IEEE 802.3.1 2011

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IEEE Standard for Management Information Base (MIB) Definitions for Ethernet

Published By	Publication Date	Number of Pages
IEEE	2011	474

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Description

New IEEE Standard – Active. The Management Information Base (MIB) module specifications for IEEE Std 802.3, also known as Ethernet, are contained in this standard. It includes the Structure of Management Information Version 2 (SMIv2) MIB module specifications formerly produced and published by the Internet Engineering Task Force (IETF), and the Guidelines for the Definition of Managed Objects (GDMO) MIB modules formerly specified within IEEE Std 802.3, as well as extensions resulting from amendments to IEEE Std 802.3. The SMIv2 MIB modules are intended for use with the Simple Network Management Protocol (SNMP), commonly used to manage Ethernet. This IEEE 802 standard is available at no cost, compliments of the IEEE 802 group. http://grouper.ieee.org/groups/802/3/

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std 802.3.1-2011 Front Cover
3	Title page
7	Introduction Notice to users Laws and regulations Copyrights Updating of IEEE documents
8	Errata Interpretations Patents
9	Participants
13	Contents
18	Important Notice 1. Overview
19	1.1 Scope 1.2 Purpose 1.3 Internet-Standard Management Framework 1.4 Security considerations
20	1.5 Conformance
22	2. Normative references
24	3. Definitions
26	4. Abbreviations
28	5. Ethernet logical link discovery protocol (LLDP) extension MIB module 5.1 Structure of the IEEE 802.3 LLDP extension MIB 5.2 Relationship to other MIBs
31	5.3 Security considerations for IEEE 802.3 LLDP extension MIB module
32	5.4 MIB module definition
48	6. Ethernet operations, administration, and maintenance (OAM) MIB module 6.1 Introduction 6.2 Overview 6.2.1 Remote fault indication 6.2.2 Link monitoring
49	6.2.3 Remote loopback 6.2.4 Ethernet OAM protocol data units 6.3 Relation to other MIB modules 6.3.1 Relation to other EFM MIB modules 6.3.2 Mapping of IEEE 802.3 managed objects
52	6.4 MIB structure 6.5 Security considerations for Ethernet operations, administration, and maintenance (OAM) MIB module
53	6.6 MIB module definition
90	7. Ethernet repeater device MIB module 7.1 Overview 7.1.1 Repeater management 7.1.2 Structure of the MIB 7.1.2.1 Basic definitions 7.1.2.2 Monitor definitions 7.1.2.3 Address tracking definitions 7.1.2.4 Top N definitions
91	7.1.3 Relationship to MIB-II 7.1.3.1 Relationship to the ‘system’ group 7.1.3.2 Relationship to the ‘interfaces’ group 7.2 Topology mapping 7.3 MIB module definition
136	8. Ethernet data terminal equipment (DTE) power via medium dependent interface (MDI) MIB module 8.1 Introduction 8.2 Overview 8.3 MIB structure 8.4 Security considerations for Ethernet data terminal equipment (DTE) power via medium dependent interface (MDI) MIB module.
137	8.5 MIB module definition
150	9. Ethernet passive optical networks (EPON) MIB module 9.1 Overview 9.1.1 EPON architecture highlights 9.1.1.1 Introduction
151	9.1.1.2 Principles of operation 9.1.1.3 Physical media
152	9.1.1.4 PMD specifications 9.1.1.5 Point-to-point emulation
153	9.1.1.6 Principles of the MPCP
156	9.1.1.7 Forward error correction (FEC) 9.1.2 Management architecture
157	9.2 MIB structure
161	9.3 Relationship to other MIB modules 9.3.1 Relation to the Interfaces Group MIB and Ethernet-like interface MIB
167	9.3.2 Relation to the IEEE 802.3 MAU MIBs 9.3.3 Relation to the Ethernet OAM MIB 9.3.4 Relation to the bridge MIB 9.4 Mapping of IEEE 802.3 managed objects
170	9.5 Security considerations for Ethernet passive optical networks (EPON) MIB module 9.5.1 dot3MpcpAdminState 9.5.2 dot3EponFecMode 9.5.3 dot3ExtPkgObjectReset 9.5.4 dot3ExtPkgObjectPowerDown 9.5.5 dot3ExtPkgObjectFecEnabled 9.5.6 dot3ExtPkgObjectRegisterAction 9.5.7 dot3ExtPkgObjectReportNumThreshold 9.5.8 dot3ExtPkgObjectReportThreshold
171	9.5.9 dot3ExtPkgOptIfLowerInputPowerThreshold 9.5.10 dot3ExtPkgOptIfUpperInputPowerThreshold 9.5.11 dot3ExtPkgOptIfLowerOutputPowerThreshold 9.5.12 dot3ExtPkgOptIfUpperOutputPowerThreshold 9.5.13 dot3ExtPkgOptIfTransmitEnable 9.6 Changing dot3ExtPkgOptIfTransmitEnable state can lead to a halt in the optical transmission of the respective interface, leading to an interruption of service for the users connected to the respective EPON interface.MIB module definition
214	10. Ethernet-like interface MIB module 10.1 Introduction 10.2 Overview 10.2.1 Relation to MIB-2 10.2.2 Relation to the Interfaces Group MIB 10.2.2.1 ifRcvAddressTable
215	10.2.2.2 ifType 10.2.2.3 ifXxxOctets 10.2.2.4 ifXxxXcastPkts
217	10.2.2.5 ifMtu 10.2.2.6 ifSpeed and ifHighSpeed
218	10.2.2.7 ifPhysAddress 10.2.2.8 Specific Interfaces Group MIB objects
220	10.2.3 Relation to the IEEE 802.3 MAU-MIB module 10.2.4 Mapping of IEEE 802.3 managed objects
222	10.3 Security considerations for Ethernet-like interface MIB module 10.4 MIB module definition
250	11. Ethernet in the First Mile copper (EFMCu) interfaces MIB module 11.1 Introduction 11.2 Relation to other MIB modules 11.2.1 Relation to Interfaces Group MIB module 11.2.1.1 Layering model
253	11.2.1.2 PME aggregation function (PAF) 11.2.1.3 Discovery operation
254	11.2.1.4 EFMCu ports initialization
255	11.2.1.5 Usage of ifTable
256	11.2.2 Relation to SHDSL MIB module 11.2.3 Relation to VDSL MIB module 11.2.4 Relation to Ethernet-Like and MAU MIB modules
257	11.3 MIB structure 11.3.1 EFM copper MIB overview 11.3.2 Interface stack capability MIB overview 11.3.3 PME profiles
258	11.3.4 Mapping of IEEE 802.3 managed objects
259	11.4 Security considerations for Ethernet in the First Mile copper interfaces MIB module
260	11.5 MIB module definition
316	12. Ethernet wide area network (WAN) interface sublayer (WIS) MIB module 12.1 Overview 12.1.1 Relationship to the SONET/SDH interface MIB 12.1.2 Relationship to the Ethernet-like interface MIB
317	12.1.3 Relationship to the IEEE 802.3 MAU MIB 12.1.4 Use of the ifTable 12.1.4.1 Layering model 12.1.4.2 Use of ifTable for LLC layer/MAC sublayer/reconciliation sublayer/physical coding sublayer 12.1.4.3 Use of ifTable for SONET/SDH path layer
318	12.1.4.4 Use of ifTable for SONET/SDH medium/section/line layer 12.1.5 SONET/SDH terminology 12.1.6 Mapping of IEEE 802.3 managed objects
322	12.1.7 Mapping of SNMP objects to WIS station management registers
325	12.1.8 Structure of the MIB module 12.1.8.1 etherWisDeviceTable
326	12.1.8.2 etherWisSectionCurrentTable 12.1.8.3 etherWisPathCurrentTable 12.1.8.4 etherWisFarEndPathCurrentTable 12.2 Security considerations for Ethernet wide area network (WAN) interface sublayer (WIS) MIB module
327	12.3 MIB module definition
338	Annex 12A (informative) Collection of performance data using WIS MDIO registers
340	13. Ethernet medium attachment units (MAUs) MIB module 13.1 Introduction 13.2 Overview 13.2.1 Relationship to IETF RFC 3636 and IETF RFC 4836 13.2.2 Relationship to other MIBs
341	13.2.2.1 Relationship to the Interfaces Group MIB 13.2.2.2 Relationship to the IEEE 802.3 repeater MIB module 13.2.3 Management of internal MAUs 13.2.4 Mapping of IEEE 802.3 managed objects
343	13.2.5 Addition of new MAU types 13.2.5.1 dot3MauType OBJECT-IDENTITIES 13.2.5.2 IANAifMauTypeListBits TEXTUAL-CONVENTION 13.2.5.3 IANAifMauMediaAvailable TEXTUAL-CONVENTION 13.2.5.4 IANAifMauAutoNegCapBits TEXTUAL-CONVENTION
344	13.2.5.5 JackType TEXTUAL-CONVENTION 13.3 Security considerations for Ethernet medium attachment units (MAUs) MIB module 13.4 IANA considerations 13.5 MIB module definition
372	Annex A (informative) Bibliography
376	Annex B (normative) GDMO specification of IEEE 802.3 managed object classes B.1 DTE MAC entity managed object class B.1.1 DTE MAC entity formal definition
379	B.1.2 DTE MAC entity attributes
388	B.1.3 DTE MAC entity actions
389	B.2 DTE physical entity managed object class B.2.1 DTE physical entity formal definition
390	B.2.2 DTE physical entity attributes
391	B.2.3 DTE physical entity actions
392	B.3 DTE MAC control entity managed object class B.3.1 DTE MAC control entity formal definition
393	B.3.2 DTE MAC Control entity attributes
394	B.4 DTE MAC Control function entity managed object class B.4.1 DTE MAC Control function entity formal definition
401	B.4.2 DTE MAC Control function entity attributes B.5 Repeater managed object class B.5.1 Repeater, formal definition
402	B.5.2 Repeater attributes
404	B.5.3 Repeater actions
405	B.5.4 Repeater notifications
406	B.6 Group managed object class B.6.1 Group, formal definition B.6.2 Group attributes
407	B.6.3 Group notifications B.7 Repeater port managed object class B.7.1 Port, formal definition
408	B.7.2 Port attributes
413	B.7.3 Port actions
414	B.8 MAU managed object class B.8.1 MAU, formal definition
415	B.8.2 MAU attributes
420	B.8.3 MAU actions
421	B.8.4 MAU notifications B.9 AutoNegotiation managed object class B.9.1 AutoNegotiation, formal definition
422	B.9.2 Auto-Negotiation attributes
424	B.9.3 AutoNegotiation actions
425	B.10 ResourceTypeID managed object class B.10.1 ResourceTypeID, formal definition
426	B.11 WIS managed object class B.11.1 WIS, formal definition
427	B.11.2 WIS attributes
433	B.12 PSE managed object class B.12.1 PSE, formal definition
434	B.12.2 PSE attributes
437	B.12.3 PSE actions B.13 Midspan managed object class
438	B.13.1 Midspan attributes
439	B.13.2 Midspan notifications B.14 PSE Group managed object class B.14.1 PSE Group attributes
440	B.14.2 PSE Group notifications B.15 OMP entity formal definition
441	B.15.1 OMP attributes
443	B.16 OAM entity managed object class B.16.1 OAM entity formal definition
444	B.16.2 OAM entity attributes
455	B.16.3 OAM actions B.17 PAF managed object class B.17.1 PAF formal definition
458	B.18 PME managed object class B.18.1 PME formal definition
462	Annex C (normative) GDMO and ASN.1 definitions for management C.1 Common attributes template C.2 ASN.1 module for CSMA/CD managed objects