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Versions: 00 01 02 03 RFC 2668
Hub MIB Working Group A. Smith
INTERNET DRAFT Extreme Networks, Inc.
J. Flick
Hewlett-Packard Company
K. de Graaf
Argon Networks
D. Romascanu
LANNET Ltd.
D. McMaster
Cisco Systems, Inc.
K. McCloghrie
Cisco Systems, Inc.
S. Roberts
Farallon Computing, Inc.
November 1998
Definitions of Managed Objects for IEEE 802.3
Medium Attachment Units (MAUs) using SMIv2
<draft-ietf-hubmib-mau-mib-v2-01.txt>
Status of this Memo
This document is an Internet-Draft. Internet-Drafts are working
documents of the Internet Engineering Task Force (IETF), its areas,
and its working groups. Note that other groups may also distribute
working documents as Internet-Drafts.
Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
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To view the entire list of current Internet-Drafts, please check the
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Rim), ftp.ietf.org (US East Coast), or ftp.isi.edu (US West Coast).
Copyright Notice
Copyright (C) The Internet Society (1998). All Rights Reserved.
Abstract
This memo defines a portion of the Management Information Base (MIB)
for use with network management protocols in the Internet community.
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This memo obsoletes RFC 2239, ''Definitions of Managed Objects for
IEEE 802.3 Medium Attachment Units (MAUs) using SMIv2''. This memo
extends that specification by including management information useful
for the management of 1000 Mb/s MAUs.
Ethernet technology, as defined by the 802.3 Working Group of the
IEEE, continues to evolve, with scalable increases in speed, new
types of cabling and interfaces, and new features. This evolution
may require changes in the managed objects in order to reflect this
new functionality. This document, as with other documents issued by
this working group, reflects a certain stage in the evolution of
Ethernet technology. In the future, this document might be revised,
or new documents might be issued by the Ethernet Interfaces and Hub
MIB Working Group, in order to reflect the evolution of Ethernet
technology.
Distribution of this memo is unlimited. Please forward comments to
hubmib@hprnd.rose.hp.com.
Table of Contents
1. Introduction ............................................... 2
2. The SNMP Management Framework .............................. 3
3. Overview ................................................... 4
3.1. Relationship to RFC 2239 ................................. 4
3.2. Relationship to RFC 1515 ................................. 4
3.3. MAU Management ........................................... 4
3.4. Relationship to Other MIBs ............................... 5
3.4.1. Relationship to the Interfaces MIB ..................... 5
3.4.2. Relationship to the 802.3 Repeater MIB ................. 5
3.5. Management of Internal MAUs .............................. 5
4. Definitions ................................................ 6
5. Intellectual Property ...................................... 47
6. Acknowledgements ........................................... 48
7. References ................................................. 48
8. Security Considerations .................................... 51
9. Authors' Addresses ......................................... 51
A. Change Log ................................................. 53
B. Full Copyright Statement ................................... 54
1. Introduction
This memo defines a portion of the Management Information Base (MIB)
for use with network management protocols in the Internet community.
In particular, it defines objects for managing IEEE 802.3 Medium
Attachment Units (MAUs).
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This memo also includes a MIB module. This MIB module extends the
list of managed objects specified in the earlier version of this MIB:
RFC 2239 [21].
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
document are to be interpreted as described in [20].
2. The SNMP Management Framework
The SNMP Management Framework presently consists of five major
components:
o An overall architecture, described in RFC 2271 [1].
o Mechanisms for describing and naming objects and events for the
purpose of management. The first version of this Structure of
Management Information (SMI) is called SMIv1 and described in
RFC 1155 [2], RFC 1212 [3] and RFC 1215 [4]. The second version,
called SMIv2, is described in RFC 1902 [5], RFC 1903 [6] and RFC
1904 [7].
o Message protocols for transferring management information. The
first version of the SNMP message protocol is called SNMPv1 and
described in RFC 1157 [8]. A second version of the SNMP message
protocol, which is not an Internet standards track protocol, is
called SNMPv2c and described in RFC 1901 [9] and RFC 1906 [10].
The third version of the message protocol is called SNMPv3 and
described in RFC 1906 [10], RFC 2272 [11] and RFC 2274 [12].
o Protocol operations for accessing management information. The
first set of protocol operations and associated PDU formats is
described in RFC 1157 [8]. A second set of protocol operations
and associated PDU formats is described in RFC 1905 [13].
o A set of fundamental applications described in RFC 2273 [14] and
the view-based access control mechanism described in RFC 2275
[15].
Managed objects are accessed via a virtual information store, termed
the Management Information Base or MIB. Objects in the MIB are
defined using the mechanisms defined in the SMI.
This memo specifies a MIB module that is compliant to the SMIv2. A
MIB conforming to the SMIv1 can be produced through the appropriate
translations. The resulting translated MIB must be semantically
equivalent, except where objects or events are omitted because no
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translation is possible (use of Counter64). Some machine readable
information in SMIv2 will be converted into textual descriptions in
SMIv1 during the translation process. However, this loss of machine
readable information is not considered to change the semantics of the
MIB.
3. Overview
3.1. Relationship to RFC 2239
This MIB is intended to be a superset of that defined by RFC 2239
[21], which will go to historic status. This MIB includes all of the
objects contained in that MIB, plus several new ones which provide
additional capabilities. Implementors are encouraged to support all
applicable conformance groups in order to make the best use of the
new functionality provided by this MIB. The new objects provide
management support for:
o management of 1000 Mb/s devices
o management of PAUSE negotiation
o management of remote fault status
3.2. Relationship to RFC 1515
RFC 2239 was a replacement for RFC 1515 [22], which is now historic.
RFC 2239 defined a superset of RFC 1515 which contained all of the
objects defined in RFC 1515, plus several new ones which provided
additional capabilities. The new objects in RFC 2239 provided
management support for:
o management of 100 Mb/s devices
o auto-negotiation on interface MAUs
o jack management
3.3. MAU Management
Instances of these object types represent attributes of an IEEE 802.3
MAU. Several types of MAUs are defined in the IEEE 802.3 CSMA/CD
standard [16]. These MAUs may be connected to IEEE 802.3 repeaters
or to 802.3 (Ethernet-like) interfaces. For convenience this document
refers to these devices as "repeater MAUs" and "interface MAUs."
The definitions presented here are based on Section 30.5, "Layer
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Management for 10, 100 & 1000 Mb/s Medium Attachment Units (MAUs)",
and Annex 30A, "GDMO Specifications for 802.3 managed object classes"
of IEEE Std. 802.3, 1998 edition [16]. That specification includes
definitions for 10Mb/s, 100Mb/s and 1000Mb/s devices. This
specification is intended to serve the same purpose: to provide for
management of all types of Ethernet/802.3 MAUs.
3.4. Relationship to Other MIBs
It is assumed that an agent implementing this MIB will also implement
(at least) the 'system' group defined in MIB-II [18]. The following
sections identify other MIBs that such an agent should implement.
3.4.1. Relationship to the Interfaces MIB.
The sections of this document that define interface MAU-related
objects specify an extension to the Interfaces MIB [19]. An agent
implementing these interface-MAU related objects MUST also implement
the relevant groups of Interface MIB. The value of the object
ifMauIfIndex is the same as the value of 'ifIndex' used to
instantiate the interface to which the given MAU is connected.
It is expected that an agent implementing the interface-MAU related
objects in this MIB will also implement the Ethernet-like Interfaces
MIB, [23].
(Note that repeater ports are not represented as interfaces in the
Interface MIB.)
3.4.2. Relationship to the 802.3 Repeater MIB
The section of this document that defines repeater MAU-related
objects specifies an extension to the 802.3 Repeater MIB defined in
[17]. An agent implementing these repeater-MAU related objects MUST
also implement the 802.3 Repeater MIB.
The values of 'rpMauGroupIndex' and 'rpMauPortIndex' used to
instantiate a repeater MAU variable SHALL be the same as the values
of 'rptrPortGroupIndex' and 'rptrPortIndex' used to instantiate the
port to which the given MAU is connected.
3.5. Management of Internal MAUs
In some situations, a MAU can be "internal" -- i.e., its
functionality is implemented entirely within a device. For example,
a managed repeater may contain an internal repeater-MAU and/or an
internal interface-MAU through which management communications
originating on one of the repeater's external ports pass in order to
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reach the management agent associated with the repeater. Such
internal MAUs may or may not be managed. If they are managed,
objects describing their attributes should appear in the appropriate
MIB subtree: dot3RpMauBasicGroup for internal repeater-MAUs and
dot3IfMauBasicGroup for internal interface-MAUs.
4. Definitions
MAU-MIB DEFINITIONS ::= BEGIN
IMPORTS
Counter32, Integer32,
OBJECT-TYPE, MODULE-IDENTITY, NOTIFICATION-TYPE,
OBJECT-IDENTITY, mib-2
FROM SNMPv2-SMI
TruthValue, TEXTUAL-CONVENTION
FROM SNMPv2-TC
OBJECT-GROUP, MODULE-COMPLIANCE, NOTIFICATION-GROUP
FROM SNMPv2-CONF;
mauMod MODULE-IDENTITY
LAST-UPDATED "9811060040Z" -- November 6, 1998
ORGANIZATION "IETF Ethernet Interfaces and Hub MIB
Working Group"
CONTACT-INFO
"WG E-mail: hubmib@hprnd.rose.hp.com
To subscribe: hubmib-request@hprnd.rose.hp.com
Chair: Dan Romascanu
Postal: LANNET Ltd.
Atidim Technology Park, Bldg. 3
Tel Aviv 61131
Israel
Tel: +972 3 645 8414, 6458458
Fax: +972 3 648 7146
E-mail: dromasca@lannet.com
Editors: Andrew Smith
Postal: Extreme Networks, Inc.
10460 Bandley Drive
Cupertino, CA 95014
USA
Tel: +1 408 342 0999
E-mail: andrew@extremenetworks.com
John Flick
Postal: Hewlett-Packard Company
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8000 Foothills Blvd. M/S 5556
Roseville, CA 95747-5556
USA
Tel: +1 916 785 4018
Fax: +1 916 785 3583
E-mail: johnf@rose.hp.com
Kathryn de Graaf
Postal: Argon Networks
25 Porter Road
Littleton, MA 01460
USA
Tel: +1 978 486 0665 x163
Fax: +1 978 486 9379
E-mail: kdegraaf@argon.com"
DESCRIPTION "Management information for 802.3 MAUs.
The following reference is used throughout
this MIB module:
[IEEE 802.3 Std] refers to
IEEE Std 802.3, 1998 Edition: 'Information
technology - Telecommunications and
information exchange between systems -
Local and metropolitan area networks -
Specific requirements - Part 3: Carrier
sense multiple access with collision
detection (CSMA/CD) access method and
physical layer specifications',
September 1998.
Of particular interest is Clause 30, '10Mb/s,
100Mb/s and 1000Mb/s Management'."
REVISION "9811060040Z" -- November 6, 1998
DESCRIPTION "Updated to include support for 1000 Mb/sec
MAUs and flow control negotiation."
REVISION "9710310000Z" -- October 31, 1997
DESCRIPTION "Version published as RFC 2239."
::= { snmpDot3MauMgt 6 }
snmpDot3MauMgt OBJECT IDENTIFIER ::= { mib-2 26 }
-- textual conventions
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JackType ::= TEXTUAL-CONVENTION
STATUS current
DESCRIPTION "Common enumeration values for repeater
and interface MAU jack types."
SYNTAX INTEGER {
other(1),
rj45(2),
rj45S(3), -- rj45 shielded
db9(4),
bnc(5),
fAUI(6), -- female aui
mAUI(7), -- male aui
fiberSC(8),
fiberMIC(9),
fiberST(10),
telco(11),
mtrj(12), -- fiber MT-RJ
hssdc(13) -- fiber channel style-2
}
dot3RpMauBasicGroup
OBJECT IDENTIFIER ::= { snmpDot3MauMgt 1 }
dot3IfMauBasicGroup
OBJECT IDENTIFIER ::= { snmpDot3MauMgt 2 }
dot3BroadMauBasicGroup
OBJECT IDENTIFIER ::= { snmpDot3MauMgt 3 }
dot3IfMauAutoNegGroup
OBJECT IDENTIFIER ::= { snmpDot3MauMgt 5 }
-- object identities for MAU types
-- (see rpMauType and ifMauType for usage)
dot3MauType
OBJECT IDENTIFIER ::= { snmpDot3MauMgt 4 }
dot3MauTypeAUI OBJECT-IDENTITY
STATUS current
DESCRIPTION "no internal MAU, view from AUI"
::= { dot3MauType 1 }
dot3MauType10Base5 OBJECT-IDENTITY
STATUS current
DESCRIPTION "thick coax MAU (per 802.3 section 8)"
::= { dot3MauType 2 }
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dot3MauTypeFoirl OBJECT-IDENTITY
STATUS current
DESCRIPTION "FOIRL MAU (per 802.3 section 9.9)"
::= { dot3MauType 3 }
dot3MauType10Base2 OBJECT-IDENTITY
STATUS current
DESCRIPTION "thin coax MAU (per 802.3 section 10)"
::= { dot3MauType 4 }
dot3MauType10BaseT OBJECT-IDENTITY
STATUS current
DESCRIPTION "UTP MAU (per 802.3 section 14)"
::= { dot3MauType 5 }
dot3MauType10BaseFP OBJECT-IDENTITY
STATUS current
DESCRIPTION "passive fiber MAU (per 802.3 section 16)"
::= { dot3MauType 6 }
dot3MauType10BaseFB OBJECT-IDENTITY
STATUS current
DESCRIPTION "sync fiber MAU (per 802.3 section 17)"
::= { dot3MauType 7 }
dot3MauType10BaseFL OBJECT-IDENTITY
STATUS current
DESCRIPTION "async fiber MAU (per 802.3 section 18)"
::= { dot3MauType 8 }
dot3MauType10Broad36 OBJECT-IDENTITY
STATUS current
DESCRIPTION "broadband DTE MAU (per 802.3 section 11).
Note that 10BROAD36 MAUs can be attached to
interfaces but not to repeaters."
::= { dot3MauType 9 }
------ new since RFC 1515:
dot3MauType10BaseTHD OBJECT-IDENTITY
STATUS current
DESCRIPTION "UTP MAU (per 802.3 section 14), half duplex
mode"
::= { dot3MauType 10 }
dot3MauType10BaseTFD OBJECT-IDENTITY
STATUS current
DESCRIPTION "UTP MAU (per 802.3 section 14), full duplex
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mode"
::= { dot3MauType 11 }
dot3MauType10BaseFLHD OBJECT-IDENTITY
STATUS current
DESCRIPTION "async fiber MAU (per 802.3 section 18), half
duplex mode"
::= { dot3MauType 12 }
dot3MauType10BaseFLFD OBJECT-IDENTITY
STATUS current
DESCRIPTION "async fiber MAU (per 802.3 section 18), full
duplex mode"
::= { dot3MauType 13 }
dot3MauType100BaseT4 OBJECT-IDENTITY
STATUS current
DESCRIPTION "4 pair categ. 3 UTP (per 802.3 section 23)"
::= { dot3MauType 14 }
dot3MauType100BaseTXHD OBJECT-IDENTITY
STATUS current
DESCRIPTION "2 pair categ. 5 UTP (per 802.3 section 25),
half duplex mode"
::= { dot3MauType 15 }
dot3MauType100BaseTXFD OBJECT-IDENTITY
STATUS current
DESCRIPTION "2 pair categ. 5 UTP (per 802.3 section 25),
full duplex mode"
::= { dot3MauType 16 }
dot3MauType100BaseFXHD OBJECT-IDENTITY
STATUS current
DESCRIPTION "X fiber over PMT (per 802.3 section 26), half
duplex mode"
::= { dot3MauType 17 }
dot3MauType100BaseFXFD OBJECT-IDENTITY
STATUS current
DESCRIPTION "X fiber over PMT (per 802.3 section 26), full
duplex mode"
::= { dot3MauType 18 }
dot3MauType100BaseT2HD OBJECT-IDENTITY
STATUS current
DESCRIPTION "2 pair categ. 3 UTP (per 802.3 section 32),
half duplex mode"
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::= { dot3MauType 19 }
dot3MauType100BaseT2FD OBJECT-IDENTITY
STATUS current
DESCRIPTION "2 pair categ. 3 UTP (per 802.3 section 32),
full duplex mode"
::= { dot3MauType 20 }
------ new since RFC 2239:
dot3MauType1000BaseXHD OBJECT-IDENTITY
STATUS current
DESCRIPTION "PCS/PMA (per 802.3 section 36), unknown PMD,
half duplex mode"
::= { dot3MauType 21 }
dot3MauType1000BaseXFD OBJECT-IDENTITY
STATUS current
DESCRIPTION "PCS/PMA (per 802.3 section 36), unknown PMD,
full duplex mode"
::= { dot3MauType 22 }
dot3MauType1000BaseLXHD OBJECT-IDENTITY
STATUS current
DESCRIPTION "Fiber over long-wavelength laser (per 802.3
section 38), half duplex mode"
::= { dot3MauType 23 }
dot3MauType1000BaseLXFD OBJECT-IDENTITY
STATUS current
DESCRIPTION "Fiber over long-wavelength laser (per 802.3
section 38), full duplex mode"
::= { dot3MauType 24 }
dot3MauType1000BaseSXHD OBJECT-IDENTITY
STATUS current
DESCRIPTION "Fiber over short-wavelength laser (per 802.3
section 38), half duplex mode"
::= { dot3MauType 25 }
dot3MauType1000BaseSXFD OBJECT-IDENTITY
STATUS current
DESCRIPTION "Fiber over short-wavelength laser (per 802.3
section 38), full duplex mode"
::= { dot3MauType 26 }
dot3MauType1000BaseCXHD OBJECT-IDENTITY
STATUS current
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DESCRIPTION "Copper over 150-Ohm balanced cable (per 802.3
section 39), half duplex mode"
::= { dot3MauType 27 }
dot3MauType1000BaseCXFD OBJECT-IDENTITY
STATUS current
DESCRIPTION "Copper over 150-Ohm balanced cable (per 802.3
section 39), full duplex mode"
::= { dot3MauType 28 }
dot3MauType1000BaseTHD OBJECT-IDENTITY
STATUS current
DESCRIPTION "Four-pair Category 5 UTP (per 802.3 section
40), half duplex mode"
::= { dot3MauType 29 }
dot3MauType1000BaseTFD OBJECT-IDENTITY
STATUS current
DESCRIPTION "Four-pair Category 5 UTP (per 802.3 section
40), full duplex mode"
::= { dot3MauType 30 }
--
-- The Basic Repeater MAU Table
--
rpMauTable OBJECT-TYPE
SYNTAX SEQUENCE OF RpMauEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION "Table of descriptive and status information
about the MAU(s) attached to the ports of a
repeater."
::= { dot3RpMauBasicGroup 1 }
rpMauEntry OBJECT-TYPE
SYNTAX RpMauEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION "An entry in the table, containing information
about a single MAU."
INDEX { rpMauGroupIndex,
rpMauPortIndex,
rpMauIndex
}
::= { rpMauTable 1 }
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RpMauEntry ::=
SEQUENCE {
rpMauGroupIndex Integer32,
rpMauPortIndex Integer32,
rpMauIndex Integer32,
rpMauType OBJECT IDENTIFIER,
rpMauStatus INTEGER,
rpMauMediaAvailable INTEGER,
rpMauMediaAvailableStateExits Counter32,
rpMauJabberState INTEGER,
rpMauJabberingStateEnters Counter32,
rpMauFalseCarriers Counter32
}
rpMauGroupIndex OBJECT-TYPE
SYNTAX Integer32 (1..2147483647)
MAX-ACCESS read-only
STATUS current
DESCRIPTION "This variable uniquely identifies the group
containing the port to which the MAU described
by this entry is connected.
Note: In practice, a group will generally be
a field-replaceable unit (i.e., module, card,
or board) that can fit in the physical system
enclosure, and the group number will correspond
to a number marked on the physical enclosure.
The group denoted by a particular value of this
object is the same as the group denoted by the
same value of rptrGroupIndex."
REFERENCE "Reference RFC 2108, rptrGroupIndex."
::= { rpMauEntry 1 }
rpMauPortIndex OBJECT-TYPE
SYNTAX Integer32 (1..2147483647)
MAX-ACCESS read-only
STATUS current
DESCRIPTION "This variable uniquely identifies the repeater
port within group rpMauGroupIndex to which the
MAU described by this entry is connected."
REFERENCE "Reference RFC 2108, rptrPortIndex."
::= { rpMauEntry 2 }
rpMauIndex OBJECT-TYPE
SYNTAX Integer32 (1..2147483647)
MAX-ACCESS read-only
STATUS current
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DESCRIPTION "This variable uniquely identifies the MAU
described by this entry from among other
MAUs connected to the same port
(rpMauPortIndex)."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.1, aMAUID."
::= { rpMauEntry 3 }
rpMauType OBJECT-TYPE
SYNTAX OBJECT IDENTIFIER
MAX-ACCESS read-only
STATUS current
DESCRIPTION "This object identifies the MAU type. An
initial set of MAU types are defined above. The
assignment of OBJECT IDENTIFIERs to new types of
MAUs is managed by the IANA. If the MAU type is
unknown, the object identifier
unknownMauType OBJECT IDENTIFIER ::= { 0 0 }
is returned. Note that unknownMauType 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."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.2, aMAUType."
::= { rpMauEntry 4 }
rpMauStatus OBJECT-TYPE
SYNTAX INTEGER {
other(1),
unknown(2),
operational(3),
standby(4),
shutdown(5),
reset(6)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION "The current state of the MAU. This object MAY
be implemented as a read-only object by those
agents and MAUs that do not implement software
control of the MAU state. Some agents may not
support setting the value of this object to some
of the enumerated values.
The value other(1) is returned if the MAU is in
a state other than one of the states 2 through
6.
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The value unknown(2) is returned when the MAU's
true state is unknown; for example, when it is
being initialized.
A MAU in the operational(3) state is fully
functional, operates, and passes signals to its
attached DTE or repeater port in accordance to
its specification.
A MAU in standby(4) state forces DI and CI to
idle and the media transmitter to idle or fault,
if supported. Standby(4) mode only applies to
link type MAUs. The state of
rpMauMediaAvailable is unaffected.
A MAU in shutdown(5) state assumes the same
condition on DI, CI, and the media transmitter
as though it were powered down or not connected.
The MAU MAY return other(1) value for the
rpMauJabberState and rpMauMediaAvailable objects
when it is in this state. For an AUI, this
state will remove power from the AUI.
Setting this variable to the value reset(6)
resets the MAU in the same manner as a
power-off, power-on cycle of at least one-half
second would. The agent is not required to
return the value reset (6).
Setting this variable to the value
operational(3), standby(4), or shutdown(5)
causes the MAU to assume the respective state
except that setting a mixing-type MAU or an AUI
to standby(4) will cause the MAU to enter the
shutdown state."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.7, aMAUAdminState,
30.5.1.2.2, acMAUAdminControl, and 30.5.1.2.1,
acResetMAU."
::= { rpMauEntry 5 }
rpMauMediaAvailable OBJECT-TYPE
SYNTAX INTEGER {
other(1),
unknown(2),
available(3),
notAvailable(4),
remoteFault(5),
invalidSignal(6),
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remoteJabber(7),
remoteLinkLoss(8),
remoteTest(9),
offline(10),
autoNegError(11)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION "If the MAU is a link or fiber type (FOIRL,
10BASE-T, 10BASE-F) then this is equivalent to
the link test fail state/low light function.
For an AUI or a coax (including broadband) MAU
this indicates whether or not loopback is
detected on the DI circuit. The value of this
attribute persists between packets for MAU types
AUI, 10BASE5, 10BASE2, 10BROAD36, and 10BASE-FP.
The value other(1) is returned if the
mediaAvailable state is not one of 2 through 6.
The value unknown(2) is returned when the MAU's
true state is unknown; for example, when it is
being initialized. At power-up or following a
reset, the value of this attribute will be
unknown for AUI, coax, and 10BASE-FP MAUs. For
these MAUs loopback will be tested on each
transmission during which no collision is
detected. If DI is receiving input when DO
returns to IDL after a transmission and there
has been no collision during the transmission
then loopback will be detected. The value of
this attribute will only change during
non-collided transmissions for AUI, coax, and
10BASE-FP MAUs.
For 100Mbps and 1000Mbps MAUs, the enumerations
match the states within the respective link
integrity state diagrams, fig 32-16, 23-12 and
24-15 of sections 32, 23 and 24 of [2]. Any MAU
which implements management of auto-negotiation
will map remote fault indication to remote
fault.
The value available(3) indicates that the link,
light, or loopback is normal. The value
notAvailable(4) indicates link loss, low light,
or no loopback.
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The value remoteFault(5) indicates that a fault
has been detected at the remote end of the link.
This value applies to 10BASE-FB, 100BASE-T4 Far
End Fault Indication and non-specified remote
faults from a system running auto-negotiation.
The values remoteJabber(7), remoteLinkLoss(8),
and remoteTest(9) SHOULD be used instead of
remoteFault(5) where the reason for remote fault
is identified in the remote signaling protocol.
The value invalidSignal(6) indicates that an
invalid signal has been received from the other
end of the link. InvalidSignal(6) applies only
to MAUs of type 10BASE-FB.
Where an IEEE Std 802.3u-1995 clause 22 MII
is present, a logic one in the remote fault bit
(reference section 22.2.4.2.8 of that document)
maps to the value remoteFault(5), and a logic
zero in the link status bit (reference section
22.2.4.2.10 of that document) maps to the value
notAvailable(4). The value notAvailable(4)
takes precedence over the value remoteFault(5).
Any MAU that implements management of clause 37
Auto-Negotiation will map the received Remote
Fault (RF1 and RF2) bit values for Offline to
offline(10), Link Failure to remoteFault(5) and
Auto-Negotiation Error to autoNegError(11)."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.4, aMediaAvailable."
::= { rpMauEntry 6 }
rpMauMediaAvailableStateExits OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A count of the number of times that
rpMauMediaAvailable for this MAU instance leaves
the state available(3)."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.5,
aLoseMediaCounter."
::= { rpMauEntry 7 }
rpMauJabberState OBJECT-TYPE
SYNTAX INTEGER {
other(1),
unknown(2),
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noJabber(3),
jabbering(4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION "The value other(1) is returned if the jabber
state is not 2, 3, or 4. The agent MUST always
return other(1) for MAU type dot3MauTypeAUI.
The value unknown(2) is returned when the MAU's
true state is unknown; for example, when it is
being initialized.
If the MAU is not jabbering the agent returns
noJabber(3). This is the 'normal' state.
If the MAU is in jabber state the agent returns
the jabbering(4) value."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.6,
aJabber.jabberFlag."
::= { rpMauEntry 8 }
rpMauJabberingStateEnters OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A count of the number of times that
mauJabberState for this MAU instance enters the
state jabbering(4). For MAUs of type
dot3MauTypeAUI, dot3MauType100BaseT4,
dot3MauType100BaseTX, dot3MauType100BaseFX and
all 1000Mbps types, this counter will always
indicate zero."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.6,
aJabber.jabberCounter."
::= { rpMauEntry 9 }
rpMauFalseCarriers OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A count of the number of false carrier events
during IDLE in 100BASE-X links. This counter
does not increment at the symbol rate. It can
increment after a valid carrier completion at a
maximum rate of once per 100 ms until the next
carrier event.
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This counter increments only for MAUs of type
dot3MauType100BaseT4, dot3MauType100BaseTX, and
dot3MauType100BaseFX and all 1000Mbps types.
For all other MAU types, this counter will
always indicate zero.
The approximate minimum time for rollover of
this counter is 7.4 hours."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.10, aFalseCarriers."
::= { rpMauEntry 10 }
-- The rpJackTable applies to MAUs attached to repeaters
-- which have one or more external jacks (connectors).
rpJackTable OBJECT-TYPE
SYNTAX SEQUENCE OF RpJackEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION "Information about the external jacks attached
to MAUs attached to the ports of a repeater."
::= { dot3RpMauBasicGroup 2 }
rpJackEntry OBJECT-TYPE
SYNTAX RpJackEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION "An entry in the table, containing information
about a particular jack."
INDEX { rpMauGroupIndex,
rpMauPortIndex,
rpMauIndex,
rpJackIndex
}
::= { rpJackTable 1 }
RpJackEntry ::=
SEQUENCE {
rpJackIndex Integer32,
rpJackType JackType
}
rpJackIndex OBJECT-TYPE
SYNTAX Integer32 (1..2147483647)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION "This variable uniquely identifies the jack
described by this entry from among other jacks
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attached to the same MAU (rpMauIndex)."
::= { rpJackEntry 1 }
rpJackType OBJECT-TYPE
SYNTAX JackType
MAX-ACCESS read-only
STATUS current
DESCRIPTION "The jack connector type, as it appears on the
outside of the system."
::= { rpJackEntry 2 }
--
-- The Basic Interface MAU Table
--
ifMauTable OBJECT-TYPE
SYNTAX SEQUENCE OF IfMauEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION "Table of descriptive and status information
about MAU(s) attached to an interface."
::= { dot3IfMauBasicGroup 1 }
ifMauEntry OBJECT-TYPE
SYNTAX IfMauEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION "An entry in the table, containing information
about a single MAU."
INDEX { ifMauIfIndex,
ifMauIndex
}
::= { ifMauTable 1 }
IfMauEntry ::=
SEQUENCE {
ifMauIfIndex Integer32,
ifMauIndex Integer32,
ifMauType OBJECT IDENTIFIER,
ifMauStatus INTEGER,
ifMauMediaAvailable INTEGER,
ifMauMediaAvailableStateExits Counter32,
ifMauJabberState INTEGER,
ifMauJabberingStateEnters Counter32,
ifMauFalseCarriers Counter32,
ifMauTypeList Integer32,
ifMauDefaultType OBJECT IDENTIFIER,
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ifMauAutoNegSupported TruthValue,
ifMauTypeListBits BITS
}
ifMauIfIndex OBJECT-TYPE
SYNTAX Integer32 (1..2147483647)
MAX-ACCESS read-only
STATUS current
DESCRIPTION "This variable uniquely identifies the interface
to which the MAU described by this entry is
connected."
REFERENCE "RFC 1213, ifIndex"
::= { ifMauEntry 1 }
ifMauIndex OBJECT-TYPE
SYNTAX Integer32 (1..2147483647)
MAX-ACCESS read-only
STATUS current
DESCRIPTION "This variable uniquely identifies the MAU
described by this entry from among other MAUs
connected to the same interface (ifMauIfIndex)."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.1, aMAUID."
::= { ifMauEntry 2 }
ifMauType OBJECT-TYPE
SYNTAX OBJECT IDENTIFIER
MAX-ACCESS read-only
STATUS current
DESCRIPTION "This object identifies the 10 or 100 Mb/s
baseband or broadband MAU type. An initial set
of MAU types are defined above. The assignment
of OBJECT IDENTIFIERs to new types of MAUs is
managed by the IANA. If the MAU type is
unknown, the object identifier
unknownMauType OBJECT IDENTIFIER ::= { 0 0 }
is returned. Note that unknownMauType 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.
This object represents the operational type of
the MAU, as determined by either (1) the result
of the auto-negotiation function or (2) if
auto-negotiation is not enabled or is not
implemented for this MAU, by the value of the
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object ifMauDefaultType. In case (2), a set to
the object ifMauDefaultType will force the MAU
into the new operating mode."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.2, aMAUType."
::= { ifMauEntry 3 }
ifMauStatus OBJECT-TYPE
SYNTAX INTEGER {
other(1),
unknown(2),
operational(3),
standby(4),
shutdown(5),
reset(6)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION "The current state of the MAU. This object MAY
be implemented as a read-only object by those
agents and MAUs that do not implement software
control of the MAU state. Some agents may not
support setting the value of this object to some
of the enumerated values.
The value other(1) is returned if the MAU is in
a state other than one of the states 2 through
6.
The value unknown(2) is returned when the MAU's
true state is unknown; for example, when it is
being initialized.
A MAU in the operational(3) state is fully
functional, operates, and passes signals to its
attached DTE or repeater port in accordance to
its specification.
A MAU in standby(4) state forces DI and CI to
idle and the media transmitter to idle or fault,
if supported. Standby(4) mode only applies to
link type MAUs. The state of
ifMauMediaAvailable is unaffected.
A MAU in shutdown(5) state assumes the same
condition on DI, CI, and the media transmitter
as though it were powered down or not connected.
The MAU MAY return other(1) value for the
ifMauJabberState and ifMauMediaAvailable objects
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when it is in this state. For an AUI, this
state will remove power from the AUI.
Setting this variable to the value reset(6)
resets the MAU in the same manner as a
power-off, power-on cycle of at least one-half
second would. The agent is not required to
return the value reset (6).
Setting this variable to the value
operational(3), standby(4), or shutdown(5)
causes the MAU to assume the respective state
except that setting a mixing-type MAU or an AUI
to standby(4) will cause the MAU to enter the
shutdown state."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.7, aMAUAdminState,
30.5.1.2.2, acMAUAdminControl, and 30.5.1.2.1,
acResetMAU."
::= { ifMauEntry 4 }
ifMauMediaAvailable OBJECT-TYPE
SYNTAX INTEGER {
other(1),
unknown(2),
available(3),
notAvailable(4),
remoteFault(5),
invalidSignal(6),
remoteJabber(7),
remoteLinkLoss(8),
remoteTest(9),
offline(10),
autoNegError(11)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION "If the MAU is a link or fiber type (FOIRL,
10BASE-T, 10BASE-F) then this is equivalent to
the link test fail state/low light function.
For an AUI or a coax (including broadband) MAU
this indicates whether or not loopback is
detected on the DI circuit. The value of this
attribute persists between packets for MAU types
AUI, 10BASE5, 10BASE2, 10BROAD36, and 10BASE-FP.
The value other(1) is returned if the
mediaAvailable state is not one of 2 through 6.
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The value unknown(2) is returned when the MAU's
true state is unknown; for example, when it is
being initialized. At power-up or following a
reset, the value of this attribute will be
unknown for AUI, coax, and 10BASE-FP MAUs. For
these MAUs loopback will be tested on each
transmission during which no collision is
detected. If DI is receiving input when DO
returns to IDL after a transmission and there
has been no collision during the transmission
then loopback will be detected. The value of
this attribute will only change during
non-collided transmissions for AUI, coax, and
10BASE-FP MAUs.
For 100Mbps and 1000Mbps MAUs, the enumerations
match the states within the respective link
integrity state diagrams, fig 32-16, 23-12 and
24-15 of sections 32, 23 and 24 of [2]. Any MAU
which implements management of auto-negotiation
will map remote fault indication to remote
fault.
The value available(3) indicates that the link,
light, or loopback is normal. The value
notAvailable(4) indicates link loss, low light,
or no loopback.
The value remoteFault(5) indicates that a fault
has been detected at the remote end of the link.
This value applies to 10BASE-FB, 100BASE-T4 Far
End Fault Indication and non-specified remote
faults from a system running auto-negotiation.
The values remoteJabber(7), remoteLinkLoss(8),
and remoteTest(9) SHOULD be used instead of
remoteFault(5) where the reason for remote fault
is identified in the remote signaling protocol.
The value invalidSignal(6) indicates that an
invalid signal has been received from the other
end of the link. InvalidSignal(6) applies only
to MAUs of type 10BASE-FB.
Where an IEEE Std 802.3u-1995 clause 22 MII
is present, a logic one in the remote fault bit
(reference section 22.2.4.2.8 of that document)
maps to the value remoteFault(5), and a logic
zero in the link status bit (reference section
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22.2.4.2.10 of that document) maps to the value
notAvailable(4). The value notAvailable(4)
takes precedence over the value remoteFault(5).
Any MAU that implements management of clause 37
Auto-Negotiation will map the received RF1 and
RF2 bit values for Offline to offline(10), Link
Failure to remoteFault(5) and Auto-Negotiation
Error to autoNegError(11)."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.4, aMediaAvailable."
::= { ifMauEntry 5 }
ifMauMediaAvailableStateExits OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A count of the number of times that
ifMauMediaAvailable for this MAU instance leaves
the state available(3)."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.5,
aLoseMediaCounter."
::= { ifMauEntry 6 }
ifMauJabberState OBJECT-TYPE
SYNTAX INTEGER {
other(1),
unknown(2),
noJabber(3),
jabbering(4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION "The value other(1) is returned if the jabber
state is not 2, 3, or 4. The agent MUST always
return other(1) for MAU type dot3MauTypeAUI.
The value unknown(2) is returned when the MAU's
true state is unknown; for example, when it is
being initialized.
If the MAU is not jabbering the agent returns
noJabber(3). This is the 'normal' state.
If the MAU is in jabber state the agent returns
the jabbering(4) value."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.6,
aJabber.jabberFlag."
::= { ifMauEntry 7 }
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ifMauJabberingStateEnters OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A count of the number of times that
mauJabberState for this MAU instance enters the
state jabbering(4). This counter will always
indicate zero for MAUs of type dot1MauTypeAUI
and those of speeds above 10Mbps."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.6,
aJabber.jabberCounter."
::= { ifMauEntry 8 }
ifMauFalseCarriers OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A count of the number of false carrier events
during IDLE in 100BASE-X and 1000BASE-X links.
For all other MAU types, this counter will
always indicate zero. This counter does not
increment at the symbol rate.
It can increment after a valid carrier
completion at a maximum rate of once per 100 ms
for 100BASE-X and once per 10us for 1000BASE-X
until the next CarrierEvent."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.10, aFalseCarriers."
::= { ifMauEntry 9 }
ifMauTypeList OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS deprecated
DESCRIPTION "********* THIS OBJECT IS DEPRECATED **********
A value that uniquely identifies the set of
possible IEEE 802.3 types that the MAU could be.
The value is a sum which initially takes the
value zero. Then, for each type capability of
this MAU, 2 raised to the power noted below is
added to the sum. For example, a MAU which has
the capability to be only 10BASE-T would have a
value of 512 (2**9). In contrast, a MAU which
supports both 10Base-T (full duplex) and
100BASE-TX (full duplex) would have a value of
((2**11) + (2**16)) or 67584.
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The powers of 2 assigned to the capabilities are
these:
Power Capability
0 other or unknown
1 AUI
2 10BASE-5
3 FOIRL
4 10BASE-2
5 10BASE-T duplex mode unknown
6 10BASE-FP
7 10BASE-FB
8 10BASE-FL duplex mode unknown
9 10BROAD36
10 10BASE-T half duplex mode
11 10BASE-T full duplex mode
12 10BASE-FL half duplex mode
13 10BASE-FL full duplex mode
14 100BASE-T4
15 100BASE-TX half duplex mode
16 100BASE-TX full duplex mode
17 100BASE-FX half duplex mode
18 100BASE-FX full duplex mode
19 100BASE-T2 half duplex mode
20 100BASE-T2 full duplex mode
If auto-negotiation is present on this MAU, this
object will map to ifMauAutoNegCapability.
This object has been deprecated in favour of
ifMauTypeListBits."
::= { ifMauEntry 10 }
ifMauDefaultType OBJECT-TYPE
SYNTAX OBJECT IDENTIFIER
MAX-ACCESS read-write
STATUS current
DESCRIPTION "This object identifies the default
administrative baseband MAU type, to be used in
conjunction with the operational MAU type
denoted by ifMauType.
The set of possible values for this object is
the same as the set defined for the ifMauType
object.
This object represents the
administratively-configured type of the MAU. If
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auto-negotiation is not enabled or is not
implemented for this MAU, the value of this
object determines the operational type of the
MAU. In this case, a set to this object will
force the MAU into the specified operating mode.
If auto-negotiation is implemented and enabled
for this MAU, the operational type of the MAU
is determined by auto-negotiation, and the value
of this object denotes the type to which the MAU
will automatically revert if/when
auto-negotiation is later disabled.
NOTE TO IMPLEMENTORS: It may be necessary to
provide for underlying hardware implementations
which do not follow the exact behavior specified
above. In particular, when
ifMauAutoNegAdminStatus transitions from enabled
to disabled, the agent implementation MUST
ensure that the operational type of the MAU (as
reported by ifMauType) correctly transitions to
the value specified by this object, rather than
continuing to operate at the value earlier
determined by the auto-negotiation function."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.1, aMAUID, and
22.2.4.1.4."
::= { ifMauEntry 11 }
ifMauAutoNegSupported OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-only
STATUS current
DESCRIPTION "This object indicates whether or not
auto-negotiation is supported on this MAU."
::= { ifMauEntry 12 }
ifMauTypeListBits OBJECT-TYPE
SYNTAX BITS {
bOther(0), -- other or unknown
bAUI(1), -- AUI
b10base5(2), -- 10BASE-5
bFoirl(3), -- FOIRL
b10base2(4), -- 10BASE-2
b10baseT(5), -- 10BASE-T duplex mode unknown
b10baseFP(6), -- 10BASE-FP
b10baseFB(7), -- 10BASE-FB
b10baseFL(8), -- 10BASE-FL duplex mode unknown
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b10broad36(9), -- 10BROAD36
b10baseTHD(10), -- 10BASE-T half duplex mode
b10baseTFD(11), -- 10BASE-T full duplex mode
b10baseFLHD(12), -- 10BASE-FL half duplex mode
b10baseFLFD(13), -- 10BASE-FL full duplex mode
b100baseT4(14), -- 100BASE-T4
b100baseTXHD(15), -- 100BASE-TX half duplex mode
b100baseTXFD(16), -- 100BASE-TX full duplex mode
b100baseFXHD(17), -- 100BASE-FX half duplex mode
b100baseFXFD(18), -- 100BASE-FX full duplex mode
b100baseT2HD(19), -- 100BASE-T2 half duplex mode
b100baseT2FD(20), -- 100BASE-T2 full duplex mode
b1000baseXHD(21), -- 1000BASE-X half duplex mode
b1000baseXFD(22), -- 1000BASE-X full duplex mode
b1000baseLXHD(23), -- 1000BASE-LX half duplex mode
b1000baseLXFD(24), -- 1000BASE-LX full duplex mode
b1000baseSXHD(25), -- 1000BASE-SX half duplex mode
b1000baseSXFD(26), -- 1000BASE-SX full duplex mode
b1000baseCXHD(27), -- 1000BASE-CX half duplex mode
b1000baseCXFD(28), -- 1000BASE-CX full duplex mode
b1000baseTHD(29), -- 1000BASE-T half duplex mode
b1000baseTFD(30) -- 1000BASE-T full duplex mode
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A value that uniquely identifies the set of
possible IEEE 802.3 types that the MAU could be.
If auto-negotiation is present on this MAU, this
object will map to ifMauAutoNegCapability."
::= { ifMauEntry 13 }
-- The ifJackTable applies to MAUs attached to interfaces
-- which have one or more external jacks (connectors).
ifJackTable OBJECT-TYPE
SYNTAX SEQUENCE OF IfJackEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION "Information about the external jacks attached
to MAUs attached to an interface."
::= { dot3IfMauBasicGroup 2 }
ifJackEntry OBJECT-TYPE
SYNTAX IfJackEntry
MAX-ACCESS not-accessible
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STATUS current
DESCRIPTION "An entry in the table, containing information
about a particular jack."
INDEX { ifMauIfIndex,
ifMauIndex,
ifJackIndex
}
::= { ifJackTable 1 }
IfJackEntry ::=
SEQUENCE {
ifJackIndex Integer32,
ifJackType JackType
}
ifJackIndex OBJECT-TYPE
SYNTAX Integer32 (1..2147483647)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION "This variable uniquely identifies the jack
described by this entry from among other jacks
attached to the same MAU."
::= { ifJackEntry 1 }
ifJackType OBJECT-TYPE
SYNTAX JackType
MAX-ACCESS read-only
STATUS current
DESCRIPTION "The jack connector type, as it appears on the
outside of the system."
::= { ifJackEntry 2 }
-- The ifMauAutoNegTable applies to systems in which
-- auto-negotiation is supported on one or more MAUs
-- attached to interfaces. Note that if auto-negotiation
-- is present and enabled, the ifMauType object reflects
-- the result of the auto-negotiation function.
ifMauAutoNegTable OBJECT-TYPE
SYNTAX SEQUENCE OF IfMauAutoNegEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION "Configuration and status objects for the
auto-negotiation function of MAUs attached to
interfaces."
::= { dot3IfMauAutoNegGroup 1 }
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ifMauAutoNegEntry OBJECT-TYPE
SYNTAX IfMauAutoNegEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION "An entry in the table, containing configuration
and status information for the auto-negotiation
function of a particular MAU."
INDEX { ifMauIfIndex,
ifMauIndex
}
::= { ifMauAutoNegTable 1 }
IfMauAutoNegEntry ::=
SEQUENCE {
ifMauAutoNegAdminStatus INTEGER,
ifMauAutoNegRemoteSignaling INTEGER,
ifMauAutoNegConfig INTEGER,
ifMauAutoNegCapability Integer32,
ifMauAutoNegCapAdvertised Integer32,
ifMauAutoNegCapReceived Integer32,
ifMauAutoNegRestart INTEGER,
ifMauAutoNegCapabilityBits BITS,
ifMauAutoNegCapAdvertisedBits BITS,
ifMauAutoNegCapReceivedBits BITS,
ifMauAutoNegRemoteFaultAdvertised INTEGER,
ifMauAutoNegRemoteFaultReceived INTEGER
}
ifMauAutoNegAdminStatus OBJECT-TYPE
SYNTAX INTEGER {
enabled(1),
disabled(2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION "Setting this object to enabled(1) will cause
the interface which has the auto-negotiation
signaling ability to be enabled.
If the value of this object is disabled(2) then
the interface will act as it would if it had no
auto-negotiation signaling. Under these
conditions, an IEEE 802.3 MAU will immediately
be forced to the state indicated by the value of
the object ifMauDefaultType.
NOTE TO IMPLEMENTORS: When
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ifMauAutoNegAdminStatus transitions from enabled
to disabled, the agent implementation MUST
ensure that the operational type of the MAU (as
reported by ifMauType) correctly transitions to
the value specified by the ifMauDefaultType
object, rather than continuing to operate at the
value earlier determined by the auto-negotiation
function."
REFERENCE "[IEEE 802.3 Std], 30.6.1.1.2,
aAutoNegAdminState and 30.6.1.2.2,
acAutoNegAdminControl."
::= { ifMauAutoNegEntry 1 }
ifMauAutoNegRemoteSignaling OBJECT-TYPE
SYNTAX INTEGER {
detected(1),
notdetected(2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A value indicating whether the remote end of
the link is using auto-negotiation signaling. It
takes the value detected(1) if and only if,
during the previous link negotiation, FLP Bursts
were received."
REFERENCE "[IEEE 802.3 Std], 30.6.1.1.3,
aAutoNegRemoteSignaling."
::= { ifMauAutoNegEntry 2 }
ifMauAutoNegConfig OBJECT-TYPE
SYNTAX INTEGER {
other(1),
configuring(2),
complete(3),
disabled(4),
parallelDetectFail(5)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A value indicating the current status of the
auto-negotiation process. The enumeration
parallelDetectFail(5) maps to a failure in
parallel detection as defined in 28.2.3.1 of
[IEEE 802.3 Std]."
REFERENCE "[IEEE 802.3 Std], 30.6.1.1.4,
aAutoNegAutoConfig."
::= { ifMauAutoNegEntry 4 }
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ifMauAutoNegCapability OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS deprecated
DESCRIPTION "********* THIS OBJECT IS DEPRECATED **********
A value that uniquely identifies the set of
capabilities of the local auto-negotiation
entity. The value is a sum which initially
takes the value zero. Then, for each capability
of this interface, 2 raised to the power noted
below is added to the sum. For example, an
interface which has the capability to support
only 100Base-TX half duplex would have a value
of 32768 (2**15). In contrast, an interface
which supports both 100Base-TX half duplex and
and 100Base-TX full duplex would have a value of
98304 ((2**15) + (2**16)).
The powers of 2 assigned to the capabilities are
these:
Power Capability
0 other or unknown
(1-9) (reserved)
10 10BASE-T half duplex mode
11 10BASE-T full duplex mode
12 (reserved)
13 (reserved)
14 100BASE-T4
15 100BASE-TX half duplex mode
16 100BASE-TX full duplex mode
17 (reserved)
18 (reserved)
19 100BASE-T2 half duplex mode
20 100BASE-T2 full duplex mode
Note that interfaces that support this MIB may
have capabilities that extend beyond the scope
of this MIB.
This object has been deprecated in favour of
ifMauAutoNegCapabilityBits"
REFERENCE "[IEEE 802.3 Std], 30.6.1.1.5,
aAutoNegLocalTechnologyAbility."
::= { ifMauAutoNegEntry 5 }
ifMauAutoNegCapAdvertised OBJECT-TYPE
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SYNTAX Integer32
MAX-ACCESS read-write
STATUS deprecated
DESCRIPTION "********* THIS OBJECT IS DEPRECATED **********
A value that uniquely identifies the set of
capabilities advertised by the local
auto-negotiation entity. Refer to
ifMauAutoNegCapability for a description of the
possible values of this object.
Capabilities in this object that are not
available in ifMauAutoNegCapability cannot be
enabled.
This object has been deprecated in favour of
ifMauAutoNegCapAdvertisedBits"
REFERENCE "[IEEE 802.3 Std], 30.6.1.1.6,
aAutoNegAdvertisedTechnologyAbility."
::= { ifMauAutoNegEntry 6 }
ifMauAutoNegCapReceived OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS deprecated
DESCRIPTION "********* THIS OBJECT IS DEPRECATED **********
A value that uniquely identifies the set of
capabilities received from the remote
auto-negotiation entity. Refer to
ifMauAutoNegCapability for a description of the
possible values of this object.
Note that interfaces that support this MIB may
be attached to remote auto-negotiation entities
which have capabilities beyond the scope of this
MIB.
This object has been deprecated in favour of
ifMauAutoNegCapReceivedBits"
REFERENCE "[IEEE 802.3 Std], 30.6.1.1.7,
aAutoNegReceivedTechnologyAbility."
::= { ifMauAutoNegEntry 7 }
ifMauAutoNegRestart OBJECT-TYPE
SYNTAX INTEGER {
restart(1),
norestart(2)
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}
MAX-ACCESS read-write
STATUS current
DESCRIPTION "If the value of this object is set to
restart(1) then this will force auto-negotiation
to begin link renegotiation. If auto-negotiation
signaling is disabled, a write to this object
has no effect.
Setting the value of this object to norestart(2)
has no effect."
REFERENCE "[IEEE 802.3 Std], 30.6.1.2.1,
acAutoNegRestartAutoConfig."
::= { ifMauAutoNegEntry 8 }
ifMauAutoNegCapabilityBits OBJECT-TYPE
SYNTAX BITS {
bOther(0), -- other or unknown
b10baseT(1), -- 10BASE-T half duplex mode
b10baseTFD(2), -- 10BASE-T full duplex mode
b100baseT4(3), -- 100BASE-T4
b100baseTX(4), -- 100BASE-TX half duplex mode
b100baseTXFD(5), -- 100BASE-TX full duplex mode
b100baseT2(6), -- 100BASE-T2 half duplex mode
b100baseT2FD(7), -- 100BASE-T2 full duplex mode
bfdxPause(8), -- PAUSE for full-duplex links
bfdxAPause(9), -- Asymmetric PAUSE for full-duplex
-- links
bfdxSPause(10), -- Symmetric PAUSE for full-duplex
-- links
bfdxBPause(11), -- Asymmetric and Symmetric PAUSE for
-- full-duplex links
b1000baseX(12), -- 1000BASE-X, -LX, -SX, -CX half
-- duplex mode
b1000baseXFD(13), -- 1000BASE-X, -LX, -SX, -CX full
-- duplex mode
b1000baseT(14), -- 1000BASE-T half duplex mode
b1000baseTFD(15) -- 1000BASE-T full duplex mode
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A value that uniquely identifies the set of
capabilities of the local auto-negotiation
entity. Note that interfaces that support this
MIB may have capabilities that extend beyond the
scope of this MIB."
REFERENCE "[IEEE 802.3 Std], 30.6.1.1.5,
aAutoNegLocalTechnologyAbility."
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::= { ifMauAutoNegEntry 9 }
ifMauAutoNegCapAdvertisedBits OBJECT-TYPE
SYNTAX BITS {
bOther(0), -- other or unknown
b10baseT(1), -- 10BASE-T half duplex mode
b10baseTFD(2), -- 10BASE-T full duplex mode
b100baseT4(3), -- 100BASE-T4
b100baseTX(4), -- 100BASE-TX half duplex mode
b100baseTXFD(5), -- 100BASE-TX full duplex mode
b100baseT2(6), -- 100BASE-T2 half duplex mode
b100baseT2FD(7), -- 100BASE-T2 full duplex mode
bFdxPause(8), -- PAUSE for full-duplex links
bFdxAPause(9), -- Asymmetric PAUSE for full-duplex
-- links
bFdxSPause(10), -- Symmetric PAUSE for full-duplex
-- links
bFdxBPause(11), -- Asymmetric and Symmetric PAUSE for
-- full-duplex links
b1000baseX(12), -- 1000BASE-X, -LX, -SX, -CX half
-- duplex mode
b1000baseXFD(13), -- 1000BASE-X, -LX, -SX, -CX full
-- duplex mode
b1000baseT(14), -- 1000BASE-T half duplex mode
b1000baseTFD(15) -- 1000BASE-T full duplex mode
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION "A value that uniquely identifies the set of
capabilities advertised by the local
auto-negotiation entity.
Capabilities in this object that are not
available in ifMauAutoNegCapability cannot be
enabled."
REFERENCE "[IEEE 802.3 Std], 30.6.1.1.6,
aAutoNegAdvertisedTechnologyAbility."
::= { ifMauAutoNegEntry 10 }
ifMauAutoNegCapReceivedBits OBJECT-TYPE
SYNTAX BITS {
bOther(0), -- other or unknown
b10baseT(1), -- 10BASE-T half duplex mode
b10baseTFD(2), -- 10BASE-T full duplex mode
b100baseT4(3), -- 100BASE-T4
b100baseTX(4), -- 100BASE-TX half duplex mode
b100baseTXFD(5), -- 100BASE-TX full duplex mode
b100baseT2(6), -- 100BASE-T2 half duplex mode
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b100baseT2FD(7), -- 100BASE-T2 full duplex mode
bFdxPause(8), -- PAUSE for full-duplex links
bFdxAPause(9), -- Asymmetric PAUSE for full-duplex
-- links
bFdxSPause(10), -- Symmetric PAUSE for full-duplex
-- links
bFdxBPause(11), -- Asymmetric and Symmetric PAUSE for
-- full-duplex links
b1000baseX(12), -- 1000BASE-X, -LX, -SX, -CX half
-- duplex mode
b1000baseXFD(13), -- 1000BASE-X, -LX, -SX, -CX full
-- duplex mode
b1000baseT(14), -- 1000BASE-T half duplex mode
b1000baseTFD(15) -- 1000BASE-T full duplex mode
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A value that uniquely identifies the set of
capabilities received from the remote
auto-negotiation entity.
Note that interfaces that support this MIB may
be attached to remote auto-negotiation entities
which have capabilities beyond the scope of this
MIB."
REFERENCE "[IEEE 802.3 Std], 30.6.1.1.7,
aAutoNegReceivedTechnologyAbility."
::= { ifMauAutoNegEntry 11 }
ifMauAutoNegRemoteFaultAdvertised OBJECT-TYPE
SYNTAX INTEGER {
noError(1),
offline(2),
linkFailure(3),
autoNegError(4)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION "A value that identifies any local fault
indications that this MAU has detected and will
advertise at the next auto-negotiation
interaction for 1000Mbps MAUs."
REFERENCE "[IEEE 802.3 Std], 30.6.1.1.6,
aAutoNegAdvertisedTechnologyAbility."
::= { ifMauAutoNegEntry 12 }
ifMauAutoNegRemoteFaultReceived OBJECT-TYPE
SYNTAX INTEGER {
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noError(1),
offline(2),
linkFailure(3),
autoNegError(4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION "A value that identifies any fault indications
received from the far end of a link by the
local auto-negotiation entity for 1000Mbps
MAUs."
REFERENCE "[IEEE 802.3 Std], 30.6.1.1.7,
aAutoNegReceivedTechnologyAbility."
::= { ifMauAutoNegEntry 13 }
--
-- The Basic Broadband MAU Table
--
broadMauBasicTable OBJECT-TYPE
SYNTAX SEQUENCE OF BroadMauBasicEntry
MAX-ACCESS not-accessible
STATUS deprecated
DESCRIPTION "********* THIS OBJECT IS DEPRECATED **********
Table of descriptive and status information
about the broadband MAUs connected to
interfaces."
::= { dot3BroadMauBasicGroup 1 }
broadMauBasicEntry OBJECT-TYPE
SYNTAX BroadMauBasicEntry
MAX-ACCESS not-accessible
STATUS deprecated
DESCRIPTION "********* THIS OBJECT IS DEPRECATED **********
An entry in the table, containing information
about a single broadband MAU."
INDEX { broadMauIfIndex,
broadMauIndex
}
::= { broadMauBasicTable 1 }
BroadMauBasicEntry ::=
SEQUENCE {
broadMauIfIndex Integer32,
broadMauIndex Integer32,
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broadMauXmtRcvSplitType INTEGER,
broadMauXmtCarrierFreq Integer32,
broadMauTranslationFreq Integer32
}
broadMauIfIndex OBJECT-TYPE
SYNTAX Integer32 (1..2147483647)
MAX-ACCESS read-only
STATUS deprecated
DESCRIPTION "********* THIS OBJECT IS DEPRECATED **********
This variable uniquely identifies the interface
to which the MAU described by this entry is
connected."
REFERENCE "Reference RFC 1213, ifIndex."
::= { broadMauBasicEntry 1 }
broadMauIndex OBJECT-TYPE
SYNTAX Integer32 (1..2147483647)
MAX-ACCESS read-only
STATUS deprecated
DESCRIPTION "********* THIS OBJECT IS DEPRECATED **********
This variable uniquely identifies the MAU
connected to interface broadMauIfIndex that is
described by this entry."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.1, aMAUID."
::= { broadMauBasicEntry 2 }
broadMauXmtRcvSplitType OBJECT-TYPE
SYNTAX INTEGER {
other(1),
single(2),
dual(3)
}
MAX-ACCESS read-only
STATUS deprecated
DESCRIPTION "********* THIS OBJECT IS DEPRECATED **********
This object indicates the type of frequency
multiplexing/cabling system used to separate the
transmit and receive paths for the 10BROAD36
MAU.
The value other(1) is returned if the split type
is not either single or dual.
The value single(2) indicates a single cable
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system. The value dual(3) indicates a dual
cable system, offset normally zero."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.8,
aBbMAUXmitRcvSplitType."
::= { broadMauBasicEntry 3 }
broadMauXmtCarrierFreq OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS deprecated
DESCRIPTION "********* THIS OBJECT IS DEPRECATED **********
This variable indicates the transmit carrier
frequency of the 10BROAD36 MAU in MHz/4; that
is, in units of 250 kHz."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.9,
aBroadbandFrequencies.xmitCarrierFrequency."
::= { broadMauBasicEntry 4 }
broadMauTranslationFreq OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS deprecated
DESCRIPTION "********* THIS OBJECT IS DEPRECATED **********
This variable indicates the translation offset
frequency of the 10BROAD36 MAU in MHz/4; that
is, in units of 250 kHz."
REFERENCE "[IEEE 802.3 Std], 30.5.1.1.9,
aBroadbandFrequencies.translationFrequency."
::= { broadMauBasicEntry 5 }
-- Notifications for use by 802.3 MAUs
snmpDot3MauTraps OBJECT IDENTIFIER ::= { snmpDot3MauMgt 0 }
rpMauJabberTrap NOTIFICATION-TYPE
OBJECTS { rpMauJabberState }
STATUS current
DESCRIPTION "This trap is sent whenever a managed repeater
MAU enters the jabber state.
The agent MUST throttle the generation of
consecutive rpMauJabberTraps so that there is at
least a five-second gap between them."
REFERENCE "[IEEE 802.3 Mgt], 30.5.1.3.1, nJabber
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notification."
::= { snmpDot3MauTraps 1 }
ifMauJabberTrap NOTIFICATION-TYPE
OBJECTS { ifMauJabberState }
STATUS current
DESCRIPTION "This trap is sent whenever a managed interface
MAU enters the jabber state.
The agent MUST throttle the generation of
consecutive ifMauJabberTraps so that there is at
least a five-second gap between them."
REFERENCE "[IEEE 802.3 Mgt], 30.5.1.3.1, nJabber
notification."
::= { snmpDot3MauTraps 2 }
-- Conformance information
mauModConf
OBJECT IDENTIFIER ::= { mauMod 1 }
mauModCompls
OBJECT IDENTIFIER ::= { mauModConf 1 }
mauModObjGrps
OBJECT IDENTIFIER ::= { mauModConf 2 }
mauModNotGrps
OBJECT IDENTIFIER ::= { mauModConf 3 }
-- Object groups
mauRpGrpBasic OBJECT-GROUP
OBJECTS { rpMauGroupIndex,
rpMauPortIndex,
rpMauIndex,
rpMauType,
rpMauStatus,
rpMauMediaAvailable,
rpMauMediaAvailableStateExits,
rpMauJabberState,
rpMauJabberingStateEnters
}
STATUS current
DESCRIPTION "Basic conformance group for MAUs attached to
repeater ports. This group is also the
conformance specification for RFC 1515
implementations."
::= { mauModObjGrps 1 }
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mauRpGrp100Mbs OBJECT-GROUP
OBJECTS { rpMauFalseCarriers }
STATUS current
DESCRIPTION "Conformance group for MAUs attached to
repeater ports with 100 Mb/s or greater
capability."
::= { mauModObjGrps 2 }
mauRpGrpJack OBJECT-GROUP
OBJECTS { rpJackType }
STATUS current
DESCRIPTION "Conformance group for MAUs attached to
repeater ports with managed jacks."
::= { mauModObjGrps 3 }
mauIfGrpBasic OBJECT-GROUP
OBJECTS { ifMauIfIndex,
ifMauIndex,
ifMauType,
ifMauStatus,
ifMauMediaAvailable,
ifMauMediaAvailableStateExits,
ifMauJabberState,
ifMauJabberingStateEnters
}
STATUS current
DESCRIPTION "Basic conformance group for MAUs attached to
interfaces. This group also provides a
conformance specification for RFC 1515
implementations."
::= { mauModObjGrps 4 }
mauIfGrp100Mbs OBJECT-GROUP
OBJECTS { ifMauFalseCarriers,
ifMauTypeList,
ifMauDefaultType,
ifMauAutoNegSupported
}
STATUS deprecated
DESCRIPTION "********* THIS GROUP IS DEPRECATED **********
Conformance group for MAUs attached to
interfaces with 100 Mb/s capability.
This object group has been deprecated in favor
of mauIfGrpHighCapacity."
::= { mauModObjGrps 5 }
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mauIfGrpJack OBJECT-GROUP
OBJECTS { ifJackType }
STATUS current
DESCRIPTION "Conformance group for MAUs attached to
interfaces with managed jacks."
::= { mauModObjGrps 6 }
mauIfGrpAutoNeg OBJECT-GROUP
OBJECTS { ifMauAutoNegAdminStatus,
ifMauAutoNegRemoteSignaling,
ifMauAutoNegConfig,
ifMauAutoNegCapability,
ifMauAutoNegCapAdvertised,
ifMauAutoNegCapReceived,
ifMauAutoNegRestart
}
STATUS deprecated
DESCRIPTION "********* THIS GROUP IS DEPRECATED **********
Conformance group for MAUs attached to
interfaces with managed auto-negotiation.
This object group has been deprecated in favor
of mauIfGrpAutoNeg2."
::= { mauModObjGrps 7 }
mauBroadBasic OBJECT-GROUP
OBJECTS { broadMauIfIndex,
broadMauIndex,
broadMauXmtRcvSplitType,
broadMauXmtCarrierFreq,
broadMauTranslationFreq
}
STATUS deprecated
DESCRIPTION "********* THIS GROUP IS DEPRECATED **********
Conformance group for broadband MAUs attached
to interfaces.
This object group is deprecated. There have
been no reported implementations of this group,
and it was felt to be unlikely that there will
be any future implementations."
::= { mauModObjGrps 8 }
mauIfGrpHighCapacity OBJECT-GROUP
OBJECTS { ifMauFalseCarriers,
ifMauTypeListBits,
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ifMauDefaultType,
ifMauAutoNegSupported
}
STATUS current
DESCRIPTION "Conformance group for MAUs attached to
interfaces with 100 Mb/s or greater capability."
::= { mauModObjGrps 9 }
mauIfGrpAutoNeg2 OBJECT-GROUP
OBJECTS { ifMauAutoNegAdminStatus,
ifMauAutoNegRemoteSignaling,
ifMauAutoNegConfig,
ifMauAutoNegCapabilityBits,
ifMauAutoNegCapAdvertisedBits,
ifMauAutoNegCapReceivedBits,
ifMauAutoNegRestart
}
STATUS current
DESCRIPTION "Conformance group for MAUs attached to
interfaces with managed auto-negotiation."
::= { mauModObjGrps 10 }
mauIfGrpAutoNeg1000Mbps OBJECT-GROUP
OBJECTS { ifMauAutoNegRemoteFaultAdvertised,
ifMauAutoNegRemoteFaultReceived
}
STATUS current
DESCRIPTION "Conformance group for 1000Mbps MAUs attached to
interfaces with managed auto-negotiation."
::= { mauModObjGrps 11 }
-- Notification groups
rpMauNotifications NOTIFICATION-GROUP
NOTIFICATIONS { rpMauJabberTrap }
STATUS current
DESCRIPTION "Notifications for repeater MAUs."
::= { mauModNotGrps 1 }
ifMauNotifications NOTIFICATION-GROUP
NOTIFICATIONS { ifMauJabberTrap }
STATUS current
DESCRIPTION "Notifications for interface MAUs."
::= { mauModNotGrps 2 }
-- Compliances
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mauModRpCompl MODULE-COMPLIANCE
STATUS deprecated
DESCRIPTION "******** THIS COMPLIANCE IS DEPRECATED ********
Compliance for MAUs attached to repeater
ports.
This compliance is deprecated and replaced by
mauModRpCompl2, which corrects an oversight by
allowing rpMauStatus to be implemented
read-only."
MODULE -- this module
MANDATORY-GROUPS { mauRpGrpBasic }
GROUP mauRpGrp100Mbs
DESCRIPTION "Implementation of this optional group is
recommended for MAUs which have 100Mb/s or
greater capability."
GROUP mauRpGrpJack
DESCRIPTION "Implementation of this optional group is
recommended for MAUs which have one or more
external jacks."
GROUP rpMauNotifications
DESCRIPTION "Implementation of this group is recommended
for MAUs attached to repeater ports."
::= { mauModCompls 1 }
mauModIfCompl MODULE-COMPLIANCE
STATUS deprecated
DESCRIPTION "******** THIS COMPLIANCE IS DEPRECATED ********
Compliance for MAUs attached to interfaces.
This compliance is deprecated and replaced by
mauModIfCompl2."
MODULE -- this module
MANDATORY-GROUPS { mauIfGrpBasic }
GROUP mauIfGrp100Mbs
DESCRIPTION "Implementation of this optional group is
recommended for MAUs which have 100Mb/s
capability."
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GROUP mauIfGrpJack
DESCRIPTION "Implementation of this optional group is
recommended for MAUs which have one or more
external jacks."
GROUP mauIfGrpAutoNeg
DESCRIPTION "Implementation of this group is mandatory
for MAUs which support managed
auto-negotiation."
GROUP mauBroadBasic
DESCRIPTION "Implementation of this group is mandatory
for broadband MAUs."
GROUP ifMauNotifications
DESCRIPTION "Implementation of this group is recommended
for MAUs attached to interfaces."
::= { mauModCompls 2 }
mauModIfCompl2 MODULE-COMPLIANCE
STATUS current
DESCRIPTION "Compliance for MAUs attached to interfaces."
MODULE -- this module
MANDATORY-GROUPS { mauIfGrpBasic }
GROUP mauIfGrpHighCapacity
DESCRIPTION "Implementation of this optional group is
recommended for MAUs which have 100Mb/s
or greater capability."
GROUP mauIfGrpJack
DESCRIPTION "Implementation of this optional group is
recommended for MAUs which have one or more
external jacks."
GROUP mauIfGrpAutoNeg2
DESCRIPTION "Implementation of this group is mandatory
for MAUs which support managed
auto-negotiation."
GROUP mauIfGrpAutoNeg1000Mbps
DESCRIPTION "Implementation of this group is mandatory
for MAUs which have 1000Mb/s or greater
capability and support managed
auto-negotiation."
GROUP ifMauNotifications
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DESCRIPTION "Implementation of this group is recommended
for MAUs attached to interfaces."
OBJECT ifMauStatus
MIN-ACCESS read-only
DESCRIPTION "Write access is not required."
::= { mauModCompls 3 }
mauModRpCompl2 MODULE-COMPLIANCE
STATUS current
DESCRIPTION "Compliance for MAUs attached to repeater
ports."
MODULE -- this module
MANDATORY-GROUPS { mauRpGrpBasic }
GROUP mauRpGrp100Mbs
DESCRIPTION "Implementation of this optional group is
recommended for MAUs which have 100Mb/s or
greater capability."
GROUP mauRpGrpJack
DESCRIPTION "Implementation of this optional group is
recommended for MAUs which have one or more
external jacks."
GROUP rpMauNotifications
DESCRIPTION "Implementation of this group is recommended
for MAUs attached to repeater ports."
OBJECT rpMauStatus
MIN-ACCESS read-only
DESCRIPTION "Write access is not required."
::= { mauModCompls 4 }
END
5. Intellectual Property
The IETF takes no position regarding the validity or scope of any
intellectual property or other rights that might be claimed to
pertain to the implementation or use of the technology described in
this document or the extent to which any license under such rights
might or might not be available; neither does it represent that it
has made any effort to identify any such rights. Information on the
IETF's procedures with respect to rights in standards-track and
standards-related documentation can be found in BCP-11. Copies of
Smith, et. al. Expires May 1999 [Page 47]
Internet Draft 802.3 MAU MIB November 1998
claims of rights made available for publication and any assurances of
licenses to be made available, or the result of an attempt made to
obtain a general license or permission for the use of such
proprietary rights by implementors or users of this specification can
be obtained from the IETF Secretariat.
The IETF invites any interested party to bring to its attention any
copyrights, patents or patent applications, or other proprietary
rights which may cover technology that may be required to practice
this standard. Please address the information to the IETF Executive
Director.
6. Acknowledgements
This document was produced by the IETF Ethernet Interfaces and Hub
MIB Working Group, whose efforts were greatly advanced by the
contributions of the following people:
Chuck Black
John Flick
Jeff Johnson
Leon Leong
Mike Lui
Dave Perkins
Geoff Thompson
Maurice Turcotte
Paul Woodruff
Special thanks as well to Dave Perkins for his excellent work on the
SMICng compiler, which made it easy to take advantage of the latest
SNMPv2 constructs in this MIB.
7. References
[1] Harrington, D., Presuhn, R., and B. Wijnen, "An Architecture for
Describing SNMP Management Frameworks", RFC 2271, Cabletron
Systems, Inc., BMC Software, Inc., IBM T. J. Watson Research,
January 1998
[2] Rose, M., and K. McCloghrie, "Structure and Identification of
Management Information for TCP/IP-based Internets", STD 16,
RFC 1155, Performance Systems International, Hughes LAN Systems,
May 1990
[3] Rose, M., and K. McCloghrie, "Concise MIB Definitions", STD 16,
RFC 1212, Performance Systems International, Hughes LAN Systems,
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March 1991
[4] M. Rose, "A Convention for Defining Traps for use with the
SNMP", RFC 1215, Performance Systems International, March 1991
[5] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser,
"Structure of Management Information for Version 2 of the Simple
Network Management Protocol (SNMPv2)", RFC 1902, SNMP Research,
Inc., Cisco Systems, Inc., Dover Beach Consulting, Inc.,
International Network Services, January 1996.
[6] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Textual
Conventions for Version 2 of the Simple Network Management
Protocol (SNMPv2)", RFC 1903, SNMP Research, Inc., Cisco
Systems, Inc., Dover Beach Consulting, Inc., International
Network Services, January 1996.
[7] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser,
"Conformance Statements for Version 2 of the Simple Network
Management Protocol (SNMPv2)", RFC 1904, SNMP Research, Inc.,
Cisco Systems, Inc., Dover Beach Consulting, Inc., International
Network Services, January 1996.
[8] Case, J., Fedor, M., Schoffstall, M., and J. Davin, "Simple
Network Management Protocol", STD 15, RFC 1157, SNMP Research,
Performance Systems International, Performance Systems
International, MIT Laboratory for Computer Science, May 1990.
[9] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser,
"Introduction to Community-based SNMPv2", RFC 1901, SNMP
Research, Inc., Cisco Systems, Inc., Dover Beach Consulting,
Inc., International Network Services, January 1996.
[10] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser,
"Transport Mappings for Version 2 of the Simple Network
Management Protocol (SNMPv2)", RFC 1906, SNMP Research, Inc.,
Cisco Systems, Inc., Dover Beach Consulting, Inc., International
Network Services, January 1996.
[11] Case, J., Harrington D., Presuhn R., and B. Wijnen, "Message
Processing and Dispatching for the Simple Network Management
Protocol (SNMP)", RFC 2272, SNMP Research, Inc., Cabletron
Systems, Inc., BMC Software, Inc., IBM T. J. Watson Research,
January 1998.
[12] Blumenthal, U., and B. Wijnen, "User-based Security Model (USM)
for version 3 of the Simple Network Management Protocol
(SNMPv3)", RFC 2274, IBM T. J. Watson Research, January 1998.
Smith, et. al. Expires May 1999 [Page 49]
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[13] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Protocol
Operations for Version 2 of the Simple Network Management
Protocol (SNMPv2)", RFC 1905, SNMP Research, Inc., Cisco
Systems, Inc., Dover Beach Consulting, Inc., International
Network Services, January 1996.
[14] Levi, D., Meyer, P., and B. Stewart, "SNMPv3 Applications", RFC
2273, SNMP Research, Inc., Secure Computing Corporation, Cisco
Systems, January 1998
[15] Wijnen, B., Presuhn, R., and K. McCloghrie, "View-based Access
Control Model (VACM) for the Simple Network Management Protocol
(SNMP)", RFC 2275, IBM T. J. Watson Research, BMC Software,
Inc., Cisco Systems, Inc., January 1998
[16] IEEE, IEEE Std 802.3, 1998 Edition: "Information technology -
Telecommunications and information exchange between systems -
Local and metropolitan area networks - Specific requirements -
Part 3: Carrier sense multiple access with collision detection
(CSMA/CD) access method and physical layer specifications"
(incorporating ANSI/IEEE Std. 802.3, 1996 Edition, IEEE Std.
802.3r-1996, 802.3u-1995, 802.3x&y-1997, 802.3z-1998, and
802.3aa-1998), September 1998.
[17] de Graaf, K., D. Romascanu, D. McMaster, and K. McCloghrie,
"Definitions of Managed Objects for IEEE 802.3 Repeater Devices
using SMIv2", RFC 2108, 3Com Corporation, Madge Networks
(Israel) Ltd., Coloma Communications, Cisco Systems, Inc.,
February 1997.
[18] McCloghrie, K., and M. Rose, Editors, "Management Information
Base for Network Management of TCP/IP-based internets: MIB-II",
STD 17, RFC 1213, Hughes LAN Systems, Performance Systems
International, March 1991.
[19] McCloghrie, K., and Kastenholtz, F., "The Interfaces Group MIB
using SMIv2", RFC 2233, Cisco Systems, FTP Software, November
1997.
[20] Bradner, S., "Key words for use in RFCs to Indicate
Requirements Levels", BCP 14, RFC 2119, March 1997.
[21] de Graaf, K., Romascanu, D., McMaster, D., K. McCloghrie,
S. Roberts, "Definitions of Managed Objects
for IEEE 802.3 Medium Attachment Units (MAUs) using SMIv2",
RFC 2239, 3Com Corporation, Madge Networks Ltd., Cisco Systems
Inc., Cisco Systems Inc., Farallon Computing, Inc.,
November 1997.
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[22] McMaster, D., K. McCloghrie and S. Roberts, "Definitions of
Managed Objects for IEEE 802.3 Medium Attachment Units
(MAUs)", RFC 1515, SynOptics Communications, Inc., Hughes LAN
Systems, Inc., Farallon Computing, Inc., September 1993.
[23] Flick, J., and J. Johnson, "Definitions of Managed Objects for
the Ethernet-like Interface Types", work in progress,
draft-ietf-hubmib-etherif-mib-v2-00.txt, Hewlett-Packard
Company, RedBack Networks, August, 1998.
8. Security Considerations
There are a number of management objects defined in this MIB that
have a MAX-ACCESS clause of read-write. Setting these objects can
have a serious effect on the operation of the network, including:
enabling or disabling a MAU
changing a MAU's default type
enabling, disabling or restarting autonegotiation
modifying the capabilities that a MAU advertizes during
autonegotiation.
Such objects may be considered sensitive or vulnerable in some
network environments. The support for SET operations in a non-secure
environment without proper protection can have a negative effect on
network operations.
SNMPv1 by itself is such an insecure environment. Even if the
network itself is secure (for example by using IPSec), even then,
there is no control as to who on the secure network is allowed to
access and GET/SET (read/change/create/delete) the objects in this
MIB.
It is recommended that the implementers consider the security
features as provided by the SNMPv3 framework. Specifically, the use
of the User-based Security Model RFC 2274 [12] and the View-based
Access Control Model RFC 2275 [15] is recommended.
It is then a customer/user responsibility to ensure that the SNMP
entity giving access to an instance of this MIB, is properly
configured to give access to those objects only to those principals
(users) that have legitimate rights to access them.
9. Authors' Addresses
Andrew Smith
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Extreme Networks, Inc.
10460 Bandley Drive
Cupertino, CA 95014, USA
Tel: +1 408 342 0999
E-Mail: andrew@extremenetworks.com
John Flick
Hewlett-Packard Company
8000 Foothills Blvd. M/S 5556
Roseville, CA 95747-5556
Phone: +1 916 785 4018
E-mail: johnf@rose.hp.com
Kathryn de Graaf
Argon Networks
25 Porter Road
Littleton, MA 01460 USA
Tel: +1 978 486 0665 x163
Fax: +1 978 486 9379
E-mail: kdegraaf@argon.com
Dan Romascanu
LANNET Ltd.
Atidim Technology Park, Bldg. 3
Tel Aviv 61131
Israel
Tel: 972 3 645 8414, 6458458
Fax: 972 3 648 7146
E-mail: dromasca@lannet.com
Donna McMaster
Cisco Systems Inc.
170 West Tasman Drive
San Jose, CA 95134
Tel: +1 408 526 5260
E-Mail: mcmaster@cisco.com
Keith McCloghrie
Cisco Systems Inc.
170 West Tasman Drive
San Jose, CA 95134
Tel: +1 408 526 5260
E-Mail: kzm@cisco.com
Sam Roberts
Farallon Computing, Inc.
2470 Mariner Square Loop
Alameda, CA 94501-1010
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Tel: +1 510 814 5215
E-Mail: sroberts@farallon.com
A. Change Log
This section enumerates the changes made to RFC 2239 to produce this
document.
(1) The MODULE-IDENTITY has been updated to reflect the changes
in the MIB.
(2) OBJECT-IDENTITY definitions have been added for gigabit MAU
types.
(3) The ifMauTypeList, ifMauAutoNegCapability,
ifMauAutoNegCapAdvertised and ifMauAutoNegCapReceived
objects have been deprecated and replaced by
ifMauTypeListBits, ifMauAutoNegCapabilityBits,
ifMauAutoNegCapAdvertisedBits and
ifMauAutoNegCapReceivedBits.
(4) Two new objects, ifMauAutoNegRemoteFaultAdvertised and
ifMauAutoNegRemoteFaultReceived have been added.
(5) Enumerations for 'offline' and 'autoNegError' have been
added for the rpMauMediaAvailable and ifMauMediaAvailable
objects.
(6) The broadMauBasicTable and mauBroadBasic object group have
been deprecated.
(7) The mauIfGrp100Mbs and mauIfGrpAutoNeg object groups have
been deprecated and replaced by mauIfGrpHighCapacity and
mauIfGrpAutoNeg2.
(8) A new object group, mauIfGrpAutoNeg1000Mbps, has been added.
(9) The mauModIfCompl and mauModRpCompl compliances have been
deprecated and replaced by mauModIfCompl2 and
mauModRpCompl2.
(10) Added section on relationship to RFC 2239.
(11) Updated the SNMP Network Management Framework boilerplate.
(12) Refer to the Interfaces MIB, rather than the interfaces
group of MIB-II.
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(13) Updated references to refer to latest edition of IEEE 802.3.
(14) An intellectual property notice was added, as required by
RFC 2026.
B. Full Copyright Statement
This document and translations of it may be copied and furnished to
others, and derivative works that comment on or otherwise explain it
or assist in its implementation may be prepared, copied, published
and distributed, in whole or in part, without restriction of any
kind, provided that the above copyright notice and this paragraph are
included on all such copies and derivative works. However, this
document itself may not be modified in any way, such as by removing
the copyright notice or references to the Internet Society or other
Internet organizations, except as needed for the purpose of
developing Internet standards in which case the procedures for
copyrights defined in the Internet Standards process must be
followed, or as required to translate it into languages other than
English.
The limited permissions granted above are perpetual and will not be
revoked by the Internet Society or its successors or assigns.
This document and the information contained herein is provided on an
"AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET ENGINEERING
TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING
BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION
HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
Smith, et. al. Expires May 1999 [Page 54]
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