Cisco Express Forwarding—SNMP CEF-MIB Support
First Published: December 4, 2006
Last Updated: November 25, 2009
The Cisco Express Forwarding—SNMP CEF-MIB Support feature introduces the CISCO-CEF-MIB, which allows management applications through the use of the Simple Network Management Protocol (SNMP) to configure and monitor Cisco Express Forwarding operational data and to provide notification when Cisco Express Forwarding encounters specific configured events. This module describes how to use the CISCO-CEF-MIB to manage and monitor objects related to Cisco Express Forwarding operation.
Cisco Express Forwarding is an advanced Layer 3 IP switching technology. It optimizes network performance and scalability for all kinds of networks: those that carry small amounts of traffic and those that carry large amounts of traffic in complex patterns, such as the Internet and networks characterized by intensive web-based applications or interactive sessions.
Finding Feature Information
For the latest feature information and caveats, see the release notes for your platform and software release. To find information about the features documented in this module, and to see a list of the releases in which each feature is supported, see the "Feature Information for Cisco Express Forwarding—SNMP CEF-MIB Support" section.
Use Cisco Feature Navigator to find information about platform support and Cisco IOS XE software image support. To access Cisco Feature Navigator, go to http://www.cisco.com/go/cfn. An account on Cisco.com is not required.
Contents
•Prerequisites for Cisco Express Forwarding—SNMP CEF-MIB Support
•Information About Cisco Express Forwarding—SNMP CEF-MIB Support
•How to Configure Cisco Express Forwarding—SNMP CEF-MIB Support
•Configuration Examples for Cisco Express Forwarding—SNMP CEF-MIB Support
•Additional References
•Feature Information for Cisco Express Forwarding—SNMP CEF-MIB Support
•Glossary
Prerequisites for Cisco Express Forwarding—SNMP CEF-MIB Support
•Cisco Express Forwarding or distributed Cisco Express Forwarding must be configured on your system.
•The enhanced Cisco Express Forwarding infrastructure introduced in Cisco IOS XE, Release 2.1 must be included in the image on your system.
•The router on which the Cisco Express Forwarding—SNMP CEF-MIB Support features is to be used must be configured for SNMP access. See the "Configuring the Router to Use SNMP" section of this document for more information.
Information About Cisco Express Forwarding—SNMP CEF-MIB Support
•Cisco Express Forwarding Functional Overview
•Benefits of CISCO-CEF-MIB
•Cisco Express Forwarding Information Managed by the CISCO-CEF-MIB
•CISCO-CEF-MIB Object Groups and Related Tables
•Brief Description of the Tables in the CISCO-CEF-MIB
•Cisco Express Forwarding Configuration and Monitoring Operations Available Through the CISCO-CEF-MIB
•CISCO-CEF-MIB Notifications
Cisco Express Forwarding Functional Overview
Cisco Express Forwarding is an advanced Layer 3 IP switching technology. It uses a Forwarding Information Base (FIB) to make IP destination prefix-based switching decisions. The FIB is conceptually similar to a routing table or information base. It maintains the forwarding information contained in the IP routing table. When routing or topology changes occur in the network, the IP routing table is updated, and those changes are propagated to the FIB. The FIB maintains next-hop address information based on the information in the IP routing table. The two main components of Cisco Express Forwarding operation are the FIB and adjacency tables.
Cisco Express Forwarding uses adjacency tables to prepend Layer 2 addressing information. An adjacency table maintains Layer 2 next-hop addresses for all FIB entries. Nodes in the network are said to be adjacent if they can reach each other with a single hop across a link layer. Cisco Express Forwarding discovers and solves adjacencies and populates the adjacency tables.
Note The CISCO-CEF-MIB prefix database and its related database can be very large. Therefore, executing a command that displays the prefix table could take a considerable amount of time.
Benefits of CISCO-CEF-MIB
Command-line interface (CLI) show commands are available to obtain Cisco Express Forwarding operational information. Managing Cisco Express Forwarding using the CLI can be a time-consuming task. The increasing capacity of Cisco routers makes parsing the show commands output to obtain the needed Cisco Express Forwarding operational parameters more and more difficult.
The CISCO-CEF-MIB allows you to manage and monitor the Cisco Express Forwarding operation using SNMP. In addition, you can configure SNMP to notify you if Cisco Express Forwarding encounters errors.
The CISCO-CEF-MIB introduced with the Cisco Express Forwarding—SNMP CEF-MIB Support feature gives you real-time access to operational information stored in the FIB and adjacency tables, switching statistics, and information on resource failures. The feature enables you to configure parameters related to Cisco Express Forwarding features by utilizing a MIB implementation based on SNMP. This information is accessed using get and set commands entered on the network management system (NMS) workstation or host system for which SNMP has been implemented. The NMS workstation is also known as the SNMP manager.
Cisco Express Forwarding is available in all Cisco routers. However, CISCO-CEF-MIB support of Cisco Express Forwarding management is dependent on the infrastructure introduced in Cisco IOS XE, Release 2.1.
The implementation of the CISCO-CEF-MIB in Cisco IOS XE, Release 2.1 manages Cisco Express Forwarding instances running on the Route Processor (RP). Information about Cisco Express Forwarding running on the line cards is available to the RP in reference to Cisco Express Forwarding peers only.
The CISCO-CEF-MIB supports configuration and monitoring for both IP versions, IP Version 4 (IPv4) and IP Version 6 (IPv6).
Cisco Express Forwarding Information Managed by the CISCO-CEF-MIB
SNMP has historically been used to collect network information. SNMP permits retrieval of critical information from network elements such as routers, switches, and workstations.
The CISCO-CEF-MIB provides managed objects that enable a network administrator to monitor the following:
•Cisco Express Forwarding administrative and operational states as displayed in the output of the show ip cef summary command
•Notifications for Cisco Express Forwarding events: Cisco Express Forwarding state changes, Cisco Express Forwarding failures (with a predefined reason), and Route Processor (RP) and line card inconsistencies
•Parameters related to Cisco Express Forwarding for the associated interface as displayed by the show cef interface command
•Line card Cisco Express Forwarding states and line card Cisco Express Forwarding FIB states in the Linecard table as displayed by the show cef linecard command
•Cisco Express Forwarding statistics: switching statistics, punt counters and punt-to-host counters as displayed by the show ip cef switching stats command, and per-prefix counters and nonrecursive counters
•IPv4 and IPv6 notification, when Cisco Express Forwarding is switched between disable and enable and between Cisco Express Forwarding and distributed Cisco Express Forwarding
The SNMP CISCO-CEF-MIB provides managed objects that enable a network administrator to configure the following:
•Cisco Express Forwarding and distributed Cisco Express Forwarding administration status
•Cisco Express Forwarding accounting-related parameters
•Cisco Express Forwarding load sharing-related parameters
•Traffic-related configuration parameters
CISCO-CEF-MIB Object Groups and Related Tables
The SNMP CISCO-CEF-MIB allows the configuration and management of objects related to Cisco Express Forwarding. The MIB contains the following object groups:
•CEF FIB group
•CEF Adjacency group
•CEF Forwarding Element group
•CEF Cfg group
•CEF Interface group
•CEF Peer group
•CEF Consistency (CC) group
•CEF State Group
•CEF Notification Control group
In the CISCO-CEF-MIB, configuration objects are defined as read-write, and the other objects are defined as read only.
The CISCO-CEF-MIB contains tables related to the Cisco Express Forwarding object groups. These tables provide information about prefixes, forwarding paths, adjacencies, output chain elements (OCEs), prefix-based statistics, information about Cisco Express Forwarding configuration, consistency checkers, switching statistics, and managed objects specific to line card-specific.
The CISCO-CEF-MIB also defines Cisco Express Forwarding notifications that you can enable or disable through the MIB or CLI commands.
The index for most tables in the CISCO-CEF-MIB is entPhysicalIndex.
Brief Description of the Tables in the CISCO-CEF-MIB
•The CEF FIB Summary table (cefFIBSummaryTable) contains the number of forwarding prefixes for both IPv4 and IPv6 protocols. It is a summary of the CEF Forwarding table.
•The CEF Forwarding table (cefPrefixTable) lists all the prefixes and related counters. It also contains a pointer to the CEF Forwarding Element Selection table.
•The CEF Longest Match Prefix table (cefLMPrefixTable) returns the longest prefix match for the given destination address. An optional cefLMPrefixSpinLock object is provided to reduce conflict in instances when more than one application acts on the CEF Longest Match Prefix table.
•The CEF Path table (cefPathTable) lists all the Cisco Express Forwarding paths.
•The CEF Adjacency Summary table (cefAdJSummaryTable) contains the total number of complete, incomplete, fixup, and redirect adjacencies for all link types.
•The CEF Adjacency table (cefAdjTable) lists all the adjacencies. It contains the adjacency source, encapsulation string, fixup, and Layer 3 maximum transmission unit (MTU) associated with the adjacency entry. It contains a pointer to the forwarding element selection table (if the adjacency is a MID chain adjacency).
•The CEF Forwarding Element Selection table (cefFESelectionTable) represents the OCE chains in flattened format. This table shows only the labels, table ID, and adjacency traversed in the OCE chain. It also contains the weight associated with each OCE chain.
•CEF Cfg table (cefCfgTable) contains all the global configuration parameters related to Cisco Express Forwarding: administration and operational status, accounting-related configuration parameters, load-sharing algorithms and IDs, and traffic statistics parameters.
•CEF Resource table (cefResourceTable) contains information about resources for Cisco Express Forwarding: the memory status of the process memory pool and reasons for the Cisco Express Forwarding resource failure notifications.
•CEF Interface table (cefIntTable) contains the interface-specific Cisco Express Forwarding parameters: interface switching state, interface load sharing (per packet and per destination), and interface nonrecursive routing (internal and external).
•CEF Peer table or Linecard table (cefPeerTable) contains Cisco Express Forwarding information related to peers on a managed line card: line card operational state and the number of times the line card session resets.
•CEF Peer FIB table (cefPeerFIBTable) contains information about the operational state of the Forwarding Information Bases (FIBs) on each line card.
•The CEF Prefix Length Statistics table (cefStatsPrefixTable) maintains prefix length-based statistics.
•CEF Switching Statistics table (cefSwitchingStatsTable) contains the switching statistics for each switching path: drop counters, punt counters, and punt-to-host counters.
•CEF IP Prefix Consistency Checker Global group (cefCCGlobalTable) contains all global configuration parameters for the consistency checkers: auto repair, enable and disable, delay, and hold down; enable or disable the passive consistency checkers; enable or disable the error messages for consistency detection; and the mechanism to activate the full scan consistency checkers. This table also displays the state of full scan consistency checkers.
•CEF Consistency Checker Type table (cefCCTypeTable) contains the consistency checker type specific parameters: frequency and count of scan for passive scanners and the queries sent, ignored, checked, and iterated.
•CEF Inconsistency Record table (cefInconsistencyRecordTable) contains the detected inconsistency records: prefix address and length, table ID, consistency checker type, slot ID, and the reason for the inconsistency (missing or checksum error).
See the"Cisco Express Forwarding Configuration and Monitoring Operations Available Through the CISCO-CEF-MIB" section for information about the specific objects available through the CISCO-CEF-MIB tables.
Figure 1 shows the contents of the CISCO-CEF-MIB main tables and the relationships of the tables to one another.
Figure 1 CISCO-CEF-MIB Main Tables, Table Contents, and Relationships
Cisco Express Forwarding Configuration and Monitoring Operations Available Through the CISCO-CEF-MIB
You can use SNMP get and set commands to configure and monitor Cisco Express Forwarding operations that are available through the CISCO-CEF-MIB tables. This section describes the configuration and monitoring operations for each table.
Table 1 lists the Cisco Express Forwarding monitoring operations and associated MIB objects provided by the CEF FIB Summary table (cefFIBSummaryTable).
Table 1 CEF FIB Summary Table—Cisco Express Forwarding Operation and Associated MIB Object
Cisco Express Forwarding Operation
|
|
Gets the number of forwarding prefixes for IPv4 and IPv6 |
|
Table 2 lists the Cisco Express Forwarding monitoring operations and associated MIB objects provided by the CEF Forwarding table (cefPrefixTable).
Table 2 CEF Forwarding Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets the forwarding information for the entry |
cefPrefixForwardingInfo |
Gets the number of packets forwarded by the prefix |
cefPrefixPkts |
Gets the number of packets forwarded by the prefix in a 64-bit value |
cefPrefixHCPkts |
Gets the number of bytes forwarded by the prefix |
cefPrefixBytes |
Gets the number of bytes forwarded by the prefix in a 64-bit value |
cefPrefixHCBytes |
Gets the number of internal nonrecursive packets forwarded by the prefix |
cefPrefixInternalNRPkts |
Gets the number of internal nonrecursive packets forwarded by the prefix in a 64-bit value |
cefPrefixInternalNRHCPkts |
Gets the number of internal nonrecursive bytes forwarded by the prefix |
cefPrefixInternalNRBytes |
Gets the number of internal nonrecursive bytes forwarded by the prefix in a 64-bit value |
cefPrefixInternalNRHCBytes |
Gets the number of external nonrecursive packets forwarded by the prefix |
cefPrefixExternalNRPkts |
Gets the number of external nonrecursive packets forwarded by the prefix in a 64-bit value |
cefPrefixExternalNRHCPkts |
Gets the number of external nonrecursive bytes forwarded by the prefix |
cefPrefixExternalNRBytes |
Gets the number of external nonrecursive bytes forwarded by the prefix in 64-bit value |
cefPrefixExternalNRHCBytes |
Table 3 lists the Cisco Express Forwarding monitoring operations and associated MIB objects provided by the CEF Longest Match Prefix table (cefLMPrefixTable).
Table 3 CEF Longest Match Prefix Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets or sets the lock for creation or modification of the longest match prefix entries |
cefLMPrefixSpinLock |
Gets the state of the destination prefix request |
cefLMPrefixState |
Gets the network prefix address for the destination prefix request |
cefLMPrefixAddr |
Gets the network prefix length for the destination prefix request (the same display as the show ip cef exact-route command) |
cefLMPrefixLen |
Gets the status of a table entry |
cefLMPrefixRowStatus |
Table 4 lists the Cisco Express Forwarding monitoring operations and associated MIB objects provided by the CEF Path table (cefPathTable).
Table 4 CEF Path Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets the type of Cisco Express Forwarding path for a prefix |
cefPathType |
Gets the interface associated with this Cisco Express Forwarding path |
cefPathInterface |
Gets the next-hop address for the Cisco Express Forwarding path |
cefPathNextHopAddr |
Gets the recursive Virtual Private Network (VPN) routing and forwarding (VRF) instance name associated with this path |
cefPathRecurseVrfName |
Table 5 lists the Cisco Express Forwarding monitoring operations and associated MIB objects provided by the CEF Adjacency Summary table (cefAdjSummaryTable).
Table 5 CEF Adjacency Summary Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets the number of complete adjacencies |
cefAdjSummaryComplete |
Gets the number of incomplete adjacencies |
cefAdjSummaryInComplete |
Gets the number of adjacencies for Layer 2 encapsulation |
cefAdjSummaryFixup |
Gets the number of adjacencies for IP redirect |
cefAdjSummaryRedirect |
Table 6 lists the Cisco Express Forwarding monitoring operations and associated MIB objects provided by the CEF Adjacency table (cefAdjTable).
Table 6 CEF Adjacency Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets the adjacency source |
cefAdjSource |
Gets the adjacency Layer 2 encapsulation |
cefAdjEncap |
Gets the adjacency fixup |
cefAdjFixup |
Gets the Layer 3 maximum transmission unit (MTU) for the adjacency |
cefAdjMTU |
Gets the forwarding information in cefFESelectionTable |
cefAdjForwardingInfo |
Gets the number of packets transmitted |
cefAdjPkts |
Gets the number of packets transmitted in a 64-bit version |
cefAdjHCPkts |
Gets the number of bytes transmitted |
cefAdjBytes |
Gets the number of bytes transmitted in a 64-bit version |
cefAdjHCBytes |
Table 7 lists the Cisco Express Forwarding monitoring operations and associated MIB objects provided by the CEF Forwarding Element Selection table (cefFESelectionTable).
Table 7 CEF Forwarding Element Selection Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets any special processing for a forwarding element |
cefFESelectionSpecial |
Gets the Multiprotocol Label Switching (MPLS) labels for a forwarding element |
cefFESelectionLabels |
Gets the adjancency type for a forwarding element |
cefFESelectionAdjLinkType |
Gets the interface for the adjacency for a forwarding element |
cefFESelectionAdjInterface |
Gets the next-hop address type for the adjacency for a forwarding element |
cefFESelectionAdjNextHopAddrType |
Gets the next-hop address for the adjacency for a forwarding element |
cefFESelectionAdjNextHopAddr |
Gets the connection ID for the adjacency for a forwarding element |
cefFESelectionAdjConnId |
Gets the VRF name for the lookup for a forwarding element |
cefFESelectionVrfName |
Gets the weighting for load balancing for a forwarding element |
cefFESelectionWeight |
Table 8 lists the Cisco Express Forwarding configuration and monitoring operations and associated MIB objects provided by the CEF Cfg table (cefCfgTable).
Table 8 CEF Cfg Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Enables or disables a Cisco Express Forwarding instance |
cefCfgAdminState |
Queries a Cisco Express Forwarding operational instance |
cefCfgOperState |
Enables or disables a distributed Cisco Express Forwarding instance |
cefCfgDistributionAdminState |
Queries a distributed Cisco Express Forwarding operational instance |
cefCfgDistributionOperState |
Gets or sets Cisco Express Forwarding network accounting options |
cefCfgAccountingMap •nonRecursive (0) •perPrefix (1) •prefixLength (2) |
Gets or sets Cisco Express Forwarding load sharing algorithm options |
cefCfgLoadSharingAlgorithm •none (1) - Load sharing is disabled. •original (2) •tunnel (3) •universal (4) |
Gets or sets a load sharing ID |
cefCfgLoadSharingID |
Gets or sets a traffic interval timer for Cisco Express Forwarding traffic statistics |
cefCfgTrafficStatsLoadInterval |
Gets or sets a frequency timer for the line card to send traffic statistics to the RP |
cefCfgTrafficStatsUpdateRate |
Table 9 lists the Cisco Express Forwarding monitoring operations and associated MIB objects provided by the CEF Resource table (cefResourceTable).
Table 9 CEF Resource Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets the memory status of process memory pool for Cisco Express Forwarding |
cefResourceMemoryUsed |
Gets the reason for the Cisco Express Forwarding resource failure notification |
cefResourceFailureReason |
Table 10 lists the Cisco Express Forwarding configuration and monitoring operations and associated MIB objects provided by the CEF Interface table (cefIntTable).
Table 10 CEF Interface Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets or sets the Cisco Express Forwarding switching state of the interface |
cefIntSwitchingState •cefEnabled (1) •distCefEnabled (2) •cefDisabled (3) |
Gets or sets the type of Cisco Express Forwarding Load sharing on the interface |
cefIntLoadSharing •perPacket (1) •perDestination (2) |
Gets or sets Cisco Express Forwarding nonrecursive accounting on the interface |
cefIntNonrecursiveAccouting •internal (1) •external (2) |
Table 11 lists the Cisco Express Forwarding monitoring operations and associated MIB objects provided by the CEF Peer table (or Linecard table) (cefPeerTable).
Table 11 CEF Peer Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets the Cisco Express Forwarding operational instance of the peer entity |
cefPeerOperState |
Gets how many times the session with the Peer resets |
cefPeerNumberOfResets |
Table 12 lists the Cisco Express Forwarding monitoring operation and associated MIB object provided by the CEF Peer FIB table (cefPeerFIBTable).
Table 12 CEF Peer FIB Table—Cisco Express Forwarding Operation and Associated MIB Object
Cisco Express Forwarding Operation
|
|
Gets the current Cisco Express Forwarding FIB operation state of the peer entity |
cefPeerFIBOperState |
Table 13 lists the Cisco Express Forwarding monitoring operations and associated MIB objects provided by the CEF Prefix Length Statistics table (cefStatsPrefixTable).
Table 13 CEF Prefix Length Statistics Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets the number of queries (lookups) in the FIB database for a prefix length |
cefStatsPrefixQueries |
Gets the number of queries (lookups) in the FIB database for a prefix length in a 64-bit value |
cefStatsPrefixHCQueries |
Gets the number of inserts in the FIB database for a prefix length |
cefStatsPrefixInserts |
Gets the number of inserts in the FIB database for a prefix length in a 64-bit value |
cefStatsPrefixHCInsert |
Gets the number of deletes in the FIB database for a prefix length |
cefStatsPrefixDeletes |
Gets the number of deletes in the FIB database for a prefix length in a 64-bit version |
cefStatsPrefixHCDeletes |
Gets the number of elements in the FIB database for a prefix length |
cefStatsPrefixElements |
Gets the number of elements in the FIB database for a prefix length in a 64-bit value |
cefStatsPrefixHCElements |
Table 14 lists the Cisco Express Forwarding monitoring operations and associated MIB objects provided by the CEF Switching Statistics table (cefSwitchingStatsTable).
Table 14 CEF Switching Statistics Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets the switching path of a Cisco Express Forwarding instance |
cefSwitchingPath |
Gets the number of packets dropped by a Cisco Express Forwarding instance |
cefSwitchingDrop |
Gets the number of packets dropped by a Cisco Express Forwarding instance in a 64-bit value |
cefSwitchingHCDrop |
Gets the number of packets that could be punted |
cefSwitchingPunt |
Gets the number of packets that could be punted in a 64-bit value |
cefSwitchingHCPunt |
Gets the number of packets that are punted to the host |
cefSwitchingPunt2Host |
Gets the number of packets that are punted to the host in a 64-bit value |
cefSwitchingHCPunt2Host |
Table 15 lists the Cisco Express Forwarding configuration and monitoring operations and associated MIB objects provided by the CEF IP Prefix Consistency Global Checker group (cefCCGlobalTable).
Table 15 CEF IP Prefix Consistency Global Checker Group—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Enables or disables auto repairing of the consistency checkers |
cefCCGlobalAutoRepairEnabled |
Gets or sets the consistency checker wait time before fixing the inconsistency |
cefCCGlobalAutoRepairDelay |
Gets or sets the consistency checker wait time to reenable auto repair after auto repair runs |
cefCCGlobalAutoRepairHoldDown |
Enables or disables error message generation for an inconsistency |
cefCCGlobalErrorMsgEnabled |
Table 16 lists the Cisco Express Forwarding configuration and monitoring operations and associated MIB objects provided by the CEF Consistency Checker Type table (cefCCTypeTable).
Table 16 CEF Consistency Checker Type Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Enables or disables the passive consistency checker |
cefCCEnabled |
Gets or sets the maximum number of prefixes per scan |
cefCCCount |
Gets or sets the period between scans for the consistency checker |
cefCCPeriod |
Gets the number of prefix consistency queries sent to the Cisco Express Forwarding FIB |
cefCCQueriesSent |
Gets the number of prefix consistency queries ignored by the consistent checker |
cefCCQueriesIgnored |
Gets the number of prefix consistent queries iterated back to the database |
cefCCQueriesIterated |
Gets the number of prefix consistent queries processed |
cefCCQueriesChecked |
Table 17 lists the Cisco Express Forwarding configuration and monitoring operations and associated MIB objects provided by the CEF Inconsistency Record table (cefInconsistencyRecordTable).
Table 17 CEF Inconsistency Record Table—Cisco Express Forwarding Operations and Associated MIB Objects
Cisco Express Forwarding Operation
|
|
Gets the network prefix type for the inconsistency |
cefInconsistencyPrefixType |
Gets the network prefix address for the inconsistency |
cefInconsistencyPrefixAddr |
Gets the network prefix length for the inconsistency |
cefInconsistencyPrefixLen |
Gets the VRF name for the inconsistency |
cefInconsistencyVrfName |
Gets the consistency checker type that found the inconsistency |
cefInconsistencyCCType |
Gets the entity in which this inconsistency occurred |
cefInconsistencyEntity |
Gets the reason for generating the inconsistency |
cefInconsistencyReason •missing (1) •checksumErr (2) •unknown (3) |
Global Objects for Cisco Express Forwarding Inconsistency
|
Gets the value of the system uptime at the time an inconsistency was detected |
entLastInconsistencyDetectTime |
Sets an object to restart all active consistency checkers |
cefInconsistencyReset |
Gets the status of the inconsistency reset request |
cefInconsistencyResetStatus |
CISCO-CEF-MIB Notifications
Table 18 lists the Cisco Express Forwarding operations associated with the CISCO-CEF-MIB objects that enable the sending of Cisco Express Forwarding notifications.
Table 18 Cisco Express Forwarding Notifications—Cisco Express Forwarding Operations and CISCO-CEF-MIB Objects That Enable Them
Cisco Express Forwarding Operation
|
|
Enables the sending of a notification on the detection of a Cisco Express Forwarding resource failure |
cefResourceFailureNotifEnable |
Enables the sending of a notification on the detection of a Cisco Express Forwarding peer state change |
cefPeerStateChangeNotifEnable |
Enables the sending of a notification on the detection of a Cisco Express Forwarding FIB peer state change |
cefPeerFIBStateChangeNotifEnable |
Sets the period of time after the sending of each notification event |
cefNotifThrottlingInterval |
Enables the sending of a notification on the detection of an inconsistency |
cefInconcsistencyNotifEnable |
You can enable or disable these notifications through the MIB or by entering a CLI command. Table 19 contains a description of the notifications and the commands you use to enable each notification.
Note You must enter a snmp-server host command before you enter a command to enable or disable a CISCO-CEF-MIB notification.
Table 19 Description of Notifications and Enabling Commands for the CEF-PROVISION-MIB Notifications
|
|
|
Cisco Express Forwarding resource failure notification |
A malloc failure, an Inter-Process Communication (IPC) failure, and any other type of failure related to External Data Representation (XDR) messages |
CLI: snmp-server enable traps cef resource-failure MIB: setany version ip-address community-string cefResourceFailureNotifEnable.0 -i 1 |
Cisco Express Forwarding peer state change notification |
A change in the operational state of a peer on the line cards |
CLI: snmp-server enable traps cef peer-state-change MIB: setany version ip-address community-string cefPeerStateChangeNotifEnable.0 -i 1 |
Cisco Express Forwarding peer FIB state change notification |
A change in the operational state of the peer FIB |
CLI: snmp-server enable traps cef peer-fib-state-change MIB: setany version ip-address community-string cefPeerFIBStateChangeNotifEnable.0 -i 1 |
Cisco Express Forwarding inconsistency detection notification |
An inconsistency detected by the consistency checkers |
CLI: snmp-server enable traps cef inconsistency MIB: setany version ip-address community-string cefInconsistencyNotifEnable.0 -i 1 |
How to Configure Cisco Express Forwarding—SNMP CEF-MIB Support
•Configuring the Router to Use SNMP (required)
•Configuring an SNMP Host to Receive CISCO-CEF-MIB Notifications (required)
•Configuring SNMP Notifications for Cisco Express Forwarding Events (required)
•Configuring the Throttling Interval for CISCO-CEF-MIB Inconsistency Notifications (optional)
Configuring the Router to Use SNMP
Perform the following task to configure a router to use SNMP.
Before you can use the Cisco Express Forwarding—SNMP CEF-MIB Support feature, you must configure the SNMP server for the router.
SUMMARY STEPS
1. enable
2. configure terminal
3. snmp-server community string [view view-name] [ro | rw] [ipv6 nacl] [access-list-number]
4. snmp-server community string2 rw
5. end
DETAILED STEPS
|
|
|
Step 1 |
enable
Router> enable |
Enables privileged EXEC mode. •Enter your password if prompted. |
Step 2 |
configure terminal
Router# configure terminal |
Enters global configuration mode. |
Step 3 |
snmp-server community string [view view-name] [ro | rw] [ipv6 nacl] [access-list-number]
Router(config)# snmp-server community public ro
|
Sets up the community access string to permit access to SNMP. •The string argument is a community string that consists of from 1 to 32 alphanumeric characters and functions much like a password, permitting access to the SNMP protocol. Blank spaces are not permitted in the community string. •The view view-name keyword-argument pair is the name of a previously defined view. The view defines the objects available to the SNMP community. •The ro keyword specifies read-only access. Authorized management stations can only retrieve MIB objects. •The rw keyword specifies read-write access. Authorized management stations can retrieve and modify MIB objects. •The ipv6 nacl keywords specify the IPv6 named access list. •The access-list-number argument is an integer from 1 to 99. It specifies a standard access list of IP addresses or a string (not to exceed 64 characters) that is the name of a standard access list of IP addresses that are allowed access to the SNMP agent. Alternatively, an integer from 1300 to 1999 that specifies a list of IP addresses in the expanded range of standard access list numbers. Devices at these addresses are allowed to use the community string to gain access to the SNMP agent. Note The string argument (Step 3) and string2 argument (Step 4) provide a minimal level of security. It is advisable to provide the string for read-only access to others who need only to view and not to modify the MIB objects, and reserve the read-write access string for administrators only. The string2 argument (Step 4) should be different from the read-only string argument specified in this step. |
Step 4 |
snmp-server community string2 rw
Router(config)# snmp-server community private rw
|
Sets up the community access string to permit access to SNMP. •The string2 argument is a community string that consists of from 1 to 32 alphanumeric characters and functions much like a password, permitting access to the SNMP protocol. Blank spaces are not permitted in the community string. •The rw keyword specifies read-write access. Authorized management stations can retrieve and modify MIB objects. This example allows MIB objects to be retrieved and set because a string is specified with read-write access. Note The string argument (Step 3) and string2 argument (Step 4) provide a minimal level of security. It is advisable to provide the string for read-only access to others who need only to view and not to modify the MIB objects, and reserve the read-write access string for administrators only. The string2 argument (Step 4) should be different from the read-only string argument specified in the preceding step (Step 3). |
Step 5 |
end
Router(config)# end |
Exits to privileged EXEC mode. |
Configuring an SNMP Host to Receive CISCO-CEF-MIB Notifications
Perform the following task to configure an SNMP host to receive CISCO-CEF-MIB notifications. Notifications provide information to assist you in the monitoring and managing of Cisco Express Forwarding operations.
SUMMARY STEPS
1. enable
2. configure terminal
3. snmp-server community string [ro | rw]
4. snmp-server community string2 rw
5. snmp-server host ip-address [vrf vrf-name] [traps | informs] [version {1 | 2c | 3
[auth | noauth | priv]}] community-string [udp-port port] cef
6. end
DETAILED STEPS
|
|
|
Step 1 |
enable
Router> enable |
Enables privileged EXEC mode. •Enter your password if prompted. |
Step 2 |
configure terminal
Router# configure terminal |
Enters global configuration mode. |
Step 3 |
snmp-server community string [ro | rw]
Router(config)# snmp-server community public ro
|
Sets up the community access string to permit access to SNMP. •The string argument is a community string that consists of from 1 to 32 alphanumeric characters and functions much like a password, permitting access to the SNMP protocol. Blank spaces are not permitted in the community string. •The ro keyword specifies read-only access. Authorized management stations can only retrieve MIB objects. •The rw keyword specifies read-write access. Authorized management stations can retrieve and modify MIB objects. |
Step 4 |
snmp-server community string2 rw
Router(config)# snmp-server community private rw
|
Sets up the community access string to permit access to SNMP. •The string2 argument is a community string that consists of from 1 to 32 alphanumeric characters and functions much like a password, permitting access to the SNMP protocol. Blank spaces are not permitted in the community string. •The rw keyword specifies read-write access. Authorized management stations can retrieve and modify MIB objects. This example allows MIB objects to be retrieved and set because a string is specified with read-write access. Note The string argument (Step 3) and string2 argument (Step 4) provide a minimal level of security. It is advisable to provide the string for read-only access to others who need only to view and not to modify the MIB objects, and retain the read-write access string for administrators only. The string2 argument (Step 4) should be different from the read-only string argument specified in the preceding step (Step 3). |
Step 5 |
snmp-server host ip-address [vrf vrf-name] [traps | informs] [version {1 | 2c | 3 [auth | noauth | priv]}] community-string [udp-port port] cef
Router(config)# snmp-server host 10.56.125.47 informs version 2c public cef |
Specifies the recipient of an SNMP notification operation. •The ip-address argument is the IP address or IPv6 address of the SNMP notification host. The SNMP notification host is typically a network management station (NMS or SNMP manager). This host is the recipient of the SNMP traps or informs. •The vrf vrf-name keyword and argument specify that the specified VRF be used to send SNMP notifications. •The traps keyword specifies that notifications should be sent as traps. This is the default. •The informs keyword specifies that notifications should be sent as informs. •The version keyword specifies the version of the SNMP used to send the traps. The default is 1. If you use the version keyword, one of the following keywords must be specified: –1—SNMPv1. This option is not available with informs. –2c—SNMPv2c. –3—SNMPv3. The most secure model because it allows packet encryption with the priv keyword. The default is noauth. •One of the following three optional security level keywords can follow the version 3 keywords: –auth—Enables Message Digest 5 (MD5) and Secure Hash Algorithm (SHA) packet authentication. –noauth—Specifies that the noAuthNoPriv security level applies to this host. This is the default security level for SNMPv3. –priv—Enables Data Encryption Standard (DES) packet encryption (also called "privacy"). •The community-string argument specifies that a password-like community string be sent with the notification operation. •The udp-port port keyword and argument specify that SNMP notifications or informs are to be sent to the User Datagram Protocol (UDP) port number of the NMS host. The default is 162. •The cef keyword specifies that the Cisco Express Forwarding notification type is to be sent to the host. If no type is specified, all available notifications are sent. |
Step 6 |
end
Router(config)# end |
Exits to privileged EXEC mode. |
Configuring SNMP Notifications for Cisco Express Forwarding Events
Perform the following task to configure SNMP notifications for Cisco Express Forwarding events. You can complete the task through the use of CLI commands or SNMP commands.
Prerequisites
You must have configured an NMS or SNMP agent to receive the SNMPCISCO-CEF-MIB notification. See the "Configuring an SNMP Host to Receive CISCO-CEF-MIB Notifications" section.
SUMMARY STEPS
Router CLI Commands
1. enable
2. configure terminal
3. snmp-server enable traps cef [peer-state-change] [resource-failure] [inconsistency] [peer-fib-state-change]
4. snmp-server host ip-address [traps | informs] [version {1 | 2c | 3 [auth | noauth | priv]}] community-string cef
5. end
SNMP Commands
1. setany version ip-address community-string cefPeerStateChangeNotifEnable.0 -i TruthValue
2. setany version ip-address community-string cefPeerFIBStateChangeNotifEnable.0 -i TruthValue
3. setany version ip-address community-string cefResourceFailureNotifEnable.0 -i TruthValue
4. setany version ip-address community-string cefInconsistencyNotifEnable.0 -i TruthValue
DETAILED STEPS: Router CLI Commands
|
|
|
Step 1 |
enable
Router> enable |
Enables privileged EXEC mode. •Enter your password if prompted. |
Step 2 |
configure terminal
Router# configure terminal |
Enters global configuration mode. |
Step 3 |
snmp-server enable traps cef [peer-state-change] [resource-failure] [inconsistency] [peer-fib-state-change]
Router(config)# snmp-server enable traps cef resource-failure |
Enables Cisco Express Forwarding support of SNMP notifications on an NMS. •The peer-state change keyword enables the sending of CISCO-CEF-MIB SNMP notifications for changes in the operational state of Cisco Express Forwarding peers. •The resource-failure keyword enables the sending of CISCO-CEF-MIB SNMP notifications for resource failures that affect Cisco Express Forwarding operations. •The inconsistency keyword enables the sending of CISCO-CEF-MIB SNMP notifications for inconsistencies that occur when routing information is updated from the Routing Information Base (RIB) to the CISCO-CEF-MIB on the RP and to the CISCO-CEF-MIB on the line cards. You can set the throttling interval for sending inconsistency notifications. See the "Configuring the Throttling Interval for CISCO-CEF-MIB Inconsistency Notifications" section. •The peer-fib-state-change keyword enables the sending of CISCO-CEF-MIB SNMP notifications for changes in the operational state of the Cisco Express Forwarding peer FIB. |
Step 4 |
snmp-server host ip-address [traps | informs] [version {1 | 2c | 3 [auth | noauth | priv]}] community-string cef
Router(config)# snmp-server host 10.56.125.47 informs version 2c public cef |
Specifies the recipient of an SNMP notification operation. •The ip-address argument is the IP address or IPv6 address of the SNMP notification host. The SNMP notification host is typically a network management station (NMS or SNMP manager). This host is the recipient of the SNMP traps or informs. •The traps keyword specifies that notifications should be sent as traps. This is the default. •The informs keyword specifies that notifications should be sent as informs. •The version keyword specifies the version of the SNMP used to send the traps or informs. The default is 1. If you use the version keyword, one of the following keywords must be specified: –1—SNMPv1. This option is not available with informs. –2c—SNMPv2C. –3—SNMPv3. The most secure model because it allows packet encryption with the priv keyword. The default is noauth. •One of the following three optional security level keywords can follow the version 3 keywords: –auth—Enables Message Digest 5 (MD5) and Secure Hash Algorithm (SHA) packet authentication. –noauth—Specifies that the noAuthNoPriv security level applies to this host. This is the default security level for SNMPv3. –priv—Enables Data Encryption Standard (DES) packet encryption (also called "privacy"). •The community-string argument specifies that a password-like community string be sent with the notification operation. •The cef keyword specifies that the Cisco Express Forwarding notification type is to be sent to the host. If no type is specified, all available notifications are sent. |
Step 5 |
end
Router(config)# end |
Exits to privileged EXEC mode. |
DETAILED STEPS: SNMP Commands
|
|
|
Step 1 |
setany version ip-address community-string cefPeerStateChangeNotifEnable.0 -i TruthValue
workstation% setany -v2c 10.56.125.47 public cefPeeStateStateChangeNotifEnable.0 -1 1 |
Enables the sending of CISCO-CEF-MIB SNMP notifications for changes in operational state of Cisco Express Forwarding peers. •The version argument specifies the version of SNMP that is used. Options are –-v1—SNMPv1 –-v2c—SNMPv2C –-v3—SNMPv3 •The ip-address argument is the IP address or IPv6 address of the SNMP notification host. The SNMP notification host is typically a network management station (NMS or SNMP manager). This host is the recipient of the SNMP traps or informs. •The community-string argument specifies that a password-like community string be sent with the notification operation. •The -i keywords indicate that the variable that follows is an integer. •Values for the TruthValue argument are: –1—enable sending of the notification –2—disable sending of the notification These arguments and keywords apply to the Cisco-CEF-MIB notifications in Steps 2, 3, and 4. |
Step 2 |
setany version ip-address community-string cefPeerFIBStateChangeNotifEnable.0 -i TruthValue
workstation% setany -v2c 10.56.125.47 public cefPeerFIBStateChangeNotifEnable.0 -1 1 |
Enables the sending of CISCO-CEF-MIB SNMP notifications for changes in the operational state of the Cisco Express Forwarding peer FIB. •See Step 1 for a description of the command arguments and keywords. |
Step 3 |
setany version ip-address community-string cefResourceFailureNotifEnable.0 -i TruthValue
workstation% setany -v2c 10.56.125.47 public cefResourceFailureNotifEnable.0 -i 1 |
Enables the sending of CISCO-CEF-MIB SNMP notifications for resource failures that affect Cisco Express Forwarding operations. •See Step 1 for a description of the command arguments and keywords. |
Step 4 |
setany version ip-address community-string cefInconsistencyNotifEnable.0 -i TruthValue
workstation% setany -v2c 10.56.125.47 public cefInconsistencyNotifEnable.0 -i 1 |
Enables the sending of CISCO-CEF-MIB SNMP notifications for inconsistencies that occur when routing information is updated from the RIB to the Cisco Express Forwarding FIB on the RP and to the Cisco Express Forwarding FIB on the line cards. •See Step 1 for a description of the command arguments and keywords. |
Configuring the Throttling Interval for CISCO-CEF-MIB Inconsistency Notifications
Perform the following task to configure the throttling interval for CISCO-CEF-MIB inconsistency notifications.
Configuring a throttling interval allows some time before an inconsistency notification is sent during the process of updating forwarding information from the Routing Information Base (RIB) to the RP and to the line card databases. As these databases are updated, inconsistencies might occur as a result of the asynchronous nature of the distribution mechanism for these databases. The throttling interval allows fleeting inconsistencies to resolve themselves before an inconsistency notification is sent.
SUMMARY STEPS
Router CLI Commands
1. enable
2. configure terminal
3. snmp-server enable traps cef inconsistency
4. snmp mib cef throttling-interval seconds
5. end
SNMP Commands
1. setany version ip-address community-string cefNotifThrottlingInterval.0 -i seconds
DETAILED STEPS: Router CLI Commands
|
|
|
Step 1 |
enable
Router> enable |
Enables privileged EXEC mode. •Enter your password if prompted. |
Step 2 |
configure terminal
Router# configure terminal |
Enters global configuration mode. |
Step 3 |
snmp-server enable traps cef inconsistency
Router(config)# snmp-server enable traps cef inconsistency |
Enables the sending of CISCO-CEF-MIB SNMP notifications for inconsistencies in Cisco Express Forwarding. |
Step 4 |
snmp mib cef throttling-interval seconds
Router(config)# snmp mib cef throttling-interval 2500 |
Sets the throttling interval for the CISCO-CEF-MIB inconsistency notifications. •The seconds argument is the time to allow before an inconsistency notification is sent during the process of updating forwarding information from the RIB to the RP and to the line card databases. A valid value is from 0 to 3600 seconds. A value of 0 disables throttle control. |
Step 5 |
end
Router(config)# end |
Exits to privileged EXEC mode. |
DETAILED STEPS: SNMP Commands
|
|
|
Step 1 |
setany version ip-address community-string cefNotifThrottlingInterval.0 -i seconds
workstation% setany -v2c 10.56.125.47 public cefNotifThrottlingInterval.0 -1 3600 |
Sets the throttling interval for the CISCO-CEF-MIB inconsistency notifications. •The version argument specifies the version of SNMP that is used. Options are –-v1—SNMPv1 –-v2c—SNMPv2C –-v3—SNMPv3 •The ip-address argument is the IP address or IPv6 address of the SNMP notification host. The SNMP notification host is typically a network management station (NMS or SNMP manager). This host is the recipient of the SNMP traps or informs. •The community-string argument specifies that a password-like community string be sent with the notification operation. •The -i keywords indicate that the variable that follows is an integer. •The seconds argument is the time to allow before an inconsistency notification is sent during the process of updating forwarding information from the RIB to the RP and to the line card databases. A valid value is from 0 to 3600 seconds. A value of 0 disables throttle control. |
Configuration Examples for Cisco Express Forwarding—SNMP CEF-MIB Support
•Example: Configuring an SNMP Host to Receive CISCO-CEF-MIB Notifications
•Example: Configuring SNMP Notifications for Cisco Express Forwarding Events
•Example: Configuring the Throttling Interval for CISCO-CEF-MIB Inconsistency Notifications
Example: Configuring an SNMP Host to Receive CISCO-CEF-MIB Notifications
The following example shows how to configure an SNMP host to receive CISCO-CEF-MIB notifications:
snmp-server community public ro
snmp-server community private rw
snmp-server host 10.56.125.47 informs version 2vc public cef
This example sets up SNMP host 10.56.125.47 to receive CISCO-CEF-MIB notifications as informs.
Example: Configuring SNMP Notifications for Cisco Express Forwarding Events
This section contains examples for configuring SNMP notifications for Cisco Express Forwarding events using the CLI and using SNMP commands.
Configuring SNMP Notifications for Cisco Express Forwarding Events Using the CLI
This example shows how to use the CLI to configure CISCO-CEF-MIB SNMP notifications to be sent to host 10.56.125.47 as informs for changes in Cisco Express Forwarding peer states and peer FIB states, for Cisco Express Forwarding resource failures, and for inconsistencies in Cisco Express Forwarding events:
snmp-server community public ro
snmp-server host 10.56.125.47 informs version 2c public cef
snmp-server enable traps cef peer-state-change
snmp-server enable traps cef peer-fib-state-change
snmp-server enable traps cef inconsistency
snmp-server enable traps cef resource-failure
Configuring SNMP Notifications for Cisco Express Forwarding Events Using SNMP Commands
This example shows the use of SNMP command to configure CISCO-CEF-MIB SNMP notifications to be sent to host 10.56.125.47 for changes in Cisco Express Forwarding peer states and peer FIB states, for Cisco Express Forwarding resource failures, and for inconsistencies in Cisco Express Forwarding events:
setany -v2c 10.56.125.47 public cefPeerStateChangeNotifEnable.0 -i 1
setany -v2c 10.56.125.47 public cefPeerFIBStateChangeNotifEnable.0 -i 1
setany -v2c 10.56.125.47 public cefResourceFailureNotifEnable.0 -i 1
setany -v2c 10.56.125.47 public cefInconsistencyNotifEnabled.0 -i 1
Example: Configuring the Throttling Interval for CISCO-CEF-MIB Inconsistency Notifications
This example shows the configuration of a throttling interval for the sending of Cisco Express Forwarding inconsistency notifications to the SNMP host using CLI commands and SNMP commands. The throttling interval is the amount of time that passes between the time that the inconsistency occurs and the sending of the notification to the SNMP host.
Configuring the Throttling Interval for CISCO-CEF-MIB Inconsistency Notifications Using CLI Commands
This example shows the addition of a throttling interval of 1000 seconds for the sending of Cisco Express Forwarding inconsistency notifications to the SNMP host using CLI commands:
snmp-server community public ro
snmp-server host 10.56.125.47 informs version 2c public cef
snmp-server enable traps cef peer-state-change
snmp-server enable traps cef peer-fib-state-change
snmp-server enable traps cef inconsistency
snmp-server enable traps cef resource-failure
snmp mib cef throttling-interval 1000
Configuring the Throttling Interval for CISCO-CEF-MIB Inconsistency Notifications Using SNMP Commands
This example shows the addition of a throttling interval of 1000 seconds for the sending of Cisco Express Forwarding inconsistency notifications to the SNMP host using an SNMP command:
setany -v2c 10.56.125.47 public cefNotifThrottlingInterval.0 -1 1000
Additional References
Related Documents
Standards
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No new or modified standards are supported by this feature, and support for existing standards has not been modified by this feature. |
— |
MIBs
|
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No new or modified MIBs are supported by this feature, and support for existing MIBs has not been modified by this feature. |
To locate and download MIBs for selected platforms, Cisco IOS XE software releases, and feature sets, use Cisco MIB Locator found at the following URL: http://www.cisco.com/go/mibs |
RFCs
|
|
RFC 3291 |
Textual Conventions for Internet Network Addresses |
RFC 3413 |
Simple Network Management Protocol (SNMP) Applications |
Technical Assistance
|
|
The Cisco Support and Documentation website provides online resources to download documentation, software, and tools. Use these resources to install and configure the software and to troubleshoot and resolve technical issues with Cisco products and technologies. Access to most tools on the Cisco Support and Documentation website requires a Cisco.com user ID and password. |
http://www.cisco.com/cisco/web/support/index.html |
Feature Information for Cisco Express Forwarding—SNMP CEF-MIB Support
Table 20 lists the features in this module.
Use Cisco Feature Navigator to find information about platform support and software image support. Cisco Feature Navigator enables you to determine which Cisco IOS XE software images support a specific software release, feature set, or platform. To access Cisco Feature Navigator, go to http://www.cisco.com/go/cfn. An account on Cisco.com is not required.
Note Table 20 lists only the Cisco IOS XE software release that introduced support for a given feature in a given Cisco IOS XE software release train. Unless noted otherwise, subsequent releases of that Cisco IOS XE software release train also support that feature.
Table 20 Feature Information for Cisco Express Forwarding—SNMP CEF-MIB Support
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Cisco Express Forwarding—SNMP CEF-MIB Support |
Cisco IOS XE Release 2.1 |
The Cisco Express Forwarding—SNMP CEF-MIB Support feature introduces the CISCO-CEF-MIB that allows management applications through the use of the Simple Network Management Protocol (SNMP) to configure and monitor Cisco Express Forwarding operational data and to provide notification when Cisco Express Forwarding encounters specific configured events. This module describes how to use the CISCO-CEF-MIB to manage and monitor objects related to Cisco Express Forwarding operation. In Cisco IOS XE, Release 2.1, this feature was introduced on the Cisco ASR 1000 Series Aggregation Services Routers. The following sections provide information about this feature: •Information About Cisco Express Forwarding—SNMP CEF-MIB Support •How to Configure Cisco Express Forwarding—SNMP CEF-MIB Support The following commands were introduced or modified: snmp mib cef throttling-interval, snmp-server enable traps cef, snmp-server host. |
Glossary
inform—A type of notification message that is more reliable than a conventional trap notification message because the informs message notification requires acknowledgment, but a trap notification does not.
IPC—Inter-Process Communication. The protocol used by routers that support distributed packet forwarding. The Cisco IOS XE version of IPC provides a reliable ordered delivery of messages using an underlying platform driver transport or User Date Protocol (UDP) transport protocol. Cisco IOS XE software IPC services allow line cards (LCs) and the central route processor (RP) in a distributed system, to communicate with each other by exchanging messages from the RP to the LCs. Communication messages are also exchanged between active and standby RPs. The IPC messages include configuration commands, responses to the configuration commands, and other events that are reported by an LC to the RP.
MIB—Management Information Base. A database of network management information that is used and maintained by a network management protocol such as Simple Network Management Protocol (SNMP). The value of a MIB object can be changed or retrieved by the use of SNMP commands, usually through a network management system. MIB objects are organized in a tree structure that includes public (standard) and private (proprietary) branches.
NMS—network management station. A powerful, well-equipped computer (typically an engineering workstation) that is used by a network administrator to communicate with other devices in the network. An NMS is typically used to manage network resources, gather statistics, and perform a variety of network administration and configuration tasks. In the context of SNMP, an NMS is a device that performs SNMP queries to the SNMP agent of a managed device to retrieve or modify information.
notification—A message sent by a Simple Network Management Protocol (SNMP) agent to a network management station, console, or terminal to indicate that a significant network event has occurred.
SNMP—Simple Network Management Protocol. A network management protocol used almost exclusively in TCP/IP networks. SNMP enables a user to monitor and control network devices, manage configurations, collect statistics, monitor performance, and ensure network security.
SNMP community—An authentication scheme that enables an intelligent network device to validate SNMP requests.
SNMPv2c—Version 2c of the Simple Network Management Protocol. SNMPv2c supports centralized as well as distributed network management strategies and includes improvements in the Structure of Management Information (SMI), protocol operations, management architecture, and security.
trap—A message sent by an SNMP agent to a network management station, console, or terminal to indicate that a significant network event has occurred. Traps are less reliable than inform requests, because the receiver of the trap does not send an acknowledgment of receipt; furthermore, the sender of the trap cannot determine if the trap was received.
Cisco and the Cisco Logo are trademarks of Cisco Systems, Inc. and/or its affiliates in the U.S. and other countries. A listing of Cisco's trademarks can be found at www.cisco.com/go/trademarks. Third party trademarks mentioned are the property of their respective owners. The use of the word partner does not imply a partnership relationship between Cisco and any other company. (1005R)
Any Internet Protocol (IP) addresses and phone numbers used in this document are not intended to be actual addresses and phone numbers. Any examples, command display output, network topology diagrams, and other figures included in the document are shown for illustrative purposes only. Any use of actual IP addresses or phone numbers in illustrative content is unintentional and coincidental.
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