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RFC2457 - Definitions of Managed Objects for Extended Border Node

王朝other·作者佚名  2008-05-31
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Network Working Group B. Clouston

Request for Comments: 2457 Cisco Systems

Category: Standards Track B. Moore

IBM Corporation

November 1998

Definitions of Managed Objects

for Extended Border Node

Status of this Memo

This document specifies an Internet standards track protocol for the

Internet community, and requests discussion and suggestions for

improvements. Please refer to the current edition of the "Internet

Official Protocol Standards" (STD 1) for the standardization state

and status of this protocol. Distribution of this memo is unlimited.

Copyright Notice

Copyright (C) The Internet Society (1998). All Rights Reserved.

Abstract

This memo defines a portion of the Management Information Base (MIB)

for use with network management protocols in the Internet community.

In particular, it defines objects for monitoring and controlling

network devices with APPN (Advanced Peer-to-Peer Network) EBN

(Extended Border Node) capabilities. This memo identifies managed

objects for the EBN architecture.

Table of Contents

1.0 IntrodUCtion . . . . . . . . . . . . . . . . . . . . . . . 2

2.0 The SNMP Network Management Framework . . . . . . . . . . 2

3.0 Overview . . . . . . . . . . . . . . . . . . . . . . . . . 3

3.1 EBN MIB Structure . . . . . . . . . . . . . . . . . . . . 4

3.1.1 enbDir group . . . . . . . . . . . . . . . . . . . . . 5

3.1.2 ebnIsRscv group . . . . . . . . . . . . . . . . . . . 5

3.1.3 ebnDirConfig group . . . . . . . . . . . . . . . . . . 7

3.1.4 ebnCos group . . . . . . . . . . . . . . . . . . . . . 8

3.1.5 ebnSubnetRoutingList group . . . . . . . . . . . . . . 8

3.1.6 hbn group . . . . . . . . . . . . . . . . . . . . . . 8

4.0 Definitions . . . . . . . . . . . . . . . . . . . . . . . 9

5.0 Security Considerations . . . . . . . . . . . . . . . . . 24

6.0 Intellectual Property . . . . . . . . . . . . . . . . . . 25

7.0 Acknowledgments . . . . . . . . . . . . . . . . . . . . . 25

8.0 References . . . . . . . . . . . . . . . . . . . . . . . . 25

9.0 Authors' Addresses . . . . . . . . . . . . . . . . . . . . 27

10.0 Full Copyright Statement . . . . . . . . . . . . . . . . 28

1.0 Introduction

This document is a product of the SNA NAU Services MIB Working Group.

It defines a MIB module for managing devices with Advanced Peer-to-

Peer Networking (APPN) Extended Border Node (EBN) capabilities.

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 RFC2119, reference

[13].

2.0 The SNMP Network Management Framework

The SNMP Network Management Framework presently consists of six major

components. They are:

o the overall architecture, described in RFC2271 [7].

o the SMI, described in RFC1902 [3], - the mechanisms used for

describing and naming objects for the purpose of management.

o the MIB-II, STD 17, RFC1213 [2], - the core set of managed

objects for the Internet suite of protocols.

o the protocol, STD 15, RFC1157 [1] and/or RFC1905 [6] and/or RFC

2272 [8] -- the protocol for Accessing managed information.

o the user-based security model defined in RFC2274 [10].

o the view-based access control model defined in RFC2275 [11].

Textual conventions are defined in RFC1903 [4], and conformance

statements are defined in RFC1904 [5]. Common applications are

defined in RFC2273 [9].

The Framework permits new objects to be defined for the purpose of

eXPerimentation and evaluation.

This memo specifies a MIB module that is compliant to the SMIv2. A

MIB conforming to the SMIv1 can be produced through the appropriate

translation.

3.0 Overview

This document identifies the proposed set of objects for monitoring

the configuration and active characteristics of devices with EBN

capabilities. The Extended Border Node function is an APPN

enhancement for an APPN network node (NN). It supports topology

isolation, subnet interconnection, and session establishment between

subnets.

In a single APPN network, all network topology information is

propagated to all network nodes. Directory searches can also be

forwarded to all network nodes. As the network grows, this network

traffic could become prohibitive. Also, in networks where different

enterprises are connected via APPN, it may be desirable to shield an

enterprise from the network traffic of another enterprise. EBNs

allow customers to partition a network into subnets to reduce or

shield such network traffic.

An EBN provides this function by blocking topology information

exchange between subnets, and controlling where directory searches

are forwarded. A subnetwork is a cluster of APPN NNs which share the

same network topology. Subnetwork boundaries, or partitions, occur

where an EBN and an NN adjacent to it have different network

identifiers (NETIDs). They may also occur where an EBN and adjacent

NN have the same NETID but are configured to have a subnetwork

boundary.

The connection between two APPN nodes is an APPN transmission group

(TG). A TG at a subnet boundary is called an Intersubnetwork

Transmission Group (ISTG).

The subnet in which an EBN resides is called its native subnetwork.

The subnet across the subnet boundary is called the non-native

subnetwork, with respect to the EBN.

A cost of the EBN function is that customers may have difficulty

determining the end-to-end route of sessions that cross subnet

boundaries, and understanding how the EBN will control directory

searches between subnets. This MIB addresses these issues.

Another challenge facing customers is to identify subnet boundaries

formed by EBNs. The SNANAU APPN MIB [14] identifies subnet

boundaries in the appnNnTopology group. The SNANAU APPN MIB provides

management of APPN objects, and contains some tables that are

extended by this MIB.

In this document, we describe EBN managed objects.

The EBN terms and overall architecture are available from the

networking.raleigh.ibm.com FTP site [15].

Highlights of the management functions supported by the EBN MIB

module include the following:

o Identifying the subnet affiliation of LUs (logical units)

o Identifying session routes in non-native subnets, with

correlation to the route in the native subnet provided in the

SNANAU APPN MIB.

o Identifying the COS (Class of Service) mappings between subnets.

o Identifying the subnet routing lists

This MIB module does not support:

o Configuration of EBN nodes.

o Historical information about session initiation failures.

o Peripheral Border Node (PBN) support. PBN is an APPN function

that only supports communication to adjacent subnetworks, and is

not expected to be widely implemented.

o Traps. The APPN MIB contains a trap for Alert conditions that

may affect EBN resources. Although no APPN/EBN Alerts are

defined today in the APPN MIB [14], they could exist in the

future. The value for the affectedObject object contained in the

alertTrap is determined by the implementation. It may contain a

VariablePointer from the EBN MIB.

3.1 EBN MIB Structure

The EBN MIB module contains the following groups of objects:

o ebnDir - subnet information about LUs.

o ebnIsRscv - provides the RSCV (Route Selection Control

Vector) and COS for the subnetwork on the BIND destination side

of the EBN.

o ebnDirConfig - objects related to the EBN directory.

o ebnCos - COS mapping between subnetworks,

o ebnSubnetRoutingList - the customer-supplied list of where to

forward search requests.

o hbn - HPR (High Performance Routing) EBN intermediate session

information.

These groups are described below in more detail.

3.1.1 enbDir group

The ebnDir group contains the ebnDirTable, which is an extension to

the appnDirTable. It specifies the subnet affiliation of LUs in the

EBN's directory.

3.1.2 ebnIsRscv group

The ebnIsRscv group contains the ebnIsRscvTable, which is an

extension to the appnIsInTable. The appnIsInTable only allows for

the RSCV and COS name for one subnetwork traversed by a session.

This extension contains the RSCV and COS name for the other

subnetwork.

When an EBN changes RSCVs before forwarding a BIND, appnIsInRouteInfo

contains the incoming RSCV, and ebnIsRscvDestinationRoute contains

the outgoing RSCV.

The following three cases illustrate the contents of

appnIsInRouteInfo and ebnIsRscvDestinationRoute at Extended Border

Nodes.

1. EBN connected to another EBN

**subnet 1**-----ISTG ------**subnet 2**

EBN1 EBN2

PLU SLU

---------------------------->

(1) --------------->

(2) ---------->

(3)

PLU = Primary Logical Unit (session initiator)

SLU = Secondary Logical Unit (session destination)

The value of the appnIsInRouteInfo object at EBN1 is the RSCV

containing the route, represented by (1), from the PLU (or the

entry EBN in its subnet) to EBN2. The value of

ebnIsRscvDestinationRoute object at EBN1 is the RSCV, represented

by (2), containing the one-hop route from EBN1 to EBN2. The

appnIsInRouteInfo object at EBN2 also contains the RSCV

represented by (2). The value of ebnIsRscvDestinationRoute in

EBN2 is the RSVC containing the route to the SLU (or to the next

subnet's entry EBN), represented by (3).

2. EBN connected to a NN or PBN

**subnet 1**-----ISTG ------**subnet 2**

EBN1 NN/PBN

PLU SLU

---------------------------->

(1) --------------------------->

(2)

The value of the appnIsInRouteInfo object at EBN1 is the RSCV

containing the route from the PLU (or the entry EBN in its

subnet) to the NN or PBN, represented by (1). The value of the

ebnIsRscvDestinationRoute object at EBN1 is the RSCV containing

the route from EBN1 to the SLU, represented by (2). Note that

the SLU must be in subnet 2, because the entry node is an NN or

PBN rather than an EBN. The appnIsInRouteInfo object at NN/PBN

contains the same RSCV, as represented by (2).

3. NN or PBN connected to EBN

**subnet 1**-----ISTG ------**subnet 2**

NN/PBN EBN1

PLU SLU

---------------------------->

(1) ---------->

(2)

The value of the appnIsInRouteInfo object at the NN/PBN is the

RSCV containing the route from the PLU to EBN1, represented by

(1). Note that the PLU must be in subnet 1, because the exit

node is an NN/PBN rather than an EBN. The appnIsInRouteInfo

object at EBN1 contains the same RSCV. The value of the

ebnIsRscvDestinationRoute object at EBN1 is the RSCV containing

the route from EBN1 to the SLU (or the next subnet's entry border

node), as represented by (2).

The following three cases illustrate the contents of

ebnIsRscvDestinationCos at Extended Border Nodes.

1. EBN connected to another EBN

**subnet 1**-----ISTG ------**subnet 2**

EBN1 EBN2

PLU SLU

COS A

---------------------------->

COS B

---------->

PLU = Primary Logical Unit (session initiator)

SLU = Secondary Logical Unit (session destination)

The value of ebnIsRscvDestinationCos object at EBN1 is COS A.

The value of ebnIsRscvDestinationCos object at EBN2 is COS B.

2. EBN connected to a NN or PBN

**subnet 1**-----ISTG ------**subnet 2**

EBN1 NN/PBN

PLU SLU

COS A

----------->

COS B

--------------------------->

The value of the ebvIsRscvDestinationCos object at EBN1 is COS B.

3. NN or PBN connected to EBN

**subnet 1**-----ISTG ------**subnet 2**

NN/PBN EBN1

PLU SLU

COS A

---------------------------->

COS B

---------->

The value of the ebnIsRscvDestinationCos object at the EBN2 is

COSB.

3.1.3 ebnDirConfig group

The ebnDirConfig group consists of simple objects that provide EBN-

specific information about directory caching and the local default

value for the maximum number of subnetworks a LOCATE search procedure

may traverse.

3.1.4 ebnCos group

The ebnCos group contains the ebnCosMapTable, which specifies how COS

values are mapped between the non-native subnetwork and the native

subnetwork.

3.1.5 ebnSubnetRoutingList group

The ebnSubnetRoutingList group contains information about the

customer-supplied EBN subnetwork routing list, which indicates to

which adjacent nodes an EBN will forward LOCATE search requests. It

consists of the following tables:

1. ebnSubnetSearchTable

This table has an entry for each LU name that has a defined

subnet routing list. The LU name may identify a single LU, or it

may contain a wildcard character that could identify a group of

LUs (partial wildcard) or all LUs (full wildcard). The objects

in the table indicate whether the EBN may add dynamic entries to

the subnet routing list, and whether the subnet routing list

entries may be reordered for better search performance.

2. ebnSearchTable

This table has an entry for each control point name which is

included in a multi-subnet search for a particular LU name. The

index to the table is the LU name to be searched for, and an

index which lists the order in which the CP names are to be

searched. Both the CP name and the LU name entries in the table

allow for partial and full wildcards. The CP name also allows

for special entries that indicate that the EBN will search

itself and its own native subnetwork at this point in the search,

or will search all native EBNs.

3.1.6 hbn group

The hbn group contains information about HBN (HPR EBN) intermediate

sessions. The hbnIsInTable is an extension to the appnIsInTable.

This table is present for intermediate sessions when there are back-

to-back RTP (Rapid Transport Protocol) connections in an HBN. It

provides the NCE ID (network connection endpoint identifier) and TCID

(transport connection identifier) for the second RTP connection.

4.0 Definitions

EBN-MIB DEFINITIONS ::= BEGIN

IMPORTS

MODULE-IDENTITY, OBJECT-TYPE, Unsigned32

FROM SNMPv2-SMI

MODULE-COMPLIANCE, OBJECT-GROUP

FROM SNMPv2-CONF

DisplayString, TEXTUAL-CONVENTION

FROM SNMPv2-TC

SnaControlPointName

-- Because the characters allowed in an SNA control

-- point name come from a restricted character set,

-- these names are not subject to internationalization.

FROM APPN-MIB

snanauMIB

FROM SNA-NAU-MIB;

ebnMIB MODULE-IDENTITY

LAST-UPDATED "9804281800Z" -- April 28, 1998

ORGANIZATION "IETF SNA NAU MIB WG / AIW APPN MIBs SIG"

CONTACT-INFO

"

Bob Clouston

Cisco Systems

7025 Kit Creek Road

P.O. Box 14987

Research Triangle Park, NC 27709, USA

Tel: 1 919 472 2333

E-mail: clouston@cisco.com

Bob Moore

IBM Corporation

BRQA/501

P.O. Box 12195

Research Triangle Park, NC 27709, USA

Tel: 1 919 254 4436

E-mail: remoore@us.ibm.com

"

DESCRIPTION

" The MIB Module for Extended Border Node"

::= { snanauMIB 7 }

-- snanauMIB ::= { mib-2 34 }

-- ******************************************************************

-- Textual Conventions

-- ------------------------------------------------------------------

SnaNAUWildcardName ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"Fully-qualified network NAU name. Entries take one of three

forms:

- Explicit entries do not contain the character '*'.

- Partial Wildcard entries have the form 'ccc*', where

'ccc' represents one to sixteen characters in a legal

SNA NAU Name.

- A full wildcard consists of a single character '*'.

Because the characters allowed in an SNA NAU name come from

a restricted character set, these names are not subject to

internationalization."

SYNTAX DisplayString(SIZE(1..17))

-- ******************************************************************

ebnObjects OBJECT IDENTIFIER ::= { ebnMIB 1 }

-- ******************************************************************

-- ******************************************************************

-- EBN Directory Group

-- The ebnDirTable is an extension to the appnDirTable. It specifies

-- the subnet affiliation for LUs in the EBN's directory.

-- ******************************************************************

ebnDir OBJECT IDENTIFIER ::= { ebnObjects 1 }

ebnDirTable OBJECT-TYPE

SYNTAX SEQUENCE OF EbnDirEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The EBN Directory Table. This table is an extension

to the APPN MIB's appnDirTable. Entries in this table

are in one-to-one correspondence with entries in the

appnDirTable, with corresponding entries having identical

values for their respective indexes."

::= { ebnDir 1 }

ebnDirEntry OBJECT-TYPE

SYNTAX EbnDirEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Entry in the EBN Directory Table."

INDEX { ebnDirLuName }

::= { ebnDirTable 1 }

EbnDirEntry ::= SEQUENCE {

ebnDirLuName SnaNAUWildcardName,

ebnDirSubnetAffiliation INTEGER }

ebnDirLuName OBJECT-TYPE

SYNTAX SnaNAUWildcardName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Fully qualified network LU name in the domain of a serving

network node. If this object has the same value as the

appnDirLuName object in the APPN MIB, then the two objects

are referring to the same LU."

::= { ebnDirEntry 1 }

ebnDirSubnetAffiliation OBJECT-TYPE

SYNTAX INTEGER { native (1),

nonNative (2),

subarea (3) }

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Specifies the subnetwork affiliation of the LU:

- native(1) : The LU is in the native APPN subnetwork.

- nonNative(2) : The LU is in a non-native APPN subnetwork.

- subarea(3) : The LU is in a subarea network."

::= { ebnDirEntry 2 }

-- ******************************************************************

-- EBN Intermediate Session RSCV Group

-- This table is a sparse extension to the appnIsInTable. For

-- sessions crossing ISTGs adjacent to the EBN, it contains the RSCV

-- and COS used in the direction of the BIND destination.

-- ******************************************************************

ebnIsRscv OBJECT IDENTIFIER ::= { ebnObjects 2 }

ebnIsRscvTable OBJECT-TYPE

SYNTAX SEQUENCE OF EbnIsRscvEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The EBN Intermediate Session RSCV table. This table is an

extension to the appnIsInTable. It contains the RSCV and COS

used in the direction of the BIND destination. There is an

entry in this table for each session that traverses an ISTG

when it enters or leaves this EBN, with corresponding entries

having identical values for their respective indexes."

::= { ebnIsRscv 1}

ebnIsRscvEntry OBJECT-TYPE

SYNTAX EbnIsRscvEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Entry in ebnIsRscvTable."

INDEX { ebnIsRscvCpName,

ebnIsRscvPcid }

::= { ebnIsRscvTable 1 }

EbnIsRscvEntry ::= SEQUENCE {

ebnIsRscvCpName SnaControlPointName,

ebnIsRscvPcid OCTET STRING,

ebnIsRscvDestinationRoute OCTET STRING,

ebnIsRscvDestinationCos DisplayString }

ebnIsRscvCpName OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The network-qualified control point name of the node at

which the session and PCID originated. For APPN and LEN

nodes, this is either CP name of the APPN node at which

the origin LU is located or the CP name of the NN serving

the LEN node at which the origin LU is located. For DLUR

resources it is the name of the owning SSCP.

If this object has the same value as the appnIsInFqCpName

object in the APPN MIB, then the two objects are referring to

the same APPN control point."

::= { ebnIsRscvEntry 1 }

ebnIsRscvPcid OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (8))

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The procedure correlation identifier (PCID) of a session.

It is an 8-octet value.

If this object has the same value as the appnIsInPcid object

in the APPN MIB, and if the corresponding ebnIsRscvCpName

object has the same value as the corresponding

appnIsInFqCpName object, then the entries indexed by these

objects are referring to the same session."

::= { ebnIsRscvEntry 2 }

ebnIsRscvDestinationRoute OBJECT-TYPE

SYNTAX OCTET STRING(SIZE (0..255))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The route selection control vector (RSCV x'2B') used in the

direction towards the SLU."

::= { ebnIsRscvEntry 3 }

ebnIsRscvDestinationCos OBJECT-TYPE

SYNTAX DisplayString (SIZE (1..8))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The Class of Service (COS) name used in the direction

towards the SLU.

Because the characters allowed in an SNA COS name come from

a restricted character set, these names are not subject to

internationalization."

::= { ebnIsRscvEntry 4 }

-- ******************************************************************

-- EBN Directory Config Group

-- The following simple objects provide information about EBN

-- directory.

-- ******************************************************************

ebnDirConfig OBJECT IDENTIFIER ::= { ebnObjects 3 }

ebnSearchCacheTime OBJECT-TYPE

SYNTAX Unsigned32

UNITS "minutes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The amount of time in minutes an extended border node will

retain information about a multi-subnetwork search, once

that that search terminates. A value 0 indicates that the

EBN has no defined limit, and the number of entries is

bounded only by memory."

::= { ebnDirConfig 1 }

ebnMaxSearchCache OBJECT-TYPE

SYNTAX Unsigned32

UNITS "entries"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The maximum number of multi-subnet entries to be cached.

The value 0 indicates that the local node has no defined

limit, and the number of entries is bounded only by

memory."

::= { ebnDirConfig 2 }

ebnDefaultSubnetVisitCount OBJECT-TYPE

SYNTAX Unsigned32

UNITS "topology subnetworks"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The default maximum number of subnetworks a LOCATE search

procedure may traverse."

::= { ebnDirConfig 3 }

-- ******************************************************************

-- EBN COS Mapping Group

-- The ebnCosMap Table specifies how non-native COS values are mapped

-- to COS values defined in the native subnetwork. The COS mappings

-- that an EBN performs are determined by multiple factors, one of

-- which is a set of user-defined mappings. This table returns the

-- COS mappings that the EBN is actually performing, rather than

-- the user-defined mappings.

-- ******************************************************************

ebnCOS OBJECT IDENTIFIER ::= { ebnObjects 4 }

ebnCosMapTable OBJECT-TYPE

SYNTAX SEQUENCE OF EbnCosMapEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The EBN COS Mapping Table. This table specifies how non-

native COS values are mapped to COS values defined in the

native subnetwork.

Note: The COS mappings that an EBN performs are determined

by multiple factors, one of which is a set of user-defined

initial mappings. This table returns the COS mappings that

the EBN is actually performing at the time it is queried,

rather than the user-defined initial ones."

::= { ebnCOS 1 }

ebnCosMapEntry OBJECT-TYPE

SYNTAX EbnCosMapEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"An entry in the EBN COS Mapping table."

INDEX { ebnCosMapCpName,

ebnCosMapNonNativeCos }

::= { ebnCosMapTable 1 }

EbnCosMapEntry ::= SEQUENCE {

ebnCosMapCpName SnaNAUWildcardName,

ebnCosMapNonNativeCos DisplayString,

ebnCosMapNativeCos DisplayString }

ebnCosMapCpName OBJECT-TYPE

SYNTAX SnaNAUWildcardName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Fully qualified network CP name for which the COS mapping

applies."

::= { ebnCosMapEntry 1 }

ebnCosMapNonNativeCos OBJECT-TYPE

SYNTAX DisplayString (SIZE(1..8))

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This object contains one of the following values:

- An 8-character COS name used in a non-native subnetwork.

- The single character '*', identifying the entry with the

default native COS for a non-native CP name. This entry

is used when there is no entry in the table for a

non-native CP name / non-native COS pair.

Because the characters allowed in an SNA COS name come from

a restricted character set, these names are not subject to

internationalization."

::= { ebnCosMapEntry 2 }

ebnCosMapNativeCos OBJECT-TYPE

SYNTAX DisplayString (SIZE(1..8))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"An 8-byte name for the class-of-service, as known in the

native subnetwork.

Because the characters allowed in an SNA COS name come from

a restricted character set, these names are not subject to

internationalization."

::= { ebnCosMapEntry 3 }

-- ******************************************************************

-- EBN Subnet Routing List Group

-- The EBN Subnet Routing List indicates to which nodes an EBN

-- forwards search request. This group contains information

-- pertaining to the CONFIGURED Subnet Routing List at an EBN. How a

-- particular search request is routed is determined by a transient

-- list that the EBN creates based on the configured list and other

-- factors.

-- *******************************************************************

ebnSubnetRoutingList OBJECT IDENTIFIER ::= { ebnObjects 5 }

ebnSubnetSearchTable OBJECT-TYPE

SYNTAX SEQUENCE OF EbnSubnetSearchEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table contains one entry for each fully qualified LU

name for which an associated subnet routing list has been

defined. An entry in this table contains general

characteristics of the subnet search routing list for an

LU name. The routing list itself is represented by a set

of contiguous entries in the ebnSearchTable."

::= { ebnSubnetRoutingList 1 }

ebnSubnetSearchEntry OBJECT-TYPE

SYNTAX EbnSubnetSearchEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"An entry for the ebnSubnetSearchTable. The entry

represents the configured parameters the EBN uses when it

is determining how to search for the LU identified by the

ebnSubnetSearchLuName object."

INDEX { ebnSubnetSearchLuName }

::= { ebnSubnetSearchTable 1 }

EbnSubnetSearchEntry ::= SEQUENCE {

ebnSubnetSearchLuName SnaNAUWildcardName,

ebnSubnetSearchDynamics INTEGER,

ebnSubnetSearchOrdering INTEGER }

ebnSubnetSearchLuName OBJECT-TYPE

SYNTAX SnaNAUWildcardName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Fully qualified network LU name."

::= { ebnSubnetSearchEntry 1 }

ebnSubnetSearchDynamics OBJECT-TYPE

SYNTAX INTEGER { none(1),

limited (2),

full (3) }

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether an EBN may add dynamic entries to a

subnetwork routing list. none(1) means no entries may be

added to the subnetwork routing list. limited(2) means

only likely entries may be added to the subnetwork routing

list. full(3) means all native extended border nodes and

adjacent, non-native EBNs and NNs will be added to the

subnetwork routing list."

::= { ebnSubnetSearchEntry 2 }

ebnSubnetSearchOrdering OBJECT-TYPE

SYNTAX INTEGER{ priority(1),

defined(2) }

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether an EBN may reorder a subnetwork routing

list so that entries which are more likely to be successful

move to the top of the subnetwork routing list and entries

which are more likely to be unsuccessful move to the bottom

of the list.

The following values are defined:

- priority(1): Entries may be reordered.

- defined(2): Entries must not be reordered."

::= { ebnSubnetSearchEntry 3 }

-- Border node search table

ebnSearchTable OBJECT-TYPE

SYNTAX SEQUENCE OF EbnSearchEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table indicates the CONFIGURED list of control points

to which the EBN sends Locate searches for a given fully

qualified LU name. Each entry in the table indicates one

control point that should be included in a multi-subnet

search for a particular LU name."

::= { ebnSubnetRoutingList 2 }

ebnSearchEntry OBJECT-TYPE

SYNTAX EbnSearchEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"An entry in the ebnSearchTable. An entry can exist in

this table only if an entry exists in the

ebnSubnetSearchTable with an ebnSubnetSearchLuName value

matching this entry's ebnSearchLuName.

For a given ebnSearchLuName value, the ordering of entries

provides by the ebnSearchIndex values corresponds to the

order in which the control points to be searched appear in

the CONFIGURED search list for the ebnSearchLuName."

INDEX { ebnSearchLuName,

ebnSearchIndex }

::= { ebnSearchTable 1 }

EbnSearchEntry ::= SEQUENCE {

ebnSearchLuName SnaNAUWildcardName,

ebnSearchIndex Unsigned32,

ebnSearchCpName DisplayString,

ebnSearchSNVC Unsigned32 }

ebnSearchLuName OBJECT-TYPE

SYNTAX SnaNAUWildcardName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Fully qualified network LU name. If this object has the

same value as the ebnSubnetSearchLuName object, then the

two objects are referring to the same LU."

::= { ebnSearchEntry 1 }

ebnSearchIndex OBJECT-TYPE

SYNTAX Unsigned32

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Secondary index enumerating the CONFIGURED order in which

a search is forwarded to CPs for a particular LU name. The

order for an actual search is determined dynamically by the

EBN, based on this configured information and on other

factors, including whether search dynamics and search

ordering are enabled. Information on these last two settings

is available in, respectively, the ebnSubnetSearchDynamics

and ebnSubnetSearch ordering objects."

::= { ebnSearchEntry 2 }

ebnSearchCpName OBJECT-TYPE

SYNTAX DisplayString(SIZE(1..17))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This object specifies the CP(s) to which a search should be

forwarded. It either follows the SnaNAUWildcardName textual

convention or takes one of the following special formats:

'*' indicates that all native EBNs and all adjacent non-

native EBNs and NNs may be added to the routing list

dynamically,

'*SELF' indicates that the EBN should search itself and

its native subnetwork at this time during the

cross-subnet search,

'*EBNS' indicates all native EBNs.

Because the characters allowed in a CP name come from a

restricted character set, and because the three formats

listed here use no special characters, this object is not

subject to internationalization."

::= { ebnSearchEntry 3 }

ebnSearchSNVC OBJECT-TYPE

SYNTAX Unsigned32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The maximum number of subnets a Locate search procedure may

traverse. "

::= { ebnSearchEntry 4 }

-- *******************************************************************

-- HPR Extended Border Node Intermediate Session Group

-- The hbnIsInTable is a sparse extension to the appnIsInTable.

-- For sessions that use back-to-back RTP connections in an HBN,

-- this table provides the network connection endpoint identifier

-- (NceId) and the transport connection identifier (Tcid) for the

-- second RTP connection.

-- *******************************************************************

hbn OBJECT IDENTIFIER ::= { ebnObjects 6 }

hbnIsInTable OBJECT-TYPE

SYNTAX SEQUENCE OF HbnIsInEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The HBN Intermediate Session table."

::= { hbn 1}

hbnIsInEntry OBJECT-TYPE

SYNTAX HbnIsInEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Entry of the HBN Intermediate Session Table. An entry

exists in this table for every intermediate session being

routed between back-to-back RTP connections in the HBN.

When an entry for a session exists in this table, the

NceIds and Tcids for the back-to-back RTP connections are

made available in the following four objects:

RTP connection in the direction of the PLU:

- NceId: appnIsInRtpNceId (in the APPN MIB)

- Tcid: appnIsinRtpTcid (in the APPN MIB).

RTP connection in the direction of the SLU:

- NceId: hbnIsInRtpNceId (in this table)

- Tcid: hbnIsInRtpTcid (in this table)."

INDEX { hbnIsInFqCpName,

hbnIsInPcid }

::= { hbnIsInTable 1 }

HbnIsInEntry ::= SEQUENCE {

hbnIsInFqCpName SnaControlPointName,

hbnIsInPcid OCTET STRING,

hbnIsInRtpNceId OCTET STRING,

hbnIsInRtpTcid OCTET STRING }

hbnIsInFqCpName OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The network-qualified control point name of the node at

which the session and PCID originated. For APPN and LEN

nodes, this is either the CP name of the APPN node at

which the origin LU is located or the CP name of the NN

serving the LEN node at which the origin LU is located.

If this object has the same value as the appnIsInFqCpName

object in the APPN MIB, then the two objects are referring

to the same APPN control point."

::= { hbnIsInEntry 1 }

hbnIsInPcid OBJECT-TYPE

SYNTAX OCTET STRING (SIZE(8))

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The procedure correlation identifier (PCID) of a session.

It is an 8-octet value.

If this object has the same value as the appnIsInPcid object

in the APPN MIB, and if the corresponding hbnIsInFqCpName

object has the same value as the corresponding

appnIsInFqCpName object, then the entries indexed by these

objects are referring to the same session."

::= { hbnIsInEntry 2 }

hbnIsInRtpNceId OBJECT-TYPE

SYNTAX OCTET STRING (SIZE(1..8))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The HPR local Network Connection Endpoint of the session in

the direction of the SLU."

::= { hbnIsInEntry 3 }

hbnIsInRtpTcid OBJECT-TYPE

SYNTAX OCTET STRING (SIZE(8))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The RTP connection local TCID of the session in the direction

of the SLU."

::= { hbnIsInEntry 4 }

-- *******************************************************************

-- Conformance Statement

-- *******************************************************************

ebnConformance OBJECT IDENTIFIER ::= { ebnMIB 2 }

ebnCompliances OBJECT IDENTIFIER ::= { ebnConformance 1 }

ebnGroups OBJECT IDENTIFIER ::= { ebnConformance 2 }

-- Compliance statements

ebnCompliance MODULE-COMPLIANCE

STATUS current

DESCRIPTION

"The compliance statement for the SNMPv2 entities which

implement the ebnMIB."

MODULE -- this module

-- Unconditionally mandatory groups

MANDATORY-GROUPS {

ebnDirectoryGroup,

ebnIsRscvGroup,

ebnDirectoryConfigGroup,

ebnCosMappingGroup,

ebnSubnetRoutingListGroup }

-- Conditionally mandatory groups

GROUP hbnIsInGroup

DESCRIPTION

"The hbnIsInGroup is mandatory only for HPR extended border

nodes."

::= {ebnCompliances 1 }

-- Group definitions

ebnDirectoryGroup OBJECT-GROUP

OBJECTS { ebnDirSubnetAffiliation }

STATUS current

DESCRIPTION

"The EBN-related directory objects."

::= { ebnGroups 1 }

ebnIsRscvGroup OBJECT-GROUP

OBJECTS { ebnIsRscvDestinationRoute,

ebnIsRscvDestinationCos }

STATUS current

DESCRIPTION

"Two objects representing RSCV and class of service

information saved by an EBN."

::= { ebnGroups 2 }

ebnDirectoryConfigGroup OBJECT-GROUP

OBJECTS { ebnSearchCacheTime,

ebnMaxSearchCache,

ebnDefaultSubnetVisitCount }

STATUS current

DESCRIPTION

"The EBN Directory Configuration Group."

::= { ebnGroups 3 }

ebnCosMappingGroup OBJECT-GROUP

OBJECTS { ebnCosMapNativeCos }

STATUS current

DESCRIPTION

"The EBN COS Mapping Group."

::= { ebnGroups 4 }

ebnSubnetRoutingListGroup OBJECT-GROUP

OBJECTS { ebnSubnetSearchDynamics,

ebnSubnetSearchOrdering,

ebnSearchCpName,

ebnSearchSNVC }

STATUS current

DESCRIPTION

"The Subnet Routing List Group."

::= { ebnGroups 5 }

hbnIsInGroup OBJECT-GROUP

OBJECTS { hbnIsInRtpNceId, hbnIsInRtpTcid }

STATUS current

DESCRIPTION

"The HBN-related Intermediate Session Objects."

::= { ebnGroups 6 }

END

5.0 Security Considerations

Certain management information defined in this MIB may be considered

sensitive in some network environments. Therefore, authentication of

received SNMP requests and controlled access to management

information SHOULD be employed in such environments. An

authentication protocol is defined in [10]. A protocol for access

control is defined in [11].

None of the read-only objects in the EBN MIB reports a password, user

data, or anything else that is particularly sensitive. Some

enterprises view their network configuration itself, as well as

information about network usage and performance, as corporate assets;

such enterprises may wish to restrict SNMP access to most of the

objects in the MIB.

There are no read-write objects in the EBN MIB.

6.0 Intellectual Property

The IETF takes no position regarding the validity or scope of any

intellectual property or other rights that might be claimed to

pertain to the implementation or use of the technology described in

this document or the extent to which any license under such rights

might or might not be available; neither does it represent that it

has made any effort to identify any such rights. Information on the

IETF's procedures with respect to rights in standards-track and

standards-related documentation can be found in BCP-11. Copies of

claims of rights made available for publication and any assurances of

licenses to be made available, or the result of an attempt made to

oBTain a general license or permission for the use of such

proprietary rights by implementers or users of this specification can

be obtained from the IETF Secretariat.

The IETF invites any interested party to bring to its attention any

copyrights, patents or patent applications, or other proprietary

rights which may cover technology that may be required to practice

this standard. Please address the information to the IETF Executive

Director.

7.0 Acknowledgments

This MIB module is the product of the IETF SNA NAU MIB WG and the AIW

APPN/HPR MIBs SIG. Thanks to Dave Billing, Cisco Systems; Katie Lee,

IBM Corporation; and Marcia Peters, IBM Corporation, for their

contributions and review.

8.0 References

[1] Case, J., Fedor, M. Schoffstall, M. and J. Davin, "Simple

Network Management Protocol", STD 15, RFC1157, May 1990.

[2] McCloghrie, K., and M. Rose, "Management Information Base for

Network Management of TCP/IP-based internets: MIB-II", STD 17,

RFC1213, March 1991.

[3] Case, J., McCloghrie, K., Rose, M., and Waldbusser S.,

"Structure of Management Information for Version 2 of the Simple

Network Management Protocol (SNMPv2)", RFC1902, January 1996.

[4] Case, J., McCloghrie, K., Rose, M., and Waldbusser, S., "Textual

Conventions for Version 2 of the Simple Network Management

Protocol (SNMPv2)", RFC1903, January 1996.

[5] Case, J., McCloghrie, K., Rose, M., and Waldbusser, S.,

"Conformance Statements for Version 2 of the Simple Network

Management Protocol (SNMPv2)", RFC1904, January 1996.

[6] Case, J., McCloghrie, K., Rose, M., and Waldbusser, S.,

"Protocol Operations for Version 2 of the Simple Network

Management Protocol (SNMPv2)", RFC1905, January 1996.

[7] Harrington D., Presuhn, R. and B. Wijnen, "An Architecture for

Describing SNMP Management Frameworks", RFC2271, January 1998.

[8] Harrington D., Presuhn, R. and B. Wijnen, "Message Processing

and Dispatching for the Simple Network Management Protocol

(SNMP)", RFC2272, January 1998.

[9] Levi D., Meyer P. and B. Stewart, "SNMPv3 Applications", RFC

2273, January 1998.

[10] Blumenthal, U. and B. Wijnen, "User-based Security Model (USM)

for version 3 of the Simple Network Management Protocol

(SNMPv3)", RFC2274, January 1998.

[11] Wijnen, B., Presuhn, R. and K. McCloghrie, "View-based Access

Control Model (VACM) for the Simple Network Management Protocol

(SNMP)", RFC2275, January 1998.

[12] Hovey, R. and S. Bradner, "The Organizations Involved in the

IETF Standards Process", BCP 11, RFC2028, October 1996.

[13] Bradner, S., "Key words for use in RFCs to Indicate Requirement

Levels", BCP 14, RFC2119, March 1997.

[14] Clouston, B. and B. Moore, "Definition of Managed Objects for

APPN", RFC2455, November 1998.

[15] IBM, APPN Extended Border Node Architecture Reference Version

1.0, available only via anonymous FTP at

networking.raleigh.ibm.com, as

/pub/standards/aiw/appn/bordernode/ebn4.psbin.

[16] IBM, SNA/MS Formats, GC31-8302-01

9.0 Authors' Addresses

Bob Clouston

Cisco Systems

7025 Kit Creek Road

P.O. Box 14987

Research Triangle Park, NC 27709, USA

Phone: +1-919-472-2333

EMail: clouston@cisco.com

Robert Moore

Dept. BRQA/Bldg. 501/G114

IBM Corporation

P.O.Box 12195

3039 Cornwallis

Research Triangle Park, NC 27709, USA

Phone: +1-919-254-4436

EMail: remoore@us.ibm.com

10.0 Full Copyright Statement

Copyright (C) The Internet Society (1998). All Rights Reserved.

This document and translations of it may be copied and furnished to

others, and derivative works that comment on or otherwise explain it

or assist in its implementation may be prepared, copied, published

and distributed, in whole or in part, without restriction of any

kind, provided that the above copyright notice and this paragraph are

included on all such copies and derivative works. However, this

document itself may not be modified in any way, such as by removing

the copyright notice or references to the Internet Society or other

Internet organizations, except as needed for the purpose of

developing Internet standards in which case the procedures for

copyrights defined in the Internet Standards process must be

followed, or as required to translate it into languages other than

English.

The limited permissions granted above are perpetual and will not be

revoked by the Internet Society or its successors or assigns.

This document and the information contained herein is provided on an

"AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET ENGINEERING

TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING

BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION

HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF

MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.

 
 
 
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