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author | Simo Sorce <idra@samba.org> | 2006-02-05 21:59:50 +0000 |
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committer | Gerald (Jerry) Carter <jerry@samba.org> | 2007-10-10 13:51:49 -0500 |
commit | 5972e0116321b78f0fdb186171c7b901abde11c8 (patch) | |
tree | ed522343e264d3de8042bf22c7cd2182d7647557 | |
parent | 0c45a12b6558b3c8fb8105510688f9fb488f7c65 (diff) | |
download | samba-5972e0116321b78f0fdb186171c7b901abde11c8.tar.gz samba-5972e0116321b78f0fdb186171c7b901abde11c8.tar.bz2 samba-5972e0116321b78f0fdb186171c7b901abde11c8.zip |
r13357: more docs
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-rw-r--r-- | source4/ldap_server/devdocs/Index | 19 | ||||
-rw-r--r-- | source4/ldap_server/devdocs/ldapext-ldapv3-vlv-04.txt | 655 |
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diff --git a/source4/ldap_server/devdocs/Index b/source4/ldap_server/devdocs/Index new file mode 100644 index 0000000000..6a83af13ac --- /dev/null +++ b/source4/ldap_server/devdocs/Index @@ -0,0 +1,19 @@ +RFC 1777 - Lightweight Directory Access Protocol +RFC 1778 - The String Representation of Standard Attribute Syntaxes +RFC 1779 - A String Representation of Distinguished Names +RFC 1823 - The LDAP Application Program Interface +RFC 2251 - Lightweight Directory Access Protocol (v3) +RFC 2252 - LDAPv3: Attribute Syntax Definitions +RFC 2253 - LDAPv3: UTF-8 String Representation of Distinguished Names +RFC 2254 - The String Representation of LDAP Search Filters +RFC 2255 - The LDAP URL Format +RFC 2256 - A Summary of the X.500(96) User Schema for use with LDAPv3 +RFC 2307 - An Approach for Using LDAP as a Network Information Service +RFC 2696 - LDAP Control Extension for Simple Paged Results Manipulation +RFC 2849 - The LDAP Data Interchange Format (LDIF) - Technical Specification +RFC 2891 - LDAP Control Extension for Server Side Sorting of Search Results +RFC 3296 - Named Subordinate References in LDAP Directories + +Expired but used Draft: +ldapext-ldapv3-vlv-04: LDAP Extensions for Scrolling View Browsing of Search Results + diff --git a/source4/ldap_server/devdocs/ldapext-ldapv3-vlv-04.txt b/source4/ldap_server/devdocs/ldapext-ldapv3-vlv-04.txt new file mode 100644 index 0000000000..e7bb99ef8a --- /dev/null +++ b/source4/ldap_server/devdocs/ldapext-ldapv3-vlv-04.txt @@ -0,0 +1,655 @@ + +INTERNET-DRAFT David Boreham, Netscape + Jim Sermersheim, Novell + Anoop Anantha, Microsoft + Michael Armijo, Microsoft +ldapext Working Group 6 April, 2000 + + + LDAP Extensions for Scrolling View Browsing of Search Results + + draft-ietf-ldapext-ldapv3-vlv-04.txt + This document expires on 5 October 2000 + +1. Status of this Memo + +This document is an Internet-Draft and is in full conformance with all +provisions of Section 10 of RFC2026. Internet-Drafts are working docu- +ments 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 +http://www.ietf.org/ietf/1id-abstracts.txt + +The list of Internet-Draft Shadow Directories can be accessed at +http://www.ietf.org/shadow.html. + +2. Abstract + +This document describes a Virtual List View control extension for the +LDAP Search operation. This control is designed to allow the "virtual +list box" feature, common in existing commercial e-mail address book +applications, to be supported efficiently by LDAP servers. LDAP servers' +inability to support this client feature is a significant impediment to +LDAP replacing proprietary protocols in commercial e-mail systems. + +The control allows a client to specify that the server return, for a +given LDAP search with associated sort keys, a contiguous subset of the +search result set. This subset is specified in terms of offsets into the +ordered list, or in terms of a greater than or equal comparison value. + +3. Background + +A Virtual List is a graphical user interface technique employed where + + + +Boreham et al [Page 1] + + + + + +RFC DRAFT April 2000 + + +ordered lists containing a large number of entries need to be displayed. +A window containing a small number of visible list entries is drawn. The +visible portion of the list may be relocated to different points within +the list by means of user input. This input can be to a scroll bar +slider; from cursor keys; from page up/down keys; from alphanumeric keys +for "typedown". The user is given the impression that they may browse +the complete list at will, even though it may contain millions of +entries. It is the fact that the complete list contents are never +required at any one time that characterizes Virtual List View. Rather +than fetch the complete list from wherever it is stored (typically from +disk or a remote server), only that information which is required to +display the part of the list currently in view is fetched. The subject +of this document is the interaction between client and server required +to implement this functionality in the context of the results from a +sorted LDAP search request. + +For example, suppose an e-mail address book application displays a list +view onto the list containing the names of all the holders of e-mail +accounts at a large university. The list is sorted alphabetically. +While there may be tens of thousands of entries in this list, the +address book list view displays only 20 such accounts at any one time. +The list has an accompanying scroll bar and text input window for type- +down. When first displayed, the list view shows the first 20 entries in +the list, and the scroll bar slider is positioned at the top of its +range. Should the user drag the slider to the bottom of its range, the +displayed contents of the list view should be updated to show the last +20 entries in the list. Similarly, if the slider is positioned somewhere +in the middle of its travel, the displayed contents of the list view +should be updated to contain the 20 entries located at that relative +position within the complete list. Starting from any display point, if +the user uses the cursor keys or clicks on the scroll bar to request +that the list be scrolled up or down by one entry, the displayed con- +tents should be updated to reflect this. Similarly the list should be +displayed correctly when the user requests a page scroll up or down. +Finally, when the user types characters in the type-down window, the +displayed contents of the list should "jump" or "seek" to the appropri- +ate point within the list. For example, if the user types "B", the +displayed list could center around the first user with a name beginning +with the letter "B". When this happens, the scroll bar slider should +also be updated to reflect the new relative location within the list. + +This document defines a request control which extends the LDAP search +operation. Always used in conjunction with the server side sorting +control[SSS], this allows a client to retrieve selected portions of +large search result set in a fashion suitable for the implementation of +a virtual list view. + +The key words "MUST", "SHOULD", and "MAY" used in this document are to + + + +Boreham et al [Page 2] + + + + + +RFC DRAFT April 2000 + + +be interpreted as described in [Bradner97]. + +4. Client-Server Interaction + +The Virtual List View control extends a regular LDAP Search operation +which must also include a server-side sorting control[SSS]. Rather than +returning the complete set of appropriate SearchResultEntry messages, +the server is instructed to return a contiguous subset of those entries, +taken from the sorted result set, centered around a particular target +entry. Henceforth, in the interests of brevity, the sorted search result +set will be referred to as "the list". + +The sort control MAY contain any sort specification valid for the +server. The attributeType field in the first SortKeyList sequence ele- +ment has special significance for "typedown". + +The desired target entry, and the number of entries to be returned both +before, and after, that target entry in the list, are determined by the +client's VirtualListViewRequest control. + +When the server returns the set of entries to the client, it attaches a +VirtualListViewResponse control to the SearchResultDone message. The +server returns in this control: its current estimate for the list con- +tent count, the location within the list corresponding to the target +entry, and any error codes. + +The target entry is specified in the VirtualListViewRequest control by +one of two methods. The first method is for the client to indicate the +target entry's offset within the list. The second way is for the client +to supply an attribute assertion value. The value is compared against +the values of the attribute specified as the primary sort key in the +sort control attached to the search operation. The first sort key in +the SortKeyList is the primary sort key. The target entry is the first +entry in the list with value greater than or equal to (in the primary +sort order), the presented value. The order is determined by rules +defined in [SSS]. Selection of the target entry by this means is +designed to implement "typedown". Note that it is possible that no +entry satisfies these conditions, in which case there is no target +entry. This condition is indicated by the server returning the special +value contentCount + 1 in the target position field. + +Because the server may not have an accurate estimate of the number of +entries in the list, and to take account of cases where the list size is +changing during the time the user browses the list, and because the +client needs a way to indicate specific list targets "beginning" and +"end", offsets within the list are transmitted between client and server +as ratios---offset to content count. The server sends its latest esti- +mate as to the number of entries in the list (content count) to the + + + +Boreham et al [Page 3] + + + + + +RFC DRAFT April 2000 + + +client in every response control. The client sends its assumed value +for the content count in every request control. The server examines the +content count and offsets presented by the client and computes the +corresponding offsets within the list, based on its own idea of the con- +tent count. + + Si = Sc * (Ci / Cc) + + Where: + Si is the actual list offset used by the server + Sc is the server's estimate for content count + Ci is the client's submitted offset + Cc is the client's submitted content count + The result is rounded to the nearest integer. + +If the content count is stable, and the client returns to the server the +content count most recently received, Cc = Sc and the offsets transmit- +ted become the actual server list offsets. + +The following special cases are allowed: a client sending a content +count of zero (Cc = 0) means "client has no idea what the content count +is, server MUST use its own content count estimate in place of the +client's". An offset value of one (Ci = 1) always means that the target +is the first entry in the list. Client specifying an offset which equals +the content count specified in the same request control (Ci = Cc) means +that the target is the last entry in the list. Ci may only equal zero +when Cc is also zero. This signifies the last entry in the list. + +Because the server always returns contentCount and targetPosition, the +client can always determine which of the returned entries is the target +entry. Where the number of entries returned is the same as the number +requested, the client is able to identify the target by simple arith- +metic. Where the number of entries returned is not the same as the +number requested (because the requested range crosses the beginning or +end of the list, or both), the client must use the target position and +content count values returned by the server to identify the target +entry. For example, suppose that 10 entries before and 10 after the tar- +get were requested, but the server returns 13 entries, a content count +of 100 and a target position of 3. The client can determine that the +first entry must be entry number 1 in the list, therefore the 13 entries +returned are the first 13 entries in the list, and the target is the +third one. + +A server-generated context identifier MAY be returned to clients. A +client receiving a context identifier SHOULD return it unchanged in a +subsequent request which relates to the same list. The purpose of this +interaction is to enhance the performance and effectiveness of servers +which employ approximate positioning. + + + +Boreham et al [Page 4] + + + + + +RFC DRAFT April 2000 + + +5. The Controls + +Support for the virtual list view control extension is indicated by the +presence of the OID "2.16.840.1.113730.3.4.9" in the supportedControl +attribute of a server's root DSE. + +5.1. Request Control + +This control is included in the SearchRequest message as part of the +controls field of the LDAPMessage, as defined in Section 4.1.12 of +[LDAPv3]. The controlType is set to "2.16.840.1.113730.3.4.9". The cri- +ticality SHOULD be set to TRUE. If this control is included in a Sear- +chRequest message, a Server Side Sorting request control [SSS] MUST also +be present in the message. The controlValue is an OCTET STRING whose +value is the BER-encoding of the following SEQUENCE: + + VirtualListViewRequest ::= SEQUENCE { + beforeCount INTEGER (0..maxInt), + afterCount INTEGER (0..maxInt), + CHOICE { + byoffset [0] SEQUENCE { + offset INTEGER (0 .. maxInt), + contentCount INTEGER (0 .. maxInt) }, + greaterThanOrEqual [1] AssertionValue }, + contextID OCTET STRING OPTIONAL } + +beforeCount indicates how many entries before the target entry the +client wants the server to send. afterCount indicates the number of +entries after the target entry the client wants the server to send. +offset and contentCount identify the target entry as detailed in section +4. greaterThanOrEqual is an attribute assertion value defined in +[LDAPv3]. If present, the value supplied in greaterThanOrEqual is used +to determine the target entry by comparison with the values of the +attribute specified as the primary sort key. The first list entry who's +value is no less than (less than or equal to when the sort order is +reversed) the supplied value is the target entry. If present, the con- +textID field contains the value of the most recently received contextID +field from a VirtualListViewResponse control. The type AssertionValue +and value maxInt are defined in [LDAPv3]. contextID values have no +validity outwith the connection on which they were received. That is, a +client should not submit a contextID which it received from another con- +nection, a connection now closed, or a different server. + + +5.2. Response Control + +This control is included in the SearchResultDone message as part of the +controls field of the LDAPMessage, as defined in Section 4.1.12 of + + + +Boreham et al [Page 5] + + + + + +RFC DRAFT April 2000 + + +[LDAPv3]. + +The controlType is set to "2.16.840.1.113730.3.4.10". The criticality is +FALSE (MAY be absent). The controlValue is an OCTET STRING, whose value +is the BER encoding of a value of the following SEQUENCE: + + VirtualListViewResponse ::= SEQUENCE { + targetPosition INTEGER (0 .. maxInt), + contentCount INTEGER (0 .. maxInt), + virtualListViewResult ENUMERATED { + success (0), + operationsError (1), + unwillingToPerform (53), + insufficientAccessRights (50), + busy (51), + timeLimitExceeded (3), + adminLimitExceeded (11), + sortControlMissing (60), + offsetRangeError (61), + other (80) }, + contextID OCTET STRING OPTIONAL } + +targetPosition gives the list offset for the target entry. contentCount +gives the server's estimate of the current number of entries in the +list. Together these give sufficient information for the client to +update a list box slider position to match the newly retrieved entries +and identify the target entry. The contentCount value returned SHOULD be +used in a subsequent VirtualListViewRequest control. contextID is a +server-defined octet string. If present, the contents of the contextID +field SHOULD be returned to the server by a client in a subsequent Vir- +tualListViewRequest control. + +The virtualListViewResult codes which are common to the LDAP sear- +chResponse (adminLimitExceeded, timeLimitExceeded, busy, operationsEr- +ror, unwillingToPerform, insufficientAccessRights) have the same mean- +ings as defined in [LDAPv3], but they pertain specifically to the VLV +operation. For example, the server could exceed an administration limit +processing a SearchRequest with a VirtualListViewRequest control. How- +ever, the same administration limit would not be exceeded should the +same SearchRequest be submitted by the client without the VirtualList- +ViewRequest control. In this case, the client can determine that an +administration limit has been exceeded in servicing the VLV request, and +can if it chooses resubmit the SearchRequest without the VirtualList- +ViewRequest control. + +insufficientAccessRights means that the server denied the client permis- +sion to perform the VLV operation. + + + + +Boreham et al [Page 6] + + + + + +RFC DRAFT April 2000 + + +If the server determines that the results of the search presented exceed +the range provided by the 32-bit offset values, it MUST return +offsetRangeError. + +6. Protocol Example + +Here we walk through the client-server interaction for a specific vir- +tual list view example: The task is to display a list of all 78564 peo- +ple in the US company "Ace Industry". This will be done by creating a +graphical user interface object to display the list contents, and by +repeatedly sending different versions of the same virtual list view +search request to the server. The list view displays 20 entries on the +screen at a time. + +We form a search with baseDN "o=Ace Industry, c=us"; search scope sub- +tree; filter "objectClass=inetOrgPerson". We attach a server sort order +control to the search, specifying ascending sort on attribute "cn". To +this base search, we attach a virtual list view request control with +contents determined by the user activity and send the search to the +server. We display the results from each search in the list window and +update the slider position. + +When the list view is first displayed, we want to initialize the con- +tents showing the beginning of the list. Therefore, we set beforeCount = +0, afterCount = 19, contentCount = 0, offset = 1 and send the request to +the server. The server duly returns the first 20 entries in the list, +plus the content count = 78564 and targetPosition = 1. We therefore +leave the scroll bar slider at its current location (the top of its +range). + +Say that next the user drags the scroll bar slider down to the bottom of +its range. We now wish to display the last 20 entries in the list, so +we set beforeCount = 19, afterCount = 0, contentCount = 78564, offset = +78564 and send the request to the server. The server returns the last 20 +entries in the list, plus the content count = 78564 and targetPosition = +78564. + +Next the user presses a page up key. Our page size is 20, so we set +beforeCount = 0, afterCount = 19, contentCount = 78564, offset = +78564-19-20 and send the request to the server. The server returns the +preceding 20 entries in the list, plus the content count = 78564 and +targetPosition = 78525. + +Now the user grabs the scroll bar slider and drags it to 68% of the way +down its travel. 68% of 78564 is 53424 so we set beforeCount = 9, after- +Count = 10, contentCount = 78564, offset = 53424 and send the request to +the server. The server returns the preceding 20 entries in the list, +plus the content count = 78564 and targetPosition = 53424. + + + +Boreham et al [Page 7] + + + + + +RFC DRAFT April 2000 + + +Lastly, the user types the letter "B". We set beforeCount = 9, after- +Count = 10 and greaterThanOrEqual = "B". The server finds the first +entry in the list not less than "B", let's say "Babs Jensen", and +returns the nine preceding entries, the target entry, and the proceeding +10 entries. The server returns content count = 78564 and targetPosition += 5234 and so the client updates its scroll bar slider to 6.7% of full +scale. + +7. Notes for Implementers + +While the feature is expected to be generally useful for arbitrary +search and sort specifications, it is specifically designed for those +cases where the result set is very large. The intention is that this +feature be implemented efficiently by means of pre-computed indices per- +taining to a set of specific cases. For example, an offset relating to +"all the employees in the local organization, sorted by surname" would +be a common case. + +The intention for client software is that the feature should fit easily +with the host platform's graphical user interface facilities for the +display of scrolling lists. Thus the task of the client implementers +should be one of reformatting up the requests for information received +from the list view code to match the format of the virtual list view +request and response controls. + +Client implementers should note that any offset value returned by the +server may be approximate. Do not design clients > which only operate +correctly when offsets are exact. + +Server implementers using indexing technology which features approximate +positioning should consider returning context identifiers to clients. +The use of a context identifier will allow the server to distinguish +between client requests which relate to different displayed lists on the +client. Consequently the server can decide more intelligently whether to +reposition an existing database cursor accurately to within a short dis- +tance of its current position, or to reposition to an approximate posi- +tion. Thus the client will see precise offsets for "short" repositioning +(e.g. paging up or down), but approximate offsets for a "long" reposi- +tion (e.g. a slider movement). + +Server implementers are free to return status code unwillingToPerform +should their server be unable to service any particular VLV search. +This might be because the resolution of the search is computationally +infeasible, or because excessive server resources would be required to +service the search. + +Client implementers should note that this control is only defined on a +client interaction with a single server. If a server returns referrals + + + +Boreham et al [Page 8] + + + + + +RFC DRAFT April 2000 + + +as a part of its response to the search request, the client is responsi- +ble for deciding when and how to apply this control to the referred-to +servers, and how to collate the results from multiple servers. + + +8. Relationship to "Simple Paged Results" + +These controls are designed to support the virtual list view, which has +proved hard to implement with the Simple Paged Results mechanism +[SPaged]. However, the controls described here support any operation +possible with the Simple Paged Results mechanism. The two mechanisms are +not complementary, rather one has a superset of the other's features. +One area where the mechanism presented here is not a strict superset of +the Simple Paged Results scheme is that here we require a sort order to +be specified. No such requirement is made for paged results. + + +9. Security Considerations + +Server implementers may wish to consider whether clients are able to +consume excessive server resources in requesting virtual list opera- +tions. Access control to the feature itself; configuration options lim- +iting the feature's use to certain predetermined search base DNs and +filters; throttling mechanisms designed to limit the ability for one +client to soak up server resources, may be appropriate. + +Consideration should be given as to whether a client will be able to +retrieve the complete contents, or a significant subset of the complete +contents of the directory using this feature. This may be undesirable in +some circumstances and consequently it may be necessary to enforce some +access control. + +Clients can, using this control, determine how many entries are con- +tained within a portion of the DIT. This may constitute a security +hazard. Again, access controls may be appropriate. + +Server implementers SHOULD exercise caution concerning the content of +the contextID. Should the contextID contain internal server state, it +may be possible for a malicious client to use that information to gain +unauthorized access to information. + +10. Acknowledgements + +Chris Weider of Microsoft co-authored a previous version of this docu- +ment. + + + + + + +Boreham et al [Page 9] + + + + + +RFC DRAFT April 2000 + + +11. References + +[LDAPv3] + Wahl, M, S. Kille and T. Howes, "Lightweight Directory Access Pro- + tocol (v3)", Internet Standard, December, 1997. RFC2251. + +[SPaged] + Weider, C, A. Herron, A. Anantha, and T. Howes, "LDAP Control + Extension for Simple Paged Results Manipulation", September + 1999. RFC2696 + +[SSS]Wahl, M, A. Herron and T. Howes, "LDAP Control Extension for Server + Side Sorting of Search Results", Internet Draft, April, 1999. + Available as draft-ietf-asid-ldapv3-sorting-02.txt. + +[Bradner97] + Bradner, S., "Key Words for use in RFCs to Indicate Requirement + Levels", BCP 14, RFC 2119, March 1997. + +12. Authors' Addresses + + David Boreham + iPlanet e-commerce solutions + 501 E. Middlefield Road + Mountain View, CA 94043, USA + +1 650 937-5206 + dboreham@netscape.com + + Jim Sermersheim + Novell + 122 East 1700 South + Provo, Utah 84606, USA + jimse@novell.com + + Anoop Anantha + Microsoft Corp. + 1 Microsoft Way + Redmond, WA 98052, USA + +1 425 882-8080 + anoopa@microsoft.com + + Michael Armijo + Microsoft Corp. + 1 Microsoft Way + Redmond, WA 98052, USA + +1 425 882-8080 + micharm@microsoft.com + This document expires on 5 October 2000 + + + +Boreham et al [Page 10] + + + + + +RFC DRAFT April 2000 + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Boreham et al [Page 11] + + |