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A Summary of Various Mechanisms Deployed at L-Root for the Identification of Anycast Nodes
draft-jabley-dnsop-anycast-mapping-04

The information below is for an old version of the document that is already published as an RFC.
Document Type
This is an older version of an Internet-Draft that was ultimately published as RFC 7108.
Authors Joe Abley , Terry Manderson
Last updated 2020-01-21 (Latest revision 2013-11-25)
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Intended RFC status Informational
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IESG IESG state Became RFC 7108 (Informational)
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IANA IANA review state Version Changed - Review Needed
draft-jabley-dnsop-anycast-mapping-04
Network Working Group                                           J. Abley
Internet-Draft                                                 Dyn, Inc.
Intended status: Informational                              T. Manderson
Expires: May 29, 2014                                              ICANN
                                                       November 25, 2013

       A Summary of Various Mechanisms Deployed at L-Root for the
                    Identification of Anycast Nodes
                 draft-jabley-dnsop-anycast-mapping-04

Abstract

   Anycast is a deployment technique commonly employed for
   authoritative-only servers in the Domain Name System (DNS).  L-Root,
   one of the thirteen root servers, is deployed in this fashion.

   Various techniques have been used to map deployed anycast
   infrastructure externally, i.e. without reference to inside knowledge
   about where and how such infrastructure has been deployed.
   Motivations for performing such measurement exercises include
   operational troubleshooting and infrastructure risk assessment.  In
   the specific case of L-Root, the ability to measure and map anycast
   infrastructure using the techniques mentioned in this document is
   provided for reasons of operational transparency.

   This document describes all facilities deployed at L-Root to
   facilitate mapping of its infrastructure and serves as documentation
   for L-Root as a measurable service.

Status of this Memo

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

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

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

   This Internet-Draft will expire on May 29, 2014.

Copyright Notice

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   Copyright (c) 2013 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.  Conventions Used in this Document  . . . . . . . . . . . . . .  4
   3.  Naming Scheme for L-Root Nodes . . . . . . . . . . . . . . . .  5
   4.  Identification of L-Root Nodes . . . . . . . . . . . . . . . .  6
     4.1.  Use of NSID  . . . . . . . . . . . . . . . . . . . . . . .  6
     4.2.  Use of HOSTNAME.BIND/CH/TXT  . . . . . . . . . . . . . . .  7
     4.3.  Use of ID.SERVER/CH/TXT  . . . . . . . . . . . . . . . . .  8
     4.4.  Use of IDENTITY.L.ROOT-SERVERS.ORG/IN/TXT and .../IN/A . .  8
     4.5.  Use of NODES.L.ROOT-SERVERS.ORG/IN/TXT . . . . . . . . . . 10
   5.  Provisioning of IDENTITY.L.ROOT-SERVERS.ORG  . . . . . . . . . 11
   6.  Security Considerations  . . . . . . . . . . . . . . . . . . . 12
   7.  IANA Considerations  . . . . . . . . . . . . . . . . . . . . . 13
   8.  Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 14
   9.  References . . . . . . . . . . . . . . . . . . . . . . . . . . 15
     9.1.  Normative References . . . . . . . . . . . . . . . . . . . 15
     9.2.  Informative References . . . . . . . . . . . . . . . . . . 15
   Appendix A.  Editorial Notes . . . . . . . . . . . . . . . . . . . 17
     A.1.  Change History . . . . . . . . . . . . . . . . . . . . . . 17
   Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 18

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1.  Introduction

   The Domain Name System (DNS) is described in [RFC1034] and [RFC1035].
   L-Root, one of the thirteen root servers, is deployed using anycast
   [RFC4786]; its service addresses, published in the A and AAAA
   Resource Record (RR) Sets for "L.ROOT-SERVERS.NET", are made
   available from a substantial number of semi-autonomous servers
   deployed throughout the Internet.  A list of locations served by
   L-Root can be found at <http://www.root-servers.org>.

   Various techniques have been used to map deployed anycast
   infrastructure externally, i.e. without reference to inside knowledge
   about where and how such infrastructure has been deployed.
   Motivations for performing such measurement exercises include
   operational troubleshooting and infrastructure risk assessment.  In
   the specific case of L-Root, the ability to measure and map anycast
   infrastructure using the techniques mentioned in this document is
   provided for reasons of operational transparency.

   This document describes all facilities currently provided at L-Root
   to aid node identification.

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2.  Conventions Used in this Document

   This document contains several examples of commands typed at a Unix
   (or Unix-like) command line to illustrate use of the various
   mechanisms available to identify L-Root nodes.  Such examples are
   presented in this document with lines typed by the user preceded by
   the "%" prompt character; a bare "%" character indicates the end of
   the output resulting from the command.

   In some cases the output shown in examples is too long to be
   represented directly in the text.  In those cases a backslash
   character ("\") is used to indicate continuation.

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3.  Naming Scheme for L-Root Nodes

   Individual L-Root nodes have structured hostnames that are
   constructed as follows:

      <IATA Code><NN>.L.ROOT-SERVERS.ORG

   where

   o  <IATA Code> is chosen from the list of three-character airport
      codes published by the International Air Transport Association
      (IATA) in the IATA Airline Coding Directory [1]; and

   o  <NN> is a two-digit numeric code used to distinguish between two
      different locations in the vicinity of the same airport.

   Where multiple airports exist in the vicinity of a single L-Root
   node, one is arbitrarily chosen.

   More granular location data published for L-Root nodes (e.g. see
   Section 4.4) is derived from the location of the airport, not the
   actual location of the node.

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4.  Identification of L-Root Nodes

   L-Root service is provided using a single IPv4 address (199.7.83.42)
   and a single IPv6 address (2001:500:3::42).  It should be noted that
   it is preferable to refer to the service using its DNS name (L.ROOT-
   SERVERS.NET) rather than literal addresses, since addresses can
   change from time to time.

   At the time of writing there are 273 separate name server elements
   ("nodes") deployed in 143 locations which together provide L-Root
   service.  A DNS query sent to an L-Root service address will be
   routed towards exactly one of those nodes for processing, and the
   corresponding DNS response will be originated from the same node.
   Queries from different clients may be routed to different nodes.
   Successive queries from the same client may also be routed to
   different nodes.

   The following sections provide a summary of all mechanisms provided
   by L-Root to allow a client to identify which L-Root node is being
   used.

   Using HOSTNAME.BIND/CH/TXT (Section 4.2), ID.SERVER/CH/TXT
   (Section 4.3) or IDENTITY.L.ROOT-SERVERS.ORG/IN/TXT or .../IN/A
   (Section 4.4) to identify a node for the purposes of reporting a
   problem is frequently reasonable, but it should be acknowledged that
   there is potential for re-routing between successive queries: an
   observed problem might relate to one node, whilst a subsequent query
   using one of those three techniques could be answered by a different
   node.  Use of the NSID option on the precise queries that yield
   problematic responses can obviate this possibility (see Section 4.1).

4.1.  Use of NSID

   L-Root supports the use of the Name Server Identifier (NSID) Option
   [RFC5001] to return the identity of an L-Root node along with the
   response to a DNS query.  The NSID payload of such responses is the
   fully-qualified hostname of the responding L-Root node.

   The NSID option allows the identification of a node sending a
   specific, requested response to the client.  This is of particular
   use if (for example) there is a desire to identify unequivocally what
   node is responding with a particularly troublesome response; the
   output of the diagnostic tool dig with NSID requested provides the
   problem response with the node identification, and its output in that
   case could form the basis of a useful trouble report.

   NSID is specified as an EDNS0 option [RFC6891].  Clients that do not
   support EDNS0 signalling (or depend on other systems that do not

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   support EDNS0) may find this mechanism unavailable.

   The NSID option can be specified using the widely-used diagnostic
   tool "dig" using the "+nsid" option, as shown below.  Note that long
   lines have been truncated for the purposes of this document ("\" at
   the end of a line indicates continuation).

   % dig -4 @L.ROOT-SERVERS.NET . SOA +nsid \
     +norec +noall +comments
   ; <<>> DiG 9.6.-ESV-R3 <<>> -4 @L.ROOT-SERVERS.NET . SOA +nsid \
     +norec +noall +comments
   ; (1 server found)
   ;; global options: +cmd
   ;; Got answer:
   ;; ->>HEADER<<- opcode: QUERY, status: NOERROR, id: 14913
   ;; flags: qr aa; QUERY: 1, ANSWER: 1, AUTHORITY: 13, ADDITIONAL: 23

   ;; OPT PSEUDOSECTION:
   ; EDNS: version: 0, flags:; udp: 4096
   ; NSID: 79 74 7a 30 31 2e 6c 2e 72 6f 6f 74 2d 73 65 72 76 65 72 73 \
     2e 6f 72 67  (y) (t) (z) (0) (1) (.) (l) (.) (r) (o) (o) (t) (-) \
     (s) (e) (r) (v) (e) (r) (s) (.) (o) (r) (g)
   %

   % dig -6 @L.ROOT-SERVERS.NET . SOA +nsid \
     +norec +noall +comments
   ; <<>> DiG 9.6.-ESV-R3 <<>> -6 @L.ROOT-SERVERS.NET . SOA +nsid \
     +norec +noall +comments
   ; (1 server found)
   ;; global options: +cmd
   ;; Got answer:
   ;; ->>HEADER<<- opcode: QUERY, status: NOERROR, id: 33374
   ;; flags: qr aa; QUERY: 1, ANSWER: 1, AUTHORITY: 13, ADDITIONAL: 23

   ;; OPT PSEUDOSECTION:
   ; EDNS: version: 0, flags:; udp: 4096
   ; NSID: 79 74 7a 30 31 2e 6c 2e 72 6f 6f 74 2d 73 65 72 76 65 72 73 \
     2e 6f 72 67  (y) (t) (z) (0) (1) (.) (l) (.) (r) (o) (o) (t) (-) \
     (s) (e) (r) (v) (e) (r) (s) (.) (o) (r) (g)
   %

4.2.  Use of HOSTNAME.BIND/CH/TXT

   L-Root supports the use of HOSTNAME.BIND/CH/TXT queries to return the
   identity of an L-Root node.  The TXT RDATA returned is the fully-
   qualified hostname of the responding L-Root node.

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   The HOSTNAME.BIND/CH/TXT convention is described in [RFC4892].

   % dig -4 @L.ROOT-SERVERS.NET HOSTNAME.BIND CH TXT +short
   "ytz01.l.root-servers.org"
   %

   % dig -6 @L.ROOT-SERVERS.NET HOSTNAME.BIND CH TXT +short
   "ytz01.l.root-servers.org"
   %

4.3.  Use of ID.SERVER/CH/TXT

   L-Root supports the use of ID.SERVER/CH/TXT queries to return the
   identity of an L-Root node.  The TXT RDATA returned is the fully-
   qualified hostname of the responding L-Root node.

   ID.SERVER/CH/TXT functions identically (apart from the QNAME) to
   HOSTNAME.BIND/CH/TXT, as discussed in Section 4.2.  The discussion
   there relating to the possibility of re-routing between successive
   queries also follows for ID.SERVER/CH/TXT.

   The ID.SERVER/CH/TXT convention is described in [RFC4892].

   % dig -4 @L.ROOT-SERVERS.NET ID.SERVER CH TXT +short
   "ytz01.l.root-servers.org"
   %

   % dig -6 @L.ROOT-SERVERS.NET ID.SERVER CH TXT +short
   "ytz01.l.root-servers.org"
   %

4.4.  Use of IDENTITY.L.ROOT-SERVERS.ORG/IN/TXT and .../IN/A

   The operator of L-Root has distributed a separate DNS service in
   parallel with L-Root, operating on precisely the same set of nodes
   but listening on addresses which are different from the L-Root
   service addresses.  Measurements of this separate service should give
   results which are representative of L-Root.  Further discussion of
   this service can be found in Section 5.

   The fully-qualified DNS name IDENTITY.L.ROOT-SERVERS.ORG (note the
   use of ORG, not NET) has associated TXT and A RR Sets which are
   unique to the responding node.  Clients are hence able to issue
   queries for IDENTITY.L.ROOT-SERVERS.ORG/IN/A and IDENTITY.L.ROOT-
   SERVERS.ORG/IN/TXT and use the results both to identify individual
   nodes and to distinguish between responses generated by different
   nodes.

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   The TXT record returned in the response to such queries is structured
   as follows:

   1.  The fully-qualified host name of the node responding to the
       query;

   2.  The city in which the node is located;

   3.  The region in which the node is located, if applicable;

   4.  The economy in which the node is located (in most cases, tne name
       of a country); and

   5.  The ICANN region in which the node is located.  A list of ICANN
       regions at the time of writing can be found at
       <http://meetings.icann.org/regions>.

   The A record returned in the response to such queries is guaranteed
   to be unique to the responding node.  The A RRType was chosen in an
   effort to make the use of this mechanism as widely-available to
   client environments as possible, and the ability to map a hostname to
   an IPv4 address seemed more likely to be widespread than the mapping
   of a hostname to any other value.  It should be noted that the
   availability of this mechanism to any particular client is orthogonal
   to the local availability of IPv4 or IPv6 transport.

   Since in this case identity data is published using IN-class resource
   records, it is not necessary to send queries directly towards L-Root
   in order to obtain results.  Responses can be obtained through
   recursive servers, the responses in those cases being the identity of
   L-Root as observed through the recursive server used rather than the
   "closest" L-Root node to the client.  This facilitates some degree of
   remote troubleshooting, since a query for IDENTITY.L.ROOT-
   SERVERS.ORG/IN/TXT or .../IN/A directed a remote recursive resolver
   can help illustrate which L-Root node is being used by that server
   (or was used when the cache was populated).

   A related caching effect is that responses to IDENTITY.L.ROOT-
   SERVERS.ORG/IN/A and IDENTITY.L.ROOT-SERVERS.ORG/IN/TXT may be cached
   at different times, and may hence persist in a cache for overlapping
   periods of time.  One possible visible effect is that the responses
   to .../IN/A and .../IN/TXT as presented from a cache may appear to be
   incoherent (i.e. refer to different nodes) despite queries against of
   the cache happening (near) simultaneously.  Caches may also discard
   the published TTLs in responses from the authoritative server and
   replace them with longer TTLs, as a matter of local policy.
   Interpretation of responses for these queries from caches should
   therefore be carried out with these possible effects in mind.

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   It has been observed that IDENTITY.L.ROOT-SERVERS.ORG/IN/A queries
   offer a useful mechanism for troubleshooting DNS problems with non-
   technical users, since such users can often be walked through the
   process of looking up an A record (e.g. as a side effect of utilities
   such as ping) far easier than they can be instructed on how use DNS-
   specific tools such as dig.

  % dig IDENTITY.L.ROOT-SERVERS.ORG TXT +short
  "ytz01.l.root-servers.org" "Toronto" "Ontario" "Canada" "NorthAmerica"
  %

  % dig IDENTITY.L.ROOT-SERVERS.ORG A +short
  67.215.199.91
  %

4.5.  Use of NODES.L.ROOT-SERVERS.ORG/IN/TXT

   The fully-qualified DNS name NODES.L.ROOT-SERVERS.ORG (note again the
   use of ORG, not NET) provides multiple TXT RRs, one per node, and
   represents the effective concatenation of all possible responses to
   the query IDENTITY.L.ROOT-SERVERS.ORG/IN/TXT.

   Note that in the example below we have forced dig to send the query
   over TCP, since we expect the response to be too large for UDP
   transport to accommodate.  Note also that the list shown is truncated
   for clarity, and can be expected to change from time to time as new
   L-Root nodes are provisioned and old ones decommissioned.

   % dig NODES.L.ROOT-SERVERS.ORG TXT +short +tcp | head -10
   "abj01.l.root-servers.org" "Abidjan" "" "Cote d'Ivoire" "Africa"
   "abj02.l.root-servers.org" "Abidjan" "" "Cote d'Ivoire" "Africa"
   "akl01.l.root-servers.org" "Mangere" "" "New Zealand" "AsiaPacific"
   "akl41.l.root-servers.org" "Mangere" "" "New Zealand" "AsiaPacific"
   "akl42.l.root-servers.org" "Mangere" "" "New Zealand" "AsiaPacific"
   "akl43.l.root-servers.org" "Mangere" "" "New Zealand" "AsiaPacific"
   "akl44.l.root-servers.org" "Mangere" "" "New Zealand" "AsiaPacific"
   "ams01.l.root-servers.org" "Haarlemmermeer" "" "Netherlands" "Europe"
   "anc01.l.root-servers.org" "Anchorage" "Alaska" "United States" \
     "NorthAmerica"
   %

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5.  Provisioning of IDENTITY.L.ROOT-SERVERS.ORG

   Individual L-Root nodes run a dedicated, separate authority-only DNS
   server process which serves the IDENTITY.L.ROOT-SERVERS.ORG zone.
   The contents of that zone are unique to every node, and hence each
   responding node will generate a node-specific response.

   The contents of the IDENTITY.L.ROOT-SERVERS.ORG zone are hence
   deliberately incoherent, the apparent zone contents depending on the
   node responding to the corresponding query.

   The IDENTITY.L.ROOT-SERVERS.ORG zone is delegated to the single name
   server BEACON.L.ROOT-SERVERS.ORG, numbered on IPv4 and IPv6 addresses
   that are covered by the same routing advertisements that cover the
   L-Root service addresses.  Reachability of BEACON.L.ROOT-SERVERS.ORG
   is hence well-aligned with the reachability of L.ROOT-SERVERS.NET,
   and hence measurement of the IDENTITY service ought to give similar
   results to measurement of the L-Root service.

   It is considered best practice always to delegate a DNS zone to more
   than one name server [RFC2182]; however, as described, the
   IDENTITY.L.ROOT-SERVERS.ORG zone is delegated to just one server.
   Ordinarily this would present a risk of failure if that single server
   is not available; however, given the purpose of the delegation in
   this case and that the expected mitigation of a failure in a single
   node is the routing of a query to a different node, delegation to a
   single server in this particular use-case is effective.

   The L.ROOT-SERVERS.ORG zone is signed using DNSSEC, and hence secure
   responses for BEACON.L.ROOT-SERVERS.ORG and NODES.L.ROOT-SERVERS.ORG
   are available.  IDENTITY.L.ROOT-SERVERS.ORG is an insecure delegation
   from the L.ROOT-SERVERS.ORG zone, however, following the operational
   preference to serve static data from each node for that zone, and the
   disinclination to distribute key materials and zone signing machinery
   to every node.

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6.  Security Considerations

   Some operators of anycast services choose not to disclose locations
   (or even numbers) of nodes, citing security concerns.  The operator
   of L-Root considers that none of the published information described
   in this document is truly secret, since any service element which
   provides service to the Internet can never truly be obscured from
   view.  Given that location information can be found regardless of any
   conscious, deliberate disclosure, and since easy access to this
   information has diagnostic value, the operator of L-Root has adopted
   a policy of operational transparency.

   The information presented in this document presents no new threat to
   the Internet.

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7.  IANA Considerations

   This document makes no request of the IANA.

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8.  Acknowledgements

   The aspects of the L-Root service that were deployed to facilitate
   IN-class mapping were discussed and implemented as part of an
   informal collaboration with Xun Fan, John Heidemann and Ramesh
   Govidan, whose contributions are acknowledged.  The motivation to
   faciitate mapping of L-Root as an anycast service using IN-class
   queries was inspired by [Fan2013].

   Helpful reviews and comments from Gaurab Upadhaya, Hugo Salgado,
   Brian Dixon, Bob Harold, Paul Hoffman, Jakob Schlyter, Andrew
   Sullivan, Bruce Campbell and S. Moonesamy on earlier versions of this
   document were very much appreciated.

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9.  References

9.1.  Normative References

   [RFC1034]  Mockapetris, P., "Domain names - concepts and facilities",
              STD 13, RFC 1034, November 1987.

   [RFC1035]  Mockapetris, P., "Domain names - implementation and
              specification", STD 13, RFC 1035, November 1987.

   [RFC2182]  Elz, R., Bush, R., Bradner, S., and M. Patton, "Selection
              and Operation of Secondary DNS Servers", BCP 16, RFC 2182,
              July 1997.

   [RFC4786]  Abley, J. and K. Lindqvist, "Operation of Anycast
              Services", BCP 126, RFC 4786, December 2006.

   [RFC4892]  Woolf, S. and D. Conrad, "Requirements for a Mechanism
              Identifying a Name Server Instance", RFC 4892, June 2007.

   [RFC5001]  Austein, R., "DNS Name Server Identifier (NSID) Option",
              RFC 5001, August 2007.

   [RFC6891]  Damas, J., Graff, M., and P. Vixie, "Extension Mechanisms
              for DNS (EDNS(0))", STD 75, RFC 6891, April 2013.

9.2.  Informative References

   [Fan2013]  Fan, X., Heidemann, J., and R. Govidan, "Evaluating
              Anycast in the Domain Name System", Proceedings of the
              IEEE Infocom Turin, Italy, April 2013.

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URIs

   [1]  <http://www.iata.org/publications/Pages/coding.aspx>

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Appendix A.  Editorial Notes

   This section (and sub-sections) to be removed prior to publication.

A.1.  Change History

   00 Initial idea, circulated for the purposes of entertainment.

   01 Added some commentary of use-cases of NSID vs various/CH/TXT.
      Moved discussion of IN-class queries from the NODES section to the
      IDENTITY section.  Added a note about DNSSEC for IDENTITY, NODES.
      Updated acknowledgements section.

   02 Clarified re-routing impact on HOSTNAME.BIND, ID.SERVER,
      LOCATION.L queries vs. NSID as not just applying to HOSTNAME.BIND.
      Fixed typos and absurd malapropisms.  Cleaned up prompts in
      command-line examples and added text to clarify how such examples
      should be interpreted.

   03 Added reference to [RFC2182] at the suggestion of Andrew Sullivan.
      Made edits to Section 4 in response to comments from Bruce
      Campbell.  Incorporated changes following review from SM.

   04 Added Terry as an author; changed Joe's affiliation.

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Authors' Addresses

   Joe Abley
   Dyn, Inc.
   470 Moore Street
   London, ON  N6C 2C2
   Canada

   Phone: +1 519 670 9327
   Email: jabley@dyn.com

   Terry Manderson
   ICANN
   12025 Waterfront Drive
   Suite 300
   Los Angeles, CA  90094-2536
   USA

   Email: terry.manderson@icann.org

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