The IS-IS MIB feature introduces network management support for the IS-IS routing protocol through the use of IS-IS MIB table
entries, MIB objects and MIB trap notification objects that comprise the Cisco private MIB CISCO-IETF-ISIS-MIB.my. New CLI
has been added to enable SNMP notifications for IS-IS MIB objects. Notifications are provided for errors and other significant
event information for the IS-IS network.
For more information on how to configure IS-IS MIB to receive the SNMP notifications, refer to the How to Enable IS-IS MIB.
The ciiManAreaAddrEntry table contains the set of area addresses manually configured for the IS. The ciiManAreaAddrEntry table
defines the following MIB objects:
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ciiManAreaAddr
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ciiManAreaAddrExistState
The ciiAreaAddrEntry table groups sets of relevant area addresses reported in all Level 1 link-state packets (LSPs) that were
generated or received by an IS from other ISs that are reachable through Level 1 routing.
Each entry contains one area address per LSP. The ciiAreaAddrEntry table defines the following MIB object:
The ciiSysProtSuppEntry table contains a manually configured set of protocols supported by the IS. The supported protocol
types are IPv4, IPv6, and ISO8473. The ciiSysProtSuppEntry table defines the following MIB objects:
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ciiSysProtSuppProtocol
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ciiSysProtSuppExistState
The ciiSummAddrEntry table contains a set of manually configured summary addresses used to form summarized IP TLVs originated
by an ISS. This table is useful to combine and modify IP reachability announcements, and also controls leaking of L1 routes
into L2. The ciiSummAddrEntry table defines the following MIB objects:
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ciiSummAddressType
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ciiSummAddress
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ciiSummAddrPrefixLen
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ciiSummAddrExistState
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ciiSummAddrMetric
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ciiSummAddrFullMetric
The ciiRedistributeAddrEntry table provides the criteria to decide if a route should be leaked from L2 to L1. When Domain
Wide Prefix leaking is enabled (represented by ciiSysL2toL1Leaking), addresses that match the summary mask in the table are
announced at L1 by routers. The Cisco MIB implementation also allows retrieval of routes for masked entries based on configured
access lists or route maps. The ciiRedistributeAddrEntry table defines the following MIB objects:
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ciiRedistributeAddrType
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ciiRedistributeAddrAddress
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ciiRedistributeAddrPrefixLen
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ciiRedistributeAddrExistState
The ciiRouterEntry table has one entry for every peer and it tracks the hostnames and Router IDs associated with that peer.
The ciiRouterEntry table defines the following MIB objects.
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ciiRouterSysID
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ciiRouterLevel
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ciiRouterHostName
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ciiRouterID
Note |
The IS-IS MIB defines the ciiRouterLevel object to be the level of the IS. The Cisco implementation interprets the ciiRouterLevel
object to be the level of the link-state packet (LSP) in which the hostname (ciiRouterHostName) and router ID (ciiRouterID)
were received.
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The ciiSysLevelEntry table captures level-specific information about the IS. This information includes parameters that control
how LSPs are generated, metrics for SPF computation and the decision of whether to perform traffic engineering at this level.
The ciiSysLevelEntry table defines the following MIB objects:
Note |
For the ciiSysLevelOverloadState MIB object, the Cisco MIB follows the correct interpretation of IS state transition per the
future IETF draft MIB revisions. The draft-ietf-isis-wg-16.txt did not follow the ISO 10589:2002 definition correctly. Per
the ISO 10589:2002 definition, the waiting state is defined for low memory resource condition and the overloaded state is
enabled by the administrator. Moreover, the Cisco implementation does not support a transition to a waiting state on low memory.
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The ciiCircEntry table contains circuit-specific information about each broadcast or point-to-point interface used in this
IS-IS. Each entry is associated with a corresponding interface, based on the circuit type (broadcast or point-to-point interfaces).
In other words, only interfaces that are configured as broadcast or point-to-point can be polled. The Cisco implementation
of the IS-IS MIB does not support the following circuit types: staticIn, staticOut, dA (dynamically assigned). The ciiCircEntry
table defines the following MIB objects:
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ciiCircIndex
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ciiCircIfIndex
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ciiCircIfSubIndex
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ciiCircAdminState
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ciiCircExistState
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ciiCircType
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ciiCircExtDomain
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ciiCircLevel
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ciiCircPassiveCircuit
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ciiCircMeshGroupEnabled
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ciiCircMeshGroup
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ciiCircSmallHellos
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ciiCircLastUpTime
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ciiCirc3WayEnabled
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ciiCircExtendedCircID
Note |
The ciiCircExtDomain MIB table object is not implemented because externalDomain linkage is not supported by Cisco IOS software.
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The ciiNextCircIndex object, which is defined outside ciiCircTable, is used to assign a unique index value to the ciiCircIndex
through a SET operation. The Cisco MIB implementation does not implement this object because the SET ability currently is
not supported, and ciiCircIndex is determined uniquely through data from configured interfaces.
The ciiCircLevelEntry table contains level-specific information about IS-IS circuits. The ciiCircLevelEntry table contains
the following MIB objects:
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ciiCircLevelIndex
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ciiCircLevelMetric
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ciiCircLevelWideMetric
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ciiCircLevelISPriority
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ciiCircLevelIDOctet
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ciiCircLevelID
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ciiCircLevelDesIS
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ciiCircLevelHelloMultiplier
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ciiCircLevelHelloTimer
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ciiCircLevelDRHelloTimer
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ciiCircLevelLSPThrottle
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ciiCircLevelMinLSPRetransInt
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ciiCircLevelCSNPInterval
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ciiCircLevelPartSNPInterval
The ciiSystemCounterEntry table has a sequence of entries used to track system-wide events using counters. The ciiSystemCounterEntry
table defines the following MIB objects:
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ciiSysStatLevel
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ciiSysStatCorrLSPs
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ciiSysStatAuthTypeFails
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ciiSysStatAuthFails
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ciiSysStatLSPDbaseOloads
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ciiSysStatManAddrDropFromAreas
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ciiSysStatAttmptToExMaxSeqNums
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ciiSysStatSeqNumSkips
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ciiSysStatOwnLSPPurges
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ciiSysStatIDFieldLenMismatches
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ciiSysStatPartChanges
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ciiSysStatSPFRuns
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ciiSysStatLSPErrors
Note |
The ciiSysStatPartChanges object is not implemented because the ability to detect partition changes currently is not supported
by Cisco IOS software.
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The ciiCircuitCounterEntry table is used to track system-wide events specific to a circuit and level. The ciiCircuitCounterEntry
table defines the following MIB objects:
Note |
The ciiCircInitFails MIB object does not return any data because circuit initialization failures are not tracked by Cisco
IOS software.
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The ciiPacketCounterEntry table tracks the number of IS-IS packets sent and received over a circuit at one level. At any time,
the traffic flow along one direction is recorded. All objects defined in this table are Counter objects. The ciiPacketCounterEntry
table defines the following MIB objects:
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ciiPacketCountLevel
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ciiPacketCountDirection
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ciiPacketCountIIHellos
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ciiPacketCountISHellos
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ciiPacketCountESHellos
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ciiPacketCountLSPs
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ciiPacketCountCSNPs
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ciiPacketCountPSNPs
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ciiPacketCountUnknowns
Note |
The ciiPacketCountISHellos MIB object tracks the number of end system-Intermediate system (ES-IS) hellos only at system granularity
and not at per-level or per-circuit.
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The ciiPacketCountESHellos MIB objects tracks the number of end-system (ES) hellos only at system granularity and not at per-level
or per-circuit.
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The ciiPacketCountUnknowns MIB object can track only unknown packet types that are received, not those that are sent in any
given level.
The ciiISAdjEntry table has one entry associated with every adjacency to an IS (in other words, a table of adjacencies).
However, this object cannot be used to track multiple adjacencies in a LAN, with each adjacency corresponding to a level.
Thus the best priority level is selected among the configured objects.
The ciiISAdjEntry table defines the following MIB objects:
Note |
The ciiISAdjChanges MIB object gathers information based on the best priority level that is selected among the configured
objects, per the restriction against the software support of multiple adjacencies in a LAN for the ciiISAdjEntry table.
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The ciiISAdjAreaAddrEntry table contains entries for the sets of area addresses of neighboring ISs as reported in received
IS-IS Hello protocol data units (PDU)s. The ciiISAdjAreaAddrEntry table defines the following MIB objects:
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ciiISAdjAreaAddrIndex
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ciiISAdjAreaAddress
The ciiISAdjIPAddrEntry table contains entries that are formed by a set of IP addresses of neighboring ISs as reported in
received Hello PDUs. The ciiISAdjIPAddrEntry table defines the following MIB objects:
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ciiISAdjIPAddrIndex
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ciiISAdjIPAddrType
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ciiISAdjIPAddrAddress
The ciiISAdjProtSuppEntry table contains information about the protocols supported by neighboring ISs as reported in received
Hello PDUs. The ciiISAdjProtSuppEntry table defines the following MIB object:
The ciiRAEntry table records information about a reachable NSAP or address prefix that is manually configured or learned dynamically.
The ciiRAEntry table defines the following MIB objects:
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ciiRAIndex
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ciiRAExistState
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ciiRAAdminState
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ciiRAAddrPrefix
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ciiRAMapType
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ciiRAMetric
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ciiRAMetricType
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ciiRASNPAAddress
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ciiRASNPAMask
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ciiRASNPAPrefix
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ciiRAType
Note |
The ciiRAMapType MIB Object supports only implicit (null) and explicit mapping types. The extractIDI and extractDSP types
are not supported.
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Because the ciiRAMapType MIB Object does not support the extractIDI and extractDSP mapping types, the ciiraSNPAPrefix and
ciiRASNPAMask MIB objects will hold no data, as they depend on the unsupported mapping types. The ciiRAMapType and ciiRASNPAMask
MIB objects are not implemented.
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The ciiRAType MIB object does not support the manual creation of IP reachability addresses.
Each entry in the ciiIPRAEntry table records information about one IP reachable address manually configured on the IS or learned
from another protocol. The ciiIPRAEntry table defines the following MIB objects:
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ciiIPRADestType
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ciiIPRADest
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ciiIPRADestPrefixLen
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ciiIPRANextHopIndex
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ciiIPRANextHopType
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ciiIPRANextHop
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ciiIPRAType
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ciiIPRAExistState
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ciiIPRAAdminState
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ciiIPRAMetric
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ciiIPRAMetricType
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ciiIPRAFullMetric
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ciiIPRASNPAAddress
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ciiIPRASourceType
Note |
The ciiIpRAType MIB object does not support manually created IP reachability addresses.
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The ciiLSPSummaryEntry table (LSP Summary Table) provides LSP summary information.
The ciiLSPSummaryEntry table defines the following MIB objects:
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ciiLSPLevel
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ciiLSPID
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ciiLSPSeq
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ciiLSPZeroLife
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ciiLSPChecksum
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ciiLSPLifetimeRemain
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ciiLSPPDULength
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ciiLSPAttributes
The ciiLSPTLVEntry table provides a complete record of all LSPs as a sequence of {Type, Length, Value} tuples. The ciiLSPTLVEntry
table defines the following MIB objects:
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ciiLSPTLVIndex
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ciiLSPTLVSeq
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ciiLSPTLVChecksum
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ciiLSPTLVType
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ciiLSPTLVLen
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ciiLSPTLVValue
Fields that are required for notifications are recorded in the ciiNotificationEntry table. The ciiNotificationEntry table
is not meant for query since the MAX-ACCESS clause of the MIB objects is "accessible-for-notify." The information for notifications
will be directly provided at the time of event generation. The following MIB objects are used only in trap notifications where
their value is determined and directly based on input parameters for the IS-IS trap generation process.
Note |
The MIB objects ciiNotifManualAddress and ciiNotifIsLevelIndex were added separately and are not defined in draft-ietf-isis-wg-mib-16.txt.
These have been provided as a replacement for ciiManAreaAddr and ciiSysLevelIndex respectively to be used only in trap notifications.
They have a MAX-ACCESS clause of "accessible-for-notify."
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