Network Working Group T. Hardie
Internet-Draft December 03, 2015
Intended status: Informational
Expires: June 5, 2016
Considerations for establishing resolution contexts for Internet Names
draft-hardie-resolution-contexts-00
Abstract
The effort to register .onion [RFC7686] in the IANA special names
registry[RFC6761] has given rise to considerable discussion of how
the namespace associated with the DNS relates to other namespaces
used on the Internet. A brief history of this has been set out in
[I-D.lewis-domain-names]. This document focuses on the question of
how to signal resolution context within a unified namespace that
contains both DNS and non-DNS names.
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1. Introduction
The history in [I-D.lewis-domain-names] and the usage in [RFC3986]
both suggest that names registered in the domain name system are part
of a larger set of Internet names. If we model the system of
Internet names as a set of directed graphs in an absolute naming
context, following RFC 819 [RFC0819], an Internet name is not
necessarily a name in the domain name system, but is simply a unique
name associated with that particular directed graph. The resolution
of the name, in other words, is independent from it being an
"Internet name". The DNS is a common, but not the only, resolution
context for Internet names.
2. Resolution Contexts
The Domain Name System [RFC1034][RFC1035] provides the most common
resolution system for Internet names by many orders of magnitude. It
has not, however, met all resolution requirements. Multicast DNS
[RFC6762] uses an alternative resolution service, as does TOR [TOR].
Tor's .onion names, in particular, appear to be effectively Internet
names within a globally shared naming context; they simply happen to
use an alternative resolution method.
The key practical question that follows from the existence of
alternative resolution contexts is how you can determine whether or
not a particular Internet name is part of the Domain name set of
Internet names, or part of a different set. The de facto signal we
are using now is the top-most label of the Internet name. If it is
within the known set of DNS top-most labels, we have a definite yes.
If it is within an established set of non-DNS top-most labels, we
have a definite no.
There are at least two unfortunate sets of potentially conflicting
cases, where people are using labels with the intent to use this
signal but have not risen to the level of "established no". In the
first case, their usage may be mistaken for non-fully qualified names
within the domain name system, resulting in the construction of a new
Internet name where one was not intended (e.g. www.sld.allium
becoming www.sld.allium.corp.example.com, rather than .allium being
used as signal that this Internet name is not within the set of
domain names). The second case, which may overlap, is one in which
the growth of the set of names in domain name system causes overlap
(a new gTLD like .allium being assigned would conflict with the
attempted use of .allium as a resolution context signal).
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The risks of the two conflicting cases are pretty obvious, but
despite that the use of a pseudo-TLD signal seems desirable to many
setting up alternative resolution contexts. It seems likely that
this is because the services within the alternative resolution
contexts wish to use protocols defined for DNS names as if they were
defined for their Internet names. The .onion example was driven, in
other words, at least in part because its users wanted
https://identifier.onion/ to work. In order to share the HTTPS URI
context, they needed to minimize the changes to the form of the URI.
That meant using https:// with a resolution trigger, rather than
changing the URI (tor-https://, for example).
The implication for the universe of architecturally appropriate
responses is that any means for signalling that a name is not within
the DNS context but is still meant to be an Internet name must
continue to allow those Internet names to be used in common protocol
contexts. It also means that any Internet name must expect
restrictions to achieve that (viz. it must be a unique name within a
directed graph within the overall Internet name namespace).
3. Available Alternatives
Given that restriction, the universe of possible resolution context
signals seems to be limited. One option is using a designated sub-
tree of the Internet namespace for non-DNS resolutions, with labels
within the tree indicating which resolution context is meant.
[I-D.ietf-dnsop-alt-tld] describes one specific approach to this
option. While the use of this sub-tree may be esthetically less
pleasing than a pseudo-TLD, it avoids the ambiguities which may arise
during the development of alternative resolution context.
A second alternative is to fix either the set of top-level domains or
the number of resolution contexts, so that ambiguity cannot occur.
While a fixed set of top-level domains might have seemed practical
when the number of TLDs was limited to country codes and a strictly
limited set of generic top-level domains, this has ceased to be a
practical alternative. Similarly, the creation of alternative
resolution contexts cannot be effectively stifled, even were this
desirable; those interested can implement and deploy them without
registration of any kind. That these may not interoperate or
conflict with other deployments is, of course, a risk.
A third alternative within the DNS context is to continue the current
registration of pseudo-TLDs and accept the consequences of ambiguity.
This will mean that conflicts between resolution context pseudo-TLDs
and potential future TLDs must be managed and that the operational
impact must be addressed. A focus on deployment of mitigation
strategies may reduce the operational consequences. As an example,
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the deployment of loopback root zones [RFC7706] will reduce the
impact of queries for pseudo-TLDs leaking to the root DNS name
servers. Similarly, policies for names registered as pseudo-TLDs may
also limit potential conflict.
An alternative to signals within the DNS is making alternative
signals easier. URI registrations have gotten significantly
easier[RFC7595] over time, but it might be possible to lower the bar
further by creating a convention for using alternative resolution
contexts.
As an example, we could set aside a string delimiter for this purpose
as we set aside xn- to single out the ACE encoding for
Internationalized Domain Names [RFC5891]. That string delimiter
could then be used to construct faceted URI schemes, one aspect of
which contained the usual protocol indicator and the other the
resolution context. The ABNF for scheme is:
scheme = ALPHA *( ALPHA / DIGIT / "+" / "-" / "." )
Setting aside a string delimiter such as +.+ would allow something
like https://identifier.onion/ to become https+._tor//identifier/.
This would require updates to URI parsing libraries that intended to
handle alternative resolution contexts, but the use of a common
delimiter would lower the amount of code needed both to identify the
core protocol and the alternative resolution contexts. It might
remain esthetically less pleasing, however, and it would prevent the
use of IDNA-permitted characters as resolution context identifiers,
something which the DNS-based solutions do allow.
4. Conclusions
There are clearly trade-offs among the available alternatives, as
each has its own drawbacks as an indicator of resolution context.
Given, however, that the existence of multiple signals could generate
even further interoperability issues and operational concerns, the
creation of multiple signals is undesirable. Any system which allows
Internet names from alternate resolution contexts to be used in
common protocol systems can likely be made to work, provided its
drawbacks are accounted for and mitigated appropriately.
5. Security Considerations
This document describes a number of potential method for establishing
a resolution context for an Internet name. Should the resolution
context to be used with a name not be sufficiently clear, it may be
possible to provide alternative information in a different context.
That alternative information could provide an avenue for an attacker
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to stand up services which would mimic those present elsewhere,
allowing the attacker to subvert the connection, steal credentials,
6. IANA Considerations
This document currently has no actions for IANA.
7. Acknowledgements
Thanks to Ed Lewis, Suzanne Wolff, and Andrew Sullivan for
conversations leading up to this document; all errors of fact and
judgement are, however, the author's.
8. Informative References
[TOR] The Tor Project, "Tor", 2013,
.
[RFC0819] Su, Z. and J. Postel, "The Domain Naming Convention for
Internet User Applications", RFC 819,
DOI 10.17487/RFC0819, August 1982,
.
[RFC1034] Mockapetris, P., "Domain names - concepts and facilities",
STD 13, RFC 1034, DOI 10.17487/RFC1034, November 1987,
.
[RFC1035] Mockapetris, P., "Domain names - implementation and
specification", STD 13, RFC 1035, DOI 10.17487/RFC1035,
November 1987, .
[RFC3986] Berners-Lee, T., Fielding, R., and L. Masinter, "Uniform
Resource Identifier (URI): Generic Syntax", STD 66,
RFC 3986, DOI 10.17487/RFC3986, January 2005,
.
[RFC5891] Klensin, J., "Internationalized Domain Names in
Applications (IDNA): Protocol", RFC 5891,
DOI 10.17487/RFC5891, August 2010,
.
[RFC6761] Cheshire, S. and M. Krochmal, "Special-Use Domain Names",
RFC 6761, DOI 10.17487/RFC6761, February 2013,
.
[RFC6762] Cheshire, S. and M. Krochmal, "Multicast DNS", RFC 6762,
DOI 10.17487/RFC6762, February 2013,
.
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[RFC7706] Kumari, W. and P. Hoffman, "Decreasing Access Time to Root
Servers by Running One on Loopback", RFC 7706,
DOI 10.17487/RFC7706, November 2015,
.
[RFC7595] Thaler, D., Ed., Hansen, T., and T. Hardie, "Guidelines
and Registration Procedures for URI Schemes", BCP 35,
RFC 7595, DOI 10.17487/RFC7595, June 2015,
.
[RFC7686] Appelbaum, J. and A. Muffett, "The ".onion" Special-Use
Domain Name", RFC 7686, DOI 10.17487/RFC7686, October
2015, .
[I-D.ietf-dnsop-alt-tld]
Kumari, W. and A. Sullivan, "The ALT Special Use Top Level
Domain", draft-ietf-dnsop-alt-tld-03 (work in progress),
September 2015.
[I-D.lewis-domain-names]
Lewis, E., "Domain Names", draft-lewis-domain-names-01
(work in progress), September 2015.
Author's Address
Ted Hardie
Email: ted.ietf@gmail.com
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