snmp_mib_archive/hubnvle.cfg

#-MIBFILE: hubnvle.mib

Novell-Hub-Ethernet-MIB DEFINITIONS ::= BEGIN


DisplayString ::=
	OCTET STRING

PhysAddress ::=
	OCTET STRING

novell OBJECT IDENTIFIER ::= { enterprises 23 }

mibDoc OBJECT IDENTIFIER ::= { novell 2 }

nSnmpDot3RptrMgt OBJECT IDENTIFIER ::= { mibDoc 2 }

rptrBasicGroup OBJECT IDENTIFIER ::= { nSnmpDot3RptrMgt 1 }

rptrMonitorGroup OBJECT IDENTIFIER ::= { nSnmpDot3RptrMgt 2 }

rptrAddrTrackGroup OBJECT IDENTIFIER ::= { nSnmpDot3RptrMgt 3 }

rptrExtensionsGroup OBJECT IDENTIFIER ::= { nSnmpDot3RptrMgt 4 }

rptrBasicTable OBJECT-TYPE
	SYNTAX SEQUENCE OF RptrBasicEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Status information and control variables for a
collection of repeaters in a particular system."
	::= { rptrBasicGroup 1 }


rptrBasicEntry OBJECT-TYPE
	SYNTAX RptrBasicEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Status information and control variables for a
particular repeater in the system."
	INDEX { rptrBasID  }

	::= { rptrBasicTable 1 }

rptrBasicEntry ::=
	SEQUENCE {
		rptrBasID INTEGER,
		rptrBasManufacturer OCTET STRING,
		rptrBasProduct OCTET STRING,
		rptrBasVersion DisplayString,
		rptrBasGroupCapacity INTEGER,
		rptrBasGroupMap OCTET STRING,
		rptrBasHealthState INTEGER,
		rptrBasHealthText DisplayString,
		rptrBasHealthData OCTET STRING,
		rptrBasReset INTEGER,
		rptrBasSelfTest1 INTEGER,
		rptrBasSelfTest2 INTEGER
		}

rptrBasID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The value of rptrID is assigned so as to uniquely
identify a repeater in a system where a single
agent manages multiple repeaters."
	::= { rptrBasicEntry 1 }


rptrBasManufacturer OBJECT-TYPE
	SYNTAX OCTET STRING (SIZE(3))
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "A 24-bit value that identifies the manufacturer."
	::= { rptrBasicEntry 2 }


rptrBasProduct OBJECT-TYPE
	SYNTAX OCTET STRING
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Manufacturer-defined product identifier.  Its
format and size are unrestricted."
	::= { rptrBasicEntry 3 }


rptrBasVersion OBJECT-TYPE
	SYNTAX DisplayString
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Manufacturer-defined product revision
designation.  Its format and size are
unrestricted."
	::= { rptrBasicEntry 4 }


rptrBasGroupCapacity OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The rptrBasGroupCapacity is the number of groups
that can be contained within the repeater. Within
each managed repeater, the groups are uniquely
numbered in the range from 1 to
rptrBasGroupCapacity.

Some groups may not be present in a given repeater
instance, in which case the actual number of
groups present will be less than
rptrBasGroupCapacity. The number of groups present
will never be greater than rptrBasGroupCapacity.

Note:  In practice, this will generally be the
number of field-replaceable units (i.e., modules,
cards, or boards) that can fit in the physical
repeater enclosure, and the group numbers  will
correspond to numbers marked on the physical
enclosure."
	::= { rptrBasicEntry 5 }


rptrBasGroupMap OBJECT-TYPE
	SYNTAX OCTET STRING (SIZE(1..128))
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This octet string represents the current
configuration of groups, encoded as a bit string.
Each group is represented by a single bit. When
the value of a bit=1, it indicates that the group
represented by that bit is present in the
repeater; when zero, the group is not present.

Note:  The bitstring mapping text below does not
match the IETF conventions, and will be modified
appropriately.

The number of octets in the string is
rptrBasGroupCapacity divided by 8, rounded up to
the next whole number of octets.  For example, if
rptrBasGroupCapacity is 12, the octet string
returned by the agent will be of length two.

The first octet will encode the configuration of
groups 1-8, where group one is represented by the
least significant bit of the octet.  The second
octet will likewise encode groups 9-16.  In
general, octet i encodes groups (8i-7) through
(8i), where (8i-7) is represented by the least
significant bit and (8i) by the most significant
bit of the octet."
	::= { rptrBasicEntry 6 }


rptrBasHealthState OBJECT-TYPE
	SYNTAX INTEGER {
	other(1),
	ok(2),
	rptrFailure(3),
	groupFailure(4),
	portFailure(5),
	generalFailure(6)
	}
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The health state object indicates the operational
state of the repeater. The rptrBasHealthData and
rptrBasHealthText objects may be consulted for
more specific information about the state of the
repeater's health.

In the case of multiple kinds of failures (e.g.,
repeater failure and port failure), the value of
this attribute shall reflect the highest priority
failure in the following order:
rptrFailure(3)
groupFailure(4)
portFailure(5)
generalFailure(6)"
	::= { rptrBasicEntry 7 }


rptrBasHealthText OBJECT-TYPE
	SYNTAX DisplayString (SIZE(0..255))
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The health text object is a text string that
provides information relevant to the operational
state of the repeater. Agents may use this
mechanism to provide detailed failure information
or instructions for problem resolution. The
contents are agent-specific."
	::= { rptrBasicEntry 8 }


rptrBasHealthData OBJECT-TYPE
	SYNTAX OCTET STRING (SIZE(0..255))
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The health data object is a block of data octets
that provides information relevant to the
operational state of the repeater. The encoding of
this data block is agent-dependent. Agents may use
this mechanism to provide detailed failure
information or instructions for problem
resolution."
	::= { rptrBasicEntry 9 }


rptrBasReset OBJECT-TYPE
	SYNTAX INTEGER {
	noReset(1),
	reset(2)
	}
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Setting this variable to reset(2) causes a
transition to the START state of Fig 9-2 in
section 9 [11].

Setting this variable to noReset(1) has no effect.
The agent will always return the value noReset(1)
when this variable is read.

This action does not reset the management counters
defined in this document nor does it affect the
portAdminState parameters. Included in this action
is the execution of rptrBasSelfTest2. As a result
of this action a rptrReset trap will be sent.

Note:  This action may result in the loss of
packets."
	::= { rptrBasicEntry 10 }


rptrBasSelfTest1 OBJECT-TYPE
	SYNTAX INTEGER {
	noSelfTest(1),
	selfTest(2)
	}
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Setting this variable to selfTest(2) causes the
repeater to perform a agent-specific, non-
disruptive self-test that has the following
characteristics: (1)  The nature of the tests is
not specified. (2)  The test does not change the
state of the repeater or management information
about the repeater. (3)  The test does not inject
packets onto any segment. (4)  The test does not
prevent the relay of any packets. (5)  The test
does not interfere with management functions.

After performing this test the agent will update
the repeater health information. If a change in
the repeater health has occurred, the agent will
send a rptrHealth trap.

Setting this variable to noSelfTest(1) has no
effect. The agent will always return the value
noSelfTest(1) when this variable is read."
	::= { rptrBasicEntry 11 }


rptrBasSelfTest2 OBJECT-TYPE
	SYNTAX INTEGER {
	noSelfTest(1),
	selfTest(2)
	}
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Setting this variable to selfTest(2) causes the
repeater to perform a agent-specific, disrupt)ve
self-test that has the following characteristics:
(1)  The nature of the tests is not specified. (2)
The test resets the repeater but without affecting
management information about the repeater. (3)
The test does not inject packets onto any segment.
(4)  Packets received during the test may or may
not be relayed.

After performing this test the agent will update
the repeater health information. If a change in
the repeater health has occurred, the agent will
send a rptrHealth trap.

Setting this variable to noSelfTest(1) has no
effect.  The agent will always return the value
noSelfTest(1) when this variable is read."
	::= { rptrBasicEntry 12 }


rptrBasicGroupTable OBJECT-TYPE
	SYNTAX SEQUENCE OF RptrBasicGroupEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Table of descriptive and status information about
the groups of ports."
	::= { rptrBasicGroup 2 }


rptrBasicGroupEntry OBJECT-TYPE
	SYNTAX RptrBasicGroupEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "An entry in the table, containing information
about a single group of ports."
	INDEX { rptrBasGroupRptrID , rptrBasGroupID }

	::= { rptrBasicGroupTable 1 }

rptrBasicGroupEntry ::=
	SEQUENCE {
		rptrBasGroupRptrID INTEGER,
		rptrBasGroupID INTEGER,
		rptrBasGroupDescr DisplayString,
		rptrBasGroupObjectID OBJECT IDENTIFIER,
		rptrBasGroupUpTime TimeTicks,
		rptrBasGroupNumOfPorts INTEGER
		}

rptrBasGroupRptrID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the repeater containing
the group for which this entry contains
information."
	::= { rptrBasicGroupEntry 1 }


rptrBasGroupID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the group within the
repeater for which this entry contains
information. This value is never greater than
rptrBasGroupCapacity."
	::= { rptrBasicGroupEntry 2 }


rptrBasGroupDescr OBJECT-TYPE
	SYNTAX DisplayString (0..255)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "A textual description of the group. This value
should include the full name and version
identification of the group's hardware type and
indicate how the group is differentiated from
other groups in the repeater.  'Wilma Flintstone
6-Port FOIRL Plug-in Module, Rev A' or 'Barney
Rubble 10BASE-T 4-port SIMM socket V. 2.1' are
examples of valid group descriptions.

It is mandatory that this only contain printable
ASCII characters."
	::= { rptrBasicGroupEntry 3 }


rptrBasGroupObjectID OBJECT-TYPE
	SYNTAX OBJECT IDENTIFIER
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The vendor's authoritative identification of the
group.  This value is allocated within the SMI
enterprises subtree (1.3.6.1.4.1) and provides a
straight-forward and unambiguous means for
determining what kind of group is being managed.

For example, this variable could take the value
1.3.6.1.4.1.4242.1.2.14 if vendor 'Flintstones,
Inc.' was assigned the subtree 1.3.6.1.4.1.4242,
and had assigned the identifier
1.3.6.1.4.1.4242.1.2.14 to its 'Wilma Flintstone
6-Port FOIRL Plug-in Module.'"
	::= { rptrBasicGroupEntry 4 }


rptrBasGroupUpTime OBJECT-TYPE
	SYNTAX TimeTicks
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "An object that contains the value of sysUpTime at
the time that the management information relating
to this group was last reset.

A value of zero would indicate that the group was
present when the agent last restarted. A non-zero
value would indicate that the group had been added
to the repeater after the agent last restarted."
	::= { rptrBasicGroupEntry 5 }


rptrBasGroupNumOfPorts OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The rptrBasGroupNumOfPorts is the number of ports
contained within the group.  Valid range is 1-
1024. Within each group, the ports are uniquely
numbered in the range from 1 to
rptrBasGroupNumOfPorts.

Note:  In practice, this will generally be the
number of ports on a module, card, or board, and
the port numbers will correspond to numbers marked
on the physical embodiment."
	::= { rptrBasicGroupEntry 6 }


rptrBasicPortTable OBJECT-TYPE
	SYNTAX SEQUENCE OF RptrBasicPortEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Table of descriptive and status information about
the ports."
	::= { rptrBasicGroup 3 }


rptrBasicPortEntry OBJECT-TYPE
	SYNTAX RptrBasicPortEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "An entry in the table, containing information
about a single port."
	INDEX { rptrBasPortRptrID , rptrBasPortGroupID, rptrBasPortID }

	::= { rptrBasicPortTable 1 }

rptrBasicPortEntry ::=
	SEQUENCE {
		rptrBasPortRptrID INTEGER,
		rptrBasPortGroupID INTEGER,
		rptrBasPortID INTEGER,
		rptrBasPortAdminState INTEGER,
		rptrBasPortAutoPartitionState INTEGER
		}

rptrBasPortRptrID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the repeater containing
the port for which this entry contains
information."
	::= { rptrBasicPortEntry 1 }


rptrBasPortGroupID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the group containing the
port for which this entry contains information."
	::= { rptrBasicPortEntry 2 }


rptrBasPortID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the port within the
group within the repeater for which this entry
contains management information. This value can
never be greater than rptrBasGroupNumOfPorts for
the associated group."
	::= { rptrBasicPortEntry 3 }


rptrBasPortAdminState OBJECT-TYPE
	SYNTAX INTEGER {
	disabled(1),
	enabled(2)
	}
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Setting this variable to disabled(1) disables the
port. A disabled port neither transmits nor
receives.  Once disabled, a port must be
explicitly enabled to restore operation. A port
which is disabled when power is lost or when a
reset is exerted shall remain disabled when normal
operation resumes.

The admin state takes precedence over auto-
partition and functionally operates between the
auto-partition mechanism and the AUI/PMA.

Setting this variable to enabled(2) enables the
port and exerts a BEGIN on the port's auto-
partition state machine.

Note:  What the above means is that when a port
becomes disabled, its current auto-partition state
is frozen until the port is next enabled. When the
port becomes enabled, the auto-partition state
becomes notAutoPartitioned, regardless of its
pre-disabling state. This text will be clarified
in the next draft."
	::= { rptrBasicPortEntry 4 }


rptrBasPortAutoPartitionState OBJECT-TYPE
	SYNTAX INTEGER {
	autoPartitioned(1),
	notAutoPartitioned(2)
	}
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The autoPartitionState flag indicates whether the
port is currently partitioned by the repeater's
auto-partition protection.

The conditions that cause port partitioning are
specified in partition state machine in Sect. 9
[11]. They are not differentiated here."
	::= { rptrBasicPortEntry 5 }


rptrMonitorTable OBJECT-TYPE
	SYNTAX SEQUENCE OF RptrMonitorEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Statistics for a collection of repeaters in a
particular system."
	::= { rptrMonitorGroup 1 }


rptrMonitorEntry OBJECT-TYPE
	SYNTAX RptrMonitorEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "An entry in the table, containing statistics for
a single repeater."
	INDEX { rptrMonID  }

	::= { rptrMonitorTable 1 }

rptrMonitorEntry ::=
	SEQUENCE {
		rptrMonID INTEGER,
		rptrMonTransmitCollisions Counter,
		rptrMonMJLPs Counter
		}

rptrMonID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the repeater for which
this entry contains monitor information."
	::= { rptrMonitorEntry 1 }


rptrMonTransmitCollisions OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This counter is incremented every time the
repeater state machine enters the TRANSMIT
COLLISION state from any state other than ONE PORT
LEFT (Ref: Fig 9-2) [11].

Note:  The approximate minimum time for counter
rollover is 16 hours."
	::= { rptrMonitorEntry 2 }


rptrMonMJLPs OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The repeater MJLPs object counts the number of
times the repeater enters the DISABLE OUTPUT state
in the MAU Jabber Lockup Protection state diagram
(Fig. 9-5) [11].

Note:  The approximate minimum time for counter
rollover is 200 days."
	::= { rptrMonitorEntry 3 }


nrptrMonitorPortTable OBJECT-TYPE
	SYNTAX SEQUENCE OF nRptrMonitorPortEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Table of performance and error statistics for the
ports."
	::= { rptrMonitorGroup 2 }


nrptrMonitorPortEntry OBJECT-TYPE
	SYNTAX nRptrMonitorPortEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "An entry in the table, containing performance and
error statistics for a single port."
	INDEX { rptrMonPortRptrID , rptrMonPortGroupID, rptrMonPortID }

	::= { nrptrMonitorPortTable 1 }

nrptrMonitorPortEntry ::=
	SEQUENCE {
		rptrMonPortRptrID INTEGER,
		rptrMonPortGroupID INTEGER,
		rptrMonPortID INTEGER,
		rptrMonPortReadableFrames Counter,
		rptrMonPortReadableOctets Counter,
		rptrMonPortFrameCheckSequenceErrs Counter,
		rptrMonPortAlignmentErrors Counter,
		rptrMonPortFrameTooLongs Counter,
		rptrMonPortShortEvents Counter,
		rptrMonPortRunts Counter,
		rptrMonPortCollisions Counter,
		rptrMonPortLateCollisions Counter,
		rptrMonPortDataRateMismatches Counter,
		rptrMonPortAutoPartitions Counter,
		rptrMonPortVeryLongEvents Counter
		}

rptrMonPortRptrID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Repeater ID for identifying the port."
	::= { nrptrMonitorPortEntry 1 }


rptrMonPortGroupID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Group ID for identifying the port."
	::= { nrptrMonitorPortEntry 2 }


rptrMonPortID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Port ID for identifying the port."
	::= { nrptrMonitorPortEntry 3 }


rptrMonPortReadableFrames OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "A representation of the total frames of valid
frame length. This counter is incremented by one
for each frame whose OctetCount is greater than or
equal to minFrameSize and less than or equal to
maxFrameSize (Ref: 4.4.2.1 [11]) and for which
FCSError is not asserted.

Note:  The approximate minimum time between
counter rollovers is 81 hours."
	::= { nrptrMonitorPortEntry 4 }


rptrMonPortReadableOctets OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Increment counter by OctetCount for each frame
which which has been determined to be a readable
frame.

Note:  The approximate minimum time between
counter rollovers is 58 minutes."
	::= { nrptrMonitorPortEntry 5 }


rptrMonPortFrameCheckSequenceErrs OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Increment counter by one for each frame with
FCSError and without FramingError and whose
OctetCount is greater than or equal to
minFrameSize and less than or equal to
maxFrameSize (Ref: 4.4.2.1 [11]).

Note:  The approximate minimum time between
counter rollovers is 81 hours."
	::= { nrptrMonitorPortEntry 6 }


rptrMonPortAlignmentErrors OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Increment counter by one for each frame with
FCSError and FramingError and whose octetCount is
greater than or equal to minFrameSize and less
than or equal to maxFrameSize (Ref: 4.4.2.1 [11]).

Note:  The approximate minimum time between
counter rollovers is 81 hours."
	::= { nrptrMonitorPortEntry 7 }


rptrMonPortFrameTooLongs OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Increment counter by one for each frame whose
OctetCount is greater than maxFrameSize (Ref:
4.4.2.1 [11]).

Note:  The approximate minimum time between
counter rollovers is 61 days."
	::= { nrptrMonitorPortEntry 8 }


rptrMonPortShortEvents OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Increment counter by one for each carrier event
whose ActivityDuration is greater than
ShortEventMinTime and less than ShortEventMaxTime.
ShortEventMinTime represents any event of
sufficient duration to initiate transmission by a
repeater. ShortEventMaxTime is greater than 7.4uS
and less than 8.2uS. ShortEventMaxTime has
tolerances included to provide for circuit losses
between a conformance test point at the AUI and
the measurement point within the state machine.

Note: shortEvents may indicate an externally
generated noise hit which will cause the relay to
transmit Runts to its other ports, or propagate a
collision (which may be late) back to the
transmitting DTE and damaged frames to the rest of
the network. Such shortEvents are not a feature of
normal network activity. Also it should be noted
that a MAU that is attached to a coax segment may
have several carrier dropouts on the DI circuit
before the CI circuit is active and stable. Such
dropouts will increment the shortEvent counter but
are considered normal for a coax segment."
	::= { nrptrMonitorPortEntry 9 }


rptrMonPortRunts OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Increment counter by one for each carrier event
whose ActivityDuration is greater than
ShortEventMaxTime and less than  RuntMaxTime.
RuntMaxTime is greater than 53.2uS and less than
56.0uS.

An event whose length is greater than 7.4uS but
less than 8.2uS shall increment either the
ShortEvent object or the runts object but not
both.

A non-collision event greater than 53.2uS but less
than 56.0uS may or may not be counted as a runt.
A non-collision event greater than or equal to
56.0uS shall not be counted as a Runt.
RuntMaxTime has tolerances included to provide for
circuit losses between a conformance test point at
the AUI and the measurement point within the state
machine.

Note:  Runts do not indicate a problem in the
network.  The approximate minimum time for counter
rollover is 16 hours."
	::= { nrptrMonitorPortEntry 10 }


rptrMonPortCollisions OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Increment counter by one for each carrier event
in which the CIPresent(X) variable has the value
SQE (see 9.6.6.2 [11]).

Note:    The approximate minimum time for counter
rollover is 16 hours."
	::= { nrptrMonitorPortEntry 11 }


rptrMonPortLateCollisions OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Increment counter by one for each carrier event
in which the CIPresent(X) variable has the value
SQE (see 9.6.6.2 [11]) at any time when the
ActivityDuration is greater than the RuntMaxTime.

A late collision is counted twice, as both a
collision and as a late collision.
LateCollisionThreshold has tolerances included to
provide for circuit losses between a conformance
test point at the AUI and the measurement point
within the state machine.

Note:  The approximate minimum time between
counter rollovers is 81 hours."
	::= { nrptrMonitorPortEntry 12 }


rptrMonPortDataRateMismatches OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The dataRateMismatches object counts the number
of times that a packet has been received by this
port with the transmission frequency (data rate)
detectably mismatched from the local transmit
frequency. The exact degree is implementation-
specific and is to be defined by the implementor
for conformance testing.

Note: Whether or not the repeater was able to
maintain data integrity is beyond the scope of
this standard."
	::= { nrptrMonitorPortEntry 13 }


rptrMonPortAutoPartitions OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The autoPartitions object counts the number of
times that the repeater has automatically
partitioned this port. The conditions that cause
port partitioning are specified in partition state
machine in Sect. 9 [11]. They are not
differentiated here.

Note:  The approximate minimum time between
counter rollovers is 20 days."
	::= { nrptrMonitorPortEntry 14 }


rptrMonPortVeryLongEvents OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The veryLongEvents object counts the number of
times a packet has been received by this port
that was so long that the repeater was forced
to go into a jabber protection condition.

Note:  The approximate minimum time for counter
rollover is 200 days."
	::= { nrptrMonitorPortEntry 15 }


nrptrAddrTrackTable OBJECT-TYPE
	SYNTAX SEQUENCE OF nRptrAddrTrackEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Table of address mapping information about the
ports."
	::= { rptrAddrTrackGroup 1 }


nrptrAddrTrackEntry OBJECT-TYPE
	SYNTAX nRptrAddrTrackEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "An entry in the table, containing address mapping
information about a single port."
	INDEX { rptrAddrRptrID , rptrAddrGroupID, rptrAddrPortID }

	::= { nrptrAddrTrackTable 1 }

nrptrAddrTrackEntry ::=
	SEQUENCE {
		rptrAddrRptrID INTEGER,
		rptrAddrGroupID INTEGER,
		rptrAddrPortID INTEGER,
		rptrAddrLastSourceAddress OCTET STRING,
		rptrAddrSourceAddrChanges Counter
		}

rptrAddrRptrID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Repeater ID for identifying the port."
	::= { nrptrAddrTrackEntry 1 }


rptrAddrGroupID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Group ID for identifying the port."
	::= { nrptrAddrTrackEntry 2 }


rptrAddrPortID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Port index for identifying the port."
	::= { nrptrAddrTrackEntry 3 }


rptrAddrLastSourceAddress OBJECT-TYPE
	SYNTAX OCTET STRING (SIZE(6))
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The lastSourceAddress object is the source
address of the last readable frame (i.e., counted
by rptrMonPortReadableFrames) received by this
port."
	::= { nrptrAddrTrackEntry 4 }


rptrAddrSourceAddrChanges OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The rptrAddrSourceAddressChanges object counts
the number of the times that the
rptrAddrLastSourceAddress for this port has
changed.

Note:  This may indicate whether a link is
connected to a single DTE or another multi-user
segment. The approximate minimum time for counter
rollover is 81 hours."
	::= { nrptrAddrTrackEntry 5 }


rptrExtendedTable OBJECT-TYPE
	SYNTAX SEQUENCE OF RptrExtendedEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Extended statistics for a collection of 
repeaters in a particular system."
	::= { rptrExtensionsGroup 1 }


rptrExtendedEntry OBJECT-TYPE
	SYNTAX RptrExtendedEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "An entry in the table, containing extended 
statistics for a single repeater."
	INDEX { rptrExtID  }

	::= { rptrExtendedTable 1 }

rptrExtendedEntry ::=
	SEQUENCE {
		rptrExtID INTEGER,
		rptrExtTotalOctets Counter,
		rptrExtName DisplayString
		}

rptrExtID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the repeater for which
this entry contains monitor information."
	::= { rptrExtendedEntry 1 }


rptrExtTotalOctets OBJECT-TYPE
	SYNTAX Counter
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This counter is incremented by one for each
octet repeated, including the 8 octets of
preamble and the FCS for any packet, whether
the FCS was correct or not.

Note:  The approximate minimum time between
counter rollovers is 58 minutes."
	::= { rptrExtendedEntry 2 }


rptrExtName OBJECT-TYPE
	SYNTAX DisplayString (SIZE(0..12))
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "A textual name administratively assigned to
this repeater."
	::= { rptrExtendedEntry 3 }


rptrExtendedGroupTable OBJECT-TYPE
	SYNTAX SEQUENCE OF RptrExtendedGroupEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Table of descriptive and status information about
the groups of ports."
	::= { rptrExtensionsGroup 2 }


rptrExtendedGroupEntry OBJECT-TYPE
	SYNTAX RptrExtendedGroupEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "An entry in the table, containing information
about a single group of ports."
	INDEX { rptrExtGroupRptrID , rptrExtGroupID }

	::= { rptrExtendedGroupTable 1 }

rptrExtendedGroupEntry ::=
	SEQUENCE {
		rptrExtGroupRptrID INTEGER,
		rptrExtGroupID INTEGER,
		rptrExtGroupSlotNo INTEGER,
		rptrExtChassisID INTEGER
		}

rptrExtGroupRptrID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the repeater containing
the group for which this entry contains
information."
	::= { rptrExtendedGroupEntry 1 }


rptrExtGroupID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the group  within the
repeater for which this entry contains 
information.  This value is never greater than 
rptrBasGroupCapacity."
	::= { rptrExtendedGroupEntry 2 }


rptrExtGroupSlotNo OBJECT-TYPE
	SYNTAX INTEGER
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The number of the slot in which the group card
resides.  A negative value signifies that the
slot number is not known."
	::= { rptrExtendedGroupEntry 3 }


rptrExtGroupChassisID OBJECT-TYPE
	SYNTAX INTEGER
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The number of the chassis in which the group card
resides.  A zero value signifies that the chassis
number is not known."
	::= { rptrExtendedGroupEntry 4 }


rptrExtendedPortTable OBJECT-TYPE
	SYNTAX SEQUENCE OF RptrExtendedPortEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "Table of descriptive and status information about
the ports."
	::= { rptrExtensionsGroup 3 }


rptrExtendedPortEntry OBJECT-TYPE
	SYNTAX RptrExtendedPortEntry
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "An entry in the table, containing information
about a single port."
	INDEX { rptrExtPortRptrID , rptrExtPortGroupID, rptrExtPortID }

	::= { rptrExtendedPortTable 1 }

rptrExtendedPortEntry ::=
	SEQUENCE {
		rptrExtPortRptrID INTEGER,
		rptrExtPortGroupID INTEGER,
		rptrExtPortID INTEGER,
		rptrExtPortLinkState INTEGER,
		rptrExtPortName DisplayString,
		rptrExtPortLoginName DisplayString,
		rptrExtPortBackplane INTEGER
		}

rptrExtPortRptrID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the repeater containing
the port for which this entry contains
information."
	::= { rptrExtendedPortEntry 1 }


rptrExtPortGroupID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the group containing the
port for which this entry contains information."
	::= { rptrExtendedPortEntry 2 }


rptrExtPortID OBJECT-TYPE
	SYNTAX INTEGER (1..1024)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "This variable identifies the port within the
group within the repeater for which this entry
contains management information. This value can
never be greater than rptrBasGroupNumOfPorts for
the associated group."
	::= { rptrExtendedPortEntry 3 }


rptrExtPortLinkState OBJECT-TYPE
	SYNTAX INTEGER {
	linkDown(1),
	linkUp(2),
	notApplicable(3)
	}
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "A value indicating the current state of the link 
attached to the port.  The possible values are:

linkDown(1)      The link pulses are not being 
received by the port.
linkUp(2)        The link pulses are being received 
by the port.
notApplicable(3) The port is an AUI or other 
non-10BaseT port."
	::= { rptrExtendedPortEntry 4 }


rptrExtPortName OBJECT-TYPE
	SYNTAX DisplayString (SIZE(0..12))
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "A textual name administratively assigned to
this port."
	::= { rptrExtendedPortEntry 5 }


rptrExtPortLoginName OBJECT-TYPE
	SYNTAX DisplayString (SIZE(0..47))
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The login name of the user currently logged in,
via this port, to the server containing this
repeater;  otherwise, the null string"
	::= { rptrExtendedPortEntry 6 }


rptrExtPortBackplane OBJECT-TYPE
	SYNTAX INTEGER (0..65535)
	ACCESS read-only
	STATUS mandatory
	DESCRIPTION "The segment to which the port belongs."
	::= { rptrExtendedPortEntry 7 }



rptrHealth TRAP-TYPE
	ENTERPRISE nSnmpDot3RptrMgt
	VARIABLES { rptrBasHealthState, rptrBasHealthText, rptrBasHealthData, rptrBasID, rptrExtName }

	--#TYPE "Ethernet hub health status"

	--#SUMMARY "Health status for hub %s(%d) changed to %s(%d)."

	--#ARGUMENTS { 4, 3, 1, 0 }

	--#SEVERITY CRITICAL

	--#TIMEINDEX 5

	--#HELP "hsm.hlp"

	--#HELPTAG 203

	--#STATE  OPERATIONAL
DESCRIPTION "The rptrHealth trap conveys information related
to the operational state of the repeater. This
trap is sent only when the health state of the
repeater changes."
	::= 1


rptrGroupMapChange TRAP-TYPE
	ENTERPRISE nSnmpDot3RptrMgt
	VARIABLES { rptrBasGroupMap, rptrBasID, rptrExtName }

	--#TYPE "Ethernet hub group map change"

	--#SUMMARY "Group mapping for hub %s(%d) changed to %x."

	--#ARGUMENTS { 2, 1, 0 }

	--#SEVERITY CRITICAL

	--#TIMEINDEX 3

	--#HELP "hsm.hlp"

	--#HELPTAG 202

	--#STATE  OPERATIONAL
DESCRIPTION "This trap is sent when a change occurs in the
group structure of a repeater. This occurs only
when a group is logically removed from or added to
a repeater. The varBind list contains the updated
value of the rptrBasGroupMap variable."
	::= 2


rptrReset TRAP-TYPE
	ENTERPRISE nSnmpDot3RptrMgt
	VARIABLES { rptrBasHealthState, rptrBasHealthText, rptrBasHealthData, rptrBasID, rptrExtName }

	--#TYPE "Ethernet hub reset"

	--#SUMMARY "Hub %s(%d) performed a reset operation."

	--#ARGUMENTS { 4, 3 }

	--#SEVERITY INFORMATIONAL

	--#TIMEINDEX 5

	--#HELP "hsm.hlp"

	--#HELPTAG 204

	--#STATE  OPERATIONAL
DESCRIPTION "The rptrReset trap conveys information related to
the operational state of the repeater. This trap
is sent on completion of a repeater reset action."
	::= 3


END