Cisco ASR 1000 Series Aggregation Services Routers MIB Specifications Guide
Chapter 3, Cisco ASR 1000 Series Routers MIB Specifications
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Table Of Contents

Cisco ASR 1000 Series Routers MIB Specifications

Cisco ASR 1000 Series Routers MIBs

Cisco ASR 1000 Series Routers MIB Categories

Supported and Verified MIBs

Supported and Unverified MIBs

Unsupported MIBs

ATM-ACCOUNTING-INFORMATION-MIB

ATM-FORUM-ADDR-REG-MIB

ATM-FORUM-MIB

ATM-MIB

MIB Constraints

ATM-SOFT-PVC-MIB

BGP4-MIB (RFC 1657)

CISCO-802-TAP-MIB

CISCO-AAA-SERVER-MIB

MIB Constraints

CISCO-AAA-SESSION-MIB

CISCO-AAL5-MIB

CISCO-ATM-EXT-MIB

CISCO-ATM-PVCTRAP-EXTN-MIB

CISCO-ATM-QOS-MIB

CISCO-ATM2-MIB

CISCO-ATM-CONN-MIB

CISCO-ATM-RM-MIB

CISCO-ATM-TRAFFIC-MIB

CISCO-BGP4-MIB

CISCO-BGP-POLICY-ACCOUNTING-MIB

CISCO-BULK-FILE-MIB

MIB Constraints

CISCO-CBP-TARGET-MIB

MIB Constraints

CISCO-CDP-MIB

MIB Constraints

CISCO-CEF-MIB

MIB Constraints

CISCO-CLASS-BASED-QOS-MIB

MIB Constraints

CISCO-CONFIG-COPY-MIB

CISCO-CONFIG-MAN-MIB

CISCO-CONTEXT-MAPPING-MIB

CISCO-DATA-COLLECTION-MIB

MIB Constraints

CISCO-EMBEDDED-EVENT-MGR-MIB

CISCO-ENHANCED-IMAGE-MIB

CISCO-ENHANCED-MEMPOOL-MIB

MIB Constraints

CISCO-ENTITY-ALARM-MIB

MIB Constraints

CISCO-ENTITY-ASSET-MIB

CISCO-ENTITY-EXT-MIB

MIB Constraints

CISCO-ENTITY-FRU-CONTROL-MIB

MIB Constraints

CISCO-ENTITY-SENSOR-MIB

MIB Constraints

MIB Usage Values for Cisco Transceivers

CISCO-ENTITY-VENDORTYPE-OID-MIB

CISCO-FLASH-MIB

MIB Constraints

CISCO-FRAME-RELAY-MIB

MIB Constraints

CISCO-FTP-CLIENT-MIB

CISCO-HSRP-EXT-MIB

CISCO-HSRP-MIB

CISCO-IETF-ATM2-PVCTRAP-MIB

CISCO-IETF-FRR-MIB

CISCO-IETF-ISIS-MIB

CISCO-IETF-NAT-MIB

MIB Constraints

CISCO-IETF-PPVPN-MPLS-VPN-MIB

CISCO-IETF-PW-ATM-MIB

MIB Constraints

CISCO-IETF-PW-ENET-MIB

MIB Constraints

CISCO-IETF-PW-FR-MIB

CISCO-IETF-PW-MIB

MIB Constraints

CISCO-IETF-PW-MPLS-MIB

MIB Constraints

CISCO-IETF-PW-TDM-MIB

CISCO-IF-EXTENSION-MIB

MIB Constraints

CISCO-IGMP-FILTER-MIB

CISCO-IMAGE-MIB

CISCO-IP-LOCAL-POOL-MIB

CISCO-IPMROUTE-MIB

CISCO-IPSEC-FLOW-MONITOR-MIB

CISCO-IPSEC-MIB

CISCO-IPSEC-POLICY-MAP-MIB

MIB Constraints

CISCO-IP-TAP-MIB

CISCO-IP-URPF-MIB

MIB Constraints

CISCO-MVPN-MIB

CISCO-LAG-MIB

CISCO-NETFLOW-MIB

MIB Constraints

CISCO-NTP-MIB

CISCO-OSPF-MIB

CISCO-OSPF-TRAP-MIB

CISCO-PIM-MIB

CISCO-PING-MIB

CISCO-PPPOE-MIB

MIB Constraints

CISCO-PROCESS-MIB

MIB Constraints

CISCO-PROCESS-MIB Usage

CISCO-PRODUCTS-MIB

CISCO-QINQ-VLAN-MIB

MIB Constraints

CISCO-RF-MIB

MIB Constraints

CISCO-RTTMON-MIB

MIB Constraints

CISCO-SLB-EXT-MIB

CISCO-SLB-MIB

CISCO-SESS-BORDER-CTRLR-CALL-STATS-MIB

CISCO-SESS-BORDER-CTRLR-EVENT-MIB

CISCO-SONET-MIB

MIB Constraints

CISCO-SYSLOG-MIB

CISCO-UNIFIED-FIREWALL-MIB

CISCO-TAP2-MIB

MIB Constraints

CISCO-TAP-MIB

CISCO-USER-CONNECTION-TAP-MIB

CISCO-VLAN-IFTABLE-RELATIONSHIP-MIB

CISCO-VLAN-MEMBERSHIP-MIB

CISCO-VPDN-MGMT-MIB

MIB Constraints

DS1-MIB (RFC 2495)

MIB Constraints

DS3-MIB (RFC 2496)

MIB Constraints

ENTITY-MIB (RFC 4133)

MIB Constraints

ENTITY-SENSOR-MIB (RFC 3433)

ETHERLIKE-MIB (RFC 3635)

MIB Constraints

EVENT-MIB (RFC 2981)

EXPRESSION-MIB

FRAME-RELAY-DTE-MIB (RFC1315-MIB)

MIB Constraints

IEEE8023-LAG-MIB

IF-MIB (RFC 2863)

MIB Constraints

IGMP-STD-MIB (RFC 2933)

IP-FORWARD-MIB (RFC 4292)

MIB Constraints

IP-MIB (RFC 4293)

MIB Constraints

IPMROUTE-STD-MIB (RFC 2932)

MIB Constraints

MPLS-L3VPN-STD-MIB (RFC 4382)

MPLS-LDP-GENERIC-STD-MIB (RFC 3815)

MPLS-LDP-STD-MIB (RFC 3815)

MPLS-LSR-STD-MIB (RFC 3813)

MPLS-TE-MIB

MIB Constraints

MPLS-VPN-MIB

MIB Constraints

MSDP-MIB

NOTIFICATION-LOG-MIB (RFC 3014)

OLD-CISCO-CHASSIS-MIB

OSPF-MIB (RFC 1850)

OSPF-TRAP-MIB (RFC 1850)

PIM-MIB (RFC 2934)

MIB Constraints

RFC1213-MIB

RMON-MIB (RFC 1757)

MIB Constraints

RSVP-MIB

SNMP-COMMUNITY-MIB (RFC 2576)

SNMP-FRAMEWORK-MIB (RFC 2571)

SNMP-MPD-MIB (RFC 2572)

SNMP-NOTIFICATION-MIB (RFC 2573)

SNMP-PROXY-MIB (RFC 2573)

SNMP-TARGET-MIB (RFC 2573)

SNMP-USM-MIB (RFC 2574)

SNMPv2-MIB (RFC 1907)

SNMP-VIEW-BASED-ACM-MIB (RFC 2575)

SONET-MIB (RFC 2558)

MIB Constraints

TCP-MIB (RFC 4022)

TUNNEL-MIB (RFC 4087)

UDP-MIB (RFC 4113)


Cisco ASR 1000 Series Routers MIB Specifications

This chapter describes the Management Information Base (MIB) on the Cisco ASR 1000 Series Routers. It includes the following sections:

Cisco ASR 1000 Series Routers MIBs

Cisco ASR 1000 Series Routers MIB Categories

Cisco ASR 1000 Series Routers MIBs

Each MIB description lists relevant constraints about the MIB's implementation on the Cisco ASR 1000 Series Routers platform. Any objects not listed in a table are implemented as defined in the MIB. For detailed MIB descriptions, see the standard MIB.

Note Not all MIBs included in a Cisco IOS software release are fully supported by the router. Some MIBs are not supported at all. Other MIBs might work, but they have not been tested on the router. In addition, some MIBs are deprecated but cannot be removed from the software. When a MIB is included in the image, this does not necessarily mean it is supported by the Cisco ASR 1000 Series Routers platform.

To determine which MIBs are included in other releases, see the "Downloading and Compiling MIBs" section on page 2-1.

Cisco ASR 1000 Series Routers MIB Categories

The following tables list the categories of MIBs in the Cisco ASR 1000 Series Routers Image on the Cisco ASR 1000 Series Router:

Supported and verified MIBs (tested for Cisco ASR 1000 Series Routers)—The MIB exists in the image, the code is implemented, and Cisco has verified that all the supported objects work properly, Table 3-1.

Supported and unverified MIBs (not tested for Cisco ASR 1000 Series Routers)—The MIB exists in the image, the code is implemented, but we have not verified if it is working properly. In other words, the user may get something if they query the MIB. However, the information may be correct or incorrect because the MIB has not been tested, Table 3-2.

Unsupported MIBs (no level of support or testing on the Cisco ASR 1000 Series Routers)—The MIBs might be posted at Cisco.com, but are not present in the image and cannot be queried, Table 3-3.

The MIB version string indicates the date and time that it was most recently modified. The format is YYMMDDHHMMZ or YYYYMMDDHHMMZ, where:

YY is the last two digits of the year (only years between 1900 and1999).

YYYY is all four digits of the year (any year).

MM is the month (01 through 12).

DD is the day of the month (01 through 31).

HH is hours (00 through 23).

MM is minutes (00 through 59).

Z (the ASCII character Z), denotes Coordinated Universal Time (UTC, formerly Greenwich Mean Time [GMT]). This datatype stores the date and time fields YEAR, MONTH, DAY, HOUR, MINUTE, SECOND, TIMEZONE_HOUR, and TIMEZONE_MINUTE.

Note For example, 9502192015Z and 199502192015Z represent 8:15 GMT on 19 February 1995. Years after 1999 use the fou-digit format. Years 1900-1999 may use the two- or four- digit format.

Note In the following tables you might see the term Unknown. This term refers to the MIB that does not have a recorded time stamp indicating the latest modification.

Supported and Verified MIBs

Table 3-1 lists the MIBs that are supported and verified in the following Cisco IOS release. The table lists the MIBs, corresponding notification name, and applicable MIB versions.

Table 3-1 Supported and Verified Cisco ASR 1000 Series Routers MIBs in the Cisco ASR 1000 Series Routers Image 

MIB
Notification Name
12.2(33r)XN
   

ATM-MIB

 

9406072245Z

 

 

BGP4-MIB (RFC 1657)

bgpEstablished

bgpBackwardTransition

9405050000Z

 

 

CISCO-AAA-SERVER-MIB

casServerStateChange

200001200000Z

 

 

CISCO-AAA-SESSION-MIB

 

200603210000Z

 

 

CISCO-AAL5-MIB

 

200309220000Z

 

 

CISCO-ATM-EXT-MIB

 

200301060000Z

 

 

CISCO-ATM-PVCTRAP-EXTN-MIB

catmIntfPvcUpTrap,

catmIntfPvcOAMFailureTrap,

catmIntfPvcSegCCOAMFailureTrap,

catmIntfPvcEndCCOAMFailureTrap,

catmIntfPvcAISRDIOAMFailureTrap,

catmIntfPvcAnyOAMFailureTrap,

catmIntfPvcOAMRecoverTrap,

catmIntfPvcSegCCOAMRecoverTrap,

catmIntfPvcEndCCOAMRecoverTrap,

catmIntfPvcAISRDIOAMRecoverTrap,

catmIntfPvcAnyOAMRecoverTrap,

catmIntfPvcUp2Trap,

catmIntfPvcDownTrap,

catmIntfPvcSegAISRDIFailureTrap,

catmIntfPvcEndAISRDIFailureTrap,

catmIntfPvcSegAISRDIRecoverTrap,

catmIntfPvcEndAISRDIRecoverTrap

200303240000Z

 

 

CISCO-BGP4-MIB

cbgpFsmStateChange

cbgpBackwardTransition

cbgpPrefixThresholdExceeded

cbgpPrefixThresholdClear

200302240000Z

 

 

CISCO-BGP-POLICY-ACCOUNTING-MIB

 

200207260000Z

 

 

CISCO-BULK-FILE-MIB

cbfDefineFileCompletion

200108220000Z

 

 

CISCO-CBP-TARGET-MIB

 

200605240000Z

 

 

CISCO-CDP-MIB

 

200503210000Z

 

 

CISCO-CEF-MIB

cefResourceFailure

cefPeerStateChange

cefPeerFIBStateChange

cefInconsistencyDetection

200601300000Z

 

 

CISCO-CLASS-BASED-QOS-MIB

 

200901260000Z

 

 

CISCO-CONFIG-COPY-MIB

ccCopyCompletion

200403170000Z

 

 

CISCO-CONFIG-MAN-MIB

ciscoConfigManEvent

ccmCLIRunningConfigChanged

ccmCTIDRolledOver

200608220000Z

 

 

CISCO-CONTEXT-MAPPING-MIB

 

200503170000Z

 

 

CISCO-DATA-COLLECTION-MIB

cdcVFileCollectionError

cdcFileXferComplete

200210300530Z

 

 

CISCO-EMBEDDED-EVENT-MGR-MIB

cEventMgrServerEvent

cEventMgrPolicyEvent

200304160000Z

 

 

CISCO-ENHANCED-MEMPOOL-MIB

cempMemBufferNotify

200302240000Z1

 

 

CISCO-ENTITY-ALARM-MIB

ceAlarmAsserted

ceAlarmCleared

9907062150Z

 

 

CISCO-ENTITY-EXT-MIB

 

200811240000Z

 

 

CISCO-ENTITY-FRU-CONTROL-MIB

cefcModuleStatusChange

cefcPowerStatusChange

cefcFRUInserted

cefcFRURemoved

cefcUnrecognizedFRU

cefcFanTrayStatusChange

200310230000Z

 

 

CISCO-ENTITY-SENSOR-MIB

entSensorThresholdNotification

200601010000Z

 

 

CISCO-ENTITY-VENDORTYPE-OID-MIB

 

200505050930Z

 

 

CISCO-FLASH-MIB

ciscoFlashCopyCompletionTrap

ciscoFlashPartitioningCompletionTrap

ciscoFlashMiscOpCompletionTrap

ciscoFlashDeviceChangeTrap

ciscoFlashDeviceInsertedNotif

ciscoFlashDeviceRemovedNotif

ciscoFlashDeviceInsertedNotifRev1

ciscoFlashDeviceRemovedNotifRev1

200403180000Z

 

 

CISCO-FRAME-RELAY-MIB

 

200010130000Z

 

 

CISCO-FTP-CLIENT-MIB

 

9710091700Z

 

 

CISCO-HSRP-EXT-MIB

 

9808030000Z

 

 

CISCO-HSRP-MIB

cHsrpStateChange

9808030000Z

 

 

CISCO-IETF-ATM2-PVCTRAP-MIB

atmIntfPvcFailuresTrap

9802030000Z

 

 

CISCO-IETF-ISIS-MIB

ciiDatabaseOverload

ciiManualAddressDrops

ciiCorruptedLSPDetected

ciiAttemptToExceedMaxSequence

ciiIDLenMismatch

ciiMaxAreaAddressesMismatch

ciiOwnLSPPurge

ciiSequenceNumberSkip

ciiAuthenticationTypeFailure

ciiAuthenticationFailure

ciiVersionSkew

ciiAreaM

200508161200Z

 

 

CISCO-IETF-NAT-MIB

 

200103010000Z

 

 

CISCO-IETF-PPVPN-MPLS-VPN-MIB

cMplsNumVrfRouteMaxThreshCleared

200304171200Z

 

 

CISCO-IETF-PW-ATM-MIB

 

200504191200Z

 

 

CISCO-IETF-PW-ENET-MIB

 

200209221200Z

 

 

CISCO-IETF-PW-MIB

cpwVcDown

cpwVcUp

200403171200Z

 

 

CISCO-IETF-PW-MPLS-MIB

 

200302261200Z

 

 

CISCO-IF-EXTENSION-MIB

 

200311140000Z

 

 

CISCO-IGMP-FILTER-MIB

 

200111080000Z

 

 

CISCO-IMAGE-MIB

 

9508150000Z

 

 

CISCO-IP-LOCAL-POOL-MIB

ciscoIpLocalPoolInUseAddrNoti

200304032000Z

 

 

CISCO-IPSEC-FLOW-MONITOR-MIB

cikeTunnelStart

cikeTunnelStop

cikeSysFailure

cikeCertCrlFailure

cikeProtocolFailure

cikeNoSa

cipSecTunnelStart

cipSecTunnelStop

cipSecSysFailure

cipSecSetUpFailure

cipSecEarlyTunTerm

cipSecProtocolFailure

cipSecNoSa

200010131800Z

 

 

CISCO-IPSEC-MIB

cipsIsakmpPolicyAdded

cipsIsakmpPolicyDeleted

cipsCryptomapAdded

cipsCryptomapDeleted

cipsCryptomapSetAttached

cipsCryptomapSetDetached

cipsTooManySAs

200008071139Z

 

 

CISCO-IPSEC-POLICY-MAP-MIB

 

200008171257Z

 

 

CISCO-IP-TAP-MIB

 

200403110000Z

 

 

CISCO-IP-URPF-MIB

cipUrpfIfDropRateNotify

200411120000Z

 

 

CISCO-NETFLOW-MIB

 

200604200000Z

 

 

CISCO-NTP-MIB

 

200307070000Z

 

 

CISCO-OSPF-MIB (draft-ietf-ospf-mib-update-05)

 

200307180000Z

 

 

CISCO-OSPF-TRAP-MIB (draft-ietf-ospf-mib-update-05)

cospfIfConfigError

cospfVirtIfConfigError

cospfTxRetransmit

cospfVirtIfTxRetransmit

cospfOriginateLsa

cospfMaxAgeLsa

cospfNssaTranslatorStatusChange

cospfShamLinkStateChange

cospfShamLinksStateChange

cospfShamLinkNbrStateChange

cospfShamLinkConfigError

cospfShamLinkAuthFailure

cospfShamLinkRxBadPacket

cospfShamLinkTxRetransmit

200307180000Z

 

 

CISCO-PIM-MIB

ciscoPimInterfaceUp

ciscoPimInterfaceDown

ciscoPimRPMappingChange

ciscoPimInvalidRegister

ciscoPimInvalidJoinPrune

200011020000Z

 

 

CISCO-PING-MIB

ciscoPingCompletion

200108280000Z

 

 

CISCO-PPPOE-MIB

cPppoeSystemSessionThresholdTrap

cPppoeVcSessionThresholdTrap

200102200000Z

 

 

CISCO-PROCESS-MIB

cpmCPURisingThreshold

cpmCPUFallingThreshold

200703230000Z

 

 

CISCO-PRODUCTS-MIB

 

200505051930Z

 

 

CISCO-QINQ-VLAN-MIB

 

200411290000Z

 

 

CISCO-RF-MIB

ciscoRFSwactNotif

ciscoRFProgressionNotif

ciscoRFIssuStateNotif

ciscoRFIssuStateNotifRev1

200404030000Z

 

 

CISCO-RTTMON-MIB

rttMonConnectionChangeNotification

rttMonTimeoutNotification

rttMonThresholdNotification

rttMonVerifyErrorNotification

rttMonNotification

rttMonLpdDiscoveryNotification

rttMonLpdGrpStatusNotification

200701260000Z

 

 

CISCO-SESS-BORDER-CTRLR-CALL-STATS-MIB

 

200808270000Z

 

 

CISCO-SESS-BORDER-CTRLR-EVENT-MIB

csbAlarmSubsystem

csbAlarmSeverity

csbAlarmID

csbAlarmTime

csbSBCServiceName

csbDynamicBlackListSubFamily

csbDynamicBlackListVpnId

csbDynamicBlackListAddressType

csbDynamicBlackListAddress

csbDynamicBlackListTransportType

csbDynamicBlackListPortNumber

csbDynamicBlackListSrcBlocked

csbAlarmDescription

200808270000Z

 

 

CISCO-SONET-MIB

ciscoSonetSectionStatusChange

ciscoSonetLineStatusChange

ciscoSonetPathStatusChange

ciscoSonetVTStatusChange

200205220000Z

 

 

CISCO-SYSLOG-MIB

clogMessageGenerated

9508070000Z

 

 

CISCO-TAP2-MIB

ciscoTap2MIBActive

ciscoTap2MediationTimedOut

ciscoTap2MediationDebug

ciscoTap2StreamDebug

ciscoTap2Switchover

200611270000Z

 

 

CISCO-USER-CONNECTION-TAP-MIB

 

200708090000Z

 

 

CISCO-VLAN-IFTABLE-RELATIONSHIP-MIB

 

9904010530Z

 

 

CISCO-VLAN-MEMBERSHIP-MIB

vmVmpsChange

200404070000Z

 

 

CISCO-VPDN-MGMT-MIB

cvpdnNotifSession

cvpdnTrapDeadcacheEvent

200601200000Z

 

 

DS1-MIB (RFC 2495)

dsx1LineStatusChange

9808011830Z

 

 

DS3-MIB (RFC 2496)

dsx3LineStatusChange

9808012130Z

 

 

ENTITY-MIB (RFC 4133)

entConfigChange

200508100000Z

 

 

ENTITY-SENSOR-MIB (RFC 3433)

 

200212160000Z

 

 

ETHERLIKE-MIB (RFC 3635)

 

200309190000Z

 

 

EVENT-MIB (RFC 2981)

mteTriggerFired

mteTriggerRising

mteTriggerFalling

mteTriggerFailure

mteEventSetFailure

200010160000Z

 

 

EXPRESSION-MIB

 

9802251700Z

 

 

FRAME-RELAY-DTE-MIB (RFC1315-MIB)

 

9511170836Z

 

 

IF-MIB (RFC 2863)

linkDown

linkUp

9611031355Z

 

 

IGMP-STD-MIB (RFC 2933)

 

200009280000Z

 

 

IP-FORWARD-MIB (RFC 4292)

 

200602010000Z

 

 

IP-MIB (RFC 4293)

 

200602020000Z

 

 

IPMROUTE-STD-MIB (RFC 2932)

 

200009220000Z

 

 

MPLS-L3VPN-STD-MIB (RFC 4382)

mplsL3VpnVrfUp

mplsL3VpnVrfDown

mplsL3VpnVrfRouteMidThreshExceeded

mplsL3VpnVrfNumVrfRouteMaxThreshExceeded

mplsL3VpnNumVrfSecIllglLblThrshExcd

mplsL3VpnNumVrfRouteMaxThreshCleared

200601230000Z

 

 

MPLS-LDP-GENERIC-STD-MIB (RFC 3815)

 

200406030000Z

 

 

MPLS-LDP-STD-MIB (RFC 3815)

mplsLdpInitSessionThresholdExceeded

mplsLdpPathVectorLimitMismatch

mplsLdpSessionUp

mplsLdpSessionDown

200406030000Z

 

 

MPLS-LSR-STD-MIB (RFC 3813)

mplsXCUp

mplsXCDown

200406030000Z

 

 

MPLS-VPN-MIB

mplsVrfIfUp

mplsVrfIfDown

mplsNumVrfRouteMidThreshExceeded

mplsNumVrfRouteMaxThreshExceeded

mplsNumVrfSecIllegalLabelThreshExceeded

200110151200Z

 

 

MSDP-MIB

msdpEstablished

msdpBackwardTransition

9912160000Z

 

 

NOTIFICATION-LOG-MIB (RFC 3014)

 

200011270000Z

 

 

OSPF-MIB (RFC 1850)

 

9501201225Z

 

 

OSPF-TRAP-MIB (RFC 1850)

ospfIfStateChange

ospfVirtIfStateChange

ospfNbrStateChange

ospfVirtNbrStateChange

ospfIfConfigError

ospfVirtIfConfigError

ospfIfAuthFailure

ospfVirtIfAuthFailure

ospfIfRxBadPacket

ospfVirtIfRxBadPacket

ospfTxRetransmit

ospfVirtIfTxRetransmit

ospfOriginate

9501201225Z

 

 

PIM-MIB (RFC 2934)

pimNeighborLoss

200009280000Z

 

 

RFC1213-MIB

 

UNKNOWN

 

 

RMON-MIB (RFC 1757)

 

9606111939Z

 

 

RSVP-MIB

newFlow

lostFlow

9808251820Z

 

 

SNMP-COMMUNITY-MIB (RFC 2576)

 

UNKNOWN

 

 

SNMP-FRAMEWORK-MIB (RFC 2571)

 

9901190000Z

 

 

SNMP-MPD-MIB (RFC 2572)

 

9905041636Z

 

 

SNMP-NOTIFICATION-MIB (RFC 2573)

 

9808040000Z

 

 

SNMP-PROXY-MIB (RFC 2573)

 

9808040000Z

 

 

SNMP-TARGET-MIB (RFC 2573)

 

9808040000Z

 

 

SNMPv2-MIB (RFC 1907)

coldStart

warmStart

linkDown

linkUp

authenticationFailure

egpNeighborLoss

9511090000Z

 

 

SNMP-VIEW-BASED-ACM-MIB (RFC 2575)

 

9901200000Z

 

 

SONET-MIB (RFC 2558)

 

9810190000Z

 

 

TCP-MIB (RFC 4022)

 

200502180000Z

 

 

TUNNEL-MIB (RFC 4087)

 

200505160000Z

 

 

UDP-MIB (RFC 4113)

 

200505200000Z

 

 

1 For RLS 02.03.02, the version for CISCO-ENHANCED-MEMPOOL-MIB is 200812050000Z.


Supported and Unverified MIBs

Table 3-2 lists the MIBs, notification name, and versions in the Cisco ASR 1000 Series Routers image that are supported and unverified in the following Cisco IOS release.

Table 3-2 Supported and Unverified Cisco ASR 1000 Series Routers MIBs in the Cisco ASR 1000 Series Routers Image 

MIB
Notification Name
12.2(33r)XN
   

ATM-FORUM-ADDR-REG-MIB

 

9606200322Z

 

 

ATM-FORUM-MIB

 

9606200322Z

 

 

CISCO-ATM-QOS-MIB

 

200206100000Z

 

 

CISCO-IETF-FRR-MIB

cmplsFrrProtected

200211051200Z

 

 

CISCO-IPMROUTE-MIB

ciscoIpMRouteMissingHeartBeats

200503070000Z

 

 

MPLS-TE-MIB

mplsTunnelUp

mplsTunnelDown

mplsTunnelRerouted

200011211200Z

 

 

SNMP-USM-MIB (RFC 2574)

 

9901200000Z

 

 


Unsupported MIBs

Table 3-3 lists the MIBs, notification name, and versions in the Cisco ASR 1000 Series Routers image that are unsupported in the following Cisco IOS release.

Table 3-3 Unsupported Cisco ASR 1000 Series Routers MIBs in the Cisco ASR 1000 Series Routers Image 

MIB
Notification Name
12.2(33r)XN
   

ATM-ACCOUNTING-INFORMATION-MIB

 

9711050000Z

 

 

ATM-SOFT-PVC-MIB

atmSoftPvcCallFailuresTrap

9703010000Z

 

 

ATM-TRACE-MIB

 

UNKNOWN

 

 

CISCO-802-TAP-MIB

 

200607100000Z

 

 

CISCO-ATM2-MIB

 

9803040000Z

 

 

CISCO-ATM-CONN-MIB

 

200108060000Z

 

 

CISCO-ATM-RM-MIB

 

200101290000Z

 

 

CISCO-ATM-TRAFFIC-MIB

 

9705290000Z

 

 

CISCO-ENHANCED-IMAGE-MIB

 

200501060000Z

 

 

CISCO-ENTITY-ASSET-MIB

 

200207231600Z

 

 

CISCO-IETF-PW-FR-MIB

 

200312160000Z

 

 

CISCO-IETF-PW-TDM-MIB

 

200607210000Z

   

CISCO-LAG-MIB

 

200212130000Z

 

 

CISCO-MVPN-MIB

ciscoMvpnMvrfChange

200402231200Z

 

 

CISCO-SLB-EXT-MIB

cslbxFtStateChange

200302111000Z

 

 

CISCO-SLB-MIB

ciscoSlbVirtualStateChange

ciscoSlbRealStateChange

200203180000Z

 

 

CISCO-TAP-MIB

cTapMIBActive,

cTapMediationTimedOut

cTapMediationDebug

cTapStreamIpDebug

200401090000Z

 

 

CISCO-UNIFIED-FIREWALL-MIB

ciscoUFwUrlfServerStateChange

ciscoUFwL2StaticMacAddressMoved

200506150000Z

 

 

IEEE8023-LAG-MIB

 

200006270000Z

 

 

OLD-CISCO-CHASSIS-MIB

 

UNKNOWN

 

 


ATM-ACCOUNTING-INFORMATION-MIB

The ATM-ACCOUNTING-INFORMATION-MIB contains objects to manage accounting information applicable to ATM connections.

Note This MIB is not verified in ASR 1000 Series Routers.

ATM-FORUM-ADDR-REG-MIB

The ATM-FORUM-ADDR-REG-MIB contains objects to manage information, such as ATM user-network interface (UNI) addresses and ports. This MIB also contains ATM address registration administration information.

Note This MIB is not supported in ASR 1000 Series Routers.

ATM-FORUM-MIB

The ATM-FORUM-MIB contains ATM object definitions and object identifiers (OIDs).

Note This MIB is not verified in ASR 1000 Series Routers.

ATM-MIB

The ATM-MIB (RFC 1695) contains the ATM and ATM adaptation layer 5 (AAL5) objects to manage logical and physical entities. It also provides the functionality to manage relationship between logical and physical entities such as ATM interfaces, virtual links, cross connects, and AAL5 entities and connections.

MIB Constraints

Table 3-4 lists the constraints that the Cisco ASR1000 series router places on objects in the ATM-MIB.

Table 3-4 ATM-MIB Constraints 

MIB Object
Notes
atmInterfaceDs3PlcpTable

Not used in Cisco ASR1000.

atmInterfaceTCTable

Not supported.

atmTrafficDescrParamTable
 

atmTrafficDescrType

Read-only.

atmTrafficDescrParam1

Read-only.

atmTrafficDescrParam2

Read-only.

atmTrafficDescrParam3

Read-only.

atmTrafficDescrParam4

Read-only.

atmTrafficDescrParam5

Read-only.

atmTrafficQoSClass

Read-only.

atmVclTable
 

atmVclAdminStatus

Read-only.

atmVclReceiveTrafficDescrIndex

Read-only.

atmVclTransmitTrafficDescrIndex

Read-only.

atmVccAalType

Read-only.

atmVccAal5CpcsTransmitSduSize

Read-only. Default value 4470.

atmVccAal5CpcsReceiveSduSize

Read-only. Default value 4470.

atmVccAal5EncapsType

Read-only.

atmVclCrossConnectIdentifier

Read-only.

atmVclRowStatus

Read-only.

atmVclCastType

Not supported.

atmVclConnKind

Not supported.

atmVcCrossConnectIndexNext

Not supported.

atmVcCrossConnectTable

Not implemented.

atmTrafficDescrParamIndexNext

Not supported.


Note The ifType for the ifIndex object should be atm(37) type.

ATM-SOFT-PVC-MIB

The ATM-SOFT-PVC-MIB contains ATM Forum definitions of managed objects for ATM Soft Permanent Virtual Circuits. This MIB is not supported in this release.

BGP4-MIB (RFC 1657)

The BGP4-MIB (RFC 1657) provides access to the implementation information for the Border Gateway Protocol (BGP). The MIB provides:

BGP configuration information

Information about BGP peers and messages exchanged within

Information about the advertised networks

CISCO-802-TAP-MIB

The CISCO-802-TAP-MIB contains object to manage Cisco intercept feature for 802 streams (IEEE 802 intercept, layer 2) . This MIB is used along with CISCO-TAP2-MIB to intercept 802 traffic.

CISCO-AAA-SERVER-MIB

The CISCO-AAA-SERVER-MIB contains objects to manage information such as authentication, authorization, and accounting (AAA) servers within the router and external to the router. This MIB provides:

Configuration information for AAA servers, including identities of external AAA servers

Statistics for AAA functions

Status (state) information for AAA servers

MIB Constraints

The configuration objects in the MIB are read-only. To configure AAA servers, use the CLI commands aaa new-model, aaa authentication ppp, aaa authorization, aaa accounting, and radius-server host. Table 3-5 lists the constraints that the router places on objects in the CISCO-AAA-SERVER-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-5 CISCO-AAA-SERVER-MIB Constraints 

MIB Object
Notes
casConfigTable
 

casAddress

Read-only.

casAuthenPort

Read-only. The default value is 1645.

casAcctPort

Read-only. The default value is1646.

casKey

Read-only. The value is shown as " " (null string) for security reasons.

casConfigRowStatus

Read-only.

casStatisTable
 

casAuthorTable

For RADIUS servers, these values are always 0. (RADIUS server does not make authorization requests.) Only TACACS+ servers can have nonzero values.

casAuthorRequest

casAuthorRequestTimeouts

casAuthorUnexpectedResponses

casAuthorServerErrorResponses

casAuthorIncorrectResponses

casAuthorResponseTime

 

casAuthorTransactionSuccesses

 

casAuthorTransactionFailures

 

Note This MIB is implemented for public AAA servers only; it is not implemented for private AAA servers.

CISCO-AAA-SESSION-MIB

The CISCO-AAA-SESSION-MIB contains information about accounting sessions based on authentication, authorization, and accounting (AAA) protocols.

CISCO-AAL5-MIB

The CISCO-AAL5-MIB contains objects to manage performance statistics for adaptation layer 5 (AAL5) virtual channel connections (VCCs). This MIB also contains information such as packets and octets that are received and transmitted on the VCC, which is missing from cAal5VccTable in RFC 1695.

CISCO-ATM-EXT-MIB

The CISCO-ATM-EXT-MIB contains extensions to the Cisco ATM that are used to manage ATM entities. This MIB provides additional AAL5 performance statistics for a virtual channel connection (VCC) on an ATM interface.

Note The CISCO-ATM-EXT-MIB has only one table, cAal5VccExtTable. This table augments the aal5VccTable of the CISCO-AAL5-MIB. The cAal5VccExtTable contains additional AAL5 performance parameters.

CISCO-ATM-PVCTRAP-EXTN-MIB

The CISCO-ATM-PVCTRAP-EXTN-MIB contains objects to extend the functionality for the ATM-MIB. This MIB provides additional notifications and traps for permanent virtual circuits (PVCs) on the CISCO ASR 1000. The CISCO-ATM-PVCTRAP-EXTN-MIB is supplemented by CISCO-IETF-ATM2-PVCTRAP-MIB.

CISCO-ATM-QOS-MIB

The CISCO-ATM-QOS-MIB contains objects to manage the following ATM QoS information:

Traffic shaping on a per-VC basis

Traffic shaping on a per-VP basis

Per-VC queuing/buffering.

Note This MIB is not verified in ASR 1000 Series Routers.

CISCO-ATM2-MIB

The CISCO-ATM2-MIB contains objects to supplement ATM-MIB.

Note The CISCO-ATM2-MIB is not supported for any routers.

CISCO-ATM-CONN-MIB

The CISCO-ATM-CONN-MIB contains objects to extend the VPL/VCL table defined in RFC1695 for ATM switch connection management.

Note The CISCO-ATM-CONN-MIB is not supported for any routers.

CISCO-ATM-RM-MIB

The CISCO-ATM-RM-MIB contains object to provide resource management functionality. This MIB complements standard ATM MIBs for Cisco devices.

Note This CISCO-ATM-RM-MIB is not supported in this release.

CISCO-ATM-TRAFFIC-MIB

The CISCO-ATM-TRAFFIC-MIB contains objects that provide extension to traffic OIDs and variables defined in RFC1695.

Note The CISCO-ATM-TRAFFIC-MIB is not supported in this release.

CISCO-BGP4-MIB

The CISCO-BGP4-MIB provides access to information related to the implementation of the Border Gateway Protocol (BGP). The MIB provides:

BGP configuration information

Information about BGP peers and messages exchanged with them

Information about advertised networks

CISCO-BGP-POLICY-ACCOUNTING-MIB

The CISCO-BGP-POLICY-ACCOUNTING-MIB contains BGP policy-based accounting information (such as ingress traffic on an interface), which can be used for billing purposes. The MIB provides support for BGP Policy Accounting, which enables you to classify IP traffic into different classes and to maintain statistics for each traffic class.

The MIB contains counts of the number of bytes and packets of each traffic type on each input interface. This information can be used to charge customers according to the route that their traffic travels.

CISCO-BULK-FILE-MIB

The CISCO-BULK-FILE-MIB contains objects to create and delete files of SNMP data for bulk-file transfer.

MIB Constraints

Table 3-6 lists the constraints that the router places on objects in the CISCO-BULK-FILE-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-6 CISCO-BULK-FILE-MIB Constraints

MIB Object
Notes
cbfDefineFileTable
 

cbfDefinedFileStorage

Only ephemeral type of file storage is supported.

Note The ephemeral bulk file created can be moved to a remote FTP server using CISCO-FTP-CLIENT-MIB.

cbfDefinedFileFormat

Only bulkBinary and bulkASCII file formats are supported.

Notes: The cbfDefineFileTable has objects that are required for defining a bulk file and for controlling its creation. The cbfDefineObjectTable has information regarding the contents (SNMP data) that go into the bulk file.

When an entry in the cbfDefineFileTable and its corresponding entries in the cbfDefineObjectTable are active, then cbfDefineFileNow can then be set to create. This causes a bulkFile to be created as defined in cbfDefineFileTable and it will also create an entry in the cbfStatusFileTable.


CISCO-CBP-TARGET-MIB

The CISCO-CBP-TARGET-MIB (common class-based policy) contains objects that provide a mapping of targets to which class-based features, such as QoS are applied. These features can be enabled in a feature-specific manner or through the Class-based Policy Language (CPL).

The CISCO-CBP-TARGET-MIB abstracts the knowledge of the specific types of targets from the class-based policy feature-specific MIB definitions.

MIB Constraints

The configuration objects in the MIB are read-only. To configure AAA servers, use the CLI commands aaa new-model, aaa authentication ppp, aaa authorization, aaa accounting, and radius-server host. Table 3-7 lists the constraints that the router places on objects in the CISCO-CBP-TARGET-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-7 CISCO-CBP-TARGET-MIB Constraints 

MIB Object
Notes
CbpTargetTable
 

ccbptTargetType

Values are:

genIf(1)

atmPvc(2)

frDlci(3)

controlPlane(4)

ccbptTargetDir

Values are:

input(2)

output(3)

ccbptPolicyType

Value is always ciscoCbQos(1) to indicate mapping to CLASS-BASED-QOS-MIB.

ccbptPolicyId

Contains the cbQosPolicyIndex value for this service-policy.

ccbptTargetStorageType

Value is always volatile(2).

ccbptTargetStatus

Value is always volatile(1).

ccbptPolicyMap

Contains the OID for a cbQosPolicyMapName instance.

ccbptPolicyInstance

Contains the OID for a cbQosIfType instance.


CISCO-CDP-MIB

The CISCO-CDP-MIB contains objects to manage the Cisco Discovery Protocol (CDP) on the router.

MIB Constraints

Table 3-8 lists the constraints that the router places on objects in the CISCO-CDP-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-8 CISCO-CDP-MIB Constraints 

MIB Object
Notes
cdpCtAddressTable

Not supported.

cdpGlobalLastChange

Not supported.

cdpGlobalDeviceIdFormatCpb

Not supported.

cdpGlobalDeviceIdFormat

Not supported.

cdpInterfaceExtTable

Not Implemented.


CISCO-CEF-MIB

The CISCO-CEF-MIB contains objects that manage Cisco Express Forwarding (CEF) technology. CEF is the key data plane forwarding path for Layer 3 IP switching technology. The CISCO-CEF-MIB monitors CEF operational data and provides notification when encountering errors in CEF, through SNMP.

MIB Constraints

Table 3-9 lists the constraints that the router places on objects in the CISCO-CEF-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-9 CISCO-CEF-MIB Constraints 

MIB Object
Notes
cefCfgAdminState

Read only. This object is enabled by default.

cefCCCount

Read-only.

cefCCPeriod

Read-only.

cefCCEnabled

Read-only.


Note Cisco Express Forwarding (CEF) is a high-speed switching mechanism that a router uses to forward packets from the inbound to the outbound interface.

CISCO-CLASS-BASED-QOS-MIB

The CISCO-CLASS-BASED-QOS-MIB provides only read access to quality of service (QoS) configuration information and statistics for Cisco platforms that support the modular Quality of Service command-line interface (modular QoS CLI).

To understand how to navigate the CISCO-CLASS-BASED-QOS-MIB tables, it is important to understand the relationship among different QoS objects. QoS objects consists of:

Match Statement—The specific match criteria to identify packets for classification purposes.

Class Map—A user-defined traffic class that contains one or more match statements used to classify packets into different categories.

Feature Action—AQoS feature. Features include police, traffic shaping, queueing, random detect, and packet marking. After the traffic has been classified, apply actions to each traffic class.

Policy Map—Auser-defined policy that associates a QoS feature action to the user-defined class map.

Service Policy—Apolicy map that has been attached to an interface.

The MIB uses the following indices to identify QoS features and distinguish among instances of those features:

cbQosObjectsIndex—Identifies each QoS feature on the router.

cbQoSConfigIndex—Identifies a type of QoS configuration. This index is shared by QoS objects that have identical configuration.

cbQosPolicyIndex—Uniquely identifies a service policy.

QoS MIB information is stored in:

Configuration instances—includes all class maps, policy maps, match statements, and feature action configuration parameters. Might have multiple identical instances. Multiple instances of the same QoS feature share a single configuration object, which is identified by cbQosConfigIndex.

Runtime Statistics instances—Includes summary counts and rates by traffic class before and after any configured QoS policies are enforced. In addition, detailed feature-specific statistics are available for select Policy Map features. Each has a unique run-time instance. Multiple instances of a QoS feature have a separate statistics object. Run-time instances of QoS objects are each assigned a unique identifier (cbQosObjectsIndex) to distinguish among multiple objects with matching configuration.

MIB Constraints

Table 3-10 lists the constraints that the router places on objects in the CISCO-CLASS-BASED-QOS-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-10 CISCO-CLASS-BASED-QOS-MIB Constraints

MIB Object
Notes
cbQosATMPVCPolicyTable

Not implemented.

cbQosFrameRelayPolicyTable

Not implemented.

cbQosInterfacePolicyTable

Not implemented.

cbQosIPHCCfgTable

Not implemented.

cbQosMatchStmtCfgTable

Not supported.

cbQosMatchStmtStatsTable

Not supported.

cbQosPoliceColorStatsTable

Not implemented.

cbQosPoliceCfgConformColor

Not implemented.

cbQosPoliceCfgExceedColor

Not implemented.

cbQosQueueingCfgTable
 

cbQosQueueingCfgDynamicQNumber

Not implemented.

cbQosREDCfgTable
 

cbQosREDCfgECNEnabled

Not implemented.

cbQosSetStatsTable

Not implemented.

cbQosTableMapCfgTable

Not implemented.

cbQosTableMapSetCfgTable

Not implemented.

cbQosQueueingClassCfgTable

Not implemented.

cbQosMeasureIPSLACfgTable

Not implemented.

cbQosQueueingCfgPriorityLevel

Not implemented.

cbQosREDClassCfgMaxThresholdUnit

Not implemented.

cbQosREDClassCfgMinThresholdUnit

Not implemented.

cbQosTSCfgRate64

Not implemented.

cbQosREDECNMarkPktOverflow

Not implemented.

cbQosREDECNMarkPkt

Not implemented.

cbQosREDECNMarkPkt64

Not implemented.

cbQosREDECNMarkByteOverflow

Not implemented.

cbQosREDECNMarkByte

Not implemented.

cbQosREDECNMarkByte64

Not implemented.

cbQosREDMeanQSizeUnits

Not implemented.

cbQosREDMeanQSize

Not implemented.


Note Aggregate Fragment Counters are not represented in MIB.

Note If a class is defined without any action and is mapped to a policy-map, this class and class-default may return incorrect values for the post-policy and drop counters represented in cbQosCMStatsTable.

CISCO-CONFIG-COPY-MIB

The CISCO-CONFIG-COPY-MIB contains objects to copy configuration files on the router. For example, the MIB enables the SNMP agent to copy:

Configuration files to and from the network

The running configuration to the startup configuration and startup to running

The startup or running configuration files to and from a local Cisco IOS file system

CISCO-CONFIG-MAN-MIB

The CISCO-CONFIG-MAN-MIB contains objects to track and save changes to the router configuration. The MIB represents a model of the configuration data that exists elsewhere in the router and in peripheral devices. Its main purpose is to report changes to the running configuration through the SNMP notification ciscoConfigManEvent.

CISCO-CONTEXT-MAPPING-MIB

The CISCO-CONTEXT-MAPPING-MIB provides mapping tables that contain the information that a single SNMP agent sometimes needs to support multiple instances of the same MIB. In such cases, network management applications need to know the specific data/identifier values in each context. This is accomplished through the use of multiple SNMP contexts.

CISCO-DATA-COLLECTION-MIB

The CISCO-DATA-COLLECTION-MIB retrieves data periodically when the data displays as a set of discontinuous rows spread across multiple tables. This MIB facilitates data retrieval of tabular objects. This MIB can be used for performance and accounting purposes, where several row instances of a set of objects are polled over a period of time.

The MIB provides the user a way to specify which objects and which instances are required. In addition the MIB provides two ways in which this data can be retrieved.

MIB Constraints

Table 3-11 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the CISCO-DATA-COLLECTION-MIB. For detailed definitions of MIB objects, see the MIB. Any MIB table or object not listed in this table is implemented as defined in the MIB.

Table 3-11 CISCO-DATA-COLLECTION-MIB Constraints 

MIB Object
Notes
cdcVFileMgmtTable

Not implemented.

cdcDGTable

Not implemented.

cdcDGBaseObjectTable

Not implemented.

cdcDGInstanceTable

Not implemented.


CISCO-EMBEDDED-EVENT-MGR-MIB

The CISCO-EMBEDDED-EVENT-MGR-MIB provides descriptions and stores events generated by the Cisco Embedded Event Manager. The Cisco Embedded Event Manager detects hardware and software faults and other events such as OIR for the system.

CISCO-ENHANCED-IMAGE-MIB

The CISCO-ENHANCED-IMAGE-MIB provides information about events running on the system. The MIB modular operating systems.

CISCO-ENHANCED-MEMPOOL-MIB

The CISCO-ENHANCED-MEMPOOL-MIB contains objects to monitor memory pools on all of the physical entities on a managed system. It represents the different types of memory pools that may be present in a managed device. Memory use information is provided to users at three different intervals of time: 1 minute, 5 minutes, and 10 minutes. Memory pools can be categorized into two groups, predefined pools and dynamic pools. The following pool types are currently predefined:

1:Processor memory

2:I/O memory

3:PCI memory

4:Fast memory

5:Multibus memory

Other memory

Dynamic pools have a pool type value greater than any of the predefined types listed above. Only the processor pool is required to be supported by all devices. Support for other pool types is dependent on the device being managed.

Note The Cisco ASR1000 RP2 supports 64-bit architecture. But this MIB supports only 32 bit architecture. New objects will be implemented in Release 4 for the 64-bit support.

MIB Constraints

This MIB is only supported for Active RP Module in this release. Table 3-12 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the CISCO-ENHANCED-MEMPOOL-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-12 CISCO-ENHANCED-MEMPOOL-MIB Constraints 

MIB Object
Notes
cempMemBufferPoolTable

cempMemBufferSize

Read-only.

cempMemBufferMin

Read-only.

cempMemBufferMax

Read-only.

cempMemBufferPermanent

Read-only.

cempMemBufferTransient

Read-only.

cempMemPoolTable
 

cempMemPoolUsedLowWaterMark

Not Implemented.

cempMemPoolAllocHit

Not Implemented.

cempMemPoolAllocMiss

Not Implemented.

cempMemPoolFreeHit

Not Implemented.

cempMemPoolFreeMiss

Not Implemented.

cempMemBufferPoolTable
 

cempMemBufferFreeHit

Not Implemented.

cempMemBufferFreeMiss

Not Implemented.


CISCO-ENTITY-ALARM-MIB

The CISCO-ENTITY-ALARM-MIB enables the Cisco ASR 1000 Series Router to monitor alarms generated by system components, such as the chassis, slots, modules, power supplies, fans, and ports.

This release includes CISCO-ENTITY-ALARM-MIB support for:

SPA-10X1GE-V2

SPA-1X10GE-L-V2

SPA-1XCHSTM1/OC3

SPA-1XOC12-POS

SPA-1XOC3-ATM-V2

SPA-1XOC48POS/RPR: 1 -port OC48/STM16 POS/RPR SFP Optics SPA

SPA-2X1GE-V2

SPA-2XCT3/DS0 with T1 channels (Serial interface)

SPA-2XCT3/DS0 without the T1 channels

SPA-2XOC12-POS: 2-port OC12 POS SPA

SPA-2XOC3-POS

SPA-2XOC48POS/RPR

SPA-2XT3/E3 as Serial interface only (not as controller).

SPA-3XOC3-ATM-V2

SPA-4XOC12-POS: 4-port OC12 POS SPA

SPA-4XOC48POS/RPR

SPA-4XT-Serial

SPA-4XT-Serial as Serial interface only

SPA-5X1GE-V2

SPA-8X1FE-TX-V2

SPA-8X1GE-V2

SPA-8XCHT1/E1

SPA-8XOC12-POS: 8-port OC12 POS SPA

SPA-8XOC3-POS: 8-port OC3 POS SPA

SPA-OC192POS-XFP: 1-port OC192/STM64 POS/RPR XFP Optics SPA

SPA-WMA-K9 : Butler (WebEx) SPA: 1-port WebEx SPA

All the other interface types are not supported for this release. Sensor Alarms are not supported for SPA sensors and transceiver sensors in this release.

MIB Constraints

Table 3-13 lists the constraints that the Cisco ASR 1000 Series Router place on objects in the CISCO-ENTITY-ALARM-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-13 CISCO-ENTITY-ALARM-MIB Constraints 

MIB Object
Notes
ceAlarmTable
 

ceAlarmFilterProfile

Not implemented.

ceAlarmFilterProfileIndexNext

Not implemented.

ceAlarmFilterProfileTable

Not implemented.

ceAlarmDescrTable
 

ceAlarmDescrSeverity

Read-only.


The ENTITY-MIB table, entPhysicalTable, identifies the physical system components in the router. The following list describes the table objects that describe the alarms for the CISCO-ENTITY-ALARM-MIB:

Physical entity—The component in the Cisco ASR 1000 Series Routers that generates the alarm.

ceAlarmDescrVendorType—The object specifies an identifier (typically an enterprise-specific OID) that uniquely identifies the vendor type of those physical entities to which this alarm description applies.

Alarm severity—Each alarm type defined by a vendor type and employed by the system is assigned an associated severity:

Critical—Indicates a severe, service-affecting condition has occurred and that immediate corrective action is imperative, regardless of the time of day or day of the week. For example, online insertion and removal or loss of signal failure when a physical port link is down.

Major—Used for hardware or software conditions. Indicates a serious disruption of service or the malfunctioning or failure of important hardware. Requires immediate attention and response of a technician to restore or maintain system stability. The urgency is less than in critical situations because of a lesser effect on service or system performance.

Minor—Used for troubles that do not have a serious effect on service to customers or for alarms in hardware that are not essential to the operation of the system.

Info—Notification about a condition that could lead to an impending problem or notification of an event that improves operation.

The syntax values are critical(1), major(2), minor(3), and info(4).

Alarm description text—Specifies a readable message describing the alarm.

Alarm type—Identifies the type of alarm that is generated. An arbitrary integer value (0 through 255) that uniquely identifies an event relative to a physical entity in the Cisco ASR 1000 Series Routers.

Table 3-14 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Router POS ports.

Table 3-14 Alarms Supported for Cisco ASR 1000 Series Routers POS Ports

Physical Entity
entPhysicalVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

Interface

cevPortPOS

cevPortOc3

cevPortOc12

cevPortOc48

cevPortOc192

   
 

critical

Section Loss of Signal Failure.

 

critical

Section Loss of Frame Failure.

 

critical

Section Out of Frame Alignment.

 

critical

Section J0 mismatch.

 

critical

Section Bit Interleaved Parity.

 

critical

Line Alarm Indication Signal.

 

critical

Line Remote Failure Indication.

 

critical

Line Bit Interleaved Parity.

 

critical

Line Far End Block Errors.

 

critical

Path Alarm Indication Signal.

 

critical

Path Remote Failure Indication.

 

critical

Path Loss of Pointer.

 

critical

Path Bit Interleaved Parity.

 

critical

Path Far End Block Errors.

 

critical

Protection Switch Byte Failure.

 

critical

Path Pointer justifications.

 

critical

Path positive pointer stuff event.

 

critical

Path negative pointer stuff event.

 

critical

Path Payload Label Mismatch.

 

critical

Path payload Unequipped.

 

critical

Count of APS.

 

critical

Receiver Data out of Lock Failure.

 

critical

Signal Failure Alarm.

 

critical

Signal Degrade Alarm.

 

critical

Threshold Cross Alarm - B1.

 

critical

Threshold Cross Alarm - B2.

 

critical

Threshold Cross Alarm - B3.

 

critical

Port Link Down Alarm.

 

critical

Path Trace Identifier Mismatch.

 

critical

Path Trace Identifier Unstable.

 

minor

Signal Failure Alarm/B3 errors.

 

minor

Loss of Multiframe.

 

critical

Loss of Multiframe.

 

info

Port Administrative Down Alarm.


Table 3-15 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Router CHOC3-STM1 ports.

Table 3-15 Alarms Supported for Cisco ASR 1000 Series Routers CHOC3-STM1 Ports 

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

Channelized SONET interface

cevPortChOc3Stm1

critical

Section Loss of Frame Failure.

 

cevPortChOc3Stm1

critical

Section Out of Frame Alignment.

 

cevPortChOc3Stm1

critical

JOMM

 

cevPortChOc3Stm1

critical

Section Bit Interleaved Parity.

 

cevPortChOc3Stm1

critical

Line Alarm Indication Signal.

 

cevPortChOc3Stm1

critical

Line Remote Defect Indication.

 

cevPortChOc3Stm1

critical

Line Bit Interleaved Parity.

 

cevPortChOc3Stm1

critical

Line Far End Block Errors.

 

cevPortChOc3Stm1

critical

Path Alarm Indication Signal.

 

cevPortChOc3Stm1

critical

Path Remote Defect Indication.

 

cevPortChOc3Stm1

critical

Path Loss of Pointer.

 

cevPortChOc3Stm1

critical

Path Bit Interleaved Parity.

 

cevPortChOc3Stm1

critical

Path Far End Block Errors.

 

cevPortChOc3Stm1

critical

Protection Switch Byte Failure.

 

cevPortChOc3Stm1

info

PNEWPTR

 

cevPortChOc3Stm1

critical

Path positive pointer stuff event.

 

cevPortChOc3Stm1

critical

Path negative pointer stuff event.

 

cevPortChOc3Stm1

critical

Path Payload Label Mismatch.

 

cevPortChOc3Stm1

critical

PUNEQ

 

cevPortChOc3Stm1

critical

PTIM

 

cevPortChOc3Stm1

critical

PTIU

 

cevPortChOc3Stm1

critical

Count of APS.

 

cevPortChOc3Stm1

critical

Receiver Data out of Lock Failure.

 

cevPortChOc3Stm1

critical

Signal Failure Alarm.

 

cevPortChOc3Stm1

critical

Signal Degrade Alarm.

 

cevPortChOc3Stm1

critical

Signal Failure Alarm - B3.

 

cevPortChOc3Stm1

critical

Signal Degrade Alarm - B3.

 

cevPortChOc3Stm1

critical

Threshold Cross Alarm - B1.

 

cevPortChOc3Stm1

critical

Threshold Cross Alarm - B2.

 

cevPortChOc3Stm1

critical

Threshold Cross Alarm - B3.

 

cevPortChOc3Stm1

critical

LOM

 

cevPortChOc3Stm1

critical

FEPLF

 

cevPortChOc3Stm1

critical

MODEMM

 

cevPortChOc3Stm1

critical

CHANNELMM


Table 3-16 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers T3/E3 ports. The entries for T3/E3 ports mentioned in this table are always populated for ceAlarmDescrTable and ceAlarmDescrVendorType, irrespective of the presence or absence of the ports.

Table 3-16 Alarms Supported for Cisco ASR 1000 Series Routers T3/E3 Ports 

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

T3/E3 port

cevPortCT3
cevPortT3E3

major

Transmitter is sending remote alarm.

   

major

Transmitter is sending AIS.

   

major

Receiver has loss of signal.

   

major

Receiver is receiving AIS.

   

major

Receiver has loss of frame.

   

major

Receiver has remote alarm.

   

major

Receiver has idle signal.

   

major

Other failure.

   

major

DS3 port link down.

   

info

DS3 port admin down.


Table 3-17 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers T1/E1 ports. The entries for T1/E1 ports mentioned in this table are always populated for ceAlarmDescrTable and ceAlarmDescrVendorType, irrespective of the presence or absence of ports.

Table 3-17 Alarms Supported for Cisco ASR 1000 Series Routers T1/E1 Ports 

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

T1/E1 port

cevPortT1E1

minor

Transmitter is sending remote alarm

 

cevPortT1E1

minor

Transmitter is sending AIS

 

cevPortT1E1

minor

Transmitter is sending TS16 LOMF Alarm

 

cevPortT1E1

minor

Receiver has loss of multi-frame in TS16

 

cevPortT1E1

minor

Receiver has loss of signal

 

cevPortT1E1

minor

Receiver is getting AIS

 

cevPortT1E1

minor

Receiver has loss of frame

 

cevPortT1E1

minor

Receiver has remote alarm

 

cevPortT1E1

minor

Receiver is getting AIS in TS16

 

cevPortT1E1

minor

Receiver has remote TS16 LOMF Alarm

 

cevPortT1E1

minor

Other failure

 

cevPortT1E1

minor

Ds1 Physical Port Link Down

 

cevPortT1E1

info

Ds1 Physical Port Administrative State Down


Table 3-18 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers ATM ports.

Table 3-18 Alarms Supported for Cisco ASR 1000 Series Routers ATM Ports 

Physical Entity
entPhysicalVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

ATM interface

cevPortAtm

critical

Section Loss of Signal Failure

ATM interface

cevPortAtm

critical

Section Loss of Frame Failure

ATM interface

cevPortAtm

critical

Section Out of Frame Alignment

ATM interface

cevPortAtm

critical

Section Bit Interleaved Parity

ATM interface

cevPortAtm

critical

Line Alarm Indication Signal

ATM interface

cevPortAtm

critical

Line Remote Failure Indication

ATM interface

cevPortAtm

critical

Line Bit Interleaved Parity

ATM interface

cevPortAtm

critical

Line Far End Block Errors

ATM interface

cevPortAtm

critical

Path Alarm Indication Signal

ATM interface

cevPortAtm

critical

Path Remote Failure Indication

ATM interface

cevPortAtm

critical

Path Loss of Pointer

ATM interface

cevPortAtm

critical

Path Bit Interleaved Parity

ATM interface

cevPortAtm

critical

Path Far End Block Errors

ATM interface

cevPortAtm

critical

Protection Switch Byte Failure

ATM interface

cevPortAtm

critical

Path Pointer justifications

ATM interface

cevPortAtm

critical

Path positive pointer stuff event

ATM interface

cevPortAtm

critical

Path negative pointer stuff event

ATM interface

cevPortAtm

critical

Path Payload Label Mismatch

ATM interface

cevPortAtm

critical

Path payload Unequipped

ATM interface

cevPortAtm

critical

Count of APS

ATM interface

cevPortAtm

critical

Receiver Data out of Lock Failure

ATM interface

cevPortAtm

critical

Signal Failure Alarm

ATM interface

cevPortAtm

critical

Signal Degrade Alarm

ATM interface

cevPortAtm

critical

Signal Failure B3 Alarm

ATM interface

cevPortAtm

critical

Signal Degrade B3 Alarm

ATM interface

cevPortAtm

critical

Threshold Cross Alarm - B1

ATM interface

cevPortAtm

critical

Threshold Cross Alarm - B2

ATM interface

cevPortAtm

critical

Threshold Cross Alarm - B3

ATM interface

cevPortAtm

critical

Loss of Multiframe

ATM interface

cevPortAtm

critical

Loss of Cell Delineation

ATM interface

cevPortAtm

critical

Physical Port Link Down Alarm

ATM interface

cevPortAtm

info

Physical Port Administrative State Down Alarm


Table 3-19 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers over Gigabit Ethernet (GE) ports.

Table 3-19 Alarms Supported for Cisco ASR 1000 Series Routers GE Ports 

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

GE port

cevPortGE

critical

Physical port link down.

   

info

Physical port administrative state down.

   

info

Physical port not configured.


Table 3-21 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers WMA Virtual ports.

Table 3-20 Alarms Supported for Cisco ASR 1000 Series Routers WMA Virtual Ports

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

Service Engine interface

cevPortSEInternal

critical

Physical Port Link Down

   

info

Physical Port Administrative State Down


Table 3-21 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers SFP Container.

Table 3-21 Alarms Supported for Cisco ASR 1000 Series Routers SFP Container

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText
Scenario

SFP container

cevContainerSFP

critical

Transciever missing

When the interface is not using RJ-45 and is in link down state.

SFP container

cevContainerSFP

info

Transciever missing

When the interface is configured to use RJ-45 (only applicable to SPA-2X1GE) or is in admin down state.


Table 3-22 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers SPAs.

Table 3-22 Alarms Supported for Cisco ASR 1000 Series Routers SPAs

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

SPA

cevSpa10pGeV2
cevSpa10pGeV2
cevSpa1p10GeXfpV2
cevSpa1p10GeXfpV2
cevSpa1pChOc3Stm1
cevSpa1pOc12Pos
cevSpa1pOc192PosRprXfp
cevSpa1pOc48PosSfp
cevSpa2pCT3
cevSpa2pCT3
cevSpa2pGeV2
cevSpa2pGeV2
cevSpa2pOc12Pos
cevSpa2pOc3Atm
cevSpa2pOc3Pos
cevSpa2pOc48PosRprHH
cevSpa2pT3E3Serial
cevSpa4pOc48PosSfp
cevSpa4xoc12Pos
cevSpa4xtSerial
cevSpa5pGeV2
cevSpa5pGeV2
cevSpa8pCT1E1
cevSpa8pCT1E1
cevSpa8pGeV2
cevSpa8pOc12Pos
cevSpa8xfeTxV2
cevSpa8xoc3Pos
cevSpaWmaSw

major

Unknown state

   

major

Boot state

   

major

Disabled

   

critical

Failed

   

major

Stopped


Table 3-23 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers sensors.

Table 3-23 Alarms Supported for Cisco ASR 1000 Series Routers Sensors 

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

Sensor

cevSensor

critical

Faulty sensor.

   

critical

Reading above normal (Shutdown).

   

critical

Reading above normal.

   

major

Reading above normal.

   

minor

Reading above normal.

   

critical

Readingbelow normal (Shutdown).

   

critical

Reading below normal.

   

major

Reading below normal.

   

minor

Reading below normal.


Note These alarms are not supported for SPA and XCVR sensors. You can use CISCO-ENTITY-SENSOR-MIB to monitor the alarms listed in the Table 3-23.

Table 3-24 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers SPA containers.

Table 3-24 Alarms Supported for Cisco ASR 1000 Series Routers SPA Conainer

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

SPA bay

cevContainerSPABay

critical

Active card removed OIR alarm.

   

critical

Card stopped responding.


Table 3-25 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers USB ports.

Table 3-25 Alarms Supported for Cisco ASR 1000 Series Routers USB Ports 

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

USB port

cevPortUSB

critical

Active card removed OIR alarm.

   

critical

Card stopped responding.


Table 3-26 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers RP containers.

Table 3-26 Alarms Supported for Cisco ASR 1000 Series Routers RP Container

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

RP container

cevContainerASR1000RPSlot

critical

RP removed OIR alarm

   

critical

RP stopped responding


Table 3-27 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers FP containers.

Table 3-27 Alarms Supported for Cisco ASR 1000 Series Routers FP Container

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

FP container

cevContainerASR1000FPSlot

critical

FP removed OIR alarm

   

critical

FP stopped responding


Note The Forwarding Processor (FP) does not register to OIR alarm since it is not a FRU entiry in CISCO-ENTITY-ALARM-MIB for ASR1002-F (RAZR) Chassis. Perform the unit test to ensure this MIB works as expected for ASR1002-F.

Table 3-28 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers SIP containers.

Table 3-28 Alarms Supported for Cisco ASR 1000 Series Routers SIP Container

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

SIP container

cevContainerASR1000CCSlot

critical

CC removed OIR alarm.

   

critical

CC stopped responding.


Table 3-29 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers power supply bay.

Table 3-29 Alarms Supported for Cisco ASR 1000 Series Routers Power Supply Bay 

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

Power Supply Bay

cevContainerASR1000PowerSupplyBay

critical

Power supply/Fan module missing.


Table 3-30 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers RPs.

Table 3-30 Alarms Supported for Cisco ASR 1000 Series Routers RP Module

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

RP Module

cevModuleASR1000RP1

major

Unknown state.

 

cevModuleASR1000RP2

major

Boot state.

 

cevModuleASR1002RP1

major

Disabled.

   

critical

Failed.

   

critical

Cutover.

   

major

Secondary failure.

   

major

Secondary removed.

   

major

Secondary not synchronized.

   

critical

No working ESP.

   

major

Harddisk Missing.


Note The Cisco ASR 1002 Router does not have harddisk, so the `Harddisk Missing' alarm is not registered for cevModuleASR1002RP1.

The vendor OID for the RP Module is set to cevModuleASR1000UnknownRP for the following conditions:

The secondary RP is loaded with the valid image and the RP Module is not operational

The software does not understand the hardware subtype of the secondary RP Module

The secondary RP is loaded with invalid image

Prior to RLS3 release, cevModuleASR1000UnknownRP alarm was registered for all the RP alarms, this behavior is changed from Release 3 and only the Module alarms are registered. Table 3-31 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers Unknown RP Module.

Table 3-31 Alarms Supported for Cisco ASR 1000 Series Routers Unknown RP Modules

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

RP Module

cevModuleASR1000UnknownRP

major

Unknown state.

   

major

Boot state.

   

major

Disabled.

   

critical

Failed.

   

critical

Stopped.


Table 3-32 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers Power Supply Module.

Table 3-32 Alarms Supported for Cisco ASR 1000 Series Routers Power Supply Module 

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

Power Supply Modules

cevPowerSupplyASR1006AC

critical

Power Supply Failure.

   

critical

All Fans Failed.

   

critical

Multiple Fan Failures.

   

major

Fan 0 Failure.

   

major

Fan 1 Failure.

   

major

Fan 2 Failure.


Table 3-33 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers ESP modules.

Table 3-33 Alarms Supported for Cisco ASR 1000 Series Routers ESP Module 

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

ESP Module

cevModuleASR1000ESP10

major

Unknown state.

 

cevModuleASR1000ESP20

major

Boot State.

 

cevModuleASR1000ESP10N

major

Disabled.

   

critical

Failed.

   

major

Stopped.


Table 3-34 lists the alarm descriptions and severity levels for the Cisco ASR1002-F (RAZR) Chassis ESP modules.

Table 3-34 Alarms Supported for Cisco Cisco ASR1002-F (RAZR) Chassis ESP Module 

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

ESP Module

cevModuleASR1002FESP

major

Unknown state

   

major

Boot State

   

major

Disabled

   

critical

Failed

   

major

Stopped


Table 3-35 lists the alarm descriptions and severity levels for the Cisco ASR 1000 Series Routers Fan modules.

Table 3-35 Alarms Supported for Cisco ASR 1000 Series Routers Fan Modules 

Physical Entity
ceAlarmDescrVendorType
ceAlarmDescrSeverity
ceAlarmDescrText

Fan Module

cevFanASR1006

critical

Power Supply Failure

   

critical

All Fans Failed

   

critical

Multiple Fan Failures

   

major

Fan 0 Failure

   

major

Fan 1 Failure

   

major

Fan 2 Failure


Note The ceAlarmHistTable contains alarm data asserted/cleared in the current active RP. It does not retain the alarms asserted/cleared in the previous active RP. The data contained in ceAlarmHistTable is refreshed after a switchover.

CISCO-ENTITY-ASSET-MIB

The CISCO-ENTITY-ASSET-MIB provides asset tracking information (ceAssetTable) for the physical components in the ENTITY-MIB (RFC 4133) entPhysicalTable.

The ceAssetTable contains an entry (ceAssetEntry) for each physical component on the router. Each entry provides information about the component. The component information includes:

Orderable part number

Serial number

Hardware revision

Manufacturing assembly number

Manufacturing revision.

Most physical components are programmed with a standard Cisco generic ID PROM value that specifies asset information for the component. If possible, the MIB accesses the component's ID PROM information.

Note The latest ENTITY-MIB (RFC 4133) contains all the objects defined under CISCO-ENTITY-ASSET-MIB. This, you can use ENTIITY-MIB (RFC 4133) instead of CISCO-ENTITY-ASSET-MIB.

CISCO-ENTITY-EXT-MIB

The CISCO-ENTITY-EXT-MIB contains extensions for the processor modules listed in the ENTITY-MIB entPhysicalTable. A processor module is any physical entity that has a CPU, RAM, and NVRAM, and can load a boot image and save a configuration. The extensions in this MIB provide information such as RAM and NVRAM sizes, configuration register settings, and bootload image name for each processor module.

Note Prior to RLS3 release, CPU entity was modeled for CISCO-ENTITY-EXT-MIB. This behavior has now changed and the RP Module entity is modeled for this MIB instead of CPU entity.

Note ASR1000 RP2 supports 64-bit architecture. The ceExtProcessorRam object of CISCO-ENTITY-EXT-MIB supports only 32 bit values. When RP module contains memory more than 4GB, this object returns incorrect value. New objects will be added to provide 64-bit support for this MIB in Release 4.

MIB Constraints

Only the active RP processor is supported in Cisco ASR 1000 Series Router. The standby RP and SIP processors are not managed in this MIB.

Table 3-9 lists the constraints that the router places on objects in the CISCO-ENTITY-EXT-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-36 CISCO-ENTITY-EXT-MIB Constraints 

MIB Object
Notes
ceExtConfigRegNext

Read only.

ceExtSysBootImageList

Read-only


CISCO-ENTITY-FRU-CONTROL-MIB

The CISCO-ENTITY-FRU-CONTROL-MIB contains objects to configure and monitor the status of field-replaceable units (FRUs) on the Cisco ASR 1000 Series Router listed in the ENTITY-MIB entPhysicalTable. A FRU is a hardware component (such as a line card and module, fan, or power supply) that can be replaced on site. This MIB is applicable to Cisco ASR 1000 Series SPA interface processor (SIP) and shared port adapter (SPA) modules for this release.

MIB Constraints

Table 3-37 lists the constraints that the router places on objects in the CISCO-ENTITY-FRU-CONTROL-MIB.

Table 3-37 CISCO-ENTITY-FRU-CONTROL-MIB Constraints 

MIB Object
Notes
cefcModuleTable
 

cefcModuleAdminStatus

Read-only. Always enabled(1) for harddisk and USB.

cefcModuleOperStatus

The following values are supported:

unknown(1)

ok(2)

boot(5)

failed(7)

dormant(12)

outOfServiceAdmin(13)

Always ok(2) for harddisk and USB.

cefcModuleResetReason

Implemented for SPA Modules only.

cefcModuleLastClearConfigTime

Not implemented.

cefcModuleResetReasonDescription

Not implemented.

cefcModuleStateChangeReasonDescr

Not implemented.

cefcFRUPowerSupplyGroupTable

Not implemented.

cefcFRUPowerSupplyValueTable

Not implemented.

cefcFRUPowerStatusTable
 

cefcFRUPowerAdminStatus

always on(1)

cefcFRUPowerOperStatus

The following values are supported:

always on(2)

failed(8)

onButFanFail(9)

cefcFanTrayStatusTable
 

cefFanTrayOperStatus

always up(2)

cefcIntelliModuleTable

Not implemented.

cefcPhysicalTable

Not implemented.

cefcModuleUpTime

Always zero for USB and Harddisk.


The Cisco ASR 1002 Router behavioral changes for RP, SIP, and SPA 0/0:

The RP, SIP, and SPA 0/0 are fixed on the Cisco ASR 1002 chassis and CISCO-ENTITY-FRU-CONTROL-MIB does not have entries for these modules. You can use CISCO-ENTITY-ALARM-MIB to monitor these modules.

When the status of these modules is changed, the cefcModuleStatusChange trap is generated with the entity physical status of the module.

When the status of SIP module is changed to down/up, cefcFRURemoved/cefcFRUInserted trap is generated for SPA 0/0 module.

Note The RP, FP, and SIP are not removable in ASR1002-F chassis. Perform the unit test to ensure all FRU entities are modeled in this MIB.

CISCO-ENTITY-SENSOR-MIB

The CISCO-ENTITY-SENSOR-MIB contains objects that support the monitoring of sensors. The MIB is applicable to sensors present in various SPA modules and transceiver modules inserted in the SPAs. This MIB allows you to monitor sensor values and thresholds on sensors that are discovered by the ENTITY-MIB.

MIB Constraints

Table 3-38 lists the constraints that Cisco ASR 1000 Series Router places on CISCO-ENTITY-SENSOR-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-38 CISCO-ENTITY-SENSOR-MIB Constraints

MIB Object
Notes
entSensorValueTable
 

entSensorMeasuredEntity

Not implemented.

entSensorThresholdTable
 

entSensorThresholdRelation

Read-only.

entSensorThresholdSeverity

Read-only.

entSensorThresholdValue

Read-only.


MIB Usage Values for Cisco Transceivers

The table in this section lists each type of sensor's value represented in the entSensorValueTable and the entSensorThresholdTable.

Table 3-39 lists CISCO-ENTITY-SENSOR-MIB sensor objects and their usage values for Cisco ASR 1000 Series Routers transceivers in the entSensorValueTable.

Table 3-39 CISCO-ENTITY-SENSOR-MIB Usage Values in the entSensorValueTable for Cisco Transceivers 

MIB Sensor Object
Notes
Module Temperature Sensor
 

entSensorType

celsius(8)

entSensorScale

units(9)

entSensorPrecision

3

entSensorStatus

ok(1)

entSensorValue

Reports most recent measurement seen by the sensor.

entSensorValueTimeStamp

Value indicates the age of the value reported by entSensorValue object.

entSensorValueUpdateRate

Value indicates the rate that the agent updates entSensorValue in seconds (for example, 60 seconds).

Module Voltage Sensor
 

entSensorType

voltsDC(4)

entSensorScale

micro(7)

entSensorPrecision

1

entSensorStatus

ok(1)

entSensorValue

Reports most recent measurement seen by the sensor.

entSensorValueTimeStamp

Value indicates the age of the value reported by entSensorValue object.

entSensorValueUpdateRate

Value indicates the rate that the agent updates entSensorValue in seconds (for example, 60 seconds).

Tx Laser Current Sensor
 

entSensorType

amperes(5)

entSensorScale

micro(7)

entSensorPrecision

0

entSensorStatus

ok(1)

entSensorValue

Reports most recent measurement seen by the sensor.

entSensorValueTimeStamp

Value indicates the age of the value reported by entSensorValue object.

entSensorValueUpdateRate

Value indicates the rate that the agent updates entSensorValue in seconds (for example, 60 seconds).

Transmit Power Sensor (Optical Tx)
Receive Power Sensor (Optical Rx)
 

entSensorType

dBm(14)

entSensorScale

units(9)

entSensorPrecision

0

entSensorStatus

ok(1)

entSensorValue

Reports most recent measurement seen by the sensor.

entSensorValueTimeStamp

Value indicates the age of the value reported by entSensorValue object.

entSensorValueUpdateRate

Value indicates the rate that the agent updates entSensorValue in seconds (for example, 60 seconds).


Note For ASR1002-F , the RP, FP, and SIP supports various sensors. These sensors are supported the CISCO-ENTITY-SENSOR-MIB. You can perform the unit tests to ensure all the sensors are modelled in the MIB.

CISCO-ENTITY-VENDORTYPE-OID-MIB

The CISCO-ENTITY-VENDORTYPE-OID-MIB defines the object identifiers (OIDs) assigned to various Cisco ASR 1000 Series Router components. The OIDs in this MIB are used by the entPhysicalTable of the ENTITY-MIB as values for the entPhysicalVendorType field in the entPhysicalTable. Each OID uniquely identifies a type of physical entity:

Chassis

Optical Services Module

RP Module

FP or ESP Module

SPAs

SIPs

Note In ASR1002-F, the CC, FP and ESP are fixed in the Chassis and can not be removed. At an instance, only one SPA bay is accessible.

CISCO-FLASH-MIB

The CISCO-FLASH-MIB contains objects to manage flash cards and flash-card operations.

MIB Constraints

Table 3-40 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the CISCO-FLASH-MIB.

Table 3-40 CISCO-FLASH-MIB Constraints

MIB Object
Notes
ciscoFlashDeviceTable
 

ciscoFlashDeviceInitTime

Not Implemented

ciscoFlashPhyEntIndex

Not Implemented

ciscoFlashPartitionTable
 

ciscoFlashPartitionFileCount

Not Implemented

ciscoFlashPartitionChecksumAlgorithm

Not Implemented

ciscoFlashPartitionUpgradeMethod

Not Implemented

ciscoFlashPartitionNeedErasure

Not Implemented

ciscoFlashPartitionFileNameLength

Not Implemented

ciscoFlashFileTable
 

ciscoFlashFileChecksum

Not Implemented

ciscoFlashFileType

Values not supported:

config(2)
image(3)
crashinfo(5)


Note The index of files stored in USB changes frequently since the files are mounted and unmounted after regular intervals.

Note When both primary and secondary RPs are up and running, entities for standby usb flash and Flash disk are not populated for CISCO-FLASH-MIB. Compact Flash is not supported in ASR series Routers. So, it wont be modelled in CISCO-FLASH-MIB.

Note Once the file is copied successfully via tftp, it takes atleast 50 secs to reflect the correct file size in ciscoFlashFileSize object.

CISCO-FRAME-RELAY-MIB

The CISCO-FRAME-RELAY-MIB contains Frame Relay information that is specific to Cisco products or that is missing from RFC 1315.

MIB Constraints

Table 3-41 lists the constraints that the Cisco ASR 1000 Series Router place on objects in the CISCO-FRAME-RELAY-MIB. Unless noted otherwise, the Cisco ASR 1000 Series Routers implementation of a MIB follows the standard. Any objects not listed in a table are implemented as defined in the MIB.

Note Frame Relay Switched Virtual Circuits (SVCs) are not currently supported in Cisco ASR 1000 Series Routers.

Table 3-41 CISCO-FRAME-RELAY-MIB Constraints 

MIB Object
Notes
cfrCircuitTable
 

cfrCircuitType

Supported value is pvc(1).

cfrExtCircuitTable
 

cfrExtCircuitMinThroughputOut

Supported for QoS. Otherwise value is 0.

cfrExtCircuitMinThroughputIn

Supported for QoS. Otherwise value is 0.

cfrExtCircuitShapeByteLimit

Supported for QoS. Otherwise value is 0.

cfrExtCircuithapeInterval

Supported for QoS. Otherwise value is 0.

cfrExtCircuitShapeByteIncrement

Supported for QoS. Otherwise value is 0.

cfrExtCircuitShapeActive

Supported for QoS. Otherwise value is 0.

cfrExtCircuitShapeAdapting

Supported for QoS. Otherwise value is 0.

cfrMapTable
 

cfrMapType

Values are:

static(1)

dynamic(2)

cfrSvcTable

Not implemented.


CISCO-FTP-CLIENT-MIB

The CISCO-FTP-CLIENT-MIB contains objects to invoke File Transfer Protocol (FTP) operations for network management. This MIB has no known constraints and all objects are implemented as defined in the MIB.

CISCO-HSRP-EXT-MIB

The CISCO-HSRP-EXT-MIB provides an extension to the CISCO-HSRP-MIB which defines the Cisco Hot Standby Router Protocol (HSRP), which is defined in RFC 2281. The extensions cover assigning of secondary IP addresses and modifying an HSRP group's priority.

CISCO-HSRP-MIB

The CISCO-HSRP-MIB contains objects to configure and manage the Cisco Hot Standby Router Protocol (HSRP), which is defined in RFC 2281.

CISCO-IETF-ATM2-PVCTRAP-MIB

The CISCO-IETF-ATM2-PVCTRAP-MIB contains objects that supplement the ATM-MIB. This MIB implements the Virtual Channel Link (VCL) section of the IETF document "draft-ietf-atommib-atm2-11.txt," Section 9 ATM Related Trap Support.

Note This MIB is currently not supported for broadband configurations.

CISCO-IETF-FRR-MIB

The CISCO-IETF-FRR-MIB contains managed object definitions for MPLS Fast Reroute (FRR).

CISCO-IETF-ISIS-MIB

The CISCO-IETF-ISIS-MIB 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. A new CLI is added to enable SNMP notifications for the objects. Notifications are provided for errors and other significant event information for the IS-IS network.

CISCO-IETF-NAT-MIB

The CISCO-IETF-NAT-MIB contains objects for Network Address Translation (NAT) operations on the router, as defined in RFC 3022. The MIB inclued objects containing NAT configuration, NAT bindings, and run-time statistics.

The MODULE-IDENTITY for the CISCO-IETF-NAT-MIB is ciscoIetfNatMIB, and its top-level OID is 1.3.6.1.4.1.9.10.77 (iso.org.dod.internet.private.enterprises.cisco.ciscoExperiment.ciscoIetfNatMIB).

MIB Constraints

Table 3-42 lists CISCO-IETF-NAT-MIB constraints.

Table 3-42 CISCO-IETF-NAT-MIB Constraints

MIB Object
Notes
cnatAddrBindTable

Not supported for dynamic binds.

cnatAddrBindCurrentIdleTime

Not supported

cnatConfTable

Not Implemented.

cnatConfStaticAddrMapTable

Not Implemented.

cnatConfDynAddrMapTable

Not Implemented.

cnatInterfaceTable
 

cnatInterfaceRealm

Read-only.

cnatInterfaceStorageType

Read-only.

cnatInterfaceStatus

Read-only.

cnatAddrBindTable
 

cnatAddrBindDirection

Read-only.

cnatAddrBindConfName

Not Implemented.

cnatAddrBindSessionCount

Not Implemented.

cnatAddrPortBindTable
 

cnatAddrPortBindDirection

Not Implemented.

cnatAddrPortBindConfName

Not Implemented.

cnatAddrPortBindSessionCount

Not Implemented.

cnatSessionTable

Not Implemented.

cnatAddrMapStatsTable

Not Implemented.

cnatInterfaceStatsTable

Not Implemented.


CISCO-IETF-PPVPN-MPLS-VPN-MIB

The CISCO-IETF-PPVPN-MPLS-VPN-MIB is an extension of the MPLS-VPN-MIB. It contains a new notification, mplsNumVrfRouteMaxThreshCleared, which was added with MPLS-VPN-MIB-DRAFT-05.

CISCO-IETF-PW-ATM-MIB

The CISCO-IETF-PW-ATM-MIB contains managed object definitions for Pseudo Wire (PW) emulation of ATM over Packet Switched Networks(PSN).

MIB Constraints

Table 3-43 lists the constraints that the Cisco ASR 1K router places on the objects in the CISCO-IETF-PW-ATM-MIB.

Table 3-43 CISCO-IETF-PW-ATM-MIB Constraints

MIB Object
Notes
CpwVcAtmPerfEntry
 

cpwAtmCellsReceived

Not supported, returns zero.

cpwAtmCellsSent

Not supported, returns zero.

cpwAtmCellsRejected

Not supported, returns zero.

cpwAtmCellsTagged

Not supported, returns zero.

cpwAtmHCCellsReceived

Not supported, returns zero.

cpwAtmHCCellsRejected

Not supported, returns zero.

cpwAtmHCCellsTagged

Not supported, returns zero.

cpwAtmAvgCellsPacked

Not supported, returns zero.


CISCO-IETF-PW-ENET-MIB

The CISCO-IETF-PW-ENET-MIB contains objects that describe the model for managing Ethernet point-to-point pseudo wire services over a Packet Switched Network (PSN).

MIB Constraints

Table 3-42 lists the constraints that the Cisco ASR 1K router places on the objects in the CISCO-IETF-PW-ENET-MIB.

Table 3-44 CISCO-IETF-PW-ENET-MIB Constraints

MIB Object
Notes
cpwVcEnetMplsPriMappingTable

Not supported.

cpwVcEnetStatsTable

Not supported.


CISCO-IETF-PW-FR-MIB

The CISCO-IETF-PW-FR-MIB contains the network management objects defined for FRoPW services over a PSN.

CISCO-IETF-PW-MIB

The CISCO-IETF-PW-MIB contains managed object definitions for PW operation.

MIB Constraints

Table 3-42 lists the constraints that the Cisco ASR 1K router places on the objects in the CISCO-IETF-PW-MIB.

Table 3-45 CISCO-IETF-PW-MIB Constraints

MIB Object
Notes
cpwVcTable
 

CpwVcEntry

Not-accessible.

cpwVcIndex

Not-accessible.

cpwVcType

Read only.

cpwVcOwner

Read only.

cpwVcPsnType

Read only.

cpwVcSetUpPriority

Not implemented.

cpwVcHoldingPriority

Not implemented.

cpwVcInboundMode

Read only.

cpwVcPeerAddrType

Read only.

cpwVcPeerAddr

Read only.

cpwVcID

Read only.

cpwVcLocalGroupID

Read only.

cpwVcControlWord

Read only.

cpwVcLocalIfMtu

Read only.

cpwVcLocalIfString

Read only.

cpwVcRemoteControlWord

Read only.

cpwVcOutboundVcLabel

Read only.

cpwVcInboundVcLabel

Read only.

cpwVcName

Read only.

cpwVcDescr

Read only.

cpwVcAdminStatus

Read only.

cpwVcTimeElapsed

Not implemented.

cpwVcRowStatus

Read only.

cpwVcStorageType

Read only.

cpwVcPerfCurrentTable
 

cpwVcPerfCurrentEntry

Not implemented.

cpwVcPerfCurrentInHCPackets

Not implemented.

cpwVcPerfCurrentInHCBytes

Not implemented.

cpwVcPerfCurrentOutHCBytes

Not implemented.

cpwVcPerfCurrentOutHCPackets

Not implemented.

cpwVcPerfIntervalTable
 

cpwVcPerfIntervalEntry

Not implemented.

cpwVcPerfIntervalNumber

Not implemented.

cpwVcPerfIntervalValidData

Not implemented.

cpwVcPerfIntervalInHCPackets

Not implemented.

cpwVcPerfIntervalInHCBytes

Not implemented.

cpwVcPerfIntervalOutHCPackets

Not implemented.

cpwVcPerfIntervalOutHCBytes

Not implemented.

cpwVcNotifRate

Not implemented.


CISCO-IETF-PW-MPLS-MIB

The CISCO-IETF-PW-MPLS-MIB contains objects that complement the CISCO-IETF-PW-MIB for PW operation over MPLS.

MIB Constraints

Table 3-46 lists the constraints that the Cisco ASR 1K router places on the objects in the CISCO-IETF-PW-MPLS-MIB.

Table 3-46 CISCO-IETF-PW-MPLS-MIB Constraints

MIB Object
Notes
cpwVcMplsOutboundIndexNext

Not supported.

cpwVcMplsInboundIndexNext

Not supported.


CISCO-IETF-PW-TDM-MIB

The CISCO-IETF-PW-TDM-MIB contains managed object definitions for encapsulating TDM (T1,E1, T3, E3, NxDS0) as pseudo-wires over packet-switching networks (PSN). The SPA-1XOC3-ATM-V2 and SPA-3XOC3-ATM-V2 do not support CEM (Circuit Emulation) and hence this MIB is not supported for these hardware.

CISCO-IF-EXTENSION-MIB

The CISCO-IF-EXTENSION-MIB contains objects that provide additional interface-related information that is not available in the IF-MIB (RFC 2863).

MIB Constraints

Table 3-47 lists constraints that Cisco ASR 1000 Series Router places on CISCO-IF-EXTENSION-MIB

Table 3-47 CISCO-IF-EXTENSION-MIB Constraints 

MIB Object
Notes
cielInterfaceTable
 

cieIfDhcpMode

Not implemented.

cieIfMtu

Not implemented.

cieIfContextName

Not implemented.

cieIfKeepAliveEnabled

Not supported for ATM interfaces.

cieSystemMtu

Not implemented.

cieIfUtilTable

Not supported for SPA GE interfaces.

cieIfDot1dBaseMappingTable

Not implemented.

cieIfDot1qCustomerEtherTypeTable

Not implemented.

cieIfNameMappingTable

Not implemented.

Notes

Some objects defined in cieIfPacketStatsTable and cieIfInterfaceTable are applicable to physical interfaces only. As a result, this table may be sparse for non-physical interfaces.

ATM interfaces do not support the cieIfKeepAliveEnabled object.


CISCO-IGMP-FILTER-MIB

The CISCO_IGMP-FILTER-MIB provides a mechanism for users to configure the system to intercept Internet Group Management Protocol (IGMP) joins for IP Multicast groups identified in this MIB and only allow certain ports to join certain multicast groups.

CISCO-IMAGE-MIB

The CISCO-IMAGE-MIB contains objects that identify the capabilities and characteristics of the Cisco IOS image.

CISCO-IP-LOCAL-POOL-MIB

The CISCO-IP-LOCAL-POOL-MIB contains objects that provide a network manager with information related to the local IP address pools. This MIB provides configuration and statistics reflecting the allocation of local IP pools. Each entry provides information about a particular local IP pool, including the number of free and used addresses.

The SNMP agent does not have to be configured in any special way for CISCO-IP-LOCAL-POOL-MIB objects to be available to the network management system. You can configure the SNMP agent to send the ciscoIpLocalPoolInUseAddrNoti notification to a particular host using the snmp-server host ip-address community-name iplocalpool command.

The ciscoIpLocalPoolInUseAddrNoti notification is enabled:

Through SNMP by using the cIpLocalPoolNotificationsEnable object

Using the snmp-server enable traps ip local pool CLI configuration

CISCO-IPMROUTE-MIB

The CISCO-IPMROUTE-MIB contains objects to manage IP multicast routing on the router.

CISCO-IPSEC-FLOW-MONITOR-MIB

The CISCO-IPSEC-FLOW-MONITOR-MIB allows monitoring of the structures in IPsec-based virtual private networks.

CISCO-IPSEC-MIB

The CISCO-IPSEC-MIB models the Cisco implementation-specific attributes of a Cisco entity that implements IPsec.

CISCO-IPSEC-POLICY-MAP-MIB

The CISCO-IPSEC-POLICY-MAP-MIB contains objects that supplement the proposed IETF standards for IPsec VPNs. In particular, this MIB maps dynamically instantiated IPsec protocol structures (such as tunnels and security associations) to the policy entities that created them (such as policy definitions, crypto maps, and transforms).

The MODULE-IDENTITY for the CISCO-IPSEC-POLICY-MAP-MIB is ciscoIpSecPolMapMIB, and its top-level OID is 1.3.6.1.4.1.9.9.172 (iso.org.dod.internet.private.enterprises.cisco.ciscoMgmt.ciscoIpSecPolMapMIB).

MIB Constraints

This MIB is supported only in Cisco IOS software images that support DES encryption (-k8- or -k9-).

CISCO-IP-TAP-MIB

The CISCO-IP-TAP-MIB manages Cisco intercept feature for IP. This MIB is used along with CISCO-TAP2-MIB to intercept IP traffic.

CISCO-IP-URPF-MIB

The CISCO-IP-URPF-MIBcontains objects that allow users to specify a Unicast Reverse Path Forwarding (URPF) drop-rate threshold on interfaces of a managed device, which when exceeded, a SNMP notification is sent. It includes objects specifying global (to a managed device as a whole) and per-interface drop counts and drop rates, and also generates traps based on the drop rate exceeding a configureable per-interface threshold.

MIB Constraints

Table 3-48 lists the constraints that Cisco ASR 1000 Series Router places on the CISCO-IP-URPF-MIB.

Table 3-48 CISCO-IP-URPF-MIB Constraints 

MIB Object
Notes
cipUrpfIfMonTable

Entries in this tables are present when URPF is enabled on an interface. They are not available when the interface is removed or if RPF is disabled on the interface.

cipUrpfIfConfTable

Entries in this tables are present when URPF is enabled on an interface. They are not available when the interface is removed or if RPF is disabled on the interface.


CISCO-MVPN-MIB

The CISCO-MVPN-MIB contains managed object definitions for Cisco implementation of multicast in VPNs defined by the Internet draft: draft-rosen-vpn-mcast-05.txt.

CISCO-LAG-MIB

The CISCO-LAG-MIB contains objects to manage link aggregation (LAG) on the router, as defined by IEEE Standard 802.3ad. The MIB contains link aggregation information that supplements to IEEE8023-LAG-MIB or is specific to Cisco products.

CISCO-NETFLOW-MIB

The CISCO-NETFLOW-MIB provides a simple and easy method to get NetFlow cache information, the current NetFlow configuration, and statistics.

MIB Constraints

Table 3-49 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the CISCO-NETFLOW-MIB.

Table 3-49 CISCO-NETFLOW-MIB Constraints 

MIB Object
Notes
cnfCICacheEnable

The following values are not supported:

destinationOnly(6)

sourceDestination(7)

fullFlow(8)

expBgpPrefix(23)


CISCO-NTP-MIB

The CISCO-NTP-MIB contains objects to monitor a Network Time Protocol (NTP) server. NTP is used to synchronize timekeeping among a set of distributed time servers and clients. Primary time servers, which are synchronized to national time standards, are connected to widely accessible resources such as backbone gateways. These primary servers send timekeeping information to other time servers, and perform clock checking to eliminate timekeeping errors due to equipment or propagation failures.

CISCO-OSPF-MIB

The CISCO-OSPF-MIB contains objects for managing OSPF implementation. Most of the MIB definitions are based on the IETF draft draft-ietf-ospf-mib-update-05.txt and include support for OSPF Sham link. The CISCO-OSPF-MIB is an extension to the OSPF-MIB defined in RFC 1850.

CISCO-OSPF-TRAP-MIB

The CISCO-OSPF-TRAP-MIB contains new and modified notification objects and events, which are defined in the latest version for OSPF-MIB IETF draft draftietf-ospf-mib-update-05.txt in addition to support for OSPF Sham link.

CISCO-PIM-MIB

The CISCO-PIM-MIB defines Cisco-specific objects and variables for managing Protocol Independent Multicast (PIM) on the router. These MIB definitions are an extension of those in RFC 2934, which is the IETF PIM MIB.

CISCO-PING-MIB

The CISCO-PING-MIB contains objects to manage ping requests on the router.

CISCO-PPPOE-MIB

The CISCO-PPPOE-MIB contains objects to manage Point-to-Point Protocol over Ethernet (PPPoE) sessions. These objects represent PPPoE sessions at the system and virtual channel (VC) level.

MIB Constraints

Table 3-50 lists the constraints that the router places on objects in the CISCO-PPPOE-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-50 CISCO-PPPOE-MIB Constraints 

MIB Object
Notes
cPppoeSystemMaxAllowedSessions

Read-only.

cPppoeSystemThresholdSessions

Read-only.

cPppoeVcCfgTable
 

cPppoeVcEnable

Read-only.

cPppoeVcSessionsTable
 

cPppoeVcMaxAllowedSessions

Read-only.

cPppoeVcExceededSessionErrors

Read-only.


Note The PPPoE sessions cannot be established over ATM interfaces. The PPP0E0A feature is not supported in this release.

Note The PPPoE sessions over multipoint interfaces cannot be established. This feature is not supported in this release.

Note The cPppoeSystemThresholdSessions notification is not supported for per-mac session limit, per-mac session throttle, and per-vlan session limit.

CISCO-PROCESS-MIB

The CISCO-PROCESS-MIB displays memory and CPU usage on the router and describes active system processes. CPU utilization presents a status of how busy the system is. The numbers are a ratio of the current idle time over the longest idle time (this information should be used as an estimate only).

MIB Constraints

Table 3-51 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the CISCO-PROCESS-MIB.

Table 3-51 CISCO-PROCESS-MIB Constraints 

MIB Object
Notes
cpmProcessTable
 

cpmProcExtPriority

Read-only.

cpmCPURisingThreshold

Not Supported

cpmCPUFallingThreshold

Not Supported


Note The Cisco ASR1000 RP2 supports 64-bit architecture. But CISCO-PROCESS-MIB supports only 32 bit architecture. New CISCO-PROCESS-MIB objects will be implemented in Release 4 for the 64-bit support.

Note The RP2 contains 2 physical CPUs, but the CPUs are not monitored separately. The monitoring the CPU utilization is the aggregate result of both the CPUs. Hence, the cpmCPUTotalTable object contains only one entry for RP CPUs.

CISCO-PROCESS-MIB Usage

The cpmCPUTotal5sec, cpmCPUTotal1min, and cpmCPUTotal5min objects have been deprecated and replaced by cpmCPUTotal5secRev, cpmCPUTotal1minRev, and cpmCPUTotal5minRev, respectively.

Note When an object is deprecated, it does not mean that an object instance may not be returned. For these deprecated objects, object instances are returned. However, their returned values must be ignored. The values returned by the new objects must be used.

Table 3-52 lists the support matrix for the CISCO-PROCESS-MIB cpmCPUTotalTable object.

Table 3-52 Support-Matrix for cpmCPUTotalTable 

cpmCPUTotalTable Objects
RP CPU
Stdby RP CPU
CC CPU
cpmCPUTotalPhysicalIndex

Yes

No

Yes

cpmCPUTotal5sec

No

No

No

cpmCPUTotal1min

Yes

No

Yes

cpmCPUTotal5min

No

No

No

cpmCPUTotal5secRev

No

No

No

cpmCPUTotal1minRev

No

No

No

cpmCPUTotal5minRev

No

No

No

cpmCPUMonInterval

No

No

No

cpmCPUTotalMonIntervalValue

No

No

No

cpmCPUInterruptMonIntervalValue

No

No

No

cpmCPUMemoryUsed

Yes

No

Yes

cpmCPUMemoryFree

Yes

No

Yes

cpmCPUMemoryKernelReserved

No

No

No

cpmCPUMemoryLowest

Yes

No

Yes


Table 3-53 lists the support matrix for the CISCO-PROCESS-MIB cpmProcessTable and cpmProcessExtRevTable objects for RP CPU.

Table 3-53 Support-matrix for cpmProcessTable and cpmProcessRevExtTable for RP CPU 

cpmProcessTable and cpmProcessRevExtTable Objects
IOSD Process
[Process Name:
ppc_linux_iosd-]
Other Process
[Process Name:
Cmand, hman, imand]
cpmProcessName

Yes

Yes

cpmProcessuSecs

No

No

cpmProcessTimeCreated

Yes

Yes

cpmProcessAverageUSecs

Yes

Yes

cpmProcExtMemAllocatedRev

Yes

Yes

cpmProcExtMemFreedRev

No

No

cpmProcExtInvokedRev

No

No

cpmProcExtRuntimeRev

No

No

cpmProcExtUtil5SecRev

No

No

cpmProcExtUtil1MinRev

No

No

cpmProcExtUtil5MinRev

No

No

cpmProcExtPriorityRev

Yes

Yes

cpmProcessType

No

No

cpmProcessRespawn

No

No

cpmProcessRespawnCount

No

No

cpmProcessRespawnAfterLastPatch

No

No

cpmProcessMemoryCore

No

No

cpmProcessLastRestartUser

No

No

cpmProcessTextSegmentSize

No

No

cpmProcessDataSegmentSize

No

No

cpmProcessStackSize

No

No

cpmProcessDynamicMemorySize

No

No


Table 3-54 lists the support matrix for the CISCO-PROCESS-MIB cpmProcessTable and cpmProcessExtRevTable objects for CC CPU.

Table 3-54 Support-matrix for cpmProcessTable and cpmProcessExtRevTable for CC CPU 

cpmProcessTable & cpmProcessExtRevTable Objects
SPA IOS Process
Other Process
[Process Name:
cmcc, hman, imccd]
cpmProcessName

Yes

Yes

cpmProcessuSecs

No

No

cpmProcessTimeCreated

Yes

Yes

cpmProcessAverageUSecs

Yes

Yes

cpmProcExtMemAllocatedRev

Yes

Yes

cpmProcExtMemFreedRev

No

No

cpmProcExtInvokedRev

No

No

cpmProcExtRuntimeRev

No

No

cpmProcExtUtil5SecRev

No

No

cpmProcExtUtil1MinRev

No

No

cpmProcExtUtil5MinRev

No

No

cpmProcExtPriorityRev

Yes

Yes

cpmProcessType

No

No

cpmProcessRespawn

No

No

cpmProcessRespawnCount

No

No

cpmProcessRespawnAfterLastPatch

No

No

cpmProcessMemoryCore

No

No

cpmProcessLastRestartUser

No

No

cpmProcessTextSegmentSize

No

No

cpmProcessDataSegmentSize

No

No

cpmProcessStackSize

No

No

cpmProcessDynamicMemorySize

No

No


Table 3-55 lists the support matrix for the CISCO-PROCESS-MIB cpmVirtualProcessTable object.

Table 3-55 Support-matrix for cpmVirtualProcessTable 

cpmVirtualProcessTable Objects
Process running under Active RP IOSD Process
Process running under CC SPA IOS Process
cpmVirtualProcessName

Yes

Yes

cpmVirtualProcessUtil5Sec

Yes

Yes

cpmVirtualProcessUtil1Min

Yes

Yes

cpmVirtualProcessUtil5Min

Yes

Yes

cpmVirtualProcessMemAllocated

Yes

Yes

cpmVirtualProcessMemFreed

Yes

Yes

cpmVirtualProcessInvokeCount

Yes

Yes

cpmVirtualProcessRuntime

Yes

Yes


CISCO-PRODUCTS-MIB

The CISCO-PRODUCTS-MIB lists the object identifiers (OIDs) assigned to Cisco hardware platforms. The CISCO ASR 1006, ASR 1004, and ASR 1002 OIDs are supported.

CISCO-QINQ-VLAN-MIB

The CISCO-QINQ-VLAN-MIB describes configuration and monitoring capabilities relating to 802.1QinQ interfaces.

MIB Constraints

Table 3-56 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the CISCO-QINQ-VLAN-MIB.

Table 3-56 CISCO-QINQ-VLAN-MIB Constraints 

MIB Object
Notes
cqvTerminationTable
 

cqvTerminationPeEncap

Implemented as Read-only.

cqvTerminationRowStatus

Implemented as Read-only.

cqvTranslationTable

Not supported.


CISCO-RF-MIB

The CISCO-RF-MIB provides configuration control and status for the Redundancy Framework (RF) subsystem. RF provides a mechanism for logical redundancy of software functionality and is designed to support 1:1 redundancy on processor cards (supervisor engines). Redundancy duplicates data elements and software functions to provide an alternative in case of failure.

Note For information about the levels of redundancy and how to verify that the redundancy feature is available on Cisco ASR 1000 Series Routers, see the "Cisco Redundancy Features" section on page A-2

MIB Constraints

Table 3-57 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the CISCO-RF-MIB.

Table 3-57 CISCO-RF-MIB Constraints 

MIB Object
Notes
cRFCfgGroup
 

cRFCfgSplitMode

Object is deprecated.

cRFCfgRedundancyMode

Values: six, seven, and eight.

cRFCfgMaintenanceMode

Read-only. Supported value is false(2).

cRFHistoryGroup
 

cRFHistory

There are three switchover modes: coldstandby, warmstandby, and hoststandby. The only entries saved are those generated from a hot standby switchover.


CISCO-RTTMON-MIB

The CISCO-RTTMON-MIB contains objects to monitor network performance. The MIB provides information about the response times of network resources and applications. Each conceptual round-trip time (RTT) control row in the MIB represents a single probe, which is used to determine an entity's response time. The probe defines an RTT operation to perform (for example, an FTP or HTTP get request), and the results indicate whether the operation succeeded or failed, and how long it took to complete.

If you plan to schedule an RTT operation, see Table 3-58 for information about rttMonScheduleAdminRttStartTime in the rttMonScheduleAdminTable.

Note An rttMonCtrlOperConnectionLostOccurred trap is generated when an RTT connection cannot be established to the destination router because the router responder application is not running. However, the trap is not generated if the physical connection to the router is lost.

MIB Constraints

Table 3-58 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the CISCO-RTTMON-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-58 CISCO-RTTMON-MIB Constraints 

MIB Object
Notes
RttMonProtocol

Following values are not supported:

snaRUEcho

snaLU0EchoAppl

rttMonApplAuthTable

Not supported.

rttMonCtrlAdminTable

rttMonCtrlAdminRttType

Supported values are:

echo(1)

pathEcho(2)

udpEcho(5)

tcpConnect(6)

http(7)

dns(8)

jitter(9)

ftp(12)

All other values not supported.

rttMonEchoAdminTable
 

rttMonEchoAdminProtocol

Supported values:

ipIcmpEcho(2)

ipUdpEchoAppl(3)

ipTcpConn(24)

httpAppl(25)

dnsAppl(26)

jitterAppl(27)

ftpAppl(30)

All other values not supported.

rttMonScheduleAdminTable
 

rttMonScheduleAdminRttStartTime

Before setting this object to a date/time value, make sure the ESR clock was set through the CLI clock set command. Otherwise, the scheduled RTT operation does not run.

rttMonHistoryCollectionTable

HTTP and Jitter types are not supported.


CISCO-SLB-EXT-MIB

The CISCO-SLB-EXT-MIB contains extensions to the Cisco server load-balancing (SLB) MIB (CISCO-SLB-MIB). Server load balancing enables the router to balance the processing of packets and connections from a number of other devices, such as real servers, firewalls, or caches. An SLB device determines how to handle incoming frames and connections according to the contents of the incoming data and various configuration options.

CISCO-SLB-MIB

The CISCO-SLB-MIB contains objects to manage server load-balancing (SLB) managers, such as those provided by the Cisco IOS SLB product. The MIB includes objects for the manager-side implementation of the Dynamic Feedback Protocol (DFP), which is used to obtain information about servers.

CISCO-SESS-BORDER-CTRLR-CALL-STATS-MIB

The CISCO-SESSION-BORDER-CONTROLLER-CALL-STATS-MIB defines the statistics information for Session Border Controller application. The statistic information is of two types:

Call statistics

Media statistics

CISCO-SESS-BORDER-CTRLR-EVENT-MIB

The CISCO-SESS-BORDER-CTRLR-EVENT-MIB defines the SNMP notifications, events, and alarms generated by Session Border Controller application, and sends these notifications to SNMP manager application. The various notification, events, and alarms generated by a SBC application can be:

Change in the state of a configured SBC service.

Change in the connection state with an adjacency or a radius server or H.248 controller attached to SBC, CPU or memory congestion, due to a large number of ongoing SIP/H.248 calls.

Violation in the call policies configured for the current ongoing SIP/H.248 calls, when SBC application receives media (RTP/RTCP) packets from an unknown IP address or port.

CISCO-SONET-MIB

The CISCO-SONET-MIB contains objects to describe SONET/SDH interfaces on the router. This MIB is an extension to the standard SONET-MIB (RFC 2558). The CISCO-SONET-MIB has objects that provide additional SONET-related information not found in the SONET-MIB. For detailed definitions of MIB objects, see the MIB.

Note CISCO-SONET-MIB supports SONET traps that are seen when the linestatus, sectionstatus, pathstatus changes, and Notifications are enabled.

MIB Constraints

The following CISCO-SONET-MIB tables are not implemented in the Cisco ASR 1000 Series Routers:

csConfigTable

csVTConfigTable

csAPSConfigTable

cssTraceTable

cspTraceTable

csStatsTable

cspConfigTable

ciscoSonetVTStatusChange

Note Only the section, line, and path totals objects from the ciscoSonetStatsMIBGroup and the complete ciscoSonetEnableGroup must be supported. All network elements containing one or more SONET interfaces must implement this MIB.

CISCO-SYSLOG-MIB

The CISCO-SYSLOG-MIB contains all system log messages generated by the Cisco IOS software. The MIB provides a way to access these syslog messages through SNMP. All Cisco IOS syslog messages contain the message name and its severity, message text, the name of the entity generating the message, and an optional time stamp. The MIB also contains a history of syslog messages and counts related to syslog messages.

Note You can configure the Cisco ASR 1000 Series Router to send syslog messages to a syslog server.

Note The MIB does not keep track of messages generated from debug commands entered through the command-line interface (CLI).

CISCO-UNIFIED-FIREWALL-MIB

The CISCO-UNIFIED-FIREWALL-MIB contains status and performance statistics pertaining to the common features supported by Cisco firewall implementations. For each firewall feature, capability (if applicable) and statistics are defined. Supporting the configuration of firewall features is outside the scope of this MIB. The management information for each firewall feature is defined in a distinct module compliance unit. The compliance units corresponding to basic features of firewalls are defined as mandatory. For more details refer to the MIB.

CISCO-TAP2-MIB

The CISCO-TAP2-MIB manages Cisco intercept feature. This MIB replaces CISCO-TAP-MIB. This MIB defines a generic stream table that contains fields common to all intercept types. Specific intercept filters are defined in the following extension MIBs:

CISCO-IP-TAP-MIB for IP intercepts

CISCO-802-TAP-MIB for IEEE 802 intercepts

CISCO-USER-CONNECTION-TAP-MIB for RADIUS-based user connection intercepts.

MIB Constraints

The Cisco ASR 1K router places the following constraints on CISCO-TAP2-MIB.

Table 3-59 CISCO-TAP2-MIB Constraints 

MIB Object
Notes
cTap2MediationRtcpPort

Not supported.

cTap2MediationRetransmitType

Not supported.

cTap2MediationTransport

Only udp(1) is supported.


CISCO-TAP-MIB

The CISCO-TAP-MIB contains objects to manage Cisco intercept feature.

CISCO-USER-CONNECTION-TAP-MIB

The CISCO-USER-CONNECTION-TAP-MIB is a filter MIB that provides functionality to manage Cisco intercept feature for user connections. This MIB is used along with CISCO-TAP2-MIB to intercept and filter user traffic. To create a user connection intercept, an entry named cuctTapStreamEntry is created in the MIB. This entry, cuctTapStreamEntry, contains the filtering information.

CISCO-VLAN-IFTABLE-RELATIONSHIP-MIB

The CISCO-VLAN-IFTABLE-RELATIONSHIP-MIB contains VLAN-ID and ifIndex information for each routed virtual LAN (VLAN) interface on the router. A routed VLAN interface is the router interface or subinterface to which you attach the IP address used by the router on the VLAN. The MIB maps each VLAN-ID to an ifIndex, which you can use to access the ipRouteTable to obtain the routing configuration for the routed VLAN interface.

CISCO-VLAN-MEMBERSHIP-MIB

The CISCO-VLAN-MEMBERSHIP-MIB provides management functions for the VLAN membership within the framework of Cisco VLAN Architecture, Version 2.0. The MIB provides information on VLAN Membership Policy Servers used by a device and VLAN membership assignments of non-trunk bridge ports of the device.

CISCO-VPDN-MGMT-MIB

The CISCO-VPDN-MGMT-MIB provides operational information about the Virtual Private Dialup Network (VPDN) feature on the router. You can use the MIB to monitor VPDN tunnel information on the router, but you cannot use the MIB to configure VPDN.

VPDN enables the router to forward Point-to-Point Protocol (PPP) traffic between an Internet service provider (ISP) and a home gateway. The CISCO-VPDN-MGMT-MIB includes several tables that contain VPDN tunneling information:

cvpdnSystemTable—Provides system-wide VPDN information.

cvpdnTunnelAttrTable—Provides information about each active tunnel.

cvpdnSessionAttrTable—Provides information about each active session within each tunnel.

cvpdnUserToFailHistInfoTable—Provides information about the last failure that occurred for each tunnel user.

cvpdnTemplateTable—Identifies each VPDN template and indicates the number of active sessions associated with the template. See Table 3-60 for information about template name restrictions and and their effect on SNMP.

MIB Constraints

The CISCO-VPDN-MGMT-MIB contains read-only information. In addition, the MIB objects in Table 3-60 have been deprecated. Although currently supported, their use is being phased out and we recommend that you use the replacement object instead. For detailed definitions of MIB objects, see the MIB.

Table 3-60 CISCO-VPDN-MGMT-MIB Constraints 

MIB Object
Notes
cvpdnTunnelTotal

Replaced by cvpdnSystemTunnelTotal.

cvpdnSessionTotal

Replaced by cvpdnSystemSessionTotal.

cvpdnDeniedUsersTotal

Replaced by cvpdnSystemDeniedUsersTotal.

cvpdnTunnelTable

Replaced by cvpdnTunnelAttrTable.

cvpdnTunnelSessionTable

Replaced by cvpdnSessionAttrTable.

cvpdnTemplateTable

SNMP limits the size of VPDN template names to 128 characters. If any template name in the cvpdnTemplateTable exceeds this length, you cannot use an SNMP getmany request to retrieve any table entries. Instead, you must use individual getone requests to retrieve each template name (cvpdnTemplateName) that does not exceed 128 characters.


DS1-MIB (RFC 2495)

The DS1-MIB(RFC-2495) contains a description of DS1, E1, DS2, and E2 interfaces objects.

MIB Constraints

Table 3-61 describes the constraints that Cisco ASR 1000 Series Router places on objects from DS1-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-61 DS1-MIB Constraints 

MIB Object
Notes
dsx1ConfigTable
 

dsx1LineStatusChangeTrapEnable

Read-only. This MIB object cannot be set through SNMP. The snmp-server enable traps ds1 command can be used to enable status change traps.

dsx1Channelization

Read-only.

dsx1LineLength

Read-only.

dsx1LineType

Read-only.

dsx1LineCoding

Read-only.

dsx1SendCode

Read-only.

dsx1CircuitIdentifier

Read-only.

dsx1LoopbackConfig

Read-only.

dsx1SignalMode

Read-only or SPA-8XCHT1/E1 usage is always none(1).

dsx1TransmitClockSource

Read-only.

dsx1Fdl

Read-only.

dsx1LoopbackStatus

SPA-8XCHT1/E1 usage: Payload loopbacks are not supported (dsx1NearEndPayloadLoopback, dsx1FarEndPayloadLoopback).

dsx1FracTable

Not implemented.

dsx1FarEndIntervalTable

Not implemented.


DS3-MIB (RFC 2496)

The DS3-MIB(RFC-2496) contains a description of DS3 and E3 interfaces objects.

MIB Constraints

Table 3-62 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the RFC1407-MIB. For detailed definitions of MIB objects, see the MIB. Any other object not listed in the table is implemented as defined in the RFC 1407-MIB.

Table 3-62 DS3-MIB Constraints 

MIB Object
Notes
dsx3ConfigTable
 

dsx3LineType

Supported values are:

T3 supports dsx3M23(2) and dsx3CbitParity(4).

E3 supports e3Framed(7) and e3Plcp(8).

dsx3LineCoding

Read-only. Supported values are:

T3 supports dsx3B3ZS(2).

E3 supports e3HDB3(3).

dsx3SendCode

Read-only. Supports only dsx3SendNoCode

dsx3TransmitClockSource

Supported values are loopTiming(1) and localTiming(2).

dsx3CircuitIdentifier

Read-only.

dsx3LoopbackConfig

Read-only.

dsx3FarEndConfigTable

Not implemented.

dsx3FarEndCurrentTable

Not implemented.

dsx3FarEndIntervalTable

Not implemented.

dsx3FarEndTotalTable

Not implemented.

dsx3FracTable

Not implemented.

Notes

All T3/ATM line cards only support read-only values on all variables.

Currently for the dsx3FracTable to operate, the DS1 layer must be implemented in the ifTable. In this release, this table is shown as not implemented because no rows are instantiated.


ENTITY-MIB (RFC 4133)

The ENTITY-MIB (RFC 4133) allows functional component discovery. It is used to represent physical and logical entities (components) in the router and manages those entities. The current software release supports the RFC 4133 version of this MIB.

The following are the conformance groups contained in the ENTITY-MIB:

entityPhysical group—Describes the physical entities managed by a single agent.

entityLogical group—Describes the logical entities managed by a single agent.

entityMapping group—Describes the associations between the physical entities, logical entities, interfaces, and non-interface ports managed by a single agent.

entityGeneral group—Describes general system attributes shared by potentially all types of entities managed by a single agent.

entityNotifications group—Contains status indication notifications.

The following groups are added from RFC 4133:

entityPhysical2 group—This group augments the entityPhysical group.

entityLogical2 group—Describes the logical entities managed by a single agent, and replaces entityLogical group.

The MIB table entPhysicalTable identifies the physical entities in the router. The entPhysicalTable contains a single row for the Cisco ASR 1000 Series Router chassis and a row for each entity in the chassis. A physical entity may contain other entities. For example, a SIP10 in slot 6 with one SPA 1XOC12 POS-SPA in subslot 6/0 supports the following entities in this SNMP output for SPAs and SIPs, sensors on the SIP, and SPA ports: 

entPhysicalDescr.1040 = 1-port OC12/STM4 POS Shared Port Adapter

entPhysicalContainedIn.1040 = 1027

entPhysicalDescr.1066 = subslot 0/0 temperature Sensor 0

entPhysicalContainedIn.1066 = 1040

entPhysicalDescr.1067 = subslot 0/0 temperature Sensor 1

entPhysicalContainedIn.1067 = 1040

entPhysicalDescr.1068 = subslot 0/0 temperature Sensor 2

entPhysicalContainedIn.1068 = 1040

entPhysicalDescr.1078 = subslot 0/0 voltage Sensor 0

entPhysicalContainedIn.1078 = 1040

entPhysicalDescr.1079 = subslot 0/0 voltage Sensor 1

entPhysicalContainedIn.1079 = 1040

entPhysicalDescr.1080 = subslot 0/0 voltage Sensor 2

entPhysicalContainedIn.1080 = 1040

entPhysicalDescr.1081 = subslot 0/0 voltage Sensor 3

entPhysicalContainedIn.1081 = 1040

entPhysicalDescr.1091 = subslot 0/0 transceiver container 0

entPhysicalContainedIn.1091 = 1040

entPhysicalDescr.1092 = OC12 SR-1/STM4 MM

entPhysicalContainedIn.1092 = 1091

entPhysicalDescr.1093 = Packet over Sonet

entPhysicalContainedIn.1093 = 1092

entPhysicalDescr.1095 = subslot 0/0 transceiver 0 Temperature Sensor

entPhysicalContainedIn.1095 = 1092

entPhysicalDescr.1096 = subslot 0/0 transceiver 0 Supply Voltage Sensor

entPhysicalContainedIn.1096 = 1092

entPhysicalDescr.1097 = subslot 0/0 transceiver 0 Bias Current Sensor

entPhysicalContainedIn.1097 = 1092

entPhysicalDescr.1098 = subslot 0/0 transceiver 0 Tx Power Sensor

entPhysicalContainedIn.1098 = 1092

entPhysicalDescr.1099 = subslot 0/0 transceiver 0 Rx Power Sensor

entPhysicalContainedIn.1099 = 1092

For the Cisco ASR1000 platform, the entPhysicalParentRelPos are populated with the slot numbers (except for the RP, ESP, and PEM slot numbers) given in the external label. Table 3-63 lists the mapping between external label and entPhysicalParentRelPos.

Table 3-63 Mapping External Label to entPhysicalParentRelPos value 

Type
External Label
entPhysicalParentRelPos Value
SIP container

0..5

0..5 match the external label.

RP container

R0 and R1

6 for R0, and 7 for R1.

FP container

F0 and F1

8 for F0 and 9 for F1.

Power Supply Bay

0 and 1

14 for PEM 0, and 15 for PEM 1.


Table 3-64 lists the variation between entPhysicalTable values for harddisk in RP1 and RP2 modules.

Table 3-64 Variation Between entPhysicalTable Values 

MIB Object
ASR 1000 RP1
ASR 1000 RP2
entPhysicalContainedIn

entPhysicalIndex of RP Module.

entPhysicalIndex of Harddisk Container.

entPhysicalIsFRU

false(2).

true(1).


0

MIB Constraints

Table 3-65 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the ENTITY-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-65 ENTITY-MIB Constraints 

MIB Object
Notes
entPhysicalSoftwareRev

Not supported for RP and SIP Modules.

entPhysicalAssetAlias

Not supported.

entPhysicalAssetId

Not supported for Transceiver Modules.

entPhysicalHardwareRev

Not implemented for USB and Harddisk.

entPhysicalSerialNum

Implemented as Readonly. Not implemented for USB and Harddisk.

entPhysicalModelName

Not implemented for USB and Harddisk.

entPhysicalMfgName

Not implemented for USB and Harddisk.

entPhysicalUris

Not implemented for USB and Harddisk.


Note The RP2 module contains Harddisk Container for installing the external Harddisk.

Note The RP2 module contains more sensors than RP1. Hence, the indexing of ENTITY-MIB varies for RP2

Note The RP2 contains 2 physical CPUs, but the CPUs are not monitored separately. The monitoring the CPU utilization is the aggregate result of both the CPUs. Hence, the cpmCPUTotalTable object contains only one entry for RP CPUs.

For the CISCO ASR 1002 Router, RP Module, SIP Module, and SPA Module 0/0 are built-in to the chassis. Table 3-66 lists the values of the affected MIB Objects.

Table 3-66 Affected MIB Objects in CISCO ASR 1002 Router 

MIB Object
Module
Value
entPhysicalContainedIn

RP Module

entPhysicalIndex of chassis.

 

SIP Module

entPhysicalIndex of chassis.

 

SPA Module 0/0

entPhysicalIndex of SIP Module.

entPhysicalIsFRU

RP Module

false(2)

 

SIP Module

false(2)

 

SPA Module 0/0

false(2)

entPhysicalSerialNum

SPA Module 0/0

No Serial Number


For the CISCO ASR 1002-F Router, RP Module, SIP Module, SPA Module 0/0, and FP or ESP Module are built-in to the chassis. Table 3-66 lists the values of the affected MIB Objects..

Table 3-67 Affected MIB Objects in Cisco ASR 1002-F Router 

MIB Object
Module
Value
entPhysicalContainedIn

RP Module

entPhysicalIndex of Chassis.

 

ESP Module

entPhysicalIndex of Chassis.

 

SIP Module

entPhysicalIndex of Chassis.

 

SPA Module 0/0

entPhysicalIndex of SIP Module.

entPhysicalIsFRU

RP Module

false(2)

 

ESP Module

false(2)

 

SIP Module

false(2)

 

SPA Module 0/0

false(2)

entPhysicalSerialNum

SPA Module 0/0

No Serial Number.


Note When both primary and secondary RPs are up and running, entities for standby usb flash, Flash disk, and Harddisk are not populated for ENTITY-MIB.

Note For cevModuleASR1000UnknownRP object, only RP module entry is populated without any child entities for it.

ENTITY-SENSOR-MIB (RFC 3433)

The ENTITY-SENSOR-MIB (RFC 3433) contains objects that manage physical sensors, which are represented in the Entity-MIB with entPhysicalEntry and an entPhysicalClass value of sensor(8). The ENTITY-SENSOR-MIB contains a single table called the entPhySensorTable.

Note For ASR1002-F , the RP, FP, and SIP supports various sensors. These sensors are supported the CISCO-ENTITY-SENSOR-MIB. You can perform the unit tests to ensure all the sensors are modelled in the MIB.

ETHERLIKE-MIB (RFC 3635)

The ETHERLIKE-MIB contains objects to manage Ethernet-like interfaces. Cisco IOS Release 12.2(18)SXF and Cisco IOS Release 12.2(33)SRA support the RFC 2665 version of the MIB. Cisco IOS Release 12.2(33)SRB supports the RFC 3635 version of the MIB.

MIB Constraints

Table 3-68 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the ETHERLIKE-MIB. Unless noted otherwise, the Cisco ASR 1000 Series Routers implementation of a MIB follows the standard. Any objects not listed in a table are implemented as defined in the MIB.

Table 3-68 ETHERLIKE-MIB Constraints 

MIB Object
Notes
dot3CollTable

Not implemented.

dot3ControlTable

Not implemented.

dot3Control

Not implemented.

dot3PauseAdminMode

Read-only.


EVENT-MIB (RFC 2981)

The EVENT-MIB (RFC 2981) contains objects to define event triggers and actions for network management purposes.

EXPRESSION-MIB

The EXPRESSION-MIB (early draft of RFC 2981) contains objects to define expressions of MIB objects for network management purposes.

FRAME-RELAY-DTE-MIB (RFC1315-MIB)

The FRAME-RELAY-DTE-MIB (RFC1315-MIB) contains objects to manage a Frame Relay data terminal equipment (DTE) interface, which consists of a single physical connection to the network with many virtual connections to other destinations and neighbors. The MIB contains the objects used to manage:

The Data Link Connection Management Interface (DLCMI)

Virtual circuits on each Frame Relay interface

Errors detected on Frame Relay interfaces

MIB Constraints

Table 3-69 lists the constraints that the router places on objects in the RFC1315-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-69 FRAME-RELAY-DTE-MIB Constraints 

MIB Object
Notes
frDlcmiTable
 

frDlcmiAddress

frDlcmiAddressLen

Always q922November90(3), which indicates a 10-bit DLCI.

Always two-octets(2).

frCircuitTable
 

frCircuitCommittedBurst

Normally, the QoS configuration entered through the Modular QoS CLI (MQC) syntax does not appear in these frCircuitTable objects.

However, when QoS is configured through the MQC and the following conditions are met, these frCircuitTable objects contain the QoS values as they are entered through the MQC:

The default class is configured on the policy-map only.

An output policy is attached to the Frame Relay (FR) Permanent Virtual Circuit (PVC).

The Cisco class-based-QoS (CBQ) enhancement only supports two MQC actions: police cir and shape.

If both police cir and shape actions exist, then the FR traffic-shaping QoS takes precedence before policing.

frCircuitExcessBurst

frCircuitThroughput

frCircuitState
 

frErrTable

Not supported.


IEEE8023-LAG-MIB

The IEEE 8023-LAG- MIB is the Link Aggregation module for managing IEEE Std 802.3ad.

IF-MIB (RFC 2863)

The IF-MIB (RFC 2863) describes the attributes of physical and logical interfaces (network interface sublayers). The router supports the ifGeneralGroup of MIB objects for all layers (ifIndex, ifDescr, ifType, ifSpeed, ifPhysAddress, ifAdminStatus, ifOperStatus, ifLastChange, ifName, ifLinkUpDownTrapEnable, ifHighSpeed, and ifConnectorPresent).

One of the most commonly used identifiers in SNMP-based network management applications is the Interface Index (ifIndex) value. IfIndex is a unique identifying number associated with a physical or logical interface.

MIB Constraints

Table 3-70 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the IF-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-70 IF-MIB Constraints 

MIB Object
Notes
ifOutErrors

Not supported for ATM subinterfaces.

ifPromiscuousMode

Read-only.

ifStackStatus

Read-only.


Note To define a Virtual port of a service engine connecting the RP and SE, set the value of ifType to ethernetCsmacd and ifDescr to Service-Engine. The physical port of the SPA is not controlled by the router, the router controls the virtual port of the SPA. This interface is named using in Service-Engine 1/1/0 command and functions as a Gigabit Ethernet Interface. Since, a sub-interface can not be created on this interface, ifStackTable is not implemented.

Note The valueof ifLastChange is always 0 for VT layer in SPA-1xCHSTM1/OC3.

IGMP-STD-MIB (RFC 2933)

The IGMP-STD-MIB(RFC 2933) manages Internet Group Management Protocol (IGMP).

IP-FORWARD-MIB (RFC 4292)

The IP-FORWARD-MIB (RFC 4292) contains objects to control the display of Classless Interdomain Routing (CIDR) multipath IP Routes.

MIB Constraints

Table 3-71 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the IP-FORWARD-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-71 IP-FORWARD-MIB Constraints 

MIB Object
Notes
inetCidrRouteTable

Implemented for IPv6 only.


IP-MIB (RFC 4293)

The IP-MIB (RFC 4293) module contains objects for managing IP and Internet Control Message Protocol (ICMP) implementations, but excluding their management of IP routes.

MIB Constraints

Table 3-72 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the IP-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-72 IP-MIB Constraints 

MIB Object
Notes
ipDefaultRouterTable

Implemented for IPv6 only.

ipIfStatsTableLastChange

Implemented for IPv6 only.

ipIfStatsTable

Implemented for IPv6 only.

ipSystemStatsTable

Implemented for IPv6 only

ipv4InterfaceTableLastChange

Not Implemented.

ipv4InterfaceTable

Not Implemented.

ipAddressPrefixTable

Implemented for IPv6 only.

ipAddressTable

Implemented for IPv6 only.

ipNetToPhysicalTable

Implemented for IPv6 only.

icmpStatsTable

Implemented for IPv6 only.

icmpMsgStatsTable

Implemented for IPv6 only.


IPMROUTE-STD-MIB (RFC 2932)

The IPMROUTE-STD-MIB (RFC 2932) contains objects to manage IP multicast routing, but independent of the specific multicast routing protocol in use.

MIB Constraints

Table 3-73 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the IPMROUTE-STD-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-73 IPMROUTE-STD-MIB Constraints 

MIB Object
Notes
ipMRouteScopeNameTable

Not implemented.


MPLS-L3VPN-STD-MIB (RFC 4382)

The MPLS-L3VPN-STD-MIB contains managed object definitions for the Layer-3 Multiprotocol Label Switching Virtual Private Networks. This MIB is based on RFC 4382 specification.

MPLS-LDP-GENERIC-STD-MIB (RFC 3815)

The MPLS-LDP-GENERIC-STD-MIB (RFC 3815) contains managed object definitions for configuring and monitoring the Multiprotocol Label Switching (MPLS), Label Distribution Protocol (LDP), utilizing ethernet as the Layer 2 media.

MPLS-LDP-STD-MIB (RFC 3815)

The MPLS-LDP-STD-MIB (RFC 3815) contains managed object definitions for the Multiprotocol Label Switching (MPLS) and Label Distribution Protocol (LDP) document.

MPLS-LSR-STD-MIB (RFC 3813)

The MPLS-LSR-STD-MIB (RFC 3031) contains managed object definitions for the Multiprotocol Label Switching (MPLS) router.

MPLS-TE-MIB

The MPLS-TE-MIB enables the Cisco ASR 1000 Series Router to perform traffic engineering for MPLS tunnels. The MIB is based on Revision 05 of the IETF MPLS-TE-MIB.

Traffic engineering support for MPLS tunnels requires the following configuration:

Setting up MPLS tunnels with appropriate configuration parameters.

Configuring tunnel loose and strict source routed hops.

MIB Constraints

Table 3-74 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the MPLS-TE-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-74 MPLS-TE-MIB Constraints 

MIB Object
Notes
mplsTunnelIndexNext

Read-only. Always 0.

mplsTunnelTable
 

mplsTunnelName

Read-only.

mplsTunnelDescr

Read-only.

mplsTunnelIsif

Read-only.

mplsTunnelXCPointer

Read-only.

mplsTunnelSignallingProto

Read-only.

mplsTunnelSetupPrio

Read-only. Always 7.

mplsTunnelHoldingPrio

Read-only. Always 7.

mplsTunnelSessionAttributes

Read-only.

mplsTunnelOwner

Read-only.

mplsTunnelLocalProtectInUse

Read-only. Always false(2).

mplsTunnelResourcePointer

Read-only.

mplsTunnelInstancePriority

Read-only. Always 0.

mplsTunnelHopTableIndex

Read-only.

mplsTunnelIncludeAnyAffinity

Read-only. Always 0.

mplsTunnelIncludeAllAffinity

Read-only.

mplsTunnelExcludeAllAffinity

Read-only.

mplsTunnelPathInUse

Read-only.

mplsTunnelRole

Read-only.

mplsTunnelTotalUpTime

Read-only.

mplsTunnelInstanceUpTime

Read-only. Always 0.

mplsTunnelAdminStatus

Read-only.

mplsTunnelRowStatus

Read-only. Always readOnly(5).

mplsTunnelStorageType

Read-only. Volatile(2). Always active.

mplsTunnelHopListIndexNext

Read-only. Always 0.

mplsTunnelHopTable
 

mplsTunnelHopAddrType

Read-only. Always ipv4(1).

mplsTunnelHopIpv4Addr

Read-only.

mplsTunnelHopIpv4PrefixLen

Read-only. Always 32.

mplsTunnelHopIpv6Addr

Read-only. NULL.

mplsTunnelHopIpv6PrefixLen

Read-only. Always 0.

mplsTunnelHopAsNumber

Read-only.

mplsTunnelHopLspId

Read-only.

mplsTunnelHopType

Read-only. Always strict(1).

mplsTunnelHopRowStatus

Read-only. Always active(1).

mplsTunnelHopStorageType

Read-only. Value is readOnly(5).

mplsTunnelResourceIndexNext

Read-only. Always 0.

mplsTunnelResourceTable
 

mplsTunnelResourceMaxRate

Read-only.

mplsTunnelResourceMeanRate

Read-only.

mplsTunnelResourceMaxBurstSize

Read-only.

mplsTunnelResourceRowStatus

Read-only. Always active(1).

mplsTunnelResourceStorageType

Read-only. Value is readOnly(5).

Notes:

The mplsTunnelTable allows new MPLS tunnels to be created between an MPLS LSR and a remote endpoint and existing tunnels to be reconfigured or removed. The Cisco ASR 1000 Series Routers support point-to-point tunnel segments, although multipoint-to-point and point-to-multipoint connections are supported by an LSR acting as a cross-connect. Each MPLS tunnel can have one out-segment originating at an LSR and one in-segment terminating at that LSR. The mplsTunnelTable is enhanced by the mplsTunnelPerfTable that provides several counters to measure the performance of the MPLS tunnels.

The mplsTunnelResourceTable indicates the resources required for a tunnel. Multiple tunnels can share the same resources by pointing to the same entry in this table. Tunnels that do not share resources must point to separate entries in this table.

The mplsTunnelHopTable indicates strict or loose hops for an MPLS tunnel defined in mplsTunnelTable when you establish the hop using signaling. Multiple tunnels share the same hops by pointing to the same entry in this table. Each row also has a secondary index, mplsTunnelHopIndex, corresponding to the next hop of this tunnel. The scalar mplsTunnelMaxHops indicates the maximum number of hops that you can specify on each tunnel supported by this LSR. The mplsTunnelARHopTable indicates the actual hops crossed by a tunnel as reported by the MPLS signaling protocol after the tunnel is set up.

There are three notifications in this MIB. The notifications mplsTunnelUp and mplsTunnelDown indicate that the value of mplsTunnelOperStatus has transitioned to up(1) or down(2). The notification mplsTunnelRerouted is generated when a tunnel is rerouted or re-optimized.


MPLS-VPN-MIB

The MPLS-VPN-MIB:

Describes managed objects for modeling a Multiprotocol Label Switching/Border Gateway Protocol virtual private network

Configures and monitors routes and route targets for each VRF instance on a router

Facilitates provisioning VPN Routing and Forwarding (VRF) instances on MPLS interfaces

Measures the performance of MPLS/BGP VPNs

The MIB is based on Revision 05 of the IETF MPLS-VPN-MIB.

MIB Constraints

Table 3-75 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the MPLS-VPN-MIB. For detailed definitions of MIB objects, see the MIB.

Table 3-75 MPLS-VPN-MIB Constraints 

MIB Object
Notes
mplsNumVrfSecViolationThreshExceeded

Not implemented.

mplsVpnVrfSecTable
 

mplsVpnVrfSecIllegalLabelViolations

Read-only. Always 0.

mplsVpnVrfSecIllegalLabelRcvThresh

Read-only. Always 0.

mplsVpnVrfTable
 

mplsVpnVrfConfRowStatus

Read-only.

mplsVpnVrfConfStorageType

Read-only. Volatile(2).

mplsVpnVrfConfMidRouteThreshold

Read-only.

mplsVpnVrfConfHighRouteThreshold

Read-only

mplsVpnVrfConfMaxRoutes

Read-only

mplsVpnVrfConfMaxPossibleRoutes

Read-only. Always 0.

mplsVpnVrfDescription

Read-only

mplsVpnInterfaceVpnClassification

Read-only

mplsVpnInterfaceConfTable
 

mplsVpnInterfaceConfStorageType

Read-only. Volatile(2).

mplsVpnInterfaceConfRowStatus

Read-only.

Values: active(1), notInService(2).

mplsVpnInterfaceLabelEdgeType

Read-only. providerEdge(1).

mplsVpnVrfRouteTargetTable
 

mplsVpnVrfRouteTargetRowStatus

Read-only. Values: active(1), notInService(2).

mplsVpnVrfBgpNbrAddrTable
 

mplsVpnVrfBgpNbrRowStatus

Read-only. Values: active(1), notInService(2).

mplsVpnVrfBgpNbrRole

Read-only. providerEdge(1).

mplsVpnVrfBgpNbrType

Read-only.

mplsVpnVrfBgpNbrAddr

Read-only.

mplsVpnVrfBgpNbrStorageType

Read-only. Volatile(2).

mplsVpnVrfRouteTable
 

mplsVpnVrfRouteInfo

Read-only. Value nullOID.

mplsVpnVrfRouteTarget

Read-only. Determines the route distinguisher for this target.

mplsVpnVrfRouteTargetDescr

Description of the route target. Currently this object is not supported in this Cisco IOS release. Therefore, the object is the same as mplsVpnVrfRouteTarget.

mplsVpnVrfRouteDistinguisher

Read-only.

mplsVpnVrfRouteNextHopAS

Read-only. Always 0.

mplsVpnVrfRouteRowStatus

Read-only. This object normally reads active(1), but may read notInService(2), if a VRF was recently deleted.

mplsVpnVrfRouteStorageType

Read-only. Volatile(2).

mplsVpnVrfRouteDestAddrType

Read-only.

mplsVpnVrfRouteMaskAddrType

Read-only.

mplsVpnVrfRouteTos

Read-only. Always 0.

mplsVpnVrfRouteNextHop

Read-only.

mplsVpnVrfRouteNextHopAddrType

Read-only.

mplsVpnVrfRouteifIndex

Read-only.

mplsVpnVrfRouteType

Read-only.

mplsVpnVrfRouteProto

Read-only.

mplsVpnVrfBgpNbrPrefixTable

Not implemented.

Notes:

The mplsVpnVrfConfTable represents all the MPLS/BGP VPNs configured. The NMS configures an entry in this table for each MPLS/BGP VPN configured to run in this MPLS domain. The mplsVPNInterfaceConfTable extends the interface MIB to provide specific MPLS/BGP VPN information on MPLS/BGP VPN-enabled interfaces. The mplsVPNPerfTable enhances the mplsVpnVrfConfTable to provide performance information.

The mplsVpnVrfRouteTable and the mplsVpnRouteTargetTable facilitate the configuration and monitoring of routes and route targets, respectively, for each VRF instance.


MSDP-MIB

The MSDP-MIB contains objects to monitor the Multicast Source Discovery Protocol (MSDP). The MIB can be used with SNMPv3 to remotely monitor MSDP speakers.

For more information about this MIB, see its feature module description at the following URL:

http://www.cisco.com/en/US/docs/ios/12_1t/12_1t5/feature/guide/dt5msdp.html

NOTIFICATION-LOG-MIB (RFC 3014)

The NOTIFICATION-LOG-MIB contains objects for logging SNMP notifications; that is, traps and informs.

OLD-CISCO-CHASSIS-MIB

The OLD-CISCO-CHASSIS-MIB describes chassis objects in a device running an old implementation of the Cisco IOS operating system. The chassis objects are now described in the ENTITY-MIB, and OLD-CISCO-CHASSIS-MIB is not supported for Cisco ASR 1000 Series Routers.

OSPF-MIB (RFC 1850)

The OSPF-MIB (RFC 1850) contains objects that describe the OSPF Version 2 Protocol. The RFC1253-MIB corresponds to the OSPF-MIB (Open Shortest Path First [OSPF] protocol).

OSPF-TRAP-MIB (RFC 1850)

The OSPF-TRAP-MIB (RFC 1850) contains objects that describe traps for the OSPF Version 2 Protocol.

PIM-MIB (RFC 2934)

The PIM-MIB (RFC 2934) contains objects to configure and manage Protocol Independent Multicast (PIM) on the router. The MIB is extracted from RFC 2934.

MIB Constraints

Table 3-76 lists the constraints that the Cisco ASR 1000 Series Router places on objects in the PIM-MIB.

Table 3-76 PIM-MIB Constraints 

MIB Object
Notes
pimIpMRouteTable

Not implemented.

pimIpMRouteNextHopTable

Not implemented.

pimInterfaceTable
 

pimInterfaceMode

Read-only.

pimInterfaceHelloInterval

Read-only.

pimInterfaceStatus

Read-only.

pimInterfaceJoinPruneInterval

Read-only.

pimInterfaceCBSRPreference

Read-only.

pimJoinPruneInterval

Read-only.

pimCandidateRPTable
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