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RFC1743 - IEEE 802.5 MIB using SMIv2

王朝other·作者佚名  2008-05-31
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Network Working Group K. McCloghrie

Request for Comments: 1743 E. Decker

Obsoletes: 1231 cisco Systems, Inc.

Category: Standards Track December 1994

IEEE 802.5 MIB using SMIv2

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 ............................................. 1

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

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

3. Overview ................................................. 2

3.1 MAC Addresses ........................................... 3

3.2 Relationship to RFC1213 ................................ 3

3.3 Relationship to RFC1573 ................................ 3

3.3.1 Layering Model ........................................ 3

3.3.2 Virtual Circuits ...................................... 3

3.3.3 ifTestTable ........................................... 3

3.3.4 ifRcvAddressTable ..................................... 4

3.3.5 ifPhysAddress ......................................... 4

3.3.6 ifType ................................................ 4

4. Definitions .............................................. 4

5. Acknowledgements ......................................... 23

6. References ............................................... 23

Appendix A. Changes from RFC1231 ........................... 24

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

Authors' Addresses .......................................... 25

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, it describes managed objects used for managing

subnetworks which use the IEEE 802.5 Token Ring technology described

in 802.5 Token Ring Access Method and Physical Layer Specifications,

IEEE Standard 802.5-1989 [7]. This memo is a replacement for RFC

1231.

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. Overview

This memo defines three tables: the 802.5 Interface Table, which

contains state and parameter information which is specific to 802.5

interfaces, the 802.5 Statistics Table, which contains 802.5

interface statistics, and the 802.5 Timer Table, which contains the

values of 802.5-defined timers. A managed system will have one entry

in the 802.5 Interface Table and one entry in the 802.5 Statistics

Table for each of its 802.5 interfaces. The 802.5 Timer Table is

obsolete, but its definition has been retained in this memo for

backward compatibility.

This memo also defines OBJECT IDENTIFIERs, some to identify interface

tests for use with the ifTestTable [6], and some to identify Token

Ring interface Chip Sets.

3.1. MAC Addresses

All representations of MAC addresses in this MIB Module use the

MacAddress textual convention [5] for which the address is in the

"canonical" order defined by IEEE 802.1a, i.e., as if it were

transmitted least significant bit first, even though 802.5 requires

MAC addresses to be transmitted most significant bit first.

16-bit addresses, if needed, are represented by setting their upper 4

octets to all zeros, i.e., AAFF would be represented as 00000000AAFF.

3.2. Relationship to RFC1213

When this MIB module is used in conjunction with the "old" (i.e.,

pre-RFC1573) interfaces group, the relationship between an 802.5

interface and an interface in the context of the RFC1213 is one-

to-one. That is, the value of an ifIndex object instance for an

802.5 interface can be directly used to identify corresponding

instances of the objects defined in this memo.

3.3. Relationship to RFC1573

RFC1573, the Interface MIB Evolution, requires that any MIB module

which is an adjunct of the Interface MIB, clarify specific areas

within the Interface MIB. These areas were intentionally left vague

in RFC1573 to avoid over constraining the MIB module, thereby

precluding management of certain media-types.

Section 3.3 of RFC1573 enumerates several areas which a media-

specific MIB module must clarify. Each of these areas is addressed

in a following subsection. The implementor is referred to RFC1573

in order to understand the general intent of these areas.

3.3.1. Layering Model

For the typical usage of this IEEE 802.5 MIB module, there will be no

sub-layers "above" or "below" the 802.5 interface. However, this MIB

module does not preclude such layering.

3.3.2. Virtual Circuits

802.5 does not support virtual circuits.

3.3.3. ifTestTable

This MIB module defines two tests for 802.5 interfaces: Insertion and

Loopback. Implementation of these tests is not required.

3.3.4. ifRcvAddressTable

The ifRcvAddressTable is defined to contains all MAC addresses,

unicast, multicast (group) and broadcast, for which an interface will

receive packets. For 802.5 interfaces, its use includes functional

addresses. The format of the address, contained in

ifRcvAddressAddress, is the same as for ifPhysAddress.

For functional addresses on a particular 802.5 interface, only one

ifRcvAddressTable entry is required. That entry is the one for the

address which has the functional address bit ANDed with the bit mask

of all functional addresses for which the interface will accept

frames.

3.3.5. ifPhysAddress

For an 802.5 interface, ifPhysAddress contains the interface's IEEE

MAC address, stored as an octet string of length 6, in IEEE 802.1a

"canonical" order, i.e., the Group Bit is positioned as the low-order

bit (0x01) of the first octet.

3.3.6. ifType

The objects defined in this memo apply to each interface for which

the ifType has the value:

iso88025-tokenRing(9)

4. Definitions

TOKENRING-MIB DEFINITIONS ::= BEGIN

IMPORTS

MODULE-IDENTITY, OBJECT-TYPE, OBJECT-IDENTITY,

Counter32, Integer32 FROM SNMPv2-SMI

transmission FROM RFC1213-MIB

MacAddress,TimeStamp FROM SNMPv2-TC

MODULE-COMPLIANCE, OBJECT-GROUP FROM SNMPv2-CONF;

dot5 MODULE-IDENTITY

LAST-UPDATED "9410231150Z"

ORGANIZATION "IETF Interfaces MIB Working Group"

CONTACT-INFO

" Keith McCloghrie

Postal: cisco Systems, Inc.

170 West Tasman Drive,

San Jose, CA 95134-1706

US

Phone: +1 408 526 5260

EMail: kzm@cisco.com"

DESCRIPTION

"The MIB module for IEEE Token Ring entities."

::= { transmission 9 }

-- The 802.5 Interface Table

-- This table contains state and parameter information which

-- is specific to 802.5 interfaces. It is mandatory that

-- systems having 802.5 interfaces implement this table in

-- addition to the ifTable (see RFCs 1213 and 1573).

dot5Table OBJECT-TYPE

SYNTAX SEQUENCE OF Dot5Entry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"This table contains Token Ring interface

parameters and state variables, one entry

per 802.5 interface."

::= { dot5 1 }

dot5Entry OBJECT-TYPE

SYNTAX Dot5Entry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"A list of Token Ring status and parameter

values for an 802.5 interface."

INDEX { dot5IfIndex }

::= { dot5Table 1 }

Dot5Entry ::= SEQUENCE {

dot5IfIndex Integer32,

dot5Commands INTEGER,

dot5RingStatus INTEGER,

dot5RingState INTEGER,

dot5RingOpenStatus INTEGER,

dot5RingSpeed INTEGER,

dot5UpStream MacAddress,

dot5ActMonParticipate INTEGER,

dot5Functional MacAddress,

dot5LastBeaconSent TimeStamp

}

dot5IfIndex OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The value of this object identifies the

802.5 interface for which this entry

contains management information. The

value of this object for a particular

interface has the same value as the

ifIndex object, defined in MIB-II for

the same interface."

::= { dot5Entry 1 }

dot5Commands OBJECT-TYPE

SYNTAX INTEGER {

noop(1),

open(2),

reset(3),

close(4)

}

MAX-ACCESS read-write

STATUS current

DESCRIPTION

"When this object is set to the value of

open(2), the station should go into the

open state. The progress and success of

the open is given by the values of the

objects dot5RingState and

dot5RingOpenStatus.

When this object is set to the value

of reset(3), then the station should do

a reset. On a reset, all MIB counters

should retain their values, if possible.

Other side affects are dependent on the

hardware chip set.

When this object is set to the value

of close(4), the station should go into

the stopped state by removing itself

from the ring.

Setting this object to a value of

noop(1) has no effect.

When read, this object always has a

value of noop(1).

The open(2) and close(4) values

correspond to the up(1) and down(2) values

of MIB-II's ifAdminStatus and ifOperStatus,

i.e., the setting of ifAdminStatus and

dot5Commands affects the values of both

dot5Commands and ifOperStatus."

::= { dot5Entry 2 }

dot5RingStatus OBJECT-TYPE

SYNTAX INTEGER (0..262143)

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The current interface status which can

be used to diagnose fluctuating problems

that can occur on token rings, after a

station has successfully been added to

the ring.

Before an open is completed, this

object has the value for the 'no status'

condition. The dot5RingState and

dot5RingOpenStatus objects provide for

debugging problems when the station

can not even enter the ring.

The object's value is a sum of

values, one for each currently applicable

condition. The following values are

defined for various conditions:

0 = No Problems detected

32 = Ring Recovery

64 = Single Station

256 = Remove Received

512 = reserved

1024 = Auto-Removal Error

2048 = Lobe Wire Fault

4096 = Transmit Beacon

8192 = Soft Error

16384 = Hard Error

32768 = Signal Loss

131072 = no status, open not completed."

::= { dot5Entry 3 }

dot5RingState OBJECT-TYPE

SYNTAX INTEGER {

opened(1),

closed(2),

opening(3),

closing(4),

openFailure(5),

ringFailure(6)

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The current interface state with respect

to entering or leaving the ring."

::= { dot5Entry 4 }

dot5RingOpenStatus OBJECT-TYPE

SYNTAX INTEGER {

noOpen(1), -- no open attempted

badParam(2),

lobeFailed(3),

signalLoss(4),

insertionTimeout(5),

ringFailed(6),

beaconing(7),

duplicateMAC(8),

requestFailed(9),

removeReceived(10),

open(11) -- last open successful

}

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This object indicates the success, or the

reason for failure, of the station's most

recent attempt to enter the ring."

::= { dot5Entry 5 }

dot5RingSpeed OBJECT-TYPE

SYNTAX INTEGER {

unknown(1),

oneMegabit(2),

fourMegabit(3),

sixteenMegabit(4)

}

MAX-ACCESS read-write

STATUS current

DESCRIPTION

"The ring-speed at the next insertion into

the ring. Note that this may or may not be

different to the current ring-speed which is

given by MIB-II's ifSpeed. For interfaces

which do not support changing ring-speed,

dot5RingSpeed can only be set to its current

value. When dot5RingSpeed has the value

unknown(1), the ring's actual ring-speed is

to be used."

::= { dot5Entry 6 }

dot5UpStream OBJECT-TYPE

SYNTAX MacAddress

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The MAC-address of the up stream neighbor

station in the ring."

::= { dot5Entry 7 }

dot5ActMonParticipate OBJECT-TYPE

SYNTAX INTEGER {

true(1),

false(2)

}

MAX-ACCESS read-write

STATUS current

DESCRIPTION

"If this object has a value of true(1) then

this interface will participate in the

active monitor selection process. If the

value is false(2) then it will not.

Setting this object does not take effect

until the next Active Monitor election, and

might not take effect until the next time

the interface is opened."

::= { dot5Entry 8 }

dot5Functional OBJECT-TYPE

SYNTAX MacAddress

MAX-ACCESS read-write

STATUS current

DESCRIPTION

"The bit mask of all Token Ring functional

addresses for which this interface will

accept frames."

::= { dot5Entry 9 }

dot5LastBeaconSent OBJECT-TYPE

SYNTAX TimeStamp

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The value of MIB-II's sysUpTime object at which

the local system last transmitted a Beacon frame

on this interface."

::= { dot5Entry 10 }

-- The 802.5 Statistics Table

-- This table contains statistics and error counter which are

-- specific to 802.5 interfaces. It is mandatory that systems

-- having 802.5 interfaces implement this table.

dot5StatsTable OBJECT-TYPE

SYNTAX SEQUENCE OF Dot5StatsEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"A table containing Token Ring statistics,

one entry per 802.5 interface.

All the statistics are defined using

the syntax Counter32 as 32-bit wrap around

counters. Thus, if an interface's

hardware maintains these statistics in

16-bit counters, then the agent must read

the hardware's counters frequently enough

to prevent loss of significance, in order

to maintain 32-bit counters in software."

::= { dot5 2 }

dot5StatsEntry OBJECT-TYPE

SYNTAX Dot5StatsEntry

MAX-ACCESS not-accessible

STATUS current

DESCRIPTION

"An entry contains the 802.5 statistics

for a particular interface."

INDEX { dot5StatsIfIndex }

::= { dot5StatsTable 1 }

Dot5StatsEntry ::= SEQUENCE {

dot5StatsIfIndex Integer32,

dot5StatsLineErrors Counter32,

dot5StatsBurstErrors Counter32,

dot5StatsACErrors Counter32,

dot5StatsAbortTransErrors Counter32,

dot5StatsInternalErrors Counter32,

dot5StatsLostFrameErrors Counter32,

dot5StatsReceiveCongestions Counter32,

dot5StatsFrameCopiedErrors Counter32,

dot5StatsTokenErrors Counter32,

dot5StatsSoftErrors Counter32,

dot5StatsHardErrors Counter32,

dot5StatsSignalLoss Counter32,

dot5StatsTransmitBeacons Counter32,

dot5StatsRecoverys Counter32,

dot5StatsLobeWires Counter32,

dot5StatsRemoves Counter32,

dot5StatsSingles Counter32,

dot5StatsFreqErrors Counter32

}

dot5StatsIfIndex OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The value of this object identifies the

802.5 interface for which this entry

contains management information. The

value of this object for a particular

interface has the same value as MIB-II's

ifIndex object for the same interface."

::= { dot5StatsEntry 1 }

dot5StatsLineErrors OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This counter is incremented when a frame

or token is copied or repeated by a

station, the E bit is zero in the frame

or token and one of the following

conditions exists: 1) there is a

non-data bit (J or K bit) between the SD

and the ED of the frame or token, or

2) there is an FCS error in the frame."

::= { dot5StatsEntry 2 }

dot5StatsBurstErrors OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This counter is incremented when a station

detects the absence of transitions for five

half-bit timers (burst-five error)."

::= { dot5StatsEntry 3 }

dot5StatsACErrors OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This counter is incremented when a station

receives an AMP or SMP frame in which A is

equal to C is equal to 0, and then receives

another SMP frame with A is equal to C is

equal to 0 without first receiving an AMP

frame. It denotes a station that cannot set

the AC bits properly."

::= { dot5StatsEntry 4 }

dot5StatsAbortTransErrors OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This counter is incremented when a station

transmits an abort delimiter while

transmitting."

::= { dot5StatsEntry 5 }

dot5StatsInternalErrors OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This counter is incremented when a station

recognizes an internal error."

::= { dot5StatsEntry 6 }

dot5StatsLostFrameErrors OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This counter is incremented when a station

is transmitting and its TRR timer expires.

This condition denotes a condition where a

transmitting station in strip mode does not

receive the trailer of the frame before the

TRR timer goes off."

::= { dot5StatsEntry 7 }

dot5StatsReceiveCongestions OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This counter is incremented when a station

recognizes a frame addressed to its

specific address, but has no available

buffer space indicating that the station

is congested."

::= { dot5StatsEntry 8 }

dot5StatsFrameCopiedErrors OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This counter is incremented when a station

recognizes a frame addressed to its

specific address and detects that the FS

field A bits are set to 1 indicating a

possible line hit or duplicate address."

::= { dot5StatsEntry 9 }

dot5StatsTokenErrors OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"This counter is incremented when a station

acting as the active monitor recognizes an

error condition that needs a token

transmitted."

::= { dot5StatsEntry 10 }

dot5StatsSoftErrors OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of Soft Errors the interface

has detected. It directly corresponds to

the number of Report Error MAC frames

that this interface has transmitted.

Soft Errors are those which are

recoverable by the MAC layer protocols."

::= { dot5StatsEntry 11 }

dot5StatsHardErrors OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of times this interface has

detected an immediately recoverable

fatal error. It denotes the number of

times this interface is either

transmitting or receiving beacon MAC

frames."

::= { dot5StatsEntry 12 }

dot5StatsSignalLoss OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of times this interface has

detected the loss of signal condition from

the ring."

::= { dot5StatsEntry 13 }

dot5StatsTransmitBeacons OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of times this interface has

transmitted a beacon frame."

::= { dot5StatsEntry 14 }

dot5StatsRecoverys OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of Claim Token MAC frames

received or transmitted after the interface

has received a Ring Purge MAC frame. This

counter signifies the number of times the

ring has been purged and is being recovered

back into a normal operating state."

::= { dot5StatsEntry 15 }

dot5StatsLobeWires OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of times the interface has

detected an open or short circuit in the

lobe data path. The adapter will be closed

and dot5RingState will signify this

condition."

::= { dot5StatsEntry 16 }

dot5StatsRemoves OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of times the interface has

received a Remove Ring Station MAC frame

request. When this frame is received

the interface will enter the close state

and dot5RingState will signify this

condition."

::= { dot5StatsEntry 17 }

dot5StatsSingles OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of times the interface has

sensed that it is the only station on the

ring. This will happen if the interface

is the first one up on a ring, or if

there is a hardware problem."

::= { dot5StatsEntry 18 }

dot5StatsFreqErrors OBJECT-TYPE

SYNTAX Counter32

MAX-ACCESS read-only

STATUS current

DESCRIPTION

"The number of times the interface has

detected that the frequency of the

incoming signal differs from the expected

frequency by more than that specified by

the IEEE 802.5 standard."

::= { dot5StatsEntry 19 }

-- The Timer Table

-- This group contains the values of timers for 802.5

-- interfaces. This table is obsolete, but its definition

-- is retained here for backwards compatibility.

dot5TimerTable OBJECT-TYPE

SYNTAX SEQUENCE OF Dot5TimerEntry

MAX-ACCESS not-accessible

STATUS obsolete

DESCRIPTION

"This table contains Token Ring interface

timer values, one entry per 802.5

interface."

::= { dot5 5 }

dot5TimerEntry OBJECT-TYPE

SYNTAX Dot5TimerEntry

MAX-ACCESS not-accessible

STATUS obsolete

DESCRIPTION

"A list of Token Ring timer values for an

802.5 interface."

INDEX { dot5TimerIfIndex }

::= { dot5TimerTable 1 }

Dot5TimerEntry ::= SEQUENCE {

dot5TimerIfIndex Integer32,

dot5TimerReturnRepeat Integer32,

dot5TimerHolding Integer32,

dot5TimerQueuePDU Integer32,

dot5TimerValidTransmit Integer32,

dot5TimerNoToken Integer32,

dot5TimerActiveMon Integer32,

dot5TimerStandbyMon Integer32,

dot5TimerErrorReport Integer32,

dot5TimerBeaconTransmit Integer32,

dot5TimerBeaconReceive Integer32

}

dot5TimerIfIndex OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS obsolete

DESCRIPTION

"The value of this object identifies the

802.5 interface for which this entry

contains timer values. The value of

this object for a particular interface

has the same value as MIB-II's ifIndex

object for the same interface."

::= { dot5TimerEntry 1 }

dot5TimerReturnRepeat OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS obsolete

DESCRIPTION

"The time-out value used to ensure the

interface will return to Repeat State, in

units of 100 micro-seconds. The value

should be greater than the maximum ring

latency."

::= { dot5TimerEntry 2 }

dot5TimerHolding OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS obsolete

DESCRIPTION

"Maximum period of time a station is

permitted to transmit frames after capturing

a token, in units of 100 micro-seconds."

::= { dot5TimerEntry 3 }

dot5TimerQueuePDU OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS obsolete

DESCRIPTION

"The time-out value for enqueuing of an SMP

PDU after reception of an AMP or SMP

frame in which the A and C bits were

equal to 0, in units of 100

micro-seconds."

::= { dot5TimerEntry 4 }

dot5TimerValidTransmit OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS obsolete

DESCRIPTION

"The time-out value used by the active

monitor to detect the absence of valid

transmissions, in units of 100

micro-seconds."

::= { dot5TimerEntry 5 }

dot5TimerNoToken OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS obsolete

DESCRIPTION

"The time-out value used to recover from

various-related error situations.

If N is the maximum number of stations on

the ring, the value of this timer is

normally:

dot5TimerReturnRepeat + N*dot5TimerHolding."

::= { dot5TimerEntry 6 }

dot5TimerActiveMon OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS obsolete

DESCRIPTION

"The time-out value used by the active

monitor to stimulate the enqueuing of an

AMP PDU for transmission, in units of

100 micro-seconds."

::= { dot5TimerEntry 7 }

dot5TimerStandbyMon OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS obsolete

DESCRIPTION

"The time-out value used by the stand-by

monitors to ensure that there is an active

monitor on the ring and to detect a

continuous stream of tokens, in units of

100 micro-seconds."

::= { dot5TimerEntry 8 }

dot5TimerErrorReport OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS obsolete

DESCRIPTION

"The time-out value which determines how

often a station shall send a Report Error

MAC frame to report its error counters,

in units of 100 micro-seconds."

::= { dot5TimerEntry 9 }

dot5TimerBeaconTransmit OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS obsolete

DESCRIPTION

"The time-out value which determines how

long a station shall remain in the state

of transmitting Beacon frames before

entering the Bypass state, in units of

100 micro-seconds."

::= { dot5TimerEntry 10 }

dot5TimerBeaconReceive OBJECT-TYPE

SYNTAX Integer32

MAX-ACCESS read-only

STATUS obsolete

DESCRIPTION

"The time-out value which determines how

long a station shall receive Beacon

frames from its downstream neighbor

before entering the Bypass state, in

units of 100 micro-seconds."

::= { dot5TimerEntry 11 }

-- 802.5 Interface Tests

dot5Tests OBJECT IDENTIFIER ::= { dot5 3 }

-- RFC1573 defines the ifTestTable, through which a

-- network manager can instruct an agent to test an interface

-- for various faults. A test to be performed is identified

-- as an OBJECT IDENTIFIER.

-- The Insert Function test

dot5TestInsertFunc OBJECT-IDENTITY

STATUS current

DESCRIPTION

"Invoking this test causes the station to test the insert

ring logic of the hardware if the station's lobe media

cable is connected to a wiring concentrator. Note that

this command inserts the station into the network, and

thus, could cause problems if the station is connected

to a operational network."

::= { dot5Tests 1 }

-- The Full-Duplex Loop Back test

dot5TestFullDuplexLoopBack OBJECT-IDENTITY

STATUS current

DESCRIPTION

"Invoking this test on a 802.5 interface causes the

interface to check the path from memory through the

chip set's internal logic and back to memory, thus

checking the proper functioning of the system's

interface to the chip set."

::= { dot5Tests 2 }

-- 802.5 Hardware Chip Sets

-- RFC1229 specified an object, ifExtnsChipSet, with the

-- syntax of OBJECT IDENTIFIER, to identify the hardware

-- chip set in use by an interface. RFC1573 obsoletes

-- the use of ifExtnsChipSet. However, the following

-- definitions are retained for backwards compatibility.

dot5ChipSets OBJECT IDENTIFIER ::= { dot5 4 }

dot5ChipSetIBM16 OBJECT-IDENTITY

STATUS current

DESCRIPTION

"IBM's 16/4 Mbs chip set."

::= { dot5ChipSets 1 }

dot5ChipSetTItms380 OBJECT-IDENTITY

STATUS current

DESCRIPTION

"Texas Instruments' TMS 380 4Mbs chip-set"

::= { dot5ChipSets 2 }

dot5ChipSetTItms380c16 OBJECT-IDENTITY

STATUS current

DESCRIPTION

"Texas Instruments' TMS 380C16 16/4 Mbs chip-set"

::= { dot5ChipSets 3 }

-- conformance information

dot5Conformance OBJECT IDENTIFIER ::= { dot5 5 }

dot5Groups OBJECT IDENTIFIER ::= { dot5Conformance 1 }

dot5Compliances OBJECT IDENTIFIER ::= { dot5Conformance 2 }

-- compliance statements

dot5Compliance MODULE-COMPLIANCE

STATUS current

DESCRIPTION

"The compliance statement for SNMPv2 entities

which implement the IEEE 802.5 MIB."

MODULE -- this module

MANDATORY-GROUPS { dot5StateGroup, dot5StatsGroup }

OBJECT dot5ActMonParticipate

MIN-ACCESS read-only

DESCRIPTION

"Write access is not required."

OBJECT dot5Functional

MIN-ACCESS read-only

DESCRIPTION

"Write access is not required."

::= { dot5Compliances 1 }

-- units of conformance

dot5StateGroup OBJECT-GROUP

OBJECTS { dot5Commands, dot5RingStatus, dot5RingState,

dot5RingOpenStatus, dot5RingSpeed, dot5UpStream,

dot5ActMonParticipate, dot5Functional,

dot5LastBeaconSent

}

STATUS current

DESCRIPTION

"A collection of objects providing state information

and parameters for IEEE 802.5 interfaces."

::= { dot5Groups 1 }

dot5StatsGroup OBJECT-GROUP

OBJECTS { dot5StatsLineErrors, dot5StatsBurstErrors,

dot5StatsACErrors, dot5StatsAbortTransErrors,

dot5StatsInternalErrors, dot5StatsLostFrameErrors,

dot5StatsReceiveCongestions,

dot5StatsFrameCopiedErrors, dot5StatsTokenErrors,

dot5StatsSoftErrors, dot5StatsHardErrors,

dot5StatsSignalLoss, dot5StatsTransmitBeacons,

dot5StatsRecoverys, dot5StatsLobeWires,

dot5StatsRemoves, dot5StatsSingles,

dot5StatsFreqErrors

}

STATUS current

DESCRIPTION

"A collection of objects providing statistics for

IEEE 802.5 interfaces."

::= { dot5Groups 2 }

END

5. Acknowledgements

The changes from RFC1231 are the result of discussions on the IETF's

snmp mailing-list and in the Interfaces MIB Working Group.

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

Conventions for version 2 of the Simple Network Management

Protocol (SNMPv2)", RFC1443, SNMP Research,Inc., Hughes LAN

Systems, Dover Beach Consulting, Inc., Carnegie Mellon

University, April 1993.

[6] McCloghrie, K., and F. Kastenholz, "Evolution of the Interfaces

Group of MIB-II", RFC1573, Hughes LAN Systems, FTP Software, Jan

1994

[7] Institute of Electrical and Electronic Engineers, "Token Ring

Access Method and Physical Layer Specifications", IEEE Standard

802.5-1989, 1989.

APPENDIX A - Changes from RFC1231

This memo has the following differences from RFC1231:

(1) This memo is formatted using the SNMPv2 SMI.

(2) The relationship of the "open" and "close" states of

dot5Commands to the value of ifAdminStatus has been

clarified. In particular, the setting of one affects the

value of the other.

(3) The relationship dot5RingSpeed and ifSpeed has been

clarified. In particular, ifSpeed indicates the current

ring-speed; dot5RingSpeed indicates the ring-speed at the

next insertion into the ring. If the interface doesn't

support changing ring-speed, then dot5RingSpeed can only be

set to its current value. When dot5RingSpeed has the value

'unknown(1)', the ring-speed is to be set to the ring's

actual ring-speed.

(4) Write-access to dot5ActMonParticipate is not required, and a

change to the value of dot5ActMonParticipate does not take

effect until the next Active Monitor election.

(5) Write-access to dot5Functional is not required.

(6) A new object, dot5LastBeaconSent has been defined to contain

the timestamp of the last beacon frame sent.

(7) The dot5TimerTable has been designated as obsolete.

(8) Text has been added describing the applicability of RFC1573

[6] to 802.5 interfaces.

(9) Other minor editorial changes.

Security Considerations

Security issues are not discussed in this memo.

Authors' Addresses

Keith McCloghrie

cisco Systems, Inc.

170 West Tasman Drive,

San Jose, CA 95134-1706

Phone: (408) 526-5260

EMail: kzm@cisco.com

Eric B. Decker

cisco Systems, Inc.

1525 O'Brien Dr.

Menlo Park, CA 94025

Phone: (415) 688-8241

EMail: cire@cisco.com

 
 
 
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