RFC2657 - LDAPv2 Client vs

Network Working Group R. Hedberg

Request for Comment: 2657 Catalogix

Category: EXPerimental August 1999

LDAPv2 Client vs. the Index Mesh

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.

Abstract

LDAPv2 clients as implemented according to RFC1777 [1] have no

notion on referral. The integration between sUCh a client and an

Index Mesh, as defined by the Common Indexing Protocol [2], heavily

depends on referrals and therefore needs to be handled in a special

way. This document defines one possible way of doing this.

1. Background

During the development of the Common Indexing Protocol (CIP), one of

the underlying assumptions was that the interaction between clients

and the Index Mesh Servers [1] would heavily depend on the passing of

referrals. Protocols like LDAPv2 [2] that lack this functionality

need to compensate for it by some means. The way chosen in this memo

is to add more intelligence into the client. There are two reasons

behind this decision. First, this is not a major enhancement that is

needed and secondly, that the intelligence when dealing with the

Index Mesh, with or the knowledge about referrals, eventually has to

go into the client.

2. The clients view of the Index Mesh

If a LDAPv2 client is going to be able to interact with the Index

Mesh, the Mesh has to appear as something that is understandable to

the client. Basically, this consists of representing the index

servers and their contained indexes in a defined Directory

information tree (DIT) [3,4] structure and a set of object classes

and attribute types that have been proven to be useful in this

context.

2.1 The CIP Object Classes

Object class descriptions are written according to the BNF defined in

[5].

2.1.1 cIPIndex

The cIPIndex objectClass, if present in a entry, allows it to hold

one indexvalue and information connected to this value.

( 1.2.752.17.3.9

NAME 'cIPIndex'

SUP 'top'

STRUCTURAL

MUST ( extendedDSI $ idx )

MAY ( indexOCAT )

)

2.1.2 cIPDataSet

The cIPDataSet objectClass, if present in a entry, allows it to hold

information concerning one DataSet.

( 1.2.752.17.3.10

NAME 'cIPDataSet'

SUP 'top'

STRUCTURAL

MUST ( dSI $ searchBase )

MAY ( indexOCAT $ description $ indexType $

AccessPoint $ protocolVersion $ polledBy $

updateIntervall $ securityOption $

supplierURI $ consumerURI $ baseURI $

attributeNamespace $ consistencyBase

)

2.2 The CIP attributeTypes

The attributes idx, indexOCAT, extendedDSI, description,

cIPIndexType, baseURI, dSI are used by a client accessing the index

server. The other attributes (accesspoint, protocolVersion,

polledBy, updateIntervall, consumerURI, supplierURI and

securityOption, attributeNamespace, consistencyBase) are all for

usage in server to server interactions.

2.2.1 idx

The index value, normally used as part of the RDN.

( 1.2.752.17.1.20

NAME 'idx'

EQUALITY caseIgnoreIA5Match

SYNTAX IA5String

SINGLE-VALUE

)

2.2.2 dSI

DataSet Identifier, a unique identifier for one particular set of

information. This should be an OID, but stored in a stringformat.

( 1.2.752.17.1.21

NAME 'dSI'

EQUALITY caseIgnoreIA5Match

SYNTAX IA5String

)

2.2.3 indexOCAT

Describes the type of data that is stored in this entry, by using

objectcClasses and attributeTypes. The information is stored as a

objectClass name followed by a space and then an attributeType name.

A typical example when dealing with whitepages information would be

"person cn".

( 1.2.752.17.1.28

NAME 'indexOCAT'

EQUALITY caseIgnoreIA5Match

SYNTAX IA5String

)

2.2.5 supplierURI

A URI describing which protocols, hostnames and ports should be used

by an indexserver to interact with servers carrying indexinformation

representing this dataSet.

( 1.2.752.17.1.22

NAME 'supplierURI'

EQUALITY caseIgnoreIA5Match

SYNTAX IA5String

)

2.2.6 baseURI

The attribute value for this attribute is a LDAP URI. One can

envisage other URI syntaxes, if the client knows about more access

protocols besides LDAP, and the interaction between the client and

the server can not use referrals for some reason.

( 1.2.752.17.1.26

NAME 'baseURI'

EQUALITY caseExactIA5Match

SYNTAX IA5String

)

2.2.7 protocolVersion

At present, the Common Indexing Protocol version should be 3.

( 1.2.752.17.1.27

NAME 'protocolVersion'

EQUALITY numericStringMatch

SYNTAX numericString

)

2.2.8 cIPIndexType

The type of index Object that is used to pass around index

information.

( 1.2.752.17.1.29

NAME 'cIPIndexType'

EQUALITY caseIgnoreIA5Match

SYNTAX IA5String

)

2.2.10 polledBy

The Distinguished Name of Index servers that polls data from this

indexserver.

( 1.2.752.17.1.30

NAME 'polledBy'

EQUALITY distinguishedNameMatch

SYNTAX DN

)

2.2.11 updateIntervall

The maximum duration in seconds between the generation of two updates

by the supplier server.

( 1.2.752.17.1.31

Name 'updateIntervall'

EQUALITY numericStringMatch

SYNTAX numericString

SINGLE-VALUE

)

2.2.12 securityOption

Whether and how the supplier server should sign and encrypt the

update before sending it to the consumer server.

( 1.2.752.17.1.32

NAME 'securityOption'

EQUALITY caseIgnoreIA5Match

SYNTAX IA5String

SINGLE-VALUE

)

2.2.13 extendedDSI

DataSet Identifier possibly followed by a space and a taglist, the

later as specified by [6].

( 1.2.752.17.1.33

NAME 'extendedDSI'

EQUALITY caseIgnoreIA5Match

SYNTAX IA5String

)

2.2.14 consumerURI

A URI describing which means a server can accept indexinformation.

An example being a mailto URI for MIME email based index transport.

( 1.2.752.17.1.34

NAME 'consumerURI'

EQUALITY caseExactIA5Match

SYNTAX IA5String

)

2.2.15 attributeNamespace

Any consumer supplier pair has to agree on what attribute that should

be used and also possibly the meaning of the attributenames. The

value of this attribute should, for example, be a URI pointing to a

document wherein the agreement is described.

( 1.2.752.17.1.35 NAME 'attributeNamespace' EQUALITY

caseExactIA5Match SYNTAX IA5String

)

2.2.16 consistencyBase

This attribute is specifically used by consumer supplier pairs that

use the tagged index object [6].

( 1.2.752.17.1.36

NAME 'consistencyBase'

EQUALITY caseExactIA5Match

SYNTAX IA5String

)

3. The interaction between a client and the Index Mesh

A client interaction with the Index Mesh consists of a couple of

rather well defined actions. The first being to find a suitable index

to start with, then to transverse the Index Mesh and finally to query

the servers holding the original data. Note when reading this text

that what is discussed here is the client's perception of the DIT,

how it is in fact implemented is not discussed.

3.1 Finding a Index Mesh

This approach depends on the fact that every index server partaking

in an Index Mesh is represented in the DIT by a entry of the type

cIPDataSet, and has a distinguished name (DN) which most significant

relative distinguished name (RDN) has the attributetype dSI.

Therefore, finding a suitable indexserver to start the search from is

a matter of searching the DIT at a suitable place for objects with

the objectClass cIPIndexObject. Every found entry can then be

evaluated by looking at the description value as well as the

indexOCAT value. The description string should be a human readable

and understandable text that describes what the index server is

indexing. An example of such a string could be, "This index covers

all employees at Swedish Universities and University Colleges that

has an email account". The indexOCAT attribute supplies information

about which kind of entries and which attributes within these entries

that the index information has emanated from. For example, if the

indexOCAT attribute value is "person cn", one can deduce that this is

an index over persons and not over roles, and that it is the

attribute commonName that is indexed.

3.2 Searching the mesh

Each index server has its information represented in the DIT as a

very flat tree. In fact, it is only one level deep.

0 Indexservers cIPDataSet

/ / / 0 0

cIPDataSet entries cIPIndex entries

one for each DataSet one for each index value

that this server has that this indexserver

gathered indexes from. has.

A search then consists of a set of searches. The first being the

search for the index entries that contains an indexvalue that matches

what the user is looking for, and the second a search based on the

DSI information in the extendedDSI attribute values returned from the

first search. In the case of the the cIPIndexType being tagged-

index, the taglists should be compared to find which DSI it might be

useful to pose further queries to.

When doing these types of searches, the client should be aware of the

fact that the index values disregarding their origin (attributeTypes)

always are stored in the index server as values of the idx attribute.

The object of the second search is to get information on the

different DataSet involved, and should normally be performed as a

read. Since the DataSet information probably will remain quite stable

over time, this information lends itself very well to caching. If at

this stage there is more than one DataSet involved, the User

interface might use the description value to aid the user in choosing

which one to proceed with. The content of the searchBase value of

the DataSet tells the client whether it represents another index

server (the most significant part of the dn is a dSI attribute) or if

it is a end server.

3.3 Querying the end server

When finally reaching the end server/servers that probably has the

sought for information, the information in the indexOCAT attribute

can be used to produce an appropriate filter. If a search for "Rol*"

in an index having an indexOCAT attribute value of "person cn"

returns an idx entry with the idx value of "Roland", then an

appropriate filter to use might be "&((cn=* roland *)(cn=roland

*)(cn=* roland))(objectclass=person)". A complete example of a

search process is given in Appendix A.

4. Security Considerations

Since this memo deals with client behavior, it does not add anything

that either enhances or diminishes the security features that exists

in LDAPv2.

5. Internationalization

As with security, this memo neither enhances or diminishes the

handling of internationalization in LDAPv2.

6. References

[1] Yeong, W., Howes, T. and S. Kille, "Lightweight Directory Access

Protocol", RFC1777, March 1995.

[2] Allen, J. and M. Mealling "The Architecture of the Common

Indexing Protocol (CIP)", RFC2651, August 1999.

[3] The Directory: Overview of Concepts, Models and Service. CCITT

Recommendation X.500, 1988.

[4] Information Processing Systems -- Open Systems Interconnection --

The Directory: Overview of Concepts, Models and Service. ISO/IEC

JTC 1/SC21; International Standard 9594-1, 1988.

[5] Wahl, M., Coulbeck, A., Howes, T. and S. Kille, "Lightweight

Directory Access Protocol (v3): Attribute Syntax Definitions",

RFC2252, December 1997.

[6] Hedberg, R., Greenblatt, B., Moats, R. and M. Wahl, "A Tagged

Index Object for use in the Common Indexing Protocol", RFC2654,

August 1999.

7. Author's Address

Roland Hedberg

Catalogix

Dalsveien 53

0387 Oslo, Norway

Phone: +47 23 08 29 96

EMail: roland@catalogix.ac.se

Appendix A - Sample Session

Below is a sample of a session between a LDAPv2 client and an index

server mesh as specified in this memo.

The original question of the session is to find the email address of

a person by the name, "Roland Hedberg", who is working at "Umea

University" in Sweden.

Step 1.

A singlelevel search with the baseaddress "c=SE" and the filter

"(objectclass=cipDataset)" was issued.

The following results were received:

DN: dSI=1.2.752.17.5.0,c=SE

dsi= 1.2.752.17.5.0

description= "index over employees with emailaddresses within Swedish

higher education"

indexOCAT= "cn person"

cIPIndexType= "x-tagged-index-1" ;

searchBase= "dsi=1.2.752.17.5.0,c=SE"

protocolVersion = 3

DN: dSI=1.2.752.23.1.3,c=SE

dsi= 1.2.752.23.1.3

description= "index over Swedish lawyers"

indexOCAT= "cn person"

cIPIndexType= "x-tagged-index-1" ;

searchBase= "dsi=1.2.752.23.1.3,c=SE"

protocolVersion = 3

Step 2.

Since the first index seemed to cover the interesting population, a

single level search with the baseaddress "dsi=1.2.752.17.5.0,c=SE"

and the filter "((idx=roland)(idx=hedberg))" was issued.

The following results were received:

DN: idx=Roland,dSI=1.2.752.17.5.0,c=SE

idx= Roland

extendedDSI= 1.2.752.17.5.10 1,473,612,879,1024

extendedDSI= 1.2.752.17.5.14 35,78,150,200

extendedDSI= 1.2.752.17.5.16 187,2031,3167,5284,6034-6040

extendedDSI= 1.2.752.17.5.17 17

DN: idx=Hedberg,dSI=1.2.752.17.5.0,c=SE

idx= Hedberg

extendedDSI= 1.2.752.17.5.8 24,548-552,1066

extendedDSI= 1.2.752.17.5.10 473,512,636,777,1350

extendedDSI= 1.2.752.17.5.14 84,112,143,200

extendedDSI= 1.2.752.17.5.15 1890-1912

extendedDSI= 1.2.752.17.5.17 44

A comparison between the two sets of extendedDSIs shows that two

datasets 1.2.752.17.5.10 and 1.2.752.17.5.14 contains persons named

"Roland" and "Hedberg". Therefore, the next step would be to see what

the datasets represent. A comparison like this should normally not

be left to the user.

Step. 3

Two baselevel searches, one for

"dsi=1.2.752.17.5.10,dsi=1.2.752.17.5.0,c=SE" and the other for

"dsi=1.2.752.17.5.14,dsi=1.2.752.17.5.0,c=SE" with the filter

"(objectclass=cipdataset)" were issued.

The following results were received:

DN: dSI=1.2.752.17.5.10,dSI=1.2.752.17.5.0,c=SE

dsi= 1.2.752.17.5.10

description= "Employees at Umea University,Sweden"

indexOCAT= "person cn"

searchBase= "o=Umea Universitet,c=SE"

respectively

DN: dSI=1.2.752.17.5.14,dSI=1.2.752.17.5.0,c=SE

dsi= 1.2.752.17.5.14

description= "Employees at Lund University,Sweden"

indexOCAT= "person cn"

searchBase= "o=Lunds Universitet,c=SE"

Step 4

Based on the descriptions for the two datasets, "1.2.752.17.5.10" was

chosen as the best to proceed with. From the searchbase attribute

value, it was clear that this was a base server. The query now has

to be somewhat modified. One possibility would be to issue a query

with the baseobject "o=Umea Universitet,c=SE" and the filter

"(&(cn=Roland Hedberg)(objectclass=person))"

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