Network Working Group C. Weider
Request for Comments: 2696 A. Herron
Category: Informational A. Anantha
Microsoft
T. Howes
Netscape
September 1999
LDAP Control Extension for Simple Paged Results Manipulation
Status of this Memo
This memo provides information for the Internet community. It does
not specify an Internet standard of any kind. Distribution of this
memo is unlimited.
Copyright Notice
Copyright (C) The Internet Society (1999). All Rights Reserved.
1. Abstract
This document describes an LDAPv3 control extension for simple paging
of search results. This control extension allows a client to control
the rate at which an LDAP server returns the results of an LDAP
search operation. This control may be useful when the LDAP client has
limited resources and may not be able to process the entire result
set from a given LDAP query, or when the LDAP client is connected
over a low-bandwidth connection. Other operations on the result set
are not defined in this extension. This extension is not designed to
provide more sophisticated result set management.
The key Words "MUST", "SHOULD", and "MAY" used in this document are
to be interpreted as described in [bradner97].
2. The Control
This control is included in the searchRequest and searchResultDone
messages as part of the controls field of the LDAPMessage, as defined
in Section 4.1.12 of [LDAPv3]. The strUCture of this control is as
follows:
pagedResultsControl ::= SEQUENCE {
controlType 1.2.840.113556.1.4.319,
criticality BOOLEAN DEFAULT FALSE,
controlValue searchControlValue
}
The searchControlValue is an OCTET STRING wrapping the BER-encoded
version of the following SEQUENCE:
realSearchControlValue ::= SEQUENCE {
size INTEGER (0..maxInt),
-- requested page size from client
-- result set size estimate from server
cookie OCTET STRING
}
3. Client-Server Interaction
An LDAP client application that needs to control the rate at which
results are returned MAY specify on the searchRequest a
pagedResultsControl with size set to the desired page size and cookie
set to the zero-length string. The page size specified MAY be greater
than zero and less than the sizeLimit value specified in the
searchRequest.
If the page size is greater than or equal to the sizeLimit value, the
server should ignore the control as the request can be satisfied in a
single page. If the server does not support this control, the server
MUST return an error of unsupportedCriticalExtension if the client
requested it as critical, otherwise the server SHOULD ignore the
control. The remainder of this section assumes the server does not
ignore the client"s pagedResultsControl.
Each time the server returns a set of results to the client when
processing a search request containing the pagedResultsControl, the
server includes the pagedResultsControl control in the
searchResultDone message. In the control returned to the client, the
size MAY be set to the server"s estimate of the total number of
entries in the entire result set. Servers that cannot provide such an
estimate MAY set this size to zero (0). The cookie MUST be set to an
empty value if there are no more entries to return (i.e., the page of
search results returned was the last), or, if there are more entries
to return, to an octet string of the server"s choosing,used to resume
the search.
The client MUST consider the cookie to be an opaque structure and
make no assumptions about its internal organization or value. When
the client wants to retrieve more entries for the result set, it MUST
send to the server a searchRequest with all values identical to the
initial request with the exception of the messageID, the cookie, and
optionally a modified pageSize. The cookie MUST be the octet string
on the last searchResultDone response returned by the server.
Returning cookies from previous searchResultDone responses besides
the last one is undefined, as the server implementation may restrict
cookies from being reused.
The server will then return the next set of results from the whole
result set. This interaction will continue until the client has
retrieved all the results, in which case the cookie in the
searchResultDone field will be empty, or until the client abandons
the search sequence as described below. Once the paged search
sequence has been completed, the cookie is no longer valid and MUST
NOT be used.
A sequence of paged search requests is abandoned by the client
sending a search request containing a pagedResultsControl with the
size set to zero (0) and the cookie set to the last cookie returned
by the server. A client MAY use the LDAP Abandon operation to
abandon one paged search request in progress, but this is discouraged
as it MAY invalidate the client"s cookie.
If, for any reason, the server cannot resume a paged search operation
for a client, then it SHOULD return the appropriate error in a
searchResultDone entry. If this occurs, both client and server should
assume the paged result set is closed and no longer resumable.
A client may have any number of outstanding search requests pending,
any of which may have used the pagedResultsControl. A server
implementation which requires a limit on the number of outstanding
paged search requests from a given client MAY either return
unwillingToPerform when the client attempts to create a new paged
search request, or age out an older result set. If the server
implementation ages out an older paged search request, it SHOULD
return "unwilling to perform" if the client attempts to resume the
paged search that was aged out.
A client may safely assume that all entries that satisfy a given
search query are returned once and only once during the set of paged
search requests/responses necessary to enumerate the entire result
set, unless the result set for that query has changed since the
searchRequest starting the request/response sequence was processed.
In that case, the client may receive a given entry multiple times
and/or may not receive all entries matching the given search
criteria.
4. Example
The following example illustrates the client-server interaction
between a client doing a search requesting a page size limit of 3.
The entire result set returned by the server contains 5 entries.
Lines beginning with "C:" indicate requests sent from client to
server. Lines beginning with "S:" indicate responses sent from server
to client. Lines beginning with "--" are comments to help eXPlain the
example.
-- Client sends a search request aSKINg for paged results
-- with a page size of 3.
C: SearchRequest + pagedResultsControl(3,"")
-- Server responds with three entries plus an indication
-- of 5 total entries in the search result and an opaque
-- cooking to be used by the client when retrieving subsequent
-- pages.
S: SearchResultEntry
S: SearchResultEntry
S: SearchResultEntry
S: SearchResultDone + pagedResultsControl(5, "opaque")
-- Client sends an identical search request (except for
-- message id), returning the opaque cooking, asking for
-- the next page.
C: SearchRequest + PagedResultsControl(3, "opaque")
-- Server responds with two entries plus an indication
-- that there are no more entries (null cookie).
S: SearchResultEntry
S: SearchResultEntry
S: SearchResultDone + pagedResultsControl(5,"")
5. Relationship to X.500
For LDAP servers providing a front end to X.500 (93) Directories, the
paged results control defined in this document may be mapped directly
onto the X.500 (93) PagedResultsRequest defined in X.511 [x500]. The
size parameter may be mapped onto pageSize. The cookie parameter may
be mapped onto queryReference. The sortKeys and reverse fields in
the X.500 PagedResultsRequest are excluded.
6. Security Considerations
Server implementors should consider the resources used when clients
send searches with the simple paged control, to ensure that a
client"s misuse of this control does not lock out other legitimate
operations.
Servers implementations may enforce an overriding sizelimit, to
prevent the retrieval of large portions of a publically-Accessible
directory.
Clients can, using this control, determine how many entries match a
particular filter, before the entries are returned to the client.
This may require special processing in servers which perform access
control checks on entries to determine whether the existence of the
entry can be disclosed to the client.
7. References
[LDAPv3] Wahl, M., Howes, T. and S. Kille, "Lightweight Directory
Access Protocol (v3)", RFC2251, December 1997.
[Bradner97] Bradner, S., "Key Words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC2119, March 1997.
8. Authors" Addresses
Chris Weider
Microsoft Corp.
1 Microsoft Way
Redmond, WA 98052
USA
Phone: +1 425 882-8080
EMail: cweider@microsoft.com
Andy Herron
Microsoft Corp.
1 Microsoft Way
Redmond, WA 98052
USA
Phone: +1 425 882-8080
EMail: andyhe@microsoft.com
Anoop Anantha
Microsoft Corp.
1 Microsoft Way
Redmond, WA 98052
USA
Phone: +1 425 882-8080
EMail: anoopa@microsoft.com
Tim Howes
Netscape Communications Corp.
501 E. Middlefield Road
Mountain View, CA 94043
USA
Phone: +1 415 937-2600
EMail: howes@netscape.com
9. Full Copyright Statement
Copyright (C) The Internet Society (1999). All Rights Reserved.
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Acknowledgement
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