mibs/MIBS/enterasys/CTRON-ETHERNET-PARAMETERS-MIB

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CTRON-ETHERNET-PARAMETERS-MIB DEFINITIONS ::= BEGIN
-- ctron-ethernet-parameters.txt
-- Revision: 01.00.04
-- Part Number:
-- Date: November 11, 1998
-- Cabletron Systems, Inc.
-- 35 Industrial Way, P.O. Box 5005
-- Rochester, NH 03867-0505
-- (603) 332-9400
-- support@ctron.com
-- This module provides authoritative definitions for Cabletron's
-- enterprise-specific Ethernet Parameters MIB.
--
-- This module will be extended, as needed.
-- Cabletron Systems reserves the right to make changes in
-- specification and other information contained in this document
-- without prior notice. The reader should consult Cabletron Systems
-- to determine whether any such changes have been made.
--
-- In no event shall Cabletron Systems be liable for any incidental,
-- indirect, special, or consequential damages whatsoever (including
-- but not limited to lost profits) arising out of or related to this
-- document or the information contained in it, even if Cabletron
-- Systems has been advised of, known, or should have known, the
-- possibility of such damages.
--
-- Cabletron grants vendors, end-users, and other interested parties
-- a non-exclusive license to use this Specification in connection
-- with the management of Cabletron products.
-- Copyright November 1998 Cabletron Systems
IMPORTS
OBJECT-TYPE
FROM RFC-1212
Counter
FROM RFC1155-SMI
ctEthernetCtlParameters
FROM CTRON-MIB-NAMES
ctIfPortIfNumber, ctIfPortPortNumber
FROM CTIF-EXT-MIB;
-- The ctEthernetCtlParameters MIB is used to manage Cabletron interfaces
-- that comply to IEEE Std 802.3, 1998 Edition. This MIB supercedes the
-- ctFastEthernet MIB.
ctAutoNegCtl OBJECT IDENTIFIER ::= { ctEthernetCtlParameters 1 }
-- The ctAutoNegCtl group provides configuration for Cabletron
-- interfaces that comply to IEEE Std 802.3, 1998 Edition.
--
-- The implementation of this group is MANDATORY.
ctAutoNegCtlTable OBJECT-TYPE
SYNTAX SEQUENCE OF CtAutoNegCtlEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Provides a list of definitions and control objects over any 10BASE-T,
100BASE-TX, or 1000BASE-X Cabletron interface that supports
auto-negotiation as described by the aforementioned standards."
::= { ctAutoNegCtl 1 }
ctAutoNegCtlEntry OBJECT-TYPE
SYNTAX CtAutoNegCtlEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Defines a particular entry containing objects pertaining to
definition and control over interfaces supporting Auto-Negotiation."
INDEX { ctIfPortIfNumber, ctIfPortPortNumber }
::= { ctAutoNegCtlTable 1 }
CtAutoNegCtlEntry ::= SEQUENCE {
ctAutoNegAdminStatus
INTEGER,
ctAutoNegRemoteSignalling
INTEGER,
ctAutoNegAutoConfig
INTEGER,
ctAutoNegLocalTechnologyAbility
INTEGER,
ctAutoNegAdvertisedTechnologyAbility
INTEGER,
ctAutoNegReceivedTechnologyAbility
INTEGER
}
ctAutoNegAdminStatus OBJECT-TYPE
SYNTAX INTEGER {
enable(1),
disable(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"This object controls whether Auto-Negotiation is enabled
for the specified port. If Auto-Negotiation is disabled the port will
revert to the speed, duplex and flow control settings specified by
their associated leaves in the ctEtherManualConfig and
ctFlowControl groups."
REFERENCE
"IEEE Std 802.3, 1998 Edition 30.6.1.1.2"
DEFVAL { enable }
::= { ctAutoNegCtlEntry 1 }
ctAutoNegRemoteSignalling OBJECT-TYPE
SYNTAX INTEGER {
detected(1),
notdetected(2)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object indicates whether the remote end of the link is operating
Auto-Negotiation signalling or not."
REFERENCE
"IEEE Std 802.3, 1998 Edition 30.6.1.1.3"
::= { ctAutoNegCtlEntry 2 }
ctAutoNegAutoConfig OBJECT-TYPE
SYNTAX INTEGER {
other(1),
configuring(2),
complete(3),
disabled(4),
paralleldetectfailed(5)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object indicates whether Auto-Negotiation signalling is in
progress or has completed."
REFERENCE
"IEEE Std 802.3, 1998 Edition 30.6.1.1.4"
::= { ctAutoNegCtlEntry 3 }
ctAutoNegLocalTechnologyAbility OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This indicates the technology ability of the local hardware.
The value is a sum. This sum initially takes the value zero. Then, for
each technology, T, that the port supports, 2 raised to (T - 1) is added
to the sum. For example, a port that supports 1000BASE-TFD (T = 18) and
1000BASE-T (T = 17) would return a value of 196608
((2 ^ (18 - 1)) + (2 ^ (17 - 1))).
For ports supporting Auto-Negotiation, values should be calculated
as follows:
T Technology Description
-- ----------- ------------------------------------------------
1 global Reserved for future use.
2 other None of the following.
3 unknown Initializing, true state or type not yet known
4 10BASE-T 10BASE-T Half Duplex
5 10BASE-TFD 10BASE-T Full Duplex
6 100BASE-T4 100BASE-T4 Half Duplex
7 100BASE-TX 100BASE-TX Half Duplex
8 100BASE-TXFD 100BASE-TX Full Duplex
9 FDX PAUSE Full Duplex Flow Control
10 FDX APAUSE Full Duplex Asymmetric Flow Control
11 FDX SPAUSE Full Duplex Symmetric Flow Control
12 FDX BPAUSE Full Duplex Asymmetric and Symmetric Flow Control
13 100BASE-T2 100BASE-T2 Half Duplex
14 100BASE-T2FD 100BASE-T2 Full Duplex
15 1000BASE-X 1000BASE-X Half Duplex
16 1000BASE-XFD 1000BASE-X Full Duplex
17 1000BASE-T 1000BASE-T Half Duplex
18 1000BASE-TFD 1000BASE-T Full Duplex
19 Rem Fault1 Remote Fault Bit 1
20 Rem Fault2 Remote Fault Bit 2
21 ISO Ethernet IEEE Std 802.9 ISLAN-16T
"
REFERENCE
"IEEE Std 802.3, 1998 Edition 30.6.1.1.5"
::= { ctAutoNegCtlEntry 4 }
ctAutoNegAdvertisedTechnologyAbility OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-write
STATUS mandatory
DESCRIPTION
"Indicates the advertised ability of the local hardware, but only
becomes active on ports that have auto-negotiation enabled.
The value is a sum. This sum initially takes the value zero. Then, for
each technology, T, that the port is advertising, 2 raised to (T - 1)
is added to the sum. For example, a port that advertises 1000BASE-TFD
(T = 18) and 1000BASE-T (T = 17) would return a value of 196608
((2 ^ (18 - 1)) + (2 ^ (17 - 1))).
Values for T are limited to technologies supported by the hardware as
specified by ctAutoNegLocalTechnologyAbility. For ports supporting
Auto-Negotiation, values should be calculated as follows:
T Technology Description
-- ----------- ------------------------------------------------
1 global Reserved for future use.
2 other None of the following.
3 unknown Initializing, true state or type not yet known
4 10BASE-T 10BASE-T Half Duplex
5 10BASE-TFD 10BASE-T Full Duplex
6 100BASE-T4 100BASE-T4 Half Duplex
7 100BASE-TX 100BASE-TX Half Duplex
8 100BASE-TXFD 100BASE-TX Full Duplex
9 FDX PAUSE Full Duplex Flow Control
10 FDX APAUSE Full Duplex Asymmetric Flow Control
11 FDX SPAUSE Full Duplex Symmetric Flow Control
12 FDX BPAUSE Full Duplex Asymmetric and Symmetric Flow Control
13 100BASE-T2 100BASE-T2 Half Duplex
14 100BASE-T2FD 100BASE-T2 Full Duplex
15 1000BASE-X 1000BASE-X Half Duplex
16 1000BASE-XFD 1000BASE-X Full Duplex
17 1000BASE-T 1000BASE-T Half Duplex
18 1000BASE-TFD 1000BASE-T Full Duplex
19 Rem Fault1 Remote Fault Bit 1
20 Rem Fault2 Remote Fault Bit 2
21 ISO Ethernet IEEE Std 802.9 ISLAN-16T
A successful set operation will result in immediate link re-negotiation
if Auto-Negotiation is enabled on this port, as specified by
ctAutoNegAdminStatus. A set of this object to a value containing bits
that are not supported by the hardware will be successful, but, the port
will only advertise values which are the logical AND of the set value and
ctAutoNegLocalTechnologyAbility.
Note: this re-negotiation will in every case cause temporary link loss
during the link re-negotiation. If set to a value that is incompatible
with ctAutoNegLocalTechnologyAbility, link negotiation will not
be successful and will cause permanent link loss."
REFERENCE
"IEEE Std 802.3, 1998 Edition 30.6.1.1.6"
::= { ctAutoNegCtlEntry 5 }
ctAutoNegReceivedTechnologyAbility OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"Indicates the advertised ability of the remote hardware, or link
partner.
The value is a sum. This sum initially takes the value zero. Then, for
each technology, T, that the link partner supports, 2 raised to (T - 1)
is added to the sum. For example, a link partner advertising
1000BASE-TFD (T = 18) and 1000BASE-T (T = 17) would return a value
of 196608 ((2 ^ (18 - 1)) + (2 ^ (17 - 1))).
For ports supporting Auto-Negotiation, values should be calculated
as follows:
T Technology Description
-- ----------- ------------------------------------------------
1 global Reserved for future use.
2 other None of the following.
3 unknown Initializing, true state or type not yet known
4 10BASE-T 10BASE-T Half Duplex
5 10BASE-TFD 10BASE-T Full Duplex
6 100BASE-T4 100BASE-T4 Half Duplex
7 100BASE-TX 100BASE-TX Half Duplex
8 100BASE-TXFD 100BASE-TX Full Duplex
9 FDX PAUSE Full Duplex Flow Control
10 FDX APAUSE Full Duplex Asymmetric Flow Control
11 FDX SPAUSE Full Duplex Symmetric Flow Control
12 FDX BPAUSE Full Duplex Asymmetric and Symmetric Flow Control
13 100BASE-T2 100BASE-T2 Half Duplex
14 100BASE-T2FD 100BASE-T2 Full Duplex
15 1000BASE-X 1000BASE-X Half Duplex
16 1000BASE-XFD 1000BASE-X Full Duplex
17 1000BASE-T 1000BASE-T Half Duplex
18 1000BASE-TFD 1000BASE-T Full Duplex
19 Rem Fault1 Remote Fault Bit 1
20 Rem Fault2 Remote Fault Bit 2
21 ISO Ethernet IEEE Std 802.9 ISLAN-16T
"
REFERENCE
"IEEE Std 802.3, 1998 Edition 30.6.1.1.7"
::= { ctAutoNegCtlEntry 6 }
ctFlowControl OBJECT IDENTIFIER ::= { ctEthernetCtlParameters 2 }
-- The ctFlowCtl group provides configuration and statistics for
-- Cabletron Flow Control capable devices.
--
-- The implementation of this group is OPTIONAL.
ctFlowCtlTable OBJECT-TYPE
SYNTAX SEQUENCE OF CtFlowCtlEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Provides a list of statistic and control objects over 10BASE-X,
100BASE-X and 1000BASE-X Cabletron interfaces that support flow
control as described by IEEE Std 802.3, 1998 Edition."
::= { ctFlowControl 1 }
ctFlowCtlEntry OBJECT-TYPE
SYNTAX CtFlowCtlEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Defines a particular entry containing objects pertaining to
definition and control over Cabletron flow control capable interfaces."
INDEX { ctIfPortIfNumber, ctIfPortPortNumber }
::= { ctFlowCtlTable 1 }
CtFlowCtlEntry ::= SEQUENCE {
ctFlowCtlHalfDuplexAdminStatus
INTEGER,
ctFlowCtlHalfDuplexOperStatus
INTEGER,
ctEtherSupportedPauseModes
INTEGER,
ctFlowCtlPauseAdminStatus
INTEGER,
ctFlowCtlPauseOperStatus
INTEGER,
ctFlowCtlPauseTimer
INTEGER,
ctFlowCtlRxPauseFrames
Counter,
ctFlowCtlTxPauseFrames
Counter
}
ctFlowCtlHalfDuplexAdminStatus OBJECT-TYPE
SYNTAX INTEGER {
enabled(1),
disabled(2)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The administrative status requested by management for back pressure
on this port. Back pressure is a collision based flow control mechanism
used in half duplex configurations. The value of enabled(1) indicates
that back pressure should be enabled on this port if the port is in half
duplex. The value of disable(2) indicates that back pressure should be
disabled on this port."
DEFVAL { enabled }
::= { ctFlowCtlEntry 1 }
ctFlowCtlHalfDuplexOperStatus OBJECT-TYPE
SYNTAX INTEGER {
enabled(1),
disabled(2),
notsupported(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current operational status of back pressure on this port."
::= { ctFlowCtlEntry 2 }
ctEtherSupportedPauseModes OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This indicates the frame based modes of full duplex flow control for this
port.
The value is a sum. This sum initially takes the value zero. Then, for
each mode, M, that the port supports, 2 raised to (M - 1) is added to
the sum. For example, a port that supports Symmetric (M= 2),
AsymmetricRX (M = 3) and AsymmetricTx (M = 4) would return a value
of 14 ((2 ^ (2 - 1)) + (2 ^ (3 - 1)) + (2 ^ (4 - 1))).
Speed values should be calculated as follows:
M Mode Description
-- ------------ ------------------------------------------------
1 Other None of the following
2 Symmetric Receive and Transmit Pause Frames
3 AsymmetricRx Receive Pause Frames
4 AsymmetricTx Transmit Pause Frames
"
::= { ctFlowCtlEntry 3 }
ctFlowCtlPauseAdminStatus OBJECT-TYPE
SYNTAX INTEGER {
symmetric(1),
asymmetricRx(2),
asymmetricTx(3),
disabled(4),
autonegotiate(5)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The administrative status requested by management for frame based
flow control on this port. For 10 Mb and 100 Mb ports the value of
symmetric(1) indicates that if Auto-Negotiation is supported for this
port, that the FDX PAUSE bit in the ctAutoNegLocalTechnologyAbility will
be set, further indicating that the port supports full duplex flow
control. For 1000 Mb the value of symmetric(1) indicates that if
Auto-Negotiation is supported for this port, that the FDX SPAUSE
bit in the ctAutoNegLocalTechnologyAbility will be set, further
indicating that the port supports symmetric frame based flow control.
In all cases a set of symmetric(1) will cause the port to interpret
received PAUSE frames and allow the port to transmit PAUSE frames when
necessary. A set of a value of symmetric(1) is limited to those ports
that support symmetric frame based flow control as specified by
ctEtherSupportedPauseModes.
The value of asymmetricRx(2) indicates that if Auto-Negotiation is
supported for this port, that the FDX BPAUSE bit in the
ctAutoNegLocalTechnologyAbility will be set, further
indicating that the port supports asymmetric receive frame based flow
control. In all cases a set of asymmetricRx(2) will cause the port to
interpret received PAUSE frames and disallow the port to transmit PAUSE
frames. A set of a value of asymmetricRx(2) is limited to those ports
that support asymmetricRx frame based flow control as specified by
ctEtherSupportedPauseModes.
The value of asymmetricTx(3) indicates that if Auto-Negotiation is
supported for this port, that the FDX APAUSE bit in the
ctAutoNegLocalTechnologyAbility will be set, further indicating that the
port supports asymmetric transmit frame based flow control. In all cases
a set of asymmetricTx(3) will cause the port to ignore PAUSE frames and
allow the port to transmit PAUSE frames when necessary. A set of a value
of asymmetricTx(3) is limited to those ports that support asymmetricTx
frame based flow control as specified by ctEtherSupportedPauseModes.
The value of disabled(4) indicates that if Auto-Negotiation is supported
for this port, that the FDX PAUSE, FDX APAUSE, FDX SPAUSE and FDX BPAUSE
bits in the ctAutoNegLocalTechnologyAbility will be cleared, further
indicating that the port does not support frame based flow control. In
all cases a set of disable(2) will cause the port to ignore received
PAUSE frames and to disallow the port to transmit PAUSE frames.
The value of autonegotiate(5) indicates that if Auto-Negotiation is
supported for this port, and the hardware supports the ability to
advertise PAUSE capability, that the maximum flow control capabilities
of the hardware are to be reflected in the PAUSE bits of
ctAutoNegLocalTechnologyAbility. The ports flow control operational
state will be determined by the results of Auto-Negotiation. If
Auto-Negotiation is not supported for this port, a set of
autonegotiate(5) will fail.
In all cases frame based flow control is only used for ports that
are in full duplex."
DEFVAL { autonegotiate }
::= { ctFlowCtlEntry 4 }
ctFlowCtlPauseOperStatus OBJECT-TYPE
SYNTAX INTEGER {
symmetric(1),
asymmetricRx(2),
asymmetricTx(3),
disabled(4),
unknown(5),
notsupported(6)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The current operational status of full duplex flow control
on this port. A value of unknown(5) will be returned for any port which
has a Pause Frame Admin Status of autonegotiate(5), as specified by
ctFlowCtlPauseAdminStatus, but is in an unknown Auto-Negotiation state."
::= { ctFlowCtlEntry 5 }
ctFlowCtlPauseTimer OBJECT-TYPE
SYNTAX INTEGER (0..65535)
ACCESS read-only
STATUS mandatory
DESCRIPTION
"A 2 octet, unsigned integer containing the length of time for which
the receiving station is requested to inhibit data frame transmission.
The pause time is measured in units of pause_quanta, equal to 512 bit
times of the particular implementation."
REFERENCE
"IEEE Std 802.3, 1998 Edition Annex 31B.2"
::= { ctFlowCtlEntry 6 }
ctFlowCtlRxPauseFrames OBJECT-TYPE
SYNTAX Counter
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of pause frames received on this port."
::= { ctFlowCtlEntry 7 }
ctFlowCtlTxPauseFrames OBJECT-TYPE
SYNTAX Counter
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The number of pause frames transmitted from this port."
::= { ctFlowCtlEntry 8 }
ctEtherManualConfig OBJECT IDENTIFIER ::= { ctEthernetCtlParameters 3 }
-- The ctEtherManualConfig group provides manual configuration of speed
-- and duplex for 10BASE-T, 100BASE-X, or 1000BASE-X Cabletron Ethernet
-- interfaces.
--
-- The implementation of this group is MANDATORY.
ctEtherManualConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF CtEtherManualConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Provides a list of speed and duplex control objects over 10BASE-X,
100BASE-X and 1000 BASE-X Cabletron Ethernet interfaces."
::= { ctEtherManualConfig 1 }
ctEtherManualConfigEntry OBJECT-TYPE
SYNTAX CtEtherManualConfigEntry
ACCESS not-accessible
STATUS mandatory
DESCRIPTION
"Defines a particular entry containing objects pertaining to
definition and control over Cabletron Ethernet interfaces."
INDEX { ctIfPortIfNumber, ctIfPortPortNumber }
::= { ctEtherManualConfigTable 1 }
CtEtherManualConfigEntry ::= SEQUENCE {
ctEtherSupportedSpeed
INTEGER,
ctEtherSpeedAdminStatus
INTEGER,
ctEtherSpeedOperStatus
INTEGER,
ctEtherSupportedDuplex
INTEGER,
ctEtherDuplexAdminStatus
INTEGER,
ctEtherDuplexOperStatus
INTEGER
}
ctEtherSupportedSpeed OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This indicates the supported speeds for the port.
The value is a sum. This sum initially takes the value zero. Then, for
each speed, S, that the port supports, 2 raised to (S - 1) is added to
the sum. For example, a port that supports 10 Mb (S = 1) and 100 Mb
(S = 2) would return a value of 3 ((2 ^ (1 - 1)) + (2 ^ (2 - 1))).
Speed values should be calculated as follows:
S Speed Description
-- ----------- ------------------------------------------------
1 10 Mb Ethernet
2 100 Mb Fast Ethernet
3 1000 Mb Gigabit Ethernet
"
::= { ctEtherManualConfigEntry 1 }
ctEtherSpeedAdminStatus OBJECT-TYPE
SYNTAX INTEGER {
tenmegabit(2),
hundredmegabit(3),
gigabit(4)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The administrative status requested by management for the speed of this
port. The value of tenmegabit(2) indicates that if Auto-Negotiation
is disabled for this port, that the port will operate at a speed of
10 megabits per second, provided that the port supports that speed,
as specified by ctEtherSupportedSpeed.
The value of hundredmegabit(3) indicates that if Auto-Negotiation
is disabled for this port, that the port will operate at a speed of
100 megabits per second, provided that the port supports that speed,
as specified by ctEtherSupportedSpeed.
The value of gigabit(4) indicates that if Auto-Negotiation
is disabled for this port, that the port will operate at a speed of
1000 megabits per second, provided that the port supports that speed,
as specified by ctEtherSupportedSpeed.
In all cases, if the value specified does not indicate a speed that
the port supports the set will fail."
::= { ctEtherManualConfigEntry 2 }
ctEtherSpeedOperStatus OBJECT-TYPE
SYNTAX INTEGER {
unknown(1),
tenmegabit(2),
hundredmegabit(3),
gigabit(4)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object indicates the current speed of the Ethernet port."
::= { ctEtherManualConfigEntry 3 }
ctEtherSupportedDuplex OBJECT-TYPE
SYNTAX INTEGER {
halfduplex(1),
fullduplex(2),
halfandfullduplex(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object indicates the duplex modes supported by this port.
A value of halfduplex(1) indicates that the port only supports
half duplex operation. A value of fullduplex(2) indicates that
the port only supports full duplex operation. A value of
halfandfullduplex(3) indicates that the port supports both
half and full duplex operation."
::= { ctEtherManualConfigEntry 4 }
ctEtherDuplexAdminStatus OBJECT-TYPE
SYNTAX INTEGER {
halfduplex(2),
fullduplex(3)
}
ACCESS read-write
STATUS mandatory
DESCRIPTION
"The administrative status requested by management for the duplex of this
port. The value of halfduplex(2) indicates that if Auto-Negotiation
is disabled for this port, that the port will operate in half duplex,
provided that the port supports half duplex, as specified by
ctEtherSupportedDuplex.
The value of fullduplex(3) indicates that if Auto-Negotiation
is disabled for this port, that the port will operate in full duplex,
provided that the port supports full duplex, as specified by
ctEtherSupportedDuplex.
In all cases, if the value specified does not indicate a duplex that
the port supports the set will fail."
DEFVAL { halfduplex }
::= { ctEtherManualConfigEntry 5 }
ctEtherDuplexOperStatus OBJECT-TYPE
SYNTAX INTEGER {
unknown(1),
halfduplex(2),
fullduplex(3)
}
ACCESS read-only
STATUS mandatory
DESCRIPTION
"This object indicates the current duplex of the Ethernet port."
::= { ctEtherManualConfigEntry 6 }
END