TOC 
Inter-Domain Routing Working GroupJ. Haas
Internet-DraftArbor Networks
Intended status: Standards TrackFebruary 19, 2009
Expires: August 23, 2009 


Definitions of Managed Objects for the Fourth Version of Border Gateway Protocol (BGP-4), Second Version
draft-ietf-idr-bgp4-mibv2-09

Status of This Memo

This Internet-Draft is submitted to IETF in full conformance with the provisions of BCP 78 and BCP 79.

Internet-Drafts are working documents of the Internet Engineering Task Force (IETF), its areas, and its working groups. Note that other groups may also distribute working documents as Internet-Drafts.

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This Internet-Draft will expire on August 23, 2009.

Copyright Notice

Copyright (c) 2009 IETF Trust and the persons identified as the document authors. All rights reserved.

This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents in effect on the date of publication of this document (http://trustee.ietf.org/license-info). Please review these documents carefully, as they describe your rights and restrictions with respect to this document.

Abstract

This memo defines a portion of the Management Information Base (MIB) for use with network management protocols. In particular it defines objects for managing the Border Gateway Protocol, Version 4.



Table of Contents

1.  Introduction
2.  The Internet-Standard Management Framework
3.  Conventions
4.  Overview
5.  Structure of the MIB Module
    5.1.  Notifications
    5.2.  Tables
6.  Relationship to Other MIB Modules
    6.1.  Relationship to the TCP-MIB
    6.2.  MIB modules required for IMPORTS
7.  Definitions
8.  Security Considerations
9.  IANA Considerations
10.  Contributors
11.  Acknowledgements
12.  References
    12.1.  Normative References
    12.2.  Informative References




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1.  Introduction

This memo defines a portion of the Management Information Base (MIB) for use with network management protocols. In particular it defines objects for managing the Border Gateway Protocol, Version 4 [RFC4271] (Rekhter, Y., Li, T., and S. Hares, “A Border Gateway Protocol 4 (BGP-4),” January 2006.).



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2.  The Internet-Standard Management Framework

For a detailed overview of the documents that describe the current Internet-Standard Management Framework, please refer to section 7 of RFC 3410 [RFC3410] (Case, J., Mundy, R., Partain, D., and B. Stewart, “Introduction and Applicability Statements for Internet-Standard Management Framework,” December 2002.).

Managed objects are accessed via a virtual information store, termed the Management Information Base or MIB. MIB objects are generally accessed through the Simple Network Management Protocol (SNMP). Objects in the MIB are defined using the mechanisms defined in the Structure of Management Information (SMI). This memo specifies a MIB module that is compliant to the SMIv2, which is described in STD 58, RFC 2578 [RFC2578] (McCloghrie, K., Ed., Perkins, D., Ed., and J. Schoenwaelder, Ed., “Structure of Management Information Version 2 (SMIv2),” April 1999.), STD 58, RFC 2579 [RFC2579] (McCloghrie, K., Ed., Perkins, D., Ed., and J. Schoenwaelder, Ed., “Textual Conventions for SMIv2,” April 1999.) and STD 58, RFC 2580 [RFC2580] (McCloghrie, K., Perkins, D., and J. Schoenwaelder, “Conformance Statements for SMIv2,” April 1999.).



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3.  Conventions

The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119 [RFC2119] (Bradner, S., “Key words for use in RFCs to Indicate Requirement Levels,” March 1997.).



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4.  Overview

As part of the IETF standardization effort for the BGP-4 protocol, [RFC4273] (Haas, J. and S. Hares, “Definitions of Managed Objects for BGP-4,” January 2006.) was written to address open issues in the previous version of the BGP-4 MIB, [RFC1657] (Willis, S., Burruss, J., and J. Chu, “Definitions of Managed Objects for the Fourth Version of the Border Gateway Protocol (BGP-4) using SMIv2,” July 1994.). However, that RFC was primarily intended to address the base BGP-4 protocol as documented in [RFC4271] (Rekhter, Y., Li, T., and S. Hares, “A Border Gateway Protocol 4 (BGP-4),” January 2006.).

The BGP-4 protocol has greatly increased in scope over the years from its original definition. Scaling mechanisms such as Route Reflection (Bates, T., Chen, E., and R. Chandra, “BGP Route Reflection: An Alternative to Full Mesh Internal BGP (IBGP),” April 2006.) [RFC4456] and Confederations (Traina, P., McPherson, D., and J. Scudder, “Autonomous System Confederations for BGP,” August 2007.) [RFC5065] have been introduced. Multi-protocol extensions (Bates, T., Chandra, R., Katz, D., and Y. Rekhter, “Multiprotocol Extensions for BGP-4,” January 2007.) [RFC4760] were introduced which allowed advertisement of reachability such as IPv6 (Marques, P. and F. Dupont, “Use of BGP-4 Multiprotocol Extensions for IPv6 Inter-Domain Routing,” March 1999.) [RFC2545], MPLS Labeled routes (Rekhter, Y. and E. Rosen, “Carrying Label Information in BGP-4,” May 2001.) [RFC3107], etc.

This MIB addresses several of the deficiencies of the previous BGP-4 MIB. In particular:



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5.  Structure of the MIB Module



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5.1.  Notifications



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5.2.  Tables



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6.  Relationship to Other MIB Modules



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6.1.  Relationship to the TCP-MIB

The bgp4V2PeerLocalAddrType/bgp4V2PeerLocalAddr/bgp4V2PeerLocalPort and bgp4V2PeerRemoteAddrType/bgp4V2PeerRemoteAddr/bgp4V2PeerRemotePort objects may provide a suitable index for monitoring the BGP peering session's TCP session via the TCP-MIB (Raghunarayan, R., “Management Information Base for the Transmission Control Protocol (TCP),” March 2005.) [RFC4022].

Note that conducting BGP peering sessions over transport protocols other than TCP over IP are out of scope of the current BGP specifications.



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6.2.  MIB modules required for IMPORTS

The following MIB module IMPORTS objects from BGP4V2-TC-MIB [I-D.draft-ietf-idr-bgp4-mibv2-tc], SNMPv2-SMI [RFC2578] (McCloghrie, K., Ed., Perkins, D., Ed., and J. Schoenwaelder, Ed., “Structure of Management Information Version 2 (SMIv2),” April 1999.), SNMPv2-TC [RFC2579] (McCloghrie, K., Ed., Perkins, D., Ed., and J. Schoenwaelder, Ed., “Textual Conventions for SMIv2,” April 1999.), SNMPv2-CONF [RFC2580] (McCloghrie, K., Perkins, D., and J. Schoenwaelder, “Conformance Statements for SMIv2,” April 1999.), INET-ADDRESS-MIB [RFC4001] (Daniele, M., Haberman, B., Routhier, S., and J. Schoenwaelder, “Textual Conventions for Internet Network Addresses,” February 2005.) and SNMP-FRAMEWORK-MIB [RFC3411] (Harrington, D., Presuhn, R., and B. Wijnen, “An Architecture for Describing Simple Network Management Protocol (SNMP) Management Frameworks,” December 2002.).



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7.  Definitions

BGP4V2-MIB DEFINITIONS ::= BEGIN

    IMPORTS
        MODULE-IDENTITY, OBJECT-TYPE, NOTIFICATION-TYPE,
        mib-2, Counter32, Gauge32, Unsigned32
            FROM SNMPv2-SMI
        InetAddressType, InetAddress, InetPortNumber,
        InetAutonomousSystemNumber, InetAddressPrefixLength
            FROM INET-ADDRESS-MIB
        TruthValue, RowPointer, TimeStamp
            FROM SNMPv2-TC
        MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUP
            FROM SNMPv2-CONF
        SnmpAdminString
            FROM SNMP-FRAMEWORK-MIB
        Bgp4V2IdentifierTC, Bgp4V2AddressFamilyIdentifierTC,
        Bgp4V2SubsequentAddressFamilyIdentifierTC
            FROM BGP4V2-TC-MIB;

        bgp4V2 MODULE-IDENTITY
            LAST-UPDATED "200902180000Z"
            ORGANIZATION "IETF IDR Working Group"
            CONTACT-INFO "E-mail:  idr@ietf.org"

            DESCRIPTION
                    "The MIB module for the BGP-4 protocol.

                     Copyright (C) The IETF Trust (2009).  This
                     version of this MIB module is part of RFC XXX;
                     see the RFC itself for full legal notices."
-- RFC Editor - replace XXX with RFC number

            REVISION "200902180000Z"
            DESCRIPTION
                   "This MIB updates and replaces the BGP MIB defined in
                    RFC 4273."
            ::= { mib-2 XXX }

    -- Top level components of this MIB module

    -- Notifications
    bgp4V2Notifications OBJECT IDENTIFIER ::= { bgp4V2 0 }

    -- Objects
    bgp4V2Objects OBJECT IDENTIFIER ::= { bgp4V2 1 }

    -- Conformance
    bgp4V2Conformance OBJECT IDENTIFIER ::= { bgp4V2 2 }


    --
    -- Per-instance BGP discontinuities
    --

    bgp4V2DiscontinuityTable OBJECT-TYPE
        SYNTAX     SEQUENCE OF Bgp4V2DiscontinuityEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Table of BGP-4 discontinuities.  Discontinuities that have
             external visibility occur on a per-BGP instance basis.
             Transitions by a given BGP peer will result in a consistent
             BGP view within that instance and thus do not represent a
             discontinuity from a protocol standpoint."
        ::= { bgp4V2Objects 1 }

    bgp4V2DiscontinuityEntry OBJECT-TYPE
        SYNTAX     Bgp4V2DiscontinuityEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Entry repsenting information about a discontinuity event
             for a given BGP instance."
        INDEX {
            bgp4V2PeerInstance
        }
        ::= { bgp4V2DiscontinuityTable 1 }

    Bgp4V2DiscontinuityEntry ::= SEQUENCE {
        bgp4V2DiscontinuityTime
            TimeStamp
        }

    bgp4V2DiscontinuityTime OBJECT-TYPE
        SYNTAX     TimeStamp
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The value of sysUpTime at the most recent occasion at which
             this BGP management instance has suffered a discontinuity."
         ::= { bgp4V2DiscontinuityEntry 1 }

    --
    -- Per-peer session management information.
    --

    bgp4V2PeerTable OBJECT-TYPE
        SYNTAX     SEQUENCE OF Bgp4V2PeerEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "BGP peer table.  This table contains, one entry per BGP
             peer, information about the connections with BGP peers."
        ::= { bgp4V2Objects 2 }

    bgp4V2PeerEntry OBJECT-TYPE
        SYNTAX     Bgp4V2PeerEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Entry containing information about the connection with
             a remote BGP peer."
        INDEX {
            bgp4V2PeerInstance,
            bgp4V2PeerRemoteAddrType,
            bgp4V2PeerRemoteAddr
        }
        ::= { bgp4V2PeerTable 1 }

    Bgp4V2PeerEntry ::= SEQUENCE {
        -- INDEX information
        bgp4V2PeerInstance
            Unsigned32,
        bgp4V2PeerLocalAddrType
            InetAddressType,
        bgp4V2PeerLocalAddr
            InetAddress,
        bgp4V2PeerRemoteAddrType
            InetAddressType,
        bgp4V2PeerRemoteAddr
            InetAddress,

        -- Local
        bgp4V2PeerLocalPort
            InetPortNumber,
        bgp4V2PeerLocalAs
            InetAutonomousSystemNumber,
        bgp4V2PeerLocalIdentifier
            Bgp4V2IdentifierTC,

        -- Remote
        bgp4V2PeerRemotePort
            InetPortNumber,
        bgp4V2PeerRemoteAs
            InetAutonomousSystemNumber,
        bgp4V2PeerRemoteIdentifier
            Bgp4V2IdentifierTC,

        -- Session status
        bgp4V2PeerAdminStatus
            INTEGER,
        bgp4V2PeerState
            INTEGER,
        bgp4V2PeerDescription
            SnmpAdminString
    }

    bgp4V2PeerInstance OBJECT-TYPE
        SYNTAX     Unsigned32 (1..4294967295)
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The routing instance index.

             Some BGP implementations permit the creation of
             multiple instances of a BGP routing process. An
             example includes routers running BGP/MPLS IP Virtual
             Private Networks.

             Implementations that do not support multiple
             routing instances should return 1 for this object."
        ::= { bgp4V2PeerEntry 1 }

    bgp4V2PeerLocalAddrType OBJECT-TYPE
        SYNTAX     InetAddressType
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The address family of the local end of the peering
             session."
        ::= { bgp4V2PeerEntry 2 }

    bgp4V2PeerLocalAddr OBJECT-TYPE
        SYNTAX     InetAddress
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The local IP address of this entry's BGP connection."
        ::= { bgp4V2PeerEntry 3 }

    bgp4V2PeerRemoteAddrType OBJECT-TYPE
        SYNTAX     InetAddressType
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The address family of the remote end of the peering
             session."
        ::= { bgp4V2PeerEntry 4 }

    bgp4V2PeerRemoteAddr OBJECT-TYPE
        SYNTAX     InetAddress
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The remote IP address of this entry's BGP peer."
        ::= { bgp4V2PeerEntry 5 }

    bgp4V2PeerLocalPort OBJECT-TYPE
        SYNTAX     InetPortNumber
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The local port for the TCP connection between the BGP
             peers."
        ::= { bgp4V2PeerEntry 6 }

    bgp4V2PeerLocalAs OBJECT-TYPE
        SYNTAX     InetAutonomousSystemNumber
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "Some implementations of BGP can represent themselves
             as multiple ASes. This is the AS that this peering
             session is representing itself as to the remote peer."
        ::= { bgp4V2PeerEntry 7 }

    bgp4V2PeerLocalIdentifier OBJECT-TYPE
        SYNTAX     Bgp4V2IdentifierTC
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The BGP Identifier of the local system for this peering
             session.  It is REQUIRED that all bgp4V2PeerLocalIdentifier
             values for the same bgp4V2PeerInstance be identical."
        REFERENCE
            "RFC 4271, Section 4.2, 'BGP Identifier'."
        ::= { bgp4V2PeerEntry 8 }

    bgp4V2PeerRemotePort OBJECT-TYPE
        SYNTAX     InetPortNumber
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The remote port for the TCP connection between the BGP
             peers.

             Note that the objects bgp4V2PeerLocalAddr,
             bgp4V2PeerLocalPort, bgp4V2PeerRemoteAddr and
             bgp4V2PeerRemotePort provide the appropriate reference to
             the standard MIB TCP connection table, or even the ipv6
             TCP MIB as in RFC 4022."
        REFERENCE
            "RFC 2012 - SNMPv2 Management Information Base for the
             Transmission Control Protocol using SMIv2.
             RFC 4022 - IP Version 6 Management Information Base
             for the Transmission Control Protocol."
        ::= { bgp4V2PeerEntry 9 }

    bgp4V2PeerRemoteAs OBJECT-TYPE
        SYNTAX     InetAutonomousSystemNumber
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The remote autonomous system number received in the BGP
             OPEN message."
        REFERENCE
            "RFC 4271, Section 4.2."
        ::= { bgp4V2PeerEntry 10 }

    bgp4V2PeerRemoteIdentifier OBJECT-TYPE
        SYNTAX     Bgp4V2IdentifierTC
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The BGP Identifier of this entry's remote BGP peer.

             This entry should be 0.0.0.0 unless the
             bgp4V2PeerState is in the openconfirm or the
             established state."
        REFERENCE
            "RFC 4271, Section 4.2, 'BGP Identifier'."
        ::= { bgp4V2PeerEntry 11 }

    bgp4V2PeerAdminStatus OBJECT-TYPE
        SYNTAX     INTEGER {
            halted(1),
            running(2)
        }
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "Whether or not the BGP FSM for this remote peer is
             halted or running. The BGP FSM for a remote peer is
             halted after processing a Stop event. Likewise, it is
             in the running state after a Start event.

             The bgp4V2PeerState will generally be in the idle state
             when the FSM is halted, although some extensions such
             as Graceful Restart will leave the peer in the Idle
             state but with the FSM running."
        REFERENCE
            "RFC 4271, Section 8.1.2."
        ::= { bgp4V2PeerEntry 12 }

    bgp4V2PeerState OBJECT-TYPE
        SYNTAX     INTEGER {
            idle(1),
            connect(2),
            active(3),
            opensent(4),
            openconfirm(5),
            established(6)
        }
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The BGP peer connection state."
        REFERENCE
            "RFC 4271, Section 8.2.2."
        ::= { bgp4V2PeerEntry 13 }


    bgp4V2PeerDescription OBJECT-TYPE
        SYNTAX     SnmpAdminString
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "A user configured description identifying this peer.  When
             this object is not the empty string, this object SHOULD
             contain a description that is unique within a given BGP
             instance for this peer."
        ::= { bgp4V2PeerEntry 14 }


    --
    -- Per-peer error management information.
    --

    bgp4V2PeerErrorsTable OBJECT-TYPE
        SYNTAX     SEQUENCE OF Bgp4V2PeerErrorsEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "On a per-peer basis, this table reflects the last
             protocol-defined error encountered and reported on
             the peer session."
        ::= { bgp4V2Objects 3 }

    bgp4V2PeerErrorsEntry OBJECT-TYPE
        SYNTAX     Bgp4V2PeerErrorsEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Each entry contains information about errors sent
             and received for a particular BGP peer."
        AUGMENTS {
            bgp4V2PeerEntry
        }
        ::= { bgp4V2PeerErrorsTable 1 }

    Bgp4V2PeerErrorsEntry ::= SEQUENCE {
        bgp4V2PeerLastErrorCodeReceived
            Unsigned32,
        bgp4V2PeerLastErrorSubCodeReceived
            Unsigned32,
        bgp4V2PeerLastErrorReceivedTime
            TimeStamp,
        bgp4V2PeerLastErrorReceivedText
            SnmpAdminString,
        bgp4V2PeerLastErrorReceivedData
            OCTET STRING,
        bgp4V2PeerLastErrorCodeSent
            Unsigned32,
        bgp4V2PeerLastErrorSubCodeSent
            Unsigned32,
        bgp4V2PeerLastErrorSentTime
            TimeStamp,
        bgp4V2PeerLastErrorSentText
            SnmpAdminString,
        bgp4V2PeerLastErrorSentData
            OCTET STRING
    }

    bgp4V2PeerLastErrorCodeReceived OBJECT-TYPE
        SYNTAX     Unsigned32 (0..255)
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The last error code received from this peer via
             NOTIFICATION message on this connection.  If no error has
             occurred, this field is zero."
        REFERENCE
            "RFC 4271, Section 4.5.
             RFC 4486 optionally supported.
             RFC 3362, Section 5 optionally supported."
        ::= { bgp4V2PeerErrorsEntry 1 }

    bgp4V2PeerLastErrorSubCodeReceived OBJECT-TYPE
        SYNTAX     Unsigned32 (0..255)
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The last subcode received from this peer via NOTIFICATION
             message on this connection.  If no error has occurred, this
             field is zero."
        REFERENCE
            "RFC 4271, Section 4.5.
             RFC 4486 optionally supported.
             RFC 3362, Section 5 optionally supported."
        ::= { bgp4V2PeerErrorsEntry 2 }

    bgp4V2PeerLastErrorReceivedTime OBJECT-TYPE
        SYNTAX     TimeStamp
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The timestamp that the last NOTIFICATION was received from
             this peer."
        REFERENCE
            "RFC 4271, Section 4.5."
        ::= { bgp4V2PeerErrorsEntry 3 }

    bgp4V2PeerLastErrorReceivedText OBJECT-TYPE
        SYNTAX     SnmpAdminString
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This object contains an implementation specific
             explanation of the error that was reported."
        ::= { bgp4V2PeerErrorsEntry 4 }

    bgp4V2PeerLastErrorReceivedData OBJECT-TYPE
        SYNTAX     OCTET STRING (SIZE(0..4075))
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The last error code's data seen by this peer.

             Per RFC 2578, some implementations may have limitations
             dealing with OCTET STRINGS larger than 255.  Thus, this
             data may be truncated."
        REFERENCE
            "RFC 4271, Section 4.5,
             RFC 2578, Section 7.1.2,
             RFC 4486 optionally supported.
             RFC 3362, Section 5 optionally supported."
        ::= { bgp4V2PeerErrorsEntry 5 }

    bgp4V2PeerLastErrorCodeSent OBJECT-TYPE
        SYNTAX     Unsigned32 (0..255)
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The last error code sent to this peer via NOTIFICATION
             message on this connection.  If no error has occurred, this
             field is zero."
        REFERENCE
            "RFC 4271, Section 4.5.
             RFC 4486 optionally supported.
             RFC 3362, Section 5 optionally supported."
        ::= { bgp4V2PeerErrorsEntry 6 }

    bgp4V2PeerLastErrorSubCodeSent OBJECT-TYPE
        SYNTAX     Unsigned32 (0..255)
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The last subcode sent to this peer via NOTIFICATION
             message on this connection.  If no error has occurred, this
             field is zero."
        REFERENCE
            "RFC 4271, Section 4.5.
             RFC 4486 optionally supported.
             RFC 3362, Section 5 optionally supported."
        ::= { bgp4V2PeerErrorsEntry 7 }

    bgp4V2PeerLastErrorSentTime OBJECT-TYPE
        SYNTAX     TimeStamp
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The timestamp that the last NOTIFICATION was sent to
             this peer."
        REFERENCE
            "RFC 4271, Section 4.5."
        ::= { bgp4V2PeerErrorsEntry 8 }

    bgp4V2PeerLastErrorSentText OBJECT-TYPE
        SYNTAX     SnmpAdminString
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This object contains an implementation specific
             explanation of the error that is being reported."
        ::= { bgp4V2PeerErrorsEntry 9 }

    bgp4V2PeerLastErrorSentData OBJECT-TYPE
        SYNTAX     OCTET STRING (SIZE(0..4075))
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The last error code's data sent to this peer.

             Per RFC 2578, some implementations may have limitations
             dealing with OCTET STRINGS larger than 255.  Thus, this
             data may be truncated."
        REFERENCE
            "RFC 4271, Section 4.5,
             RFC 2578, Section 7.1.2
             RFC 4486 optionally supported.
             RFC 3362, Section 5 optionally supported."
        ::= { bgp4V2PeerErrorsEntry 10 }


    --
    -- Per-peer Event Times
    --

    bgp4V2PeerEventTimesTable OBJECT-TYPE
        SYNTAX     SEQUENCE OF Bgp4V2PeerEventTimesEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "A table reporting the per-peering session amount
             of time elapsed and update events since the peering
             session advanced into the established state."
        ::= { bgp4V2Objects 4 }

    bgp4V2PeerEventTimesEntry OBJECT-TYPE
        SYNTAX     Bgp4V2PeerEventTimesEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Each row contains a set of statistics about time
             spent and events encountered in the peer session
             established state."
        AUGMENTS {
            bgp4V2PeerEntry
        }
        ::= { bgp4V2PeerEventTimesTable 1 }

    Bgp4V2PeerEventTimesEntry ::= SEQUENCE {
        bgp4V2PeerFsmEstablishedTime
            Gauge32,
        bgp4V2PeerInUpdatesElapsedTime
            Gauge32
    }

    bgp4V2PeerFsmEstablishedTime OBJECT-TYPE
        SYNTAX     Gauge32
        UNITS      "seconds"
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This timer indicates how long (in seconds) this peer
             has been in the established state or how long since this
             peer was last in the established state.  It is set to
             zero when a new peer is configured or when the router is
             booted.  If the peer has never reached the established
             state, the value remains zero."
        REFERENCE
            "RFC 4271, Section 8."
        ::= { bgp4V2PeerEventTimesEntry 1 }

    bgp4V2PeerInUpdatesElapsedTime OBJECT-TYPE
        SYNTAX     Gauge32
        UNITS      "seconds"
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "Elapsed time (in seconds) since the last BGP UPDATE
             message was received from the peer.  Each time
             bgpPeerInUpdates is incremented, the value of this
             object is set to zero (0)."
        REFERENCE
            "RFC 4271, Section 4.3.
             RFC 4271, Section 8.2.2, Established state."

        ::= { bgp4V2PeerEventTimesEntry 2 }

    --
    -- Per-Peer Configured Timers
    --

    bgp4V2PeerConfiguredTimersTable OBJECT-TYPE
        SYNTAX     SEQUENCE OF Bgp4V2PeerConfiguredTimersEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Per peer management data on BGP session timers."
        ::= { bgp4V2Objects 5 }

    bgp4V2PeerConfiguredTimersEntry OBJECT-TYPE
        SYNTAX     Bgp4V2PeerConfiguredTimersEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Each entry corresponds to the current state of
             BGP timers on a given peering session."
        AUGMENTS {
            bgp4V2PeerEntry
        }
        ::= { bgp4V2PeerConfiguredTimersTable 1 }

    Bgp4V2PeerConfiguredTimersEntry ::= SEQUENCE {
        bgp4V2PeerConnectRetryInterval
            Unsigned32,
        bgp4V2PeerHoldTimeConfigured
            Unsigned32,
        bgp4V2PeerKeepAliveConfigured
            Unsigned32,
        bgp4V2PeerMinASOrigInterval
            Unsigned32,
        bgp4V2PeerMinRouteAdverInterval
            Unsigned32
    }

    bgp4V2PeerConnectRetryInterval OBJECT-TYPE
        SYNTAX     Unsigned32 (1..65535)
        UNITS      "seconds"
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "Time interval (in seconds) for the ConnectRetry timer.
             The suggested value for this timer is 120 seconds."
        REFERENCE
            "RFC 4271, Section 8.2.2.  This is the value used
             to initialize the 'ConnectRetryTimer'."
        ::= { bgp4V2PeerConfiguredTimersEntry 1 }

    bgp4V2PeerHoldTimeConfigured OBJECT-TYPE
        SYNTAX     Unsigned32 ( 0 | 3..65535 )
        UNITS      "seconds"
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "Time interval (in seconds) for the Hold Timer
             established with the peer.  The value of this object is
             calculated by this BGP speaker, using the smaller of the
             values in bgpPeerHoldTimeConfigured and the Hold Time
             received in the OPEN message.

             This value must be at least three seconds if it is not
             zero (0).

             If the Hold Timer has not been established with the
             peer this object MUST have a value of zero (0).

             If the bgpPeerHoldTimeConfigured object has a value of
             (0), then this object MUST have a value of (0)."
        REFERENCE
            "RFC 4271, Section 4.2."
        ::= { bgp4V2PeerConfiguredTimersEntry 2 }

    bgp4V2PeerKeepAliveConfigured OBJECT-TYPE
        SYNTAX     Unsigned32 ( 0 | 1..21845 )
        UNITS      "seconds"
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "Time interval (in seconds) for the KeepAlive timer
             configured for this BGP speaker with this peer.  The
             value of this object will only determine the KEEPALIVE
             messages' frequency relative to the value specified in
             bgpPeerHoldTimeConfigured; the actual time interval for
             the KEEPALIVE messages is indicated by bgpPeerKeepAlive.

             A reasonable maximum value for this timer would be one
             third of that of bgpPeerHoldTimeConfigured.

             If the value of this object is zero (0), no periodic
             KEEPALIVE messages are sent to the peer after the BGP
             connection has been established.  The suggested value
             for this timer is 30 seconds."
        REFERENCE
            "RFC 4271, Section 4.4.
             RFC 4271, Section 10."
        ::= { bgp4V2PeerConfiguredTimersEntry 3 }

    bgp4V2PeerMinASOrigInterval OBJECT-TYPE
        SYNTAX     Unsigned32 (0..65535)
        UNITS      "seconds"
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "Time interval (in seconds) for the
             MinASOriginationInterval timer.

             The suggested value for this timer is 15 seconds."
        REFERENCE
            "RFC 4271, Section 9.2.1.2.
             RFC 4271, Section 10."
        ::= { bgp4V2PeerConfiguredTimersEntry 4 }

    bgp4V2PeerMinRouteAdverInterval OBJECT-TYPE
        SYNTAX     Unsigned32 (0..65535)
        UNITS      "seconds"
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "Time interval (in seconds) for the
             MinRouteAdvertisementInterval timer.

             The suggested value for this timer is 30 seconds for
             EBGP connections and 5 seconds for IBGP connections."
        REFERENCE
            "RFC 4271, Section 9.2.1.1.
             RFC 4271, Section 10."
        ::= { bgp4V2PeerConfiguredTimersEntry 5 }

    --
    -- Per-Peer Negotiated Timers
    --

    bgp4V2PeerNegotiatedTimersTable OBJECT-TYPE
        SYNTAX     SEQUENCE OF Bgp4V2PeerNegotiatedTimersEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Configured values of per-peer timers are seen
             in the bgp4V2PeerConfiguredTimersTable.

             Values in this table reflect the current
             operational values, after negotiation from values
             derived from initial configuration."
        ::= { bgp4V2Objects 6 }

    bgp4V2PeerNegotiatedTimersEntry OBJECT-TYPE
        SYNTAX     Bgp4V2PeerNegotiatedTimersEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Each entry reflects a value of the currently
             operational, negotiated timer as reflected in the
             Bgp4V2PeerNegotiatedTimersEntry."
        AUGMENTS {
            bgp4V2PeerEntry
        }
        ::= { bgp4V2PeerNegotiatedTimersTable 1 }

    Bgp4V2PeerNegotiatedTimersEntry ::= SEQUENCE {
        bgp4V2PeerHoldTime
            Unsigned32,
        bgp4V2PeerKeepAlive
            Unsigned32
    }

    bgp4V2PeerHoldTime OBJECT-TYPE
        SYNTAX     Unsigned32 ( 0 | 3..65535 )
        UNITS      "seconds"
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The value of this object is calculated by this BGP
             Speaker as being;

             zero (0) - if this was the value sent by the peer and
             this value is permitted by this BGP Speaker. In this
             case, no keepalive messages are sent and the Hold Timer
             is not set.

             At least three (3). This value is the smaller of
             the value sent by this peer in the OPEN message and
             bgp4V2PeerHoldTimeConfigured for this peer.

             If the peer is not in the established state, the value
             of this object is zero (0)."
        REFERENCE
            "RFC 4271, Section 4.2."
        ::= { bgp4V2PeerNegotiatedTimersEntry 1 }

    bgp4V2PeerKeepAlive OBJECT-TYPE
        SYNTAX     Unsigned32 ( 0 | 1..21845 )
        UNITS      "seconds"
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "Time interval in seconds for the KeepAlive timer
             established with the peer. The value of this object
             is calculated by this BGP speaker such that, when
             compared with bgp4V2PeerHoldTime, it has the same
             proportion as what bgp4V2PeerKeepAliveConfigured has
             when compared with bgp4V2PeerHoldTimeConfigured. If
             the value of this object is zero (0), it indicates
             that the KeepAlive timer has not been established
             with the peer, or, the value of
             bgp4V2PeerKeepAliveConfigured is zero (0).

             If the peer is not in the established state, the value
             of this object is zero (0)."
        REFERENCE
            "RFC 4271, Section 4.4."
        ::= { bgp4V2PeerNegotiatedTimersEntry 2 }

    --
    -- Per-peer counters
    --

    bgp4V2PeerCountersTable OBJECT-TYPE
        SYNTAX     SEQUENCE OF Bgp4V2PeerCountersEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The counters associated with a BGP Peer."
        ::= { bgp4V2Objects 7 }

    bgp4V2PeerCountersEntry OBJECT-TYPE
        SYNTAX     Bgp4V2PeerCountersEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Each entry contains counters of message transmissions
             and FSM transitions for a given BGP Peering session."
        AUGMENTS {
            bgp4V2PeerEntry
        }
        ::= { bgp4V2PeerCountersTable 1 }

    Bgp4V2PeerCountersEntry ::= SEQUENCE {
        bgp4V2PeerInUpdates
            Counter32,
        bgp4V2PeerOutUpdates
            Counter32,
        bgp4V2PeerInTotalMessages
            Counter32,
        bgp4V2PeerOutTotalMessages
            Counter32,
        bgp4V2PeerFsmEstablishedTransitions
            Counter32
    }

    bgp4V2PeerInUpdates OBJECT-TYPE
        SYNTAX     Counter32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The number of BGP UPDATE messages received on this
             connection."
        ::= { bgp4V2PeerCountersEntry 1 }

    bgp4V2PeerOutUpdates OBJECT-TYPE
        SYNTAX     Counter32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The number of BGP UPDATE messages transmitted on this
             connection."
        ::= { bgp4V2PeerCountersEntry 2 }

    bgp4V2PeerInTotalMessages OBJECT-TYPE
        SYNTAX     Counter32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The total number of messages received from the remote
             peer on this connection."
        ::= { bgp4V2PeerCountersEntry 3 }

    bgp4V2PeerOutTotalMessages OBJECT-TYPE
        SYNTAX     Counter32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The total number of messages transmitted to the remote
             peer on this connection."
        ::= { bgp4V2PeerCountersEntry 4 }

    bgp4V2PeerFsmEstablishedTransitions OBJECT-TYPE
        SYNTAX     Counter32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The total number of times the BGP FSM transitioned into
             the established state for this peer."
        ::= { bgp4V2PeerCountersEntry 5 }

    --
    -- Per-Peer Prefix Gauges
    --

    bgp4V2PrefixGaugesTable OBJECT-TYPE
        SYNTAX     SEQUENCE OF Bgp4V2PrefixCountersEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Additional per-peer, per AFI-SAFI counters for
             prefixes"
        ::= { bgp4V2Objects 8 }

    bgp4V2PrefixGaugesEntry OBJECT-TYPE
        SYNTAX     Bgp4V2PrefixCountersEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Entry containing information about a bgp-peers prefix
             counters."
        INDEX {
            bgp4V2PeerInstance,
            bgp4V2PeerRemoteAddrType,
            bgp4V2PeerRemoteAddr,
            bgp4V2PrefixGaugesAfi,
            bgp4V2PrefixGaugesSafi
        }
        ::= { bgp4V2PrefixGaugesTable 1 }

    Bgp4V2PrefixCountersEntry ::= SEQUENCE {
        bgp4V2PrefixGaugesAfi
            Bgp4V2AddressFamilyIdentifierTC,
        bgp4V2PrefixGaugesSafi
            Bgp4V2SubsequentAddressFamilyIdentifierTC,
        bgp4V2PrefixInPrefixes
            Gauge32,
        bgp4V2PrefixInPrefixesAccepted
            Gauge32,
        bgp4V2PrefixOutPrefixes
            Gauge32
    }

    bgp4V2PrefixGaugesAfi OBJECT-TYPE
        SYNTAX     Bgp4V2AddressFamilyIdentifierTC
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The AFI index of the per-peer, per prefix counters"
        ::= { bgp4V2PrefixGaugesEntry 1 }

    bgp4V2PrefixGaugesSafi OBJECT-TYPE
        SYNTAX     Bgp4V2SubsequentAddressFamilyIdentifierTC
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The SAFI index of the per-peer, per prefix counters"
        ::= { bgp4V2PrefixGaugesEntry 2 }

    bgp4V2PrefixInPrefixes OBJECT-TYPE
        SYNTAX     Gauge32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The number of prefixes received from a peer and are
             stored in the Adj-Ribs-In for that peer.

             Note that this number does not reflect prefixes that
             have been discarded due to policy."
        REFERENCE
            "RFC 4271, Sections 3.2 and 9."
        ::= { bgp4V2PrefixGaugesEntry 3 }

    bgp4V2PrefixInPrefixesAccepted OBJECT-TYPE
        SYNTAX     Gauge32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The number of prefixes for a peer that are installed
             in the Adj-Ribs-In and are eligible to become active
             in the Loc-Rib."
        REFERENCE
            "RFC 4271, Sections 3.2 and 9."
        ::= { bgp4V2PrefixGaugesEntry 4 }

    bgp4V2PrefixOutPrefixes OBJECT-TYPE
        SYNTAX     Gauge32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The number of prefixes for a peer that are installed
             in that peer's Adj-Ribs-Out."
        REFERENCE
            "RFC 4271, Sections 3.2 and 9."
        ::= { bgp4V2PrefixGaugesEntry 5 }

    --
    -- BGP NLRI
    --

    bgp4V2NlriTable OBJECT-TYPE
        SYNTAX     SEQUENCE OF Bgp4V2NlriEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The BGP-4 Received Path Attribute Table contains
             information about paths to destination networks
             received from all BGP4 peers. Collectively, this
             represents the Adj-Ribs-In. The route where
             bgp4V2NlriBest is true represents, for this NLRI,
             the route that is installed in the LocRib from the
             Adj-Ribs-In."
        REFERENCE
            "RFC 4271, Sections 3.2 and 9."
        ::= { bgp4V2Objects 9 }

    bgp4V2NlriEntry OBJECT-TYPE
        SYNTAX     Bgp4V2NlriEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Information about a path to a network."
        INDEX {
            bgp4V2PeerInstance,
            bgp4V2NlriAfi,
            bgp4V2NlriSafi,
            bgp4V2NlriPrefixType,
            bgp4V2NlriPrefix,
            bgp4V2NlriPrefixLen,
            bgp4V2PeerRemoteAddrType,
            bgp4V2PeerRemoteAddr,
            bgp4V2NlriIndex
        }
        ::= { bgp4V2NlriTable 1 }

    Bgp4V2NlriEntry ::= SEQUENCE {
        bgp4V2NlriIndex
            Unsigned32,
        bgp4V2NlriAfi
            Bgp4V2AddressFamilyIdentifierTC,
        bgp4V2NlriSafi
            Bgp4V2SubsequentAddressFamilyIdentifierTC,
         bgp4V2NlriPrefixType
             InetAddressType,
        bgp4V2NlriPrefix
            InetAddress,
        bgp4V2NlriPrefixLen
            InetAddressPrefixLength,
        bgp4V2NlriBest
            TruthValue,
        bgp4V2NlriCalcLocalPref
            Unsigned32,
        bgp4V2NlriOrigin
            INTEGER,
        bgp4V2NlriNextHopAddrType
            InetAddressType,
        bgp4V2NlriNextHopAddr
            InetAddress,
        bgp4V2NlriLinkLocalNextHopAddrType
            InetAddressType,
        bgp4V2NlriLinkLocalNextHopAddr
            InetAddress,
        bgp4V2NlriLocalPrefPresent
            TruthValue,
        bgp4V2NlriLocalPref
            Unsigned32,
        bgp4V2NlriMedPresent
            TruthValue,
        bgp4V2NlriMed
            Unsigned32,
        bgp4V2NlriAtomicAggregate
            INTEGER,
        bgp4V2NlriAggregatorPresent
            TruthValue,
        bgp4V2NlriAggregatorAS
            InetAutonomousSystemNumber,
        bgp4V2NlriAggregatorAddr
            Bgp4V2IdentifierTC,
        bgp4V2NlriAsPathCalcLength
            Unsigned32,
        bgp4V2NlriAsPathString
            SnmpAdminString,
        bgp4V2NlriAsPath
            OCTET STRING,
        bgp4V2NlriPathAttrUnknown
            OCTET STRING
    }

    bgp4V2NlriIndex OBJECT-TYPE
        SYNTAX     Unsigned32
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "This index allows for multiple instances of a base
             prefix for a certain AFI-SAFI from a given peer.
             This is currently useful for two things:
             1. Allowing for a peer in future implementations to
                send more than a single route instance.
             2. Allow for extensions which extend the NLRI field
                to send the same prefix while utilizing other
                extension specific information. An example of
                this is RFC 3107 - Carrying MPLS labels in BGP."
        REFERENCE
            "RFC 3107 - Carrying Label Information in BGP-4."
        ::= { bgp4V2NlriEntry 1 }

    bgp4V2NlriAfi OBJECT-TYPE
        SYNTAX     Bgp4V2AddressFamilyIdentifierTC
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The address family of the prefix for this NLRI.

             Note that the AFI is not necessarily equivalent to
             the an InetAddressType."
        REFERENCE
            "RFC 4760 - Multiprotocol Extensions for BGP-4"
        ::= { bgp4V2NlriEntry 2 }

    bgp4V2NlriSafi OBJECT-TYPE
        SYNTAX     Bgp4V2SubsequentAddressFamilyIdentifierTC
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The subsequent address family of the prefix for
             this NLRI"
        REFERENCE
            "RFC 4760 - Multiprotocol Extensions for BGP-4"
        ::= { bgp4V2NlriEntry 3 }

    bgp4V2NlriPrefixType OBJECT-TYPE
        SYNTAX     InetAddressType
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "The type of the IP address prefix in the
             Network Layer Reachability Information field.
             The value of this object is derived from the
             appropriate value from the bgp4V2NlriAfi field.
             Where an appropriate InetAddressType is not
             available, the value of the object must be
             unknown(0)."
        ::= { bgp4V2NlriEntry 4 }

    bgp4V2NlriPrefix OBJECT-TYPE
        SYNTAX     InetAddress
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "An IP address prefix in the Network Layer
             Reachability Information field. This object
             is an IP address containing the prefix with
             length specified by bgp4V2NlriPrefixLen.
             Any bits beyond the length specified by
             bgp4V2NlriPrefixLen are zeroed."
        REFERENCE
            "RFC 4271, Section 4.3."
        ::= { bgp4V2NlriEntry 5 }

    bgp4V2NlriPrefixLen OBJECT-TYPE
        SYNTAX     InetAddressPrefixLength
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Length in bits of the address prefix in
             the Network Layer Reachability Information field."
        ::= { bgp4V2NlriEntry 6 }

    bgp4V2NlriBest OBJECT-TYPE
        SYNTAX     TruthValue
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "An indication of whether or not this route
             was chosen as the best BGP4 route for this
             destination."
        REFERENCE
            "RFC 4271, Section 9.1.2."
        ::= { bgp4V2NlriEntry 7 }

    bgp4V2NlriCalcLocalPref OBJECT-TYPE
        SYNTAX     Unsigned32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The degree of preference calculated by the
             receiving BGP4 speaker for an advertised
             route.

             In the case where this prefix is ineligible, the
             value of this object will be zero (0)."
        REFERENCE
            "RFC 4271, Section 9.1.1"
        ::= { bgp4V2NlriEntry 8 }

    bgp4V2NlriOrigin OBJECT-TYPE
        SYNTAX     INTEGER {
            igp(1),-- networks are interior
            egp(2),-- networks learned via the EGP protocol
            incomplete(3) -- networks that
                          -- are learned by some other
                          -- means
            }
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The ultimate origin of the path information."
        REFERENCE
            "RFC 4271, Section 4.3.
             RFC 4271, Section 5.1.1."
        ::= { bgp4V2NlriEntry 9 }

    bgp4V2NlriNextHopAddrType OBJECT-TYPE
        SYNTAX     InetAddressType
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The address family of the address for
             the border router that should be used
             to access the destination network."
        ::= { bgp4V2NlriEntry 10 }

    bgp4V2NlriNextHopAddr OBJECT-TYPE
        SYNTAX     InetAddress (SIZE(4..20))
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The address of the border router that
             should be used to access the destination
             network. This address is the nexthop
             address received in the UPDATE packet associated with
             this prefix.

             Note that for RFC2545 style double nexthops,
             this object will always contain the global scope
             nexthop. bgpPathAttrLinkLocalNextHop will contain
             the linklocal scope nexthop, if it is present.

             In the case a mechanism is developed to use only a link
             local nexthop, bgp4V2NlriNextHopAddr will contain the
             link local nexthop."
        REFERENCE
            "RFC 4271, Section 4.3,
             RFC 4271, Section 5.1.3,
             RFC 2545, Section 3."
        ::= { bgp4V2NlriEntry 11 }

    bgp4V2NlriLinkLocalNextHopAddrType OBJECT-TYPE
        SYNTAX     InetAddressType
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The address type for IPv6 link local addresses.
             This is present only when receiving RFC 2545
             style double nexthops.

             This object is optionally present in BGP
             implementations that do not support IPv6.

             When no IPv6 link local nexthop is present, the value of
             this object should be unknown(0)."
        REFERENCE
            "RFC 2545, Section 3."
        ::= { bgp4V2NlriEntry 12 }

    bgp4V2NlriLinkLocalNextHopAddr OBJECT-TYPE
        SYNTAX     InetAddress
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This value contains an IPv6 link local address
             and is present only when receiving RFC 2545 style
             double nexthops.

             This object is optionally present in BGP
             implementations that do not support IPv6.

             When no IPv6 link local nexthop is present, the length of
             this object should be zero."
        REFERENCE
            "RFC 2545, Section 3."
        ::= { bgp4V2NlriEntry 13 }

    bgp4V2NlriLocalPrefPresent OBJECT-TYPE
        SYNTAX     TruthValue
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This value is true when the LOCAL_PREF value was sent in
             the UPDATE message."
        ::= { bgp4V2NlriEntry 14 }

    bgp4V2NlriLocalPref OBJECT-TYPE
        SYNTAX     Unsigned32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The originating BGP4 speakers degree of preference for an
             advertised route."
        REFERENCE
            "RFC 4271, Section 4.3.
             RFC 4271, Section 5.1.5."
        ::= { bgp4V2NlriEntry 15 }

    bgp4V2NlriMedPresent OBJECT-TYPE
        SYNTAX     TruthValue
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This value is true when the MED value was sent in
             the UPDATE message."
        ::= { bgp4V2NlriEntry 16 }

    bgp4V2NlriMed OBJECT-TYPE
        SYNTAX     Unsigned32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This metric is used to discriminate between multiple
             exit points to an adjacent autonomous system.  When the MED
             value is absent but has a calculated default value, this
             object will contain the calculated value."
        REFERENCE
            "RFC 4271, Section 4.3.
             RFC 4271, Section 5.1.4."
        ::= { bgp4V2NlriEntry 17 }

    bgp4V2NlriAtomicAggregate OBJECT-TYPE
        SYNTAX     TruthValue
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This value is true when the ATOMIC_AGGREGATE Path Attribute
             is present and indicates that the NLRI MUST NOT be made
             more specific."
        REFERENCE
            "RFC 4271, Sections 5.1.6 and 9.1.4."
        ::= { bgp4V2NlriEntry 18 }

    bgp4V2NlriAggregatorPresent OBJECT-TYPE
        SYNTAX     TruthValue
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This value is true when the AGGREGATOR path attribute
             was sent in the UPDATE message."
        ::= { bgp4V2NlriEntry 19 }

    bgp4V2NlriAggregatorAS OBJECT-TYPE
        SYNTAX     InetAutonomousSystemNumber
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The AS number of the last BGP4 speaker that performed route
             aggregation. When bgp4V2NlriAggregatorPresent is
             false, the value of this object should be zero (0)."
        REFERENCE
            "RFC 4271, Section 5.1.7.
             RFC 4271, Section 9.2.2.2."
        ::= { bgp4V2NlriEntry 20 }

    bgp4V2NlriAggregatorAddr OBJECT-TYPE
        SYNTAX     Bgp4V2IdentifierTC
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "The IP address of the last BGP4 speaker that performed
             route aggregation.  When bgp4V2NlriAggregatorPresent is
             false, the value of this object should be 0.0.0.0"
        REFERENCE
            "RFC 4271, Section 5.1.7.
             RFC 4271, Section 9.2.2.2."
        ::= { bgp4V2NlriEntry 21 }

    bgp4V2NlriAsPathCalcLength OBJECT-TYPE
        SYNTAX     Unsigned32
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This value represents the calculated length of the
             AS Path according to the rules of the BGP
             specification.  This value is used in route selection."
        REFERENCE
            "RFC 4271, Section 9.1.2.2.a"
        ::= { bgp4V2NlriEntry 22 }

    bgp4V2NlriAsPathString OBJECT-TYPE
        SYNTAX     SnmpAdminString
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This is a string depicting the autonomous system
             path to this network which was received from the
             peer which advertised it. The format of the string
             is implementation-dependent, and should be designed
             for operator readability.

             Note that SnmpAdminString is only capable of representing a
             maximum of 255 characters.  This may lead to the string
             being truncated in the presence of a large AS Path.  It is
             RECOMMENDED that when this object's contents will be
             truncated that the final 3 octets be reserved for the
             ellipses string, '...'.  bgp4V2NlriAsPath may give access
             to the full AS Path."
         ::= { bgp4V2NlriEntry 23 }

    -- Maximum size of the following is derived as
    -- 4096 max message size
    -- - 16 BGP message marker bytes
    -- - 2 BGP message size
    -- - 1 BGP message type (UPDATE with unknown attr)
    -- - 2 UPDATE routes length (even assuming no routes)
    -- - 2 UPDATE path attributes length
    -- - 1 path attribute flag octet
    -- ---------
    -- 4072 bytes maximum per-message attribute value data

    bgp4V2NlriAsPath OBJECT-TYPE
        SYNTAX     OCTET STRING (SIZE(2..4072))
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "In order to provide a canonicalized form of the BGP-4
             AS_PATH along with the human-readable
             bgp4V2NlriAsPathString, which may be truncated, this object
             contains the contents of the BGP-4 AS_PATH Path Attribute.
             This object may be parsed using the rules defined for
             Four-octet ASes as defined in RFC 4893.  RFC 4271, Section
             4.3, 'Path Attributes: b) AS_PATH' as amended by RFC 5065,
             Section 3 defines the general format of the AS_PATH path
             attribute and its code points.

             In brief, the AS_PATH is composed of a sequence of AS
             Segments.  Each AS Segment is represented by a triple:
             <path segment type, path segment length,
             path segment value>.

             The path segment type and path segment length fields are
             one octet in length each.

             The path segment type field may be one of:
               1 - AS_SET (RFC 4721, Section 4.3)
               2 - AS_SEQUENCE (RFC 4721, Section 4.3)
               3 - AS_CONFED_SEQUENCE (RFC 3065, Section 5)
               4 - AS_CONFED_SET (RFC 3065, Section 5)

             The path segment length field contains the number of ASes
             (not the number of octets) in the path segment value field.

             The path segment value field contains one or more AS
             numbers, each encoded as a 4-octet length field in network
             byte order.

             Note that since an SNMP agent may truncate this object to
             less than its maximum theoretical length of 4072 octets
             users of this object should be prepared to deal with a
             truncated and thus malformed AS_PATH.  It is RECOMMENDED
             that when such truncation would occur on the boundary of an
             encoded AS that the partial AS be discarded from this
             object and the object's size be adjusted accordingly.
             Further, it is also RECOMMENDED that when such truncation,
             either alone or in conjuction with the truncation of a
             partially encoded AS described previously, would yield an
             empty path segment value field that the path segment type
             and path segment length components of the truncated AS_PATH
             also be discarded and the object's size be adjusted
             accordingly."
         REFERENCE
             "RFC 4271, Section 4.3.
              RFC 5065, Section 5.
              RFC 4893."
         ::= { bgp4V2NlriEntry 24 }

    bgp4V2NlriPathAttrUnknown OBJECT-TYPE
        SYNTAX     OCTET STRING (SIZE(0..4072))
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "Path Attributes not understood by this implementation
             SHOULD be be presented in this object.  Those Path
             Attributes use the type, length, value encoding documented
             in RFC 4271, Section 4.3, 'Path Attributes'.

             Note that since an SNMP agent may truncate this object to
             less than its maximum theoretical length of 4072 octets
             users of this object should be prepared to deal with a
             truncated and thus malformed Path Attribute."
         REFERENCE
             "RFC 4271, Section 4.3."
         ::= { bgp4V2NlriEntry 25 }



    --
    -- Adj-Ribs-Out Table
    --

    bgp4V2AdjRibsOutTable OBJECT-TYPE
        SYNTAX     SEQUENCE OF Bgp4V2AdjRibsOutEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "This table contains on a per-peer basis one or more
             routes from the bgp4V2NlriTable that have been
             placed in this peer's Adj-Ribs-Out."
        REFERENCE
            "RFC 4271, Section 3.2."
        ::= { bgp4V2Objects 10 }

    bgp4V2AdjRibsOutEntry OBJECT-TYPE
        SYNTAX     Bgp4V2AdjRibsOutEntry
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "List of BGP routes that have been placed into a
             peer's Adj-Ribs-Out."
        INDEX {
            bgp4V2PeerInstance,
            bgp4V2NlriAfi,
            bgp4V2NlriSafi,
            bgp4V2NlriPrefixType,
            bgp4V2NlriPrefix,
            bgp4V2NlriPrefixLen,
            bgp4V2PeerRemoteAddrType,
            bgp4V2PeerRemoteAddr,
            bgp4V2AdjRibsOutIndex
        }
        ::= { bgp4V2AdjRibsOutTable 1 }

    Bgp4V2AdjRibsOutEntry ::= SEQUENCE {
        bgp4V2AdjRibsOutIndex
            Unsigned32,
        bgp4V2AdjRibsOutRoute
            RowPointer
    }

    bgp4V2AdjRibsOutIndex OBJECT-TYPE
        SYNTAX     Unsigned32
        MAX-ACCESS not-accessible
        STATUS     current
        DESCRIPTION
            "Certain extensions to BGP permit multiple instance of
             a per afi, per safi prefix to be advertised to a peer.
             This object allows the enumeration of them."
        ::= { bgp4V2AdjRibsOutEntry 1 }

    bgp4V2AdjRibsOutRoute OBJECT-TYPE
        SYNTAX     RowPointer
        MAX-ACCESS read-only
        STATUS     current
        DESCRIPTION
            "This object points to the route in the bgp4V2NlriTable
             that corresponds to the entry in the peer's
             Adj-Rib-Out. Outgoing route maps are not
             reflected at this point as those are part of the
             Update-Send process."
        REFERENCE
            "RFC 4271, Section 9.2."
        ::= { bgp4V2AdjRibsOutEntry 2 }

    --
    -- Notifications
    --

    bgp4V2EstablishedNotification NOTIFICATION-TYPE
        OBJECTS {
            bgp4V2PeerState,
            bgp4V2PeerLocalPort,
            bgp4V2PeerRemotePort
        }
        STATUS current
        DESCRIPTION
            "The BGP Established event is generated when
             the BGP FSM enters the established state."
        ::= { bgp4V2Notifications 1 }

    bgp4V2BackwardTransitionNotification NOTIFICATION-TYPE
        OBJECTS {
            bgp4V2PeerState,
            bgp4V2PeerLocalPort,
            bgp4V2PeerRemotePort,
            bgp4V2PeerLastErrorCodeReceived,
            bgp4V2PeerLastErrorSubCodeReceived,
            bgp4V2PeerLastErrorReceivedText
        }
        STATUS current
        DESCRIPTION
            "The BGPBackwardTransition Event is generated
             when the BGP FSM moves from a higher numbered
             state to a lower numbered state.

             Due to the nature of the BGP state machine, an
             implementation MAY rate limit the generation of this event.
             An implementation MAY also generate this notification ONLY
             when the state machine moves out of the established state.
             An implementation should document its specific behavior."
        ::= { bgp4V2Notifications 2 }

    --
    -- Conformance Information
    --

    bgp4V2Compliances OBJECT IDENTIFIER ::=
        { bgp4V2Conformance 1 }

    bgp4V2Groups OBJECT IDENTIFIER ::=
        { bgp4V2Conformance 2 }

    bgp4V2Compliance MODULE-COMPLIANCE
        STATUS current
        DESCRIPTION
            "The compliance statement for entities which
            implement the BGP4 mib."
        MODULE -- this module
        MANDATORY-GROUPS {
            bgp4V2StdMIBTimersGroup,
            bgp4V2StdMIBCountersGroup,
            bgp4V2StdMIBErrorsGroup,
            bgp4V2StdMIBPeerGroup,
            bgp4V2StdMIBNlriGroup,
            bgp4V2GlobalsGroup
            }
        GROUP bgp4V2StdMIBNotificationGroup
        DESCRIPTION
            "Implementation of BGP Notifications are completely
             optional in this MIB."

        OBJECT bgp4V2PeerLocalAddr
        SYNTAX InetAddress (SIZE(4|16|20))
        DESCRIPTION
            "An implementation is required to support IPv4 peering
             sessions.  An implementation MAY support IPv6 peering
             sessions.  IPv6 link-local peering sessions MAY be
             supported by this MIB."

        OBJECT bgp4V2PeerRemoteAddr
        SYNTAX InetAddress (SIZE(4|16|20))
        DESCRIPTION
            "An implementation is required to support IPv4 peering
             sessions.  An implementation MAY support IPv6 peering
             sessions.  IPv6 link-local peering sessions MAY be
             supported by this MIB."

        OBJECT bgp4V2NlriPrefix
        SYNTAX InetAddress (SIZE(0..16))
        DESCRIPTION
            "An implementation is required to support IPv4 prefixes.
             An implementation MAY support IPv6 prefixes."

        OBJECT bgp4V2NlriLinkLocalNextHopAddrType
        SYNTAX InetAddressType
        DESCRIPTION
            "This object is only present when RFC 2545 extensions for
             IPv6 are supported by the implementation.  When present,
             this object shall only have a value of ipv6z or none."

        OBJECT bgp4V2NlriLinkLocalNextHopAddr
        SYNTAX InetAddress (SIZE(0|20))
        DESCRIPTION
            "This object is only present when RFC 2545 extensions for
             IPv6 are supported by the implementation.  When present,
             this object shall only have a size of 20 or 0 when no
             RFC 2545 double-nexthop is present."

        OBJECT bgp4V2PeerInstance
        SYNTAX Unsigned32 (1..4294967295)
        DESCRIPTION
            "This object represents an abstract index which can utilize
             the full range of acceptable SNMP index values."

        ::= { bgp4V2Compliances 4 }

    bgp4V2GlobalsGroup OBJECT-GROUP
        OBJECTS { bgp4V2DiscontinuityTime }
        STATUS current
        DESCRIPTION
            "A collection of objects providing information on global
             BGP state."
        ::= { bgp4V2Groups 1 }

    bgp4V2StdMIBTimersGroup OBJECT-GROUP
        OBJECTS {
            bgp4V2PeerFsmEstablishedTime,
            bgp4V2PeerInUpdatesElapsedTime,
            bgp4V2PeerConnectRetryInterval,
            bgp4V2PeerHoldTimeConfigured,
            bgp4V2PeerKeepAliveConfigured,
            bgp4V2PeerMinASOrigInterval,
            bgp4V2PeerMinRouteAdverInterval,
            bgp4V2PeerHoldTime,
            bgp4V2PeerKeepAlive
        }
        STATUS current
        DESCRIPTION
            "Objects associated with BGP peering timers."
        ::= { bgp4V2Groups 2 }

    bgp4V2StdMIBCountersGroup OBJECT-GROUP
        OBJECTS {
            bgp4V2PeerInUpdates,
            bgp4V2PeerOutUpdates,
            bgp4V2PeerInTotalMessages,
            bgp4V2PeerOutTotalMessages,
            bgp4V2PeerFsmEstablishedTransitions,
            bgp4V2PrefixInPrefixes,
            bgp4V2PrefixInPrefixesAccepted,
            bgp4V2PrefixOutPrefixes
        }
        STATUS current
        DESCRIPTION
            "Objects to count discrete events and exchanges on BGP
             sessions."
         ::= { bgp4V2Groups 3 }

    bgp4V2StdMIBErrorsGroup OBJECT-GROUP
        OBJECTS {
            bgp4V2PeerLastErrorCodeReceived,
            bgp4V2PeerLastErrorSubCodeReceived,
            bgp4V2PeerLastErrorReceivedData,
            bgp4V2PeerLastErrorReceivedTime,
            bgp4V2PeerLastErrorReceivedText,
            bgp4V2PeerLastErrorCodeSent,
            bgp4V2PeerLastErrorSubCodeSent,
            bgp4V2PeerLastErrorSentData,
            bgp4V2PeerLastErrorSentTime,
            bgp4V2PeerLastErrorSentText
        }
        STATUS current
        DESCRIPTION
            "Errors received on BGP peering sessions."
        ::= { bgp4V2Groups 5 }

    bgp4V2StdMIBPeerGroup OBJECT-GROUP
        OBJECTS {
            bgp4V2PeerState,
            bgp4V2PeerAdminStatus,
            bgp4V2PeerLocalPort,
            bgp4V2PeerLocalAs,
            bgp4V2PeerRemotePort,
            bgp4V2PeerRemoteAs,
            bgp4V2PeerLocalIdentifier,
            bgp4V2PeerRemoteIdentifier,
            bgp4V2PeerDescription
        }
        STATUS current
        DESCRIPTION
            "Core object types on BGP peering sessions."
        ::= { bgp4V2Groups 6 }

    bgp4V2StdMIBNlriGroup OBJECT-GROUP
        OBJECTS {
            bgp4V2NlriAsPathCalcLength,
            bgp4V2NlriAsPathString,
            bgp4V2NlriBest,
            bgp4V2NlriCalcLocalPref,
            bgp4V2NlriPrefixType,
            bgp4V2AdjRibsOutRoute,
            bgp4V2NlriAggregatorPresent,
            bgp4V2NlriAggregatorAS,
            bgp4V2NlriAggregatorAddr,
            bgp4V2NlriAtomicAggregate,
            bgp4V2NlriLocalPref,
            bgp4V2NlriLocalPrefPresent,
            bgp4V2NlriMed,
            bgp4V2NlriMedPresent,
            bgp4V2NlriNextHopAddr,
            bgp4V2NlriNextHopAddrType,
            bgp4V2NlriLinkLocalNextHopAddrType,
            bgp4V2NlriLinkLocalNextHopAddr,
            bgp4V2NlriOrigin,
            bgp4V2NlriAsPath,
            bgp4V2NlriPathAttrUnknown
        }
        STATUS current
        DESCRIPTION
            "Attributes received on BGP peering sessions."
        ::= { bgp4V2Groups 7 }

    bgp4V2StdMIBNotificationGroup NOTIFICATION-GROUP
        NOTIFICATIONS {
            bgp4V2EstablishedNotification,
            bgp4V2BackwardTransitionNotification
        }
        STATUS current
        DESCRIPTION
            "Notifications in this modules are completely optional."
        ::= { bgp4V2Groups 8 }

END


 TOC 

8.  Security Considerations

There are no management objects defined in this MIB module that have a MAX-ACCESS clause of read-write and/or read-create. So, if this MIB module is implemented correctly, then there is no risk that an intruder can alter or create any management objects of this MIB module via direct SNMP SET operations.

Some of the readable objects in this MIB module (i.e., objects with a MAX-ACCESS other than not-accessible) may be considered sensitive or vulnerable in some network environments. It is thus important to control even GET and/or NOTIFY access to these objects and possibly to even encrypt the values of these objects when sending them over the network via SNMP. These are the tables and objects and their sensitivity/vulnerability:

SNMP versions prior to SNMPv3 did not include adequate security. Even if the network itself is secure (for example by using IPSec), even then, there is no control as to who on the secure network is allowed to access and GET/SET (read/change/create/delete) the objects in this MIB module.

It is RECOMMENDED that implementers consider the security features as provided by the SNMPv3 framework (see [RFC3410] (Case, J., Mundy, R., Partain, D., and B. Stewart, “Introduction and Applicability Statements for Internet-Standard Management Framework,” December 2002.), section 8), including full support for the SNMPv3 cryptographic mechanisms (for authentication and privacy).

Further, deployment of SNMP versions prior to SNMPv3 is NOT RECOMMENDED. Instead, it is RECOMMENDED to deploy SNMPv3 and to enable cryptographic security. It is then a customer/operator responsibility to ensure that the SNMP entity giving access to an instance of this MIB module is properly configured to give access to the objects only to those principals (users) that have legitimate rights to indeed GET or SET (change/create/delete) them.



 TOC 

9.  IANA Considerations

IANA is requested to assign this MIB module an OID under mib-2.



 TOC 

10.  Contributors

This document owes significant thanks over the years to Wayne Tackabury, Susan Hares and the members of the IDR and OPS-NM mailing lists. This document represents several years of negotiating operational needs, Internet operational security considerations and the sheer messiness of representing the BGP protocol in SMIv2.

I owe particular thanks to Susan Hares as a mentor who let me dive head-first into the world of Internet standards work by saying, "We have this MIB that just needs a little cleanup to advance in the standards process."



 TOC 

11.  Acknowledgements

We would like to acknowledge the assistance of all the members of the Inter-Domain Routing Working Group and individuals who contributed to RFCs 1269, 1657 and 4273.

The origin of this document is from RFC 1269 "Definitions of Managed Objects for the Border Gateway Protocol (Version 3)" written by Steve Willis and John Burruss, which was updated by John Chu to support BGP-4 in RFC 1657. The author wishes to acknowledge the fine work of these original authors.



 TOC 

12.  References



 TOC 

12.1. Normative References

[RFC2119] Bradner, S., “Key words for use in RFCs to Indicate Requirement Levels,” BCP 14, RFC 2119, March 1997 (TXT, HTML, XML).
[RFC2578] McCloghrie, K., Ed., Perkins, D., Ed., and J. Schoenwaelder, Ed., “Structure of Management Information Version 2 (SMIv2),” STD 58, RFC 2578, April 1999 (TXT).
[RFC2579] McCloghrie, K., Ed., Perkins, D., Ed., and J. Schoenwaelder, Ed., “Textual Conventions for SMIv2,” STD 58, RFC 2579, April 1999 (TXT).
[RFC2580] McCloghrie, K., Perkins, D., and J. Schoenwaelder, “Conformance Statements for SMIv2,” STD 58, RFC 2580, April 1999 (TXT).
[RFC3411] Harrington, D., Presuhn, R., and B. Wijnen, “An Architecture for Describing Simple Network Management Protocol (SNMP) Management Frameworks,” STD 62, RFC 3411, December 2002 (TXT).
[RFC4271] Rekhter, Y., Li, T., and S. Hares, “A Border Gateway Protocol 4 (BGP-4),” RFC 4271, January 2006 (TXT).
[RFC4273] Haas, J. and S. Hares, “Definitions of Managed Objects for BGP-4,” RFC 4273, January 2006 (TXT).
[RFC2545] Marques, P. and F. Dupont, “Use of BGP-4 Multiprotocol Extensions for IPv6 Inter-Domain Routing,” RFC 2545, March 1999 (TXT).
[RFC4001] Daniele, M., Haberman, B., Routhier, S., and J. Schoenwaelder, “Textual Conventions for Internet Network Addresses,” RFC 4001, February 2005 (TXT).
[RFC4760] Bates, T., Chandra, R., Katz, D., and Y. Rekhter, “Multiprotocol Extensions for BGP-4,” RFC 4760, January 2007 (TXT).
[RFC5065] Traina, P., McPherson, D., and J. Scudder, “Autonomous System Confederations for BGP,” RFC 5065, August 2007 (TXT).


 TOC 

12.2. Informative References

[RFC3410] Case, J., Mundy, R., Partain, D., and B. Stewart, “Introduction and Applicability Statements for Internet-Standard Management Framework,” RFC 3410, December 2002 (TXT).
[RFC1657] Willis, S., Burruss, J., and J. Chu, “Definitions of Managed Objects for the Fourth Version of the Border Gateway Protocol (BGP-4) using SMIv2,” RFC 1657, July 1994 (TXT).
[RFC3107] Rekhter, Y. and E. Rosen, “Carrying Label Information in BGP-4,” RFC 3107, May 2001 (TXT).
[RFC4022] Raghunarayan, R., “Management Information Base for the Transmission Control Protocol (TCP),” RFC 4022, March 2005 (TXT).
[RFC4456] Bates, T., Chen, E., and R. Chandra, “BGP Route Reflection: An Alternative to Full Mesh Internal BGP (IBGP),” RFC 4456, April 2006 (TXT).


 TOC 

Author's Address

  Jeffrey Haas
  Arbor Networks
 
Phone: 
EMail:  jhaas@arbor.net