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NETWORK Working Group                                        Erik Guttman
INTERNET-DRAFT                                           Sun Microsystems
Category: Standards Track
20 July 2001
Expires in six months


             Zeroconf Host Profile Applicability Statement
                 <draft-ietf-zeroconf-host-prof-01.txt>

Status of this Memo

   This document is an Internet-Draft and is in full conformance with
   all provisions of Section 10 of RFC2026.

   Comments on this document should be sent to the author and to the
   Zeroconf Working Group mailing list: zeroconf@merit.edu.

   Internet-Drafts are working documents of the Internet Engineering
   Task Force (IETF), its areas, and its working groups.  Note that
   other groups may also distribute working documents as Internet-
   Drafts.

   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."

   The list of current Internet-Drafts can be accessed at
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   The list of Internet-Draft Shadow Directories can be accessed at
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Copyright Notice

   Copyright (C) The Internet Society (2001).  All Rights Reserved.

Abstract

   This document specifies a set of Zero Configuration Protocols which
   combined support the Zero Configuration domain of applicability.
   This host profile supports the same upper layer feature set as
   defined in STD 3 [RFC 1123] by hosts lacking any prior configuration,
   though in a restricted domain.

1.  Introduction

   The Internet Standards Process [RFC 2026], Section 3.2, defines how
   applicability statements are standardized to associate sets of
   protocols for a particular domain of applicabiliy.  This



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   specification defines the Zero Configuration domain of applicability
   and a set of protocols which support it.

   Requirements for Internet routers [RFC 1812] and hosts [RFC 1122]
   [RFC 1123] provide guidance to vendors and users of Internet
   communication software.  They represent consensus arising from
   experience.  This document similarly associates a set of protocols
   together for a particular purpose.  In contrast to router and host
   requirements standards, the Zeroconf Host Profile does not arise out
   of experience, (though relevant experience is cited.)  Instead, this
   comprises a set of protocols which complement each other when
   implemented together.

   The goal of the Zero Configuration Networking (ZEROCONF) Working
   Group is to enable networking in the absence of configuration and
   administration. Zero configuration networking is required for
   environments where administration is impractical or impossible, such
   as in the home or small office, embedded systems' plugged together'
   as in an automobile, or to allow impromptu networks as between the
   devices of strangers on a train.

   As noted in STD 3 [RFC 1122], the current internet suite of protocols
   fall short of this goal.

      It would be ideal if a host implementation of the Internet
      protocol suite could be entirely self-configuring.  This would
      allow the whole suite to be implemented in ROM or cast into
      silicon, it would simplify diskless workstations, and it would be
      an immense boon to harried LAN administrators as well as system
      vendors.  We have not reached this ideal; in fact, we are not even
      close.

   This document describes a host profile which provides zero
   configuration operation.  Like STD 3, this document describes a set
   of protocols and makes recommendations with respect to their
   implementation.  Unlike the the mechanisms described in STD 3, we
   have limited experience with many Zeroconf protocols; some are only
   now emerging as IETF standards track specifications.  Still, we have
   extensive experience with related protocols, which provided the
   inspiration for the Zeroconf working group and Zeroconf protocols,
   specifically the AppleTalk protocol suite [4].

2.  Terminology

   Terminology specific to discussion of particular zeroconf protocols
   is introduced in the appropriate section.

   In this document, the key words "MAY", "MUST,  "MUST  NOT",
   "optional", "recommended",  "SHOULD",  and  "SHOULD  NOT",  are to be
   interpreted as described in [RFC 2119].



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3.  The Zero Configuration Domain of Applicability

   Hosts which lack any specific configuration have zero configuration.
   The zero configuration domain of applicability concerns hosts with
   zero configuration for specific functions

3.1.  Zero configuration is not all or nothing

   A host may be configured with regard to some functions and have zero
   configuration for others.  For example, a host may lack IP interface
   configuration (described in Section 4.1) but have naming
   configuration (described in Section 4.2)  In this case, zero
   configuration IP interface autoconfiguration will be used by a host
   adhering to the Zeroconf Host Profile.

3.2.  Configured vs. Zero Configuration Protocol behavior

   Zero configuration behavior in each area is well defined.  The
   specific behavior of a host when it becomes configured varies.  Each
   protocol which supports the zero configuration protocol requirements
   varies in this respect.

   IPv4 Link-local IP Interace Configuration [7] and IPv6 address
   autoconfiguration, [RFC 2461] and ZMAAP [12] are used whether an
   interface is configued or not.

   Link-local Multicast DNS [10] by default is only used when a host has
   no configured DNS server, unless specifically configure to enable
   link-local Multicast behavior.

   SLPv2 [RFC 2608] always operates in a zero configuration mode,
   transitions in behavior and reconfiguration occur automatically.
   (SLPv2 agents may also be configured manually, but that does this
   does not reduce or change their automatic functions.)

3.3.  Scalability and network configuration

   The zero configuration domain of applicability includes any IP
   network which supports multicast (though only broadcast is needed for
   IPv4 link-local interface configuration).  Some protocols described
   in this applicability statement are defined to only operate using
   link-local addressing and link-local scope multicast.  This is not an
   inherant limitation of this domain of applicability - for example,
   SLPv2 [RFC 2608] is defined to operate at admin local scope [RFC
   2365] for IPv4 and site local scope for IPv6. [RFC 3111]  In any
   case, the zero configuration domain of applicability is a network
   under a single common administration, and in some cases only a single
   network link.





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4.  Zeroconf Host Profile Requirements and Recommendations

   IP Interface Configuration and name resolution services are host
   requirements (see section 3.3.1.6 [RFC 1122], 6.1.1 [RFC 1123]).  A
   zeroconf host MUST implement these features.

   Service discovery constitutes one of the most useful features of the
   AppleTalk protocol suite [4].  The ease of user configuration from
   standard service discovery facilities has proved so important that
   this feature alone has been decisive in continuing support for
   AppleTalk in many networks.  For this reason, a zeroconf host SHOULD
   implement service discovery functions.

   Some multicast applications require the allocation of multicast
   addresses which do not conflict with other address allocations.
   Zeroconf hosts MAY implement multicast address allocation functions
   to support these applications.

   The protocols included in the Zeroconf Host Profile provide
   equivalent functions when run over IPv4 and IPv6.  Where there are
   differences, these are noted.

4.1. IP Interface Configuration

4.1.1. Zeroconf Requirements

   Hosts which support IPv4 and the Zeroconf Host Profile MUST implement
   IPv4 Link-local IP Interace Configuration. [7]

   Hosts which support IPv6 and the Zeroconf Host Profile MUST implement
   IPv6 Stateless Address Autoconfiguration. [RFC 2461] [RFC 2462]

4.1.2. Discussion

   IPv4 link-local address autoconfiguration provides an interface with
   the ability to communicate with hosts on the immediately attached
   link only.  To obtain a routable IPv4 address, some additional
   mechanism is required.

   Implementation issues likely to arise in implementing IPv4 link-local
   address autoconfiguration include potential mandatory address changes
   due to conflicts, support for more than one configuration per
   interface and complications arising from multihomed devices applying
   link-local autoconfiguration on more than one link. [7]

   IPv6 stateless address autoconfiguration provides an interface with a
   link-local address.  This address together with a routing prefix
   obtained via a router advertisement message enables the configured
   interface to communicate globally.

   There is substantial experience deploying both of these protocols.


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   [Editor: Issues and observations arising from that experience to go
   here.]

4.1.3. Comparison against Zeroconf Requirements

   The protocols recommended in section 3.1.1 fulfill all Zeroconf
   requirments (see Section 2.1 of [5]).

   [Editor: Is further detailed analysis required?]

4.2. Translation between Host name and IP Address

4.2.1. Zeroconf Requirements

   Hosts which support the Zeroconf Host Profile MUST support Multicast
   DNS. [10]  This protocol is defined to work over IPv4 and IPv6.

4.2.2. Discussion

   There has been no deployment experience with Multicast DNS to date.
   There has been extensive experience with the AppleTalk Name Bind
   Protocol (NBP) [4] and NetBIOS [RFC 1001].  [Editor: Issues and
   observations arising from experience go here.]

4.2.3. Comparison against Zeroconf Requirements

   The protocols recommended in section 3.2.1 fulfill all Zeroconf
   requirments (see Section 2.2 of [5]).

   [Editor: Is further detailed analysis required?]

4.3. IP Multicast Address Allocation

4.3.1 Zeroconf Host Profile Requirements

   Hosts which will support applications which require unique multicast
   address allocation MAY support the Zeroconf Multicast Address
   Allocation Protocol (ZMAAP) [12].

4.3.2. Discussion

   There has been no experience with ZMAAP to date.

4.3.3. Comparison against Zeroconf Requirements

   The protocols recommended in section 3.3.1 fulfill all Zeroconf
   requirments (see Section 2.3 of [5]).

   [Editor: Is further detailed analysis required?]




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4.4. Service Discovery

   SLPv2 [RFC 2608] and DNS SRV RRs [RFC 2782] conveyed over mDNS
   constitute two distinct options for service discovery for hosts
   conforming to the Zeroconf Host Profile.  The options are discussed
   below.

   This section employs the following terminology:

   service
      A particular logical function that may be invoked via some network
      protocol, such as printing or storing a file on a remote disk.

   service characteristics
      Characteristics provide a finer granularity of description to
      differentiate services beyond just the service type. For example
      if the service type is printer, the characteristics may be color,
      pages printed per second, location, etc.

   service discovery protocol
      A service discovery protocol enables clients to discover servers
      (or peers to find other peers) of a particular service. A service
      discovery protocol is an application layer protocol that relies on
      network and transport protocol layers.

   service protocol
      A service protocol is used between the client and the server after
      service discovery is complete.

   distinct service
      A service is distinct if services of the same type cannot be used
      interchangeably by clients.  Distinct services include those whose
      physical location, capabilities, state, permissions, performance
      characteristics or policy differs. A client will discern the
      difference between service instances.  For example, a client
      seeking to print can only usefully send a job to a printer the
      user has physical access to.  A client attempting to access data
      in a database can only do so if the correct database server
      (containing the data the client wishes to access) can be located.

   indistinct service
      A service is indistinct if services of the same type can be used
      interchangeably by clients.  For example, any SMTP relay, DNS
      server or IP gateway will generally provide the same function for
      a client.

4.4.1. Zeroconf Host Profile Requirements

   Hosts implementing the Zeroconf Host Profile SHOULD implement the
   Service Location Protocol, Version 2 (SLPv2) [RFC 2608] to enable
   discovery of distinct services.  SLPv2 also enables discovery of


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   indistinct services.  SLPv2 entails some modifications when
   implemented over IPv6. [RFC 3111]

   Hosts implementing the Zeroconf Host Profile SHOULD implement
   Multicast DNS [10] and support the use of DNS SRV RRs. [RFC 2782]

4.4.2. Discussion

   SLPv2 allows the use of service characteristics to distinguish
   different instances of services.  This allows a client to request
   services on the basis of attributes, and locate the service which
   fulfills the client's needs.

   DNS SRV RRs allow services to be located by name.  A client is not
   able to distinguish between different services of the same named type
   except by using a service protocol distinct from the service
   discovery protocol.

   In some cases, DNS SRV RR functionality suffices - and since support
   for mDNS is already included in the Zeroconf Host Profile (as a
   REQUIRED feature), the lightest-weight implementation may exclude
   SLPv2 support.

   The reason why one uses mDNS to issue requests for DNS SRV RRs is
   that network services may not be present.  If a host is configured to
   use a DNS server, DNS [RFC 1034] is used instead of mDNS, as
   described in [10].

   SLPv1 and SLPv2 have been deployed in networks for some time.
   [Editor: Include SLP deployment discussion here.]

   DNS SRV RRs have been used by some applications to obtain service
   locations.  These resource records have not been used in conjunction
   with mDNS so no guidance can be obtained from direct experience.
   AppleTalk Name Bind Protocol [4], however, provides a very similar
   function.  [Editor: Include NBP observations here.]

   Service discovery functionality can be considered as two
   complementary functions - client discovery and server advertising.  A
   host which functions entirely as a service or as a client would need
   to implement only those aspects of a service discovery protocol which
   it needs to conform with the Zeroconf Host Profile.  To be specific,
   a host offered network services but never needed to discover them
   could implement only SLPv2 Service Agent [12] or mDNS server [10]
   functions.  A host which functioned as a client but never offered
   services would only implement SLPv2 User Agent or mDNS enhanced
   resolver functions.






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4.4.3. Comparison against Zeroconf Requirements

   The protocols recommended in section 3.4.1 fulfill all Zeroconf
   requirments (see Section 2.4 of [5]).

   [Editor: Is further detailed analysis required?]

5. Requirement Levels

   As required by [RFC 2026], Section 3.3, each technical specification
   which is cited must be associated with a requirement level.


FEATURE                         |SECTION|REQUIRED|RECOMMENDED|ELECTIVE|
--------------------------------|-------|--------|-----------|--------|
IP Interface Configuration      |3.1    |    X   |           |        |
Translation between Host Name   |3.2    |    X   |           |        |
   and IP Address               |       |        |           |        |
IP Multicast Address Allocation |3.3    |        |           |    X   |
Service Discovery -             |3.4    |        |     X     |        |
--------------------------------|-------|--------|-----------|--------|

6.  Security Considerations

   Security considerations of Zeroconf protocols is discussed in [5].
   Hosts conforming to the Zeroconf Host Profile MUST support the
   security features present in the protocols included in this profile
   which they implement.



   References


   [RFC 1812] Baker, F. (Editor), "Requirements for IP Version 4
        Routers", RFC 1812, June 1995.

   [RFC 1122] Braden, R. (Editor), "Requirements for Internet Hosts --
        Communication Layers", STD 3, RFC 1122, October 1989.

   [RFC 1123] Braden, R. (Editor), "Requirements for Internet Hosts --
        Application and Support", STD 3, RFC 1123, October 1989.

   [4] Sidhu, G., et. al., "Inside AppleTalk", Second Edition, Apple
        Computer, Inc, Addison-Wesley, ISBN 0-201-55021-0, 1990.

   [5]  Hattig, M., "Zeroconf Requirements", draft-ietf-zeroconf-reqts-
        08.txt, May 2001.  Work in progress.

   [RFC 2119]  Bradner, S., "Key words for use in RFCs to Indicate
        Requirement Levels", BCP 14, RFC 2119, March 1997.


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   [7] Cheshire, S., "Dynamic Configuration of IPv4 link-local
        addresses", draft-ietf-zeroconf-ipv4-linklocal-04.txt  Work in
        progress.

   [RFC 2461] Narten, T., Nordmark, E., Simpson, W., "Neighbor Discovery
        for IP Version 6 (IPv6)", RFC 2461, December 1998.

   [RFC 2462] Thomson, S., Narten, T., "IPv6 Stateless Address
        Autoconfiguration", RFC 2462, December 1998.

   [10] Ebisov, L., Aboba, B., Thaler, D., "Multicast DNS", draft-ietf-
        dnsext-mdns-02.txt.  Work in progress.

   [RFC 1001] Auerbach, K., Aggarwal, A., (editors), "PROTOCOL STANDARD
        FOR A NetBIOS SERVICE ON A TCP/UDP TRANSPORT: CONCEPTS AND
        METHODS", RFC 1001, March 1987.

   [12] Catrina, O. (Editor), Thaler, D., Aboba, B., Guttman, E.,
        "Zeroconf Multicast Address Allocation Protocol (ZMAAP)",
        draft-ietf-zeroconf-zmaap-01.txt.  Work in Progress.

   [RFC 2608] Guttman, E., Perkins, C., Veizades, J., Day, M., "Service
        Location Protocol, Version 2", RFC 2608, July 1999.

   [RFC 3111] Guttman, E., "Service Location Protocol Modifications for
        IPv6", RFC 3111, May 2001.

   [RFC 2782] Gulbrandsen, A., Vixie, P., Ebisov, L., "A DNS RR for
        specifying the location of services (DNS SRV)", RFC 2782,
        February 2000.

   [RFC 1034] Mockapetris, P., "DOMAIN NAMES - CONCEPTS AND FACILITIES",
        RFC 1034, November 1987.

Authors' Addresses

   Erik Guttman Sun Microsystems Eichhoelzelstr. 7 74915 Waibstadt
   Germany

   Phone: +49 172 865 5497 Email: erik.guttman@sun.com

Full Copyright Statement

   Copyright (C) The Internet Society (2001).  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


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   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
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   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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