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RFC1566 - Mail Monitoring MIB

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

Network Working Group S. Kille, WG Chair

Request for Comments: 1566 ISODE Consortium

Category: Standards Track N. Freed, Editor

Innosoft

January 1994

Mail Monitoring MIB

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.

Table of Contents

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

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

2.1 Object Definitions .......................................... 2

3. Message Flow Model ........................................... 3

4. MTA Objects .................................................. 3

5. Definitions .................................................. 4

6. Acknowledgements .............................................19

7. References ...................................................19

8. Security Considerations ......................................19

9. Authors' Addresses ...........................................20

1. Introduction

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

for use with network management protocols in the Internet community.

In particular, this memo extends the basic Network Services

Monitoring MIB [5] to allow monitoring of Message Transfer Agents

(MTAs). It may also be used to monitor MTA components within

gateways.

2. The SNMPv2 Network Management Framework

The SNMPv2 Network Management Framework consists of four major

components. They are:

o RFC1442 [1] which defines the SMI, the mechanisms used for

describing and naming objects for the purpose of management.

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

objects for the Internet suite of protocols.

o RFC1445 [3] which defines the administrative and other

architectural ASPects of the framework.

o RFC1448 [4] which defines the protocol used for network

Access to managed objects.

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

eXPerimentation and evaluation.

2.1 Object Definitions

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)

defined in the SMI. In particular, each object type is named by an

OBJECT IDENTIFIER, an administratively assigned name. 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 descriptor, to refer to the

object type.

3. Message Flow Model

A general model of message flow inside an MTA has to be presented

before a MIB can be described. Generally speaking, message flow

occurs in four steps:

(1) Messages are received by the MTA from User Agents, Message

Stores, other MTAs, and gateways.

(2) The "next hop" for the each message is determined. This is

simply the destination the message is to be transmitted to;

it may or may not be the final destination of the message.

Multiple "next hops" may exist for a single message (as a

result of either having multiple recipients or distribution

list expansion); this may make it necessary to duplicate

messages.

(3) Messages are converted into the format that's appropriate

for the next hop.

(4) Messages are transmitted to the appropriate destination,

which may be a User Agent, Message Store, another MTA, or

gateway.

Storage of messages in the MTA occurs at some point during this

process. However, it is important to note that storage may occur at

different and possibly even multiple points during this process. For

example, some MTAs expand messages into multiple copies as they are

received. In this case (1), (2), and (3) may all occur prior to

storage. Other MTAs store messages precisely as they are received

and perform all expansions and conversions during retransmission

processing. So here only (1) occurs prior to storage. This leads to

situations where, in general, a measurement of messages received may

not equal a measurement of messages in store, or a measurement of

messages stored may not equal a measurement of messages

retransmitted, or both.

4. MTA Objects

If there are one or more MTAs on the host, the following mta group

may be used to monitor them. Any number of the MTAs on a host may be

monitored. Each MTA is dealt with as a separate application and has

its own applTable entry in the Network Services Monitoring MIB.

The MIB described in this document covers only the portion which is

specific to the monitoring of MTAs. The network service related part

of the MIB is covered in a separate document [5].

5. Definitions

MTA-MIB DEFINITIONS ::= BEGIN

IMPORTS

OBJECT-TYPE, Counter32, Gauge32

FROM SNMPv2-SMI

DisplayString, TimeInterval

FROM SNMPv2-TC

mib-2

FROM RFC1213-MIB

applIndex

FROM APPLICATION-MIB;

mta MODULE-IDENTITY

LAST-UPDATED "9311280000Z"

ORGANIZATION "IETF Mail and Directory Management Working Group"

CONTACT-INFO

" Ned Freed

Postal: Innosoft International, Inc.

250 West First Street, Suite 240

Claremont, CA 91711

US

Tel: +1 909 624 7907

Fax: +1 909 621 5319

E-Mail: ned@innosoft.com"

DESCRIPTION

"The MIB module describing Message Transfer Agents (MTAs)"

::= { mib-2 28 }

mtaTable OBJECT-TYPE

SYNTAX SEQUENCE OF MtaEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The table holding information specific to an MTA."

::= {mta 1}

mtaEntry OBJECT-TYPE

SYNTAX MtaEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The entry associated with each MTA."

INDEX {applIndex}

::= {mtaTable 1}

MtaEntry ::= SEQUENCE {

mtaReceivedMessages

Counter32,

mtaStoredMessages

Gauge32,

mtaTransmittedMessages

Counter32,

mtaReceivedVolume

Counter32,

mtaStoredVolume

Gauge32,

mtaTransmittedVolume

Counter32,

mtaReceivedRecipients

Counter32,

mtaStoredRecipients

Gauge32,

mtaTransmittedRecipients

Counter32

}

mtaReceivedMessages OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of messages received since MTA initialization."

::= {mtaEntry 1}

mtaStoredMessages OBJECT-TYPE

SYNTAX Gauge32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of messages currently stored in the MTA."

::= {mtaEntry 2}

mtaTransmittedMessages OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of messages transmitted since MTA initialization."

::= {mtaEntry 3}

mtaReceivedVolume OBJECT-TYPE

SYNTAX Counter32

UNITS "K-octets"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total volume of messages received since MTA

initialization, measured in kilo-octets. This volume should

include all transferred data that is logically above the mail

transport protocol level. For example, an SMTP-based MTA

should use the number of kilo-octets in the message header

and body, while an X.400-based MTA should use the number of

kilo-octets of P2 data."

::= {mtaEntry 4}

mtaStoredVolume OBJECT-TYPE

SYNTAX Gauge32

UNITS "K-octets"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total volume of messages currently stored in the MTA,

measured in kilo-octets. This volume should include all

stored data that is logically above the mail transport

protocol level. For example, an SMTP-based MTA should

use the number of kilo-octets in the message header and

body, while an X.400-based MTA would use the number of

kilo-octets of P2 data."

::= {mtaEntry 5}

mtaTransmittedVolume OBJECT-TYPE

SYNTAX Counter32

UNITS "K-octets"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total volume of messages transmitted since MTA

initialization, measured in kilo-octets. This volume should

include all transferred data that is logically above the mail

transport protocol level. For example, an SMTP-based MTA

should use the number of kilo-octets in the message header

and body, while an X.400-based MTA should use the number of

kilo-octets of P2 data."

::= {mtaEntry 6}

mtaReceivedRecipients OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of recipients specified in all messages

received since MTA initialization. Recipients this MTA

had no responsibility for should not be counted even if

information about such recipients is available."

::= {mtaEntry 7}

mtaStoredRecipients OBJECT-TYPE

SYNTAX Gauge32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of recipients specified in all messages

currently stored in the MTA. Recipients this MTA had no

responsibility for should not be counted."

::= {mtaEntry 8}

mtaTransmittedRecipients OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of recipients specified in all messages

transmitted since MTA initialization. Recipients this MTA

had no responsibility for should not be counted."

::= {mtaEntry 9}

-- MTAs typically group inbound reception, queue storage, and

-- outbound transmission in some way. In the most extreme case

-- information will be maintained for each different entity that

-- receives messages and for each entity the MTA stores messages for

-- and delivers messages to. Other MTAs may elect to treat all

-- reception equally, all queue storage equally, all deliveries

-- equally, or some combination of this.

-- In any case, a grouping abstraction is an extremely useful for

-- breaking down the activities of an MTA. For purposes of labelling

-- this will be called a "group" in this MIB.

-- Each group contains all the variables needed to monitor all aspects

-- of an MTA's operation. However, the fact that all groups contain

-- all possible variables does not imply that all groups must use all

-- possible variables. For example, a single group might be used to

-- monitor only one kind of event (inbound processing, outbound

-- processing, or storage). In this sort of configuration all unused

-- counters would be inaccessible; e.g., returning either a

-- noSuchName error (for an SNMPv1 get), or a noSuchInstance

-- exception (for an SNMPv2 get).

-- Groups are not necessarily mutually exclusive. A given event may

-- be recorded by more than one group, a message may be seen as

-- stored by more than one group, and so on. Groups should be all

-- inclusive, however: if groups are implemented all aspects of an

-- MTA's operation should be registered in at least one group. This

-- freedom lets implementors use different sets of groups to

-- provide differents "views" of an MTA.

-- The possibility of overlap between groups means that summing

-- variables across groups may not produce values equal to those in

-- the mtaTable. mtaTable should always provide accurate information

-- about the MTA as a whole.

-- The term "channel" is often used in MTA implementations; channels

-- are usually, but not always, equivalent to a group. However,

-- this MIB does not use the term "channel" because there is no

-- requirement that an MTA supporting this MIB has to map its

-- "channel" abstraction one-to-one onto the MIB's group abstration.

mtaGroupTable OBJECT-TYPE

SYNTAX SEQUENCE OF MtaGroupEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The table holding information specific to each MTA group."

::= {mta 2}

mtaGroupEntry OBJECT-TYPE

SYNTAX MtaGroupEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The entry associated with each MTA group."

INDEX {applIndex, mtaGroupIndex}

::= {mtaGroupTable 1}

MtaGroupEntry ::= SEQUENCE {

mtaGroupIndex

INTEGER,

mtaGroupReceivedMessages

Counter32,

mtaGroupRejectedMessages

Counter32,

mtaGroupStoredMessages

Gauge32,

mtaGroupTransmittedMessages

Counter32,

mtaGroupReceivedVolume

Counter32,

mtaGroupStoredVolume

Gauge32,

mtaGroupTransmittedVolume

Counter32,

mtaGroupReceivedRecipients

Counter32,

mtaGroupStoredRecipients

Gauge32,

mtaGroupTransmittedRecipients

Counter32,

mtaGroupOldestMessageStored

TimeInterval,

mtaGroupInboundAssociations

Gauge32,

mtaGroupOutboundAssociations

Gauge32,

mtaGroupAccumulatedInboundAssociations

Counter32,

mtaGroupAccumulatedOutboundAssociations

Counter32,

mtaGroupLastInboundActivity

TimeInterval,

mtaGroupLastOutboundActivity

TimeInterval,

mtaGroupRejectedInboundAssociations

Counter32,

mtaGroupFailedOutboundAssociations

Counter32,

mtaGroupInboundRejectionReason

DisplayString,

mtaGroupOutboundConnectFailureReason

DisplayString,

mtaGroupScheduledRetry

TimeInterval,

mtaGroupMailProtocol

OBJECT IDENTIFIER,

mtaGroupName

DisplayString

}

mtaGroupIndex OBJECT-TYPE

SYNTAX INTEGER (1..2147483647)

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The index associated with a group for a given MTA."

::= {mtaGroupEntry 1}

mtaGroupReceivedMessages OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of messages received to this group since MTA

initialization."

::= {mtaGroupEntry 2}

mtaGroupRejectedMessages OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of messages rejected by this group since MTA

initialization."

::= {mtaGroupEntry 3}

mtaGroupStoredMessages OBJECT-TYPE

SYNTAX Gauge32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of messages currently stored in this

group's queue."

::= {mtaGroupEntry 4}

mtaGroupTransmittedMessages OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of messages transmitted by this group since MTA

initialization."

::= {mtaGroupEntry 5}

mtaGroupReceivedVolume OBJECT-TYPE

SYNTAX Counter32

UNITS "K-octets"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total volume of messages received to this group since

MTA initialization, measured in kilo-octets. This volume

should include all transferred data that is logically above

the mail transport protocol level. For example, an

SMTP-based MTA should use the number of kilo-octets in the

message header and body, while an X.400-based MTA should use

the number of kilo-octets of P2 data."

::= {mtaGroupEntry 6}

mtaGroupStoredVolume OBJECT-TYPE

SYNTAX Gauge32

UNITS "K-octets"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total volume of messages currently stored in this

group's queue, measured in kilo-octets. This volume should

include all stored data that is logically above the mail

transport protocol level. For example, an SMTP-based

MTA should use the number of kilo-octets in the message

header and body, while an X.400-based MTA would use the

number of kilo-octets of P2 data."

::= {mtaGroupEntry 7}

mtaGroupTransmittedVolume OBJECT-TYPE

SYNTAX Counter32

UNITS "K-octets"

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total volume of messages transmitted by this group

since MTA initialization, measured in kilo-octets. This

volume should include all transferred data that is logically

above the mail transport protocol level. For example, an

SMTP-based MTA should use the number of kilo-octets in the

message header and body, while an X.400-based MTA should use

the number of kilo-octets of P2 data."

::= {mtaGroupEntry 8}

mtaGroupReceivedRecipients OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of recipients specified in all messages

received to this group since MTA initialization.

Recipients this MTA had no responsibility for should not

be counted."

::= {mtaGroupEntry 9}

mtaGroupStoredRecipients OBJECT-TYPE

SYNTAX Gauge32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of recipients specified in all messages

currently stored in this group's queue. Recipients this

MTA had no responsibility for should not be counted."

::= {mtaGroupEntry 10}

mtaGroupTransmittedRecipients OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of recipients specified in all messages

transmitted by this group since MTA initialization.

Recipients this MTA had no responsibility for should not

be counted."

::= {mtaGroupEntry 11}

mtaGroupOldestMessageStored OBJECT-TYPE

SYNTAX TimeInterval

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Time since the oldest message in this group's queue was

placed in the queue."

::= {mtaGroupEntry 12}

mtaGroupInboundAssociations OBJECT-TYPE

SYNTAX Gauge32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of current associations to the group, where the

group is the responder."

::= {mtaGroupEntry 13}

mtaGroupOutboundAssociations OBJECT-TYPE

SYNTAX Gauge32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of current associations to the group, where the

group is the initiator."

::= {mtaGroupEntry 14}

mtaGroupAccumulatedInboundAssociations OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of associations to the group since MTA

initialization, where the group is the responder."

::= {mtaGroupEntry 15}

mtaGroupAccumulatedOutboundAssociations OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of associations from the group since MTA

initialization, where the group was the initiator."

::= {mtaGroupEntry 16}

mtaGroupLastInboundActivity OBJECT-TYPE

SYNTAX TimeInterval

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Time since the last time that this group had an active

inbound association for purposes of message reception."

::= {mtaGroupEntry 17}

mtaGroupLastOutboundActivity OBJECT-TYPE

SYNTAX TimeInterval

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Time since the last time that this group had an

outbound association for purposes of message delivery."

::= {mtaGroupEntry 18}

mtaGroupRejectedInboundAssociations OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number of inbound associations the group has

rejected, since MTA initialization."

::= {mtaGroupEntry 19}

mtaGroupFailedOutboundAssociations OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The total number associations where the group was the

initiator and association establishment has failed,

since MTA initialization."

::= {mtaGroupEntry 20}

mtaGroupInboundRejectionReason OBJECT-TYPE

SYNTAX DisplayString

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The failure reason, if any, for the last association this

group refused to respond to. An empty string indicates that

the last attempt was successful. If no association attempt

has been made since the MTA was initializaed the value

should be 'never'."

::= {mtaGroupEntry 21}

mtaGroupOutboundConnectFailureReason OBJECT-TYPE

SYNTAX DisplayString

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The failure reason, if any, for the last association attempt

this group initiated. An empty string indicates that the last

attempt was successful. If no association attempt has been

made since the MTA was initialized the value should be

'never'."

::= {mtaGroupEntry 22}

mtaGroupScheduledRetry OBJECT-TYPE

SYNTAX TimeInterval

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The time when this group is scheduled to next attempt to

make an association."

::= {mtaGroupEntry 23}

mtaGroupMailProtocol OBJECT-TYPE

SYNTAX OBJECT IDENTIFIER

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"An identification of the protocol being used by this group.

For an group employing OSI protocols, this will be the

Application Context. For Internet applications, the IANA

maintains a registry of the OIDs which correspond to well-known

message transfer protocols. If the application protocol is

not listed in the registry, an OID value of the form

{applTCPProtoID port} or {applUDProtoID port} are used for

TCP-based and UDP-based protocols, respectively. In either

case 'port' corresponds to the primary port number being

used by the group. applTCPProtoID and applUDPProtoID are

defined in [5]."

::= {mtaGroupEntry 24}

mtaGroupName OBJECT-TYPE

SYNTAX DisplayString

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"A descriptive name for the group. If this group connects to

a single remote MTA this should be the name of that MTA. If

this in turn is an Internet MTA this should be the domain name.

For an OSI MTA it should be the string encoded distinguished

name of the managed object using the format defined in RFC-1485.

For X.400(1984) MTAs which do not have a Distinguished Name,

the RFC-1327 syntax 'mta in globalid' should be used."

::= {mtaGroupEntry 25}

mtaGroupAssociationTable OBJECT-TYPE

SYNTAX SEQUENCE OF MtaGroupAssociationEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The table holding information regarding the associations

for each MTA group."

::= {mta 3}

mtaGroupAssociationEntry OBJECT-TYPE

SYNTAX MtaGroupAssociationEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"The entry holding information regarding the associations

for each MTA group."

INDEX {applIndex, mtaGroupIndex, mtaGroupAssociationIndex}

::= {mtaGroupAssociationTable 1}

MtaGroupAssociationEntry ::= SEQUENCE {

mtaGroupAssociationIndex

INTEGER

}

mtaGroupAssociationIndex OBJECT-TYPE

SYNTAX INTEGER (1..2147483647)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"Reference into association table to allow correlation of

this group's active associations with the association table."

::= {mtaGroupAssociationEntry 1}

-- Conformance information

mtaConformance OBJECT IDENTIFIER ::= {mta 4}

mtaGroups OBJECT IDENTIFIER ::= {mtaConformance 1}

mtaCompliances OBJECT IDENTIFIER ::= {mtaConformance 2}

-- Compliance statements

mtaCompliance MODULE-COMPLIANCE

STATUS current

DESCRIPTION

"The compliance statement for SNMPv2 entities which

implement the Mail Monitoring MIB for basic

monitoring of MTAs."

MODULE -- this module

MANDATORY-GROUPS {mtaGroup}

::= {mtaCompliances 1}

mtaAssocCompliance MODULE-COMPLIANCE

STATUS current

DESCRIPTION

"The compliance statement for SNMPv2 entities which

implement the Mail Monitoring MIB for monitoring of

MTAs and their associations."

MODULE -- this module

MANDATORY-GROUPS {mtaGroup, mtaAssocGroup}

::= {mtaCompliances 2}

-- Units of conformance

mtaGroup OBJECT-GROUP

OBJECTS {

mtaReceivedMessages, mtaStoredMessages,

mtaTransmittedMessages, mtaReceivedVolume, mtaStoredVolume,

mtaTransmittedVolume, mtaReceivedRecipients,

mtaStoredRecipients, mtaTransmittedRecipients,

mtaGroupReceivedMessages, mtaGroupRejectedMessages,

mtaGroupStoredMessages, mtaGroupTransmittedMessages,

mtaGroupReceivedVolume, mtaGroupStoredVolume,

mtaGroupTransmittedVolume, mtaGroupReceivedRecipients,

mtaGroupStoredRecipients, mtaGroupTransmittedRecipients,

mtaGroupOldestMessageStored, mtaGroupInboundAssociations,

mtaGroupOutboundAssociations,

mtaGroupAccumulatedInboundAssociations,

mtaGroupAccumulatedOutboundAssociations,

mtaGroupLastInboundActivity, mtaGroupLastOutboundActivity,

mtaGroupRejectedInboundAssociations,

mtaGroupFailedOutboundAssociations,

mtaGroupInboundRejectionReason,

mtaGroupOutboundConnectFailureReason,

mtaGroupScheduledRetry, mtaGroupMailProtocol, mtaGroupName}

STATUS current

DESCRIPTION

"A collection of objects providing basic monitoring of MTAs."

::= {mtaGroups 1}

mtaAssocGroup OBJECT-GROUP

OBJECTS {

mtaGroupAssociationIndex}

STATUS current

DESCRIPTION

"A collection of objects providing monitoring of MTA

associations."

::= {mtaGroups 2}

END

6. Acknowledgements

This document is a product of the Mail and Directory Management

(MADMAN) Working Group. It is based on an earlier MIB designed by S.

Kille, T. Lenggenhager, D. Partain, and W. Yeong.

7. References

[1] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Structure

of Management Information for version 2 of the Simple Network

Management Protocol (SNMPv2)", RFC1442, SNMP Research, Inc.,

Hughes LAN Systems, Dover Beach Consulting, Inc., Carnegie Mellon

University, April 1993.

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

Base for Network Management of TCP/IP-based internets: MIB-II",

STD 17, RFC1213, Hughes LAN Systems, Performance Systems

International, March 1991.

[3] Galvin, J., and K. McCloghrie, K., "Administrative Model for

version 2 of the Simple Network Management Protocol (SNMPv2)",

RFC1445, Trusted Information Systems, Hughes LAN Systems, April

1993.

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

Operations for version 2 of the Simple Network Management

Protocol (SNMPv2)", RFC1448, SNMP Research, Inc., Hughes LAN

Systems, Dover Beach Consulting, Inc., Carnegie Mellon

University, April 1993.

[5] Kille, S., WG Chair, and N. Freed, Editor, "The Network Services

Monitoring MIB", RFC1565, ISODE Consortium, Innosoft, January

1994.

8. Security Considerations

Security issues are not discussed in this memo.

9. Authors' Addresses

Steve Kille, WG Chair

ISODE Consortium

The Dome, The Square

Richmond TW9 1DT

UK

Phone: +44 81 332 9091

EMail: S.Kille@isode.com

Ned Freed, Editor

Innosoft International, Inc.

250 West First Street, Suite 240

Claremont, CA 91711

USA

Phone: +1 909 624 7907

Fax: +1 909 621 5319

EMail: ned@innosoft.com

 
 
 
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