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Copyright © The Internet Society (2006).
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). This memo obsoletes RFC 3636. It amends that specification by moving MAU type OBJECT-IDENTITY definitions and relevant textual conventions into a separate Internet Assigned Number Authority (IANA) maintained MIB module. In addition, management information is added to enable support for Ethernet in the First Mile (EFM) and 10GBASE-CX4 MAUs.
1.
Introduction
2.
The Internet-Standard Management Framework
3.
Overview
3.1.
Relationship to RFC 3636
3.2.
Relationship to other MIBs
3.2.1.
Relationship to the Interfaces MIB
3.2.2.
Relationship to the 802.3 Repeater MIB module
3.3.
Management of Internal MAUs
3.4.
Management of IEEE 802.3 Managed Objects
3.5.
Addition of new MAU Types
3.5.1.
dot3MauType OBJECT-IDENTITIES
3.5.2.
IANAifMauTypeListBits Textual Convention
3.5.3.
IANAifMauMediaAvailable Textual Convention
3.5.4.
IANAifMauAutoNegCapBits Textual Convention
3.5.5.
JackType Textual Convention
4.
MAU MIB Definitions
5.
IANA-maintained MAU TC Definitions
6.
Security Considerations
7.
IANA Considerations
8.
Acknowledgments
9.
References
9.1.
Normative References
9.2.
Informative References
§
Author's Address
§
Intellectual Property and Copyright Statements
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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).
The previous version of this memo, RFC 3636 [RFC3636] (Flick, J., “Definitions of Managed Objects for IEEE 802.3 Medium Attachment Units (MAUs),” September 2003.), defined a single MIB module. This memo splits the original MIB module into two, putting frequently updated object identities and textual conventions into a separate, IANA-maintained MIB module, in order to decrease the need of updating the basic MAU MIB module.
The first version of the IANA-maintained MIB module also extends the list of managed objects to support Ethernet in the First Mile (EFM) and 10GBASE-CX4 interfaces.
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.
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For a detailed overview of the documents that describe the current Internet-Standard Management Framework, please refer to section 7 of RFC 3410 [RFC3410] (Case, J., Mundy, R., Partain, D., and B. Stewart, “Introduction and Applicability Statements for Internet-Standard Management Framework,” December 2002.).
Managed objects are accessed via a virtual information store, termed the Management Information Base or MIB. MIB objects are generally accessed through the Simple Network Management Protocol (SNMP). Objects in the MIB are defined using the mechanisms defined in the Structure of Management Information (SMI). This memo specifies a MIB module that is compliant to the SMIv2, which is described in STD 58, RFC 2578 [RFC2578] (McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, “Structure of Management Information Version 2 (SMIv2),” April 1999.), STD 58, RFC 2579 [RFC2579] (McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, “Textual Conventions for SMIv2,” April 1999.) and STD 58, RFC 2580 [RFC2580] (McCloghrie, K., Perkins, D., and J. Schoenwaelder, “Conformance Statements for SMIv2,” April 1999.).
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 RFC 2119 [RFC2119] (Bradner, S., “Key words for use in RFCs to Indicate Requirement Levels,” March 1997.).
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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 [IEEE802.3] (IEEE, “IEEE Standard for 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,” December 2005.). 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 Management for 10 Mb/s, 100 Mb/s, 1000 Mb/s and 10 Gb/s Medium Attachment Units (MAUs)", Section 30.6, "Management for link Auto- Negotiation", and Annex 30A, "GDMO Specifications for 802.3 managed object classes" of IEEE Std. 802.3-2005 [IEEE802.3] (IEEE, “IEEE Standard for 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,” December 2005.). This specification is intended to provide for management of all types of Ethernet/802.3 MAUs.
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The management definitions provided in this memo are intended to be a superset of those defined by RFC 3636 [RFC3636] (Flick, J., “Definitions of Managed Objects for IEEE 802.3 Medium Attachment Units (MAUs),” September 2003.).
In order to decrease the need of updating the basic MAU MIB module due to the new MAU type, Media Available state, Auto Negotiation capability and/or Jack type introduction, all relevant object identities and textual conventions have been moved to a separate, IANA-maintained MIB module IANA-MAU-MIB, the first version of which is defined in this memo. Thus when a new MAU type, Media Available state, Auto Negotiation capability and/or Jack type is defined by the IEEE 802.3 working group, only the IANA-maintained module needs to be revised, leaving the basic MAU-MIB module defined in this memo unchanged.
In addition, the new definitions are added to the IANA-maintained MIB module, to support Ethernet in the First Mile (EFM) and 10GBASE-CX4 interfaces, defined in IEEE Std 802.3ah-2004 [IEEE802.3ah] (IEEE, “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 - Media Access Control Parameters, Physical Layers and Management Parameters for Subscriber Access Networks,” September 2004.) and IEEE Std 802.3ak-2004 [IEEE802.3ak] (IEEE, “IEEE Standard for 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 - Physical Layer and Management Parameters for 10Gb/s Operation, Type 10GBASE-CX4,” March 2004.) respectively, now part of IEEE Std 802.3-2005 [IEEE802.3] (IEEE, “IEEE Standard for 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,” December 2005.).
It should be noted that the changes made in this revision will not be entirely backward-compatible with MIB modules that currently import MAU type object identity descriptors from the MAU-MIB; such modules will need to be revised to import those DESCRIPTORS from the IANA-MAU-MIB. Similarly, any management applications that process the object identity definitions (e.g., to present the DESCRIPTION text to a user) will need to be get those definitions from the IANA-MAU-MIB instead of the MAU-MIB. While it is true that changes that require such adjustments are not strictly compliant with the SMIv2 rules governing MIB module revisions (see [RFC2578] (McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, “Structure of Management Information Version 2 (SMIv2),” April 1999.) Section 10), in this case continued high maintenance costs that would result from not making these changes make the deviation from the rules justified. It should be noted that the working group was not able to find any examples of MIB modules or management applications that would actually be negatively affected by the changes.
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It is assumed that an agent implementing MAU-MIB will also implement (at least) the 'system' group defined in the SNMPv2 MIB [RFC3418] (Presuhn, R., “Management Information Base (MIB) for the Simple Network Management Protocol (SNMP),” December 2002.). The following sections identify other MIBs that such an agent should implement.
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The sections of this document that define interface MAU-related objects specify an extension to the Interfaces MIB [RFC2863] (McCloghrie, K. and F. Kastenholz, “The Interfaces Group MIB,” June 2000.). An agent implementing these interface-MAU related objects MUST also implement the relevant groups of the ifCompliance3 MODULE-COMPLIANCE statement of the 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 REQUIRED that an agent implementing the interface-MAU related objects in the MAU-MIB will also fully comply with the dot3Compliance2 MODULE-COMPLIANCE statement of the Ethernet-like Interfaces MIB, [RFC3635] (Flick, J., “Definitions of Managed Objects for the Ethernet-like Interface Types,” September 2003.). Furthermore, when the interface-MAU related objects are used to manage a 10GBASE-W PHY -- i.e., when ifMauType is equal to dot3MauType10GigBaseW or any other 10GBASE-W variant -- then the agent MUST also support the Ethernet WAN Interface Sublayer (WIS) MIB [RFC3637] (Heard, C., “Definitions of Managed Objects for the Ethernet WAN Interface Sublayer,” September 2003.) and must follow the interface layering model specified therein. In that case the value of the object ifMauIfIndex is the same as the value of 'ifIndex' for the layer at the top of the stack, i.e., for the ifTable entry that has 'ifType' equal to ethernetCsmacd(6). If the interface-MAU related objects are used to manage a PHY that allows the MAU type to be changed dynamically, then the agent SHALL create ifTable, ifStackTable, and ifInvStackTable entries that pertain to the WIS when ifMauDefaultType is changed to a 10GBASEW variant (i.e., one of dot3MauType10GigBaseW, dot3MauType10GigBaseEW, dot3MauType10GigBaseLW, or dot3MauType10GigBaseSW) from any other type, and shall destroy the WIS-related entries when ifMauDefaultType is changed to a non- 10GBASE-W type. The agent SHALL also change the values of 'ifConnectorPresent' and 'ifHighSpeed' in the ifTable entry indexed by ifMauIfIndex as specified in [RFC3635] (Flick, J., “Definitions of Managed Objects for the Ethernet-like Interface Types,” September 2003.) and [RFC3637] (Heard, C., “Definitions of Managed Objects for the Ethernet WAN Interface Sublayer,” September 2003.) when ifMauDefaultType is manipulated in this way but SHALL NOT otherwise alter that entry.
(Note that repeater ports are not represented as interfaces in the Interface MIB.)
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The section of this document that defines repeater MAU-related objects specifies an extension to the 802.3 Repeater MIB defined in [RFC2108] (de Graaf, K., Romascanu, D., McMaster, D., and K. McCloghrie, “Definitions of Managed Objects for IEEE 802.3 Repeater Devices using SMIv2,” February 1997.). An agent implementing these repeater-MAU related objects MUST also comply with the snmpRptrModCompl compliance statement of the 802.3 Repeater MIB module.
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.
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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 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.
TOC |
IEEE 802.3 Managed Object | Corresponding SNMP Object |
---|---|
oMAU | |
.aMAUID | rpMauIndex or ifMauIndex or broadMauIndex |
.aMAUType | rpMauType or ifMauType |
.aMAUTypeList | ifMauTypeListBits |
.aMediaAvailable | rpMauMediaAvailable or ifMauMediaAvailable |
.aLoseMediaCounter | rpMauMediaAvailableStateExits or ifMauMediaAvailableStateExits |
.aJabber | rpMauJabberState and rpMauJabberingStateEnters or ifMauJabberState and ifMauJabberingStateEnters |
.aMAUAdminState | rpMauStatus or ifMauStatus |
.aBbMAUXmitRcvSplitType | broadMauXmtRcvSplitType |
.aBroadbandFrequencies | broadMauXmtCarrierFreq and broadMauTranslationFreq |
.aFalseCarriers | rpMauFalseCarriers or ifMauFalseCarriers |
.acResetMAU | rpMauStatus or ifMauStatus |
.acMAUAdminControl | rpMauStatus or ifMauStatus |
.nJabber | rpMauJabberTrap or ifMauJabberTrap |
oAutoNegotiation | |
.aAutoNegID | ifMauIndex |
.aAutoNegAdminState | ifMauAutoNegAdminStatus |
.aAutoNegRemoteSignalling | ifMauAutoNegRemoteSignalling |
.aAutoNegAutoConfig | ifMauAutoNegConfig |
.aAutoNegLocalTechnologyAbility | ifMauAutoNegCapabilityBits |
.aAutoNegAdvertisedTechnologyAbility | ifMauAutoNegAdvertisedBits and ifMauAutoNegRemoteFaultAdvertised |
.aAutoNegReceivedTechnologyAbility | ifMauAutoNegReceivedBits and ifMauAutoNegRemoteFaultReceived |
.acAutoNegRestartAutoConfig | ifMauAutoNegRestart |
.acAutoNegAdminControl | ifMauAutoNegAdminStatus |
Table 1 |
The following IEEE 802.3 managed objects have not been included in the MAU-MIB for the following reasons.
IEEE 802.3 Managed Object | Corresponding SNMP Object |
---|---|
oMAU | |
.aIdleErrorCount | Only useful for 100BaseT2, which is not widely implemented. |
oAutoNegotiation | |
.aAutoNegLocalSelectorAbility | Only needed for support of isoethernet (802.9a), which is not supported by MAU-MIB. |
.aAutoNegAdvertisedSelectorAbility | |
.aAutoNegReceivedSelectorAbility |
Table 2 |
TOC |
TOC |
The dot3MauType OBJECT IDENTIFIER and its OBJECT-IDENTITY definitions has been moved from the MAU-MIB into the IANA-maintained IANA-MAU-MIB, first version of which is defined in this memo.
When a new IEEE 802.3 MAU is defined, IANA can re-issue a version of IANA-MAU-MIB with the new dot3MauType OBJECT-IDENTITY and its matching IANAifMauTypeListBits textual convention value and, possibly, with new IANAifMauMediaAvailable, IANAifMauAutoNegCapBits and/or IANAifJackType values.
An Expert Review, as defined in RFC 2434 [RFC2434] (Narten, T. and H. Alvestrand, “Guidelines for Writing an IANA Considerations Section in RFCs,” October 1998.), is REQUIRED for the addition of the new MAU, Media Available states, Auto Negotiation capabilities and/or Jack types.
In some cases new MAU types may require additional managed objects or may have side effects on the behavior of existing managed objects. In such cases a standards-track specification (which may be a new document or a revision of this document) is also REQUIRED. Any such document is REQUIRED to note any special properties of the MAU types that it defines - for example, side effects on the ifStackTable as noted in this document for 10GBASE-W MAUs.
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The syntax of ifMauTypeListBits is changed to be a textual convention, such that the enumerated integer values are now defined in the textual convention, IANAifMauTypeListBits, which can be re-specified (with additional values, when defined by IEEE 802.3) in the IANA-maintained MIB module, without issuing a new version of this document.
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The syntax of ifMauMediaAvailable and rpMauMediaAvailable is changed a textual convention, such that the enumerated integer values are now defined in the textual convention, IANAifMauMediaAvailable, which can be re-specified (with additional values, when defined by IEEE 802.3) in the IANA-maintained MIB module, without issuing a new version of this document.
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The syntax of ifMauAutoNegCapabilityBits, ifMauAutoNegCapAdvertisedBits and ifMauAutoNegCapReceivedBits objects is changed to be a textual convention, such that the enumerated integer values are now defined in the textual convention, IANAifMauAutoNegCapBits, which can be re-specified (with additional values, when defined by IEEE 802.3) in the IANA-maintained MIB module, without issuing a new version of this document.
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The JackType Textual Convention has been deprecated in favor of IANAifJackType defined in the IANA-maintained MIB module, so the new Jack types can be added (when defined by IEEE 802.3) without issuing a new version of this document.
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MAU-MIB DEFINITIONS ::= BEGIN IMPORTS Counter32, Integer32, Counter64, OBJECT-TYPE, MODULE-IDENTITY, NOTIFICATION-TYPE, mib-2 FROM SNMPv2-SMI -- RFC 2578 TruthValue, AutonomousType, TEXTUAL-CONVENTION FROM SNMPv2-TC -- RFC 2579 OBJECT-GROUP, MODULE-COMPLIANCE, NOTIFICATION-GROUP FROM SNMPv2-CONF -- RFC 2580 InterfaceIndex FROM IF-MIB -- RFC 2863 IANAifMauTypeListBits, IANAifMauMediaAvailable, IANAifMauAutoNegCapBits, IANAifJackType FROM IANA-MAU-MIB -- RFC 3636bis -- EdNote: Replace RFC 3636bis above with the URL of the -- actual IANA-maintained module & remove this note. ; mauMod MODULE-IDENTITY LAST-UPDATED "200606250000Z" -- June 25, 2006 ORGANIZATION "IETF Ethernet Interfaces and Hub MIB Working Group" CONTACT-INFO "WG charter: http://www.ietf.org/html.charters/hubmib-charter.html Mailing Lists: General Discussion: hubmib@ietf.org To Subscribe: hubmib-request@ietf.org In Body: subscribe your_email_address Chair: Dan Romascanu Postal: Avaya Atidim Technology Park, Bldg. 3 Tel Aviv 61131 Israel Tel: +972 3 645 8414 E-mail: dromasca@avaya.com Editor: Edward Beili Postal: Actelis Networks Inc. 25 Bazel St., P.O.B. 10173 Petach-Tikva 10173 Israel Tel: +972-3-924-3491 E-mail: edward.beili@actelis.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, 2005 Edition: 'IEEE Standard for 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'. Of particular interest is Clause 30, 'Management'. Copyright (C) The Internet Society (2006). This version of this MIB module is part of RFC XXXX; see the RFC itself for full legal notices." REVISION "200606250000Z" -- June 25, 2006 DESCRIPTION "Updated to reference IANA maintaned textual conventions for MAU types, Media Availability state, Auto Negotiation capabilities and jack types, instead of using internally defined values. This version is published as RFC XXXX." -- EdNote: Replace XXXX with the actual RFC number -- & remove this note. REVISION "200309190000Z" -- September 19, 2003 DESCRIPTION "Updated to include support for 10 Gb/s MAUs. This resulted in the following revisions: - Added OBJECT-IDENTITY definitions for 10 gigabit MAU types - Added fiberLC jack type to JackType TC - Extended ifMauTypeListBits with bits for the 10 gigabit MAU types - Added enumerations to ifMauMediaAvailable, and updated its DESCRIPTION to reflect behaviour at 10 Gb/s - Added 64-bit version of ifMauFalseCarriers and added mauIfGrpHCStats object group to contain the new object - Deprecated mauModIfCompl2 and replaced it with mauModIfCompl3, which includes the new object group This version published as RFC 3636." REVISION "199908240400Z" -- August 24, 1999 DESCRIPTION "This version published as RFC 2668. Updated to include support for 1000 Mb/sec MAUs and flow control negotiation." REVISION "199710310000Z" -- October 31, 1997 DESCRIPTION "Version published as RFC 2239." REVISION "199309300000Z" -- September 30, 1993 DESCRIPTION "Initial version, published as RFC 1515." ::= { snmpDot3MauMgt 6 } snmpDot3MauMgt OBJECT IDENTIFIER ::= { mib-2 26 } -- Textual Conventions JackType ::= TEXTUAL-CONVENTION STATUS deprecated DESCRIPTION "********* THIS TC IS DEPRECATED ********** This TC has been deprecated in favour of IANAifJackType. 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 fiberLC(14) } dot3RpMauBasicGroup OBJECT IDENTIFIER ::= { snmpDot3MauMgt 1 } dot3IfMauBasicGroup OBJECT IDENTIFIER ::= { snmpDot3MauMgt 2 } dot3BroadMauBasicGroup OBJECT IDENTIFIER ::= { snmpDot3MauMgt 3 } -- OIDs under the following branch are reserved for -- the IANA-MAU-MIB to assign as MAU type values: -- { snmpDot3MauMgt 4 } dot3IfMauAutoNegGroup OBJECT IDENTIFIER ::= { snmpDot3MauMgt 5 } -- the following OID is the MODULE-IDENTITY value -- for this MIB module: { snmpDot3MauMgt 6 } -- the following OID is the MODULE-IDENTITY value -- for the IANA-MAU-MIB: { snmpDot3MauMgt 7 } -- -- 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 } RpMauEntry ::= SEQUENCE { rpMauGroupIndex Integer32, rpMauPortIndex Integer32, rpMauIndex Integer32, rpMauType AutonomousType, rpMauStatus INTEGER, rpMauMediaAvailable IANAifMauMediaAvailable, rpMauMediaAvailableStateExits Counter32, rpMauJabberState INTEGER, rpMauJabberingStateEnters Counter32, rpMauFalseCarriers Counter32 } rpMauGroupIndex OBJECT-TYPE SYNTAX Integer32 (1..2147483647) MAX-ACCESS read-only -- read-only since originally an -- SMIv1 index 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 "RFC 2108, rptrGroupIndex." ::= { rpMauEntry 1 } rpMauPortIndex OBJECT-TYPE SYNTAX Integer32 (1..2147483647) MAX-ACCESS read-only -- read-only since originally an -- SMIv1 index STATUS current DESCRIPTION "This variable uniquely identifies the repeater port within group rpMauGroupIndex to which the MAU described by this entry is connected." REFERENCE "RFC 2108, rptrPortIndex." ::= { rpMauEntry 2 } rpMauIndex OBJECT-TYPE SYNTAX Integer32 (1..2147483647) MAX-ACCESS read-only -- read-only since originally an -- SMIv1 index STATUS current 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 AutonomousType MAX-ACCESS read-only STATUS current DESCRIPTION "This object identifies the MAU type. Values for standard IEEE 802.3 MAU types are defined in the IANA maintained IANA-MAU-MIB module, as OBJECT-IDENTITIES of dot3MauType. If the MAU type is unknown, the object identifier zeroDotZero is returned." 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. 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 IANAifMauMediaAvailable MAX-ACCESS read-only STATUS current DESCRIPTION "This object identifies Media Available state of the MAU, complementary to the rpMauStatus. Values for the standard IEEE 802.3 Media Available states are defined in the IANA maintained IANA-MAU-MIB module, as IANAifMauMediaAvailable TC." 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). Discontinuities in the value of this counter can occur at re-initialization of the management system, and at other times as indicated by the value of rptrMonitorPortLastChange." REFERENCE "[IEEE 802.3 Std], 30.5.1.1.5, aLoseMediaCounter. RFC 2108, rptrMonitorPortLastChange" ::= { rpMauEntry 7 } rpMauJabberState 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." ::= { 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. Discontinuities in the value of this counter can occur at re-initialization of the management system, and at other times as indicated by the value of rptrMonitorPortLastChange." REFERENCE "[IEEE 802.3 Std], 30.5.1.1.6, aJabber.jabberCounter. RFC 2108, rptrMonitorPortLastChange" ::= { 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. 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. Discontinuities in the value of this counter can occur at re-initialization of the management system, and at other times as indicated by the value of rptrMonitorPortLastChange." REFERENCE "[IEEE 802.3 Std], 30.5.1.1.10, aFalseCarriers. RFC 2108, rptrMonitorPortLastChange" ::= { 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 IANAifJackType } 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 attached to the same MAU (rpMauIndex)." ::= { rpJackEntry 1 } rpJackType OBJECT-TYPE SYNTAX IANAifJackType 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 InterfaceIndex, ifMauIndex Integer32, ifMauType AutonomousType, ifMauStatus INTEGER, ifMauMediaAvailable IANAifMauMediaAvailable, ifMauMediaAvailableStateExits Counter32, ifMauJabberState INTEGER, ifMauJabberingStateEnters Counter32, ifMauFalseCarriers Counter32, ifMauTypeList Integer32, ifMauDefaultType AutonomousType, ifMauAutoNegSupported TruthValue, ifMauTypeListBits IANAifMauTypeListBits, ifMauHCFalseCarriers Counter64 } ifMauIfIndex OBJECT-TYPE SYNTAX InterfaceIndex MAX-ACCESS read-only -- read-only since originally an -- SMIv1 index STATUS current DESCRIPTION "This variable uniquely identifies the interface to which the MAU described by this entry is connected." REFERENCE "RFC 2863, ifIndex" ::= { ifMauEntry 1 } ifMauIndex OBJECT-TYPE SYNTAX Integer32 (1..2147483647) MAX-ACCESS read-only -- read-only since originally an -- SMIv1 index 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 AutonomousType MAX-ACCESS read-only STATUS current DESCRIPTION "This object identifies the MAU type. Values for standard IEEE 802.3 MAU types are defined in the IANA maintained IANA-MAU-MIB module, as OBJECT-IDENTITIES of dot3MauType. If the MAU type is unknown, the object identifier zeroDotZero is returned. 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 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 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 IANAifMauMediaAvailable MAX-ACCESS read-only STATUS current DESCRIPTION "This object identifies Media Available state of the MAU, complementary to the ifMauStatus. Values for the standard IEEE 802.3 Media Available states are defined in the IANA maintained IANA-MAU-MIB module, as IANAifMauMediaAvailable TC." 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). Discontinuities in the value of this counter can occur at re-initialization of the management system, and at other times as indicated by the value of ifCounterDiscontinuityTime." REFERENCE "[IEEE 802.3 Std], 30.5.1.1.5, aLoseMediaCounter. RFC 2863, ifCounterDiscontinuityTime." ::= { 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 } 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 dot3MauTypeAUI and those of speeds above 10Mbps. Discontinuities in the value of this counter can occur at re-initialization of the management system, and at other times as indicated by the value of ifCounterDiscontinuityTime." REFERENCE "[IEEE 802.3 Std], 30.5.1.1.6, aJabber.jabberCounter. RFC 2863, ifCounterDiscontinuityTime." ::= { 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. This counter can roll over very quickly. A management station is advised to poll the ifMauHCFalseCarriers instead of this counter in order to avoid loss of information. Discontinuities in the value of this counter can occur at re-initialization of the management system, and at other times as indicated by the value of ifCounterDiscontinuityTime." REFERENCE "[IEEE 802.3 Std], 30.5.1.1.10, aFalseCarriers. RFC 2863, ifCounterDiscontinuityTime." ::= { ifMauEntry 9 } ifMauTypeList OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "********* THIS OBJECT IS DEPRECATED ********** This object has been deprecated in favour of ifMauTypeListBits. 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. 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." ::= { ifMauEntry 10 } ifMauDefaultType OBJECT-TYPE SYNTAX AutonomousType 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 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 IANAifMauTypeListBits 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 ifMauAutoNegCapabilityBits. Note that this MAU may be capable of operating as a MAU type that is beyond the scope of this MIB. This is indicated by returning the bit value bOther in addition to any bit values for standard capabilities that are listed in the IANAifMauTypeListBits TC." ::= { ifMauEntry 13 } ifMauHCFalseCarriers OBJECT-TYPE SYNTAX Counter64 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. This counter is a 64 bit version of ifMauFalseCarriers. Since the 32 bit version of this counter can roll over very quickly, management stations are advised to poll the 64 bit version instead in order to avoid loss of information. Discontinuities in the value of this counter can occur at re-initialization of the management system, and at other times as indicated by the value of ifCounterDiscontinuityTime." REFERENCE "[IEEE 802.3 Std], 30.5.1.1.10, aFalseCarriers. RFC 2863, ifCounterDiscontinuityTime." ::= { ifMauEntry 14 } -- 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 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 IANAifJackType } 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 IANAifJackType MAX-ACCESS read-only STATUS current DESCRIPTION "The jack connector type, as it appears on the outside of the system." ::= { ifJackEntry 2 } -- -- The MAU Auto-Negotiation Table -- 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. 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." ::= { dot3IfMauAutoNegGroup 1 } 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 IANAifMauAutoNegCapBits, ifMauAutoNegCapAdvertisedBits IANAifMauAutoNegCapBits, ifMauAutoNegCapReceivedBits IANAifMauAutoNegCapBits, 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 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 } ifMauAutoNegCapability OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS deprecated DESCRIPTION "********* THIS OBJECT IS DEPRECATED ********** This object has been deprecated in favour of ifMauAutoNegCapabilityBits. 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." REFERENCE "[IEEE 802.3 Std], 30.6.1.1.5, aAutoNegLocalTechnologyAbility." ::= { ifMauAutoNegEntry 5 } ifMauAutoNegCapAdvertised OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-write STATUS deprecated DESCRIPTION "********* THIS OBJECT IS DEPRECATED ********** This object has been deprecated in favour of ifMauAutoNegCapAdvertisedBits. 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." 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 ********** This object has been deprecated in favour of ifMauAutoNegCapReceivedBits. 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." REFERENCE "[IEEE 802.3 Std], 30.6.1.1.7, aAutoNegReceivedTechnologyAbility." ::= { ifMauAutoNegEntry 7 } ifMauAutoNegRestart OBJECT-TYPE SYNTAX INTEGER { restart(1), norestart(2) } 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 IANAifMauAutoNegCapBits 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. Note that the local auto-negotiation entity may support some capabilities beyond the scope of this MIB. This is indicated by returning the bit value bOther in addition to any bit values for standard capabilities that are listed in the IANAifMauAutoNegCapBits TC." REFERENCE "[IEEE 802.3 Std], 30.6.1.1.5, aAutoNegLocalTechnologyAbility." ::= { ifMauAutoNegEntry 9 } ifMauAutoNegCapAdvertisedBits OBJECT-TYPE SYNTAX IANAifMauAutoNegCapBits 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 ifMauAutoNegCapabilityBits cannot be enabled. Note that the local auto-negotiation entity may advertise some capabilities beyond the scope of this MIB. This is indicated by returning the bit value bOther in addition to any bit values for standard capabilities that are listed in the IANAifMauAutoNegCapBits TC." REFERENCE "[IEEE 802.3 Std], 30.6.1.1.6, aAutoNegAdvertisedTechnologyAbility." ::= { ifMauAutoNegEntry 10 } ifMauAutoNegCapReceivedBits OBJECT-TYPE SYNTAX IANAifMauAutoNegCapBits 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. This is indicated by returning the bit value bOther in addition to any bit values for for standard capabilities that are listed in the IANAifMauAutoNegCapBits TC." 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 { 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 ********** This entire table has been deprecated. There have been no reported implementations of this table, and it is unlikely that there ever will be. IEEE recommends that broadband MAU types should not be used for new installations. 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 InterfaceIndex, broadMauIndex Integer32, broadMauXmtRcvSplitType INTEGER, broadMauXmtCarrierFreq Integer32, broadMauTranslationFreq Integer32 } broadMauIfIndex OBJECT-TYPE SYNTAX InterfaceIndex MAX-ACCESS read-only -- read-only since originally an -- SMIv1 index STATUS deprecated DESCRIPTION "********* THIS OBJECT IS DEPRECATED ********** This variable uniquely identifies the interface to which the MAU described by this entry is connected." REFERENCE "RFC 2863, ifIndex." ::= { broadMauBasicEntry 1 } broadMauIndex OBJECT-TYPE SYNTAX Integer32 (1..2147483647) MAX-ACCESS read-only -- read-only since originally an -- SMIv1 index 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 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 Std], 30.5.1.3.1, nJabber 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 Std], 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 } 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 } 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, 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 } mauIfGrpHCStats OBJECT-GROUP OBJECTS { ifMauHCFalseCarriers } STATUS current DESCRIPTION "Conformance for high capacity statistics for MAUs attached to interfaces" ::= { mauModObjGrps 12 } -- 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 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." 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 deprecated DESCRIPTION "******** THIS COMPLIANCE IS DEPRECATED ******** Compliance for MAUs attached to interfaces. This compliance is deprecated and replaced by mauModIfCompl3." 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 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. Note that compliance with this compliance statement requires compliance with the snmpRptrModCompl MODULE-COMPLIANCE statement of the SNMP-REPEATER-MIB (RFC 2108)." 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 } mauModIfCompl3 MODULE-COMPLIANCE STATUS current DESCRIPTION "Compliance for MAUs attached to interfaces. Note that compliance with this compliance statement requires compliance with the ifCompliance3 MODULE-COMPLIANCE statement of the IF-MIB (RFC 2863) and the dot3Compliance2 MODULE-COMPLIANCE statement of the EtherLike-MIB (RFC3635)." 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 mauIfGrpHCStats DESCRIPTION "Implementation of this group is mandatory for MAUs which have 1000Mb/s capacity, and is recommended for MAUs which have 100Mb/s capacity." 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 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 5 } END
TOC |
IANA-MAU-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-IDENTITY, mib-2 FROM SNMPv2-SMI TEXTUAL-CONVENTION FROM SNMPv2-TC ; ianaMauMIB MODULE-IDENTITY LAST-UPDATED "200606250000Z" -- Jun 25, 2006 ORGANIZATION "IANA" CONTACT-INFO " Internet Assigned Numbers Authority Postal: ICANN 4676 Admiralty Way, Suite 330 Marina del Rey, CA 90292 Tel: +1 310 823 9358 E-Mail: iana@iana.org" DESCRIPTION "This MIB module defines dot3MauType OBJECT-IDENTITIES and IANAifMauListBits, IANAifMauMediaAvailable, IANAifMauAutoNegCapBits and IANAifJackType Textual Conventions, specifying enumerated values of the ifMauTypeListBits, ifMauMediaAvailable / rpMauMediaAvailable, ifMauAutoNegCapabilityBits / ifMauAutoNegCapAdvertisedBits / ifMauAutoNegCapReceivedBits and ifJackType / rpJackType objects respectively, defined in the MAU-MIB. It is intended that each new MAU type, Media Availability state, Auto Negotiation capability and/or Jack type defined by the IEEE 802.3 working group and approved for publication in a revision of IEEE Std 802.3 will be added to this MIB module, provided that it is suitable for being managed by the base objects in the MAU-MIB. An Expert Review, as defined in RFC 2434 [RFC2434], is REQUIRED for such additions. The following reference is used throughout this MIB module: [IEEE 802.3 Std] refers to: IEEE Std 802.3, 2005 Edition: 'IEEE Standard for 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'. This reference should be updated as appropriate when new MAU types, Media Availability states, Auto Negotiation capabilities and/or Jack types are added to this MIB module. Copyright (C) The Internet Society (2006). The initial version of this MIB module was published in RFC XXXX; for full legal notices see the RFC itself. Supplementary information may be available at: http://www.ietf.org/copyrights/ianamib.html" REVISION "200606250000Z" -- Jun 25, 2006 DESCRIPTION "Initial version of this MIB as published in RFC XXX." -- EdNote: Replace XXXX with the actual RFC number & remove this note ::= { mib-2 snmpDot3MauMgt(26) 7 } -- mauMod+1 -- Textual Conventions IANAifMauTypeListBits ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This data type is used as the syntax of the ifMauTypeListBits object in the (updated) definition of MAU-MIB's ifMauTable. The most recent version of this textual convention is available in the on-line version of this MIB module on the IANA web site. Requests for new values should be made to IANA via email (iana@iana.org). Note that changes in this textual convention SHALL be synchronized with relevant changes in the dot3MauType OBJECT-IDENTITIES." 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 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 b10GbaseX(31), -- 10GBASE-X b10GbaseLX4(32), -- 10GBASE-LX4 b10GbaseR(33), -- 10GBASE-R b10GbaseER(34), -- 10GBASE-ER b10GbaseLR(35), -- 10GBASE-LR b10GbaseSR(36), -- 10GBASE-SR b10GbaseW(37), -- 10GBASE-W b10GbaseEW(38), -- 10GBASE-EW b10GbaseLW(39), -- 10GBASE-LW b10GbaseSW(40), -- 10GBASE-SW -- new since RFC 3636 b10GbaseCX4(41), -- 10GBASE-CX4 b2BaseTL(42), -- 2BASE-TL b10PassTS(43), -- 10PASS-TS b100BaseBX10D(44), -- 100BASE-BX10D b100BaseBX10U(45), -- 100BASE-BX10U b100BaseLX10(46), -- 100BASE-LX10 b1000BaseBX10D(47), -- 1000BASE-BX10D b1000BaseBX10U(48), -- 1000BASE-BX10U b1000BaseLX10(49), -- 1000BASE-LX10 b1000BasePX10D(50), -- 1000BASE-PX10D b1000BasePX10U(51), -- 1000BASE-PX10U b1000BasePX20D(52), -- 1000BASE-PX20D b1000BasePX20U(53) -- 1000BASE-PX20U } REFERENCE "[IEEE 802.3 Std], Section 30.5.1.1.2" IANAifMauMediaAvailable ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This data type is used as the syntax of the ifMauMediaAvailable and rpMauMediaAvailable objects in the (updated) definition of MAU-MIB's ifMauTable and rpMauTable respectively. Possible values are: other(1) - undefined (not listed below) unknown(2) - MAU's true state is unknown; e.g. during initialization available(3) - link, light, or loopback is normal notAvailable(4) - link loss, low light, or no loopback remoteFault(5) - 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 invalidSignal(6) - invalid signal has been received from the other end of the link, 10BASE-FB only remoteJabber(7) - remote fault, due to jabber remoteLinkLoss(8) - remote fault, due to link loss remoteTest(9) - remote fault, due to test offline(10) - offline, Clause 37 Auto-Negotiation only autoNegError(11) - Auto-Negotiation Error, Clause 37 Auto-Negotiation only pmdLinkFault(12) - PMA/PMD receive link fault. In case of PAF (2BASE-TL / 10PASS-TS PHYs), all PMEs in the aggregation group have detected a link fault wisFrameLoss(13) - WIS loss of frame, 10GBASE-W only wisSignalLoss(14) - WIS loss of signal, 10GBASE-W only pcsLinkFault(15) - PCS receive link fault excessiveBER(16) - PCS Bit Error Ratio monitor reporting excessive error ratio dxsLinkFault(17) - DTE XGXS receive link fault, XAUI only pxsLinkFault(18) - PHY XGXS receive link fault, XAUI only availableReduced(19) - link normal, reduced bandwidth, 2BASE-TL / 10PASS-TS only ready(20) - at least one PME in the aggregation group is detecting handshake tones, 2BASE-TL / 10PASS-TS only If the MAU is a 10M b/s 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, 10BASE2, 10BASE5, or 10BROAD36 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 10BASEFP. At power-up or following a reset, the Media Available state will be unknown(2) for AUI, 10BASE5, 10BASE2, 10BROAD36, 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 Media Available state will only change during noncollided transmissions for AUI, 10BASE2, 10BASE5, 10BROAD36, and 10BASE-FP MAUs. For 100BASE-T2, 100BASE-T4, 100BASE-TX, 100BASE-FX, 100BASE-LX10 and 100BASE-BX10 PHYs the enumerations match the states within the link integrity state diagram. Any MAU that implements management of [IEEE 802.3 Std] Clause 28 Auto-Negotiation, will map remote fault indication to remoteFault(5). Any MAU that implements management of Clause 37 Auto-Negotiation, will map the received RF1 and RF2 bits as follows: Offline maps to offline(10), Link_Failure maps to remoteFault(5) and Auto-Negotiation Error maps to autoNegError(11). The value remoteFault(5) applies to 10BASE-FB remote fault indication, the 100BASE-X far-end fault indication and nonspecified remote faults from a system running Clause 28 Auto-Negotiation. The value remoteJabber(7), remoteLink loss(8), or remoteTest(9) SHOULD be used instead of remoteFault() where the reason for remote fault is identified in the remote signaling protocol. Where a Clause 22 MII or Clause 35 GMII is present, a logic one in the remote fault bit maps to the value remoteFault(5), a logic zero in the link status bit maps to the enumeration notAvailable(4). The value notAvailable(4) takes precedence over remoteFault(5). For 2BASE-TL and 10PASS-TS PHYs, the value unknown(2) maps to the condition where the PHY (PCS with connected PMEs) is initializing, the value ready(20) maps to the condition where the interface is down and at least one PME in the aggregation group is ready for handshake, the value available(3) maps to the condition where all the PMEs in the aggregation group are up, the value notAvailable(4) maps to the condition where all the PMEs in the aggregation group are down and no handshake tones are detected, the value availableReduced(19) maps to the condition where the interface is up, a link fault is detected at the receive direction by one or more PMEs in the aggregation group, but at least one PME is up and the enumeration pmdLinkFault(12) maps to the condition where a link fault is detected at the receive direction by all of the PMEs in the aggregation group. For 10 Gb/s the enumerations map to value of the link_fault variable within the Link Fault Signaling state diagram as follows: the value OK maps to the value available(3), the value Local Fault maps to the value notAvailable(4) and the value Remote Fault maps to the value remoteFault(). The value pmdLinkFault(12), wisFrameLoss(13), wisSignalLoss(14), pcsLinkFault(15), excessiveBER(16) or dxsLinkFault(17) SHOULD be used instead of the value notAvailable(4) where the reason for the Local Fault state can be identified through the use of the Clause 45 MDIO Interface. Where multiple reasons for the Local Fault state can be identified only the highest precedence error SHOULD be reported. This precedence in descending order is as follows: pxsLinkFault pmdLinkFault wisFrameLoss wisSignalLoss pcsLinkFault excessiveBER dxsLinkFault. Where a Clause 45 MDIO interface is present a logic zero in the PMA/PMD Receive link status bit ([IEEE 802.3 Std] Section 45.2.1.2.2) maps to the value pmdLinkFault(12), a logic one in the LOF status bit (Section 45.2.2.10.4) maps to the value wisFrameLoss(13), a logic one in the LOS status bit (Section 45.2.2.10.5) maps to the value wisSignalLoss, a logic zero in the PCS Receive link status bit (Section 45.2.3.2.2) maps to the value pcsLinkFault(15), a logic one in the 10GBASE-R PCS Latched high BER status bit (Section 45.2.3.12.2) maps to the value excessiveBER, a logic zero in the DTE XS receive link status bit (Section 45.2.5.2.2) maps to the value dxsLinkFault(17) and a logic zero in the PHY XS transmit link status bit (Section 45.2.4.2.2) maps to the value pxsLinkFault(18). The most recent version of this textual convention is available in the on-line version of this MIB module on the IANA web site. Requests for new values should be made to IANA via email (iana@iana.org)." SYNTAX INTEGER { other(1), unknown(2), available(3), notAvailable(4), remoteFault(5), invalidSignal(6), remoteJabber(7), remoteLinkLoss(8), remoteTest(9), offline(10), autoNegError(11), pmdLinkFault(12), wisFrameLoss(13), wisSignalLoss(14), pcsLinkFault(15), excessiveBER(16), dxsLinkFault(17), pxsLinkFault(18), availableReduced(19), ready(20) } REFERENCE "[IEEE 802.3 Std], Section 30.5.1.1.4" IANAifMauAutoNegCapBits ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This data type is used as the syntax of the ifMauAutoNegCapabilityBits, ifMauAutoNegCapAdvertisedBits and ifMauAutoNegCapReceivedBits objects in the (updated) definition of MAU-MIB's ifMauAutoNegTable. The most recent version of this textual convention is available in the on-line version of this MIB module on the IANA web site. Requests for new values should be made to IANA via email (iana@iana.org)." 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 } REFERENCE "[IEEE 802.3 Std], Section 30.6.1.1.5" IANAifJackType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Common enumeration values for repeater and interface MAU jack types. This data type is used as the syntax of the ifJackType and rpJackType objects in the (updated) definition of MAU-MIB's ifJackTable and rpJackTable respectively. Possible values are: other(1) - undefined or unknown rj45(2) - RJ45 rj45S(3) - RJ45 shielded db9(4) - DB9 bnc(5) - BNC fAUI(6) - AUI female mAUI(7) - AUI male fiberSC(8) - SC fiber fiberMIC(9) - MIC fiber fiberST(10) - ST fiber telco(11) - Telco mtrj(12) - MT-RJ fiber hssdc(13) - fiber channel style-2 fiberLC(14) - LC fiber cx4(15) - IB4X for 10GBASE-CX4 The most recent version of this textual convention is available in the on-line version of this MIB module on the IANA web site. Requests for new values should be made to IANA via email (iana@iana.org)." SYNTAX INTEGER { other(1), rj45(2), rj45S(3), db9(4), bnc(5), fAUI(6), mAUI(7), fiberSC(8), fiberMIC(9), fiberST(10), telco(11), mtrj(12), hssdc(13), fiberLC(14), -- new since RFC 3636 cx4(15) } -- OBJECT IDENTITIES for MAU types -- (see rpMauType and ifMauType of MAU-MIB for usage) -- The following definitions has been moved from RFC 3636 and -- no longer appear in its revision. dot3MauType OBJECT IDENTIFIER ::= { mib-2 snmpDot3MauMgt(26) 4 } dot3MauTypeAUI OBJECT-IDENTITY STATUS current DESCRIPTION "no internal MAU, view from AUI" REFERENCE "[IEEE 802.3 Std], Section 7" ::= { dot3MauType 1 } dot3MauType10Base5 OBJECT-IDENTITY STATUS current DESCRIPTION "thick coax MAU" REFERENCE "[IEEE 802.3 Std], Section 7" ::= { dot3MauType 2 } dot3MauTypeFoirl OBJECT-IDENTITY STATUS current DESCRIPTION "FOIRL MAU" REFERENCE "[IEEE 802.3 Std], Section 9.9" ::= { dot3MauType 3 } dot3MauType10Base2 OBJECT-IDENTITY STATUS current DESCRIPTION "thin coax MAU" REFERENCE "[IEEE 802.3 Std], Section 10" ::= { dot3MauType 4 } dot3MauType10BaseT OBJECT-IDENTITY STATUS current DESCRIPTION "UTP MAU. Note that it is strongly recommended that agents return either dot3MauType10BaseTHD or dot3MauType10BaseTFD if the duplex mode is known. However, management applications should be prepared to receive this MAU type value from older agent implementations." REFERENCE "[IEEE 802.3 Std], Section 14" ::= { dot3MauType 5 } dot3MauType10BaseFP OBJECT-IDENTITY STATUS current DESCRIPTION "passive fiber MAU" REFERENCE "[IEEE 802.3 Std], Section 16" ::= { dot3MauType 6 } dot3MauType10BaseFB OBJECT-IDENTITY STATUS current DESCRIPTION "sync fiber MAU" REFERENCE "[IEEE 802.3 Std], Section 17" ::= { dot3MauType 7 } dot3MauType10BaseFL OBJECT-IDENTITY STATUS current DESCRIPTION "async fiber MAU. Note that it is strongly recommended that agents return either dot3MauType10BaseFLHD or dot3MauType10BaseFLFD if the duplex mode is known. However, management applications should be prepared to receive this MAU type value from older agent implementations." REFERENCE "[IEEE 802.3 Std], Section 18" ::= { dot3MauType 8 } dot3MauType10Broad36 OBJECT-IDENTITY STATUS current DESCRIPTION "broadband DTE MAU. Note that 10BROAD36 MAUs can be attached to interfaces but not to repeaters." REFERENCE "[IEEE 802.3 Std], Section 11" ::= { dot3MauType 9 } ------ new since RFC 1515: dot3MauType10BaseTHD OBJECT-IDENTITY STATUS current DESCRIPTION "UTP MAU, half duplex mode" REFERENCE "[IEEE 802.3 Std], Section 14" ::= { dot3MauType 10 } dot3MauType10BaseTFD OBJECT-IDENTITY STATUS current DESCRIPTION "UTP MAU, full duplex mode" REFERENCE "[IEEE 802.3 Std], Section 14" ::= { dot3MauType 11 } dot3MauType10BaseFLHD OBJECT-IDENTITY STATUS current DESCRIPTION "async fiber MAU, half duplex mode" REFERENCE "[IEEE 802.3 Std], Section 18" ::= { dot3MauType 12 } dot3MauType10BaseFLFD OBJECT-IDENTITY STATUS current DESCRIPTION "async fiber MAU, full duplex mode" REFERENCE "[IEEE 802.3 Std], Section 18" ::= { dot3MauType 13 } dot3MauType100BaseT4 OBJECT-IDENTITY STATUS current DESCRIPTION "4 pair category 3 UTP" REFERENCE "[IEEE 802.3 Std], Section 23" ::= { dot3MauType 14 } dot3MauType100BaseTXHD OBJECT-IDENTITY STATUS current DESCRIPTION "2 pair category 5 UTP, half duplex mode" REFERENCE "[IEEE 802.3 Std], Section 25" ::= { dot3MauType 15 } dot3MauType100BaseTXFD OBJECT-IDENTITY STATUS current DESCRIPTION "2 pair category 5 UTP, full duplex mode" REFERENCE "[IEEE 802.3 Std], Section 25" ::= { dot3MauType 16 } dot3MauType100BaseFXHD OBJECT-IDENTITY STATUS current DESCRIPTION "X fiber over PMT, half duplex mode" REFERENCE "[IEEE 802.3 Std], Section 26" ::= { dot3MauType 17 } dot3MauType100BaseFXFD OBJECT-IDENTITY STATUS current DESCRIPTION "X fiber over PMT, full duplex mode" REFERENCE "[IEEE 802.3 Std], Section 26" ::= { dot3MauType 18 } dot3MauType100BaseT2HD OBJECT-IDENTITY STATUS current DESCRIPTION "2 pair category 3 UTP, half duplex mode" REFERENCE "[IEEE 802.3 Std], Section 32" ::= { dot3MauType 19 } dot3MauType100BaseT2FD OBJECT-IDENTITY STATUS current DESCRIPTION "2 pair category 3 UTP, full duplex mode" REFERENCE "[IEEE 802.3 Std], Section 32" ::= { dot3MauType 20 } ------ new since RFC 2239: dot3MauType1000BaseXHD OBJECT-IDENTITY STATUS current DESCRIPTION "PCS/PMA, unknown PMD, half duplex mode" REFERENCE "[IEEE 802.3 Std], Section 36" ::= { dot3MauType 21 } dot3MauType1000BaseXFD OBJECT-IDENTITY STATUS current DESCRIPTION "PCS/PMA, unknown PMD, full duplex mode" REFERENCE "[IEEE 802.3 Std], Section 36" ::= { dot3MauType 22 } dot3MauType1000BaseLXHD OBJECT-IDENTITY STATUS current DESCRIPTION "Fiber over long-wavelength laser, half duplex mode" REFERENCE "[IEEE 802.3 Std], Section 38" ::= { dot3MauType 23 } dot3MauType1000BaseLXFD OBJECT-IDENTITY STATUS current DESCRIPTION "Fiber over long-wavelength laser, full duplex mode" REFERENCE "[IEEE 802.3 Std], Section 38" ::= { dot3MauType 24 } dot3MauType1000BaseSXHD OBJECT-IDENTITY STATUS current DESCRIPTION "Fiber over short-wavelength laser, half duplex mode" REFERENCE "[IEEE 802.3 Std], Section 38" ::= { dot3MauType 25 } dot3MauType1000BaseSXFD OBJECT-IDENTITY STATUS current DESCRIPTION "Fiber over short-wavelength laser, full duplex mode" REFERENCE "[IEEE 802.3 Std], Section 38" ::= { dot3MauType 26 } dot3MauType1000BaseCXHD OBJECT-IDENTITY STATUS current DESCRIPTION "Copper over 150-Ohm balanced cable, half duplex mode" REFERENCE "[IEEE 802.3 Std], Section 39" ::= { dot3MauType 27 } dot3MauType1000BaseCXFD OBJECT-IDENTITY STATUS current DESCRIPTION "Copper over 150-Ohm balanced cable, full duplex mode" REFERENCE "[IEEE 802.3 Std], Section 39" ::= { dot3MauType 28 } dot3MauType1000BaseTHD OBJECT-IDENTITY STATUS current DESCRIPTION "Four-pair Category 5 UTP, half duplex mode" REFERENCE "[IEEE 802.3 Std], Section 40" ::= { dot3MauType 29 } dot3MauType1000BaseTFD OBJECT-IDENTITY STATUS current DESCRIPTION "Four-pair Category 5 UTP, full duplex mode" REFERENCE "[IEEE 802.3 Std], Section 40" ::= { dot3MauType 30 } ------ new since RFC 2668: dot3MauType10GigBaseX OBJECT-IDENTITY STATUS current DESCRIPTION "X PCS/PMA, unknown PMD." REFERENCE "[IEEE 802.3 Std], Section 48" ::= { dot3MauType 31 } dot3MauType10GigBaseLX4 OBJECT-IDENTITY STATUS current DESCRIPTION "X fiber over WWDM optics" REFERENCE "[IEEE 802.3 Std], Section 53" ::= { dot3MauType 32 } dot3MauType10GigBaseR OBJECT-IDENTITY STATUS current DESCRIPTION "R PCS/PMA, unknown PMD." REFERENCE "[IEEE 802.3 Std], Section 49" ::= { dot3MauType 33 } dot3MauType10GigBaseER OBJECT-IDENTITY STATUS current DESCRIPTION "R fiber over 1550 nm optics" REFERENCE "[IEEE 802.3 Std], Section 52" ::= { dot3MauType 34 } dot3MauType10GigBaseLR OBJECT-IDENTITY STATUS current DESCRIPTION "R fiber over 1310 nm optics" REFERENCE "[IEEE 802.3 Std], Section 52" ::= { dot3MauType 35 } dot3MauType10GigBaseSR OBJECT-IDENTITY STATUS current DESCRIPTION "R fiber over 850 nm optics" REFERENCE "[IEEE 802.3 Std], Section 52" ::= { dot3MauType 36 } dot3MauType10GigBaseW OBJECT-IDENTITY STATUS current DESCRIPTION "W PCS/PMA, unknown PMD." REFERENCE "[IEEE 802.3 Std], Section 49 and 50" ::= { dot3MauType 37 } dot3MauType10GigBaseEW OBJECT-IDENTITY STATUS current DESCRIPTION "W fiber over 1550 nm optics" REFERENCE "[IEEE 802.3 Std], Section 52" ::= { dot3MauType 38 } dot3MauType10GigBaseLW OBJECT-IDENTITY STATUS current DESCRIPTION "W fiber over 1310 nm optics" REFERENCE "[IEEE 802.3 Std], Section 52" ::= { dot3MauType 39 } dot3MauType10GigBaseSW OBJECT-IDENTITY STATUS current DESCRIPTION "W fiber over 850 nm optics" REFERENCE "[IEEE 802.3 Std], Section 52" ::= { dot3MauType 40 } ------ new since RFC 3636: dot3MauType10GigBaseCX4 OBJECT-IDENTITY STATUS current DESCRIPTION "X copper over 8 pair 100-Ohm balanced cable" REFERENCE "[IEEE 802.3 Std], Section 54" ::= { dot3MauType 41 } dot3MauType2BaseTL OBJECT-IDENTITY STATUS current DESCRIPTION "Voice grade UTP copper, up to 2700m, optional PAF" REFERENCE "[IEEE 802.3 Std], Sections 61 and 63" ::= { dot3MauType 42 } dot3MauType10PassTS OBJECT-IDENTITY STATUS current DESCRIPTION "Voice grade UTP copper, up to 750m, optional PAF" REFERENCE "[IEEE 802.3 Std], Sections 61 and 62" ::= { dot3MauType 43 } dot3MauType100BaseBX10D OBJECT-IDENTITY STATUS current DESCRIPTION "One single-mode fiber OLT, long wavelength, 10km" REFERENCE "[IEEE 802.3 Std], Section 58" ::= { dot3MauType 44 } dot3MauType100BaseBX10U OBJECT-IDENTITY STATUS current DESCRIPTION "One single-mode fiber ONU, long wavelength, 10km" REFERENCE "[IEEE 802.3 Std], Section 58" ::= { dot3MauType 45 } dot3MauType100BaseLX10 OBJECT-IDENTITY STATUS current DESCRIPTION "Two single-mode fibers, long wavelength, 10km" REFERENCE "[IEEE 802.3 Std], Section 58" ::= { dot3MauType 46 } dot3MauType1000BaseBX10D OBJECT-IDENTITY STATUS current DESCRIPTION "One single-mode fiber OLT, long wavelength, 10km" REFERENCE "[IEEE 802.3 Std], Section 59" ::= { dot3MauType 47 } dot3MauType1000BaseBX10U OBJECT-IDENTITY STATUS current DESCRIPTION "One single-mode fiber ONU, long wavelength, 10km" REFERENCE "[IEEE 802.3 Std], Section 59" ::= { dot3MauType 48 } dot3MauType1000BaseLX10 OBJECT-IDENTITY STATUS current DESCRIPTION "Two sigle-mode fiber, long wavelength, 10km" REFERENCE "[IEEE 802.3 Std], Section 59" ::= { dot3MauType 49 } dot3MauType1000BasePX10D OBJECT-IDENTITY STATUS current DESCRIPTION "One single-mode fiber EPON OLT, 10km" REFERENCE "[IEEE 802.3 Std], Section 60" ::= { dot3MauType 50 } dot3MauType1000BasePX10U OBJECT-IDENTITY STATUS current DESCRIPTION "One single-mode fiber EPON ONU, 10km" REFERENCE "[IEEE 802.3 Std], Section 60" ::= { dot3MauType 51 } dot3MauType1000BasePX20D OBJECT-IDENTITY STATUS current DESCRIPTION "One single-mode fiber EPON OLT, 20km" REFERENCE "[IEEE 802.3 Std], Section 60" ::= { dot3MauType 52 } dot3MauType1000BasePX20U OBJECT-IDENTITY STATUS current DESCRIPTION "One single-mode fiber EPON ONU, 20km" REFERENCE "[IEEE 802.3 Std], Section 60" ::= { dot3MauType 53 } END
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The IANA-MAU-MIB does not define any management objects. Instead, it defines a set of textual conventions which are used by the MAU-MIB and may be used by other MIB modules to define management objects. Meaningful security considerations can only be written for MIB modules that define management objects.
There is a number of management objects defined in the MAU-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:
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.
Some of the readable objects in the MAU-MIB module (i.e., objects with a MAX-ACCESS other than not-accessible) may be considered sensitive or vulnerable in some network environments. In some environments it may be undesirable to allow unauthorized parties to access statistics or status information about individual links in a network. It is thus important to control even GET and/or NOTIFY access to these objects and possibly to even encrypt the values of these objects when sending them over the network via SNMP.
SNMP versions prior to SNMPv3 did not include adequate security. 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 the MAU-MIB module.
It is recommended that the implementors consider the security features as provided by the SNMPv3 framework (see [RFC3410] (Case, J., Mundy, R., Partain, D., and B. Stewart, “Introduction and Applicability Statements for Internet-Standard Management Framework,” December 2002.), section 8), including full support for the SNMPv3 cryptographic mechanisms (for authentication and privacy).
Furthermore, deployment of SNMP versions prior to SNMPv3 is NOT RECOMMENDED. Instead, it is RECOMMENDED to deploy SNMPv3 and to enable cryptographic security. It is then a customer/operator responsibility to ensure that the SNMP entity giving access to an instance of the MAU-MIB module is properly configured to give access to the objects only to those principals (users) that have legitimate rights to indeed GET or SET (change/create/delete) them.
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This document defines first version of the IANA-maintained IANA-MAU-MIB module. It is intended that each new MAU type, Media Available state, Auto Negotiation capability and/or Jack type defined by the IEEE 802.3 working group and approved for publication in a revision of IEEE Std 802.3 will be added to the IANA-maintaned MIB module, provided that it is suitable for being managed by the base objects in the MAU-MIB module.
For each new MAU type added, a short description of the MAU technology and, wherever possible, a reference to a publicly available specification SHOULD be specified. An Expert Review, as defined in RFC 2434 [RFC2434] (Narten, T. and H. Alvestrand, “Guidelines for Writing an IANA Considerations Section in RFCs,” October 1998.), is REQUIRED, for each modification.
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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:
Mike Heard
John Flick
Dan Romascanu
This document is based on the Proposed Standard MAU MIB, RFC 3636 [RFC3636] (Flick, J., “Definitions of Managed Objects for IEEE 802.3 Medium Attachment Units (MAUs),” September 2003.), edited by John Flick of Hewlett-Packard, and produced by the Ethernet Interfaces and Hub MIB Working Group. It extends that document by moving the object identities and textual conventions for MAU types into a IANA-maintained MIB module. In addition, support is provided for the EFM and 10GBASE-CX4 MAUs as defined in [IEEE802.3ah] (IEEE, “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 - Media Access Control Parameters, Physical Layers and Management Parameters for Subscriber Access Networks,” September 2004.) and [IEEE802.3ak] (IEEE, “IEEE Standard for 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 - Physical Layer and Management Parameters for 10Gb/s Operation, Type 10GBASE-CX4,” March 2004.) respectively.
RFC 3636, in turn, was based on the Proposed Standard MAU MIB, RFC 2668 [RFC2668] (Smith, A., Flick, J., de Graaf, K., Romascanu, D., McMaster, D., McCloghrie, K., and S. Roberts, “Definitions of Managed Objects for IEEE 802.3 Medium Attachment Units (MAUs),” August 1999.), edited by John Flick of Hewlett-Packard and Andrew Smith, then of Extreme Networks, and produced by the Ethernet Interfaces and Hub MIB Working Group. It extends that document by providing support for 10 Gb/s MAUs as defined in [IEEE802.3ae] (IEEE, “IEEE Standard for 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 - Media Access Control (MAC) Parameters, Physical Layer and Management Parameters for 10 Gb/s Operation,” August 2002.).
RFC 2668, in turn, was based on the Proposed Standard MAU MIB, RFC 2239 [RFC2239] (de Graaf, K., Romascanu, D., McMaster, D., McCloghrie, K., and S. Roberts, “Definitions of Managed Objects for IEEE 802.3 Medium Attachment Units (MAUs) using SMIv2,” November 1997.), edited by Kathryn de Graaf, then of 3Com, and Dan Romascanu, then of Madge Networks, and produced by the Ethernet Interfaces and Hub MIB Working Group. It extended that document by providing support for 1000 Mb/sec MAUs, PAUSE negotiation and remote fault status as defined in [IEEE802.3] (IEEE, “IEEE Standard for 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,” December 2005.).
RFC 2239, in turn, was based on the Proposed Standard MAU MIB, RFC 1515 [RFC1515] (McMaster, D., McCloghrie, K., and S. Roberts, “Definitions of Managed Objects for IEEE 802.3 Medium Attachment Units (MAUs),” September 1993.), edited by Donna McMaster, then of SynOptics Communications, Keith McCloghrie, then of Hughes LAN Systems, and Sam Roberts, then of Farallon Computing, and produced by the Hub MIB Working Group. It extends that document by providing support for 100 Mb/sec MAUs, full duplex MAUs, auto-negotiation, and jack management as defined in [IEEE802.3] (IEEE, “IEEE Standard for 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,” December 2005.).
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Edward Beili | |
Actelis Networks | |
Bazel 25 | |
Petach-Tikva | |
Israel | |
Phone: | +972-3-924-3491 |
Email: | edward.beili@actelis.com |
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