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IETF LDAPEXT Working Group Christopher Lukas [Editor]
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INTERNET-DRAFT Internet Scout Project
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Tim Howes
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Netscape Communications Corp.
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Michael Roszkowski
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Internet Scout Project
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Mark C. Smith
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Netscape Communications Corp.
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Mark Wahl
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Critial Angle, Inc.
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June 1999
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Named Referrals in LDAP Directories
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<draft-ietf-ldapext-namedref-00.txt>
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1. Status of this Memo
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This document is an Internet-Draft and is in full conformance with all
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provisions of Section 10 of RFC2026.
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Internet-Drafts are working documents of the Internet Engineering Task
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Force (IETF), its areas, and its working groups. Note that other groups
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may also distribute working documents as Internet-Drafts.
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Internet-Drafts are draft documents valid for a maximum of six months
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and may be updated, replaced, or obsoleted by other documents at any
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time. It is inappropriate to use Internet- Drafts as reference material
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or to cite them other than as "work in progress."
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The list of current Internet-Drafts can be accessed at
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http://www.ietf.org/ietf/1id-abstracts.txt
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The list of Internet-Draft Shadow Directories can be accessed at
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http://www.ietf.org/shadow.html.
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Distribution of this document is unlimited. Please send comments to the
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authors or the LDAPEXT mailing list, ietf-ldapext@netscape.com.
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Copyright Notice: Copyright (C) The Internet Society (1999). All Rights
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Reserved.
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This draft is a revision of a draft formerly published as draft-ietf-
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ldapext-referral-00.txt.
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This draft expires December 6, 1999.
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Howes, et al. IETF LDAPEXT Working Group [Page 1]
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INTERNET-DRAFT LDAPv3 Named Referrals March 1999
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2. Abstract
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This document defines a "ref" attribute and associated "referral" object
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class for representing generic knowledge information in LDAP directories
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[RFC2251]. The attribute uses URIs [RFC1738] to represent knowledge,
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enabling LDAP and non-LDAP services alike to be referenced. The object
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class can be used to construct entries in an LDAP directory containing
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references to other directories or services. This document also defines
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procedures directory servers should follow when supporting these schema
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elements and when responding to requests for which the directory server
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does not contain the requested object but may contain some knowledge of
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the location of the requested object.
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3. Background and intended usage
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The broadening of interest in LDAP directories beyond their use as front
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ends to X.500 directories has created a need to represent knowledge
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information in a more general way. Knowledge information is information
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about one or more servers maintained in another server, used to link
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servers and services together.
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This document defines a general method of representing knowledge infor-
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mation in LDAP directories, based on URIs.
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The key words "MUST", "SHOULD", and "MAY" used in this document are to
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be interpreted as described in [RFC2119].
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4. The ref attribute type
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This section defines the ref attribute type for holding general
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knowledge reference information.
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( 2.16.840.1.113730.3.1.34 NAME 'ref' DESC 'URL reference'
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EQUALITY caseExactIA5Match SYNTAX 1.3.6.1.4.1.1466.115.121.1.26
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USAGE distributedOperation )
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The ref attribute type has IA5 syntax and is case sensitive. The ref
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attribute is multivalued. Values placed in the attribute MUST conform to
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the specification given for the labeledURI attribute defined in
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[RFC2079]. The labeledURI specification defines a format that is a URI,
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optionally followed by whitespace and a label. This document does not
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make use of the label portion of the syntax. Future documents MAY enable
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new functionality by imposing additional structure on the label portion
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of the syntax as it appears in the ref attribute.
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If the URI contained in the ref attribute refers to an LDAPv3 server, it
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must be in the LDAP URI format described in [RFC2255].
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Howes, et al. IETF LDAPEXT Working Group [Page 2]
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INTERNET-DRAFT LDAPv3 Named Referrals March 1999
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When returning a referral result, the server must not return the label
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portion of the labeledURI as part of the referral. Only the URI portion
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of the ref attribute should be returned.
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5. Use of the ref attribute
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One usage of the ref attribute is defined in this document. Other uses
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of the ref attribute MAY be defined in subsequent documents, or by bila-
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teral agreement between cooperating clients and servers.
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Except when the manageDsaIT control (documented in section 8 of this
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document) is present in the operation request, the ref attribute is not
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visible to clients, except as its value is returned in referrals or con-
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tinuation references.
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If the manageDsaIT control is not set, and the entry named in a request
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contains the ref attribute, and the entry is not the root DSE, the
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server returns an LDAPResult with the resultCode field set to "referral"
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and the referral field set to contain the value(s) of the ref attribute
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minus any optional trailing whitespace and labels that might be present.
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If the manageDsaIT control is not set, and an entry containing the ref
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attribute is in the scope of a one level or subtree search request, the
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server returns a SearchResultReference for each such entry containing
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the value(s) of the entry's ref attribute.
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When the manageDsaIT control is present in a request, the server will
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treat an entry containing the ref attribute as an ordinary entry, and
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the ref attribute as an ordinary attribute, and the server will not
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return referrals or continuation references corresponding to ref attri-
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butes.
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The following sections detail these usages of the ref attribute.
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5.1. Named reference
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This use of the ref attribute is to facilitate distributed name resolu-
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tion or search across multiple servers. The ref attribute appears in an
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entry named in the referencing server. The value of the ref attribute
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points to the corresponding entry maintained in the referenced server.
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While the distinguished name in a value of the ref attribute is typi-
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cally that of an entry in a naming context below the naming context held
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by the referencing server, it is permitted to be the distinguished name
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of any entry. If the ref attribute is multi-valued all the DNs in the
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values of the ref attribute SHOULD have the same value. It is the
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responsibility of clients to not loop repeatedly if a naming loop is
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present in the directory. Administrators SHOULD avoid configuring
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Howes, et al. IETF LDAPEXT Working Group [Page 3]
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INTERNET-DRAFT LDAPv3 Named Referrals March 1999
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naming loops using referrals.
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Clients SHOULD perform at least simple "depth-of-referral count" loop
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detection by incrementing a counter each time a new set of referrals is
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received. Clients MAY perform more sophisticated loop detection, for
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example not chasing the same URI twice.
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If an entry containing the ref attribute is immediately subordinate to
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the base object named in a one level search request, then the referring
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server MUST include a scope of "base" in any LDAP URIs returned in the
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corresponding SearchResultReference.
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5.1.1. Scenarios
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The following sections contain specifications of how the ref attribute
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should be used in different scenarios followed by examples that illus-
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trate that usage. The scenarios described consist of referral operation
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when finding a base or target object, referral operation when performing
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a one level search, and referral operation when performing a subtree
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search.
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It is to be noted that, in this document, a search operation is concep-
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tually divided into two distinct, sequential phases: (1) finding the
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base object where the search is to begin, and (2) performing the search
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itself. The operation of the server with respect to referrals in phase
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(1) is almost identical to the operation of the server while finding the
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target object for a non-search operation.
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It is to also be noted that multiple ref attributes are allowed in any
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entry and, where these sections refer to a single ref attribute, multi-
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ple ref attributes may be substituted and should be processed and
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returned as a group in an LDAPResult or search result in the same way as
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described for a single attribute. The order of the returned continuation
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references within a result is not defined.
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5.1.1.1. Example configuration
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Howes, et al. IETF LDAPEXT Working Group [Page 4]
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INTERNET-DRAFT LDAPv3 Named Referrals March 1999
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|------------------------------------------------------------|
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| Server A |
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| dn: o=abc,c=us dn: o=xyz,c=us |
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| o: abc o: xyz |
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| ref: ldap://hostB/o=abc,c=us ref: ldap://hostD/o=xyz,c=us |
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| ref: ldap://hostC/o=abc,c=us objectclass: referral |
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| objectclass: referral objectclass: extensibleObject|
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| objectclass: extensibleObject |
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|____________________________________________________________|
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|---------------------| |---------------------| |---------------------|
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| Server B | | Server D | | Server C |
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| dn: o=abc,c=us | | dn: o=xyz,c=us | | dn: o=abc,c=us |
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| o: abc | | o: xyz | | o: abc |
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| other attributes... | | other attributes... | | other attributes... |
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|_____________________| |_____________________| |_____________________|
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In this example, Server A holds references for two entries: "o=abc,c=us"
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and "o=xyz,c=us". For the "o=abc,c=us" entry, Server A holds two refer-
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ences, one to Server B and one to Server C. The entries referenced are
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replicas of each other. For the "o=xyz,c=us" entry, Server A holds a
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single reference to the entry contained in Server D.
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In the following protocol interaction examples, the client has contacted
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Server A. Server A holds the naming context "c=us".
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5.1.1.2. Base or target object considerations
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As previously described, the process of generating referrals for a
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search can be described in two phases. The first, which is described in
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this section, is generating referrals based on the base object specified
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in the search. This process is identical to the process of generating
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referrals based on the target object while processing other operations
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(modify, add, delete, modify DN, and compare) with the sole exception
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that for these other operations, the DN in the referral must be modified
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in some cases.
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If a client requests any of these operations, there are four cases that
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the server must handle with respect to the base or target object speci-
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fied in the request.
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Case 1: The base or target object is not held by the server and is not
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subordinate to any object held by the server with a ref attribute.
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The handling of this case is described in section 6.
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Case 2: The base or target object is held by the server and contains a
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ref attribute
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Howes, et al. IETF LDAPEXT Working Group [Page 5]
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INTERNET-DRAFT LDAPv3 Named Referrals March 1999
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In this case, if the type of operation requested is a search or the URI
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contained in the ref attribute of the requested base object is NOT an
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LDAP URI as defined in [RFC2255], the server should return the URI value
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contained in the ref attribute of the base object whose DN is the DN
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requested by the client as the base for the operation.
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Example:
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If the client issues a search in which the base object is "o=xyz,c=us",
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server A will return
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SearchResultDone "referral" {
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ldap://hostD/o=xyz,c=us
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}
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If the type of operation requested is not a search and the URI contained
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in the ref attribute of the requested target object is an LDAP URI
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[RFC2255], the server should return a modified form of this URL. The
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returned URL must have only the protocol, host, port, and trailing "/"
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portion of the URL contained in the ref attribute. The server should
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strip any dn, attributes, scope, and filter parts of the URL.
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Example:
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If the client issues a modify request for the target object of
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"o=abc,c=us", server A will return
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ModifyResponse "referral" {
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ldap://hostB/
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ldap://hostC/
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}
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Case 3: The base or target object is not held by the server, but is
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subordinate to an object with a ref attribute held by the server.
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If a client requests an operation for which the base or target object is
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not held by the server, but is subordinate to one or more objects with a
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ref attribute held by the server, the server must return the referral
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from the superior held object nearest to the requested base or target
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object. Nearest superior object with a referral, in this document, means
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an object superior to the base or target object with the DN that has the
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most attribute values in common with the DN of the base or target object
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and contains a ref attribute.
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The process of finding the nearest superior object can be envisioned as
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walking up the locally held part of the DIT from the requested base or
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target object checking each superior object until either an object with
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Howes, et al. IETF LDAPEXT Working Group [Page 6]
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INTERNET-DRAFT LDAPv3 Named Referrals March 1999
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a ref attribute is found or the top-most locally held object is reached.
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Once possible implementation of this algorithm is as follows:
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1. Remove the leftmost attribute/value pair from the DN of the
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requested base or target object.
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2. If the remaining DN represents a locally held object that contains
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a ref attribute, that object is the nearest superior object with a
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referral. Stop and process the referral as described below.
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3. If the remaining DN is the root of the locally held part of the
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DIT, stop and proceed as described in section 6.
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4. Continue with step 1.
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Once the nearest superior object has been identified, if the referral
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contained in that object is not an LDAP URI [RFC2255], it should be
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returned as-is. If the referral is an LDAP URI, the referral must be
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modified, regardless of the type of operation, as case 2 describes for a
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non-search requuest. That is, the dn, attributes, scope, and filter
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parts of the URL must be stripped from the referral and the referral
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returned.
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Example:
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If the client issues an add request where the target object has a DN of
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"cn=Chris Lukas,o=abc,c=us", server A will return
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AddResponse "referral" {
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ldap://hostB/
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ldap://hostC/
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}
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5.1.1.3. Search with one level scope
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For search operations, once the base object has been found and deter-
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mined not to contain a ref attribute, the search may progress. Any
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entries matching the filter and scope of the search that do NOT contain
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a ref attribute are returned to the client normally as described in
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[RFC2251]. Any entries matching the filter and one level scope that do
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contain a ref attribute must be returned as referrals as described here.
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If a matching entry contains a ref attribute and the URI contained in
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the ref attribute is NOT an LDAP URI [RFC2255], the server should return
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the URI value contained in the ref attribute of that entry in a Sear-
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chResultReference.
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If a matching entry contains a ref attribute in the LDAP URI syntax
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Howes, et al. IETF LDAPEXT Working Group [Page 7]
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INTERNET-DRAFT LDAPv3 Named Referrals March 1999
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[RFC2255], the URL from the ref attribute must be modified before it is
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returned by adding or substituting a "base" scope into the URL. If the
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URL does not contain a scope specifier, the "base" scope specifier must
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be added. If the URL does contain a scope specifier, the existing scope
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specifier must be replaced by the "base" scope.
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Example:
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If a client requests a one level search of "c=US" then, in addition to
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any entries one level below the "c=US" naming context matching the
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filter (shown below as "... SearchResultEntry responses ..."), the
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server will also return referrals modified to include the "base" scope
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to maintain the one level search semantics.
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The order of the SearchResultEntry responses and the SearchResultRefer-
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ence responses is undefined. One possible sequence is shown.
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... SearchResultEntry responses ...
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SearchResultReference {
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ldap://hostB/o=abc,c=us??base
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ldap://hostC/o=abc,c=us??base
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}
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SearchResultReference {
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ldap://hostD/o=xyz,c=us??base
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}
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SearchResultDone "success"
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5.1.1.4. Search with subtree scope
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For a search operation with a subtree scope, once the base object has
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been found, the search progresses. As with the one level search, any
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entries matching the filter and scope of the search that do NOT contain
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a ref attribute are returned to the client normally as described in
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[RFC2251].
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If an entry matching the requested scope and filter contains a ref
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attribute, the server should return the URI value in a SearchResul-
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tReference.
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Example:
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If a client requests a subtree search of "c=us", then in addition to any
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entries in the "c=us" naming context which match the filter, Server A
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will also return two continuation references. As described in the
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Howes, et al. IETF LDAPEXT Working Group [Page 8]
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INTERNET-DRAFT LDAPv3 Named Referrals March 1999
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preceding section, the order of the responses is not defined.
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One possible response might be:
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... SearchResultEntry responses ...
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SearchResultReference {
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ldap://hostB/o=abc,c=us
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ldap://hostC/o=abc,c=us
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}
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SearchResultReference {
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ldap://hostD/o=xyz,c=us
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}
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SearchResultDone "success"
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6. Superior Reference
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An LDAP server may be configured to return a superior reference in the
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case where the server does not hold either the requested base object or
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an object containing a ref attribute that is superior to that base
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object.
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An LDAP server's root DSE MAY contain a ref attribute. The values of the
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ref attribute in the root DSE that are LDAP URIs SHOULD NOT contain any
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dn part, just the host name and optional port number.
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If the LDAP server's root DSE contains a ref attribute and a client
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requests an object not held by the server and not subordinate to any
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held object, the server must return the URI component of the values in
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the ref attribute of the root DSE as illustrated in the example.
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If the LDAP server's root DSE does not contain a ref attribute, the
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server may return one or more references that the server determines via
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a method not defined in this document to be appropriate.
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The default reference may be to any server that might contain more
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knowledge of the namespace than the responding server. In particular,
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the client must not expect the superior reference to be identical from
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session to session as the reference may be dynamically created by the
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server based on the details of the query submitted by the client.
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When the server receives an operation for which the base or target entry
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of the request is not contained in or subordinate to any naming context
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held by the server or a referral entry, the server will return an
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LDAPResult with the resultCode set to "referral", and with the referral
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Howes, et al. IETF LDAPEXT Working Group [Page 9]
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INTERNET-DRAFT LDAPv3 Named Referrals March 1999
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field filled with a referral that the server has determined to be
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appropriate.
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Example:
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If a client requests a subtree search of "c=de" from server A in the
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example configuration, and server A has the following ref attribute
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defined in it's root DSE:
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ref: ldap://hostG/
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then server A will return
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SearchResultDone "referral" {
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ldap://hostG/
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}
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7. The referral object class
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The referral object class is defined as follows.
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( 2.16.840.1.113730.3.2.6 NAME 'referral' SUP top STRUCTURAL
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MAY ( ref ) )
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The referral object class is a subclass of top and may contain the
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referral attribute. The referral object class should, in general, be
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used in conjunction with the extensibleObject object class to support
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the naming attributes used in the entry's distinguished name.
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Servers must support the ref attribute through use of the referral
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object class. Any named reference must be of the referral object class
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and will likely also be of the extensibleObject object class to support
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naming and use of other attributes.
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8. The manageDsaIT control
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A client MAY specify the following control when issuing a search, com-
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pare, add, delete, modify, or modifyDN request or an extended operation
|
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for which the control is defined.
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The control type is 2.16.840.1.113730.3.4.2. The control SHOULD be
|
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marked as critical. There is no value; the controlValue field is
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absent.
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This control causes entries with the "ref" attribute to be treated as
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normal entries, allowing clients to read and modify these entries.
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Howes, et al. IETF LDAPEXT Working Group [Page 10]
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INTERNET-DRAFT LDAPv3 Named Referrals March 1999
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This control is not needed if the entry containing the referral attri-
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bute is one used for directory administrative purposes, such as the root
|
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DSE, or the server change log entries. Operations on these entries
|
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never cause referrals or continuation references to be returned.
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9. Relationship to X.500 Knowledge References
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The X.500 standard defines several types of knowledge references, used
|
|
to bind together different parts of the X.500 namespace. In X.500,
|
|
knowledge references can be associated with a set of unnamed entries
|
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(e.g., a reference, associated with an entry, to a server containing the
|
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descendants of that entry).
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This creates a potential problem for LDAP clients resolving an LDAPv3
|
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URL referral referring to an LDAP directory back-ended by X.500. Sup-
|
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pose the search is a subtree search, and that server A holds the base
|
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object of the search, and server B holds the descendants of the base
|
|
object. The behavior of X.500(1993) subordinate references is that the
|
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base object on server A is searched, and a single continuation reference
|
|
is returned pointing to all of the descendants held on server B.
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An LDAP URI only allows the base object to be specified. It is not pos-
|
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sible using standard LDAP URIs to indicate a search of several entries
|
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whose names are not known to the server holding the superior entry.
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X.500 solves this problem by having two fields, one indicating the pro-
|
|
gress of name resolution and the other indicating the target of the
|
|
search. In the above example, name resolution would be complete by the
|
|
time the query reached server B, indicating that it should not refer the
|
|
request.
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This document does not address this problem. This problem will be
|
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addressed in separate documents which define the changes to the X.500
|
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distribution model and LDAPv3 extensions to indicate the progress of
|
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name resolution.
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10. Security Considerations
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This document defines mechanisms that can be used to "glue" LDAP (and
|
|
other) servers together. The information used to specify this glue
|
|
information should be protected from unauthorized modification. If the
|
|
server topology information itself is not public information, the infor-
|
|
mation should be protected from unauthorized access as well.
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|
Clients should use caution when re-using credentials while following
|
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referrals as the client may be directed to any server which may or may
|
|
not respect or use those credentials appropriately.
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Howes, et al. IETF LDAPEXT Working Group [Page 11]
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INTERNET-DRAFT LDAPv3 Named Referrals March 1999
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11. References
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|
|
[RFC1738]
|
|
Berners-Lee, T., Masinter, L., and McCahill, M., "Uniform Resource
|
|
Locators (URL)", RFC 1738, CERN, Xerox Corporation, University of
|
|
Minnesota, December 1994.
|
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|
|
[RFC2079]
|
|
M. Smith, "Definition of an X.500 Attribute Type and an Object Class
|
|
to Hold Uniform Resource Identifiers (URIs)", RFC 2079, January
|
|
1997.
|
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|
|
[RFC2119]
|
|
S. Bradner, "Key Words for use in RFCs to Indicate Requirement Lev-
|
|
els", RFC 2119, March 1997. (Format: TXT=4723 bytes) (Also BCP0014)
|
|
(Status: BEST CURRENT PRACTICE)
|
|
|
|
[RFC2251]
|
|
M. Wahl, T. Howes, S. Kille, "Lightweight Directory Access Protocol
|
|
(v3)", RFC 2251, December 1997.
|
|
|
|
[RFC2255]
|
|
T. Howes, M. Smith, "The LDAP URL Format", RFC 2255, December, 1997.
|
|
(Format: TXT=20685 bytes) (Status: PROPOSED STANDARD)
|
|
|
|
[X500]
|
|
ITU-T Rec. X.501, "The Directory: Models", 1993.
|
|
|
|
12. Author's Address
|
|
|
|
Tim Howes
|
|
Netscape Communications Corp.
|
|
501 E. Middlefield Rd.
|
|
Mailstop MV068
|
|
Mountain View, CA 94043
|
|
USA
|
|
+1 650 937-3419
|
|
EMail: howes@netscape.com
|
|
|
|
Christopher E. Lukas
|
|
Internet Scout Project
|
|
Computer Sciences Dept.
|
|
University of Wisconsin-Madison
|
|
1210 W. Dayton St.
|
|
Madison, WI 53706
|
|
USA
|
|
EMail: lukas@cs.wisc.edu
|
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|
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|
|
Howes, et al. IETF LDAPEXT Working Group [Page 12]
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|
|
INTERNET-DRAFT LDAPv3 Named Referrals March 1999
|
|
|
|
|
|
Michael Roszkowski
|
|
Internet Scout Project
|
|
Computer Sciences Dept.
|
|
University of Wisconsin-Madison
|
|
1210 W. Dayton St.
|
|
Madison, WI 53706
|
|
USA
|
|
EMail: mfr@cs.wisc.edu
|
|
|
|
Mark C. Smith
|
|
Netscape Communications Corp.
|
|
501 E. Middlefield Rd.
|
|
Mailstop MV068
|
|
Mountain View, CA 94043
|
|
USA
|
|
EMail: mcs@netscape.com
|
|
|
|
Mark Wahl
|
|
Innosoft International, Inc.
|
|
8911 Capital of Texas Hwy #4140
|
|
Austin TX 78759
|
|
EMail: M.Wahl@innosoft.com
|
|
|
|
|
|
This draft expires December 6, 1999.
|
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|
|
Howes, et al. IETF LDAPEXT Working Group [Page 13]
|
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|
|
|