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RFC3675

  1. RFC 3675
Network Working Group                                    D. Eastlake 3rd
Request for Comments: 3675                         Motorola Laboratories
Category: Informational                                    February 2004


                        .sex Considered Dangerous

Status of this Memo

   This memo provides information for the Internet community.  It does
   not specify an Internet standard of any kind.  Distribution of this
   memo is unlimited.

Copyright Notice

   Copyright (C) The Internet Society (2004).  All Rights Reserved.

Abstract

   Periodically there are proposals to mandate the use of a special top
   level name or an IP address bit to flag "adult" or "unsafe" material
   or the like.  This document explains why this is an ill considered
   idea from the legal, philosophical, and particularly, the technical
   points of view.

Table of Contents

   1.  Introduction . . . . . . . . . . . . . . . . . . . . . . . . .  2
   2.  Background . . . . . . . . . . . . . . . . . . . . . . . . . .  2
   3.  Legal and Philosophical Problems . . . . . . . . . . . . . . .  4
   4.  Technical Difficulties . . . . . . . . . . . . . . . . . . . .  6
       4.1.  Content Filtering Using Names. . . . . . . . . . . . . .  7
             4.1.1.  Linguistic Problems. . . . . . . . . . . . . . .  7
             4.1.2.  Explosion of Top Level Domain Names (TLDs) . . .  8
             4.1.3.  You Can't Control What Names Point At You! . . .  9
             4.1.4.  Particular Protocol Difficulties . . . . . . . . 10
                     4.1.4.1.  Electronic Mail (SMTP) . . . . . . . . 10
                     4.1.4.2.  Web Access (HTTP). . . . . . . . . . . 11
                     4.1.4.3.  News (NNTP). . . . . . . . . . . . . . 12
                     4.1.4.4.  Internet Relay Chat (IRC). . . . . . . 13
       4.2.  Content Filtering Using IP Addressing. . . . . . . . . . 13
             4.2.1.  Hierarchical Routing . . . . . . . . . . . . . . 14
             4.2.2.  IP Version 4 Addresses . . . . . . . . . . . . . 15
             4.2.3.  IP Version 6 Addresses . . . . . . . . . . . . . 15
       4.3.  PICS Labels. . . . . . . . . . . . . . . . . . . . . . . 16
   5.  Security Considerations. . . . . . . . . . . . . . . . . . . . 17
   6.  Conclusions. . . . . . . . . . . . . . . . . . . . . . . . . . 17
   7.  References . . . . . . . . . . . . . . . . . . . . . . . . . . 18



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       7.1.  Normative References . . . . . . . . . . . . . . . . . . 18
       7.2.  Informative References . . . . . . . . . . . . . . . . . 19
   8.  Acknowledgement. . . . . . . . . . . . . . . . . . . . . . . . 21
   9.  Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . 21
   10. Full Copyright Statement . . . . . . . . . . . . . . . . . . . 22

1.  Introduction

   Periodically there are proposals to mandate the use of a special top
   level name or an IP address bit to flag "adult" or "unsafe" material
   or the like.  This document explains why this is an ill considered
   idea from the legal, philosophical, and the technical points of view.

2.  Background

   The concept of a .sex, .xxx, .adult, or similar top-level domain in
   which it would be mandatory to locate salacious or similar material
   is periodically suggested by some politicians and commentators.
   Other proposals have included a domain reserved exclusively for
   material viewed as appropriate for minors, or using IP address bits
   or ranges to segregate content.

   In an October 1998 report accompanying the Child Online Protection
   Act, the House Commerce committee said, "there are no technical
   barriers to creating an adult domain, and it would be very easy to
   block all websites within an adult domain".  The report also said
   that the committee was wary of regulating the computer industry and
   that any decision by the U.S. government "will have international
   consequences" [HOUSEREPORT].

   British Telecom has backed adult top-level domains, saying in a 1998
   letter to the U.S. Department of Commerce that it "strongly
   supported" that plan.  The reason: "Sexually explicit services could
   then be legally required to operate with domain names in this gTLD
   [that] would make it much simpler and easier to control access to
   such sites..." [BT].  One of ICANN's progenitors, the GTLD-MOU
   committee, suggested a "red-light-zone" top-level domain in a
   September 1997 request for comment [GTLD-MOU].

   Some adult industry executives have endorsed the concept.  In 1998,
   Seth Warshavsky, president of the Internet Entertainment Group, told
   the U.S. Senate Commerce committee that he would like to see a .adult
   domain.  "We're suggesting the creation of a new top-level domain
   called '.adult' where all sexually explicit material on the Net would
   reside," Warshavsky said in an interview at the time [WARSHAVSKY].






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   More recently, other entrepreneurs in the industry have said that
   they do not necessarily object to the creation of an adult domain as
   long as they may continue to use .com.

   Conservative groups in the U.S. say they are not eager for such a
   domain, and prefer criminal laws directed at publishers and
   distributors of sexually-explicit material.  The National Law Center
   for Children and Families in Fairfax, Virginia, said in February 2001
   that it did not favor any such proposal.  For different reasons, the
   American Civil Liberties Union and other civil liberties groups also
   oppose it.

   Sen. Joseph Lieberman, the U.S. Democratic Party's vice presidential
   nominee, endorsed the idea at a June 2000 meeting of the federal
   Commission on Child Online Protection.  Lieberman said in a prepared
   statement that "we would ask the arbiters of the Internet to simply
   abide by the same standard as the proprietor of an X-rated movie
   theater or the owner of a convenience store who sells sexually-
   explicit magazines" [LIEBERMAN].

   In the 1998 law creating this commission, the U.S. Congress required
   the members to investigate "the establishment of a domain name for
   posting of any material that is harmful to minors",  The commission
   devoted a section of its October 2000 report to that topic.  It
   concluded that both a .xxx and a .kids domain are technically
   possible, but would require action by ICANN.  The report said that an
   adult domain might be only "moderately effective" and raises privacy
   and free speech concerns [COPAREPORT].

   The commission also explored the creation of a so-called red zone or
   green zone for content by means of allocation of a new set of IP
   addresses under IPv6.  Any material not in one of those two zones
   would be viewed as in a gray zone and not necessarily appropriate or
   inappropriate for minors.  Comments from commissioners were largely
   negative: "Effectiveness would require substantial effort to attach
   content to specific IP numbers.  This approach could potentially
   reduce flexibility and impede optimal network performance.  It would
   not be effective at blocking access to chat, newsgroups, or instant
   messaging".

   In October 2000, ICANN rejected a .xxx domain during its initial
   round of approving additional top-level domains.  The reasons are not
   entirely clear, but former ICANN Chairwoman Esther Dyson said that
   the adult industry did not entirely agree that such a domain would be
   appropriate.  One .xxx hopeful, ICM Registry of Ontario, Canada, in
   December 2000 asked ICANN to reconsider its decision [ICM-REGISTRY].





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   In 2002, the U.S. Congress mandated the creation of a kids.us domain
   for "child safe" material.  This was after being convinced that for
   reasons, some of which are described in the following section, trying
   to legislate standards for the whole world with a .kids domain was
   inappropriate.

3.  Legal and Philosophical Problems

   When it comes to sexually-explicit material, every person, court, and
   government has a different view of what's acceptable and what is not.
   Attitudes change over time, and what is viewed as appropriate in one
   town or year may spark protests in the next.  When faced with the
   slippery nature of what depictions of sexual activity should be
   illegal or not, one U.S. Supreme Court justice blithely defined
   obscenity as: "I know it when I see it".

   In the U.S.A., obscenity is defined as explicit sexual material that,
   among other things, violates "contemporary community standards" -- in
   other words, even at the national level, there is no agreed-upon rule
   governing what is illegal and what is not.  Making matters more
   knotty is that there are over 200 United Nations country codes, and
   in most of them, political subdivisions can impose their own
   restrictions.  Even for legal nude modeling, age restrictions differ.
   They're commonly 18 years of age, but only 17 years of age in one
   Scandinavian country.  A photographer there conducting what's viewed
   as a legal and proper photo shoot would be branded a felon and child
   pornographer in the U.S.A.  In yet other countries and groups, the
   entire concept of nude photography or even any photography of a
   person in any form may be religiously unacceptable.

   Saudi Arabia, Iran, Northern Nigeria, and China are not likely to
   have the same liberal views as, say, the Netherlands or Denmark.
   Saudi Arabia and China, like some other nations, extensively filter
   their Internet connection and have created government agencies to
   protect their society from web sites that officials view as immoral.
   Their views on what should be included in a .sex domain would hardly
   be identical to those in liberal western nations.

   Those wildly different opinions on sexual material make it
   inconceivable that a global consensus can ever be reached on what is
   appropriate or inappropriate for a .sex or .adult top-level domain.
   Moreover, the existence of such a domain would create an irresistible
   temptation on the part of conservative legislators to require
   controversial publishers to move to that domain and punish those who
   do not.






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   Some conservative politicians already have complained that ICANN did
   not approve .xxx in its October 2000 meeting.  During a February 2001
   hearing in the U.S. House of Representatives, legislators warned that
   they "want to explore ICANN's rationale for not approving two
   particular top level domain names -- .kids and .xxx -- as a means to
   protect kids from the awful smut which is so widespread on the
   Internet".

   It seems plausible that only a few adult publishers, and not those
   who have invested resources in building a brand around a .com site,
   would voluntarily abandon their current domain name.  Instead, they'd
   likely add a .xxx variant and keep their original address.  The
   existence of .xxx could propel legislators in the U.S. and other
   countries to require them to publish exclusively from an adult
   domain, a move that would invite ongoing political interference with
   Internet governance, and raise concerns about forced speech and
   self-labeling.

   In fact, the ultimate arbiter of generic top-level domain names -- at
   least currently -- is not ICANN, but the U.S. government.  The U.S.
   Congress' General Accounting Office in July 2000 reported that the
   Commerce Department continues to be responsible for domain names
   allowed by the authoritative root [GAO].  The GAO's auditors
   concluded it was unclear whether the Commerce Department has the
   "requisite authority" under current law to transfer that
   responsibility to ICANN.

   The American Civil Liberties Union -- and other members of the
   international Global Internet Liberty Campaign -- caution that
   publishers speaking frankly about birth control, AIDS prevention, gay
   and lesbian sex, the social problem of prison rape, etc., could be
   coerced into moving to an adult domain.  Once there, they would be
   stigmatized and easily blocked by schools, libraries, companies, and
   other groups using filtering software.  Publishers of such
   information, who do not view themselves as pornographers and retain
   their existing addresses, could be targeted for prosecution.

   The existence of an adult top-level domain would likely open the door
   for related efforts, either policy or legislative.  There are many
   different axes through which offensive material can be defined: Sex,
   violence, hate, heresy, subversion, blasphemy, illegal drugs,
   profanity, political correctness, glorification of crime, incitement
   to break the law, and so on.  Such suggestions invite the ongoing
   lobbying of ICANN, the U.S. government, and other policy-making
   bodies by special-interest groups that are not concerned with the
   technical feasibility or practicality of their advice.





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   An adult top-level domain could have negative legal repercussions by
   endangering free expression.  U.S. Supreme Court Justice Sandra Day
   O'Connor has suggested that the presence of "adult zones" on the
   Internet would make a future Communications Decency Act (CDA) more
   likely to be viewed as constitutional.  In her partial dissent to the
   Supreme Court's rejection of the CDA in 1997 [CDA], O'Connor said
   that "the prospects for the eventual zoning of the Internet appear
   promising".  (The Supreme Court ruled that the CDA violated free
   speech rights by making it a crime to distribute "indecent" or
   "patently offensive" material online.)

   Privacy could be harmed by such a proposal.  It would become easier
   for repressive governments and other institutions to track visits to
   sites in a domain labeled as adult and record personally-identifiable
   information about the visitor.  Repressive governments would
   instantly have more power to monitor naive users and prosecute them
   for their activities.  It's also implausible that a top-level domain
   would be effective in controlling access to chat, email, newsgroups,
   instant messaging, and new services as yet to be invented.

4.  Technical Difficulties

   Even ignoring the philosophical and legal difficulties outlined
   above, there are substantial technical difficulties in attempting to
   impose content classification by domain names or IP addresses.
   Mandatory content labeling is usually advanced with the idea of using
   a top level domain name, discussed in section 4.1., but we also
   discuss the possibility of using IP address bits or ranges in section
   4.2.

   In section 4.1.4., difficulties with a few particular higher level
   protocols are discussed.  In some cases, these protocols use
   different name spaces.  It should be kept in mind that additional
   future protocols may be devised with as yet undreamed of naming
   characteristics.

   We also discuss PICS labels [PICS] as an alternative technology in
   section 4.3.

   Only a limited technical background is assumed, so some basic
   information is included below.  In some cases, descriptions are
   simplified and details omitted.

   This technical discussion minimizes the definitional problems.
   However, it is still necessary for evaluating some technical
   considerations to have some estimate of the amount of categorization
   that would be necessary for a realistic global censorship system.
   There is no hope of agreement on this point.  For our purposes, we



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   will arbitrarily assume that the world's population consists of
   approximately 90,000 overlapping communities, each of which would
   have a different categorization of interest.  Further, we arbitrarily
   assume that some unspecified but clever encoding scheme enables a
   proper global categorization of all information by a 300 bit label.
   Some would say a 300 bit label is too large, others that it is too
   small.  Regardless, we will use it for some technical evaluations.

4.1.  Content Filtering Using Names

   The most prominent user visible part of Internet naming and
   addressing is the domain name system [RFC 1034, 1035].  Domain Names
   are dotted sequences of labels, such as aol.com, world.std.com,
   www.rosslynchapel.org.uk, or ftp.gnu.lcs.mit.edu [RFC 1035, 1591,
   2606].  Domain Names form an important part of most World Wide Web
   addresses or URLs [RFC 2396], commonly appearing after "//".
   Security for the domain name system is being standardized [RFC 2535],
   but has not been deployed to any significant extent.

   Domain names designate nodes in a globally distributed hierarchically
   delegated database.  A wide variety of information can be stored at
   these nodes, including IP addresses of machines on the network (see
   section 4.2. below), mail delivery information, and other types of
   information.  Thus, the data stored at foo.example.com could be the
   numeric information for sending data to a particular machine, which
   would be used if you tried to browse <http://foo.example.com>, the
   name of a computer (say mailhost.example.com) to handle mail
   addressed to anyone "@foo.example.com", and/or other information.

   There are also other naming systems in use, such as news group names
   and Internet Relay Chat (IRC) channel names.

   The usual labeling idea presented is to reserve a top level name,
   such as .sex or .xxx for "adult" material and/or .kids for "safe"
   material or the like.  The technical and linguistic problems with
   this are described in the subsections below.

4.1.1.  Linguistic Problems

   When using name labeling, the first problem is from whose language do
   you take the names to impose?  Words and acronyms can have very
   different meanings in different languages and the probability of
   confusion is multiplied when phonetic collisions are considered.

   As an example of possible problems, note that for several years the
   government of Turkmenistan suspended new registrations in ".tm",
   which had previously been a source of revenue, because some of the




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   registered second level domain names may have been problematic.  In
   particular, their web home page at <http://www.nic.tm> said:

      Statement from the .TM NIC

         "The response to the .TM registry has been overwhelming.
         Thousands of names have been registered from all over the
         world.  Some of the names registered, however, may be legally
         obscene in Turkmenistan, and as a result the .TM NIC registry
         is reviewing its naming policy for future registrations.  The
         .TM NIC has suspended registrations until a new policy can be
         implemented.  We hope to be live again shortly."

   There are approximately 6,000 languages in use in the world today,
   although this is expected to decline to around 3,000 by the year
   2100.

4.1.2.  Explosion of Top Level Domain Names (TLDs)

   An important aspect of the design of the Domain Name System (DNS) is
   the hierarchical delegation of data maintenance.  The DNS really only
   works, and has been able to scale over the five orders of magnitude
   it has grown since its initial deployment, due to this delegation.

   The first problem is that one would expect most computers or web
   sites to have a mix of material, only some of which should be
   specially classified.  Using special top level domain names (TLDs)
   multiplies the number of DNS zones the site has to worry about.  For
   example, assume the site has somehow already sorted its material into
   "kids", "normal", and "adult" piles.  Without special TLD labels, it
   can store them under kids.example.net, adult.example.net, and
   other.example.net, for instance.  This would require only the
   maintenance of the single example.net zone of database entries.  With
   special TLD labeling, at least example.net (for normal stuff),
   example.net.sex, and example.net.kids would need to be maintained,
   which are in three separate zones, in different parts of the DNS
   tree, under three separate delegations.

   As the number of categories expands, the number of category
   combinations explodes, and this quickly becomes completely
   unmanageable.  If 300 bits worth of labeling is required, the system
   could, in theory, need 2**300 name categories, an impossibility.  No
   individual site would need to use all categories and the category
   domain names would not all have to be top level names.  But it would
   still be an unmanageable nightmare.






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4.1.3.  You Can't Control What Names Point At You!

   Providers of data on the Internet cannot stop anyone from creating
   names pointing to their computer's IP address with misleading domain
   names.

   The DNS system works as a database.  It associates certain data,
   called resource records, or RRs, with domain names.  In particular,
   it can associate IP address resource records with domain names.  For
   example, when you browse a URL, most commonly a domain name within
   that URL is looked up in the DNS.  The resulting address is then used
   to address the packets sent from your web browser or other software
   to the server or peer.

   Remember what we said in Section 4.1.1. about hierarchical
   delegation?  Control is delegated and anyone controlling a DNS zone
   of data, say example.com, can insert data at that name or any deeper
   name (except to the extent that they delegate some of the deeper
   namespace to yet others).  So the controller of example.com can
   insert data so that purity.example.com has, associated with it, the
   same computer address, which is associated with
   www.obscene.example.sex.  This directs any reference to
   purity.example.com to use the associated IP address which is the same
   as the www.obscene.example.sex web site.  The manager of that
   hypothetical web site, who controls the obscene.example.xxx zone, has
   no control over the example.com DNS zone.  They are technically
   incapable of causing it to conform to any ".sex" labeling law.  In
   the alternative, someone could create a name conforming to an adult
   labeling requirement, such as foo.stuff.sex, that actually pointed to
   someone else's entirely unobjectionable site, perhaps for the purpose
   of polluting the labeling.  See diagram below.  Each "zone" could be
   hosted on a different set of physical computers.



















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            +-----------------------------------------+
            |          . (root) zone                  |
            | .com  .org  .net  .us  .uk  .sex  ...   |
            +---+---------------------------+---------+
                |                           |
                V                           V
       +--------------------+         +--------------------+
       |     .com zone      |         |     .sex zone      |
       |  example.com  ...  |         |  example.sex  ...  |
       +---------------+----+         +---------------+----+
                       |                              |
                       V                              V
      +---------------------+             +----------------------+
      |  example.com zone   |             |   example.sex zone   |
      |                     |             |                      |
      | purity.example.com -+--+      +---+- obscene.example.sex |
      | virtue.example.com  |  |      |   |     porn.example.sex |
      |      |              |  |      |   |        |             |
      +------+--------------+  |      |   +--------+-------------+
             |                 +------+------+     |
             |          +-------------+      |     |
             V          V                    V     V
         +-----------------+              +------------------+
         |  Virtuous Data  |              |  Salacious Data  |
         +-----------------+              +------------------+

4.1.4.  Particular Protocol Difficulties

   There are additional considerations related to particular protocols.
   We consider only a few here.  The first two, electronic mail and the
   World Wide Web, use domain name addressing.  The second two, net news
   and IRC, use different name spaces and illustrate further technical
   problems with name based labeling.

4.1.4.1.  Electronic Mail (SMTP)

   Standard Internet tools provide no way to stop users from putting
   arbitrary domain names inside email headers.

   The standard Internet electronic mail protocol separates "envelope"
   information from content [RFC 2821, 2822].  The envelope information
   indicates where a message claims to have originated and to whom it
   should be delivered.  The content has fields starting with labels
   like "From:" and "To:", but these content fields actually have no
   effect and can be arbitrarily forged using simple, normally available
   software, such a telnetting to the SMTP port on a mail server.
   Content fields are not compared with envelope fields.  To require
   them to be the same would be like requiring that postal letters



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   deposited in a mail box list that mail box as their return address
   and only allowing residence or business return addresses on mail
   picked up by the post office from that residence or business.

   While different mail clients display envelope information and headers
   from the content of email differently, generally the principle
   content fields are given prominence.  Thus, while not exactly the
   same as content labeling, it should be noted that it is trivial to
   send mail to anyone with arbitrary domain names in the email
   addresses appearing in the From and To headers, etc.

   It is also easy up set up a host to forward mail to an email address
   or mailing list.  Mail sent with normal mail tools to this forwarder
   will automatically have content headers reflecting the forwarder's
   name, but the forwarder will change the envelope information and
   cause the mail to be actually sent to the forwarding destination mail
   address.

   For example, (with names disguised) there is a social mailing list
   innocuous@foo.example.org, and someone set up a forwarder at
   cat-torturers@other.example.  Mail sent to the forwarder is forwarded
   and appears on the innocuous mailing list but with a "To:  cat-
   torturers@other.example" header in its body, instead of the usual
   "To: innocuous@foo.example.org" content header.  Mail reader software
   then displays the cat-torturers header.  Similar things can be done
   using the "bcc" or "blind courtesy copy" feature of Internet mail.

   There is work proceeding on securing email; however, such efforts at
   present only allow you to verify whether or not a particular entity
   was the actual author of the mail.  When providing authentication,
   they add yet a third type of "From" address to the envelope and
   content "From" addresses, but they do not relate to controlling or
   authenticating domain names in the content of the mail.

4.1.4.2.  Web Access (HTTP)

   With modern web servers and browsers supporting HTTP 1.1 [RFC 2616],
   the domain name used to access the site is available.  Thus, web
   sites with different domain names can be accessed even if they are on
   the same machine at the same IP address.  This is a small plus for
   name-based labeling since different categories of information on the
   same computer can be set up to be accessed via different domain
   names.  But for a computer with any reasonable variety of data, the
   explosion of trying to differently name all types of data would
   require an unmanageable number of names.






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   With earlier HTTP 1.0 [RFC 1945], when a web request was sent to a
   server machine, the original domain name used in the URI was not
   included.

   On the other hand, the web has automatic forwarding.  Thus, when one
   tries to access data at a particular domain name, the server there
   can re-direct your browser, temporarily or permanently, to a
   different name, or it can re-direct you to a numeric IP address so as
   to by-pass name filtering.

4.1.4.3.  News (NNTP)

   Net news [RFC 977, 2980] uses hierarchically structured newsgroup
   names that are similar in appearance to domain names, except that the
   most significant label is on the left and the least on the right, the
   opposite of domain names.  However, while the names are structured
   hierarchically, there is no central control.  Instead, news servers
   periodically connect to other news servers that have agreed to
   exchange messages with them and they update each other on messages
   only in those newsgroups in which they wish to exchange messages.

   Although hierarchical zones in the domain name system are locally
   managed, they need to be reachable starting at the top level root
   servers which are in turn more or less controlled by ICANN and the US
   Department of Commerce.  With no such central point or points in the
   net news world, any pair or larger set of news servers anywhere in
   the world can agree to exchange news messages under any news group
   names they like, including duplicates of those used elsewhere in the
   net, making central control or even influence virtually impossible.
   In fact, within some parts of the news group namespace on some
   servers, anyone can create new newsgroups with arbitrary names.

   Even if news group names could be controlled, the contents of the
   messages are determined by posters.  While some groups are moderated,
   most are not.  "Cancel" messages can be sent out for news messages,
   but that mechanism is subject to abuse, so some servers are
   configured to ignore cancels.  In any case, the message may have been
   distributed to a huge number of computers world wide before any
   cancel is sent out.

   And of course, fitting 300 bits worth of labeling into news group
   names is just as impossible as it is to fit into domain names.









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4.1.4.4.  Internet Relay Chat (IRC)

   Internet Relay Chat [RFC 2810-2813] is another example of a service
   which uses a different name space.  It uses a single level space of
   "channel names" that are meaningful within a particular network of
   IRC servers.  Because it is not hierarchical, each server must know
   about all names, which limits the size of a network of servers.

   As with newsgroup names, the fact that IRC channel names are local
   decisions, not subject to or reachable from any global "root", makes
   centralized political control virtually impossible.

4.2.  Content Filtering Using IP Addressing

   A key characteristic of the Internet Protocol (IP) on which the
   Internet is based is that it breaks data up into "packets".  These
   packets are individually handled and routed from source to
   destination.  Each packet carries a numeric address for the
   destination point to which the Internet will try to deliver the
   packet.

   (End users do not normally see these numeric addresses but instead
   deal with "domain names" as described in section 4.1. above.)

   The predominant numeric address system now in use is called IPv4, or
   Internet Protocol Version 4, which provides for 32 bit addresses [RFC
   791].  There is increasing migration to the newer IPv6 [RFC 2460],
   which provides for 128 bit addresses [RFC 2373, 2374].

   Packets can be modified maliciously in transit but the most common
   result of this is denial of service.

   One problem in using addressing for content filtering is that this is
   a very coarse technique.  IP addresses refer to network interfaces,
   which usually correspond to entire computer systems which could house
   multiple web pages, sets of files, etc., only a small part of which
   it was desired to block or enable.  Increasingly, a single IP address
   may correspond to a NAT (Network Address Translation) box [RFC 2663]
   which hides multiple computers behind it, although in that case,
   these computers are usually not servers.

   However, even beyond this problem of coarse granularity, the
   practical constraints of hierarchical routing make the allocation of
   even a single IPv4 address bit or a significant number of IPv6
   address bits impossible.






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4.2.1.  Hierarchical Routing

   IP addresses are technically inappropriate for content filtering
   because their assignment is intimately tied to network routing and
   topology.

   As packets of data flow through the Internet, decisions must be made
   as to how to forward them "towards" their destination.  This is done
   by comparing the initial bits of the packet destination address to
   entries in a "routing table" and forwarding the packets as indicated
   by the table entry with the longest prefix match.

   While the Internet is actually a mesh, if, for simplicity, we
   consider it to have a central backbone at the "top", a packet is
   typically routed as follows:

   The local networking code looks at its routing table to determine if
   the packet should be sent directly to another computer on the "local"
   network, to a router to specially forward it to another nearby
   network, or routed "up" to a "default" router to forward it to a
   higher level service provider's network.  If the packet's destination
   is "far enough away", it will eventually get forwarded up to a router
   on the backbone.  Such a router cannot send the packet "up" since it
   is at the top, or "default free" zone, and must have a complete table
   of other top level routers in which to send the packet.  Currently,
   such top level routers are very large and expensive devices.  They
   must be able to maintain tables of tens of thousands of routes.  When
   the packet gets to the top level router of the part of the network
   within which its destination lies, it gets forwarded "down" to
   successive routers which are more and more specific and local until
   eventually it gets to a router on the local network where its
   destination address lies.  This local router sends the packet
   directly to the destination computer.

   Because all of these routing decisions are made on a longest prefix
   match basis, it can be seen that IP addresses are not general names
   or labels, but are critically and intimately associated with the
   actual topology and routing structure of the network.  If they were
   assigned at random, routers would be required to remember so many
   specific routes for specific addresses that it would far exceed the
   current technical capabilities for router design.  The Internet would
   be fatally disrupted and would not work.

   It should also be noted that there is some inefficiency in allocation
   at each level of hierarchy [RFC 1715].  Generally, allocations are of
   a power of two addresses and as requirements grow and/or shrink, it
   is not practical to use every address.




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   (The above simplified description ignores multi-homing and many other
   details.)

4.2.2.  IP Version 4 Addresses

   There just isn't any practical way to reallocate even one bit of IPv4
   global Internet Addresses for content filtering use.  Such addresses
   are in short supply.  Such an allocation would, in effect, cut the
   number of available addresses in half.  There just aren't enough
   addresses, even without the inefficiency of hierarchical allocation
   [RFC 1715] and routing, to do this.  Even if there were, current
   numbers have not been allocated with this in mind so that renumbering
   by every organization with hosts on the Internet would be required, a
   Herculean task costing in the billions of dollars.

   Even if these problems were overcome, the allocation of even a single
   bit near the top of the address bits would likely double the number
   of routes in the default free zone.  This would exceed the capacity
   of current routers and require the upgrade of thousands of them to
   new routers that do not exist yet at a gargantuan cost.  The
   allocation of a bit near the bottom of the address bits would require
   world-wide local reconfiguration which would be impractical to
   require or enforce, even if the bit were available.

   And all this is if only a single bit is allocated to content
   labeling, let alone more than one.  And we are assuming you would
   actually need 300 bits, more than there are!

   Basically, the idea is a non-starter.

4.2.3.  IP Version 6 Addresses

   IPv6 provides 128 bit address fields [RFC 2373, 2374].  Furthermore,
   allocation of IPv6 addresses is in its infancy.  Thus, the allocation
   of say, one bit of IPv6 address for labeling is conceivable.

   However, as discussed above (section 4.2.1.), every high bit
   allocated for labeling doubles the cost imposed on the routing
   system.  Allocating one bit would generally double the size of
   routing tables.

   Allocating two bits would multiply them by four.  Allocating the 300
   bits we assume necessary for realistic world wide labeling is
   logically impossible for IPv6, 300 being a lot larger than 128, and
   if it were, would result in technically unachievable routing table
   sizes.  Even allocating, say, 20 bits, if that were possible, would
   impossibly multiply table sizes by a million.




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   Allocating low bits also has problems.  There are technical proposals
   that use the bottom 64 bits in a manner incompatible with their use
   for labels [RFC 2374].  So it would probably have to be "middle bits"
   (actually low bits of the upper half).  As with IPv4, it would be
   impossible to enforce this world wide.  If it were possible, one or
   two bits could be allocated there, which would be clearly inadequate.

4.3.  PICS Labels

   PICS Labels (Platform for Internet Content Selection) is a
   generalized system for providing "ratings" for Internet accessible
   material.  The PICS documents [PICS] should be consulted for details.
   In general, PICS assumes an arbitrarily large number of rating
   services and rating systems.  Each service and system is identified
   by a URL.

   It would be quite reasonable to have multiple PICS services that, in
   the aggregate, provided 300 bits of label information or more.  There
   could be a PICS service for every community of interest.  This sort
   of technology is really the only reasonable way to make
   categorizations or labelings of material available in a diverse and
   dynamic world.

   While such PICS label services could be used to distribute government
   promulgated censorship categories, for example, it is not clear how
   this is any worse than government censorship via national firewalls.

   A PICS rating system is essentially a definition of one or more
   dimensions and the numeric range of the values that can be assigned
   in each dimension to a rated object.  A service is a source of labels
   where a label includes actual ratings.  Ratings are either specific
   or generic.  A specific rating applies only to the material at a
   particular URL [RFC 2396] and does not cover anything referenced from
   it, even included image files.  A generic rating applies to the
   specified URL and to all URLs for which the stated URL is a prefix.

   A simplified example label might look like the following:

      (PICS-1.1 "http://movie-rating-service.example.net"
         labels for "ftp://movies.example.sex/raunchy-movie"
         ratings (sex 6 violence 1 language 8 drugs 2 Satanism 0))

   Machine readable rating system descriptions include the range of
   values and set of dimensions provided.  Additional information, such
   as beginning and ending time of validity, can be incorporated into
   labels.





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   Labels can currently be made available in three ways: (1) embedded in
   HTML, (2) provided with data in an HTTP response, and (3) separately
   from a third party.  If content is required to have labels embedded
   in it or transmitted by the source when data is returned, as in the
   first two ways listed above, it raises the problems of categorization
   granularity and forced speech.  However, if used in the third way
   whereby a separate party determines and provides labels for content,
   and users are free to select whatever such third party or parties
   they wish to consult, it can support a myriad of categories, editors,
   and evaluators to exist in parallel.

   Digital signatures are available to secure PICS Labels [PICS].

5.  Security Considerations

   Any labeling or categorization scheme must assume that there will be
   deliberate attempts to cause data to be incorrectly labeled and
   incorrectly categorized.  This might be due to some perceived
   advantage of particular labeling or merely to disrupt the system.
   After all, if sources would always accurately and conveniently label
   sent information, security would be much easier [RFC 3514].  Such
   enforceability considerations are discussed in conjunction with the
   various mechanisms mentioned in this document.

6.  Conclusions

   The concept that a single top level domain name, such as .sex, or a
   single IP address bit, could be allocated and become the mandatory
   home of "adult" or "offensive" material world wide is legal and
   technical nonsense.

   Global agreement on what sort of material should be in such a ghetto
   is impossible.  In the world wide context, the use of a single
   category or small number of categories is absurd.  The implementation
   of a reasonable size label that could encompass the criterion of the
   many communities of the world, such as 300 bits, is technically
   impossible at the domain name or IP address level and will remain so
   for the foreseeable future.  Besides technical impossibility, such a
   mandate would be an illegal forcing of speech in some jurisdictions,
   as well as cause severe linguistic problems for domain or other
   character string names.

   However, the concept of a plethora of independent reviewers, some of
   which might be governmental agencies, and the ability of those
   accessing information to select and utilize ratings assigned by such
   reviewers, is possible.





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7.  References

7.1. Normative References

   [PICS]         Platform for Internet Content Selection PICS 1.1
                  Rating Services and Rating Systems -- and Their
                  Machine Readable Descriptions <http://www.w3.org/TR/
                  REC-PICS-services>, October 1996.

                  PICS 1.1 Label Distribution -- Label Syntax and
                  Communication Protocols <http://www.w3.org/TR/REC-
                  PICS-labels>, October 1996.

                  PICSRules 1.1 Specification
                  <http://www.w3.org/TR/REC-PICSRules>, December 1997.

                  PICS Signed Labels (DSIG) 1.0 Specification
                  <http://www.w3.org/TR/REC-DSig-label/>, May 1998.

   [RFC 791]      Postel, J., "Internet Protocol", STD 5, RFC 791,
                  September 1981.

   [RFC 977]      Kantor, B. and P. Lapsley, "Network News Transfer
                  Protocol", RFC 977, February 1986.

   [RFC 1035]     Mockapetris, P., "Domain Names - Implementation and
                  Specifications", STD 13, RFC 1035, November 1987.

   [RFC 1591]     Postel, J., "Domain Name System Structure and
                  Delegation", RFC 1591, March 1994.

   [RFC 1945]     Berners-Lee, T., Fielding, R. and H. Frystyk,
                  "Hypertext Transfer Protocol -- HTTP/1.0", RFC 1945,
                  May 1996.

   [RFC 2373]     Hinden, R. and S. Deering, "IP Version 6 Addressing
                  Architecture", RFC 2373, July 1998.

   [RFC 2374]     Hinden, R., O'Dell, M. and S. Deering, "An IPv6
                  Aggregatable Global Unicast Address Format", RFC 2374,
                  July 1998.

   [RFC 2616]     Fielding, R., Gettys, J., Mogul, J., Frystyk, H.,
                  Masinter, L., Leach, P. and T. Berners-Lee, "Hypertext
                  Transfer Protocol -- HTTP/1.1", RFC 2616, June 1999.






Eastlake 3rd                 Informational                     [Page 18]
RFC 3675               .sex Considered Dangerous           February 2004


   [RFC 2663]     Srisuresh, P. and M. Holdrege, "IP Network Address
                  Translator (NAT) Terminology and Considerations", RFC
                  2663, August 1999.

   [RFC 2810]     Kalt, C., "Internet Relay Chat: Architecture", RFC
                  2810, April 2000.

   [RFC 2821]     Klensin, J., Ed., "Simple Mail Transfer Protocol", RFC
                  2821, April 2001.

   [RFC 2822]     Resnick, P., Ed., "Internet Message Format", RFC 2822,
                  April 2001.

   [RFC 2980]     Barber, S., "Common NNTP Extensions", RFC 2980,
                  October 2000.

7.2.  Informative References

   [BT]           "British Telecom comments to U.S. Commerce
                  Department", February 20, 1998,
                  <http://www.ntia.doc.gov/ntiahome/domainname/
                  130dftmail/BT.htm>

   [CDA]          "Reno v. American Civil Liberties Union", 117 S.Ct.
                  2329, June 26, 1997,

   [COPAREPORT]   "Final Report of the COPA Commission to the U.S.
                  Congress", October 20, 2000,
                  <http://www.copacommission.org/report/
                  newtopleveldomain.shtml>

   [GAO]          "GAO Report OGC-00-33R", July 7, 2000,
                  <http://www.gao.gov/new.items/og00033r.pdf>

   [GTLD-MOU]     "GTLD-MOU Policy Oversight committee RFC 97-02",
                  September 13, 1997,
                  <http://www.gtld-mou.org/docs/notice-97-02.html>

   [HOUSEREPORT]  "U.S. House Commerce Committee report", 105th
                  Congress, October 5, 1998.
                  <http://www.epic.org/free_speech/censorship/
                  hr3783-report.html>

   [ICM-REGISTRY] "Request for reconsideration from ICM Registry to
                  ICANN", December 15, 2000,
                  <http://www.icann.org/committees/reconsideration/
                  icm-request-16dec00.htm>




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RFC 3675               .sex Considered Dangerous           February 2004


   [LIEBERMAN]    "Testimony of Senator Joe Lieberman before Children's
                  Online Protection Act Commission", June 8, 2000,
                  <http://www.senate.gov/~lieberman/press/00/06/
                  2000608958.html>

   [RFC 1034]     Mockapetris, P., "Domain Names - Concepts and
                  Facilities", STD 13, RFC 1034, November 1987.

   [RFC 1715]     Huitema, C., "The H Ratio for Address Assignment
                  Efficiency", RFC 1715, November 1994.

   [RFC 2396]     Berners-Lee, T., Fielding, R. and L. Masinter,
                  "Uniform Resource Identifiers (URI): Generic Syntax",
                  RFC 2396, August 1998.

   [RFC 2460]     Deering, S. and R. Hinden, "Internet Protocol, Version
                  6 (IPv6) Specification", RFC 2460, December 1998.

   [RFC 2535]     Eastlake, 3rd, D., "Domain Name System Security
                  Extensions", RFC 2535, March 1999.

   [RFC 2606]     Eastlake, 3rd, D. and A. Panitz, "Reserved Top Level
                  DNS Names", BCP 32, RFC 2606, June 1999.

   [RFC 2811]     Kalt, C., "Internet Relay Chat: Channel Management",
                  RFC 2811, April 2000.

   [RFC 2812]     Kalt, C., "Internet Relay Chat: Client Protocol", RFC
                  2812, April 2000.

   [RFC 2813]     Kalt, C., "Internet Relay Chat: Server Protocol", RFC
                  2813, April 2000.

   [RFC 2854]     Connelly, D. and L. Masinter, "The 'text/html' Media
                  Type", RFC 2854, June 2000.

   [RFC 3513]     Hinden, R. and S. Deering, "Internet Protocol Version
                  6 (IPv6) Addressing Architecture", RFC 3513, April
                  2003.

   [RFC 3514]     Bellovin, S., "The Security Flag in the IPv4 Header",
                  1 April 2003.

   [WARSHAVSKY]   Congress weighs Net porn bills," CNET article,
                  February 10, 1998, <http://news.cnet.com/
                  news/0-1005-200-326435.html>





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8.  Acknowledgement

   The contribution and efforts of Declan McCullagh, who wrote
   substantially all of sections 2 and 3 of this document, are
   gratefully acknowledged.

9.  Authors' Addresses

   Donald E. Eastlake 3rd
   Motorola Laboratories
   155 Beaver Street
   Milford, MA 01757 USA

   Phone: +1-508-786-7554 (w)
          +1-508-634-2066 (h)
   EMail: dee3@torque.pothole.com



































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10.  Full Copyright Statement

   Copyright (C) The Internet Society (2004).  All Rights Reserved.

   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 assignees.

   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.

Acknowledgement

   Funding for the RFC Editor function is currently provided by the
   Internet Society.



















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  1. RFC 3675