WDIFF

draft-ietf-dnsind-classless-inaddr-03.txt --> rfc2317.txt

Network Working Group Havard H. Eidnes
INTERNET-DRAFT
Request for Comments: 2317 SINTEF RUNIT
draft-ietf-dnsind-classless-inaddr-03.txt Geert Jan
BCP: 20 G. de Groot
RIPE NCC
Paul
Category: Best Current Practice Berkeley Software Design, Inc.
P. Vixie
Internet Software Consortium
April 1997
March 1998

Classless IN-ADDR.ARPA delegation

Status of this Memo

This document is specifies an Internet-Draft. Internet-Drafts are working
documents of Internet Best Current Practices for the
Internet Engineering Task Force (IETF), its areas, Community, and its working groups. Note that other groups may also distribute
working documents as Internet-Drafts.

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

To learn the current status of any Internet-Draft, please check the
``1id-abstracts.txt'' listing contained in the Internet-Drafts Shadow
Directories on ftp.is.co.za (Africa), nic.nordu.net (Europe),
munnari.oz.au (Pacific Rim), ds.internic.net (US East Coast), or
ftp.isi.edu (US West Coast). unlimited.

2. Introduction

This document describes a way to do IN-ADDR.ARPA delegation on non-
octet boundaries for address spaces covering fewer than 256
addresses. The proposed method should thus remove one of the
objections to subnet on non-octet boundaries but perhaps more
significantly, make it possible to assign IP address space in smaller
chunks than 24-bit prefixes, without losing the ability to delegate
authority for the corresponding IN-ADDR.ARPA mappings. The proposed
method is fully compatible with the original DNS lookup mechanisms
specified in [1], i.e. there is no need to modify the lookup
algorithm used, and there should be no need to modify any software
which does DNS lookups either. lookups.

The document also discusses some operational considerations to
provide some guidance in implementing this method.

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3. Motivation

With the proliferation of classless routing technology, it has become
feasible to assign address space on non-octet boundaries. In case of
a Very Small Organization very small organization with only a few hosts, assigning a full
24-bit prefix (what has was traditionally been referred to as a ``class "class C
network number'') number") often leads to inefficient address space
utilization.

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RFC 2317 Classless IN-ADDR.ARPA delegation March 1998

One of the problems encountered when assigning a longer prefix (less
address space) is that it seems impossible for such an organization
to maintain its own reverse (``IN-ADDR.ARPA'') ("IN-ADDR.ARPA") zone autonomously. By
use of the reverse delegation method described below, the most
important objection to assignment of longer prefixes to unrelated
organizations can be removed.

Let us assume we have assigned the address spaces to three different
parties as follows:

192.0.2.0/25 to organization A
192.0.2.128/26 to organization B
192.0.2.192/26 to organization C

In the classical approach, this would lead to a single zone like
this:

$ORIGIN 2.0.192.in-addr.arpa.
;
1 PTR host1.A.domain.
2 PTR host2.A.domain.
3 PTR host3.A.domain.
;
129 PTR host1.B.domain.
130 PTR host2.B.domain.
131 PTR host3.B.domain.
;
193 PTR host1.C.domain.
194 PTR host2.C.domain.
195 PTR host3.C.domain.

The administration of this zone is problematic. Authority for this
zone can only be delegated once, and this usually translates into
``this
"this zone can only be administered by one organization.'' organization." The other
organizations with address space that corresponds to entries in this
zone would thus have to depend on another organization for their
address to name translation. With the proposed method, this
potential problem can be avoided.

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4. Classless IN-ADDR.ARPA delegation

Since a single zone can only be delegated once, we need more points
to do delegation on to solve the problem above. These extra points
of delegation can be introduced by extending the IN-ADDR.ARPA tree
downwards, e.g. by using the first address or the first address and
the network mask length (as shown below) in the corresponding address

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RFC 2317 Classless IN-ADDR.ARPA delegation March 1998

space to form the the first component in the name for the zones. The
following four zone files show how the problem in the motivation
section could be solved using this method. The zone files are shown
here with network masks and network names in the form specified in
[2] as well.

$ORIGIN 2.0.192.in-addr.arpa.
@ IN SOA my-ns.my.domain. hostmaster.my.domain. ( ... ) (...)
;...
; <<0-127>> /25
0/25 NS ns.A.domain.
0/25 NS some.other.name.server.
;
1 CNAME 1.0/25.2.0.192.in-addr.arpa.
2 CNAME 2.0/25.2.0.192.in-addr.arpa.
3 CNAME 3.0/25.2.0.192.in-addr.arpa.
;
; <<128-191>> /26
128/26 NS ns.B.domain.
128/26 NS some.other.name.server.too.
;
129 CNAME 129.128/26.2.0.192.in-addr.arpa.
130 CNAME 130.128/26.2.0.192.in-addr.arpa.
131 CNAME 131.128/26.2.0.192.in-addr.arpa.
;
; <<192-255>> /26
192/26 NS ns.C.domain.
192/26 NS some.other.third.name.server.
;
193 CNAME 193.192/26.2.0.192.in-addr.arpa.
194 CNAME 194.192/26.2.0.192.in-addr.arpa.
195 CNAME 195.192/26.2.0.192.in-addr.arpa.

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$ORIGIN 0/25.2.0.192.in-addr.arpa.
@ IN SOA ns.A.domain. hostmaster.A.domain. ( ... ) (...)
@ NS ns.A.domain.
@ NS some.other.name.server.
@ PTR networkname.A.domain.
@ A 255.255.255.128
;
1 PTR host1.A.domain.
2 PTR host2.A.domain.
3 PTR host3.A.domain.

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RFC 2317 Classless IN-ADDR.ARPA delegation March 1998

$ORIGIN 128/26.2.0.192.in-addr.arpa.
@ IN SOA ns.B.domain. hostmaster.B.domain. ( ... ) (...)
@ NS ns.B.domain.
@ NS some.other.name.server.too.
@ PTR networkname.B.domain.
@ A 255.255.255.192
;
129 PTR host1.B.domain.
130 PTR host2.B.domain.
131 PTR host3.B.domain.

$ORIGIN 192/26.2.0.192.in-addr.arpa.
@ IN SOA ns.C.domain. hostmaster.C.domain. ( ... ) (...)
@ NS ns.C.domain.
@ NS some.other.third.name.server.
@ PTR networkname.C.domain.
@ A 255.255.255.192
;
193 PTR host1.C.domain.
194 PTR host2.C.domain.
195 PTR host3.C.domain.

Note that the use of network masks and network names as specified in
[2] is optional, but is strongly recommended.

For each size-256 chunk split up using this method, there is a need
to install close to 256 CNAME records in the parent zone. Some
people might view this as ugly; we will not argue that particular
point. It is however quite easy to automatically generate the CNAME
resource records in the parent zone once and for all, if the way the
address space is partitioned is known.

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The advantage of this approach over the other proposed approaches for
dealing with this problem is that there should be no need to modify
any already-deployed software. In particular, the lookup mechanism
in the DNS does not have to be modified to accommodate this splitting
of the responsibility for the IPv4 address to name translation on
``non-dot''
"non-dot" boundaries. Furthermore, this technique has been in use
for several years in at least one installation, many installations, apparently with no ill
effects.

As usual, a resource record like

$ORIGIN 2.0.192.in-addr.arpa.
129 CNAME 129.128/26.2.0.192.in-addr.arpa.

can be convienently abbreviated to

$ORIGIN 2.0.192.in-addr.arpa.
129 CNAME 129.128/26

Note also that it is legal

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RFC 2317 Classless IN-ADDR.ARPA delegation March 1998

Some DNS implementations are not kind to use slash ('/') special characters in domain
names, e.g. the name of "/" used in the
resource record (1.0/25.2.0.192.IN-ADDR.ARPA) because above examples. As [3] makes clear,
these are legal, though some might feel unsightly. Because these are
not host names; hence names the restriction of [3] [2] does not apply here. apply. Modern clients
and servers have an option to act in the liberal and correct fashion.

The examples here use "/" because it was felt to be more visible and
pedantic reviewers felt that the 'these are not hostnames' argument
needed to be repeated. We advise you not to be so pedantic, and to
not precisely copy the above examples, e.g. substitute a more
conservative character, such as hyphen, for "/".

5. Operational considerations

This technique is intended to be used for delegating address spaces
covering fewer than 256 addresses. For delegations covering larger
blocks of addresses the traditional methods (multiple delegations)
can be used instead.

5.1 Recommended secondary name service

Some older versions of name server software will make no effort to
find and return the pointed-to name in CNAME records if the pointed-
to name is not already known locally as cached or as authoritative
data. This can cause some confusion in resolvers, as only the CNAME
record will be returned in the response. To avoid this problem it is
recommended that the authoritative name servers for the delegating
zone (the zone containing all the CNAME records) all run as slave
(secondary) name servers for the ``child'' "child" zones delegated and pointed
into via the CNAME records.

5.2 Alternative naming conventions

As a result of this method, the location of the zone containing the
actual PTR records is no longer predefined. This gives flexibility
and some examples will be presented here.

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An obvious alternative to using the first address address, or the first address and
the network mask length in the corresponding address
space space, to name
the new zones is simply to use some other (non-numeric) name. It Thus it is of course
also possible to point to an entirely different part of the DNS tree (e.g.
(i.e. outside of the IN-ADDR.ARPA tree). It would be necessary to
use one of these alternate methods if two organizations somehow
shared the same physical subnet (and corresponding IP address space)
with no "neat" alignment of the addresses, but still wanted to
administrate their own IN-ADDR.ARPA mappings.

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RFC 2317 Classless IN-ADDR.ARPA delegation March 1998

The following short example shows how you can point out of the IN-
ADDR.ARPA tree:

$ORIGIN 2.0.192.in-addr.arpa.
@ IN SOA my-ns.my.domain. hostmaster.my.domain. ( ... ) (...)
; ...
1 CNAME 1.A.domain.
2 CNAME 2.A.domain.
; ...
129 CNAME 129.B.domain.
130 CNAME 130.B.domain.
;

$ORIGIN A.domain.
@ IN SOA my-ns.A.domain. hostmaster.A.domain. ( ... ) (...)
; ...
;
host1 A 192.0.2.1
1 PTR host1
;
host2 A 192.0.2.2
2 PTR host2
;

etc.

Done this

This way you can actually end up with the name->address and the
(pointed-to) address->name mapping data in the same zone file -- - some
may view this as an added bonus as no separate set of secondaries for
the reverse zone is required. Do however note that the traversal via
the IN-ADDR.ARPA tree will still be done, so the CNAME records
inserted there need to point in the right direction for this to work.

An approach as sketched

Sketched below is an alternative approach using the same solution:

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$ORIGIN 2.0.192.in-addr.arpa.
@ IN SOA my-ns.my.domain. hostmaster.my.domain. ( ... ) (...)
; ...
1 CNAME 1.2.0.192.in-addr.A.domain.
2 CNAME 2.2.0.192.in-addr.A.domain.

$ORIGIN A.domain.
@ IN SOA my-ns.A.domain. hostmaster.A.domain. ( ... ) (...)
; ...
;
host1 A 192.0.2.1
1.2.0.192.in-addr PTR host1

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RFC 2317 Classless IN-ADDR.ARPA delegation March 1998

host2 A 192.0.2.2
2.2.0.192.in-addr PTR host2

It is clear that many possibilities exist which can be adapted to the
specific requirements of the situation at hand.

5.3 Other operational issues

Note that one cannot provide CNAME referrals twice for the same
address space, i.e. you cannot allocate a /25 prefix to one
organisation, and run IN-ADDR.ARPA this way, and then have the
organisation subnet the /25 into longer prefixes, and attempt to
employ the same technique to give each subnet control of its own
number space. This would result in a CNAME record pointing to a CNAME
record, which may be less robust overall.

Unfortunately, some old beta releases of the popular DNS name server
implementation BIND 4.9.3 had a bug which caused problems if a CNAME
record was encountered when a reverse lookup was made. The beta
releases involved have since been obsoleted, and this issue is
resolved in the released code. Some software manufacturers have
included the defective beta code in their product. In the few cases
we know of, patches from the manufacturers are available or planned
to replace the obsolete beta code involved.

6. Security Considerations

Security considerations

With this scheme, the "leaf sites" will need to rely on one more site
running their DNS name service correctly than they would be if they
had a /24 allocation of their own, and this may add an extra
component which will need to work for reliable name resolution.

Other than that, the authors are not discussed in aware of any additional security
issues introduced by this memo. mechanism.

7. Conclusion

The suggested scheme gives more flexibility in delegating authority
in the IN-ADDR.ARPA domain, thus making it possible to assign address
space more efficiently without losing the ability to delegate the DNS
authority over the corresponding address to name mappings.

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8. Acknowledgments

Glen A. Herrmannsfeldt described this trick on comp.protocols.tcp-
ip.domains some time ago. Alan Barrett and Sam Wilson provided
valuable comments on the newsgroup.

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RFC 2317 Classless IN-ADDR.ARPA delegation March 1998

We would like to thank Rob Austein, Randy Bush, Matt Crawford, Robert
Elz, Glen A. Herrmannsfeldt, Daniel Karrenberg, David Kessens, Tony
Li, Paul Mockapetris, Eric Wassenaar, Michael Patton, Hans Maurer,
and Peter Koch for their review and constructive comments.

9. References

[1] P. Mockapetris, ``Domain P., "Domain Names - Concepts and Facilities'',
RFC1034, ISI, Facilities",
STD 13, RFC 1034, November 1987.

[2] P. Mockapetris, ``DNS Encoding of Network Names and Other Types'',
RFC1101, ISI, April 1989.

[3] K. Harrenstien, M. K., Stahl, M., and E. Feinler, ``DoD "DoD Internet Host
Table
Specification'', RFC952, SRI, Specification", RFC 952, October 1985.

[3] Elz, R., and R. Bush, "Clarifications to the DNS
Specification", RFC 2181, July 1997.

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RFC 2317 Classless IN-ADDR.ARPA delegation April 1997 March 1998

10. Author's Authors' Addresses

Havard Eidnes
SINTEF RUNIT
N-7034 Trondheim
Norway

Phone: +47 73 59 44 68
Fax: +47 73 59 17 00

Email:
EMail: Havard.Eidnes@runit.sintef.no

Geert Jan de Groot
RIPE Network Coordination Centre
Kruislaan 409
1098 SJ Amsterdam
the
Berkeley Software Design, Inc. (BSDI)
Hendrik Staetslaan 69
5622 HM Eindhoven
The Netherlands

Phone: +31 20 592 5065 40 2960509
Fax: +31 20 592 5090

Email: GeertJan.deGroot@ripe.net 40 2960309
EMail: GeertJan.deGroot@bsdi.com

Paul Vixie
Internet Software Consortium
Star Route Box 159A
Woodside, CA 94062
USA

Phone: +1 415 747 0204

Email:
EMail: paul@vix.com

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RFC 2317 Classless IN-ADDR.ARPA delegation March 1998

11. Full Copyright Statement

This document and translations of it may be copied and furnished to
others, and derivative works that comment on or otherwise explain it
or assist in its implementation may be prepared, copied, published
and distributed, in whole or in part, without restriction of any
kind, provided that the above copyright notice and this paragraph are
included on all such copies and derivative works. However, this
document itself may not be modified in any way, such as by removing
the copyright notice or references to the Internet Society or other
Internet organizations, except as needed for the purpose of
developing Internet standards in which case the procedures for
copyrights defined in the Internet Standards process must be
followed, or as required to translate it into languages other than
English.

The limited permissions granted above are perpetual and will not be
revoked by the Internet Society or its successors or assigns.

This document and the information contained herein is provided on an
"AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET ENGINEERING
TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING
BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION
HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.

Eidnes, et. al. Best Current Practice [Page 10]

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