rfc3082









Network Working Group                                           J. Kempf
Request for Comments: 3082                                J. Goldschmidt
Category: Experimental                                  Sun Microsystems
                                                              March 2001


                 Notification and Subscription for SLP

Status of this Memo

   This memo defines an Experimental Protocol for the Internet
   community.  It does not specify an Internet standard of any kind.
   Discussion and suggestions for improvement are requested.
   Distribution of this memo is unlimited.

Copyright Notice

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

Abstract

   The Service Location Protocol (SLP) provides mechanisms whereby
   service agent clients can advertise and user agent clients can query
   for services.  The design is very much demand-driven, so that user
   agents only obtain service information when they specifically ask for
   it.  There exists another class of user agent applications, however,
   that requires notification when a new service appears or disappears.
   In the RFC 2608 design, these applications are forced to poll the
   network to catch changes.  In this document, we describe a protocol
   for allowing such clients to be notified when a change occurs,
   removing the need for polling.

1. Introduction

   The Service Location Protocol (SLP) [1] provides a mechanism for
   service agent (SA) clients to advertise network services and for user
   agent (UA) clients to find them.  The mechanism is demand-driven.
   UAs obtain service information by actively querying for it, and do
   not obtain any information unless they do so.  While this design
   satisfies the requirements for most applications, there are some
   applications that require more timely information about the
   appearance or disappearance in the services of interest.

   Ideally, these applications would like to be notified when a new
   service comes up or when a service disappears.  In order to obtain
   this information with SLP as described in RFC 2608, such applications
   must poll the network to periodically refresh their local cache of
   available service advertisements.



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   An example of such a client is a desktop GUI that wants to display
   network service icons as soon as they appear to provide users with an
   accurate picture of all services available to them.

   Because polling is inefficient and wasteful of network and processor
   resources, we would like to provide these applications a mechanism
   whereby they can be explicitly notified of changes.  In this
   document, we describe a scalable mechanism allowing UAs to be
   notified of changes in service availability.

2. Notation Conventions

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
   document are to be interpreted as described in RFC 2119 [2].

3. Terminology

   In this section, we present some additional terminology beyond that
   in [1] and [3].

   Notification - A message sent to an interested agent informing that
                  agent that a service has appeared or disappeared.

   Subscription - A request to be informed about changes in service
                  availability for a particular service type and scopes.

4. Design Considerations

   The primary design consideration in a notification protocol for SLP
   is that we would like it to exhibit the same high degree of
   scalability and robustness that the base SLP protocol exhibits.
   Notification should work in small networks with only a few SAs, as
   well as large enterprise networks with thousands of SAs and hundreds
   of DAs.  Small networks should not be required to deploy DAs in order
   to receive the benefits of notification.  We also want to assure that
   notification in large networks does not cause heavy processing loads
   to fall on any one particular SLP agent.  This requires that the task
   of notification be distributed rather than centralized, to avoid
   loading down one agent with doing all the notification work.
   Finally, we would like the notification scheme to be robust in the
   face of DA failures, just as the base SLP design is.

   An important consideration is that the UA clients obtain
   notifications of SA events in a timely fashion.  If a UA has
   subscribed to notification for a particular service type, the UA
   should receive such notification regardless of the state of
   intervening DAs.  SLP is transparent with respect to DAs supporting a



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   particular scope; that is, a UA can use any DA with a particular
   scope and expect to get the same service advertisements.
   Notifications should exhibit the same property.  Whether or not a UA
   receives a notification should not depend on the DA to which they
   happen to connect. This preserves the DAs' identity as a pure cache.

   Another goal is that the notification messages contain enough
   information about the triggering event that the UA can determine
   whether or not it is of interest in the large majority of cases
   without having to issue another SLP request a priori.  The UA may, of
   course, issue an SLP request for related reasons, but it should not
   have to issue a request to obtain more information on the event that
   triggered the notification in most cases.  This reduces the amount of
   network traffic related to the event.

   In order to simplify implementation, we would like to use similar
   mechanisms for notification in large and small networks.  The
   mechanisms are not identical, obviously, but we want to avoid having
   radically different mechanisms that require completely separate
   implementations.  Having similar mechanisms reduces the amount of
   code in UA and SA clients.

   A minor goal is to make use of existing SLP message types and
   mechanisms wherever possible.  This reduces the amount of code
   necessary to implement the notification mechanism, because much code
   can be reused between the base SLP and the notification mechanism.
   In particular, we expect to make use of the SLP extension mechanism
   in certain cases to support subscription.

5. Notification Design Description

   In order to support scalability, we split the design into two parts.
   A small network design is used when no DAs are present in the
   network.  A large network design is used in networks with DAs.  The
   following subsections describe the two designs.

5.1 Small Network Design

   In networks without DAs, UAs are notified by an SA when the SA
   initially appears, and when the SA disappears.  This allows UAs to
   know about the list of service types the SA supports.  In small
   networks, there is no centralized agent available to administer
   subscriptions for newly appearing SAs.  This rules out any kind of
   subscription design in which a UA subscribes to notifications for a
   particular service type in particular scopes of interest, because a
   newly appearing SA can't tell whether or not there are any
   subscriptions without a centralizing agent to tell it.




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   As a result, SAs perform notification when they come on line and
   prior to shutting down regardless of their scope or service type, if
   they are capable of performing notification.  This means that a UA
   receives notification of all types of changes for all scopes and
   service types, and consequently must be prepared to filter out those
   changes in which it is not interested (other scopes, other service
   types).

   The design requires SAs to perform notification by IP multicasting
   (or broadcasting in IPv4 if multicast is not available) SLP SrvReg or
   SrvDereg messages using the multicast transmit algorithm described in
   Section 9.0.  The port number for notifications is not the default
   SLP port, because that port is only accessible to privileged users on
   some operating systems, but rather the port 1847, as assigned by
   IANA.

   In IPv4, the SA performs multicast on the SLP multicast address
   (239.255.255.253, default TTL 255) and is administratively scoped in
   the same manner as SLP [4].  IPv4 UAs interested in notification join
   the multicast group 239.255.255.253 and listen on port 1847.  In
   IPv6, the multicast is performed to the scoped IPv6 addresses for the
   service type advertised, as described in [8].  The SA advertises on
   all addresses up to and including the largest multicast scope that it
   supports.  IPv6 UAs interested in notification join the multicast
   groups corresponding to the multicast scopes and service type in
   which they are interested and listen on port 1847.  For example, an
   IPv6 UA that has access to site local scope and is interested in a
   service type whose hash is 42, calculated according to the algorithm
   in [8], joins the groups FF01:0:0:0:0:0:10042 through
   FF05:0:0:0:0:0:10042.

5.2 Large Network Design

   In networks with DAs, a DA supporting a particular scope can act as
   an intermediary for administering UA subscriptions.  A subscription
   consists of a service type and a collection of scopes.  A UA
   interested in being notified about changes in a particular service
   type attaches the Subscribe extension to a SrvRqst message sent to
   the DA.  The DA obtains multicast group addresses for notification
   based on the algorithm described in Section 8.0 and puts them into a
   NotifyAt extension which it attaches to the SrvRply.  The UA listens
   on the group addresses in the reply for notifications.

   When a new subscription comes in, existing SAs are informed about the
   subscription using the following procedure.  The DA compares the
   service type and scopes in the new subscription against a list of
   existing subscriptions.  If no previous subscription has the same
   service type and scopes, the DA MUST multicast a DAAdvert, using the



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   multicast transmit algorithm described in Section 9.0, and MUST
   include the NotifyAt extension with the multicast group addresses for
   notification.  If an existing subscription covers the same service
   type and scopes as the new subscription, the DA MUST NOT multicast a
   DAAdvert.

   A DA MUST keep track of subscriptions it has arranged as well as
   subscriptions arranged by other DAs in any scopes with which the DA
   is configured.  To avoid multiple multicast NotifyAt messages, a DA
   MUST wait a random amount of time, uniformly distributed between 0
   and 3 seconds before sending the multicast DAAdvert with NotifyAt.
   During this period, the DA MUST listen for NotifyAt messages that
   match the one from the new subscription.  If a matching NotifyAt is
   detected, the DA MUST not multicast.

   When a new SA registers with a DA that has existing subscriptions,
   the new SA is informed of notifications it should perform using the
   following procedure.  If the service type and scopes in the new SA's
   SrvReg messages match an existing subscription, a NotifyAt containing
   the multicast addresses for notification MUST be included in the
   SrvAck.  If the SA doesn't support notification, it simply ignores
   the extension.  If the service type and scopes in the new SA's SrvReg
   do not match any existing subscriptions, the DA MUST NOT include a
   NotifyAt.

   The DA itself MUST also perform notification, according to the
   multicast transmit algorithm, when a service advertisement times out.
   Time-out of a service advertisement results in the DA multicasting a
   SrvDereg for the deregistered URL.  This allows interested UAs to be
   informed of the service advertisement's demise even if the SA has
   disappeared without deregistering.  A DA MUST NOT perform
   notification when it receives a SrvReg from an SA, however, that is
   the job of the SA.

   As in small networks, notification is performed primarily by SAs.  If
   an SA receives a DAAdvert or SrvAck with a NotifyAt extension and the
   following conditions are met:

           1. The SA supports notification.

           2. The SA's service type matches the service type in the
              NotifyAt extension.

           3. The SA's scopes match one of the scopes of the NotifyAt
              extension.






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   then the SA saves the multicast addresses that correspond to the
   scopes and service types it supports.  The SA MUST perform
   notification immediately after the SA has performed the SrvReg or
   SrvDereg with the DA.  An SA that has detected a DA in its scopes
   MUST NOT multicast any notifications unless it receives a NotifyAt
   extension in a SrvAck with service type and scopes matching the SA's
   service type and scopes.

6. Subscribe Extension

   The Subscribe extension has the following format:

     0                   1                   2                   3
     0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |    Extension Type = 0x0004    |        Extension Length       |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | Ex. Len. (ct) | Abs. Type Fl. |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   The scope list and service type of the extension are taken from the
   accompanying SrvRqst.  The abstract type flag indicates whether the
   UA is interested in hearing from all SAs advertising concrete
   instances of an abstract type [3], and is only of interest if the
   service type in the SrvRqst is a concrete type.  If the flag is 1,
   the UA is interested in hearing from all SAs advertising concrete
   types having the same abstract type as the type of the SrvRqst.  If
   the flag is 0, the UA is only interested in hearing from SAs
   supporting the particular concrete type in the SrvRqst.  If the
   service type in the accompanying SrvRqst is not a concrete type, the
   flag is ignored.

7. NotifyAt Extension

     0                   1                   2                   3
     0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |    Extension Type = 0x0005    |        Extension Length       |
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    | Ext. Len (ct) |  Subscription Lifetime        |SGL List Len.  \
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |SGL L. Len (ct)|       Scope/Group List                        \
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
    |  Length of Service Type Name  |        Service Type Name      \
    +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+






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   The service type name is in the same format as in the SrvRqst.  The
   scope/group list is a list of scope names and multicast group
   addresses.  The following ABNF [5] syntax describes the list:

        sglist          = sgitem / sgitem "," sglist
        sgitem          = scope-name ":" ip-addr
        ip-addr         = ipv4-number | ipv6-number
        scope-name      =  ; See RFC 2608 for the format of scope names.
        ipv4-number     =  1*3DIGIT 3("." 1*3DIGIT)
        ipv6-number     = ;See RFC 2373 [9] Section 2.2

   An example of a scope/group list for IPv4 is:

        eng:239.255.255.42,corp:239.255.255.43

   An example of a scope/group listfor IPv6 is:

        eng:FF02:0:0:0:0:0:1:1042,corp:FF03:0:0:0:0:0:1:1042

   The scope/group list gives the multicast addresses to use for
   notifications involving the service type for the given scopes.

   The service type name can be a simple type name, an abstract type
   name, or a concrete type name.  If the name is an abstract type name,
   all SAs advertising the abstract type MUST notify.  If the name is a
   concrete or simple type name, ONLY those SAs advertising the simple
   or concrete type MUST notify, others MUST NOT notify.  A DA that
   receives a subscription for a concrete type with the abstract type
   flag set, MUST include the abstract type name in all the NotifyAt
   messages it sends.  If the DA receives a subscription for a concrete
   type with the abstract type flag not set, the DA MUST NOT include the
   abstract type, but rather MUST include the concrete type name.

   There are three cases in which an agent may receive a NotifyAt
   extension: in a SrvRply returned to a UA, in a multicast DAAdvert,
   and in a SrvAck returned to an SA.  The three subsections below
   describe the response in each of these cases.

7.1 NotifyAt received with SrvRply

   When a UA sends a SrvRqst with a Subscribe extension, the DA responds
   with a SrvRply including a NotifyAt.  The DA MUST NOT unicast a
   NotifyAt to a UA with any other message and MUST NOT send a NotifyAt
   unless a SrvRqst with a Subscribe extension was received.

   The UA responds by setting up a multicast listener to the group
   addresses included in the extension on the SLP notification port
   1847.  The UA MAY also want to note the expiration lifetime of the



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   subscription assigned by the DA, and reissue a  subscription before
   the lifetime expires.

7.2 NotifyAt received with Multicast DAAdvert

   The DA multicasts a NotifyAt with a DAAdvert using the multicast
   transmit algorithm when a UA has requested notification and the
   scopes and service type in the subscription were not previously seen.
   This message informs existing SAs having the service type and scopes
   in the announcement that they should multicast notifications when
   they shut down.

   A receiving SA participating in notification responds by noting the
   multicast address if the service type and scopes match.  When the SA
   is about to go down, the SA MUST first unicast a SrvDereg without
   attribute tag list to its DAs (as per standard SLP), then it MUST
   multicast the same SrvDereg message according to the multicast
   transmit algorithm.  The SA MUST cease performing notification when
   the subscription lifetime expires, unless a subsequent NotifyAt is
   received prolonging the subscription.

   A UA that is performing passive DA detection will naturally also
   receive the extension, but the UA SHOULD ignore the extension.

7.3 NotifyAt received with SrvAck

   An SA can receive a NotifyAt with a SrvAck when it first comes up and
   registers itself with a DA.  If the DA has any subscriptions from UAs
   for the service type and scopes represented by the SA, it MUST return
   a NotifyAt with the SrvAck.

   The SA upon receiving the NotifyAt immediately multicasts the same
   SrvReg it sent to the DA, according to the multicast transmit
   algorithm.  The SA MUST only perform the multicast algorithm once,
   even if it registers with more than one DA and receives the NotifyAt
   in reply from more than one.  Prior to its demise and after
   deregistering with a DA, the SA MUST notify with the same SrvDereg,
   as described in Section 7.2.

8. Multicast Address Allocation

   Enterprise networks that allow SLP notification SHOULD deploy the
   Multicast Address Allocation Architecture (MAAA) including
   administratively scoped multicast and Multicast Address Dynamic
   Client Allocation Protocol (MADCAP) [6].

   If it is not possible to obtain a multicast address for use in SLP
   notifications, the SLP multicast address is used.



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   If the MAAA infrastructure is deployed, DAs and SAs obtain their
   scope configuration from MADCAP, because the SLP scopes are the same
   as the MADCAP scopes.  Each SLP scope MUST correspond to a multicast
   scope name, in the sense of [6].  In such a case, a DA allocates,
   using MADCAP, a new multicast group address for each new service
   type/scope pair to which a UA subscribes.  The allocation is made by
   MADCAP from the multicast address range for the scope.  In this way,
   only those UAs interested in the service type and scopes in the
   subscription receive the multicast notification.  The DA sets up the
   lease on the multicast address to correspond with the duration of the
   subscription.  If the MADCAP server runs out of addresses, the SLP
   multicast group is used as a last resort.

   For example, if the multicast scope has an address range of 239.1.0.0
   through 239.1.255.255, the notification group address for service
   type X in scope A could be 239.1.0.42 and for service type Y in scope
   B could be 239.1.42.42.

9. Multicast Transmit Algorithm

   The DA and SAs use a multicast transmit algorithm similar to that
   used for discovering services in SLP, described in RFC 2608 [1],
   except the agent performing the notification doesn't wait for
   replies.  The agent performing the notification transmits a
   notification message repeatedly over a period of 15 seconds, backing
   off exponentially on the duration of the time interval between the
   multicasts.  The rationale for this algorithm is to limit the
   duration and scope of the multicast announcement while still
   repeating the announcement enough times to increase the probability
   that one message gets through.

   For an SA, a notification message is either a SrvReg or a SrvDereg
   message, depending on whether the SA is registering a new service or
   deregistering a service.  When a new service is registered, the
   SrvReg message MUST have the fresh bit set in the SLP header.  The
   entire list of attributes for the service SHOULD be included.  The
   SrvDereg message MUST NOT include an attribute tag list.
   Notifications MUST NOT be transmitted at any other time, to minimize
   multicast traffic.

   Since a SrvReg could contain attribute lists of arbitrary length, the
   message could potentially overflow the packet MTU for UDP.  If an
   attribute list causes a packet MTU overflow, the SA MUST set the
   overflow bit in the SLP header.  The attribute list in the
   notification message MUST be formatted so that a UA can use the
   attributes even if an overflow occurs.  If a UA needs more attributes
   than are transmitted in the notification message, it can contact the
   SA (if no DA is present) or the DA for the attributes it needs.



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   A DA multicasts a DAAdvert when a subscription comes in containing a
   service type and scopes that do not match any on the DA's list of
   known subscriptions.  The same algorithm MUST be used.  If the
   combination of the DA attributes and the NotifyAt message cause the
   DAAdvert to overflow a UDP packet, DA attributes MUST be truncated to
   allow the NotifyAt to fit and the overflow bit MUST be set in the
   header.  An SA knows that the purpose of the message is to inform it
   of a new subscription rather than for passive advertisement, because
   of the extension, and it can therefore ignore the DA attribute list
   field if the overflow bit is set in the header.  A DA also transmits
   a SrvDereg message when a service advertisement is deregistered due
   to timeout, following the same rules as for an SA.

10.0 DA Disappearance

   Robustness to DA failure is an important goal of the design.  When a
   DA disappears due to unforeseen circumstances, subscription
   information from UAs is lost.  UAs continue to get notifications from
   existing SAs.  However, new SAs will not be informed of the
   subscription unless other DAs also have the subscription information.
   Because a UA may not discover a new DA until it tries to perform an
   active request, the UA could potentially miss the appearance of new
   services.  For this reason, UAs that are concerned about receiving
   notification of absolutely every service that appears SHOULD issue
   subscriptions to every newly discovered DA that supports the scopes
   it supports.  Similarly, if a DA disappears through controlled
   shutdown, a UA performing passive discovery can detect the shutdown
   and reissue the subscription to an alternate DA.

   On the SA side, when a DA goes down, existing SAs continue to notify
   until the subscription expires.  Before ceasing to notify, an SA MUST
   determine whether the DA is still active and, if not, verify with
   another DA whether the subscription has been extended.  If no other
   DA is available, the SA MUST ignore the subscription expiration time
   and continue notifying until a new DA is discovered.  When a new DA
   is discovered the SA must send a new SrvReg to the DA, according to
   RFC 2608 [1].  The replying SrvAck contains a NotifyAt extension if
   the UA has renewed its subscription with the DA.  If the SrvAck does
   not contain a NotifyAt message the SA MUST continue to notify until
   the subscription expires.  If a UA is interested in continuing the
   notification, it renews the subscription with the new DA prior to the
   expiration  of the old one, and so the SA is informed to continue
   notifying.








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   Note that this procedure still does not inform SAs that come up
   between the time a newly booted DA comes up and the time the UA has
   renewed its subscription with the newly booted DA.  If this situation
   is of concern, multiple DAs can be used to assure that all
   subscriptions are covered when a DA goes down.

11.  Network Administration Considerations

   In SLP networks with DAs as described in RFC 2608, the only multicast
   is the SrvRqst for DAAdverts performed during active DA discovery,
   and unsolicited DAAdverts sent periodically by the DA for passive
   discovery.  There is no multicast involved in UA queries or SA
   registrations.  This allows network administrators to set up DAs for
   a particular collection of IP subnets and confine all service
   discovery traffic to unicast between the SA and UA clients and the
   DA.  Administratively scoped multicast can additionally be used to
   limit the extent of active DA discovery and passive DA advertising.
   The amount of multicast involved is not high and DHCP DA and scope
   configuration can be used to limit which DAs a particular UA or SA
   client sees, or to inhibit multicast entirely so that UAs and SAs
   only use configured DAs.

   With notification, however, multicast traffic involving events in SAs
   becomes available.  Because DAs request multicast addresses based on
   scope and service type, the multicast associated with particular
   events should only propagate to those subnets in which UAs and SAs of
   the same scope are interacting.  Routers should be configured with
   administrative multicast scoping to limit multicast.  If DAs are not
   deployed (or the MAAA is not deployed), however, the amount of
   multicast on the SLP multicast address when notifications are being
   used could quickly become very large.  Therefore, it is crucial that
   DAs supporting notification be deployed in large networks where UA
   clients are interested in notification.

12. Security Considerations

   The SrvReg and SrvDereg messages contain authentication blocks for
   all SLP SPIs supported by the DAs with which the SA registers.  Since
   these SPIs are necessarily the same as those that UAs can verify, a
   UA receiving a multicast notification is in a position to verify the
   notification.  It does so by selecting the authentication block or
   blocks that it can verify.  If authentication fails, either due to
   lack of an authentication block, or lack of the proper SPI, the UA
   simply discards the notification.  In a network without DAs, the SPIs
   of the UA and SA must also match.






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13. IANA Considerations

   The SLP Notification services use the IANA-assigned port number of
   1847.  The SLP extension identifiers assigned by IANA are 0x0004 for
   Subscribe and 0x0005 for NotifyAt.

14. Acknowledgements

   The authors would like to thank Charles Perkins, of Nokia, and Erik
   Guttman and Jonathan Wood, of Sun Microsystems, for their stimulating
   discussion and suggestions during the initial phases of the
   subscription/notification design.  We would also like to thank Erik
   for his intense scrutiny of the specification during the later
   phases.  His comments were instrumental in refining the design.
   Shivaun Albright, of HP, motivated simplification of the protocol to
   focus on initial registration and deregistration only.  Vaishali
   Mithbaokar implemented the simplified protocol.

15. References

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

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

   [3] Guttman, E., Perkins, C. and J. Kempf, "Service Templates and
       service: Schemes", RFC 2609, July 1999.

   [4] Meyer, D., "Administratively Scoped IP Multicast", RFC 2365, July
       1998.

   [5] Crocker, D. and P. Overell, "Augmented BNF for Syntax
       Specifications: ABNF", RFC 2234, November 1997.

   [6] Hanna, S., Patel,B. and M. Shah, "Multicast Address Dynamic
       Client Allocation Protocol (MADCAP)", RFC 2730, December 1999.

   [7] http://www.isi.edu/in-notes/iana/assignments/multicast-addresses

   [8] Guttman, E., "Service Location Protocol Modifications for IPv6",
       Work in Progress.

   [9] Hinden, R. and S. Deering, "IP Version 6 Addressing
       Architecture", RFC 2375, July 1997.






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16. Author's Addresses

   James Kempf
   Sun Microsystems
   UMPK15-214
   901 San Antonio Rd.
   Palo Alto, CA 94040
   USA

   Phone:    +1 650 786 5890
   EMail:    james.kempf@sun.com


   Jason Goldschmidt
   Sun Microsystems
   UMPK17-202
   901 San Antonio Rd.
   Palo Alto, CA 94040
   USA

   Phone: +1 650 786 3502
   EMail: jason.goldschmidt@sun.com





























Kempf & Goldschmidt           Experimental                     [Page 13]

RFC 3082         Notification and Subscription for SLP        March 2001


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
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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
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   followed, or as required to translate it into languages other than
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   The limited permissions granted above are perpetual and will not be
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   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
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Acknowledgement

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



















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ERRATA