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draft-ietf-sigtran-sctp-mib-05

Description: Request For Comments

You can download source copies of the file as follows:

draft-ietf-sigtran-sctp-mib-05.txt in text format.

Listed below is the contents of file draft-ietf-sigtran-sctp-mib-05.txt.




 Network Working Group                                          J. Pastor
 INTERNET-DRAFT                                              M. Belinchon
 Expires: April 2002                                             Ericsson

                                                            November, 2001

                    Stream Control Transmission Protocol
                  Management Information Base using SMIv2
                    <draft-ietf-sigtran-sctp-mib-05.txt>

 Status of this memo

    This document is an Internet-Draft and is in full conformance with
    all provisions of Section 10 of RFC2026.

    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.

    Internet-Drafts are draft documents valid for a maximum of six months
    and may be updated, replaced, or obsoleted by other documents at any
    time. It is inappropriate to use Internet-Drafts as reference
    material or cite them other than as "work in progress".

    The list of current Internet-Drafts can be accessed at
    http://www.ietf.org/ietf/lid-abstracts.txt

    The list of Internet-Draft Shadow Directories can be accessed at
    http://www.ietf.org/shadow.html

    This document is an individual submission to the IETF. Comments
    should be directed to the authors.

 Abstract

    The Stream Control Transmission Protocol (SCTP) is a reliable
    transport protocol operating on top of a connectionless packet
    network such as IP, designed to transport PSTN signaling messages
    over the connectionless packet network, but is capable of broader
    applications.

    This memo defines the Management Information Base (MIB) module which
    describes the minimum amount of objects needed to manage the
    implementation of the SCTP.

 Pastor, Belinchon                                               [Page 1]

 INTERNET-DRAFT            SCTP MIB using SMIv2             October, 2001

 Open Issues

       - Remove this section.

       - Remove Revision History

       - Decide under which object identifier branch of the SNMP tree,
          SCTP will be placed (value obtained when submitted to the IETF
          editor).

       -  Update references to [RFC2851-update]

 TABLE OF CONTENTS

    Open Issues.........................................................2
    1. Introduction.....................................................3
    1.1 Abbreviations...................................................3
    2. The SNMP Framework...............................................3
    3. Structure of the MIB.............................................4
    3.1  Objects........................................................5
    3.1.1  Scalars......................................................5
    3.1.2  MIB Tables...................................................6
    3.1.2.1  Association Table..........................................6
    3.1.2.1.1 Local IP addresses Table..................................8
    3.1.2.1.2 Remote IP addresses Table.................................8
    3.2 Conformance.....................................................9
    3.2.1 Groups........................................................9
    3.2.2 Compliance...................................................10
    4. Definitions.....................................................10
    5.  References.....................................................36
    6. Security Consideration..........................................39
    7. Acknowledgments.................................................39
    8. Authors' Addresses..............................................39
    9. Revision History................................................40
    9.1 Changes from <SCTP-MIB-predraft-01.txt>........................40
    9.2 Changes from <draft-ietf-sigtran-sctp-mib-00.txt>..............40
    9.3 Changes from <draft-ietf-sigtran-sctp-mib-01.txt>..............42
    9.3 Changes from <draft-ietf-sigtran-sctp-mib-02.txt>..............43
    9.4 Changes from <draft-ietf-sigtran-sctp-mib-03.txt>..............43
    9.5 Changes from <draft-ietf-sigtran-sctp-mib-04.txt>..............44

 Pastor, Belinchon                                               [Page 2]

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 1. Introduction

    This memo defines the Management Information Base (MIB) module which
    describes managed objects for implementations of the SCTP.

    The document starts with a brief description of the SNMP framework
    and continues with the MIB explanation and security consideration
    among others.

    The managed objects in this MIB module have been based on RFC 2012:
    "SNMPv2 Management Information Base for the Transmission Control
    Protocol using SMIv2" [RFC 2012] and "IP Version 6 Management
    Information Base for the Transmission Control Protocol" [RFC 2452].

    Terms related to the SCTP architecture are explained in [1]. Other
    specific abbreviations are listed below.

    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].

 1.1 Abbreviations

    DNS   - Domain Name System
    IANA  - Internet Assigned Numbers Authority
    ICANN - Internet Corporation for Assigned Names and Numbers
    IETF  - Internet Engineering Task Force
    IP    - Internet Protocol
    MIB   - Management Information Base
    RFC   - Request For Comment
    RTO   - Retransmission Time Out
    SCTP  - Stream Control Transmission Protocol
    SMI   - Structure of Management Information
    SNMP  - Simple Network Management Protocol
    TCB   - Transmission Control Block
    TCP   - Transmission Control Protocol

 2. The SNMP Framework

    The SNMP Management Framework presently consists of five major
    components:

       -  An overall architecture, described in RFC 2271 [SNMPArch].

 Pastor, Belinchon                                               [Page 3]

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       -  Mechanisms for describing and naming objects and events for the
          purpose of management.  The first version of this Structure of
          Management Information (SMI) is called SMIv1 and described in
          RFC 1155 [SMIv1], RFC 1212 [SNMPv1MIBDef] and RFC 1215
          [SNMPv1Traps].  The second version, called SMIv2, is described
          in RFC 1902 [SMIv2], RFC 1903 [SNMPv2TC] and RFC 1904
          [SNMPv2Conf].

       -  Message protocols for transferring management information.  The
          first version of the SNMP message protocol is called SNMPv1 and
          described in RFC 1157 [SNMPv1].  A second version of the SNMP
          message protocol, which is not an Internet standards track
          protocol, is called SNMPv2c and described in RFC 1901 [SNMPv2c]
          and RFC 1906 [SNMPv2TM].  The third version of the message
          protocol is called SNMPv3 and described in RFC 1906 [SNMPv2TM],
          RFC 2272 [SNMPv3MP] and RFC 2574 [SNMPv3USM].

       -  Protocol operations for accessing management information.  The
          first set of protocol operations and associated PDU formats is
          described in RFC 1157 [SNMPv1].  A second set of protocol
          operations and associated PDU formats is described in RFC 1905
          [SNMPv2PO].

       -  A set of fundamental applications described in RFC 2273
          [SNMPv3App] and the view-based access control mechanism
          described in RFC 2575 [SNMPv3VACM].

    Managed objects are accessed via a virtual information store, termed
    the Management Information Base or MIB.  Objects in the MIB are
    defined using the mechanisms defined in the SMI.  This memo specifies
    a MIB module that is compliant to the SMIv2.  A MIB conforming to the
    SMIv1 can be produced through the appropriate translations.  The
    resulting translated MIB must be semantically equivalent, except
    where objects or events are omitted because no translation is
    possible (use of Counter64).  Some machine-readable information in
    SMIv2 will be converted into textual descriptions in SMIv1 during the
    translation process.  However, this loss of machine-readable
    information is not considered to change the semantics of the MIB.

 3. Structure of the MIB

    The MIB is structured in the following way:

                            sctpMib
                          /         \
              sctpObjects           sctpConformance
              /         \               /          \
      sctpScalars   sctpTables     sctpGroups   sctpCompliances

 Pastor, Belinchon                                               [Page 4]

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                                       |
                                  sctpCompliance

    where:
       -  sctpObjects, all the SCTP objects are defined under this
          branch.

          -  sctpScalars, containing only scalars values. It can be split
             into:

             -  General variables, listing the main SCTP variables.

             -  Statistics for traffic measurements.
                -  SCTP state related statistics
                -  other statistics

          -  sctpTables, tables per association, per local and remote IP
             address and lookup tables for an easy search.

       -  sctpConformance, for the Unit of Conformance.

          -  sctpGroups, SCTP MIB variables have been grouped according
             to their function and the context they belong to (general
             variables, variables/statistics per association, variables
             per local IP address and variables/statistics per remote IP
             address).

          -  sctpCompliances, Minimal list of objects in the SCTP MIB
             module that an agent developer must implement.

 3.1  Objects

 3.1.1  Scalars

 3.1.1.1 Protocol General Variables

    The first section of the MIB contains the general variables of the
    SCTP protocol. Maximum, minimum, values by default and initial values
    are listed here.

    Based on the TCP MIB [RFC2012], SCTP RTO mechanism is defined in the
    same way. In SCTP protocol, only options 'other' and 'vanj' remain
    because SCTP protocol defines Van Jacobson's algorithm as the one to
    be used to calculate RTO. 'Other' is left for future use ('rsre'
    algorithm was eliminated because MIL-STD-1778 is Cancelled-No
    Superseding Document according to the Military Standard library and
    'constant' option doesn't fulfill the SCTP protocol description).

 3.1.1.2  Statistics for traffic Measurements

 Pastor, Belinchon                                               [Page 5]

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    Statistics included here are related to the whole SCTP layer.
    Statistics related to a specific association, or local/remote IP
    addresses are defined inside its concerned table.

 3.1.1.2.1 State-Related Statistics

    These measures are based in the TCP model, but adapted to the SCTP
    states. They store the number of succeeded association attempts, how
    many associations have been initiated by the local or the remote SCTP
    layer, or just the number of associations terminated in a graceful
    (by means of SHUTDOWN procedure) or ungraceful way (by means of CLOSE
    procedure).

 3.1.1.2.2  Other Statistics

    There is a statistic related to the SCTP packets, i.e., the number
    of out of the blue packets received by the local host. The remainder
    statistics are based on the data unit of SCTP: the chunk. In this
    way, the whole picture of the SCTP layer is covered.

 3.1.2  MIB Tables

 3.1.2.1  Association Table

    The part of the MIB to define each association is structured
    according to an expanded table. There is a main table (called
    association table, sctpAssocTable), indexed by the association
    identification. The association identification is a value to identify
    in a unique way an association.

    The MIB does not restrict which value must be written here. It can be
    the tag value, or the TCB creation time, or any other value the
    implementers decide.

    This main table contains common information for a given association
    and two other tables inside: local IP addresses table
    (sctpAssocLocalAddressTable), and remote IP addresses table
    (sctpAssocRemAddressTable).

    Note: The following representation is a conceptual mode of describing
    the relationship between the tables in this MIB. Note that the real
    relationship of the tables is by sharing an index, so tables are not
    truly within tables.

    sctpAssocTable
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocId (index)                                         / ... |

 Pastor, Belinchon                                               [Page 6]

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    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocRemHostName                                        \ ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocLocalSCTPPort                                      / ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocRemSCTPPort                                        \ ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocRemPrimaryAddressType                              / ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocRemPrimaryAddress                                  \ ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocHeartBeatTimer                                     /  ...|
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocState                                              \ ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocInStreams                                          / ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocOutStreams                                         \ ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocMaxRetr                                            / ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocT1expireds                                         \ ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocT2expireds                                         / ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocRtxChunks                                          \ ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocStartTime                                          / ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocLocalAddressTable                                        |
    |                                                                   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |      | sctpAssocLocalAddressIPType(index)              \  ... |   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |      | sctpAssocLocalAddressIP (index)                 \  ... |   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |      | sctpAssocLocalAddressStartTime                  \  ... |   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |                                                                   |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocRemAddressTable                                          |
    |                                                                   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |      | sctpAssocRemAddressIPType (index)               \  ... |   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |      | sctpAssocRemAddressIP (index)                   \  ... |   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |      | sctpAssocRemAddressStatus                       \  ... |   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |      | sctpAssocRemAddressHBFlag                       \  ... |   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-++-+|   |

 Pastor, Belinchon                                               [Page 7]

 INTERNET-DRAFT            SCTP MIB using SMIv2             October, 2001

    |      | sctpAssocRemAddressRTO                          \  ... |   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |      | sctpAssocRemAddressMaxPathRtx                   \  ... |   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |      | sctpAssocRemAddressRtx                      \  ... |   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |      | sctpAssocRemAddressStartTime                    \  ... |   |
    |      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-/+-+-+-+   |
    |                                                                   |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

    Every entry is explained when defining the MIB.

    Note that the IP address indexing the tables is valid for IPv4, IPv6
    and DNS. Therefore, IP address is defined by the Internet address
    type and the value of the IP address, according to the Textual
    Conventions for Internet Network Address [RFC2851-update].

    The IP addresses that the MIB supports are defined in the [RFC2851-
    update]: global and non-global (either with a zone index or not) IPv4
    addresses, global and non-global (either with a zone index or not)
    IPv6 addresses.

    DNS value is not used to identify an IP address since it is only
    valid during initialization (once this stage is finished, both sides
    only use IP addresses). To keep the name of the remote peer, an entry
    has been created in the association table (sctpAssocRemHostName).
    When no DNS name is provided by the remote endpoint at initialization
    time, this value will be NULL. Otherwise, the received DNS name will
    be stored.

    It is NOT possible creating rows in any table (sctpAssocTable,
    sctpAssocLocalAddressTable, sctpRemAddressTable and Reverse Lookup
    tables).

    If it is required to abort an existing association, the value
    deleteTCB has to be written in the variable sctpAssocState. That is
    the only way to delete rows in any of the mentioned tables.

 3.1.2.1.1 Local IP addresses Table

    Table for local IP addresses information. This table stores
    information related to the local IP address/-es reserved for the
    association. It is indexed by the local IP addresses (and the shared
    index sctpAssocId).

 3.1.2.1.2 Remote IP addresses Table

 Pastor, Belinchon                                               [Page 8]

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    Table for remote IP addresses information. This table stores
    information related to the remote IP address/-es reserved for the
    association. It is indexed by the remote IP addresses (and the shared
    index sctpAssocId).

 3.1.2.2  Reverse Lookup Tables

    There are five reverse lookup tables. These tables are optional to
    help management applications to efficiently access conceptual rows in
    other tables. This is the way for not performing expensive tree walks
    through large number of associations.

    It is not possible to either create or delete rows in this table.

    All the lookup tables contains a timestamp to indicate when a row in
    the table was created.

    Several tables have been created for this purpose:

       -  Local Port: It allows finding the associations in which the
          local endpoint is using the specified local port.
       -  Remote Port: It allows finding the associations in which the
          remote endpoint is using the specified remote port.
       -  Remote Host Name: It allows finding the associations that have
          defined the specified host name as remote endpoint.
       -  Remote Primary IP Address: It allows finding the associations
          that have defined the specified remote IP address as primary.
       -  Remote IP address: List of all the associations that have the
           specified IP address belonging to the set of remote addresses.

    As an example the picture below shows the table to look up by remote
    port.

    sctpLookupRemPortTable
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocRemSCTPPort (index)                                / ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpAssocId (index)                                         \ ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | sctpLookupRemPortStartTime                                  / ... |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

 3.2 Conformance

 3.2.1 Groups

    This section includes all the variables defined in the MIB grouped by
    function (variables or statistics) and context (SCTP general
    parameters, association context, local IP address context or remote
    IP address context).

 Pastor, Belinchon                                               [Page 9]

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    Therefore the following groups have been created:

       -  General variables for the SCTP layer.
       -  General statistics for the states of the SCTP layer.
       -  General statistics for the SCTP layer.
       -  Variables and statistics per association, and variables per
          local and remote IP address.
       -  Statistics per remote IP address.

 3.2.2 Compliance

    Requirements of the SCTP MIB to be implemented.

 4. Definitions

    SCTP-MIB DEFINITIONS ::= BEGIN

    IMPORTS
      MODULE-IDENTITY, OBJECT-TYPE, Unsigned32, Gauge32, Counter32
           FROM SNMPv2-SMI               -- RFC2578
      TimeStamp
           FROM SNMPv2-TC                -- RFC2579
      MODULE-COMPLIANCE, OBJECT-GROUP
           FROM SNMPv2-CONF              -- RFC2580
      InetAddressType, InetAddress, InetPortNumber
           FROM INET-ADDRESS-MIB         -- RFC2851-update
           ;

    -- RFC2851 is being update. Needed to update the import clause
    -- as well as other references to RFC2851 to include all the
    -- textual conventions defined in the new RFC2851-update

    sctpMIB MODULE-IDENTITY
      LAST-UPDATED "200110170000Z"       -- 17th October 2001
      ORGANIZATION "IETF SIGTRAN Working Group"
      CONTACT-INFO
           "         Maria-Carmen Belinchon-Vergara
                     Jose-Javier Pastor-Balbas

           Postal:   Ericsson Espana S. A.
                     Ombu street 3, 4th floor
                     28045 Madrid
                     Spain

           Phones:   +34 91 339 3535
                     +34 91 339 3819

 Pastor, Belinchon                                              [Page 10]

 INTERNET-DRAFT            SCTP MIB using SMIv2             October, 2001

           Emails:   [email protected]
                     [email protected]"
      DESCRIPTION
           "The MIB module for managing an SCTP implementation."
      REVISION
      "200110170000Z"               -- 17th October 2001

      DESCRIPTION
           "MIB module developed for the SIGTRAN IETF group. Based on
           SCTP, RFC2960"
      ::= { xxxx }   -- IANA needs to choose this value
                     -- when sent to the RFC editor

    -- Top-level structure of the MIB

    sctpObjects      OBJECT IDENTIFIER ::= { sctpMIB 1 }
    sctpConformance  OBJECT IDENTIFIER ::= { sctpMIB 2 }

    sctpScalars      OBJECT IDENTIFIER ::= { sctpObjects 1 }
    sctpTables       OBJECT IDENTIFIER ::= { sctpObjects 2 }

    -- PROTOCOL GENERAL VARIABLES
    -- **************************

    sctpRtoAlgorithm OBJECT-TYPE
      SYNTAX         INTEGER {
                          other(1),      -- Other new one. Future use
                          vanj(2)        -- Van Jacobson's algorithm
                     }
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The algorithm used to determine the timeout value (T3-rtx)
           used for re-transmitting unacknowledged chunks."

      ::= { sctpScalars 1 }

    sctpRtoMin OBJECT-TYPE
      SYNTAX         Unsigned32
      UNITS          "milliseconds"
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The minimum value permitted by a SCTP implementation for the
           retransmission timeout, measured in milliseconds.  More
           refined semantics for objects of this type depend upon the
           algorithm used to determine the retransmission timeout.

 Pastor, Belinchon                                              [Page 11]

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           Minimum recommended value is 1000 milliseconds. Some telephony
           applications could require less than 1 second."

      ::= { sctpScalars 2 }

    sctpRtoMax OBJECT-TYPE
      SYNTAX         Unsigned32
      UNITS          "milliseconds"
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The maximum value permitted by a SCTP implementation for the
           retransmission timeout, measured in milliseconds.  More
           refined semantics for objects of this type depend upon the
           algorithm used to determine the retransmission timeout.
           Recommended value is 60000 milliseconds."

        ::= { sctpScalars 3 }

    sctpRtoInitial OBJECT-TYPE
      SYNTAX         Unsigned32
      UNITS          "milliseconds"
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Initial value for the Retransmission timer. Recommended value
           is 3000 milliseconds."

      ::= { sctpScalars 4 }

    sctpMaxAssoc OBJECT-TYPE
      SYNTAX         Unsigned32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The limit on the total number of SCTP associations the entity
           can support. In entities where the maximum number of
           associations is dynamic, this object should contain the value
           -1."

      ::= { sctpScalars 5 }

    sctpValCookieLife OBJECT-TYPE
      SYNTAX         Unsigned32
      UNITS          "milliseconds"
      MAX-ACCESS     read-only

 Pastor, Belinchon                                              [Page 12]

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      STATUS         current
      DESCRIPTION
           "Valid cookie life in the 4-way start-up handshake procedure.
           Recommended value: 60000 milliseconds."

      ::= { sctpScalars 6 }

    sctpMaxInitRetr OBJECT-TYPE
      SYNTAX         Unsigned32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The maximum number of retransmissions at the start-up phase
           (INIT and COOKIE ECHO chunks). Recommended value: 8 attempts."

      ::= { sctpScalars 7 }

    -- STATE-RELATED STATISTICS

    sctpCurrEstab OBJECT-TYPE
      SYNTAX         Gauge32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The number of SCTP associations for which the current state
           is either ESTABLISHED, SHUTDOWN-RECEIVED or SHUTDOWN-PENDING."

      ::= { sctpScalars 8 }

    sctpActiveEstabs OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The number of times that SCTP associations have made a direct
           transition to the ESTABLISHED state from the COOKIE-ECHOED
           state: COOKIE-ECHOED -> ESTABLISHED. The upper layer has
           initiated the association attempt."

      ::= { sctpScalars 9 }

    sctpPassiveEstabs OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION

 Pastor, Belinchon                                              [Page 13]

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           "The number of times that SCTP associations have made a direct
           transition to the ESTABLISHED state from the CLOSED state:
           CLOSED -> ESTABLISHED. The remote endpoint has initiated the
           association attempt."

      ::= { sctpScalars 10 }

    sctpAborteds OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The number of times that SCTP associations have made a direct
           transition to the CLOSED state from any state using the
           primitive 'ABORT': AnyState --Abort--> CLOSED. Ungraceful
           termination of the association."

      ::= { sctpScalars 11 }

    sctpShutdowns OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The number of times that SCTP associations have made a direct
           transition to the CLOSED state from either the SHUTDOWN-SENT
           state or the SHUTDOWN-ACK-SENT state. Graceful termination of
           the association."

      ::= { sctpScalars 12 }

    -- OTHER LAYER STATISTICS

    sctpStatOutOfBlues OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of out of the blue packets (SCTP packet correctly
           formed -right checksum- but the receiver is not able to
           identify the association to which this packet belongs)
           received by the host."

      ::= { sctpScalars 13 }

    sctpStatChecksumErrors OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only

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      STATUS         current
      DESCRIPTION
           "Number of SCTP packets received from the peers with an
           invalid checksum."

    ::= { sctpScalars 14 }
    sctpStatSentCtrlChunks OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of SCTP control chunks sent to the peers (no
           retransmissions included)."

      ::= { sctpScalars 15 }

    sctpStatSentOrderChunks OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of SCTP ordered data chunks sent to the peers (no
           retransmissions included)."

      ::= { sctpScalars 16 }

    sctpStatSentUnorderChunks OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of SCTP unordered chunks (data chunks in which the U
           bit is set to 1) sent to the peers (no retransmissions
           included)."

      ::= { sctpScalars 17 }

    sctpStatRecCtrlChunks OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of SCTP control chunks received from the peers (no
           duplicated included)."

      ::= { sctpScalars 18 }

    sctpStatRecOrderChunks OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only

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      STATUS         current
      DESCRIPTION
           "Number of SCTP ordered data chunks received from the peers
           (no duplicated included)."

      ::= { sctpScalars 19 }

    sctpStatRecUnorderChunks OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of SCTP unordered chunks (data chunks in which the U
           bit is set to 1) received from the peers (no duplicated
           included)."

      ::= { sctpScalars 20 }

    sctpStatFragmentedUsrMessages OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of user messages that have to be fragmented because of
           the MTU."

      ::= { sctpScalars 21 }

    sctpStatReassembledUsrMessages OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of user messages reassembled."

      ::= { sctpScalars 22 }

    sctpStatSentSCTPPacks OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of SCTP packets received from the peers."

      ::= { sctpScalars 23 }

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    sctpStatRecSCTPPacks OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of SCTP packets received from the peers."

      ::= { sctpScalars 24 }

    -- SCTP ASSOCIATION DESCRIPTION PARAMETERS
    -- ***************************************

    -- the SCTP Association TABLE
    -- **************************

    -- The SCTP association table contains information about each
    -- association that the local endpoint is taking part.

    sctpAssocTable OBJECT-TYPE
      SYNTAX         SEQUENCE OF SctpAssocEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "A table containing SCTP association-specific information."

      ::= { sctpTables 1 }

    sctpAssocEntry OBJECT-TYPE
      SYNTAX         SctpAssocEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "General common variables and statistics for the whole
           association."
      INDEX          { sctpAssocId }

      ::= { sctpAssocTable 1 }

    SctpAssocEntry ::= SEQUENCE {
      sctpAssocId                        Unsigned32,
      sctpAssocRemHostName               OCTET STRING,
      sctpAssocLocalSCTPPort             InetPortNumber,
      sctpAssocRemSCTPPort               InetPortNumber,
      sctpAssocRemPrimaryAddressType     InetAddressType,
      sctpAssocRemPrimaryAddress         InetAddress,

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      sctpAssocHeartBeatTimer            Unsigned32,
      sctpAssocState                     INTEGER,
      sctpAssocInStreams                 Unsigned32,
      sctpAssocOutStreams                Unsigned32,
      sctpAssocMaxRetr                   Unsigned32,
      sctpAssocT1expireds                Counter32,     -- Statistic
      sctpAssocT2expireds                Counter32,     -- Statistic
      sctpAssocRtxChunks                 Counter32,     -- Statistic
      sctpAssocStartTime                 TimeStamp
      }

    sctpAssocId OBJECT-TYPE
      SYNTAX         Unsigned32
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "Association Identification. Value identifying the association
           (typically the Initiate Verification Tag).
           If the selected AssocID is the Initiate Verification Tag, this
           value must not be zero."

      ::= { sctpAssocEntry 1 }

    sctpAssocRemHostName OBJECT-TYPE
      SYNTAX         OCTET STRING (SIZE(0..255))
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Peer's DNS name. If no DNS domain name was received at init
           time (embedded in the INIT or INIT-ACK chunk) from the peer,
           this entry will be meaningless, therefore it will contain a
           NULL value. Otherwise, the remote host name received at init
           time will be stored."

      ::= { sctpAssocEntry 2 }

    sctpAssocLocalSCTPPort OBJECT-TYPE
      SYNTAX         InetPortNumber
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Local SCTP port number used for this association. A zero
           value means unknown according to the RFC-update."

      ::= { sctpAssocEntry 3 }

    sctpAssocRemSCTPPort OBJECT-TYPE

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      SYNTAX         InetPortNumber
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Remote SCTP port number used for this association. A zero
           value means unknown according to the RFC2851-update."

      ::= { sctpAssocEntry 4 }

    sctpAssocRemPrimaryAddressType OBJECT-TYPE
      SYNTAX         InetAddressType
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Internet type of primary destination IP address.

           -  unknown (0) An unknown address type. This value MUST be
              used if the value of the corresponding InetAddress object
              is a zero-length string. It may also be used to indicate an
              IP address different from IPv4 or IPv6. This value is used
              in this MIB for error conditions.

           -  ipv4 (1): An IPv4 address as defined by the InetAddressIPv4
              textual convention [RFC2851-update].

           -  ipv6 (2): An IPv6 address as defined by the InetAddressIPv6
              textual convention [RFC2851-update]. It represents global
              IPv6 addresses and non-global IPv6 addresses in case where
              no zone index is needed.

           -  ipv4z(3): A non-global IPv4 address including a zone index
              as defined by the InetAddressIPv4z textual convention
              [RFC2851-update].

           -  ipv6z(4): A non-global IPv6 address including a zone index
              as defined by the InetAddressIPv6z textual convention
              [RFC2851-update].

           This value will be filled in after the INIT or INIT ACK chunks
           have been received (when the primary path is selected by
           SCTP)."

      ::= { sctpAssocEntry 5 }

    sctpAssocRemPrimaryAddress OBJECT-TYPE
      SYNTAX         InetAddress
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION

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           "Primary destination IP address. An InetAddress value is
           always interpreted within the context of an InetAddressType
           value.
           This value will be filled in after INIT or INIT ACK chunks
           have been received (when the primary path is selected by
           SCTP)."

      ::= { sctpAssocEntry 6 }

    sctpAssocHeartBeatTimer OBJECT-TYPE
      SYNTAX         Unsigned32
      UNITS          "milliseconds"
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The current heartbeat time-out. The recommended default value
           is 30000 milliseconds."

      ::= { sctpAssocEntry 7 }

    sctpAssocState OBJECT-TYPE
      SYNTAX         INTEGER {
                          closed(1),
                          cookieWait(2),
                          cookieEchoed(3),
                          established(4),
                          shutdownPending(5),
                          shutdownSent(6),
                          shutdownReceived(7),
                          shutdownAckSent(8),
                          deleteTCB(9)
                          }
      MAX-ACCESS     read-write
      STATUS         current
      DESCRIPTION
           "The state of this SCTP association.
           As in TCP, deleteTCB is the only value that may be set by a
           management station. Accordingly, it is appropriate for an
           agent to return a 'badValue' response if a management station
           attempts to set this object to any other value.
           If a management station sets this object to the value
           deleteTCB(9), then this has the effect of deleting the TCB (as
           defined in SCTP) of the corresponding association on the
           managed node, resulting in immediate termination of the
           association.
           As an implementation-specific option, an ABORT chunk may be
           sent from the managed node to the other SCTP endpoint."

      ::= { sctpAssocEntry 8 }

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    sctpAssocInStreams OBJECT-TYPE
      SYNTAX         Unsigned32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Inbound Streams according to the negotiation at association
           start up. This parameter has to be read-only by the manager."

      ::= { sctpAssocEntry 9 }

    sctpAssocOutStreams OBJECT-TYPE
      SYNTAX         Unsigned32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Outbound Streams according to the negotiation at association
           start up. This parameter has to be read-only by the manager."

      ::= { sctpAssocEntry 10 }

    sctpAssocMaxRetr OBJECT-TYPE
      SYNTAX         Unsigned32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The maximum number of data retransmissions in the association
           context. This value is specific for each association and the
           upper layer can change it calling the appropriate primitives.
           This value has to be smaller than the addition of all the
           maximum number for all the paths
           (sctpAssocRemAddressMaxPathRtx).
           Recommended value: 10 attempts."

      ::= { sctpAssocEntry 11 }

    -- Association Statistics

    sctpAssocT1expireds OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of times that T1 timer expired (timer for sending
           either INIT or COOKIE-ECHO chunks and receiving an
           acknowledgment)."

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      ::= { sctpAssocEntry 12 }

    sctpAssocT2expireds OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of times that T2-shutdown timer expired (shutdown
           timer)."

      ::= { sctpAssocEntry 13 }

    sctpAssocRtxChunks OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of data chunks retransmitted to the peer in the
           current association."

      ::= { sctpAssocEntry 14 }

    sctpAssocStartTime OBJECT-TYPE
      SYNTAX         TimeStamp
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The value of SysUpTime at the time that this row was
           created."

      ::= { sctpAssocEntry 15 }

    -- Expanded tables: Including Multi-home feature

    -- Local Address TABLE
    -- *******************

    sctpAssocLocalAddressTable OBJECT-TYPE
      SYNTAX         SEQUENCE OF SctpAssocLocalAddressEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "Expanded table of sctpAssocTable based on the AssocId index.
           This table shows data related to each local IP address which
           is used by this association."

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      ::= { sctpTables 2 }

    sctpAssocLocalAddressEntry OBJECT-TYPE
      SYNTAX         SctpAssocLocalAddressEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "Local information about the available addresses."
      INDEX     {    sctpAssocId,   -- shared index
                     sctpAssocLocalAddressIPType,
                     sctpAssocLocalAddressIP }

      ::= { sctpAssocLocalAddressTable 1 }

    SctpAssocLocalAddressEntry ::= SEQUENCE {
      sctpAssocLocalAddressIPType        InetAddressType,
      sctpAssocLocalAddressIP            InetAddress,
      sctpAssocLocalAddressStartTime     TimeStamp
      }

    sctpAssocLocalAddressIPType OBJECT-TYPE
      SYNTAX         InetAddressType
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "Internet type of local IP address used for this association.

           -  unknown (0) An unknown address type. This value MUST be
              used to indicate an IP address different from IPv4 or IPv6.
              This value is used in this MIB for error conditions.

           -  ipv4 (1): An IPv4 address as defined by the InetAddressIPv4
              textual convention [RFC2851-update].

           -  ipv6 (2): An IPv6 address as defined by the InetAddressIPv6
              textual convention [RFC2851-update]. It represents global
              IPv6 addresses and non-global IPv6 addresses in case where
              no zone index is needed.

           -  ipv4z(3): A non-global IPv4 address including a zone index
              as defined by the InetAddressIPv4z textual convention
              [RFC2851-update].

           -  ipv6z(4): A non-global IPv6 address including a zone index
              as defined by the InetAddressIPv6z textual convention
              [RFC2851-update]. "

      ::= { sctpAssocLocalAddressEntry 1 }

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    sctpAssocLocalAddressIP OBJECT-TYPE
      SYNTAX         InetAddress (SIZE(1..64))
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "The value of a local IP address available for this
           association. An InetAddress value is always interpreted within
           the context of an InetAddressType value. If SCTP is using a
           DNS name, the mapping to IP address/-es will be done at
           reception of INIT or INIT_ACK chunks.

           The sctpAssocRemAddressIP may not be empty due to the SIZE
           restriction."

      ::= { sctpAssocLocalAddressEntry 2 }

    sctpAssocLocalAddressStartTime OBJECT-TYPE
      SYNTAX         TimeStamp
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The value of SysUpTime at the time that this row was
           created."

      ::= { sctpAssocLocalAddressEntry 3 }

    -- Remote Addresses TABLE
    -- **********************

    sctpAssocRemAddressTable OBJECT-TYPE
      SYNTAX         SEQUENCE OF SctpAssocRemAddressEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "Expanded table of sctpAssocTable based on the AssocId index.
           This table shows data related to each remote peer IP address
           which is used by this association."

      ::= { sctpTables 3 }

    sctpAssocRemAddressEntry OBJECT-TYPE
      SYNTAX         SctpAssocRemAddressEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION

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           "Information about the most important variables for every
           remote IP address "
      INDEX   { sctpAssocId,   -- shared index
                sctpAssocRemAddressIPType,
                sctpAssocRemAddressIP }

      ::= { sctpAssocRemAddressTable 1 }

    SctpAssocRemAddressEntry ::= SEQUENCE {
      sctpAssocRemAddressIPType          InetAddressType,
      sctpAssocRemAddressIP              InetAddress,
      sctpAssocRemAddressStatus          INTEGER,
      sctpAssocRemAddressHBFlag          INTEGER,
      sctpAssocRemAddressRTO             Unsigned32,
      sctpAssocRemAddressMaxPathRtx      Unsigned32,
      sctpAssocRemAddressRtx             Counter32,     -- Statistic
      sctpAssocRemAddressStartTime       TimeStamp
      }

    sctpAssocRemAddressIPType OBJECT-TYPE
      SYNTAX         InetAddressType
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "Internet type of a remote IP address available for this
           association.

           -  unknown (0) An unknown address type. This value MUST be
              used to indicate an IP address different from IPv4 or IPv6.
              This value is used in this MIB for error conditions.

           -  ipv4 (1): An IPv4 address as defined by the InetAddressIPv4
              textual convention [RFC2851-update].

           -  ipv6 (2): An IPv6 address as defined by the InetAddressIPv6
              textual convention [RFC2851-update]. It represents global
              IPv6 addresses and non-global IPv6 addresses in case where
              no zone index is needed.

           -  ipv4z(3): A non-global IPv4 address including a zone index
              as defined by the InetAddressIPv4z textual convention
              [RFC2851-update].

           -  ipv6z(4): A non-global IPv6 address including a zone index
              as defined by the InetAddressIPv6z textual convention
              [RFC2851-update]. "

      ::= { sctpAssocRemAddressEntry 1 }

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    sctpAssocRemAddressIP OBJECT-TYPE
      SYNTAX         InetAddress (SIZE(1..64))
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "The value of a remote IP address available for this
           association. An InetAddress value is always interpreted within
           the context of an InetAddressType value. If SCTP is using a
           DNS name, the mapping to IP address/-es will be done at
           reception of INIT or INIT_ACK chunks

           The sctpAssocRemAddressIP may not be empty due to the SIZE
           restriction."

      ::= { sctpAssocRemAddressEntry 2 }

    sctpAssocRemAddressStatus OBJECT-TYPE
      SYNTAX         INTEGER {
                          active(0),
                          inactive(1)
                     }
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The current status of the remote transport address, according
           to [SCTP].
           Active means that the threshold of no answer received from
           this IP address has not been reached. Inactive means that
           either no heartbeat was received from this address, or any
           other message, reaching the threshold defined by the
           protocol."

      ::= { sctpAssocRemAddressEntry 3 }

    sctpAssocRemAddressHBFlag OBJECT-TYPE
      SYNTAX         INTEGER {
                          active(0),
                          inactive(1)
                      }
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The optional Heartbeat associated to one destination
           transport address could be active or not (value equal to 0 or
           1, respectively).

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           An active destination transport address is the one considered
           available by a peer endpoint for receiving SCTP packets, as it
           is described in [sctp]."

      ::= { sctpAssocRemAddressEntry 4 }

    sctpAssocRemAddressRTO OBJECT-TYPE   -- T3-rtx- Timer
      SYNTAX         Unsigned32
      UNITS          "milliseconds"
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The current Retransmission Timeout. T3-rtx timer as defined
           in the protocol SCTP."

      ::= { sctpAssocRemAddressEntry 5 }

    sctpAssocRemAddressMaxPathRtx OBJECT-TYPE
      SYNTAX         Unsigned32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Maximum number of DATA chunks retransmissions allowed to a
           remote IP address before it is considered inactive, as defined
           in [sctp]. Recommended value 5 attempts."

      ::= { sctpAssocRemAddressEntry 6 }

    -- Remote Address Statistic

    sctpAssocRemAddressRtx OBJECT-TYPE
      SYNTAX         Counter32
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "Number of DATA chunks retransmissions as defined in [sctp]."

      ::= { sctpAssocRemAddressEntry 7 }

    sctpAssocRemAddressStartTime OBJECT-TYPE
      SYNTAX         TimeStamp
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The value of SysUpTime at the time that this row was
           created."

      ::= { sctpAssocRemAddressEntry 8 }

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    -- ASSOCIATION INVERSE TABLE
    -- *************************

    -- BY LOCAL PORT

    sctpLookupLocalPortTable OBJECT-TYPE
      SYNTAX         SEQUENCE OF SctpLookupLocalPortEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "With the use of this table, a list of associations which are
           using the specified local port can be got"

      ::= { sctpTables 4 }

    sctpLookupLocalPortEntry OBJECT-TYPE
      SYNTAX         SctpLookupLocalPortEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "This table is indexed by local port and association ID.
           Specifying a local port, we would get a list of the
           associations whose local port is the one specified"

      INDEX          { sctpAssocLocalSCTPPort,
                     sctpAssocId }

      ::= { sctpLookupLocalPortTable 1 }

    SctpLookupLocalPortEntry::= SEQUENCE {
      sctpLookupLocalPortStartTime            TimeStamp
      }

    sctpLookupLocalPortStartTime OBJECT-TYPE
      SYNTAX         TimeStamp
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The value of SysUpTime at the time that this row was
           created."

      ::= { sctpLookupLocalPortEntry 1 }

    -- BY REMOTE PORT

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    sctpLookupRemPortTable OBJECT-TYPE
      SYNTAX         SEQUENCE OF SctpLookupRemPortEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "With the use of this table, a list of associations which are
           using the specified remote port can be got"

      ::= { sctpTables 5 }

    sctpLookupRemPortEntry OBJECT-TYPE
      SYNTAX         SctpLookupRemPortEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "This table is indexed by remote port and association ID.
           Specifying a remote port we would get a list of the
           associations whose local port is the one specified "

      INDEX          { sctpAssocRemSCTPPort,
                     sctpAssocId }

      ::= { sctpLookupRemPortTable 1 }

    SctpLookupRemPortEntry::= SEQUENCE {
      sctpLookupRemPortStartTime              TimeStamp
      }

    sctpLookupRemPortStartTime OBJECT-TYPE
      SYNTAX         TimeStamp
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The value of SysUpTime at the time that this row was
           created."

      ::= { sctpLookupRemPortEntry 1 }

    -- BY REMOTE HOST NAME

    sctpLookupRemHostNameTable OBJECT-TYPE
      SYNTAX         SEQUENCE OF SctpLookupRemHostNameEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION

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           "With the use of this table, a list of associations with that
           particular host can be got"

      ::= { sctpTables 6 }

    sctpLookupRemHostNameEntry OBJECT-TYPE
      SYNTAX         SctpLookupRemHostNameEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "This table is indexed by remote host name and association ID.
           Specifying a host name we would get a list of the associations
           specifying that host name as the remote one"

      INDEX          { sctpAssocRemHostName,
                     sctpAssocId }

      ::= { sctpLookupRemHostNameTable 1 }

    SctpLookupRemHostNameEntry::= SEQUENCE {
      sctpLookupRemHostNameStartTime               TimeStamp
      }

    sctpLookupRemHostNameStartTime OBJECT-TYPE
      SYNTAX         TimeStamp
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The value of SysUpTime at the time that this row was
           created."

      ::= { sctpLookupRemHostNameEntry 1 }

    -- BY REMOTE PRIMARY IP ADDRESS

    sctpLookupRemPrimIPAddrTable OBJECT-TYPE
      SYNTAX         SEQUENCE OF SctpLookupRemPrimIPAddrEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "With the use of this table, it can be got a list of
           associations that have that the specified IP address as
           primary within the remote set of active addresses "

      ::= { sctpTables 7 }

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    sctpLookupRemPrimIPAddrEntry OBJECT-TYPE
      SYNTAX         SctpLookupRemPrimIPAddrEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "This table is indexed by primary address and association ID.
           Specifying a primary address, we would get a list of the
           associations that have the specified remote IP address marked
           as primary. "

      INDEX          { sctpAssocRemPrimaryAddressType,
                     sctpAssocRemPrimaryAddress,
                     sctpAssocId }

      ::= { sctpLookupRemPrimIPAddrTable 1 }

    SctpLookupRemPrimIPAddrEntry::= SEQUENCE {
      sctpLookupRemPrimIPAddrStartTime             TimeStamp
      }

    sctpLookupRemPrimIPAddrStartTime OBJECT-TYPE
      SYNTAX         TimeStamp
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The value of SysUpTime at the time that this row was
           created."

      ::= { sctpLookupRemPrimIPAddrEntry 1 }

    -- BY REMOTE IP ADDRESS

    sctpLookupRemIPAddrTable OBJECT-TYPE
      SYNTAX         SEQUENCE OF SctpLookupRemIPAddrEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION
           "With the use of this table, a list of associations that have
           the specified IP address as one of the remote ones can be got"

      ::= { sctpTables 8 }

    sctpLookupRemIPAddrEntry OBJECT-TYPE
      SYNTAX         SctpLookupRemIPAddrEntry
      MAX-ACCESS     not-accessible
      STATUS         current
      DESCRIPTION

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           "This table is indexed by a remote IP address and association
           ID. Specifying an IP address we would get a list of the
           associations that have the specified IP address included
           within the set of remote IP addresses"

      INDEX          { sctpAssocRemAddressIPType,
                     sctpAssocRemAddressIP,
                     sctpAssocId }

      ::= { sctpLookupRemIPAddrTable 1 }

    SctpLookupRemIPAddrEntry::= SEQUENCE {
      sctpLookupRemIPAddrStartTime            TimeStamp
      }

    sctpLookupRemIPAddrStartTime OBJECT-TYPE
      SYNTAX         TimeStamp
      MAX-ACCESS     read-only
      STATUS         current
      DESCRIPTION
           "The value of SysUpTime at the time that this row was
           created."

      ::= { sctpLookupRemIPAddrEntry 1 }

    -- 4.1 Conformance Information

    sctpGroups       OBJECT IDENTIFIER ::= { sctpConformance 1 }
    sctpCompliances  OBJECT IDENTIFIER ::= { sctpConformance 2 }

    -- 4.1.1 Units of conformance

    --
    -- MODULE GROUPS
    --

    sctpGeneralVariablesGroup OBJECT-GROUP
      OBJECTS   { sctpRtoAlgorithm,
                  sctpRtoMin,
                  sctpRtoMax,
                  sctpRtoInitial,
                  sctpMaxAssoc,
                  sctpValCookieLife,
                  sctpMaxInitRetr
                }

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      STATUS    current
      DESCRIPTION
           "Common parameters for all the associations. They can usually
           be referred as configuration parameters"

      ::= { sctpGroups 1 }

    sctpStateStatGroup OBJECT-GROUP
      OBJECTS   {sctpCurrEstab,
                  sctpActiveEstabs,
                  sctpPassiveEstabs,
                  sctpAborteds,
                  sctpShutdowns
                }

      STATUS    current
      DESCRIPTION
           "The sctp group of objects to control state changes in the
           SCTP protocol local layer. They include the data for all the
           associations."

      ::= { sctpGroups 2 }

    sctpOtherStatGroup OBJECT-GROUP
      OBJECTS   {sctpStatOutOfBlues,
                  sctpStatChecksumErrors,
                  sctpStatSentCtrlChunks,
                  sctpStatSentOrderChunks,
                  sctpStatSentUnorderChunks,
                  sctpStatRecCtrlChunks,
                  sctpStatRecOrderChunks,
                  sctpStatRecUnorderChunks,
                  sctpStatFragmentedUsrMessages,
                  sctpStatReassembledUsrMessages,
                  sctpStatSentSCTPPacks,
                  sctpStatRecSCTPPacks
                }

      STATUS    current
      DESCRIPTION
           "The sctp group of objects providing for management of SCTP
           most common statistics for the local SCTP layer."

      ::= { sctpGroups 3 }

    sctpAssocTablesVariablesGroup OBJECT-GROUP
      OBJECTS   {sctpAssocRemHostName,
                  sctpAssocLocalSCTPPort,

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                  sctpAssocRemSCTPPort,
                  sctpAssocRemPrimaryAddressType,
                  sctpAssocRemPrimaryAddress,
                  sctpAssocHeartBeatTimer,
                  sctpAssocState,
                  sctpAssocInStreams,
                  sctpAssocOutStreams,
                  sctpAssocMaxRetr,
                  sctpAssocT1expireds,
                  sctpAssocT2expireds,
                  sctpAssocRtxChunks,
                  sctpAssocStartTime,
                  sctpAssocLocalAddressStartTime,
                  sctpAssocRemAddressStatus,
                  sctpAssocRemAddressHBFlag,
                  sctpAssocRemAddressRTO, sctpAssocRemAddressMaxPathRtx,
                  sctpAssocRemAddressStartTime
                }

      STATUS    current
      DESCRIPTION
           "The sctp group of objects to manage specific local and remote
           SCTP variables (local and remote tables). These variables
           include all the SCTP basic features."

      ::= { sctpGroups 4 }

    sctpAssocStatGroup OBJECT-GROUP
      OBJECTS   {sctpAssocRemAddressRtx
                }

      STATUS    current
      DESCRIPTION
           "The sctp group of objects to manage SCTP statistics related
           to the remote endpoint."

      ::= { sctpGroups 5 }

    sctpInverseGroup OBJECT-GROUP
      OBJECTS   {sctpLookupLocalPortStartTime,
                  sctpLookupRemPortStartTime,
                  sctpLookupRemHostNameStartTime,
                  sctpLookupRemPrimIPAddrStartTime,
                  sctpLookupRemIPAddrStartTime
                }

      STATUS    current
      DESCRIPTION
           "Objects used in the inverse lookup table."

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      ::= { sctpGroups 6 }

    -- 4.1.2 Compliance Statements

    --
    -- MODULE COMPLIANCES
    --

    sctpCompliance MODULE-COMPLIANCE
      STATUS  current
      DESCRIPTION
           "The compliance statement for SNMPv3 entities which implement
           SCTP.

           The SCTP MIB specifies in this compliant implementation that
           only need to support IPv4/IPv6 addresses without a zone index,
           unknown type and DNS names. Support for IPv4/IPv6 addresses
           without zone indices is not required."

      MODULE  -- this module

           MANDATORY-GROUPS    {  sctpGeneralVariablesGroup,
                                  sctpAssocTablesVariablesGroup
                               }

           GROUP sctpStateStatGroup
           DESCRIPTION
                "The sctp group of objects to control state changes in
                the SCTP protocol."

           GROUP sctpOtherStatGroup
           DESCRIPTION
                "The sctp group of objects providing for management of
                SCTP general statistics."

           GROUP sctpAssocStatGroup
           DESCRIPTION
                "The sctp group of objects to manage SCTP statistics
                related to the remote endpoint."

           GROUP sctpInverseGroup
           DESCRIPTION
                "Objects used in inverse lookup tables. This should be
                implemented for easier lookups in the association
                tables."

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           OBJECT  sctpAssocRemPrimaryAddressType
           SYNTAX  InetAddressType { unknown(0),
                                     ipv4(1),
                                     ipv6(2),
                                     dns(16)
                                   }
           DESCRIPTION
                "It is only required to have IPv4 and IPv6 addresses
                without zone indices. Unknown values must also be
                supported in case the IP address has a zero string length
                or an invalid/unknown format."

           OBJECT  sctpAssocLocalAddressIPType
           SYNTAX  InetAddressType { unknown(0),
                                     ipv4(1),
                                     ipv6(2),
                                     dns(16)
                                   }
           DESCRIPTION
                "It is only required to have IPv4 and IPv6 addresses
                without zone indices. Unknown values must also be
                supported in case the IP address has an invalid/unknown
                format "

           OBJECT  sctpAssocRemAddressIPType
           SYNTAX  InetAddressType { unknown(0),
                                     ipv4(1),
                                     ipv6(2),
                                     dns(16)
                                   }
           DESCRIPTION
                "It is only required to have IPv4 and IPv6 addresses
                without zone indices. Unknown values must also be
                supported in case the IP address has an invalid/unknown
                format "

      ::= { sctpCompliances 1 }

    END

 5.  References

    [sctp] R. Stewart, Q. Xie, K. Morneault, C. Sharp, H. J.
          Schwarzbauer, T. Taylor, I. Rytina, M. Kalla, L. Zhang, V.
          Paxson, "Stream Control Transmission Protocol", RFC 2960,
          October 2000.

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    [MIBMPLS] Cucchiara et al. "Definnitions of Managed Objects for the
          Multiprotocol Label Switching, Label Distribution Protocol
          (LDP)", Internet Draf <draft-ietf-mpls-ldp-mib-04.txt>, January
          2000.

    [SecSNMP] Stallings, W., "SNMP3: A Security Enhancement for SNMP",
          IEEE Communication Surveys, Forth quarter 1998, Vol. 1 No. 1.

    [Cong] Jacobson, V., "Congestion Avoidance and Control", SIGCOMM
          1988, Stanford, California.

    [RFC2012] K. McCloghrie, "SNMPv2 Management Information Base for the
          Transmission Control Protocol using SMIv2", RFC 2012, November
          1996.

    [RFC2571] Harrington, D., Presuhn, R., and B. Wijnen, "An
          Architecture for Describing SNMP Management Frameworks", RFC
          2571, April 1999.

    [RFC1155] Rose, M., and K. McCloghrie, "Structure and Identification
          of Management Information for TCP/IP-based Internets", STD 16,
          RFC 1155, May 1990.

    [RFC1212] Rose, M., and K. McCloghrie, "Concise MIB Definitions", STD
          16, RFC 1212, March 1991.

    [RFC1215] M. Rose, "A Convention for Defining Traps for use with the
          SNMP", RFC 1215, March 1991.

    [RFC2578] McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J.,
          Rose, M., and S. Waldbusser, "Structure of Management
          Information Version 2 (SMIv2)", STD 58, RFC 2578, April 1999.

    [RFC2579] McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J.,
          Rose, M., and S. Waldbusser, "Textual Conventions for SMIv2",
          STD 58, RFC 2579, April 1999.

    [RFC2580] McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J.,
          Rose, M., and S. Waldbusser, "Conformance Statements for
          SMIv2", STD 58, RFC 2580, April 1999.

    [RFC1157] Case, J., Fedor, M., Schoffstall, M., and J. Davin, "Simple
          Network Management Protocol", STD 15, RFC 1157, May 1990.

    [RFC1901] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser,
          "Introduction to Community-based SNMPv2", RFC 1901, January
          1996.

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    [RFC1906] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser,
          "Transport Mappings for Version 2 of the Simple Network
          Management Protocol (SNMPv2)", RFC 1906, January 1996.

    [RFC2452] M. Daniele, "IP Version 6 Management Information Base for
          the Transmission Control Protocol", RFC 2452, December 1998

    [RFC2572] Case, J., Harrington D., Presuhn R., and B. Wijnen,
          "Message Processing and Dispatching for the Simple Network
          Management Protocol (SNMP)", RFC 2572, April 1999.

    [RFC2574] Blumenthal, U., and B. Wijnen, "User-based Security Model
          (USM) for version 3 of the Simple Network Management Protocol
          (SNMPv3)", RFC 2574, April 1999.

    [RFC1905] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser,
          "Protocol Operations for Version 2 of the Simple Network
          Management Protocol (SNMPv2)", RFC 1905, January 1996.

    [RFC2573] Levi, D., Meyer, P., and B. Stewart, "SNMPv3 Applications",
          RFC 2573, April 1999.

    [RFC2575] Wijnen, B., Presuhn, R., and K. McCloghrie, "View-based
          Access Control Model (VACM) for the Simple Network Management
          Protocol (SNMP)", RFC 2575, April 1999.

    [RFC2570] Case, J., Mundy, R., Partain, D., and B. Stewart,
          "Introduction to Version 3 of the Internet-standard Network
          Management Framework", RFC 2570, April 1999.

     [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
          Requirement Levels", BCP 14, RFC 2119, Harvard University,
          March 1997

    [RFC2851-update] M. Daniele, B. Haberman, S. Routhier, J.
          Schoenwaelder, "Textual Conventions for Internet Network
          Addresses", draft-ietf-ops-rfc2851-update-05.txt, October 31,
          2001. Work in progress.

    [TADDRESS] M. Daniele , J. Schoenwaelder , "Textual Conventions for
          Transport Addresses", draft-ietf-ops-taddress-mib-01.txt,
          September 17, 2001. Work in progress.

    [TCPMIB] Management Information Base for the Transmission Control
          Protocol (TCP), draft-ietf-ipngwg-rfc2012-update-00.txt, July
          2001. Work in progress.

    [UDPMIB] Bill Fenner, Brian Haberman, Keith McCloghrie, Juergen
          Schoenwalder, Dave Thaler, "Management Information Base for
          User Datagram Protocol (UDP)", draft-ietf-ipngwg-rfc2013-
          update-00.txt, July 2001. Work in progress.

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    [IPv6ARCH] Deering, S., Haberman, B., Jinmei, T., Nordmark, E., Onoe,
          A.  and B. Zill, "IPv6 Scoped Address Architecture", draft-
          ietf-ipngwg-scoping-arch-02.txt, September 2001. Work in
          progress.

 6. Security Consideration

    There are a number of management objects defined in this MIB that
    have a MAX-ACCESS clause of read-write and/or read-create.  Such
    objects may be considered sensitive or vulnerable in some network
    environments. The support for SET operations in a non-secure
    environment without proper protection can have a negative effect on
    network operations.

    It is thus important to control even GET access to these objects and
    possibly to even encrypt the values of these object when sending them
    over the network via SNMP.  Not all versions of SNMP provide features
    for such a secure environment.

    SNMPv1 by itself is not a secure environment.  Even if security
    measures are taken (e.g., using IPSEC), there is no per-user control
    as to who (once an IPSEC association is established between hosts) is
    allowed to GET or SET the objects in this MIB

    It is recommended that the implementers consider the security
    features as provided by the SNMPv3 framework.  Specifically, the use
    of the User-based Security Model RFC 2574 [RFC2574] and the View-
    based Access Control Model RFC 2575 [RFC2575] is recommended.

    It is then a customer/user responsibility to ensure that the SNMP
    entity giving access to an instance of this MIB, 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.

 7. Acknowledgments

    The authors wish to thank David Partain, Ed Yarwood and Shyamal
    Prasad for their invaluable comments.

 8. Authors' Addresses

    Javier Pastor-Balbas            Tel: +34-91-339-3819
    Ericsson Espana S.A.            eMail: [email protected]
    Network Communication Services
    Ombu 3, 4th floor

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    Madrid, 28045
    Spain

    Maria-Carmen Belinchon          Tel: +34-91-339-3535
    Ericsson Espana S.A.            eMail: [email protected]
    Network Communication Services
    Ombu 3, 4th floor
    Madrid, 28045
    Spain

 9. Revision History

 9.1 Changes from <SCTP-MIB-predraft-01.txt>

    o Open issues updated

    o Section 2: Reference to RFC227x changed to RFC257x

    o Section 4: Inside the sctpRtoAlgorithm definition has been put
    "other" first rather than last.  That way, it won't end up in the
    middle of things when new enumerations are added later.

 9.2 Changes from <draft-ietf-sigtran-sctp-mib-00.txt>

    o Change of "Simple" word to "Stream" word in SCTP acronyms

    o Version of the MIB based on SCTPv10

    o Section 2: Update SNMP Framework to include the standard
    explanation

    o New Structure for the MIB:
                 sctpMIB
               \- sctpObjects
                       \- sctpScalars
                       \- sctpTables
               \- sctpConformance

    o Section 4.1.2: Unit of Conformance updated (functional structure).

    o MAX-ACCESS clauses reviewed

    o The general statistics has been re-ordered, placed before the
    tables.

    o In SMIv2, indexes should be not-accessible (= the object type is a
    column in a table used as index and may not be used as an operand in
    any operation != SMIv1) (pp109-110 in [])

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    o IPv6 compatible:
        - Change of Primary/Local/Remote addresses
        - PENDING: check "MODULE-COMPLIANCE"

    o Row Status included in AssocTable, AssocLocal and AssocRem to
    create, modify and delete rows in the tables.

    o SCTP general statistics changed from Counter32 to Counter64 since
    it supports more data changes.

    o sctpCurrEstab ("State-related variables and statistics" section)
    variable changed from Gauge32 to Counter32.

    o sctpAssocRemAddressT1expired and sctpAssocRemAddressT2expired have
    been removed from the remote table and added in the general
    association data since they are variables per association (not per IP
    address).

    o sctpAssocDropDatag statistic has been removed from the general
    association statistics since it had an ambiguous meaning.

    o Explained the meaning of the unordered chunks (chunks in which the
    U bit is set to 1) in sctpStatOutOfOrderSentChunks and
    sctpStatOutOfOrderRecChunks.

    o Added sctpChecksumErrorCounter to collect information about wrong
    checksums received from the peer.

    o Specify that sctpStatSentChunks and sctpStatRecChunks does not
    contain retransmission chunks.

    o Reword the Security Considerations chapter pointing out that IPsec
    does not secure the network but it provides end-to-end security over
    a network.

    o sctpAssocRemAddressRtxChunks replaced as a variable per
    association, meaning the number of chunks retransmited to the peer in
    the current association.

    o sctpHeartBeatMisses and sctpMaxRetr have been replaced from the
    general SCTP statistics to the remote IP address table
    (sctpHeartBeatMisses) and in the association table (sctpMaxRetr).

    o Specify that the retransmissions in the general SCTP statistics
    include control plus data chunks.

    o Included heartbeat timer for remote IP address.

    o Removed sctpAssocRemAddressHeartBeatMisses variable from the remote
    IP address table.

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    o Removed sctpAssocRemAddressT3expired variable from the remote IP
    address table.

    o Updated variables to the new SCTP states defined in v10.

 9.3 Changes from <draft-ietf-sigtran-sctp-mib-01.txt>

    o sctpRtoMin - stray "." outside the double-quotes in the DESCRIPTION
    clause.

    o sctpRtoMax - stray "." outside the double-quotes in the DESCRIPTION
    clause.

    o sctpAssocRemHostName - the type OCTECT STRING should be OCTET
    STRING.

    o sctpAssocRemPrimaryAddress - the DESCRIPTION clause is missing its
    closing ouble-quote.

    o sctpConformance - this is defined as { sctpMIB 2 }, then never
    used; instead sctpMIBConformance (which is undefined) is used in the
    definition of sctpMIBGroups and sctpMIBCompliances.

    o Reworded the MIB organization

    o Removed maximum number of concurrent associations

    o In sctpMIBCompliance, removed a missing comma in MANDATORY-GROUPS.

    o In sctpAssocTablesVariablesGroup and sctpAssocStatGroup, removed
    extra commas at end of OBJECTS list.

    o sctpAssocInStreams. ACCESS changed from read-create to read-only.

    o sctpAssocRemAddressHeartBeatFlag and sctpAssocRemAddressHBTimer
    changed from per remote IP address to per association.

    o Comment on sctpAssocRemAddressHBTimer specifies now that the
    manager can change it.

    o ACCESS on sctpAssocRemAddressHBTimer changed from read-only to
    read-write.

    o ACCESS on sctpAssocRemAddressRetransCount changed from read-write
    to read-only.

    o Move sctpStatChecksumErrorCounter from general statistics to per
    association.

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    o sctpMaxInStreams � It�s a sctp-user feature.

    o sctpStatRetransChunks � It�s more useful to have this statistic in
    a association basis

    o sctpAssocRemAddressHeartBeatFlag and sctpAssocRemAddressHBTimer
    have been created again instead of per association in order to follow
    the draft. If some implementations want to have the same value for
    all the associations they have, they should set all the variables in
    the different remote addresses to the same value.

 9.3 Changes from <draft-ietf-sigtran-sctp-mib-02.txt>

    o Deleting all the RowStatus Structure. Associated text rewording in
    Tables section.

    o Variable StartTime added in all the tables in order to specify the
    creation time.

    o Adding the Association reverse lookup table for easier management.
    Associated text rewording in tables section.

    o Remove sctpInitialT1 and sctpInitialT2, since these values are
    equal to RTO.

    o Change of the Heartbeats to a per-association basis

    o Conformance up-to-date with all of this.

 9.4 Changes from <draft-ietf-sigtran-sctp-mib-03.txt>

    Main changes are due to the alignment with the TCP and UDP MIBs and
    the inclusion of new lookup tables.
    o Convert MIB to a read-only

    o Counters ends with �s�

    o Include �unknown� as an option for InetAddressType  in conformance

    o Terminology fix: CLOSED state, unordered chunks instead of out-of-
    order, ..

    o HBFlag changed to per remote address

    o ChecksumErrors out of the AssocTable and hangs from Scalars

    o Update Ports from Unsigned32 to InetPortNumber according to
    RFC2851-update

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    o Rework inverse tables: five new lookup tables

    o Remove INTEGER32 and change it to UNSIGNED32

    o Replace Counter32 by Counter64

    o Split Sent and Received chunks per association into control,
    ordered and unordered chunks

 9.5 Changes from <draft-ietf-sigtran-sctp-mib-04.txt>

    Changes due to the IETF-51 meeting and requests from the mailing
    list.
    o Typo errors

    o Objects renumbering

    o All counters to Counter32 to be backward compatible, not to waste
    memory. Operators needing more than 32 bits will do it by
    augmentations.

    o Limit the number of IP address size when index

    o Specify that a port number with value zero means unknown port
    number according to the RFC2851-update

    Changes due to the alignment with the RFC2851-update.

    o Include clarification text of the IP address types supported in the
    SCTP MIB. Chapter 3.1.2.1 (Association table)

    o Remote Primary IP address: Addition of the ipv4z an ipv6z types for
    non-globally IP addresses in which a scope identifier is needed.
    Addition of the scope of ipv6 type. All of them according to the
    RFC2851-update v04

    o InetAddressType for local and remote IP addresses:

    Limit UNKNOWN type only for unknown IP address format. Remove UNKNOWN
    type for zero-length value in the InetAddress since it will be never
    zero-length due to the size restriction (0..64)

    Addition of the ipv4z an ipv6z types for non-globally IP addresses in
    which a scope identifier is needed. Addition of the scope of ipv6
    type. All of them according to the RFC2851-update v04

    o Clarify when mapping DNS <-> IPaddress occurs with the remote IP
    addresses

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    o Conformance:

    Description: Specify that the SCTP MIB only need to support IPv4/IPv6
    addresses without a zone index, unknown type and DNS names. Support
    for IPv4/IPv6 addresses with zone indices is not required.

    InetAddressType for primary, local and remote IP addresses: Clarify
    that the implementation is only required to support IPv4 and IPv6
    address types without zone indices. Clarify also that UNKONWN type is
    only used in case of local and remote addresses when invalid/unknown
    IP address format

    InetAddress value of primary, local and remote IP address: Removal of
    the InetAddress values supported. Limitation of the supported IP
    address types is already included in the InetAddressType

    o Revision of the RFC2851-update v05. Changes in this draft does not
    affect the SCTP MIB.

 Pastor, Belinchon                                              [Page 45]


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