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                                                          Neil Harrison
   Internet Draft                                          Peter Willis
   Document: draft-harrison-mpls-oam-req-00.txt         British Telecom
   Expires: November 2001
                                                         Shahram Davari

   Enriqu G. Cuevas                                      Ben Mack-Crane
   AT&T Laboratories                                            Tellabs

   Elke Franze                                             Hiroshi Ohta
   Deutsche Telekom                                                 NTT

   Tricci So                                          Sanford Goldfless
   Caspian Network                                         Feihong Chen

                                                               May 2001

                   Requirements for OAM in MPLS Networks

Status of this Memo

   This document is an Internet-Draft and is in full conformance
   with all provisions of Section 10 of RFC2026.

   Internet-Drafts are working documents of the Internet Engineering
   Task Force (IETF), its areas, and its working groups.  Note that
   other groups may also distribute working documents as Internet-

   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."

   The list of current Internet-Drafts can be accessed at
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Copyright Notice

   Copyright(C) The Internet Society (2001). All Rights Reserved.


   This draft provides motivation and requirements for user-plane OAM
   (Operation and Maintenance) functionality in MPLS networks.

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   Motivation for this recommendation rose from Network operators' need
   for tools that ensure reliability and performance of MPLS LSPs
   (Label Switched Paths). User-plane OAM tools are required to verify
   that LSPs have been setup and are available to deliver customer data
   to target destinations according to QoS (Quality of Service)
   guarantees given in SLAs (Service Level Agreements).

   Requirements presented in this draft include but are not limited to:

     . Tools to efficiently detect and localize defects in MPLS layer
     . Mechanisms for fast defect notification
     . Availability and performance criteria
     . Trigger for corrective actions (e.g. protection switching) when
        failures occur.

Table of Contents

   1. Introduction..................................................2
   2. Definitions...................................................2
   3. Motivation for MPLS OAM functions.............................3
   4. Requirements for OAM functions................................5
   5. Security Considerations.......................................6
   6. References....................................................6
   7. Author's Addresses............................................7

   Conventions used in this document

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   this document are to be interpreted as described in RFC-2119 [1].

1. Introduction

   This Internet draft provides motivation and requirements for OAM
   (Operation and Maintenance) for the user-plane in MPLS networks. It
   is recognized that OAM functionality is important in public networks
   for ease of network operation, for verifying network performance and
   to reduce operational costs. OAM functionality is especially
   important for networks, which are required to deliver (and hence be
   measurable against) QoS (Quality of Service) and availability
   performance parameters/objectives.

2. Definitions

   This document introduces some new terminology, which is required to
   discuss the functional network components associated with OAM.

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       Functional Architecture                    Meaning
       ------------------                   ------------------

       Client/server               A term referring to the transparent
       (relationship between       transport of a client (ie higher)
       layer networks)             layer link connection by a server
                                   (ie lower) layer network trail.

       Link connection             A partition of a layer N trail that
                                   exists between two logically
                                   adjacent switching points within the
                                   layer N network.

       LSP Tunnel                  An LSP Tunnel is an LSP with well-
                                   defined source (ingress point) and
                                   sink (egress point)

       Subnetwork                  A subnetwork is a contiguous
                                   topological region of a network
                                   delimited by its set of peripheral
                                   access points, and is characterized
                                   by the possible routing across the
                                   subnetwork between those access
                                   points.  A network is the largest
                                   subnetwork and a node is the
                                   smallest subnetwork (at least in
                                   practical physical terms, though
                                   there are smaller sub-networks
                                   within nodes).

       Trail                       A generic transport entity at layer
                                   N which is composed of a client
                                   payload (which can be a packet from
                                   a client at higher layer N-1) with
                                   specific overhead added at layer N
                                   to ensure the forwarding integrity
                                   of the server transport entity at
                                   layer N.

       Trail termination point     A source or sink point of a trail at
                                   layer N, at which the trail overhead
                                   is added or removed respectively.  A
                                   trail termination point must have a
                                   unique means of identification
                                   within the layer network.

3. Motivation for MPLS OAM functions

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   It is recognized that OAM functionality is important in public
   networks to ensure agreed upon SLAs, reduce operational costs,
   verify network performance, and facilitate network operations.
   Network operators need OAM functionality to:

     1. Detect MPLS user-plane defects: MPLS introduces a unique
        functional layer in the network. MPLS layer OAM functionality
        is not a substitute for lower layer OAM (also known as server
        layer) or higher layer OAM (also known as client layer).
        Moreover MPLS nesting capability (realized through label stack
        encoding [5]) allows LSPs to create layer networks in their own
        right, and hence will have defects that are specific to the
        MPLS LSP layer networks. MPLS user-plane defects are those that
        are encountered during transport of customer data. Although
        some MPLS control-plane OAM functions may be available, but
        network Operators cannot rely exclusively on fate sharing with
        the control plane to detect all transport defects, because:
          a. There will not be full commonality of all components
             traversed by an LSP and the control plane. Therefore
             control plane survival is not authoritative indication of
             the health of an LSP.
          b. It is possible for an MPLS network not to have a control-
             plane (when LSPs are setup statically) or have user data
             transported on paths that are not used by signaling (when
             LSPs are not routed hop-by-hop).

     2. Verify whether Availability and Quality of Service guarantees
        given in SLAs (Service Level Agreements) are in fact being met
        by the connection. The ability to determine availability
        performance to achieve QoS for satisfying SLA is critical to
        network operators who wish to deploy numerous LSPs and dynamic
        routing in core MPLS networks.

     3. Reduce operating costs, by allowing efficient detection and
        handling of defects.  Lack of efficient automatic defect
        detection forces operators to increase their engineering and
        support workforce, hence increase operating costs

     4. Determine LSP availability and performance reliably and
        accurately for accounting/billing purpose. This is required to
        ensure that customers are not inappropriately charged for
        degraded service or service outages.

     5. Permit rapid localization of defects.

     6. Reduce the duration of defects and thus improves the
        availability performance.

     7. Protect customer traffic by detecting traffic mis-connections
        so that customerÆs confidential data are not delivered to wrong
        destinations (which may otherwise be undetectable).

     8. Help to decrease the number of defects that are not apparent
        until the customer reports a problem.

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     9. Allow taking necessary actions against defects even if a
        network element (NE) fails without notifying this failure to
        NMS (silent failure) so that consequent defects on LSPs can be

     10. Improve security of MPLS networks, by detecting mis-
        connections, and therefore helping prevent a customerÆs traffic
        being exposed to another party.

4. Requirements for OAM functions

   This section describes the high level requirements that have been
   identified and requested by a number of service providers. The
   requirements include but are not limited to:

     1. Both on demand and continuous connectivity verification of LSPs
        to confirm that defects do not exist on the target LSPs.

     2. If a defect occurs, it is necessary to detect, notify and
        localize it immediately and to take necessary actions.  This
        facilitates minimizing the interruption of service by providing
        the network with sufficient information to take corrective
        action to bypass the defect (protection switching, re-routing
        etc.), and to minimize the time to correct the defect and
        return the failed resource to the available state.  It is
        necessary that defects be detected and notified automatically
        without operator intervention for this purpose.

     3. A defect event in a given layer network should not cause
        multiple alarm events to be raised (in the same layer network
        or client layer networks).

     4. OAM functions should be able to perform stably in large scale

     5. Necessary operator actions such as setting up and activation of
        MPLS OAM functions should be minimized in order to use MPLS OAM
        functions easily even in large scale networks where the number
        of LSPs tends to be large.

     6. OAM function must be optional to the operator and only be used
        by the networks that need it.  Operators choose which function
        to use and which LSP to apply the OAM function.

     7. OAM function must be backward compatible.  LSRs that do not
        support such function must silently discard or pass through the
        OAM packets without disturbing the traffic or causing
        unnecessary actions.

     8. Measurement of availability and QoS performance.

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     9. The OAM functionality of a MPLS layer should not be dependent
        on any specific server or client layer technology.  This is
        critical to ensure that layer networks can evolve (or new/old
        layer networks be added/removed) without impacting other layer
        networks. The control-plane of a given layer network must also
        have its own OAM. [Note - Control-plane OAM is outside the
        scope of this Recommendation.]

     10. All the major defect conditions must be identified with in-
        service measurable entry and exit criteria, and all consequent
        actions must be specified.  At least the following MPLS user-
        plane defects need to be detected:
          a. Loss of LSP connectivity (due to a server layer failure or
             a failure within the MPLS layer);
          b. Swapped LSP trails;
          c. LSP mismerging (of 2 or more LSP trails); (including
          d. Unintended replication (e.g. unintended multicasting).

     11. It is important to specify how unavailable/available state
        transitions relate to the stopping/starting of the aggregation
        of available state QoS metrics.

     12. Connectivity status assessment must not be dependent on user
        traffic behavior.

     13. The OAM tools provided should ensure (as far as reasonably
        practicable) that customers should not have to act as failure
        detectors for the operator.

     14. Under fault conditions a layer network is not expected to
        behave in a predictable manner.  Therefore OAM functions should
        not require the defected layer function in a reliable and
        predictable manner for fault diagnosis.

5. Security Considerations

   The OAM function described in this document enhances the security of
   MPLS networks, by detecting mis-connections, and therefore
   preventing customersÆ traffic to be exposed to other customers.

   The MPLS OAM functions as defined in this document do not raise any
   new security issue, to MPLS networks.

6. References

   [1]  IETF, RFC3031, Multiprotocol Label Switching Architecture,
   Category: Standards Track, January 2001.

   [2]  IETF, RFC 3032, MPLS label stack encoding, Category: Standards
   Track, January 2001.Architecture".

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7. Author's Addresses

   Neil Harrison
   British Telecom              Phone: 44-1604-845933
   Heath Bank                   Email: neil.2.Harrison@bt.com
   Iugby Road, Harleston
   South Hampton, UK

   Peter Willis
   British Telecom              Phone: 44-1473-645178
   BT, PP RSB10/PP3 B81         Email: peter.j.willis@bt.com
   Adastrial Park
   Martlesham, Ipswich, UK

   Shahram Davari
   411 Legget Drive             Phone: 1-613-271-4018
   Kanata, ON, Canada           Email: Shahram_Davari@pmc-sierra.com

   Ben Mack-Crane
   4951 Indiana Ave             Phone: 1-630-512-7255
   Lisle, IL, USA               Email: ben.mack-crane@tellabs.com

   Hiroshi Ohta
   Y-709A, 1-1 HikarinoÆka      phone: 81-468-59-8840
   Yokosuka-Shi                 Email: ohta.hiroshi@nslab.ntt.co.jp
   Kanagawa, Japan

   Sanford Goldfless
   Lucent Technologies
   200 Nickerson Road           Phone: 508-786-3655
   Marlborough, MA 01752        Email: sgoldfless@lucent.com

   Feihong Chen
   Lucent Technologies
   200 Nickerson Road           Phone: 508-786-3675
   Marlborough, MA 01752        Email: fchen6@lucent.com

   Tricci So
   Caspian Network
   170 Baytech Drive            Phone: 408-382-5217
   San Jose, CA                 Email: tso@caspiannetworks.com
   U.S.A. 94070

   Elke Franze
   Deutsche Telekom
   T-Nova, Technologiezentrum   Phone: +49 6151 83 5459
   D-64307 Darmstadt            Email: elke.franze@t-systems.de

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   Darmstadt, Germany

   Enriqu G. Cuevas
   AT&T Laboratories
   Room A2-1E03                 Phone: +1 732 420 3252
   200 S. Laurel Avenue         E-mail: ecuevas@att.com
   Middletown, NJ 07748 USA

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