtrIfType is serviceIesGroup. The value noop(3) is never allowed. |
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vRtrIfDHCP6OperState | 1.3.6.1.4.1.6527.3.1.2.3.36.1.3 |
The value of the object vRtrIfDHCP6OperState indicates the current operational state of the DHCP6 relay agent on this interface. Following value are possible: up (1) - the DHCP6 relay agent is running. down (2), - the DHCP6 relay agent is administratively disabled. noIPv6Pfx (3), - the DHCP6 relay agent cannot be operational as no ipv6 prefix is assigned to this link. noServerConfigured(4) - the DHCP6 relay agent cannot be operational as no DHCP6 servers are configured. noValidSourceAddr(5) - the DHCP6 relay agent cannot be operational because a source address has been configured and the address is not local to this node. |
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vRtrIfDHCP6Description | 1.3.6.1.4.1.6527.3.1.2.3.36.1.4 |
The value of the object vRtrIfDHCP6Description specifies a user provided description string for DHCP6 relay agent on this virtual router interface. It can consist of any printable, seven-bit ASCII characters up to 80 characters in length. |
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vRtrIfDHCP6RelayServer1 | 1.3.6.1.4.1.6527.3.1.2.3.36.1.5 |
The value of the object vRtrIfDHCP6RelayServer1 specifies the first DHCP6 server where the DHCP6 requests will be forwarded to. |
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vRtrIfDHCP6RelayServer2 | 1.3.6.1.4.1.6527.3.1.2.3.36.1.6 |
The value of the object vRtrIfDHCP6RelayServer2 specifies the 2nd DHCP6 server where the DHCP6 requests will be forwarded to. |
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vRtrIfDHCP6RelayServer3 | 1.3.6.1.4.1.6527.3.1.2.3.36.1.7 |
The value of the object vRtrIfDHCP6RelayServer3 specifies the 3rd DHCP6 server where the DHCP6 requests will be forwarded to. |
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vRtrIfDHCP6RelayServer4 | 1.3.6.1.4.1.6527.3.1.2.3.36.1.8 |
The value of the object vRtrIfDHCP6RelayServer4 specifies the 4rd DHCP6 server where the DHCP6 requests will be forwarded to. |
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vRtrIfDHCP6RelayServer5 | 1.3.6.1.4.1.6527.3.1.2.3.36.1.9 |
The value of the object vRtrIfDHCP6RelayServer5 specifies the 5th DHCP6 server where the DHCP6 requests will be forwarded to. |
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vRtrIfDHCP6RelayServer6 | 1.3.6.1.4.1.6527.3.1.2.3.36.1.10 |
The value of the object vRtrIfDHCP6RelayServer6 specifies the 6th DHCP6 server where the DHCP6 requests will be forwarded to. |
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vRtrIfDHCP6RelayServer7 | 1.3.6.1.4.1.6527.3.1.2.3.36.1.11 |
The value of the object vRtrIfDHCP6RelayServer7 specifies the 7th DHCP6 server where the DHCP6 requests will be forwarded to. |
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vRtrIfDHCP6RelayServer8 | 1.3.6.1.4.1.6527.3.1.2.3.36.1.12 |
The value of the object vRtrIfDHCP6RelayServer8 specifies the 8th DHCP6 server where the DHCP6 requests will be forwarded to. |
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vRtrIfDHCP6RelayItfIdOption | 1.3.6.1.4.1.6527.3.1.2.3.36.1.13 |
The value of the object vRtrIfDHCP6RelayItfIdOption specifies whether or not the interface-id option is added by the DHCP6 relay agent, and, if it is present, what information goes in it. If the value of this object is set to none, the option is not added by the relay agent. In all other cases the option is added to the relay message. The content of the option is defined as follows: - ifIndex - the value of the interface index is used. - asciiTuple - the ASCII-encoded concatenated tuple consisting of the - access-node-identifier - service-id - interface-name - SAP-id (only if the value of vRtrIfType is serviceIesGroup) - sapId - the ASCII-encoded SAP-id is used. - string - the value of the object vRtrIfDHCP6ItfIdString is used. If the value of vRtrIfType, associated with this interface, has a value of serviceIesGroup(7) or serviceVprnGroup(9), the value of the object vRtrIfDHCP6RelayItfIdOption may also be included in the RADIUS authentication request sent by the DHCPv6 proxy server. |
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vRtrIfDHCP6LeasePopulate | 1.3.6.1.4.1.6527.3.1.2.3.36.1.14 |
The value of the object vRtrIfDHCP6LeasePopulate specifies the maximum number of lease states allocated by the DHCP6 relay function, allowed on this interface. |
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vRtrIfDHCP6CurrLeasePopulate | 1.3.6.1.4.1.6527.3.1.2.3.36.1.15 |
The value of the object vRtrIfDHCP6CurrLeasePopulate indicates the number of lease states currently allocated on this interface by the DHCP6 relay function. |
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vRtrIfDHCP6SourceAddress | 1.3.6.1.4.1.6527.3.1.2.3.36.1.16 |
The value of the object vRtrIfDHCP6SourceAddress specifies the IPv6 address that will be used by the DHCP6 relay agent as source IP address in all messages sent to the DHCP6 servers. If set to ::, the system will use the IPv6 address assigned on the link on which the relay message is sent out, if such an address is defined. As a last resort the system IPv6 address is taken. |
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vRtrIfDHCP6EnableNgbrResolution | 1.3.6.1.4.1.6527.3.1.2.3.36.1.17 |
The value of the object vRtrIfDHCP6EnableNgbrResolution specifies whether or not neighbor resolution via DHCP6 Relay must be enabled on this interface. This feature is similar to the arp-populate feature in ipv4. |
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vRtrIfDHCP6RemoteIdOption | 1.3.6.1.4.1.6527.3.1.2.3.36.1.18 |
The value of the object vRtrIfDHCP6RemoteIdOption specifies whether or not the remote Id option is sent to the DHCP6 server. The client DUID is used as remoteId. If the value of vRtrIfType, associated with this interface, has a value of serviceIesGroup(7) or serviceVprnGroup(9), the value of the object vRtrIfDHCP6RemoteIdOption may also be included in the RADIUS authentication request sent by the DHCPv6 proxy server. |
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vRtrIfDHCP6PfxdAdminState | 1.3.6.1.4.1.6527.3.1.2.3.36.1.19 |
The value of the object vRtrIfDHCP6PfxdAdminState specifies the administrative state of the row. If set to enabled, this IPv6 prefix will be delegated by the system. |
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vRtrIfDHCP6ServerMaxLeaseStates | 1.3.6.1.4.1.6527.3.1.2.3.36.1.20 |
The value of the object vRtrIfDHCP6ServerMaxLeaseStates specifies the maximum number of lease states installed by the DHCP6 server function allowed on this interface. |
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vRtrIfDHCP6CurrServerLeaseStates | 1.3.6.1.4.1.6527.3.1.2.3.36.1.21 |
The value of the object vRtrIfDHCP6CurrServerLeaseStates indicates the number of lease states currently allocated on this interface by the DHCP6 server function. |
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vRtrIfDHCP6ItfIdString | 1.3.6.1.4.1.6527.3.1.2.3.36.1.22 |
The value of the object vRtrIfDHCP6ItfIdString specifies the string that will be put in the interface-id option added by the relay agent. This value is only meaningful if the object vRtrIfDHCP6RelayItfIdOption is set to string(4). |
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vRtrIfDHCP6ProxyAdminState | 1.3.6.1.4.1.6527.3.1.2.3.36.1.23 |
The value of vRtrIfDHCP6ProxyAdminState specifies the desired administrative state of the IPv6 Router Advertisements. |
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vRtrIfDHCP6ProxyRenewTimer | 1.3.6.1.4.1.6527.3.1.2.3.36.1.24 |
The value of vRtrIfDHCP6ProxyRenewTimer specifies the renew-timer (T1). The time at which the client contacts the server from which the addresses in the IA_NA or IA_PD were obtained to extend the lifetimes of the addresses or prefixes assigned to the client. |
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vRtrIfDHCP6ProxyRebindTimer | 1.3.6.1.4.1.6527.3.1.2.3.36.1.25 |
The value of vRtrIfDHCP6ProxyRebindTimer specifies the rebind-timer (T2). The time at which the client contacts any available server to extend the lifetimes of the addresses or prefixes assigned to the client. |
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vRtrIfDHCP6ProxyValidLifetime | 1.3.6.1.4.1.6527.3.1.2.3.36.1.26 |
The value of vRtrIfDHCP6ProxyValidLifetime specifies the valid lifetime for the IPv6 prefix or address in the option. A value of 0xFFFFFFFF represents infinity. |
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vRtrIfDHCP6ProxyPrefLifetime | 1.3.6.1.4.1.6527.3.1.2.3.36.1.27 |
The value of vRtrIfDHCP6ProxyPrefLifetime specifies the preferred lifetime for the IPv6 prefix or address in the option. When preferred lifetime expires, then any derived addresses are deprecated. A value of 0xFFFFFFFF represents infinity. |
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vRtrIfDHCP6ProxyApplications | 1.3.6.1.4.1.6527.3.1.2.3.36.1.28 |
The value of vRtrIfDHCP6ProxyApplications specifies the set of client applications that can make use of the DHCP proxy functionality on this interface. |
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vRtrIfDHCP6UserDb | 1.3.6.1.4.1.6527.3.1.2.3.36.1.29 |
The value of vRtrIfDHCP6UserDb specifies the local user database to authenticate against. If no authentication with the local user database is required, the value of this object must be set to the empty string. |
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vRtrIfDHCP6LocalDhcpServerName | 1.3.6.1.4.1.6527.3.1.2.3.36.1.30 |
The value of vRtrIfDHCP6LocalDhcpServerName specifies the local DHCP server that can be reached via this interface. The server itself is configured on virtual router level in object TIMETRA-DHCP-SERVER-MIB::tmnxDhcpServerCfgServerName. Assigning an ip-address to it is done here by linking it to an interface. A server can be linked to several interfaces on the same virtual router. |
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vRtrIfDHCP6RelayApplications | 1.3.6.1.4.1.6527.3.1.2.3.36.1.31 |
The value of vRtrIfDHCP6RelayApplications specifies the set of client applications that can make use of the DHCP relay functionality on this interface. This object can only be set when the value of vRtrIfType, associated with this interface, has a value of serviceIesGroup(7) or serviceVprnGroup(9). |
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vRtrIfDHCP6LinkAddress | 1.3.6.1.4.1.6527.3.1.2.3.36.1.32 |
The value of the object vRtrIfDHCP6LinkAddress specifies the ipv6 address that will be used by the DHCP6 relay agent as link address in all messages sent to the DHCP6 servers. If set to ::, the system determines the link address based on the group interface configuration. This object can only be set when vRtrIfType is either serviceIesGroup(7) or serviceVprnGroup(9). |
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vRtrIfGlobalIndexTable | 1.3.6.1.4.1.6527.3.1.2.3.37 |
This is a read-only table, each row of which represents a one to one equivalence between a unique system wide router interface index (vRtrIfGlobalIndex) and its corresponding virtual router ID (vRtrID) and index in the vRtrIfTable (vRtrIfIndex). |
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1.3.6.1.4.1.6527.3.1.2.3.37.1 |
Each row entry in the vRtrIfGlobalIndexTable corresponds to a row in the vRtrIfTable. When an entry is created or deleted in the vRtrIfTable, a corresponding entry is created or deleted in this table. |
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vRtrIfGlobalIndexvRtrID | 1.3.6.1.4.1.6527.3.1.2.3.37.1.1 |
The value of vRtrIfGlobalIndexvRtrID indicates the vRtrID that maps to the vRtrIfGlobalIndex. The combination of a vRtrID and a vRtrIfIndex correspond to a system wide unique vRtrIfGlobalIndex. This value represents the specific instance of virtual router which the vRtrIfGlobalIndex belongs to. |
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vRtrIfGlobalIndexvRtrIfIndex | 1.3.6.1.4.1.6527.3.1.2.3.37.1.2 |
The value of vRtrIfGlobalIndexvRtrIfIndex gives the value of vRtrIfIndex for a row in the vRtrIfTable. This row corresponds to the virtual router interface that maps to the vRtrIfGlobalIndex. The combination of a vRtrID and a vRtrIfIndex correspond to a system wide unique vRtrIfGlobalIndex. |
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vRtrIfProxyNDTable | 1.3.6.1.4.1.6527.3.1.2.3.38 |
The vRtrIfProxyNDTable provides an extension to the vRtrIfTable. It has an entry for each virtual router interface configured in the system. |
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1.3.6.1.4.1.6527.3.1.2.3.38.1 |
Each row entry represents information related to Proxy Neighbor Discovery for a virtual router interface in the system. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrIfProxyNDLocal | 1.3.6.1.4.1.6527.3.1.2.3.38.1.1 |
If the value of vRtrIfProxyNDLocal is set to true, local proxy Neighbor Discovery is enabled, that is, the interface will reply to Neighbor Solicitation requests when both the hosts are on the same subnet. In this case ICMP redirects will be disabled. If the value of vRtrIfProxyNDLocal is set to false, the interface will not reply to Neighbor Solicitation requests if both the hosts are on the same subnet. |
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vRtrIfProxyNDPolicy1 | 1.3.6.1.4.1.6527.3.1.2.3.38.1.2 |
The value of vRtrIfProxyNDPolicy1 specifies the first proxy ND policy for this interface. This policy determines networks and sources for which proxy ND will be attempted, when local proxy ND is enabled. |
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vRtrIfProxyNDPolicy2 | 1.3.6.1.4.1.6527.3.1.2.3.38.1.3 |
The value of vRtrIfProxyNDPolicy2 specifies the second proxy ND policy for this interface. This policy determines networks and sources for which proxy ND will be attempted, when local proxy ND is enabled. |
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vRtrIfProxyNDPolicy3 | 1.3.6.1.4.1.6527.3.1.2.3.38.1.4 |
The value of vRtrIfProxyNDPolicy3 specifies the third proxy ND policy for this interface. This policy determines networks and sources for which proxy ND will be attempted, when local proxy ND is enabled. |
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vRtrIfProxyNDPolicy4 | 1.3.6.1.4.1.6527.3.1.2.3.38.1.5 |
The value of vRtrIfProxyNDPolicy4 specifies the fourth proxy ND policy for this interface. This policy determines networks and sources for which proxy ND will be attempted, when local proxy ND is enabled. |
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vRtrIfProxyNDPolicy5 | 1.3.6.1.4.1.6527.3.1.2.3.38.1.6 |
The value of vRtrIfProxyNDPolicy5 specifies the fifth proxy ND policy for this interface. This policy determines networks and sources for which proxy ND will be attempted, when local proxy ND is enabled. |
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vRtrIfDHCP6PfxDelegationLstChgd | 1.3.6.1.4.1.6527.3.1.2.3.39 |
The value of the object vRtrIfDHCP6PfxDelegationLstChgd indicates the Timestamp of the last change to any row the vRtrIfDHCP6PfxDelegationTable |
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vRtrIfDHCP6PfxDelegationTable | 1.3.6.1.4.1.6527.3.1.2.3.40 |
The table vRtrIfDHCP6PfxDelegationTable is used to configure the feature of automated delegation of IPv6 prefixes using DHCP6. This feature is intended for delegating a long-lived prefix from a delegating router to a requesting router, where the delegating router does not require knowledge about the topology of the links in the network to which the prefixes will be assigned. |
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1.3.6.1.4.1.6527.3.1.2.3.40.1 |
Each row entry represents a delegated IPv6 prefix. Entries can be created and deleted via SNMP SET operations. Creation requires a SET request containing the vRtrRowStatus. |
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vRtrIfDHCP6PfxdPrefix | 1.3.6.1.4.1.6527.3.1.2.3.40.1.1 |
The value of the object vRtrIfDHCP6PfxdPrefix specifies, together with the object vRtrIfDHCP6PfxdPrefixLen the ipv6 prefix that will be delegated. |
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vRtrIfDHCP6PfxdPrefixLen | 1.3.6.1.4.1.6527.3.1.2.3.40.1.2 |
The value of the object vRtrIfDHCP6PfxdPrefixLen specifies, together with the object vRtrIfDHCP6PfxdPrefix the ipv6 prefix that will be delegated by this system. |
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vRtrIfDHCP6PfxdRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.40.1.3 |
The value of the object vRtrIfDHCP6PfxdRowStatus specifies the Row status of this table row. This object is used to create or delete rows in this table. The only allowed values for this object are: active(1), createAndGo(4), and destroy(6). |
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vRtrIfDHCP6PfxdLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.40.1.4 |
The value of vRtrIfDHCP6PfxdLastChanged indicates the sysUpTime when any object of the row is last changed. |
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vRtrIfDHCP6PfxdDUID | 1.3.6.1.4.1.6527.3.1.2.3.40.1.6 |
The value of the object vRtrIfDHCP6PfxdDUID specifies the ID of the requesting router. If set to a non zero value the prefix defined in this row will only be delegated to this router. If set to zero, the prefix will be delegated to any requesting router. |
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vRtrIfDHCP6PfxdIAID | 1.3.6.1.4.1.6527.3.1.2.3.40.1.7 |
The value of the object vRtrIfDHCP6PfxdIAID specifies the IAID from the requesting router that needs to match in order to delegate the prefix defined in this row.If set to 0 no match on the received IAID is done. |
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vRtrIfDHCP6PfxdPrefLifetime | 1.3.6.1.4.1.6527.3.1.2.3.40.1.8 |
The value of the object vRtrIfDHCP6PfxdPrefLifetime specifies the time in seconds that this prefix remains preferred. The value of vRtrIfDHCP6PfxdPrefLifetime cannot be bigger then the value of vRtrIfDHCP6PfxdValidLifetime. The value 4294967295 is considered equal to infinity. |
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vRtrIfDHCP6PfxdValidLifetime | 1.3.6.1.4.1.6527.3.1.2.3.40.1.9 |
The value of the object vRtrIfDHCP6PfxdValidLifetime specifies the time in seconds that the prefix is valid. The value 4294967295 is considered equal to infinity. |
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vRtrDHCP6DropStatTable | 1.3.6.1.4.1.6527.3.1.2.3.41 |
The vRtrDHCP6DropStatTable has an entry for each virtual router configured in the system. |
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1.3.6.1.4.1.6527.3.1.2.3.41.1 |
Each row entry represents a collection of DHCP6 drop reason statistics for a virtual router in the system. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrDHCP6DropStatReason | 1.3.6.1.4.1.6527.3.1.2.3.41.1.1 |
The object vRtrDHCP6DropStatReason indicates the drop reason for which the object vRtrDHCP6DropStatPktsDropped contains the counter. none srcOperDown Dhcp6 oper state is not Up on src itf dstOperDown Dhcp6 oper state is not Up on dst itf rlyReplyOnClientItf Relay Reply Msg on Client Itf hopCount Hop Count Limit reached badRelayedMsg Missing Relay Msg option, or illegal msg type clientItfNotFound Unable to determine destinatinon client Itf noMemory Out of Memory noGlobalPfx No global Pfx on Client Itf noSrcIp Unable to determine src Ip Addr noRteToServer No route to server subMgmtUpdFail Subscr. Mgmt. Update failed relayForw Received Relay Forw Message msgTooSmall Packet too small to contain valid dhcp6 msg msgNotForServer Server cannot respond to this message noServerId No Server Id option in msg from server noClientId No Client Id option in msg from client serverIdInClientMsg Server Id option in client msg wrongServerId Server DUID in client msg does not match ours illegalUnicast Client sent message to unicast while not allowed illegalSrcIp Client sent message with illegal src Ip pdMsgNotSupported Client message type not supported in pfx delegation nbrAddrsExceeded Nbr of addrs or pfxs exceeds allowed maximum in msg clientMacNotResolved Unable to resolve clients mac address illegalAssignedAddr The client was assigned an illegal address msgEncodingError Illegal pfx length in a IA_PREFIX option rcoMsgNotSupported Client message type not supported on rco interfaces iaInInfoRequest Info request holds IA options noIaInClientMsg Client msg holds no IA options noAddrInConfirmMsg No addresses in client confirm msg noRelayServers No relay servers configured hostLockout Blocked by host lockout noLinkAddress No link address available |
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vRtrDHCP6DropStatLastCleared | 1.3.6.1.4.1.6527.3.1.2.3.41.1.2 |
The value of vRtrDHCP6DropStatLastCleared indicates the sysUpTime when the counters of this row were last reset. A value of zero for this object indicates that the counters have not been reset since the system has last been initialized. |
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vRtrDHCP6DropStatPktsDropped | 1.3.6.1.4.1.6527.3.1.2.3.41.1.3 |
The value of vRtrDHCP6DropStatPktsDropped indicates the number of DHCP6 packets were dropped for the reason described in vRtrDHCP6DropStatReason. |
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vRtrDHCP6MsgStatTable | 1.3.6.1.4.1.6527.3.1.2.3.42 |
The vRtrDHCP6MsgStatTable has an entry for each virtual router configured in the system. |
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1.3.6.1.4.1.6527.3.1.2.3.42.1 |
Each row entry represents a collection of counters for each DHCP6 message type for a virtual router in the system. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrDHCP6MsgStatsMsgType | 1.3.6.1.4.1.6527.3.1.2.3.42.1.1 |
The object vRtrDHCP6MsgStatsMsgType indicates the DHCP6 message type for which statistics are kept on a per vrtr basis. |
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vRtrDHCP6MsgStatsLstClrd | 1.3.6.1.4.1.6527.3.1.2.3.42.1.2 |
The value of vRtrDHCP6MsgStatsLstClrd indicates the sysUpTime when the counters of this row were last reset. A value of zero for this object indicates that the counters have not been reset since the system has last been initialized. |
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vRtrDHCP6MsgStatsRcvd | 1.3.6.1.4.1.6527.3.1.2.3.42.1.3 |
The value of vRtrDHCP6MsgStatsRcvd indicates the number of DHCP6 packets were received of the DHCP6 message type indicated by vRtrDHCP6MsgStatsMsgType. |
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vRtrDHCP6MsgStatsSent | 1.3.6.1.4.1.6527.3.1.2.3.42.1.4 |
The value of vRtrDHCP6MsgStatsSent indicates the number of DHCP6 packets were sent of the DHCP6 message type indicated by vRtrDHCP6MsgStatsMsgType. |
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vRtrDHCP6MsgStatsDropped | 1.3.6.1.4.1.6527.3.1.2.3.42.1.5 |
The value of vRtrDHCP6MsgStatsDropped indicates the number of DHCP6 packets were dropped of the DHCP6 message type indicated by vRtrDHCP6MsgStatsMsgType. |
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vRtrIfIpcpTable | 1.3.6.1.4.1.6527.3.1.2.3.43 |
The vRtrIfIpcpTable table contains the configuration for IPCP interface configuration on the vRtrIfEntry with the same indices. |
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1.3.6.1.4.1.6527.3.1.2.3.43.1 |
Each row entry represents the IPCP configuration for an interface. Entries are created and deleted when entries in the vRtrIfTable are created and deleted. |
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vRtrIfIpcpPeerAddrType | 1.3.6.1.4.1.6527.3.1.2.3.43.1.1 |
The value of vRtrIfIpcpPeerAddrType specifies the type of vRtrIfIpcpPeerAddr, the remote peers IP address. vRtrIfIpcpPeerAddrType can be set to non-default only when the following rules are met for objects in vRtrIfEntry with the same indices: - The value of vRtrIfType is set to serviceIes(3) or serviceVprn(5) - The value of tmnxPortEncapType in tmnxPortEntry indexed using the value of vRtrIfPortID is set to unknown (0) or nullEncap (1) or ipcpEncap (6) When the value of vRtrIfIpcpPeerAddrType is unknown, the value of vRtrIfIpcpPeerAddr is assumed to be of size 0. |
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vRtrIfIpcpPeerAddr | 1.3.6.1.4.1.6527.3.1.2.3.43.1.2 |
The value of vRtrIfIpcpPeerAddr specifies the IP address that will be exchanged by IPCP, if applicable on a given interface, to configure the remote peers IP address. The type of this address is specified by the value of vRtrIfIpcpPeerAddrType vRtrIfIpcpPeerAddr can be set to on-default only when the following rules are met for objects in vRtrIfEntry with the same indices: - The value of vRtrIfType is set to serviceIes(3) or serviceVprn(5) - The value of tmnxPortEncapType in tmnxPortEntry indexed using the value of vRtrIfPortID is set to unknown (0) or nullEncap (1) or ipcpEncap (6) |
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vRtrIfIpcpPriDnsAddrType | 1.3.6.1.4.1.6527.3.1.2.3.43.1.3 |
The value of vRtrIfIpcpPriDnsAddrType specifies the type of vRtrIfIpcpPriDnsAddr, the IP address of the primary DNS to be used by the remote peer. vRtrIfIpcpPriDnsAddrType can be set ito non-default only when the following rules are met for objects in vRtrIfEntry with the same indices: - The value of vRtrIfType is set to serviceIes(3) or serviceVprn(5) - The value of tmnxPortEncapType in tmnxPortEntry indexed using the value of vRtrIfPortID is set to unknown (0) or nullEncap (1) or ipcpEncap (6) When the value of vRtrIfIpcpPriDnsAddrType is unknown, the value of vRtrIfIpcpPriDnsAddr is assumed to be of size 0. |
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vRtrIfIpcpPriDnsAddr | 1.3.6.1.4.1.6527.3.1.2.3.43.1.4 |
The value of vRtrIfIpcpPriDnsAddr specifies the IP address that will be exchanged by IPCP, if applicable on a given interface, to configure the primary DNSs IP address on the remote peer. The type of this address is specified by the value of vRtrIfIpcpPriDnsAddrType vRtrIfIpcpPriDnsAddr can be set to non-default only when the following rules are met for objects in vRtrIfEntry with the same indices: - The value of vRtrIfType is set to serviceIes(3) or serviceVprn(5) - The value of tmnxPortEncapType in tmnxPortEntry indexed using the value of vRtrIfPortID is set to unknown (0) or nullEncap (1) or ipcpEncap (6) |
||
vRtrIfIpcpSecDnsAddrType | 1.3.6.1.4.1.6527.3.1.2.3.43.1.5 |
The value of vRtrIfIpcpSecDnsAddrType specifies the type of vRtrIfIpcpSecDnsAddr, the IP address of the secondary DNS to be used by the remote peer. vRtrIfIpcpSecDnsAddrType can be set to non-deffault only when the following rules are met for objects in vRtrIfEntry with the same indices: - The value of vRtrIfType is set to serviceIes(3) or serviceVprn(5) - The value of tmnxPortEncapType in tmnxPortEntry indexed using the value of vRtrIfPortID is set to unknown (0) or nullEncap (1) or ipcpEncap (6) When the value of vRtrIfIpcpSecDnsAddrType is unknown, the value of vRtrIfIpcpSecDnsAddr is assumed to be of size 0. |
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vRtrIfIpcpSecDnsAddr | 1.3.6.1.4.1.6527.3.1.2.3.43.1.6 |
The value of vRtrIfIpcpSecDnsAddr specifies the IP address that will be exchanged by IPCP, if applicable on a given interface, to configure the secondary DNSs IP address on the remote peer. The type of this address is specified by the value of vRtrIfIpcpSecDnsAddrType. vRtrIfIpcpSecDnsAddr can be set to non-default only when the following rules are met for objects in vRtrIfEntry with the same indices: - The value of vRtrIfType is set to serviceIes(3) or serviceVprn(5) - The value of tmnxPortEncapType in tmnxPortEntry indexed using the value of vRtrIfPortID is set to unknown (0) or nullEncap (1) or ipcpEncap (6) |
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vRtrInetStatRteCpeChkStatsTable | 1.3.6.1.4.1.6527.3.1.2.3.44 |
The vRtrInetStatRteCpeChkStatsTable has an entry for each entry in the vRtrInetStaticRouteTable that has a non-default values set for the vRtrInetStaticRouteCpeAddrType and vRtrInetStaticRouteCpeAddr objects. |
||
1.3.6.1.4.1.6527.3.1.2.3.44.1 |
Each row entry represents a collection of Customer-Provided Equipment (CPE) availability statistics for a virtual router static route in the system with non-default values set for the vRtrInetStaticRouteCpeAddrType and vRtrInetStaticRouteCpeAddr objects. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrInetStatRteCpeChkUpTime | 1.3.6.1.4.1.6527.3.1.2.3.44.1.1 |
The value of vRtrInetStatRteCpeChkUpTime indicates how long (in hundredths of a second) that the CPE has been available. |
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vRtrInetStatRteCpeChkInPktCnt | 1.3.6.1.4.1.6527.3.1.2.3.44.1.2 |
The value of vRtrInetStatRteCpeChkInPktCnt indicates the number of echo-reply packets received. |
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vRtrInetStatRteCpeChkOutPktCnt | 1.3.6.1.4.1.6527.3.1.2.3.44.1.3 |
The value of vRtrInetStatRteCpeChkOutPktCnt indicates the number of echo-request packets sent. |
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vRtrInetStatRteCpeChkDownTrans | 1.3.6.1.4.1.6527.3.1.2.3.44.1.4 |
The value of vRtrInetStatRteCpeChkDownTrans indicates the number of times the CPE has transitioned to the unavailable state. |
||
vRtrInetStatRteCpeChkUpTrans | 1.3.6.1.4.1.6527.3.1.2.3.44.1.5 |
The value of vRtrInetStatRteCpeChkUpTrans indicates the number of times the CPE has transitioned to the available state. |
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vRtrInetStatRteCpeChkTTL | 1.3.6.1.4.1.6527.3.1.2.3.44.1.6 |
The value of vRtrInetStatRteCpeChkTTL indicates the time, in seconds, before the CPE will be declared down. Upon receipt of an echo reply, it has the value of vRtrInetStaticRouteCpeInterval * vRtrInetStaticRouteCpeDropCnt and is decremented by 1 every second. |
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tmnxDscpAppTableLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.45 |
The value of tmnxDscpAppTableLastChanged indicates the sysUpTime at the time of the last modification of tmnxDscpAppTable. If no changes were made to the table since the last re-initialization of the local network management subsystem, then this object contains a zero value. |
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tmnxDscpAppTable | 1.3.6.1.4.1.6527.3.1.2.3.46 |
The tmnxDscpAppTable has an entry for each application to Differential Services Code Point (DSCP) mapping in a virtual routing context on this system. |
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1.3.6.1.4.1.6527.3.1.2.3.46.1 |
Each row represents a mapping from an application to a DSCP value for particular virtual routing context. Entries are created at system initialization. |
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tmnxDscpAppId | 1.3.6.1.4.1.6527.3.1.2.3.46.1.1 |
The value of tmnxDscpAppId indicates the DSCP application identifier for a protocol on the Alcatel-Lucent SROS router which generates control traffic over IP. The values of cflowd (2), ptp (29) and igmp-reporter (30) are applicable to the transport Router context only (vRtrID = 1). |
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tmnxDscpAppLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.46.1.2 |
The value of tmnxDscpAppLastChanged indicates the sysUpTime at the time of the last modification of this entry. If no changes were made to the entry since the last re-initialization of the local network management subsystem, then this object contains a zero value. |
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tmnxDscpAppDscpValue | 1.3.6.1.4.1.6527.3.1.2.3.46.1.3 |
The value of tmnxDscpAppDscpValue specifies a DSCP Value to assign to the traffic generated by the application specified by tmnxDscpAppId. A value of -1 specifies that no explicit DSCP re-marking will be done for the traffic generated by the application specified by tmnxDscpAppId. The default value is protocol specific. |
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tmnxDscpFCTableLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.47 |
The value of tmnxDscpFCTableLastChanged indicates the sysUpTime at the time of the last modification of tmnxDscpFCTable. If no changes were made to the entry since the last re-initialization of the local network management subsystem, then this object contains a zero value. |
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tmnxDscpFCTable | 1.3.6.1.4.1.6527.3.1.2.3.48 |
The tmnxDscpFCTable has an entry for each mapping between a DSCP value and a Forwarding Class for self-generated protocol traffic in a virtual routing context on this system. |
||
1.3.6.1.4.1.6527.3.1.2.3.48.1 |
Each row represents a mapping between a DSCP value and a Forwarding Class for self-generated protocol traffic in particular virtual routing context. Entries are created at system initialization. |
|||
tmnxDscpFCDscpValue | 1.3.6.1.4.1.6527.3.1.2.3.48.1.1 |
The value of tmnxDscpFCDscpValue specifies a DSCP value which will be mapped to the Forwarding Class specified by tmnxDscpFCValue. |
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tmnxDscpFCLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.48.1.3 |
The value of tmnxDscpFCLastChanged indicates the sysUpTime at the time of the last modification of this entry. If no changes were made to the entry since the last re-initialization of the local network management subsystem, then this object contains a zero value. |
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tmnxDscpFCValue | 1.3.6.1.4.1.6527.3.1.2.3.48.1.4 |
The value of tmnxDscpFCValue specifies the Forwarding Class value for this mapping entry. The default value is best effort, which is specified by a value of 0. |
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tmnxDot1pAppTableLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.49 |
The value of tmnxDot1pAppTableLastChanged indicates the sysUpTime at the time of the last modification of tmnxDot1pAppTable. If no changes were made to the table since the last re-initialization of the local network management subsystem, then this object contains a zero value. |
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tmnxDot1pAppTable | 1.3.6.1.4.1.6527.3.1.2.3.50 |
The tmnxDot1pAppTable has an entry for each application to IEEE 802.1p priority (Dot1p) mapping in a virtual routing context on this system. |
||
1.3.6.1.4.1.6527.3.1.2.3.50.1 |
Each row represents a mapping from an application to a Dot1p value for particular virtual routing context. Entries are created at system initialization. |
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tmnxDot1pAppId | 1.3.6.1.4.1.6527.3.1.2.3.50.1.1 |
The value of tmnxDot1pAppId indicates the Dot1p application identifier for a Layer-2 protocol on the Alcatel-Lucent SROS router. |
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tmnxDot1pAppLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.50.1.2 |
The value of tmnxDot1pAppLastChanged indicates the sysUpTime at the time of the last modification of this entry. If no changes were made to the entry since the last re-initialization of the local network management subsystem, then this object contains a zero value. |
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tmnxDot1pAppValue | 1.3.6.1.4.1.6527.3.1.2.3.50.1.3 |
The value of tmnxDot1pAppValue specifies a Dot1p value to assign to the traffic generated by the application specified by tmnxDot1pAppId. The default value is protocol specific. |
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vRtrFibStatTable | 1.3.6.1.4.1.6527.3.1.2.3.51 |
The vRtrStatTable has an entry for IOM card configured in the system. |
||
1.3.6.1.4.1.6527.3.1.2.3.51.1 |
Each row entry represents a collection of summarized statistics for each virtual router on an IOM card in the system. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrFibStatStaticRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.1 |
vRtrFibStatStaticRoutes indicates current static route counts for the virtual router. |
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vRtrFibStatDirectRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.2 |
vRtrFibStatDirectRoutes indicates current direct route counts for the virtual router. |
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vRtrFibStatHostRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.3 |
vRtrFibStatHostRoutes indicates current host route counts for the virtual router. |
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vRtrFibStatBGPRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.4 |
vRtrFibStatBGPRoutes indicates current BGP route counts for the virtual router. |
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vRtrFibStatBGPVpnRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.5 |
vRtrFibStatBGPVpnRoutes indicates current BGP VPN route counts for the virtual router. |
||
vRtrFibStatOSPFRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.6 |
vRtrFibStatOSPFRoutes indicates current OSPF route counts for the virtual router. |
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vRtrFibStatISISRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.7 |
vRtrFibStatISISRoutes indicates current ISIS route counts for the virtual router. |
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vRtrFibStatRIPRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.8 |
vRtrFibStatRIPRoutes indicates current RIP route counts for the virtual router. |
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vRtrFibStatAggrRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.9 |
vRtrFibStatAggrRoutes indicates current aggregate route counts for the virtual router. |
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vRtrFibStatSubMgmtRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.10 |
vRtrFibStatSubMgmtRoutes indicates current Sub-management route counts for the virtual router. |
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vRtrFibStatManagedRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.11 |
vRtrFibStatManagedRoutes indicates current managed route counts for the virtual router. |
||
vRtrFibStatV6StaticRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.12 |
vRtrFibStatV6StaticRoutes indicates current static route counts for the virtual router. |
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vRtrFibStatV6DirectRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.13 |
vRtrFibStatV6DirectRoutes indicates current direct route counts for the virtual router. |
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vRtrFibStatV6HostRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.14 |
vRtrFibStatV6HostRoutes indicates current host route counts for the virtual router. |
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vRtrFibStatV6BGPRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.15 |
vRtrFibStatV6BGPRoutes indicates current BGP route counts for the virtual router. |
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vRtrFibStatV6BGPVpnRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.16 |
vRtrFibStatV6BGPVpnRoutes indicates current BGP VPN route counts for the virtual router. |
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vRtrFibStatV6OSPFRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.17 |
vRtrFibStatV6OSPFRoutes indicates current OSPF route counts for the virtual router. |
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vRtrFibStatV6ISISRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.18 |
vRtrFibStatV6ISISRoutes indicates current ISIS route counts for the virtual router. |
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vRtrFibStatV6RIPRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.19 |
vRtrFibStatV6RIPRoutes indicates current RIP route counts for the virtual router. |
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vRtrFibStatV6AggrRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.20 |
vRtrFibStatV6AggrRoutes indicates current aggregate route counts for the virtual router. |
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vRtrFibStatV6SubMgmtRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.21 |
vRtrFibStatV6SubMgmtRoutes indicates current Sub-management route counts for the virtual router. |
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vRtrFibStatV6ManagedRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.22 |
vRtrFibStatV6ManagedRoutes indicates current managed route counts for the virtual router. |
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vRtrFibStatOverflows | 1.3.6.1.4.1.6527.3.1.2.3.51.1.23 |
vRtrFibStatOverflows indicates the number of times the FIB has run out of space. |
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vRtrFibStatAlarmCount | 1.3.6.1.4.1.6527.3.1.2.3.51.1.24 |
vRtrFibStatAlarmCount indicates the number of times the FIB has raised an alarm due to high FIB usage. |
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vRtrFibStatLastAlarmTime | 1.3.6.1.4.1.6527.3.1.2.3.51.1.25 |
vRtrFibStatLastAlarmTime indicates the last time a high FIB usage alarm was raised. |
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vRtrFibStatHighUtilization | 1.3.6.1.4.1.6527.3.1.2.3.51.1.26 |
vRtrFibStatHighUtilization indicates whether or not the FIB on the IOM is experiences persistent high occupancy. |
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vRtrFibStatMobileHostRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.27 |
The value of vRtrFibStatMobileHostRoutes indicates the current IPv4 Mobile Host route counts for the virtual router. |
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vRtrFibStatV6MobileHostRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.28 |
The value of vRtrFibStatV6MobileHostRoutes indicates the current IPv6 Mobile Host route counts for the virtual router. |
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vRtrFibStatVPNLeakRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.29 |
vRtrFibStatVPNLeakRoutes indicates current VPN Leak route counts for the virtual router. |
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vRtrFibStatV6VPNLeakRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.30 |
vRtrFibStatV6VPNLeakRoutes indicates current IPv6 VPN Leak route counts for the virtual router. |
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vRtrFibStatNatRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.33 |
vRtrFibStatNatRoutes indicates current NAT route counts for the virtual router. |
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vRtrFibStatV6NatRoutes | 1.3.6.1.4.1.6527.3.1.2.3.51.1.34 |
vRtrFibStatV6NatRoutes indicates current NAT IPv6 route counts for the virtual router. |
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vRtrFibStatNextHopTable | 1.3.6.1.4.1.6527.3.1.2.3.52 |
The vRtrFibStatNextHopTable has an entry for each IOM in the system. |
||
1.3.6.1.4.1.6527.3.1.2.3.52.1 |
Each row entry represents a collection of statistics for an IOM card in the system. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrFibStatNextHopIPActive | 1.3.6.1.4.1.6527.3.1.2.3.52.1.1 |
vRtrFibStatNextHopIPActive indicates current active IP next-hop counts for the FIB on the IOM. |
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vRtrFibStatNextHopIPAvailable | 1.3.6.1.4.1.6527.3.1.2.3.52.1.2 |
vRtrFibStatNextHopIPAvailable indicates the available IP next-hop counts for the FIB on the IOM. |
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vRtrFibStatNextHopTunnelActive | 1.3.6.1.4.1.6527.3.1.2.3.52.1.3 |
vRtrFibStatNextHopTunnelActive indicates current active Tunnel next-hop counts for the FIB on the IOM. |
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vRtrFibStatNextHopTunnelAvailable | 1.3.6.1.4.1.6527.3.1.2.3.52.1.4 |
vRtrFibStatNextHopTunnelAvailable indicates the available Tunnel next-hop counts for the FIB on the IOM. |
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vRtrInetAllCidrRouteTable | 1.3.6.1.4.1.6527.3.1.2.3.53 |
The vRtrInetAllCidrRouteTable provides an extension of the inetCidrRouteTable in the IP-FORWARD-MIB, by adding two indexes and displaying both active and inactive CIDR routes. |
||
1.3.6.1.4.1.6527.3.1.2.3.53.1 |
Each row entry in the vRtrInetAllCidrRouteTable represents an entry in the IP CIDR route table for the Alcatel-Lucent SROS series. |
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vRtrInetAllCidrRouteProtoID | 1.3.6.1.4.1.6527.3.1.2.3.53.1.1 |
Additional table index provided to distinguish between multiple routes to same destination with the same inetCidrRouteProto index. |
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vRtrInetAllCidrRouteIfIndex | 1.3.6.1.4.1.6527.3.1.2.3.53.1.2 |
The value of vRtrInetAllCidrRouteIfIndex indicates the ifIndex value which identifies the local interface through which the next hop of this route should be reached. A value of 0 is valid and represents the scenario where no interface is specified. |
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vRtrInetAllCidrRouteType | 1.3.6.1.4.1.6527.3.1.2.3.53.1.3 |
The value of vRtrInetAllCidrRouteType indicates the type of route. Note that local refers to a route for which the next hop is the final destination; remote refers to a route for which the next hop is not the final destination. Routes which do not result in traffic forwarding or rejection should not be displayed even if the implementation keeps them stored internally. reject refers to a route which, if matched, discards the message as unreachable and returns a notification (e.g. ICMP error) to the message sender. This is used in some protocols as a means of correctly aggregating routes. blackhole refers to a route which, if matched, discards the message silently. |
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vRtrInetAllCidrRouteAge | 1.3.6.1.4.1.6527.3.1.2.3.53.1.4 |
The value of vRtrInetAllCidrRouteAge indicates the number of seconds since this route was last updated or otherwise determined to be correct. Note that no semantics of too old can be implied except through knowledge of the routing protocol by which the route was learned. |
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vRtrInetAllCidrRouteNextHopAS | 1.3.6.1.4.1.6527.3.1.2.3.53.1.5 |
The value of vRtrInetAllCidrRouteNextHopAS indicates the Autonomous System Number of the Next Hop. The semantics of this object are determined by the routing- protocol specified in the routes inetCidrRouteProto index. When this object is unknown or not relevant its value should be set to zero. |
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vRtrInetAllCidrRouteMetric1 | 1.3.6.1.4.1.6527.3.1.2.3.53.1.6 |
The value of vRtrInetAllCidrRouteMetric1 indicates the primary routing metric for this route. The semantics of this metric are determined by the routing-protocol indicated in the routes inetCidrRouteProto index. If this metric is not used, its value will be -1. |
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vRtrInetAllCidrRouteMetric2 | 1.3.6.1.4.1.6527.3.1.2.3.53.1.7 |
The value of vRtrInetAllCidrRouteMetric2 indicates the primary routing metric for this route. The semantics of this metric are determined by the routing-protocol indicated in the routes inetCidrRouteProto index. If this metric is not used, its value will be -1. |
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vRtrInetAllCidrRouteMetric3 | 1.3.6.1.4.1.6527.3.1.2.3.53.1.8 |
The value of vRtrInetAllCidrRouteMetric3 indicates the primary routing metric for this route. The semantics of this metric are determined by the routing-protocol indicated in the routes inetCidrRouteProto index. If this metric is not used, its value will be -1. |
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vRtrInetAllCidrRouteMetric4 | 1.3.6.1.4.1.6527.3.1.2.3.53.1.9 |
The value of vRtrInetAllCidrRouteMetric4 indicates the primary routing metric for this route. The semantics of this metric are determined by the routing-protocol indicated in the routes inetCidrRouteProto index. If this metric is not used, its value will be -1. |
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vRtrInetAllCidrRouteMetric5 | 1.3.6.1.4.1.6527.3.1.2.3.53.1.10 |
The value of vRtrInetAllCidrRouteMetric5 indicates the primary routing metric for this route. The semantics of this metric are determined by the routing-protocol indicated in the routes inetCidrRouteProto index. If this metric is not used, its value will be -1. |
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vRtrInetAllCidrRoutePreference | 1.3.6.1.4.1.6527.3.1.2.3.53.1.11 |
The value of vRtrInetAllCidrRoutePreference indicates the priority of this static route versus the routes from different sources such as BGP or OSPF etc, when ipCidrRouteProto has a value of netmgmt to indicate that this entry is a static route. Different protocols should not be configured with the same preference, if this occurs the tiebreaker is determined per the default preference value as defined in the table below. If multiple routes are learned with an identical preference using the same protocol, the lowest cost is used. If multiple routes are learned with an identical preference using the same protocol and the costs (metrics) are equal, then the decision as to what route to use is determined by the configuration of the ecmp command. Default preferences: Route Type Preference Configurable ---------- ---------- ------------ Direct attached 0 no Static-route 5 yes MPLS (post FCS) 7 OSPF Internal routes 10 no OSPF External 150 yes BGP 170 yes |
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vRtrInetAllCidrRouteMetric | 1.3.6.1.4.1.6527.3.1.2.3.53.1.12 |
The value of vRtrInetAllCidrRouteMetric indicates the primary routing metric for this route. The semantics of this metric are determined by the routing-protocol specified in the routes ipCidrRouteProto value. |
||
vRtrInetAllCidrRouteIfVRtrId | 1.3.6.1.4.1.6527.3.1.2.3.53.1.13 |
The value of vRtrInetAllCidrRouteIfVRtrId indicates the virtual router instance of the egress interface defined by vRtrInetAllCidrRouteIfIndex. This object is valid only for subscriber management routes. For all other route types, this object will have a value of zero. |
||
vRtrInetAllCidrRouteIsActive | 1.3.6.1.4.1.6527.3.1.2.3.53.1.14 |
The value of vRtrInetAllCidrRouteIsActive indicates whether the this route is the active route for this destination in the IP CIDR route table. |
||
vRtrInetAllCidrRouteBkupFlags | 1.3.6.1.4.1.6527.3.1.2.3.53.1.15 |
The value of vRtrInetAllCidrRouteBkupFlags indicates the presence or absence of LFA next-hops and backup routes. none indicates that no next-hop is present. hasLfa indicates that an LFA next-hop is present in addition to the regular next-hop. hasBackup indicates that this route has a backup route. isBackup indicates that this route is a backup route to another route with the same prefix. |
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vRtrInetAllCidrRouteBkupNHopType | 1.3.6.1.4.1.6527.3.1.2.3.53.1.16 |
The value of vRtrInetAllCidrRouteBkupNHopType indicates the IP address type of vRtrInetAllCidrRouteBkupNextHop. The value of vRtrInetAllCidrRouteBkupNHopType is only valid when vRtrInetAllCidrRouteBkupFlags has a value of hasLfa. |
||
vRtrInetAllCidrRouteBkupNextHop | 1.3.6.1.4.1.6527.3.1.2.3.53.1.17 |
The value of vRtrInetAllCidrRouteBkupNextHop indicates the IP address of a backup next-hop. The value of vRtrInetAllCidrRouteBkupNextHop is only valid when vRtrInetAllCidrRouteBkupFlags has a value of hasLfa. |
||
vRtrInetAllCidrRouteBkupMetric | 1.3.6.1.4.1.6527.3.1.2.3.53.1.18 |
The value of vRtrInetAllCidrRouteBkupMetric indicates the routing metric for a backup route. The semantics of this metric are determined by the routing-protocol specified in the routes ipCidrRouteProto value. The value of vRtrInetAllCidrRouteBkupMetric is only valid when vRtrInetAllCidrRouteBkupFlags has a value of hasLfa. |
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vRtrInetAllCidrRouteNHopRepCount | 1.3.6.1.4.1.6527.3.1.2.3.53.1.19 |
The value of vRtrInetAllCidrRouteNHopRepCount indicates the number of times the next-hop repeats for a particular route. |
||
vRtrInetAllCidrRtNextHopType | 1.3.6.1.4.1.6527.3.1.2.3.53.1.20 |
The value of vRtrInetAllCidrRtNextHopType indicates the type of next hop for this route. |
||
vRtrInetAllCidrRtNextHopOwner | 1.3.6.1.4.1.6527.3.1.2.3.53.1.21 |
The value of vRtrInetAllCidrRtNextHopOwner indicates the owner of next hop for this route. |
||
vRtrInetAllCidrRtNHOwnerAuxInfo | 1.3.6.1.4.1.6527.3.1.2.3.53.1.22 |
The value of vRtrInetAllCidrRtNHOwnerAuxInfo indicates the auxiliary information for next hop owner as indicated by vRtrInetAllCidrRtNextHopOwner. The value of vRtrInetAllCidrRtNHOwnerAuxInfo indicates the tunnel-id existing for this next hop type and owner. |
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vRtrInetAllCidrRtBkupNHType | 1.3.6.1.4.1.6527.3.1.2.3.53.1.23 |
The value of vRtrInetAllCidrRtBkupNHType indicates the type of next hop for this backup route. |
||
vRtrInetAllCidrRtBkupNHOwner | 1.3.6.1.4.1.6527.3.1.2.3.53.1.24 |
The value of vRtrInetAllCidrRtBkupNHOwner indicates the owner of next hop for this backup route. |
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vRtrInetAllCidrRtBkupNHOwnAxInfo | 1.3.6.1.4.1.6527.3.1.2.3.53.1.25 |
The value of vRtrInetAllCidrRtBkupNHOwnAxInfo indicates the auxiliary information for next hop owner as indicated by vRtrInetAllCidrRtBkupNHOwner. The value of vRtrInetAllCidrRtBkupNHOwnAxInfo indicates the tunnel-id existing for this backup next hop type and owner. |
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vRtrIfStatsTable | 1.3.6.1.4.1.6527.3.1.2.3.54 |
The vRtrIfStatsTable table contains statistics per virtual router interface. |
||
1.3.6.1.4.1.6527.3.1.2.3.54.1 |
Each row entry represents the statistics per virtual router interface. Entries are created and deleted when entries in the vRtrIfEntry are created and deleted. |
|||
vRtrIfuRPFCheckFailPkts | 1.3.6.1.4.1.6527.3.1.2.3.54.1.1 |
The value of vRtrIfuRPFCheckFailPkts indicates the number of packets that fail uRPF check on this interface. |
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vRtrIfuRPFCheckFailPktsLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.2 |
The value of vRtrIfuRPFCheckFailPktsLow32 indicates the lower 32 bits of the value of vRtrIfuRPFCheckFailPkts. |
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vRtrIfuRPFCheckFailPktsHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.3 |
The value of vRtrIfuRPFCheckFailPktsHigh32 indicates the high 32 bits of the value of vRtrIfuRPFCheckFailPkts. |
||
vRtrIfuRPFCheckFailBytes | 1.3.6.1.4.1.6527.3.1.2.3.54.1.4 |
The value of vRtrIfuRPFCheckFailBytes indicates the number of bytes in the packets that fail uRPF check. |
||
vRtrIfuRPFCheckFailBytesLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.5 |
The value of vRtrIfuRPFCheckFailBytesLow32 indicates the lower 32 bits of the value of vRtrIfuRPFCheckFailBytes. |
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vRtrIfuRPFCheckFailBytesHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.6 |
The value of vRtrIfuRPFCheckFailBytesHigh32 indicates the high 32 bits of the value of vRtrIfuRPFCheckFailBytes. |
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vRtrIfIpReasFragPktsRcvd | 1.3.6.1.4.1.6527.3.1.2.3.54.1.7 |
The value of vRtrIfIpReasFragPktsRcvd indicates the number of fragmented packets received on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasFragPktsRcvdLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.8 |
The value of vRtrIfIpReasFragPktsRcvdLow32 indicates the lower 32 bits of the value of vRtrIfIpReasFragPktsRcvd. |
||
vRtrIfIpReasFragPktsRcvdHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.9 |
The value of vRtrIfIpReasFragPktsRcvdHigh32 indicates the high 32 bits of the value of vRtrIfIpReasFragPktsRcvd. |
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vRtrIfIpReasFragBytesRcvd | 1.3.6.1.4.1.6527.3.1.2.3.54.1.10 |
The value of vRtrIfIpReasFragBytesRcvd indicates the number of fragmented bytes received on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasFragBytesRcvdLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.11 |
The value of vRtrIfIpReasFragBytesRcvdLow32 indicates the lower 32 bits of the value of vRtrIfIpReasFragBytesRcvd. |
||
vRtrIfIpReasFragBytesRcvdHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.12 |
The value of vRtrIfIpReasFragBytesRcvdHigh32 indicates the high 32 bits of the value of vRtrIfIpReasFragBytesRcvd. |
||
vRtrIfIpReasFragPktsReas | 1.3.6.1.4.1.6527.3.1.2.3.54.1.13 |
The value of vRtrIfIpReasFragPktsReas indicates the number of fragmented packets reassembled on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasFragPktsReasLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.14 |
The value of vRtrIfIpReasFragPktsReasLow32 indicates the lower 32 bits of the value of vRtrIfIpReasFragPktsReas. |
||
vRtrIfIpReasFragPktsReasHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.15 |
The value of vRtrIfIpReasFragPktsReasHigh32 indicates the high 32 bits of the value of vRtrIfIpReasFragPktsRcvd. |
||
vRtrIfIpReasFragBytesReas | 1.3.6.1.4.1.6527.3.1.2.3.54.1.16 |
The value of vRtrIfIpReasFragBytesReas indicates the number of fragmented bytes reassembled on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasFragBytesReasLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.17 |
The value of vRtrIfIpReasFragBytesReasLow32 indicates the lower 32 bits of the value of vRtrIfIpReasFragBytesReas. |
||
vRtrIfIpReasFragBytesReasHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.18 |
The value of vRtrIfIpReasFragBytesReasHigh32 indicates the high 32 bits of the value of vRtrIfIpReasFragBytesReas. |
||
vRtrIfIpReasFragReasErrors | 1.3.6.1.4.1.6527.3.1.2.3.54.1.19 |
The value of vRtrIfIpReasFragReasErrors indicates the number of reassembly errors occured on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasFragReasErrorsLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.20 |
The value of vRtrIfIpReasFragReasErrorsLow32 indicates the lower 32 bits of the value of vRtrIfIpReasFragReasErrors. |
||
vRtrIfIpReasFragReasErrorsHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.21 |
The value of vRtrIfIpReasFragReasErrorsHigh32 indicates the high 32 bits of the value of vRtrIfIpReasFragReasErrors. |
||
vRtrIfIpReasFragDisc | 1.3.6.1.4.1.6527.3.1.2.3.54.1.22 |
The value of vRtrIfIpReasFragDisc indicates the number of packets reassembly discarded due to the timeout on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasFragDiscLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.23 |
The value of vRtrIfIpReasFragDiscLow32 indicates the lower 32 bits of the value of vRtrIfIpReasFragDisc. |
||
vRtrIfIpReasFragDiscHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.24 |
The value of vRtrIfIpReasFragDiscHigh32 indicates the high 32 bits of the value of vRtrIfIpReasFragDisc. |
||
vRtrIfIpReasOutBufRes | 1.3.6.1.4.1.6527.3.1.2.3.54.1.25 |
The value of vRtrIfIpReasOutBufRes indicates the number of times out of buffer resources happend while reassembly on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasOutBufResLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.26 |
The value of vRtrIfIpReasOutBufResLow32 indicates the lower 32 bits of the value of vRtrIfIpReasOutBufRes. |
||
vRtrIfIpReasOutBufResHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.27 |
The value of vRtrIfIpReasOutBufResHigh32 indicates the high 32 bits of the value of vRtrIfIpReasOutBufRes. |
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vRtrIfIpReasPktsRx | 1.3.6.1.4.1.6527.3.1.2.3.54.1.28 |
The value of vRtrIfIpReasPktsRx indicates the number of total packets received on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasPktsRxLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.29 |
The value of vRtrIfIpReasPktsRxLow32 indicates the lower 32 bits of the value of vRtrIfIpReasPktsRx. |
||
vRtrIfIpReasPktsRxHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.30 |
The value of vRtrIfIpReasPktsRxHigh32 indicates the high 32 bits of the value of vRtrIfIpReasPktsRx. |
||
vRtrIfIpReasBytesRx | 1.3.6.1.4.1.6527.3.1.2.3.54.1.31 |
The value of vRtrIfIpReasBytesRx indicates the number of total bytes received on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasBytesRxLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.32 |
The value of vRtrIfIpReasBytesRxLow32 indicates the lower 32 bits of the value of vRtrIfIpReasBytesRx. |
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vRtrIfIpReasBytesRxHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.33 |
The value of vRtrIfIpReasBytesRxHigh32 indicates the high 32 bits of the value of vRtrIfIpReasBytesRx. |
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vRtrIfIpReasPktsTx | 1.3.6.1.4.1.6527.3.1.2.3.54.1.34 |
The value of vRtrIfIpReasPktsTx indicates the number of total packets sent from this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasPktsTxLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.35 |
The value of vRtrIfIpReasPktsTxLow32 indicates the lower 32 bits of the value of vRtrIfIpReasPktsTx. |
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vRtrIfIpReasPktsTxHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.36 |
The value of vRtrIfIpReasPktsTxHigh32 indicates the high 32 bits of the value of vRtrIfIpReasPktsTx. |
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vRtrIfIpReasBytesTx | 1.3.6.1.4.1.6527.3.1.2.3.54.1.37 |
The value of vRtrIfIpReasBytesTx indicates the number of total bytes sent from this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasBytesTxLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.38 |
The value of vRtrIfIpReasBytesTxLow32 indicates the lower 32 bits of the value of vRtrIfIpReasBytesTx. |
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vRtrIfIpReasBytesTxHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.39 |
The value of vRtrIfIpReasBytesTxHigh32 indicates the high 32 bits of the value of vRtrIfIpReasBytesTx. |
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vRtrIfRxPkts | 1.3.6.1.4.1.6527.3.1.2.3.54.1.40 |
The value of vRtrIfRxPkts indicates the number of total packets received by this interface. |
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vRtrIfRxPktsLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.41 |
The value of vRtrIfRxPktsLow32 indicates the lower 32 bits of the value of vRtrIfRxPkts. |
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vRtrIfRxPktsHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.42 |
The value of vRtrIfRxPktsHigh32 indicates the high 32 bits of the value of vRtrIfRxPkts. |
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vRtrIfRxBytes | 1.3.6.1.4.1.6527.3.1.2.3.54.1.43 |
The value of vRtrIfRxBytes indicates the number of total bytes received by this interface. |
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vRtrIfRxBytesLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.44 |
The value of vRtrIfRxBytesLow32 indicates the lower 32 bits of the value of vRtrIfRxBytes. |
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vRtrIfRxBytesHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.45 |
The value of vRtrIfRxBytesHigh32 indicates the high 32 bits of the value of vRtrIfRxBytes. |
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vRtrIfTxV4Pkts | 1.3.6.1.4.1.6527.3.1.2.3.54.1.46 |
The value of vRtrIfTxV4Pkts indicates the number of total IPv4 packets sent from this interface. |
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vRtrIfTxV4PktsLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.47 |
The value of vRtrIfTxV4PktsLow32 indicates the lower 32 bits of the value of vRtrIfTxV4Pkts. |
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vRtrIfTxV4PktsHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.48 |
The value of vRtrIfTxV4PktsHigh32 indicates the high 32 bits of the value of vRtrIfTxV4Pkts. |
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vRtrIfTxV4Bytes | 1.3.6.1.4.1.6527.3.1.2.3.54.1.49 |
The value of vRtrIfTxV4Bytes indicates the number of total IPv4 bytes sent from this interface. |
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vRtrIfTxV4BytesLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.50 |
The value of vRtrIfTxV4BytesLow32 indicates the lower 32 bits of the value of vRtrIfTxV4Bytes. |
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vRtrIfTxV4BytesHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.51 |
The value of vRtrIfTxV4BytesHigh32 indicates the high 32 bits of the value of vRtrIfTxV4Bytes. |
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vRtrIfTxV6Pkts | 1.3.6.1.4.1.6527.3.1.2.3.54.1.52 |
The value of vRtrIfTxV6Pkts indicates the number of total IPv6 packets sent from this interface. |
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vRtrIfTxV6PktsLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.53 |
The value of vRtrIfTxV6PktsLow32 indicates the lower 32 bits of the value of vRtrIfTxV6Pkts. |
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vRtrIfTxV6PktsHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.54 |
The value of vRtrIfTxV6PktsHigh32 indicates the high 32 bits of the value of vRtrIfTxV6Pkts. |
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vRtrIfTxV6Bytes | 1.3.6.1.4.1.6527.3.1.2.3.54.1.55 |
The value of vRtrIfTxV6Bytes indicates the number of total IPv6 bytes sent from this interface. |
||
vRtrIfTxV6BytesLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.56 |
The value of vRtrIfTxV6BytesLow32 indicates the lower 32 bits of the value of vRtrIfTxV6Bytes. |
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vRtrIfTxV6BytesHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.57 |
The value of vRtrIfTxV6BytesHigh32 indicates the high 32 bits of the value of vRtrIfTxV6Bytes. |
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vRtrIfTxV4DiscardPkts | 1.3.6.1.4.1.6527.3.1.2.3.54.1.58 |
The value of vRtrIfTxV4DiscardPkts indicates the number of total IPv4 transmit packets discarded by this interface. |
||
vRtrIfTxV4DiscardPktsLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.59 |
The value of vRtrIfTxV4DiscardPktsLow32 indicates the lower 32 bits of the value of vRtrIfTxV4DiscardPkts. |
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vRtrIfTxV4DiscardPktsHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.60 |
The value of vRtrIfTxV4DiscardPktsHigh32 indicates the high 32 bits of the value of vRtrIfTxV4DiscardPkts. |
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vRtrIfTxV4DiscardBytes | 1.3.6.1.4.1.6527.3.1.2.3.54.1.61 |
The value of vRtrIfTxV4DiscardBytes indicates the number of total IPv4 transmit bytes discarded by this interface. |
||
vRtrIfTxV4DiscardBytesLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.62 |
The value of vRtrIfTxV4DiscardBytesLow32 indicates the lower 32 bits of the value of vRtrIfTxV4DiscardBytes. |
||
vRtrIfTxV4DiscardBytesHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.63 |
The value of vRtrIfTxV4DiscardBytesHigh32 indicates the high 32 bits of the value of vRtrIfTxV4DiscardBytes. |
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vRtrIfTxV6DiscardPkts | 1.3.6.1.4.1.6527.3.1.2.3.54.1.64 |
The value of vRtrIfTxV6DiscardPkts indicates the number of total IPv6 transmit packets discarded by this interface. |
||
vRtrIfTxV6DiscardPktsLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.65 |
The value of vRtrIfTxV6DiscardPktsLow32 indicates the lower 32 bits of the value of vRtrIfTxV6DiscardPkts. |
||
vRtrIfTxV6DiscardPktsHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.66 |
The value of vRtrIfTxV6DiscardPktsHigh32 indicates the high 32 bits of the value of vRtrIfTxV6DiscardPkts. |
||
vRtrIfTxV6DiscardBytes | 1.3.6.1.4.1.6527.3.1.2.3.54.1.67 |
The value of vRtrIfTxV6DiscardBytes indicates the number of total IPv6 transmit bytes discarded by this interface. |
||
vRtrIfTxV6DiscardBytesLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.68 |
The value of vRtrIfTxV6DiscardBytesLow32 indicates the lower 32 bits of the value of vRtrIfTxV6DiscardBytes. |
||
vRtrIfTxV6DiscardBytesHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.69 |
The value of vRtrIfTxV6DiscardBytesHigh32 indicates the high 32 bits of the value of vRtrIfTxV6DiscardBytes. |
||
vRtrIfIpReasV6FragPktsRcvd | 1.3.6.1.4.1.6527.3.1.2.3.54.1.70 |
The value of vRtrIfIpReasV6FragPktsRcvd indicates the number of IPv6 fragmented packets received on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasV6FragPktsRcvdLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.71 |
The value of vRtrIfIpReasV6FragPktsRcvdLow32 indicates the lower 32 bits of the value of vRtrIfIpReasV6FragPktsRcvd. |
||
vRtrIfIpReasV6FragPktsRcvdHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.72 |
The value of vRtrIfIpReasV6FragPktsRcvdHigh32 indicates the high 32 bits of the value of vRtrIfIpReasV6FragPktsRcvd. |
||
vRtrIfIpReasV6FragBytesRcvd | 1.3.6.1.4.1.6527.3.1.2.3.54.1.73 |
The value of vRtrIfIpReasV6FragBytesRcvd indicates the number of IPv6 fragmented bytes received on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasV6FragBytesRcvdL32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.74 |
The value of vRtrIfIpReasV6FragBytesRcvdL32 indicates the lower 32 bits of the value of vRtrIfIpReasV6FragBytesRcvd. |
||
vRtrIfIpReasV6FragBytesRcvdH32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.75 |
The value of vRtrIfIpReasV6FragBytesRcvdH32 indicates the high 32 bits of the value of vRtrIfIpReasV6FragBytesRcvd. |
||
vRtrIfIpReasV6FragPktsReas | 1.3.6.1.4.1.6527.3.1.2.3.54.1.76 |
The value of vRtrIfIpReasV6FragPktsReas indicates the number of IPv6 fragmented packets reassembled on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasV6FragPktsReasLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.77 |
The value of vRtrIfIpReasV6FragPktsReasLow32 indicates the lower 32 bits of the value of vRtrIfIpReasV6FragPktsReas. |
||
vRtrIfIpReasV6FragPktsReasHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.78 |
The value of vRtrIfIpReasV6FragPktsReasHigh32 indicates the high 32 bits of the value of vRtrIfIpReasV6FragPktsRcvd. |
||
vRtrIfIpReasV6FragBytesReas | 1.3.6.1.4.1.6527.3.1.2.3.54.1.79 |
The value of vRtrIfIpReasV6FragBytesReas indicates the number of IPv6 fragmented bytes reassembled on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasV6FragBytesReasL32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.80 |
The value of vRtrIfIpReasV6FragBytesReasL32 indicates the lower 32 bits of the value of vRtrIfIpReasV6FragBytesReas. |
||
vRtrIfIpReasV6FragBytesReasH32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.81 |
The value of vRtrIfIpReasV6FragBytesReasH32 indicates the high 32 bits of the value of vRtrIfIpReasV6FragBytesReas. |
||
vRtrIfIpReasV6FragReasErrors | 1.3.6.1.4.1.6527.3.1.2.3.54.1.82 |
The value of vRtrIfIpReasV6FragReasErrors indicates the number of IPv6 reassembly errors occured on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasV6FragReasErrorsL32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.83 |
The value of vRtrIfIpReasV6FragReasErrorsL32 indicates the lower 32 bits of the value of vRtrIfIpReasV6FragReasErrors. |
||
vRtrIfIpReasV6FragReasErrorsH32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.84 |
The value of vRtrIfIpReasV6FragReasErrorsH32 indicates the high 32 bits of the value of vRtrIfIpReasV6FragReasErrors. |
||
vRtrIfIpReasV6FragDisc | 1.3.6.1.4.1.6527.3.1.2.3.54.1.85 |
The value of vRtrIfIpReasV6FragDisc indicates the number of IPv6 packets reassembly discarded due to the timeout on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasV6FragDiscLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.86 |
The value of vRtrIfIpReasV6FragDiscLow32 indicates the lower 32 bits of the value of vRtrIfIpReasV6FragDisc. |
||
vRtrIfIpReasV6FragDiscHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.87 |
The value of vRtrIfIpReasV6FragDiscHigh32 indicates the high 32 bits of the value of vRtrIfIpReasV6FragDisc. |
||
vRtrIfIpReasV6OutBufRes | 1.3.6.1.4.1.6527.3.1.2.3.54.1.88 |
The value of vRtrIfIpReasV6OutBufRes indicates the number of times out of buffer resources happend while IPv6 reassembly on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasV6OutBufResLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.89 |
The value of vRtrIfIpReasV6OutBufResLow32 indicates the lower 32 bits of the value of vRtrIfIpReasV6OutBufRes. |
||
vRtrIfIpReasV6OutBufResHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.90 |
The value of vRtrIfIpReasV6OutBufResHigh32 indicates the high 32 bits of the value of vRtrIfIpReasV6OutBufRes. |
||
vRtrIfIpReasV6PktsRx | 1.3.6.1.4.1.6527.3.1.2.3.54.1.91 |
The value of vRtrIfIpReasV6PktsRx indicates the number of total IPv6 packets received on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasV6PktsRxLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.92 |
The value of vRtrIfIpReasV6PktsRxLow32 indicates the lower 32 bits of the value of vRtrIfIpReasV6PktsRx. |
||
vRtrIfIpReasV6PktsRxHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.93 |
The value of vRtrIfIpReasV6PktsRxHigh32 indicates the high 32 bits of the value of vRtrIfIpReasV6PktsRx. |
||
vRtrIfIpReasV6BytesRx | 1.3.6.1.4.1.6527.3.1.2.3.54.1.94 |
The value of vRtrIfIpReasV6BytesRx indicates the number of total IPv6 bytes received on this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasV6BytesRxLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.95 |
The value of vRtrIfIpReasV6BytesRxLow32 indicates the lower 32 bits of the value of vRtrIfIpReasV6BytesRx. |
||
vRtrIfIpReasV6BytesRxHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.96 |
The value of vRtrIfIpReasV6BytesRxHigh32 indicates the high 32 bits of the value of vRtrIfIpReasV6BytesRx. |
||
vRtrIfIpReasV6PktsTx | 1.3.6.1.4.1.6527.3.1.2.3.54.1.97 |
The value of vRtrIfIpReasV6PktsTx indicates the number of total IPv6 packets sent from this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasV6PktsTxLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.98 |
The value of vRtrIfIpReasV6PktsTxLow32 indicates the lower 32 bits of the value of vRtrIfIpReasV6PktsTx. |
||
vRtrIfIpReasV6PktsTxHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.99 |
The value of vRtrIfIpReasV6PktsTxHigh32 indicates the high 32 bits of the value of vRtrIfIpReasV6PktsTx. |
||
vRtrIfIpReasV6BytesTx | 1.3.6.1.4.1.6527.3.1.2.3.54.1.100 |
The value of vRtrIfIpReasV6BytesTx indicates the number of total IPv6 bytes sent from this interface. The value of the object is 0 if the MDA type is not isa-ip-reas. |
||
vRtrIfIpReasV6BytesTxLow32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.101 |
The value of vRtrIfIpReasV6BytesTxLow32 indicates the lower 32 bits of the value of vRtrIfIpReasV6BytesTx. |
||
vRtrIfIpReasV6BytesTxHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.54.1.102 |
The value of vRtrIfIpReasV6BytesTxHigh32 indicates the high 32 bits of the value of vRtrIfIpReasV6BytesTx. |
||
vRtrIfSpeed | 1.3.6.1.4.1.6527.3.1.2.3.54.1.103 |
The value of vRtrIfSpeed indicates an estimate of the current bandwidth in bits per second for this interface. |
||
vRtrNetDomainTblLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.55 |
The value of vRtrNetDomainTblLastChanged indicates the sysUpTime at the time of the last modification of vRtrNetDomainTable. If no changes were made to the table since the last re-initialization of the local network management subsystem, then this object contains a zero value. |
||
vRtrNetDomainTable | 1.3.6.1.4.1.6527.3.1.2.3.56 |
The vRtrNetDomainTable table contains network-domains which can be then associated with individual interfaces and SDPs. |
||
1.3.6.1.4.1.6527.3.1.2.3.56.1 |
Each row entry represents the network-domains per virtual router interface. There will always be at least one row entry in this table which represents the default network-doamin. This entry is created when the system is initialized and can never be deleted. |
|||
vRtrNetDomainName | 1.3.6.1.4.1.6527.3.1.2.3.56.1.1 |
The value of vRtrNetDomainName specifies the network-domain name configured on this virtual router. There will always be at least one network-domain entry defined by the agent with value default which represents the default network-domain. |
||
vRtrNetDomainRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.56.1.2 |
The value of the object vRtrNetDomainRowStatus specifies the Row status of this table row. This object is used to create or delete rows in this table. |
||
vRtrNetDomainLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.56.1.3 |
The value of vRtrNetDomainLastChanged indicates the sysUpTime when any object of the row is last changed. |
||
vRtrNetDomainDesc | 1.3.6.1.4.1.6527.3.1.2.3.56.1.4 |
The value of vRtrNetDomainDesc is a user provided description string for this network-domain. It can consist of any printable, seven-bit ASCII characters up to 80 characters in length. |
||
vRtrNetDomainIfAssociationCnt | 1.3.6.1.4.1.6527.3.1.2.3.56.1.5 |
The value of vRtrNetDomainIfAssociationCnt indicates the number of network interfaces associated with this network-domain. |
||
vRtrNetDomainSdpAssociationCnt | 1.3.6.1.4.1.6527.3.1.2.3.56.1.6 |
The value of vRtrNetDomainSdpAssociationCnt indicates the number of SDPs associated with this network-domain. |
||
vRtrIfNetDomainTblLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.57 |
The value of vRtrIfNetDomainTblLastChanged indicates the sysUpTime at the time of the last modification of vRtrIfNetDomainTable. If no changes were made to the table since the last re-initialization of the local network management subsystem, then this object contains a zero value. |
||
vRtrIfNetDomainTable | 1.3.6.1.4.1.6527.3.1.2.3.58 |
The vRtrIfNetDomainTable provides an extension to the vRtrIfTable. It has an entry for each network domain associated with virtual router interface configured in the system. |
||
1.3.6.1.4.1.6527.3.1.2.3.58.1 |
Each row entry represents information related to network-domain for a virtual router interface in the system. |
|||
vRtrIfNetDomainRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.58.1.1 |
The value of the object vRtrNetDomainRowStatus specifies the Row status of this table row. This object is used to create or delete rows in this table. |
||
vRtrIfNetDomainLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.58.1.2 |
The value of vRtrNetDomainLastChanged indicates the sysUpTime when any object of the row is last changed. |
||
vRtrConfExtTable | 1.3.6.1.4.1.6527.3.1.2.3.60 |
The vRtrConfExtTable provides an extension of the vRtrConfTable. |
||
1.3.6.1.4.1.6527.3.1.2.3.60.1 |
Each row entry in the vRtrConfExtTable represents additional columns for attributes specific to the Alcatel-Lucent SROS series implementation for the router configuration table. |
|||
vRtrLdpShortcut | 1.3.6.1.4.1.6527.3.1.2.3.60.1.1 |
The value of vRtrLdpShortcut specifies if IP packets are being forwarded using LDP shortcuts over all network interfaces in the system which participate in the IS-IS and OSPF routing protocols. |
||
vRtrSingleSfmOverloadAdminState | 1.3.6.1.4.1.6527.3.1.2.3.60.1.2 |
The value of the object vRtrSingleSfmOverloadAdminState specifies the administrative state of the IGP single-SFM-overload behavior in this virtual router instance. When the value of vRtrSingleSfmOverloadAdminState is equal to inService, IGP protocols (either IS-IS or OSPF) enter an overload state when the node only has a single SFM functioning. |
||
vRtrSingleSfmOverloadHldOffTime | 1.3.6.1.4.1.6527.3.1.2.3.60.1.3 |
The value of the object vRtrSingleSfmOverloadHldOffTime specifies the delay between the detection of the single-SFM condition and the IGP entering the overload state. |
||
vRtrSingleSfmOverloadState | 1.3.6.1.4.1.6527.3.1.2.3.60.1.4 |
The value of the object vRtrSingleSfmOverloadState indicates the IGP single-SFM-overload state. |
||
vRtrSingleSfmOverloadStart | 1.3.6.1.4.1.6527.3.1.2.3.60.1.5 |
The value of vRtrSingleSfmOverloadStart indicates the sysUpTime the last time that the vRtrSingleSfmOverloadState had a transition from notApplicable or normal to overload. If such a transition never occurred, this object contains a zero value. |
||
vRtrSingleSfmOverloadTime | 1.3.6.1.4.1.6527.3.1.2.3.60.1.6 |
The value of vRtrSingleSfmOverloadTime indicates the duration of the most recent overload. |
||
vRtrGrtState | 1.3.6.1.4.1.6527.3.1.2.3.60.1.7 |
The value of vRtrGrtState specifies if a route lookup is done in the Global Route Table (GRT) when the lookup in the local VRF fails. When the value of this object is set to false, route lookup in the GRT is disabled. |
||
vRtrMvpnIpmsiP2MPAdmin | 1.3.6.1.4.1.6527.3.1.2.3.60.1.8 |
The value of vRtrMvpnIpmsiP2MPAdmin specifies the current administrative state of P2MP for the inclusive provider tunnel. An inconsistentValue error is returned if this object is set to non-default value when vRtrMvpnIpmsiLspTemplate is set to its default value. |
||
vRtrMvpnSpmsiP2MPAdmin | 1.3.6.1.4.1.6527.3.1.2.3.60.1.9 |
The value of vRtrMvpnSpmsiP2MPAdmin specifies the current administrative state of P2MP for the selective provider tunnel. An inconsistentValue error is returned if this object is set to non-default value when vRtrMvpnSpmsiLspTemplate is set to its default value. |
||
vRtrMvpnIpmsiLspTemplate | 1.3.6.1.4.1.6527.3.1.2.3.60.1.10 |
The value of the vRtrMvpnIpmsiLspTemplate specifies the name of the template whose parameters configured in TIMETRA-MPLS-MIB::vRtrMplsLspTemplateTable are signalled to the automatically created P2MP LSP for the inclusive provider tunnel. If a corresponding index does not exist in TIMETRA-MPLS-MIB::vRtrMplsLspTemplateTable, an inconsistentValue error will be returned. An inconsistentValue error is returned if this object is set to non-default value when vRtrMvpnIpmsiP2MPAdmin is set to its non-default value. |
||
vRtrMvpnSpmsiLspTemplate | 1.3.6.1.4.1.6527.3.1.2.3.60.1.11 |
The value of the vRtrMvpnSpmsiLspTemplate specifies the name of the template whose paramters configured in TIMETRA-MPLS-MIB::vRtrMplsLspTemplateTable are signalled to the automatically created P2MP LSP for the selective provider tunnel. If a corresponding index does not exist in TIMETRA-MPLS-MIB::vRtrMplsLspTemplateTable, an inconsistentValue error will be returned. An inconsistentValue error is returned if this object is set to non-default value when vRtrMvpnSpmsiP2MPAdmin is set to its non-default value. |
||
vRtrMvpnIpmsiType | 1.3.6.1.4.1.6527.3.1.2.3.60.1.12 |
The value of vRtrMvpnIpmsiType specifies the type of the inclusive provider tunnel. When the value of vRtrMvpnIpmsiType is set to rsvp, the inclusive provider tunnel is used for RSVP. When the value is set to pim, the inclusive provider tunnel is used for PIM. When the value is set to ldp, the inclusive provider tunnel is used for LDP. |
||
vRtrMvpnSpmsiType | 1.3.6.1.4.1.6527.3.1.2.3.60.1.13 |
The value of vRtrMvpnSpmsiType specifies the type of the selective provider tunnel. When the value of vRtrMvpnSpmsiType is set to rsvp, the selective provider tunnel is used for RSVP. When the value is set to pim, the selective provider tunnel is used for PIM. When the value is set to ldp, the selective provider tunnel is used for LDP. |
||
vRtrMvpnSpmsiMaxLimit | 1.3.6.1.4.1.6527.3.1.2.3.60.1.14 |
The value of the object vRtrMvpnSpmsiMaxLimit specifies the maximum number of RSVP/mLDP P2MP S-PMSI tunnels for the mVPN. Once the limit is reached, no more RSVP/mLDP P2MP S-PMSI are created and traffic over the data-threshold will stay on I-PMSI. |
||
vRtrFibPriority | 1.3.6.1.4.1.6527.3.1.2.3.60.1.15 |
The value of vRtrFibPriority specifies the priority of updating set of routes into the forwarding plane. If the value of vRtrFibPriority for the VPRN is set to high, the FIB (Forwarding Information Base) entries for the VPRN are given priority over all other routes. By default the vRtrFibPriority for a VPRN is set to standard which means the FIB entries for the VPRN do not have any preference over routes from other VPRNs. |
||
vRtrCarrierCarrierVpn | 1.3.6.1.4.1.6527.3.1.2.3.60.1.16 |
The value of vRtrCarrierCarrierVpn specifies whether Carrier supporting Carrier model is supported on this VPRN service. |
||
vRtrLabelMode | 1.3.6.1.4.1.6527.3.1.2.3.60.1.17 |
The value of vRtrLabelMode specifies the mode of allocation of service labels to the routes exported by the VPRN as BGP-VPN routes. If the value of vRtrLabelMode is set to nexthop(2), the service labels are allocated per next-hop. By default the value of vRtrLabelMode is set to vrf(1) which means the service labels are allocated per VRF(Virtual Routing and Forwarding). |
||
vRtrBgpSharedQueue | 1.3.6.1.4.1.6527.3.1.2.3.60.1.18 |
The value of vRtrBgpSharedQueue specifies whether BGP peers associated with this VPRN instance share a single CPM queue. |
||
vRtrBgpSharedQueueCIR | 1.3.6.1.4.1.6527.3.1.2.3.60.1.19 |
The value of the object vRtrBgpSharedQueueCIR specifies the Committed information rate (CIR) in kbps for BGP shared queue for this VPRN instance. |
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vRtrBgpSharedQueuePIR | 1.3.6.1.4.1.6527.3.1.2.3.60.1.20 |
The value of the object vRtrBgpSharedQueuePIR specifies the Peak information rate (PIR) in kbps for BGP shared queue for this VPRN instance. |
||
vRtrMvpnMdtSafi | 1.3.6.1.4.1.6527.3.1.2.3.60.1.21 |
The value of vRtrMvpnMdtSafi indicates whether MDT-SAFI is enabled on the MVPN or not. If the value of the object is true, it indicates that the MDT-SAFI is enabled for MVPN. If the value of the object is false, it indicates that the MDT-SAFI is not enabled for MVPN. |
||
vRtrMvpnMdtDefGrpAddrType | 1.3.6.1.4.1.6527.3.1.2.3.60.1.22 |
The value of vRtrPimNgAFGenMdtDefGrpAddrType indicates the type of default core group address of the Multicast Distribution Tree(MDT) specified by vRtrMvpnMdtDefGrpAddress. |
||
vRtrMvpnMdtDefGrpAddress | 1.3.6.1.4.1.6527.3.1.2.3.60.1.23 |
The value of vRtrPimNgAFGenMdtDefGrpAddress indicates the default core group address of the Multicast Distribution Tree(MDT). The value of this object is applicable only when the value of vRtrMvpnMdtSafi is true. |
||
vRtrMvpnIpmsiEnableBfdRoot | 1.3.6.1.4.1.6527.3.1.2.3.60.1.24 |
The value of vRtrMvpnIpmsiEnableBfdRoot specifies whether or not Bi-directional Forwarding Detection is enabled on the tunnel root. When the value is true, the bfd session over RSVP-TE P2MP LSP for upstream fast failover tunnel status detection is enabled on the root. When it is false, the bfd session is disabled on the root. An inconsistentValue error is returned if an attempt is made to set this object to true without specifying a value for vRtrMvpnIpmsiBfdRtTraInt. The value of this object is only applicable when vRtrMvpnIpmsiType is set to rsvp. |
||
vRtrMvpnIpmsiEnableBfdLeaf | 1.3.6.1.4.1.6527.3.1.2.3.60.1.25 |
The value of vRtrMvpnIpmsiEnableBfdLeaf specifies whether or not Bi-directional Forwarding Detection is enabled on the tunnel leaf. When the value is true, the bfd session over RSVP-TE P2MP LSP for upstream fast failover tunnel status detection is enabled on the leaf. When it is false, the bfd session is disabled on the leaf. The value of this object is only applicable when vRtrMvpnIpmsiType is set to rsvp. |
||
vRtrMvpnIpmsiBfdRtTraInt | 1.3.6.1.4.1.6527.3.1.2.3.60.1.26 |
The value of vRtrMvpnIpmsiBfdRtTraInt specifies the BFD transmit interval over this interface. The minimum accepted value depends on the value of vRtrIfBfdExtType, as follows: cpmNp(1) : 10 milliseconds auto(2) : 100 milliseconds. The value of this object is only applicable when vRtrMvpnIpmsiType is set to rsvp. An inconsistentValue error is returned if an attempt is made to modify the value of this object when vRtrMvpnIpmsiEnableBfdRoot is set to false. |
||
vRtrMvpnIpmsiBfdRootMult | 1.3.6.1.4.1.6527.3.1.2.3.60.1.27 |
The value of vRtrMvpnIpmsiBfdRootMult specifies the number of consecutive BFD messages that must be missed from the peer before the BFD session state is changed to down and the upper level protocols (OSPF, IS-IS or PIM) are notified of the fault. The value of this object is only applicable when vRtrMvpnIpmsiType is set to rsvp. An inconsistentValue error is returned if an attempt is made to modify the value of this object when vRtrMvpnIpmsiEnableBfdRoot is set to false. |
||
vRtrVpnBackupPath | 1.3.6.1.4.1.6527.3.1.2.3.60.1.28 |
The value of vRtrVpnBackupPath specifies the address families for which the computation and use of a backup path is enabled for BGP-VPN routes imported into the VPRN. |
||
vRtrIpFastReroute | 1.3.6.1.4.1.6527.3.1.2.3.60.1.29 |
The value of vRtrIpFastReroute specifies whether to enable or disable IP fast re-route capability. When the value of vRtrIpFastReroute is set to true IP fast re-route capability is enabled and when vRtrIpFastReroute is set to false IP fast re-route capability is disabled. |
||
vRtrGrtLocalMgmtState | 1.3.6.1.4.1.6527.3.1.2.3.60.1.30 |
The value of vRtrGrtLocalMgmtState specifies whether to enable or disable traffic from GRT-leaking enabled VPRN instances to reach local interfaces in the base routing instance. When the value of vRtrGrtLocalMgmtState is set to true, management protocols like SSH, Telnet, FTP, SNMP, etc are allowed from a GRT-leaking enabled VPRN to access local interfaces in the global routing instance. Ping and traceroute are independent of the value of vRtrGrtLocalMgmtState. |
||
vRtrIfExtTable | 1.3.6.1.4.1.6527.3.1.2.3.61 |
The vRtrIfExtTable has an entry for each router interface configured in the system. This table augments the vRtrIfTable. |
||
1.3.6.1.4.1.6527.3.1.2.3.61.1 |
Each row entry represents a virtual router interface in the system. Entries can be created and deleted via SNMP SET operations using the vRtrIfRowStatus variable. |
|||
vRtrIfLsrIpLoadBalancing | 1.3.6.1.4.1.6527.3.1.2.3.61.1.1 |
The value of vRtrIfLsrIpLoadBalancing specifies whether the IP Header is used in the LAG and ECMP LSR hashing algorithm. This is the per interface setting. When set to label-only (1) only the label is used in the hashing algorithm. When set to label-ip (2), the IP Header is included in the hashing algorithm. When set to ip-only (3) the IP Header is used exclusively in the hashing Algorithm. When set to system (0), the hashing algorithm is inherited from the object tmnxLsrIpLoadBalancing. |
||
vRtrIfIngressIpv4Flowspec | 1.3.6.1.4.1.6527.3.1.2.3.61.1.2 |
The value of vRtrIfIngressIpv4Flowspec specifies whether ingress Flowspec for IPv4 is enabled for this interface. |
||
vRtrIfInfo | 1.3.6.1.4.1.6527.3.1.2.3.61.1.3 |
The value of vRtrIfInfo specifies the information used to authenticate the interface. |
||
vRtrIfInfoEncrypted | 1.3.6.1.4.1.6527.3.1.2.3.61.1.4 |
The object vRtrIfInfoEncrypted is currently not supported. |
||
vRtrIfQosRouteLookup | 1.3.6.1.4.1.6527.3.1.2.3.61.1.5 |
The value of vRtrIfQosRouteLookup specifies whether QoS classification of the ingress IP packets based on the route lookup is enabled for ipv4 on this router interface. By default the value of vRtrIfQosRouteLookup is set to none (0), which means the Qos classification of incoming IP packets based on the route lookup is disabled for ipv4 on this interface. When the value of vRtrIfQosRouteLookup is destination (1), the QoS route lookup is enabled and the Qos classification of incoming IP packets is based on the destination address matching. When the value of vRtrIfQosRouteLookup is source (2), the QoS route lookup is enabled and the Qos classification of incoming IP packets is based on the source address matching. |
||
vRtrIfIpv6QosRouteLookup | 1.3.6.1.4.1.6527.3.1.2.3.61.1.6 |
The value of vRtrIfIpv6QosRouteLookup specifies whether QoS classification of the ingress IP packets based on the route lookup is enabled for ipv6 on this router interface. By default the value of vRtrIfIpv6QosRouteLookup is none (0), which means the Qos classification of incoming IP packets based on the route lookup is disabled on this interface. When the value of vRtrIfIpv6QosRouteLookup is destination (1), the QoS route lookup is enabled and the Qos classification of incoming IP packets is based on the destination address matching. |
||
vRtrIfStatusString | 1.3.6.1.4.1.6527.3.1.2.3.61.1.7 |
The value of vRtrIfStatusString indicates the status information about the interface. |
||
vRtrIfIpv6uRPFCheckState | 1.3.6.1.4.1.6527.3.1.2.3.61.1.8 |
The value of vRtrIfIpv6uRPFCheckState specifies whether unicast RPF (uRPF) check is enabled on this interface. |
||
vRtrIfIpv6uRPFCheckMode | 1.3.6.1.4.1.6527.3.1.2.3.61.1.9 |
The value of vRtrIfIpv6uRPFCheckMode specifies the mode of unicast RPF check. By default the value of vRtrIfIpv6uRPFCheckMode is strict (0),which means that uRPF checks whether the incoming packet has a source address that matches a prefix in the routing table, and whether the interface expects to recieve a packet with this source address prefix. When the value of vRtrIfIpv6uRPFCheckMode is loose (1), the uRPF checks whether the incoming packet has a source address with a corresponding prefix in the routing table. It does not check whether the interface expects to recieve a packet with a specific source address prefix. This object is valid only when value of vRtrIfIpv6uRPFCheckState is set to enabled. |
||
vRtrIfTmsOffRampVprn | 1.3.6.1.4.1.6527.3.1.2.3.61.1.10 |
The vRtrIfTmsOffRampVprn specifies the off-ramp VPRN service associated with this threat-management service (TMS) interface. An inconsistentValue error is returned when this object is set to a non-default value when vRtrIfType is not set to tmsService. An inconsistentValue error is returned when this object is set to a different value when vRtrIfRowStatus is set to active. |
||
vRtrIfTmsMgmtVprn | 1.3.6.1.4.1.6527.3.1.2.3.61.1.11 |
The vRtrIfTmsMgmtVprn specifies the management VPRN service associated with this threat-management service (TMS) interface. An inconsistentValue error is returned when this object is set to a non-default value when vRtrIfType is not set to tmsService. An inconsistentValue error is returned when this object is set to a different value when vRtrIfRowStatus is set to active. |
||
vRtrRsvpTunIfTableLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.62 |
The value of vRtrRsvpTunIfTableLastChanged indicates the sysUpTime at the time of the last modification to vRtrRsvpTunIfEntryTable by adding, deleting an entry or change to a writable object in the table. |
||
vRtrRsvpTunIfEntryTable | 1.3.6.1.4.1.6527.3.1.2.3.63 |
The vRtrRsvpTunIfEntryTable has an entry for each P2MP RSVP tunnel interface configured in the system. |
||
1.3.6.1.4.1.6527.3.1.2.3.63.1 |
Each row entry in the vRtrRsvpTunIfEntryTable represents a P2MP RSVP tunnel interface on this router. Entries can be created and deleted via SNMP SET operations using the vRtrRsvpTunIfRowStatus variable. |
|||
vRtrRsvpTunIfLspName | 1.3.6.1.4.1.6527.3.1.2.3.63.1.1 |
The value of vRtrRsvpTunIfLspName indicates the LSP name of the P2MP RSVP tunnel interface. |
||
vRtrRsvpTunIfSenderAddrType | 1.3.6.1.4.1.6527.3.1.2.3.63.1.2 |
The value of vRtrRsvpTunIfSenderAddrType indicates the type of address of an RSVP sender for the P2MP RSVP tunnel interface instance. |
||
vRtrRsvpTunIfSenderAddr | 1.3.6.1.4.1.6527.3.1.2.3.63.1.3 |
The value of vRtrRsvpTunIfSenderAddr indicates the address of an RSVP sender for the P2MP RSVP tunnel interface instance. |
||
vRtrRsvpTunIfRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.63.1.4 |
The value of vRtrRsvpTunIfRowStatus specifies the Row status of this table row. This object is used to create or delete rows in this table. |
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vRtrRsvpTunIfLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.63.1.5 |
The value of vRtrRsvpTunIfLastChanged indicates the timestamp of the last change to this row in vRtrRsvpTunIfEntryTable. |
||
vRtrRsvpTunIfSessionId | 1.3.6.1.4.1.6527.3.1.2.3.63.1.6 |
The value of vRtrRsvpTunIfSessionId specifies the discriminator for a BFD session for this P2MP RSVP tunnel interface. When vRtrRsvpTunIfSessionId has a value of 0, the BFD session is not operational. This identifier needs to be unique within a tunnel interface. |
||
vRtrRsvpTunIfTransmitInt | 1.3.6.1.4.1.6527.3.1.2.3.63.1.7 |
The value of vRtrRsvpTunIfTransmitInt specifies the transmit interval for a BFD session for this P2MP RSVP tunnel interface. When vRtrRsvpTunIfTransmitInt has a value of 0, the transmit interval is not applicable. |
||
vRtrRsvpTunIfMultiplier | 1.3.6.1.4.1.6527.3.1.2.3.63.1.8 |
The value of vRtrRsvpTunIfMultiplier specifies the multiplier to detect if a BFD session is down for this P2MP RSVP tunnel interface. When vRtrRsvpTunIfMultiplier has a value of 0, the multiplier is not applicable. |
||
vRtrRsvpTunIfStandbyLspName | 1.3.6.1.4.1.6527.3.1.2.3.63.1.9 |
The value of vRtrRsvpTunIfStandbyLspName specifies the LSP name of the standby P2MP RSVP tunnel interface. |
||
vRtrRsvpTunIfStandbyAddrType | 1.3.6.1.4.1.6527.3.1.2.3.63.1.10 |
The value of vRtrRsvpTunIfStandbyAddrType specifies the address type of the standby P2MP RSVP tunnel interface. |
||
vRtrRsvpTunIfStandbyAddr | 1.3.6.1.4.1.6527.3.1.2.3.63.1.11 |
The value of vRtrRsvpTunIfStandbyAddr specifies the standby address of the standby P2MP RSVP tunnel interface. |
||
vRtrRsvpTunIfIfIndex | 1.3.6.1.4.1.6527.3.1.2.3.63.1.12 |
The value of vRtrRsvpTunIfIfIndex indicates the tunnel interface index of the P2MP RSVP tunnel interface. It is a unique value among entries with the same value of vRtrID. |
||
vRtrRsvpTunIfHoldTimer | 1.3.6.1.4.1.6527.3.1.2.3.63.1.13 |
The value of vRtrRsvpTunIfHoldTimer specifies the time interval that a leaf node waits after a BFD session over a primary P2MP RSVP tunnel interface is restored and before it programs multicast records to accept traffic from that primary tunnel interface. |
||
vRtrRsvpTunIfStandbySessionId | 1.3.6.1.4.1.6527.3.1.2.3.63.1.14 |
The value of vRtrRsvpTunIfStandbySessionId specifies the discriminator for a BFD session over the standby P2MP RSVP tunnel interface. When vRtrRsvpTunIfStandbySessionId has a value of 0, the BFD session is not operational. This identifier needs to be unique within a tunnel interface. |
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vRtrRsvpTunIfStandbyIfIndex | 1.3.6.1.4.1.6527.3.1.2.3.63.1.15 |
The value of vRtrRsvpTunIfStandbyIfIndex indicates the tunnel interface index of the standby P2MP RSVP tunnel interface. |
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vRtrRsvpTunIfDescription | 1.3.6.1.4.1.6527.3.1.2.3.63.1.16 |
The value of vRtrRsvpTunIfDescription specifies a user provided description string for this rsvp tunnel-interface. It can consist of any printable, seven-bit ASCII characters up to 80 characters in length. |
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vRtrRsvpTunIfSrcTableLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.64 |
The value of vRtrRsvpTunIfSrcTableLastChanged indicates the sysUpTime at the time of the last modification to vRtrRsvpTunIfSrcEntryTable by adding, deleting an entry or change to a writable object in the table. |
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vRtrRsvpTunIfSrcEntryTable | 1.3.6.1.4.1.6527.3.1.2.3.65 |
The vRtrRsvpTunIfSrcEntryTable has an entry for each multicast source tracked by BFD over a P2MP RSVP tunnel interface. |
||
1.3.6.1.4.1.6527.3.1.2.3.65.1 |
Each row entry represents a multicast source tracked by BFD over P2MP RSVP tunnel interface in the system. Entries can be created and deleted via SNMP SET operations using the vRtrRsvpTunIfSrcRowStatus variable. |
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vRtrRsvpTunIfSrcAddrType | 1.3.6.1.4.1.6527.3.1.2.3.65.1.1 |
The value of vRtrRsvpTunIfSrcAddrType indicates the type of address of a multicast source for the P2MP RSVP tunnel interface. |
||
vRtrRsvpTunIfSrcAddr | 1.3.6.1.4.1.6527.3.1.2.3.65.1.2 |
The value of vRtrRsvpTunIfSrcAddr indicates the address of a multicast source for the P2MP RSVP tunnel interface. |
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vRtrRsvpTunIfSrcRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.65.1.3 |
The value of vRtrRsvpTunIfSrcRowStatus specifies the Row status of this table row. This object is used to create or delete rows in this table. |
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vRtrRsvpTunIfSrcLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.65.1.4 |
The value of vRtrRsvpTunIfSrcLastChanged indicates the timestamp of the last change to this row in vRtrRsvpTunIfSrcEntryTable. |
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vRtrRsvpTunIfSrcBfdEnable | 1.3.6.1.4.1.6527.3.1.2.3.65.1.5 |
The value of vRtrRsvpTunIfSrcBfdEnable specifies if the BFD session to track the multicast source over the P2MP RSVP tunnel interface is enabled or not. |
||
vRtrRsvpTunIfSrcSessionId | 1.3.6.1.4.1.6527.3.1.2.3.65.1.6 |
The value of vRtrRsvpTunIfSrcSessionId specifies the discriminator for a BFD session to track the multicast source over the P2MP RSVP tunnel interface. When vRtrRsvpTunIfSrcSessionId has a value of 0, the BFD session is not operational. This Id needs to be unique within a tunnel interface. |
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vRtrRsvpTunIfSrcTransmitInt | 1.3.6.1.4.1.6527.3.1.2.3.65.1.7 |
The value of vRtrRsvpTunIfSrcTransmitInt specifies the transmit interval for a BFD session to track the multicast source over the P2MP RSVP tunnel interface. When vRtrRsvpTunIfSrcTransmitInt has a value of 0, the transmit interval is not applicable. |
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vRtrRsvpTunIfSrcMultiplier | 1.3.6.1.4.1.6527.3.1.2.3.65.1.8 |
The value of vRtrRsvpTunIfSrcMultiplier specifies the multiplier to detect if a BFD session to track the multicast source over the P2MP RSVP tunnel interface is down. When vRtrRsvpTunIfSrcMultiplier has a value of 0, the multiplier is not applicable. |
||
vRtrRsvpTunIfSrcStandbySessionId | 1.3.6.1.4.1.6527.3.1.2.3.65.1.9 |
The value of vRtrRsvpTunIfSrcStandbySessionId specifies the discriminator for a BFD session to track the multicast source over the standby P2MP RSVP tunnel interface. When vRtrRsvpTunIfSrcStandbySessionId has a value of 0, the BFD session is not operational. This Id needs to be unique within a tunnel interface. |
||
vRtrLdpTunIfTableLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.66 |
The value of vRtrLdpTunIfTableLastChanged indicates the sysUpTime at the time of the last modification to vRtrLdpTunIfEntryTable by adding, deleting an entry or change to a writable object in the table. |
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vRtrLdpTunIfEntryTable | 1.3.6.1.4.1.6527.3.1.2.3.67 |
The vRtrLdpTunIfEntryTable has an entry for each Ldp tunnel configured in the system. Each row entry represents a virtual router LDP tunnel interface in the system. |
||
1.3.6.1.4.1.6527.3.1.2.3.67.1 |
Each row entry represents an Ldp tunnel interface in the system. Entries can be created and deleted via SNMP SET operations using the vRtrLdpTunIfRowStatus variable. |
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vRtrLdpTunIfP2mpId | 1.3.6.1.4.1.6527.3.1.2.3.67.1.1 |
The value of vRtrLdpTunIfP2mpId indicates the LDP P2MP identifier. |
||
vRtrLdpTunIfSenderAddrType | 1.3.6.1.4.1.6527.3.1.2.3.67.1.2 |
The value of vRtrLdpTunIfSenderAddrType indicates the type of address of an LDP sender for the P2MP RSVP tunnel interface instance. |
||
vRtrLdpTunIfSenderAddr | 1.3.6.1.4.1.6527.3.1.2.3.67.1.3 |
The value of vRtrLdpTunIfSenderAddr indicates the address of an LDP sender for the P2MP RSVP tunnel interface instance. |
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vRtrLdpTunIfRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.67.1.4 |
The value of the object vRtrLdpTunIfRowStatus specifies the Row status of this table row. This object is used to create or delete rows in this table. The value of the object vRtrLdpTunIfRootNode specifies if the given ldp-p2mp tunnel interface instance is a root-node for that tunnel interface.The value of this object must be specified when the row is created and cannot be changed while vRtrLdpTunIfRowStatus is active. |
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vRtrLdpTunIfLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.67.1.5 |
The value of vRtrLdpTunIfLastChanged indicates the timestamp of the last change to this row in vRtrLdpTunIfEntryTable. |
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vRtrLdpTunIfIfIndex | 1.3.6.1.4.1.6527.3.1.2.3.67.1.6 |
The value of vRtrLdpTunIfIfIndex indicates the interface index of the virtual router LDP tunnel interface. It is a unique value among entries with the same value of vRtrID. |
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vRtrLdpTunIfDescription | 1.3.6.1.4.1.6527.3.1.2.3.67.1.7 |
The value of vRtrLdpTunIfDescription specifies a user provided description string for this ldp tunnel-interface. It can consist of any printable, seven-bit ASCII characters up to 80 characters in length. |
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vRtrLdpTunIfRootNode | 1.3.6.1.4.1.6527.3.1.2.3.67.1.8 |
The value of vRtrLdpTunIfRootNode specifies if the given ldp-p2mp tunnel interface instance is a root-node for that tunnel interface. The value of this object must be specified when the row is created and cannot be changed while vRtrLdpTunIfRowStatus is active. An inconsistentValue error is returned if an attempt is made to set this object individually. |
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vRtrInetCidrRteTnlExtTable | 1.3.6.1.4.1.6527.3.1.2.3.68 |
The vRtrInetCidrRteTnlExtTable provides an extension of the inetCidrRouteTable in the IP-FORWARD-MIB, by adding three indexes and displays only tunneled routes. |
||
1.3.6.1.4.1.6527.3.1.2.3.68.1 |
Each row entry in the vRtrInetCidrRteTnlExtTable represents an entry for a tunneled route on the Alcatel-Lucent SROS series. |
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vRtrInetCidrRteTnlNextHopType | 1.3.6.1.4.1.6527.3.1.2.3.68.1.1 |
The value of vRtrInetCidrRteTnlNextHopType indicates the type of next hop for this route. |
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vRtrInetCidrRteTnlNextHopOwner | 1.3.6.1.4.1.6527.3.1.2.3.68.1.2 |
The value of vRtrInetCidrRteTnlNextHopOwner indicates the owner of next hop for this route. |
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vRtrInetCidrRteTnlNextHopTnlId | 1.3.6.1.4.1.6527.3.1.2.3.68.1.3 |
Additional table index provided to distinguish between multiple RSVP tunnel-ids to same destination with the same vRtrInetCidrRteTnlNextHopType and vRtrInetCidrRteTnlNextHopOwner. |
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vRtrInetCidrRteTnlEnabledTime | 1.3.6.1.4.1.6527.3.1.2.3.68.1.4 |
The vRtrInetCidrRteTnlEnabledTime variable indicates the sysUpTime value for this route entry. |
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tmnxVRtrMobGatewayObjs | 1.3.6.1.4.1.6527.3.1.2.3.69 | |||
vRtrIpPoolTableLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.69.1 |
The value of vRtrIpPoolTableLastChanged indicates the sysUpTime at the time of the last modification to vRtrIpPoolTable by adding, deleting an entry or change to a writable object in the table. |
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vRtrIpPoolTable | 1.3.6.1.4.1.6527.3.1.2.3.69.2 |
The vRtrIpPoolTable has an entry for each IP address pool configured in the system. |
||
1.3.6.1.4.1.6527.3.1.2.3.69.2.1 |
Each row entry represents an IP address pool configured in the system. Entries can be created and deleted by the user. |
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vRtrIpPoolName | 1.3.6.1.4.1.6527.3.1.2.3.69.2.1.1 |
The value of vRtrIpPoolName specifies the name of this IP address pool. |
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vRtrIpPoolRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.69.2.1.2 |
The value of the object vRtrIpPoolRowStatus specifies the row status of this entry. This object is used to create or delete rows in this table. |
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vRtrIpPoolLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.69.2.1.3 |
The value of vRtrIpPoolLastChanged indicates the timestamp of the last change to this row in vRtrIpPoolTable. |
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vRtrIpPoolDescription | 1.3.6.1.4.1.6527.3.1.2.3.69.2.1.4 |
The value of vRtrIpPoolDescription specifies the description string for this IP address pool. It can consist of any printable, seven-bit ASCII characters up to 80 characters in length. |
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vRtrIpPoolExclusive | 1.3.6.1.4.1.6527.3.1.2.3.69.2.1.5 |
The value of the object vRtrIpPoolExclusive specifies if this IP address pool will be used exclusively by an Access Point Name (APN) or not. |
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vRtrIpPoolAddressHoldTimer | 1.3.6.1.4.1.6527.3.1.2.3.69.2.1.6 |
The value of the object vRtrIpPoolAddressHoldTimer specifies the amount of time, in minutes, a newly released IP address is held before being made available for reassignment. |
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vRtrIpPoolSuppress0and255 | 1.3.6.1.4.1.6527.3.1.2.3.69.2.1.7 |
The value of the object vRtrIpPoolSuppress0and255 specifies if allocation of all .0 and .255 IP addresses from the local IP pool to mobile subscribers are suppressed. By default the Packet Data Network Gateway (PGW) supports allocating .0 and .255 IP address to mobile subscribers except for the first .0 and last .255 IP address in the IP Pool. |
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vRtrIpPoolAddrTableLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.69.3 |
The value of vRtrIpPoolAddrTableLastChanged indicates the sysUpTime at the time of the last modification to vRtrIpPoolAddrTable by adding, deleting an entry or change to a writable object in the table. |
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vRtrIpPoolAddrTable | 1.3.6.1.4.1.6527.3.1.2.3.69.4 |
The vRtrIpPoolAddrTable has an entry for each IP prefix configured in an IP pool in the system. |
||
1.3.6.1.4.1.6527.3.1.2.3.69.4.1 |
Each row entry represents an IP prefix configured in an IP pool in the system. Entries can be created and deleted by the user. |
|||
vRtrIpPoolAddrType | 1.3.6.1.4.1.6527.3.1.2.3.69.4.1.1 |
The value of vRtrIpPoolAddrType specifies the type of the address represented by vRtrIpPoolAddr. |
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vRtrIpPoolAddr | 1.3.6.1.4.1.6527.3.1.2.3.69.4.1.2 |
The value of vRtrIpPoolAddr specifies the prefix of the IP address being added to the IP pool. |
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vRtrIpPoolAddrPrefixLen | 1.3.6.1.4.1.6527.3.1.2.3.69.4.1.3 |
The value of vRtrIpPoolAddrPrefixLen specifies the length of the IP netmask for this IP address. The range of this object is 9..32 if the value of vRtrIpPoolAddrType is set to ipv4. The range of this object is as follows if the value of vRtrIpPoolAddrType is set to ipv6. - The range of vRtrIpPoolAddrPrefixLen is 41..56, if the value of vRtrIpPoolAddrIpv6AssignedLen is set to 64. - The range of vRtrIpPoolAddrPrefixLen is 33..48, if the value of vRtrIpPoolAddrIpv6AssignedLen is set to 56. - The range of vRtrIpPoolAddrPrefixLen is 25..40, if the value of vRtrIpPoolAddrIpv6AssignedLen is set to 48. |
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vRtrIpPoolAddrRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.69.4.1.4 |
The value of the object vRtrIpPoolAddrRowStatus specifies the row status of this entry. This object is used to create or delete rows in this table. |
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vRtrIpPoolAddrLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.69.4.1.5 |
The value of vRtrIpPoolAddrLastChanged indicates the timestamp of the last change to this row in vRtrIpPoolAddrTable. |
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vRtrIpPoolAddrBlock | 1.3.6.1.4.1.6527.3.1.2.3.69.4.1.6 |
The value of the object vRtrIpPoolAddrBlock specifies if the reassignment of the released IP address will be allowed or not. If the value of this object is set to true, then the reassignment of the released IP address will be blocked. This will be used to move the block of IP pools from one Packet Data Network Gateway (PGW) to another PGW. |
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vRtrIpPoolAddrIpv6AssignedLen | 1.3.6.1.4.1.6527.3.1.2.3.69.4.1.7 |
The value of the object vRtrIpPoolAddrIpv6AssignedLen specifies the the prefix length which is used for assigning IP address to User Equipment (UE). The value of this object can be set only if the value of vRtrIpPoolAddrType is set to ipv6. The value of this object can be set to 48, 56 and 64. |
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vRtrIpPoolStatTable | 1.3.6.1.4.1.6527.3.1.2.3.69.5 |
The vRtrIpPoolStatTable has an entry for each IP prefix configured in an IP pool in the system. |
||
1.3.6.1.4.1.6527.3.1.2.3.69.5.1 |
Each row entry represents the statistics for an IP prefix configured in an IP pool in the system. |
|||
vRtrIpPoolStatAllocated | 1.3.6.1.4.1.6527.3.1.2.3.69.5.1.1 |
The value of the object vRtrIpPoolStatAllocated indicates the number of IP Addresses used. |
||
vRtrIpPoolStatFree | 1.3.6.1.4.1.6527.3.1.2.3.69.5.1.2 |
The value of the object vRtrIpPoolStatFree indicates the number of free IP Addresses. |
||
vRtrIpPoolStatHeld | 1.3.6.1.4.1.6527.3.1.2.3.69.5.1.3 |
The value of the object vRtrIpPoolStatHeld indicates the number of IP Addresses held. |
||
vRtrIfBfdExtTableLastChanged | 1.3.6.1.4.1.6527.3.1.2.3.70 |
The value of vRtrIfBfdExtTableLastChanged indicates the sysUpTime at the time of the last modification to vRtrIfBfdExtTable by adding, deleting an entry or change to a writable object in the table. |
||
vRtrIfBfdExtTable | 1.3.6.1.4.1.6527.3.1.2.3.71 |
The vRtrIfBfdExtTable table contains the configuration for Bi-directional Forwarding Detection (BFD) on the vRtrIfIndex. |
||
1.3.6.1.4.1.6527.3.1.2.3.71.1 |
Each row entry represents the BFD configuration for the vRtrIfIndex. |
|||
vRtrIfBfdExtAddressType | 1.3.6.1.4.1.6527.3.1.2.3.71.1.1 |
The value of vRtrIfBfdExtAddressType indicates the IP address type of the BFD configuration of this interface. vRtrIfBfdExtAddressType supports only InetAddressType values ipv4 (1) and ipv6 (2). |
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vRtrIfBfdExtAdminState | 1.3.6.1.4.1.6527.3.1.2.3.71.1.2 |
The value of vRtrIfBfdExtAdminState specifies the admin state of BFD on this interface. When the value of vRtrIfBfdExtAdminState is inService, BFD sessions can be established on this interface. When it is outOfService, they cannot. |
||
vRtrIfBfdExtTransmitInterval | 1.3.6.1.4.1.6527.3.1.2.3.71.1.3 |
The value of vRtrIfBfdExtTransmitInterval specifies the BFD transmit interval over this interface. The minimum accepted value depends on the value of vRtrIfBfdExtType, as follows: cpmNp(1) : 10 milliseconds auto(2) : 100 milliseconds. |
||
vRtrIfBfdExtReceiveInterval | 1.3.6.1.4.1.6527.3.1.2.3.71.1.4 |
The value of vRtrIfBfdExtReceiveInterval specifies the BFD receive interval over this interface. The minimum accepted value depends on the value of vRtrIfBfdExtType, as follows: cpmNp(1) : 10 milliseconds auto(2) : 100 milliseconds. |
||
vRtrIfBfdExtMultiplier | 1.3.6.1.4.1.6527.3.1.2.3.71.1.5 |
The value of vRtrIfBfdExtMultiplier specifies the the number of consecutive BFD messages that must be missed from the peer before the BFD session state is changed to down and the upper level protocols (OSPF, IS-IS or PIM) are notified of the fault. |
||
vRtrIfBfdExtEchoInterval | 1.3.6.1.4.1.6527.3.1.2.3.71.1.6 |
The value of vRtrIfBfdExtEchoInterval specifies the BFD echo interval over this interface. |
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vRtrIfBfdExtType | 1.3.6.1.4.1.6527.3.1.2.3.71.1.7 |
The value of vRtrIfBfdExtType specifies the configured termination of a BFD session on this interface. The value of cpmNp(1) specifies termination on the CPM cards Network Processor. The value of auto(2) specifies a system-selected termination other than the CPM Network Processor. |
||
vRtrIfIpReasTable | 1.3.6.1.4.1.6527.3.1.2.3.72 |
The vRtrIfIpReasTable table contains the configuration for IP Reassembly on the vRtrIfEntry with the same indices. |
||
1.3.6.1.4.1.6527.3.1.2.3.72.1 |
Each row entry represents the IP Reassembly configuration for an interface. Entries are created and deleted when entries in the vRtrIfTable are created and deleted. |
|||
vRtrIfIpReasPortID | 1.3.6.1.4.1.6527.3.1.2.3.72.1.1 |
The value of vRtrIfIpReasPortID specifies the physical port which performs IP reassembly. When vRtrIfIpReasPortID is zero (0), then there is no IP reassembly supported on the IP interface. |
||
vRtrIfIpReasContextValue | 1.3.6.1.4.1.6527.3.1.2.3.72.1.2 |
The value of vRtrIfIpReasContextValue along with vRtrIfIpReasPortID specifies the reassembly context in a given virtual router instance. |
||
vRtrMsPwL2RtTable | 1.3.6.1.4.1.6527.3.1.2.3.73 |
The vRtrMsPwL2RtTable contains LDP FEC-129 Attachment Individual Identifier (AII) type 2 layer-2 route table entries used by multi-segment pseudo-wire. |
||
1.3.6.1.4.1.6527.3.1.2.3.73.1 |
The vRtrMsPwL2RtEntry consists of the mutli-segment pseudo-wire LDP FEC-129 layer 2 route entry information. |
|||
vRtrMsPwL2RtDestGlobalId | 1.3.6.1.4.1.6527.3.1.2.3.73.1.1 |
The value of vRtrMsPwL2RtDestGlobalId specifies the global identifier of Attachment Individual Identifier (AII) portion of the Generalized Id FEC element of the destination of the route-entry. |
||
vRtrMsPwL2RtDestPrefix | 1.3.6.1.4.1.6527.3.1.2.3.73.1.2 |
The value of vRtrMsPwL2RtDestPrefix specifies the prefix to the Attachment Individual Identifier (AII) portion of the Generalized Id FEC element of the destination of the route-entry. |
||
vRtrMsPwL2RtDestAcId | 1.3.6.1.4.1.6527.3.1.2.3.73.1.3 |
The value of vRtrMsPwL2RtDestAcId specifies the attachment circuit identifier part of Attachment Individual Identifier (AII) portion of the Generalized Id FEC element of the destination of the route-entry. |
||
vRtrMsPwL2RtDestPrefixLen | 1.3.6.1.4.1.6527.3.1.2.3.73.1.4 |
The value of vRtrMsPwL2RtDestPrefix specifies the length of the prefix to the Attachment Individual Identifier (AII) portion of the Generalized Id FEC element of the destination of the route-entry. |
||
vRtrMsPwL2RtDestRD | 1.3.6.1.4.1.6527.3.1.2.3.73.1.5 |
The value of vRtrMsPwL2RtDestRD indicates an identifier attached to routes that distinguishes to which VPN it belongs. |
||
vRtrMsPwL2RtNextHopAddrType | 1.3.6.1.4.1.6527.3.1.2.3.73.1.6 |
The value of vRtrMsPwL2RtNextHopAddrType indicates the address type of vRtrMsPwL2RtNextHopAddr object. |
||
vRtrMsPwL2RtNextHopAddr | 1.3.6.1.4.1.6527.3.1.2.3.73.1.7 |
The value of vRtrMsPwL2RtNextHopAddr indicates the address of the next hop in the LDP FEC-129 route-entry. |
||
vRtrMsPwL2RtNextHopOwner | 1.3.6.1.4.1.6527.3.1.2.3.73.1.8 |
The value of vRtrMsPwL2RtNextHopOwner indicates the owner of the next hop in the LDP FEC-129 route-entry. |
||
vRtrMsPwL2RtRDCommunity | 1.3.6.1.4.1.6527.3.1.2.3.73.1.9 |
The value of the object vRtrMsPwL2RtRDCommunity indicates the BGP community associated with the route-distinguisher in the LDP FEC-129 route-entry. |
||
vRtrMsPwL2RtIsBestRoute | 1.3.6.1.4.1.6527.3.1.2.3.73.1.10 |
The value of the object vRtrMsPwL2RtIsBestRoute indiates the best route from the destination to the next hop. |
||
vRtrMsPwL2RtAge | 1.3.6.1.4.1.6527.3.1.2.3.73.1.11 |
The value of vRtrMsPwL2RtAge indicates the number of seconds since this route was last updated or otherwise determined to be correct. |
||
vRtrIfStatsExtTable | 1.3.6.1.4.1.6527.3.1.2.3.74 |
The vRtrIfStatsExtTable table contains statistics per virtual router interface. |
||
1.3.6.1.4.1.6527.3.1.2.3.74.1 |
Each row entry represents the statistics per virtual router interface. Entries are created and deleted when entries in the vRtrIfEntry are created and deleted. |
|||
vRtrIfTxPkts | 1.3.6.1.4.1.6527.3.1.2.3.74.1.1 |
The value of vRtrIfTxPkts indicates the number of total packets sent by this interface. |
||
vRtrIfTxPktsLow32 | 1.3.6.1.4.1.6527.3.1.2.3.74.1.2 |
The value of vRtrIfTxPktsLow32 indicates the lower 32 bits of the value of vRtrIfTxPkts. |
||
vRtrIfTxPktsHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.74.1.3 |
The value of vRtrIfTxPktsHigh32 indicates the high 32 bits of the value of vRtrIfTxPkts. |
||
vRtrIfTxBytes | 1.3.6.1.4.1.6527.3.1.2.3.74.1.4 |
The value of vRtrIfTxBytes indicates the number of total bytes sent by this interface. |
||
vRtrIfTxBytesLow32 | 1.3.6.1.4.1.6527.3.1.2.3.74.1.5 |
The value of vRtrIfTxBytesLow32 indicates the lower 32 bits of the value of vRtrIfTxBytes. |
||
vRtrIfTxBytesHigh32 | 1.3.6.1.4.1.6527.3.1.2.3.74.1.6 |
The value of vRtrIfTxBytesHigh32 indicates the high 32 bits of the value of vRtrIfTxBytes. |
||
vRtrStatExtTable | 1.3.6.1.4.1.6527.3.1.2.3.75 |
The vRtrStatExtTable has an entry for each virtual router configured in the system. |
||
1.3.6.1.4.1.6527.3.1.2.3.75.1 |
Each row entry represents a collection of statistics for a virtual router in the system. Entries cannot be created and deleted via SNMP SET operations. |
|||
vRtrISISAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.1 |
The value of vRtrISISAltRoutes indicates the current number of alternate ISIS routes for this instance of the route table. |
||
vRtrISISActiveAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.2 |
The value of vRtrISISActiveAltRoutes indicates the current number of alternate ISIS routes that are active for this instance of the route table. |
||
vRtrBGPAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.3 |
The value of vRtrBGPAltRoutes indicates the current number of alternate BGP routes for this instance of the route table. |
||
vRtrBGPActiveAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.4 |
The value of vRtrBGPActiveAltRoutes indicates the current number of alternate BGP routes that are active for this instance of the route table. |
||
vRtrStatCurrNumAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.5 |
The value of vRtrStatCurrNumAltRoutes indicates the current number of total alternate routes for this instance of the route table. |
||
vRtrV6ISISAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.6 |
The value of vRtrV6ISISAltRoutes indicates the current number of IPv6 alternate ISIS routes for this instance of the route table. |
||
vRtrV6ISISActiveAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.7 |
The value of vRtrV6ISISActiveAltRoutes indicates the current number of IPv6 alternate ISIS routes that are active for this instance of the route table. |
||
vRtrV6BGPAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.8 |
The value of vRtrV6BGPAltRoutes indicates the current number of IPv6 alternate BGP routes for this instance of the route table. |
||
vRtrV6BGPActiveAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.9 |
The value of vRtrV6BGPActiveAltRoutes indicates the current number of IPv6 alternate BGP routes that are active for this instance of the route table. |
||
vRtrV6StatCurrNumAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.10 |
The value of vRtrV6StatCurrNumAltRoutes indicates the current number of IPv6 total alternate routes for this instance of the route table. |
||
vRtrBGPVPNAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.11 |
The value of vRtrBGPVPNAltRoutes indicates the current number of alternate BGP-VPN routes for this instance of the route table. |
||
vRtrBGPVPNActiveAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.12 |
The value of vRtrBGPVPNActiveAltRoutes indicates the current number of alternate BGP-VPN routes that are active for this instance of the route table. |
||
vRtrV6BGPVPNAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.13 |
The value of vRtrV6BGPVPNAltRoutes indicates the current number of IPv6 alternate BGP-VPN routes for this instance of the route table. |
||
vRtrV6BGPVPNActiveAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.14 |
The value of vRtrV6BGPVPNActiveAltRoutes indicates the current number of IPv6 alternate BGP-VPN routes that are active for this instance of the route table. |
||
vRtrOSPFAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.15 |
The value of vRtrOSPFAltRoutes indicates the current number of alternate OSPF routes for this instance of the route table. |
||
vRtrOSPFActiveAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.16 |
The value of vRtrOSPFActiveAltRoutes indicates the current number of alternate OSPF routes that are active for this instance of the route table. |
||
vRtrV6OSPFAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.17 |
The value of vRtrV6OSPFAltRoutes indicates the current number of IPv6 alternate OSPF routes for this instance of the route table. |
||
vRtrV6OSPFActiveAltRoutes | 1.3.6.1.4.1.6527.3.1.2.3.75.1.18 |
The value of vRtrV6OSPFActiveAltRoutes indicates the current number of IPv6 alternate OSPF routes that are active for this instance of the route table. |
||
vRtrVrfPolicyTable | 1.3.6.1.4.1.6527.3.1.2.3.76 |
The vRtrVrfPolicyTable has an entry for each virtual router configured in the system. |
||
1.3.6.1.4.1.6527.3.1.2.3.76.1 |
Each row entry represents a collection of policies for a virtual router in the system. Entries cannot be created and deleted via SNMP SET operations. |
|||
vRtrVrfImportPolicy1 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.1 |
The value of vRtrVrfImportPolicy1 specifies the first policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy2 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.2 |
The value of vRtrVrfImportPolicy2 specifies the second policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy3 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.3 |
The value of vRtrVrfImportPolicy3 specifies the third policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy4 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.4 |
The value of vRtrVrfImportPolicy4 specifies the fourth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy5 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.5 |
The value of vRtrVrfImportPolicy5 specifies the fifth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy6 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.6 |
The value of vRtrVrfImportPolicy6 specifies the sixth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy7 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.7 |
The value of vRtrVrfImportPolicy6 specifies the seventh policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy8 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.8 |
The value of vRtrVrfImportPolicy8 specifies the eighth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy9 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.9 |
The value of vRtrVrfImportPolicy9 specifies the ninth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy10 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.10 |
The value of vRtrVrfImportPolicy10 specifies the tenth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy11 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.11 |
The value of vRtrVrfImportPolicy11 specifies the eleventh policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy12 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.12 |
The value of vRtrVrfImportPolicy12 specifies the twelfth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy13 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.13 |
The value of vRtrVrfImportPolicy13 specifies the thirteenth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy14 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.14 |
The value of vRtrVrfImportPolicy14 specifies the fourteenth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfImportPolicy15 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.15 |
The value of vRtrVrfImportPolicy15 specifies the fifteenth policy to be used for determining which routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrVrfImportPolicy1 through vRtrVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfExportPolicy1 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.16 |
The value of vRtrVrfExportPolicy1 specifies the first policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfExportPolicy2 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.17 |
The value of vRtrVrfExportPolicy2 specifies the second policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfExportPolicy3 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.18 |
The value of vRtrVrfExportPolicy3 specifies the third policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfExportPolicy4 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.19 |
The value of vRtrVrfExportPolicy4 specifies the fourth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrVrfExportPolicy5 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.20 |
The value of vRtrVrfExportPolicy5 specifies the fifth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrVrfExportPolicy6 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.21 |
The value of vRtrVrfExportPolicy6 specifies the sixth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrVrfExportPolicy7 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.22 |
The value of vRtrVrfExportPolicy6 specifies the seventh policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrVrfExportPolicy8 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.23 |
The value of vRtrVrfExportPolicy8 specifies the eighth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrVrfExportPolicy9 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.24 |
The value of vRtrVrfExportPolicy9 specifies the ninth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrVrfExportPolicy10 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.25 |
The value of vRtrVrfExportPolicy10 specifies the tenth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrVrfExportPolicy11 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.26 |
The value of vRtrVrfExportPolicy11 specifies the eleventh policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrVrfExportPolicy12 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.27 |
The value of vRtrVrfExportPolicy12 specifies the twelfth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrVrfExportPolicy13 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.28 |
The value of vRtrVrfExportPolicy13 specifies the thirteenth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrVrfExportPolicy14 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.29 |
The value of vRtrVrfExportPolicy14 specifies the fourteenth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrVrfExportPolicy15 | 1.3.6.1.4.1.6527.3.1.2.3.76.1.30 |
The value of vRtrVrfExportPolicy15 specifies the fifteenth policy to be used for determining which routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrVrfExportPolicy1 through vRtrVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfPolicyTable | 1.3.6.1.4.1.6527.3.1.2.3.77 |
The vRtrMvpnVrfPolicyTable has an entry for each virtual router configured in the system. |
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1.3.6.1.4.1.6527.3.1.2.3.77.1 |
Each row entry represents a collection of policies for a virtual router in the system. Entries cannot be created and deleted via SNMP SET operations. |
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vRtrMvpnVrfImportPolicy1 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.1 |
The value of vRtrMvpnVrfImportPolicy1 specifies the first policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy2 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.2 |
The value of vRtrMvpnVrfImportPolicy2 specifies the second policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy3 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.3 |
The value of vRtrMvpnVrfImportPolicy3 specifies the third policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy4 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.4 |
The value of vRtrMvpnVrfImportPolicy4 specifies the fourth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy5 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.5 |
The value of vRtrMvpnVrfImportPolicy5 specifies the fifth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy6 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.6 |
The value of vRtrMvpnVrfImportPolicy6 specifies the sixth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy7 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.7 |
The value of vRtrMvpnVrfImportPolicy6 specifies the seventh policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy8 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.8 |
The value of vRtrMvpnVrfImportPolicy8 specifies the eighth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy9 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.9 |
The value of vRtrMvpnVrfImportPolicy9 specifies the ninth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy10 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.10 |
The value of vRtrMvpnVrfImportPolicy10 specifies the tenth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy11 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.11 |
The value of vRtrMvpnVrfImportPolicy11 specifies the eleventh policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy12 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.12 |
The value of vRtrMvpnVrfImportPolicy12 specifies the twelfth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy13 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.13 |
The value of vRtrMvpnVrfImportPolicy13 specifies the thirteenth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy14 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.14 |
The value of vRtrMvpnVrfImportPolicy14 specifies the fourteenth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfImportPolicy15 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.15 |
The value of vRtrMvpnVrfImportPolicy15 specifies the fifteenth policy to be used for determining which multicast routes are imported into the VRF for this virtual router. If no import policy is defined, no routes are accepted into the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The import policy name list, vRtrMvpnVrfImportPolicy1 through vRtrMvpnVrfImportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy1 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.16 |
The value of vRtrMvpnVrfExportPolicy1 specifies the first policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy2 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.17 |
The value of vRtrMvpnVrfExportPolicy2 specifies the second policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy3 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.18 |
The value of vRtrMvpnVrfExportPolicy3 specifies the third policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy4 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.19 |
The value of vRtrMvpnVrfExportPolicy4 specifies the fourth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy5 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.20 |
The value of vRtrMvpnVrfExportPolicy5 specifies the fifth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy6 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.21 |
The value of vRtrMvpnVrfExportPolicy6 specifies the sixth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy7 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.22 |
The value of vRtrMvpnVrfExportPolicy6 specifies the seventh policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy8 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.23 |
The value of vRtrMvpnVrfExportPolicy8 specifies the eighth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy9 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.24 |
The value of vRtrMvpnVrfExportPolicy9 specifies the ninth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy10 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.25 |
The value of vRtrMvpnVrfExportPolicy10 specifies the tenth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy11 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.26 |
The value of vRtrMvpnVrfExportPolicy11 specifies the eleventh policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrMvpnVrfExportPolicy12 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.27 |
The value of vRtrMvpnVrfExportPolicy12 specifies the twelfth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrMvpnVrfExportPolicy13 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.28 |
The value of vRtrMvpnVrfExportPolicy13 specifies the thirteenth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
||
vRtrMvpnVrfExportPolicy14 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.29 |
The value of vRtrMvpnVrfExportPolicy14 specifies the fourteenth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrMvpnVrfExportPolicy15 | 1.3.6.1.4.1.6527.3.1.2.3.77.1.30 |
The value of vRtrMvpnVrfExportPolicy15 specifies the fifteenth policy to be used for determining which multicast routes are exported from the VRF for this virtual router. If no export policy is defined, no routes are exported from the VRF. If multiple policy names are specified, the policies are evaluated in the order they are specified. The first policy that matches is applied. The export policy name list, vRtrMvpnVrfExportPolicy1 through vRtrMvpnVrfExportPolicy5, is handled by the SNMP agent as a single entity. When an SNMP SET request is received to modify one or more of the policy names, all the policy variables are first set to the empty string, H, and then the new names are set into the specified policy variables within a single SNMP SET PDU. |
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vRtrIfQosTable | 1.3.6.1.4.1.6527.3.1.2.3.78 |
The vRtrIfQosTable has an entry for each router interface configured in the system. This table contains objects managing QoS on the interface. This table augments the vRtrIfTable. |
||
1.3.6.1.4.1.6527.3.1.2.3.78.1 |
Each row entry represents a virtual router interface QoS management objects in the system. Entries can be created and deleted via SNMP SET operations along with the associated row entry in vRtrIfTable using the vRtrIfRowStatus variable. |
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vRtrIfQosNetworkPolicyId | 1.3.6.1.4.1.6527.3.1.2.3.78.1.1 |
The value of vRtrIfQosNetworkPolicyId associates a pre-existing network-policy-id to a network interface. Packets are marked using qos policies on edge switches; invoking a qos policy on a network port allows for the packets that match the policy criteria to be remarked. If this entry indicates a service virtual router interface or the special out-of-band management interface, this object is meaningless and is not applied to the interface. |
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vRtrIfQosEgrPortRedirectQGrp | 1.3.6.1.4.1.6527.3.1.2.3.78.1.2 |
The value of vRtrIfQosEgrPortRedirectQGrp specifies the name of the QoS queue-group (TIMETRA-QOS-MIB::tQosEgrQGroupName) used with this interface. An inconsistentValue error is returned if this object is set to a non-default value and an entry corresponding to vRtrIfPortID does not exist in TIMETRA-PORT-MIB::tPortNetEgrQGrpTable. |
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vRtrIfQosEgrQGrpInstanceId | 1.3.6.1.4.1.6527.3.1.2.3.78.1.3 |
The value of vRtrIfQosEgrQGrpInstanceId specifies the instance of the forwarding-plane egress Queue Group for this interface. |
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vRtrIfQosIngFpRedirectQGrp | 1.3.6.1.4.1.6527.3.1.2.3.78.1.4 |
The value of vRtrIfQosIngFpRedirectQGrp specifies the forwarding-plane queue group Policy for this interface. |
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vRtrIfQosIngQGrpInstanceId | 1.3.6.1.4.1.6527.3.1.2.3.78.1.5 |
The value of vRtrIfQosIngQGrpInstanceId specifies the instance of the forwarding-plane ingress Queue Group for this interface. |
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vRtrDnsTableLastCh | 1.3.6.1.4.1.6527.3.1.2.3.79 |
The value of the object vRtrDnsTableLastCh indicates the value of sysUpTime at the time of the last modification of an entry in the vRtrDnsTable. |
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vRtrDnsTable | 1.3.6.1.4.1.6527.3.1.2.3.80 |
The vRtrDnsTable provides a sparse extension of the vRtrConfTable to configure DNS. Rows in this table are created and destroyed by means of SNMP set operations on the vRtrDnsRowStatus object. |
||
1.3.6.1.4.1.6527.3.1.2.3.80.1 |
Each row entry in the vRtrDnsTable represents DNS configuration of a specific virtual router instance. For some virtual router instances, such as the Base router instance, it is not allowed to create a row in this table. |
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vRtrDnsLastCh | 1.3.6.1.4.1.6527.3.1.2.3.80.1.1 |
The value of vRtrDnsLastCh indicates the sysUpTime at the time of the most recent management-initiated change to this table row. |
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vRtrDnsRowStatus | 1.3.6.1.4.1.6527.3.1.2.3.80.1.2 |
The value of vRtrDnsRowStatus specifies the row status of this conceptual row. |
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vRtrDnsAdminState | 1.3.6.1.4.1.6527.3.1.2.3.80.1.3 |
The value of vRtrDnsAdminState specifies the administrative state of DNS in this virtual router instance. |
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vRtrDnsPrimaryAddrType | 1.3.6.1.4.1.6527.3.1.2.3.80.1.4 |
The value of vRtrDnsPrimaryAddrType specifies the address type of vRtrDnsPrimaryAddr. |
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vRtrDnsPrimaryAddr | 1.3.6.1.4.1.6527.3.1.2.3.80.1.5 |
The value of vRtrDnsPrimaryAddr specifies the address of the primary DNS server in this virtual router instance. |
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vRtrDnsSecondaryAddrType | 1.3.6.1.4.1.6527.3.1.2.3.80.1.6 |
The value of vRtrDnsSecondaryAddrType specifies the address type of vRtrDnsSecondaryAddr. |
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vRtrDnsSecondaryAddr | 1.3.6.1.4.1.6527.3.1.2.3.80.1.7 |
The value of vRtrDnsSecondaryAddr specifies the address of the secondary DNS server in this virtual router instance. |
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vRtrDnsTertiaryAddrType | 1.3.6.1.4.1.6527.3.1.2.3.80.1.8 |
The value of vRtrDnsTertiaryAddrType specifies the address type of vRtrDnsTertiaryAddr. |
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vRtrDnsTertiaryAddr | 1.3.6.1.4.1.6527.3.1.2.3.80.1.9 |
The value of vRtrDnsTertiaryAddr specifies the address of the tertiary DNS server in this virtual router instance. |
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vRtrDnsIpv4SourceAddr | 1.3.6.1.4.1.6527.3.1.2.3.80.1.10 |
The value of vRtrDnsIpv4SourceAddr specifies the source address for communication with an IPv4 DNS server in this virtual router instance. The value of all zeroes specifies that no DNS IPv4 source address is configured. |
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vRtrDnsIpv6SourceAddr | 1.3.6.1.4.1.6527.3.1.2.3.80.1.11 |
The value of vRtrDnsIpv6SourceAddr specifies the source address for communication with an IPv6 DNS server in this virtual router instance. The value of all zeroes specifies that no DNS IPv6 source address is configured. |
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vRtrInetAllCidrRouteTnlExtTable | 1.3.6.1.4.1.6527.3.1.2.3.81 |
The vRtrInetAllCidrRouteTnlExtTable provides an extension of the inetCidrRouteTable in the IP-FORWARD-MIB, by adding three indexes and displays only tunneled routes. |
||
1.3.6.1.4.1.6527.3.1.2.3.81.1 |
Each row entry in the vRtrInetAllCidrRouteTable represents an entry in the IP CIDR route table for the Alcatel-Lucent SROS series. |
|||
vRtrInetAllCidrRteTnlNxtHopType | 1.3.6.1.4.1.6527.3.1.2.3.81.1.1 |
The value of vRtrInetAllCidrRteTnlNxtHopType indicates the type of next hop for this route. |
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vRtrInetAllCidrRteTnlNxtHopOwner | 1.3.6.1.4.1.6527.3.1.2.3.81.1.2 |
The value of vRtrInetAllCidrRteTnlNxtHopOwner indicates the owner of next hop for this route. |
||
vRtrInetAllCidrRteTnlNxtHopTnlId | 1.3.6.1.4.1.6527.3.1.2.3.81.1.3 |
Additional table index provided to distinguish between multiple RSVP tunnel-ids to same destination with the same vRtrInetAllCidrRteTnlNxtHopType and vRtrInetAllCidrRteTnlNxtHopOwner. |
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vRtrInetAllCidrRteTnlEnabledTime | 1.3.6.1.4.1.6527.3.1.2.3.81.1.4 |
The vRtrInetAllCidrRteTnlEnabledTime variable indicates the sysUpTime value for this route entry. |
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vRtrIfBfdSessExtTable | 1.3.6.1.4.1.6527.3.1.2.3.92 |
The vRtrIfBfdSessExtTable table contains per BFD session statistics and operational settings. |
||
1.3.6.1.4.1.6527.3.1.2.3.92.1 |
Each row entry represents a BFD session. Entries are created automatically by the system, or when a static-route is configured to use BFD. |
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vRtrIfBfdSessExtLinkType | 1.3.6.1.4.1.6527.3.1.2.3.92.1.1 |
The value of vRtrIfBfdSessExtLinkType indicates the link type of the BFD session. |
||
vRtrIfBfdSessExtRxInfoId | 1.3.6.1.4.1.6527.3.1.2.3.92.1.2 |
The value of vRtrIfBfdSessExtRxInfoId indicates the incoming label id or port id. |
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vRtrIfBfdSessExtLclAddrType | 1.3.6.1.4.1.6527.3.1.2.3.92.1.3 |
The value of vRtrIfBfdSessExtLclAddrType indicates the address type in vRtrIfBfdSessExtLclAddr. |
||
vRtrIfBfdSessExtLclAddr | 1.3.6.1.4.1.6527.3.1.2.3.92.1.4 |
The value of vRtrIfBfdSessExtLclAddr indicates the address of the local endpoint of this BFD session. Its type is specified by vRtrIfBfdSessExtLclAddrType. |
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vRtrIfBfdSessExtRemAddrType | 1.3.6.1.4.1.6527.3.1.2.3.92.1.5 |
The value of vRtrIfBfdSessExtRemAddrType indicates the address type in vRtrIfBfdSessExtRemAddr. |
||
vRtrIfBfdSessExtRemAddr | 1.3.6.1.4.1.6527.3.1.2.3.92.1.6 |
The value of vRtrIfBfdSessExtRemAddr indicates the address of the local endpoint of this BFD session. Its type is specified by vRtrIfBfdSessExtRemAddrType. |
||
vRtrIfBfdSessExtOperState | 1.3.6.1.4.1.6527.3.1.2.3.92.1.7 |
The value of vRtrIfBfdSessExtOperState indicates the operational state of BFD on this interface. |
||
vRtrIfBfdSessExtState | 1.3.6.1.4.1.6527.3.1.2.3.92.1.8 |
The value of vRtrIfBfdSessExtState indicates the state of the BFD protocol on this interface. |
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vRtrIfBfdSessExtOperFlags | 1.3.6.1.4.1.6527.3.1.2.3.92.1.9 |
The value of vRtrIfBfdSessExtOperFlags indicates the reasons why a BFD session is not up. |
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vRtrIfBfdSessExtMesgRecv | 1.3.6.1.4.1.6527.3.1.2.3.92.1.10 |
The value of vRtrIfBfdSessExtMesgRecv indicates the number of messages received in this session. This object is applicable if vRtrIfBfdSessExtType is iom(1) or cpm(2). Otherwise, zero is returned. |
||
vRtrIfBfdSessExtMesgSent | 1.3.6.1.4.1.6527.3.1.2.3.92.1.11 |
The value of vRtrIfBfdSessExtMesgSent indicates the number of messages sent in this session. This object is applicable if vRtrIfBfdSessExtType is iom(1) or cpm(2). Otherwise, zero is returned. |
||
vRtrIfBfdSessExtLastDownTime | 1.3.6.1.4.1.6527.3.1.2.3.92.1.12 |
The value of vRtrIfBfdSessExtLastDownTime indicates the system time when this session last went down. |
||
vRtrIfBfdSessExtLastUpTime | 1.3.6.1.4.1.6527.3.1.2.3.92.1.13 |
The value of vRtrIfBfdSessExtLastUpTime indicates the system time when this session last came up. |
||
vRtrIfBfdSessExtUpCount | 1.3.6.1.4.1.6527.3.1.2.3.92.1.14 |
The value of vRtrIfBfdSessExtUpCount indicates the number of times vRtrIfBfdSessExtOperState changed from outOfService to inService. |
||
vRtrIfBfdSessExtDownCount | 1.3.6.1.4.1.6527.3.1.2.3.92.1.15 |
The value of vRtrIfBfdSessExtDownCount indicates the number of times vRtrIfBfdSessExtOperState changed from inService to outOfService. |
||
vRtrIfBfdSessExtLclDisc | 1.3.6.1.4.1.6527.3.1.2.3.92.1.16 |
The value of vRtrIfBfdSessExtLclDisc indicates the unique local discriminator for this session. |
||
vRtrIfBfdSessExtRemDisc | 1.3.6.1.4.1.6527.3.1.2.3.92.1.17 |
The value of vRtrIfBfdSessExtRemDisc indicates the remote discriminator for this session. |
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vRtrIfBfdSessExtProtocols | 1.3.6.1.4.1.6527.3.1.2.3.92.1.18 |
The value of vRtrIfBfdSessExtProtocols indicates which protocols are using this BFD session. |
||
vRtrIfBfdSessExtTxInterval | 1.3.6.1.4.1.6527.3.1.2.3.92.1.19 |
The value of vRtrIfBfdSessExtTxInterval indicates the negotiated transmit interval. This value is the minimum of the local nodes vRtrIfBfdExtTransmitInterval and the remote nodes receive interval. |
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vRtrIfBfdSessExtRxInterval | 1.3.6.1.4.1.6527.3.1.2.3.92.1.20 |
The value of vRtrIfBfdSessExtRxInterval indicates the negotiated receive interval. This value is the minimum of the local nodes vRtrIfBfdExtReceiveInterval and the remote nodes transmit interval. |
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vRtrIfBfdSessExtType | 1.3.6.1.4.1.6527.3.1.2.3.92.1.21 |
The value of vRtrIfBfdSessExtType indicates the termination of the BFD session, as follows: iom (1) - termination on the IOM card main processor, cpm (2) - termination on the CPM card main processor, cpmNp (3) - termination on the CPM card Network Processor. |
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vRtrIfBfdSessExtVerMismatch | 1.3.6.1.4.1.6527.3.1.2.3.92.1.22 |
The value of vRtrIfBfdSessExtVerMismatch indicates the number of version mismatch errors for the bfd session. |
||
vRtrIfBfdSessExtTimeSinceLastRx | 1.3.6.1.4.1.6527.3.1.2.3.92.1.23 |
The value of vRtrIfBfdSessExtTimeSinceLastRx indicates the number of milliseconds elapsed since the most recent message was received on the BFD session. If the session is down, zero is returned. This object is applicable to sessions with vRtrIfBfdSessExtType equal to cpmNp(3). Otherwise, zero is returned. |
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vRtrIfBfdSessExtTimeSinceLastTx | 1.3.6.1.4.1.6527.3.1.2.3.92.1.24 |
The value of vRtrIfBfdSessExtTimeSinceLastTx indicates the number of milliseconds elapsed since the most recent message was transmitted on the BFD session. If the session is down, zero is returned. This object is applicable to sessions with vRtrIfBfdSessExtType equal to cpmNp(3). Otherwise, zero is returned. |
||
vRtrIfBfdSessExtRemoteLspNum | 1.3.6.1.4.1.6527.3.1.2.3.92.1.25 |
The value of vRtrIfBfdSessExtRemoteLspNum specifies the MPLS-TP LSP destination path number. |
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vRtrIfBfdSessExtRemoteTunnelNum | 1.3.6.1.4.1.6527.3.1.2.3.92.1.26 |
The value of vRtrIfBfdSessExtRemoteTunnelNum indicates the destination tunnel id for the MPLS-TP path. |
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vRtrIfBfdSessExtRemoteNodeId | 1.3.6.1.4.1.6527.3.1.2.3.92.1.27 |
The value of vRtrIfBfdSessExtRemoteNodeId specifies the destination node id of an MPLS-TP LSP. |
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vRtrIfBfdSessExtRemoteGlobalId | 1.3.6.1.4.1.6527.3.1.2.3.92.1.28 |
The value of vRtrIfBfdSessExtRemoteGlobalId specifies the global identifier for an MPLS-TP LSP. |
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vRtrIfBfdSessExtLspPathTunnelId | 1.3.6.1.4.1.6527.3.1.2.3.92.1.29 |
The value of vRtrIfBfdSessExtLspPathTunnelId indicates the source tunnel id for the MPLS-TP path. |
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vRtrIfBfdSessExtLspPathId | 1.3.6.1.4.1.6527.3.1.2.3.92.1.30 |
The value of vRtrIfBfdSessExtLspPathId indicates the source path index for the MPLS-TP LSP path. notApplicable (0) - Indicates vRtrIfBfdSessExtLinkType is neither ccOnly or ccWithCv. working (1) - A working path is the primary path for the LSP. protecting (2) - A protection path is the secondary path for the LSP. |
||
tmnxVRtrNotifyPrefix | 1.3.6.1.4.1.6527.3.1.3.3 | |||
tmnxVRtrNotifications | 1.3.6.1.4.1.6527.3.1.3.3.0 | |||
tmnxVRtrMidRouteTCA | 1.3.6.1.4.1.6527.3.1.3.3.0.1 |
The tmnxVRtrMidRouteTCA notification is generated when the number of routes contained in a VPRN exceeds the value specified by vRtrMidRouteThreshold. No other notifications of this type are generated until after the soak period specified by vRtrRouteThresholdSoakTime has expired. |
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tmnxVRtrHighRouteTCA | 1.3.6.1.4.1.6527.3.1.3.3.0.2 |
The tmnxVRtrHighRouteTCA notification is generated when the number of routes contained in a VPRN exceeds the value specified by vRtrHighRouteThreshold. No other notifications of this type are generated until after the soak period specified by vRtrRouteThresholdSoakTime has expired. |
||
tmnxVRtrHighRouteCleared | 1.3.6.1.4.1.6527.3.1.3.3.0.3 |
The tmnxVRtrHighRouteCleared notification is generated when the number of routes contained in a VPRN has dropped below the vRtrHighRouteThreshold value following the generation of a tmnxVRtrHighRouteTCA notification. |
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tmnxVRtrIllegalLabelTCA | 1.3.6.1.4.1.6527.3.1.3.3.0.4 |
The tmnxVRtrIllegalLabelTCA notification is generated when the number of illegal label violations on a VRF has exceeded the value specified by vRtrIllegalLabelThreshold. |
||
tmnxVRtrMcastMidRouteTCA | 1.3.6.1.4.1.6527.3.1.3.3.0.5 |
The tmnxVRtrMcastMidRouteTCA notification is generated when the number of multicast routes contained in a VPRN exceeds the value specified by vRtrMcastMidRouteThreshold. No other notifications of this type are generated until after the soak period specified by vRtrRouteThresholdSoakTime has expired. |
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tmnxVRtrMcastMaxRoutesTCA | 1.3.6.1.4.1.6527.3.1.3.3.0.6 |
The tmnxVRtrMcastMaxRoutesTCA notification is generated when the number of multicast routes contained in a VPRN exceeds the value specified by vRtrMaxMcastNumRoutes. No other notifications of this type are generated until after the soak period specified by vRtrRouteThresholdSoakTime has expired. |
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tmnxVRtrMcastMaxRoutesCleared | 1.3.6.1.4.1.6527.3.1.3.3.0.7 |
The tmnxVRtrMcastMaxRoutesCleared notification is generated when the number of multicast routes contained in a VPRN has dropped below the vRtrMaxMcastNumRoutes value following the generation of a tmnxVRtrMcastMaxRoutesTCA notification. |
||
tmnxVRtrMaxArpEntriesTCA | 1.3.6.1.4.1.6527.3.1.3.3.0.8 |
The tmnxVRtrMaxArpEntriesTCA notification is generated when the number of ARP entries in a VPRN exceeds the maximum supported. |
||
tmnxVRtrMaxArpEntriesCleared | 1.3.6.1.4.1.6527.3.1.3.3.0.9 |
The tmnxVRtrMaxArpEntriesCleared notification is generated when the number of ARP entries contained in a VPRN has dropped below the maximum value following the generation of a tmnxVRtrMaxArpEntriesTCA notification. |
||
tmnxVRtrDHCPAFEntriesExceeded | 1.3.6.1.4.1.6527.3.1.3.3.0.10 |
The tmnxVRtrDHCPAFEntriesExceeded notification is generated when the number of DHCP AutoFilter entries on a given interface reaches a user configurable upper limit given by vRtrIfDHCPAutoFilter. |
||
tmnxVRtrMaxRoutes | 1.3.6.1.4.1.6527.3.1.3.3.0.11 |
The tmnxVRtrMaxRoutes notification is generated when the number of routes of type vRtrMaxRoutesType contained in a VPRN reaches the value specified by vRtrMaxNumRoutes. |
||
tmnxVRtrDHCPLseStsExceeded | 1.3.6.1.4.1.6527.3.1.3.3.0.12 |
The tmnxVRtrDHCPLseStsExceeded notification is generated when the number of DHCP lease states entries on a given interface reaches a user configurable upper limit. |
||
tmnxVRtrDHCPLeaseStateOverride | 1.3.6.1.4.1.6527.3.1.3.3.0.13 |
The tmnxVRtrDHCPLeaseStateOverride notification is generated when an existing DHCP lease state is overridden by a new lease state which has the same IP address but a different MAC address. |
||
tmnxVRtrDHCPSuspiciousPcktRcvd | 1.3.6.1.4.1.6527.3.1.3.3.0.14 |
The tmnxVRtrDHCPSuspiciousPcktRcvd notification is generated when a DHCP packet is received with suspicious content. |
||
tmnxVRtrDHCPLseStRestoreProblem | 1.3.6.1.4.1.6527.3.1.3.3.0.15 |
The tmnxVRtrDHCPLseStRestoreProblem notification is generated when an an error is detected while processing a persistency record. |
||
tmnxVRtrDHCPLseStatePopulateErr | 1.3.6.1.4.1.6527.3.1.3.3.0.16 |
The tmnxVRtrDHCPLseStatePopulateErr notification indicates that the system was unable to update the Lease State Table with the information contained in the DHCP ACK message. The DHCP ACK message has been discarded. |
||
tmnxVRtrBfdSessionDown | 1.3.6.1.4.1.6527.3.1.3.3.0.17 |
The tmnxVRtrBfdSessionDown notification is generated when a BFD session goes down. |
||
tmnxVRtrBfdMaxSessionOnSlot | 1.3.6.1.4.1.6527.3.1.3.3.0.18 |
The tmnxVRtrBfdMaxSessionOnSlot notification is generated when the maximum number of BFD sessions has been reached on the slot indicated in vRtrBfdSlotNumber. When we have IOM based sessions, vRtrSlotOrCpmFlag is set to slot and when the sessions are centralised it is set to cpm. |
||
tmnxVRtrBfdPortTypeNotSupported | 1.3.6.1.4.1.6527.3.1.3.3.0.19 |
The tmnxVRtrBfdPortTypeNotSupported notification is generated when BFD is not supported on the port specified in tmnxPortNotifyPortId. |
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tmnxVRtrDHCPIfLseStatesExceeded | 1.3.6.1.4.1.6527.3.1.3.3.0.20 |
The tmnxVRtrDHCPIfLseStatesExceeded notifications is generated when the number of lease states on an interface exceeds vRtrIfDHCPLeasePopulate. |
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tmnxVRtrDHCP6RelayLseStExceeded | 1.3.6.1.4.1.6527.3.1.3.3.0.21 |
The tmnxVRtrDHCP6RelayLseStExceeded notifications is generated when the number of lease states populated by dhcp6 relay on an interface exceeds vRtrIfDHCP6LeasePopulate. |
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tmnxVRtrDHCP6ServerLseStExceeded | 1.3.6.1.4.1.6527.3.1.3.3.0.22 |
The tmnxVRtrDHCP6ServerLseStExceeded notifications is generated when the number of lease states populated by dhcp6 server on an interface exceeds vRtrIfDHCP6ServerMaxLeaseStates. |
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tmnxVRtrDHCP6LseStateOverride | 1.3.6.1.4.1.6527.3.1.3.3.0.23 |
The tmnxVRtrDHCP6LseStateOverride notifications is generated when an existing DHCP6 lease state can be overridden by a new lease state. This is allowed if the new lease state has the same IP address but a different client id or mac address. This is not allowed if the new lease state has the same IP address but a different prefix length. |
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tmnxVRtrDHCP6RelayReplyStripUni | 1.3.6.1.4.1.6527.3.1.3.3.0.24 |
The tmnxVRtrDHCP6RelayReplyStripUni notifications is generated when a unicast option is stripped from a message relayed from a server to a client in a relay reply message. |
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tmnxVRtrDHCP6IllegalClientAddr | 1.3.6.1.4.1.6527.3.1.3.3.0.25 |
The tmnxVRtrDHCP6IllegalClientAddr notifications is generated when an incoming message is dropped because the clients source IP does not match the subnet of the incoming interface. |
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tmnxVRtrDHCP6AssignedIllegSubnet | 1.3.6.1.4.1.6527.3.1.3.3.0.26 |
The tmnxVRtrDHCP6AssignedIllegSubnet notifications is generated when an IP address assigned to the client does not match the subnet of the interface. |
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tmnxVRtrDHCP6ClientMacUnresolved | 1.3.6.1.4.1.6527.3.1.3.3.0.27 |
The tmnxVRtrDHCP6ClientMacUnresolved notifications is generated when we receive a relay reply for a client, and the clients MAC address has not been resolved yet. |
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tmnxVRtrBfdSessionUp | 1.3.6.1.4.1.6527.3.1.3.3.0.28 |
The tmnxVRtrBfdSessionUp notification is generated when a BFD session goes up. |
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tmnxVRtrIPv6MidRouteTCA | 1.3.6.1.4.1.6527.3.1.3.3.0.29 |
The tmnxVRtrIPv6MidRouteTCA notification is generated when the number of IPv6 routes contained in a VPRN exceeds the value specified by vRtrIPv6MidRouteThreshold. No other notifications of this type are generated until after the soak period specified by vRtrIPv6RouteThresholdSoakTime has expired. |
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tmnxVRtrIPv6HighRouteTCA | 1.3.6.1.4.1.6527.3.1.3.3.0.30 |
The tmnxVRtrIPv6HighRouteTCA notification is generated when the number of IPv6 routes contained in a VPRN exceeds the value specified by vRtrIPv6HighRouteThreshold. No other notifications of this type are generated until after the soak period specified by vRtrIPv6RouteThresholdSoakTime has expired. |
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tmnxVRtrIPv6HighRouteCleared | 1.3.6.1.4.1.6527.3.1.3.3.0.31 |
The tmnxVRtrIPv6HighRouteCleared notification is generated when the number of IPv6 routes contained in a VPRN has dropped below the vRtrIPv6HighRouteThreshold value following the generation of a tmnxVRtrIPv6HighRouteTCA notification. |
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tmnxVRtrStaticRouteCPEStatus | 1.3.6.1.4.1.6527.3.1.3.3.0.32 |
The tmnxVRtrStaticRouteCPEStatus notification is generated when a CPE associated with a static route, as specified by the vRtrInetStatRteCpeNotifyAddr object, becomes reachable or unreachable. |
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tmnxVRtrBfdSessionDeleted | 1.3.6.1.4.1.6527.3.1.3.3.0.33 |
The tmnxVRtrBfdSessionDeleted notification is generated when a BFD session is deleted. |
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tmnxVRtrBfdSessionProtChange | 1.3.6.1.4.1.6527.3.1.3.3.0.34 |
The tmnxVRtrBfdSessionProtChange notification is generated when there is a change in the list of protocols using the BFD session. |
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tmnxVRtrManagedRouteAddFailed | 1.3.6.1.4.1.6527.3.1.3.3.0.35 |
The tmnxVRtrManagedRouteAddFailed notification is generated when a managed route could not be installed. |
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tmnxVRtrFibOccupancyThreshold | 1.3.6.1.4.1.6527.3.1.3.3.0.36 |
The tmnxVRtrFibOccupancyThreshold notification is generated when the FIB on an IOM card transitions between experiencing persistent normal and high occupancy. |
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tmnxVRtrInetAddressAttachFailed | 1.3.6.1.4.1.6527.3.1.3.3.0.37 |
The tmnxVRtrInetAddressAttachFailed notification is generated when an IP address could not be attached to an interface. The reason is indicated in the failure description. A possible cause is that the maximum number of IP addresses in the system is exceeded. If the IP address is a link-local address, the vRtrIfLinkLocalAddressState of the corresponding entry in the vRtrIfTable does not reach the state preferred. If the IP address was configured by the user, the vRiaInetAddrState of the corresponding entry in the vRtrIpAddrTable does not reach the state preferred. The IP address can also be a subnet router anycast address related to an IP address configured by the user (refer to RFC 4291 IPv6 Addressing Architecture, section 2.6.1 Anycast Addresses). |
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tmnxVRtrSingleSfmOverloadStateCh | 1.3.6.1.4.1.6527.3.1.3.3.0.38 |
The notification tmnxVRtrSingleSfmOverloadStateCh is sent when IGP single-SFM-overload state of a virtual router instance changes. |
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tmnxVRtrGrtExportLimitReached | 1.3.6.1.4.1.6527.3.1.3.3.0.39 |
A tmnxVRtrGrtExportLimitReached notification is generated when the configured value of exported routes, vRtrGrtMaxExportRoutes, is reached. Additional routes would not be exported into the GRT from the route table. |
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tmnxVRtrGrtRoutesExpLimitDropped | 1.3.6.1.4.1.6527.3.1.3.3.0.40 |
A tmnxVRtrGrtRoutesExpLimitDropped notification is generated when the number of exported routes drops below the export limit, vRtrGrtMaxExportRoutes. |
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tmnxVRtrIfLdpSyncTimerStart | 1.3.6.1.4.1.6527.3.1.3.3.0.41 |
A tmnxVRtrIfLdpSyncTimerStart notification is generated when the LDP sync timer, vRtrIfLdpSyncTimer starts for this interface. |
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tmnxVRtrIfLdpSyncTimerStop | 1.3.6.1.4.1.6527.3.1.3.3.0.42 |
A tmnxVRtrIfLdpSyncTimerStart notification is generated when the LDP sync timer, vRtrIfLdpSyncTimer stops for this interface. |
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tmnxVRtrBfdNoCpmNpResources | 1.3.6.1.4.1.6527.3.1.3.3.0.43 |
The tmnxVRtrBfdNoCpmNpResources notification is generated when a BFD session could not be established because the session requires a cpmNp session termination resource (see vRtrIfBfdExtType), and no cpmNp session termination resources are available. |
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tmnxVRtrGrtV6ExportLimitReached | 1.3.6.1.4.1.6527.3.1.3.3.0.44 |
[CAUSE] A tmnxVRtrGrtV6ExportLimitReached notification is generated when the configured value of exported routes, vRtrGrtMaxIpv6ExportRoutes, is reached. [EFFECT] Additional routes would not be exported into the GRT from the route table. [RECOVERY] The export policy and the value of vRtrGrtMaxIpv6ExportRoutes need to be changed. |
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tmnxVRtrGrtV6RoutesExpLimDropped | 1.3.6.1.4.1.6527.3.1.3.3.0.45 |
[CAUSE] A tmnxVRtrGrtV6RoutesExpLimDropped notification is generated when the number of exported routes drops below the export limit, vRtrGrtMaxIpv6ExportRoutes. [EFFECT] There is no effect of this notification. [RECOVERY] There is no recovery required for this notification. |
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tmnxVRtrBfdSessExtDown | 1.3.6.1.4.1.6527.3.1.3.3.0.61 |
[CAUSE] The tmnxVRtrBfdSessExtDown notification is generated when a BFD session goes down. [EFFECT] The effect of this session going down is that it either takes down any protocol that is riding over top of it or it notifies them that the session has gone down. [RECOVERY] The session will automatically attempt to re-establish on its own. |
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tmnxVRtrBfdSessExtUp | 1.3.6.1.4.1.6527.3.1.3.3.0.62 |
[CAUSE] The tmnxVRtrBfdSessExtUp notification is generated when a BFD session goes up. [EFFECT] There is no effect of this notification. [RECOVERY] There is no recovery required for this notification. |
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tmnxVRtrBfdSessExtDeleted | 1.3.6.1.4.1.6527.3.1.3.3.0.63 |
[CAUSE] The tmnxVRtrBfdSessExtDeleted notification is generated when a BFD session is deleted. [EFFECT] There is no effect of this notification. [RECOVERY] There is no recovery required for this notification. |
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tmnxVRtrBfdSessExtProtChange | 1.3.6.1.4.1.6527.3.1.3.3.0.64 |
[CAUSE] The tmnxVRtrBfdSessExtProtChange notification is generated when there is a change in the list of protocols using the BFD session. [EFFECT] There is no effect of this notification. [RECOVERY] There is no recovery required for this notification. |
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tmnxVRtrBfdExtNoCpmNpResources | 1.3.6.1.4.1.6527.3.1.3.3.0.65 |
[CAUSE] The tmnxVRtrBfdExtNoCpmNpResources notification is generated when a BFD session could not be established because the session requires a cpmNp session termination resource (see vRtrIfBfdExtType), and no cpmNp session termination resources are available. [EFFECT] There is no effect of this notification. [RECOVERY] There is no recovery required for this notification. |