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RFC2455 - Definitions of Managed Objects for APPN

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

Request for Comments: 2455 Cisco Systems

Obsoletes: 2155 B. Moore

Category: Standards Track IBM Corporation

November 1998

Definitions of Managed Objects

for APPN

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 Networking)

capabilities. This memo identifies managed objects for the APPN

protocol.

Table of Contents

1. IntrodUCtion .......................................... 2

2. The SNMPv2 Network Management Framework ............... 2

3. Overview .............................................. 3

3.1 Relationship with RFC2155 ........................... 6

3.2 APPN MIB structure ................................... 7

4. Definitions ........................................... 10

5. Security Considerations ............................... 135

6. Intellectual Property ................................. 136

7. Acknowledgments ....................................... 137

8. References ............................................ 137

9. Authors' Addresses .................................... 139

10. Full Copyright Statement .............................. 140

1. 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) 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 [17].

2. The SNMP Network Management Framework

The SNMP Management Framework presently consists of five major

components:

o An overall architecture, described in RFC2271 [1].

o 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

STD 16, RFC1155 [2], STD 16, RFC1212 [3] and RFC1215 [4]. The

second version, called SMIv2, is described in RFC1902 [5], RFC

1903 [6] and RFC1904 [7].

o Message protocols for transferring management information. The

first version of the SNMP message protocol is called SNMPv1 and

described in STD 15, RFC1157 [8]. A second version of the SNMP

message protocol, which is not an Internet standards track

protocol, is called SNMPv2c and described in RFC1901 [9] and

RFC1906 [10]. The third version of the message protocol is

called SNMPv3 and described in RFC1906 [10], RFC2272 [11] and

RFC2274 [12].

o Protocol operations for Accessing management information. The

first set of protocol operations and associated PDU formats is

described in STD 15, RFC1157 [8]. A second set of protocol

operations and associated PDU formats is described in RFC1905

[13].

o A set of fundamental applications described in RFC2273 [14] and

the view-based access control mechanism described in RFC2275

[15].

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. Overview

This document identifies a set of objects for monitoring the

configuration and active characteristics of devices with APPN

capabilities, and for controlling certain characteristics. APPN is

the ASPect of Systems Network Architecture (SNA) that supports peer-

to-peer networking. These networks transport both independent and

dependent LU session traffic. See the SNANAU APPC MIB [21] and the

SNA NAU MIB [22] for management of these sessions. See also RFC

2232, the DLUR MIB [23], and RFC2238, the HPR MIB [24] for

management of extensions to the APPN architecture. In this document,

we describe APPN managed objects.

An APPN network comprises various types of nodes, and transmission

groups (TGs) that connect the nodes. Network nodes (NNs) provide

Directory and routing functions for session establishment. NNs may

be session end points or intermediate nodes in a session. A border

node is a type of network node that connects networks together for

session establishment without fully merging them. A branch network

node (BrNN) is a network node that is similar to a border node, but

with only minimal functions to build a large APPN network within an

enterprise. Although a BrNN is defined to be a network node in the

APPN architecture, it also has an end node (EN) appearance to

upstream NNs in the network. In this MIB module it is treated as a

separate node type since it does not fit cleanly as an EN or NN, and

this module eXPlicity identifies those objects returned by a BrNN.

For example, a BrNN does not implement the appnNnTopo objects since

it is the only node in its network topology table; but it does

implement the appnSessIntermediate objects since it does have

intermediate session support. It also implements two of the

appnEnUniqueCaps objects that could be useful to a management

application. A BrNN identifies itself as 'endNode' in the

appnNodeType object but further identifies itself as a BrNN in the

appnNodeBrNn object.

End nodes are session end points that receive directory and routing

functions from network nodes, over control-point to control-point

(CP-CP) sessions. Low-entry networking (LEN) nodes are also session

end points, but do not support CP-CP sessions, and therefore need

additional manual configuration definitions to establish sessions in

an APPN network. ENs and LEN nodes may have minimal directory and

routing functions to establish control sessions (ENs) or to connect

into the APPN network (LEN nodes).

Virtual routing nodes (VRNs) are not really nodes, but rather common

definitions among actual nodes in a shared transport facility such as

a local area network (LAN) that allow these actual nodes to

temporarily establish a logical link with one another without

defining each other's link-level addressing information.

Ports and link stations are the node's interface to the data link

control (DLC), which provides the physical transport, or to another

protocol such as Data Link Switching (DLSw), which provides transport

over an IP network. See the SNADLC SDLC MIB[25], the SNADLC LLC

MIB[26], and the DLSw MIB[27]. A link station uses a port to make a

connection to another node. This connection establishes a TG between

the two nodes.

The directory and routing functions enable an NN to find where an LU

is located in the network, and calculate the optimal route for the

session based on the requested class of service (COS). A network

node saves the LU information in a directory database, which is built

from LUs defined locally, LU registration from served end nodes, and

LUs learned from network searches.

Each NN maintains a local COS database that assigns a routing weight,

or relative cost, to each resource for each class of service. For

example, the #INTER COS assigns a lower weight to TGs with a greater

effective capacity, while the #BATCH COS favors TGs with a lower

relative cost per byte.

A node saves network topology information (on NNs, VRNs, and TGs

between them) in a network topology database. A node that supports

APPN function set 1120, branch awareness, also saves information on

TGs to adjacent BrNNs. The topology information includes state and

routing characteristics. Topology information is exchanged between

NNs over CP-CP sessions such that the database is fully replicated at

each NN. Information on TGs to all node types are kept in a local

topology database. Local topology information is shared with other

nodes only during the session establishment process, to give the NN

responsible for route calculation the necessary information for end-

to-end route calculation.

A management application can show a full representation of the APPN

network from the network and local topology information. To show the

network topology, the application need only query the network

topology tables from a single NN. To show all of the BrNNs, the

application must also directly query all destinations of TGs that

indicate they are branch TGs (indicated by the appnNnTgFRBranchTg

object) to see if they have any cascaded BrNNs. For any NNs that do

not indicate branch awareness support (indicated by the

appnNnNodeFRBranchAwareness object), the application must query each

NN's appnLocalTgTable, and then the appnNodeBrNn object of each row's

destination node to identify BrNNs. To show all of the nodes in the

network, including ENs and LEN nodes, the application must query

every NN's appnLocalTgTable, and iteratively do the same for each

BrNN it finds.

SNA names such as LU names, CP names, COS names, and mode names can

be padded with blanks (space characters) in SNA formats. These

blanks are nonsignificant. For example, in a BIND Request Unit (RU)

a COS name of "#INTER" with a length of 6 is identical to a COS name

of "#INTER " with a length of 8. However, in this MIB,

nonsignificant blanks are not included by the agent. Using the COS

name from the previous example, an agent would return a length of 6

and the string "#INTER" with no blanks for appnCosName, regardless of

how it appears in the BIND RU or in internal storage. The lone

exception is the all blank mode name, for which the agent returns a

length of 8 and the string " " (8 blank spaces). The MIB

variables that this applies to are identified by a textual convention

syntax that also describes this behavior.

When an SNA name is functioning as a table index, an agent treats

trailing blanks as significant. If a management station requests the

objects from a row with index "#INTER ", the agent does not match

this to the row with index "#INTER". Since an agent has no

nonsignificant blanks in any of its table indices, the only reason

for a Management Station to include them would be to start GetNext

processing at a chosen point in a table. For example, a GetNext

request with index "M " would start retrieval from a table at

the first row with an 8-character index beginning with "M" or a

letter after "M".

The SNA/APPN terms and overall architecture are documented in [18],

[19], [20], and [28].

Highlights of the management functions supported by the APPN MIB

module include the following:

o Activating and deactivating ports and link stations.

o Monitoring of configuration parameters related to the node,

ports, link stations, virtual routing nodes, and classes of

service.

o Monitoring of operational parameters related to ports, link

stations, virtual routing nodes, topology, directory, and

intermediate sessions.

o Historical information about link station errors during

connection establishment, or that caused the connection to

terminate.

o Deactivating intermediate sessions.

o Traps for SNA Management Services (SNA/MS) Alert conditions.

This MIB module does not support:

o Configuration of APPN nodes.

o Monitoring and control of endpoint sessions.

o Dependent LU Requester (DLUR) management.

o High-Performance Routing (HPR) management.

3.1. Relationship with RFC2155

This MIB obsoletes RFC2155 [29] with changes due to additions to the

APPN architecture and some implementation experience of RFC2155.

The changes from RFC2155 are as follows:

o New objects for the multi-link TG architecture enhancement:

appnLsMltgMember, appnNnTgFRMltgLinkType,

appnLocalTgMltgLinkType, and appnLocalEnTgMltgLinkType.

o New objects, and explanations for values for existing objects,

for the branch network node architecture enhancement:

appnNodeBrNn, appnNnNodeFRBranchAwareness, appnNnTgFRBranchTg,

and appnLocalTgBranchLinkType.

o New object, appnNodeLsCounterType, to indicate which type of ANR

traffic is returned in the appnLsTable traffic counters.

o Deprecated appnNodeMibVersion object.

o Miscellaneous editorial changes.

3.2. APPN MIB Structure

The APPN MIB module contains the following groups of objects:

o appnNode - objects related to the APPN node for all node types.

o appnNn - objects to represent the network nodes, virtual

routing nodes, and TGs between these nodes that make up the APPN

network topology database maintained in NNs.

o appnLocalTopology - objects to represent nodes and TGs between

nodes in the local topology database maintained in all nodes.

o appnDir - objects related to LU location information from the

node's directory database.

o appnCos - objects related to classes of service information.

o appnSessIntermediate - objects related to intermediate sessions

that pass through this node.

These groups are described below in more detail.

3.2.1. appnNode group

The appnNode group consists of the following tables and objects:

1) appnGeneralInfoAndCaps

This group of objects describes general information about the APPN

node. The type of information includes the node type and the time

since this node was initialized.

2) appnNnUniqueInfoAndCaps

This group of objects describes information specific to network nodes

such as node routing characteristics.

3) appnEnUniqueInfoAndCaps

This group of objects describes information specific to end nodes,

with two objects that also apply to branch network nodes. This group

includes an object indicating the node's network node server.

4) appnPortInformation

This includes the appnPortTable, which describes the configuration

and current status of the ports used by APPN, including the port

state and DLC type.

5) appnLinkStationInformation

This includes the appnNodeLsTable, which describes the configuration

and current status of the link stations used by APPN, including the

link state and port name; and the appnLsStatusTable, which provides

information about errors this node encountered with connections to

adjacent nodes, such as the sense data captured during connection

failures. It is a product option to decide how many

appnLsStatusTable entries are kept.

6) appnVrnInfo

This includes the appnVrnTable, which describes the relationship

between virtual routing nodes' TGs described in the appnLocalTgTable

with ports in the appnPortTable.

3.2.2. appnNn group

The appnNn group consists of the following objects and tables

1) appnNnTopo

These objects contain general information about the network topology

database including the number of nodes present, and the number of

topology database updates (TDU) wars the node has detected.

2) appnNnTopology

This includes tables representing the APPN network topology database.

This includes the network nodes, virtual routing nodes, and TGs

between these nodes, as well as the information about these resources

carried in topology updates. The tables are first indexed by the

same flow reduction sequence number (FRSN) used in topology exchanges

between NNs. This allows a management station to retrieve only

incremental updates, since the agent will update the FRSN of new or

changed resources.

3.2.3. appnLocalTopology group

The appnLocalTopology group consists of the following objects and

tables:

1) appnLocalThisNode

a) appnLocalGeneral

Contains the local node and type.

b) appnLocalNnSpecific

These objects contain routing information about the local network

node.

c) appnLocalTg

This table represents information about this node's local TGs.

2) appnLocalEnTopology

This table represents TG information for EN TGs learned by the NN via

TG registration with the local node.

3.2.4. appnDir group

The appnDir group consists of the following objects and tables:

1) appnDirPerf

These objects represent information related to information about the

directory database and directory searches involving this node.

2) appnDirTable

This table represents the directory database, listing LUs known to

this node, along with the owning node of the LU and the serving NN of

the owning node.

3.2.5. appnCos group

The appnCos group consists of the following tables:

1) appnCosModeTable

This table represents the mode to class of service mapping.

2) appnCosNameTable

This table represents the tranmission priority for each class of

service.

3) appnCosNodeRowTable

This table represents the node-row information for each class of

service, including the weight of each node.

3) appnCosTGRowTable

This table represents the TG-row information for each class of

service, including the weight of each TG.

3.2.6. appnSessIntermediate group

The appnSessIntermediate group consists of the following objects and

tables:

1) appnIsInGlobal

These objects allow control of the collection of intermediate session

information such as Route Selection Control Vectors (RSCVs) and

counters.

2) appnIsInTable

This table contains information on active intermediate sessions.

3) appnIsRtpTable

This table contains information on active intermediate sessions that

are being transported on Rapid Transport Protocol (RTP) connections

by High Performance Routing (HPR).

3.2.7. appnTraps

One APPN trap is defined. It is intended to correspond to SNA/MS

Alerts, but is optional for a product to implement this trap. The

trap identifies the Alert ID number and, where possible, the affected

resource.

4. Definitions

APPN-MIB DEFINITIONS ::= BEGIN

IMPORTS

IANAifType

FROM IANAifType-MIB

DisplayString, VariablePointer, RowPointer, DateAndTime,

TruthValue, TimeStamp, TEXTUAL-CONVENTION

FROM SNMPv2-TC

Counter32, Gauge32, Unsigned32, TimeTicks,

OBJECT-TYPE, MODULE-IDENTITY, NOTIFICATION-TYPE

FROM SNMPv2-SMI

MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUP

FROM SNMPv2-CONF

snanauMIB

FROM SNA-NAU-MIB;

appnMIB MODULE-IDENTITY

LAST-UPDATED "9807151800Z" -- July 15, 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

4205 S. Miami Boulevard

BRQA/501

P.O. Box 12195

Research Triangle Park, NC 27709, USA

Tel: 1 919 254 4436

E-mail: remoore@us.ibm.com

"

DESCRIPTION

"This is the MIB module for objects used to

manage network devices with APPN capabilities."

-- Revision tracking starts with Proposed Standard (RFC2155)

REVISION "9807151800Z"

DESCRIPTION

"Minor editorial fixes; new value 'none(5)' added

to the enumeration for the appnLocalTgBranchLinkType

object."

REVISION "9805261800Z"

DESCRIPTION

"Post-RFC2155 conformance definitions added,

appnNodeLsCounterType and appnNodeBrNn objects

added, appnNodeMibVersion object deprecated."

REVISION "9707311800Z"

DESCRIPTION

"Branch network node (Branch Extender) objects added."

REVISION "9703311800Z"

DESCRIPTION

"MLTG objects added."

REVISION "9703201200Z"

DESCRIPTION

"RFC2155 (Proposed Standard)"

::= { snanauMIB 4 }

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

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

-- Textual Conventions

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

SnaNodeIdentification ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"An SNA Node Identification consists of two parts, which

together comprise four bytes of hexadecimal data. In SNA the

Node Identification is transported in bytes 2-5 of the XID.

The block number is the first three digits of the Node

Identification. These 3 hexadecimal digits identify the

product.

The ID number is the last 5 digits of the Node Identification.

These 5 hexadecimal digits are administratively defined and

combined with the 3-digit block number form the 8-digit Node

Identification. A unique value is required for connections to

SNA subarea. In some implementations, the value 'bbb00000'

(where 'bbb' represents a 3-digit block number) is returned to

mean that the ID number is not unique on this node.

An SNA Node Identification is represented as eight

ASCII-encoded hexadecimal digits, using the characters '0' -

'9' and 'A' - 'F'."

SYNTAX OCTET STRING (SIZE (8))

SnaControlPointName ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"A fully qualified SNA control point name, consisting of a 1 to

8 character network identifier (NetId), a period ('.'), and a 1

to 8 character control point name (CpName).

The NetId and CpName are constructed from the uppercase letters

'A' - 'Z' and the numerics '0' - '9', all encoded in ASCII,

with the restriction that the first character of each must be

a letter. Trailing blanks are not allowed.

Earlier versions of SNA permitted three additional characters

in NetIds and CpNames: '#', '@', and '$'. While this use of

these characters has been retired, a Management Station should

still accept them for backward compatibility."

SYNTAX OCTET STRING (SIZE (3..17))

SnaClassOfServiceName ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"An SNA class-of-service (COS) name, ranging from 1 to 8

ASCII characters. COS names take one of two forms:

- a user-defined COS name is constructed from the uppercase

letters 'A' - 'Z' and the numerics '0' - '9', with the

restriction that the first character of the name must be

a letter.

- an SNA-defined user-session COS name begins with the

character '#', which is followed by up to seven

additional characters from the set of uppercase letters

and numerics.

Trailing blanks are not allowed in either form of COS name.

A zero-length string indicates that a COS name is not

available."

SYNTAX OCTET STRING (SIZE (0..8))

SnaModeName ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"An SNA mode name, ranging from 1 to 8 ASCII characters.

Mode names take one of two forms:

- a user-defined mode name is constructed from the

uppercase letters 'A' - 'Z' and the numerics '0' - '9',

with the restriction that the first character of the name

must be a letter.

- an SNA-defined user-session mode name begins with the

character '#', which is followed by up to seven

additional characters from the set of uppercase letters

and numerics.

Trailing blanks are not allowed in either form of mode name,

with the single exception of the all-blank mode name, where

a string consisting of 8 blanks is returned.

A zero-length string indicates that a mode name is not

available."

SYNTAX OCTET STRING (SIZE (0..8))

SnaSenseData ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"To facilitate their display by a Management Station, sense

data objects in the MIB are represented as OCTET STRINGS

containing eight ASCII characters. Eight '0' characters

indicates that no sense data identifying an SNA error

condition is available.

An SNA sense data is represented as eight hexadecimal digits,

using the characters '0' - '9' and 'A' - 'F'."

SYNTAX OCTET STRING (SIZE (8))

DisplayableDlcAddress ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"DLC address of a port or link station, represented as an

OCTET STRING containing 0 to 64 ASCII characters.

A Management Station should use a value of this type only

for display. The 'real' DLC address, i.e., the sequence of

bytes that flow in the DLC header, is often available in a

DLC-specific MIB.

The zero-length string indicates that the DLC address in

question is not known to the agent."

SYNTAX OCTET STRING (SIZE (0..64))

AppnNodeCounter ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"An object providing global statistics for the entire APPN

node. A Management Station can detect discontinuities in this

counter by monitoring the appnNodeCounterDisconTime object."

SYNTAX Counter32

AppnPortCounter ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"An object providing statistics for an APPN port. A

Management Station can detect discontinuities in this counter

by monitoring the appnPortCounterDisconTime object."

SYNTAX Counter32

AppnLinkStationCounter ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"An object providing statistics for an APPN link station. A

Management Station can detect discontinuities in this counter

by monitoring the appnLsCounterDisconTime object."

SYNTAX Counter32

AppnTopologyEntryTimeLeft ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"Number of days before deletion of this entry from the topology

database. Range is 0-15. A value of 0 indicates that the

entry is either in the process of being deleted, or is being

marked for deletion at the next garbage collection cycle."

SYNTAX INTEGER (0..15)

AppnTgDlcData ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"DLC-specific data related to a connection network transmission

group. For other TGs, a zero-length string is returned.

Examples of the type of data returned by an object with this

syntax include the following:

Token-Ring - MAC/SAP

X.25 Switched - dial digits

X.21 Switched - dial digits

Circuit Switch - dial digits

This MIB does not specify formats for these or any other types

of DLC-specific data. Formats may, however, be specified in

documents related to a particular DLC.

The contents of an object with this syntax correspond to the

contents of the DLC-specific subfields of cv46, documented in

(6)."

SYNTAX OCTET STRING (SIZE (0..64))

AppnTgEffectiveCapacity ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"A value representing the effective capacity of a transmission

group. This is an administratively assigned value derived from

the link bandwidth and maximum load factor. It is encoded in

the same way as byte 7 of cv47, and represents a floating-point

number in units of 300 bits per second."

SYNTAX OCTET STRING (SIZE (1))

AppnTgSecurity ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"A value representing the level of security on a transmission

group. A class of service definition includes an indication of

the acceptable TG security value(s) for that class of service.

The following seven values are defined:

nonsecure(1) -

(X'01'): none of the values listed below;

for example, satellite-connected or

located in a nonsecure country

publicSwitchedNetwork(32) -

(X'20'): public switched network; secure

in the sense that there is no

predetermined route that traffic will take

undergroundCable(64) -

(X'40'): underground cable; located in a

secure country (as determined by the

network administrator)

secureConduit(96) -

(X'60'): secure conduit, not guarded; for

example, pressurized pipe

guardedConduit(128) -

(X'80'): guarded conduit; protected

against physical tapping

encrypted(160) -

(X'A0'): link-level encryption is provided

guardedRadiation(192) -

(X'C0'): guarded conduit containing the

transmission medium; protected against

physical and radiation tapping"

SYNTAX INTEGER {

nonsecure(1), -- X'01'

publicSwitchedNetwork(32), -- X'20'

undergroundCable(64), -- X'40'

secureConduit(96), -- X'60'

guardedConduit(128), -- X'80'

encrypted(160), -- X'A0'

guardedRadiation(192) -- X'C0'

}

AppnTgDelay ::= TEXTUAL-CONVENTION

STATUS current

DESCRIPTION

"Relative amount of time that it takes for a signal to travel

the length of a logical link. This time is represented in

microseconds, using the same encoding scheme used in cv47 in a

topology update. Some of the more common values, along with

their encoded hex values, are:

minimum(0), X'00'

negligible(384), X'4C'

terrestrial(9216), X'71'

packet(147456), X'91'

long(294912), X'99'

maximum(2013265920) X'FF'

"

SYNTAX OCTET STRING (SIZE (1))

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

appnObjects OBJECT IDENTIFIER ::= { appnMIB 1 }

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

-- ******************** The APPN Node Group ****************************

appnNode OBJECT IDENTIFIER ::= { appnObjects 1 }

appnGeneralInfoAndCaps OBJECT IDENTIFIER ::= { appnNode 1 }

appnNnUniqueInfoAndCaps OBJECT IDENTIFIER ::= { appnNode 2 }

appnEnUniqueCaps OBJECT IDENTIFIER ::= { appnNode 3 }

appnPortInformation OBJECT IDENTIFIER ::= { appnNode 4 }

appnLinkStationInformation OBJECT IDENTIFIER ::= { appnNode 5 }

appnVrnInfo OBJECT IDENTIFIER ::= { appnNode 6 }

-- This group provides global information about an APPN network node,

-- an APPN end node, an APPN branch network node, or an LEN node.

-- APPN General Information

-- This section applies to APPN network nodes, end nodes, and branch

-- network nodes, as well as to LEN end nodes.

appnNodeCpName OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Administratively assigned network name for this node."

::= { appnGeneralInfoAndCaps 1 }

-- appnNodeMibVersion OBJECT-TYPE (deprecated: moved to end of module)

appnNodeId OBJECT-TYPE

SYNTAX SnaNodeIdentification

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This node's Node Identification, which it sends in bytes

2-5 of XID."

::= { appnGeneralInfoAndCaps 3 }

appnNodeType OBJECT-TYPE

SYNTAX INTEGER {

networkNode(1),

endNode(2),

t21len(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Type of APPN node:

networkNode(1) - APPN network node

endNode(2) - APPN end node

t21len(4) - LEN end node

Note: A branch network node SHALL return endNode(2)

as the value of this object. A management application

can distinguish between a branch network node and an

actual end node by retrieving the appnNodeBrNn object."

::= { appnGeneralInfoAndCaps 4 }

appnNodeUpTime OBJECT-TYPE

SYNTAX TimeTicks

UNITS "hundredths of a second"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Amount of time (in hundredths of a second) since the APPN node

was last reinitialized."

::= { appnGeneralInfoAndCaps 5 }

appnNodeParallelTg OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node supports parallel TGs."

::= { appnGeneralInfoAndCaps 6 }

appnNodeAdaptiveBindPacing OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node supports adaptive bind pacing for

dependent LUs."

::= { appnGeneralInfoAndCaps 7 }

appnNodeHprSupport OBJECT-TYPE

SYNTAX INTEGER {

noHprSupport(1),

hprBaseOnly(2),

rtpTower(3),

controlFlowsOverRtpTower(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates this node's level of support for high-performance

routing (HPR):

noHprSupport(1) - no HPR support

hprBaseOnly(2) - HPR base (option set 1400)

supported

rtpTower(3) - HPR base and RTP tower

(option set 1401) supported

controlFlowsOverRtpTower(4) - HPR base, RTP tower, and

control flows over RTP

(option set 1402) supported

This object corresponds to cv4580, byte 9, bits 3-4."

::= { appnGeneralInfoAndCaps 8 }

appnNodeMaxSessPerRtpConn OBJECT-TYPE

SYNTAX Gauge32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This object represents a configuration parameter indicating

the maximum number of sessions that the APPN node is to put on

any HPR connection. The value is zero if not applicable."

::= { appnGeneralInfoAndCaps 9 }

appnNodeHprIntRteSetups OBJECT-TYPE

SYNTAX AppnNodeCounter

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of HPR route setups received for routes

passing through this node since the node was last

reinitialized."

::= { appnGeneralInfoAndCaps 10 }

appnNodeHprIntRteRejects OBJECT-TYPE

SYNTAX AppnNodeCounter

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of HPR route setups rejected by this node for

routes passing through it since the node was last

reinitialized."

::= { appnGeneralInfoAndCaps 11 }

appnNodeHprOrgRteSetups OBJECT-TYPE

SYNTAX AppnNodeCounter

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of HPR route setups sent for routes

originating in this node since the node was last

reinitialized."

::= { appnGeneralInfoAndCaps 12 }

appnNodeHprOrgRteRejects OBJECT-TYPE

SYNTAX AppnNodeCounter

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of HPR route setups rejected by other nodes for

routes originating in this node since the node was last

reinitialized."

::= { appnGeneralInfoAndCaps 13 }

appnNodeHprEndRteSetups OBJECT-TYPE

SYNTAX AppnNodeCounter

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of HPR route setups received for routes

ending in this node since the node was last reinitialized."

::= { appnGeneralInfoAndCaps 14 }

appnNodeHprEndRteRejects OBJECT-TYPE

SYNTAX AppnNodeCounter

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of HPR route setups rejected by this node for

routes ending in it since the node was last reinitialized."

::= { appnGeneralInfoAndCaps 15 }

appnNodeCounterDisconTime OBJECT-TYPE

SYNTAX TimeStamp

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The value of the sysUpTime object the last time the APPN node

was reinitialized."

::= { appnGeneralInfoAndCaps 16 }

appnNodeLsCounterType OBJECT-TYPE

SYNTAX INTEGER {

other(1),

noAnr(2),

anrForLocalNces(3),

allAnr(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates which ANR traffic, if any, the node includes in the

counts returned by the APPN link station counters

appnLsInXidBytes, appnLsInMsgBytes, appnLsInXidFrames,

appnLsInMsgFrames, appnLsOutXidBytes, appnLsOutMsgBytes,

appnLsOutXidFrames, and appnLsOutMsgFrames. These counters

are always incremented for ISR traffic.

The following values are defined:

other(1) - the node does something different

from all the options listed below

noAnr(2) - the node does not include any ANR

traffic in these counts

anrForLocalNces(3) - the node includes in these counts

ANR traffic for RTP connections

that terminate in this node, but

not ANR traffic for RTP connections

that pass through this node without

terminating in it

allAnr(4) - the node includes all ANR traffic

in these counts."

::= { appnGeneralInfoAndCaps 17 }

appnNodeBrNn OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node is currently configured as a

branch network node.

Note: throughout the remainder of this MIB module, branch

network node is treated as a third node type, parallel to

network node and end node. This is not how branch network

nodes are treated in the base APPN architecture, but it

increases clarity to do it here."

::= { appnGeneralInfoAndCaps 18 }

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

-- APPN Network Node Information

-- This section provides global information about an APPN network node.

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

appnNodeNnCentralDirectory OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node supports central directory

services.

This object corresponds to cv4580, byte 8, bit 1."

::= { appnNnUniqueInfoAndCaps 1 }

appnNodeNnTreeCache OBJECT-TYPE

SYNTAX INTEGER {

noCache(1),

cacheNoIncrUpdate(2),

cacheWithIncrUpdate(3)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates this node's level of support for caching of route

trees. Three levels are specified:

noCache(1) - caching of route trees is not

supported

cacheNoIncrUpdate(2) - caching of route trees is

supported, but without incremental

updates

cacheWithIncrUpdate(3) - caching of route trees with

incremental updates is supported"

::= { appnNnUniqueInfoAndCaps 2 }

appnNodeNnRouteAddResist OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Route addition resistance.

This administratively assigned value indicates the relative

desirability of using this node for intermediate session

traffic. The value, which can be any integer 0-255, is used

in route computation. The lower the value, the more

desirable the node is for intermediate routing.

This object corresponds to cv4580, byte 6."

::= { appnNnUniqueInfoAndCaps 3 }

appnNodeNnIsr OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the node supports intermediate session

routing.

This object corresponds to cv4580, byte 8, bit 2."

::= { appnNnUniqueInfoAndCaps 4 }

appnNodeNnFrsn OBJECT-TYPE

SYNTAX Unsigned32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The last flow-reduction sequence number (FRSN) sent by this

node in a topology update to an adjacent network node."

::= { appnNnUniqueInfoAndCaps 5 }

appnNodeNnPeriBorderSup OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node has peripheral border node

support.

This object corresponds to cv4580, byte 9, bit 0."

::= { appnNnUniqueInfoAndCaps 6 }

appnNodeNnInterchangeSup OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node has interchange node support.

This object corresponds to cv4580, byte 9, bit 1."

::= { appnNnUniqueInfoAndCaps 7 }

appnNodeNnExteBorderSup OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node has extended border node support.

This object corresponds to cv4580, byte 9, bit 2."

::= { appnNnUniqueInfoAndCaps 8 }

appnNodeNnSafeStoreFreq OBJECT-TYPE

SYNTAX INTEGER (0..32767)

UNITS "TDUs"

MAX-ACCESS read-write

STATUS current

DESCRIPTION

"The topology safe store frequency.

If this number is not zero, then the topology database is saved

each time the total number of topology database updates (TDUs)

received by this node increases by this number. A value of

zero indicates that the topology database is not being saved."

::= { appnNnUniqueInfoAndCaps 9 }

appnNodeNnRsn OBJECT-TYPE

SYNTAX Unsigned32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Resource sequence number for this node, which it assigns and

controls.

This object corresponds to the numeric value in cv4580, bytes

2-5."

::= { appnNnUniqueInfoAndCaps 10 }

appnNodeNnCongested OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node is congested. Other network nodes

stop routing traffic to this node while this flag is on.

This object corresponds to cv4580, byte 7, bit 0."

::= { appnNnUniqueInfoAndCaps 11 }

appnNodeNnIsrDepleted OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicate whether intermediated session routing resources are

depleted. Other network nodes stop routing traffic through

this node while this flag is on.

This object corresponds to cv4580, byte 7, bit 1."

::= { appnNnUniqueInfoAndCaps 12 }

appnNodeNnQuiescing OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the node is quiescing.

This object corresponds to cv4580, byte 7, bit 5."

::= { appnNnUniqueInfoAndCaps 13 }

appnNodeNnGateway OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the node has gateway services support.

This object corresponds to cv4580, byte 8, bit 0."

::= { appnNnUniqueInfoAndCaps 14 }

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

-- APPN End Node Information

-- This section provides global information about an APPN end node. Two

-- of the objects are also implemented by a branch network node.

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

appnNodeEnModeCosMap OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this end node supports mode name to COS name

mapping."

::= { appnEnUniqueCaps 1 }

appnNodeEnNnServer OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (0 3..17))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The fully qualified name of the current NN server for this end

node. An NN server is identified using the format specified in

the SnaControlPointName textual convention. The value is a

zero-length string when there is no active NN server.

A branch network node shall also implement this object."

::= { appnEnUniqueCaps 2 }

appnNodeEnLuSearch OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the node is to be searched for LUs as part

of a network broadcast search.

A branch network node shall also implement this object."

::= { appnEnUniqueCaps 3 }

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

-- APPN Port information

-- This section provides information about an APPN node's ports.

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

appnPortTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnPortEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The Port table describes the configuration and current status

of the ports used by APPN. When it is known to the APPN

component, an OBJECT IDENTIFIER pointing to additional

information related to the port is included. This may, but

need not, be a RowPointer to an ifTable entry for a DLC

interface immediately 'below' the port."

::= { appnPortInformation 1 }

appnPortEntry OBJECT-TYPE

SYNTAX AppnPortEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The port name is used as the index to this table."

INDEX

{ appnPortName }

::= { appnPortTable 1 }

AppnPortEntry ::= SEQUENCE {

appnPortName DisplayString,

appnPortCommand INTEGER,

appnPortOperState INTEGER,

appnPortDlcType IANAifType,

appnPortPortType INTEGER,

appnPortSIMRIM TruthValue,

appnPortLsRole INTEGER,

appnPortNegotLs TruthValue,

appnPortDynamicLinkSupport TruthValue,

appnPortMaxRcvBTuSize INTEGER,

appnPortMaxIframeWindow Gauge32,

appnPortDefLsGoodXids AppnPortCounter,

appnPortDefLsBadXids AppnPortCounter,

appnPortDynLsGoodXids AppnPortCounter,

appnPortDynLsBadXids AppnPortCounter,

appnPortSpecific RowPointer,

appnPortDlcLocalAddr DisplayableDlcAddress,

appnPortCounterDisconTime TimeStamp

}

appnPortName OBJECT-TYPE

SYNTAX DisplayString (SIZE (1..10))

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned name for this APPN port."

::= { appnPortEntry 1 }

appnPortCommand OBJECT-TYPE

SYNTAX INTEGER {

deactivate(1),

activate(2),

recycle(3),

ready(4)

}

MAX-ACCESS read-write

STATUS current

DESCRIPTION

"Object by which a Management Station can activate, deactivate,

or recycle (i.e., cause to be deactivated and then immediately

activated) a port, by setting the value to activate(1),

deactivate(2), or recycle(3), respectively. The value ready(4)

is returned on GET operations until a SET has been processed;

after that the value received on the most recent SET is

returned."

::= { appnPortEntry 2 }

appnPortOperState OBJECT-TYPE

SYNTAX INTEGER {

inactive(1),

pendactive(2),

active(3),

pendinact(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates the current state of this port:

inactive(1) - port is inactive

pendactive(2) - port is pending active

active(3) - port is active

pendinact(4) - port is pending inactive"

::= { appnPortEntry 3 }

appnPortDlcType OBJECT-TYPE

SYNTAX IANAifType

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The type of DLC interface, distinguished according to the

protocol immediately 'below' this layer."

::= { appnPortEntry 4 }

appnPortPortType OBJECT-TYPE

SYNTAX INTEGER {

leased(1),

switched(2),

sharedAccessFacilities(3)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Identifies the type of line used by this port:

leased(1) - leased line

switched(2) - switched line

sharedAccessFacilities(3) - shared access facility, such

as a LAN."

::= { appnPortEntry 5 }

appnPortSIMRIM OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether Set Initialization Mode (SIM) and Receive

Initialization Mode (RIM) are supported for this port."

::= { appnPortEntry 6 }

appnPortLsRole OBJECT-TYPE

SYNTAX INTEGER {

primary(1),

secondary(2),

negotiable(3),

abm(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Initial role for link stations activated through this port.

The values map to the following settings in the initial XID,

where 'ABM' indicates asynchronous balanced mode and 'NRM'

indicated normal response mode:

primary(1): ABM support = 0 ( = NRM)

role = 01 ( = primary)

secondary(2): ABM support = 0 ( = NRM)

role = 00 ( = secondary)

negotiable(3): ABM support = 0 ( = NRM)

role = 11 ( = negotiable)

abm(4): ABM support = 1 ( = ABM)

role = 11 ( = negotiable)"

::= { appnPortEntry 7 }

appnPortNegotLs OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the node supports negotiable link stations

for this port."

::= { appnPortEntry 8 }

appnPortDynamicLinkSupport OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node allows call-in on this port from

nodes not defined locally."

::= { appnPortEntry 9 }

appnPortMaxRcvBtuSize OBJECT-TYPE

SYNTAX INTEGER (99..32767)

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum Basic Transmission Unit (BTU) size that a link station

on this port can receive.

This object corresponds to bytes 21-22 of XID3."

::= { appnPortEntry 10 }

appnPortMaxIframeWindow OBJECT-TYPE

SYNTAX Gauge32

UNITS "I-frames"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum number of I-frames that can be received by the XID

sender before an acknowledgement is received."

::= { appnPortEntry 11 }

appnPortDefLsGoodXids OBJECT-TYPE

SYNTAX AppnPortCounter

UNITS "XID exchanges"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of successful XID exchanges that have

occurred on all defined link stations on this port since the

last time this port was started."

::= { appnPortEntry 12 }

appnPortDefLsBadXids OBJECT-TYPE

SYNTAX AppnPortCounter

UNITS "XID exchanges"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of unsuccessful XID exchanges that have

occurred on all defined link stations on this port since the

last time this port was started."

::= { appnPortEntry 13 }

appnPortDynLsGoodXids OBJECT-TYPE

SYNTAX AppnPortCounter

UNITS "XID exchanges"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of successful XID exchanges that have

occurred on all dynamic link stations on this port since the

last time this port was started."

::= { appnPortEntry 14 }

appnPortDynLsBadXids OBJECT-TYPE

SYNTAX AppnPortCounter

UNITS "XID exchanges"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of unsuccessful XID exchanges that have

occurred on all dynamic link stations on this port since the

last time this port was started."

::= { appnPortEntry 15 }

appnPortSpecific OBJECT-TYPE

SYNTAX RowPointer

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Identifies the object, e.g., one in a DLC-specific MIB, that

can provide additional information related to this port.

If the agent is unable to identify such an object, the value

0.0 is returned."

::= { appnPortEntry 16 }

appnPortDlcLocalAddr OBJECT-TYPE

SYNTAX DisplayableDlcAddress

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Local DLC address of this port."

::= { appnPortEntry 17 }

appnPortCounterDisconTime OBJECT-TYPE

SYNTAX TimeStamp

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The value of the sysUpTime object the last time the port was

started."

::= { appnPortEntry 18 }

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

-- APPN Link Station Information

-- This section provides information about an APPN node's link stations.

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

appnLsTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnLsEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table contains detailed information about the link

station configuration and its current status."

::= { appnLinkStationInformation 1 }

appnLsEntry OBJECT-TYPE

SYNTAX AppnLsEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table is indexed by the link station name."

INDEX

{ appnLsName }

::= { appnLsTable 1 }

AppnLsEntry ::= SEQUENCE {

appnLsName DisplayString,

appnLsCommand INTEGER,

appnLsOperState INTEGER,

appnLsPortName DisplayString,

appnLsDlcType IANAifType,

appnLsDynamic TruthValue,

appnLsAdjCpName OCTET STRING,

appnLsAdjNodeType INTEGER,

appnLsTgNum INTEGER,

appnLsLimResource TruthValue,

appnLsActOnDemand TruthValue,

appnLsMigration TruthValue,

appnLsPartnerNodeId SnaNodeIdentification,

appnLsCpCpSessionSupport TruthValue,

appnLsMaxSendBtuSize INTEGER,

-- performance data

appnLsInXidBytes AppnLinkStationCounter,

appnLsInMsgBytes AppnLinkStationCounter,

appnLsInXidFrames AppnLinkStationCounter,

appnLsInMsgFrames AppnLinkStationCounter,

appnLsOutXidBytes AppnLinkStationCounter,

appnLsOutMsgBytes AppnLinkStationCounter,

appnLsOutXidFrames AppnLinkStationCounter,

appnLsOutMsgFrames AppnLinkStationCounter,

-- propagation delay

appnLsEchoRsps AppnLinkStationCounter,

appnLsCurrentDelay Gauge32,

appnLsMaxDelay Gauge32,

appnLsMinDelay Gauge32,

appnLsMaxDelayTime DateAndTime,

-- XID Statistics

appnLsGoodXids AppnLinkStationCounter,

appnLsBadXids AppnLinkStationCounter,

-- DLC-specific

appnLsSpecific RowPointer,

appnLsActiveTime Unsigned32,

appnLsCurrentStateTime TimeTicks,

-- HPR-specific

appnLsHprSup INTEGER,

appnLsErrRecoSup TruthValue,

appnLsForAnrLabel OCTET STRING,

appnLsRevAnrLabel OCTET STRING,

appnLsCpCpNceId OCTET STRING,

appnLsRouteNceId OCTET STRING,

appnLsBfNceId OCTET STRING,

appnLsLocalAddr DisplayableDlcAddress,

appnLsRemoteAddr DisplayableDlcAddress,

appnLsRemoteLsName DisplayString,

appnLsCounterDisconTime TimeStamp,

appnLsMltgMember TruthValue

}

appnLsName OBJECT-TYPE

SYNTAX DisplayString (SIZE (1..10))

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned name for the link station.

The name can be from one to ten characters."

::= { appnLsEntry 1 }

appnLsCommand OBJECT-TYPE

SYNTAX INTEGER {

deactivate(1),

activate(2),

recycle(3),

ready(4)

}

MAX-ACCESS read-write

STATUS current

DESCRIPTION

"Object by which a Management Station can activate, deactivate,

or recycle (i.e., cause to be deactivated and then immediately

reactivated) a link station, by setting the value to

activate(1), deactivate(2), or recycle(3), respectively. The

value ready(4) is returned on GET operations until a SET has

been processed; after that the value received on the most

recent SET is returned."

::= { appnLsEntry 2 }

appnLsOperState OBJECT-TYPE

SYNTAX INTEGER {

inactive(1),

sentConnectOut(2), -- pending active

pendXidExch(3), -- pending active

sendActAs(4), -- pending active

sendSetMode(5), -- pending active

otherPendingActive(6),-- pending active

active(7),

sentDeactAsOrd(8), -- pending inactive

sentDiscOrd(9), -- pending inactive

sentDiscImmed(10), -- pending inactive

otherPendingInact(11) -- pending inactive

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"State of this link station. The comments map these more

granular states to the 'traditional' four states for SNA

resources. Values (2) through (5) represent the normal

progression of states when a link station is being activated.

Value (6) represents some other state of a link station in

the process of being activated. Values (8) through (10)

represent different ways a link station can be deactivated.

Value (11) represents some other state of a link station in

the process of being deactivated."

::= { appnLsEntry 3 }

appnLsPortName OBJECT-TYPE

SYNTAX DisplayString (SIZE (1..10))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Administratively assigned name for the port associated with

this link station. The name can be from one to ten

characters."

::= { appnLsEntry 4 }

appnLsDlcType OBJECT-TYPE

SYNTAX IANAifType

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The type of DLC interface, distinguished according to the

protocol immediately 'below' this layer."

::= { appnLsEntry 5 }

appnLsDynamic OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Identifies whether this is a dynamic link station. Dynamic

link stations are created when links that have not been locally

defined are established by adjacent nodes."

::= { appnLsEntry 6 }

appnLsAdjCpName OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (0 3..17))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Fully qualified name of the adjacent node for this link

station. An adjacent node is identified using the format

specified in the SnaControlPointName textual convention.

The value of this object is determined as follows:

1. If the adjacent node's name was received on XID, it

is returned.

2. If the adjacent node's name was not received on XID,

but a locally-defined value is available, it is

returned.

3. Otherwise a string of length 0 is returned, indicating

that no name is known for the adjacent node."

::= { appnLsEntry 7 }

appnLsAdjNodeType OBJECT-TYPE

SYNTAX INTEGER {

networkNode(1),

endNode(2),

t21len(4),

unknown(255)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Node type of the adjacent node on this link:

networkNode(1) - APPN network node

endNode(2) - APPN end node

t21len(4) - LEN end node

unknown(255) - the agent does not know the node type

of the adjacent node

"

::= { appnLsEntry 8 }

appnLsTgNum OBJECT-TYPE

SYNTAX INTEGER (0..256)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number associated with the TG to this link station, with a

range from 0 to 256. A value of 256 indicates that the TG

number has not been negotiated and is unknown at this time."

::= { appnLsEntry 9 }

appnLsLimResource OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the link station is a limited resource. A

link station that is a limited resource is deactivated when it

is no longer in use."

::= { appnLsEntry 10 }

appnLsActOnDemand OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the link station is activatable on demand.

Such a link station is reported in the topology as active

regardless of its actual state, so that it can be considered in

route calculations. If the link station is inactive and is

chosen for a route, it will be activated at that time."

::= { appnLsEntry 11 }

appnLsMigration OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this link station will be used for

connections to down-level or migration partners.

In general, migration nodes do not append their CP names on

XID3. Such nodes: (1) will not support parallel TGs, (2)

should be sent an ACTIVATE PHYSICAL UNIT (ACTPU), provided that

the partner supports ACTPUs, and (3) should not be sent

segmented BINDs. However, if this node receives an XID3 with

an appended CP name, then the partner node will not be treated

as a migration node.

In the case of DYNAMIC TGs this object should be set to 'no'."

::= { appnLsEntry 12 }

appnLsPartnerNodeId OBJECT-TYPE

SYNTAX SnaNodeIdentification

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The partner's Node Identification, from bytes 2-5 of the XID

received from the partner. If this value is not available,

then the characters '00000000' are returned."

::= { appnLsEntry 13 }

appnLsCpCpSessionSupport OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether CP-CP sessions are supported by this

link station. For a dynamic link, this object represents

the default ('Admin') value."

::= { appnLsEntry 14 }

appnLsMaxSendBtuSize OBJECT-TYPE

SYNTAX INTEGER (99..32767)

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Numeric value between 99 and 32767 inclusive indicating the

maximum number of bytes in a Basic Transmission Unit (BTU) sent

on this link.

When the link state (returned by the appnLsOperState object) is

inactive or pending active, the value configured at this node

is returned. When the link state is active, the value that was

negotiated for it is returned. This negotiated value is the

smaller of the value configured at this node and the partner's

maximum receive BTU length, received in XID."

::= { appnLsEntry 15 }

appnLsInXidBytes OBJECT-TYPE

SYNTAX AppnLinkStationCounter

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of XID bytes received. All of the bytes in the SNA

basic transmission unit (BTU), i.e., all of the bytes in the

DLC XID Information Field, are counted."

::= { appnLsEntry 16 }

appnLsInMsgBytes OBJECT-TYPE

SYNTAX AppnLinkStationCounter

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of message (I-frame) bytes received. All of the bytes

in the SNA basic transmission unit (BTU), including the

transmission header (TH), are counted."

::= { appnLsEntry 17 }

appnLsInXidFrames OBJECT-TYPE

SYNTAX AppnLinkStationCounter

UNITS "XID frames"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of XID frames received."

::= { appnLsEntry 18 }

appnLsInMsgFrames OBJECT-TYPE

SYNTAX AppnLinkStationCounter

UNITS "I-frames"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of message (I-frame) frames received."

::= { appnLsEntry 19 }

appnLsOutXidBytes OBJECT-TYPE

SYNTAX AppnLinkStationCounter

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of XID bytes sent. All of the bytes in the SNA basic

transmission unit (BTU), i.e., all of the bytes in the DLC XID

Information Field, are counted."

::= { appnLsEntry 20 }

appnLsOutMsgBytes OBJECT-TYPE

SYNTAX AppnLinkStationCounter

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of message (I-frame) bytes sent. All of the bytes

in the SNA basic transmission unit (BTU), including the

transmission header (TH), are counted."

::= { appnLsEntry 21 }

appnLsOutXidFrames OBJECT-TYPE

SYNTAX AppnLinkStationCounter

UNITS "XID frames"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of XID frames sent."

::= { appnLsEntry 22 }

appnLsOutMsgFrames OBJECT-TYPE

SYNTAX AppnLinkStationCounter

UNITS "I-frames"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of message (I-frame) frames sent."

::= { appnLsEntry 23 }

appnLsEchoRsps OBJECT-TYPE

SYNTAX AppnLinkStationCounter

UNITS "echo responses"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of echo responses returned from adjacent link station.

A response should be returned for each test frame sent by this

node. Test frames are sent to adjacent nodes periodically to

verify connectivity and to measure the actual round trip time,

that is, the time interval from when the test frame is sent

until when the response is received."

::= { appnLsEntry 24 }

appnLsCurrentDelay OBJECT-TYPE

SYNTAX Gauge32

UNITS "milliseconds"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The time that it took for the last test signal to be sent and

returned from this link station to the adjacent link station.

This time is represented in milliseconds."

::= { appnLsEntry 25 }

appnLsMaxDelay OBJECT-TYPE

SYNTAX Gauge32

UNITS "milliseconds"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The longest time it took for a test signal to be sent and

returned from this link station to the adjacent link station.

This time is represented in milliseconds .

The value 0 is returned if no test signal has been sent and

returned."

::= { appnLsEntry 26 }

appnLsMinDelay OBJECT-TYPE

SYNTAX Gauge32

UNITS "milliseconds"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The shortest time it took for a test signal to be sent and

returned from this link station to the adjacent link station.

This time is represented in milliseconds.

The value 0 is returned if no test signal has been sent and

returned."

::= { appnLsEntry 27 }

appnLsMaxDelayTime OBJECT-TYPE

SYNTAX DateAndTime

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The time when the longest delay occurred. This time can be

used to identify when this high water mark occurred in relation

to other events in the APPN node, for example, the time at

which an APPC session was either terminated or failed to be

established. This latter time is available in the

appcHistSessTime object in the APPC MIB.

The value 00000000 is returned if no test signal has been sent

and returned."

::= { appnLsEntry 28 }

appnLsGoodXids OBJECT-TYPE

SYNTAX AppnLinkStationCounter

UNITS "XID exchanges"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of successful XID exchanges that have

occurred on this link station since the time it was started."

::= { appnLsEntry 29 }

appnLsBadXids OBJECT-TYPE

SYNTAX AppnLinkStationCounter

UNITS "XID exchanges"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of unsuccessful XID exchanges that have

occurred on this link station since the time it was started."

::= { appnLsEntry 30 }

appnLsSpecific OBJECT-TYPE

SYNTAX RowPointer

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Identifies the object, e.g., one in a DLC-specific MIB, that

can provide additional information related to this link

station.

If the agent is unable to identify such an object, the value

0.0 is returned."

::= { appnLsEntry 31 }

appnLsActiveTime OBJECT-TYPE

SYNTAX Unsigned32

UNITS "hundredths of a second"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The cumulative amount of time since the node was last

reinitialized, measured in hundredths of a second, that this

link station has been in the active state. A zero value

indicates that the link station has never been active since

the node was last reinitialized."

::= { appnLsEntry 32 }

appnLsCurrentStateTime OBJECT-TYPE

SYNTAX TimeTicks

UNITS "hundredths of a second"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The amount of time, measured in hundredths of a second, that

the link station has been in its current state."

::= { appnLsEntry 33 }

appnLsHprSup OBJECT-TYPE

SYNTAX INTEGER {

noHprSupport(1),

hprBaseOnly(2),

rtpTower(3),

controlFlowsOverRtpTower(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates the level of high performance routing (HPR) support

over this link:

noHprSupport(1) - no HPR support

hprBaseOnly(2) - HPR base (option set 1400)

supported

rtpTower(3) - HPR base and RTP tower

(option set 1401) supported

controlFlowsOverRtpTower(4) - HPR base, RTP tower, and

control flows over RTP

(option set 1402) supported

If the link is not active, the defined value is returned."

::= { appnLsEntry 34 }

appnLsErrRecoSup OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the link station is supporting

HPR link-level error recovery."

::= { appnLsEntry 35 }

appnLsForAnrLabel OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (0..8))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The forward Automatic Network Routing (ANR) label for this

link station. If the link does not support HPR or the value is

unknown, a zero-length string is returned."

::= { appnLsEntry 36 }

appnLsRevAnrLabel OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (0..8))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The reverse Automatic Network Routing (ANR) label for this

link station. If the link does not support HPR or the value is

unknown, a zero-length string is returned."

::= { appnLsEntry 37 }

appnLsCpCpNceId OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (0..8))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The network connection endpoint identifier (NCE ID) for CP-CP

sessions if this node supports the HPR transport tower, a

zero-length string if the value is unknown or not meaningful

for this node."

::= { appnLsEntry 38 }

appnLsRouteNceId OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (0..8))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The network connection endpoint identifier (NCE ID) for Route

Setup if this node supports the HPR transport tower, a zero-

length string if the value is unknown or not meaningful for

this node."

::= { appnLsEntry 39 }

appnLsBfNceId OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (0..8))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The network connection endpoint identifier (NCE ID) for the

APPN/HPR boundary function if this node supports the HPR

transport tower, a zero-length string if the value is unknown

or not meaningful for this node."

::= { appnLsEntry 40 }

appnLsLocalAddr OBJECT-TYPE

SYNTAX DisplayableDlcAddress

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Local address of this link station."

::= { appnLsEntry 41 }

appnLsRemoteAddr OBJECT-TYPE

SYNTAX DisplayableDlcAddress

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Address of the remote link station on this link."

::= { appnLsEntry 42 }

appnLsRemoteLsName OBJECT-TYPE

SYNTAX DisplayString (SIZE (0..10))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Remote link station discovered from the XID exchange.

The name can be from one to ten characters. A zero-length

string indicates that the value is not known."

::= { appnLsEntry 43 }

appnLsCounterDisconTime OBJECT-TYPE

SYNTAX TimeStamp

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The value of the sysUpTime object the last time the link

station was started."

::= { appnLsEntry 44 }

appnLsMltgMember OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the link is a member of a multi-link TG. If

the link's TG has been brought up as a multi-link TG, then the

link is reported as a member of a multi-link TG, even if it is

currently the only active link in the TG."

::= { appnLsEntry 45 }

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

-- This table provides information about errors this node encountered

-- with connections to adjacent nodes. Entries are added for exceptional

-- conditions encountered establishing connections, and for exceptional

-- conditions that resulted in termination of a connection. It is an

-- implementation option when entries are removed from this table.

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

appnLsStatusTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnLsStatusEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table contains information related to exceptional and

potentially exceptional conditions that occurred during the

activation, XID exchange, and termination of a connection. No

entries are created when these activities proceed normally.

It is an implementation option when entries are removed from

this table."

::= { appnLinkStationInformation 2 }

appnLsStatusEntry OBJECT-TYPE

SYNTAX AppnLsStatusEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table is indexed by the LsStatusIndex, which is an

integer that is continuously updated until it eventually

wraps."

INDEX

{ appnLsStatusIndex }

::= { appnLsStatusTable 1 }

AppnLsStatusEntry ::= SEQUENCE {

appnLsStatusIndex INTEGER,

appnLsStatusTime DateAndTime,

appnLsStatusLsName DisplayString,

appnLsStatusCpName DisplayString,

appnLsStatusPartnerId SnaNodeIdentification,

appnLsStatusTgNum INTEGER,

appnLsStatusGeneralSense SnaSenseData,

appnLsStatusRetry TruthValue,

appnLsStatusEndSense SnaSenseData,

appnLsStatusXidLocalSense SnaSenseData,

appnLsStatusXidRemoteSense SnaSenseData,

appnLsStatusXidByteInError INTEGER,

appnLsStatusXidBitInError INTEGER,

appnLsStatusDlcType IANAifType,

appnLsStatusLocalAddr DisplayableDlcAddress,

appnLsStatusRemoteAddr DisplayableDlcAddress

}

appnLsStatusIndex OBJECT-TYPE

SYNTAX INTEGER (0..2147483647)

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Table index. The value of the index begins at zero

and is incremented up to a maximum value of 2**31-1

(2,147,483,647) before wrapping."

::= { appnLsStatusEntry 1 }

appnLsStatusTime OBJECT-TYPE

SYNTAX DateAndTime

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Time when the exception condition occurred. This time can be

used to identify when this event occurred in relation to other

events in the APPN node, for example, the time at which an APPC

session was either terminated or failed to be established.

This latter time is available in the appcHistSessTime object in

the APPC MIB."

::= { appnLsStatusEntry 2 }

appnLsStatusLsName OBJECT-TYPE

SYNTAX DisplayString (SIZE (1..10))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Administratively assigned name for the link station

experiencing the condition."

::= { appnLsStatusEntry 3 }

appnLsStatusCpName OBJECT-TYPE

SYNTAX DisplayString (SIZE (0 3..17))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Fully qualified name of the adjacent node for this link

station. An adjacent node is identified using the format

specified in the SnaControlPointName textual convention.

The value of this object is determined as follows:

1. If the adjacent node's name was received on XID, it

is returned.

2. If the adjacent node's name was not received on XID,

but a locally-defined value is available, it is

returned.

3. Otherwise a string of length 0 is returned, indicating

that no name is known for the adjacent node."

::= { appnLsStatusEntry 4 }

appnLsStatusPartnerId OBJECT-TYPE

SYNTAX SnaNodeIdentification

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The partner's Node Identification, from bytes 2-5 of the XID

received from the partner. If this value is not available,

then the characters '00000000' are returned."

::= { appnLsStatusEntry 5 }

appnLsStatusTgNum OBJECT-TYPE

SYNTAX INTEGER (0..256)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number associated with the TG to this link station, with a

range from 0 to 256. A value of 256 indicates that the TG

number was unknown at the time of the failure."

::= { appnLsStatusEntry 6 }

appnLsStatusGeneralSense OBJECT-TYPE

SYNTAX SnaSenseData

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The error sense data associated with the start sequence of

activation of a link up to the beginning of the XID sequence.

This is the sense data that came from Configuration Services

whenever the link did not activate or when it went inactive."

::= { appnLsStatusEntry 7 }

appnLsStatusRetry OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the node will retry the start request to

activate the link."

::= { appnLsStatusEntry 8 }

appnLsStatusEndSense OBJECT-TYPE

SYNTAX SnaSenseData

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The sense data associated with the termination of the link

connection to adjacent node.

This is the sense data that came from the DLC layer."

::= { appnLsStatusEntry 9 }

appnLsStatusXidLocalSense OBJECT-TYPE

SYNTAX SnaSenseData

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The sense data associated with the rejection of the XID.

This is the sense data that came from the local node (this

node) when it built the XID Negotiation Error control vector

(cv22) to send to the remote node."

::= { appnLsStatusEntry 10 }

appnLsStatusXidRemoteSense OBJECT-TYPE

SYNTAX SnaSenseData

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The sense data the adjacent node returned to this node

indicating the reason the XID was rejected.

This is the sense data that came from the remote node in the

XID Negotiation Error control vector (cv22) it sent to the

local node (this node)."

::= { appnLsStatusEntry 11 }

appnLsStatusXidByteInError OBJECT-TYPE

SYNTAX INTEGER (0..65536)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This object identifies the actual byte in the XID that caused

the error. The value 65536 indicates that the object has no

meaning.

For values in the range 0-65535, this object corresponds to

bytes 2-3 of the XID Negotiation (X'22') control vector."

::= { appnLsStatusEntry 12 }

appnLsStatusXidBitInError OBJECT-TYPE

SYNTAX INTEGER (0..8)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This object identifies the actual bit in error (0 through 7)

within the errored byte of the XID. The value 8 indicates that

this object has no meaning.

For values in the range 0-7, this object corresponds to byte 4

of the XID Negotiation (X'22') control vector."

::= { appnLsStatusEntry 13 }

appnLsStatusDlcType OBJECT-TYPE

SYNTAX IANAifType

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The type of DLC interface, distinguished according to the

protocol immediately 'below' this layer."

::= { appnLsStatusEntry 14 }

appnLsStatusLocalAddr OBJECT-TYPE

SYNTAX DisplayableDlcAddress

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Local address of this link station."

::= { appnLsStatusEntry 15 }

appnLsStatusRemoteAddr OBJECT-TYPE

SYNTAX DisplayableDlcAddress

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Address of the remote link station on this link."

::= { appnLsStatusEntry 16 }

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

-- APPN Virtual Routing Node Information

-- This section provides information relating a virtual routing node to

-- an APPN port.

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

appnVrnTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnVrnEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table relates a virtual routing node to an APPN port."

::= { appnVrnInfo 1 }

appnVrnEntry OBJECT-TYPE

SYNTAX AppnVrnEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table is indexed by the virtual routing node name, TG

number, and port name. There will be a matching entry in the

appnLocalTgTable to represent status and characteristics of the

TG representing each virtual routing node definition."

INDEX

{ appnVrnName, appnVrnTgNum, appnVrnPortName }

::= { appnVrnTable 1 }

AppnVrnEntry ::= SEQUENCE {

appnVrnName SnaControlPointName,

appnVrnTgNum INTEGER,

appnVrnPortName DisplayString

}

appnVrnName OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned name of the virtual routing node.

This is a fully qualified name, and matches the appnLocalTgDest

name in the appnLocalTgTable."

::= { appnVrnEntry 1 }

appnVrnTgNum OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Number associated with the transmission group representing

this virtual routing node definition."

::= { appnVrnEntry 2 }

appnVrnPortName OBJECT-TYPE

SYNTAX DisplayString (SIZE (1..10))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The name of the port this virtual routing node definition is

defined to."

::= { appnVrnEntry 3 }

-- ************** The APPN Topology Group ******************************

appnNn OBJECT IDENTIFIER ::= { appnObjects 2 }

appnNnTopo OBJECT IDENTIFIER ::= { appnNn 1 }

appnNnTopology OBJECT IDENTIFIER ::= { appnNn 2 }

-- This group is used to represent the entire APPN network-node topology

-- including network nodes, virtual routing nodes and all TGs associated

-- with these nodes, including intersubnetwork TGs (ISTGs) and branch TGs.

--

-- Network nodes

-- The APPN topology database consists of information about every APPN

-- network node in this network node's topology subnetwork. This

-- information is learned over time as each network node exchanges

-- topology information with the network nodes adjacent to it. The

-- database consists of information about each node, and information

-- about all of the transmission groups used by these nodes.

--

-- Virtual routing nodes

-- Information about virtual routing nodes (representing connection

-- networks) is treated in the same way as information about network

-- nodes, and is replicated at each network node. The FRSN, node name,

-- and node type are the only meaningful fields for a virtual routing

-- node. The other node objects return unspecified values. Each

-- node that has defined a TG with this virtual routing node as the

-- destination also defines a TG on this virtual routing node. There

-- is a TG record for each node that uses this virtual routing node.

--

-- The APPN node table represents node information from the APPN topology

-- database, with the FRSN and APPN fully qualified CP name serving as

-- the index. The FRSN is the agent's relative time stamp of an update

-- to the network topology database. After collecting the entire database

-- once, a management application can issue GET NEXT commands starting

-- from the last rows it has retrieved from the appnNnTopologyFRTable and

-- from the appnNnTgTopologyFRTable. When the response to either of these

-- GET NEXT commands returns another row of its respective table, this

-- indicates a change to the agent's topology database. The management

-- application can then retrieve only the updates to the table, using

-- GET NEXT commands starting from the last retrieved node or TG entry.

--

-- The format of the actual APPN topology database is as follows:

--

-- Node table (entry for each node in network)

-- TG table (entry for each TG owned by node)

--

-- Due to SNMP's ASN.1 limitations, we cannot represent the TG table

-- within the node table in this way. We define separate tables for

-- nodes and TGs, adding the node name to each TG entry to provide a

-- means of correlating the TG with its originating node.

appnNnTopoMaxNodes OBJECT-TYPE

SYNTAX Gauge32

UNITS "node entries"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum number of node entries allowed in the APPN topology

database. It is an implementation choice whether to count only

network-node entries, or to count all node entries. If the

number of node entries exceeds this value, APPN will issue an

Alert and the node can no longer participate as a network node.

The value 0 indicates that the local node has no defined limit,

and the number of node entries is bounded only by memory."

::= { appnNnTopo 1 }

appnNnTopoCurNumNodes OBJECT-TYPE

SYNTAX Gauge32

UNITS "node entries"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Current number of node entries in this node's topology

database. It is an implementation choice whether to count only

network-node entries, or to count all node entries, but an

implementation must make the same choice here that it makes for

the appnNnTopoMaxNodes object. If this value exceeds the

maximum number of nodes allowed (appnNnTopoMaxNodes, if that

field in not 0), APPN Alert CPDB002 is issued."

::= { appnNnTopo 2 }

appnNnTopoNodePurges OBJECT-TYPE

SYNTAX AppnNodeCounter

UNITS "node entries"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Total number of topology node records purged from this node's

topology database since the node was last reinitialized."

::= { appnNnTopo 3 }

appnNnTopoTgPurges OBJECT-TYPE

SYNTAX AppnNodeCounter

UNITS "TG entries"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Total number of topology TG records purged from this node's

topology database since the node was last reinitialized."

::= { appnNnTopo 4 }

appnNnTopoTotalTduWars OBJECT-TYPE

SYNTAX AppnNodeCounter

UNITS "TDU wars"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of TDU wars detected by this node since its last

initialization."

::= { appnNnTopo 5 }

-- APPN network node topology table (using FRSN and name as index)

-- This table describes every APPN network node and virtual routing node

-- represented in this node's topology database.

appnNnTopologyFRTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnNnTopologyFREntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Portion of the APPN topology database that describes all of

the APPN network nodes and virtual routing nodes known to this

node."

::= { appnNnTopology 3 }

appnNnTopologyFREntry OBJECT-TYPE

SYNTAX AppnNnTopologyFREntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The FRSN and the fully qualified node name are used to index

this table."

INDEX

{appnNnNodeFRFrsn,

appnNnNodeFRName}

::= { appnNnTopologyFRTable 1 }

AppnNnTopologyFREntry ::= SEQUENCE {

appnNnNodeFRFrsn Unsigned32,

appnNnNodeFRName SnaControlPointName,

appnNnNodeFREntryTimeLeft AppnTopologyEntryTimeLeft,

appnNnNodeFRType INTEGER,

appnNnNodeFRRsn Unsigned32,

appnNnNodeFRRouteAddResist INTEGER,

appnNnNodeFRCongested TruthValue,

appnNnNodeFRIsrDepleted TruthValue,

appnNnNodeFRQuiescing TruthValue,

appnNnNodeFRGateway TruthValue,

appnNnNodeFRCentralDirectory TruthValue,

appnNnNodeFRIsr TruthValue,

appnNnNodeFRGarbageCollect TruthValue,

appnNnNodeFRHprSupport INTEGER,

appnNnNodeFRPeriBorderSup TruthValue,

appnNnNodeFRInterchangeSup TruthValue,

appnNnNodeFRExteBorderSup TruthValue,

appnNnNodeFRBranchAwareness TruthValue

}

appnNnNodeFRFrsn OBJECT-TYPE

SYNTAX Unsigned32

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Flow reduction sequence numbers (FRSNs) are associated with

Topology Database Updates (TDUs) and are unique only within

each APPN network node. A TDU can be associated with multiple

APPN resources. This FRSN indicates the last relative time

this resource was updated at the agent node."

::= { appnNnTopologyFREntry 1 }

appnNnNodeFRName OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned network name that is locally defined

at each network node."

::= { appnNnTopologyFREntry 2 }

appnNnNodeFREntryTimeLeft OBJECT-TYPE

SYNTAX AppnTopologyEntryTimeLeft

UNITS "days"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of days before deletion of this network node entry."

::= { appnNnTopologyFREntry 3 }

appnNnNodeFRType OBJECT-TYPE

SYNTAX INTEGER {

networkNode(1),

virtualRoutingNode(3)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Type of APPN node."

::= { appnNnTopologyFREntry 4 }

appnNnNodeFRRsn OBJECT-TYPE

SYNTAX Unsigned32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Resource sequence number, which is assigned and controlled by

the network node that owns this resource. An odd number

indicates that information about the resource is inconsistent.

This object corresponds to the numeric value in cv4580, bytes

2-5."

::= { appnNnTopologyFREntry 5 }

appnNnNodeFRRouteAddResist OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Route addition resistance.

This administratively assigned value indicates the relative

desirability of using this node for intermediate session

traffic. The value, which can be any integer 0-255, is used

in route computation. The lower the value, the more

desirable the node is for intermediate routing.

This object corresponds to cv4580, byte 6."

::= { appnNnTopologyFREntry 6 }

appnNnNodeFRCongested OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node is congested. This node is not be

included in route selection by other nodes when this congestion

exists.

This object corresponds to cv4580, byte 7, bit 0."

::= { appnNnTopologyFREntry 7 }

appnNnNodeFRIsrDepleted OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether intermediate session routing resources are

depleted. This node is not included in intermediate route

selection by other nodes when resources are depleted.

This object corresponds to cv4580, byte 7, bit 1."

::= { appnNnTopologyFREntry 8 }

appnNnNodeFRQuiescing OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the node is quiescing. This node is not

included in route selection by other nodes when the node is

quiescing.

This object corresponds to cv4580, byte 7, bit 5."

::= { appnNnTopologyFREntry 9 }

appnNnNodeFRGateway OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the node provide gateway services.

This object corresponds to cv4580, byte 8, bit 0."

::= { appnNnTopologyFREntry 10 }

appnNnNodeFRCentralDirectory OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the node supports central directory

services.

This object corresponds to cv4580, byte 8, bit 1."

::= { appnNnTopologyFREntry 11 }

appnNnNodeFRIsr OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the node supports intermediate session

routing (ISR).

This object corresponds to cv4580, byte 8, bit 2."

::= { appnNnTopologyFREntry 12 }

appnNnNodeFRGarbageCollect OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the node has been marked for garbage

collection (deletion from the topology database) upon the next

garbage collection cycle.

This object corresponds to cv4580, byte 7, bit 3."

::= { appnNnTopologyFREntry 13 }

appnNnNodeFRHprSupport OBJECT-TYPE

SYNTAX INTEGER {

noHprSupport(1),

hprBaseOnly(2),

rtpTower(3),

controlFlowsOverRtpTower(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates the node's level of support for high-performance

routing (HPR):

noHprSupport(1) - no HPR support

hprBaseOnly(2) - HPR base (option set 1400)

supported

rtpTower(3) - HPR base and RTP tower

(option set 1401) supported

controlFlowsOverRtpTower(4) - HPR base, RTP tower, and

control flows over RTP

(option set 1402) supported

This object corresponds to cv4580, byte 9, bits 3-4."

::= { appnNnTopologyFREntry 14 }

appnNnNodeFRPeriBorderSup OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node has peripheral border node

support.

This object corresponds to cv4580, byte 9, bit 0."

::= { appnNnTopologyFREntry 15 }

appnNnNodeFRInterchangeSup OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node has interchange node support.

This object corresponds to cv4580, byte 9, bit 1."

::= { appnNnTopologyFREntry 16 }

appnNnNodeFRExteBorderSup OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node has extended border node

support.

This object corresponds to cv4580, byte 9, bit 2."

::= { appnNnTopologyFREntry 17 }

appnNnNodeFRBranchAwareness OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether this node supports branch awareness.

This object corresponds to cv4580, byte 8, bit 4."

::= { appnNnTopologyFREntry 18 }

--APPN transmission group (TG) table

-- This table describes the TGs associated with all the APPN network

-- nodes known to this node. The originating (owning) node for each

-- TG is repeated here to provide a means of correlating the TGs with

-- the nodes.

appnNnTgTopologyFRTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnNnTgTopologyFREntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Portion of the APPN topology database that describes all of

the APPN transmissions groups between nodes in the database."

::= { appnNnTopology 4 }

appnNnTgTopologyFREntry OBJECT-TYPE

SYNTAX AppnNnTgTopologyFREntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table is indexed by four columns: FRSN, TG owner fully

qualified node name, TG destination fully qualified node name,

and TG number."

INDEX

{appnNnTgFRFrsn,

appnNnTgFROwner,

appnNnTgFRDest,

appnNnTgFRNum}

::= { appnNnTgTopologyFRTable 1 }

AppnNnTgTopologyFREntry ::= SEQUENCE {

appnNnTgFRFrsn Unsigned32,

appnNnTgFROwner SnaControlPointName,

appnNnTgFRDest SnaControlPointName,

appnNnTgFRNum INTEGER,

appnNnTgFREntryTimeLeft AppnTopologyEntryTimeLeft,

appnNnTgFRDestVirtual TruthValue,

appnNnTgFRDlcData AppnTgDlcData,

appnNnTgFRRsn Unsigned32,

appnNnTgFROperational TruthValue,

appnNnTgFRQuiescing TruthValue,

appnNnTgFRCpCpSession INTEGER,

appnNnTgFREffCap AppnTgEffectiveCapacity,

appnNnTgFRConnCost INTEGER,

appnNnTgFRByteCost INTEGER,

appnNnTgFRSecurity AppnTgSecurity,

appnNnTgFRDelay AppnTgDelay,

appnNnTgFRUsr1 INTEGER,

appnNnTgFRUsr2 INTEGER,

appnNnTgFRUsr3 INTEGER,

appnNnTgFRGarbageCollect TruthValue,

appnNnTgFRSubareaNum Unsigned32,

appnNnTgFRHprSup TruthValue,

appnNnTgFRDestHprTrans TruthValue,

appnNnTgFRTypeIndicator INTEGER,

appnNnTgFRIntersubnet TruthValue,

appnNnTgFRMltgLinkType TruthValue,

appnNnTgFRBranchTg TruthValue

}

appnNnTgFRFrsn OBJECT-TYPE

SYNTAX Unsigned32

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Flow reduction sequence numbers (FRSNs) are associated with

Topology Database Updates (TDUs) and are unique only within

each APPN network node. A TDU can be associated with multiple

APPN resources. This FRSN indicates the last time this

resource was updated at this node."

::= { appnNnTgTopologyFREntry 1 }

appnNnTgFROwner OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned name for the originating node for

this TG. This is the same name specified in the node table."

::= { appnNnTgTopologyFREntry 2 }

appnNnTgFRDest OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned fully qualified network name for the

destination node for this TG."

::= { appnNnTgTopologyFREntry 3 }

appnNnTgFRNum OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Number associated with this transmission group. Range is

0-255."

::= { appnNnTgTopologyFREntry 4 }

appnNnTgFREntryTimeLeft OBJECT-TYPE

SYNTAX AppnTopologyEntryTimeLeft

UNITS "days"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of days before deletion of this network node TG entry

if it is not operational or has an odd (inconsistent) RSN."

::= { appnNnTgTopologyFREntry 5 }

appnNnTgFRDestVirtual OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the destination node is a virtual routing

node."

::= { appnNnTgTopologyFREntry 6 }

appnNnTgFRDlcData OBJECT-TYPE

SYNTAX AppnTgDlcData

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"DLC-specific data related to a link connection network."

::= { appnNnTgTopologyFREntry 7 }

appnNnTgFRRsn OBJECT-TYPE

SYNTAX Unsigned32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Current owning node's resource sequence number for this

resource. An odd number indicates that information about the

resource is inconsistent.

This object corresponds to the numeric value in cv47, bytes

2-5"

::= { appnNnTgTopologyFREntry 8 }

appnNnTgFROperational OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the transmission group is operational.

This object corresponds to cv47, byte 6, bit 0."

::= { appnNnTgTopologyFREntry 9 }

appnNnTgFRQuiescing OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the transmission group is quiescing.

If the TG owner is either an extended border node or a

branch-aware network node (indicated, respectively, by

the appnNnNodeFRExteBorderSup and appnNnNodeFRBranchAwareness

objects in the corresponding appnNnTopologyFREntry), then

this indicator is artificially set to TRUE in the APPN

topology database, to remove the TG from other nodes'

route calculations. A management application can

determine whether the TG is actually quiescing by

examining its appnLocalTgQuiescing object at the TG owner.

This object corresponds to cv47, byte 6, bit 2."

::= { appnNnTgTopologyFREntry 10 }

appnNnTgFRCpCpSession OBJECT-TYPE

SYNTAX INTEGER {

supportedUnknownStatus(1),

supportedActive(2),

notSupported(3),

supportedNotActive(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether CP-CP sessions are supported on this TG, and

whether the TG owner's contention-winner session is active on

this TG. Some nodes in the network are not able to

differentiate support and status of CP-CP sessions, and thus

may report the 'supportedUnknownStatus' value.

This object corresponds to cv47, byte 6, bits 3-4."

::= { appnNnTgTopologyFREntry 11 }

appnNnTgFREffCap OBJECT-TYPE

SYNTAX AppnTgEffectiveCapacity

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Effective capacity for this TG."

::= { appnNnTgTopologyFREntry 12 }

appnNnTgFRConnCost OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Cost per connect time.

This is an administratively assigned value representing the

relative cost per unit of time to use this TG. Range is from

0, which means no cost, to 255, which indicates maximum cost.

This object corresponds to cv47, byte 13."

::= { appnNnTgTopologyFREntry 13 }

appnNnTgFRByteCost OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Cost per byte transmitted.

This is an administratively assigned value representing the

relative cost of transmitting a byte over this TG. Range is

from 0, which means no cost, to 255, which indicates maximum

cost.

This object corresponds to cv47, byte 14."

::= { appnNnTgTopologyFREntry 14 }

appnNnTgFRSecurity OBJECT-TYPE

SYNTAX AppnTgSecurity

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Administratively assigned security level of this TG.

This object corresponds to cv47, byte 16."

::= { appnNnTgTopologyFREntry 15 }

appnNnTgFRDelay OBJECT-TYPE

SYNTAX AppnTgDelay

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Administratively assigned delay associated with this TG.

This object corresponds to cv47, byte 17."

::= { appnNnTgTopologyFREntry 16 }

appnNnTgFRUsr1 OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"First user-defined TG characteristic for this TG. This is

an administratively assigned value associated with the TG.

This object corresponds to cv47, byte 19."

::= { appnNnTgTopologyFREntry 17 }

appnNnTgFRUsr2 OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Second user-defined TG characteristic for this TG. This is

an administratively assigned value associated with the TG.

This object corresponds to cv47, byte 20."

::= { appnNnTgTopologyFREntry 18 }

appnNnTgFRUsr3 OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Third user-defined TG characteristic for this TG. This is

an administratively assigned value associated with the TG.

This object corresponds to cv47, byte 21."

::= { appnNnTgTopologyFREntry 19 }

appnNnTgFRGarbageCollect OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the TG has been marked for garbage

collection (deletion from the topology database) upon the next

garbage collection cycle.

This object corresponds to cv47, byte 6, bit 1."

::= { appnNnTgTopologyFREntry 20 }

appnNnTgFRSubareaNum OBJECT-TYPE

SYNTAX Unsigned32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The subarea number associated with this TG.

This object corresponds to cv4680, bytes m+2 through m+5."

::= { appnNnTgTopologyFREntry 21 }

appnNnTgFRHprSup OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether high performance routing (HPR)

is supported over this TG.

This object corresponds to cv4680, byte m+1, bit 2."

::= { appnNnTgTopologyFREntry 22 }

appnNnTgFRDestHprTrans OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the destination node supports

high performance routing (HPR) transport tower.

This object corresponds to cv4680, byte m+1, bit 7."

::= { appnNnTgTopologyFREntry 23 }

appnNnTgFRTypeIndicator OBJECT-TYPE

SYNTAX INTEGER {

unknown(1),

appnOrBfTg(2),

interchangeTg(3),

virtualRouteTg(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates the type of the TG.

This object corresponds to cv4680, byte m+1, bits 3-4."

::= { appnNnTgTopologyFREntry 24 }

appnNnTgFRIntersubnet OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the transmission group is an intersubnet TG,

which defines a border between subnetworks.

This object corresponds to cv4680, byte m+1, bit 5."

::= { appnNnTgTopologyFREntry 25 }

appnNnTgFRMltgLinkType OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This object indicates whether the transmission group is a

multi-link TG. A TG that has been brought up as a multi-link

TG is reported as one, even if it currently has only one link

active.

This object corresponds to cv47, byte 6, bit 5."

::= { appnNnTgTopologyFREntry 26 }

appnNnTgFRBranchTg OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the transmission group is a branch TG

(equivalently, whether the destination of the transmission

group is a branch network node).

This object corresponds to cv4680, byte m+1, bit 1."

::= { appnNnTgTopologyFREntry 27 }

-- ************** The APPN Local Topology Group ************************

-- This MIB Group represents the local topology maintained in

-- APPN network nodes, end nodes, and branch network nodes. It consists

-- of two tables:

-- - a table containing information about all of the TGs owned

-- by this node, which is implemented by all node types.

-- - a table containing all of the information known to this node

-- about the TGs owned by its end nodes, which is implemented only

-- by network nodes.

appnLocalTopology OBJECT IDENTIFIER ::= { appnObjects 3 }

-- APPN Local Transmission Group (TG) table

-- This table describes the TGs associated with this node only.

appnLocalTgTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnLocalTgEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"TG Table describes all of the TGs owned by this node. The TG

destination can be a virtual node, network node, LEN node, or

end node."

::= { appnLocalTopology 1 }

appnLocalTgEntry OBJECT-TYPE

SYNTAX AppnLocalTgEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table is indexed by the destination CpName and the TG

number."

INDEX

{appnLocalTgDest,

appnLocalTgNum}

::= { appnLocalTgTable 1 }

AppnLocalTgEntry ::= SEQUENCE {

appnLocalTgDest SnaControlPointName,

appnLocalTgNum INTEGER,

appnLocalTgDestVirtual TruthValue,

appnLocalTgDlcData AppnTgDlcData,

appnLocalTgPortName DisplayString,

appnLocalTgQuiescing TruthValue,

appnLocalTgOperational TruthValue,

appnLocalTgCpCpSession INTEGER,

appnLocalTgEffCap AppnTgEffectiveCapacity,

appnLocalTgConnCost INTEGER,

appnLocalTgByteCost INTEGER,

appnLocalTgSecurity AppnTgSecurity,

appnLocalTgDelay AppnTgDelay,

appnLocalTgUsr1 INTEGER,

appnLocalTgUsr2 INTEGER,

appnLocalTgUsr3 INTEGER,

appnLocalTgHprSup INTEGER,

appnLocalTgIntersubnet TruthValue,

appnLocalTgMltgLinkType TruthValue,

appnLocalTgBranchLinkType INTEGER

}

appnLocalTgDest OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned name of the destination node for

this TG. This is the fully qualified name of a network node,

end node, LEN node, or virtual routing node."

::= { appnLocalTgEntry 1 }

appnLocalTgNum OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Number associated with this transmission group."

::= { appnLocalTgEntry 2 }

appnLocalTgDestVirtual OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the destination node for this TG is a

virtual routing node."

::= { appnLocalTgEntry 3 }

appnLocalTgDlcData OBJECT-TYPE

SYNTAX AppnTgDlcData

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"DLC-specific data related to a link connection network."

::= { appnLocalTgEntry 4 }

appnLocalTgPortName OBJECT-TYPE

SYNTAX DisplayString (SIZE (0..10))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Administratively assigned name for the local port associated

with this TG. A zero-length string indicates that this value

is unknown."

::= { appnLocalTgEntry 5 }

appnLocalTgQuiescing OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the transmission group is quiescing."

::= { appnLocalTgEntry 6 }

appnLocalTgOperational OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the transmission group is operational."

::= { appnLocalTgEntry 7 }

appnLocalTgCpCpSession OBJECT-TYPE

SYNTAX INTEGER {

supportedUnknownStatus(1),

supportedActive(2),

notSupported(3),

supportedNotActive(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether CP-CP sessions are supported on this TG, and

whether the TG owner's contention-winner session is active on

this TG. Some nodes in the network are not able to

differentiate support and status of CP-CP sessions, and thus

may report the 'supportedUnknownStatus' value."

::= { appnLocalTgEntry 8 }

appnLocalTgEffCap OBJECT-TYPE

SYNTAX AppnTgEffectiveCapacity

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Effective capacity for this TG."

::= { appnLocalTgEntry 9 }

appnLocalTgConnCost OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Cost per connect time: a value representing the relative cost

per unit of time to use the TG. Range is from 0, which means

no cost, to 255."

::= { appnLocalTgEntry 10 }

appnLocalTgByteCost OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Relative cost of transmitting a byte over this link.

Range is from 0 (lowest cost) to 255."

::= { appnLocalTgEntry 11 }

appnLocalTgSecurity OBJECT-TYPE

SYNTAX AppnTgSecurity

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Administratively assigned security level of this TG."

::= { appnLocalTgEntry 12 }

appnLocalTgDelay OBJECT-TYPE

SYNTAX AppnTgDelay

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Administratively assigned delay associated with this TG."

::= { appnLocalTgEntry 13 }

appnLocalTgUsr1 OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"First user-defined TG characteristic for this TG. This is

an administratively assigned value associated with the TG."

::= { appnLocalTgEntry 14 }

appnLocalTgUsr2 OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Second user-defined TG characteristic for this TG. This is

an administratively assigned value associated with the TG."

::= { appnLocalTgEntry 15 }

appnLocalTgUsr3 OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Third user-defined TG characteristic for this TG. This is

an administratively assigned value associated with the TG."

::= { appnLocalTgEntry 16 }

appnLocalTgHprSup OBJECT-TYPE

SYNTAX INTEGER {

noHprSupport(1),

hprBaseOnly(2),

rtpTower(3),

controlFlowsOverRtpTower(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates the level of high performance routing (HPR) support

over this TG :

noHprSupport(1) - no HPR support

hprBaseOnly(2) - HPR base (option set 1400)

supported

rtpTower(3) - HPR base and RTP tower

(option set 1401) supported

controlFlowsOverRtpTower(4) - HPR base, RTP tower, and

control flows over RTP

(option set 1402) supported"

::= { appnLocalTgEntry 17 }

appnLocalTgIntersubnet OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the transmission group is an intersubnet TG,

which defines a border between subnetworks."

::= { appnLocalTgEntry 18 }

appnLocalTgMltgLinkType OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This object indicates whether the transmission group is a

multi-link TG. A TG that has been brought up as a multi-link

TG is reported as one, even if it currently has only one link

active."

::= { appnLocalTgEntry 19 }

appnLocalTgBranchLinkType OBJECT-TYPE

SYNTAX INTEGER {

other(1),

uplink(2),

downlink(3),

downlinkToBranchNetworkNode(4),

none(5),

unknown(255)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Branch link type of this TG:

other(1) = the agent has determined the TG's

branch link type to be a value other

than branch uplink or branch

downlink. This is the value used

for a connection network TG owned by

a branch network node.

uplink(2) = the TG is a branch uplink.

downlink(3) = the TG is a branch downlink to an

end node.

downlinkToBranchNetworkNode(4) = the TG is a branch

downlink to a cascaded branch

network node.

none(5) = the TG is not a branch TG.

unknown(255) = the agent cannot determine the

branch link type of the TG."

::= { appnLocalTgEntry 20 }

-- APPN Local End Node Transmission Group (TG) table

-- This table describes the TGs associated with all of the end nodes

-- known to this node.

appnLocalEnTgTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnLocalEnTgEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Table describing all of the TGs owned by the end nodes known

to this node via TG registration. This node does not represent

its own view of the TG on behalf of the partner node in this

table. The TG destination can be a virtual routing node,

network node, or end node."

::= { appnLocalTopology 2 }

appnLocalEnTgEntry OBJECT-TYPE

SYNTAX AppnLocalEnTgEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table requires multiple indexes to uniquely identify each

TG. They are originating CPname, destination CPname, and the

TG number."

INDEX

{appnLocalEnTgOrigin,

appnLocalEnTgDest,

appnLocalEnTgNum}

::= { appnLocalEnTgTable 1 }

AppnLocalEnTgEntry ::= SEQUENCE {

appnLocalEnTgOrigin SnaControlPointName,

appnLocalEnTgDest SnaControlPointName,

appnLocalEnTgNum INTEGER,

appnLocalEnTgEntryTimeLeft AppnTopologyEntryTimeLeft,

appnLocalEnTgDestVirtual TruthValue,

appnLocalEnTgDlcData AppnTgDlcData,

appnLocalEnTgOperational TruthValue,

appnLocalEnTgCpCpSession INTEGER,

appnLocalEnTgEffCap AppnTgEffectiveCapacity,

appnLocalEnTgConnCost INTEGER,

appnLocalEnTgByteCost INTEGER,

appnLocalEnTgSecurity AppnTgSecurity,

appnLocalEnTgDelay AppnTgDelay,

appnLocalEnTgUsr1 INTEGER,

appnLocalEnTgUsr2 INTEGER,

appnLocalEnTgUsr3 INTEGER,

appnLocalEnTgMltgLinkType TruthValue

}

appnLocalEnTgOrigin OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned name of the origin node for this

TG. This is a fully qualified network name."

::= { appnLocalEnTgEntry 1 }

appnLocalEnTgDest OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned name of the destination node for

this TG. This is the fully qualified name of a network node,

end node, LEN node, or virtual routing node."

::= { appnLocalEnTgEntry 2 }

appnLocalEnTgNum OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Number associated with this transmission group."

::= { appnLocalEnTgEntry 3 }

appnLocalEnTgEntryTimeLeft OBJECT-TYPE

SYNTAX AppnTopologyEntryTimeLeft

UNITS "days"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of days before deletion of this end node TG entry."

::= { appnLocalEnTgEntry 4 }

appnLocalEnTgDestVirtual OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the destination node is a virtual routing

node."

::= { appnLocalEnTgEntry 5 }

appnLocalEnTgDlcData OBJECT-TYPE

SYNTAX AppnTgDlcData

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"DLC-specific data related to a link connection network."

::= { appnLocalEnTgEntry 6 }

appnLocalEnTgOperational OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether the transmission group is operational."

::= { appnLocalEnTgEntry 7 }

appnLocalEnTgCpCpSession OBJECT-TYPE

SYNTAX INTEGER {

supportedUnknownStatus(1),

supportedActive(2),

notSupported(3),

supportedNotActive(4)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether CP-CP sessions are supported on this TG, and

whether the TG owner's contention-winner session is active on

this TG. Some nodes in the network are not able to

differentiate support and status of CP-CP sessions, and thus

may report the 'supportedUnknownStatus' value."

::= { appnLocalEnTgEntry 8 }

appnLocalEnTgEffCap OBJECT-TYPE

SYNTAX AppnTgEffectiveCapacity

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Effective capacity for this TG."

::= { appnLocalEnTgEntry 9 }

appnLocalEnTgConnCost OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Cost per connect time: a value representing the relative cost

per unit of time to use the TG. Range is from 0, which means

no cost, to 255."

::= { appnLocalEnTgEntry 10 }

appnLocalEnTgByteCost OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Relative cost of transmitting a byte over this link.

Range is from 0, which means no cost, to 255."

::= { appnLocalEnTgEntry 11 }

appnLocalEnTgSecurity OBJECT-TYPE

SYNTAX AppnTgSecurity

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Administratively assigned security level of this TG."

::= { appnLocalEnTgEntry 12 }

appnLocalEnTgDelay OBJECT-TYPE

SYNTAX AppnTgDelay

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Administratively assigned delay associated with this TG."

::= { appnLocalEnTgEntry 13 }

appnLocalEnTgUsr1 OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"First user-defined TG characteristic for this TG. This is

an administratively assigned value associated with the TG."

::= { appnLocalEnTgEntry 14 }

appnLocalEnTgUsr2 OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Second user-defined TG characteristic for this TG. This is

an administratively assigned value associated with the TG."

::= { appnLocalEnTgEntry 15 }

appnLocalEnTgUsr3 OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Third user-defined TG characteristic for this TG. This is

an administratively assigned value associated with the TG."

::= { appnLocalEnTgEntry 16 }

appnLocalEnTgMltgLinkType OBJECT-TYPE

SYNTAX TruthValue

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This object indicates whether the transmission group is a

multi-link TG. A TG that has been brought up as a multi-link

TG is reported as one, even if it currently has only one link

active."

::= { appnLocalEnTgEntry 17 }

-- ************** The APPN Directory Group *****************************

appnDir OBJECT IDENTIFIER ::= { appnObjects 4 }

appnDirPerf OBJECT IDENTIFIER ::= { appnDir 1 }

-- The APPN Directory Group

-- The APPN Directory Database

-- Each APPN network node and branch network node maintains directories

-- containing information on which LUs (applications) are available and

-- where they are located. LUs can be located in an APPN network node,

-- in any of its attached end nodes or branch network nodes, or in any

-- of the nodes below one of its attached branch network nodes.

appnDirMaxCaches OBJECT-TYPE

SYNTAX Unsigned32

UNITS "directory entries"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum number of cache entries allowed. This is an

administratively assigned value."

::= { appnDirPerf 1 }

appnDirCurCaches OBJECT-TYPE

SYNTAX Gauge32

UNITS "directory entries"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Current number of cache entries."

::= { appnDirPerf 2 }

appnDirCurHomeEntries OBJECT-TYPE

SYNTAX Gauge32

UNITS "directory entries"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Current number of home entries."

::= { appnDirPerf 3 }

appnDirRegEntries OBJECT-TYPE

SYNTAX Gauge32

UNITS "directory entries"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Current number of registered entries."

::= { appnDirPerf 4 }

appnDirInLocates OBJECT-TYPE

SYNTAX AppnNodeCounter

UNITS "Locate messages"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of directed Locates received since the node was last

reinitialized."

::= { appnDirPerf 5 }

appnDirInBcastLocates OBJECT-TYPE

SYNTAX AppnNodeCounter

UNITS "Locate messages"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of broadcast Locates received since the node was last

reinitialized."

::= { appnDirPerf 6 }

appnDirOutLocates OBJECT-TYPE

SYNTAX AppnNodeCounter

UNITS "Locate messages"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of directed Locates sent since the node was last

reinitialized."

::= { appnDirPerf 7 }

appnDirOutBcastLocates OBJECT-TYPE

SYNTAX AppnNodeCounter

UNITS "Locate messages"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of broadcast Locates sent since the node was last

reinitialized."

::= { appnDirPerf 8 }

appnDirNotFoundLocates OBJECT-TYPE

SYNTAX AppnNodeCounter

UNITS "Locate messages"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of directed Locates returned with a 'not found' since

the node was last reinitialized."

::= { appnDirPerf 9 }

appnDirNotFoundBcastLocates OBJECT-TYPE

SYNTAX AppnNodeCounter

UNITS "Locate messages"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of broadcast Locates returned with a 'not found' since

the node was last reinitialized."

::= { appnDirPerf 10 }

appnDirLocateOutstands OBJECT-TYPE

SYNTAX Gauge32

UNITS "Locate messages"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Current number of outstanding Locates, both directed and

broadcast. This value varies. A value of zero indicates

that no Locates are unanswered."

::= { appnDirPerf 11 }

--APPN Directory table

-- This table contains information about all known LUs.

appnDirTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnDirEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Table containing information about all known LUs."

::= { appnDir 2 }

appnDirEntry OBJECT-TYPE

SYNTAX AppnDirEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table is indexed by the LU name."

INDEX

{appnDirLuName}

::= { appnDirTable 1 }

AppnDirEntry ::= SEQUENCE {

appnDirLuName DisplayString,

appnDirNnServerName SnaControlPointName,

appnDirLuOwnerName SnaControlPointName,

appnDirLuLocation INTEGER,

appnDirType INTEGER,

appnDirApparentLuOwnerName DisplayString

}

appnDirLuName OBJECT-TYPE

SYNTAX DisplayString (SIZE (1..17))

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Fully qualified network LU name in the domain of the

serving network node. 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 LuName.

- A full wildcard entry consists of the single

character '*'"

::= { appnDirEntry 1 }

appnDirNnServerName OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Fully qualified control point (CP) name of the network node

server. For unassociated end node entries, a zero-length

string is returned."

::= { appnDirEntry 2 }

appnDirLuOwnerName OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Fully qualified CP name of the node at which the LU is

located. This name is the same as the serving NN name when

the LU is located at a network node. It is also the same as

the fully qualified LU name when this is the control point

LU for this node."

::= { appnDirEntry 3 }

appnDirLuLocation OBJECT-TYPE

SYNTAX INTEGER {

local(1), --Local

domain(2), --Domain

xdomain(3) --Cross Domain

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Specifies the location of the LU with respect to the local

node."

::= { appnDirEntry 4 }

appnDirType OBJECT-TYPE

SYNTAX INTEGER {

home(1), --defined as home entry

cache(2), --learned over time

registered(3) --registered by end node

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Directory types are:

1 - Home

The LU is in the domain of the local node, and the LU

information has been configured at the local node.

2 - Cache

The LU has previously been located by a broadcast

search, and the location information has been saved.

3 - Registered

The LU is at an end node that is in the domain

of the local network node. Registered entries

are registered by the served end node."

::= { appnDirEntry 5 }

appnDirApparentLuOwnerName OBJECT-TYPE

SYNTAX DisplayString (SIZE (0 3..17))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Fully qualified CP name of the node at which the LU appears to

be located. This object and the appnDirLuOwnerName object are

related as follows:

Implementations that support this object save in their

directory database information about an LU's owning control

point that was communicated in two control vectors:

- an Associated Resource Entry (X'3C') CV with resource

type X'00F4' (ENCP)

- a Real Owning Control Point (X'4A') CV.

The X'4A' CV is created by a branch network node to preserve

the name of the real owning control point for an LU below the

branch network node, before it overwrites this name with its

own name in the X'3C' CV. The X'4A' CV is not present for LUs

that are not below branch network nodes.

If the information a node has about an LU's owning CP came only

in a X'3C' CV, then the name from the X'3C' is returned in the

appnDirLuOwnerName object, and a null string is returned in

this object.

If the information a node has about an LU's owning CP came in

both X'3C' and X'4A' CVs, then the name from the X'4A' is

returned in the appnDirLuOwnerName object, and the name from

the X'3C' (which will be the branch network node's name) is

returned in this object."

::= { appnDirEntry 6 }

-- ************** The APPN Class of Service Group **********************

appnCos OBJECT IDENTIFIER ::= { appnObjects 5 }

-- The APPN Class of Service (COS)

-- Class of Service is a means of expressing the quality of routes and

-- the transmission priority of traffic that flows on these routes.

-- The quality of routes is specified by two tables, a COS weight table

-- for TGs and a COS weight table for nodes. Values in these COS tables

-- are administratively assigned at each APPN node, with seven default

-- tables specified by the APPN architecture.

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

appnCosModeTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnCosModeEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Table representing all of the defined mode names for this

node. The table contains the matching COS name for each

mode name."

::= { appnCos 1 }

appnCosModeEntry OBJECT-TYPE

SYNTAX AppnCosModeEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table is indexed by the mode name."

INDEX

{appnCosModeName}

::= { appnCosModeTable 1 }

AppnCosModeEntry ::= SEQUENCE {

appnCosModeName SnaModeName,

appnCosModeCosName SnaClassOfServiceName

}

appnCosModeName OBJECT-TYPE

SYNTAX SnaModeName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned name for this mode."

::= { appnCosModeEntry 1 }

appnCosModeCosName OBJECT-TYPE

SYNTAX SnaClassOfServiceName

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Administratively assigned name for this class of service."

::= { appnCosModeEntry 2 }

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

appnCosNameTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnCosNameEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Table mapping all of the defined class-of-service names for

this node to their network transmission priorities."

::= { appnCos 2 }

appnCosNameEntry OBJECT-TYPE

SYNTAX AppnCosNameEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The COS name is the index to this table."

INDEX

{appnCosName}

::= { appnCosNameTable 1 }

AppnCosNameEntry ::= SEQUENCE {

appnCosName SnaClassOfServiceName,

appnCosTransPriority INTEGER

}

appnCosName OBJECT-TYPE

SYNTAX SnaClassOfServiceName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned name for this class of service."

::= { appnCosNameEntry 1 }

appnCosTransPriority OBJECT-TYPE

SYNTAX INTEGER {

low(1), --X'01'

medium(2), --X'02'

high(3), --X'03'

network(4) --X'04'

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Transmission priority for this class of service:

low(1) - (X'01'): low priority

medium(2) - (X'02'): medium priority

high(3) - (X'03'): high priority

network(4) - (X'04'): network priority"

::= { appnCosNameEntry 2 }

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

appnCosNodeRowTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnCosNodeRowEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table contains all node-row information for all classes

of service defined in this node."

::= { appnCos 3 }

appnCosNodeRowEntry OBJECT-TYPE

SYNTAX AppnCosNodeRowEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"A node entry for a given class of service."

INDEX

{appnCosNodeRowName,

appnCosNodeRowIndex}

::= { appnCosNodeRowTable 1 }

AppnCosNodeRowEntry ::= SEQUENCE {

appnCosNodeRowName SnaClassOfServiceName,

appnCosNodeRowIndex INTEGER,

appnCosNodeRowWgt DisplayString,

appnCosNodeRowResistMin INTEGER,

appnCosNodeRowResistMax INTEGER,

appnCosNodeRowMinCongestAllow INTEGER,

appnCosNodeRowMaxCongestAllow INTEGER

}

appnCosNodeRowName OBJECT-TYPE

SYNTAX SnaClassOfServiceName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned name for this class of service."

::= { appnCosNodeRowEntry 1 }

appnCosNodeRowIndex OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Subindex under appnCosNodeRowName, corresponding to a row in

the node table for the class of service identified in

appnCosNodeRowName.

For each class of service, this subindex orders rows in the

appnCosNodeRowTable in the same order as that used for route

calculation in the APPN node."

::= { appnCosNodeRowEntry 2 }

appnCosNodeRowWgt OBJECT-TYPE

SYNTAX DisplayString (SIZE (1..64))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Weight to be associated with the nodes that fit the criteria

specified by this node row.

This value can either be a character representation of an

integer, or a formula for calculating the weight."

::= { appnCosNodeRowEntry 3 }

appnCosNodeRowResistMin OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Minimum route addition resistance value for this node.

Range of values is 0-255. The lower the value, the more

desirable the node is for intermediate routing."

::= { appnCosNodeRowEntry 4 }

appnCosNodeRowResistMax OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum route addition resistance value for this node.

Range of values is 0-255. The lower the value, the more

desirable the node is for intermediate routing."

::= { appnCosNodeRowEntry 5 }

appnCosNodeRowMinCongestAllow OBJECT-TYPE

SYNTAX INTEGER (0..1)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether low congestion will be tolerated. This

object and appnCosNodeRowMaxCongestAllow together delineate a

range of acceptable congestion states for a node. For the

ordered pair (minimum congestion allowed, maximum congestion

allowed), the values are interpreted as follows:

- (0,0): only low congestion is acceptable

- (0,1): either low or high congestion is acceptable

- (1,1): only high congestion is acceptable.

Note that the combination (1,0) is not defined, since it

would identify a range whose lower bound was high congestion

and whose upper bound was low congestion."

::= { appnCosNodeRowEntry 6 }

appnCosNodeRowMaxCongestAllow OBJECT-TYPE

SYNTAX INTEGER (0..1)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether low congestion will be tolerated. This

object and appnCosNodeRowMinCongestAllow together delineate a

range of acceptable congestion states for a node. For the

ordered pair (minimum congestion allowed, maximum congestion

allowed), the values are interpreted as follows:

- (0,0): only low congestion is acceptable

- (0,1): either low or high congestion is acceptable

- (1,1): only high congestion is acceptable.

Note that the combination (1,0) is not defined, since it

would identify a range whose lower bound was high congestion

and whose upper bound was low congestion."

::= { appnCosNodeRowEntry 7 }

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

appnCosTgRowTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnCosTgRowEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Table containing all the TG-row information for all classes of

service defined in this node."

::= { appnCos 4 }

appnCosTgRowEntry OBJECT-TYPE

SYNTAX AppnCosTgRowEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"A TG entry for a given class of service."

INDEX

{appnCosTgRowName,

appnCosTgRowIndex}

::= { appnCosTgRowTable 1 }

AppnCosTgRowEntry ::= SEQUENCE {

appnCosTgRowName SnaClassOfServiceName,

appnCosTgRowIndex INTEGER,

appnCosTgRowWgt DisplayString,

appnCosTgRowEffCapMin AppnTgEffectiveCapacity,

appnCosTgRowEffCapMax AppnTgEffectiveCapacity,

appnCosTgRowConnCostMin INTEGER,

appnCosTgRowConnCostMax INTEGER,

appnCosTgRowByteCostMin INTEGER,

appnCosTgRowByteCostMax INTEGER,

appnCosTgRowSecurityMin AppnTgSecurity,

appnCosTgRowSecurityMax AppnTgSecurity,

appnCosTgRowDelayMin AppnTgDelay,

appnCosTgRowDelayMax AppnTgDelay,

appnCosTgRowUsr1Min INTEGER,

appnCosTgRowUsr1Max INTEGER,

appnCosTgRowUsr2Min INTEGER,

appnCosTgRowUsr2Max INTEGER,

appnCosTgRowUsr3Min INTEGER,

appnCosTgRowUsr3Max INTEGER

}

appnCosTgRowName OBJECT-TYPE

SYNTAX SnaClassOfServiceName

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Administratively assigned name for this class of service."

::= { appnCosTgRowEntry 1 }

appnCosTgRowIndex OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Subindex under appnCosTgRowName, corresponding to a row in the

TG table for the class of service identified in

appnCosTgRowName.

For each class of service, this subindex orders rows in the

appnCosTgRowTable in the same order as that used for route

calculation in the APPN node."

::= { appnCosTgRowEntry 2 }

appnCosTgRowWgt OBJECT-TYPE

SYNTAX DisplayString (SIZE (1..64))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Weight to be associated with the TGs that fit the criteria

specified by this TG row.

This value can either be a character representation of an

integer, or a formula for calculating the weight."

::= { appnCosTgRowEntry 3 }

appnCosTgRowEffCapMin OBJECT-TYPE

SYNTAX AppnTgEffectiveCapacity

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Minimum acceptable capacity for this class of service."

::= { appnCosTgRowEntry 4 }

appnCosTgRowEffCapMax OBJECT-TYPE

SYNTAX AppnTgEffectiveCapacity

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum acceptable capacity for this class of service."

::= { appnCosTgRowEntry 5 }

appnCosTgRowConnCostMin OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Minimum acceptable cost per connect time for this class of

service.

Cost per connect time: a value representing the relative

cost per unit of time to use this TG. Range is from 0, which

means no cost, to 255."

::= { appnCosTgRowEntry 6 }

appnCosTgRowConnCostMax OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum acceptable cost per connect time for this class of

service.

Cost per connect time: a value representing the relative

cost per unit of time to use this TG. Range is from 0, which

means no cost, to 255."

::= { appnCosTgRowEntry 7 }

appnCosTgRowByteCostMin OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Minimum acceptable cost per byte transmitted for this class

of service.

Cost per byte transmitted: a value representing the relative

cost per unit of time to use this TG. Range is from 0, which

means no cost, to 255."

::= { appnCosTgRowEntry 8 }

appnCosTgRowByteCostMax OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum acceptable cost per byte transmitted for this class

of service.

Cost per byte transmitted: a value representing the relative

cost of transmitting a byte over this TG. Range is from 0,

which means no cost, to 255."

::= { appnCosTgRowEntry 9 }

appnCosTgRowSecurityMin OBJECT-TYPE

SYNTAX AppnTgSecurity

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Minimum acceptable security for this class of service."

::= { appnCosTgRowEntry 10 }

appnCosTgRowSecurityMax OBJECT-TYPE

SYNTAX AppnTgSecurity

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum acceptable security for this class of service."

::= { appnCosTgRowEntry 11 }

appnCosTgRowDelayMin OBJECT-TYPE

SYNTAX AppnTgDelay

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Minimum acceptable propagation delay for this class of

service."

::= { appnCosTgRowEntry 12 }

appnCosTgRowDelayMax OBJECT-TYPE

SYNTAX AppnTgDelay

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum acceptable propagation delay for this class of

service."

::= { appnCosTgRowEntry 13 }

appnCosTgRowUsr1Min OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Minimum acceptable value for this user-defined

characteristic."

::= { appnCosTgRowEntry 14 }

appnCosTgRowUsr1Max OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum acceptable value for this user-defined

characteristic."

::= { appnCosTgRowEntry 15 }

appnCosTgRowUsr2Min OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Minimum acceptable value for this user-defined

characteristic."

::= { appnCosTgRowEntry 16 }

appnCosTgRowUsr2Max OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum acceptable value for this user-defined

characteristic."

::= { appnCosTgRowEntry 17 }

appnCosTgRowUsr3Min OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Minimum acceptable value for this user-defined

characteristic."

::= { appnCosTgRowEntry 18 }

appnCosTgRowUsr3Max OBJECT-TYPE

SYNTAX INTEGER (0..255)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Maximum acceptable value for this user-defined

characteristic."

::= { appnCosTgRowEntry 19 }

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

-- Intermediate Session Information

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

appnSessIntermediate OBJECT IDENTIFIER ::= { appnObjects 6 }

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

-- Intermediate Session Information Global Objects

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

-- The following simple objects allow the collection of intermediate

-- session Information to be started and stopped.

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

appnIsInGlobal OBJECT IDENTIFIER ::= { appnSessIntermediate 1 }

appnIsInGlobeCtrAdminStatus OBJECT-TYPE

SYNTAX INTEGER {

notActive(1),

active(2),

ready(3)

}

MAX-ACCESS read-write

STATUS current

DESCRIPTION

"Object by which a Management Station can deactivate or

activate capture of intermediate-session counts and names, by

setting the value to notActive(1) or active(2), respectively.

The value ready(3) is returned on GET operations until a SET

has been processed; after that the value received on the most

recent SET is returned.

The counts referred to here are the eight objects in the

AppnIsInTable, from appnIsInP2SFmdPius through

appnIsInS2PNonFmdBytes. The names are the four objects in this

table, from appnIsInPriLuName through appnIsInCosName.

Setting this object to the following values has the following

effects:

notActive(1) stop collecting count data. If a count

is queried, it returns the value 0.

Collection of names may, but need not be,

disabled.

active(2) start collecting count data. If it is

supported, collection of names is enabled."

::= { appnIsInGlobal 1 }

appnIsInGlobeCtrOperStatus OBJECT-TYPE

SYNTAX INTEGER {

notActive(1),

active(2)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Indicates whether or not the intermediate session counts

are active. The counts referred to here are the eight

objects in the AppnIsInTable, from appnIsInP2SFmdPius through

appnIsInS2PNonFmdBytes. These eight counts are of type

Unsigned32 rather than Counter32 because when this object

enters the notActive state, either because a Management

Station has set appnInInGlobeCtrAdminStatus to notActive or

because of a locally-initiated transition, the counts are

all reset to 0.

The values for this object are:

notActive(1): collection of counts is not active; if it

is queried, a count returns the value 0.

active(2): collection of counts is active."

::= { appnIsInGlobal 2 }

appnIsInGlobeCtrStatusTime OBJECT-TYPE

SYNTAX TimeTicks

UNITS "hundredths of a second"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The time since the appnIsInGlobeCtrOperStatus object last

changed, measured in hundredths of a second. This time can be

used to identify when this change occurred in relation to other

events in the agent, such as the last time the APPN node was

reinitialized."

::= { appnIsInGlobal 3 }

appnIsInGlobeRscv OBJECT-TYPE

SYNTAX INTEGER {

notActive(1),

active(2)

}

MAX-ACCESS read-write

STATUS current

DESCRIPTION

"Indicates the current route selection control vector (RSCV)

collection option in effect, and allows a Management Station to

change the option.

The values for this object are:

notActive(1): collection of route selection control vectors

is not active.

active(2): collection of route selection control vectors

is active."

::= { appnIsInGlobal 4 }

appnIsInGlobeRscvTime OBJECT-TYPE

SYNTAX TimeTicks

UNITS "hundredths of a second"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The time since the appnIsInGlobeRscv object last changed,

measured in hundredths of a second. This time can be used to

identify when this change occurred in relation to other events

in the agent, such as the last time the APPN node was

reinitialized."

::= { appnIsInGlobal 5 }

appnIsInGlobeActSess OBJECT-TYPE

SYNTAX Gauge32

UNITS "sessions"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of currently active intermediate sessions."

::= { appnIsInGlobal 6 }

appnIsInGlobeHprBfActSess OBJECT-TYPE

SYNTAX Gauge32

UNITS "sessions"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of currently active HPR intermediate sessions."

::= { appnIsInGlobal 7 }

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

-- Intermediate Session Information Table

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

-- This table contains information on intermediate sessions

-- which are currently active.

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

appnIsInTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnIsInEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Intermediate Session Information Table"

::= { appnSessIntermediate 2 }

appnIsInEntry OBJECT-TYPE

SYNTAX AppnIsInEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Entry of Intermediate Session Information Table."

INDEX

{ appnIsInFqCpName,

appnIsInPcid }

::= { appnIsInTable 1 }

AppnIsInEntry ::= SEQUENCE {

appnIsInFqCpName SnaControlPointName,

appnIsInPcid OCTET STRING,

appnIsInSessState INTEGER,

appnIsInPriLuName DisplayString,

appnIsInSecLuName DisplayString,

appnIsInModeName SnaModeName,

appnIsInCosName SnaClassOfServiceName,

appnIsInTransPriority INTEGER,

appnIsInSessType INTEGER,

appnIsInSessUpTime TimeTicks,

appnIsInCtrUpTime TimeTicks,

appnIsInP2SFmdPius Unsigned32,

appnIsInS2PFmdPius Unsigned32,

appnIsInP2SNonFmdPius Unsigned32,

appnIsInS2PNonFmdPius Unsigned32,

appnIsInP2SFmdBytes Unsigned32,

appnIsInS2PFmdBytes Unsigned32,

appnIsInP2SNonFmdBytes Unsigned32,

appnIsInS2PNonFmdBytes Unsigned32,

appnIsInPsAdjCpName SnaControlPointName,

appnIsInPsAdjTgNum INTEGER,

appnIsInPsSendMaxBtuSize INTEGER,

appnIsInPsSendPacingType INTEGER,

appnIsInPsSendRpc Gauge32,

appnIsInPsSendNxWndwSize Gauge32,

appnIsInPsRecvPacingType INTEGER,

appnIsInPsRecvRpc Gauge32,

appnIsInPsRecvNxWndwSize Gauge32,

appnIsInSsAdjCpName SnaControlPointName,

appnIsInSsAdjTgNum INTEGER,

appnIsInSsSendMaxBtuSize INTEGER,

appnIsInSsSendPacingType INTEGER,

appnIsInSsSendRpc Gauge32,

appnIsInSsSendNxWndwSize Gauge32,

appnIsInSsRecvPacingType INTEGER,

appnIsInSsRecvRpc Gauge32,

appnIsInSsRecvNxWndwSize Gauge32,

appnIsInRouteInfo OCTET STRING,

appnIsInRtpNceId OCTET STRING,

appnIsInRtpTcid OCTET STRING

}

appnIsInFqCpName 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 resources served by a dependent

LU requester (DLUR), it is the name of the owning system

services control point (SSCP)."

::= { appnIsInEntry 1 }

appnIsInPcid 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-byte value assigned by the primary LU."

::= { appnIsInEntry 2 }

appnIsInSessState OBJECT-TYPE

SYNTAX INTEGER {

inactive(1),

pendactive(2),

active(3),

pendinact(4)

}

MAX-ACCESS read-write

STATUS current

DESCRIPTION

"Indicates the state of the session:

inactive(1) - session is inactive

pendactive(2) - session is pending active

active(3) - session is active

pendinact(4) - session is pending inactive

Active sessions can be deactivated by setting this object

to inactive(1)."

::= { appnIsInEntry 3 }

appnIsInPriLuName OBJECT-TYPE

SYNTAX DisplayString (SIZE (0..17))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The primary LU name of the session. A zero-length

string indicates that this name is not available."

::= { appnIsInEntry 4 }

appnIsInSecLuName OBJECT-TYPE

SYNTAX DisplayString (SIZE (0..17))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The secondary LU name of the session. A zero-length

string indicates that this name is not available."

::= { appnIsInEntry 5 }

appnIsInModeName OBJECT-TYPE

SYNTAX SnaModeName

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The mode name used for this session."

::= { appnIsInEntry 6 }

appnIsInCosName OBJECT-TYPE

SYNTAX SnaClassOfServiceName

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The Class of Service (COS) name used for this session."

::= { appnIsInEntry 7 }

appnIsInTransPriority OBJECT-TYPE

SYNTAX INTEGER {

low(1), --X'01'

medium(2), --X'02'

high(3), --X'03'

network(4) --X'04'

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Transmission priority for this class of service. Values are:

low(1) - (X'01'): low priority

medium(2) - (X'02'): medium priority

high(3) - (X'03'): high priority

network(4) - (X'04'): network priority"

::= { appnIsInEntry 8 }

appnIsInSessType OBJECT-TYPE

SYNTAX INTEGER {

unknown(1),

lu62(2),

lu0thru3(3),

lu62dlur(4),

lu0thru3dlur(5)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The type of intermediate session. Defined values are

unknown The session type is not known.

lu62 A session between LUs of type 6.2

(as indicated by the LU type in Bind)

lu0thru3 A session between LUs of type 0, 1, 2, or 3

(as indicated by the LU type in Bind)

lu62dlur A session between LUs of type 6.2

(as indicated by the LU type in Bind).

One of the LUs is a dependent LU supported

by the dependent LU requester (DLUR)

function at this node.

lu0thru3dlur A session between LUs of type 0, 1, 2, or 3

(as indicated by the LU type in Bind)

One of the LUs is a dependent LU supported

by the dependent LU requester (DLUR)

function at this node."

::= { appnIsInEntry 9 }

appnIsInSessUpTime OBJECT-TYPE

SYNTAX TimeTicks

UNITS "hundredths of a second"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Length of time the session has been active, measured in

hundredths of a second."

::= { appnIsInEntry 10 }

appnIsInCtrUpTime OBJECT-TYPE

SYNTAX TimeTicks

UNITS "hundredths of a second"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Length of time the session counters have been active, measured

in hundredths of a second."

::= { appnIsInEntry 11 }

appnIsInP2SFmdPius OBJECT-TYPE

SYNTAX Unsigned32

UNITS "path information units (PIUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of function management data (FMD) path information

units (PIUs) sent from the Primary LU to the Secondary LU since

the counts were last activated."

::= { appnIsInEntry 12 }

appnIsInS2PFmdPius OBJECT-TYPE

SYNTAX Unsigned32

UNITS "path information units (PIUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of FMD PIUs sent from the Secondary LU to the Primary

LU since the counts were last activated."

::= { appnIsInEntry 13 }

appnIsInP2SNonFmdPius OBJECT-TYPE

SYNTAX Unsigned32

UNITS "path information units (PIUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of non-FMD PIUs sent from the Primary LU to the

Secondary LU since the counts were last activated."

::= { appnIsInEntry 14 }

appnIsInS2PNonFmdPius OBJECT-TYPE

SYNTAX Unsigned32

UNITS "path information units (PIUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of non-FMD PIUs sent from the Secondary LU to the

Primary LU since the counts were last activated."

::= { appnIsInEntry 15 }

appnIsInP2SFmdBytes OBJECT-TYPE

SYNTAX Unsigned32

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of FMD bytes sent from the Primary LU to the Secondary

LU since the counts were last activated."

::= { appnIsInEntry 16 }

appnIsInS2PFmdBytes OBJECT-TYPE

SYNTAX Unsigned32

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of FMD bytes sent from the Secondary LU to the Primary

LU since the counts were last activated."

::= { appnIsInEntry 17 }

appnIsInP2SNonFmdBytes OBJECT-TYPE

SYNTAX Unsigned32

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of non-FMD bytes sent from the Primary LU to the

Secondary LU since the counts were last activated."

::= { appnIsInEntry 18 }

appnIsInS2PNonFmdBytes OBJECT-TYPE

SYNTAX Unsigned32

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Number of non-FMD bytes sent from the Secondary LU to the

Primary LU since the counts were last activated."

::= { appnIsInEntry 19 }

appnIsInPsAdjCpName OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The primary stage adjacent CP name of this session. If the

session stage traverses an RTP connection, the CP name of the

remote RTP endpoint is returned."

::= { appnIsInEntry 20 }

appnIsInPsAdjTgNum OBJECT-TYPE

SYNTAX INTEGER (0..300)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The primary stage adjacent transmission group (TG) number

associated with this session. If the session stage traverses

an RTP connection, the value 256 is returned.

Values between 257 and 300 are available for other possible

TG 'stand-ins' that may be added to APPN in the future."

::= { appnIsInEntry 21 }

appnIsInPsSendMaxBtuSize OBJECT-TYPE

SYNTAX INTEGER (99..32767)

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The primary stage maximum basic transmission unit (BTU) size

for sending data."

::= { appnIsInEntry 22 }

appnIsInPsSendPacingType OBJECT-TYPE

SYNTAX INTEGER {

fixed(1),

adaptive(2)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The primary stage type of pacing being used for sending data."

::= { appnIsInEntry 23 }

appnIsInPsSendRpc OBJECT-TYPE

SYNTAX Gauge32

UNITS "message units (MUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The primary stage send residual pace count. This represents

the primary stage number of message units (MUs) that can still

be sent in the current session window."

::= { appnIsInEntry 24 }

appnIsInPsSendNxWndwSize OBJECT-TYPE

SYNTAX Gauge32

UNITS "message units (MUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The primary stage size of the next window which will be used

to send data."

::= { appnIsInEntry 25 }

appnIsInPsRecvPacingType OBJECT-TYPE

SYNTAX INTEGER {

fixed(1),

adaptive(2)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The primary stage type of pacing being used for receiving

data."

::= { appnIsInEntry 26 }

appnIsInPsRecvRpc OBJECT-TYPE

SYNTAX Gauge32

UNITS "message units (MUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The primary stage receive residual pace count. This

represents the primary stage number of message units (MUs) that

can still be received in the current session window."

::= { appnIsInEntry 27 }

appnIsInPsRecvNxWndwSize OBJECT-TYPE

SYNTAX Gauge32

UNITS "message units (MUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The primary stage size of the next window which will be used

to receive data."

::= { appnIsInEntry 28 }

appnIsInSsAdjCpName OBJECT-TYPE

SYNTAX SnaControlPointName

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The secondary stage adjacent CP name of this session. If the

session stage traverses an RTP connection, the CP name of the

remote RTP endpoint is returned."

::= { appnIsInEntry 29 }

appnIsInSsAdjTgNum OBJECT-TYPE

SYNTAX INTEGER (0..300)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The secondary stage adjacent transmission group (TG) number

associated with this session. If the session stage traverses

an RTP connection, the value 256 is returned.

Values between 257 and 300 are available for other possible

TG 'stand-ins' that may be added to APPN in the future."

::= { appnIsInEntry 30 }

appnIsInSsSendMaxBtuSize OBJECT-TYPE

SYNTAX INTEGER (99..32767)

UNITS "bytes"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The secondary stage maximum basic transmission unit (BTU) size

for sending data."

::= { appnIsInEntry 31 }

appnIsInSsSendPacingType OBJECT-TYPE

SYNTAX INTEGER {

fixed(1),

adaptive(2)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The secondary stage type of pacing being used for sending

data."

::= { appnIsInEntry 32 }

appnIsInSsSendRpc OBJECT-TYPE

SYNTAX Gauge32

UNITS "message units (MUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The secondary stage send residual pace count. This represents

the secondary stage number of message units (MUs) that can

still be sent in the current session window."

::= { appnIsInEntry 33 }

appnIsInSsSendNxWndwSize OBJECT-TYPE

SYNTAX Gauge32

UNITS "message units (MUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The secondary stage size of the next window which will be used

to send data."

::= { appnIsInEntry 34 }

appnIsInSsRecvPacingType OBJECT-TYPE

SYNTAX INTEGER {

fixed(1),

adaptive(2)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The secondary stage type of pacing being used for receiving

data."

::= { appnIsInEntry 35 }

appnIsInSsRecvRpc OBJECT-TYPE

SYNTAX Gauge32

UNITS "message units (MUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The secondary stage receive residual pace count. This

represents the secondary stage number of message units (MUs)

that can still be received in the current session window."

::= { appnIsInEntry 36 }

appnIsInSsRecvNxWndwSize OBJECT-TYPE

SYNTAX Gauge32

UNITS "message units (MUs)"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The secondary stage size of the next window which will be used

to receive data."

::= { appnIsInEntry 37 }

appnIsInRouteInfo OBJECT-TYPE

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

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The route selection control vector (RSCV X'2B') used for this

session. It is present for APPN nodes; but is not present for

LEN nodes. The format of this vector is described in SNA

Formats. If no RSCV is available, a zero-length string is

returned."

::= { appnIsInEntry 38 }

appnIsInRtpNceId OBJECT-TYPE

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

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The HPR local Network Connection Endpoint of the session."

::= { appnIsInEntry 39 }

appnIsInRtpTcid OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (8))

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The RTP connection local TCID of the session."

::= { appnIsInEntry 40 }

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

-- Intermediate Session RTP Table

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

-- This table contains information on intermediate sessions that are

-- being transported on Rapid Transport Protocol (RTP) connections by

-- High Performance Routing (HPR).

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

appnIsRtpTable OBJECT-TYPE

SYNTAX SEQUENCE OF AppnIsRtpEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"A table indicating how many ISR sessions are transported by

each RTP connection."

::= { appnSessIntermediate 3 }

appnIsRtpEntry OBJECT-TYPE

SYNTAX AppnIsRtpEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"Entry of Intermediate Session RTP Table."

INDEX

{ appnIsRtpNceId,

appnIsRtpTcid }

::= { appnIsRtpTable 1 }

AppnIsRtpEntry ::= SEQUENCE {

appnIsRtpNceId OCTET STRING,

appnIsRtpTcid OCTET STRING,

appnIsRtpSessions Gauge32

}

appnIsRtpNceId OBJECT-TYPE

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

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The local Network Connection Endpoint of the RTP connection."

::= { appnIsRtpEntry 1 }

appnIsRtpTcid OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (8))

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The local TCID of the RTP connection."

::= { appnIsRtpEntry 2 }

appnIsRtpSessions OBJECT-TYPE

SYNTAX Gauge32

UNITS "sessions"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of intermediate sessions using this RTP

connection."

::= { appnIsRtpEntry 3 }

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

appnTraps OBJECT IDENTIFIER ::= { appnMIB 2 }

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

alertTrap NOTIFICATION-TYPE

OBJECTS { alertIdNumber, affectedObject }

STATUS current

DESCRIPTION

"This trap carries a 32-bit SNA Management Services (SNA/MS)

Alert ID Number, as specified in SNA/MS Formats."

::= { appnTraps 1 }

alertIdNumber OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (4))

MAX-ACCESS accessible-for-notify

STATUS current

DESCRIPTION

"A 32-bit SNA Management Services (SNA/MS) Alert ID Number, as

specified in SNA/MS Formats."

::= { appnTraps 2 }

affectedObject OBJECT-TYPE

SYNTAX VariablePointer

MAX-ACCESS accessible-for-notify

STATUS current

DESCRIPTION

"The MIB object associated with the Alert condition, if there

is an object associated with it. If no associated object can

be identified, the value 0.0 is passed in the trap."

::= { appnTraps 3 }

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

-- Conformance information

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

appnConformance OBJECT IDENTIFIER ::= { appnMIB 3 }

appnCompliances OBJECT IDENTIFIER ::= { appnConformance 1 }

appnGroups OBJECT IDENTIFIER ::= { appnConformance 2 }

-- Compliance statements

-- appnCompliance MODULE-COMPLIANCE (deprecated: moved to end of module)

appnCompliance2 MODULE-COMPLIANCE

STATUS current

DESCRIPTION

"The compliance statement for the SNMPv2 entities that

implement the APPN MIB.

In the descriptions for the conditionally mandatory groups that

follow, the branch network node is treated as a third node type,

parallel to network node and end node. This is not how branch

network nodes are treated in the base APPN architecture, but it

increases clarity here to do it."

MODULE -- this module

-- Unconditionally mandatory groups

MANDATORY-GROUPS {

appnGeneralConfGroup2,

appnPortConfGroup,

appnLinkConfGroup2,

appnLocalTgConfGroup2,

appnDirTableConfGroup2

}

-- Conditionally mandatory groups

GROUP appnNnUniqueConfGroup

DESCRIPTION

"The appnNnUniqueConfGroup is mandatory for

network nodes."

GROUP appnEnUniqueConfGroup

DESCRIPTION

"The appnEnUniqueConfGroup is mandatory for end

nodes."

GROUP appnVrnConfGroup

DESCRIPTION

"The appnVrnConfGroup is mandatory for network

nodes, end nodes, and branch network nodes that

implement virtual routing node support."

GROUP appnNnTopoConfGroup2

DESCRIPTION

"The appnNnTopoConfGroup2 is mandatory for

network nodes."

GROUP appnLocalEnTopoConfGroup2

DESCRIPTION

"The appnLocalEnTopoConfGroup2 is mandatory for

network nodes."

GROUP appnLocalDirPerfConfGroup

DESCRIPTION

"The appnLocalDirPerfConfGroup is mandatory for

APPN network nodes, end nodes, and branch network

nodes."

GROUP appnCosConfGroup

DESCRIPTION

"The appnCosConfGroup is mandatory for APPN

network nodes, end nodes, and branch network

nodes."

GROUP appnIntSessConfGroup

DESCRIPTION

"The appnIntSessConfGroup is mandatory for

network nodes and branch network nodes."

GROUP appnHprBaseConfGroup

DESCRIPTION

"The appnHprBaseConfGroup is mandatory for nodes

that implement the HPR base (APPN option set 1400)."

GROUP appnHprRtpConfGroup

DESCRIPTION

"The appnHprRtpConfGroup is mandatory for nodes

that implement the HPR RTP tower (APPN option set

1401)."

GROUP appnHprCtrlFlowsRtpConfGroup

DESCRIPTION

"The appnHprCtrlFlowsRtpConfGroup is mandatory for

nodes that implement the HPR Control Flows over

RTP tower (APPN option set 1402)."

GROUP appnHprBfConfGroup

DESCRIPTION

"The appnHprBfConfGroup is mandatory for nodes

that implement the APPN/HPR boundary function."

GROUP appnTrapConfGroup

DESCRIPTION

"Traps are optional for all nodes."

GROUP appnTrapNotifGroup

DESCRIPTION

"Traps are optional for all nodes."

GROUP appnBrNnConfGroup

DESCRIPTION

"The appnBrNnConfGroup is mandatory for branch

network nodes."

::= { appnCompliances 3 }

-- { appnCompliances 2 } is used by the APPN-TRAP-MIB

-- Units of conformance

appnGeneralConfGroup2 OBJECT-GROUP

OBJECTS {

appnNodeCpName,

appnNodeId,

appnNodeType,

appnNodeUpTime,

appnNodeParallelTg,

appnNodeAdaptiveBindPacing,

appnNodeHprSupport,

appnNodeCounterDisconTime,

appnNodeLsCounterType,

appnNodeBrNn

}

STATUS current

DESCRIPTION

"A collection of objects providing the instrumentation of

APPN general information and capabilities."

::= { appnGroups 26 }

-- { appnGroups 21 - 25 } are used by the APPN-TRAP-MIB

appnPortConfGroup OBJECT-GROUP

OBJECTS {

appnPortCommand,

appnPortOperState,

appnPortDlcType,

appnPortPortType,

appnPortSIMRIM,

appnPortLsRole,

appnPortNegotLs,

appnPortDynamicLinkSupport,

appnPortMaxRcvBtuSize,

appnPortMaxIframeWindow,

appnPortDefLsGoodXids,

appnPortDefLsBadXids,

appnPortDynLsGoodXids,

appnPortDynLsBadXids,

appnPortSpecific,

appnPortDlcLocalAddr,

appnPortCounterDisconTime

}

STATUS current

DESCRIPTION

"A collection of objects providing the instrumentation of

APPN port information."

::= { appnGroups 2 }

appnLinkConfGroup2 OBJECT-GROUP

OBJECTS {

appnLsCommand,

appnLsOperState,

appnLsPortName,

appnLsDlcType,

appnLsDynamic,

appnLsAdjCpName,

appnLsAdjNodeType,

appnLsTgNum,

appnLsLimResource,

appnLsActOnDemand,

appnLsMigration,

appnLsPartnerNodeId,

appnLsCpCpSessionSupport,

appnLsMaxSendBtuSize,

appnLsInXidBytes,

appnLsInMsgBytes,

appnLsInXidFrames,

appnLsInMsgFrames,

appnLsOutXidBytes,

appnLsOutMsgBytes,

appnLsOutXidFrames,

appnLsOutMsgFrames,

appnLsEchoRsps,

appnLsCurrentDelay,

appnLsMaxDelay,

appnLsMinDelay,

appnLsMaxDelayTime,

appnLsGoodXids,

appnLsBadXids,

appnLsSpecific,

appnLsActiveTime,

appnLsCurrentStateTime,

appnLsHprSup,

appnLsLocalAddr,

appnLsRemoteAddr,

appnLsRemoteLsName,

appnLsStatusTime,

appnLsStatusLsName,

appnLsStatusCpName,

appnLsStatusPartnerId,

appnLsStatusTgNum,

appnLsStatusGeneralSense,

appnLsStatusRetry,

appnLsStatusEndSense,

appnLsStatusXidLocalSense,

appnLsStatusXidRemoteSense,

appnLsStatusXidByteInError,

appnLsStatusXidBitInError,

appnLsStatusDlcType,

appnLsStatusLocalAddr,

appnLsStatusRemoteAddr,

appnLsCounterDisconTime,

appnLsMltgMember

}

STATUS current

DESCRIPTION

"A collection of objects providing the instrumentation of

APPN link information."

::= { appnGroups 27 }

appnLocalTgConfGroup2 OBJECT-GROUP

OBJECTS {

appnLocalTgDestVirtual,

appnLocalTgDlcData,

appnLocalTgPortName,

appnLocalTgQuiescing,

appnLocalTgOperational,

appnLocalTgCpCpSession,

appnLocalTgEffCap,

appnLocalTgConnCost,

appnLocalTgByteCost,

appnLocalTgSecurity,

appnLocalTgDelay,

appnLocalTgUsr1,

appnLocalTgUsr2,

appnLocalTgUsr3,

appnLocalTgHprSup,

appnLocalTgIntersubnet,

appnLocalTgMltgLinkType

}

STATUS current

DESCRIPTION

"A collection of objects providing the instrumentation of

APPN local TG information."

::= { appnGroups 28 }

appnDirTableConfGroup2 OBJECT-GROUP

OBJECTS {

appnDirNnServerName,

appnDirLuOwnerName,

appnDirLuLocation,

appnDirType,

appnDirApparentLuOwnerName

}

STATUS current

DESCRIPTION

"A collection of objects providing the instrumentation of the

APPN directory database."

::= { appnGroups 29 }

appnNnUniqueConfGroup OBJECT-GROUP

OBJECTS {

appnNodeNnCentralDirectory,

appnNodeNnTreeCache,

appnNodeNnRouteAddResist,

appnNodeNnIsr,

appnNodeNnFrsn,

appnNodeNnPeriBorderSup,

appnNodeNnInterchangeSup,

appnNodeNnExteBorderSup,

appnNodeNnSafeStoreFreq,

appnNodeNnRsn,

appnNodeNnCongested,

appnNodeNnIsrDepleted,

appnNodeNnQuiescing,

appnNodeNnGateway

}

STATUS current

DESCRIPTION

"A collection of objects providing instrumentation unique

to APPN network nodes."

::= { appnGroups 6 }

appnEnUniqueConfGroup OBJECT-GROUP

OBJECTS {

appnNodeEnModeCosMap,

appnNodeEnNnServer,

appnNodeEnLuSearch

}

STATUS current

DESCRIPTION

"A collection of objects providing instrumentation for

APPN end nodes. Some of these objects also appear in the

instrumentation for a branch network node."

::= { appnGroups 7 }

appnVrnConfGroup OBJECT-GROUP

OBJECTS {

appnVrnPortName

}

STATUS current

DESCRIPTION

"An object providing the instrumentation for virtual

routing node support in an APPN node."

::= { appnGroups 8 }

appnNnTopoConfGroup2 OBJECT-GROUP

OBJECTS {

appnNnTopoMaxNodes,

appnNnTopoCurNumNodes,

appnNnTopoNodePurges,

appnNnTopoTgPurges,

appnNnTopoTotalTduWars,

appnNnNodeFREntryTimeLeft,

appnNnNodeFRType,

appnNnNodeFRRsn,

appnNnNodeFRRouteAddResist,

appnNnNodeFRCongested,

appnNnNodeFRIsrDepleted,

appnNnNodeFRQuiescing,

appnNnNodeFRGateway,

appnNnNodeFRCentralDirectory,

appnNnNodeFRIsr,

appnNnNodeFRGarbageCollect,

appnNnNodeFRHprSupport,

appnNnNodeFRPeriBorderSup,

appnNnNodeFRInterchangeSup,

appnNnNodeFRExteBorderSup,

appnNnNodeFRBranchAwareness,

appnNnTgFREntryTimeLeft,

appnNnTgFRDestVirtual,

appnNnTgFRDlcData,

appnNnTgFRRsn,

appnNnTgFROperational,

appnNnTgFRQuiescing,

appnNnTgFRCpCpSession,

appnNnTgFREffCap,

appnNnTgFRConnCost,

appnNnTgFRByteCost,

appnNnTgFRSecurity,

appnNnTgFRDelay,

appnNnTgFRUsr1,

appnNnTgFRUsr2,

appnNnTgFRUsr3,

appnNnTgFRGarbageCollect,

appnNnTgFRSubareaNum,

appnNnTgFRHprSup,

appnNnTgFRDestHprTrans,

appnNnTgFRTypeIndicator,

appnNnTgFRIntersubnet,

appnNnTgFRMltgLinkType,

appnNnTgFRBranchTg

}

STATUS current

DESCRIPTION

"The appnNnTopoConfGroup is mandatory only for network

nodes."

::= { appnGroups 30 }

appnLocalEnTopoConfGroup2 OBJECT-GROUP

OBJECTS {

appnLocalEnTgEntryTimeLeft,

appnLocalEnTgDestVirtual,

appnLocalEnTgDlcData,

appnLocalEnTgOperational,

appnLocalEnTgCpCpSession,

appnLocalEnTgEffCap,

appnLocalEnTgConnCost,

appnLocalEnTgByteCost,

appnLocalEnTgSecurity,

appnLocalEnTgDelay,

appnLocalEnTgUsr1,

appnLocalEnTgUsr2,

appnLocalEnTgUsr3,

appnLocalEnTgMltgLinkType

}

STATUS current

DESCRIPTION

"A collection of objects providing the instrumentation

of the information that a network node possesses about

the end nodes directly attached to it."

::= { appnGroups 31 }

appnLocalDirPerfConfGroup OBJECT-GROUP

OBJECTS {

appnDirMaxCaches,

appnDirCurCaches,

appnDirCurHomeEntries,

appnDirRegEntries,

appnDirInLocates,

appnDirInBcastLocates,

appnDirOutLocates,

appnDirOutBcastLocates,

appnDirNotFoundLocates,

appnDirNotFoundBcastLocates,

appnDirLocateOutstands

}

STATUS current

DESCRIPTION

"The appnLocalDirPerfConfGroup is mandatory only for APPN

network nodes and end nodes."

::= { appnGroups 11 }

appnCosConfGroup OBJECT-GROUP

OBJECTS {

appnCosModeCosName,

appnCosTransPriority,

appnCosNodeRowWgt,

appnCosNodeRowResistMin,

appnCosNodeRowResistMax,

appnCosNodeRowMinCongestAllow,

appnCosNodeRowMaxCongestAllow,

appnCosTgRowWgt,

appnCosTgRowEffCapMin,

appnCosTgRowEffCapMax,

appnCosTgRowConnCostMin,

appnCosTgRowConnCostMax,

appnCosTgRowByteCostMin,

appnCosTgRowByteCostMax,

appnCosTgRowSecurityMin,

appnCosTgRowSecurityMax,

appnCosTgRowDelayMin,

appnCosTgRowDelayMax,

appnCosTgRowUsr1Min,

appnCosTgRowUsr1Max,

appnCosTgRowUsr2Min,

appnCosTgRowUsr2Max,

appnCosTgRowUsr3Min,

appnCosTgRowUsr3Max

}

STATUS current

DESCRIPTION

"The appnCosConfGroup is mandatory only for APPN network

nodes and end nodes."

::= { appnGroups 12 }

appnIntSessConfGroup OBJECT-GROUP

OBJECTS {

appnIsInGlobeCtrAdminStatus,

appnIsInGlobeCtrOperStatus,

appnIsInGlobeCtrStatusTime,

appnIsInGlobeRscv,

appnIsInGlobeRscvTime,

appnIsInGlobeActSess,

appnIsInSessState,

appnIsInPriLuName,

appnIsInSecLuName,

appnIsInModeName,

appnIsInCosName,

appnIsInTransPriority,

appnIsInSessType,

appnIsInSessUpTime,

appnIsInCtrUpTime,

appnIsInP2SFmdPius,

appnIsInS2PFmdPius,

appnIsInP2SNonFmdPius,

appnIsInS2PNonFmdPius,

appnIsInP2SFmdBytes,

appnIsInS2PFmdBytes,

appnIsInP2SNonFmdBytes,

appnIsInS2PNonFmdBytes,

appnIsInPsAdjCpName,

appnIsInPsAdjTgNum,

appnIsInPsSendMaxBtuSize,

appnIsInPsSendPacingType,

appnIsInPsSendRpc,

appnIsInPsSendNxWndwSize,

appnIsInPsRecvPacingType,

appnIsInPsRecvRpc,

appnIsInPsRecvNxWndwSize,

appnIsInSsAdjCpName,

appnIsInSsAdjTgNum,

appnIsInSsSendMaxBtuSize,

appnIsInSsSendPacingType,

appnIsInSsSendRpc,

appnIsInSsSendNxWndwSize,

appnIsInSsRecvPacingType,

appnIsInSsRecvRpc,

appnIsInSsRecvNxWndwSize,

appnIsInRouteInfo

}

STATUS current

DESCRIPTION

"The appnIntSessConfGroup is mandatory only for network

nodes."

::= { appnGroups 13 }

appnHprBaseConfGroup OBJECT-GROUP

OBJECTS {

appnNodeHprIntRteSetups,

appnNodeHprIntRteRejects,

appnLsErrRecoSup,

appnLsForAnrLabel,

appnLsRevAnrLabel

}

STATUS current

DESCRIPTION

"The appnHprBaseConfGroup is mandatory only for nodes that

implement the HPR base (APPN option set 1400)."

::= { appnGroups 14 }

appnHprRtpConfGroup OBJECT-GROUP

OBJECTS {

appnNodeMaxSessPerRtpConn,

appnNodeHprOrgRteSetups,

appnNodeHprOrgRteRejects,

appnNodeHprEndRteSetups,

appnNodeHprEndRteRejects,

appnLsBfNceId

}

STATUS current

DESCRIPTION

"The appnHprRtpConfGroup is mandatory only for nodes that

implement the HPR RTP tower (APPN option set 1401)."

::= { appnGroups 15 }

appnHprCtrlFlowsRtpConfGroup OBJECT-GROUP

OBJECTS {

appnLsCpCpNceId,

appnLsRouteNceId

}

STATUS current

DESCRIPTION

"The appnHprCtrlFlowsRtpConfGroup is mandatory only for nodes

that implement the HPR Control Flows over RTP tower (APPN

option set 1402)."

::= { appnGroups 16 }

appnHprBfConfGroup OBJECT-GROUP

OBJECTS {

appnIsInGlobeHprBfActSess,

appnIsInRtpNceId,

appnIsInRtpTcid,

appnIsRtpSessions

}

STATUS current

DESCRIPTION

"The appnHprBfConfGroup is mandatory only for nodes that

implement the APPN/HPR boundary function."

::= { appnGroups 17 }

appnTrapConfGroup OBJECT-GROUP

OBJECTS {

alertIdNumber,

affectedObject

}

STATUS current

DESCRIPTION

"The appnTrapConfGroup is optional for all APPN nodes. Nodes

implementing this group shall also implement the

appnTrapNotifGroup."

::= { appnGroups 18 }

appnTrapNotifGroup NOTIFICATION-GROUP

NOTIFICATIONS {

alertTrap

}

STATUS current

DESCRIPTION

"The appnTrapNotifGroup is optional for all APPN nodes.

Nodes implementing this group shall also implement the

appnTrapConfGroup."

::= { appnGroups 19 }

appnBrNnConfGroup OBJECT-GROUP

OBJECTS {

appnNodeEnNnServer,

appnNodeEnLuSearch,

appnLocalTgBranchLinkType

}

STATUS current

DESCRIPTION

"A collection of objects providing instrumentation for

branch network nodes. Some of these objects also appear

in the instrumentation for an end node.

Note: A branch network node always returns endNode(2)

as the value of the appnNodeType object from the

appnGeneralConfGroup2 conformance group."

::= { appnGroups 20 }

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

-- Deprecated definitions

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

appnNodeMibVersion OBJECT-TYPE

SYNTAX DisplayString (SIZE (11))

MAX-ACCESS read-only

STATUS deprecated

DESCRIPTION

"The value of LAST-UPDATED from this module's MODULE-IDENTITY

macro. This object gives a Management Station an easy way of

determining the level of the MIB supported by an agent.

Since this object incorporates the Year 2000-unfriendly

2-digit year specified in SMI for the LAST-UPDATED field, and

since it was not found to be particularly useful, it has been

deprecated. No replacement object has been defined."

::= { appnGeneralInfoAndCaps 2 }

appnCompliance MODULE-COMPLIANCE

STATUS deprecated

DESCRIPTION

"The compliance statement for the SNMPv2 entities that

implement the APPN MIB.

This is the compliance statement for the RFC2155-level version

of the APPN MIB. It was deprecated as new objects were added

to the MIB for MLTG, branch network node, and other extensions

to the APPN architecture."

MODULE -- this module

-- Unconditionally mandatory groups

MANDATORY-GROUPS {

appnGeneralConfGroup,

appnPortConfGroup,

appnLinkConfGroup,

appnLocalTgConfGroup,

appnDirTableConfGroup

}

-- Conditionally mandatory groups

GROUP appnNnUniqueConfGroup

DESCRIPTION

"The appnNnUniqueConfGroup is mandatory only for

network nodes."

GROUP appnEnUniqueConfGroup

DESCRIPTION

"The appnEnUniqueConfGroup is mandatory only for end

nodes."

GROUP appnVrnConfGroup

DESCRIPTION

"The appnVrnConfGroup is mandatory only for network

nodes and end nodes that implement virtual routing

node support."

GROUP appnNnTopoConfGroup

DESCRIPTION

"The appnNnTopoConfGroup is mandatory only for

network nodes."

GROUP appnLocalEnTopoConfGroup

DESCRIPTION

"The appnLocalEnTopoConfGroup is mandatory only for

network nodes."

GROUP appnLocalDirPerfConfGroup

DESCRIPTION

"The appnLocalDirPerfConfGroup is mandatory only for

APPN network nodes and end nodes."

GROUP appnCosConfGroup

DESCRIPTION

"The appnCosConfGroup is mandatory only for APPN

network nodes and end nodes."

GROUP appnIntSessConfGroup

DESCRIPTION

"The appnIntSessConfGroup is mandatory only for

network nodes."

GROUP appnHprBaseConfGroup

DESCRIPTION

"The appnHprBaseConfGroup is mandatory only for nodes

that implement the HPR base (APPN option set 1400)."

GROUP appnHprRtpConfGroup

DESCRIPTION

"The appnHprRtpConfGroup is mandatory only for nodes

that implement the HPR RTP tower (APPN option set

1401)."

GROUP appnHprCtrlFlowsRtpConfGroup

DESCRIPTION

"The appnHprCtrlFlowsRtpConfGroup is mandatory only

for nodes that implement the HPR Control Flows over

RTP tower (APPN option set 1402)."

GROUP appnHprBfConfGroup

DESCRIPTION

"The appnHprBfConfGroup is mandatory only for nodes

that implement the APPN/HPR boundary function."

GROUP appnTrapConfGroup

DESCRIPTION

"Traps are optional for all nodes."

GROUP appnTrapNotifGroup

DESCRIPTION

"Traps are optional for all nodes."

::= { appnCompliances 1 }

appnGeneralConfGroup OBJECT-GROUP

OBJECTS {

appnNodeCpName,

appnNodeMibVersion,

appnNodeId,

appnNodeType,

appnNodeUpTime,

appnNodeParallelTg,

appnNodeAdaptiveBindPacing,

appnNodeHprSupport,

appnNodeCounterDisconTime

}

STATUS deprecated

DESCRIPTION

"A collection of objects providing the instrumentation of

APPN general information and capabilities.

This RFC2155-level group was deprecated when the

appnNodeMibVersion object was removed and the

appnNodeLsCounterType and appnNodeBrNn objects were added."

::= { appnGroups 1 }

appnLinkConfGroup OBJECT-GROUP

OBJECTS {

appnLsCommand,

appnLsOperState,

appnLsPortName,

appnLsDlcType,

appnLsDynamic,

appnLsAdjCpName,

appnLsAdjNodeType,

appnLsTgNum,

appnLsLimResource,

appnLsActOnDemand,

appnLsMigration,

appnLsPartnerNodeId,

appnLsCpCpSessionSupport,

appnLsMaxSendBtuSize,

appnLsInXidBytes,

appnLsInMsgBytes,

appnLsInXidFrames,

appnLsInMsgFrames,

appnLsOutXidBytes,

appnLsOutMsgBytes,

appnLsOutXidFrames,

appnLsOutMsgFrames,

appnLsEchoRsps,

appnLsCurrentDelay,

appnLsMaxDelay,

appnLsMinDelay,

appnLsMaxDelayTime,

appnLsGoodXids,

appnLsBadXids,

appnLsSpecific,

appnLsActiveTime,

appnLsCurrentStateTime,

appnLsHprSup,

appnLsLocalAddr,

appnLsRemoteAddr,

appnLsRemoteLsName,

appnLsStatusTime,

appnLsStatusLsName,

appnLsStatusCpName,

appnLsStatusPartnerId,

appnLsStatusTgNum,

appnLsStatusGeneralSense,

appnLsStatusRetry,

appnLsStatusEndSense,

appnLsStatusXidLocalSense,

appnLsStatusXidRemoteSense,

appnLsStatusXidByteInError,

appnLsStatusXidBitInError,

appnLsStatusDlcType,

appnLsStatusLocalAddr,

appnLsStatusRemoteAddr,

appnLsCounterDisconTime

}

STATUS deprecated

DESCRIPTION

"A collection of objects providing the instrumentation of

APPN link information.

This RFC2155-level group was deprecated when the

appnLsMltgMember object was added."

::= { appnGroups 3 }

appnLocalTgConfGroup OBJECT-GROUP

OBJECTS {

appnLocalTgDestVirtual,

appnLocalTgDlcData,

appnLocalTgPortName,

appnLocalTgQuiescing,

appnLocalTgOperational,

appnLocalTgCpCpSession,

appnLocalTgEffCap,

appnLocalTgConnCost,

appnLocalTgByteCost,

appnLocalTgSecurity,

appnLocalTgDelay,

appnLocalTgUsr1,

appnLocalTgUsr2,

appnLocalTgUsr3,

appnLocalTgHprSup,

appnLocalTgIntersubnet

}

STATUS deprecated

DESCRIPTION

"A collection of objects providing the instrumentation of

APPN local TG information.

This RFC2155-level group was deprecated when the

appnLocalTgMltgLinkType object was added."

::= { appnGroups 4 }

appnDirTableConfGroup OBJECT-GROUP

OBJECTS {

appnDirNnServerName,

appnDirLuOwnerName,

appnDirLuLocation,

appnDirType

}

STATUS deprecated

DESCRIPTION

"A collection of objects providing the instrumentation of the

APPN directory database.

This RFC2155-level group was deprecated when the

appnDirApparentLuOwnerName object was added."

::= { appnGroups 5 }

appnNnTopoConfGroup OBJECT-GROUP

OBJECTS {

appnNnTopoMaxNodes,

appnNnTopoCurNumNodes,

appnNnTopoNodePurges,

appnNnTopoTgPurges,

appnNnTopoTotalTduWars,

appnNnNodeFREntryTimeLeft,

appnNnNodeFRType,

appnNnNodeFRRsn,

appnNnNodeFRRouteAddResist,

appnNnNodeFRCongested,

appnNnNodeFRIsrDepleted,

appnNnNodeFRQuiescing,

appnNnNodeFRGateway,

appnNnNodeFRCentralDirectory,

appnNnNodeFRIsr,

appnNnNodeFRGarbageCollect,

appnNnNodeFRHprSupport,

appnNnNodeFRPeriBorderSup,

appnNnNodeFRInterchangeSup,

appnNnNodeFRExteBorderSup,

appnNnTgFREntryTimeLeft,

appnNnTgFRDestVirtual,

appnNnTgFRDlcData,

appnNnTgFRRsn,

appnNnTgFROperational,

appnNnTgFRQuiescing,

appnNnTgFRCpCpSession,

appnNnTgFREffCap,

appnNnTgFRConnCost,

appnNnTgFRByteCost,

appnNnTgFRSecurity,

appnNnTgFRDelay,

appnNnTgFRUsr1,

appnNnTgFRUsr2,

appnNnTgFRUsr3,

appnNnTgFRGarbageCollect,

appnNnTgFRSubareaNum,

appnNnTgFRHprSup,

appnNnTgFRDestHprTrans,

appnNnTgFRTypeIndicator,

appnNnTgFRIntersubnet

}

STATUS deprecated

DESCRIPTION

"The appnNnTopoConfGroup is mandatory only for network

nodes.

This RFC2155-level group was deprecated when the

appnNnNodeFRBranchAwareness, appnNnTgFRMltgLinkType, and

appnNnFRBranchTg objects were added."

::= { appnGroups 9 }

appnLocalEnTopoConfGroup OBJECT-GROUP

OBJECTS {

appnLocalEnTgEntryTimeLeft,

appnLocalEnTgDestVirtual,

appnLocalEnTgDlcData,

appnLocalEnTgOperational,

appnLocalEnTgCpCpSession,

appnLocalEnTgEffCap,

appnLocalEnTgConnCost,

appnLocalEnTgByteCost,

appnLocalEnTgSecurity,

appnLocalEnTgDelay,

appnLocalEnTgUsr1,

appnLocalEnTgUsr2,

appnLocalEnTgUsr3

}

STATUS deprecated

DESCRIPTION

"The appnLocalEnTopoConfGroup is mandatory only for network

nodes.

This RFC2155-level group was deprecated when the

appnLocalEnTgMltgLinkType object was added."

::= { appnGroups 10 }

END

5. 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 [12]. A protocol for access

control is defined in [15].

The read-only objects appnNnTgFRSecurity, appnLocalTgSecurity,

appnLocalEnTgSecurity, appnCosTgRowSecurityMin, and

appnCosTgRowSecurityMax can be used to determine the potential path

of secure data. While these objects cannot be changed by a management

application using this MIB, these objects could be used to determine

where a security exposure exists due to an improper configuration on

the agent.

None of the other read-only objects in the APPN 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.

Four of the read-write objects in the MIB can affect network

operations; it is recommended that SNMP access to these objects be

restricted. The four objects are:

o appnNodeNnSafeStoreFreq: Setting this object to 0, or to a very

large value, effectively turns off safe storing of topology

data.

o appnPortCommand, appnLsCommand: These two objects allow an APPN

port or link station to be activated, deactivated, or recycled

via an SNMP operation. The latter two operations may disrupt

current users of the network.

o appnIsInSessState: Setting this object to 'inactive' causes an

active SNA session to be deactivated.

Other read-write objects control the gathering of network

management data; controlling access to these objects is less

critical.

6. 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 [16]. 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. Acknowledgments

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

APPN/HPR MIBs SIG. Thanks to Wayne Clark, Cisco Systems; Jim Cobban,

Nortel; Rich Daugherty, IBM Corporation; Mark Regan, Cisco Systems;

and Leo Temoshenko, IBM Corporation, for their contributions and

review.

8. References

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

Describing SNMP Management Frameworks", RFC2271, January 1998.

[2] Rose, M., and K. McCloghrie, "Structure and Identification of

Management Information for TCP/IP-based Internets", STD 16, RFC

1155, May 1990.

[3] Rose, M., and K. McCloghrie, "Concise MIB Definitions", STD 16,

RFC1212, March 1991.

[4] Rose, M., "A Convention for Defining Traps for use with the

SNMP", RFC1215, March 1991.

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

"Structure of Management Information for Version 2 of the Simple

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

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

Conventions for Version 2 of the Simple Network Management

Protocol (SNMPv2)", RFC1903, January 1996.

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

"Conformance Statements for Version 2 of the Simple Network

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

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

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

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

"Introduction to Community-based SNMPv2", RFC1901, January

1996.

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

"Transport Mappings for Version 2 of the Simple Network

Management Protocol (SNMPv2)", RFC1906, January 1996.

[11] Case, J., Harrington D., Presuhn R., and B. Wijnen, "Message

Processing and Dispatching for the Simple Network Management

Protocol (SNMP)", RFC2272, January 1998.

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

for version 3 of the Simple Network Management Protocol

(SNMPv3)", RFC2274, January 1998.

[13] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Protocol

Operations for Version 2 of the Simple Network Management

Protocol (SNMPv2)", RFC1905, January 1996.

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

2273, January 1998.

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

Control Model (VACM) for the Simple Network Management Protocol

(SNMP)", RFC2275, January 1998.

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

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

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

Levels", BCP 14, RFC2119, March 1997.

[18] IBM, Systems Network Architecture Technical Overview, GC30-3073.

[19] IBM, Systems Network Architecture APPN Architecture Reference,

SC30-3422

[20] IBM, Systems Network Architecture Formats, SC30-3346.

[21] Allen, M., Clouston, B., Kielczewski, Z., Kwan, W., and B.

Moore, "Definition of Managed Objects for APPC", RFC2051,

December 1995.

[22] Kielczewski, Z., Kostick D., and K. Shih, "Definition of Managed

Objects for SNA NAUs using SMIv2", RFC1666, August 1994.

[23] Clouston, B., and B. Moore, "Definitions of Managed Objects for

DLUR", RFC2232, November 1996.

[24] Clouston, B., and B. Moore, "Definitions of Managed Objects for

HPR", RFC2238, November 1996.

[25] SNA DLC Services MIB Working Group, Hilgeman, J., Nix, S.,

Bartky, A., and W. Clark, "Definitions of Managed Objects for

SNA Data Link Control (SDLC) using SMIv2", RFC1747, January

1995.

[26] SNA DLC Services MIB Working Group, Berl, S., Nix, S., and W.

Clark, "Definitions of Managed Objects for SNA Data Link

Control: LLC", May 1995.

[27] Chen, D., Gayek, P., and S. Nix, "Definitions of Managed Objects

for Data Link Switching using SNMPv2", RFC2024, October 1995.

[28] IBM, Systems Network Architecture Management Services Formats,

GC31-8302.

[29] Clouston, B., and B. Moore, "Definitions of Managed Objects for

APPN", RFC2155, June 1997.

9. 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. 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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