This is a purely informative rendering of an RFC that includes verified errata. This rendering may not be used as a reference.

The following 'Verified' errata have been incorporated in this document: EID 796, EID 797, EID 801, EID 807, EID 808, EID 812, EID 813, EID 815, EID 838
Network Working Group                                           C. Sikes
Request for Comments: 4319                      Zhone Technologies, Inc.
Obsoletes: 3276                                                   B. Ray
Category: Standards Track                   PESA Switching Systems, Inc.
                                                                 R. Abbi
                                                             Alcatel USA
                                                           December 2005


                  Definitions of Managed Objects for
            High Bit-Rate DSL - 2nd generation (HDSL2) and
      Single-Pair High-Speed Digital Subscriber Line (SHDSL) Lines

Status of This Memo

   This document specifies an Internet standards track protocol for the
   Internet community, and requests discussion and suggestions for
   improvements.  Please refer to the current edition of the "Internet
   Official Protocol Standards" (STD 1) for the standardization state
   and status of this protocol.  Distribution of this memo is unlimited.

Copyright Notice

   Copyright (C) The Internet Society (2005).

Abstract

   This document defines a Management Information Base (MIB) module for
   use with network management protocols in the Internet community.  In
   particular, it describes objects used for managing High Bit-Rate
   Digital Subscriber Line (DSL) - 2nd generation (HDSL2) and
   Single-Pair High-Speed Digital Subscriber Line (SHDSL) interfaces.
   This document introduces extensions to several objects and textual
   conventions defined in HDSL2-SHDSL-Line MIB (RFC 3276).  This
   document obsoletes RFC 3276.

Table of Contents

   1. The Internet-Standard Management Framework ......................2
   2. Overview ........................................................2
      2.1. Relationship to Other MIBs .................................3
           2.1.1. General IF-MIB Integration (RFC 2863) ...............3
           2.1.2. Usage of ifTable ....................................3
      2.2. IANA Considerations ........................................4
      2.3. Conventions Used in the MIB Module .........................5
           2.3.1. Naming Conventions ..................................5
           2.3.2. Textual Conventions .................................5
      2.4. Structure ..................................................7
      2.5. Line Topology ..............................................9
      2.6. Counters, Interval Buckets, and Thresholds ................10
      2.7. Profiles ..................................................11
      2.8. Notifications .............................................12
   3. Definitions ....................................................14
   4. Implementation Analysis ........................................66
   5. Security Considerations ........................................66
   6. Acknowledgements ...............................................71
   7. References .....................................................72
      7.1. Normative References ......................................72
      7.2. Informative References ....................................73

1.  The Internet-Standard Management Framework

   For a detailed overview of the documents that describe the current
   Internet-Standard Management Framework, please refer to Section 7 of
   RFC 3410 [RFC3410].

   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], STD 58, RFC 2579 [RFC2579] and STD 58, RFC 2580
   [RFC2580].

   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].

2.  Overview

   This document defines a Management Information Base (MIB) module for
   use with network management protocols in the Internet community for
   the purpose of managing HDSL2/SHDSL lines.

   The MIB module described in RFC 3276 [RFC3276] describes objects used
   for managing High Bit-Rate DSL - 2nd generation (HDSL2) [T1E1.4] and
   Single-Pair High-Speed Digital Subscriber Line (SHDSL) interfaces
   [G.991.2].  These object descriptions are based upon the
   specifications for the HDSL2 and SHDSL Embedded Operations Channel
   (EOC), as defined in the American National Standards Institute (ANSI)
   T1E1.4/2000-006 [T1E1.4] and International Telecommunication Union
   (ITU) G.991.2 [G.991.2].

   This document obsoletes RFC 3276 [RFC3276], which supports G.shdsl in
   that the MIB module described herein supports G.shdsl.bis as
   described in the G.991.2 [G.991.2].  In addition, objects have been
   added to improve the management of SHDSL lines.

   The MIB module is located in the MIB tree under MIB 2 transmission,
   as discussed in the MIB-2 Integration (RFC 2863 [RFC2863]) section of
   this document.

2.1.  Relationship to Other MIBs

   This section outlines the relationship of this MIB module with other
   MIB modules described in RFCs.  Specifically, the IF-MIB, as
   presented in RFC 2863 [RFC2863], is discussed.

2.1.1.  General IF-MIB Integration (RFC 2863)

   The HDSL2/SHDSL line MIB specifies the detailed attributes of a data
   interface.  As such, it needs to integrate with RFC 2863 [RFC2863].
   The IANA has assigned the following ifTypes to HDSL2 and SHDSL:

      IANAifType ::= TEXTUAL-CONVENTION
          ...
      SYNTAX INTEGER {
          ...
          hdsl2 (168), -- High Bit-Rate DSL, 2nd generation
          shdsl (169), -- Multirate HDSL2
          ...
          }

   Note that the ifFixedLengthGroup from RFC 2863 [RFC2863] MUST be
   supported and that the ifRcvAddressGroup does not apply to this MIB
   module.

2.1.2.  Usage of ifTable

   The MIB branch identified by this ifType contains tables appropriate
   for this interface type.  Most such tables extend the ifEntry table
   and are indexed by ifIndex.  For interfaces in systems implementing

   this MIB module, those table entries indexed by ifIndex MUST be
   persistent.

   The following attributes are part of the mandatory
   ifGeneralInformationGroup in RFC 2863 [RFC2863] and are not
   duplicated in the HDSL2/SHDSL line MIB.

   ===================================================================

      ifIndex                  Interface index.

      ifDescr                  See interfaces MIB [RFC2863].

      ifType                   hdsl2(168) or shdsl(169).

      ifSpeed                  Set as appropriate.
                               (This is fixed at 1552000 for HDSL2
                               lines)

      ifPhysAddress            This object MUST have an octet string
                               with zero length.

      ifAdminStatus            See interfaces MIB [RFC2863].

      ifOperStatus             See interfaces MIB [RFC2863].

      ifLastChange             See interfaces MIB [RFC2863].

      ifName                   See interfaces MIB [RFC2863].

      ifAlias                  See interfaces MIB [RFC2863].

      ifLinkUpDownTrapEnable   Default to enabled(1).

      ifHighSpeed              Set as appropriate.
                               (For HDSL2 lines, this is fixed at 2)

      ifConnectorPresent       Set as appropriate.

   ===================================================================
                     Figure 1: Use of ifTable Objects

2.2.  IANA Considerations

   The HDSL2-SHDSL-LINE-MIB module requires the allocation of a single
   object identifier for its MODULE-IDENTITY.  The IANA has allocated
   this object identifier in the transmission subtree (48), defined in
   the SNMPv2-SMI MIB module.

   The assignment was in fact done when RFC 3276 was published, and this
   revision of the RFC does not require any new action from IANA.

2.3.  Conventions Used in the MIB Module

2.3.1.  Naming Conventions

   A.  xtuC refers to a central site terminal unit;
       H2TU-C for HDSL2, or STU-C for SHDSL.
   B.  xtuR refers to a remote site terminal unit;
       H2TU-R for HDSL2, or STU-R for SHDSL.
   C.  xtu refers to a terminal unit; either an xtuC or xtuR.
   D.  xru refer to a regenerator unit;
       H2RU for HDSL2, or SRU for SHDSL.
   E.  xU refers to any HDSL2/SHDSL unit; either an xtu or xru.
   F.  CRC is Cyclic Redundancy Check [G.991.2].
   G.  ES means Errored Second [G.991.2].
   J.  LOSW means Loss of Sync Word [G.991.2].
   I.  LOSWS means LOSW Seconds [G.991.2].
   J.  SES means Severely Errored Second [G.991.2].
   K.  SNR means Signal-to-Noise Ratio [G.991.2].
   L.  UAS means Unavailable Second [G.991.2].

2.3.2.  Textual Conventions

   The following textual conventions are defined to reflect the line
   topology in the MIB module (further discussed in the following
   section) and to define the behavior of the statistics to be
   maintained by an agent.

   o  Hdsl2ShdslUnitId:

      Attributes with this syntax uniquely identify each unit in an
      HDSL2/SHDSL span.  It mirrors the EOC addressing mechanism:

         xtuC(1)                - central office (CO) terminal unit
         xtuR(2)                - customer premises equipment (CPE)
                                  terminal unit
         xru1(3) .. xru8(10)    - regenerators, numbered from
                                  central office side

   o  Hdsl2ShdslUnitSide:

      Attributes with this syntax reference the two sides of a unit:

         networkSide(1)   - N in figure 2, below
         customerSide(2)  - C in figure 2, below

   o  Hdsl2ShdslWirePair:

      Attributes with this syntax reference the wire pairs connecting
      the units:

         wirePair1(1)   - First pair for HDSL2/SHDSL.
         wirePair2(2)   - Optional second pair for SHDSL only.
         wirePair3(3)   - Optional third pair for SHDSL.bis only.
         wirePair4(4)   - Optional fourth pair for SHDSL.bis only.

   o  Hdsl2ShdslTransmissionModeType:

      Attributes with this syntax specify the regional setting for an
      SHDSL line.  Specified as a BITS construct, the two mode types
      are:

         region1   - ITU-T G.991.2 Annex A
         region2   - ITU-T G.991.2 Annex B

   o  Hdsl2ShdslPerfCurrDayCount:

      Attributes with this syntax define the behavior of the 1-day (24
      hour) gauges found in the MIB module.

   o  Hdsl2Shdsl1DayIntervalCount:

      Attributes with this syntax define the behavior of the 1-day (24
      hour) interval counters found in the MIB module.

   o  Hdsl2ShdslPerfTimeElapsed:

      Attributes with this syntax define the behavior of the elapsed
      time counters found in the MIB module.

   o  Hdsl2ShdslPerfIntervalThreshold:

      Attributes with this syntax define the behavior of the alarm
      thresholds found in the MIB module.

   o  Hdsl2ShdslClockReferenceType:

      Attributes with this syntax define the clock references for the
      HDSL2/SHDSL span.

2.4.  Structure

   The MIB module is structured into the following MIB groups:

   o  Span Configuration Group:

      This group supports MIB objects for configuring parameters for the
      HDSL2/SHDSL span.  It contains the following table:

         - hdsl2ShdslSpanConfTable

   o  Span Status Group:

      This group supports MIB objects for retrieving span status
      information.  It contains the following table:

         - hdsl2ShdslSpanStatusTable

   o  Unit Inventory Group:

      This group supports MIB objects for retrieving unit inventory
      information about units in HDSL2/SHDSL lines via the EOC.  It
      contains the following table:

         - hdsl2ShdslInventoryTable

   o  Segment Endpoint Configuration Group:

      This group supports MIB objects for configuring parameters for the
      HDSL2/SHDSL segment endpoints.  It contains the following table:

         - hdsl2ShdslEndpointConfTable

   o  Segment Endpoint Current Status/Performance Group:

      This group supports MIB objects that provide the current status/
      performance information relating to segment endpoints.  It
      contains the following table:

         - hdsl2ShdslEndpointCurrTable

   o  Segment Endpoint 15-Minute Interval Status/Performance Group:

      This group supports MIB objects that provide historic status/
      performance information relating to segment endpoints in 15-minute
      intervals.  It contains the following table:

         - hdsl2Shdsl15MinIntervalTable

   o  Segment Endpoint 1-Day Interval Status/Performance Group:

      This group supports MIB objects that provide historic status/
      performance information relating to segment endpoints in 1-day
      intervals.  It contains the following table:

         - hdsl2Shdsl1DayIntervalTable

   o  Maintenance Group:

      This group supports MIB objects for performing maintenance
      operations such as loopbacks for HDSL2/SHDSL lines.  It contains
      the following table(s):

         - hdsl2ShdslEndpointMaintTable
         - hdsl2ShdslUnitMaintTable

   o  Span Configuration Profile Group:

      This group supports MIB objects for defining configuration
      profiles for HDSL2/SHDSL spans.  It contains the following table:

         - hdsl2ShdslSpanConfProfileTable

   o  Segment Endpoint Alarm Configuration Profile Group:

      This group supports MIB objects for defining alarm configuration
      profiles for HDSL2/SHDSL segment endpoints.  It contains the
      following table:

         - hdsl2ShdslEndpointAlarmConfProfileTable

   o  Notifications Group:

      This group defines the notifications supported for HDSL2/SHDSL
      lines:

            - hdsl2ShdslLoopAttenCrossing
            - hdsl2ShdslSNRMarginCrossing
            - hdsl2ShdslPerfESThresh
            - hdsl2ShdslPerfSESThresh
            - hdsl2ShdslPerfCRCanomaliesThresh
            - hdsl2ShdslPerfLOSWSThresh
            - hdsl2ShdslPerfUASThresh
            - hdsl2ShdslSpanInvalidNumRepeaters
            - hdsl2ShdslLoopbackFailure
            - hdsl2ShdslpowerBackoff
            - hdsl2ShdsldeviceFault

            - hdsl2ShdsldcContinuityFault
            - hdsl2ShdslconfigInitFailure
            - hdsl2ShdslprotocolInitFailure
            - hdsl2ShdslnoNeighborPresent
            - hdsl2ShdslLocalPowerLoss

   o  SHDSL Wire Pair Group:

      This group supports MIB objects that provide status of the SHDSL-
      specific wire pairs.

            - hdsl2ShdslEndpointCurrTipRingReversal
            - hdsl2ShdslEndpointCurrActivationState

   o  Payload Group:

      This group supports MIB objects for retrieving payload rates that
      exclude any framing overhead.

            - hdsl2ShdslStatusMaxAttainablePayloadRate
            - hdsl2ShdslStatusActualPayloadRate

2.5.  Line Topology

   An HDSL2/SHDSL line consists of a minimum of two units: xtuC (the
   central termination unit) and an xtuR (the remote termination unit).
   The line may optionally support up to 8 repeater/regenerator units
   (xru) as shown in the figure below.

       <-- Network Side                            Customer Side -->

       |</////////////////// HDSL2/SHDSL Span ////////////////////>|

               <~~~>       <~~~> HDSL2/SHDSL Segments  <~~~>

       +-------+   +-------+   +-------+       +-------+   +-------+
       +       C=1=N       C=1=N       C=..1..=N       C=1=N       +
       | xtuC  |   |  xru1 |   |  xru2 |       |  xru8 |   |  xtuR |
       +       C=2=N       C=2=N       C=..2..=N       C=2=N       +
       +-------+   +-------+   +-------+       +-------+   +-------+

       Key:  <////> HDSL2/SHDSL span
             <~~~~> HDSL2/SHDSL segment
             =1=    HDSL2/SHDSL wire-pair-1
                    =2=    SHDSL optional wire-pair-2 (Not applicable to HDSL2) 
                  and SHDSL.bis optional wire-pair-3 and wire-pair-4
                  (not applicable to HDSL2 and 'classic' SHDSL)

EID 796 (Verified) is as follows:

Section: 2.5

Original Text:

       =2=    SHDSL optional wire-pair-2 (Not applicable to HDSL2)

Corrected Text:

       =2=    SHDSL optional wire-pair-2 (Not applicable to HDSL2)
                  and SHDSL.bis optional wire-pair-3 and wire-pair-4
                  (not applicable to HDSL2 and 'classic' SHDSL)
Notes:
from pending
C Customer side segment endpoint (modem) N Network side segment endpoint (modem) Figure 2: General Topology for an HDSL2/SHDSL Line 2.6. Counters, Interval Buckets, and Thresholds For SNR Margin, Loop Attenuation, ES, SES, CRC anomalies, LOSW, and UAS, there are event counters, current 15-minute and 0 to 96 15- minute history bucket(s) of "interval-counters", as well as current and 0 to 30 previous 1-day interval-counter(s). Each current 15- minute event bucket has an associated threshold notification. Unlike RFC 3593 [RFC3593] and RFC 2662 [RFC2662], there is no representation in the MIB module for invalid buckets. In those cases where the data for an interval is suspect or known to be invalid, the agent MUST NOT report the interval. If the current 15-minute event bucket is determined to be invalid, notifications based upon the value of the event bucket MUST NOT be generated. Not reporting an interval will result in holes in the associated table. For example, the table hdsl2Shdsl15MinIntervalTable is indexed by { ifIndex, hdsl2ShdslInvIndex, hdsl2ShdslEndpointSide, hdsl2ShdslEndpointWirePair, hdsl2Shdsl15MinIntervalNumber}. If interval 12 is determined to be invalid but intervals 11 and 13 are valid, a Get Next operation on the indices .1.1.1.1.11 would return indices .1.1.1.1.13. There is no requirement for an agent to ensure a fixed relationship between the start of a 15-minute interval and any wall clock; however, some implementations may align the 15-minute intervals with quarter hours. Likewise, an implementation may choose to align 1-day intervals with the start of a day. Counters are not reset when an xU is reinitialized, only when the agent is reset or reinitialized (or under specific request outside the scope of this MIB module). 2.7. Profiles As a managed node can handle a large number of xUs (e.g., hundreds or perhaps thousands of lines), provisioning every parameter on every xU may become burdensome. Moreover, most lines are provisioned identically with the same set of parameters. To simplify the provisioning process, this MIB module makes use of profiles. A profile is a set of parameters that can be shared by multiple lines using the same configuration. The following profiles are used in this MIB module: o Span Configuration Profiles - Span configuration profiles contain parameters for configuring HDSL2/SHDSL spans. They are defined in the hdsl2ShdslSpanConfProfileTable. Since span configuration parameters are only applicable for SHDSL, the support for span configuration profiles is optional for HDSL2 interfaces. Note that the configuration of the span dictates the behavior for each individual segment endpoint in the span. If a different configuration is provisioned for any given segment endpoint within the span, the new configuration for this segment endpoint will override the span configuration for this segment endpoint only. o Segment Endpoint Alarm Configuration Profiles - These profiles contain parameters for configuring alarm thresholds for HDSL2/ SHDSL segment endpoints. These profiles are defined in the hdsl2ShdslEndpointAlarmConfProfileTable. The index value for these profiles is a locally-unique
EID 797 (Verified) is as follows:

Section: 2.7

Original Text:

SHDSL segment endpoints.  These profiles are defined in the
hdsl2ShdslEndpointAlarmConfProfileTable.

The index value for this profile is a locally-unique ...

Corrected Text:

SHDSL segment endpoints.  These profiles are defined in the
hdsl2ShdslEndpointAlarmConfProfileTable.

The index value for these profiles is a locally-unique ...
Notes:
from pending
administratively-assigned name for the profile having the textual convention 'SnmpAdminString' (RFC 3411 [RFC3411]). One or more lines may be configured to share parameters of a single profile (e.g., hdsl2ShdslEndpointAlarmConfProfile = 'silver') by setting its hdsl2ShdslEndpointAlarmConfProfile objects to the value of this profile. If a change is made to the profile, all lines that refer to it will be reconfigured to the changed parameters. Before a profile can be deleted or taken out of service, it must be first unreferenced from all associated lines. Implementations MUST provide a default profile whose name is 'DEFVAL' for each profile type. The values of the associated parameters will be vendor specific unless otherwise indicated in this document. Before a line's profiles have been set, these profiles will be automatically used by setting hdsl2ShdslEndpointAlarmConfProfile and hdsl2ShdslSpanConfProfile to 'DEFVAL' where appropriate. This default profile name, 'DEFVAL', is considered reserved in the context of profiles defined in this MIB module. Profiles are created, assigned, and deleted dynamically using the profile name and profile row status in each of the four profile tables. Profile changes MUST take effect immediately. These changes MAY result in a restart (hard reset or soft restart) of the units on the line. 2.8. Notifications The ability to generate the SNMP notifications coldStart/warmStart (per [RFC3418]), which are per agent (e.g., per Digital Subscriber Line Access Multiplexer, or DSLAM, in such a device), and linkUp/ linkDown (per [RFC2863]), which are per interface (i.e., HDSL2/SHDSL line) is required. A linkDown notification MAY be generated whenever any ES, SES, CRC anomaly, LOSW, or UAS event occurs. The corresponding linkUp notification MAY be sent when all link failure conditions are cleared. The notifications defined in this MIB module are for initialization failure and for the threshold crossings associated with the following events: ES, SES, CRC anomaly, LOSW, and UAS. Each threshold has its own enable/threshold value. When that value is 0, the notification is disabled. The hdsl2ShdslEndpointCurrStatus is a bitmask representing all outstanding error conditions associated with a particular segment endpoint. Note that since the status of remote endpoints is obtained via the EOC, this information may be unavailable for units that are unreachable via EOC during a line error condition. Therefore, not all conditions may always be included in its current status. Notifications corresponding to the bit fields in this object are defined. Two alarm conditions, SNR Margin Alarm and Loop Attenuation Alarm, are organized in a manner slightly different from that implied in the EOC specifications. In the MIB module, these alarm conditions are tied to the two thresholds, hdsl2ShdslEndpointThreshSNRMargin and hdsl2ShdslEndpointThreshLoopAttenuation, found in the hdsl2ShdslEndpointAlarmConfProfileTable. In the EOC, the alarm conditions associated with these thresholds are per unit. In the MIB module, these alarm conditions are per endpoint. For terminal units, this has no impact. For repeaters, this implies an implementation variance where the agent in the terminal unit is responsible for detecting a threshold crossing. As the reporting of a repeater detected alarm condition to the polling terminal unit occurs in the same EOC message as the reporting of the current SNR Margin and Loop Attenuation values, it is anticipated that this will have very little impact on agent implementation. A threshold notification occurs whenever the corresponding current 15-minute interval error counter becomes equal to, or exceeds, the threshold value. Only one notification SHOULD be sent per interval per interface. Since the current 15-minute counter is reset to 0 every 15 minutes, and if the condition persists, the notification may recur as often as every 15 minutes. For example, to get a notification whenever a "loss of" event occurs (but at most once every 15 minutes), set the corresponding threshold to 1. The agent will generate a notification when the event originally occurs. Notifications, other than the threshold notifications listed above, SHOULD be rate limited (throttled) such that there is at least a 1-minute gap between the generation of consecutive notifications of the same event. When notifications are rate limited, they are dropped and not queued for sending at a future time. This is intended to be a general rate-limiting statement for notifications that have no explicit rate-limiting assertions in this document otherwise. Note that the Network Management System, or NMS, may receive a linkDown notification as well, if enabled (via ifLinkUpDownTrapEnable [RFC2863]). At the beginning of the next 15-minute interval, the counter is reset. When the first second goes by and the event occurs, the current interval bucket will be 1, which equals the threshold, and the notification will be sent again. An hdsl2ShdslSpanInvalidNumRepeaters notification may be generated following completion of the discovery phase if the number of repeaters discovered on the line differs from the number of repeaters specified in hdsl2ShdslSpanConfNumRepeaters. For those conditions where the number of provisioned repeaters is greater than those encountered during span discovery, all table entries associated with the nonexistent repeaters are to be discarded. For those conditions where the number of provisioned repeaters is less than those encountered during span discovery, additional table entries are to be created using the default span configuration profile. 3. Definitions
EID 807 (Verified) is as follows:

Section: 3

Original Text:

[[Page 16, Hdsl2ShdslPerfCurrDayCount, second paragraph in the description]]

       Hdsl2Shdsl1DayIntevalCount, and the current interval gauge

Corrected Text:

       Hdsl2Shdsl1DayIntervalCount, and the current interval gauge
Notes:
from pending
EID 808 (Verified) is as follows:

Section: 3

Original Text:

[[Page 17, Hdsl2ShdslPerfIntervalThreshold , description]]

       a 15-minute interval numbers at most 900, objects of this

Corrected Text:

       a 15-minute interval numbers is at most 900, objects of this
Notes:
from pending
EID 812 (Verified) is as follows:

Section: 3

Original Text:

[[Page 18, Hdsl2ShdslWirePair , description]]

       wire), and G.shdsl.bis support an optional third pair

Corrected Text:

       wire), and G.shdsl.bis lines support an optional third pair
Notes:
from pending
EID 813 (Verified) is as follows:

Section: 3

Original Text:

[[Page 45, hdsl2ShdslSpanConfMinLineRate, description]]

       If the minimum line rate equals the maximum line rate
       (hdsl2ShdslSpanMaxLineRate), the line rate is considered
       'fixed'.

Corrected Text:

       If the minimum line rate equals the maximum line rate
       (hdsl2ShdslSpanConfMaxLineRate), the line rate is considered
       'fixed'.
Notes:
from pending
EID 815 (Verified) is as follows:

Section: 3

Original Text:

[[Page 46, hdsl2ShdslSpanConfMaxLineRate, description]]

       If the minimum line rate equals the maximum line rate
        (hdsl2ShdslSpanMaxLineRate), the line rate is considered
        'fixed'.

Corrected Text:

       If the minimum line rate (hdsl2ShdslSpanConfMinLineRate) equals
        the maximum line rate, the line rate is considered
        'fixed'.
Notes:
from pending
HDSL2-SHDSL-LINE-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, Counter32, Unsigned32, Gauge32, NOTIFICATION-TYPE, Integer32, transmission FROM SNMPv2-SMI RowStatus, TEXTUAL-CONVENTION FROM SNMPv2-TC ifIndex FROM IF-MIB PerfCurrentCount, PerfIntervalCount FROM PerfHist-TC-MIB SnmpAdminString FROM SNMP-FRAMEWORK-MIB MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUP FROM SNMPv2-CONF; hdsl2ShdslMIB MODULE-IDENTITY LAST-UPDATED "200512070000Z" -- December 7, 2005 ORGANIZATION "ADSLMIB Working Group" CONTACT-INFO "WG-email: adslmib@ietf.org WG-URL: http://www.ietf.org/html.charters/adslmib-charter.html Info: https://www1.ietf.org/mailman/listinfo/adslmib Chair: Mike Sneed Sand Channel Systems Postal: 1210-203 Westview Ln Raleigh NC 27605 USA Email: sneedmike@hotmail.com Phone: +1 206 600 7022 Co-Chair Bob Ray PESA Switching Systems, Inc. Postal 330-A Wynn Drive Huntsville, AL 35805 USA Phone +1 256 726 9200 ext. 142 Co-editor: Clay Sikes Zhone Technologies, Inc. Postal: 8545 126th Ave. N. Largo, FL 33772 USA Email: csikes@zhone.com Phone: +1 727 530 8257 Co-editor: Bob Ray PESA Switching Systems, Inc. Postal: 330-A Wynn Drive Huntsville, AL 35805 USA Email: rray@pesa.com Phone: +1 256 726 9200 ext. 142 Co-editor: Rajesh Abbi Alcatel USA Postal: 2301 Sugar Bush Road Raleigh, NC 27612-3339 USA Email: Rajesh.Abbi@alcatel.com Phone: +1 919 850 6194" DESCRIPTION "This MIB module defines a collection of objects for managing HDSL2/SHDSL lines. An agent may reside at either end of the line; however, the MIB module is designed to require no management communication between the modems beyond that inherent in the low-level EOC line protocol as defined in ANSI T1E1.4/2000-006 (for HDSL2 lines) or in ITU G.991.2 (for SHDSL lines). Copyright (C) The Internet Society (2005). This version of this MIB module is part of RFC 4319; see the RFC itself for full legal notices." REVISION "200512070000Z" -- December 7, 2005 DESCRIPTION "This version, published as RFC 4319. The following changes have been made in this version: 1. Added a 3rd and 4th wire pair. 2. Modified all rates such that they are only
EID 801 (Verified) is as follows:

Section: 3

Original Text:

2.  Modified all rates such that their rates are only

Corrected Text:

2.  Modified all rates such that they are only
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constrained by an unsigned 32-bit value and not by what today's perceived technology limitations are. 3. Clarified that the rates from RFC 3276 include payload and any applicable framing and added objects for payload-only rates. 4. Added an object to indicate whether the tip and ring are reversed on a wire pair. 5. Added an object to display the activation state of a wire pair. 6. Added references as necessary for clarification. 7. Added display hints to textual conventions as necessary. 8. Updated conformance statements as necessary. 9. Some changes were due to IETF requirements and RFC generation tools." REVISION "200205090000Z" -- May 9, 2002 DESCRIPTION "Initial version, published as RFC 3276." ::= { transmission 48 } hdsl2ShdslMibObjects OBJECT IDENTIFIER ::= { hdsl2ShdslMIB 1 } -- Textual Conventions used in this MIB module -- Hdsl2ShdslPerfCurrDayCount ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current DESCRIPTION "A gauge associated with interface performance measurements in a current 1-day (24 hour) measurement interval. The value of this gauge starts at zero at the beginning of an interval and is increased when associated events occur, until the end of the 1-day interval. At that time, the value of the gauge is stored in the previous 1-day history interval, as defined in a companion object of type Hdsl2Shdsl1DayIntevalCount, and the current interval gauge is restarted at zero. In the case where the agent has no valid data available for this interval, the corresponding object instance is not available, and upon a retrieval request, a corresponding error message shall be returned to indicate that this instance does not exist. Please note that zero is a valid value." SYNTAX Gauge32 Hdsl2Shdsl1DayIntervalCount ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current DESCRIPTION "A counter associated with interface performance measurements during the most previous 1-day (24 hour) measurement interval. The value of this gauge is equal to the value of the current day gauge, as defined in a companion object of type Hdsl2ShdslPerfCurrDayCount, at the end of its most recent interval. In the case where the agent has no valid data available for this interval, the corresponding object instance is not available, and upon a retrieval request, a corresponding error message shall be returned to indicate that this instance does not exist." SYNTAX Gauge32 Hdsl2ShdslPerfTimeElapsed ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current DESCRIPTION "The number of seconds that have elapsed since the beginning of the current measurement period. If, for some reason, such as an adjustment in the system's time-of-day clock or the addition of a leap second, the current interval exceeds the maximum value, the agent will return the maximum value. For 15-minute intervals, the range is limited to (0..899). For 24-hour intervals, the range is limited to (0..86399)." SYNTAX Unsigned32(0..86399) Hdsl2ShdslPerfIntervalThreshold ::= TEXTUAL-CONVENTION DISPLAY-HINT "d" STATUS current DESCRIPTION "This convention defines a range of values that may be set in a fault threshold alarm control. As the number of seconds in a 15-minute interval numbers at most 900, objects of this type may have a range of 0...900, where the value of 0 disables the alarm." SYNTAX Unsigned32(0..900) Hdsl2ShdslUnitId ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This is the unique identification for all units in an HDSL2/SHDSL span. It is based on the EOC unit addressing scheme with reference to the xtuC." SYNTAX INTEGER { xtuC(1), xtuR(2), xru1(3), xru2(4), xru3(5), xru4(6), xru5(7), xru6(8), xru7(9), xru8(10) } Hdsl2ShdslUnitSide ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This is the referenced side of an HDSL2/SHDSL unit - Network or Customer side. The side facing the Network is the Network side, while the side facing the Customer is the Customer side." SYNTAX INTEGER { networkSide(1), customerSide(2) } Hdsl2ShdslWirePair ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "This is the referenced pair of wires in an HDSL2/SHDSL segment. HDSL2 only supports a single pair (wirePair1 or two wire), SHDSL lines support an optional second pair (wirePair2 or four wire), and G.shdsl.bis support an optional third pair (wirePair3 or six wire) and an optional fourth pair (wirePair4 or eight wire)." SYNTAX INTEGER { wirePair1(1), -- two wire wirePair2(2), -- four wire wirePair3(3), -- six wire wirePair4(4) -- eight wire } Hdsl2ShdslTransmissionModeType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "Contains the regional setting of the HDSL2/SHDSL span, represented as a bit-map of possible settings. The various bit positions are as follows: Bit Meaning Description 1 region 1 Indicates ITU-T G.991.2 Annex A. 2 region 2 Indicates ITU-T G.991.2 Annex B." SYNTAX BITS { region1(0), region2(1) } Hdsl2ShdslClockReferenceType ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The various STU-C symbol clock references for the HDSL2/SHDSL span, represented as an enumeration." SYNTAX INTEGER { localClk(1), -- Mode-1 per G991.2 networkClk(2), -- Mode-2 per G991.2 dataOrNetworkClk(3), -- Mode-3a per G991.2 dataClk(4) -- Mode-3b per G991.2 } -- Span Configuration Group -- hdsl2ShdslSpanConfTable OBJECT-TYPE SYNTAX SEQUENCE OF Hdsl2ShdslSpanConfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table supports overall configuration of HDSL2/SHDSL spans. Entries in this table MUST be maintained in a persistent manner." ::= { hdsl2ShdslMibObjects 1 } hdsl2ShdslSpanConfEntry OBJECT-TYPE SYNTAX Hdsl2ShdslSpanConfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the hdsl2ShdslSpanConfTable. Each entry represents the complete span in a single HDSL2/SHDSL line. It is indexed by the ifIndex of the associated HDSL2/SHDSL line." INDEX { ifIndex } ::= { hdsl2ShdslSpanConfTable 1 } Hdsl2ShdslSpanConfEntry ::= SEQUENCE { hdsl2ShdslSpanConfNumRepeaters Unsigned32, hdsl2ShdslSpanConfProfile SnmpAdminString, hdsl2ShdslSpanConfAlarmProfile SnmpAdminString } hdsl2ShdslSpanConfNumRepeaters OBJECT-TYPE SYNTAX Unsigned32(0..8) UNITS "repeaters" MAX-ACCESS read-write STATUS current DESCRIPTION "This object provisions the number of repeaters/regenerators in this HDSL2/SHDSL span." ::= { hdsl2ShdslSpanConfEntry 1 } hdsl2ShdslSpanConfProfile OBJECT-TYPE SYNTAX SnmpAdminString (SIZE(1..32)) MAX-ACCESS read-write STATUS current DESCRIPTION "This object is a pointer to a span configuration profile in the hdsl2ShdslSpanConfProfileTable, which applies to this span. The value of this object is the index of the referenced profile in the hdsl2ShdslSpanConfProfileTable. Note that span configuration profiles are only applicable to SHDSL lines. HDSL2 lines MUST reference the default profile, 'DEFVAL'. By default, this object will have the value 'DEFVAL' (the index of the default profile). Any attempt to set this object to a value that is not the value of the index for an active entry in the profile table, hdsl2ShdslSpanConfProfileTable, MUST be rejected." ::= { hdsl2ShdslSpanConfEntry 2 } hdsl2ShdslSpanConfAlarmProfile OBJECT-TYPE SYNTAX SnmpAdminString (SIZE(1..32)) MAX-ACCESS read-write STATUS current DESCRIPTION "This object is a pointer to an alarm configuration profile in the hdsl2ShdslEndpointAlarmConfProfileTable. The value of this object is the index of the referenced profile in the hdsl2ShdslEndpointAlarmConfProfileTable. The alarm threshold configuration in the referenced profile will be used by default for all segment endpoints in this span. Individual endpoints may override this profile by explicitly specifying some other profile in the hdsl2ShdslEndpointConfTable. By default, this object will have the value 'DEFVAL' (the index of the default profile). Any attempt to set this object to a value that is not the value of the index for an active entry in the profile table, hdsl2ShdslEndpointAlarmConfProfileTable, MUST be rejected." ::= { hdsl2ShdslSpanConfEntry 3 } -- Span Status Group -- hdsl2ShdslSpanStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF Hdsl2ShdslSpanStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table provides overall status information of HDSL2/SHDSL spans. This table contains live data from equipment. As such, it is NOT persistent." ::= { hdsl2ShdslMibObjects 2 } hdsl2ShdslSpanStatusEntry OBJECT-TYPE SYNTAX Hdsl2ShdslSpanStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the hdsl2ShdslSpanStatusTable. Each entry represents the complete span in a single HDSL2/SHDSL line. It is indexed by the ifIndex of the associated HDSL2/SHDSL line." INDEX { ifIndex } ::= { hdsl2ShdslSpanStatusTable 1 } Hdsl2ShdslSpanStatusEntry ::= SEQUENCE { hdsl2ShdslStatusNumAvailRepeaters Unsigned32, hdsl2ShdslStatusMaxAttainableLineRate Unsigned32, hdsl2ShdslStatusActualLineRate Unsigned32, hdsl2ShdslStatusTransmissionModeCurrent Hdsl2ShdslTransmissionModeType, hdsl2ShdslStatusMaxAttainablePayloadRate Unsigned32, hdsl2ShdslStatusActualPayloadRate Unsigned32 } hdsl2ShdslStatusNumAvailRepeaters OBJECT-TYPE SYNTAX Unsigned32(0..8) MAX-ACCESS read-only STATUS current DESCRIPTION "Contains the actual number of repeaters/regenerators discovered in this HDSL2/SHDSL span." ::= { hdsl2ShdslSpanStatusEntry 1 } hdsl2ShdslStatusMaxAttainableLineRate OBJECT-TYPE SYNTAX Unsigned32(0..4294967295) UNITS "bps" MAX-ACCESS read-only STATUS current DESCRIPTION "Contains the maximum attainable line rate in this HDSL2/SHDSL span. This object provides the maximum rate the line is capable of achieving. This is based upon measurements made during line probing. This rate includes payload (user data) and any applicable framing overhead." ::= { hdsl2ShdslSpanStatusEntry 2 } hdsl2ShdslStatusActualLineRate OBJECT-TYPE SYNTAX Unsigned32(0..4294967295) UNITS "bps" MAX-ACCESS read-only STATUS current DESCRIPTION "Contains the actual line rate in this HDSL2/SHDSL span. This SHOULD equal ifSpeed. This rate includes payload (user data) and any applicable framing overhead" ::= { hdsl2ShdslSpanStatusEntry 3 } hdsl2ShdslStatusTransmissionModeCurrent OBJECT-TYPE SYNTAX Hdsl2ShdslTransmissionModeType MAX-ACCESS read-only STATUS current DESCRIPTION "Contains the current Power Spectral Density (PSD) regional setting of the HDSL2/SHDSL span." ::= { hdsl2ShdslSpanStatusEntry 4 } hdsl2ShdslStatusMaxAttainablePayloadRate OBJECT-TYPE SYNTAX Unsigned32(0..4294967295) UNITS "bps" MAX-ACCESS read-only STATUS current DESCRIPTION "Contains the maximum attainable payload (user data) line rate in this HDSL2/SHDSL span. This object provides the maximum rate the line is capable of achieving. This is based upon measurements made during line probing. Any framing overhead is not included." ::= { hdsl2ShdslSpanStatusEntry 5 } hdsl2ShdslStatusActualPayloadRate OBJECT-TYPE SYNTAX Unsigned32(0..4294967295) UNITS "bps" MAX-ACCESS read-only STATUS current DESCRIPTION "Contains the actual line rate in this HDSL2/SHDSL span. Any framing overhead is not included." ::= { hdsl2ShdslSpanStatusEntry 6 } -- Unit Inventory Group -- hdsl2ShdslInventoryTable OBJECT-TYPE SYNTAX SEQUENCE OF Hdsl2ShdslInventoryEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table supports retrieval of unit inventory information available via the EOC from units in an HDSL2/SHDSL line. Entries in this table are dynamically created during the line discovery process. The life cycle for these entries is as follows: - xtu discovers a device, either a far-end xtu or an xru - an inventory table entry is created for the device - the line goes down for whatever reason - inventory table entries for unreachable devices are destroyed As these entries are created/destroyed dynamically, they are NOT persistent." ::= { hdsl2ShdslMibObjects 3 } hdsl2ShdslInventoryEntry OBJECT-TYPE SYNTAX Hdsl2ShdslInventoryEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the hdsl2ShdslInventoryTable. Each entry represents inventory information for a single unit in an HDSL2/SHDSL line. It is indexed by the ifIndex of the HDSL2/SHDSL line and the Hdsl2ShdslUnitId of the associated unit." INDEX { ifIndex, hdsl2ShdslInvIndex } ::= { hdsl2ShdslInventoryTable 1 } Hdsl2ShdslInventoryEntry ::= SEQUENCE { hdsl2ShdslInvIndex Hdsl2ShdslUnitId, hdsl2ShdslInvVendorID OCTET STRING, hdsl2ShdslInvVendorModelNumber OCTET STRING, hdsl2ShdslInvVendorSerialNumber OCTET STRING, hdsl2ShdslInvVendorEOCSoftwareVersion Integer32, hdsl2ShdslInvStandardVersion Integer32, hdsl2ShdslInvVendorListNumber OCTET STRING, hdsl2ShdslInvVendorIssueNumber OCTET STRING, hdsl2ShdslInvVendorSoftwareVersion OCTET STRING, hdsl2ShdslInvEquipmentCode OCTET STRING, hdsl2ShdslInvVendorOther OCTET STRING, hdsl2ShdslInvTransmissionModeCapability Hdsl2ShdslTransmissionModeType } hdsl2ShdslInvIndex OBJECT-TYPE SYNTAX Hdsl2ShdslUnitId MAX-ACCESS not-accessible STATUS current DESCRIPTION "Each entry in this table corresponds to a physical element in an HDSL2/SHDSL span. It is based on the EOC unit addressing scheme with reference to the xtuC." ::= { hdsl2ShdslInventoryEntry 1 } hdsl2ShdslInvVendorID OBJECT-TYPE SYNTAX OCTET STRING(SIZE(8)) MAX-ACCESS read-only STATUS current DESCRIPTION "Vendor ID as reported in an Inventory Response message." REFERENCE "G.991.2, Section 9.5.5.7.4, Inventory response - Message ID 130, Octets 25-32." ::= { hdsl2ShdslInventoryEntry 2 } hdsl2ShdslInvVendorModelNumber OBJECT-TYPE SYNTAX OCTET STRING(SIZE(12)) MAX-ACCESS read-only STATUS current DESCRIPTION "Vendor model number as reported in an Inventory Response message." REFERENCE "G.991.2, Section 9.5.5.7.4, Inventory response - Message ID 130, Octets 33-44." ::= { hdsl2ShdslInventoryEntry 3 } hdsl2ShdslInvVendorSerialNumber OBJECT-TYPE SYNTAX OCTET STRING(SIZE(12)) MAX-ACCESS read-only STATUS current DESCRIPTION "Vendor serial number as reported in an Inventory Response message." REFERENCE "G.991.2, Section 9.5.5.7.4, Inventory response - Message ID 130, Octets 45-56." ::= { hdsl2ShdslInventoryEntry 4 } hdsl2ShdslInvVendorEOCSoftwareVersion OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Vendor EOC version as reported in a Discovery Response message." REFERENCE "G.991.2, Section 9.5.5.7.2, Discovery response - Message ID 129, Octet 12." ::= { hdsl2ShdslInventoryEntry 5 } hdsl2ShdslInvStandardVersion OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Version of the HDSL2/SHDSL standard implemented, as reported in an Inventory Response message." REFERENCE "G.991.2, Section 9.5.5.7.4, Inventory response - Message ID 130, Octet 2." ::= { hdsl2ShdslInventoryEntry 6 } hdsl2ShdslInvVendorListNumber OBJECT-TYPE SYNTAX OCTET STRING(SIZE(3)) MAX-ACCESS read-only STATUS current DESCRIPTION "Vendor list number as reported in an Inventory Response message." REFERENCE "G.991.2, Section 9.5.5.7.4, Inventory response - Message ID 130, Octets 3-5." ::= { hdsl2ShdslInventoryEntry 7 } hdsl2ShdslInvVendorIssueNumber OBJECT-TYPE SYNTAX OCTET STRING(SIZE(2)) MAX-ACCESS read-only STATUS current DESCRIPTION "Vendor issue number as reported in an Inventory Response message." REFERENCE "G.991.2, Section 9.5.5.7.4, Inventory response - Message ID 130, Octets 6-7." ::= { hdsl2ShdslInventoryEntry 8 } hdsl2ShdslInvVendorSoftwareVersion OBJECT-TYPE SYNTAX OCTET STRING(SIZE(6)) MAX-ACCESS read-only STATUS current DESCRIPTION "Vendor software version as reported in an Inventory Response message." REFERENCE "G.991.2, Section 9.5.5.7.4, Inventory response - Message ID 130, Octets 8-13." ::= { hdsl2ShdslInventoryEntry 9 } hdsl2ShdslInvEquipmentCode OBJECT-TYPE SYNTAX OCTET STRING(SIZE(10)) MAX-ACCESS read-only STATUS current DESCRIPTION "Equipment code conforming to ANSI T1.213, Coded Identification of Equipment Entities." REFERENCE "G.991.2, Section 9.5.5.7.4, Inventory response - Message ID 130, Octets 14-23." ::= { hdsl2ShdslInventoryEntry 10 } hdsl2ShdslInvVendorOther OBJECT-TYPE SYNTAX OCTET STRING(SIZE(12)) MAX-ACCESS read-only STATUS current DESCRIPTION "Other vendor information as reported in an Inventory Response message." REFERENCE "G.991.2, Section 9.5.5.7.4, Inventory response - Message ID 130, Octets 57-68." ::= { hdsl2ShdslInventoryEntry 11 } hdsl2ShdslInvTransmissionModeCapability OBJECT-TYPE SYNTAX Hdsl2ShdslTransmissionModeType MAX-ACCESS read-only STATUS current DESCRIPTION "Contains the transmission mode capability of the SHDSL unit." ::= { hdsl2ShdslInventoryEntry 12 } -- Segment Endpoint Configuration Group -- hdsl2ShdslEndpointConfTable OBJECT-TYPE SYNTAX SEQUENCE OF Hdsl2ShdslEndpointConfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table supports configuration parameters for segment endpoints in an HDSL2/SHDSL line. As this table is indexed by ifIndex, it MUST be maintained in a persistent manner." ::= { hdsl2ShdslMibObjects 4 } hdsl2ShdslEndpointConfEntry OBJECT-TYPE SYNTAX Hdsl2ShdslEndpointConfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the hdsl2ShdslEndpointConfTable. Each entry represents a single segment endpoint in an HDSL2/SHDSL line. It is indexed by the ifIndex of the HDSL2/SHDSL line, the UnitId of the associated unit, the side of the unit, and the wire pair of the associated modem." INDEX { ifIndex, hdsl2ShdslInvIndex, hdsl2ShdslEndpointSide, hdsl2ShdslEndpointWirePair} ::= { hdsl2ShdslEndpointConfTable 1 } Hdsl2ShdslEndpointConfEntry ::= SEQUENCE { hdsl2ShdslEndpointSide Hdsl2ShdslUnitSide, hdsl2ShdslEndpointWirePair Hdsl2ShdslWirePair, hdsl2ShdslEndpointAlarmConfProfile SnmpAdminString } hdsl2ShdslEndpointSide OBJECT-TYPE SYNTAX Hdsl2ShdslUnitSide MAX-ACCESS not-accessible STATUS current DESCRIPTION "The side of the unit associated with this segment endpoint -- Network/Customer side -- as per the Hdsl2ShdslUnitSide textual convention." ::= { hdsl2ShdslEndpointConfEntry 1 } hdsl2ShdslEndpointWirePair OBJECT-TYPE SYNTAX Hdsl2ShdslWirePair MAX-ACCESS not-accessible STATUS current DESCRIPTION "The wire pair of the modem associated with this segment endpoint as per the Hdsl2ShdslWirePair textual convention." ::= { hdsl2ShdslEndpointConfEntry 2 } hdsl2ShdslEndpointAlarmConfProfile OBJECT-TYPE SYNTAX SnmpAdminString (SIZE(0..32)) MAX-ACCESS read-write STATUS current DESCRIPTION "This object configures the alarm threshold values to be used for this segment endpoint. The values are obtained from the alarm configuration profile referenced by this object. The value of this object is the index of the referenced profile in the hdsl2ShdslEndpointAlarmConfProfileTable, or NULL (a zero-length SnmpAdminString). If the value is a zero-length SnmpAdminString, the endpoint uses the default Alarm Configuration Profile for the associated span as per the hdsl2ShdslSpanConfAlarmProfile object in the hdsl2ShdslSpanConfTable. The default value of this object is a zero-length SnmpAdminString. Any attempt to set this object to a value that is not the value of the index for an active entry in the profile table, hdsl2ShdslEndpointAlarmConfProfileTable, MUST be rejected." ::= { hdsl2ShdslEndpointConfEntry 3 } -- Segment Endpoint Current Status/Performance Group -- hdsl2ShdslEndpointCurrTable OBJECT-TYPE SYNTAX SEQUENCE OF Hdsl2ShdslEndpointCurrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains current status and performance information for segment endpoints in HDSL2/SHDSL lines. As with other tables in this MIB module indexed by ifIndex, entries in this table MUST be maintained in a persistent manner." ::= { hdsl2ShdslMibObjects 5 } hdsl2ShdslEndpointCurrEntry OBJECT-TYPE SYNTAX Hdsl2ShdslEndpointCurrEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the hdsl2ShdslEndpointCurrTable. Each entry contains status and performance information relating to a single segment endpoint. It is indexed by the ifIndex of the HDSL2/SHDSL line, the UnitId of the associated unit, the side of the unit, and the wire pair of the associated modem." INDEX { ifIndex, hdsl2ShdslInvIndex, hdsl2ShdslEndpointSide, hdsl2ShdslEndpointWirePair } ::= { hdsl2ShdslEndpointCurrTable 1 } Hdsl2ShdslEndpointCurrEntry ::= SEQUENCE { hdsl2ShdslEndpointCurrAtn Integer32, hdsl2ShdslEndpointCurrSnrMgn Integer32, hdsl2ShdslEndpointCurrStatus BITS, hdsl2ShdslEndpointES Counter32, hdsl2ShdslEndpointSES Counter32, hdsl2ShdslEndpointCRCanomalies Counter32, hdsl2ShdslEndpointLOSWS Counter32, hdsl2ShdslEndpointUAS Counter32, hdsl2ShdslEndpointCurr15MinTimeElapsed Hdsl2ShdslPerfTimeElapsed, hdsl2ShdslEndpointCurr15MinES PerfCurrentCount, hdsl2ShdslEndpointCurr15MinSES PerfCurrentCount, hdsl2ShdslEndpointCurr15MinCRCanomalies PerfCurrentCount, hdsl2ShdslEndpointCurr15MinLOSWS PerfCurrentCount, hdsl2ShdslEndpointCurr15MinUAS PerfCurrentCount, hdsl2ShdslEndpointCurr1DayTimeElapsed Hdsl2ShdslPerfTimeElapsed, hdsl2ShdslEndpointCurr1DayES Hdsl2ShdslPerfCurrDayCount, hdsl2ShdslEndpointCurr1DaySES Hdsl2ShdslPerfCurrDayCount, hdsl2ShdslEndpointCurr1DayCRCanomalies Hdsl2ShdslPerfCurrDayCount, hdsl2ShdslEndpointCurr1DayLOSWS Hdsl2ShdslPerfCurrDayCount, hdsl2ShdslEndpointCurr1DayUAS Hdsl2ShdslPerfCurrDayCount, hdsl2ShdslEndpointCurrTipRingReversal INTEGER, hdsl2ShdslEndpointCurrActivationState INTEGER } hdsl2ShdslEndpointCurrAtn OBJECT-TYPE SYNTAX Integer32(-127..128) UNITS "dB" MAX-ACCESS read-only STATUS current DESCRIPTION "The current loop attenuation for this endpoint as reported in a Network or Customer Side Performance Status message." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 1 } hdsl2ShdslEndpointCurrSnrMgn OBJECT-TYPE SYNTAX Integer32(-127..128) UNITS "dB" MAX-ACCESS read-only STATUS current DESCRIPTION "The current SNR margin for this endpoint as reported in a Status Response/SNR message." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 2 } hdsl2ShdslEndpointCurrStatus OBJECT-TYPE SYNTAX BITS { noDefect(0), powerBackoff(1), deviceFault(2), dcContinuityFault(3), snrMarginAlarm(4), loopAttenuationAlarm(5), loswFailureAlarm(6), configInitFailure(7), protocolInitFailure(8), noNeighborPresent(9), loopbackActive(10) } MAX-ACCESS read-only STATUS current DESCRIPTION "Contains the current state of the endpoint. This is a bit-map of possible conditions. The various bit positions are as follows: noDefect There are no defects on the line. powerBackoff Indicates enhanced Power Backoff. deviceFault Indicates that a vendor-dependent diagnostic or self-test fault has been detected. dcContinuityFault Indicates vendor-dependent conditions that interfere with span powering such as short and open circuits. snrMarginAlarm Indicates that the SNR margin has dropped below the alarm threshold. loopAttenuationAlarm Indicates that the loop attenuation exceeds the alarm threshold. loswFailureAlarm Indicates a forward LOSW alarm. configInitFailure Endpoint failure during initialization due to paired endpoint not able to support requested configuration. protocolInitFailure Endpoint failure during initialization due to incompatible protocol used by the paired endpoint. noNeighborPresent Endpoint failure during initialization due to no activation sequence detected from paired endpoint. loopbackActive A loopback is currently active at this segment endpoint. This is intended to supplement ifOperStatus. Note that there is a 1:1 relationship between the status bits defined in this object and the notification thresholds defined elsewhere in this MIB module." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 3 } hdsl2ShdslEndpointES OBJECT-TYPE SYNTAX Counter32 UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Errored Seconds (ES) on this endpoint since the xU was last restarted." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 4 } hdsl2ShdslEndpointSES OBJECT-TYPE SYNTAX Counter32 UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Severely Errored Seconds (SES) on this endpoint since the xU was last restarted." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 5 } hdsl2ShdslEndpointCRCanomalies OBJECT-TYPE SYNTAX Counter32 UNITS "detected CRC Anomalies" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of CRC anomalies on this endpoint since the xU was last restarted." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 6 } hdsl2ShdslEndpointLOSWS OBJECT-TYPE SYNTAX Counter32 UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Loss of Sync Word (LOSW) Seconds on this endpoint since the xU was last restarted." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 7 } hdsl2ShdslEndpointUAS OBJECT-TYPE SYNTAX Counter32 UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Unavailable Seconds (UAS) on this endpoint since the xU was last restarted." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 8 } hdsl2ShdslEndpointCurr15MinTimeElapsed OBJECT-TYPE SYNTAX Hdsl2ShdslPerfTimeElapsed UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Total elapsed seconds in the current 15-minute interval." ::= { hdsl2ShdslEndpointCurrEntry 9 } hdsl2ShdslEndpointCurr15MinES OBJECT-TYPE SYNTAX PerfCurrentCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Errored Seconds (ES) in the current 15-minute interval." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 10 } hdsl2ShdslEndpointCurr15MinSES OBJECT-TYPE SYNTAX PerfCurrentCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Severely Errored Seconds (SES) in the current 15-minute interval." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 11 } hdsl2ShdslEndpointCurr15MinCRCanomalies OBJECT-TYPE SYNTAX PerfCurrentCount UNITS "detected CRC Anomalies" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of CRC anomalies in the current 15-minute interval." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 12 } hdsl2ShdslEndpointCurr15MinLOSWS OBJECT-TYPE SYNTAX PerfCurrentCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Loss of Sync Word (LOSW) Seconds in the current 15-minute interval." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 13 } hdsl2ShdslEndpointCurr15MinUAS OBJECT-TYPE SYNTAX PerfCurrentCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Unavailable Seconds (UAS) in the current 15-minute interval." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 14 } hdsl2ShdslEndpointCurr1DayTimeElapsed OBJECT-TYPE SYNTAX Hdsl2ShdslPerfTimeElapsed UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Number of seconds that have elapsed since the beginning of the current 1-day interval." ::= { hdsl2ShdslEndpointCurrEntry 15 } hdsl2ShdslEndpointCurr1DayES OBJECT-TYPE SYNTAX Hdsl2ShdslPerfCurrDayCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Errored Seconds (ES) during the current day as measured by hdsl2ShdslEndpointCurr1DayTimeElapsed." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 16 } hdsl2ShdslEndpointCurr1DaySES OBJECT-TYPE SYNTAX Hdsl2ShdslPerfCurrDayCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Severely Errored Seconds (SES) during the current day as measured by hdsl2ShdslEndpointCurr1DayTimeElapsed." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 17 } hdsl2ShdslEndpointCurr1DayCRCanomalies OBJECT-TYPE SYNTAX Hdsl2ShdslPerfCurrDayCount UNITS "detected CRC Anomalies" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of CRC anomalies during the current day as measured by hdsl2ShdslEndpointCurr1DayTimeElapsed." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 18 } hdsl2ShdslEndpointCurr1DayLOSWS OBJECT-TYPE SYNTAX Hdsl2ShdslPerfCurrDayCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Loss of Sync Word (LOSW) Seconds during the current day as measured by hdsl2ShdslEndpointCurr1DayTimeElapsed." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 19 } hdsl2ShdslEndpointCurr1DayUAS OBJECT-TYPE SYNTAX Hdsl2ShdslPerfCurrDayCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Unavailable Seconds (UAS) during the current day as measured by hdsl2ShdslEndpointCurr1DayTimeElapsed." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2ShdslEndpointCurrEntry 20 } hdsl2ShdslEndpointCurrTipRingReversal OBJECT-TYPE SYNTAX INTEGER { normal(1), reversed(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the state of the tip/ring for the wire pair." ::= { hdsl2ShdslEndpointCurrEntry 21 } hdsl2ShdslEndpointCurrActivationState OBJECT-TYPE SYNTAX INTEGER { preActivation(1), -- PreTrain activation(2), -- Training data(3) -- Trained } MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the activation or training state of the wire pair." REFERENCE "ITU-T G.991.2, Section 6.2 PMD Activation Sequence" ::= { hdsl2ShdslEndpointCurrEntry 22 } -- Segment Endpoint 15-Minute Interval Status/Performance Group -- hdsl2Shdsl15MinIntervalTable OBJECT-TYPE SYNTAX SEQUENCE OF Hdsl2Shdsl15MinIntervalEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table provides one row for each HDSL2/SHDSL endpoint performance data collection interval. This table contains live data from equipment. As such, it is NOT persistent." ::= { hdsl2ShdslMibObjects 6 } hdsl2Shdsl15MinIntervalEntry OBJECT-TYPE SYNTAX Hdsl2Shdsl15MinIntervalEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the hdsl2Shdsl15MinIntervalTable." INDEX { ifIndex, hdsl2ShdslInvIndex, hdsl2ShdslEndpointSide, hdsl2ShdslEndpointWirePair, hdsl2Shdsl15MinIntervalNumber} ::= { hdsl2Shdsl15MinIntervalTable 1 } Hdsl2Shdsl15MinIntervalEntry ::= SEQUENCE { hdsl2Shdsl15MinIntervalNumber Unsigned32, hdsl2Shdsl15MinIntervalES PerfIntervalCount, hdsl2Shdsl15MinIntervalSES PerfIntervalCount, hdsl2Shdsl15MinIntervalCRCanomalies PerfIntervalCount, hdsl2Shdsl15MinIntervalLOSWS PerfIntervalCount, hdsl2Shdsl15MinIntervalUAS PerfIntervalCount } hdsl2Shdsl15MinIntervalNumber OBJECT-TYPE SYNTAX Unsigned32(1..96) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Performance Data Interval number. Interval 1 is the most recent previous interval; interval 96 is 24 hours ago. Intervals 2..96 are optional." ::= { hdsl2Shdsl15MinIntervalEntry 1 } hdsl2Shdsl15MinIntervalES OBJECT-TYPE SYNTAX PerfIntervalCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Errored Seconds (ES) during the interval." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2Shdsl15MinIntervalEntry 2 } hdsl2Shdsl15MinIntervalSES OBJECT-TYPE SYNTAX PerfIntervalCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Severely Errored Seconds (SES) during the interval." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2Shdsl15MinIntervalEntry 3 } hdsl2Shdsl15MinIntervalCRCanomalies OBJECT-TYPE SYNTAX PerfIntervalCount UNITS "detected CRC Anomalies" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of CRC anomalies during the interval." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2Shdsl15MinIntervalEntry 4 } hdsl2Shdsl15MinIntervalLOSWS OBJECT-TYPE SYNTAX PerfIntervalCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Loss of Sync Word (LOSW) Seconds during the interval." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2Shdsl15MinIntervalEntry 5 } hdsl2Shdsl15MinIntervalUAS OBJECT-TYPE SYNTAX PerfIntervalCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Unavailable Seconds (UAS) during the interval." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2Shdsl15MinIntervalEntry 6 } -- Segment Endpoint 1-Day Interval Status/Performance Group -- hdsl2Shdsl1DayIntervalTable OBJECT-TYPE SYNTAX SEQUENCE OF Hdsl2Shdsl1DayIntervalEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table provides one row for each HDSL2/SHDSL endpoint performance data collection interval. This table contains live data from equipment. As such, it is NOT persistent." ::= { hdsl2ShdslMibObjects 7 } hdsl2Shdsl1DayIntervalEntry OBJECT-TYPE SYNTAX Hdsl2Shdsl1DayIntervalEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the hdsl2Shdsl1DayIntervalTable." INDEX { ifIndex, hdsl2ShdslInvIndex, hdsl2ShdslEndpointSide, hdsl2ShdslEndpointWirePair, hdsl2Shdsl1DayIntervalNumber } ::= { hdsl2Shdsl1DayIntervalTable 1 } Hdsl2Shdsl1DayIntervalEntry ::= SEQUENCE { hdsl2Shdsl1DayIntervalNumber Unsigned32, hdsl2Shdsl1DayIntervalMoniSecs Hdsl2ShdslPerfTimeElapsed, hdsl2Shdsl1DayIntervalES Hdsl2Shdsl1DayIntervalCount, hdsl2Shdsl1DayIntervalSES Hdsl2Shdsl1DayIntervalCount, hdsl2Shdsl1DayIntervalCRCanomalies Hdsl2Shdsl1DayIntervalCount, hdsl2Shdsl1DayIntervalLOSWS Hdsl2Shdsl1DayIntervalCount, hdsl2Shdsl1DayIntervalUAS Hdsl2Shdsl1DayIntervalCount } hdsl2Shdsl1DayIntervalNumber OBJECT-TYPE SYNTAX Unsigned32(1..30) MAX-ACCESS not-accessible STATUS current DESCRIPTION "History Data Interval number. Interval 1 is the most recent previous day; interval 30 is 30 days ago. Intervals 2..30 are optional." ::= { hdsl2Shdsl1DayIntervalEntry 1 } hdsl2Shdsl1DayIntervalMoniSecs OBJECT-TYPE SYNTAX Hdsl2ShdslPerfTimeElapsed UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "The amount of time in the 1-day interval over which the performance monitoring information is actually counted. This value will be the same as the interval duration except in a situation where performance monitoring data could not be collected for any reason." ::= { hdsl2Shdsl1DayIntervalEntry 2 } hdsl2Shdsl1DayIntervalES OBJECT-TYPE SYNTAX Hdsl2Shdsl1DayIntervalCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Errored Seconds (ES) during the 1-day interval as measured by hdsl2Shdsl1DayIntervalMoniSecs." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2Shdsl1DayIntervalEntry 3 } hdsl2Shdsl1DayIntervalSES OBJECT-TYPE SYNTAX Hdsl2Shdsl1DayIntervalCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Severely Errored Seconds (SES) during the 1-day interval as measured by hdsl2Shdsl1DayIntervalMoniSecs." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2Shdsl1DayIntervalEntry 4 } hdsl2Shdsl1DayIntervalCRCanomalies OBJECT-TYPE SYNTAX Hdsl2Shdsl1DayIntervalCount UNITS "detected CRC Anomalies" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of CRC anomalies during the 1-day interval as measured by hdsl2Shdsl1DayIntervalMoniSecs." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2Shdsl1DayIntervalEntry 5 } hdsl2Shdsl1DayIntervalLOSWS OBJECT-TYPE SYNTAX Hdsl2Shdsl1DayIntervalCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Loss of Sync Word (LOSW) Seconds during the 1-day interval as measured by hdsl2Shdsl1DayIntervalMoniSecs." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2Shdsl1DayIntervalEntry 6 } hdsl2Shdsl1DayIntervalUAS OBJECT-TYPE SYNTAX Hdsl2Shdsl1DayIntervalCount UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "Count of Unavailable Seconds (UAS) during the 1-day interval as measured by hdsl2Shdsl1DayIntervalMoniSecs." REFERENCE "HDSL2 Section 7.5.3.7; SHDSL Section 9.5.5.7" ::= { hdsl2Shdsl1DayIntervalEntry 7 } -- Maintenance Group -- hdsl2ShdslEndpointMaintTable OBJECT-TYPE SYNTAX SEQUENCE OF Hdsl2ShdslEndpointMaintEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table supports maintenance operations (e.g., loopbacks) to be performed on HDSL2/SHDSL segment endpoints. This table contains live data from equipment. As such, it is NOT persistent." ::= { hdsl2ShdslMibObjects 8 } hdsl2ShdslEndpointMaintEntry OBJECT-TYPE SYNTAX Hdsl2ShdslEndpointMaintEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the hdsl2ShdslEndpointMaintTable. Each entry corresponds to a single segment endpoint and is indexed by the ifIndex of the HDSL2/SHDSL line, the UnitId of the associated unit, and the side of the unit." INDEX { ifIndex, hdsl2ShdslInvIndex, hdsl2ShdslEndpointSide } ::= { hdsl2ShdslEndpointMaintTable 1 } Hdsl2ShdslEndpointMaintEntry ::= SEQUENCE { hdsl2ShdslMaintLoopbackConfig INTEGER, hdsl2ShdslMaintTipRingReversal INTEGER, hdsl2ShdslMaintPowerBackOff INTEGER, hdsl2ShdslMaintSoftRestart INTEGER } hdsl2ShdslMaintLoopbackConfig OBJECT-TYPE SYNTAX INTEGER { noLoopback(1), normalLoopback(2), specialLoopback(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object controls configuration of loopbacks for the associated segment endpoint. The status of the loopback is obtained via the hdsl2ShdslEndpointCurrStatus object." ::= { hdsl2ShdslEndpointMaintEntry 1 } hdsl2ShdslMaintTipRingReversal OBJECT-TYPE SYNTAX INTEGER { normal(1), reversed(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the state of the tip/ring pair at the associated segment endpoint." ::= { hdsl2ShdslEndpointMaintEntry 2 } hdsl2ShdslMaintPowerBackOff OBJECT-TYPE SYNTAX INTEGER { default(1), enhanced(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object configures the receiver at the associated segment endpoint to operate in default or enhanced power backoff mode." ::= { hdsl2ShdslEndpointMaintEntry 3 } hdsl2ShdslMaintSoftRestart OBJECT-TYPE SYNTAX INTEGER { ready(1), restart(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object enables the manager to trigger a soft restart of the modem at the associated segment endpoint. The manager may only set this object to the 'restart(2)' value, which initiates a restart. The agent will perform a restart after approximately 5 seconds. Following the 5 second period, the agent will restore the object to the 'ready(1)' state." ::= { hdsl2ShdslEndpointMaintEntry 4 } hdsl2ShdslUnitMaintTable OBJECT-TYPE SYNTAX SEQUENCE OF Hdsl2ShdslUnitMaintEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table supports maintenance operations for units in a HDSL2/SHDSL line. Entries in this table MUST be maintained in a persistent manner." ::= { hdsl2ShdslMibObjects 9 } hdsl2ShdslUnitMaintEntry OBJECT-TYPE SYNTAX Hdsl2ShdslUnitMaintEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the hdsl2ShdslUnitMaintTable. Each entry corresponds to a single unit and is indexed by the ifIndex of the HDSL2/SHDSL line and the UnitId of the associated unit." INDEX { ifIndex, hdsl2ShdslInvIndex } ::= { hdsl2ShdslUnitMaintTable 1 } Hdsl2ShdslUnitMaintEntry ::= SEQUENCE { hdsl2ShdslMaintLoopbackTimeout Integer32, hdsl2ShdslMaintUnitPowerSource INTEGER } hdsl2ShdslMaintLoopbackTimeout OBJECT-TYPE SYNTAX Integer32(0..4095) UNITS "minutes" MAX-ACCESS read-write STATUS current DESCRIPTION "This object configures the timeout value for loopbacks initiated at segments endpoints contained in the associated unit. A value of 0 disables the timeout." ::= { hdsl2ShdslUnitMaintEntry 1 } hdsl2ShdslMaintUnitPowerSource OBJECT-TYPE SYNTAX INTEGER { local(1), span(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the DC power source being used by the associated unit." ::= { hdsl2ShdslUnitMaintEntry 2 } -- Span Configuration Profile Group -- hdsl2ShdslSpanConfProfileTable OBJECT-TYPE SYNTAX SEQUENCE OF Hdsl2ShdslSpanConfProfileEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table supports definitions of span configuration profiles for SHDSL lines. HDSL2 does not support these configuration options. This table MUST be maintained in a persistent manner." ::= { hdsl2ShdslMibObjects 10 } hdsl2ShdslSpanConfProfileEntry OBJECT-TYPE SYNTAX Hdsl2ShdslSpanConfProfileEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Each entry corresponds to a single span configuration profile. Each profile contains a set of span configuration parameters. The configuration parameters in a profile are applied to those lines referencing that profile (see the hdsl2ShdslSpanConfProfile object). Profiles may be created/deleted using the row creation/deletion mechanism via hdsl2ShdslSpanConfProfileRowStatus. If an active entry is referenced in hdsl2ShdslSpanConfProfile, the entry MUST remain active until all references are removed." INDEX { IMPLIED hdsl2ShdslSpanConfProfileName } ::= { hdsl2ShdslSpanConfProfileTable 1 } Hdsl2ShdslSpanConfProfileEntry ::= SEQUENCE { hdsl2ShdslSpanConfProfileName SnmpAdminString, hdsl2ShdslSpanConfWireInterface INTEGER, hdsl2ShdslSpanConfMinLineRate Unsigned32, hdsl2ShdslSpanConfMaxLineRate Unsigned32, hdsl2ShdslSpanConfPSD INTEGER, hdsl2ShdslSpanConfTransmissionMode Hdsl2ShdslTransmissionModeType, hdsl2ShdslSpanConfRemoteEnabled INTEGER, hdsl2ShdslSpanConfPowerFeeding INTEGER, hdsl2ShdslSpanConfCurrCondTargetMarginDown Integer32, hdsl2ShdslSpanConfWorstCaseTargetMarginDown Integer32, hdsl2ShdslSpanConfCurrCondTargetMarginUp Integer32, hdsl2ShdslSpanConfWorstCaseTargetMarginUp Integer32, hdsl2ShdslSpanConfUsedTargetMargins BITS, hdsl2ShdslSpanConfReferenceClock Hdsl2ShdslClockReferenceType, hdsl2ShdslSpanConfLineProbeEnable INTEGER, hdsl2ShdslSpanConfProfileRowStatus RowStatus } hdsl2ShdslSpanConfProfileName OBJECT-TYPE SYNTAX SnmpAdminString (SIZE(1..32)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object is the unique index associated with this profile. Entries in this table are referenced via the object hdsl2ShdslSpanConfProfile in Hdsl2ShdslSpanConfEntry." ::= { hdsl2ShdslSpanConfProfileEntry 1 } hdsl2ShdslSpanConfWireInterface OBJECT-TYPE SYNTAX INTEGER { twoWire(1), fourWire(2), sixWire(3), eightWire(4) } MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures the two-wire or optional four-wire, six-wire, or eight-wire operation for SHDSL lines." DEFVAL { twoWire } ::= { hdsl2ShdslSpanConfProfileEntry 2 } hdsl2ShdslSpanConfMinLineRate OBJECT-TYPE SYNTAX Unsigned32(0..4294967295) UNITS "bps" MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures the minimum transmission rate for the associated SHDSL Line in bits-per-second (bps) and includes both payload (user data) and any applicable framing overhead. If the minimum line rate equals the maximum line rate (hdsl2ShdslSpanMaxLineRate), the line rate is considered 'fixed'. If the minimum line rate is less than the maximum line rate, the line rate is considered 'rate-adaptive'." DEFVAL { 1552000 } ::= { hdsl2ShdslSpanConfProfileEntry 3 } hdsl2ShdslSpanConfMaxLineRate OBJECT-TYPE SYNTAX Unsigned32(0..4294967295) UNITS "bps" MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures the maximum transmission rate for the associated SHDSL Line in bits-per-second (bps) and includes both payload (user data) and any applicable framing overhead. If the minimum line rate equals the maximum line rate (hdsl2ShdslSpanMaxLineRate), the line rate is considered 'fixed'. If the minimum line rate is less than the maximum line rate, the line rate is considered 'rate-adaptive'." DEFVAL { 1552000 } ::= { hdsl2ShdslSpanConfProfileEntry 4 } hdsl2ShdslSpanConfPSD OBJECT-TYPE SYNTAX INTEGER { symmetric(1), asymmetric(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures use of symmetric/asymmetric PSD (Power Spectral Density) Mask for the associated SHDSL Line. Support for symmetric PSD is mandatory for all supported data rates. Support for asymmetric PSD is optional." DEFVAL { symmetric } ::= { hdsl2ShdslSpanConfProfileEntry 5 } hdsl2ShdslSpanConfTransmissionMode OBJECT-TYPE SYNTAX Hdsl2ShdslTransmissionModeType MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies the regional setting for the SHDSL line." DEFVAL { { region1 } } ::= { hdsl2ShdslSpanConfProfileEntry 6 } hdsl2ShdslSpanConfRemoteEnabled OBJECT-TYPE SYNTAX INTEGER { enabled(1), disabled(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "This object enables/disables support for remote management of the units in an SHDSL line from the STU-R via the EOC." DEFVAL { enabled } ::= { hdsl2ShdslSpanConfProfileEntry 7 } hdsl2ShdslSpanConfPowerFeeding OBJECT-TYPE SYNTAX INTEGER { noPower(1), powerFeed(2), wettingCurrent(3) } MAX-ACCESS read-create STATUS current DESCRIPTION "This object enables/disables support for optional power feeding in an SHDSL line." DEFVAL { noPower } ::= { hdsl2ShdslSpanConfProfileEntry 8 } hdsl2ShdslSpanConfCurrCondTargetMarginDown OBJECT-TYPE SYNTAX Integer32(-10..21) UNITS "dB" MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies the downstream current condition target SNR margin for an SHDSL line. The SNR margin is the difference between the desired SNR and the actual SNR. Target SNR margin is the desired SNR margin for a unit." DEFVAL { 0 } ::= { hdsl2ShdslSpanConfProfileEntry 9 } hdsl2ShdslSpanConfWorstCaseTargetMarginDown OBJECT-TYPE SYNTAX Integer32(-10..21) UNITS "dB" MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies the downstream worst-case target SNR margin for an SHDSL line. The SNR margin is the difference between the desired SNR and the actual SNR. Target SNR margin is the desired SNR margin for a unit." DEFVAL { 0 } ::= { hdsl2ShdslSpanConfProfileEntry 10 } hdsl2ShdslSpanConfCurrCondTargetMarginUp OBJECT-TYPE SYNTAX Integer32(-10..21) UNITS "dB" MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies the upstream current-condition target SNR margin for an SHDSL line. The SNR margin is the difference between the desired SNR and the actual SNR. Target SNR margin is the desired SNR margin for a unit." DEFVAL { 0 } ::= { hdsl2ShdslSpanConfProfileEntry 11 } hdsl2ShdslSpanConfWorstCaseTargetMarginUp OBJECT-TYPE SYNTAX Integer32(-10..21) UNITS "dB" MAX-ACCESS read-create STATUS current DESCRIPTION "This object specifies the upstream worst-case target SNR margin for an SHDSL line. The SNR margin is the difference between the desired SNR and the actual SNR. Target SNR margin is the desired SNR margin for a unit." DEFVAL { 0 } ::= { hdsl2ShdslSpanConfProfileEntry 12 } hdsl2ShdslSpanConfUsedTargetMargins OBJECT-TYPE SYNTAX BITS { currCondDown(0), worstCaseDown(1), currCondUp(2), worstCaseUp(3) } MAX-ACCESS read-create STATUS current DESCRIPTION "Indicates whether a target SNR margin is enabled or disabled. This is a bit-map of possible settings. The various bit positions are as follows: currCondDown - current-condition downstream target SNR margin enabled worstCaseDown - worst-case downstream target SNR margin enabled currCondUp - current-condition upstream target SNR margin enabled worstCaseUp - worst-case upstream target SNR margin enabled." DEFVAL { { currCondDown } } ::= { hdsl2ShdslSpanConfProfileEntry 13 } hdsl2ShdslSpanConfReferenceClock OBJECT-TYPE SYNTAX Hdsl2ShdslClockReferenceType MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures the clock reference for the STU-C in an SHDSL Line." DEFVAL { localClk } ::= { hdsl2ShdslSpanConfProfileEntry 14 } hdsl2ShdslSpanConfLineProbeEnable OBJECT-TYPE SYNTAX INTEGER { disable(1), enable(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "This object enables/disables support for Line Probe of the units in an SHDSL line. When Line Probe is enabled, the system performs Line Probing to find the best possible rate. If Line Probe is disabled, the rate adaptation phase is skipped to shorten set up time." DEFVAL { disable } ::= { hdsl2ShdslSpanConfProfileEntry 15 } hdsl2ShdslSpanConfProfileRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "This object controls creation/deletion of the associated entry in this table per the semantics of RowStatus. If an active entry is referenced in hdsl2ShdslSpanConfProfile, the entry MUST remain active until all references are removed." ::= { hdsl2ShdslSpanConfProfileEntry 16 } -- Segment Endpoint Alarm Configuration Profile group -- hdsl2ShdslEndpointAlarmConfProfileTable OBJECT-TYPE SYNTAX SEQUENCE OF Hdsl2ShdslEndpointAlarmConfProfileEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table supports definitions of alarm configuration profiles for HDSL2/SHDSL segment endpoints. This table MUST be maintained in a persistent manner." ::= { hdsl2ShdslMibObjects 11 } hdsl2ShdslEndpointAlarmConfProfileEntry OBJECT-TYPE SYNTAX Hdsl2ShdslEndpointAlarmConfProfileEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Each entry corresponds to a single alarm configuration profile. Each profile contains a set of parameters for setting alarm thresholds for various performance attributes monitored at HDSL2/SHDSL segment endpoints. Profiles may be created/deleted using the row creation/deletion mechanism via hdsl2ShdslEndpointAlarmConfProfileRowStatus. If an active entry is referenced in either hdsl2ShdslSpanConfAlarmProfile or hdsl2ShdslEndpointAlarmConfProfile, the entry MUST remain active until all references are removed." INDEX { IMPLIED hdsl2ShdslEndpointAlarmConfProfileName } ::= { hdsl2ShdslEndpointAlarmConfProfileTable 1 } Hdsl2ShdslEndpointAlarmConfProfileEntry ::= SEQUENCE { hdsl2ShdslEndpointAlarmConfProfileName SnmpAdminString, hdsl2ShdslEndpointThreshLoopAttenuation Integer32, hdsl2ShdslEndpointThreshSNRMargin Integer32, hdsl2ShdslEndpointThreshES Hdsl2ShdslPerfIntervalThreshold, hdsl2ShdslEndpointThreshSES Hdsl2ShdslPerfIntervalThreshold, hdsl2ShdslEndpointThreshCRCanomalies Integer32, hdsl2ShdslEndpointThreshLOSWS Hdsl2ShdslPerfIntervalThreshold, hdsl2ShdslEndpointThreshUAS Hdsl2ShdslPerfIntervalThreshold, hdsl2ShdslEndpointAlarmConfProfileRowStatus RowStatus } hdsl2ShdslEndpointAlarmConfProfileName OBJECT-TYPE SYNTAX SnmpAdminString (SIZE(1..32)) MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object is the unique index associated with this profile." ::= { hdsl2ShdslEndpointAlarmConfProfileEntry 1 } hdsl2ShdslEndpointThreshLoopAttenuation OBJECT-TYPE SYNTAX Integer32(-127..128) UNITS "dB" MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures the loop attenuation alarm threshold. When the current value of hdsl2ShdslEndpointCurrAtn reaches or exceeds this threshold, an hdsl2ShdslLoopAttenCrossing MAY be generated." DEFVAL { 0 } ::= { hdsl2ShdslEndpointAlarmConfProfileEntry 2 } hdsl2ShdslEndpointThreshSNRMargin OBJECT-TYPE SYNTAX Integer32(-127..128) UNITS "dB" MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures the SNR margin alarm threshold. When the current value of hdsl2ShdslEndpointCurrSnrMgn reaches or drops below this threshold, a hdsl2ShdslSNRMarginCrossing MAY be generated." DEFVAL { 0 } ::= { hdsl2ShdslEndpointAlarmConfProfileEntry 3 } hdsl2ShdslEndpointThreshES OBJECT-TYPE SYNTAX Hdsl2ShdslPerfIntervalThreshold UNITS "seconds" MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures the threshold for the number of Errored Seconds (ES) within any given 15-minute performance data collection interval. If the value of Errored Seconds in a particular 15-minute collection interval reaches/ exceeds this value, an hdsl2ShdslPerfESThresh MAY be generated. At most, one notification will be sent per interval per endpoint." DEFVAL { 0 } ::= { hdsl2ShdslEndpointAlarmConfProfileEntry 4 } hdsl2ShdslEndpointThreshSES OBJECT-TYPE SYNTAX Hdsl2ShdslPerfIntervalThreshold UNITS "seconds" MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures the threshold for the number of Severely Errored Seconds (SES) within any given 15-minute performance data collection interval. If the value of Severely Errored Seconds in a particular 15-minute collection interval reaches/exceeds this value, an hdsl2ShdslPerfSESThresh MAY be generated. At most, one notification will be sent per interval per endpoint." DEFVAL { 0 } ::= { hdsl2ShdslEndpointAlarmConfProfileEntry 5 } hdsl2ShdslEndpointThreshCRCanomalies OBJECT-TYPE SYNTAX Integer32 UNITS "detected CRC Anomalies" MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures the threshold for the number of CRC anomalies within any given 15-minute performance data collection interval. If the value of CRC anomalies in a particular 15-minute collection interval reaches/exceeds this value, an hdsl2ShdslPerfCRCanomaliesThresh MAY be generated. At most, one notification will be sent per interval per endpoint." DEFVAL { 0 } ::= { hdsl2ShdslEndpointAlarmConfProfileEntry 6 } hdsl2ShdslEndpointThreshLOSWS OBJECT-TYPE SYNTAX Hdsl2ShdslPerfIntervalThreshold UNITS "seconds" MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures the threshold for the number of Loss of Sync Word (LOSW) Seconds within any given 15-minute performance data collection interval. If the value of LOSW in a particular 15-minute collection interval reaches/exceeds this value, an hdsl2ShdslPerfLOSWSThresh MAY be generated. At most, one notification will be sent per interval per endpoint." DEFVAL { 0 } ::= { hdsl2ShdslEndpointAlarmConfProfileEntry 7 } hdsl2ShdslEndpointThreshUAS OBJECT-TYPE SYNTAX Hdsl2ShdslPerfIntervalThreshold UNITS "seconds" MAX-ACCESS read-create STATUS current DESCRIPTION "This object configures the threshold for the number of Unavailable Seconds (UAS) within any given 15-minute performance data collection interval. If the value of UAS in a particular 15-minute collection interval reaches/exceeds this value, an hdsl2ShdslPerfUASThresh MAY be generated. At most, one notification will be sent per interval per endpoint." DEFVAL { 0 } ::= { hdsl2ShdslEndpointAlarmConfProfileEntry 8 } hdsl2ShdslEndpointAlarmConfProfileRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "This object controls creation/deletion of the associated entry in this table as per the semantics of RowStatus. If an active entry is referenced in either hdsl2ShdslSpanConfAlarmProfile or hdsl2ShdslEndpointAlarmConfProfile, the entry MUST remain active until all references are removed." ::= { hdsl2ShdslEndpointAlarmConfProfileEntry 9 } -- Notifications Group -- hdsl2ShdslNotifications OBJECT IDENTIFIER ::= { hdsl2ShdslMIB 0 } hdsl2ShdslLoopAttenCrossing NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurrAtn, hdsl2ShdslEndpointThreshLoopAttenuation } STATUS current DESCRIPTION "This notification indicates that the loop attenuation threshold (as per the hdsl2ShdslEndpointThreshLoopAttenuation value) has been reached/exceeded for the HDSL2/SHDSL segment endpoint." ::= { hdsl2ShdslNotifications 1 } hdsl2ShdslSNRMarginCrossing NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurrSnrMgn, hdsl2ShdslEndpointThreshSNRMargin } STATUS current DESCRIPTION "This notification indicates that the SNR margin threshold (as per the hdsl2ShdslEndpointThreshSNRMargin value) has been reached/exceeded for the HDSL2/SHDSL segment endpoint." ::= { hdsl2ShdslNotifications 2 } hdsl2ShdslPerfESThresh NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurr15MinES, hdsl2ShdslEndpointThreshES } STATUS current DESCRIPTION "This notification indicates that the errored seconds threshold (as per the hdsl2ShdslEndpointThreshES value) has been reached/exceeded for the HDSL2/SHDSL segment endpoint." ::= { hdsl2ShdslNotifications 3 } hdsl2ShdslPerfSESThresh NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurr15MinSES, hdsl2ShdslEndpointThreshSES } STATUS current DESCRIPTION "This notification indicates that the severely errored seconds threshold (as per the hdsl2ShdslEndpointThreshSES value) has been reached/exceeded for the HDSL2/SHDSL segment endpoint." ::= { hdsl2ShdslNotifications 4 } hdsl2ShdslPerfCRCanomaliesThresh NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurr15MinCRCanomalies, hdsl2ShdslEndpointThreshCRCanomalies } STATUS current DESCRIPTION "This notification indicates that the CRC anomalies threshold (as per the hdsl2ShdslEndpointThreshCRCanomalies value) has been reached/exceeded for the HDSL2/SHDSL segment endpoint." ::= { hdsl2ShdslNotifications 5 } hdsl2ShdslPerfLOSWSThresh NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurr15MinLOSWS, hdsl2ShdslEndpointThreshLOSWS } STATUS current DESCRIPTION "This notification indicates that the LOSW Seconds threshold (as per the hdsl2ShdslEndpointThreshLOSWS value) has been reached/exceeded for the HDSL2/SHDSL segment endpoint." ::= { hdsl2ShdslNotifications 6 } hdsl2ShdslPerfUASThresh NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurr15MinUAS, hdsl2ShdslEndpointThreshUAS } STATUS current DESCRIPTION "This notification indicates that the unavailable seconds threshold (as per the hdsl2ShdslEndpointThreshUAS value) has been reached/exceeded for the HDSL2/SHDSL segment endpoint." ::= { hdsl2ShdslNotifications 7 } hdsl2ShdslSpanInvalidNumRepeaters NOTIFICATION-TYPE OBJECTS { hdsl2ShdslSpanConfNumRepeaters } STATUS current DESCRIPTION "This notification indicates that a mismatch has been detected between the number of repeater/regenerator units configured for an HDSL2/SHDSL line via the hdsl2ShdslSpanConfNumRepeaters object and the actual number of repeater/regenerator units discovered via the EOC." ::= { hdsl2ShdslNotifications 8 } hdsl2ShdslLoopbackFailure NOTIFICATION-TYPE OBJECTS { hdsl2ShdslMaintLoopbackConfig } STATUS current DESCRIPTION "This notification indicates that an endpoint maintenance loopback command failed for an HDSL2/SHDSL segment." ::= { hdsl2ShdslNotifications 9 } hdsl2ShdslpowerBackoff NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurrStatus } STATUS current DESCRIPTION "This notification indicates that the bit setting for powerBackoff in the hdsl2ShdslEndpointCurrStatus object for this endpoint has changed." ::= { hdsl2ShdslNotifications 10 } hdsl2ShdsldeviceFault NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurrStatus } STATUS current DESCRIPTION "This notification indicates that the bit setting for deviceFault in the hdsl2ShdslEndpointCurrStatus object for this endpoint has changed." ::= { hdsl2ShdslNotifications 11 } hdsl2ShdsldcContinuityFault NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurrStatus } STATUS current DESCRIPTION "This notification indicates that the bit setting for dcContinuityFault in the hdsl2ShdslEndpointCurrStatus object for this endpoint has changed." ::= { hdsl2ShdslNotifications 12 } hdsl2ShdslconfigInitFailure NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurrStatus } STATUS current DESCRIPTION "This notification indicates that the bit setting for configInitFailure in the hdsl2ShdslEndpointCurrStatus object for this endpoint has changed." ::= { hdsl2ShdslNotifications 13 } hdsl2ShdslprotocolInitFailure NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurrStatus } STATUS current DESCRIPTION "This notification indicates that the bit setting for protocolInitFailure in the hdsl2ShdslEndpointCurrStatus object for this endpoint has changed." ::= { hdsl2ShdslNotifications 14 } hdsl2ShdslnoNeighborPresent NOTIFICATION-TYPE OBJECTS { hdsl2ShdslEndpointCurrStatus } STATUS current DESCRIPTION "This notification indicates that the bit setting for noNeighborPresent in the hdsl2ShdslEndpointCurrStatus object for this endpoint has changed." ::= { hdsl2ShdslNotifications 15 } hdsl2ShdslLocalPowerLoss NOTIFICATION-TYPE OBJECTS { hdsl2ShdslInvVendorID } STATUS current DESCRIPTION "This notification indicates impending unit failure due to loss of local power (last gasp)." ::= { hdsl2ShdslNotifications 16 } -- conformance information -- hdsl2ShdslConformance OBJECT IDENTIFIER ::= { hdsl2ShdslMIB 3 } hdsl2ShdslGroups OBJECT IDENTIFIER ::= { hdsl2ShdslConformance 1 } hdsl2ShdslCompliances OBJECT IDENTIFIER ::= { hdsl2ShdslConformance 2 } -- agent compliance statements hdsl2ShdslLineMibCompliance MODULE-COMPLIANCE STATUS deprecated DESCRIPTION "The compliance statement for SNMP entities that implement HDSL2 and SHDSL. The version of SHDSL supported in this compliance statement is g.shdsl. **** This compliance statement is deprecated. ****" MODULE MANDATORY-GROUPS { hdsl2ShdslSpanConfGroup, hdsl2ShdslSpanStatusGroup, hdsl2ShdslInventoryGroup, hdsl2ShdslEndpointConfGroup, hdsl2ShdslEndpointCurrGroup, hdsl2Shdsl15MinIntervalGroup, hdsl2Shdsl1DayIntervalGroup, hdsl2ShdslMaintenanceGroup, hdsl2ShdslEndpointAlarmConfGroup, hdsl2ShdslNotificationGroup } GROUP hdsl2ShdslInventoryShdslGroup DESCRIPTION "Support for this group is only required for implementations supporting SHDSL lines." GROUP hdsl2ShdslSpanShdslStatusGroup DESCRIPTION "Support for this group is only required for implementations supporting SHDSL lines." GROUP hdsl2ShdslSpanConfProfileGroup DESCRIPTION "Support for this group is only required for implementations supporting SHDSL lines." OBJECT hdsl2ShdslSpanConfWireInterface SYNTAX INTEGER { twoWire(1), fourWire(2) } DESCRIPTION "An implementation only has to support the range as applicable for the original g.shdsl specification defined in RFC 3276." OBJECT hdsl2ShdslStatusMaxAttainableLineRate SYNTAX Unsigned32(0..4112000) DESCRIPTION "An implementation only has to support the range as applicable for the original g.shdsl specification defined in RFC 3276." OBJECT hdsl2ShdslStatusActualLineRate SYNTAX Unsigned32(0..4112000) DESCRIPTION "An implementation only has to support the range as applicable for the original g.shdsl specification defined in RFC 3276." OBJECT hdsl2ShdslSpanConfMinLineRate SYNTAX Unsigned32(0..4112000) DESCRIPTION "An implementation only has to support the range as applicable for the original g.shdsl specification defined in RFC 3276." OBJECT hdsl2ShdslSpanConfMaxLineRate SYNTAX Unsigned32(0..4112000) DESCRIPTION "An implementation only has to support the range as applicable for the original g.shdsl specification defined in RFC 3276." ::= { hdsl2ShdslCompliances 1 } hdsl2GshdslbisLineMibCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION "The compliance statement for SNMP entities that implement HDSL2 and SHDSL. The version of SHDSL supported in this compliance statement is g.shdsl.bis." MODULE MANDATORY-GROUPS { hdsl2ShdslSpanConfGroup, hdsl2ShdslSpanStatusGroup, hdsl2ShdslInventoryGroup, hdsl2ShdslEndpointConfGroup, hdsl2ShdslEndpointCurrGroup, hdsl2Shdsl15MinIntervalGroup, hdsl2Shdsl1DayIntervalGroup, hdsl2ShdslMaintenanceGroup, hdsl2ShdslEndpointAlarmConfGroup, hdsl2ShdslNotificationGroup } GROUP hdsl2ShdslInventoryShdslGroup DESCRIPTION "Support for this group is only required for implementations supporting SHDSL lines." GROUP hdsl2ShdslSpanShdslStatusGroup DESCRIPTION "Support for this group is only required for implementations supporting SHDSL lines." GROUP hdsl2ShdslSpanConfProfileGroup DESCRIPTION "Support for this group is only required for implementations supporting SHDSL lines." GROUP hdsl2ShdslWirePairGroup DESCRIPTION "Support for this group is only required for implementations supporting SHDSL lines." GROUP hdsl2ShdslPayloadRateGroup DESCRIPTION "Support for this group is only required for implementations supporting SHDSL lines." ::= { hdsl2ShdslCompliances 2 } -- units of conformance -- hdsl2ShdslSpanConfGroup OBJECT-GROUP OBJECTS { hdsl2ShdslSpanConfNumRepeaters, hdsl2ShdslSpanConfProfile, hdsl2ShdslSpanConfAlarmProfile } STATUS current DESCRIPTION "This group supports objects for configuring span-related parameters for HDSL2/SHDSL lines." ::= { hdsl2ShdslGroups 1 } hdsl2ShdslSpanStatusGroup OBJECT-GROUP OBJECTS { hdsl2ShdslStatusNumAvailRepeaters } STATUS current DESCRIPTION "This group supports objects for retrieving span-related status for HDSL2/SHDSL lines." ::= { hdsl2ShdslGroups 2 } hdsl2ShdslInventoryShdslGroup OBJECT-GROUP OBJECTS { hdsl2ShdslInvTransmissionModeCapability } STATUS current DESCRIPTION "This group supports objects for retrieving SHDSL-specific inventory information." ::= { hdsl2ShdslGroups 3 } hdsl2ShdslSpanShdslStatusGroup OBJECT-GROUP OBJECTS { hdsl2ShdslStatusMaxAttainableLineRate, hdsl2ShdslStatusActualLineRate, hdsl2ShdslStatusTransmissionModeCurrent } STATUS current DESCRIPTION "This group supports objects for retrieving SHDSL-specific span-related status." ::= { hdsl2ShdslGroups 4 } hdsl2ShdslInventoryGroup OBJECT-GROUP OBJECTS { hdsl2ShdslInvVendorID, hdsl2ShdslInvVendorModelNumber, hdsl2ShdslInvVendorSerialNumber, hdsl2ShdslInvVendorEOCSoftwareVersion, hdsl2ShdslInvStandardVersion, hdsl2ShdslInvVendorListNumber, hdsl2ShdslInvVendorIssueNumber, hdsl2ShdslInvVendorSoftwareVersion, hdsl2ShdslInvEquipmentCode, hdsl2ShdslInvVendorOther } STATUS current DESCRIPTION "This group supports objects that provide unit inventory information about the units in HDSL2/SHDSL lines." ::= { hdsl2ShdslGroups 5 } hdsl2ShdslEndpointConfGroup OBJECT-GROUP OBJECTS { hdsl2ShdslEndpointCurrAtn } STATUS current DESCRIPTION "This group supports objects for configuring parameters for segment endpoints in HDSL2/SHDSL lines." ::= { hdsl2ShdslGroups 6 } hdsl2ShdslEndpointCurrGroup OBJECT-GROUP OBJECTS { hdsl2ShdslEndpointCurrAtn, hdsl2ShdslEndpointCurrSnrMgn, hdsl2ShdslEndpointCurrStatus, hdsl2ShdslEndpointES, hdsl2ShdslEndpointSES, hdsl2ShdslEndpointCRCanomalies, hdsl2ShdslEndpointLOSWS, hdsl2ShdslEndpointUAS, hdsl2ShdslEndpointCurr15MinTimeElapsed, hdsl2ShdslEndpointCurr15MinES, hdsl2ShdslEndpointCurr15MinSES, hdsl2ShdslEndpointCurr15MinCRCanomalies, hdsl2ShdslEndpointCurr15MinLOSWS, hdsl2ShdslEndpointCurr15MinUAS, hdsl2ShdslEndpointCurr1DayTimeElapsed, hdsl2ShdslEndpointCurr1DayES, hdsl2ShdslEndpointCurr1DaySES, hdsl2ShdslEndpointCurr1DayCRCanomalies, hdsl2ShdslEndpointCurr1DayLOSWS, hdsl2ShdslEndpointCurr1DayUAS } STATUS current DESCRIPTION "This group supports objects that provide current status and performance measurements relating to segment endpoints in HDSL2/SHDSL lines." ::= { hdsl2ShdslGroups 7 } hdsl2Shdsl15MinIntervalGroup OBJECT-GROUP OBJECTS { hdsl2Shdsl15MinIntervalES, hdsl2Shdsl15MinIntervalSES, hdsl2Shdsl15MinIntervalCRCanomalies, hdsl2Shdsl15MinIntervalLOSWS, hdsl2Shdsl15MinIntervalUAS } STATUS current DESCRIPTION "This group supports objects that maintain historic performance measurements relating to segment endpoints in HDSL2/SHDSL lines in 15-minute intervals." ::= { hdsl2ShdslGroups 8 } hdsl2Shdsl1DayIntervalGroup OBJECT-GROUP OBJECTS { hdsl2Shdsl1DayIntervalMoniSecs, hdsl2Shdsl1DayIntervalES, hdsl2Shdsl1DayIntervalSES, hdsl2Shdsl1DayIntervalCRCanomalies, hdsl2Shdsl1DayIntervalLOSWS, hdsl2Shdsl1DayIntervalUAS } STATUS current DESCRIPTION "This group supports objects that maintain historic performance measurements relating to segment endpoints in HDSL2/SHDSL lines in 1-day intervals." ::= { hdsl2ShdslGroups 9 } hdsl2ShdslMaintenanceGroup OBJECT-GROUP OBJECTS { hdsl2ShdslMaintLoopbackConfig, hdsl2ShdslMaintTipRingReversal, hdsl2ShdslMaintPowerBackOff, hdsl2ShdslMaintSoftRestart, hdsl2ShdslMaintLoopbackTimeout, hdsl2ShdslMaintUnitPowerSource } STATUS current DESCRIPTION "This group supports objects that provide support for maintenance actions for HDSL2/SHDSL lines." ::= { hdsl2ShdslGroups 10 } hdsl2ShdslEndpointAlarmConfGroup OBJECT-GROUP OBJECTS { hdsl2ShdslEndpointAlarmConfProfile, hdsl2ShdslEndpointThreshLoopAttenuation, hdsl2ShdslEndpointThreshSNRMargin, hdsl2ShdslEndpointThreshES, hdsl2ShdslEndpointThreshSES, hdsl2ShdslEndpointThreshCRCanomalies, hdsl2ShdslEndpointThreshLOSWS, hdsl2ShdslEndpointThreshUAS, hdsl2ShdslEndpointAlarmConfProfileRowStatus } STATUS current DESCRIPTION "This group supports objects that allow configuration of alarm thresholds for various performance parameters for HDSL2/SHDSL lines." ::= { hdsl2ShdslGroups 11 } hdsl2ShdslNotificationGroup NOTIFICATION-GROUP NOTIFICATIONS { hdsl2ShdslLoopAttenCrossing, hdsl2ShdslSNRMarginCrossing, hdsl2ShdslPerfESThresh, hdsl2ShdslPerfSESThresh, hdsl2ShdslPerfCRCanomaliesThresh, hdsl2ShdslPerfLOSWSThresh, hdsl2ShdslPerfUASThresh, hdsl2ShdslSpanInvalidNumRepeaters, hdsl2ShdslLoopbackFailure, hdsl2ShdslpowerBackoff, hdsl2ShdsldeviceFault, hdsl2ShdsldcContinuityFault, hdsl2ShdslconfigInitFailure, hdsl2ShdslprotocolInitFailure, hdsl2ShdslnoNeighborPresent, hdsl2ShdslLocalPowerLoss } STATUS current DESCRIPTION "This group supports notifications of significant conditions associated with HDSL2/SHDSL lines." ::= { hdsl2ShdslGroups 12 } hdsl2ShdslSpanConfProfileGroup OBJECT-GROUP OBJECTS { hdsl2ShdslSpanConfWireInterface, hdsl2ShdslSpanConfMinLineRate, hdsl2ShdslSpanConfMaxLineRate, hdsl2ShdslSpanConfPSD, hdsl2ShdslSpanConfTransmissionMode, hdsl2ShdslSpanConfRemoteEnabled, hdsl2ShdslSpanConfPowerFeeding, hdsl2ShdslSpanConfCurrCondTargetMarginDown, hdsl2ShdslSpanConfWorstCaseTargetMarginDown, hdsl2ShdslSpanConfCurrCondTargetMarginUp, hdsl2ShdslSpanConfWorstCaseTargetMarginUp, hdsl2ShdslSpanConfUsedTargetMargins, hdsl2ShdslSpanConfReferenceClock, hdsl2ShdslSpanConfLineProbeEnable, hdsl2ShdslSpanConfProfileRowStatus } STATUS current DESCRIPTION "This group supports objects that constitute configuration profiles for configuring span-related parameters in SHDSL lines." ::= { hdsl2ShdslGroups 13 } hdsl2ShdslWirePairGroup OBJECT-GROUP OBJECTS { hdsl2ShdslEndpointCurrTipRingReversal, hdsl2ShdslEndpointCurrActivationState } STATUS current DESCRIPTION "This group supports objects that provide the status of SHDSL-specific wire pairs." ::= { hdsl2ShdslGroups 14 } hdsl2ShdslPayloadRateGroup OBJECT-GROUP OBJECTS { hdsl2ShdslStatusMaxAttainablePayloadRate, hdsl2ShdslStatusActualPayloadRate } STATUS current DESCRIPTION "This group supports objects for retrieving payload rates that exclude any framing overhead." ::= { hdsl2ShdslGroups 15 } END 4. Implementation Analysis A management application that supports RFC 3276 could mistakenly flag a unit that responds with a rate or wire pair that exceeds the ranges and/or enumerations specified in RFC 3276. For example, a G.shdsl.bis line with four wire pairs would report statistics for wire pairs that do not exist in RFC 3276. That is, a GET-NEXT request issues with the object identifier: hdsl2ShdslEndpointCurrAtn.1.1.1.2 might return hdsl2ShdslEndpointCurrAtn.1.1.1.3 = 0 with a G.shdsl.bis unit and hdsl2ShdslEndpointCurrSnrMgn.1.1.1.1 = 0 with an HDSL2 unit as these objects are indexed by INDEX { ifIndex, hdsl2ShdslInvIndex, hdsl2ShdslendpointSide, hdsl2ShdslEndpointWirePair } A management application intended to manage G.shdsl.bis agents SHOULD be modified to accept this sequence. One should note that this same unmodified management application is still capable of managing G.shdsl.bis agents albeit to the degree of G.SHDSL (non-bis) limitations. That is, it can create and monitor configurations limited to two wire pairs with an upper-rate limit of 4112000 bits/second. 5. Security Considerations There are a number of management objects defined in this MIB module with a MAX-ACCESS clause of read-write and/or read-create. 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. These are the tables and objects and their sensitivity/vulnerability: o hdsl2ShdslSpanConfTable The table consists of the following objects that support SET operations: * hdsl2ShdslSpanConfNumRepeaters * hdsl2ShdslSpanConfProfile * hdsl2ShdslSpanConfAlarmProfile Unauthorized changes to hdsl2ShdslSpanConfNumRepeaters could result in an hdsl2ShdslSpanInvalidNumRepeaters notification. Note the discussion on hdsl2ShdslSpanInvalidNumRepeaters in the Notifications section above. Unauthorized changes to hdsl2ShdslSpanConfProfile could have an adverse operational effect on a span. Reference the hdsl2ShdslSpanConfProfileTable discussion below. Unauthorized changes to hdsl2ShdslSpanConfAlarmProfile could have a contrary effect on notifications. Reference the hdsl2ShdslEndpointAlarmConfProfileTable discussion below. o hdsl2ShdslEndpointConfTable This table contains one object, hdsl2ShdslEndpointAlarmConfProfile, that supports SET operations. Unauthorized changes could have an undesirable notifications. Reference the hdsl2ShdslEndpointAlarmConfProfileTable discussion below. o hdsl2ShdslEndpointMaintTable The table consists of the following objects that support SET operations: * hdsl2ShdslMaintLoopbackConfig * hdsl2ShdslMaintPowerBackoff * hdsl2ShdslMaintSoftRestart Unauthorized changes to hdsl2ShdslMaintLoopbackConfig could prevent end-to-end data transfer due to an activation of a loopback. Unauthorized changes to hdsl2ShdslMaintPowerBackoff could result in an increased in bundle interference. Unauthorized changes to hdsl2ShdslMaintSoftRestart could result in a temporary interruption of end-to-end data transfer as the result of the triggering of a soft restart. o hdsl2ShdslUnitMaintTable This table contains one object, hdsl2ShdslMaintLoopbackTimeout, that supports SET operations. An unauthorized change to this object could result in the timeout value for loopbacks being increased, decreased, or disabled. o hdsl2ShdslSpanConfProfileTable The table consists of the following objects that support SET operations: * hdsl2ShdslSpanConfWireInterface * hdsl2ShdslSpanConfMinLineRate * hdsl2ShdslSpanConfMaxLineRate * hdsl2ShdslSpanConfPSD * hdsl2ShdslSpanConfTransmissionMode * hdsl2ShdslSpanConfRemoteEnabled * hdsl2ShdslSpanConfPowerFeeding * hdsl2ShdslSpanConfCurrCondTargetMarginDown * hdsl2ShdslSpanConfWorstCaseTargetMarginDown * hdsl2ShdslSpanConfCurrCondTargetMarginUp * hdsl2ShdslSpanConfWorstCaseTargetMarginUp * hdsl2ShdslSpanConfUsedTargetMargins * hdsl2ShdslSpanConfReferenceClock * hdsl2ShdslSpanConfLineProbeEnable * hdsl2ShdslSpanConfProfileRowStatus Setting any of the objects to an incorrect value could have an adverse operational effect on a span. Unauthorized changes to the hdsl2ShdslSpanConfWireInterface could result in the failure of a span to achieve activation to a state that would permit data flow. For example, setting this object to six-wire or eight-wire operation when one of the units in the span only supports two-wire or four-wire operation would likely prevent an expected end-to-end data transfer capability. Unauthorized changes to hdsl2ShdslSpanConfMinLineRate or hdsl2ShdslSpanConfMaxLineRate could have an adverse effect on performance. The range of allowable line rates could be altered such that the span may not be able to train to a line rate that would permit any end-user data to traverse the span or the span could train to a line rate that is either greater than or less than the line rate that the provider has pledged. Unauthorized changes to hdsl2ShdslSpanConfPSD or hdsl2ShdslSpanConfTransmissionMode could have a detrimental effect on loop reach, performance, or spectral compatibility. Unauthorized changes to hdsl2ShdslSpanConfRemoteEnable could alter the remote management ability of units. Unauthorized changes to hdsl2ShdslSpanConfPowerFeeding could shutdown units that are expected to be fed power remotely. Changing the configuration such that wetting current is not supplied may result in corrosion of electrical contacts. Unauthorized changes to hdsl2ShdslSpanConfCurrCondTargetMarginDown, hdsl2ShdslSpanConfWorstCaseTargetMarginDown, hdsl2ShdslSpanConfCurrCondTargetMarginUp, hdsl2ShdslSpanConfWorstCaseTargetMarginUp, or hdsl2ShdslSpanConfUsedTargetMargins could result in invalid parameters used to determine if a data rate can be supported under current and worst-case noise. Unauthorized changes to hdsl2ShdslSpanConfReferenceClock could result in the selection of a clock source that might either prevent any data from being transferred or impair data transfer. In addition, an increase in CRC anomalies may be experienced. Unauthorized changes to hdsl2ShdslSpanConfLineProbeEnable could have a negative effect on selecting the optimum rate or power level based on current line conditions. Unauthorized changes to row status could result in unwanted profiles being created or brought into service. Also, changes to the row status could result in profiles being inadvertently deleted or taken out of service. o hdsl2ShdslEndpointAlarmConfProfileTable The table consists of the following objects that support SET operations: * hdsl2ShdslEndpointThreshLoopAttenuation * hdsl2ShdslEndpointThreshSNRMargin * hdsl2ShdslEndpointThreshES * hdsl2ShdslEndpointThreshSES * hdsl2ShdslEndpointThreshCRCanomalies * hdsl2ShdslEndpointThreshLOSWS * hdsl2ShdslEndpointThreshUAS * hdsl2ShdslEndpointAlarmConfProfileRowStatus Increasing any of the threshold values could result in a notification being suppressed or deferred. Setting a threshold to 0 could result in a notification being suppressed. Suppressing or deferring a notification could prevent the timely delivery of important diagnostic information. Decreasing any of the threshold values could result in a notification being sent from the network falsely reporting a threshold crossing. Changing a threshold value could also have an impact on the amount of notifications the agent sends. This document adds a paragraph, which was not in RFC 3276 [RFC3276], to the Notifications section that provides general guidance to the rate limiting of notifications. Agent implementations not adhering to the rate- limiting desires could result in notifications being generated at an uncontrolled rate. Unauthorized changes to a threshold value could result in an undesired notification rate. Unauthorized changes to row status could result in unwanted profiles being created or brought into service. Also, changes to the row status could result in profiles being inadvertently deleted or taken out of service. Some of the readable objects in this MIB module (i.e., objects with a MAX-ACCESS other than not-accessible) may be considered sensitive or vulnerable in some network environments. 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. These are the tables and objects and their sensitivity/vulnerability: o hdsl2ShdslInventoryTable Access to these objects would allow an intruder to obtain information about which vendor's equipment is in use on the network. Further, such information is considered sensitive in many environments for competitive reasons. * hdsl2ShdslInvVendorID * hdsl2ShdslInvVendorModelNumber * hdsl2ShdslInvVendorSerialNumber * hdsl2ShdslInvVendorEOCSoftwareVersion * hdsl2ShdslInvStandardVersion * hdsl2ShdslInvVendorListNumber * hdsl2ShdslInvVendorIssueNumber * hdsl2ShdslInvVendorSoftwareVersion * hdsl2ShdslInvEquipmentCode * hdsl2ShdslInvVendorOther * hdsl2ShdslInvTransmissionModeCapability 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 this MIB module. It is RECOMMENDED that implementers consider the security features as provided by the SNMPv3 framework (see [RFC3410], Section 8), including full support for the SNMPv3 cryptographic mechanisms (for authentication and privacy). Further, 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 this 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. 6. Acknowledgements The authors are deeply grateful to the authors of the ADSL LINE MIB (RFC 2662 [RFC2662]), Gregory Bathrick and Faye Ly, as much of the text and structure of this document originate in their documents. The authors are also grateful to the authors of FR MFR MIB (RFC 3020 [RFC3020]), Prayson Pate, Bob Lynch, and Kenneth Rehbehn, as the majority of the Security Considerations section was lifted from their document. The authors also acknowledge the importance of the contributions and suggestions regarding interface indexing structures received from David Horton of CITR. The authors are extremely thankful to Bert Wijnen, Randy Presuhn, and C. M. Heard for their extensive review and the many suggestions they provided. Other contributions were received from the following: Matt Beanland (Extel Communications) Philip Bergstresser (Adtran) Steve Blackwell (Centillium) Umberto Bonollo (NEC Australia) John Egan (Metalink BroadBand) Yagal Hachmon (RAD) Mark Johnson (Red Point) Sharon Mantin (Orckit) Moti Morgenstern (ECI) Raymond Murphy (Ericsson) Lee Nipper (Verilink) Randy Presuhn (BMC Software) Katy Sherman (Orckit) Mike Sneed (ECI) Jon Turney (DSL Solutions) Aron Wahl (Memotec) Bert Wijnen (Lucent) Jim Wilson (for Mindspeed) Michael Wrobel (Memotec) 7. References 7.1. Normative References [G.991.2] Blackwell, S., "Single-Pair High-Speed Digital Subscriber Line (SHDSL) Transceivers", ITU-T G.991.2, December 2003. [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [RFC2578] McCloghrie, K., Perkins, D., and J. Schoenwaelder, "Structure of Management Information Version 2 (SMIv2)", STD 58, RFC 2578, April 1999. [RFC2579] McCloghrie, K., Perkins, D., and J. Schoenwaelder, "Textual Conventions for SMIv2", STD 58, RFC 2579, April 1999. [RFC2580] McCloghrie, K., Perkins, D., and J. Schoenwaelder, "Conformance Statements for SMIv2", STD 58, RFC 2580, April 1999. [RFC2863] McCloghrie, K. and F. Kastenholz, "The Interfaces Group MIB", RFC 2863, June 2000. [RFC3411] Harrington, D., Presuhn, R., and B. Wijnen, "An Architecture for Describing Simple Network Management Protocol (SNMP) Management Frameworks", STD 62, RFC 3411, December 2002. [RFC3593] Tesink, K., "Textual Conventions for MIB Modules Using Performance History Based on 15 Minute Intervals", RFC 3593, September 2003. [T1E1.4] American National Standards Institute, "ANSI T1E1.4/2000- 006", February 2000. 7.2. Informative References [RFC2662] Bathrick, G. and F. Ly, "Definitions of Managed Objects for the ADSL Lines", RFC 2662, August 1999. [RFC3020] Pate, P., Lynch, B., and K. Rehbehn, "Definitions of Managed Objects for Monitoring and Controlling the UNI/NNI Multilink Frame Relay Function", RFC 3020, December 2000. [RFC3276] Ray, B. and R. Abbi, "Definitions of Managed Objects for High Bit-Rate DSL - 2nd generation (HDSL2) and Single-Pair High-Speed Digital Subscriber Line (SHDSL) Lines Processing", RFC 3276, May 2002. [RFC3410] Case, J., Mundy, R., Partain, D., and B. Stewart, "Introduction and Applicability Statements for Internet- Standard Management Framework", RFC 3410, December 2002. [RFC3418] Presuhn, R., "Management Information Base (MIB) for the Simple Network Management Protocol (SNMP)", STD 62, RFC 3418, December 2002. Authors' Addresses Clay Sikes Zhone Technologies, Inc. Florida Design Center 8454 126th Ave. N. Largo, FL 33773 US Phone: +1 727 530 8257 Fax: +1 727 532 5698 EMail: csikes@zhone.com Bob Ray PESA Switching Systems, Inc. 330-A Wynn Drive Huntsville, AL 35805 US Phone: +1 256 726 9200 ext. 142 Fax: +1 256 726 9271 EMail: rray@pesa.com Rajesh Abbi Alcatel USA 2301 Sugar Bush Road Raleigh, NC 27612 US Phone: +1 919-850-6194 Fax: +1 919-850-6670 EMail: Rajesh.Abbi@alcatel.com Full Copyright Statement Copyright (C) The Internet Society (2005). This document is subject to the rights, licenses and restrictions contained in BCP 78, and except as set forth therein, the authors retain all their rights. This document and the information contained herein are provided on an "AS IS" basis and THE CONTRIBUTOR, THE ORGANIZATION HE/SHE REPRESENTS OR IS SPONSORED BY (IF ANY), THE INTERNET SOCIETY AND THE INTERNET ENGINEERING TASK FORCE DISCLAIM ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Intellectual Property The IETF takes no position regarding the validity or scope of any Intellectual Property Rights or other rights that might be claimed to pertain to the implementation or use of the technology described in this document or the extent to which any license under such rights might or might not be available; nor does it represent that it has made any independent effort to identify any such rights. Information on the procedures with respect to rights in RFC documents can be found in BCP 78 and BCP 79. Copies of IPR disclosures made to the IETF Secretariat and any assurances of licenses to be made available, or the result of an attempt made to obtain a general license or permission for the use of such proprietary rights by implementers or users of this specification can be obtained from the IETF on-line IPR repository at http://www.ietf.org/ipr. The IETF invites any interested party to bring to its attention any copyrights, patents or patent applications, or other proprietary rights that may cover technology that may be required to implement this standard. Please address the information to the IETF at ietf- ipr@ietf.org. Acknowledgement Funding for the RFC Editor function is currently provided by the Internet Society.
EID 838 (Verified) is as follows:

Section: 99

Original Text:

after studying the recently published RFC 4319 authored by you
I'd like to report the textual issues I found in that memo.  

I use change bars '|' in column 1 and '^^^' / 'vvv' style tags on 
extar lines to emphasize the location of the textual issues and/or    
the proposed corrections.
If necessary, I also have adjusted the line folding of proposed 
text to keep it conformant with RFC formatting rules.


(1)

Apparently, Figure 2 on page 10 has not been adapted from RFC 3276
to remain aligned with the extensions covered by RFC 4319.      
To keep the changes minimal, I propose to just amend the Figure         
caption, replacing:

       Key:  <////> HDSL2/SHDSL span
             <~~~~> HDSL2/SHDSL segment
             =1=    HDSL2/SHDSL wire-pair-1
             =2=    SHDSL optional wire-pair-2 (Not applicable to HDSL2)
             C      Customer side segment endpoint (modem)
             N      Network side segment endpoint (modem)             

by:

       Key:  <////> HDSL2/SHDSL span
             <~~~~> HDSL2/SHDSL segment
             =1=    HDSL2/SHDSL wire-pair-1
|            =2=    SHDSL optional wire-pair-2 (not applicable to HDSL2)
|                   and SHDSL.bis optional wire-pair-3 and wire-pair-4
|                   (not applicable to HDSL2 and 'classic' SHDSL)
             C      Customer side segment endpoint (modem)
             N      Network side segment endpoint (modem)


(2)

Section 2.7, on page 11, contains a bulleted list with two entries.
It turns out that the second (indented) paragraph of the 2nd bullet
in fact applies to both entries and hence should
  -  not be indented so much, and
  -  be adapted for plural grammar.
Thus, the paragraph saying:
                            vvv      vv
      The index value for this profile is a locally-unique
      administratively-assigned name for the profile having the textual
      convention 'SnmpAdminString' (RFC 3411 [RFC3411]).

should be modified to say:
                         vvv       vv
|  The index value for these profiles is a locally-unique
|  administratively-assigned name for the profile having the textual
|  convention 'SnmpAdminString' (RFC 3411 [RFC3411]).


(3)

The REVISION / DESCRIPTION clause pairs in MODULE-IDENTITY macro
invocations preferrably should be formulated in an 'update-friendly'
manner, i.e. such that the text does not need to be modified when
another revision of the MIB module is published in the future.

Therefore, I propose to change the DESCRIPTION clause for the
RFC 4319 revision of the HDSL2-SHDSL-LINE-MIB, at the bottom of
page 15 to follow this requirement.
The text there contains improper wording as well, the correction
of which justifies a combined Erratum entry.
Hence, the lines:

   REVISION    "200512070000Z" -- December 7, 2005
   DESCRIPTION "This version, published as RFC 4319.
         The following changes have been made in this version:
           1.  Added a 3rd and 4th wire pair.
           2.  Modified all rates such that their rates are only
               constrained by an unsigned 32-bit value and not by
               what today's perceived technology limitations are.

should be changed to say:

   REVISION    "200512070000Z" -- December 7, 2005
|  DESCRIPTION "Revised version, published as RFC 4319.
         The following changes have been made in this version:
           1.  Added a 3rd and 4th wire pair.
|          2.  Modified all rates such that they are only
               constrained by an unsigned 32-bit value and not by
               what today's perceived technology limitations are.


(3)

On page 16 (lower half), the 2nd paragraph of the DESCRIPTION clause
of the Hdsl2ShdslPerfCurrDayCount TEXTUAL-CONVENTION contains a mis-
spelled syntax name (of another TEXTUAL-CONVENTION).

The sentence,

                                [ ... ]  At that time, the value of the
         gauge is stored in the previous 1-day history interval, as
         defined in a companion object of type
         Hdsl2Shdsl1DayIntevalCount, and the current interval gauge
         is restarted at zero.

should say:

                                [ ... ]  At that time, the value of the
         gauge is stored in the previous 1-day history interval, as
         defined in a companion object of type
|        Hdsl2Shdsl1DayIntervalCount, and the current interval gauge
         is restarted at zero.
                           ^


(4)

On page 17 (lower half), the DESCRIPTION clause of the
Hdsl2ShdslPerfIntervalThreshold TEXTUAL-CONVENTION suffers from the
lack of a verb in its 2nd sentence.
The paragraph,

        "This convention defines a range of values that may be set in
         a fault threshold alarm control.  As the number of seconds in
         a 15-minute interval numbers at most 900, objects of this type
         may have a range of 0...900, where the value of 0 disables the
         alarm."

should say:

        "This convention defines a range of values that may be set in
         a fault threshold alarm control.  As the number of seconds in
|        a 15-minute interval numbers is at most 900, objects of this
         type may have a range of 0...900, where the value of 0 disables
         the alarm."


(5)

On page 18, there is a word omission in the DESCRIPTION clause of the
Hdsl2ShdslWirePair TEXTUAL-CONVENTION.
The paragraph,

        "This is the referenced pair of wires in an HDSL2/SHDSL segment.
         HDSL2 only supports a single pair (wirePair1 or two wire),
         SHDSL lines support an optional second pair (wirePair2 or four
         wire), and G.shdsl.bis support an optional third pair
         (wirePair3 or six wire) and an optional fourth pair
         (wirePair4 or eight wire)."

should say:

        "This is the referenced pair of wires in an HDSL2/SHDSL segment.
         HDSL2 only supports a single pair (wirePair1 or two wire),
         SHDSL lines support an optional second pair (wirePair2 or four
|        wire), and G.shdsl.bis lines support an optional third pair
         (wirePair3 or six wire) and an optional fourth pair
         (wirePair4 or eight wire)."


(6)

On pages 45..49 it would be very useful to have REFERENCE clauses
added to the OBJECT-TYPE declarations for the technology specific
objects in the Span Configuration Profile Table (similarly to what
has been done for the OBJECT-TYPE declarations for the objects in
the Unit Inventory Group, on pp. 24..27).


(7)

The DESCRIPTION clause of the hdsl2ShdslSpanConfMinLineRate OBJECT-
TYPE declaration contains a reference to a truncated object name.

That clause says:

        "This object configures the minimum transmission rate for
         the associated SHDSL Line in bits-per-second (bps) and includes
         both payload (user data) and any applicable framing overhead.
         If the minimum line rate equals the maximum line rate
         (hdsl2ShdslSpanMaxLineRate), the line rate is considered
         'fixed'.  If the minimum line rate is less than the
         maximum line rate, the line rate is considered
         'rate-adaptive'."

It should say:

        "This object configures the minimum transmission rate for
         the associated SHDSL Line in bits-per-second (bps) and includes
         both payload (user data) and any applicable framing overhead.
         If the minimum line rate equals the maximum line rate
|        (hdsl2ShdslSpanConfMaxLineRate), the line rate is considered
         'fixed'.  If the minimum line rate is less than the
         maximum line rate, the line rate is considered
         'rate-adaptive'."


(8)

The DESCRIPTION clauses of OBJECT-TYPE declarations preferrably
should be 'self-centric', i.e. describe context as seen from
the respective object. Therefore, text replications from one object
to another object without proper adaptation are sub-optimal, at best.
In particular, referencing an object within its DESCRIPTION clause
by name, while omitting to call another object (referenced there)
by its name does not add much to the clarity of the DESCRIPTION.

Therefore, I propose to slightly modify the DESCRIPTION clause of
the hdsl2ShdslSpanConfMaxLineRate OBJECT-TYPE declaration, on top
of page 46.  This clause is affected by issue (7) as well.

The clause says:

        "This object configures the maximum transmission rate for
         the associated SHDSL Line in bits-per-second (bps) and includes
         both payload (user data) and any applicable framing overhead.
         If the minimum line rate equals the maximum line rate
         (hdsl2ShdslSpanMaxLineRate), the line rate is considered
         'fixed'.  If the minimum line rate is less than the
         maximum line rate, the line rate is considered
         'rate-adaptive'."

It better should say:

        "This object configures the maximum transmission rate for
         the associated SHDSL Line in bits-per-second (bps) and includes
         both payload (user data) and any applicable framing overhead.
|        If the minimum line rate (hdsl2ShdslSpanConfMinLineRate) equals
|        the maximum line rate the line rate is considered 'fixed'.
         If the minimum line rate is less than the maximum line rate,
         the line rate is considered 'rate-adaptive'."


(9)

On pages 47/48, the DESCRIPTION clauses for the four objects:
    hdsl2ShdslSpanConfCurrCondTargetMarginDown,
    hdsl2ShdslSpanConfWorstCaseTargetMarginDown,
    hdsl2ShdslSpanConfCurrCondTargetMarginUp,  and
    hdsl2ShdslSpanConfWorstCaseTargetMarginUp
contain mainly identical text.  This emphasizes the similarities
between these objects but leaves the reader alone as to the use and
differing purpose of the objects.  It would be very desirable to
have additional expanatory text added to these four descriptions
to clarify the intended use (e.g., as an alarm limit).

    

Corrected Text:

[see above]  
Notes:
from pending