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xDSL multi-pair bonding (G.Bond) MIB
draft-ietf-adslmib-gbond-mib-09

The information below is for an old version of the document.
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This is an older version of an Internet-Draft that was ultimately published as RFC 6765.
Authors Edward Beili , Moti Morgenstern
Last updated 2012-03-07 (Latest revision 2012-02-13)
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Send notices to adslmib-chairs@tools.ietf.org, scott.baillie@nec.com.au, edward.beili@actelis.com, moti.Morgenstern@ecitele.com, umberto.bonollo@nec.com.au, draft-ietf-adslmib-gbond-mib@tools.ietf.org
draft-ietf-adslmib-gbond-mib-09
Network Working Group                                           E. Beili
Internet-Draft                                          Actelis Networks
Intended status: Standards Track                          M. Morgenstern
Expires: August 16, 2012                                     ECI Telecom
                                                            Feb 13, 2012

                  xDSL multi-pair bonding (G.Bond) MIB
                  draft-ietf-adslmib-gbond-mib-09.txt

Abstract

   This document defines Management Information Base (MIB) module for
   use with network management protocols in TCP/IP-based internets.
   This document proposes an extension to the Interfaces Group MIB with
   a set of common objects for managing multi-pair bonded Digital
   Subscriber Line (xDSL) interfaces, defined in ITU-T recommendations
   G.998.1, G.998.2 and G.998.3.  The MIB modules specific to each
   bonding technology are defined in GBOND-ATM-MIB, GBOND-ETH-MIB and
   GBOND-TDIM-MIB respectively.

Status of This Memo

   This Internet-Draft is submitted in full conformance with the
   provisions of BCP 78 and BCP 79.

   Internet-Drafts are working documents of the Internet Engineering
   Task Force (IETF).  Note that other groups may also distribute
   working documents as Internet-Drafts.  The list of current Internet-
   Drafts is at http://datatracker.ietf.org/drafts/current/.

   Internet-Drafts are draft documents valid for a maximum of six months
   and may be updated, replaced, or obsoleted by other documents at any
   time.  It is inappropriate to use Internet-Drafts as reference
   material or to cite them other than as "work in progress."

   This Internet-Draft will expire on August 16, 2012.

Copyright Notice

   Copyright (c) 2012 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

   This document is subject to BCP 78 and the IETF Trust's Legal
   Provisions Relating to IETF Documents
   (http://trustee.ietf.org/license-info) in effect on the date of
   publication of this document.  Please review these documents
   carefully, as they describe your rights and restrictions with respect

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   to this document.  Code Components extracted from this document must
   include Simplified BSD License text as described in Section 4.e of
   the Trust Legal Provisions and are provided without warranty as
   described in the Simplified BSD License.

Table of Contents

   1.  Introduction . . . . . . . . . . . . . . . . . . . . . . . . .  3
   2.  The Internet-Standard Management Framework . . . . . . . . . .  4
   3.  The DSL Forum Management Framework for xDSL Bonding  . . . . .  4
   4.  Relationship to Other MIB modules  . . . . . . . . . . . . . .  4
     4.1.  Relationship to Interfaces Group MIB module  . . . . . . .  5
       4.1.1.  Layering Model . . . . . . . . . . . . . . . . . . . .  5
       4.1.2.  xDSL Bonding . . . . . . . . . . . . . . . . . . . . .  7
       4.1.3.  Discovery Operation  . . . . . . . . . . . . . . . . .  7
       4.1.4.  G.Bond ports initialization  . . . . . . . . . . . . .  9
       4.1.5.  Usage of ifTable . . . . . . . . . . . . . . . . . . . 10
     4.2.  Relationship to G.Bond ATM, ETH and TDIM MIB modules . . . 11
     4.3.  Relationship to xDSL MIB modules . . . . . . . . . . . . . 12
   5.  MIB Structure  . . . . . . . . . . . . . . . . . . . . . . . . 12
     5.1.  Overview . . . . . . . . . . . . . . . . . . . . . . . . . 12
     5.2.  Performance Monitoring . . . . . . . . . . . . . . . . . . 12
     5.3.  Mapping of DSL Forum TR-159 Managed Objects  . . . . . . . 13
   6.  xDSL Multi-pair Bonding MIB Definitions  . . . . . . . . . . . 17
   7.  Security Considerations  . . . . . . . . . . . . . . . . . . . 62
   8.  IANA Considerations  . . . . . . . . . . . . . . . . . . . . . 63
   9.  Acknowledgments  . . . . . . . . . . . . . . . . . . . . . . . 63
   10. References . . . . . . . . . . . . . . . . . . . . . . . . . . 64
     10.1. Normative References . . . . . . . . . . . . . . . . . . . 64
     10.2. Informative References . . . . . . . . . . . . . . . . . . 65

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1.  Introduction

   The xDSL Multi-Pair Bonding, allows a service provider to provide
   high bandwidth services to business and residential customers over
   multiple xDSL lines, with greater speed and resiliency, than the
   service over a single xDSL line, bridging the gap between xDSL and
   fiber-based transport.

   There are three xDSL Multi-Pair Bonding schemes, also known under
   collective name G.Bond:

   o  The ATM-Based Multi-Pair Bonding, specified in ITU-T G.998.1
      recommendation [G.998.1], which defines a method for bonding (or
      aggregating) of multiple xDSL lines (or individual bearer channels
      in multiple xDSL lines) into a single bi-directional logical link
      carrying an ATM stream.  This specification can be viewed as an
      evolution of the legacy Inverse Multiplexing over ATM (IMA)
      technology [af-phy-0086], applied to xDSL with variable rates on
      each line/bearer channel.

   o  The Ethernet-Based Multi-Pair Bonding, specified in ITU-T G.998.2
      recommendation [G.998.2], which defines a method for bonding (or
      aggregating) of multiple xDSL lines (or individual bearer channels
      in multiple xDSL lines) into a single bi-directional logical link
      carrying an Ethernet stream.  This specification can be viewed as
      IEEE 802.3-2005 [802.3] Clause 61 Physical Medium Entity (PME)
      Aggregation, generalized to work over any xDSL technology
      (2Base-TL and 10Pass-TS interfaces defined by IEEE use G.SHDSL and
      VDSL technology respectively).

   o  The Multi-pair bonding using time-division inverse multiplexing
      (TDIM), specified in ITU-T G.998.3 recommendation [G.998.3], which
      defines a method for bonding (or aggregating) of multiple xDSL
      lines into a single bi-directional logical link carrying a mix of
      various traffic streams (e.g., Ethernet, ATM, TDM).

   Architecturally all three bonding schemes define a new "bonded"
   Transport Protocol Specific - Transmission Convergence (TPS-TC) sub-
   layer, stacked above multiple ATM-TC, Ethernet/PTM-TC or STM-TC
   (clear channel) sub-layers for the ATM, Ethernet or TDIM bonding
   respectively.  Each underlying TPS-TC sub-layer represents a protocol
   specific interface to an xDSL line or an individual bearer channel of
   an xDSL line.  Bonding of multiple bearer channels in the same xDSL
   line is not allowed.

   All schemes allow bonding of up to 32 individual line/channel sub-
   layers with variable rates, providing common functionality for the
   configuration, initialization, operation and monitoring of the bonded

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   link.

   This document defines a MIB module common to all 3 schemes.
   Additional managed objects, specific to each bonding technology, are
   defined in GBOND-ATM-MIB [I-D.ietf-adslmib-gbond-atm-mib], GBOND-ETH-
   MIB [I-D.ietf-adslmib-gbond-eth-mib] and GBOND-TDIM-MIB
   [I-D.ietf-adslmib-gbond-tdim-mib] modules.

2.  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 document 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", "NOT RECOMMENDED", "MAY", and
   "OPTIONAL" in this document are to be interpreted as described in RFC
   2119 [RFC2119].

3.  The DSL Forum Management Framework for xDSL Bonding

   This document makes use of the DSL Forum technical report Management
   Framework for xDSL Bonding [TR-159], defining a management model and
   a hierarchy of management objects for the bonded xDSL interfaces.

4.  Relationship to Other MIB modules

   This section outlines the relationship of the MIB modules defined in
   this document with other MIB modules described in the relevant RFCs.
   Specifically, the following MIB modules are discussed: Interfaces
   Group MIB (IF-MIB), Inverse Stack Table MIB (IF-INVERTED-STACK-MIB)
   Interface Stack Capability MIB (IF-CAP-STACK-MIB), G.Bond scheme
   specific modules: G.Bond/ATM (GBOND-ATM-MIB), G.Bond/Ethernet (GBOND-
   ETH-MIB) and G.Bond/TDIM (GBOND-TDIM-MIB), and DSL specific MIB
   modules: ADSL (ADSL-LINE-EXT-MIB), ADSL2 (ADSL2-LINE-MIB), SHDSL
   (HDSL2-SHDSL-LINE-MIB), VDSL (VDSL-LINE-MIB) and VDSL2 (VDSL2-LINE-
   MIB).

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4.1.  Relationship to Interfaces Group MIB module

   A bonded xDSL port is a stacked (a.k.a. aggregated or bonded)
   interface and as such is managed using generic interface management
   objects defined in the IF-MIB [RFC2863].

   The stack management, i.e., actual connection of the sub-layers to
   the top layer interface, is done via the ifStackTable, as defined in
   the IF-MIB [RFC2863] and its inverse ifInvStackTable, as defined in
   the IF-INVERTED-STACK-MIB [RFC2864].

   The ifCapStackTable and its inverse ifInvCapStackTable defined in the
   IF-CAP-STACK-MIB [RFC5066], extend the stack management with an
   ability to describe possible connections or cross-connect capability,
   when a flexible cross-connect matrix is present between the interface
   layers.

4.1.1.  Layering Model

   A G.Bond interface can aggregate up to 32 channel sub-layers, with
   each channel representing an xDSL line or an xDSL bearer channel.
   For the purpose of brevity we will refer to the bonded interface as
   Generic Bonded Sub-layer (GBS) and to the channel sub-layer as
   Bonding Channel Entity (BCE).

   A generic G.Bond device can have a number of GBS ports, each
   connected to a particular upper layer (e.g., Media Access Control
   (MAC) interface for G.998.2 scheme), while simultaneously cross-
   connected to a number of underlying BCEs, with a single GBS per BCE
   relationship.

   A GBS port is represented in the Interface table (ifTable) as a
   separate interface with an ifType of g9981(263), g9982(264) or
   g9983(265) for a particular bonding scheme.

   Each BCE in the aggregated GBS port is represented in the ifTable as
   a separate interface with an ifType relevant to a particular xDSL
   technology, e.g., shdsl(169) or vdsl(97).  The ifType values are
   defined in [IANAifType-MIB].

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   The following figure shows the layering diagram and corresponding use
   of ifTable for the bonded xDSL interfaces:

   .-----------------------------.  -
   |            GBS              |  ^ 1 ifEntry
   |          (TPS-TC)           |  v     ifType: g9981(263), g9982(264)
   +-----------------+---+-------+  -             or g9983(265)
   | TPS-TC \        |   |       |  ^
   +---------\       |   |       |  | N ifEntry  (N=1..32)
   | PMS-TC   )BCE 1 |...| BCE N |  )     ifType: adsl(94), shdsl(169),
   +---------/       |   |       |  |             vdsl(97), vdsl2(251),
   | PMD    /        |   |       |  v             etc.
   '-----------------+---+-------'  -

    BCE    - Bonding Channel Entity
    GBS    - Generic Bonded Sub-layer
    PMD    - Physical Medium Dependent
    TPS-TC - Transport Protocol Specific - Transmission Convergence
    PMS-TC - Physical Media Specific - Transmission Convergence

            Figure 1: Use of ifTable for bonded xDSL interfaces

   The ifStackTable is indexed by the ifIndex values of the aggregated
   G.Bond port (GBS) and the BCEs connected to it. ifStackTable allows a
   Network Management application to determine which BCEs are connected
   to a particular GBS and change connections (if supported by the
   application).  The ifInvStackTable, being an inverted version of the
   ifStackTable, provides an efficient means for a Network Management
   application to read a subset of the ifStackTable and thereby
   determine which GBS runs on top of a particular BCE.

   The ifCapStackTable defined in the IF-CAP-STACK-MIB module, specifies
   for each higher-layer interface (e.g., GBS port) a list of lower-
   layer interfaces (e.g., BCEs), which can possibly be cross-connected
   to that higher-layer interface, determined by the cross-connect
   capability of the device.  This table, modeled after ifStackTable, is
   read only, reflecting current cross-connect capability of a stacked
   interface, which can be dynamic in some implementations (e.g., if
   xDSL lines are located on a pluggable module and the module is pulled
   out).  Note that BCE availability per GBS, described by
   ifCapStackTable, can be constrained by other parameters, for example
   by aggregation capacity of a GBS or by the BCE in question being
   already connected to another GBS.  So, in order to ensure that a
   particular BCE can be connected to the GBS, all respective parameters
   (e.g., ifCapStackTable, ifStackTable and gBondPortCapCapacity) SHALL
   be inspected.

   The ifInvCapStackTable, also defined in the IF-CAP-STACK-MIB module,

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   describes which higher-layer interfaces (e.g., GBS ports) can
   possibly be connected to a particular lower-layer interface (e.g.,
   BCE), providing inverted mapping of ifCapStackTable.  While it
   contains no additional information beyond that already contained in
   the ifCapStackTable, the ifInvCapStackTable has the ifIndex values in
   its INDEX clause in the reverse order, i.e., the lower-layer
   interface first, and the higher-layer interface second, providing
   efficient means for a Network Management application to read a subset
   of the ifCapStackTable and thereby determine which interfaces can be
   connected to run on top of a particular interface.

4.1.2.  xDSL Bonding

   The G.998.x Bonding allows a number of BCEs to be aggregated onto a
   single logical GBS port, by splitting the incoming traffic into
   multiple streams, transmitting each stream over a specific BCE and
   combining the streams at the remote GBS port, preserving the original
   traffic order.

   The Ethernet frames MAY be fragmented before the transmission and
   reassembled at the remote end to minimize transportation delay.

   The Bonding is OPTIONAL, meaning that a device with a single BCE MAY
   perform fragmentation and re-assembly if this function is supported
   by the device.  The agent is REQUIRED to indicate the Bonding
   capability for all types of G.Bond ports (ATM, Ethernet and TDIM).

   The GBOND-MIB module allows a Network Management application to query
   Bonding capability and enable/disable it if supported.  Note that
   enabling Bonding effectively turns on fragmentation and re-assembly
   function, even on a single-BCE port.

4.1.3.  Discovery Operation

   The G.Bond ports may optionally support discovery operation, whereby
   BCEs, during initialization, exchange information about their
   respective aggregation groups (GBS), via [G.994.1] handshake (G.hs)
   protocol.  This information can then be used to detect copper
   misconnections or for an automatic assignment of the local BCEs into
   aggregation groups instead of a fixed pre-configuration.

   The MIB module defined in this document allow a Network Management
   application to control G.Bond discovery mechanism and query its
   results.

   Two tables are used by the G.Bond discovery mechanism: ifStackTable
   and ifCapStackTable.  The following pseudo-code gives an example of
   the discovery and automatic BCE assignment for a generic multi-GBS

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   G.Bond device, located at Central Office (CO), using objects defined
   in this MIB module, IF-CAP-STACK-MIB and IF-MIB modules [Note that
   automatic BCE assignment is only shown here for the purposes of the
   example.  Fixed BCE pre-assignment, manual assignment or auto-
   assignment using an alternative internal algorithm may be chosen by a
   particular implementation]:

   // Go over all GBS ports in the CO device
   FOREACH gbs[i] IN CO_device
   { // Perform discovery and auto-assignment on GBS ports
     // with room for more Channels
     IF ( gbs[i].NumBCEs < gbs[i].BondCapacity )
     { // Assign a unique 6-octets local discovery code to the GBS
       // e.g., MAC address of the associated port or some other
       // unique number specifically allocated for this purpose.
       dc = gbs[i].DiscoveryCode = MAC[i];
       // Go over all disconnected Channels, which can
       // potentially be connected to the GBS
       FOREACH bce[j] IN ifCapStackTable[gbs[i]] AND
                      NOT IN ifStackTable[gbs[i]]  // not connected
       { // Try to grab the remote RT_device, by writing the value
         // of the local 6 Byte discovery code to the remote
         // discovery code register (via handshake mechanism).
         // This operation is atomic Set-if-Clear action, i.e., it
         // would succeed only if the remote discovery register was
         // zero. Read the remote discovery code register via Get
         // operation to see if the RT_device, attached via the BCE
         // is indeed marked as being the CO_device peer.
         bce[j].RemoteDiscoveryCode = dc;          // Set-if-Clear
         r = bce[j].RemoteDiscoveryCode;           // Get
         IF ( r == dc AND gbs[i].NumBCEs < gbs[i].BondCapacity)
         { // Remote RT_device connected via BCE[j] is/was a peer
           // for GBS[i] and there room for another BCE in the
           // GBS[i] aggregation group (max. Bonding capacity is
           // not reached yet).
           // Connect this BCE to the GBS (via ifStackTable,
           // ifInvStackTable being inverse of ifStackTable is
           // updated automatically, i.e., gbs[i] is auto-added
           // to ifInvStackTable[bce[j]])
           ADD bce[j] TO ifStackTable[gbs[i]];
           gbs[i].NumBCEs = gbs[i].NumBCEs + 1;
           // Discover all other disconnected BCEs,
           // attached to the same RT_device and connect them to
           // the GBS provided there is enough room for more BCEs.
           FOREACH bce[k] IN ifCapStackTable[gbs[i]] and
                          NOT IN ifStackTable[gbs[i]]
           { // Get Remote Discovery Code from the BCE to see if
             // it belongs to a connected RT_device "grabbed" by

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             // the CO_device.
             r = bce[k].RemoteDiscoveryCode;
             IF ( r == dc AND gbs[i].NumBCEs < gbs[i].BondCapacity)
             { // Physically connect the BCE to the GBS
               // (gbs[i] is auto-added TO ifInvStackTable[bce[k]])
               ADD bce[k] TO ifStackTable[gbs[i]];
               gbs[i].NumBCEs = gbs[i].NumBCEs + 1;
             }
           }
         }
         // At this point we have discovered all local BCEs which
         // are physically connected to the same remote RT_device
         // and connected them to GBS[i]. Go to the next GBS.
         BREAK;
       }
     }
   }

   An SNMP Agent for a G.Bond device builds ifCapStackTable and its
   inverse ifInvCapStackTable on device initialization, according to the
   cross-connect capabilities of the device.

   Adding a BCE to the ifStackTable row for a specific GBS, involves
   actual connection of the BCE to the GBS.

   Note that GBS port does not have to be operationally 'down' for the
   connection to succeed.  In fact, a dynamic BCE addition (and removal)
   MAY be implemented with an available BCE being initialized first (by
   setting its ifAdminStatus to 'up') and then added to an operationally
   'up' GBS port, by modifying a respective ifStackTable (and respective
   ifInvStackTable) entry.

   It is RECOMMENDED that a removal of the last operationally 'up' BCE
   from an operationally 'up' GBS, i.e. modification of a respective
   entry in ifStackTable and a corresponding entry in ifInvStackTable,
   would be rejected by the implementation (in case of SNMP with the
   error inconsistentValue), as this action would completely drop the
   link.

   In addition to the standard handshake-based discovery described
   above, [G.998.2] defines an optional frame-based discovery and pair
   management.  These frame-based methods are discussed in
   [I-D.ietf-adslmib-gbond-eth-mib].

4.1.4.  G.Bond ports initialization

   G.Bond ports being built on top of xDSL technology, require a lengthy
   initialization or 'training' process, before any data can pass.

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   During this initialization both ends of a link (peers) work
   cooperatively to achieve required data rate on a particular copper
   pair.  Sometimes, when the copper line is too long or the noise on
   the line is too high, that 'training' process may fail to achieve a
   specific target rate with required characteristics.

   The ifAdminStatus object from the IF-MIB, controls the desired state
   of a GBS with all the BCEs connected to it or of an individual BCE
   port.  Setting this object to 'up' instructs a particular GBS or a
   BCE to start initialization process, which may take tens of seconds
   for G.Bond ports.  The ifOperStatus object from the IF-MIB shows the
   operational state of an interface for GBS, extended by
   gBondPortStatFltStatus object defined in this document, and
   corresponding *Status object from a relevant xDSL line MIB for BCE
   interfaces.

   A disconnected BCE may be initialized by changing the ifAdminState
   from 'down' to 'up'.  Changing the ifAdminState to 'up' on the GBS
   initializes all BCEs connected to that particular GBS.  Note that in
   case of bonding some interfaces may fail to initialize while others
   succeed.  The GBS is considered operationally 'up' if at least one
   bonded BCE is operationally 'up'.  When all BCEs connected to the GBS
   are 'down' the GBS SHALL be considered operationally
   'lowerLayerDown'.  The GBS SHALL be considered operationally
   'notPresent' if it is not connected to any BCE.  The GBS/BCE
   interface SHALL remain operationally 'down' during initialization,
   indicated by 'init' value of the gBondPortStatFltStatus object.

4.1.5.  Usage of ifTable

   Both BCE and GBS interfaces are managed using interface specific
   management objects defined in the GBOND-MIB module and generic
   interface objects from the ifTable of IF-MIB, with all management
   table entries referenced by the interface index ifIndex.

   The following table summarizes G.Bond specific interpretations for
   some of the ifTable objects specified by the mandatory
   ifGeneralInformationGroup:

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   +---------------+---------------------------------------------------+
   | IF-MIB object | G.Bond interpretation                             |
   +---------------+---------------------------------------------------+
   | ifIndex       | Interface index. Note that each BCE and each GBS  |
   |               | in the G.Bond PHY MUST have a unique index, as    |
   |               | there are some GBS and BCE specific attributes    |
   |               | accessible only on the GBS or BCE level.          |
   +---------------+---------------------------------------------------+
   | ifType        | g9981(263), g9982(264) or g9983(265) for the ATM, |
   |               | Ethernet or TDIM GBS respectively, shdsl(169) for |
   |               | G.SHDSL BCE, vdsl(97) for VDSL BCE, etc.          |
   +---------------+---------------------------------------------------+
   | ifSpeed       | Operating data rate for the BCE. For the GBS it   |
   |               | is the sum of the current operating data rates of |
   |               | all BCEs in the aggregation group, without the    |
   |               | encapsulation overhead and G.Bond overhead, but   |
   |               | accounting for the Inter-Frame Gaps (IFG). When a |
   |               | GBS or a BCE is operating in an asymetrical       |
   |               | fashion (upstream data rate differs from the      |
   |               | downstream one) the lowest of the values is       |
   |               | shown.                                            |
   +---------------+---------------------------------------------------+
   | ifAdminStatus | Setting this object to 'up' instructs a           |
   |               | particular GBS (with all BCEs connected to it) or |
   |               | a BCE to start initialization process             |
   +---------------+---------------------------------------------------+
   | ifOperStatus  | A relevant *Status object from a particular line  |
   |               | MIB supplements the value of ifOperStatus for     |
   |               | BCEs. gBondPortStatFltStatus supplements the      |
   |               | value of ifOperStatus for GBS. Note that both     |
   |               | relevant objects shall be inspected to determine  |
   |               | the real operational status of a BCE/GBS port,    |
   |               | e.g. a GBS port may be operationally 'up' with    |
   |               | gBondPortStatFltStatus indicating lowRate(4)      |
   |               | fault condition, or 'down' with no gBond faults.  |
   +---------------+---------------------------------------------------+

             Table 1: G.Bond interpretation of IF-MIB objects

4.2.  Relationship to G.Bond ATM, ETH and TDIM MIB modules

   The MIB module defined in this document is common to all three G.998
   bonding schemes.  It MUST be used in conjunction with a bonding
   scheme-specific MIB module:

   o  GBOND-ATM-MIB [I-D.ietf-adslmib-gbond-atm-mib] for a G.998.1
      bonded interface.

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   o  GBOND-ETH-MIB [I-D.ietf-adslmib-gbond-eth-mib] for a G.998.2
      bonded interface.

   o  GBOND-TDIM-MIB [I-D.ietf-adslmib-gbond-tdim-mib] for a G.998.3
      bonded interface.

4.3.  Relationship to xDSL MIB modules

   Each xDSL technology is described in a relevant xDSL line MIB module:
   e.g., HDSL2-SHDSL-LINE-MIB [RFC4319] for G.SHDSL, ADSL-LINE-EXT-MIB
   [RFC3440] for ADSL, ADSL2-LINE-MIB [RFC4706] for ADSL2, VDSL-LINE-MIB
   [RFC3728] for VDSL or VDSL2-LINE-MIB [RFC5650] for VDSL2.

   These MIB moduless are used to manage individual xDSL lines/channels
   (BCEs).

5.  MIB Structure

5.1.  Overview

   The main management objects defined in the GBOND-MIB module are split
   into 2 groups, structured as recommended by RFC 4181 [RFC4181]:

   o  gBondPort - containing objects for configuration, capabilities,
      status, historical performance monitoring and notifications,
      common to all G.Bond ports (GBS).

   o  gBondBce - containing a single common object for configuration of
      the remote discovery code per BCE.  Note that the rest of the
      objects for BCE configuration, capabilities, status and
      notifications, is located in relevant xDSL line MIB modules as
      well as in the bonding scheme specific MIB modules.

5.2.  Performance Monitoring

   The OPTIONAL performance monitoring counters, thresholds and history
   buckets (interval-counters) defined in [TR-159] are implemented using
   the textual conventions defined in the HC-PerfHist-TC-MIB [RFC3705].
   The HC-PerfHist-TC-MIB defines 64-bit versions of the textual
   conventions found in PerfHist-TC-MIB [RFC3593].

   The agent SHOULD align the beginning of each interval to a fifteen
   minute boundary of a wall clock.  Likewise, the beginning of each one
   day intervals SHOULD be aligned with the start of a day.

   The rationale behind it is to simplify collection and analysis of the
   PM from multiple agents by a network management system (NMS) - each
   PM interval can be "time-stamped" using the gBond*IntervalIndex

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   object, the fact that 1-day interval starts at 00:00 and 15-min
   intervals are aligned with 1/4 hour and the network-wide "wall
   clock", typically distributed via NTP or SNTP.  If the agent does not
   have an access to the wall clock, a local clock can be used.  In this
   case, as well as when coping with multiple time zones, the NMS would
   have to correlate for the difference between the agent's local clock
   (available for example via hrSystemDate object from HOST-RESOURCES-
   MIB [RFC2790]) and the wall clock.

   Counters are not reset when a GBS is reinitialized, but rather only
   when the agent is reset or reinitialized.

   Note that the accumulation of certain performance events for a
   monitored entity is inhibited (counting stops) during periods of
   service unavailability on that monitored entity.  The DESCRIPTION
   clause of performance monitoring counters in this MIB module
   specifies which of the counters are inhibited during periods of
   service unavailability.

5.3.  Mapping of DSL Forum TR-159 Managed Objects

   This section contains the mapping between relevant managed objects
   (attributes) defined in [TR-159] and managed objects defined in this
   document and in associated MIB modules, i.e., the IF-MIB [RFC2863].

   +-------------------------------+-----------------------------------+
   | G.Bond Managed Object         | Corresponding SNMP Object         |
   +-------------------------------+-----------------------------------+
   | oBondingGroup - Basic Package |                                   |
   | (Mandatory)                   |                                   |
   +-------------------------------+-----------------------------------+
   | aGroupID                      | ifIndex (IF-MIB)                  |
   +-------------------------------+-----------------------------------+
   | aGroupBondSchemesSupported    | gBondPortCapSchemesSupported      |
   +-------------------------------+-----------------------------------+
   | aGroupPeerBondSchemesSupporte | gBondPortCapPeerSchemesSupported  |
   | d                             |                                   |
   +-------------------------------+-----------------------------------+
   | aGroupAdminBondScheme         | gBondPortConfAdminScheme          |
   +-------------------------------+-----------------------------------+
   | aGroupPeerAdminBondScheme     | gBondPortConfPeerAdminScheme      |
   +-------------------------------+-----------------------------------+
   | aGroupOperBondScheme          | gBondPortStatOperScheme           |
   +-------------------------------+-----------------------------------+
   | aGroupPeerOperBondScheme      | gBondPortStatPeerOperScheme       |
   +-------------------------------+-----------------------------------+
   | aGroupEnd                     | gBondPortStatSide                 |
   +-------------------------------+-----------------------------------+

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   +-------------------------------+-----------------------------------+
   | aGroupOperState               | ifOperStatus (IF-MIB)             |
   +-------------------------------+-----------------------------------+
   | aGroupAdminState              | ifAdminStatus (IF-MIB)            |
   +-------------------------------+-----------------------------------+
   | aGroupStatus                  | gBondPortStatFltStatus            |
   +-------------------------------+-----------------------------------+
   | aGroupCapacity                | gBondPortCapCapacity              |
   +-------------------------------+-----------------------------------+
   | aGroupPeerCapacity            | gBondPortCapPeerCapacity          |
   +-------------------------------+-----------------------------------+
   | aGroupNumChannels             | gBondPortStatNumBCEs              |
   +-------------------------------+-----------------------------------+
   | aGroupName                    | ifName (IF-MIB)                   |
   +-------------------------------+-----------------------------------+
   | aGroupDiscoveryCode           | gBondPortConfDiscoveryCode        |
   +-------------------------------+-----------------------------------+
   | aGroupUpRate                  | gBondPortStatUpDataRate           |
   +-------------------------------+-----------------------------------+
   | aGroupDownRate                | gBondPortStatDnDataRate           |
   +-------------------------------+-----------------------------------+
   | aGroupTargetUpRate            | gBondPortConfTargetUpDataRate     |
   +-------------------------------+-----------------------------------+
   | aGroupTargetDownRate          | gBondPortConfTargetDnDataRate     |
   +-------------------------------+-----------------------------------+
   | aGroupThreshLowUpRate         | gBondPortConfThreshLowUpRate      |
   +-------------------------------+-----------------------------------+
   | aGroupThreshLowDownRate       | gBondPortConfThreshLowDnRate      |
   +-------------------------------+-----------------------------------+
   | aGroupLowRateCrossingEnable   | gBondPortConfLowRateCrossingEnabl |
   |                               | e                                 |
   +-------------------------------+-----------------------------------+
   | nGroupLowUpRateCrossing       | gBondLowUpRateCrossing            |
   +-------------------------------+-----------------------------------+
   | nGroupLowDownRateCrossing     | gBondLowDnRateCrossing            |
   +-------------------------------+-----------------------------------+
   | aGroupLinkUpDownEnable        | ifLinkUpDownTrapEnable (IF-MIB)   |
   +-------------------------------+-----------------------------------+
   | nGroupLinkUp                  | linkDown (IF-MIB)                 |
   +-------------------------------+-----------------------------------+
   | nGroupLinkDown                | linkUp (IF-MIB)                   |
   +-------------------------------+-----------------------------------+
   | oBondingGroup - PM Package    |                                   |
   | (Optional)                    |                                   |
   +-------------------------------+-----------------------------------+
   | aGroupPerfES                  | gBondPortPmCurES                  |
   +-------------------------------+-----------------------------------+
   | aGroupPerfSES                 | gBondPortPmCurSES                 |

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   | aGroupPerfUAS                 | gBondPortPmCurUAS                 |
   +-------------------------------+-----------------------------------+
   | aGroupPerf15MinValidIntervals | gBondPortPmCur15MinValidIntervals |
   +-------------------------------+-----------------------------------+
   | aGroupPerf15MinInvalidInterva | gBondPortPmCur15MinInvalidInterva |
   | ls                            | ls                                |
   +-------------------------------+-----------------------------------+
   | aGroupPerfCurr15MinTimeElapse | gBondPortPmCur15MinTimeElapsed    |
   | d                             |                                   |
   +-------------------------------+-----------------------------------+
   | aGroupPerfCurr15MinES         | gBondPortPmCur15MinES             |
   +-------------------------------+-----------------------------------+
   | aGroupPerfCurr15MinSES        | gBondPortPmCur15MinSES            |
   +-------------------------------+-----------------------------------+
   | aGroupPerfCurr15MinUAS        | gBondPortPmCur15MinUAS            |
   +-------------------------------+-----------------------------------+
   | aGroupPerfTcaEnable           | gBondPortConfPmTcaEnable          |
   +-------------------------------+-----------------------------------+
   | aGroupPerfThreshold15MinES    | gBondPortPmTcaProfileThresh15MinE |
   |                               | S                                 |
   +-------------------------------+-----------------------------------+
   | aGroupPerfThreshold15MinSES   | gBondPortPmTcaProfileThresh15MinS |
   |                               | ES                                |
   +-------------------------------+-----------------------------------+
   | aGroupPerfThreshold15MinUAS   | gBondPortPmTcaProfileThresh15MinU |
   |                               | AS                                |
   +-------------------------------+-----------------------------------+
   | nGroupPerfTca15MinES          | gBondPmTca15MinESCrossing         |
   +-------------------------------+-----------------------------------+
   | nGroupPerfTca15MinSES         | gBondPmTca15MinSESCrossing        |
   +-------------------------------+-----------------------------------+
   | nGroupPerfTca15MinUAS         | gBondPmTca15MinUASCrossing        |
   +-------------------------------+-----------------------------------+
   | aGroupPerf1DayValidIntervals  | gBondPortPmCur1DayValidIntervals  |
   +-------------------------------+-----------------------------------+
   | aGroupPerf1DayInvalidInterval | gBondPortPmCur1DayInvalidInterval |
   | s                             | s                                 |
   +-------------------------------+-----------------------------------+
   | aGroupPerfCurr1DayTimeElapsed | gBondPortPmCur1DayTimeElapsed     |
   +-------------------------------+-----------------------------------+
   | aGroupPerfCurr1DayES          | gBondPortPmCur1DayIntervalES      |
   +-------------------------------+-----------------------------------+
   | aGroupPerfCurr1DaySES         | gBondPortPmCur1DayIntervalSES     |
   +-------------------------------+-----------------------------------+
   | aGroupPerfCurr1DayUAS         | gBondPortPmCur1DayIntervalUAS     |
   +-------------------------------+-----------------------------------+
   | aGroupPerfThreshold1DayES     | gBondPortPmTcaProfileThresh1DayES |
   +-------------------------------+-----------------------------------+

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   +-------------------------------+-----------------------------------+
   | aGroupPerfThreshold1DaySES    | gBondPortPmTcaProfileThresh1DaySE |
   |                               | S                                 |
   +-------------------------------+-----------------------------------+
   | aGroupPerfThreshold1DayUAS    | gBondPortPmTcaProfileThresh1DayUA |
   |                               | S                                 |
   +-------------------------------+-----------------------------------+
   | nGroupPerfTca1DayES           | gBondPmTca1DayESCrossing          |
   +-------------------------------+-----------------------------------+
   | nGroupPerfTca1DaySES          | gBondPmTca1DaySESCrossing         |
   +-------------------------------+-----------------------------------+
   | nGroupPerfTca1DayUAS          | gBondPmTca1DayUASCrossing         |
   +-------------------------------+-----------------------------------+
   | aGroupPerf15MinIntervalNumber | gBondPortPm15MinIntervalIndex     |
   +-------------------------------+-----------------------------------+
   | aGroupPerf15MinIntervalValid  | gBondPortPm15MinIntervalValid     |
   +-------------------------------+-----------------------------------+
   | aGroupPerf15MinIntervalES     | gBondPortPm15MinIntervalES        |
   +-------------------------------+-----------------------------------+
   | aGroupPerf15MinIntervalSES    | gBondPortPm15MinIntervalSES       |
   +-------------------------------+-----------------------------------+
   | aGroupPerf15MinIntervalUAS    | gBondPortPm15MinIntervalUAS       |
   +-------------------------------+-----------------------------------+
   | aGroupPerf1DayIntervalNumber  | gBondPortPm1DayIntervalIndex      |
   +-------------------------------+-----------------------------------+
   | aGroupPerf1DayIntervalValid   | gBondPortPm1DayIntervalValid      |
   +-------------------------------+-----------------------------------+
   | aGroupPerf1DayIntervalMoniSec | gBondPortPm1DayIntervalMoniTime   |
   | s                             |                                   |
   +-------------------------------+-----------------------------------+
   | aGroupPerf1DayIntervalES      | gBondPortPm1DayIntervalES         |
   +-------------------------------+-----------------------------------+
   | aGroupPerf1DayIntervalSES     | gBondPortPm1DayIntervalSES        |
   +-------------------------------+-----------------------------------+
   | aGroupPerf1DayIntervalUAS     | gBondPortPm1DayIntervalUAS        |
   +-------------------------------+-----------------------------------+
   | oLine - Basic Package         |                                   |
   | (Mandatory)                   |                                   |
   +-------------------------------+-----------------------------------+
   | aLineID                       | ifIndex (IF-MIB)                  |
   +-------------------------------+-----------------------------------+
   | aLineType                     | ifType (IF-MIB)                   |
   +-------------------------------+-----------------------------------+
   | aLineOperState                | ifOperStatus (IF-MIB)             |
   +-------------------------------+-----------------------------------+
   | aLineStatus                   | *dsl*CurrStatus (*DSL-LINE-MIB)   |
   +-------------------------------+-----------------------------------+
   | aLineEnd                      | *dsl*Side (*DSL-LINE-MIB)         |

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   | aLineAdminState               | ifAdminStatus (IF-MIB)            |
   +-------------------------------+-----------------------------------+
   | aLineRemoteDiscoveryCode      | gBondBceConfRemoteDiscoveryCode   |
   +-------------------------------+-----------------------------------+
   | aLineUpDownEnable             | ifLinkUpDownTrapEnable (IF-MIB)   |
   +-------------------------------+-----------------------------------+
   | nLineUp                       | linkUp (IF-MIB)                   |
   +-------------------------------+-----------------------------------+
   | nLineDown                     | linkDown (IF-MIB)                 |
   +-------------------------------+-----------------------------------+
   | oChannel - Basic Package      |                                   |
   | (Mandatory)                   |                                   |
   +-------------------------------+-----------------------------------+
   | aChannelID                    | ifIndex (IF-MIB)                  |
   +-------------------------------+-----------------------------------+
   | aChannelGroupID               |                                   |
   +-------------------------------+-----------------------------------+
   | aChannelType                  | ifType (IF-MIB)                   |
   +-------------------------------+-----------------------------------+
   | aChannelOperState             | ifOperStatus (IF-MIB)             |
   +-------------------------------+-----------------------------------+
   | aChannelStatus                | *dsl*CurrStatus (*DSL-LINE-MIB),  |
   |                               | xdsl2ChStatus*Status              |
   |                               | (VDSL2-LINE-MIB)                  |
   +-------------------------------+-----------------------------------+

                Table 2: Mapping of TR-159 Managed Objects

6.  xDSL Multi-pair Bonding MIB Definitions

GBOND-MIB DEFINITIONS ::= BEGIN

  IMPORTS
    MODULE-IDENTITY,
    OBJECT-TYPE,
    NOTIFICATION-TYPE,
    mib-2,
    Unsigned32,
    Gauge32
      FROM SNMPv2-SMI           -- [RFC2578]
    TEXTUAL-CONVENTION,
    TruthValue,
    RowStatus,
    PhysAddress
      FROM SNMPv2-TC            -- [RFC2579]
    MODULE-COMPLIANCE,
    OBJECT-GROUP,
    NOTIFICATION-GROUP

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      FROM SNMPv2-CONF          -- [RFC2580]
    SnmpAdminString
      FROM SNMP-FRAMEWORK-MIB   -- [RFC3411]
    ifIndex
      FROM IF-MIB               -- [RFC2863]
    HCPerfCurrentCount,
    HCPerfIntervalCount,
    HCPerfIntervalThreshold,
    HCPerfValidIntervals,
    HCPerfInvalidIntervals,
    HCPerfTimeElapsed,
    HCPerfTotalCount
      FROM  HC-PerfHist-TC-MIB  -- [RFC3705]
    ;
------------------------------------------------------------------------
  gBondMIB MODULE-IDENTITY
    LAST-UPDATED "201202130000Z"  -- Feb 13, 2012
    ORGANIZATION "IETF ADSL MIB Working Group"
    CONTACT-INFO
      "WG charter:
        http://www.ietf.org/html.charters/adslmib-charter.html

      Mailing Lists:
        General Discussion: adslmib@ietf.org
        To Subscribe: adslmib-request@ietf.org
        In Body: subscribe your_email_address

       Chair: Menachem Dodge
      Postal: ECI Telecom, Ltd.
              30 Hasivim St.,
              Petach-Tikva 4951169
              Israel
       Phone: +972-3-926-8421
       EMail: menachem.dodge@ecitele.com

      Editor: Edward Beili
      Postal: Actelis Networks, Inc.
              25 Bazel St., P.O.B. 10173
              Petach-Tikva 49103
              Israel
       Phone: +972-3-924-3491
       EMail: edward.beili@actelis.com

      Editor: Moti Morgenstern
      Postal: ECI Telecom
              30 Hasivim St.
              Petach-Tikva 4951169
              Israel

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       Phone: +972-3-926-6258
       EMail: moti.morgenstern@ecitele.com"

    DESCRIPTION
      "The objects in this MIB module are used to manage the
      multi-pair bonded xDSL Interfaces, defined in ITU-T
      recommendations G.998.1, G.998.2 and G.998.3.

      This MIB module MUST be used in conjunction with a bonding
      scheme specific MIB module, that is, GBOND-ATM-MIB,
      GBOND-ETH-MIB or GBOND-TDIM-MIB.

      The following references are used throughout this MIB module:

      [G.998.1] refers to:
        ITU-T Recommendation G.998.1: 'ATM-based multi-pair bonding',
        January 2005.

      [G.998.2] refers to:
        ITU-T Recommendation G.998.2: 'Ethernet-based multi-pair
        bonding', January 2005.

      [G.998.3] refers to:
        ITU-T Recommendation G.998.3: 'Multi-pair bonding using
        time-division inverse multiplexing', January 2005.

      [TR-159] refers to:
        Broadband Forum Technical Report: 'Management Framework for
        xDSL Bonding', December 2008.

      Naming Conventions:
        BCE   - Bonding Channel Entity
        BTU   - Bonding Transmission Unit
        BTU-C - Bonding Transmission Unit, CO side
        BTU-R - Bonding Transmission Unit, Remote Terminal (CPE) side
        CO    - Central Office
        CPE   - Customer Premises Equipment
        GBS   - Generic Bonding Sublayer
        PM    - Performance Monitoring
        SNR   - Signal to Noise Ratio
        TCA   - Threshold Crossing Alert

      Copyright (C) The IETF Trust (2012).
      This version of this MIB module is part of RFC XXXX;
      see the RFC itself for full legal notices."

    REVISION    "201202130000Z"  -- Feb 13, 2012
    DESCRIPTION "Initial version, published as RFC XXXX."

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      -- EdNote: Replace XXXX with the actual RFC number &
      -- remove this note

    ::= { mib-2 ZZZ }

      -- EdNote: Replace ZZZ with a real OID once it is
      -- allocated & remove this note.

   -- Sections of the module
   -- Structured as recommended by [RFC4181], Appendix D

   gBondObjects     OBJECT IDENTIFIER ::= { gBondMIB 1 }

   gBondConformance OBJECT IDENTIFIER ::= { gBondMIB 2 }

   -- Groups in the module

   gBondPort        OBJECT IDENTIFIER ::= { gBondObjects 1 }

   gBondBce         OBJECT IDENTIFIER ::= { gBondObjects 2 }

   -- Textual Conventions

   GBondSchemeList ::= TEXTUAL-CONVENTION
     STATUS       current
     DESCRIPTION
       "This textual convention defines a bitmap of possible ITU-T
       G.998 (G.Bond) bonding schemes. Currently there are 3 bonding
       schemes defined: G.998.1, G.998.2 and G.998.3, identified by
       bit values g9981(1), g9982(2) and g9983(3), respectively.
       An additional value of unknown(0), can be returned as a result
       of GET operation, when an value of the object cannot be
       determined, for example a peer GBS cannot be reached or it
       does not support any kind of bonding."
     SYNTAX       BITS {
       unknown(0),
       g9981(1),
       g9982(2),
       g9983(3)
     }

   GBondScheme ::= TEXTUAL-CONVENTION
     STATUS       current
     DESCRIPTION
       "This textual convention defines ITU-T G.998 bonding scheme
       values. Possible values are:
         unknown(0) - undefined or unknown
         g9981(1)   - G.998.1 (G.Bond/ATM)

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         g9982(2)   - G.998.2 (G.Bond/Ethernet)
         g9983(3)   - G.998.3 (G.Bond/TDIM)."
     SYNTAX       INTEGER {
       unknown(0),
       g9981(1),
       g9982(2),
       g9983(3)
     }

   GBondPm1DayIntervalThreshold ::= TEXTUAL-CONVENTION
     DISPLAY-HINT "d"
     STATUS       current
     DESCRIPTION
       "This textual convention defines a range of values that may be
       set in a fault threshold alarm control for a 1-day performance
       monitoring interval.
       As the number of seconds in a 1-day interval numbers at most
       86400, objects of this type may have a range of 0...86400,
       where the value of 0 disables the alarm."
     SYNTAX       Unsigned32 (0..86400)

  -- Port Notifications Group

   gBondPortNotifications OBJECT IDENTIFIER ::= { gBondPort 0 }

   gBondLowUpRateCrossing NOTIFICATION-TYPE
     OBJECTS {
       -- ifIndex is not needed here since we are under specific GBS
       gBondPortStatUpDataRate,
       gBondPortConfThreshLowUpRate
     }
     STATUS      current
     DESCRIPTION
       "This notification indicates that the G.Bond port' upstream
       data rate has reached/dropped below or exceeded the low
       upstream rate threshold, specified by
       gBondPortConfThreshLowUpRate.

       This notification MAY be sent for the -O subtype ports
       while the port is up, on the crossing event in both
       directions: from normal (rate is above the threshold) to low
       (rate equals the threshold or below it) and from low to
       normal. This notification is not applicable to the -R
       subtypes.

       It is RECOMMENDED that a small debouncing period of 2.5 sec,
       between the detection of the condition and notification,

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       is implemented to prevent simultaneous LinkUp/LinkDown and
       gBondLowUpRateCrossing notifications to be sent.

       The adaptive nature of the G.Bond technology allows the port
       to adapt itself to the changes in the copper environment,
       e.g., an impulse noise, alien crosstalk, or a
       micro-interruption may temporarily drop one or more BCEs in
       the aggregation group, causing a rate degradation of the
       aggregated G.Bond link. The dropped BCEs would then try to
       re-initialize, possibly at a lower rate than before, adjusting
       the rate to provide required target SNR margin.

       Generation of this notification is controlled by the
       gBondPortConfLowRateCrossingEnable object.

       This object maps to the TR-159 notification
       nGroupLowUpRateCrossing."
     REFERENCE
       "[TR-159] 5.5.1.24"
     ::= { gBondPortNotifications 1 }

   gBondLowDnRateCrossing NOTIFICATION-TYPE
     OBJECTS {
       -- ifIndex is not needed here since we are under specific GBS
       gBondPortStatDnDataRate,
       gBondPortConfThreshLowDnRate
     }
     STATUS      current
     DESCRIPTION
       "This notification indicates that the G.Bond port' downstream
       data rate has reached/dropped below or exceeded the low
       downstream rate threshold, specified by
       gBondPortConfThreshLowDnRate.

       This notification MAY be sent for the -O subtype ports
       while the port is up, on the crossing event in both
       directions: from normal (rate is above the threshold) to low
       (rate equals the threshold or below it) and from low to
       normal. This notification is not applicable to the -R
       subtypes.

       It is RECOMMENDED that a small debouncing period of 2.5 sec,
       between the detection of the condition and notification,
       is implemented to prevent simultaneous LinkUp/LinkDown and
       gBondLowDnRateCrossing notifications to be sent.

       The adaptive nature of the G.Bond technology allows the port
       to adapt itself to the changes in the copper environment,

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       e.g., an impulse noise, alien crosstalk, or a
       micro-interruption may temporarily drop one or more BCEs in
       the aggregation group, causing a rate degradation of the
       aggregated G.Bond link. The dropped BCEs would then try to
       re-initialize, possibly at a lower rate than before,
       adjusting the rate to provide required target SNR margin.

       Generation of this notification is controlled by the
       gBondPortConfLowRateCrossingEnable object.

       This object maps to the TR-159 notification
       nGroupLowDownRateCrossing."
     REFERENCE
       "[TR-159] 5.5.1.25"
     ::= { gBondPortNotifications 2}

   gBondPmTca15MinESCrossing NOTIFICATION-TYPE
     OBJECTS {
       -- ifIndex is not needed here since we are under specific GBS
       gBondPortPmCur15MinES,
       gBondPortPmTcaProfileThresh15MinES
     }
     STATUS      current
     DESCRIPTION
       "This notification indicates that the Errored Seconds threshold,
       specified by gBondPortPmTcaProfileThresh15MinES, has been
       reached or exceeded for the GPS port.

       Generation of this notification is controlled by
       gBondPortConfPmTcaEnable and
       gBondPortPmTcaProfileThresh15MinES objects.

       This object maps to the TR-159 notification
       nGroupPerfTca15MinES."
     REFERENCE
       "[TR-159] 5.5.1.42"
     ::= { gBondPortNotifications 3}

   gBondPmTca15MinSESCrossing NOTIFICATION-TYPE
     OBJECTS {
       -- ifIndex is not needed here since we are under specific GBS
       gBondPortPmCur15MinSES,
       gBondPortPmTcaProfileThresh15MinSES
     }
     STATUS      current
     DESCRIPTION
       "This notification indicates that the Severely Errored Seconds
       threshold, specified by gBondPortPmTcaProfileThresh15MinSES,

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       has been reached or exceeded for the GPS port.

       Generation of this notification is controlled by
       gBondPortConfPmTcaEnable and
       gBondPortPmTcaProfileThresh15MinSES objects.

       This object maps to the TR-159 notification
       nGroupPerfTca15MinSES."
     REFERENCE
       "[TR-159] 5.5.1.43"
     ::= { gBondPortNotifications 4}

   gBondPmTca15MinUASCrossing NOTIFICATION-TYPE
     OBJECTS {
       -- ifIndex is not needed here since we are under specific GBS
       gBondPortPmCur15MinUAS,
       gBondPortPmTcaProfileThresh15MinUAS
     }
     STATUS      current
     DESCRIPTION
       "This notification indicates that the Unavailable Seconds
       threshold, specified by gBondPortPmTcaProfileThresh15MinES,
       has been reached or exceeded for the GPS port.

       Generation of this notification is controlled by
       gBondPortConfPmTcaEnable and
       gBondPortPmTcaProfileThresh15MinUAS objects.

       This object maps to the TR-159 notification
       nGroupPerfTca15MinUAS."
     REFERENCE
       "[TR-159] 5.5.1.44"
     ::= { gBondPortNotifications 5}

   gBondPmTca1DayESCrossing NOTIFICATION-TYPE
     OBJECTS {
       -- ifIndex is not needed here since we are under specific GBS
       gBondPortPmCur1DayES,
       gBondPortPmTcaProfileThresh1DayES
     }
     STATUS      current
     DESCRIPTION
       "This notification indicates that the Errored Seconds threshold,
       specified by gBondPortPmTcaProfileThresh1DayES, has been
       reached or exceeded for the GPS port.

       Generation of this notification is controlled by
       gBondPortConfPmTcaEnable and

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       gBondPortPmTcaProfileThresh1DayES objects.

       This object maps to the TR-159 notification
       nGroupPerfTca1DayES."
     REFERENCE
       "[TR-159] 5.5.1.54"
     ::= { gBondPortNotifications 6}

   gBondPmTca1DaySESCrossing NOTIFICATION-TYPE
     OBJECTS {
       -- ifIndex is not needed here since we are under specific GBS
       gBondPortPmCur1DaySES,
       gBondPortPmTcaProfileThresh1DaySES
     }
     STATUS      current
     DESCRIPTION
       "This notification indicates that the Severely Errored Seconds
       threshold, specified by gBondPortPmTcaProfileThresh1DaySES,
       has been reached or exceeded for the GPS port.

       Generation of this notification is controlled by
       gBondPortConfPmTcaEnable and
       gBondPortPmTcaProfileThresh1DaySES objects.

       This object maps to the TR-159 notification
       nGroupPerfTca1DaySES."
     REFERENCE
       "[TR-159] 5.5.1.55"
     ::= { gBondPortNotifications 7}

   gBondPmTca1DayUASCrossing NOTIFICATION-TYPE
     OBJECTS {
       -- ifIndex is not needed here since we are under specific GBS
       gBondPortPmCur1DayUAS,
       gBondPortPmTcaProfileThresh1DayUAS
     }
     STATUS      current
     DESCRIPTION
       "This notification indicates that the Unavailable Seconds
       threshold, specified by gBondPortPmTcaProfileThresh1DayUAS,
       has been reached or exceeded for the GPS port.

       Generation of this notification is controlled by
       gBondPortConfPmTcaEnable and
       gBondPortPmTcaProfileThresh1DayUAS objects.

       This object maps to the TR-159 notification
       nGroupPerfTca1DayUAS."

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     REFERENCE
       "[TR-159] 5.5.1.56"
     ::= { gBondPortNotifications 8}

   -- G.Bond Port (GBS) group

   gBondPortConfTable OBJECT-TYPE
     SYNTAX      SEQUENCE OF GBondPortConfEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "Table for configuration of G.Bond GBS ports. Entries in this
       table MUST be maintained in a persistent manner"
     ::= { gBondPort 1 }

   gBondPortConfEntry OBJECT-TYPE
     SYNTAX      GBondPortConfEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "An entry in the G.Bond Port Configuration table.
       Each entry represents a G.Bond port indexed by the ifIndex.
       Note that a G.Bond GBS port runs on top of a single
       or multiple BCE port(s), which are also indexed by ifIndex."
     INDEX  { ifIndex }
     ::= { gBondPortConfTable 1 }

   GBondPortConfEntry ::=
     SEQUENCE {
       gBondPortConfAdminScheme              GBondScheme,
       gBondPortConfPeerAdminScheme          GBondScheme,
       gBondPortConfDiscoveryCode            PhysAddress,
       gBondPortConfTargetUpDataRate         Unsigned32,
       gBondPortConfTargetDnDataRate         Unsigned32,
       gBondPortConfThreshLowUpRate          Unsigned32,
       gBondPortConfThreshLowDnRate          Unsigned32,
       gBondPortConfLowRateCrossingEnable    TruthValue,
       gBondPortConfPmTcaConfProfile         SnmpAdminString,
       gBondPortConfPmTcaEnable              TruthValue
     }

   gBondPortConfAdminScheme  OBJECT-TYPE
     SYNTAX      GBondScheme
     MAX-ACCESS  read-write
     STATUS      current
     DESCRIPTION
       "A desired bonding scheme for a G.Bond GBS port.
       The following values instruct the port to use corresponding

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       bonding scheme if supported:
         g9981(1)      - instructs the port to use G.998.1 bonding
         g9982(2)      - instructs the port to use G.998.2 bonding
         g9983(3)      - instructs the port to use G.998.3 bonding

       Changing of gBondPortConfAdminScheme MUST be performed when the
       link is administratively 'down', as indicated by the
       ifAdminStatus object in IF-MIB.
       Attempts to change this object MUST be rejected (in case of SNMP
       with the error inconsistentValue), if the link is Up or
       Initializing. Attempts to change this object to an unsupported
       bonding scheme (see gBondPortCapSchemesSupported) SHALL be
       rejected (in case of SNMP with the error wrongValue).

       This object maps to the TR-159 attribute aGroupAdminBondScheme."
     REFERENCE
       "[TR-159] 5.5.1.6; IF-MIB, ifAdminStatus"
     ::= { gBondPortConfEntry 1 }

   gBondPortConfPeerAdminScheme  OBJECT-TYPE
     SYNTAX      GBondScheme
     MAX-ACCESS  read-write
     STATUS      current
     DESCRIPTION
       "A desired bonding scheme for a peer (link partner) G.Bond
       port (GBS).
       The following values instruct the peer port to use
       corresponding bonding scheme if supported:
         g9981(1)      - instructs the port to use G.998.1 bonding
         g9982(2)      - instructs the port to use G.998.2 bonding
         g9983(3)      - instructs the port to use G.998.3 bonding

       Changing of this object MUST be performed when the link is
       administratively 'down', as indicated by the ifAdminStatus
       object in IF-MIB.
       Attempts to change this object MUST be rejected (in case of SNMP
       with the error inconsistentValue), if the link is Up or
       Initializing. Attempts to change this object to an unsupported
       bonding scheme (see gBondPortCapPeerSchemesSupported) SHALL be
       rejected (in case of SNMP with the error wrongValue).

       This object maps to the TR-159 attribute
       aGroupPeerAdminBondScheme."
     REFERENCE
       "[TR-159] 5.5.1.7; IF-MIB, ifAdminStatus"
     ::= { gBondPortConfEntry 2 }

   gBondPortConfDiscoveryCode  OBJECT-TYPE

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     SYNTAX      PhysAddress (SIZE(6))
     MAX-ACCESS  read-write
     STATUS      current
     DESCRIPTION
       "A Discovery Code of the G.Bond port (GBS).
       A unique 6 octet long code used by the Discovery function.
       This object MUST be instantiated for the -O subtype GBS before
       writing operations on the gBondBceConfRemoteDiscoveryCode
       (Set_if_Clear and Clear_if_Same) are performed by BCEs
       associated with the GBS.
       The initial value of this object for -R subtype ports after
       reset is all zeroes. For -R subtype ports, the value of this
       object cannot be changed directly. This value may be changed
       as a result of writing operation on the
       gBondBceConfRemoteDiscoveryCode object of remote BCE of -O
       subtype, connected to one of the local BCEs associated with
       the GBS.

       Discovery MUST be performed when the link is administratively
       'down', as indicated by the ifAdminStatus object in IF-MIB.
       Attempts to change this object MUST be rejected (in case of
       SNMP with the error inconsistentValue), if the link is Up or
       Initializing.

       This object maps to the TR-159 attribute
       aGroupDiscoveryCode."
     REFERENCE
       "[TR-159] 5.5.1.20; [802.3] 61.2.2.8.3, 61.2.2.8.4,
       45.2.6.6.1, 45.2.6.8, 61A.2; IF-MIB, ifAdminStatus"
     ::= { gBondPortConfEntry 3 }

   gBondPortConfTargetUpDataRate  OBJECT-TYPE
     SYNTAX      Unsigned32(0|1..10000000)
     UNITS       "Kbps"
     MAX-ACCESS  read-write
     STATUS      current
     DESCRIPTION
       "A desired G.Bond port Data Rate in the upstream direction,
       in Kbps, to be achieved during initialization, under
       restrictions placed upon the member BCEs by their respective
       configuration settings.
       This object represents a sum of individual BCE upstream data
       rates, modified to compensate for fragmentation and
       encapsulation overhead (e.g., for an Ethernet service, the
       target data rate of 10Mbps SHALL allow lossless transmission
       of full-duplex 10Mbps Ethernet frame stream with minimal
       inter-frame gap).
       Note that the target upstream data rate may not be achieved

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       during initialization (e.g., due to unavailability of required
       BCEs) or the initial bandwidth could deteriorate, so that the
       actual upstream data rate (gBondPortStatUpDataRate) could be less
       than gBondPortConfTargetUpDataRate.

       The value is limited above by 10 Gbps, to accommodate very
       high speed bonded xDSL interfaces (e.g. 32 x 100Mbps).

       The value between 1 and 10000000 indicates that the total
       upstream data rate of the G.Bond port after initialization
       SHALL be equal to the target data rate or less, if the target
       upstream data rate cannot be achieved under the restrictions
       configured for BCEs. In case the copper environment allows to
       achieve higher upstream data rate than that specified by this
       object, the excess capability SHALL be either converted to
       additional SNR margin or reclaimed by minimizing transmit
       power.

       The value of 0 means that the target data rate is not
       fixed and SHALL be set to the maximum attainable rate during
       initialization (Best Effort), under specified spectral
       restrictions and with desired SNR Margin per BCE.

       This object is read-write for the -O subtype G.Bond ports.
       It is irrelevant for the -R subtypes - attempts to read or
       change this object for such ports MUST be rejected (in case of
       SNMP with the error inconsistentValue).

       Changing of the Target Upstream Data Rate MUST be performed
       when the link is administratively 'down', as indicated by the
       ifAdminStatus object in IF-MIB.
       Attempts to change this object MUST be rejected (in case of SNMP
       with the error inconsistentValue), if the link is Up or
       Initializing.

       This object maps to the TR-159 attribute aGroupTargetUpRate."
     REFERENCE
       "[TR-159] 5.5.1.17; IF-MIB, ifAdminStatus"
     ::= { gBondPortConfEntry 4 }

   gBondPortConfTargetDnDataRate  OBJECT-TYPE
     SYNTAX      Unsigned32(0|1..10000000)
     UNITS       "Kbps"
     MAX-ACCESS  read-write
     STATUS      current
     DESCRIPTION
       "A desired G.Bond port Data Rate in the downstream direction,
       in Kbps, to be achieved during initialization, under

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       restrictions placed upon the member BCEs by their respective
       configuration settings.
       This object represents a sum of individual BCE downstream data
       rates, modified to compensate for fragmentation and
       encapsulation overhead (e.g., for an Ethernet service, the
       target data rate of 10Mbps SHALL allow lossless transmission
       of full-duplex 10Mbps Ethernet frame stream with minimal
       inter-frame gap).
       Note that the target downstream data rate may not be achieved
       during initialization (e.g., due to unavailability of required
       BCEs) or the initial bandwidth could deteriorate, so that the
       actual downstream data rate (gBondPortStatDnDataRate) could be
       less than gBondPortConfTargetDnDataRate.

       The value is limited above by 10 Gbps, to accommodate very
       high speed bonded xDSL interfaces (e.g. 32 x 100Mbps).

       The value between 1 and 10000000 indicates that the total
       downstream data rate of the G.Bond port after initialization
       SHALL be equal to the target data rate or less, if the target
       downstream data rate cannot be achieved under the restrictions
       configured for BCEs. In case the copper environment allows to
       achieve higher downstream data rate than that specified by
       this object, the excess capability SHALL be either converted
       to additional SNR margin or reclaimed by minimizing transmit
       power.

       The value of 0 means that the target data rate is not
       fixed and SHALL be set to the maximum attainable rate during
       initialization (Best Effort), under specified spectral
       restrictions and with desired SNR Margin per BCE.

       This object is read-write for the -O subtype G.Bond ports.
       It is irrelevant for the -R subtypes - attempts to read or
       change this object for such ports MUST be rejected (in case of
       SNMP with the error inconsistentValue).

       Changing of the Target Downstream Data Rate MUST be performed
       when the link is administratively 'down', as indicated by the
       ifAdminStatus object in IF-MIB.
       Attempts to change this object MUST be rejected (in case of SNMP
       with the error inconsistentValue), if the link is Up or
       Initializing.

       This object maps to the TR-159 attribute aGroupTargetDownRate."
     REFERENCE
       "[TR-159] 5.5.1.18; IF-MIB, ifAdminStatus"
     ::= { gBondPortConfEntry 5 }

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   gBondPortConfThreshLowUpRate  OBJECT-TYPE
     SYNTAX      Unsigned32(1..10000000)
     UNITS       "Kbps"
     MAX-ACCESS  read-write
     STATUS      current
     DESCRIPTION
       "This object configures the G.Bond port low upstream rate
       crossing alarm threshold. When the current value of
       gBondPortStatUpDataRate for this port reaches/drops below or
       exceeds this threshold, a gBondLowUpRateCrossing notification
       MAY be generated if enabled by
       gBondPortConfLowRateCrossingEnable.

       This object is read-write for the -O subtype G.Bond ports.
       It is irrelevant for the -R subtypes - attempts to read or
       change this object for such ports MUST be rejected (in case of
       SNMP with the error inconsistentValue).

       This object maps to the TR-159 attribute
       aGroupthreshLowUpRate."
     REFERENCE
       "[TR-159] 5.5.1.21"
     ::= { gBondPortConfEntry 6 }

   gBondPortConfThreshLowDnRate  OBJECT-TYPE
     SYNTAX      Unsigned32(1..10000000)
     UNITS       "Kbps"
     MAX-ACCESS  read-write
     STATUS      current
     DESCRIPTION
       "This object configures the G.Bond port low downstream rate
       crossing alarm threshold. When the current value of
       gBondPortStatDnDataRate for this port reaches/drops below or
       exceeds this threshold, a gBondLowDnRateCrossing notification
       MAY be generated if enabled by
       gBondPortConfLowRateCrossingEnable.

       This object is read-write for the -O subtype G.Bond ports.
       It is irrelevant for the -R subtypes - attempts to read or
       change this object for such ports MUST be rejected (in case of
       SNMP with the error inconsistentValue).

       This object maps to the TR-159 attribute
       aGroupThreshDownUpRate."
     REFERENCE
       "[TR-159] 5.5.1.22"
     ::= { gBondPortConfEntry 7 }

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   gBondPortConfLowRateCrossingEnable  OBJECT-TYPE
     SYNTAX      TruthValue
     MAX-ACCESS  read-write
     STATUS      current
     DESCRIPTION
       "Indicates whether gBondLowUpRateCrossing and
       gBondLowDnRateCrossing notifications should be generated
       for this interface.

       Value of true(1) indicates that the notifications are enabled.
       Value of false(2) indicates that the notifications are
       disabled.

       This object is read-write for the -O subtype G.Bond ports.
       It is irrelevant for the -R subtypes - attempts to read or
       change this object for such ports MUST be rejected (in case of
       SNMP with the error inconsistentValue).

       This object maps to the TR-159 attribute
       aGroupLowRateCrossingEnable."
     REFERENCE
       "[TR-159] 5.5.1.23"
     ::= { gBondPortConfEntry 8 }

   gBondPortConfPmTcaConfProfile  OBJECT-TYPE
     SYNTAX      SnmpAdminString (SIZE(1..32))
     MAX-ACCESS  read-write
     STATUS      current
     DESCRIPTION
       "The value of this object is the index of the row in the GBS
       port Alarm Configuration Profile Table for Performance Monitoring
       Threshold Crossing Alerts - gBondPortAlarmConfProfileTable,
       which applies to this GBS port."
     DEFVAL  { "DEFVAL" }
     ::= { gBondPortConfEntry 9 }

   gBondPortConfPmTcaEnable  OBJECT-TYPE
     SYNTAX      TruthValue
     MAX-ACCESS  read-write
     STATUS      current
     DESCRIPTION
       "Indicates whether gBondPerfTca*Crossing set of notifications
       should be generated for this interface.

       Value of true(1) indicates that the notifications are enabled.
       Value of false(2) indicates that the notifications are disabled.

       This object maps to the TR-159 attribute aGroupPerfTcaEnable."

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     REFERENCE
       "[TR-159] 5.5.1.38"
     ::= { gBondPortConfEntry 10 }

   gBondPortCapTable OBJECT-TYPE
     SYNTAX      SEQUENCE OF GBondPortCapEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "Table for capabilities of G.Bond Ports. Entries in this table
       MUST be maintained in a persistent manner"
     ::= { gBondPort 2 }

   gBondPortCapEntry OBJECT-TYPE
     SYNTAX      GBondPortCapEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "An entry in the G.Bond Port Capability table.
       Each entry represents a G.Bond port indexed by the ifIndex.
       Note that a G.Bond GBS port runs on top of a single
       or multiple BCE port(s), which are also indexed by ifIndex."
     INDEX  { ifIndex }
     ::= { gBondPortCapTable 1 }

   GBondPortCapEntry ::=
     SEQUENCE {
       gBondPortCapSchemesSupported          GBondSchemeList,
       gBondPortCapPeerSchemesSupported      GBondSchemeList,
       gBondPortCapCapacity                  Unsigned32,
       gBondPortCapPeerCapacity              Unsigned32
     }

   gBondPortCapSchemesSupported          OBJECT-TYPE
     SYNTAX      GBondSchemeList
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "Bonding Capability of the G.Bond port (GBS). This is a
       read-only bitmap of the possible bonding schemes supported by
       the GBS. The various bit-positions are:
         g9981(1)      - GBS is capable of G.998.1 bonding
         g9982(2)      - GBS is capable of G.998.2 bonding
         g9983(3)      - GBS is capable of G.998.3 bonding

       Note that for ports supporting multiple bonding schemes the
       actual administrative scheme is set via gBondPortConfAdminScheme

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       object. The current operating bonding scheme is reflected in
       the gBondPortStatOperScheme.

       This object maps to the TR-159 attribute
       aGroupBondSchemesSupported."
     REFERENCE
       "[TR-159] 5.5.1.2"
     ::= { gBondPortCapEntry 1 }

   gBondPortCapPeerSchemesSupported  OBJECT-TYPE
     SYNTAX      GBondSchemeList
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "Bonding Capability of the peer G.Bond port (GBS). This is a
       read-only bitmap of the possible bonding schemes supported by
       the link partner GBS. The various bit-positions are:
         unknown(0)    - GBS does not support bonding or
                         the peer unit could not be reached.
         g9981(1)      - GBS is capable of G.998.1 bonding
         g9982(2)      - GBS is capable of G.998.2 bonding
         g9983(3)      - GBS is capable of G.998.3 bonding

       Note that for ports supporting multiple bonding schemes the
       actual administrative scheme is set via
       gBondPortConfPeerAdminScheme object. The current operating
       bonding scheme is reflected in the gBondPortStatPeerOperScheme.

       This object maps to the TR-159 attribute
       aGroupBondPeerSchemesSupported."
     REFERENCE
       "[TR-159] 5.5.1.3"
     ::= { gBondPortCapEntry 2 }

   gBondPortCapCapacity  OBJECT-TYPE
     SYNTAX      Unsigned32 (1..32)
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "Number of BCEs that can be aggregated by the local GBS.
       The number of BCEs currently assigned to a particular G.Bond
       port (gBondPortStatNumBCEs) is never greater than
       gBondPortCapCapacity.

       This object maps to the TR-159 attribute aGroupCapacity."
     REFERENCE
       "[TR-159] 5.5.1.12"
     ::= { gBondPortCapEntry 3 }

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   gBondPortCapPeerCapacity  OBJECT-TYPE
     SYNTAX      Unsigned32 (0|1..32)
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "Number of BCEs that can be aggregated by the peer GBS port.
       Value of 0 is returned when peer Bonding Capacity is unknown
       (peer cannot be reached).

       This object maps to the TR-159 attribute aGroupPeerCapacity."
     REFERENCE
       "[TR-159] 5.5.1.13"
     ::= { gBondPortCapEntry 4 }

   gBondPortStatTable OBJECT-TYPE
     SYNTAX      SEQUENCE OF GBondPortStatEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "This table provides overall status information of G.Bond
       ports, complementing the generic status information from the
       ifTable of IF-MIB. Additional status information about
       connected BCEs is available from the relevant line MIBs

       This table contains live data from the equipment. As such,
       it is NOT persistent."
     ::= { gBondPort 3 }

   gBondPortStatEntry OBJECT-TYPE
     SYNTAX      GBondPortStatEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "An entry in the G.Bond Port Status table.
       Each entry represents a G.Bond port indexed by the ifIndex.
       Note that a G.Bond GBS port runs on top of a single
       or multiple BCE port(s), which are also indexed by ifIndex."
     INDEX  { ifIndex }
     ::= { gBondPortStatTable 1 }

   GBondPortStatEntry ::=
     SEQUENCE {
       gBondPortStatOperScheme               GBondScheme,
       gBondPortStatPeerOperScheme           GBondScheme,
       gBondPortStatUpDataRate               Gauge32,
       gBondPortStatDnDataRate               Gauge32,
       gBondPortStatFltStatus                BITS,

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       gBondPortStatSide                     INTEGER,
       gBondPortStatNumBCEs                  Unsigned32
     }

   gBondPortStatOperScheme  OBJECT-TYPE
     SYNTAX      GBondScheme
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "Current operating bonding scheme of a G.Bond port.
       The possible values are:
         g9981(1)      - G.998.1 bonding
         g9982(2)      - G.998.2 bonding
         g9983(3)      - G.998.3 bonding

       This object maps to the TR-159 attribute
       aGroupOperBondScheme."
     REFERENCE
       "[TR-159] 5.5.1.4"
     ::= { gBondPortStatEntry 1 }

   gBondPortStatPeerOperScheme  OBJECT-TYPE
     SYNTAX      GBondScheme
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "Current operating bonding scheme of a G.Bond port link partner.
       The possible values are:
         unknown(0)    - peer cannot be reached due to the link state
         g9981(1)      - G.998.1 bonding
         g9982(2)      - G.998.2 bonding
         g9983(3)      - G.998.3 bonding

       This object maps to the TR-159 attribute
       aGroupPeerOperBondScheme."
     REFERENCE
       "[TR-159] 5.5.1.5"
     ::= { gBondPortStatEntry 2 }

   gBondPortStatUpDataRate  OBJECT-TYPE
     SYNTAX      Gauge32
     UNITS       "bps"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A current G.Bond port operational Data Rate in the upstream
       direction, in bps.
       This object represents an estimation of the sum of individual

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       BCE upstream data rates, modified to compensate for
       fragmentation and encapsulation overhead (e.g., for an
       Ethernet service, the target data rate of 10Mbps SHALL allow
       lossless transmission of full-duplex 10Mbps Ethernet frame
       stream with minimal inter-frame gap).

       Note that for symmetrical interfaces gBondPortStatUpDataRate ==
       gBondPortStatDnDataRate == ifSpeed.

       This object maps to the TR-159 attribute aGroupUpRate."
     REFERENCE
       "[TR-159] 5.5.1.15"
     ::= { gBondPortStatEntry 3 }

   gBondPortStatDnDataRate  OBJECT-TYPE
     SYNTAX      Gauge32
     UNITS       "bps"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A current G.Bond port operational Data Rate in the downstream
       direction, in bps.
       This object represents an estimation of the sum of individual
       BCE downstream data rates, modified to compensate for
       fragmentation and encapsulation overhead (e.g., for an
       Ethernet service, the target data rate of 10Mbps SHALL allow
       lossless transmission of full-duplex 10Mbps Ethernet frame
       stream with minimal inter-frame gap).

       Note that for symmetrical interfaces gBondPortStatUpDataRate ==
       gBondPortStatDnDataRate == ifSpeed.

       This object maps to the TR-159 attribute aGroupDownRate."
     REFERENCE
       "[TR-159] 5.5.1.16"
     ::= { gBondPortStatEntry 4 }

   gBondPortStatFltStatus  OBJECT-TYPE
     SYNTAX      BITS {
       noPeer(0),
       peerPowerLoss(1),
       peerBondSchemeMismatch(2),
       bceSubTypeMismatch(3),
       lowRate(4),
       init(5),
       ready(6)
     }

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     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "G.Bond (GBS) port Fault Status. This is a bitmap of possible
       conditions. The various bit positions are:
         noPeer              - peer GBS cannot be reached (e.g.,
                               no BCEs attached, all BCEs are Down
                               etc.).
         peerPowerLoss       - peer GBS has indicated impending unit
                               failure due to loss of local power
                               ('Dying Gasp').
         peerBondSchemeMismatch - operating bonding scheme of a peer
                               GBS is different from the local one.
         bceSubTypeMismatch  - local BCEs in the aggregation group
                               are not of the same sub-type, e.g.,
                               some BCEs in the local device are -O
                               while others are -R subtype.
         lowRate             - gBondUpRate/gBondDnRate of the port
                               has reached or dropped below
                               gBondPortConfThreshLowUpRate/
                               gBondPortConfThreshLowDnRate.
         init                - The link is Initializing, as a result of
                               ifAdminStatus being set to 'up' for a
                               particular BCE or a GBS to which the BCE
                               is connected.
         ready               - at least one BCE in the aggregation
                               group is detecting handshake tones.

       This object is intended to supplement ifOperStatus object
       in IF-MIB.

       This object maps to the TR-159 attribute aGroupStatus."
     REFERENCE
       "[TR-159] 5.5.1.9; IF-MIB, ifOperStatus"
     ::= { gBondPortStatEntry 5 }

   gBondPortStatSide  OBJECT-TYPE
     SYNTAX      INTEGER {
       subscriber(1),
       office(2),
       unknown(3)
     }
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "G.Bond port mode of operation (subtype).
       The value of 'subscriber' indicates the port is designated as
       '-R' subtype (all BCEs assigned to this port are of subtype

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       '-R').
       The value of the 'office' indicates that the port is
       designated as '-O' subtype (all BCEs assigned to this port are
       of subtype '-O').
       The value of 'unknown' indicates that the port has no assigned
       BCEs yet or that the assigned BCEs are not of the same side
       (subTypeBCEMismatch).

       This object maps to the TR-159 attribute aGroupEnd."
     REFERENCE
        "[TR-159] 5.5.1.11"
     ::= { gBondPortStatEntry 6 }

   gBondPortStatNumBCEs  OBJECT-TYPE
     SYNTAX      Unsigned32 (0..32)
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "Number of BCEs that is currently aggregated by the local GBS
       (assigned to the G.Bond port using ifStackTable).
       This number is never greater than gBondPortCapCapacity.

       This object SHALL be automatically incremented or decremented
       when a BCE is added or deleted to/from the G.Bond port using
       ifStackTable.

       This object maps to the TR-159 attribute aGroupNumChannels"
     REFERENCE
       "[TR-159] 5.5.1.14"
     ::= { gBondPortStatEntry 7 }

   -- Performance Monitoring group

   gBondPortPM   OBJECT IDENTIFIER ::= { gBondPort 4 }

   gBondPortPmCurTable OBJECT-TYPE
     SYNTAX      SEQUENCE OF GBondPortPmCurEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "This table contains current Performance Monitoring (PM)
       information for a GBS port. This table contains live data from
       the equipment and as such is NOT persistent."
     ::= { gBondPortPM 1 }

   gBondPortPmCurEntry OBJECT-TYPE
     SYNTAX      GBondPortPmCurEntry

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     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "An entry in the G.Bond Port PM table.
       Each entry represents a G.Bond port indexed by the ifIndex.
       Note that a G.Bond GBS port runs on top of a single
       or multiple BCE port(s), which are also indexed by ifIndex."
     INDEX  { ifIndex }
     ::= { gBondPortPmCurTable 1 }

   GBondPortPmCurEntry ::=
     SEQUENCE {
       gBondPortPmCurES                      HCPerfTotalCount,
       gBondPortPmCurSES                     HCPerfTotalCount,
       gBondPortPmCurUAS                     HCPerfTotalCount,
       gBondPortPmCur15MinValidIntervals     HCPerfValidIntervals,
       gBondPortPmCur15MinInvalidIntervals   HCPerfInvalidIntervals,
       gBondPortPmCur15MinTimeElapsed        HCPerfTimeElapsed,
       gBondPortPmCur15MinES                 HCPerfCurrentCount,
       gBondPortPmCur15MinSES                HCPerfCurrentCount,
       gBondPortPmCur15MinUAS                HCPerfCurrentCount,
       gBondPortPmCur1DayValidIntervals      Unsigned32,
       gBondPortPmCur1DayInvalidIntervals    Unsigned32,
       gBondPortPmCur1DayTimeElapsed         HCPerfTimeElapsed,
       gBondPortPmCur1DayES                  HCPerfCurrentCount,
       gBondPortPmCur1DaySES                 HCPerfCurrentCount,
       gBondPortPmCur1DayUAS                 HCPerfCurrentCount
     }

   gBondPortPmCurES  OBJECT-TYPE
     SYNTAX      HCPerfTotalCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Errored Seconds (ES) on the GBS since the BTU was
       last restarted.

       An Errored Second for a G.998.x interface is defined as a count
       of 1-second intervals during which one or more GBS errors are
       declared. The errors are specific for each bonding scheme, e.g.
         - lost cells for the ATM bonding;
         - lost or discarded (due to an error or a buffer overflow)
           fragments for the Ethernet bonding;
         - CRC4, CRC6 or CRC8 errors for the TDIM bonding
       This object is inhibited during Unavailable Seconds (UAS).

       This object maps to the TR-159 attribute aGroupPerfES."

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     REFERENCE
       "[TR-159] 5.5.1.29"
     ::= { gBondPortPmCurEntry 1 }

   gBondPortPmCurSES  OBJECT-TYPE
     SYNTAX      HCPerfTotalCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Severely Errored Seconds (SES) on the GBS since the
       BTU was last restarted.

       A Severely Errored Second for a G.998.x interface is defined as
       a count of 1-second intervals during which GBS errors cause at
       least 1% traffic loss of the nominal bonded link rate or at
       least 12ms for the TDM traffic. The exact definition is specific
       for each bonding scheme, e.g.
         - 234 lost cells for the ATM bonding with 10Mbps nominal link
           rate
         - 60 lost/discarded fragments for the Ethernet bonding with
           10Mbps nominal link rate and fixed 192 Byte-long fragment
           size.
         - 6 or more CRC4, one or more CRC6 or one or more CRC8 errors
           for the TDM bonding
       This object is inhibited during Unavailable Seconds (UAS).

       This object maps to the TR-159 attribute aGroupPerfSES."
     REFERENCE
       "[TR-159] 5.5.1.30"
     ::= { gBondPortPmCurEntry 2 }

   gBondPortPmCurUAS  OBJECT-TYPE
     SYNTAX      HCPerfTotalCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Unavailable Seconds (UAS) on the GBS since the BTU
       was last restarted.

       An Unavailable Second for a G.998.x interface is defined as a
       count of 1-second intervals during which the bonded link is
       unavailable. The G.998.x link becomes unavailable at the onset
       of 10 contiguous SESs. The 10 SESs are included in the
       unavailable time. Once unavailable, the G.998.x line becomes
       available at the onset of 10 contiguous seconds with no SESs.
       The 10 seconds with no SESs are excluded from unavailable time.

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       This object maps to the TR-159 attribute aGroupPerfUAS."
     REFERENCE
       "[TR-159] 5.5.1.31"
     ::= { gBondPortPmCurEntry 3 }

   gBondPortPmCur15MinValidIntervals  OBJECT-TYPE
     SYNTAX      HCPerfValidIntervals
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A number of 15-minute intervals for which data was collected.
       The value of this object will be 96 or the maximum number of
       15-minute history intervals collected by the implementation
       unless the measurement was (re-)started recently, in which case
       the value will be the number of complete 15 minutes intervals
       for which there are at least some data.
       In certain cases it is possible that some intervals are
       unavailable. In this case, this object reports the maximum
       interval number for which data is available.

       This object maps to the TR-159 attribute
       aGroupPerf15MinValidIntervals."
     REFERENCE
       "[TR-159] 5.5.1.32"
     ::= { gBondPortPmCurEntry 4 }

   gBondPortPmCur15MinInvalidIntervals  OBJECT-TYPE
     SYNTAX      HCPerfInvalidIntervals
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A number of 15-minute intervals for which data was not always
       available. The value will typically be zero except in cases
       where the data for some intervals are not available.

       This object maps to the TR-159 attribute
       aGroupPerf15MinInvalidIntervals."
     REFERENCE
       "[TR-159] 5.5.1.33"
     ::= { gBondPortPmCurEntry 5 }

   gBondPortPmCur15MinTimeElapsed  OBJECT-TYPE
     SYNTAX      HCPerfTimeElapsed
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of seconds that have elapsed since the beginning of the

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       current 15-minute performance interval.

       This object maps to the TR-159 attribute
       aGroupPerfCurr15MinTimeElapsed."
     REFERENCE
       "[TR-159] 5.5.1.34"
     ::= { gBondPortPmCurEntry 6 }

   gBondPortPmCur15MinES  OBJECT-TYPE
     SYNTAX      HCPerfCurrentCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Errored Seconds (ES) on the GBS in the current
       15-minute performance interval.

       This object maps to the TR-159 attribute aGroupPerfCurr15MinES."
     REFERENCE
       "[TR-159] 5.5.1.35"
     ::= { gBondPortPmCurEntry 7 }

   gBondPortPmCur15MinSES  OBJECT-TYPE
     SYNTAX      HCPerfCurrentCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Severely Errored Seconds (ES) on the GBS in the
       current 15-minute performance interval.

       This object maps to the TR-159 attribute aGroupPerfCurr15MinSES."
     REFERENCE
       "[TR-159] 5.5.1.36"
     ::= { gBondPortPmCurEntry 8 }

   gBondPortPmCur15MinUAS  OBJECT-TYPE
     SYNTAX      HCPerfCurrentCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Unavailable Seconds (UAS) on the GBS in the current
       15-minute performance interval.

       This object maps to the TR-159 attribute aGroupPerfCurr15MinUAS."
     REFERENCE
       "[TR-159] 5.5.1.37"

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     ::= { gBondPortPmCurEntry 9 }

   gBondPortPmCur1DayValidIntervals  OBJECT-TYPE
     SYNTAX      Unsigned32 (0..7)
     UNITS       "days"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A number of 1-day intervals for which data was collected.
       The value of this object will be 7 or the maximum number of
       1-day history intervals collected by the implementation unless
       the measurement was (re-)started recently, in which case the
       value will be the number of complete 1-day intervals for which
       there are at least some data.
       In certain cases it is possible that some intervals are
       unavailable. In this case, this object reports the maximum
       interval number for which data is available.

       This object maps to the TR-159 attribute
       aGroupPerf1DayValidIntervals."
     REFERENCE
       "[TR-159] 5.5.1.45"
     ::= { gBondPortPmCurEntry 10 }

   gBondPortPmCur1DayInvalidIntervals  OBJECT-TYPE
     SYNTAX      Unsigned32 (0..7)
     UNITS       "days"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A number of 1-day intervals for which data was not always
       available. The value will typically be zero except in cases
       where the data for some intervals are not available.

       This object maps to the TR-159 attribute
       aGroupPerf1DayInvalidIntervals."
     REFERENCE
       "[TR-159] 5.5.1.46"
     ::= { gBondPortPmCurEntry 11 }

   gBondPortPmCur1DayTimeElapsed  OBJECT-TYPE
     SYNTAX      HCPerfTimeElapsed
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of seconds that have elapsed since the beginning of
       the current 1-day performance interval.

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       This object maps to the TR-159 attribute
       aGroupPerfCurr1DayTimeElapsed."
     REFERENCE
       "[TR-159] 5.5.1.47"
     ::= { gBondPortPmCurEntry 12 }

   gBondPortPmCur1DayES  OBJECT-TYPE
     SYNTAX      HCPerfCurrentCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Errored Seconds (ES) on the GBS in the current 1-day
       performance interval.

       This object maps to the TR-159 attribute aGroupPerfCurr1DayES."
     REFERENCE
       "[TR-159] 5.5.1.48"
     ::= { gBondPortPmCurEntry 13 }

   gBondPortPmCur1DaySES  OBJECT-TYPE
     SYNTAX      HCPerfCurrentCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Severely Errored Seconds (ES) on the GBS in the
       current 1-day performance interval.

       This object maps to the TR-159 attribute aGroupPerfCurr1DaySES."
     REFERENCE
       "[TR-159] 5.5.1.49"
     ::= { gBondPortPmCurEntry 14 }

   gBondPortPmCur1DayUAS  OBJECT-TYPE
     SYNTAX      HCPerfCurrentCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Unavailable Seconds (UAS) on the GBS in the current
       1-day performance interval.

       This object maps to the TR-159 attribute aGroupPerfCurr1DayUAS."
     REFERENCE
       "[TR-159] 5.5.1.50"
     ::= { gBondPortPmCurEntry 15 }

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   -- PM history: 15-min buckets

   gBondPortPm15MinTable OBJECT-TYPE
     SYNTAX      SEQUENCE OF GBondPortPm15MinEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "This table contains historical 15-minute buckets of Performance
       Monitoring information for a GBS port (a row for each 15-minute
       interval, up to 96 intervals).
       Entries in this table MUST be maintained in a persistent manner."
     ::= { gBondPortPM 2 }

   gBondPortPm15MinEntry OBJECT-TYPE
     SYNTAX      GBondPortPm15MinEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "An entry in the G.Bond Port historical 15-minute PM table.
       Each entry represents performance monitoring data for a GBS port,
       indexed by ifIndex, collected during a particular 15-minute
       interval, indexed by gBondPortPm15MinIntervalIndex."
     INDEX  { ifIndex, gBondPortPm15MinIntervalIndex }
     ::= { gBondPortPm15MinTable 1 }

   GBondPortPm15MinEntry ::=
     SEQUENCE {
       gBondPortPm15MinIntervalIndex         Unsigned32,
       gBondPortPm15MinIntervalMoniTime      HCPerfTimeElapsed,
       gBondPortPm15MinIntervalES            HCPerfIntervalCount,
       gBondPortPm15MinIntervalSES           HCPerfIntervalCount,
       gBondPortPm15MinIntervalUAS           HCPerfIntervalCount,
       gBondPortPm15MinIntervalValid         TruthValue
     }

   gBondPortPm15MinIntervalIndex  OBJECT-TYPE
     SYNTAX      Unsigned32 (1..96)
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "Performance Data Interval number. 1 is the most recent previous
       interval; interval 96 is 24 hours ago.
       Intervals 2..96 are OPTIONAL.

       This object maps to the TR-159 attribute
       aGroupPerf15MinIntervalNumber."
     REFERENCE
       "[TR-159] 5.5.1.57"

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     ::= { gBondPortPm15MinEntry 1 }

   gBondPortPm15MinIntervalMoniTime  OBJECT-TYPE
     SYNTAX      HCPerfTimeElapsed
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of seconds over which the performance data was actually
       monitored. This value will be the same as the interval duration
       (900 seconds), except in a situation where performance data
       could not be collected for any reason."
     ::= { gBondPortPm15MinEntry 2 }

   gBondPortPm15MinIntervalES  OBJECT-TYPE
     SYNTAX      HCPerfIntervalCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Errored Seconds (ES) on the GBS in the 15-minute
       performance history interval.

       This object maps to the TR-159 attribute
       aGroupPerf15MinIntervalES."
     REFERENCE
       "[TR-159] 5.5.1.59"
     ::= { gBondPortPm15MinEntry 3 }

   gBondPortPm15MinIntervalSES  OBJECT-TYPE
     SYNTAX      HCPerfIntervalCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Severely Errored Seconds (ES) on the GBS in the
       15-minute performance history interval.

       This object maps to the TR-159 attribute
       aGroupPerf15MinIntervalSES."
     REFERENCE
       "[TR-159] 5.5.1.60"
     ::= { gBondPortPm15MinEntry 4 }

   gBondPortPm15MinIntervalUAS  OBJECT-TYPE
     SYNTAX      HCPerfIntervalCount
     UNITS       "seconds"
     MAX-ACCESS  read-only

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     STATUS      current
     DESCRIPTION
       "A count of Unavailable Seconds (UAS) on the GBS in the current
       15-minute performance interval.

       This object maps to the TR-159 attribute aGroupPerfCurr15MinUAS."
     REFERENCE
       "[TR-159] 5.5.1.61"
     ::= { gBondPortPm15MinEntry 5 }

   gBondPortPm15MinIntervalValid  OBJECT-TYPE
     SYNTAX      TruthValue
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A read-only object indicating whether or not this history
       bucket contains valid data. Valid bucket is reported as true(1)
       and invalid bucket as false(2).
       If this history bucket is invalid the BTU-C MUST NOT produce
       notifications based upon the value of the counters in this
       bucket.
       Note that an implementation may decide not to store invalid
       history buckets in its data base. In such case this object is
       not required as only valid history buckets are available while
       invalid history buckets are simply not in the data base.

       This object maps to the TR-159 attribute
       aGroupPerf15MinIntervalValid."
     REFERENCE
       "[TR-159] 5.5.1.58"
     ::= { gBondPortPm15MinEntry 6 }

   -- PM history: 1-day buckets

   gBondPortPm1DayTable OBJECT-TYPE
     SYNTAX      SEQUENCE OF GBondPortPm1DayEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "This table contains historical 1-day buckets of Performance
       Monitoring information for a GBS port (a row for each 1-day
       interval, up to 7 intervals).
       Entries in this table MUST be maintained in a persistent manner."
     ::= { gBondPortPM 3 }

   gBondPortPm1DayEntry OBJECT-TYPE
     SYNTAX      GBondPortPm1DayEntry
     MAX-ACCESS  not-accessible

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     STATUS      current
     DESCRIPTION
       "An entry in the G.Bond Port historical 1-day PM table.
       Each entry represents performance monitoring data for a GBS port,
       indexed by ifIndex, collected during a particular 1-day
       interval, indexed by gBondPortPm1DayIntervalIndex."
     INDEX  { ifIndex, gBondPortPm1DayIntervalIndex }
     ::= { gBondPortPm1DayTable 1 }

   GBondPortPm1DayEntry ::=
     SEQUENCE {
       gBondPortPm1DayIntervalIndex          Unsigned32,
       gBondPortPm1DayIntervalMoniTime       HCPerfTimeElapsed,
       gBondPortPm1DayIntervalES             HCPerfIntervalCount,
       gBondPortPm1DayIntervalSES            HCPerfIntervalCount,
       gBondPortPm1DayIntervalUAS            HCPerfIntervalCount,
       gBondPortPm1DayIntervalValid          TruthValue
     }

   gBondPortPm1DayIntervalIndex  OBJECT-TYPE
     SYNTAX      Unsigned32 (1..7)
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "Performance Data Interval number. 1 is the most recent previous
       interval; interval 7 is 7 days ago.
       Intervals 2..7 are OPTIONAL.

       This object maps to the TR-159 attribute
       aGroupPerf1DayIntervalNumber."
     REFERENCE
       "[TR-159] 5.5.1.62"
     ::= { gBondPortPm1DayEntry 1 }

   gBondPortPm1DayIntervalMoniTime  OBJECT-TYPE
     SYNTAX      HCPerfTimeElapsed
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of seconds over which the performance data was actually
       monitored. This value will be the same as the interval duration
       (86400 seconds), except in a situation where performance data
       could not be collected for any reason.

       This object maps to the TR-159 attribute
       aGroupPerf1DayIntervalMoniSecs."
     REFERENCE

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       "[TR-159] 5.5.1.64"
     ::= { gBondPortPm1DayEntry 2 }

   gBondPortPm1DayIntervalES  OBJECT-TYPE
     SYNTAX      HCPerfIntervalCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Errored Seconds (ES) on the GBS in the 1-day
       performance history interval.

       This object maps to the TR-159 attribute
       aGroupPerf1DayIntervalES."
     REFERENCE
       "[TR-159] 5.5.1.65"
     ::= { gBondPortPm1DayEntry 3 }

   gBondPortPm1DayIntervalSES  OBJECT-TYPE
     SYNTAX      HCPerfIntervalCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Severely Errored Seconds (ES) on the GBS in the
       1-day performance history interval.

       This object maps to the TR-159 attribute
       aGroupPerf1DayIntervalSES."
     REFERENCE
       "[TR-159] 5.5.1.66"
     ::= { gBondPortPm1DayEntry 4 }

   gBondPortPm1DayIntervalUAS  OBJECT-TYPE
     SYNTAX      HCPerfIntervalCount
     UNITS       "seconds"
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A count of Unavailable Seconds (UAS) on the GBS in the current
       1-day performance interval.

       This object maps to the TR-159 attribute aGroupPerfCurr1DayUAS."
     REFERENCE
       "[TR-159] 5.5.1.67"
     ::= { gBondPortPm1DayEntry 5 }

   gBondPortPm1DayIntervalValid  OBJECT-TYPE

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     SYNTAX      TruthValue
     MAX-ACCESS  read-only
     STATUS      current
     DESCRIPTION
       "A read-only object indicating whether or not this history
       bucket contains valid data. Valid bucket is reported as true(1)
       and invalid bucket as false(2).
       If this history bucket is invalid the BTU-C MUST NOT produce
       notifications based upon the value of the counters in this
       bucket.
       Note that an implementation may decide not to store invalid
       history buckets in its data base. In such case this object is
       not required as only valid history buckets are available while
       invalid history buckets are simply not in the data base.

       This object maps to the TR-159 attribute
       aGroupPerf1DayIntervalValid."
     REFERENCE
       "[TR-159] 5.5.1.63"
     ::= { gBondPortPm1DayEntry 6 }

   -- Performance Monitoring TCA Configuration profile

   gBondPortPmTcaProfileTable OBJECT-TYPE
     SYNTAX      SEQUENCE OF GBondPortPmTcaProfileEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "This table supports definitions of Performance Monitoring (PM)
       Threshold Crossing Alerts (TCA) configuration profiles for GBS
       ports.
       Entries in this table MUST be maintained in a persistent manner."
     ::= { gBondPortPM 4 }

   gBondPortPmTcaProfileEntry OBJECT-TYPE
     SYNTAX      GBondPortPmTcaProfileEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "An entry in the GBS PM TCA Configuration table.
        Each entry corresponds to a single TCA configuration profile.
        Each profile contains a set of parameters for setting alarm
        thresholds for various performance attributes monitored at GBS
        ports.  Profiles may be created/deleted using the row
        creation/deletion mechanism via
        gBondPortPmTcaProfileRowStatus. If an active entry is
        referenced via gBondPortConfPmTcaConfProfile, the entry MUST

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        remain active until all references are removed.
        A default profile with an index of 'DEFVAL', will always exist
        and its parameters will be set to vendor specific values,
        unless otherwise specified in this document."
     INDEX  { gBondPortPmTcaProfileName }
     ::= { gBondPortPmTcaProfileTable 1 }

   GBondPortPmTcaProfileEntry ::=
     SEQUENCE {
       gBondPortPmTcaProfileName           SnmpAdminString,
       gBondPortPmTcaProfileThresh15MinES  HCPerfIntervalThreshold,
       gBondPortPmTcaProfileThresh15MinSES HCPerfIntervalThreshold,
       gBondPortPmTcaProfileThresh15MinUAS HCPerfIntervalThreshold,
       gBondPortPmTcaProfileThresh1DayES   GBondPm1DayIntervalThreshold,
       gBondPortPmTcaProfileThresh1DaySES  GBondPm1DayIntervalThreshold,
       gBondPortPmTcaProfileThresh1DayUAS  GBondPm1DayIntervalThreshold,
       gBondPortPmTcaProfileRowStatus      RowStatus
     }

   gBondPortPmTcaProfileName  OBJECT-TYPE
     SYNTAX      SnmpAdminString (SIZE(1..32))
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "This object is a unique index (name) associated with this
       GBS PM TCA profile."
     ::= { gBondPortPmTcaProfileEntry 1 }

   gBondPortPmTcaProfileThresh15MinES  OBJECT-TYPE
     SYNTAX      HCPerfIntervalThreshold
     UNITS       "seconds"
     MAX-ACCESS  read-create
     STATUS      current
     DESCRIPTION
       "A desired threshold for the number of Errored Seconds (ES)
       within any given 15-minute performance data collection interval.
       If the number of ESs in a particular 15-minute collection
       interval reaches or exceeds this value, a
       gBondPmTca15MinESCrossing notification MAY be generated if
       enabled by gBondPortConfPmTcaEnable.
       At most one notification can be sent per interval.
       Setting this attribute to zero (default) effectively disables
       gBondPmTca15MinESCrossing notification.

       This object maps to the TR-159 attribute
       aGroupPerfThreshold15MinES."
     REFERENCE
       "[TR-159] 5.5.1.39"

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     ::= { gBondPortPmTcaProfileEntry 2 }

   gBondPortPmTcaProfileThresh15MinSES  OBJECT-TYPE
     SYNTAX      HCPerfIntervalThreshold
     UNITS       "seconds"
     MAX-ACCESS  read-create
     STATUS      current
     DESCRIPTION
       "A desired threshold for the number of Severely Errored Seconds
       (SES) within any given 15-minute performance data collection
       interval.
       If the number of SESs in a particular 15-minute collection
       interval reaches or exceeds this value, a
       gBondPmTca15MinSESCrossing notification MAY be generated if
       enabled by gBondPortConfPmTcaEnable.
       At most one notification can be sent per interval.
       Setting this attribute to zero (default) effectively disables
       gBondPmTca15MinSESCrossing notification.

       This object maps to the TR-159 attribute
       aGroupPerfThreshold15MinSES."
     REFERENCE
       "[TR-159] 5.5.1.40"
     ::= { gBondPortPmTcaProfileEntry 3 }

   gBondPortPmTcaProfileThresh15MinUAS  OBJECT-TYPE
     SYNTAX      HCPerfIntervalThreshold
     UNITS       "seconds"
     MAX-ACCESS  read-create
     STATUS      current
     DESCRIPTION
       "A desired threshold for the number of Unavailable Seconds (UAS)
       within any given 15-minute performance data collection interval.
       If the number of UASs in a particular 15-minute collection
       interval reaches or exceeds this value, a
       gBondPmTca15MinUASCrossing notification MAY be generated if
       enabled by gBondPortConfPmTcaEnable.
       At most one notification can be sent per interval.
       Setting this attribute to zero (default) effectively disables
       gBondPmTca15MinUASCrossing notification.

       This object maps to the TR-159 attribute
       aGroupPerfThreshold15MinUAS."
     REFERENCE
       "[TR-159] 5.5.1.41"
     ::= { gBondPortPmTcaProfileEntry 4 }

   gBondPortPmTcaProfileThresh1DayES  OBJECT-TYPE

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     SYNTAX      GBondPm1DayIntervalThreshold
     UNITS       "seconds"
     MAX-ACCESS  read-create
     STATUS      current
     DESCRIPTION
       "A desired threshold for the number of Errored Seconds (ES)
       within any given 1-day performance data collection interval.
       If the number of ESs in a particular 1-day collection interval
       reaches or exceeds this value, a gBondPmTca1DayESCrossing
       notification MAY be generated if enabled by
       gBondPortConfPmTcaEnable.
       At most one notification can be sent per interval.
       Setting this attribute to zero (default) effectively disables
       gBondPmTca1DayESCrossing notification.

       This object maps to the TR-159 attribute
       aGroupPerfThreshold1DayES."
     REFERENCE
       "[TR-159] 5.5.1.51"
     ::= { gBondPortPmTcaProfileEntry 5 }

   gBondPortPmTcaProfileThresh1DaySES  OBJECT-TYPE
     SYNTAX      GBondPm1DayIntervalThreshold
     UNITS       "seconds"
     MAX-ACCESS  read-create
     STATUS      current
     DESCRIPTION
       "A desired threshold for the number of Severely Errored Seconds
       (SES) within any given 1-day performance data collection
       interval.
       If the number of SESs in a particular 1-day collection interval
       reaches or exceeds this value, a gBondPmTca1DaySESCrossing
       notification MAY be generated if enabled by
       gBondPortConfPmTcaEnable.
       At most one notification can be sent per interval.
       Setting this attribute to zero (default) effectively disables
       gBondPmTca1DaySESCrossing notification.

       This object maps to the TR-159 attribute
       aGroupPerfThreshold1DaySES."
     REFERENCE
       "[TR-159] 5.5.1.52"
     ::= { gBondPortPmTcaProfileEntry 6 }

   gBondPortPmTcaProfileThresh1DayUAS  OBJECT-TYPE
     SYNTAX      GBondPm1DayIntervalThreshold
     UNITS       "seconds"
     MAX-ACCESS  read-create

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     STATUS      current
     DESCRIPTION
       "A desired threshold for the number of Unavailable Seconds (UAS)
       within any given 1-day performance data collection interval.
       If the number of UASs in a particular 1-day collection interval
       reaches or exceeds this value, a gBondPmTca1DayUASCrossing
       notification MAY be generated if enabled by
       gBondPortConfPmTcaEnable.
       At most one notification can be sent per interval.
       Setting this attribute to zero (default) effectively disables
       gBondPmTca1DayUASCrossing notification.

       This object maps to the TR-159 attribute
       aGroupPerfThreshold1DayUAS."
     REFERENCE
       "[TR-159] 5.5.1.53"
     ::= { gBondPortPmTcaProfileEntry 7 }

   gBondPortPmTcaProfileRowStatus  OBJECT-TYPE
     SYNTAX      RowStatus
     MAX-ACCESS  read-create
     STATUS      current
     DESCRIPTION
       "This object controls the creation, modification, or deletion
        of the associated entry in the gBondPortPmTcaProfileTable
        per the semantics of RowStatus.

        If an 'active' entry is referenced via
        gBondPortConfPmTcaConfProfile instance(s), the entry MUST
        remain 'active'.

        An 'active' entry SHALL NOT be modified. In order to modify an
        existing entry, it MUST be taken out of service (by setting
        this object to 'notInService'), modified, and set 'active'
        again."
     ::= { gBondPortPmTcaProfileEntry 8 }

   -- The BCE group

   gBondBceConfTable OBJECT-TYPE
     SYNTAX      SEQUENCE OF GBondBceConfEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "Table for Configuration of G.Bond common aspects for the
       Bonding Channel Entity (BCE) ports (modems/channels).

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       Entries in this table MUST be maintained in a persistent
       manner."
     ::= { gBondBce 1 }

   gBondBceConfEntry OBJECT-TYPE
     SYNTAX      GBondBceConfEntry
     MAX-ACCESS  not-accessible
     STATUS      current
     DESCRIPTION
       "An entry in the G.Bond BCE Configuration table.
       Each entry represents common aspects of a G.Bond BCE port
       indexed by the ifIndex. Note that a G.Bond BCE port can be
       stacked below a single GBS port, also indexed by ifIndex,
       possibly together with other BCE ports if GAF is enabled."
     INDEX  { ifIndex }
     ::= { gBondBceConfTable 1 }

   GBondBceConfEntry ::=
     SEQUENCE {
       gBondBceConfRemoteDiscoveryCode    PhysAddress
     }

   gBondBceConfRemoteDiscoveryCode  OBJECT-TYPE
     SYNTAX      PhysAddress (SIZE(0|6))
     MAX-ACCESS  read-write
     STATUS      current
     DESCRIPTION
       "A Remote Discovery Code of the BCE port at CO.
       A 6 octet long Discovery Code of the peer GBS connected via
       the BCE.
       Reading this object results in a Discovery Get operation.
       Setting this object to all zeroes results in a Discovery
       Clear_if_Same operation (the value of gBondPortConfDiscoveryCode
       at the peer GBS SHALL be the same as gBondPortConfDiscoveryCode
       of the local GBS associated with the BCE for the operation to
       succeed).
       Writing a non-zero value to this object results in a
       Discovery Set_if_Clear operation.
       A zero-length octet string SHALL be returned on an attempt to
       read this object when GAF aggregation is not enabled.

       This object is irrelevant in BCE-R port subtypes (CPE side):
       in this case a zero length octet string SHALL be returned on
       an attempt to read this object, an attempt to change this object
       MUST be rejected (in case of SNMP with the error
       inconsistentValue).

       Discovery MUST be performed when the link is Down.

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       Attempts to change this object MUST be rejected (in case of
       SNMP with the error inconsistentValue), If the link is Up or
       Initializing.

       This object maps to the TR-159 attribute
       aLineRemoteDiscoveryCode."
     REFERENCE
       "[TR-159] 5.5.6.7"
     ::= { gBondBceConfEntry 1 }

  --
  -- Conformance Statements
  --

   gBondGroups      OBJECT IDENTIFIER ::= { gBondConformance 1 }

   gBondCompliances OBJECT IDENTIFIER ::= { gBondConformance 2 }

   -- Object Groups

   gBondBasicGroup OBJECT-GROUP
     OBJECTS {
       gBondPortStatOperScheme,
       gBondPortStatUpDataRate,
       gBondPortStatDnDataRate,
       gBondPortConfTargetUpDataRate,
       gBondPortConfTargetDnDataRate,
       gBondPortCapCapacity,
       gBondPortStatNumBCEs,
       gBondPortStatSide,
       gBondPortStatFltStatus
     }
     STATUS      current
     DESCRIPTION
       "A collection of objects representing management information
       common to all types of G.Bond ports."
     ::= { gBondGroups 1 }

   gBondDiscoveryGroup OBJECT-GROUP
     OBJECTS {
       gBondPortStatPeerOperScheme,
       gBondPortCapPeerCapacity,
       gBondPortConfDiscoveryCode,
       gBondBceConfRemoteDiscoveryCode
     }
     STATUS      current
     DESCRIPTION
       "A collection of objects supporting OPTIONAL G.Bond discovery

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       in G.Bond ports."
     ::= { gBondGroups 2 }

   gBondMultiSchemeGroup OBJECT-GROUP
     OBJECTS {
       gBondPortCapSchemesSupported,
       gBondPortCapPeerSchemesSupported,
       gBondPortConfAdminScheme,
       gBondPortConfPeerAdminScheme
     }
     STATUS      current
     DESCRIPTION
       "A collection of objects providing OPTIONAL management
       information for G.Bond ports supporting multiple bonding
       schemes."
     ::= { gBondGroups 3 }

   gBondTcaConfGroup OBJECT-GROUP
     OBJECTS {
       gBondPortConfThreshLowUpRate,
       gBondPortConfThreshLowDnRate,
       gBondPortConfLowRateCrossingEnable
     }
     STATUS      current
     DESCRIPTION
       "A collection of objects required for configuration of alarm
       thresholds and notifications in G.Bond ports."
     ::= { gBondGroups 4 }

   gBondTcaNotificationGroup NOTIFICATION-GROUP
     NOTIFICATIONS {
       gBondLowUpRateCrossing,
       gBondLowDnRateCrossing
     }
     STATUS      current
     DESCRIPTION
       "This group supports notifications of significant conditions
       (non-PM threshold crossing alerts) associated with G.Bond ports."
     ::= { gBondGroups 5 }

   gBondPmCurGroup OBJECT-GROUP
     OBJECTS {
       gBondPortPmCurES,
       gBondPortPmCurSES,
       gBondPortPmCurUAS,
       gBondPortPmCur15MinValidIntervals,
       gBondPortPmCur15MinInvalidIntervals,
       gBondPortPmCur15MinTimeElapsed,

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       gBondPortPmCur15MinES,
       gBondPortPmCur15MinSES,
       gBondPortPmCur15MinUAS,
       gBondPortPmCur1DayValidIntervals,
       gBondPortPmCur1DayInvalidIntervals,
       gBondPortPmCur1DayTimeElapsed,
       gBondPortPmCur1DayES,
       gBondPortPmCur1DaySES,
       gBondPortPmCur1DayUAS
     }
     STATUS      current
     DESCRIPTION
       "A collection of objects supporting OPTIONAL current Performance
       Monitoring information for G.Bond ports."
     ::= { gBondGroups 6 }

   gBondPm15MinGroup OBJECT-GROUP
     OBJECTS {
       gBondPortPm15MinIntervalMoniTime,
       gBondPortPm15MinIntervalES,
       gBondPortPm15MinIntervalSES,
       gBondPortPm15MinIntervalUAS,
       gBondPortPm15MinIntervalValid
     }
     STATUS      current
     DESCRIPTION
       "A collection of objects supporting OPTIONAL historical
       Performance Monitoring information for G.Bond ports, during
       previous 15-minute intervals ."
     ::= { gBondGroups 7 }

   gBondPm1DayGroup OBJECT-GROUP
     OBJECTS {
       gBondPortPm1DayIntervalMoniTime,
       gBondPortPm1DayIntervalES,
       gBondPortPm1DayIntervalSES,
       gBondPortPm1DayIntervalUAS,
       gBondPortPm1DayIntervalValid
     }
     STATUS      current
     DESCRIPTION
       "A collection of objects supporting OPTIONAL historical
       Performance Monitoring information for G.Bond ports, during
       previous 1-day intervals ."
     ::= { gBondGroups 8 }

   gBondPmTcaConfGroup OBJECT-GROUP
     OBJECTS {

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       gBondPortConfPmTcaConfProfile,
       gBondPortConfPmTcaEnable,
       gBondPortPmTcaProfileThresh15MinES,
       gBondPortPmTcaProfileThresh15MinSES,
       gBondPortPmTcaProfileThresh15MinUAS,
       gBondPortPmTcaProfileThresh1DayES,
       gBondPortPmTcaProfileThresh1DaySES,
       gBondPortPmTcaProfileThresh1DayUAS,
       gBondPortPmTcaProfileRowStatus
     }
     STATUS      current
     DESCRIPTION
       "A collection of objects required for configuration of
       Performance Monitoring Threshold Crossing Alert notifications
       in G.Bond ports."
     ::= { gBondGroups 9 }

   gBondPmTcaNotificationGroup NOTIFICATION-GROUP
     NOTIFICATIONS {
       gBondPmTca15MinESCrossing,
       gBondPmTca15MinSESCrossing,
       gBondPmTca15MinUASCrossing,
       gBondPmTca1DayESCrossing,
       gBondPmTca1DaySESCrossing,
       gBondPmTca1DayUASCrossing
     }
     STATUS      current
     DESCRIPTION
       "This group supports notifications of performance monitoring
       thresholds crossing alerts associated with G.Bond ports."
     ::= { gBondGroups 10 }

  -- Compliance Statements

   gBondCompliance MODULE-COMPLIANCE
     STATUS      current
     DESCRIPTION
       "The compliance statement for G.Bond interfaces.
       Compliance with the following external compliance statements
       is REQUIRED:

       MIB Module             Compliance Statement
       ----------             --------------------
       IF-MIB                 ifCompliance3

       Compliance with the following external compliance statements
       is OPTIONAL for implementations supporting bonding with
       flexible cross-connect between the GBS and BCE ports:

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       MIB Module             Compliance Statement
       ----------             --------------------
       IF-INVERTED-STACK-MIB  ifInvCompliance
       IF-CAP-STACK-MIB       ifCapStackCompliance"

     MODULE  -- this module
       MANDATORY-GROUPS {
         gBondBasicGroup,
         gBondTcaConfGroup,
         gBondTcaNotificationGroup
       }

       GROUP       gBondDiscoveryGroup
       DESCRIPTION
         "Support for this group is only required for implementations
         supporting G.Bond Discovery function."

       GROUP       gBondMultiSchemeGroup
       DESCRIPTION
         "Support for this group is only required for implementations
         supporting multiple bonding schemes."

       GROUP       gBondPmCurGroup
       DESCRIPTION
         "Support for this group is only required for implementations
         supporting Performance Monitoring."

       GROUP       gBondPm15MinGroup
       DESCRIPTION
         "Support for this group is only required for implementations
         supporting 15-min historical Performance Monitoring."

       GROUP       gBondPm1DayGroup
       DESCRIPTION
         "Support for this group is only required for implementations
         supporting 1-day historical Performance Monitoring."

       GROUP       gBondPmTcaConfGroup
       DESCRIPTION
         "Support for this group is only required for implementations
         supporting Performance Monitoring Threshold Crossing Alert
         notifications."

       GROUP       gBondPmTcaNotificationGroup
       DESCRIPTION
         "Support for this group is only required for implementations
         supporting Performance Monitoring Threshold Crossing Alert
         notifications."

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     ::= { gBondCompliances 1 }
END

7.  Security Considerations

   There is a number of managed 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  Changing of gBondPortConfAdminScheme may lead to a potential
      locking of the link, if the peer device does not support desired
      bonding scheme.

   o  Changing of gBondPortConfDiscoveryCode, before the discovery
      operation, may lead to a wrongful discovery, for example when two
      CO ports are connected to the same multi-channel RT port, while
      both CO ports have the same discovery register value.

   o  Changing of target upstream/downstream data rate via
      gBondPortConfTargetUpDataRate/gBondPortConfTargetDnDataRate may
      lead to anything from link quality and rate degradation to a
      complete link initialization failure, as ability of a G.Bond port
      to support a particular configuration depends on the copper
      environment.

   o  Activation of a specific line/channel may cause a severe
      degradation of service for another G.Bond port, whose channel(s)
      may be affected by the cross-talk from the newly activated
      channel.

   o  Removal of a channel from an operationally 'up' G.Bond port,
      aggregating several channels, may cause port's rate degradation

   Some of the readable objects in this MIB module (i.e., those with
   MAX-ACCESS other than not-accessible) may be considered sensitive or
   vulnerable in some network environments since, collectively, they
   provide information about the performance of network interfaces and
   can reveal some aspects of their configuration.

   In particular, since a bonded xDSL port can be comprised of multiple
   Unshielded Twisted Pair (UTP) voice grade copper, located in the same
   bundle with other pairs belonging to another operator/customer, it is
   theoretically possible to eavesdrop to a G.Bond transmission, simply
   by "listening" to a cross-talk from the bonded pairs, especially if

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   the operating parameters of the G.Bond link in question are known.

   It is thus important to control even GET and/or NOTIFY access to
   these objects and possibly 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  gBondPortStatTable - objects in this table provide status
      information for the G.Bond port, which may aid in identification
      of the pairs belonging to the bonded port and eavesdroping to the
      traffic over that port.

   SNMP versions prior to SNMPv3 did not include adequate security.
   Even if the network itself is secure (for example by using IPSec),
   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.

   Implementations MUST provide the security features described by the
   SNMPv3 framework (see [RFC3410]), including full support for
   authentication and privacy via the User-based Security Model (USM)
   [RFC3414] with the AES cipher algorithm [RFC3826].  Implementations
   MAY also provide support for the Transport Security Model (TSM)
   [RFC5591] in combination with a secure transport such as SSH
   [RFC5592] or TLS/DTLS [RFC6353].

   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.

8.  IANA Considerations

   Three new values of IANAifType: g9981(263), g9982(264) and g9983(265)
   have been allocated by IANA [1] in the IANAifType-MIB module
   [IANAifType-MIB].

   An object identifier for gBondMIB MODULE-IDENTITY SHALL be allocated
   by IANA in the MIB-2 transmission sub-tree, before this document is
   published.

9.  Acknowledgments

   This document was produced by the [ADSLMIB] working group.

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   Special thanks to Dan Romascanu for his meticulous review of this
   text.

10.  References

10.1.  Normative References

   [RFC2119]                          Bradner, S., "Key words for use in
                                      RFCs to Indicate Requirement
                                      Levels", BCP 14, RFC 2119,
                                      March 1997.

   [RFC2578]                          McCloghrie, K., Ed., Perkins, D.,
                                      Ed., and J. Schoenwaelder, Ed.,
                                      "Structure of Management
                                      Information Version 2 (SMIv2)",
                                      STD 58, RFC 2578, April 1999.

   [RFC2579]                          McCloghrie, K., Ed., Perkins, D.,
                                      Ed., and J. Schoenwaelder, Ed.,
                                      "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.

   [RFC3705]                          Ray, B. and R. Abbi, "High
                                      Capacity Textual Conventions for
                                      MIB Modules Using Performance
                                      History Based on 15 Minute
                                      Intervals", RFC 3705,
                                      February 2004.

   [TR-159]                           Beili, E. and M. Morgenstern,
                                      "Management Framework for xDSL

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                                      Bonding", Broadband Forum
                                      technical report TR-159,
                                      December 2008.

10.2.  Informative References

   [802.3]                            IEEE, "IEEE Standard for
                                      Information technology -
                                      Telecommunications and information
                                      exchange between systems - Local
                                      and metropolitan area networks -
                                      Specific requirements - Part 3:
                                      Carrier Sense Multiple Access with
                                      Collision Detection (CSMA/CD)
                                      Access Method and Physical Layer
                                      Specifications", IEEE Std 802.3-
                                      2005, December 2005.

   [ADSLMIB]                          IETF, "ADSL MIB (adslmib)
                                      Charter", <http://www.ietf.org/
                                      html.charters/
                                      adslmib-charter.html>.

   [G.991.2]                          ITU-T, "Single-pair High-speed
                                      Digital Subscriber Line (SHDSL)
                                      transceivers", ITU-T
                                      Recommendation G.991.2,
                                      December 2003, <http://
                                      www.itu.int/rec/T-REC-G.991.2/en>.

   [G.993.1]                          ITU-T, "Very High speed Digital
                                      Subscriber Line transceivers",
                                      ITU-T Recommendation G.993.1,
                                      June 2004, <http://www.itu.int/
                                      rec/T-REC-G.993.1/en>.

   [G.994.1]                          ITU-T, "Handshake procedures for
                                      digital subscriber line (DSL)
                                      transceivers", ITU-T
                                      Recommendation G.994.1,
                                      February 2007, <http://
                                      www.itu.int/rec/T-REC-G.994.1/en>.

   [G.998.1]                          ITU-T, "ATM-based multi-pair
                                      bonding", ITU-T
                                      Recommendation G.998.1,
                                      January 2005, <http://www.itu.int/
                                      rec/T-REC-G.998.1/en>.

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   [G.998.2]                          ITU-T, "Ethernet-based multi-pair
                                      bonding", ITU-T
                                      Recommendation G.998.2,
                                      January 2005, <http://www.itu.int/
                                      rec/T-REC-G.998.2/en>.

   [G.998.3]                          ITU-T, "Multi-pair bonding using
                                      time-division inverse
                                      multiplexing", ITU-T
                                      Recommendation G.998.3,
                                      January 2005, <http://www.itu.int/
                                      rec/T-REC-G.998.3/en>.

   [I-D.ietf-adslmib-gbond-atm-mib]   Beili, E., "ATM-based xDSL Bonded
                                      Interfaces MIB", draft-ietf-
                                      adslmib-gbond-atm-mib-05 (work in
                                      progress), Feb 2012.

   [I-D.ietf-adslmib-gbond-eth-mib]   Beili, E. and M. Morgenstern,
                                      "Ethernet-based xDSL Bonded
                                      Interfaces MIB", draft-ietf-
                                      adslmib-gbond-eth-mib-05 (work in
                                      progress), February 2012.

   [I-D.ietf-adslmib-gbond-tdim-mib]  Beili, E., "TDIM-based xDSL Bonded
                                      Interfaces MIB", draft-ietf-
                                      adslmib-gbond-tdim-mib-07 (work in
                                      progress), Feb 2012.

   [IANAifType-MIB]                   Internet Assigned Numbers
                                      Authority (IANA), "IANAifType
                                      Textual Convention definition", <h
                                      ttp://www.iana.org/assignments/
                                      ianaiftype-mib>.

   [RFC2790]                          Waldbusser, S. and P. Grillo,
                                      "Host Resources MIB", RFC 2790,
                                      March 2000.

   [RFC2864]                          McCloghrie, K. and G. Hanson, "The
                                      Inverted Stack Table Extension to
                                      the Interfaces Group MIB",
                                      RFC 2864, June 2000.

   [RFC3410]                          Case, J., Mundy, R., Partain, D.,
                                      and B. Stewart, "Introduction and
                                      Applicability Statements for
                                      Internet-Standard Management

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                                      Framework", RFC 3410,
                                      December 2002.

   [RFC3414]                          Blumenthal, U. and B. Wijnen,
                                      "User-based Security Model (USM)
                                      for version 3 of the Simple
                                      Network Management Protocol
                                      (SNMPv3)", STD 62, RFC 3414,
                                      December 2002.

   [RFC3440]                          Ly, F. and G. Bathrick,
                                      "Definitions of Extension Managed
                                      Objects for Asymmetric Digital
                                      Subscriber Lines", RFC 3440,
                                      December 2002.

   [RFC3593]                          Tesink, K., "Textual Conventions
                                      for MIB Modules Using Performance
                                      History Based on 15 Minute
                                      Intervals", RFC 3593,
                                      September 2003.

   [RFC3728]                          Ray, B. and R. Abbi, "Definitions
                                      of Managed Objects for Very High
                                      Speed Digital Subscriber Lines
                                      (VDSL)", RFC 3728, February 2004.

   [RFC3826]                          Blumenthal, U., Maino, F., and K.
                                      McCloghrie, "The Advanced
                                      Encryption Standard (AES) Cipher
                                      Algorithm in the SNMP User-based
                                      Security Model", RFC 3826,
                                      June 2004.

   [RFC4181]                          Heard, C., "Guidelines for Authors
                                      and Reviewers of MIB Documents",
                                      BCP 111, RFC 4181, September 2005.

   [RFC4319]                          Sikes, C., 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", RFC 4319,
                                      December 2005.

   [RFC4706]                          Morgenstern, M., Dodge, M.,
                                      Baillie, S., and U. Bonollo,

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                                      "Definitions of Managed Objects
                                      for Asymmetric Digital Subscriber
                                      Line 2 (ADSL2)", RFC 4706,
                                      November 2006.

   [RFC5066]                          Beili, E., "Ethernet in the First
                                      Mile Copper (EFMCu) Interfaces
                                      MIB", RFC 5066, November 2007.

   [RFC5591]                          Harrington, D. and W. Hardaker,
                                      "Transport Security Model for the
                                      Simple Network Management Protocol
                                      (SNMP)", RFC 5591, June 2009.

   [RFC5592]                          Harrington, D., Salowey, J., and
                                      W. Hardaker, "Secure Shell
                                      Transport Model for the Simple
                                      Network Management Protocol
                                      (SNMP)", RFC 5592, June 2009.

   [RFC5650]                          Morgenstern, M., Baillie, S., and
                                      U. Bonollo, "Definitions of
                                      Managed Objects for Very High
                                      Speed Digital Subscriber Line 2
                                      (VDSL2)", RFC 5650,
                                      September 2009.

   [RFC6353]                          Hardaker, W., "Transport Layer
                                      Security (TLS) Transport Model for
                                      the Simple Network Management
                                      Protocol (SNMP)", RFC 6353,
                                      July 2011.

   [af-phy-0086]                      ATM Forum, "Inverse Multiplexing
                                      for ATM (IMA) Specification
                                      Version 1.1", ATM Forum
                                      specification af-pfy-0086.001,
                                      March 1999.

URIs

   [1]  <http://www.iana.org/>

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Authors' Addresses

   Edward Beili
   Actelis Networks
   25 Bazel St.
   Petach-Tikva  49103
   Israel

   Phone: +972-3-924-3491
   EMail: edward.beili@actelis.com

   Moti Morgenstern
   ECI Telecom
   30 Hasivim St.
   Petach-Tikva  4951169
   Israel

   Phone: +972-3-926-6258
   EMail: moti.morgenstern@ecitele.com

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