📄 rfc1512.txt
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SEQUENCE {
fddimibSMTIndex
INTEGER,
Case & Rijsinghani [Page 6]
RFC 1512 FDDI MIB September 1993
fddimibSMTStationId
FddiSMTStationIdType,
fddimibSMTOpVersionId
INTEGER,
fddimibSMTHiVersionId
INTEGER,
fddimibSMTLoVersionId
INTEGER,
fddimibSMTUserData
OCTET STRING,
fddimibSMTMIBVersionId
INTEGER,
fddimibSMTMACCts
INTEGER,
fddimibSMTNonMasterCts
INTEGER,
fddimibSMTMasterCts
INTEGER,
fddimibSMTAvailablePaths
INTEGER,
fddimibSMTConfigCapabilities
INTEGER,
fddimibSMTConfigPolicy
INTEGER,
fddimibSMTConnectionPolicy
INTEGER,
fddimibSMTTNotify
INTEGER,
fddimibSMTStatRptPolicy
INTEGER,
fddimibSMTTraceMaxExpiration
FddiTimeMilli,
fddimibSMTBypassPresent
INTEGER,
fddimibSMTECMState
INTEGER,
fddimibSMTCFState
INTEGER,
fddimibSMTRemoteDisconnectFlag
INTEGER,
fddimibSMTStationStatus
INTEGER,
fddimibSMTPeerWrapFlag
INTEGER,
fddimibSMTTimeStamp
FddiTimeMilli,
fddimibSMTTransitionTimeStamp
FddiTimeMilli,
Case & Rijsinghani [Page 7]
RFC 1512 FDDI MIB September 1993
fddimibSMTStationAction
INTEGER
}
fddimibSMTIndex OBJECT-TYPE
SYNTAX INTEGER (1..65535)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A unique value for each SMT. 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."
::= { fddimibSMTEntry 1 }
fddimibSMTStationId OBJECT-TYPE
SYNTAX FddiSMTStationIdType -- OCTET STRING (SIZE (8))
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Used to uniquely identify an FDDI station."
REFERENCE
"ANSI { fddiSMT 11 }"
::= { fddimibSMTEntry 2 }
fddimibSMTOpVersionId OBJECT-TYPE
SYNTAX INTEGER (1..65535)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The version that this station is using for its
operation (refer to ANSI 7.1.2.2). The value of
this variable is 2 for this SMT revision."
REFERENCE
"ANSI { fddiSMT 13 }"
::= { fddimibSMTEntry 3 }
fddimibSMTHiVersionId 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 }"
::= { fddimibSMTEntry 4 }
Case & Rijsinghani [Page 8]
RFC 1512 FDDI MIB September 1993
fddimibSMTLoVersionId 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 }"
::= { fddimibSMTEntry 5 }
fddimibSMTUserData OBJECT-TYPE
SYNTAX OCTET STRING (SIZE (32))
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This variable contains 32 octets of user defined
information. The information shall be an ASCII
string."
REFERENCE
"ANSI { fddiSMT 17 }"
::= { fddimibSMTEntry 6 }
fddimibSMTMIBVersionId OBJECT-TYPE
SYNTAX INTEGER (0..65535)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The version of the FDDI MIB of this station. The
value of this variable is 1 for this SMT
revision."
REFERENCE
"ANSI { fddiSMT 18 }"
::= { fddimibSMTEntry 7 }
fddimibSMTMACCts OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of MACs in this station or
concentrator."
REFERENCE
"ANSI { fddiSMT 21 }"
::= { fddimibSMTEntry 8 }
fddimibSMTNonMasterCts OBJECT-TYPE
SYNTAX INTEGER (0..2)
Case & Rijsinghani [Page 9]
RFC 1512 FDDI MIB September 1993
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The value of this variable is the number of A, B,
and S ports in this station or concentrator."
REFERENCE
"ANSI { fddiSMT 22 }"
::= { fddimibSMTEntry 9 }
fddimibSMTMasterCts OBJECT-TYPE
SYNTAX INTEGER (0..255)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of M Ports in a node. If the node is
not a concentrator, the value of the variable is
zero."
REFERENCE
"ANSI { fddiSMT 23 }"
::= { fddimibSMTEntry 10 }
fddimibSMTAvailablePaths 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 }"
::= { fddimibSMTEntry 11 }
fddimibSMTConfigCapabilities OBJECT-TYPE
Case & Rijsinghani [Page 10]
RFC 1512 FDDI MIB September 1993
SYNTAX INTEGER (0..3)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A value that indicates the configuration
capabilities of a node. The 'Hold Available' bit
indicates the support of the optional Hold
Function, which is controlled by
fddiSMTConfigPolicy. The 'CF-Wrap-AB' bit
indicates that the station has the capability of
performing a wrap_ab (refer to ANSI SMT 9.7.2.2).
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 }"
::= { fddimibSMTEntry 12 }
fddimibSMTConfigPolicy OBJECT-TYPE
SYNTAX INTEGER (0..1)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"A value that indicates the configuration policies
currently desired in a node. 'Hold' is one of the
terms used for the Hold Flag, an optional ECM flag
used to enable the optional Hold policy.
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 "
REFERENCE
"ANSI { fddiSMT 26 }"
::= { fddimibSMTEntry 13 }
fddimibSMTConnectionPolicy OBJECT-TYPE
Case & Rijsinghani [Page 11]
RFC 1512 FDDI MIB September 1993
SYNTAX INTEGER (32768..65535)
ACCESS read-write
STATUS mandatory
DESCRIPTION
"A value representing the connection policies in
effect in a node. A station sets the corresponding
bit 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 the PC_Type of the adjacent PORT
(PC_Neighbor). The evaluation of Connection-
Policy (PC-Type, PC-Neighbor) is done to determine
the setting of T- Val(3) in the PC-Signalling
sequence (refer to ANSI 9.6.3). Note that Bit 15,
(rejectM-M), is always set and cannot be cleared.
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 "
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