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RFC1742 - AppleTalk Management Information Base II

王朝other·作者佚名  2008-05-31
窄屏简体版  字體: |||超大  

Network Working Group S. Waldbusser

Request for Comments: 1742 Carnegie Mellon University

Obsoletes: 1243 K. Frisa

Category: Standards Track FORE Systems, Inc.

January 1995

AppleTalk Management Information Base II

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.

Abstract

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

for use with network management protocols in TCP/IP-based internets.

In particular, it defines objects for managing AppleTalk networks.

RFC1243 defines a set of MIB objects for managing the lower layers

of the AppleTalk protocol stack, up to the Network layer. This memo

defines additional objects that exist in the AppleTalk portion of the

MIB. These objects provide for the management of the transport and

session layers of the AppleTalk protocol stack, as well as extensions

to the lower layers. This is achieved in an upwardly-compatable

fashion.

Table of Contents

1. The Network Management Framework ...................... 2

2. Additions and Changes ................................. 3

2.1 New Groups ........................................... 3

2.2 Additional Variables ................................. 3

2.2.1 AARP Additions ..................................... 3

2.2.2 ATPort Additions ................................... 3

2.2.3 DDP Addition ....................................... 3

2.2.4 RTMP Additions ..................................... 4

2.2.5 KIP Addition ....................................... 4

2.2.6 ZIP Additions ...................................... 4

2.2.7 NBP Additions ...................................... 4

2.2.8 ATEcho Additions ................................... 4

2.3 Deprecations ......................................... 4

2.4 Changes .............................................. 5

3. Objects ............................................... 6

3.1 Format of Definitions ................................ 6

4. Overview .............................................. 6

4.1 StrUCture of MIB ..................................... 7

4.2 The LocalTalk Link Access Protocol Group ............. 7

4.3 The AppleTalk Address Resolution Protocol Group ...... 7

4.4 The AppleTalk Port Group ............................. 8

4.5 The Datagram Delivery Protocol Group ................. 8

4.6 The Datagram Delivery Protocol Router Group .......... 8

4.7 The Routing Table Maintenance Protocol Group ......... 8

4.8 The Routing Table Maintenance Protocol Stub Group .... 8

4.9 The Kinetics Internet Protocol Group ................. 8

4.10 The Zone Information Protocol Router Group .......... 9

4.11 The Zone Information Protocol End Node Group ........ 9

4.12 The Name Binding Protocol Group ..................... 9

4.13 The AppleTalk Echo Protocol Group ................... 9

4.14 The AppleTalk Transaction Protocol Group ............ 9

4.15 The Printer Access Protocol Group ................... 9

4.16 The AppleTalk Session Protocol Group ................ 9

4.17 The AppleTalk Data Stream Protocol Group ............ 10

4.18 The AppleTalk Port Point to Point Group ............. 10

4.19 The Per Port Counters Group ......................... 10

4.20 Textual Conventions ................................. 10

5. Definitions ........................................... 11

6. Acknowledgmnts ........................................ 82

7. References ............................................ 83

8. Security Considerations ............................... 84

9. Authors' Addresses .................................... 84

1. The Network Management Framework

The Internet-standard Network Management Framework consists of three

components. They are:

STD 16/RFC1155 which defines the SMI, the mechanisms used for

describing and naming objects for the purpose of management.

STD 16/RFC1212 defines a more concise description mechanism,

which is wholly consistent with the SMI.

RFC1156 which defines MIB-I, the core set of managed objects for

the Internet suite of protocols. STD 17/RFC1213 defines MIB-

II, an evolution of MIB-I based on implementation eXPerience

and new operational requirements.

STD 15/RFC1157 which defines the SNMP, the protocol used for

network access to managed objects.

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

experimentation and evaluation.

2. Additions and Changes

This MIB includes additions and changes to RFC1243. These changes

are outlined in the following sections.

2.1. New Groups

The following groups are introduced in this MIB:

- DDP Router

- RTMP Stub

- ZIP Router

- ATP

- PAP

- ASP

- ADSP

- ATPortPtoP

- Per Port Counters

2.2. Additional Variables

Many variables, mostly counters, were added to groups that existed in

RFC1243. These variables are listed in the following sections.

2.2.1. AARP Additions

aarpStatus

aarpLookups

aarpHits

2.2.2. ATPort Additions

atportNetFrom

atportZoneFrom

atportInPkts

atportOutPkts

atportHome

atportCurrentZone

atportConflictPhysAddr

atportZoneTable

2.2.3. DDP Addition

ddpListenerTable

2.2.4. RTMP Additions

rtmpInDataPkts

rtmpOutDataPkts

rtmpInRequestPkts

rtmpNextIREqualChanges

rtmpNextIRLessChanges

rtmpRouteDeletes

rtmpRoutingTableOverflows

2.2.5. KIP Addition

kipFrom

2.2.6. ZIP Additions

zipNetInfoTable

zipInErrors

2.2.7. NBP Additions

nbpAddress

nbpSocket

nbpEnumerator

nbpInLookUpRequests

nbpInLookUpReplies

nbpInBroadcastRequests

nbpInForwardRequests

nbpOutlookUpReplies

nbpRegistrationFailures

nbpInErrors

2.2.8. ATEcho Additions

atechoOutRequests

atechoInReplies

2.3. Deprecations

The following variables have been deprecated in this version of the

MIB:

llapInPkts

llapOutPkts

llapInNoHandlers

llapInErrors

These llap variables were duplicated in the interfaces table of MIB-

II.

2.4. Changes

The IMPORTS list has been updated to reflect the current SNMP

documents.

New textual conventions have been defined.

Hyphens have been removed from enumeration strings.

Variables used as INDEXes to new tables have ACCESS not-accessible.

This is because the values of the INDEX variables are contained in

the object identifier for any of the other variables in the table;

therefore, it does not need to be explicitly available as data.

The atportNetConfig and atportZoneConfig variables have been changed

from read-only to read-write.

The atportZone variable has be renamed to atportZoneDefault, and its

DESCRIPTION clause has been clarified.

The atportType, atportStatus, and kipType variables have had more

values added to their enumeration lists.

The DDP group has been split into two groups; one includes variables

that any AppleTalk node would implement and the other includes

variables only a router would implement.

The rtmpState variable now includes another enumeration, invalid(5),

which is used when deleting rows.

The variables rtmpRangeStart, rtmpRangeEnd, rtmpNextHop, rtmpType,

rtmpPort, and rtmpHops have been changed from read-write to read-

only.

The ZIP Group has been renamed the ZIP End Node Group.

The DESCRIPTION clause for zipZoneIndex has been clarified.

The variables zipZoneName, zipZoneNetStart, and zipZoneNetEnd have

been changed from read-write to read-only.

The nbpIndex variable has been changed from read-only to read-write.

The nbpObject, nbpType, and nbpZone variables now suggest that the

agent reregister its service when any of these variables is changed.

The nbpState variable includes new enumerations.

3. Objects

Managed objects are accessed via a virtual information store, termed

the Management Information Base or MIB. Objects in the MIB are

defined using the subset of Abstract Syntax Notation One (ASN.1) [7]

defined in the SMI. In particular, each object has a name, a syntax,

and an encoding. The name is an object identifier, an

administratively assigned name, which specifies an object type. The

object type together with an object instance serves to uniquely

identify a specific instantiation of the object. For human

convenience, we often use a textual string, termed the OBJECT

DESCRIPTOR, to also refer to the object type.

The syntax of an object type defines the abstract data structure

corresponding to that object type. The ASN.1 language is used for

this purpose. However, the SMI [3] purposely restricts the ASN.1

constructs which may be used. These restrictions are explicitly made

for simplicity.

The encoding of an object type is simply how that object type is

represented using the object type's syntax. Implicitly tied to the

notion of an object type's syntax and encoding is how the object type

is represented when being transmitted on the network.

The SMI specifies the use of the basic encoding rules of ASN.1 [8],

subject to the additional requirements imposed by the SNMP.

3.1. Format of Definitions

Section 5 contains the specification of all object types contained in

this MIB module. The object types are defined using the conventions

defined in the SMI, as amended by the extensions specified in [9].

4. Overview

AppleTalk is a protocol suite which features an open peer-to-peer

architecture that runs over a variety of transmission media.

AppleTalk is defined in [10]. This protocol suite interoperates with

the IP protocol suite through various encapsulation methods. As

large AppleTalk networks are built that coexist with large IP

networks, a method to manage the AppleTalk networks with SNMP becomes

necessary. This MIB defines managed objects to be used for managing

AppleTalk networks.

4.1. Structure of MIB

The objects are arranged into the following groups:

- LLAP

- AARP

- ATPort

- DDP

- DDP Router

- RTMP

- RTMP Stub

- KIP

- ZIP Router

- ZIP End Node

- NBP

- ATEcho

- ATP

- PAP

- ASP

- ADSP

- ATPortPtoP

- Per Port Counters

These groups are the basic unit of conformance. If the semantics of a

group is applicable to an implementation, then it must implement all

objects in that group. For example, a managed agent must implement

the KIP group if and only if it implements the KIP protocol.

These groups are defined to provide a method for managed agents to

know which objects they must implement.

4.2. The LocalTalk Link Access Protocol Group

The LocalTalk Link Access Protocol (LLAP) is a medium-speed data-link

protocol designed for low cost and plug-and-play operation. The LLAP

group is designed to manage all interfaces on a managed device that

use this protocol.

4.3. The AppleTalk Address Resolution Protocol Group

The AppleTalk Address Resolution Protocol (AARP) is used to map

between AppleTalk node addresses, used by the Datagram Delivery

Protocol, and the addresses of the underlying data link layer. The

AARP table allows for management of the Address Mapping Table on the

managed device.

4.4. The AppleTalk Port Group

An AppleTalk Port is a logical connection to a network over which

AppleTalk packets can be transmitted. The "network" could be a

tunnel, backbone network, point-to-point link, etc, as well as a

native AppleTalk network. This group allows the management of the

configuration of these AppleTalk ports.

4.5. The Datagram Delivery Protocol Group

The Datagram Delivery Protocol (DDP) is the network-layer protocol

that is responsible for the socket-to-socket delivery of datagrams

over the AppleTalk Internet. This group manages the DDP layer on the

managed device.

The DDP group contains statistical counters for the DDP protocol, and

a table describing the DDP sockets that have protocol handlers

registered.

4.6. The Datagram Delivery Protocol Router Group

Some variables relevant to the Datagram Delivery Protocol (DDP) are

only applicable to AppleTalk routers. These variables are included

in this group.

4.7. The Routing Table Maintenance Protocol Group

The Routing Table Maintenance Protocol (RTMP) is used by AppleTalk

routers to create and maintain the routing tables that dictate the

process of forwarding datagrams on the AppleTalk internet. The RTMP

group manages the RTMP protocol as well as the routing tables

generated by this protocol.

4.8. The Routing Table Maintenance Protocol Stub Group

The RTMP Stub process is implemented by end nodes in order to

maintain information about the routers on their networks. The

variables in this group apply to both routers and end nodes. This

group manages the RTMP stub process.

4.9. The Kinetics Internet Protocol Group

The Kinetics Internet Protocol (KIP) is a protocol for encapsulating

and routing AppleTalk datagrams over an IP internet. This name is

historical. The KIP group manages the KIP routing protocol as well

as the routing tables generated by this protocol.

4.10. The Zone Information Protocol Router Group

The Zone Information Protocol (ZIP) is used to maintain a mapping

between networks and zone names to facilitate the name lookup process

performed by the Name Binding Protocol. Some variables relevant to

the Zone Information Protocol (ZIP) are only applicable to AppleTalk

routers. These variables are included in this group.

4.11. The Zone Information Protocol End Node Group

The ZIP End Node group manages the variables relevant to the Zone

Information Protocol (ZIP) that are applicable to both routers and

end nodes.

4.12. The Name Binding Protocol Group

The Name Binding Protocol (NBP) is a transport-level protocol that is

used to convert human readable service names into the numeric

AppleTalk network addresses needed for communicating across the

AppleTalk network. The NBP group manages this protocol and the NBP

services that exist on the managed device.

4.13. The AppleTalk Echo Protocol Group

The AppleTalk Echo Protocol is a transport-level protocol used to

test and verify the status of the AppleTalk internet. The AtEcho

group manages this protocol.

4.14. The AppleTalk Transaction Protocol Group

The AppleTalk Transaction Protocol (ATP) is a transport-level

protocol that is defined to support transaction based communications.

The ATP group manages this protocol.

4.15. The Printer Access Protocol Group

The Printer Access Protocol (PAP) is a session-level protocol that

enables communications between workstations and print servers. The

PAP group manages this protocol.

4.16. The AppleTalk Session Protocol Group

The AppleTalk Session Protocol (ASP) is a session-level protocol that

enables sequences of communications to occur. ASP uses the services

of the AppleTalk Transaction Protocol (ATP), but extends these

services into the session layer. The ASP group manages this

protocol.

4.17. The AppleTalk Data Stream Protocol Group

The AppleTalk Data Stream Protocol (ADSP) is a session-level protocol

that provides symmetric, connection-oriented, full-duplex

communication between two sockets on the AppleTalk internet. In

addition, ADSP handles flow-control and reliability. The ADSP group

manages this protocol.

4.18. The AppleTalk Port Point to Point Group

The AppleTalk Port Point to Point Group manages ports that have one

or more associated point-to-point connections.

4.19. The Per Port Counters Group

The Per Port Counters Group contains a set of counters which are

deemed useful on a per port basis.

4.20. Textual Conventions

New data types are introduced as textual conventions in this MIB

document. These textual conventions enhance the readability of the

specification and can ease comparison with other specifications if

appropriate. It should be noted that the introduction of these

textual conventions has no effect on either the syntax or the

semantics of any managed objects. The use of this is merely an

artifact of the explanatory method used. Objects defined in terms of

this method are always encoded by means of the rules that define the

primitive type. Hence, no changes to the SMI or the SNMP are

necessary to accommodate these textual conventions which are adopted

merely for the convenience of readers and writers in pursuit of the

elusive goal of clear, concise, and unambiguous MIB documents.

The new data types are:

ATNetworkNumber ::= -- 2 octets of network

-- number in network

-- byte order

OCTET STRING (SIZE (2))

DdpNodeAddress ::= -- 2 octets of net number

-- in network byte order,

-- 1 octet of node number

OCTET STRING (SIZE (3))

DdpSocketAddress ::= -- 2 octets of net number

-- in network byte order,

-- 1 octet of node number,

-- 1 octet of socket

-- number (0..255)

OCTET STRING (SIZE (4))

ATName ::= -- 0 to 32 octets of

-- AppleTalk ASCII [10]

OCTET STRING (SIZE (0..32))

5. Definitions

APPLETALK-MIB DEFINITIONS ::= BEGIN

IMPORTS

Counter, IpAddress, TimeTicks

FROM RFC1155-SMI

DisplayString, mib-2

FROM RFC1213-MIB

OBJECT-TYPE

FROM RFC-1212;

-- This MIB module uses the extended OBJECT-TYPE macro as

-- defined in RFC-1212.

-- The following reference is used in this MIB:

-- [Inside AppleTalk]

-- This refers to Gursharan S. Sidhu, Richard F. Andrews, and

-- Alan B. Oppenheimer, Inside AppleTalk, Second Edition,

-- Addison Wesley, (1990).

-- AppleTalk MIB

appletalk OBJECT IDENTIFIER ::= { mib-2 13 }

ATNetworkNumber ::= -- 2 octets of net number

-- in network byte order

OCTET STRING (SIZE (2))

DdpNodeAddress ::= -- 2 octets of net number

-- in network byte order,

-- 1 octet of node number

OCTET STRING (SIZE (3))

DdpSocketAddress ::= -- 2 octets of net number

-- in network byte order,

-- 1 octet of node number,

-- 1 octet of socket number

-- (0..255)

OCTET STRING (SIZE (4))

ATName ::= -- 0 to 32 octets of AppleTalk

-- ASCII [Inside AppleTalk]

OCTET STRING (SIZE (0..32))

llap OBJECT IDENTIFIER ::= { appletalk 1 }

aarp OBJECT IDENTIFIER ::= { appletalk 2 }

atport OBJECT IDENTIFIER ::= { appletalk 3 }

ddp OBJECT IDENTIFIER ::= { appletalk 4 }

rtmp OBJECT IDENTIFIER ::= { appletalk 5 }

kip OBJECT IDENTIFIER ::= { appletalk 6 }

zipRouter OBJECT IDENTIFIER ::= { appletalk 7 }

nbp OBJECT IDENTIFIER ::= { appletalk 8 }

atecho OBJECT IDENTIFIER ::= { appletalk 9 }

atp OBJECT IDENTIFIER ::= { appletalk 10 }

pap OBJECT IDENTIFIER ::= { appletalk 11 }

asp OBJECT IDENTIFIER ::= { appletalk 12 }

adsp OBJECT IDENTIFIER ::= { appletalk 13 }

atportptop OBJECT IDENTIFIER ::= { appletalk 14 }

rtmpStub OBJECT IDENTIFIER ::= { appletalk 16 }

zipEndNode OBJECT IDENTIFIER ::= { appletalk 17 }

perPort OBJECT IDENTIFIER ::= { appletalk 18 }

-- The LLAP Group

--

-- Implementation of this group is mandatory for all

-- entities that implement LLAP

--

-- Notes for the interfaces group

--

-- When implementing the Interfaces Group of MIB-II, it is

-- suggested that the following values be used for any

-- LocalTalk interfaces:

-- ifMtu: 600

-- ifSpeed: 230000

-- ifPhysAddress: the one octet node number for the

-- particular interface

--

-- Note also that LLAP control packets should not be

-- included in the Interfaces Group packet or octet

-- counters.

llapTable OBJECT-TYPE

SYNTAX SEQUENCE OF LlapEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The list of LLAP entries."

::= { llap 1 }

llapEntry OBJECT-TYPE

SYNTAX LlapEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"An LLAP entry containing objects for the LocalTalk

Link Access Protocol for a particular LocalTalk

interface.

As an example, an instance of the llapOutPkts object

might be named llapOutPks.1"

INDEX { llapIfIndex }

::= { llapTable 1 }

LlapEntry ::= SEQUENCE {

llapIfIndex INTEGER,

llapInPkts Counter,

llapOutPkts Counter,

llapInNoHandlers Counter,

llapInLengthErrors Counter,

llapInErrors Counter,

llapCollisions Counter,

llapDefers Counter,

llapNoDataErrors Counter,

llapRandomCTSErrors Counter,

llapFCSErrors Counter

}

llapIfIndex OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The LLAP interface to which this entry pertains.

The interface identified by a particular value of

this index is the same interface as identified

by the same value of ifIndex."

::= { llapEntry 1 }

-- this object has been deprecated because it duplicates the

-- sum of the MIB-II variables ifInUcastPkts and

-- ifInNUcastPkts

llapInPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS deprecated

DESCRIPTION

"The total number of good data packets received on

this LocalTalk interface."

::= { llapEntry 2 }

-- this object has been deprecated because it duplicates the

-- sum of the MIB-II variables ifOutUcastPkts and

-- ifOutNUcastPkts

llapOutPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS deprecated

DESCRIPTION

"The total number of data packets transmitted on

this LocalTalk interface."

::= { llapEntry 3 }

-- this object has been deprecated because it duplicates the

-- MIB-II variable ifInUnknownProtos

llapInNoHandlers OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS deprecated

DESCRIPTION

"The total number of good packets received on this

LocalTalk interface for which there was no protocol

handler."

::= { llapEntry 4 }

llapInLengthErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of packets received on this LocalTalk

interface whose actual length did not match the length

in the header."

::= { llapEntry 5 }

-- this object has been deprecated because it duplicates the

-- MIB-II variable ifInErrors

llapInErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS deprecated

DESCRIPTION

"The total number of packets containing errors received

on this LocalTalk interface."

::= { llapEntry 6 }

llapCollisions OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of collisions assumed on this

LocalTalk interface due to the lack of a lapCTS reply."

::= { llapEntry 7 }

llapDefers OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of times this LocalTalk interface

deferred to other packets."

::= { llapEntry 8 }

llapNoDataErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of times this LocalTalk interface

received a lapRTS packet and expected a data packet,

but did not receive any data packet."

::= { llapEntry 9 }

llapRandomCTSErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of times this LocalTalk interface

received a lapCTS packet that was not solicited by a

lapRTS packet."

::= { llapEntry 10 }

llapFCSErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of times this LocalTalk interface

received a packet with an FCS (Frame Check Sequence)

error."

::= { llapEntry 11 }

-- The AARP Group

--

-- Implementation of this group is mandatory for all entities

-- that implement AARP

aarpTable OBJECT-TYPE

SYNTAX SEQUENCE OF AarpEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The AppleTalk Address Translation Table contains an

equivalence of AppleTalk Network Addresses to the link

layer physical address."

::= { aarp 1 }

aarpEntry OBJECT-TYPE

SYNTAX AarpEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"Each entry contains one AppleTalk Network Address to

physical address equivalence.

As an example, an instance of the aarpPhysAddress

object might be named aarpPhysAddress.1.0.80.234"

INDEX { aarpIfIndex, aarpNetAddress }

::= { aarpTable 1 }

AarpEntry ::= SEQUENCE {

aarpIfIndex INTEGER,

aarpPhysAddress OCTET STRING,

aarpNetAddress DdpNodeAddress,

aarpStatus INTEGER

}

aarpIfIndex OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The interface on which this entry's equivalence is

effective. The interface identified by a particular

value of this index is the same interface as

identified by the same value of ifIndex."

::= { aarpEntry 1 }

aarpPhysAddress OBJECT-TYPE

SYNTAX OCTET STRING

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The media-dependent physical address."

::= { aarpEntry 2 }

aarpNetAddress OBJECT-TYPE

SYNTAX DdpNodeAddress

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The AppleTalk Network Address corresponding to the

media-dependent physical address."

::= { aarpEntry 3 }

aarpStatus OBJECT-TYPE

SYNTAX INTEGER {

valid(1),

invalid(2)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The status of this AARP entry.

Setting this object to the value invalid(2) has the

effect of invalidating the corresponding entry in the

aarpTable. That is, it effectively disassociates

the mapping identified with said entry. It is an

implementation-specific matter as to whether the agent

removes an invalidated entry from the table.

Accordingly, management stations must be prepared to

receive from agents tabular information corresponding

to entries not currently in use. Proper

interpretation of such entries requires examination

of the relevant aarpStatus object."

::= { aarpEntry 4 }

aarpLookups OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the AARP cache for this entity

was searched."

::= { aarp 2 }

aarpHits OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times an entry was searched for and

found in the AARP cache for this entity."

::= { aarp 3 }

-- The ATPort Group

--

-- Implementation of this group is mandatory for all entities

-- that implement AppleTalk ports

--

-- Note that to be compliant with this group, all variables

-- that have read-write access must be implemented as

-- read-write.

atportTable OBJECT-TYPE

SYNTAX SEQUENCE OF AtportEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A list of AppleTalk ports for this entity."

::= { atport 1 }

atportEntry OBJECT-TYPE

SYNTAX AtportEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The description of one of the AppleTalk

ports on this entity.

As an example, an instance of the atportNetFrom object

might be named atportNetFrom.2"

INDEX { atportIndex }

::= { atportTable 1 }

AtportEntry ::= SEQUENCE {

atportIndex INTEGER,

atportDescr DisplayString,

atportType INTEGER,

atportNetStart ATNetworkNumber,

atportNetEnd ATNetworkNumber,

atportNetAddress DdpNodeAddress,

atportStatus INTEGER,

atportNetConfig INTEGER,

atportZoneConfig INTEGER,

atportZoneDefault ATName,

atportIfIndex INTEGER,

atportNetFrom DdpNodeAddress,

atportZoneFrom DdpNodeAddress,

atportInPkts Counter,

atportOutPkts Counter,

atportHome INTEGER,

atportCurrentZone ATName,

atportConflictPhysAddr OCTET STRING

}

atportIndex OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A unique value for each AppleTalk port.

Its value is between 1 and the total number of

AppleTalk ports. The value for each port must

remain constant at least from the re-initialization

of the entity's network management system to the

next re-initialization."

::= { atportEntry 1 }

atportDescr OBJECT-TYPE

SYNTAX DisplayString

ACCESS read-write

STATUS mandatory

DESCRIPTION

"A text string containing information about the

port. This string is intended for presentation

to a human; it must not contain anything but printable

ASCII characters."

::= { atportEntry 2 }

-- Several objects throughout the MIB key off of atportType to

-- determine the format of OCTET STRING addresses of peers.

-- The address formats are as follows:

-- localtalk, ethertalk1, ethertalk2, tokentalk, iptalk,

-- fdditalk, smdstalk, arctalk, and virtual take the

-- format of DdpNodeAddress

-- serialPPP: null OCTET STRING

-- serialNonstandard: vendor specific

-- aurp: see AURP MIB to determine format

-- frameRelay: 32 bit DLCI in network byte order

-- (OCTET STRING (SIZE (4)))

-- x25: X121Address (see RFC1382)

-- ip: IP address (OCTET STRING (SIZE (4)))

-- osi: NSAP (OCTET STRING (SIZE (3..20)))

-- decnetIV: 6 bit area, 10 bit host in network byte order

-- (OCTET STRING (SIZE (2)))

-- arap: ???

-- nonAppleTalk3Com: based on ifType

-- ipx: 32 bit network number in network byte order

-- followed by datalink address of host

-- arns: 32 bit ARNS header

-- hdlc: DdpNodeAddress or null OCTET STRING

atportType OBJECT-TYPE

SYNTAX INTEGER {

other(1), -- none of the following

localtalk(2),

ethertalk1(3),

ethertalk2(4),

tokentalk(5),

iptalk(6),

serialPPP(7),

serialNonstandard(8),

virtual(9), -- an internal interface

fdditalk(10),

arctalk(11),

smdstalk(12),

aurp(13),

frameRelay(14),

x25(15),

ip(16),

osi(17),

decnetIV(18),

arap(19),

isdnInThePacketMode(20),

nonAppleTalk3Com(21),

ipx(22),

arns(23),

hdlc(24)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The type of port, distinguished by the protocol

immediately below DDP in the protocol stack."

::= { atportEntry 3 }

atportNetStart OBJECT-TYPE

SYNTAX ATNetworkNumber

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The first AppleTalk network address in the range

configured for this port. If this port is not a

native AppleTalk port, this object shall have the

value of two octets of zero."

::= { atportEntry 4 }

atportNetEnd OBJECT-TYPE

SYNTAX ATNetworkNumber

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The last AppleTalk network address in the range

configured for this port. If the network to which

this AppleTalk port is connected is a non-extended

network, or if it is not a native AppleTalk port,

the value for atportNetEnd shall be two octets of

zero."

::= { atportEntry 5 }

atportNetAddress OBJECT-TYPE

SYNTAX DdpNodeAddress

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The AppleTalk network address configured for this

port. In addition, this value may be used as a hint

for an initial node number used during node-finding.

If this port is not a native AppleTalk port, this

object shall have the value of three octets of zero."

::= { atportEntry 6 }

atportStatus OBJECT-TYPE

SYNTAX INTEGER {

routing(1), --this port is fully configured & routing

unconfigured(2),

off(3),

invalid(4),

endNode(5), -- this port is acting as an end node

offDueToConflict(6), -- port is off due to

-- configuration conflict

other(7) -- none of the states defined above

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The configuration status of this port.

Setting this object to the value invalid(4) has the

effect of invalidating the corresponding entry in the

atportTable. That is, it effectively disassociates the

mapping identified with said entry. It is an

implementation-specific matter as to whether the agent

removes an invalidated entry from the table.

Accordingly, management stations must be prepared to

receive from agents tabular information corresponding

to entries not currently in use. Proper

interpretation of such entries requires examination

of the relevant atportStatus object."

::= { atportEntry 7 }

atportNetConfig OBJECT-TYPE

SYNTAX INTEGER {

conflictOrientedSeed(1), -- use configured network

-- range even if it conflicts with another

-- AppleTalk device

garnered(2), -- acquire from another AppleTalk device

guessed(3), -- generate a "random" network range

unconfigured(4), -- no other value applies

conflictAverseSeed(5), -- use configured network

-- range, but don't come up if it conflicts

softSeed(6) -- attempt to use configured network

-- range, but use network range from another

-- router if our configuration conflicts

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The status of the network information for this port.

If this port is not a native AppleTalk port, this

object shall have the value unconfigured(4)."

::= { atportEntry 8 }

atportZoneConfig OBJECT-TYPE

SYNTAX INTEGER {

conflictOrientedSeed(1), -- use configured zone

-- information even if it conflicts with

-- another AppleTalk device

garnered(2), -- acquire from another AppleTalk device

guessed(3), -- generate "random" zone information

unconfigured(4), -- no other value applies

conflictAverseSeed(5), -- use configured zone

-- information, but don't come up if it

-- conflicts

softSeed(6) -- attempt to use configured zone

-- information, but use zone information

-- from another router if our configuration

-- conflicts

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The status of the zone information for this port.

If this port is not a native AppleTalk port, this

object shall have the value unconfigured(4)."

::= { atportEntry 9 }

atportZoneDefault OBJECT-TYPE

SYNTAX ATName

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The name of the default zone for this port. If

this port only has one zone, that zone is

represented here. If this port is not a native

AppleTalk port, this object shall contain an octet

string of zero length.

When this value is changed in a router, the router

must send a zipNotify packet on the associated

network."

::= { atportEntry 10 }

atportIfIndex OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The physical interface associated with this

AppleTalk port. The interface identified by a

particular value of this index is the same interface

as identified by the same value of ifIndex."

::= { atportEntry 11 }

atportNetFrom OBJECT-TYPE

SYNTAX DdpNodeAddress

ACCESS read-only

STATUS mandatory

DESCRIPTION

"When atportNetConfig is set to garnered(2), this

variable contains the DDP address of an entity from

which the AppleTalk network number was garnered.

When atportNetConfig is set to

conflictOrientedSeed(1), conflictAverseSeed(5),

or softSeed(6), this variable contains the DDP

address of an entity which confirmed or supplied our

AppleTalk network number, for example by replying to

a ZIP GetNetInfo request.

If atportNetConfig is set to guessed(3) or

unconfigured(4), or if the entity has not received

any network number confirmation, this variable

should be set to three octets of zero."

::= { atportEntry 12 }

atportZoneFrom OBJECT-TYPE

SYNTAX DdpNodeAddress

ACCESS read-only

STATUS mandatory

DESCRIPTION

"When atportZoneConfig is set to garnered(2), this

variable contains the DDP address of an entity from

which the AppleTalk zone list was garnered.

When atportZoneConfig is set to

conflictOrientedSeed(1), conflictAverseSeed(5), or

softSeed(6), this variable contains the DDP address

of an entity which confirmed or supplied our

AppleTalk zone information, for example by replying

to a ZIP GetNetInfo request or a ZIP Query.

If atportZoneConfig is set to guessed(3) or

unconfigured(4), or if the entity has not received

any zone confirmation, this variable should be set

to three octets of zero."

::= { atportEntry 13 }

atportInPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of packets received by this entity on

this port."

::= { atportEntry 14 }

atportOutPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of packets transmitted by this entity on

this port."

::= { atportEntry 15 }

atportHome OBJECT-TYPE

SYNTAX INTEGER {

home(1),

notHome(2)

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"An indication of whether or not the entity is

homed on this port, that is to say, a port on which

the entity could perform NBP registrations for

services that it chooses to advertise."

::= { atportEntry 16 }

atportCurrentZone OBJECT-TYPE

SYNTAX ATName

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The current zone for the port. In general, this is

the zone name in which services on this port will

be registered. If this port is not a native

AppleTalk port, this object shall contain an octet

string of zero length. Note that modifications to

this object do not affect the nbpTable."

::= { atportEntry 17 }

atportConflictPhysAddr OBJECT-TYPE

SYNTAX OCTET STRING

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The link-layer address of a device which caused

this entity to set atportStatus to

offDueToConflict(6). If this address is not

available, or if the entity has not set atportStatus

to offDueToConflict, this object shall be a zero

length OCTET STRING."

::= { atportEntry 18 }

-- The atportZoneTable stores information about the zones

-- associated with each port. The default zone for each

-- port is stored in the port's atportZoneDefault variable;

-- all other zones for the port are listed in this table.

-- If a port only has one zone, it should be stored in the

-- port's atportZoneDefault variable, and this table should

-- be empty.

--

-- One of the indexes for this table is atportZoneName.

-- Even though AppleTalk zone name matches are

-- case-insensitive, this table will store zone names

-- regardless of case. SNMP Get, GetNext and Set operations

-- are performed on these (potentially) mixed case strings

-- according to the normal SNMP rules with the following

-- caveat: in processing a SET request, the agent shall

-- perform a case-insensitive search and a case-sensitive

-- search. If the case-insensitive search matches and the

-- case-sensitive search does not match, the "equivalent"

-- zone name exists in another entry with a different

-- capitalization and the SET request shall fail due

-- to the name being inconsistent (SNMPv1 should return a

-- genErr.) This insures that only one version of a zone

-- name will appear in each agent, at the expense of forcing

-- a management station to query using that exact name.

atportZoneTable OBJECT-TYPE

SYNTAX SEQUENCE OF AtportZoneEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The table of zone information for non-default

zones on ports."

::= { atport 2 }

atportZoneEntry OBJECT-TYPE

SYNTAX AtportZoneEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"An entry of zone information for a port.

As an example, an instance of the atportZoneStatus

object might be named

atportZoneStatus.2.8.84.119.105.108.105.103.104.116"

INDEX { atportZonePort, atportZoneName }

::= { atportZoneTable 1 }

AtportZoneEntry ::= SEQUENCE {

atportZonePort INTEGER,

atportZoneName ATName (SIZE (1..32)),

atportZoneStatus INTEGER

}

atportZonePort OBJECT-TYPE

SYNTAX INTEGER

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"An integer representing the port to which this zone

belongs. The port identified by a particular value

of this object is the same port as identified by the

same value of atportIndex."

::= { atportZoneEntry 1 }

atportZoneName OBJECT-TYPE

SYNTAX ATName (SIZE (1..32))

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A zone name configured for the AppleTalk port

referred to in the corresponding entry of

atportZonePort.

When this value is changed in a router, the router

must send a zipNotify packet on the associated

network."

::= { atportZoneEntry 2 }

atportZoneStatus OBJECT-TYPE

SYNTAX INTEGER {

valid(1),

invalid(2)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The status of this zone entry.

Setting this object to the value invalid(2) has the

effect of invalidating the corresponding entry in

the atportZoneTable. That is, it effectively

disassociates the mapping identified with said

entry. It is an implementation-specific matter as

to whether the agent removes an invalidated entry

from the table. Accordingly, management stations

must be prepared to receive from agents tabular

information corresponding to entries not currently

in use. Proper interpretation of such entries

requires examination of the relevant

atportZoneStatus object."

::= { atportZoneEntry 3 }

-- The DDP Group

--

-- Implementation of this group is mandatory for all

-- entities that implement DDP

--

-- This group consists of DDP variables that would be

-- implemented by either a router or an end node. The

-- following variables are included:

-- ddpOutRequests

-- ddpOutShorts

-- ddpOutLongs

-- ddpInReceives

-- ddpInLocalDatagrams

-- ddpNoProtocolHandlers

-- ddpTooShortErrors

-- ddpTooLongErrors

-- ddpShortDDPErrors

-- ddpChecksumErrors

-- ddpListenerTable

--

-- Note that the variables in this group are not numbered

-- sequentially. This was done so that it was not necessary

-- to deprecate variables from RFC1243.

ddpOutRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of DDP datagrams which were

supplied to DDP by local DDP clients in requests for

transmission. Note that this counter does not

include any datagrams counted in ddpForwRequests."

::= { ddp 1 }

ddpOutShorts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of short DDP datagrams which were

transmitted from this entity."

::= { ddp 2 }

ddpOutLongs OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of long DDP datagrams which were

transmitted from this entity."

::= { ddp 3 }

ddpInReceives OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input datagrams received by

DDP, including those received in error."

::= { ddp 4 }

ddpInLocalDatagrams OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input DDP datagrams for which

this

entity was their final DDP destination."

::= { ddp 6 }

ddpNoProtocolHandlers OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of DDP datagrams addressed to this

entity that were addressed to an upper layer protocol

for which no protocol handler existed."

::= { ddp 7 }

ddpTooShortErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input DDP datagrams dropped

because the received data length was less than the

data length specified in the DDP header or the

received data length was less than the length of the

expected DDP header."

::= { ddp 9 }

ddpTooLongErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input DDP datagrams dropped

because they exceeded the maximum DDP datagram

size."

::= { ddp 10 }

ddpShortDDPErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input DDP datagrams dropped

because this entity was not their final destination

and their type was short DDP."

::= { ddp 12 }

ddpChecksumErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input DDP datagrams for which

this DDP entity was their final destination, and

which were dropped because of a checksum error."

::= { ddp 14 }

ddpListenerTable OBJECT-TYPE

SYNTAX SEQUENCE OF DdpListenerEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The ddpListenerTable stores information for each

DDP socket that has a listener."

::= { ddp 15 }

ddpListenerEntry OBJECT-TYPE

SYNTAX DdpListenerEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"This ddpListenerEntry contains information about a

particular socket that has a socket listener.

As an example, an instance of the ddpListenerStatus

object might be named ddpListenerStatus.0.80.220.1"

INDEX { ddpListenerAddress }

::= { ddpListenerTable 1 }

DdpListenerEntry ::= SEQUENCE {

ddpListenerAddress DdpSocketAddress,

ddpListenerInPkts Counter,

ddpListenerStatus INTEGER

}

ddpListenerAddress OBJECT-TYPE

SYNTAX DdpSocketAddress

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The DDP address that this socket listener is bound

to. If this socket listener isn't bound to a

particular address, for instance if it is intended

for all interfaces, this object shall have the value

of three octets of zero followed by one octet of

socket number. The socket number must not equal

zero."

::= { ddpListenerEntry 1 }

ddpListenerInPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of packets received for this listener."

::= { ddpListenerEntry 2 }

ddpListenerStatus OBJECT-TYPE

SYNTAX INTEGER {

valid(1),

invalid(2)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The status of this socket listener.

Setting this object to the value invalid(2) has the

effect of invalidating the corresponding entry in the

ddpListenerTable. That is, it effectively

disassociates the mapping identified with said

entry. It is an implementation-specific matter as

to whether the agent removes an invalidated entry

from the table. Accordingly, management stations

must be prepared to receive from agents tabular

information corresponding to entries not currently

in use. Proper interpretation of such entries

requires examination of the relevant

ddpListenerStatus object."

::= { ddpListenerEntry 3 }

-- The DDP Router Group

--

-- Implementation of this group is required for all routers

-- which implement DDP

--

-- This group consists of DDP variables that only a router

-- would implement. The following variables are included:

-- ddpForwRequests

-- ddpOutNoRoutes

-- ddpBroadcastErrors

-- ddpHopCountErrors

-- ddpForwardingTable

--

-- Note that the variables in this group are not numbered

-- sequentially. This was done so that variables from

-- RFC1243 did not need to be deprecated.

ddpForwRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of input datagrams for which this entity

was not their final DDP destination, as a result of

which an attempt was made to find a route to forward

them to that final destination."

::= { ddp 5 }

ddpOutNoRoutes OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of DDP datagrams dropped because a

route could not be found to their final destination."

::= { ddp 8 }

ddpBroadcastErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input DDP datagrams dropped

because this entity was not their final destination

and they were addressed to the link level broadcast."

::= { ddp 11 }

ddpHopCountErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input DDP datagrams dropped

because this entity was not their final destination

and their hop count would exceed 15."

::= { ddp 13 }

-- The ddpForwardingTable is a read-only table which shows the

-- next hop that a datagram will take when being routed to a

-- specific network. If a manager wishes to change data in

-- this table via SNMP, he must change it in the MIB for the

-- routing protocol itself (by incrementing hop counts,

-- etc), rather than in this table. This table is derived

-- by the managed entity from the information it receives

-- from the routing protocols that it supports.

--

-- This table also shows the routing table from which the next

-- hop was derived. When a MIB is written for an AppleTalk

-- routing protocol, it should include the definition of an

-- object identifier which will be used in the

-- ddpForwardingProto variable defined here. (For example,

-- a value for RTMP is defined as { ddp-forw-proto-oids 1 }

-- below.)

--

-- To look for a specific net N in this table, it is suggested

-- that the management station perform a get-next query for

-- ddpForwardingNetEnd.(N-1). This will retrieve the correct

-- row if it exists in the table.

ddpForwardingTable OBJECT-TYPE

SYNTAX SEQUENCE OF DdpForwardingEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A table of forwarding entries for DDP. This table

contains a route for each AppleTalk network currently

known to the entity."

::= { ddp 16 }

ddpForwardingEntry OBJECT-TYPE

SYNTAX DdpForwardingEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A forwarding entry for a particular AppleTalk

network.

As an example, an instance of the ddpForwardingPort

object might be named ddpForwardingPort.0.90"

INDEX { ddpForwardingNetEnd }

::= { ddpForwardingTable 1 }

DdpForwardingEntry ::= SEQUENCE {

ddpForwardingNetEnd ATNetworkNumber,

ddpForwardingNetStart ATNetworkNumber,

ddpForwardingNextHop OCTET STRING,

ddpForwardingProto OBJECT IDENTIFIER,

ddpForwardingModifiedTime TimeTicks,

ddpForwardingUseCounts Counter,

ddpForwardingPort INTEGER

}

ddpForwardingNetEnd OBJECT-TYPE

SYNTAX ATNetworkNumber

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The last network number in the network range

matched by this forwarding entry. This will not be

zero even if this corresponds to a non-extended

net."

::= { ddpForwardingEntry 1 }

ddpForwardingNetStart OBJECT-TYPE

SYNTAX ATNetworkNumber

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The first network number in the network range

matched by this forwarding entry."

::= { ddpForwardingEntry 2 }

ddpForwardingNextHop OBJECT-TYPE

SYNTAX OCTET STRING

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The next hop in the route to this entry's

destination network. The format of this address can

be determined by examinating the atportType

corresponding to this entry."

::= { ddpForwardingEntry 3 }

ddpForwardingProto OBJECT-TYPE

SYNTAX OBJECT IDENTIFIER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The routing mechanism by which this route was

learned."

::= { ddpForwardingEntry 4 }

ddpForwardingModifiedTime OBJECT-TYPE

SYNTAX TimeTicks

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of sysUpTime at the time of the last

modification to this entry. The initial value of

ddpForwardingModified time shall be the value of

sysUpTime at the time the entry is created."

::= { ddpForwardingEntry 5 }

ddpForwardingUseCounts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times this entry has been used to

route a packet to the destination network. Note

that this counter is not cleared when the

corresponding ddpForwardingNextHop variable

changes."

::= { ddpForwardingEntry 6 }

ddpForwardingPort OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The AppleTalk port through which

ddpForwardingNextHop is reached. The interface

identified by a particular value of this variable is

the same interface as identified by the same value

of atportIndex."

::= { ddpForwardingEntry 7 }

ddpForwProtoOids OBJECT IDENTIFIER ::= { ddp 17 }

-- The value to be assigned to ddpForwardingProto when the

-- routing protocol is RTMP.

rtmpRoutingProto OBJECT IDENTIFIER ::= { ddpForwProtoOids 1 }

-- The value to be assigned to ddpForwardingProto when the

-- routing protocol is KIP.

kipRoutingProto OBJECT IDENTIFIER ::= { ddpForwProtoOids 2 }

ddpForwardingTableOverflows OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the entity attempted to add an

entry to the forwarding table but failed due to

overflow."

::= { ddp 18 }

-- The RTMP Group

--

-- Implementation of this group is required for all routers

-- which implement RTMP

rtmpTable OBJECT-TYPE

SYNTAX SEQUENCE OF RtmpEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A list of Routing Table Maintenance Protocol

entries for this entity."

::= { rtmp 1 }

rtmpEntry OBJECT-TYPE

SYNTAX RtmpEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The route entry to a particular network range.

As an example, an instance of the rtmpPort object

might be named rtmpPort.0.80"

INDEX { rtmpRangeStart }

::= { rtmpTable 1 }

RtmpEntry ::= SEQUENCE {

rtmpRangeStart ATNetworkNumber,

rtmpRangeEnd ATNetworkNumber,

rtmpNextHop OCTET STRING,

rtmpType INTEGER,

rtmpPort INTEGER,

rtmpHops INTEGER,

rtmpState INTEGER

}

rtmpRangeStart OBJECT-TYPE

SYNTAX ATNetworkNumber

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The first DDP network address in the network range

to which this routing entry pertains. This is a two

octet DDP network address in network byte order."

::= { rtmpEntry 1 }

rtmpRangeEnd OBJECT-TYPE

SYNTAX ATNetworkNumber

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The last DDP network address in the network range

to which this routing entry pertains. This is a two

octet DDP network address in network byte order. If

the network to which this routing entry pertains is

a non-extended network, the value for rtmpRangeEnd

shall be two octets of zero."

::= { rtmpEntry 2 }

rtmpNextHop OBJECT-TYPE

SYNTAX OCTET STRING

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The next internet router in the route to this

entry's destination network. The format of this

address can be determined by examinating the

atportType corresponding to this entry."

::= { rtmpEntry 3 }

rtmpType OBJECT-TYPE

SYNTAX INTEGER {

other(1),

appletalk(2),

serialPPP(3),

serialNonstandard(4)

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The type of network over which this route points."

::= { rtmpEntry 4 }

rtmpPort OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The AppleTalk port over which this route points.

The interface identified by a particular value of

this variable is the same interface as identified by

the same value of atportIndex."

::= { rtmpEntry 5 }

rtmpHops OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of hops required to reach the

destination network to which this routing entry

pertains."

::= { rtmpEntry 6 }

rtmpState OBJECT-TYPE

SYNTAX INTEGER {

good(1),

suspect(2),

badZero(3),

badOne(4),

invalid(5)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The status of the information contained in this

route entry.

Setting this object to the value invalid(5) has the

effect of invalidating the corresponding entry in

the rtmpTable. That is, it effectively

disassociates the mapping identified with said

entry. It is an implementation-specific matter as

to whether the agent removes an invalidated entry

from the table. Accordingly, management stations

must be prepared to receive from agents tabular

information corresponding to entries not currently

in use. Proper interpretation of such entries

requires examination of the relevant rtmpState

object."

::= { rtmpEntry 7 }

rtmpInDataPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of good RTMP data packets

received by this entity."

::= { rtmp 2 }

rtmpOutDataPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of RTMP packets sent by this

entity."

::= { rtmp 3 }

rtmpInRequestPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of good RTMP Request packets

received by this entity."

::= { rtmp 4 }

rtmpNextIREqualChanges OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of times RTMP changes the

Next Internet Router in a routing entry because the

hop count advertised in a routing tuple was equal to

the current hop count for a particular network."

::= { rtmp 5 }

rtmpNextIRLessChanges OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of times RTMP changes the

Next Internet Router in a routing entry because the

hop count advertised in a routing tuple was less

than the current hop count for a particular network."

::= { rtmp 6 }

rtmpRouteDeletes OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of times RTMP deletes a route

because it was aged out of the table. This can help

to detect routing problems."

::= { rtmp 7 }

rtmpRoutingTableOverflows OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times RTMP attempted to add a route

to the RTMP table but failed due to lack of space."

::= { rtmp 8 }

-- The RTMP Stub Group

--

-- Implementation of this group is mandatory for all

-- entities that implement RTMP

--

-- It is intended that this group be implemented by routers

-- and end nodes.

rtmpOutRequestPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of RTMP Request packets sent

by this entity."

::= { rtmpStub 1 }

rtmpInVersionMismatches OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of RTMP packets received by

this entity that were rejected due to a version

mismatch."

::= { rtmpStub 2 }

rtmpInErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of RTMP packets received by

this entity that were rejected for an error other

than version mismatch."

::= { rtmpStub 3 }

-- The KIP Group

--

-- Implementation of this group is mandatory for all

-- entities that implement KIP

kipTable OBJECT-TYPE

SYNTAX SEQUENCE OF KipEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The table of routing information for KIP networks."

::= { kip 1 }

kipEntry OBJECT-TYPE

SYNTAX KipEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"An entry in the routing table for KIP networks.

As an example, an instance of the kipCore object

might be named kipCore.0.80"

INDEX { kipNetStart }

::= { kipTable 1 }

KipEntry ::= SEQUENCE {

kipNetStart ATNetworkNumber,

kipNetEnd ATNetworkNumber,

kipNextHop IpAddress,

kipHopCount INTEGER,

kipBCastAddr IpAddress,

kipCore INTEGER,

kipType INTEGER,

kipState INTEGER,

kipShare INTEGER,

kipFrom IpAddress

}

kipNetStart OBJECT-TYPE

SYNTAX ATNetworkNumber

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The first AppleTalk network address in the range

for this routing entry. This address is a two octet

DDP network address in network byte order."

::= { kipEntry 1 }

kipNetEnd OBJECT-TYPE

SYNTAX ATNetworkNumber

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The last AppleTalk network address in the range for

this routing entry. This address is a two octet DDP

network address in network byte order. If the

network to which this AppleTalk port is connected is

a non-extended network, the value for kipNetEnd

shall be two octets of zero."

::= { kipEntry 2 }

kipNextHop OBJECT-TYPE

SYNTAX IpAddress

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The IP address of the next hop in the route to this

entry's destination network."

::= { kipEntry 3 }

kipHopCount OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The number of hops required to reach the destination

network to which this entry pertains."

::= { kipEntry 4 }

kipBCastAddr OBJECT-TYPE

SYNTAX IpAddress

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The form of the IP address used to broadcast on this

network."

::= { kipEntry 5 }

kipCore OBJECT-TYPE

SYNTAX INTEGER {

core(1),

notcore(2)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The status of kipNextHop as a core gateway."

::= { kipEntry 6 }

kipType OBJECT-TYPE

SYNTAX INTEGER {

kipRouter(1),

net(2),

host(3),

other(4),

async(5)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The type of the entity that this route points to."

::= { kipEntry 7 }

kipState OBJECT-TYPE

SYNTAX INTEGER {

configured(1), -- this entry is not aged

learned(2),

invalid(3)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The state of this network entry.

Setting this object to the value invalid(3) has the

effect of invalidating the corresponding entry in the

kipTable. That is, it effectively disassociates the

mapping identified with said entry. It is an

implementation-specific matter as to whether the agent

removes an invalidated entry from the table.

Accordingly, management stations must be prepared to

receive from agents tabular information corresponding

to entries not currently in use. Proper

interpretation of such entries requires examination

of the relevant kipState object."

::= { kipEntry 8 }

kipShare OBJECT-TYPE

SYNTAX INTEGER {

shared(1),

private(2)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"If the information in this entry is propagated to

other routers as part of the AA routing protocol,

the value of this variable is equal to shared(1).

Otherwise its value is private(2)."

::= { kipEntry 9 }

kipFrom OBJECT-TYPE

SYNTAX IpAddress

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The IP address from which the routing entry was

learned via the AA protocol. If this entry was not

created via the AA protocol, it should contain IP

address 0.0.0.0."

::= { kipEntry 10 }

-- The ZIP Router Group

--

-- Implementation of this group is required for all routers

-- which implement ZIP

--

-- This group consists of ZIP variables that would be

-- implemented by a router.

zipTable OBJECT-TYPE

SYNTAX SEQUENCE OF ZipEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The table of zone information for reachable

AppleTalk networks."

::= { zipRouter 1 }

zipEntry OBJECT-TYPE

SYNTAX ZipEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"An entry of zone information for a particular zone

and network combination.

As an example, an instance of the zipZoneState object

might be named zipZoneState.0.80.4"

INDEX { zipZoneNetStart, zipZoneIndex }

::= { zipTable 1 }

ZipEntry ::= SEQUENCE {

zipZoneName ATName,

zipZoneIndex INTEGER,

zipZoneNetStart ATNetworkNumber,

zipZoneNetEnd ATNetworkNumber,

zipZoneState INTEGER,

zipZoneFrom OCTET STRING,

zipZonePort INTEGER

}

zipZoneName OBJECT-TYPE

SYNTAX ATName

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The zone name of this entry. This is stored in

Mac ASCII format. If the full zone list for the

entry is not known, the value for zipZoneName shall

be a zero length octet string."

::= { zipEntry 1 }

zipZoneIndex OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"An integer that is unique to the zipZoneName that

is present in this entry. For any given zone name,

every zipEntry that has an equal zone name will have

the same zipZoneIndex. When a zone name is

discovered which is not currently in the table, it

will be assigned an index greater than any

previously assigned index."

::= { zipEntry 2 }

zipZoneNetStart OBJECT-TYPE

SYNTAX ATNetworkNumber

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The network that starts the range for this entry.

This address is a two octet DDP network address in

network byte order."

::= { zipEntry 3 }

zipZoneNetEnd OBJECT-TYPE

SYNTAX ATNetworkNumber

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The network that ends the range for this entry.

This address is a two octet DDP network address in

network byte order. If the network to which this

zip entry pertains is a non-extended network, the

value for zipZoneNetEnd shall be two octets of

zero."

::= { zipEntry 4 }

zipZoneState OBJECT-TYPE

SYNTAX INTEGER {

valid(1),

invalid(2)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The state of this zip entry.

Setting this object to the value invalid(2) has the

effect of invalidating the corresponding entry in

the zipTable. That is, it effectively

disassociates the mapping identified with said

entry. It is an implementation-specific matter as

to whether the agent removes an invalidated entry

from the table. Accordingly, management stations

must be prepared to receive from agents tabular

information corresponding to entries not currently

in use. Proper interpretation of such entries

requires examination of the relevant zipZoneState

object."

::= { zipEntry 5 }

zipZoneFrom OBJECT-TYPE

SYNTAX OCTET STRING

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The address from which this zone name to network

number mapping was learned. The format of this

address can be determined by examining the

atportType corresponding to this entry. When this

mapping is learned from the entity itself, this

object shall have the value of three

octets of zero."

::= { zipEntry 6 }

zipZonePort OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The AppleTalk port through which this zone name to

network number mapping was learned. The interface

identified by a particular value of this variable is

the same interface as identified by the same value

of atportIndex."

::= { zipEntry 7 }

zipInZipQueries OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP Queries received by this entity."

::= { zipRouter 2 }

zipInZipReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP Replies received by this entity."

::= { zipRouter 3 }

zipInZipExtendedReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP Extended Replies received by this

entity."

::= { zipRouter 4 }

zipZoneConflictErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times a conflict has been detected

between this entity's zone information and another

entity's zone information."

::= { zipRouter 5 }

zipInObsoletes OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP Takedown or ZIP Bringup packets

received by this entity. Note that as the ZIP

Takedown and ZIP Bringup packets have been

obsoleted, the receipt of one of these packets

indicates that a node sent it in error."

::= { zipRouter 6 }

-- The zipRouterNetInfoTable is used to record information

-- about zipGetNetInfo and zipGetNetInfo Reply packets that

-- were received on each port for a router. This table

-- augments the atportTable.

zipRouterNetInfoTable OBJECT-TYPE

SYNTAX SEQUENCE OF ZipRouterNetInfoEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The table of Net Info packets received by each port

on this entity."

::= { zipRouter 7 }

zipRouterNetInfoEntry OBJECT-TYPE

SYNTAX ZipRouterNetInfoEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The description of the Net Info packets received on

a particular port on this entity. One such entry

shall exist for each atport on this router entity.

As an example, an instance of the zipInGetNetInfos

object might be named zipInGetNetInfos.2"

INDEX { atportIndex }

::= { zipRouterNetInfoTable 1 }

ZipRouterNetInfoEntry ::= SEQUENCE {

zipInGetNetInfos Counter,

zipOutGetNetInfoReplies Counter,

zipZoneOutInvalids Counter,

zipAddressInvalids Counter

}

zipInGetNetInfos OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP GetNetInfo packets received on

this port by this entity."

::= { zipRouterNetInfoEntry 1 }

zipOutGetNetInfoReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP GetNetInfo Reply packets sent out

this port by this entity."

::= { zipRouterNetInfoEntry 2 }

zipZoneOutInvalids OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times this entity has sent a ZIP

GetNetInfo Reply with the zone invalid bit set in

response to a GetNetInfo Request with an invalid

zone name."

::= { zipRouterNetInfoEntry 3 }

zipAddressInvalids OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times this entity had to broadcast a

ZIP GetNetInfo Reply because the GetNetInfo Request

had an invalid address."

::= { zipRouterNetInfoEntry 4 }

-- The ZIP End Node Group

--

-- Implementation of this group is mandatory for all entities

-- that implement ZIP

--

-- This group consists of ZIP variables that would be

-- implemented by either a router or an end node.

-- The zipNetInfoTable is used to record information about

-- zipGetNetInfo and zipGetNetInfo Reply packets that were

-- received on each port of an entity. This table augments

-- the atportTable.

zipNetInfoTable OBJECT-TYPE

SYNTAX SEQUENCE OF ZipNetInfoEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The table of Net Info packets received by each port

on this entity."

::= { zipEndNode 1 }

zipNetInfoEntry OBJECT-TYPE

SYNTAX ZipNetInfoEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The description of the Net Info packets received on

a particular port on this entity. One such entry

shall exist for each atport on this entity.

As an example, an instance of the zipOutGetNetInfos

object might be named zipOutGetNetInfos.2"

INDEX { atportIndex }

::= { zipNetInfoTable 1 }

ZipNetInfoEntry ::= SEQUENCE {

zipOutGetNetInfos Counter,

zipInGetNetInfoReplies Counter,

zipZoneInInvalids Counter

}

zipOutGetNetInfos OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP GetNetInfo packets sent out this

port by this entity."

::= { zipNetInfoEntry 1 }

zipInGetNetInfoReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP GetNetInfo Reply packets received

on this port by this entity."

::= { zipNetInfoEntry 2 }

zipZoneInInvalids OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times this entity has received a ZIP

GetNetInfo Reply with the zone invalid bit set

because the corresponding GetNetInfo Request had an

invalid zone name."

::= { zipNetInfoEntry 3 }

zipInErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP packets received by this entity

that were rejected for any error."

::= { zipEndNode 2 }

-- The NBP Group

--

-- Implementation of this group is mandatory for all entities

-- that implement NBP

nbpTable OBJECT-TYPE

SYNTAX SEQUENCE OF NbpEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The table of NBP services registered on this entity."

::= { nbp 1 }

nbpEntry OBJECT-TYPE

SYNTAX NbpEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The description of an NBP service registered on this

entity.

As an example, an instance of the nbpZone object

might be named nbpZone.2"

INDEX { nbpIndex }

::= { nbpTable 1 }

NbpEntry ::= SEQUENCE {

nbpIndex INTEGER,

nbpObject ATName (SIZE (1..32)),

nbpType ATName (SIZE (1..32)),

nbpZone ATName,

nbpState INTEGER,

nbpAddress DdpSocketAddress,

nbpEnumerator INTEGER (0..255)

}

nbpIndex OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The index of this NBP entry. This index is unique

with respect to the indexes of all other NBP entries,

and shall remain constant throughout the lifetime

of this object."

::= { nbpEntry 1 }

nbpObject OBJECT-TYPE

SYNTAX ATName (SIZE (1..32))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The name of the service described by this entity.

When this variable is changed, the entity should

perform an NBP registration using the new nbpObject."

::= { nbpEntry 2 }

nbpType OBJECT-TYPE

SYNTAX ATName (SIZE (1..32))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The type of the service described by this entity.

When this variable is changed, the entity should

perform an NBP registration using the new nbpType."

::= { nbpEntry 3 }

nbpZone OBJECT-TYPE

SYNTAX ATName

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The zone the service described by this entity is

registered in. This must be the actual zone name,

without any wildcard characters. When this variable

is changed, the entity should perform an NBP

registration using the new nbpZone."

::= { nbpEntry 4 }

nbpState OBJECT-TYPE

SYNTAX INTEGER {

valid(1),

registering(2), -- attempting to register the service

registrationFailed(3),

invalid(4)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The state of this NBP entry.

When the registration for an entry in the nbpTable

fails, it is an implementation-specific matter as to

how long the entry will remain in the

registrationFailed(3) state before moving to the

invalid(4) state. Note that the entry may pass

immediately from the registrationFailed state to

the invalid state.

Setting this object to the value invalid(4) has the

effect of invalidating the corresponding entry in the

nbpTable. That is, it effectively disassociates the

mapping identified with said entry. It is an

implementation-specific matter as to whether the agent

removes an invalidated entry from the table.

Accordingly, management stations must be prepared to

receive from agents tabular information corresponding

to entries not currently in use. Proper

interpretation of such entries requires examination

of the relevant nbpState object."

::= { nbpEntry 5 }

nbpAddress OBJECT-TYPE

SYNTAX DdpSocketAddress

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The DDP network, node, and socket number of this

entity. If this is unspecified, for instance if the

registration is on all ports of a multiport device,

this object shall have the value of three octets of

zero, followed by one octet of socket number."

::= { nbpEntry 6 }

nbpEnumerator OBJECT-TYPE

SYNTAX INTEGER (0..255)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The enumerator assigned to this entity."

::= { nbpEntry 7 }

nbpInLookUpRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP LookUp Requests received."

::= { nbp 2 }

nbpInLookUpReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP LookUp Replies received."

::= { nbp 3 }

nbpInBroadcastRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP Broadcast Requests received."

::= { nbp 4 }

nbpInForwardRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP Forward Requests received."

::= { nbp 5 }

nbpOutLookUpReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP LookUp Replies sent."

::= { nbp 6 }

nbpRegistrationFailures OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times this node experienced a failure

in attempting to register an NBP entity."

::= { nbp 7 }

nbpInErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP packets received by this entity

that were rejected for any error."

::= { nbp 8 }

-- The ATEcho Group

--

-- Implementation of this group is mandatory for all

-- entities that implement ATEcho

atechoRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of AppleTalk Echo requests received."

::= { atecho 1 }

atechoReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of AppleTalk Echo replies sent."

::= { atecho 2 }

atechoOutRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The count of AppleTalk Echo requests sent."

::= { atecho 3 }

atechoInReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The count of AppleTalk Echo replies received."

::= { atecho 4 }

-- The ATP Group

--

-- Implementation of this group is mandatory for all entities

-- that implement ATP

atpInPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ATP packets received by this entity."

::= { atp 1 }

atpOutPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ATP packets sent by this entity."

::= { atp 2 }

atpTRequestRetransmissions OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times that a timeout occurred and a

Transaction Request packet needed to be

retransmitted by this host."

::= { atp 3 }

atpTResponseRetransmissions OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times a timeout was detected and a

Transaction Response packet needed to be

retransmitted by this host."

::= { atp 4 }

atpReleaseTimerExpiredCounts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the release timer expired, as a

result of which a Request Control Block had to be

deleted."

::= { atp 5 }

atpRetryCountExceededs OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the retry count was exceeded,

and an error was returned to the client of ATP."

::= { atp 6 }

atpListenerTable OBJECT-TYPE

SYNTAX SEQUENCE OF AtpListenerEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The atpListenerTable stores information for each ATP

socket that has a listener."

::= { atp 7 }

atpListenerEntry OBJECT-TYPE

SYNTAX AtpListenerEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"This atpListenerEntry contains information about a

particular socket that has a socket listener.

As an example, an instance of the atpListenerStatus

object might be named atpListenerStatus.0.80.220.3"

INDEX { atpListenerAddress }

::= { atpListenerTable 1 }

AtpListenerEntry ::= SEQUENCE {

atpListenerAddress DdpSocketAddress,

atpListenerStatus INTEGER

}

atpListenerAddress OBJECT-TYPE

SYNTAX DdpSocketAddress

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The DDP address that this socket listener is bound

to. If this socket listener isn't bound to a

particular address, for instance if it is intended

for all interfaces, this object shall have the value

of three octets of zero followed by one octet of

socket number."

::= { atpListenerEntry 1 }

atpListenerStatus OBJECT-TYPE

SYNTAX INTEGER {

valid(1),

invalid(2)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The status of this socket.

Setting this object to the value invalid(2) has the

effect of invalidating the corresponding entry in

the atpListenerTable. That is, it effectively

disassociates the mapping identified with said

entry. It is an implementation-specific matter as

to whether the agent removes an invalidated entry

from the table. Accordingly, management stations

must be prepared to receive from agents tabular

information corresponding to entries not currently

in use. Proper interpretation of such entries

requires examination of the relevant

atpListenerStatus object."

::= { atpListenerEntry 2 }

-- The PAP group

--

-- Implementation of this group is mandatory for all entities

-- that implement PAP

papInOpenConns OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of PAP Open Connection requests received

by this entity."

::= { pap 1 }

papOutOpenConns OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of PAP Open Connection requests sent by

this entity."

::= { pap 2 }

papInDatas OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of PAP Data messages received by

this entity."

::= { pap 3 }

papOutDatas OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of PAP Data messages sent by

this entity."

::= { pap 4 }

papInCloseConns OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of PAP Close Connection requests

received by this entity."

::= { pap 5 }

papOutCloseConns OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of PAP Close Connection requests sent by

this entity."

::= { pap 6 }

papTickleTimeoutCloses OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the PAP entity on this node

closed a connection because it didn't receive a

Tickle message before its timer expired."

::= { pap 7 }

papServerTable OBJECT-TYPE

SYNTAX SEQUENCE OF PapServerEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A list of servers on this entity that are

accessible through the Printer Access Protocol."

::= { pap 8 }

papServerEntry OBJECT-TYPE

SYNTAX PapServerEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A set of information about a particular PAP server's

configuration and performance.

As an example, an instance of the papServerStatus

object might be named papServerStatus.1"

INDEX { papServerIndex }

::= { papServerTable 1 }

PapServerEntry ::= SEQUENCE {

papServerIndex INTEGER,

papServerListeningSocket DdpSocketAddress,

papServerStatus DisplayString,

papServerCompletedJobs Counter,

papServerBusyJobs INTEGER,

papServerFreeJobs INTEGER,

papServerAuthenticationFailures Counter,

papServerAccountingFailures Counter,

papServerGeneralFailures Counter,

papServerState INTEGER,

papServerLastStatusMsg DisplayString

}

papServerIndex OBJECT-TYPE

SYNTAX INTEGER

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"An unique value for each Printer Access Protocol

Server."

::= { papServerEntry 1 }

papServerListeningSocket OBJECT-TYPE

SYNTAX DdpSocketAddress

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The Server Listening Socket that this PAP server is

listening on."

::= { papServerEntry 2 }

papServerStatus OBJECT-TYPE

SYNTAX DisplayString

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The status string of this server. This is the

message as it would appear in a PAP Status Reply

from this server."

::= { papServerEntry 3 }

papServerCompletedJobs OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of jobs that have been accepted and

successfully executed by this server."

::= { papServerEntry 4 }

papServerBusyJobs OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of GetNextJob calls that have accepted

and are currently executing a job."

::= { papServerEntry 5 }

papServerFreeJobs OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The minimum number of GetNextJob calls that are

currently waiting for a job."

::= { papServerEntry 6 }

papServerAuthenticationFailures OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times this PAP server rejected a job

because the job was not correctly authenticated."

::= { papServerEntry 7 }

papServerAccountingFailures OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times this PAP server rejected a job

because the job did not fit some accounting rule,

such as exceeding a quota."

::= { papServerEntry 8 }

papServerGeneralFailures OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times this PAP server rejected a job

for some reason other than authentication or

accounting failures."

::= { papServerEntry 9 }

papServerState OBJECT-TYPE

SYNTAX INTEGER {

valid(1),

invalid(2)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The state of this PAP Server entry.

Setting this object to the value invalid(2) has the

effect of invalidating the corresponding entry in

the papServerTable. That is, it effectively

disassociates the mapping identified with said

entry. It is an implementation-specific matter as

to whether the agent removes an invalidated entry

from the table. Accordingly, management stations

must be prepared to receive from agents tabular

information corresponding to entries not currently

in use. Proper interpretation of such entries

requires examination of the relevant papServerState

object."

::= { papServerEntry 10 }

papServerLastStatusMsg OBJECT-TYPE

SYNTAX DisplayString

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The last status message that was transmitted by

this server."

::= { papServerEntry 11 }

-- The ASP Group

--

-- Implementation of this group is mandatory for all entities

-- that implement ASP

aspInputTransactions OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ASP requests and replies received by

this entity. Note that this is not necessarily the

number of packets containing ASP transactions."

::= { asp 1 }

aspOutputTransactions OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ASP requests and replies sent by this

entity. Note that this is not necessarily the number

of packets containing ASP transactions."

::= { asp 2 }

aspInOpenSessions OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ASP Open Session requests and replies

received by this entity."

::= { asp 3 }

aspOutOpenSessions OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ASP Open Session requests and replies

sent by this entity."

::= { asp 4 }

aspInCloseSessions OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ASP Close Session requests and replies

received by this entity."

::= { asp 5 }

aspOutCloseSessions OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ASP Close Session requests and replies

sent by this entity."

::= { asp 6 }

aspNoMoreSessionsErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times an error condition was returned

because this server implementation could not support

another session."

::= { asp 7 }

aspTickleTimeOutCloses OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the ASP entity on this node

closed a connection because it didn't receive any

messages from the remote end before its timer

expired."

::= { asp 8 }

aspConnTable OBJECT-TYPE

SYNTAX SEQUENCE OF AspConnEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A list of ASP connections on this entity."

::= { asp 9 }

aspConnEntry OBJECT-TYPE

SYNTAX AspConnEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A set of information describing an ASP connection.

As an example, an instance of the aspConnState object

might be named

aspConnState.0.80.220.135.0.80.239.119.12"

INDEX { aspConnLocalAddress, aspConnRemoteAddress,

aspConnID }

::= { aspConnTable 1 }

AspConnEntry ::= SEQUENCE {

aspConnLocalAddress DdpSocketAddress,

aspConnRemoteAddress DdpSocketAddress,

aspConnID INTEGER (1..255),

aspConnLastReqNum INTEGER (1..65535),

aspConnServerEnd INTEGER,

aspConnState INTEGER

}

aspConnLocalAddress OBJECT-TYPE

SYNTAX DdpSocketAddress

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The local address of this ASP connection."

::= { aspConnEntry 1 }

aspConnRemoteAddress OBJECT-TYPE

SYNTAX DdpSocketAddress

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The remote address of this ASP connection. If

this entry is in the listening mode, this object

shall have a value of four octets of zero."

::= { aspConnEntry 2 }

aspConnID OBJECT-TYPE

SYNTAX INTEGER (1..255)

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The remote Connection ID of this ASP connection. If

this entry is in the listening mode, this object

shall have a value of zero."

::= { aspConnEntry 3 }

aspConnLastReqNum OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The last request number on this ASP connection. If

this entry is in the listening mode, this object

shall have a value of zero."

::= { aspConnEntry 4 }

aspConnServerEnd OBJECT-TYPE

SYNTAX INTEGER {

sss(1), -- Server Session Socket

wss(2), -- Workstation Session Socket

sls(3) -- Server Listening Socket

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Specifies what mode the local session end is in."

::= { aspConnEntry 5 }

aspConnState OBJECT-TYPE

SYNTAX INTEGER {

open(1),

closed(2),

invalid(3)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The state of this ASP connection.

Setting this object to the value invalid(3) has the

effect of invalidating the corresponding entry in the

aspConnTable. That is, it effectively disassociates

the mapping identified with said entry. It is an

implementation-specific matter as to whether the agent

removes an invalidated entry from the table.

Accordingly, management stations must be prepared to

receive from agents tabular information corresponding

to entries not currently in use. Proper

interpretation of such entries requires examination

of the relevant aspConnState object."

::= { aspConnEntry 6 }

-- The ADSP Group

--

-- Implementation of this group is mandatory for all entities

-- that implement ADSP

adspInPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ADSP packets received by this entity."

::= { adsp 1 }

adspOutPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ADSP packets sent by this entity."

::= { adsp 2 }

adspInOctets OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of data octets contained in ADSP packets

received by this entity. Note that this does not

include EOM bits."

::= { adsp 3 }

adspOutOctets OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of data octets contained in ADSP packets

sent by this entity. Note that this does not include

EOM bits."

::= { adsp 4 }

adspInDataPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ADSP data packets this entity has

received."

::= { adsp 5 }

adspOutDataPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ADSP data packets this entity has

sent."

::= { adsp 6 }

adspTimeoutErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the ADSP on this entity detected

an expired connection timer."

::= { adsp 7 }

adspTimeoutCloseErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the ADSP on this entity closed a

connection because of too many timeouts."

::= { adsp 8 }

adspConnTable OBJECT-TYPE

SYNTAX SEQUENCE OF AdspConnEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A list of ADSP connections on this entity."

::= { adsp 9 }

adspConnEntry OBJECT-TYPE

SYNTAX AdspConnEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A set of information describing an ADSP connection.

As an example, an instance of the adspConnState object

might be named

adspConnState.0.80.220.7.0.80.239.142.31231"

INDEX { adspConnLocalAddress, adspConnRemoteAddress,

adspConnLocalConnID }

::= { adspConnTable 1 }

AdspConnEntry ::= SEQUENCE {

adspConnLocalAddress DdpSocketAddress,

adspConnLocalConnID INTEGER (0..65535),

adspConnRemoteAddress DdpSocketAddress,

adspConnRemoteConnID INTEGER (0..65535),

adspConnState INTEGER

}

adspConnLocalAddress OBJECT-TYPE

SYNTAX DdpSocketAddress

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The local DDP address of this ADSP connection."

::= { adspConnEntry 1 }

adspConnLocalConnID OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The local Connection ID of this ADSP connection. If

this entry specifies an ADSP listener, this value

shall be zero."

::= { adspConnEntry 2 }

adspConnRemoteAddress OBJECT-TYPE

SYNTAX DdpSocketAddress

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The remote DDP address of this ADSP connection. If

this entry specifies an ADSP listener, this value

shall be zero."

::= { adspConnEntry 3 }

adspConnRemoteConnID OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The remote Connection ID of this ADSP connection.

If this entry specifies an ADSP listener, this value

shall be zero."

::= { adspConnEntry 4 }

adspConnState OBJECT-TYPE

SYNTAX INTEGER {

open(1),

localHalfOpen(2),

remoteHalfOpen(3),

listening(4),

closed(5),

invalid(6)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The state of this ADSP connection. The state is

open if both ends are established. If only one end

is established, then the state is half-open. If

neither end is established, then the state is

closed. If an ADSP server is listening on a socket

and is not yet connected, its state is set to

listening, and the adspConnRemoteAddress,

adspConnRemoteSocket, adspConnRemoteConnID, and

adspConnRemoteWindowSize are all set to zero.

Setting this object to the value invalid(6) has the

effect of invalidating the corresponding entry in

the adspConnTable. That is, it effectively

disassociates the mapping identified with said

entry. It is an implementation-specific matter as

to whether the agent removes an invalidated entry

from the table. Accordingly, management stations

must be prepared to receive from agents tabular

information corresponding to entries not currently

in use. Proper interpretation of such entries

requires examination of the relevant adspConnState

object."

::= { adspConnEntry 5 }

-- The ATPortPtoP Group

--

-- Implementation of this group is mandatory for all entities

-- that implement AppleTalk point-to-point links

atportPtoPTable OBJECT-TYPE

SYNTAX SEQUENCE OF AtportPtoPEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A list of AppleTalk point-to-point connections for

this entity."

::= { atportptop 1 }

atportPtoPEntry OBJECT-TYPE

SYNTAX AtportPtoPEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The description of one of the AppleTalk

point-to-point connections on this entity.

As an example, an instance of the

atportPtoPRemoteAddress object might be named

atportPtoPRemoteAddress.2"

INDEX { atportPtoPIndex }

::= { atportPtoPTable 1 }

AtportPtoPEntry ::= SEQUENCE {

atportPtoPIndex INTEGER,

atportPtoPProtocol OBJECT IDENTIFIER,

atportPtoPRemoteName DisplayString,

atportPtoPRemoteAddress OCTET STRING,

atportPtoPPortIndex INTEGER,

atportPtoPStatus INTEGER

}

atportPtoPIndex OBJECT-TYPE

SYNTAX INTEGER

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A unique value for each AppleTalk point-to-point

connection. Its value is between 1 and the total

number of AppleTalk point-to-point connections. The

value for each connection must remain constant at

least from the re-initialization of the entity's

network management system to the next

re-initialization."

::= { atportPtoPEntry 1 }

atportPtoPProtocol OBJECT-TYPE

SYNTAX OBJECT IDENTIFIER

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The protocol type used over the point-to-point

connection."

::= { atportPtoPEntry 2 }

atportPtoPRemoteName OBJECT-TYPE

SYNTAX DisplayString

ACCESS read-write

STATUS mandatory

DESCRIPTION

"A text string containing the network node name of the

entity at the other end of the point-to-point link.

If the name is unknown or undefined, then this

string is zero length."

::= { atportPtoPEntry 3 }

atportPtoPRemoteAddress OBJECT-TYPE

SYNTAX OCTET STRING

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The network address of the entity at the other end

of the point-to-point link in network byte order.

The format of this address can be determined

by examinating the atportType corresponding to this

entry. If the address is unknown or undefined, then

this string is zero length."

::= { atportPtoPEntry 4 }

atportPtoPPortIndex OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The AppleTalk port associated with this

point-to-point connection. The interface identified

by a particular value of this index is the same

interface as identified by the same value of

atportIndex."

::= { atportPtoPEntry 5 }

atportPtoPStatus OBJECT-TYPE

SYNTAX INTEGER {

valid(1),

invalid(2)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The status of this entry in the atportPtoPTable.

Setting this object to the value invalid(2) has the

effect of invalidating the corresponding entry in

the atportPtoPTable. That is, it effectively

disassociates the mapping identified with said

entry. It is an implementation-specific matter as

to whether the agent removes an invalidated entry

from the table. Accordingly, management stations

must be prepared to receive from agents tabular

information corresponding to entries not currently

in use. Proper interpretation of such entries

requires examinationr of the relevant

atportPtoPStatus object."

::= { atportPtoPEntry 6 }

atportPtoPProtoOids OBJECT IDENTIFIER ::= { atportptop 2 }

-- A list of values to be used for the atportPtoPProtocol

-- variable.

-- When new protocols are defined, their oids may be defined

-- in separate MIB documents in different branches of the tree.

pToPProtoOther OBJECT IDENTIFIER ::= { atportPtoPProtoOids 1 }

pToPProtoAurp OBJECT IDENTIFIER ::= { atportPtoPProtoOids 2 }

pToPProtoCaymanUdp OBJECT IDENTIFIER ::=

{ atportPtoPProtoOids 3 }

pToPProtoAtkvmsDecnetIV OBJECT IDENTIFIER ::=

{ atportPtoPProtoOids 4 }

pToPProtoLiaisonUdp OBJECT IDENTIFIER ::=

{ atportPtoPProtoOids 5 }

pToPProtoIpx OBJECT IDENTIFIER ::= { atportPtoPProtoOids 6 }

pToPProtoShivaIp OBJECT IDENTIFIER ::=

{ atportPtoPProtoOids 7 }

-- The Per Port Counters Group

--

-- Implementation of this group is optional.

perPortTable OBJECT-TYPE

SYNTAX SEQUENCE OF PerPortEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The table of per-port statistics for this entity."

::= { perPort 1 }

perPortEntry OBJECT-TYPE

SYNTAX PerPortEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The statistics available for a particular port on

this entity.

As an example, an instance of the perPortAarpInProbes

object might be named perPortAarpInProbes.2"

INDEX { atportIndex }

::= { perPortTable 1 }

PerPortEntry ::= SEQUENCE {

perPortAarpInProbes Counter,

perPortAarpOutProbes Counter,

perPortAarpInReqs Counter,

perPortAarpOutReqs Counter,

perPortAarpInRsps Counter,

perPortAarpOutRsps Counter,

perPortDdpInReceives Counter,

perPortDdpInLocalDatagrams Counter,

perPortDdpNoProtocolHandlers Counter,

perPortDdpTooShortErrors Counter,

perPortDdpTooLongErrors Counter,

perPortDdpChecksumErrors Counter,

perPortDdpForwRequests Counter,

perPortRtmpInDataPkts Counter,

perPortRtmpOutDataPkts Counter,

perPortRtmpInRequestPkts Counter,

perPortRtmpRouteDeletes Counter,

perPortZipInZipQueries Counter,

perPortZipInZipReplies Counter,

perPortZipInZipExtendedReplies Counter,

perPortZipZoneConflictErrors Counter,

perPortZipInErrors Counter,

perPortNbpInLookUpRequests Counter,

perPortNbpInLookUpReplies Counter,

perPortNbpInBroadcastRequests Counter,

perPortNbpInForwardRequests Counter,

perPortNbpOutLookUpReplies Counter,

perPortNbpRegistrationFailures Counter,

perPortNbpInErrors Counter,

perPortEchoRequests Counter,

perPortEchoReplies Counter

}

perPortAarpInProbes OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of AARP Probe packets received

by this entity on this port."

::= { perPortEntry 1 }

perPortAarpOutProbes OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of AARP Probe packets sent by

this entity on this port."

::= { perPortEntry 2 }

perPortAarpInReqs OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of AARP Request packets received

by this entity on this port."

::= { perPortEntry 3 }

perPortAarpOutReqs OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of AARP Request packets sent by

this entity on this port."

::= { perPortEntry 4 }

perPortAarpInRsps OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of AARP Response packets received

by this entity on this port."

::= { perPortEntry 5 }

perPortAarpOutRsps OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of AARP Response packets sent by

this entity on this port."

::= { perPortEntry 6 }

perPortDdpInReceives OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input datagrams received by DDP

on this port, including those received in error."

::= { perPortEntry 7 }

perPortDdpInLocalDatagrams OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input DDP datagrams on this

port for which this entity was their final DDP

destination."

::= { perPortEntry 8 }

perPortDdpNoProtocolHandlers OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of DDP datagrams addressed to this

entity on this port that were addressed to an upper

layer protocol for which no protocol handler

existed."

::= { perPortEntry 9 }

perPortDdpTooShortErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input DDP datagrams on this

port dropped because the received data length was

less than the data length specified in the DDP

header or the received data length was less than the

length of the expected DDP header."

::= { perPortEntry 10 }

perPortDdpTooLongErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input DDP datagrams on this

port dropped because they exceeded the maximum DDP

datagram size."

::= { perPortEntry 11 }

perPortDdpChecksumErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of input DDP datagrams on this

port for which this DDP entity was their final

destination, and which were dropped because of a

checksum error." ::= { perPortEntry 12 }

perPortDdpForwRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of input datagrams on this port for

which this entity was not their final DDP

destination, as a result of which an attempt was

made to find a route to forward them to that final

destination."

::= { perPortEntry 13 }

perPortRtmpInDataPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of good RTMP data packets

received by this entity on this port."

::= { perPortEntry 14 }

perPortRtmpOutDataPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of RTMP packets sent by this

entity on this port."

::= { perPortEntry 15 }

perPortRtmpInRequestPkts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of good RTMP Request packets

received by this entity on this port."

::= { perPortEntry 16 }

perPortRtmpRouteDeletes OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A count of the number of times RTMP deletes a route

on this port because it was aged out of the table."

::= { perPortEntry 17 }

perPortZipInZipQueries OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP Queries received by this entity

on this port."

::= { perPortEntry 18 }

perPortZipInZipReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP Replies received by this entity

on this port."

::= { perPortEntry 19 }

perPortZipInZipExtendedReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP Extended Replies received by this

entity on this port."

::= { perPortEntry 20 }

perPortZipZoneConflictErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times a conflict has been detected on

this port between this entity's zone information and

another entity's zone information."

::= { perPortEntry 21 }

perPortZipInErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of ZIP packets received by this entity

on this port that were rejected for any error."

::= { perPortEntry 22 }

perPortNbpInLookUpRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP LookUp Requests received on this

port."

::= { perPortEntry 23 }

perPortNbpInLookUpReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP LookUp Replies received on this

port."

::= { perPortEntry 24 }

perPortNbpInBroadcastRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP Broadcast Requests received on

this port."

::= { perPortEntry 25 }

perPortNbpInForwardRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP Forward Requests received on this

port."

::= { perPortEntry 26 }

perPortNbpOutLookUpReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP LookUp Replies sent on this port."

::= { perPortEntry 27 }

perPortNbpRegistrationFailures OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times this node experienced a failure

in attempting to register an NBP entity on this

port."

::= { perPortEntry 28 }

perPortNbpInErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of NBP packets received by this entity

on this port that were rejected for any error."

::= { perPortEntry 29 }

perPortEchoRequests OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of AppleTalk Echo requests received on

this port."

::= { perPortEntry 30 }

perPortEchoReplies OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The count of AppleTalk Echo replies received on

this port."

::= { perPortEntry 31 }

END

6. Acknowledgments

This document was produced by the IETF AppleTalk-IP Working Group.

In addition, the contribution of the following individuals is also

acknowledged:

Greg Bruell, Wellfleet

Phil Budne, Shiva

Robert Jeckell, 3Com

Greg Merrell, DEC

Greg Minshall, Novell, Inc.

Bob Morgan, Stanford University

Brad Parker, FCR

Marshall T. Rose, Dover Beach Consulting

Wayne Tackabury, Cayman

Jonathan Wenocur, Shiva

7. References

[1] Cerf, V., "IAB Recommendations for the Development of Internet

Network Management Standards", RFC1052, IAB, April 1988.

[2] Cerf, V., "Report of the Second Ad Hoc Network Management Review

Group", RFC1109, IAB, August 1989.

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

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

1155, Performance Systems International, Hughes LAN Systems, May

1990.

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

Network Management of TCP/IP-based internets", RFC1156, Hughes

LAN Systems, Performance Systems International, May 1990.

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

Network Management Protocol", STD 15, RFC1157, SNMP Research,

Performance Systems International, Performance Systems

International, MIT Laboratory for Computer Science, May 1990.

[6] Rose, M., Editor, "Management Information Base for Network

Management of TCP/IP-based internets: MIB-II", RFC1158,

Performance Systems International, May 1990.

[7] Information processing systems - Open Systems Interconnection -

Specification of Abstract Syntax Notation One (ASN.1),

International Organization for Standardization, International

Standard 8824, December 1987.

[8] Information processing systems - Open Systems Interconnection -

Specification of Basic Encoding Rules for Abstract Notation One

(ASN.1), International Organization for Standardization,

International Standard 8825, December 1987.

[9] Rose, M., and K. McCloghrie, Editors, "Concise MIB Definitions",

STD 16, RFC1212, Performance Systems International, Hughes LAN

Systems, March 1991.

[10] Gursharan S., Andrews, R., and A. Oppenheimer, "Inside

AppleTalk", Second Edition, Addison Wesley, 1990.

Security Considerations

Security issues are not discussed in this memo.

9. Authors' Addresses

Steven Waldbusser

Carnegie Mellon University

5000 Forbes Ave.

Pittsburgh, PA 15213

Phone: 412-268-6628

EMail: waldbusser@cmu.edu

Karen Frisa

FORE Systems, Inc.

174 Thorn Hill Road

Warrendale, PA 15086-7535

Phone: 412-772-6541

EMail: kfrisa@fore.com

 
 
 
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