259 lines
9.6 KiB
XML
259 lines
9.6 KiB
XML
<?xml version="1.0"?>
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<!DOCTYPE rfc SYSTEM "rfc2629.dtd">
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<?rfc comments="yes"?>
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<?rfc compact="yes"?>
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<?rfc inline="yes"?>
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<?rfc sortrefs="yes"?>
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<?rfc subcompact="yes"?>
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<?rfc symrefs="yes"?>
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<?rfc toc="yes"?>
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<?rfc tocdepth="3"?>
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<?rfc tocindent="yes"?>
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<?rfc tocompact="yes"?>
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<rfc category="std" docName="draft-bourbaki-6man-classless-ipv6-00" ipr="trust200902">
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<front>
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<title>IPv6 is Classless</title>
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<author fullname="Nicolas Bourbaki" initials="N." surname="Bourbaki">
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<organization>The Intertubes</organization>
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<address>
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<postal>
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<street>42 Rue du Jour</street>
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<city>Sophia-Antipolis</city>
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<region></region>
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<code>::1</code>
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<country>FR</country>
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</postal>
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<email>bourbaki@bogus.com</email>
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</address>
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</author>
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<date month="April" year="2017"/>
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<abstract>
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<t>Over the history of IPv6, various classful address models have
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been proposed, particularly Top-Level Aggregation (TLA) and
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Next-Level Aggregation (NLA) Identifiers. They have all proved to be
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mistakes. The last remnant is a rigid boundary at /64. This
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document removes that rigidity as far as routing is concerned.</t>
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</abstract>
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<note title="Requirements Language">
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<t>The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL
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NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL"
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are to be interpreted as described in <xref target="RFC2119">RFC
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2119</xref> only when they appear in all upper case. They may
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also appear in lower or mixed case as English words, without
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normative meaning.</t>
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</note>
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</front>
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<middle>
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<section anchor="intro" title="Introduction">
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<t>Over the history of IPv6, various classful address models have
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been proposed, particularly Top-Level Aggregation (TLA) and
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Next-Level Aggregation(NLA) Identifiers. They have all proved to be
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mistakes. For example, TLA and NLA were obsoleted by <xref
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target="RFC3587"/>. The last remnant is a rigid boundary at
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/64. This document removes that rigidity as far as routing is
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concerned.</t>
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</section>
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<section anchor="reading" title="Suggested Reading">
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<t>It is assumed that the reader understands the history of classful
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addressing in IPv4 and why it was abolished <xref
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target="RFC4632"/>. Of course, the acute need to conserve address
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space that forced the adoption of classless addressing for IPv4 does
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not apply to IPv6; but the arguments for operational flexibility in
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address allocation remain compelling.</t>
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<t>It is also assumed that the reader understands IPv6 <xref
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target="RFC2460"/>, the IP Version 6 Addressing Architecture <xref
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target="RFC4291"/>, the proposed changes to RFC4291 <xref
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target="I-D.hinden-6man-rfc4291bis"/>, and the recent
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recommendations for the generation of stable Interface Identifiers
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<xref target="RFC8064"/>.</t>
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<!--
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<t>NOTE: do we mean 4291bis (currently moribund) or 2464bis?</t>
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[fgont] We do mean 4291bis. That say, RFC8064/RFC7217 already do part of
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the job: they replace the algorithm of "embedding the MAC address in the
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IPv6" with one that embeds random bits of an appropriate length. That
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is, strictly speaking, we don't een need /64 for SLAAC, except for
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backward compatibility. (*)
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(*) as long as the local subnet is large enough and the IID collision
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rate is low enough.
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-->
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<t>An important recent development in IPv6 is that for host
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computers on local area networks, the way in which interface
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identifiers are formed is no longer bound to layer 2 addresses (MAC
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addresses) <xref target="RFC7217"/> <xref target="RFC8064"/>. We
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can therefore appreciate that their length, previously fixed at 64
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bits <xref target="RFC7136"/>, is in fact a free parameter as stated
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in <xref target="RFC4862"/>.</t>
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</section>
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<section anchor="background" title="Background">
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<!--
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<t>To quote Lorenzo Colitti in the working group meeting at IETF 98,
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"Just because this is being elevated to full standard does not mean
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it can not be changed tomorrow." Tomorrow is here.</t>
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-->
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<t>Some confusion has been caused by the IP Version 6 Addressing
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Architecture, <xref target="RFC4291"/>, and the proposed changes in
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<xref target="I-D.hinden-6man-rfc4291bis"/> with respect to the
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minimum subnet size.</t>
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<t>Meanwhile, link prefixes of varied lengths, /127, /126, /124,
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/120, ... /64 have been successfully deployed for many years.
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Having the formal specification be unclear risks potential
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mis-implementation by the naive, which could result in operational
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disasters.</t>
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</section>
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<section anchor="simple" title="A simple Statement">
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<t>To state it simply, IPv6 unicast routing is based on prefixes of
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any valid length up to 128 except for links where an Internet
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Standard such as, for example, Stateless Address AutoConfiguration
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<xref target="RFC4862"/>, or Using 127-Bit IPv6 Prefixes on
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Inter-Router Links <xref target="RFC6164"/> is in use.</t>
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<!-- [fgont] I think these section is mixing up to things:
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* Routing: Nodes must *always* support rotuing on any valid length, even
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if, say, SLAAC is in use. Even when SLAAC is used, I might
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want to install a host-specific rule (a /128 rule), if I
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please. And I think this point has never been contended
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(except for vendors that go lazy/cheap and just don't want to
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use mre than 64-bits in each FIB entry.
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* Subnet size: This is what you're really referring to here. Nodes
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should be able to employ any subnet size that they
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please, except when slaac is in use (for backwards
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compatibility) or e.g. when /127 (or the like) prefixes
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are employed for point to point links.
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-->
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</section>
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<section anchor="notes" title="Recommendations">
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<t>For historical reasons, when a prefix is needed on a link,
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barring other considerations, a /64 is RECOMMENDED <xref
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target="RFC7136"/>.</t>
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<t>The length of the Interface Identifier in Stateless Address
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AutoConfiguration <xref target="RFC4862"/> is a parameter; its
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length needs to be sufficient for effective randomization for
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privacy reasons. For example, a /48 might be sufficient. But
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operationally we RECOMMEND, barring strong considerations to the
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contrary, using 64-bits for SLAAC in order not to discover bugs
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where 64-bits was hard-coded, and to favor portability of devices
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and operating systems.</t>
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<t>None the less, there is no reason in theory why an IPv6 node
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should not operate with different interface identfier lengths on
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different physical interfaces. Thus a correct implementation of
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SLAAC must in fact allow for any length of prefix, with the value
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being parameterised per interface. For instance, the Interface
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Identifier length in the recommended (see <xref target="RFC8064"/>)
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algorithm for selecting stable interface identifiers <xref
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target="RFC7217"/> is a parameter, rather than a hardcoded
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value.</t>
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<t>NOTE: should we comment on the fact that at least Linux and
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Windows seem to assume that the default prefix is /64 in the
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management CLI?</t>
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</section>
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<section anchor="security" title="Security Considerations">
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<t>Assumming that nodes employ unpredictable interface identifiers
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<xref target="RFC7721"/>, the subnet size may have an impact on some
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security and privacy properties of a network. Namely, the smaller
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the subnet size, the more feasible it becomes to perform IPv6
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address scans <xref target="RFC7707"/> <xref target="RFC7721"/>.
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However, that for some specific subnets (such as point to point
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links), this may be less of an issue.</t>
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<t>On the other hand, we assume that a number of IPv6
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implementations fail to enforce limits on the size of some of the
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data structures they employ for communicating with neighboring
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nodes, such as the Neighbor Cache. In such cases, the use of smaller
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subnets essentially enforces an operational limit on such data
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structures, thus helping mitigate some pathological behaviors (such
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as Neighbor Cache Exhaustion attacks).</t>
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<!-- [fgont] Still need to add references here... e.g. to Joel's RFC -->
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</section>
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<section anchor="iana" title="IANA Considerations">
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<t>This document has no IANA Considerations.</t>
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<!--
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<t>Note to RFC Editor: this section may be replaced on publication
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as an RFC.</t>
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-->
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</section>
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<section anchor="authors" title="Authors">
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<t>The original draft was by Randy Bush, who was immediately aided
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and abetted by Brian Carpenter, Chris Morrow, Fernando Gont, Geoff
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Huston, Job Snijders, [ your name here ].</t>
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</section>
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<section anchor="acknowledgments" title="Acknowledgments">
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<t>The authors wish to thank .</t>
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</section>
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</middle>
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<back>
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<references title="Normative References">
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<?rfc include="reference.RFC.2119"?>
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<?rfc include="reference.RFC.2460"?>
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<?rfc include="reference.RFC.4291"?>
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<?rfc include="reference.RFC.7217"?>
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<?rfc include="reference.RFC.8064"?>
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</references>
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<references title="Informative References">
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<?rfc include="reference.RFC.4862"?>
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<?rfc include="reference.RFC.6164"?>
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<?rfc include="reference.RFC.3587"?>
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<?rfc include="reference.RFC.4632"?>
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<?rfc include="reference.RFC.7707"?>
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<?rfc include="reference.RFC.7136"?>
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<?rfc include="reference.RFC.7721"?>
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<?rfc include="reference.I-D.hinden-6man-rfc4291bis"?>
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</references>
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</back>
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</rfc>
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