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Network Working Group E. Rosen Request for Comments: 4182 Cisco Systems, Inc. Updates: 3032 September 2005 Category: Standards Track

      Removing a Restriction on the use of MPLS Explicit NULL

Status of This Memo

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

Copyright Notice

 Copyright (C) The Internet Society (2005).

Abstract

 The label stack encoding for Multi-protocol Label Switching (MPLS)
 defines a reserved label value known as "IPv4 Explicit NULL" and a
 reserved label value known as "IPv6 Explicit NULL".  Previously,
 these labels were only legal when they occurred at the bottom of the
 MPLS label stack.  This restriction is now removed, so that these
 label values may legally occur anywhere in the stack.

 This document updates RFC 3032.

Table of Contents

 1. Introduction ....................................................2
 2. Detail of Change ................................................2
 3. Reasons for Change ..............................................3
 4. Deployment Considerations .......................................5
 5. Security Considerations .........................................5
 6. Acknowledgments .................................................5
 7. Normative References ............................................5
 8. Informative References ..........................................5

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1. Introduction

 RFC 3032 defines a reserved label value known as "IPv4 Explicit NULL"
 and a reserved label value known as "IPv6 Explicit NULL" [RFC3032].
 It states that these label values are only legal at the bottom of the
 MPLS label stack.  However, no reason is given for this restriction.

 It has turned out that in practice there are some situations in which
 it is useful to send MPLS packets that have Explicit NULL occur
 somewhere other than at that bottom of the label stack.  While the
 intended semantics are obvious enough, the fact that such packets are
 gratuitously declared by RFC 3032 to be illegal has made it difficult
 to handle these situations in an interoperable manner.

 This document updates RFC 3032 by removing the unnecessary
 restriction, so that the two aforementioned label values are legal
 anywhere in the label stack.

2. Detail of Change

 RFC 3032 states on page 4:

 There are several reserved label values:

     i. A value of 0 represents the "IPv4 Explicit NULL Label".  This
        label value is only legal at the bottom of the label stack.
        It indicates that the label stack must be popped, and the
        forwarding of the packet must then be based on the IPv4
        header.

   iii. A value of 2 represents the "IPv6 Explicit NULL Label".  This
        label value is only legal at the bottom of the label stack.
        It indicates that the label stack must be popped, and the
        forwarding of the packet must then be based on the IPv6
        header.

 Paragraph i is hereby changed to read:

     i. A value of 0 represents the "IPv4 Explicit NULL Label".

        An IPv4 Explicit NULL at the top of the label stack means that
        the stack must be popped.

        If the NULL was not the only label on the stack, this will
        cause the label beneath it to rise to the top of the stack.
        The disposition of the packet is based on the label that has
        now risen to the top.

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        If, on the other hand, the NULL was the only label on the
        stack, then the stack is now empty.  The resulting packet is
        treated as an IPv4 packet, and its disposition is based on the
        IPv4 header.

 Paragraph iii is hereby changed to read:

     iii. A value of 2 represents the "IPv6 Explicit NULL Label".

        An IPv6 Explicit NULL at the top of the label stack means that
        the stack must be popped.

        If the NULL was not the only label on the stack, this will
        cause the label beneath it to rise to the top of the stack.
        The disposition of the packet is based on the label that has
        now risen to the top.

        If, on the other hand, the NULL was the only label on the
        stack, then the stack is now empty.  The resulting packet is
        treated as an IPv6 packet, and its disposition is based on the
        IPv6 header.

3. Reasons for Change

 Restricting Explicit NULL to the bottom of the stack has caused some
 problems in practice.

 With this restriction in place, one should not distribute, to a
 particular label distribution peer, a binding of Explicit NULL to a
 particular Forwarding Equivalence Class (FEC), unless the following
 condition (call it "Condition L") holds: all MPLS packets received by
 that peer with an incoming label corresponding to that FEC contain
 only a single label stack entry.  If Explicit NULL is bound to the
 FEC, but Condition L doesn't hold, the peer is being requested to
 create illegal packets.  None of the MPLS specifications say what the
 peer is actually supposed to do in this case.  This situation is made
 more troublesome by the facts that, in practice, Condition L rarely
 holds, and it is not possible, in general, to determine whether it
 holds or not.

 Further, if one is supporting the Pipe Model of RFC 3270 [RFC3270],
 there are good reasons to create label stacks in which Explicit NULL
 is at the top of the label stack, but a non-null label is at the
 bottom.

 RFC 3270 specifies the procedures for MPLS support of Differentiated
 Services.  In particular, it defines a "Pipe Model" in which (quoting
 from RFC 3270, Section 2.6.2):

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  "tunneled packets must convey two meaningful pieces of Diff-Serv
  information:

the Diff-Serv information which is meaningful to intermediate

nodes along the LSP span including the LSP Egress (which we refer

     to as the 'LSP Diff-Serv Information').  This LSP Diff-Serv
     Information is not meaningful beyond the LSP Egress:  Whether
     Traffic Conditioning at intermediate nodes on the LSP span
     affects the LSP Diff-Serv information or not, this updated Diff-
     Serv information is not considered meaningful beyond the LSP
     Egress and is ignored.

the Diff-Serv information which is meaningful beyond the LSP

Egress (which we refer to as the 'Tunneled Diff-Serv

     Information').  This information is to be conveyed by the LSP
     Ingress to the LSP Egress.  This Diff-Serv information is not
     meaningful to the intermediate nodes on the LSP span."

 When the Pipe Model is in use, it is common practice for the LSP
 Egress to bind Explicit Null to the tunnel's FEC.  The intention is
 that the LSP Diff-Serv information will be carried in the EXP bits of
 the Explicit Null label stack entry, and the tunneled Diff-Serv
 information will be carried in whatever is "below" the Explicit Null
 label stack entry, i.e., in the IP header DS bits or in the EXP bits
 of the next entry on the MPLS label stack.

 Naturally, this practice causes a problem if the Pipe Model LSP is
 being used to tunnel MPLS packets (i.e., if Condition L does not
 hold).  With strict adherence to RFCs 3031 and 3036, this practice
 results in an MPLS packet where Explicit NULL is at the top of the
 label stack, even though it is not the only entry in the label stack.
 However, RFC 3032 makes this packet illegal.

 Some implementations simply transmit the illegal packet.  Others try
 to convert it to a legal packet by stripping off the Explicit NULL
 before transmitting it.  However, that breaks the Pipe Model by
 discarding the LSP Diff-Serv information.  It is conceivable that
 there may be an implementation that drops the illegal packet
 entirely; this would also break the Pipe Model, as it would lose not
 only the LSP Diff-Serv information, but the entire packet.

 Of course the LSP egress is not compelled to bind Explicit NULL to
 the tunnel's FEC; an ordinary label could be used instead.  However,
 using Explicit NULL enables the egress to determine immediately
 (i.e., without need for lookup in the Label Information Base) that
 the further forwarding of the packet is to be determined by whatever
 is below the label.  Avoiding this lookup can have favorable
 implications on forwarding performance.

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 Removing the restriction that Explicit Null only occur at the bottom
 of the stack is the simplest way to facilitate the proper operation
 of the Pipe Model.

4. Deployment Considerations

 Implementations that adhere to this specification will interoperate
 correctly, and will correctly support the Pipe Model.

 Implementations that do not adhere to this specification may not
 interoperate.  In particular, if a router advertises a binding of
 Explicit NULL, and if that router has an upstream LDP peer that will
 not transmit a packet that has multiple label stack entries with
 Explicit Null at top of the stack, then it will not be possible to
 use Explicit NULL to support the Pipe Model until the upstream LDP
 peer is brought into compliance with this specification.

 It is possible that there may be a router implementation, preceding
 this specification, which will discard any received packet with
 multiple label stack entries and a top label value of Explicit Null.
 It is advisable to configure any such routers so that they do not
 advertise any bindings to Explicit Null.

5. Security Considerations

 This document updates RFC 3032 by allowing Explicit NULL to occur at
 any position in the label stack.  This modification does not impose
 any new security considerations beyond those discussed in RFC 3032.

6. Acknowledgments

 Thanks to Rahul Aggarwal, Francois LeFaucheur, Yakov Rekhter, and Dan
 Tappan for their helpful comments.

7. Normative References

 [RFC3032]  Rosen, E., Tappan, D., Fedorkow, G., Rekhter, Y.,
            Farinacci, D., Li, T., and A. Conta, "MPLS Label Stack
            Encoding", RFC 3032, January 2001.

8. Informative References

 [RFC3270]  Le Faucheur, F., Wu, L., Davie, B., Davari, S., Vaananen,
            P., Krishnan, R., Cheval, P., and J. Heinanen, "Multi-
            Protocol Label Switching (MPLS) Support of Differentiated
            Services", RFC 3270, May 2002.

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Author's Address

 Eric C. Rosen
 Cisco Systems, Inc.
 1414 Massachusetts Avenue
 Boxborough, MA 01719

 EMail: erosen@cisco.com

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 Copyright (C) The Internet Society (2005).

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 retain all their rights.

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