Internet Engineering Task Force (IETF)                S. Kingston Smiler
Request for Comments: 8150                                   IP Infusion
Category: Standards Track                                  M. Venkatesan
ISSN: 2070-1721                                        Dell Technologies
                                                                 D. King
                                                      Old Dog Consulting
                                                               S. Aldrin
                                                            Google, Inc.
                                                                 J. Ryoo
                                                                    ETRI
                                                              April 2017


              MPLS Transport Profile Linear Protection MIB

Abstract

   This memo defines a portion of the Management Information Base (MIB)
   for use with network management protocols.  In particular, it defines
   objects for managing Multiprotocol Label Switching - Transport
   Profile (MPLS-TP) linear protection.

Status of This Memo

   This is an Internet Standards Track document.

   This document is a product of the Internet Engineering Task Force
   (IETF).  It represents the consensus of the IETF community.  It has
   received public review and has been approved for publication by the
   Internet Engineering Steering Group (IESG).  Further information on
   Internet Standards is available in Section 2 of RFC 7841.

   Information about the current status of this document, any errata,
   and how to provide feedback on it may be obtained at
   http://www.rfc-editor.org/info/rfc8150.
















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Copyright Notice

   Copyright (c) 2017 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
   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 ......................3
   3. Conventions .....................................................3
   4. Overview ........................................................4
   5. Structure of the MIB Module .....................................4
      5.1. Textual Conventions ........................................4
      5.2. The MPLS-TP Linear Protection Switching Subtree ............4
      5.3. The Notifications Subtree ..................................5
      5.4. The Table Structures .......................................5
   6. Relationship to Other MIB Modules ...............................7
      6.1. Relationship to the MPLS OAM Identifiers MIB Module ........7
   7. Example of Protection Switching Configuration ...................7
   8. Definitions .....................................................9
   9. Security Considerations ........................................43
   10. IANA Considerations ...........................................44
   11. References ....................................................45
      11.1. Normative References .....................................45
      11.2. Informative References ...................................47
   Acknowledgments ...................................................47
   Contributors ......................................................47
   Authors' Addresses ................................................48













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1.  Introduction

   This memo defines a portion of the Management Information Base (MIB)
   for use with network management protocols.  In particular, it defines
   objects for managing Multiprotocol Label Switching - Transport
   Profile (MPLS-TP) linear protection.

   This MIB module should be used for configuring and managing MPLS-TP
   linear protection for MPLS-TP Label Switched Paths (LSPs).

   At the time of this writing, Simple Network Management Protocol
   (SNMP) SET is no longer recommended as a way to configure MPLS
   networks as described in RFC 3812 [RFC3812].  However, since the MIB
   module specified in this document is intended to work in parallel
   with the MIB module for MPLS specified in [RFC3812] and the MIB
   module for MPLS-TP Operations, Administration, and Maintenance (OAM)
   identifiers in RFC 7697 [RFC7697], certain objects defined here are
   specified with a MAX-ACCESS clause of read-write or read-create so
   that specifications of the base tables in [RFC3812] and [RFC7697] and
   the new MIB module in this document are consistent.

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 memo specifies a MIB
   module that is compliant to the SMIv2, which is described in STD 58,
   RFC 2578 [RFC2578], STD 58, RFC 2579 [RFC2579] and STD 58, RFC 2580
   [RFC2580].

3.  Conventions

   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
   BCP 14, RFC 2119 [RFC2119].









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4.  Overview

   RFC 6378 [RFC6378] defines the protocol to provide a linear
   protection switching mechanism for MPLS-TP for a point-to-point LSP
   within the protection domain bounded by the endpoints of the LSP.
   RFC 7271 [RFC7271] describes alternative mechanisms to perform some
   of the functions defined in [RFC6378] and also defines additional
   mechanisms to provide operator control and experience that more
   closely model the behavior of linear protection seen in other
   transport networks.  Two modes are defined for MPLS-TP linear
   protection switching: the Protection State Coordination (PSC) mode
   and the Automatic Protection Switching (APS) mode, as specified in
   [RFC6378] and [RFC7271], respectively.  The detailed protocol
   specification of MPLS-TP linear protection is described in [RFC6378]
   and [RFC7271].

   This document specifies a MIB module for Label Edge Routers (LERs)
   that support MPLS-TP linear protection as described in [RFC6378] and
   [RFC7271].  Objects defined in this document are generally applied to
   both the PSC mode and the APS mode.  If an object is valid for a
   particular mode only, it is noted in the description for the object.

5.  Structure of the MIB Module

5.1.  Textual Conventions

   The following new textual conventions are defined in this document:

   o  MplsLpsReq: This textual convention describes an object that
      stores the PSC Request field of the PSC control packet.

   o  MplsLpsFpathPath: This textual convention describes an object that
      stores the Fault Path (FPath) field and Data Path (Path) field of
      the PSC control packet.

   o  MplsLpsCommand: This textual convention describes an object that
      allows a user to perform any action over a protection domain.

   o  MplsLpsState: This textual convention describes an object that
      stores the current state of the PSC state machine.

5.2.  The MPLS-TP Linear Protection Switching Subtree

   MPLS-LPS-MIB is the MIB module defined in this document.  It is
   rooted under the mplsStdMIB subtree per [RFC3811].  "LPS" as used in
   this document means "Linear Protection Switching".





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5.3.  The Notifications Subtree

   Notifications are defined to inform the management station about
   switchovers, provisioning mismatches, and protocol failures of the
   linear protection domain.  The following notifications are defined
   for this purpose:

   o  The notification mplsLpsEventSwitchover informs the management
      station about the switchover of the active path.

   o  The notification mplsLpsEventRevertiveMismatch informs the
      management station about a provisioning mismatch in the revertive
      mode across the endpoint of the protection domain.

   o  The notification mplsLpsEventProtecTypeMismatch informs the
      management station about a provisioning mismatch in the protection
      type, representing both the bridge type and the switching type,
      across the endpoint of the protection domain.

   o  The notification mplsLpsEventCapabilitiesMismatch informs the
      management station about a provisioning mismatch in Capabilities
      TLVs across the endpoint of the protection domain.

   o  The notification mplsLpsEventPathConfigMismatch informs the
      management station about a provisioning mismatch in the protection
      path configuration for PSC communication.

   o  The notification mplsLpsEventFopNoResponse informs the management
      station that protocol failure has occurred due to a lack of
      response to a traffic switchover request in 50 ms.

   o  The notification mplsLpsEventFopTimeout informs the management
      station that protocol failure has occurred because no protocol
      message was received during at least 3.5 times the long PSC
      message interval [RFC7271].

5.4.  The Table Structures

   The MPLS-TP linear protection MIB module has four tables.  The tables
   are as follows:

   o  mplsLpsConfigTable

      This table is used to configure MPLS-TP linear protection domains.
      An MPLS-TP linear protection domain (or a protection domain) is
      identified by mplsLpsConfigDomainIndex.  A protection domain
      consists of two LERs, as well as the working path and protection
      path that connect the two LERs.  The objects in this table are



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      used to configure properties that are specific to the protection
      domain.  Two Maintenance Entities (MEs) MUST be defined for each
      protection domain: one for the working path and the other for the
      protection path.  Therefore, two entries in the
      mplsLpsMeConfigTable, which is for configuring the MEs used in
      protection switching, are associated to one entry in this table.

   o  mplsLpsStatusTable

      This table provides the current status information of MPLS-TP
      linear protection domains that have been configured on the system.
      The entries in the mplsLpsStatusTable have an AUGMENTS
      relationship with the entries in the mplsLpsConfigTable.  When a
      protection domain is configured or deleted in the
      mplsLpsConfigTable, then the corresponding row of that session in
      the mplsLpsStatusTable is automatically created or deleted,
      respectively.

   o  mplsLpsMeConfigTable

      This table is used to associate MEs to the protection domain.
      Each protection domain requires two MEs.  One entry in the
      mplsLpsConfigTable is associated with two entries in this table:
      one for the working path and the other for the protection path of
      the protection domain.  The mplsLpsMeConfigPath object in this
      table indicates that the path is either the working path or the
      protection path.  The ME is identified by mplsOamIdMegIndex,
      mplsOamIdMeIndex, and mplsOamIdMeMpIndex, which are the same index
      values as the entry in the mplsOamIdMeTable defined in [RFC7697].
      The relationship to the mplsOamIdMeTable is described in
      Section 6.1.

   o  mplsLpsMeStatusTable

      This table provides current information about the protection
      status of MEs that have been configured on the system.  When an ME
      is configured or deleted in the mplsLpsMeConfigTable, then the
      corresponding row of that session in the mplsLpsMeStatusTable is
      automatically created or deleted, respectively.












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6.  Relationship to Other MIB Modules

6.1.  Relationship to the MPLS OAM Identifiers MIB Module

   Entries in the mplsOamIdMeTable [RFC7697] are extended by entries in
   the mplsLpsMeConfigTable.  Note that the nature of the "extends"
   relationship is a sparse augmentation so that the entry in the
   mplsLpsMeConfigTable has the same index values as the entry in the
   mplsOamIdMeTable.  Each time that an entry is created in the
   mplsOamIdMeTable for which the LER supports MPLS-TP linear
   protection, a row is created automatically in the
   mplsLpsMeConfigTable.

   When a point-to-point transport path needs to be monitored, one ME is
   needed for the path and one entry in the mplsOamIdMeTable will be
   created.  But the ME entry in the mplsOamIdMeTable may or may not
   participate in protection switching.  If an ME participates in
   protection switching, an entry in the mplsLpsMeConfigTable MUST be
   created, and the objects in the entry indicate which protection
   domain this ME belongs to and whether this ME is for the working path
   or the protection path.  If the ME does not participate in protection
   switching, an entry in the mplsLpsMeConfigTable does not need to be
   created.

7.  Example of Protection Switching Configuration

   This example considers the protection domain configuration on an LER
   to provide protection for a co-routed bidirectional MPLS tunnel.  For
   the working path and protection path of the protection domain, two
   Maintenance Entity Groups (MEGs) need to be configured, and each MEG
   contains one ME for a point-to-point transport path.  For more
   information on the mplsOamIdMegTable and the mplsOamIdMeTable, see
   [RFC7697].

   Although the example described in this section shows a way to
   configure linear protection for MPLS-TP tunnels, this also indicates
   how the MIB values would be returned if they had been configured by
   alternative means.













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   The following table configures a protection domain.

   In the mplsLpsConfigTable:
   mplsLpsConfigEntry ::= SEQUENCE
   {
      -- Protection domain index (index to the table)
      mplsLpsConfigDomainIndex  = 3,
      -- Protection domain name
      mplsLpsConfigDomainName   = "LPDomain3",
      mplsLpsConfigMode         = psc(1),
      mplsLpsConfigProtectionType = oneColonOneBidirectional(2),
      -- Mandatory parameters needed to activate the row go here
      mplsLpsConfigRowStatus    = createAndGo(4)
   }

   The following table associates the MEs with the protection domain.

   In the mplsLpsMeConfigTable:
   MplsLpsMeConfigEntry ::= SEQUENCE
   {
      -- MEG index (index to the table)
      mplsOamIdMegIndex                 = 1,
      -- ME index (index to the table)
      mplsOamIdMeIndex                  = 1,
      -- Maintenance Point (MP) index (index to the table)
      mplsOamIdMeMpIndex                = 1,
      -- Protection domain this ME belongs to
      mplsLpsMeConfigDomain             = 3,
      -- Configuration state
      mplsLpsMeConfigPath               = working(1)
   }
   {
      -- MEG index (index to the table)
      mplsOamIdMegIndex                 = 2,
      -- ME index (index to the table)
      mplsOamIdMeIndex                  = 2,
      -- MP index (index to the table)
      mplsOamIdMeMpIndex                = 2,
      -- Protection domain this ME belongs to
      mplsLpsMeConfigDomain             = 3,
      -- Configuration state
      mplsLpsMeConfigPath               = protection(2)
   }








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8.  Definitions

   This MIB module makes reference to the following documents:
   [RFC2578], [RFC2579], [RFC2580], [RFC3289], [RFC3411], [RFC3811],
   [RFC6378], [RFC7271], [RFC7697], [G8121], and [G8151].

   MPLS-LPS-MIB DEFINITIONS ::= BEGIN

   IMPORTS
      MODULE-IDENTITY, NOTIFICATION-TYPE, OBJECT-TYPE,
      Counter32, Unsigned32
         FROM SNMPv2-SMI             -- RFC 2578

      MODULE-COMPLIANCE, OBJECT-GROUP, NOTIFICATION-GROUP
         FROM SNMPv2-CONF            -- RFC 2580

      TEXTUAL-CONVENTION, RowStatus, TimeStamp, StorageType, TruthValue
         FROM SNMPv2-TC              -- RFC 2579

      SnmpAdminString
         FROM SNMP-FRAMEWORK-MIB     -- RFC 3411

      IndexIntegerNextFree
         FROM DIFFSERV-MIB           -- RFC 3289

      mplsStdMIB
          FROM MPLS-TC-STD-MIB       -- RFC 3811

      mplsOamIdMegIndex, mplsOamIdMeIndex, mplsOamIdMeMpIndex
          FROM MPLS-OAM-ID-STD-MIB;  -- RFC 7697

   mplsLpsMIB MODULE-IDENTITY
      LAST-UPDATED  "201704040000Z"  -- April 4, 2017
      ORGANIZATION  "Multiprotocol Label Switching (MPLS) Working Group"
      CONTACT-INFO
         "
         Kingston Smiler Selvaraj
         IP Infusion
         RMZ Centennial
         Mahadevapura Post
         Bangalore  560048
         India
         Email: kingstonsmiler@gmail.com








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RFC 8150              MPLS-TP Linear Protection MIB           April 2017


         Venkatesan Mahalingam
         Dell Technologies
         5450 Great America Parkway
         Santa Clara, CA  95054
         United States of America
         Email: venkat.mahalingams@gmail.com

         Daniel King
         Old Dog Consulting
         United Kingdom
         Email: daniel@olddog.co.uk

         Sam Aldrin
         Google, Inc.
         1600 Amphitheatre Parkway
         Mountain View, CA  94043
         United States of America
         Email: aldrin.ietf@gmail.com

         Jeong-dong Ryoo
         ETRI
         218 Gajeong-ro
         Yuseong-gu, Daejeon  34129
         South Korea
         Email: ryoo@etri.re.kr
         "
   DESCRIPTION
      "This MIB module supports the configuration and management of
       MPLS-TP linear protection domains.

       Copyright (c) 2017 IETF Trust and the persons identified as
       authors of the code.  All rights reserved.

       Redistribution and use in source and binary forms, with or
       without modification, is permitted pursuant to, and subject to
       the license terms contained in, the Simplified BSD License
       set forth in Section 4.c of the IETF Trust's Legal Provisions
       Relating to IETF Documents
       (http://trustee.ietf.org/license-info)."

   REVISION
      "201704040000Z"  -- April 4, 2017
      DESCRIPTION
         "MPLS-TP protection domain objects for
          LSP MEG End Points (MEPs)."

      ::= { mplsStdMIB 22 }




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      -- Top-level components of this MIB module.
      -- Notifications
      mplsLpsNotifications
         OBJECT IDENTIFIER ::= { mplsLpsMIB 0 }

      -- Tables, scalars
      mplsLpsObjects
         OBJECT IDENTIFIER ::= { mplsLpsMIB 1 }

      -- Conformance
      mplsLpsConformance
         OBJECT IDENTIFIER ::= { mplsLpsMIB 2 }

   MplsLpsReq ::= TEXTUAL-CONVENTION
      STATUS      current
      DESCRIPTION
         "This textual convention describes an object that stores
          the PSC Request field of the PSC control packet.  The values
          are as follows:

          noRequest
          No Request

          doNotRevert
          Do-not-Revert

          reverseRequest
          Reverse Request

          exercise
          Exercise

          waitToRestore
          Wait-to-Restore

          manualSwitch
          Manual Switch

          signalDegrade
          Signal Degrade (SD)

          signalFail
          Signal Fail (SF)








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          forcedSwitch
          Forced Switch

          lockoutOfProtection
          Lockout of Protection."
      REFERENCE
         "Section 4.2.2 of RFC 6378 and Section 8 of RFC 7271"
      SYNTAX  INTEGER {
                 noRequest(0),
                 doNotRevert(1),
                 reverseRequest(2),
                 exercise(3),
                 waitToRestore(4),
                 manualSwitch(5),
                 signalDegrade(7),
                 signalFail(10),
                 forcedSwitch(12),
                 lockoutOfProtection(14)
                 }

   MplsLpsFpathPath ::= TEXTUAL-CONVENTION
      DISPLAY-HINT "1x:"
      STATUS      current
      DESCRIPTION
         "This textual convention describes an object that stores
          the Fault Path (FPath) field and Data Path (Path) field of
          the PSC control packet.

          FPath is located in the first octet, and Path is
          located in the second octet.

          The value and the interpretation of the FPath field are
          as follows:

          2-255
          for future extensions

          1
          the anomaly condition is on the working path

          0
          the anomaly condition is on the protection path









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          The value and the interpretation of the Path field are
          as follows:

          2-255
          for future extensions

          1
          protection path is transporting user data traffic

          0
          protection path is not transporting user data traffic."
      REFERENCE
         "Sections 4.2.5 and 4.2.6 of RFC 6378"
      SYNTAX      OCTET STRING (SIZE (2))

   MplsLpsCommand ::= TEXTUAL-CONVENTION
      STATUS      current
      DESCRIPTION
         "This command allows a user to perform any action over a
          protection domain.  If the protection command cannot be
          executed because a request of equal or higher priority is
          in effect, an inconsistentValue error is returned.

          The command values are as follows:

          noCmd
          This value should be returned by a read request when no
          command has been written to the object in question since
          initialization.  This value may not be used in a write
          operation.  If noCmd is used in a write operation, a
          wrongValue error is returned.

          clear
          Clears all of the commands listed below for the protection
          domain.

          lockoutOfProtection
          Prevents switching traffic to the protection path.

          forcedSwitch
          Switches traffic from the working path to the protection path.

          manualSwitchToWork
          Switches traffic from the protection path to the working path.

          manualSwitchToProtect
          Switches traffic from the working path to the protection path.




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          exercise
          Used to verify the correct operation of the PSC communication
          and the integrity of the protection path.  This command is not
          applicable to the PSC mode.

          freeze
          This command freezes the protection state and is a local
          command that is not signaled to the remote node.
          This command is not applicable to the PSC mode.

          clearfreeze
          Clears the local freeze.  This command is not applicable to
          the PSC mode."
      REFERENCE
         "Sections 3.1 and 3.2 of RFC 6378 and Sections 4.3 and 6 of
          RFC 7271"
      SYNTAX   INTEGER {
                  noCmd(1),
                  clear(2),
                  lockoutOfProtection(3),
                  forcedSwitch(4),
                  manualSwitchToWork(5),
                  manualSwitchToProtect(6),
                  exercise(7),
                  freeze(8),
                  clearfreeze(9)
                  }

   MplsLpsState ::= TEXTUAL-CONVENTION
      STATUS      current
      DESCRIPTION
         "This textual convention describes an object that stores
          the current state of the PSC state machine.  The values
          are as follows:

          normal
          Normal state.

          unavLOlocal
          Unavailable state due to local LO command.

          unavSFPlocal
          Unavailable state due to local SF-P.

          unavSDPlocal
          Unavailable state due to local SD-P.





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          unavLOremote
          Unavailable state due to remote LO message.

          unavSFPremote
          Unavailable state due to remote SF-P message.

          unavSDPremote
          Unavailable state due to remote SD-P message.

          protfailSFWlocal
          Protecting Failure state due to local SF-W.

          protfailSDWlocal
          Protecting Failure state due to local SD-W.

          protfailSFWremote
          Protecting Failure state due to remote SF-W message.

          protfailSDWremote
          Protecting Failure state due to remote SD-W message.

          switadmFSlocal
          Switching Administrative state due to local FS command.
          Same as Protecting Administrative state due to local FS
          command in the PSC mode.

          switadmMSWlocal
          Switching Administrative state due to local MS-W command.

          switadmMSPlocal
          Switching Administrative state due to local MS-P command.
          Same as Protecting Administrative state due to local MS
          command in the PSC mode.

          switadmFSremote
          Switching Administrative state due to remote FS message.
          Same as Protecting Administrative state due to remote FS
          message in the PSC mode.

          switadmMSWremote
          Switching Administrative state due to remote MS-W message.

          switadmMSPremote
          Switching Administrative state due to remote MS-P message.
          Same as Protecting Administrative state due to remote MS
          message in the PSC mode.





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          wtr
          Wait-to-Restore state.

          dnr
          Do-not-Revert state.

          exerLocal
          Exercise state due to local EXER command.

          exerRemote
          Exercise state due to remote EXER message."
      REFERENCE
         "Sections 3 and 11 of RFC 7271"

      SYNTAX   INTEGER {
                  normal(1),
                  unavLOlocal(2),
                  unavSFPlocal(3),
                  unavSDPlocal(4),
                  unavLOremote(5),
                  unavSFPremote(6),
                  unavSDPremote(7),
                  protfailSFWlocal(8),
                  protfailSDWlocal(9),
                  protfailSFWremote(10),
                  protfailSDWremote(11),
                  switadmFSlocal(12),
                  switadmMSWlocal(13),
                  switadmMSPlocal(14),
                  switadmFSremote(15),
                  switadmMSWremote(16),
                  switadmMSPremote(17),
                  wtr(18),
                  dnr(19),
                  exerLocal(20),
                  exerRemote(21)
                  }














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   -- Start of
   -- MPLS-TP Linear Protection Switching Configuration Table.
   -- This table supports the addition, configuration, and deletion
   -- of MPLS-TP linear protection domains.

   mplsLpsConfigDomainIndexNext OBJECT-TYPE
      SYNTAX      IndexIntegerNextFree (0..4294967295)
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "This object contains an unused value for
          mplsLpsConfigDomainIndex, or a zero to indicate that
          the number of unassigned entries has been exhausted.
          Negative values are not allowed, as they do not correspond
          to valid values of mplsLpsConfigDomainIndex."
      ::= { mplsLpsObjects 1 }

   mplsLpsConfigTable OBJECT-TYPE
      SYNTAX      SEQUENCE OF MplsLpsConfigEntry
      MAX-ACCESS  not-accessible
      STATUS      current
      DESCRIPTION
         "This table lists the MPLS-TP linear protection domains that
          have been configured on the system.
          An entry is created by a network operator who wants to run
          the MPLS-TP linear protection protocol for the protection
          domain."
      ::= { mplsLpsObjects 2 }

   mplsLpsConfigEntry OBJECT-TYPE
      SYNTAX      MplsLpsConfigEntry
      MAX-ACCESS  not-accessible
      STATUS      current
      DESCRIPTION
         "A conceptual row in the mplsLpsConfigTable."
      INDEX { mplsLpsConfigDomainIndex }
      ::= { mplsLpsConfigTable 1 }

   MplsLpsConfigEntry ::= SEQUENCE {
      mplsLpsConfigDomainIndex         Unsigned32,
      mplsLpsConfigDomainName          SnmpAdminString,
      mplsLpsConfigMode                INTEGER,
      mplsLpsConfigProtectionType      INTEGER,
      mplsLpsConfigRevertive           INTEGER,
      mplsLpsConfigSdThreshold         Unsigned32,
      mplsLpsConfigSdBadSeconds        Unsigned32,
      mplsLpsConfigSdGoodSeconds       Unsigned32,
      mplsLpsConfigWaitToRestore       Unsigned32,



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      mplsLpsConfigHoldOff             Unsigned32,
      mplsLpsConfigContinualTxInterval Unsigned32,
      mplsLpsConfigRapidTxInterval     Unsigned32,
      mplsLpsConfigCommand             MplsLpsCommand,
      mplsLpsConfigCreationTime        TimeStamp,
      mplsLpsConfigRowStatus           RowStatus,
      mplsLpsConfigStorageType         StorageType
   }

   mplsLpsConfigDomainIndex OBJECT-TYPE
      SYNTAX      Unsigned32 (1..4294967295)
      MAX-ACCESS  not-accessible
      STATUS      current
      DESCRIPTION
         "Index for the conceptual row identifying a protection domain.
          Operators should obtain new values for row creation in this
          table by reading mplsLpsConfigDomainIndexNext.

          When the value of this object is the same as the value of
          mplsLpsMeConfigDomain, the mplsLpsMeConfigDomain is defined
          as either the working path or the protection path for this
          protection domain."
      ::= { mplsLpsConfigEntry 1 }

   mplsLpsConfigDomainName OBJECT-TYPE
      SYNTAX      SnmpAdminString (SIZE (0..32))
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "Textual name that represents the MPLS-TP linear protection
          domain.  It facilitates easy administrative identification of
          each protection domain."
      DEFVAL {""}
      ::= { mplsLpsConfigEntry 2 }

















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   mplsLpsConfigMode OBJECT-TYPE
      SYNTAX INTEGER {
                psc(1),
                aps(2)
                }
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "The mode of the MPLS-TP linear protection mechanism.  This can
          be either PSC or APS, as follows:

          PSC
          The Protection State Coordination mode as described in
          RFC 6378.

          APS
          The Automatic Protection Switching mode as described in
          RFC 7271.

          This object may not be modified if the associated
          mplsLpsConfigRowStatus object is equal to active(1).

          The value of this object is not supposed to be changed
          during operation.  When the value should be changed,
          the protection processes in both LERs MUST be
          restarted with the same new value.

          If this value is changed at one LER during operation,
          the LER will generate PSC packets with a new
          Capabilities TLV value.  This will result in
          mplsLpsEventCapabilitiesMismatch notifications at both LERs."
      REFERENCE
         "Sections 9.2 and 10 of RFC 7271"
      DEFVAL {psc}
      ::= { mplsLpsConfigEntry 3 }
















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   mplsLpsConfigProtectionType OBJECT-TYPE
      SYNTAX INTEGER {
                onePlusOneUnidirectional(1),
                oneColonOneBidirectional(2),
                onePlusOneBidirectional(3)
                }
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "The protection architecture type of the protection domain.
          This object represents both the bridge type, which can be
          either a permanent bridge (1+1) or a selector bridge (1:1);
          and the switching scheme, which can be either unidirectional
          or bidirectional.

          1+1
          In the 1+1 protection scheme, a fully dedicated protection
          path is allocated.  Data traffic is copied and fed at the
          source to both the working path and the protection path.
          The traffic on the working path and protection path is
          transmitted simultaneously to the sink of the protection
          domain, where selection between the working path and the
          protection path is performed.

          1:1
          In the 1:1 protection scheme, a protection path is allocated
          to protect against a defect, failure, or degradation on the
          working path.  In normal conditions, data traffic is
          transmitted over the working path, while the protection path
          functions in the idle state.  If there is a defect on the
          working path or a specific administrative request,
          traffic is switched to the protection path.

          bidirectional
          In the bidirectional protection scheme, both directions
          will be switched simultaneously even if the fault applies
          to only one direction of the path.

          unidirectional
          In the unidirectional protection scheme, protection switching
          will be performed independently for each direction of a
          bidirectional transport path.

          This object may not be modified if the associated
          mplsLpsConfigRowStatus object is equal to active(1)."






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      REFERENCE
         "Section 4.2.3 of RFC 6378"
      DEFVAL {oneColonOneBidirectional}
      ::= { mplsLpsConfigEntry 4 }

   mplsLpsConfigRevertive OBJECT-TYPE
      SYNTAX      INTEGER { nonrevertive(1), revertive(2) }
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "This object represents the reversion mode of the linear
          protection domain.  The reversion mode of the protection
          mechanism may be either revertive or non-revertive.

          nonrevertive
          In the non-revertive mode, after a service has been recovered,
          traffic will be forwarded on the protection path.

          revertive
          In the revertive mode, after a service has been recovered,
          traffic will be redirected back onto the original working
          path.

          This object may not be modified if the associated
          mplsLpsConfigRowStatus object is equal to active(1)."
      REFERENCE
         "Section 4.2.4 of RFC 6378"
      DEFVAL { revertive }
      ::= { mplsLpsConfigEntry 5 }

   mplsLpsConfigSdThreshold OBJECT-TYPE
      SYNTAX      Unsigned32 (0..100)
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "This object holds the threshold value of the Signal Degrade
          (SD) defect in percent.  In order to detect the SD defect,
          the MPLS-TP packet loss measurement (LM) is performed
          every second.

          If either the packet loss is negative (i.e., there are more
          packets received than transmitted) or the packet loss ratio
          (lost packets/transmitted packets) in percent is greater than
          this threshold value, a Bad Second is declared.
          Otherwise, a Good Second is declared.






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          The SD defect is detected if there are
          mplsLpsConfigSdBadSeconds consecutive Bad Seconds
          and cleared if there are
          mplsLpsConfigSdGoodSeconds consecutive Good Seconds.

          This object may be modified if the associated
          mplsLpsConfigRowStatus object is equal to active(1)."
      REFERENCE
         "Clause 6.1.3.3 of ITU-T Recommendation G.8121/Y.1381 and
          Table 8-1 of ITU-T Recommendation G.8151/Y.1374"
      DEFVAL { 30 }
      ::= { mplsLpsConfigEntry 6 }

   mplsLpsConfigSdBadSeconds OBJECT-TYPE
      SYNTAX      Unsigned32 (2..10)
      UNITS       "seconds"
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "This object holds the number of Bad Seconds to detect the SD.

          If the number of consecutive Bad Seconds reaches this value,
          the SD defect is detected and used as an input to
          the protection switching process.

          This object may be modified if the associated
          mplsLpsConfigRowStatus object is equal to active(1)."
      REFERENCE
         "Clause 6.1.3.3 of ITU-T Recommendation G.8121/Y.1381 and
          Table 8-1 of ITU-T Recommendation G.8151/Y.1374"
      DEFVAL { 10 }
      ::= { mplsLpsConfigEntry 7 }

   mplsLpsConfigSdGoodSeconds OBJECT-TYPE
      SYNTAX      Unsigned32 (2..10)
      UNITS       "seconds"
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "This object holds the number of Good Seconds to declare
          the clearance of an SD defect.

          After an SD defect occurs on a path, if the number of
          consecutive Good Seconds reaches this value for the
          degraded path, the clearance of the SD defect is declared
          and used as an input to the protection switching process.





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          This object may be modified if the associated
          mplsLpsConfigRowStatus object is equal to active(1)."
      REFERENCE
         "Clause 6.1.3.3 of ITU-T Recommendation G.8121/Y.1381 and
          Table 8-1 of ITU-T Recommendation G.8151/Y.1374"
      DEFVAL { 10 }
      ::= { mplsLpsConfigEntry 8 }

   mplsLpsConfigWaitToRestore OBJECT-TYPE
      SYNTAX      Unsigned32 (5..12)
      UNITS       "minutes"
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "This object holds the Wait-to-Restore timer value in minutes
          and can be configured in 1-minute intervals between 5 and
          12 minutes.

          The WTR timer is used to delay the reversion of the PSC state
          to the Normal state when recovering from a failure condition
          on the working path when the protection domain is configured
          for revertive behavior.

          This object may not be modified if the associated
          mplsLpsConfigRowStatus object is equal to active(1)."
      REFERENCE
         "Section 3.5 of RFC 6378"
      DEFVAL { 5 }
      ::= { mplsLpsConfigEntry 9 }

   mplsLpsConfigHoldOff OBJECT-TYPE
      SYNTAX      Unsigned32 (0..100)
      UNITS       "deciseconds"
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "The hold-off time in deciseconds.  Represents the time
          between SF/SD condition detection and declaration of
          an SF/SD request to the protection switching logic.
          It is intended to avoid unnecessary switching when a
          lower-layer protection mechanism is in place.
          Can be configured in intervals of 100 milliseconds.

          When a new defect or a more severe defect occurs on
          the active path (the path from which the selector selects
          the user data traffic) and this value is non-zero,
          the hold-off timer will be started.  A defect on the standby




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          path (the path from which the selector does not select the
          user data traffic) does not trigger the start of the hold-off
          timer, as there is no need for a traffic switchover.

          This object may not be modified if the associated
          mplsLpsConfigRowStatus object is equal to active(1)."
      REFERENCE
         "Section 3.1 of RFC 6378"
      DEFVAL { 0 }
      ::= { mplsLpsConfigEntry 10 }

   mplsLpsConfigContinualTxInterval OBJECT-TYPE
      SYNTAX      Unsigned32 (1..20)
      UNITS       "seconds"
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "The Continual Tx Time in seconds.  Represents the time
          interval to send the continual PSC packet to the other
          end, based on the current state.

          This object may not be modified if the associated
          mplsLpsConfigRowStatus object is equal to active(1)."
      REFERENCE
         "Section 4.1 of RFC 6378"
      DEFVAL { 5 }
      ::= { mplsLpsConfigEntry 11 }

   mplsLpsConfigRapidTxInterval OBJECT-TYPE
      SYNTAX      Unsigned32 (1000..20000)
      UNITS       "microseconds"
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "The Rapid Tx interval in microseconds.  Represents the time
          interval to send the PSC packet to the other end, when
          there is a change in the state of the linear protection domain
          due to local input.  The default value is 3.3 milliseconds
          (3300 microseconds).

          This object may not be modified if the associated
          mplsLpsConfigRowStatus object is equal to active(1)."
      REFERENCE
         "Section 4.1 of RFC 6378"
      DEFVAL { 3300 }
      ::= { mplsLpsConfigEntry 12 }





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   mplsLpsConfigCommand OBJECT-TYPE
      SYNTAX      MplsLpsCommand
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "Allows the initiation of an operator command on
          the protection domain.

          When read, this object returns the last command written
          or noCmd if no command has been written since initialization.
          The return of the last command written does not imply that
          this command is currently in effect.  This request may have
          been preempted by a higher-priority local or remote request.

          This object may be modified if the associated
          mplsLpsConfigRowStatus object is equal to active(1)."
      REFERENCE
         "Sections 3.1 and 3.2 of RFC 6378 and Sections 4.3 and 6 of
          RFC 7271"
      DEFVAL { noCmd }
      ::= { mplsLpsConfigEntry 13 }

   mplsLpsConfigCreationTime OBJECT-TYPE
      SYNTAX      TimeStamp
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "The value of sysUpTime at the time the row was created."
      ::= { mplsLpsConfigEntry 14 }

   mplsLpsConfigRowStatus OBJECT-TYPE
      SYNTAX      RowStatus
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "This object represents the status of the MPLS-TP linear
          protection domain entry.  This variable is used to
          create, modify, and/or delete a row in this table."
      ::= { mplsLpsConfigEntry 15 }












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   mplsLpsConfigStorageType OBJECT-TYPE
      SYNTAX      StorageType
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "The storage type for this conceptual row.
          Conceptual rows having the value 'permanent' need not
          allow write access to any columnar objects in the row."
      DEFVAL      { nonVolatile }
      ::= { mplsLpsConfigEntry 16 }

   --
   -- MPLS-TP Linear Protection Switching Status Table.
   -- This table provides protection domain statistics.
   --

   mplsLpsStatusTable OBJECT-TYPE
      SYNTAX      SEQUENCE OF MplsLpsStatusEntry
      MAX-ACCESS  not-accessible
      STATUS      current
      DESCRIPTION
         "This table provides status information about MPLS-TP
          linear protection domains that have been configured
          on the system."
      ::= { mplsLpsObjects 3 }

   mplsLpsStatusEntry OBJECT-TYPE
      SYNTAX      MplsLpsStatusEntry
      MAX-ACCESS  not-accessible
      STATUS      current
      DESCRIPTION
         "A conceptual row in the mplsLpsStatusTable."
      AUGMENTS { mplsLpsConfigEntry }
      ::= { mplsLpsStatusTable 1 }

   MplsLpsStatusEntry ::= SEQUENCE {
      mplsLpsStatusState                 MplsLpsState,
      mplsLpsStatusReqRcv                MplsLpsReq,
      mplsLpsStatusReqSent               MplsLpsReq,
      mplsLpsStatusFpathPathRcv          MplsLpsFpathPath,
      mplsLpsStatusFpathPathSent         MplsLpsFpathPath,
      mplsLpsStatusRevertiveMismatch     TruthValue,
      mplsLpsStatusProtecTypeMismatch    TruthValue,
      mplsLpsStatusCapabilitiesMismatch  TruthValue,
      mplsLpsStatusPathConfigMismatch    TruthValue,
      mplsLpsStatusFopNoResponses        Counter32,
      mplsLpsStatusFopTimeouts           Counter32
   }



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   mplsLpsStatusState OBJECT-TYPE
      SYNTAX      MplsLpsState
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "The current state of the PSC state machine."
      REFERENCE
         "Section 11 of RFC 7271"
      ::= { mplsLpsStatusEntry 1 }

   mplsLpsStatusReqRcv OBJECT-TYPE
      SYNTAX      MplsLpsReq
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "The current value of the PSC Request field received on
          the most recent PSC packet."
      REFERENCE
         "Section 4.2 of RFC 6378"
      ::= { mplsLpsStatusEntry 2 }

   mplsLpsStatusReqSent OBJECT-TYPE
      SYNTAX      MplsLpsReq
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "The current value of the PSC Request field sent on the
          most recent PSC packet."
      REFERENCE
         "Section 4.2 of RFC 6378"
      ::= { mplsLpsStatusEntry 3 }

   mplsLpsStatusFpathPathRcv OBJECT-TYPE
      SYNTAX      MplsLpsFpathPath
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "The current value of the FPath and Path fields received
          on the most recent PSC packet."
      REFERENCE
         "Section 4.2 of RFC 6378"
      ::= { mplsLpsStatusEntry 4 }









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   mplsLpsStatusFpathPathSent OBJECT-TYPE
      SYNTAX      MplsLpsFpathPath
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "The current value of the FPath and Path fields sent
          on the most recent PSC packet."
      REFERENCE
         "Section 4.2 of RFC 6378"
      ::= { mplsLpsStatusEntry 5 }

   mplsLpsStatusRevertiveMismatch OBJECT-TYPE
      SYNTAX      TruthValue
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "This object indicates a provisioning mismatch in the
          revertive mode across the protection domain endpoints.
          The value of this object becomes true when a PSC message with
          an incompatible Revertive field is received or false when a
          PSC message with a compatible Revertive field is received."
      REFERENCE
         "Section 12 of RFC 7271"
      ::= { mplsLpsStatusEntry 6 }

   mplsLpsStatusProtecTypeMismatch OBJECT-TYPE
      SYNTAX      TruthValue
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "This object indicates a provisioning mismatch in the
          protection type, representing both the bridge type and the
          switching type, across the protection domain endpoints.
          The value of this object becomes true when a PSC message with
          an incompatible Protection Type (PT) field is received or
          false when a PSC message with a compatible PT field is
          received."
      REFERENCE
         "Section 12 of RFC 7271"
      ::= { mplsLpsStatusEntry 7 }











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   mplsLpsStatusCapabilitiesMismatch OBJECT-TYPE
      SYNTAX      TruthValue
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "This object indicates a provisioning mismatch in
          Capabilities TLVs across the protection domain endpoints.
          The value of this object becomes true when a PSC message with
          an incompatible Capabilities TLV field is received or false
          when a PSC message with a compatible Capabilities TLV field is
          received.

          The Capabilities TLV with 0xF8000000 indicates that the APS
          mode is used for the MPLS-TP linear protection mechanism,
          whereas the PSC mode either (1) uses the Capabilities TLV
          with a value of 0x0 or (2) does not use the Capabilities TLV
          because the TLV does not exist."
      REFERENCE
         "Section 12 of RFC 7271"
      ::= { mplsLpsStatusEntry 8 }

   mplsLpsStatusPathConfigMismatch OBJECT-TYPE
      SYNTAX      TruthValue
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "This object indicates a provisioning mismatch in the
          protection path configuration for PSC communication across
          the protection domain endpoints.

          The value of this object becomes true when a PSC message is
          received from the working path or false when a PSC message
          is received from the protection path."
      REFERENCE
         "Section 12 of RFC 7271"
      ::= { mplsLpsStatusEntry 9 }















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   mplsLpsStatusFopNoResponses OBJECT-TYPE
      SYNTAX      Counter32
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "This object holds the number of occurrences of protocol
          failure due to a lack of response to a traffic
          switchover request within 50 ms.

          When there is a traffic switchover due to a local request,
          a 50 ms timer is started to detect protocol failure due to
          no response.  If there is no PSC message received with the
          same Path value as the Path value in the transmitted
          PSC message until the 50 ms timer expires, protocol failure
          due to no response occurs."
      REFERENCE
         "Section 12 of RFC 7271"
      ::= { mplsLpsStatusEntry 10 }

   mplsLpsStatusFopTimeouts OBJECT-TYPE
      SYNTAX      Counter32
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "This object holds the number of occurrences of protocol
          failure due to no PSC message being received during
          at least 3.5 times the long PSC message interval.

          When no PSC message is received on the protection path during
          at least 3.5 times the long PSC message interval and there
          is no defect on the protection path, protocol failure due to
          no PSC message occurs."
      REFERENCE
         "Section 12 of RFC 7271"
      ::= { mplsLpsStatusEntry 11 }

   -- MPLS-TP Linear Protection ME Association Configuration Table.
   -- This table supports the addition, configuration, and deletion
   -- of MPLS-TP linear protection MEs in protection domains.

   mplsLpsMeConfigTable OBJECT-TYPE
      SYNTAX      SEQUENCE OF MplsLpsMeConfigEntry
      MAX-ACCESS  not-accessible
      STATUS      current
      DESCRIPTION
         "This table lists ME associations that have been configured
          in protection domains."
      ::= { mplsLpsObjects 4 }



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   mplsLpsMeConfigEntry OBJECT-TYPE
      SYNTAX      MplsLpsMeConfigEntry
      MAX-ACCESS  not-accessible
      STATUS      current
      DESCRIPTION
         "A conceptual row in the mplsLpsMeConfigTable.  There is
          a sparse relationship between the conceptual rows of
          this table and the mplsOamIdMeTable.

          Each time that an entry is created in the mplsOamIdMeTable
          for which the LER supports MPLS-TP linear protection,
          a row is created automatically in the mplsLpsMeConfigTable.

          An entry in this table is related to a single entry in
          the mplsOamIdMeTable.  When a point-to-point transport path
          needs to be monitored, one ME is needed for the path,
          and one entry in the mplsOamIdMeTable will be created.
          But the ME entry in the mplsOamIdMeTable may or may not
          participate in protection switching.

          If an ME participates in protection switching, an entry in
          the mplsLpsMeConfigTable MUST be created, and the objects
          in the entry indicate which protection domain this ME
          belongs to and whether this ME is for the working path or
          the protection path.

          If the ME does not participate in protection switching,
          an entry in the mplsLpsMeConfigTable does not need
          to be created."
      INDEX {mplsOamIdMegIndex, mplsOamIdMeIndex, mplsOamIdMeMpIndex}
      ::= { mplsLpsMeConfigTable 1 }

   MplsLpsMeConfigEntry ::= SEQUENCE {
      mplsLpsMeConfigDomain                Unsigned32,
      mplsLpsMeConfigPath                  INTEGER
   }















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   mplsLpsMeConfigDomain OBJECT-TYPE
      SYNTAX      Unsigned32 (0..4294967295)
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "This object holds the mplsLpsConfigDomainIndex value for
          the protection domain in which this ME is included.
          If this ME is not part of any protection domain, then
          this object contains the value 0.

          When the value of this object is the same as the value of
          mplsLpsConfigDomainIndex, the object is defined as either
          the working path or the protection path of the
          protection domain corresponding to mplsLpsConfigDomainIndex."
      DEFVAL { 0 }
      ::= { mplsLpsMeConfigEntry 1 }

   mplsLpsMeConfigPath OBJECT-TYPE
      SYNTAX      INTEGER { working(1), protection(2) }
      MAX-ACCESS  read-create
      STATUS      current
      DESCRIPTION
         "This object represents whether the ME is configured
          as the working path or the protection path."
      REFERENCE
         "Section 4.3 of RFC 6378"
      ::= { mplsLpsMeConfigEntry 2 }

   --
   -- MPLS Linear Protection ME Status Table.
   -- This table provides protection switching ME statistics.
   --

   mplsLpsMeStatusTable OBJECT-TYPE
      SYNTAX      SEQUENCE OF MplsLpsMeStatusEntry
      MAX-ACCESS  not-accessible
      STATUS      current
      DESCRIPTION
         "This table contains status information of all the MEs
          that are included in MPLS-TP linear protection domains."
      ::= { mplsLpsObjects 5 }










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   mplsLpsMeStatusEntry OBJECT-TYPE
      SYNTAX      MplsLpsMeStatusEntry
      MAX-ACCESS  not-accessible
      STATUS      current
      DESCRIPTION
         "A conceptual row in the mplsLpsMeStatusTable."
      AUGMENTS { mplsLpsMeConfigEntry }
      ::= { mplsLpsMeStatusTable 1 }

   MplsLpsMeStatusEntry ::= SEQUENCE {
      mplsLpsMeStatusCurrent               BITS,
      mplsLpsMeStatusSignalDegrades        Counter32,
      mplsLpsMeStatusSignalFailures        Counter32,
      mplsLpsMeStatusSwitchovers           Counter32,
      mplsLpsMeStatusLastSwitchover        TimeStamp,
      mplsLpsMeStatusSwitchoverSeconds     Counter32
   }

   mplsLpsMeStatusCurrent OBJECT-TYPE
      SYNTAX      BITS {
                  localSelectTraffic(0),
                  localSD(1),
                  localSF(2)
                  }
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "Indicates the current state of the ME.

          localSelectTraffic
          This bit indicates that traffic is being selected from
          this ME.

          localSD
          This bit implies that a local Signal Degrade condition is
          in effect on this ME/path.

          localSF
          This bit implies that a local Signal Fail condition is
          in effect on this ME/path."
      REFERENCE
         "Section 4.3 of RFC 6378 and Section 7 of RFC 7271"
      ::= { mplsLpsMeStatusEntry 1 }








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   mplsLpsMeStatusSignalDegrades OBJECT-TYPE
      SYNTAX      Counter32
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "Represents the count of Signal Degrade conditions.
          For the detection and clearance of Signal Degrade,
          see the description of mplsLpsConfigSdThreshold."
      REFERENCE
         "Section 7 of RFC 7271"
      ::= { mplsLpsMeStatusEntry 2 }

   mplsLpsMeStatusSignalFailures OBJECT-TYPE
      SYNTAX      Counter32
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "Represents the count of Signal Fail conditions.
          This condition occurs when the OAM running on this ME
          detects the Signal Fail event."
      REFERENCE
         "Section 4.3 of RFC 6378"
      ::= { mplsLpsMeStatusEntry 3 }

   mplsLpsMeStatusSwitchovers OBJECT-TYPE
      SYNTAX      Counter32
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "Represents the count of switchovers that happened in this ME.

          When the mplsLpsMeConfigPath value is 'working', this object
          will return the number of times that traffic has been
          switched from this working path to the protection path.

          When the mplsLpsMeConfigPath value is 'protection', this
          object will return the number of times that traffic has been
          switched back to the working path from this protection path."
      REFERENCE
         "Section 4.3 of RFC 6378"
      ::= { mplsLpsMeStatusEntry 4 }










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   mplsLpsMeStatusLastSwitchover OBJECT-TYPE
      SYNTAX      TimeStamp
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "This object holds the value of sysUpTime at the time that
          the last switchover happened.

          When the mplsLpsMeConfigPath value is 'working', this object
          will return the value of sysUpTime when traffic was switched
          from this path to the protection path.

          If traffic has never switched to the protection path, the
          value 0 will be returned.

          When the mplsLpsMeConfigPath value is 'protection', this
          object will return the value of sysUpTime the last time that
          traffic was switched back to the working path from this path.
          If no traffic has ever switched back to the working path from
          this protection path, the value 0 will be returned."
      REFERENCE
         "Section 4.3 of RFC 6378"
      ::= { mplsLpsMeStatusEntry 5 }

   mplsLpsMeStatusSwitchoverSeconds OBJECT-TYPE
      SYNTAX      Counter32
      UNITS       "seconds"
      MAX-ACCESS  read-only
      STATUS      current
      DESCRIPTION
         "The cumulative Protection Switching Duration (PSD) time
          in seconds.

          For the working path, this is the cumulative number of
          seconds that traffic was selected from the protection path.

          For the protection path, this is the cumulative number
          of seconds that the working path has been used to
          select traffic."
      REFERENCE
         "Section 4.3 of RFC 6378"
      ::= { mplsLpsMeStatusEntry 6 }









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   mplsLpsNotificationEnable OBJECT-TYPE
      SYNTAX      BITS {
                  switchover(0),
                  revertiveMismatch(1),
                  protecTypeMismatch(2),
                  capabilitiesMismatch(3),
                  pathConfigMismatch(4),
                  fopNoResponse(5),
                  fopTimeout(6)
                  }
      MAX-ACCESS  read-write
      STATUS      current
      DESCRIPTION
         "Provides the ability to enable and disable notifications
          defined in this MIB module.

          switchover
          Indicates that mplsLpsEventSwitchover notifications should be
          generated.

          revertiveMismatch
          Indicates that mplsLpsEventRevertiveMismatch notifications
          should be generated.

          protecTypeMismatch
          Indicates that mplsLpsEventProtecTypeMismatch notifications
          should be generated.

          capabilitiesMismatch
          Indicates that mplsLpsEventCapabilitiesMismatch notifications
          should be generated.

          pathConfigMismatch
          Indicates that mplsLpsEventPathConfigMismatch notifications
          should be generated.

          fopNoResponse
          Indicates that mplsLpsEventFopNoResponse notifications should
          be generated.

          fopTimeout
          Indicates that mplsLpsEventFopTimeout notifications should be
          generated."
      REFERENCE
         "Section 12 of RFC 7271"
      DEFVAL { { } }
      ::= { mplsLpsObjects 6 }




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   -- MPLS Linear Protection EVENTS.

   mplsLpsEventSwitchover NOTIFICATION-TYPE
      OBJECTS { mplsLpsMeStatusSwitchovers, mplsLpsMeStatusCurrent }
      STATUS  current
      DESCRIPTION
         "An mplsLpsEventSwitchover notification is sent when the
          value of an instance of mplsLpsMeStatusSwitchovers
          increments."
      ::= { mplsLpsNotifications 1 }

   mplsLpsEventRevertiveMismatch NOTIFICATION-TYPE
      OBJECTS { mplsLpsStatusRevertiveMismatch }
      STATUS  current
      DESCRIPTION
         "An mplsLpsEventRevertiveMismatch notification is sent when
          the value of mplsLpsStatusRevertiveMismatch changes."
      ::= { mplsLpsNotifications 2 }

   mplsLpsEventProtecTypeMismatch NOTIFICATION-TYPE
      OBJECTS { mplsLpsStatusProtecTypeMismatch }
      STATUS  current
      DESCRIPTION
         "An mplsLpsEventProtecTypeMismatch notification is sent
          when the value of mplsLpsStatusProtecTypeMismatch changes."
      ::= { mplsLpsNotifications 3 }

   mplsLpsEventCapabilitiesMismatch NOTIFICATION-TYPE
      OBJECTS { mplsLpsStatusCapabilitiesMismatch }
      STATUS  current
      DESCRIPTION
         "An mplsLpsEventCapabilitiesMismatch notification is sent
          when the value of mplsLpsStatusCapabilitiesMismatch changes."
      ::= { mplsLpsNotifications 4 }

   mplsLpsEventPathConfigMismatch NOTIFICATION-TYPE
      OBJECTS { mplsLpsStatusPathConfigMismatch }
      STATUS  current
      DESCRIPTION
         "An mplsLpsEventPathConfigMismatch notification is sent
          when the value of mplsLpsStatusPathConfigMismatch changes."
      ::= { mplsLpsNotifications 5 }









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   mplsLpsEventFopNoResponse NOTIFICATION-TYPE
      OBJECTS { mplsLpsStatusFopNoResponses }
      STATUS  current
      DESCRIPTION
         "An mplsLpsEventFopNoResponse notification is sent when the
          value of mplsLpsStatusFopNoResponses increments."
      ::= { mplsLpsNotifications 6 }

   mplsLpsEventFopTimeout NOTIFICATION-TYPE
      OBJECTS { mplsLpsStatusFopTimeouts }
      STATUS  current
      DESCRIPTION
         "An mplsLpsEventFopTimeout notification is sent when the
          value of mplsLpsStatusFopTimeouts increments."
      ::= { mplsLpsNotifications 7 }

   -- End of Notifications.

   -- Module Compliance.

   mplsLpsCompliances
      OBJECT IDENTIFIER ::= { mplsLpsConformance 1 }

   mplsLpsGroups
      OBJECT IDENTIFIER ::= { mplsLpsConformance 2 }

   -- Compliance requirement for fully compliant implementations.

   mplsLpsModuleFullCompliance MODULE-COMPLIANCE
      STATUS      current
      DESCRIPTION
         "Compliance statement for agents that provide full support for
          the MPLS-LPS-MIB module.  Such devices can provide linear
          protection and also be configured using this MIB module."
      MODULE -- this module
      MANDATORY-GROUPS {
         mplsLpsScalarGroup,
         mplsLpsTableGroup,
         mplsLpsMeTableGroup
      }
      GROUP        mplsLpsNotificationGroup
      DESCRIPTION
         "This group is only mandatory for those
          implementations that can efficiently implement
          the notifications contained in this group."
      ::= { mplsLpsCompliances 1 }





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   -- Compliance requirement for read-only implementations.

   mplsLpsModuleReadOnlyCompliance MODULE-COMPLIANCE
      STATUS      current
      DESCRIPTION
         "Compliance statement for agents that only provide
          read-only support for the MPLS-LPS-MIB module."
      MODULE -- this module
      MANDATORY-GROUPS {
         mplsLpsScalarGroup,
         mplsLpsTableGroup,
         mplsLpsMeTableGroup
      }
      GROUP        mplsLpsNotificationGroup
      DESCRIPTION
         "This group is only mandatory for those
          implementations that can efficiently implement
          the notifications contained in this group."

      -- mplsLpsConfigTable

      OBJECT      mplsLpsConfigMode
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      OBJECT      mplsLpsConfigProtectionType
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      OBJECT      mplsLpsConfigRevertive
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      OBJECT      mplsLpsConfigSdThreshold
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      OBJECT      mplsLpsConfigSdBadSeconds
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."






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      OBJECT      mplsLpsConfigSdGoodSeconds
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      OBJECT      mplsLpsConfigWaitToRestore
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      OBJECT      mplsLpsConfigContinualTxInterval
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      OBJECT      mplsLpsConfigRapidTxInterval
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      OBJECT      mplsLpsConfigCommand
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      OBJECT      mplsLpsConfigRowStatus
      SYNTAX      RowStatus { active(1) }
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      OBJECT      mplsLpsConfigStorageType
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."
















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      -- mplsLpsMeConfigTable

      OBJECT      mplsLpsMeConfigDomain
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      OBJECT      mplsLpsMeConfigPath
      MIN-ACCESS  read-only
      DESCRIPTION
         "Write access is not required."

      ::= { mplsLpsCompliances 2 }

   -- Units of conformance.

   mplsLpsScalarGroup OBJECT-GROUP
      OBJECTS {
              mplsLpsConfigDomainIndexNext,
              mplsLpsNotificationEnable
              }
      STATUS  current
      DESCRIPTION
         "Collection of objects needed for MPLS linear protection."
      ::= { mplsLpsGroups 1 }

   mplsLpsTableGroup OBJECT-GROUP
      OBJECTS {
         mplsLpsConfigDomainName,
         mplsLpsConfigRowStatus,
         mplsLpsConfigMode,
         mplsLpsConfigProtectionType,
         mplsLpsConfigRevertive,
         mplsLpsConfigSdThreshold,
         mplsLpsConfigSdBadSeconds,
         mplsLpsConfigSdGoodSeconds,
         mplsLpsConfigWaitToRestore,
         mplsLpsConfigHoldOff,
         mplsLpsConfigContinualTxInterval,
         mplsLpsConfigRapidTxInterval,
         mplsLpsConfigCommand,
         mplsLpsConfigCreationTime,
         mplsLpsConfigStorageType,
         mplsLpsStatusState,
         mplsLpsStatusReqRcv,
         mplsLpsStatusReqSent,
         mplsLpsStatusFpathPathRcv,
         mplsLpsStatusFpathPathSent,



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         mplsLpsStatusRevertiveMismatch,
         mplsLpsStatusProtecTypeMismatch,
         mplsLpsStatusCapabilitiesMismatch,
         mplsLpsStatusPathConfigMismatch,
         mplsLpsStatusFopNoResponses,
         mplsLpsStatusFopTimeouts
         }
      STATUS  current
      DESCRIPTION
         "Collection of objects needed for MPLS linear protection
          configuration and statistics."
      ::= { mplsLpsGroups 2 }

   mplsLpsMeTableGroup OBJECT-GROUP
      OBJECTS {
         mplsLpsMeConfigDomain,
         mplsLpsMeConfigPath,
         mplsLpsMeStatusCurrent,
         mplsLpsMeStatusSignalDegrades,
         mplsLpsMeStatusSignalFailures,
         mplsLpsMeStatusSwitchovers,
         mplsLpsMeStatusLastSwitchover,
         mplsLpsMeStatusSwitchoverSeconds
         }
      STATUS  current
      DESCRIPTION
         "Collection of objects needed for MPLS linear protection
          ME configuration and statistics."
      ::= { mplsLpsGroups 3 }

   mplsLpsNotificationGroup NOTIFICATION-GROUP
      NOTIFICATIONS {
         mplsLpsEventSwitchover,
         mplsLpsEventRevertiveMismatch,
         mplsLpsEventProtecTypeMismatch,
         mplsLpsEventCapabilitiesMismatch,
         mplsLpsEventPathConfigMismatch,
         mplsLpsEventFopNoResponse,
         mplsLpsEventFopTimeout
         }
      STATUS  current
      DESCRIPTION
         "Collection of objects needed to implement notifications."
      ::= { mplsLpsGroups 4 }

   -- MPLS-LPS-MIB module ends
   END




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9.  Security Considerations

   There are a number of management objects defined in this MIB module
   with a MAX-ACCESS clause of read-write and/or read-create.  Such
   objects may be considered sensitive or vulnerable in some network
   environments.  The support for SET operations in a non-secure
   environment without proper protection opens devices to attack.  These
   are the tables and objects and their sensitivity/vulnerability:

   o  The mplsLpsConfigTable is used to configure MPLS-TP linear
      protection domains.  Improper manipulation of the objects in this
      table may result in different behaviors than what network
      operators originally intended, such as delaying traffic switching
      or causing a race condition with server-layer protection after
      network failure (mplsLpsConfigHoldOff), delaying or speeding up
      reversion after recovering from network failure
      (mplsLpsConfigWaitToRestore), unexpected traffic switching
      (mplsLpsConfigCommand), or the discontinuance of the operation of
      a protection switching control process (mplsLpsConfigMode,
      mplsLpsConfigProtectionType).

   o  The mplsLpsMeConfigTable is used to assign each ME to either the
      working path or the protection path.  Improper manipulation of
      this object may result in the discontinuance of the operation of a
      protection switching control process.

   o  The notification is controlled by the mplsLpsNotificationEnable
      object.  In the case of the discontinuance of a protection
      switching control process, network operators may not be notified
      if the mplsLpsNotificationEnable object is compromised.

   Some of the readable objects in this MIB module (i.e., objects with a
   MAX-ACCESS other than not-accessible) may be considered sensitive or
   vulnerable in some network environments.  It is thus important to
   control even GET and/or NOTIFY access to these objects and possibly
   to even encrypt the values of these objects when sending them over
   the network via SNMP.  These are the tables and objects and their
   sensitivity/vulnerability:

   o  The mplsLpsStatusTable and the mplsLpsMeStatusTable collectively
      show the history and current status of the MPLS-TP linear
      protection domains.  They can be used to estimate the performance
      and qualities of networks configured to use MPLS-TP linear
      protection.  If an administrator does not want to reveal this
      information, then these tables should be considered
      sensitive/vulnerable.





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   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 SHOULD provide the security features described by the
   SNMPv3 framework (see [RFC3410]), and implementations claiming
   compliance to the SNMPv3 standard MUST include 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.

10.  IANA Considerations

   IANA has assigned an OID of decimal 22 for the MPLS Linear Protection
   MIB module (MPLS-LPS-MIB) specified in this document in the "MIB
   Transmission Group - MPLS STD MIB" subregistry of the
   "Internet-standard MIB - Transmission Group" registry.






















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11.  References

11.1.  Normative References

   [RFC2119]  Bradner, S., "Key words for use in RFCs to Indicate
              Requirement Levels", BCP 14, RFC 2119,
              DOI 10.17487/RFC2119, March 1997,
              <http://www.rfc-editor.org/info/rfc2119>.

   [RFC2578]  McCloghrie, K., Ed., Perkins, D., Ed., and J.
              Schoenwaelder, Ed., "Structure of Management Information
              Version 2 (SMIv2)", STD 58, RFC 2578,
              DOI 10.17487/RFC2578, April 1999,
              <http://www.rfc-editor.org/info/rfc2578>.

   [RFC2579]  McCloghrie, K., Ed., Perkins, D., Ed., and J.
              Schoenwaelder, Ed., "Textual Conventions for SMIv2",
              STD 58, RFC 2579, DOI 10.17487/RFC2579, April 1999,
              <http://www.rfc-editor.org/info/rfc2579>.

   [RFC2580]  McCloghrie, K., Ed., Perkins, D., Ed., and J.
              Schoenwaelder, Ed., "Conformance Statements for SMIv2",
              STD 58, RFC 2580, DOI 10.17487/RFC2580, April 1999,
              <http://www.rfc-editor.org/info/rfc2580>.

   [RFC3289]  Baker, F., Chan, K., and A. Smith, "Management Information
              Base for the Differentiated Services Architecture",
              RFC 3289, DOI 10.17487/RFC3289, May 2002,
              <http://www.rfc-editor.org/info/rfc3289>.

   [RFC3411]  Harrington, D., Presuhn, R., and B. Wijnen, "An
              Architecture for Describing Simple Network Management
              Protocol (SNMP) Management Frameworks", STD 62, RFC 3411,
              DOI 10.17487/RFC3411, December 2002,
              <http://www.rfc-editor.org/info/rfc3411>.

   [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,
              DOI 10.17487/RFC3414, December 2002,
              <http://www.rfc-editor.org/info/rfc3414>.

   [RFC3811]  Nadeau, T., Ed., and J. Cucchiara, Ed., "Definitions of
              Textual Conventions (TCs) for Multiprotocol Label
              Switching (MPLS) Management", RFC 3811,
              DOI 10.17487/RFC3811, June 2004,
              <http://www.rfc-editor.org/info/rfc3811>.




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   [RFC3826]  Blumenthal, U., Maino, F., and K. McCloghrie, "The
              Advanced Encryption Standard (AES) Cipher Algorithm in the
              SNMP User-based Security Model", RFC 3826,
              DOI 10.17487/RFC3826, June 2004,
              <http://www.rfc-editor.org/info/rfc3826>.

   [RFC5591]  Harrington, D. and W. Hardaker, "Transport Security Model
              for the Simple Network Management Protocol (SNMP)",
              STD 78, RFC 5591, DOI 10.17487/RFC5591, June 2009,
              <http://www.rfc-editor.org/info/rfc5591>.

   [RFC5592]  Harrington, D., Salowey, J., and W. Hardaker, "Secure
              Shell Transport Model for the Simple Network Management
              Protocol (SNMP)", RFC 5592, DOI 10.17487/RFC5592,
              June 2009, <http://www.rfc-editor.org/info/rfc5592>.

   [RFC6353]  Hardaker, W., "Transport Layer Security (TLS) Transport
              Model for the Simple Network Management Protocol (SNMP)",
              STD 78, RFC 6353, DOI 10.17487/RFC6353, July 2011,
              <http://www.rfc-editor.org/info/rfc6353>.

   [RFC6378]  Weingarten, Y., Ed., Bryant, S., Osborne, E., Sprecher,
              N., and A. Fulignoli, Ed., "MPLS Transport Profile
              (MPLS-TP) Linear Protection", RFC 6378,
              DOI 10.17487/RFC6378, October 2011,
              <http://www.rfc-editor.org/info/rfc6378>.

   [RFC7271]  Ryoo, J., Ed., Gray, E., Ed., van Helvoort, H.,
              D'Alessandro, A., Cheung, T., and E. Osborne, "MPLS
              Transport Profile (MPLS-TP) Linear Protection to Match the
              Operational Expectations of Synchronous Digital Hierarchy,
              Optical Transport Network, and Ethernet Transport Network
              Operators", RFC 7271, DOI 10.17487/RFC7271, June 2014,
              <http://www.rfc-editor.org/info/rfc7271>.

   [RFC7697]  Pan, P., Aldrin, S., Venkatesan, M., Sampath, K., Nadeau,
              T., and S. Boutros, "MPLS Transport Profile (MPLS-TP)
              Operations, Administration, and Maintenance (OAM)
              Identifiers Management Information Base (MIB)", RFC 7697,
              DOI 10.17487/RFC7697, January 2016,
              <http://www.rfc-editor.org/info/rfc7697>.










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11.2.  Informative References

   [RFC3410]  Case, J., Mundy, R., Partain, D., and B. Stewart,
              "Introduction and Applicability Statements for
              Internet-Standard Management Framework", RFC 3410,
              DOI 10.17487/RFC3410, December 2002,
              <http://www.rfc-editor.org/info/rfc3410>.

   [RFC3812]  Srinivasan, C., Viswanathan, A., and T. Nadeau,
              "Multiprotocol Label Switching (MPLS) Traffic Engineering
              (TE) Management Information Base (MIB)", RFC 3812,
              DOI 10.17487/RFC3812, June 2004,
              <http://www.rfc-editor.org/info/rfc3812>.

   [G8121]    International Telecommunication Union, "Characteristics of
              MPLS-TP equipment functional blocks", ITU-T Recommendation
              G.8121/Y.1381, April 2016,
              <https://www.itu.int/rec/T-REC-G.8121/en>.

   [G8151]    International Telecommunication Union, "Management aspects
              of the MPLS-TP network element", ITU-T Recommendation
              G.8151/Y.1374, January 2015,
              <https://www.itu.int/rec/T-REC-G.8151/en>.

Acknowledgments

   The authors wish to thank Joan Cucchiara for her review as MIB
   Doctor.  Joan's detailed comments were of great help for improving
   the quality of this document.

   The authors would also like to thank Loa Andersson and Adrian Farrel
   for their valuable comments and suggestions on this document.

Contributors

   Vishwas Manral
   Nano Sec
   599 Fairchild Drive
   Mountain View, CA
   United States of America

   Email: vishwas@nanosec.io









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Authors' Addresses

   Kingston Selvaraj
   IP Infusion
   RMZ Centennial
   Mahadevapura Post
   Bangalore  560048
   India

   Email: kingstonsmiler@gmail.com


   Venkatesan Mahalingam
   Dell Technologies
   5450 Great America Parkway
   Santa Clara, CA  95054
   United States of America

   Email: venkat.mahalingams@gmail.com


   Daniel King
   Old Dog Consulting
   United Kingdom

   Email: daniel@olddog.co.uk


   Sam Aldrin
   Google, Inc.
   1600 Amphitheatre Parkway
   Mountain View, CA  94043
   United States of America

   Email: aldrin.ietf@gmail.com


   Jeong-dong Ryoo
   ETRI
   218 Gajeong-ro
   Yuseong-gu, Daejeon  34129
   South Korea

   Email: ryoo@etri.re.kr







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