RFC1285 - FDDI Management Information Base

Network Working Group J. Case

Request for Comments: 1285 SNMP Research, Incorporated

January 1992

FDDI Management Information Base

Status of this Memo

This memo is an extension to the SNMP MIB. This RFCspecifies an IAB

standards track protocol for the Internet community, and requests

discussion and suggestions for improvements. Please refer to the

current edition of the "IAB Official Protocol Standards" for the

standardization state and status of this protocol. Distribution of

this memo is unlimited.

Table of Contents

1. Abstract .............................................. 1

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

3. Objects ............................................... 2

3.1 Format of Definitions ................................ 2

4. Overview .............................................. 3

4.1 Textual Conventions .................................. 3

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

5.1 The SMT Group ........................................ 5

5.2 The MAC Group ........................................ 15

5.3 The PATH Group ....................................... 27

5.4 The PORT Group ....................................... 27

5.5 The ATTACHMENT Group ................................. 38

5.6 The Chip Set Group ................................... 42

6. Acknowledgements ...................................... 43

7. References ............................................ 45

Security Considerations................................... 46

Author's Address.......................................... 46

1. 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 devices which

implement the FDDI.

2. The Network Management Framework

The Internet-standard Network Management Framework consists of three

components. They are:

RFC1155 which defines the SMI, the mechanisms used for describing

and naming objects for the purpose of management. 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. RFC1213, defines MIB-II, an

evolution of MIB-I based on implementation eXPerience and new

operational requirements.

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.

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) [5]

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 [1] 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 [6],

subject to the additional requirements imposed by the SNMP.

3.1. Format of Definitions

Section 5 contains 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 [7].

4. Overview

This document defines the managed objects for FDDI devices which are

to be accessible via the Simple Network Management Protocol (SNMP).

At present, this applies to these values of the ifType variable in

the Internet-standard MIB:

fddi(15)

For these interfaces, the value of the ifSpecific variable in the

MIB-II [4] has the OBJECT IDENTIFIER value:

fddi OBJECT IDENTIFIER ::= { transmission 15 }

The definitions of the objects presented here draws heavily from

related work in the ANSI X3T9.5 committee and the SMT subcommittee of

that committee [8]. In fact, the definitions of the managed objects

in this document are, to the maximum extent possible, identical to

those identified by the ANSI committee. The semantics of each

managed object should be the same with syntactic changes made as

necessary to recast the objects in terms of the Internet-standard SMI

and MIB so as to be compatible with the SNMP. Examples of these

syntactic changes include remapping booleans to enumerated integers,

remapping bit strings to octet strings, and the like. In addition,

the naming of the objects was changed to achieve compatibility.

These minimal syntactic changes with no semantic changes should allow

implementations of SNMP manageable FDDI systems to share

instrumentation with other network management schemes and thereby

minimize implementation cost. In addition, the translation of

information conveyed by managed objects from one network management

scheme to another is eased by these shared definitions.

Only the essential variables, as indicated by their mandatory status

in the ANSI specification were retained in this document. The

importance of variables which have an optional status in the ANSI

specification were perceived as being less widely accepted.

4.1. Textual Conventions

Several new datatypes are introduced as a textual convention in this

MIB document. These textual conventions enhance the readability of

the document and ease comparisons with its ANSI counterpart. It

should be noted that the introduction of the following textual

conventions has no effect on either the syntax nor the semantics of

any managed objects. The use of these is merely an artifact of the

explanatory method used. Objects defined in terms of one of these

methods 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.

5. Object Definitions

RFC1285-MIB DEFINITIONS ::= BEGIN

IMPORTS

Counter

FROM RFC1155-SMI

transmission

FROM RFC1213-MIB

OBJECT-TYPE

FROM RFC-1212;

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

-- defined in [7].

-- this is the FDDI MIB module

fddi OBJECT IDENTIFIER ::= { transmission 15 }

-- textual conventions

FddiTime ::= INTEGER (0..2147483647)

-- This data type specifies octet units of 80 nanoseconds as

-- an integer value. It is used for Path Latency and

-- Synchronous Bandwidth values. The encoding is normal

-- integer representation (not twos complement).

FddiResourceId ::= INTEGER (0..65535)

-- This data type is used to refer to an instance of a MAC,

-- PORT, PATH, or ATTACHMENT Resource ID. Indexing begins

-- at 1. Zero is used to indicate the absence of a resource.

FddiSMTStationIdType ::= OCTET STRING (SIZE (8))

-- The unique identifier for the FDDI station. This is a

-- string of 8 octets, represented as

-- X' yy yy xx xx xx xx xx xx'

-- with the low order 6 octet (xx) from a unique IEEE

-- assigned address. The high order two bits of the IEEE

-- address, the group address bit and the administration bit

-- (Universal/Local) bit should both be zero. The first two

-- octets, the yy octets, are implementor-defined.

--

-- The representation of the address portion of the station id

-- is in the IEEE (ANSI/IEEE P802.1A) canonical notation for

-- 48 bit addresses. The canonical form is a 6-octet string

-- where the first octet contains the first 8 bits of the

-- address, with the I/G(Individual/Group) address bit as the

-- least significant bit and the U/L (Universal/Local) bit

-- as the next more significant bit, and so on. Note that

-- addresses in the ANSI FDDI standard SMT frames are

-- represented in FDDI MAC order.

FddiMACLongAddressType ::= OCTET STRING (SIZE (6))

-- The representation of long MAC addresses as management

-- values is in the IEEE (ANSI/IEEE P802.1A) canonical

-- notation for 48 bit addresses. The canonical form is a

-- 6-octet string where the first octet contains the first 8

-- bits of the address, with the I/G (Individual/Group)

-- address bit as the least significant bit and the U/L

-- (Universal/Local) bit as the next more significant bit,

-- and so on. Note that the addresses in the SMT frames are

-- represented in FDDI MAC order.

-- groups in the FDDI MIB module

snmpFddiSMT OBJECT IDENTIFIER ::= { fddi 1 }

snmpFddiMAC OBJECT IDENTIFIER ::= { fddi 2 }

snmpFddiPATH OBJECT IDENTIFIER ::= { fddi 3 }

snmpFddiPORT OBJECT IDENTIFIER ::= { fddi 4 }

snmpFddiATTACHMENT OBJECT IDENTIFIER ::= { fddi 5 }

snmpFddiChipSets OBJECT IDENTIFIER ::= { fddi 6 }

-- the SMT group

-- Implementation of the SMT group is mandatory for all

-- systems which implement manageable FDDI subsystems.

snmpFddiSMTNumber OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of SMT implementations (regardless of

their current state) on this network management

application entity. The value for this variable

must remain constant at least from one re-

initialization of the entity's network management

system to the next re-initialization."

::= { snmpFddiSMT 1 }

-- the SMT table

snmpFddiSMTTable OBJECT-TYPE

SYNTAX SEQUENCE OF SnmpFddiSMTEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A list of SMT entries. The number of entries is

given by the value of snmpFddiSMTNumber."

::= { snmpFddiSMT 2 }

snmpFddiSMTEntry OBJECT-TYPE

SYNTAX SnmpFddiSMTEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"An SMT entry containing information common to a

given SMT."

INDEX { snmpFddiSMTIndex }

::= { snmpFddiSMTTable 1 }

SnmpFddiSMTEntry ::=

SEQUENCE {

snmpFddiSMTIndex

INTEGER,

snmpFddiSMTStationId

FddiSMTStationIdType,

snmpFddiSMTOpVersionId

INTEGER,

snmpFddiSMTHiVersionId

INTEGER,

snmpFddiSMTLoVersionId

INTEGER,

snmpFddiSMTMACCt

INTEGER,

snmpFddiSMTNonMasterCt

INTEGER,

snmpFddiSMTMasterCt

INTEGER,

snmpFddiSMTPathsAvailable

INTEGER,

snmpFddiSMTConfigCapabilities

INTEGER,

snmpFddiSMTConfigPolicy

INTEGER,

snmpFddiSMTConnectionPolicy

INTEGER,

snmpFddiSMTTNotify

INTEGER,

snmpFddiSMTStatusReporting

INTEGER,

snmpFddiSMTECMState

INTEGER,

snmpFddiSMTCFState

INTEGER,

snmpFddiSMTHoldState

INTEGER,

snmpFddiSMTRemoteDisconnectFlag

INTEGER,

snmpFddiSMTStationAction

INTEGER

}

snmpFddiSMTIndex OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A unique value for each SMT. Its value ranges

between 1 and the value of snmpFddiSMTNumber. The

value for each SMT must remain constant at least

from one re-initialization of the entity's network

management system to the next re-initialization."

::= { snmpFddiSMTEntry 1 }

snmpFddiSMTStationId OBJECT-TYPE

SYNTAX FddiSMTStationIdType -- OCTET STRING (SIZE (8))

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Uniquely identifies an FDDI station."

REFERENCE

"ANSI { fddiSMT 11 }"

::= { snmpFddiSMTEntry 2 }

snmpFddiSMTOpVersionId OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The version that this station is using for its

operation (refer to ANSI 7.1.2.2)."

REFERENCE

"ANSI { fddiSMT 13 }"

::= { snmpFddiSMTEntry 3 }

snmpFddiSMTHiVersionId OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The highest version of SMT that this station

supports (refer to ANSI 7.1.2.2)."

REFERENCE

"ANSI { fddiSMT 14 }"

::= { snmpFddiSMTEntry 4 }

snmpFddiSMTLoVersionId OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The lowest version of SMT that this station

supports (refer to ANSI 7.1.2.2)."

REFERENCE

"ANSI { fddiSMT 15 }"

::= { snmpFddiSMTEntry 5 }

snmpFddiSMTMACCt OBJECT-TYPE

SYNTAX INTEGER (0..255)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of MACs in the station or

concentrator."

REFERENCE

"ANSI { fddiSMT 21 }"

::= { snmpFddiSMTEntry 6 }

snmpFddiSMTNonMasterCt OBJECT-TYPE

SYNTAX INTEGER (0..2)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of Non Master PORTs (A, B, or S PORTs)

in the station or concentrator."

REFERENCE

"ANSI { fddiSMT 22 }"

::= { snmpFddiSMTEntry 7 }

snmpFddiSMTMasterCt OBJECT-TYPE

SYNTAX INTEGER (0..255)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of Master PORTs in a node. If the

node is not a concentrator, the value is zero."

REFERENCE

"ANSI { fddiSMT 23 }"

::= { snmpFddiSMTEntry 8 }

snmpFddiSMTPathsAvailable OBJECT-TYPE

SYNTAX INTEGER (0..7)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A value that indicates the PATH types available

in the station.

The value is a sum. This value initially takes

the value zero, then for each type of PATH that

this node has available, 2 raised to a power is

added to the sum. The powers are according to the

following table:

Path Power

Primary 0

Secondary 1

Local 2

For example, a station having Primary and Local

PATHs available would have a value of 5 (2**0 +

2**2)."

REFERENCE

"ANSI { fddiSMT 24 }"

::= { snmpFddiSMTEntry 9 }

snmpFddiSMTConfigCapabilities OBJECT-TYPE

SYNTAX INTEGER (0..3)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A value that indicates capabilities that are

present in the node. If 'holdAvailable' is

present, this indicates support of the optional

Hold Function (refer to ANSI SMT 9.4.3.2). If

'CF-Wrap-AB' is present, this indicates that the

WRAP_AB state is forced.

The value is a sum. This value initially takes

the value zero, then for each of the configuration

policies currently enforced on the node, 2 raised

to a power is added to the sum. The powers are

according to the following table:

Policy Power

holdAvailable 0

CF-Wrap-AB 1 "

REFERENCE

"ANSI { fddiSMT 25 }"

::= { snmpFddiSMTEntry 10 }

snmpFddiSMTConfigPolicy OBJECT-TYPE

SYNTAX INTEGER (0..3)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"A value that indicates the configuration policies

currently enforced in the node (refer to ANSI SMT

9.4.3.2). The 'configurationHold' policy refers

to the Hold flag, and should not be present only

if the Hold function is supported. The 'CF-Wrap-

AB' policy refers to the CF_Wrap_AB flag.

The value is a sum. This value initially takes

the value zero, then for each of the configuration

policies currently enforced on the node, 2 raised

to a power is added to the sum. The powers are

according to the following table:

Policy Power

configurationHold 0

CF-Wrap-AB 1 "

REFERENCE

"ANSI { fddiSMT 26 }"

::= { snmpFddiSMTEntry 11 }

snmpFddiSMTConnectionPolicy OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"A value that indicates the connection policies

enforced at the station. A station sets the

corresponding policy for each of the connection

types that it rejects. The letter designations, X

and Y, in the 'rejectX-Y' names have the following

significance: X represents the PC-Type of the

local PORT and Y represents a PC-Neighbor in the

evaluation of Connection-Policy (PC-Type, PC-

Neighbor) that is done to determine the setting of

T-Val(3) in the PC-Signaling sequence (refer to

ANSI Section 9.6.3).

The value is a sum. This value initially takes

the value zero, then for each of the connection

policies currently enforced on the node, 2 raised

to a power is added to the sum. The powers are

according to the following table:

Policy Power

rejectA-A 0

rejectA-B 1

rejectA-S 2

rejectA-M 3

rejectB-A 4

rejectB-B 5

rejectB-S 6

rejectB-M 7

rejectS-A 8

rejectS-B 9

rejectS-S 10

rejectS-M 11

rejectM-A 12

rejectM-B 13

rejectM-S 14

rejectM-M 15

Implementors should note that the polarity of

these bits is different in different places in an

SMT system. Implementors should take appropriate

care."

REFERENCE

"ANSI { fddiSMT 27 }"

::= { snmpFddiSMTEntry 12 }

snmpFddiSMTTNotify OBJECT-TYPE

SYNTAX INTEGER (2..30)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The timer used in the Neighbor Notification

protocol, reported in seconds and ranging from 2

to 30 seconds (refer to ANSI SMT 8.3.1)."

REFERENCE

"ANSI { fddiSMT 29 }"

::= { snmpFddiSMTEntry 13 }

snmpFddiSMTStatusReporting OBJECT-TYPE

SYNTAX INTEGER { true(1), false(2) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Indicates whether the node implements the Status

Reporting Protocol. This object is included for

compatibility with products that were designed

prior to the adoption of this standard."

REFERENCE

"ANSI { fddiSMT 30 }"

::= { snmpFddiSMTEntry 14 }

snmpFddiSMTECMState OBJECT-TYPE

SYNTAX INTEGER {

ec0(1), -- Out

ec1(2), -- In

ec2(3), -- Trace

ec3(4), -- Leave

ec4(5), -- Path_Test

ec5(6), -- Insert

ec6(7), -- Check

ec7(8) -- Deinsert

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Indicates the current state of the ECM state

machine (refer to ANSI SMT 9.5.2)."

REFERENCE

"ANSI { fddiSMT 41 }"

::= { snmpFddiSMTEntry 15 }

snmpFddiSMTCFState OBJECT-TYPE

SYNTAX INTEGER {

cf0(1), -- Isolated

cf1(2), -- Wrap_S

cf2(3), -- Wrap_A

cf3(4), -- Wrap_B

cf4(5), -- Wrap_AB

cf5(6) -- Thru

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The attachment configuration for the station or

concentrator (refer to ANSI SMT 9.7.4.3)."

REFERENCE

"ANSI { fddiSMT 42 }"

::= { snmpFddiSMTEntry 16 }

snmpFddiSMTHoldState OBJECT-TYPE

SYNTAX INTEGER {

not-implemented(1), -- holding not implemented

not-holding(2),

holding-prm(3), -- holding on primary

holding-sec(4) -- holding on secondary

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"This value indicates the current state of the

Hold function. The values are determined as

follows: 'holding-prm' is set if the primary ring

is operational and the Recovery Enable Flag is

clear (NOT NO_Flag(primary) AND NOT RE_Flag). is

set if the secondary ring is operational and the

Recovery Enable Flag is clear (NOT

NO_Flag(secondary) AND NOT RE_Flag). Ref 9.4.3.

and 10.3.1. the primary or secondary, i.e., the

Recovery Enable, RE_Flag, is set."

REFERENCE

"ANSI { fddiSMT 43 }"

::= { snmpFddiSMTEntry 17 }

snmpFddiSMTRemoteDisconnectFlag OBJECT-TYPE

SYNTAX INTEGER { true(1), false(2) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A flag indicating that the station was remotely

disconnected from the network. A station requires

a Connect Action (SM_CM_CONNECT.request (Connect))

to rejoin and clear the flag (refer to ANSI

6.4.5.2)."

REFERENCE

"ANSI { fddiSMT 44 }"

::= { snmpFddiSMTEntry 18 }

snmpFddiSMTStationAction OBJECT-TYPE

SYNTAX INTEGER {

other(1), -- none of the following

connect(2),

disconnect(3),

path-Test(4),

self-Test(5)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"This object, when read, always returns a value of

other(1). The behavior of setting this variable

to each of the acceptable values is as follows:

Other: Results in a badValue error.

Connect: Generates an

SM_CM_Connect.request(connect) signal to CMT

indicating that the ECM State machine is to begin

a connection sequence. The

fddiSMTRemoteDisconnectFlag is cleared on the

setting of this variable to 1. See ANSI Ref

9.3.1.1.

Disconnect: Generates an

SM_CM_Connect.request(disconnect) signal to ECM

and sets the fddiSMTRemoteDisconnectFlag. See

ANSI Ref 9.3.1.1.

Path-Test: Initiates a station path test.

The Path_Test variable (See ANSI Ref. 9.4.1) is

set to Testing. The results of this action are

not specified in this standard.

Self-Test: Initiates a station self test.

The results of this action are not specified in

this standard.

Attempts to set this object to all other values

results in a badValue error. Agents may elect to

return a badValue error on attempts to set this

variable to path-Test(4) or self-Test(5)."

REFERENCE

"ANSI { fddiSMT 60 }"

::= { snmpFddiSMTEntry 19 }

-- the MAC group

-- Implementation of the MAC Group is mandatory for all

-- systems which implement manageable FDDI subsystems.

snmpFddiMACNumber OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of MAC implementations (across

all SMTs) on this network management application

entity. The value for this variable must remain

constant at least from one re-initialization of

the entity's network management system to the next

re-initialization."

::= { snmpFddiMAC 1 }

-- the MAC table

snmpFddiMACTable OBJECT-TYPE

SYNTAX SEQUENCE OF SnmpFddiMACEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A list of MAC entries. The number of entries is

given by the value of snmpFddiMACNumber."

::= { snmpFddiMAC 2 }

snmpFddiMACEntry OBJECT-TYPE

SYNTAX SnmpFddiMACEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A MAC entry containing information common to a

given MAC."

INDEX { snmpFddiMACSMTIndex, snmpFddiMACIndex }

::= { snmpFddiMACTable 1 }

SnmpFddiMACEntry ::=

SEQUENCE {

snmpFddiMACSMTIndex

INTEGER,

snmpFddiMACIndex

INTEGER,

snmpFddiMACFrameStatusCapabilities

INTEGER,

snmpFddiMACTMaxGreatestLowerBound

FddiTime,

snmpFddiMACTVXGreatestLowerBound

FddiTime,

snmpFddiMACPathsAvailable

INTEGER,

snmpFddiMACCurrentPath

INTEGER,

snmpFddiMACUpstreamNbr

FddiMACLongAddressType,

snmpFddiMACOldUpstreamNbr

FddiMACLongAddressType,

snmpFddiMACDupAddrTest

INTEGER,

snmpFddiMACPathsRequested

INTEGER,

snmpFddiMACDownstreamPORTType

INTEGER,

snmpFddiMACSMTAddress

FddiMACLongAddressType,

snmpFddiMACTReq

FddiTime,

snmpFddiMACTNeg

FddiTime,

snmpFddiMACTMax

FddiTime,

snmpFddiMACTvxValue

FddiTime,

snmpFddiMACTMin

FddiTime,

snmpFddiMACCurrentFrameStatus

INTEGER,

snmpFddiMACFrameCts

Counter,

snmpFddiMACErrorCts

Counter,

snmpFddiMACLostCts

Counter,

snmpFddiMACFrameErrorThreshold

INTEGER,

snmpFddiMACFrameErrorRatio

INTEGER,

snmpFddiMACRMTState

INTEGER,

snmpFddiMACDaFlag

INTEGER,

snmpFddiMACUnaDaFlag

INTEGER,

snmpFddiMACFrameCondition

INTEGER,

snmpFddiMACChipSet

OBJECT IDENTIFIER,

snmpFddiMACAction

INTEGER

}

snmpFddiMACSMTIndex OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of the SMT index associated with this

MAC."

::= { snmpFddiMACEntry 1 }

snmpFddiMACIndex OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A unique value for each MAC on the managed

entity. The MAC identified by a particular value

of this index is that identified by the same value

of an ifIndex object instance. That is, if a MAC

is associated with the interface whose value of

ifIndex in the Internet-Standard MIB is equal to

5, then the value of snmpFddiMACIndex shall also

equal 5. The value for each MAC must remain

constant at least from one re-initialization of

the entity's network management system to the next

re-initialization."

::= { snmpFddiMACEntry 2 }

snmpFddiMACFrameStatusCapabilities OBJECT-TYPE

SYNTAX INTEGER (0..1799)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A value that indicates the MAC's bridge and end-

station capabilities for operating in a bridged

FDDI network.

The value is a sum. This value initially takes

the value zero, then for each capability present,

2 raised to a power is added to the sum. The

powers are according to the following table:

Capability Power

FSC-Type0 0

-- MAC repeats A/C indicators as received on

-- copying with the intent to forward.

FSC-Type1 1

-- MAC sets C but not A on copying for

-- forwarding.

FSC-Type2 2

-- MAC resets C and sets A on C set and

-- A reset if the frame is not copied and the

-- frame was addressed to this MAC

FSC-Type0-programmable 8

-- Type0 capability is programmable

FSC-Type1-programmable 9

-- Type1 capability is programmable

FSC-Type2-programmable 10

-- Type2 capability is programmable

"

REFERENCE

"ANSI { fddiMAC 11 }"

::= { snmpFddiMACEntry 3 }

snmpFddiMACTMaxGreatestLowerBound OBJECT-TYPE

SYNTAX FddiTime

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The greatest lower bound of T_Max supported for

this MAC."

REFERENCE

"ANSI { fddiMAC 13 }"

::= { snmpFddiMACEntry 4 }

snmpFddiMACTVXGreatestLowerBound OBJECT-TYPE

SYNTAX FddiTime

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The greatest lower bound of TVX supported for

this MAC."

REFERENCE

"ANSI { fddiMAC 14 }"

::= { snmpFddiMACEntry 5 }

snmpFddiMACPathsAvailable OBJECT-TYPE

SYNTAX INTEGER (0..7)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A value that indicates the PATH types available

for this MAC.

The value is a sum. This value initially takes

the value zero, then for each type of PATH that

this MAC has available, 2 raised to a power is

added to the sum. The powers are according to the

following table:

Path Power

Primary 0

Secondary 1

Local 2 "

REFERENCE

"ANSI { fddiMAC 22 }"

::= { snmpFddiMACEntry 6 }

snmpFddiMACCurrentPath OBJECT-TYPE

SYNTAX INTEGER {

unknown(1),

primary(2),

secondary(4),

local(8),

isolated(16)

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Indicates the association of the MAC with a

station PATH."

REFERENCE

"ANSI { fddiMAC 23 }"

::= { snmpFddiMACEntry 7 }

snmpFddiMACUpstreamNbr OBJECT-TYPE

SYNTAX FddiMACLongAddressType -- OCTET STRING (SIZE (6))

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The MAC's upstream neighbor's long individual MAC

address. It may be determined by the Neighbor

Information Frame protocol (refer to ANSI SMT

7.2.1). The value shall be reported as '00 00 00

00 00 00' if it is unknown."

REFERENCE

"ANSI { fddiMAC 24 }"

::= { snmpFddiMACEntry 8 }

snmpFddiMACOldUpstreamNbr OBJECT-TYPE

SYNTAX FddiMACLongAddressType -- OCTET STRING (SIZE (6))

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The previous value of the MAC's upstream

neighbor's long individual MAC address. It may be

determined by the Neighbor Information Frame

protocol (refer to ANSI SMT 7.2.1). The value

shall be reported as '00 00 00 00 00 00' if it is

unknown."

REFERENCE

"ANSI { fddiMAC 26 }"

::= { snmpFddiMACEntry 9 }

snmpFddiMACDupAddrTest OBJECT-TYPE

SYNTAX INTEGER { none(1), pass(2), fail(3) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The Duplicate Address Test flag, Dup_Addr_Test

(refer to ANSI 8.3.1)."

REFERENCE

"ANSI { fddiMAC 29 }"

::= { snmpFddiMACEntry 10 }

snmpFddiMACPathsRequested OBJECT-TYPE

SYNTAX INTEGER

ACCESS read-write

STATUS mandatory

DESCRIPTION

"A value that indicates PATH(s) desired for this

MAC.

The value is a sum which represents the individual

PATHs that are desired. This value initially

takes the value zero, then for each type of PATH

that this node is, 2 raised to a power is added to

the sum. The powers are according to the

following table:

Path Power

Primary 0

Secondary 1

Local 2

Isolated 3

The precedence order is primary, secondary, local,

and then isolated if multiple PATHs are desired

are set."

REFERENCE

"ANSI { fddiMAC 32 }"

::= { snmpFddiMACEntry 11 }

snmpFddiMACDownstreamPORTType OBJECT-TYPE

SYNTAX INTEGER { a(1), b(2), s(3), m(4), unknown(5) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Indicates the PC-Type of the first port that is

downstream of this MAC (the exit port)."

REFERENCE

"ANSI { fddiMAC 33 }"

::= { snmpFddiMACEntry 12 }

snmpFddiMACSMTAddress OBJECT-TYPE

SYNTAX FddiMACLongAddressType -- OCTET STRING (SIZE (6))

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The 48 bit individual address of the MAC used for

SMT frames."

REFERENCE

"ANSI { fddiMAC 41 }"

::= { snmpFddiMACEntry 13 }

snmpFddiMACTReq OBJECT-TYPE

SYNTAX FddiTime

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The value of T-Req (refer to ANSI MAC 2.2.1 and

ANSI MAC 7.3.5.2)."

REFERENCE

"ANSI { fddiMAC 51 }"

::= { snmpFddiMACEntry 14 }

snmpFddiMACTNeg OBJECT-TYPE

SYNTAX FddiTime

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of T-Neg (refer to ANSI MAC 2.2.1 and

ANSI MAC 7.3.5.2)."

REFERENCE

"ANSI { fddiMAC 52 }"

::= { snmpFddiMACEntry 15 }

snmpFddiMACTMax OBJECT-TYPE

SYNTAX FddiTime

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of T-Max (refer to ANSI MAC 2.2.1 and

ANSI MAC 7.3.5.2)."

REFERENCE

"ANSI { fddiMAC 53 }"

::= { snmpFddiMACEntry 16 }

snmpFddiMACTvxValue OBJECT-TYPE

SYNTAX FddiTime

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of TvxValue (refer to ANSI MAC 2.2.1

and ANSI MAC 7.3.5.2)."

REFERENCE

"ANSI { fddiMAC 54 }"

::= { snmpFddiMACEntry 17 }

snmpFddiMACTMin OBJECT-TYPE

SYNTAX FddiTime

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of T-Min (refer to ANSI MAC 2.2.1 and

ANSI MAC 7.3.5.2)."

REFERENCE

"ANSI { fddiMAC 55 }"

::= { snmpFddiMACEntry 18 }

snmpFddiMACCurrentFrameStatus OBJECT-TYPE

SYNTAX INTEGER (0..7)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"A value that indicates the MAC's operational

frame status setting functionality.

The value is a sum. This value initially takes

the value zero, then for each functionality

present, 2 raised to a power is added to the sum.

The powers are according to the following table:

Functionality Power

FSC-Type0 0

-- MAC repeats A/C indicators as received

FSC-Type1 1

-- MAC sets C but not A on copying for

-- forwarding

FSC-Type2 2

-- MAC resets C and sets A on C set and A

-- reset if frame is not copied

"

REFERENCE

"ANSI { fddiMAC 63 }"

::= { snmpFddiMACEntry 19 }

snmpFddiMACFrameCts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Frame_Ct (refer to ANSI MAC 2.2.1)."

REFERENCE

"ANSI { fddiMAC 71 }"

::= { snmpFddiMACEntry 20 }

snmpFddiMACErrorCts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Error_Ct (refer to ANSI MAC 2.2.1)."

REFERENCE

"ANSI { fddiMAC 81 }"

::= { snmpFddiMACEntry 21 }

snmpFddiMACLostCts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Lost_Ct (refer to ANSI MAC 2.2.1)."

REFERENCE

"ANSI { fddiMAC 82 }"

::= { snmpFddiMACEntry 22 }

snmpFddiMACFrameErrorThreshold OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A threshold for determining when a MAC Condition

report should be generated. The condition is true

when the ratio, ((delta snmpFddiMACLostCt + delta

snmpFddiMACErrorCt) / (delta snmpFddiMACFrameCt +

delta snmpFddiMACLostCt)) x 2**16. exceeds the

threshold. It is used to determine when a station

has an unacceptable frame error threshold. The

sampling algorithm is implementation dependent.

Any attempt to set this variable to a value of

less than one shall result in a badValue error.

Those who are familiar with the SNMP management

framework will recognize that thresholds are not

in keeping with the SNMP philosophy. However,

this variable is supported by underlying SMT

implementations already and maintaining this

threshold should not pose an undue additional

burden on SNMP agent implementors."

REFERENCE

"ANSI { fddiMAC 95 }"

::= { snmpFddiMACEntry 23 }

snmpFddiMACFrameErrorRatio OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"This attribute is the actual ratio, ((delta

snmpFddiMACLostCt + delta snmpFddiMACErrorCt) /

(delta snmpFddiMACFrameCt + delta

snmpFddiMACLostCt)) x 2**16."

REFERENCE

"ANSI { fddiMAC 96 }"

::= { snmpFddiMACEntry 24 }

snmpFddiMACRMTState OBJECT-TYPE

SYNTAX INTEGER {

rm0(1), -- Isolated

rm1(2), -- Non_Op

rm2(3), -- Ring_Op

rm3(4), -- Detect

rm4(5), -- Non_Op_Dup

rm5(6), -- Ring_Op_Dup

rm6(7), -- Directed

rm7(8) -- Trace

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Indicates the current state of the Ring

Management state machine (refer to ANSI Section

10)."

REFERENCE

"ANSI { fddiMAC 111 }"

::= { snmpFddiMACEntry 25 }

snmpFddiMACDaFlag OBJECT-TYPE

SYNTAX INTEGER { true(1), false(2) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The RMT flag Duplicate Address Flag, DA_Flag

(refer to ANSI 10.3.1.2)."

REFERENCE

"ANSI { fddiMAC 112 }"

::= { snmpFddiMACEntry 26 }

snmpFddiMACUnaDaFlag OBJECT-TYPE

SYNTAX INTEGER { true(1), false(2) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A flag set when the upstream neighbor reports a

duplicate address condition. Reset when the

condition clears."

REFERENCE

"ANSI { fddiMAC 113 }"

::= { snmpFddiMACEntry 27 }

snmpFddiMACFrameCondition OBJECT-TYPE

SYNTAX INTEGER { true(1), false(2) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Indicates the MAC Condition is active when set.

Cleared when the condition clears and on power

up."

REFERENCE

"ANSI { fddiMAC 114 }"

::= { snmpFddiMACEntry 28 }

snmpFddiMACChipSet OBJECT-TYPE

SYNTAX OBJECT IDENTIFIER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"This object identifies the hardware chip(s) which

is (are) principally responsible for the

implementation of the MAC function. A few OBJECT

IDENTIFIERS are identified elsewhere in this memo.

For those The assignment of additional OBJECT

IDENTIFIERs to various types of hardware chip sets

is managed by the IANA. For example, vendors

whose chip sets are not defined in this memo may

request a number from the Internet Assigned

Numbers Authority (IANA) which indicates the

assignment of a enterprise specific suBTree which,

among other things, may be used to allocate OBJECT

IDENTIFIER assignments for that enterprise's chip

sets. Similarly, in the absence of an

appropriately assigned OBJECT IDENTIFIER in this

memo or in an enterprise specific subtree of a

chip vendor, a board or system vendor can request

a number for a subtree from the IANA and make an

appropriate assignment. It is desired that,

whenever possible, the same OBJECT IDENTIFIER be

used for all chips of a given type. Consequently,

the assignment made in this memo for a chip, if

any, should be used in preference to any other

assignment and the assignment made by the chip

manufacturer, if any, should be used in preference

to assignments made by users of those chips. If

the hardware chip set is unknown, the object

identifier

unknownChipSet OBJECT IDENTIFIER ::= { 0 0 }

is returned. Note that unknownChipSet is a

syntactically valid object identifier, and any

conformant implementation of ASN.1 and the BER

must be able to generate and recognize this

value."

::= { snmpFddiMACEntry 29 }

snmpFddiMACAction OBJECT-TYPE

SYNTAX INTEGER {

other(1), -- none of the following

enableLLCService(2),

disableLLCService(3),

connectMAC(4),

disconnectMAC(5)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"This object, when read, always returns a value of

other(1). The behavior of setting this variable

to each of the acceptable values is as follows:

Other: Results in a badValue

error.

enableLLCService: enables MAC service to

higher layers.

disableLLCService: disables MAC service to

higher layers.

connectMAC: connect this MAC in

station.

disconnectMAC: disconnect this MAC in

station.

Attempts to set this object to all other values

results in a badValue error."

REFERENCE

"ANSI { fddiMAC 130 }"

::= { snmpFddiMACEntry 30 }

-- the PATH group

-- the PATH group is empty for now and shall remain so until

-- the ANSI community sorts out their PATH group

-- the PORT group

-- Implementation of the PORT group is mandatory for all

-- systems which implement manageable FDDI subsystems.

snmpFddiPORTNumber OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of PORT implementations (across

all SMTs) on this network management application

entity. The value for this variable must remain

constant at least from one re-initialization of

the entity's network management system to the next

re-initialization."

::= { snmpFddiPORT 1 }

-- the PORT table

snmpFddiPORTTable OBJECT-TYPE

SYNTAX SEQUENCE OF SnmpFddiPORTEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A list of PORT entries. The number of entries is

given by the value of snmpFddiPORTNumber."

::= { snmpFddiPORT 2 }

snmpFddiPORTEntry OBJECT-TYPE

SYNTAX SnmpFddiPORTEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A PORT entry containing information common to a

given PORT."

INDEX { snmpFddiPORTSMTIndex, snmpFddiPORTIndex }

::= { snmpFddiPORTTable 1 }

SnmpFddiPORTEntry ::=

SEQUENCE {

snmpFddiPORTSMTIndex

INTEGER,

snmpFddiPORTIndex

INTEGER,

snmpFddiPORTPCType

INTEGER,

snmpFddiPORTPCNeighbor

INTEGER,

snmpFddiPORTConnectionPolicies

INTEGER,

snmpFddiPORTRemoteMACIndicated

INTEGER,

snmpFddiPORTCEState

INTEGER,

snmpFddiPORTPathsRequested

INTEGER,

snmpFddiPORTMACPlacement

FddiResourceId,

snmpFddiPORTAvailablePaths

INTEGER,

snmpFddiPORTMACLoopTime

FddiTime,

snmpFddiPORTTBMax

FddiTime,

snmpFddiPORTBSFlag

INTEGER,

snmpFddiPORTLCTFailCts

Counter,

snmpFddiPORTLerEstimate

INTEGER,

snmpFddiPORTLemRejectCts

Counter,

snmpFddiPORTLemCts

Counter,

snmpFddiPORTLerCutoff

INTEGER,

snmpFddiPORTLerAlarm

INTEGER,

snmpFddiPORTConnectState

INTEGER,

snmpFddiPORTPCMState

INTEGER,

snmpFddiPORTPCWithhold

INTEGER,

snmpFddiPORTLerCondition

INTEGER,

snmpFddiPORTChipSet

OBJECT IDENTIFIER,

snmpFddiPORTAction

INTEGER

}

snmpFddiPORTSMTIndex OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of the SMT index associated with this

PORT."

::= { snmpFddiPORTEntry 1 }

snmpFddiPORTIndex OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A unique value for each PORT within a given SMT.

Its value ranges between 1 and the sum of the

values of snmpFddiSMTNonMasterCt

{ snmpFddiSMTEntry 6 } and snmpFddiSMTMasterCt

{ snmpFddiSMTEntry 7 } on the given SMT. The

value for each PORT must remain constant at least

from one re-initialization of the entity's network

management system to the next re-initialization."

::= { snmpFddiPORTEntry 2 }

snmpFddiPORTPCType OBJECT-TYPE

SYNTAX INTEGER { a(1), b(2), s(3), m(4) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"PC_Type (refer to ANSI SMT 9.2.2 and ANSI SMT

9.6.3.2)."

REFERENCE

"ANSI { fddiPORT 12 }"

::= { snmpFddiPORTEntry 3 }

snmpFddiPORTPCNeighbor OBJECT-TYPE

SYNTAX INTEGER { a(1), b(2), s(3), m(4), unknown(5) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The type (PC_Neighbor) of the remote PORT that is

determined in PC_Signaling in R_Val (1,2) (refer

to ANSI SMT 9.6.3.2)."

REFERENCE

"ANSI { fddiPORT 13 }"

::= { snmpFddiPORTEntry 4 }

snmpFddiPORTConnectionPolicies OBJECT-TYPE

SYNTAX INTEGER (0..7)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"A value that indicates the node's PORT policies.

Pc-MAC-LCT, Pc-MAC-Loop, and Pc-MAC-Placement

indicate how the respective PC Signaling

Capability flags should be set (refer to ANSI SMT

9.4.3.2).

The value is a sum. This value initially takes

the value zero, then for each PORT policy, 2

raised to a power is added to the sum. The powers

are according to the following table:

Policy Power

Pc-MAC-LCT 0

Pc-MAC-Loop 1

Pc-MAC-Placement 2 "

REFERENCE

"ANSI { fddiPORT 14 }"

::= { snmpFddiPORTEntry 5 }

snmpFddiPORTRemoteMACIndicated OBJECT-TYPE

SYNTAX INTEGER { true(1), false(2) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The indication, in PC-Signaling that the remote

partner intends to place a MAC in the output token

PATH of this PORT. Signaled as R_Val (9) (refer

to ANSI SMT 9.6.3.2)."

REFERENCE

"ANSI { fddiPORT 15 }"

::= { snmpFddiPORTEntry 6 }

snmpFddiPORTCEState OBJECT-TYPE

SYNTAX INTEGER {

ce0(1), -- Isolated

ce1(2), -- Insert_P

ce2(3), -- Insert_S

ce3(4), -- Insert_X

ce4(5) -- Local

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Indicates the current state of PORT's

Configuration Element (CE) (refer to ANSI 9.7.5).

Note that this value represents the Current Path

information for this PORT."

REFERENCE

"ANSI { fddiPORT 16 }"

::= { snmpFddiPORTEntry 7 }

snmpFddiPORTPathsRequested OBJECT-TYPE

SYNTAX INTEGER (0..15)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"A value that indicates the desired association(s)

of the port with a station PATH. The 'Primary'

Path is the default. The value of 'Secondary' is

only meaningful for S (slave) or M (master) PORT

PC-Types. This value effects the setting of the

CF_Insert_S, and CF_Insert_L flags (refer to ANSI

Section 9.4.3). If the 'Primary' PATH is present,

then the Primary PATH (the default PATH) is

selected. If the 'Secondary' PATH is present and

the 'Primary' PATH is not present, then the

CF_Insert_S flag is set. If the 'Local' PATH is

sent and neither the 'Primary' or 'Secondary'

PATHs are sent, then the CF_Insert_L flag is set.

The value is a sum. This value initially takes

the value zero, then for each type of PATH

desired, 2 raised to a power is added to the sum.

The powers are according to the following table:

Path Power

Primary 0

Secondary 1

Local 2

Isolated 3 "

REFERENCE

"ANSI { fddiPORT 17 }"

::= { snmpFddiPORTEntry 8 }

snmpFddiPORTMACPlacement OBJECT-TYPE

SYNTAX FddiResourceId -- INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Indicates the upstream MAC, if any, that is

associated with the PORT. The value shall be zero

if there is no MAC associated with the PORT.

Otherwise, the value shall be equal to the value

of snmpFddiMACIndex associated with the MAC."

REFERENCE

"ANSI { fddiPORT 18 }"

::= { snmpFddiPORTEntry 9 }

snmpFddiPORTAvailablePaths OBJECT-TYPE

SYNTAX INTEGER (0..7)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A value that indicates the PATH types available

for M and S PORTs.

The value is a sum. This value initially takes

the value zero, then for each type of PATH that

this port has available, 2 raised to a power is

added to the sum. The powers are according to the

following table:

Path Power

Primary 0

Secondary 1

Local 2 "

REFERENCE

"ANSI { fddiPORT 19 }"

::= { snmpFddiPORTEntry 10 }

snmpFddiPORTMACLoopTime OBJECT-TYPE

SYNTAX FddiTime

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Time for the optional MAC Local Loop, T_Next(9),

which is greater-than or equal-to 200 milliseconds

(refer to ANSI SMT 9.4.4.2.3)."

REFERENCE

"ANSI { fddiPORT 21 }"

::= { snmpFddiPORTEntry 11 }

snmpFddiPORTTBMax OBJECT-TYPE

SYNTAX FddiTime

ACCESS read-write

STATUS mandatory

DESCRIPTION

"TB_Max (refer to ANSI SMT 9.4.4.2.1)."

REFERENCE

"ANSI { fddiPORT 32 }"

::= { snmpFddiPORTEntry 12 }

snmpFddiPORTBSFlag OBJECT-TYPE

SYNTAX INTEGER { true(1), false(2) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The Break State, BS_Flag (refer to ANSI SMT

9.4.3.4)."

REFERENCE

"ANSI { fddiPORT 33 }"

::= { snmpFddiPORTEntry 13 }

snmpFddiPORTLCTFailCts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The count of the consecutive times the link

confidence test (LCT) has failed during connection

management (refer to ANSI 9.4.1)."

REFERENCE

"ANSI { fddiPORT 42 }"

::= { snmpFddiPORTEntry 14 }

snmpFddiPORTLerEstimate OBJECT-TYPE

SYNTAX INTEGER (4..15)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A long term average link error rate. It ranges

from 10**-4 to 10**-15 and is reported as the

absolute value of the exponent of the estimate."

REFERENCE

"ANSI { fddiPORT 51 }"

::= { snmpFddiPORTEntry 15 }

snmpFddiPORTLemRejectCts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A link error monitoring count of the times that a

link has been rejected."

REFERENCE

"ANSI { fddiPORT 52 }"

::= { snmpFddiPORTEntry 16 }

snmpFddiPORTLemCts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The aggregate link error monitor error count, set

to zero only on station power_up."

REFERENCE

"ANSI { fddiPORT 53 }"

::= { snmpFddiPORTEntry 17 }

snmpFddiPORTLerCutoff OBJECT-TYPE

SYNTAX INTEGER (4..15)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The link error rate estimate at which a link

connection will be broken. It ranges from 10**-4

to 10**-15 and is reported as the absolute value

of the exponent."

REFERENCE

"ANSI { fddiPORT 58 }"

::= { snmpFddiPORTEntry 18 }

snmpFddiPORTLerAlarm OBJECT-TYPE

SYNTAX INTEGER (4..15)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The link error rate estimate at which a link

connection will generate an alarm. It ranges from

10**-4 to 10**-15 and is reported as the absolute

value of the exponent of the estimate."

REFERENCE

"ANSI { fddiPORT 59 }"

::= { snmpFddiPORTEntry 19 }

snmpFddiPORTConnectState OBJECT-TYPE

SYNTAX INTEGER {

disabled(1),

connecting(2),

standby(3),

active(4)

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"An indication of the connect state of this PORT.

Basically, this gives a higher level view of the

state of the connection by grouping PCM states and

the PC-Withhold flag state. The supported values

and their corresponding PCM states and PC-Withhold

condition, when relevant, are:

disabled: (PC0:Off, PC9:Maint)

connecting: (PC1(Break) PC3 (Connect) PC4

(Next) PC5 (Signal) PC6

(Join) PC7 (Verify)) &&

(PC_Withhold = None)

standby: (NOT PC_Withhold == None)

active: (PC2:Trace PC8:Active) "

REFERENCE

"ANSI { fddiPORT 61 }"

::= { snmpFddiPORTEntry 20 }

snmpFddiPORTPCMState OBJECT-TYPE

SYNTAX INTEGER {

pc0(1), -- Off

pc1(2), -- Break

pc2(3), -- Trace

pc3(4), -- Connect

pc4(5), -- Next

pc5(6), -- Signal

pc6(7), -- Join

pc7(8), -- Verify

pc8(9), -- Active

pc9(10) -- Maint

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"(refer to SMT 9.6.2)."

REFERENCE

"ANSI { fddiPORT 62 }"

::= { snmpFddiPORTEntry 21 }

snmpFddiPORTPCWithhold OBJECT-TYPE

SYNTAX INTEGER { none(1), m-m(2), other(3) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"PC_Withhold, (refer to ANSI SMT 9.4.1)."

REFERENCE

"ANSI { fddiPORT 63 }"

::= { snmpFddiPORTEntry 22 }

snmpFddiPORTLerCondition OBJECT-TYPE

SYNTAX INTEGER { true(1), false(2) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"This variable is set to true whenever LerEstimate

is less than or equal to LerAlarm."

REFERENCE

"ANSI { fddiPORT 64 }"

::= { snmpFddiPORTEntry 23 }

snmpFddiPORTChipSet OBJECT-TYPE

SYNTAX OBJECT IDENTIFIER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"This object identifies the hardware chip(s) which

is (are) principally responsible for the

implementation of the PORT (PHY) function. A few

OBJECT IDENTIFIERS are identified elsewhere in

this memo. For those The assignment of additional

OBJECT IDENTIFIERs to various types of hardware

chip sets is managed by the IANA. For example,

vendors whose chip sets are not defined in this

memo may request a number from the Internet

Assigned Numbers Authority (IANA) which indicates

the assignment of a enterprise specific subtree

which, among other things, may be used to allocate

OBJECT IDENTIFIER assignments for that

enterprise's chip sets. Similarly, in the absence

of an appropriately assigned OBJECT IDENTIFIER in

this memo or in an enterprise specific subtree of

a chip vendor, a board or system vendor can

request a number for a subtree from the IANA and

make an appropriate assignment. It is desired

that, whenever possible, the same OBJECT

IDENTIFIER be used for all chips of a given type.

Consequently, the assignment made in this memo for

a chip, if any, should be used in preference to

any other assignment and the assignment made by

the chip manufacturer, if any, should be used in

preference to assignments made by users of those

chips. If the hardware chip set is unknown, the

object identifier

unknownChipSet OBJECT IDENTIFIER ::= { 0 0 }

is returned. Note that unknownChipSet is a

syntactically valid object identifier, and any

conformant implementation of ASN.1 and the BER

must be able to generate and recognize this

value."

::= { snmpFddiPORTEntry 24 }

snmpFddiPORTAction OBJECT-TYPE

SYNTAX INTEGER {

other(1), -- none of the following

maintPORT(2),

enablePORT(3),

disablePORT(4),

startPORT(5),

stopPORT(6)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"This object, when read, always returns a value of

other(1). The behavior of setting this variable

to each of the acceptable values is as follows:

Other: Results in a badValue error.

maintPORT: Signal PC_Maint

enablePORT: Signal PC_Enable

disablePORT: Signal PC_Disable

startPORT: Signal PC_Start

stopPORT: Signal PC_Stop

Signals cause an SM_CM_CONTROL.request service to

be generated with a control_action of `Signal' and

the `variable' parameter set with the appropriate

value (i.e., PC_Maint, PC_Enable, PC_Disable,

PC_Start, PC_Stop). Ref. ANSI SMT Section 9.3.2.

Attempts to set this object to all other values

results in a badValue error."

REFERENCE

"ANSI { fddiPORT 70 }"

::= { snmpFddiPORTEntry 25 }

-- the ATTACHMENT group

-- Implementation of the ATTACHMENT group is mandatory for

-- all systems which implement manageable FDDI subsystems.

snmpFddiATTACHMENTNumber OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The total number of attachments (across all SMTs)

on this network management application entity.

The value for this variable must remain constant

at least from one re-initialization of the

entity's network management system to the next

re-initialization."

::= { snmpFddiATTACHMENT 1 }

-- the ATTACHMENT table

snmpFddiATTACHMENTTable OBJECT-TYPE

SYNTAX SEQUENCE OF SnmpFddiATTACHMENTEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A list of ATTACHMENT entries. The number of

entries is given by the value of

snmpFddiATTACHMENTNumber."

::= { snmpFddiATTACHMENT 2 }

snmpFddiATTACHMENTEntry OBJECT-TYPE

SYNTAX SnmpFddiATTACHMENTEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"An ATTACHMENT entry containing information common

to a given set of ATTACHMENTs.

The ATTACHMENT Resource represents a PORT or a

pair of PORTs plus the optional associated optical

bypass that are managed as a functional unit.

Because of its relationship to the PORT Objects,

there is a natural association of ATTACHMENT

Resource Indices to the PORT Indices. The

resource index for the ATTACHMENT is equal to the

associated PORT index for 'single-attachment' and

'concentrator' type snmpFddiATTACHMENTClasses.

For 'dual-attachment' Classes, the ATTACHMENT

Index is the PORT Index of the A PORT of the A/B

PORT Pair that represents the ATTACHMENT."

INDEX { snmpFddiATTACHMENTSMTIndex,

snmpFddiATTACHMENTIndex }

::= { snmpFddiATTACHMENTTable 1 }

SnmpFddiATTACHMENTEntry ::=

SEQUENCE {

snmpFddiATTACHMENTSMTIndex

INTEGER,

snmpFddiATTACHMENTIndex

INTEGER,

snmpFddiATTACHMENTClass

INTEGER,

snmpFddiATTACHMENTOpticalBypassPresent

INTEGER,

snmpFddiATTACHMENTIMaxExpiration

FddiTime,

snmpFddiATTACHMENTInsertedStatus

INTEGER,

snmpFddiATTACHMENTInsertPolicy

INTEGER

}

snmpFddiATTACHMENTSMTIndex OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of the SMT index associated with this

ATTACHMENT."

::= { snmpFddiATTACHMENTEntry 1 }

snmpFddiATTACHMENTIndex OBJECT-TYPE

SYNTAX INTEGER (1..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A unique value for each ATTACHMENT on a given

SMT. Its value ranges between 1 and the sum of

the values of snmpFddiSMTNonMasterCt {

snmpFddiSMTEntry 6 } and snmpFddiSMTMasterCt {

snmpFddiSMTEntry 7 } on the given SMT. The value

for each ATTACHMENT must remain constant at least

from one re-initialization of the entity's network

management system to the next re-initialization."

::= { snmpFddiATTACHMENTEntry 2 }

snmpFddiATTACHMENTClass OBJECT-TYPE

SYNTAX INTEGER {

single-attachment(1),

dual-attachment(2),

concentrator(3)

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The Attachment class. This represents a PORT or

a pair of PORTs plus the associated optional

optical bypass that are managed as a functional

unit. The PORT associations are the following:

single-attachment - S PORTs

dual-attachment - A/B PORT Pairs

concentrator - M PORTs "

REFERENCE

"ANSI { fddiATTACHMENT 11 }"

::= { snmpFddiATTACHMENTEntry 3 }

snmpFddiATTACHMENTOpticalBypassPresent OBJECT-TYPE

SYNTAX INTEGER { true(1), false(2) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of this value is false for 'single-

attachment' and { snmpFddiATTACHMENT 11 }.

Correct operation of CMT for single-attachment and

concentrator attachments requires that a bypass

function must not loopback the network side of the

MIC, but only the node side."

REFERENCE

"ANSI { fddiATTACHMENT 12 }"

::= { snmpFddiATTACHMENTEntry 4 }

snmpFddiATTACHMENTIMaxExpiration OBJECT-TYPE

SYNTAX FddiTime

ACCESS read-only

STATUS mandatory

DESCRIPTION

"I_Max (refer to ANSI SMT 9.4.4.2.1). It is

recognized that some currently deployed systems do

not implement an optical bypass. Systems which do

not implement optical bypass should return a value

of 0."

REFERENCE

"ANSI { fddiATTACHMENT 13 }"

::= { snmpFddiATTACHMENTEntry 5 }

snmpFddiATTACHMENTInsertedStatus OBJECT-TYPE

SYNTAX INTEGER { true(1), false(2), unimplemented(3) }

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Indicates whether the attachment is currently

inserted in the node."

REFERENCE

"ANSI { fddiATTACHMENT 14 }"

::= { snmpFddiATTACHMENTEntry 6 }

snmpFddiATTACHMENTInsertPolicy OBJECT-TYPE

SYNTAX INTEGER { true(1), false(2), unimplemented(3) }

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Indicates the Insert Policy for this Attachment.

Insert: True (1), Don't Insert: False (2),

Unimplemented (3)"

REFERENCE

"ANSI { fddiATTACHMENT 15 }"

::= { snmpFddiATTACHMENTEntry 7 }

-- the Chip Set group

-- The following object identifiers are allocated for use

-- with the snmpFddiMACChipSet and snmpFddiPORTChipSet

-- variables.

snmpFddiPHYChipSets -- Chips primarily responsible

-- for implementing the PHY

-- function.

OBJECT IDENTIFIER ::= { snmpFddiChipSets 1 }

-- None defined at present

-- Chipsets may someday be

-- defined here

snmpFddiMACChipSets -- Chips primarily responsible

-- for implementing the

-- MAC function.

OBJECT IDENTIFIER ::= { snmpFddiChipSets 2 }

-- None defined at present

-- Chipsets may someday be

-- defined here

snmpFddiPHYMACChipSets -- Chips which implement both

-- the PHY and MAC functions

OBJECT IDENTIFIER ::= { snmpFddiChipSets 3 }

-- None defined at present

-- Chipsets may someday be

-- defined here

END

6. Acknowledgements

This document was produced by the IETF FDDI MIB working group:

Steve Adams, Digital Equipment Corporation

Hossein Alaee, 3Com Corporation

Haggar Alsaleh, Bell Northern Research

William Anderson, Mitre Corporation

Alan Apt, Addison-Wesley

Mary Artibee, Silicon Graphics

Karen Auerbach, Epilogue Technologies

Doug Bagnall, Apollo/Hewlett Packard

Chet Birger, Coral Network Corporation

Pablo Brenner, Sparta

Howard Brown, Cabletron

Jack Brown, US Army Computer Engineering Center

Eric Brunner

Jeff Case, The University of Tennessee

Tammy Chan, Fibercom

Asheem Chandna, AT&T

Cho Y. Chang, Apollo/Hewlett Packard

Chris Chiotasso, Fibronics

Paul Ciarfella, Digital Equipment Corporation

John Cook, Chipcom

Don Coolidge, Silicon Graphics

Burt Cyr, Unisys

James R. Davin, Massachusetts Institute of Technology

Nabil Damouny

Nadya El-Afandi, Network Systems Corporation

Hunaid Engineer, Cray Research

Jeff Fitzgerald, Fibercom

Richard Fox, Synoptics

Stan Froyd, ACC

Debbie Futcher, U.S. Naval Surface Warfare Center

Joseph Golio, Cray Research

Jeremy Greene, Coral

Brian D. Handspicker, Digital Equipment Corporation

Peter Hayden, Digital Equipment Corporation

Scott Hiles, U.S. Naval Surface Warfare Center

Greg Jones, Data General

Satish Joshi, SynOptics Communications

Jayant Kadambi, AT&T Bell Labs

Joanna Karwowska, Data General

Frank Kastenholz, Interlan

Jim Kinder, Fibercom

Christopher Kolb, PSI

Cheryl Krupczak, NCR

Peter Lin, Vitalink

Then Liu

John R. LoVerso, Concurrent Computer Corporation

Ron Mackey

Gary Malkin, Proteon

Bruce McClure, Synernetics

Keith McCloghrie, Hughes Lan Systems

Donna McMaster, SynOptics

John O'Hara, Massachusetts Institute of Technology

Dave Perkins, SynOptics Communications

James E. Reeves, SynOptics Communications

Jim Reinstedler, Ungermann-Bass

Radhi Renous, Fibronics

Anil Rijsinghani, Digital Equipment Corporation

Bob Rolla, Synernetics

Nelson Ronkin, Synernetics

Marshall T. Rose, Performance Systems International, Inc.

Milt Roselinsky, CMC

Jon Saperia, Digital Equipment Corporation

Greg Satz, cisco Systems

Steven Senum, Network Systems Corporation

Jim Sheridan, IBM Corporation

Jeffrey Schiller, MIT

Dror Shindelman, Sparta

Mark Sleeper, Sparta

Craig Smelser, Digital Equipment Corporation

Lou Steinberg, IBM Corporation

Mary Jane Strohl, Apollo/Hewlett Packard

Sally Tarquinio, Mitre Corporation

Kaj Tesink, Bellcore

Ian Thomas, Chipcom

Dean Throop, Data General

Bill Townsend, Xylogics

Ahmet H. Tuncay, SynOptics Communications

Mike Turico, Motorola

Chris VandenBerg, ACC

Sudhanshu Verma, Hewlett Packard

Joe Vermeulen, UNISYS

David Waiteman, BBN

Bert Williams, Synernetics

Mark Wood, AT&T Computer Systems

Y. C. Yang

Denis Yaro, Sun Microsystems

Jeff Young, Cray Research

The editor gratefully acknowledges the contributions of the editor of

the ANSI X3T9.5 SMT document, Mary Jane Strohl of Hewlett

Packard/Apollo, whose provision of that document in machine readable

form saved much typing and avoided many data entry errors.

The author gratefully acknowledges the labors of Dr. Marshall T. Rose

in assisting with converting this document to the new concise MIB

format.

8. References

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

Management Information for TCP/IP-based internets", RFC1155,

Performance Systems International, Hughes LAN Systems, May 1990.

[2] 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.

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

Network Management Protocol", RFC1157, SNMP Research,

Performance Systems International, Performance Systems

International, MIT Laboratory for Computer Science, May 1990.

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

for Network Management of TCP/IP-based internets", RFC1213,

Performance Systems International, March 1991.

[5] Information processing systems - Open Systems Interconnection -

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

International Organization for Standardization, International

Standard 8824, December 1987.

[6] 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.

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

RFC1212, Performance Systems International, Hughes LAN Systems,

March 1991.

[8] American National Standards Institute, "FDDI Station Management

(SMT)", Preliminary Draft Proposed American National Standard,

American National Standards Institute, X3T9/90-X3T9.5/84-49 REV

6.2, May 18, 1990.

Security Considerations

Security issues are not discussed in this memo.

Author's Address

Jeffrey D. Case

SNMP Research, Incorporated

3001 Kimberlin Heights Road

Knoxville, Tennessee 37920

Phone: (615) 573-1434

EMail: case@CS.UTK.EDU

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