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508 lines
19 KiB
Plaintext
508 lines
19 KiB
Plaintext
# $OpenLDAP$
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# Copyright 1999-2003, The OpenLDAP Foundation, All Rights Reserved.
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# COPYING RESTRICTIONS APPLY, see COPYRIGHT.
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H1: Schema Specification
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This chapter describes how to extend the user schema used by {{slapd}}(8).
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The first section, {{SECT:Distributed Schema Files}} details optional
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schema definitions provided in the distribution and where to obtain
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other definitions.
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The second section, {{SECT:Extending Schema}}, details how to define
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new schema items.
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!if 0
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The third section, {{SECT:Transferring Schema}} details how you can
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export schema definitions from an LDAPv3 server and transform it
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to {{slapd.conf}}(5) format.
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!endif
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This chapter does not discuss how to extend system schema used by
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{{slapd}}(8) as this requires source code modification. System
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schema includes all operational attribute types or any object class
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which allows or requires an operational attribute (directly or
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indirectly).
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H2: Distributed Schema Files
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OpenLDAP is distributed with a set of schema specifications for
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your use. Each set is defined in a file suitable for inclusion
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(using the {{EX:include}} directive) in your {{slapd.conf}}(5)
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file. These schema files are normally installed in the
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{{F:/usr/local/etc/openldap/schema}} directory.
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!block table; colaligns="LR"; coltags="F,N"; align=Center; \
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title="Table 8.1: Provided Schema Specifications"
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File Description
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core.schema OpenLDAP {{core}} (required)
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cosine.schema Cosine and Internet X.500 (useful)
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inetorgperson.schema InetOrgPerson (useful)
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misc.schema Assorted (experimental)
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nis.schema Network Information Services (FYI)
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openldap.schema OpenLDAP Project (experimental)
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!endblock
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To use any of these schema files, you only need to include the
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desired file in the global definitions portion of your
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{{slapd.conf}}(5) file. For example:
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> # include schema
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> include /usr/local/etc/openldap/schema/core.schema
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> include /usr/local/etc/openldap/schema/cosine.schema
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> include /usr/local/etc/openldap/schema/inetorgperson.schema
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Additional files may be available. Please consult the OpenLDAP
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FAQ ({{URL:http://www.openldap.org/faq/}}).
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Note: You should not modify any of the schema items defined
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in provided files.
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H2: Extending Schema
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Schema used by {{slapd}}(8) may be extended to support additional
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syntaxes, matching rules, attribute types, and object classes. This
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chapter details how to add user application attribute types and
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object classes using the syntaxes and matching rules already supported
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by slapd. slapd can also be extended to support additional syntaxes,
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matching rules and system schema, but this requires some programming
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and hence is not discussed here.
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There are five steps to defining new schema:
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^ obtain Object Identifer
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+ choose a name prefix
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+ create local schema file
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+ define custom attribute types (if necessary)
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+ define custom object classes
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H3: Object Identifiers
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Each schema element is identified by a globally unique
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{{TERM[expand]OID}} (OID). OIDs are also used to identify
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other objects.
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They are commonly found in protocols described by {{TERM:ASN.1}}. In
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particular, they are heavily used by the {{TERM[expand]SNMP}} (SNMP).
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As OIDs are hierarchical, your organization
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can obtain one OID and branch it as needed. For example,
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if your organization were assigned OID {{EX:1.1}}, you could branch
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the tree as follows:
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!block table; colaligns="LR"; coltags="EX,N"; align=Center; \
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title="Table 8.2: Example OID hierarchy"
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OID Assignment
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1.1 Organization's OID
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1.1.1 SNMP Elements
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1.1.2 LDAP Elements
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1.1.2.1 AttributeTypes
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1.1.2.1.1 myAttribute
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1.1.2.2 ObjectClasses
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1.1.2.2.1 myObjectClass
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!endblock
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You are, of course, free to design a hierarchy suitable to your
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organizational needs under your organization's OID. No matter what
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hierarchy you choose, you should maintain a registry of assignments
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you make. This can be a simple flat file or something more
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sophisticated such as the {{OpenLDAP OID Registry}}
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({{URL:http://www.openldap.org/faq/index.cgi?file=197}}).
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For more information about Object Identifers (and a listing service)
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see {{URL:http://www.alvestrand.no/harald/objectid/}}.
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.{{Under no circumstances should you hijack OID namespace!}}
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To obtain a registered OID at {{no cost}}, apply for an OID under
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the {{ORG[expand]IANA}} (IANA) maintained {{Private Enterprise}}
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arc. Any private enterprise (organization) may request an OID to
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be assigned under this arc. Just fill out the {{ORG:IANA}} form
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at {{URL: http://www.iana.org/cgi-bin/enterprise.pl}} and your
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official OID will be sent to you usually within a few days. Your
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base OID will be something like {{EX:1.3.6.1.4.1.X}} where {{EX:X}}
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is an integer.
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Note: Don't let the "MIB/SNMP" statement on the IANA page confuse
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you. OIDs obtained using this form may be used for any purpose
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including identifying LDAP schema elements.
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Alternatively, OID name space may be available from a national
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authority (e.g., ANSI, BSI).
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For private experiments, OIDs under {{EX:1.1}} may be used. The
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OID {{EX:1.1}} arc is regarded as dead name space.
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H3: Name Prefix
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In addition to assigning a unique object identifier to each schema
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element, you should provide a least one textual name for each
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element. The name should be both descriptive and not likely to
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clash with names of other schema elements. In particular, any name
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you choose should not clash with present or future Standard Track
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names.
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To reduce (but not eliminate) the potential for name clashes, the
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convention is to prefix names of non-Standard Track with a few
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letters to localize the changes to your organization. The smaller
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the organization, the longer your prefix should be.
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In the examples below, we have chosen a short prefix '{{EX:my}}'
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(to save space). Such a short prefix would only be suitable for a
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very large, global organization. In general, we recommend something
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like '{{EX:deFirm}}' (German company) or '{{EX:comExample}}' (elements
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associated with organization associated with {{EX:example.com}}).
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H3: Local schema file
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The {{EX:objectclass}} and {{EX:attributeTypes}} configuration file
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directives can be used to define schema rules on entries in the
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directory. It is customary to create a file to contain definitions
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of your custom schema items. We recommend you create a file
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{{F:local.schema}} in {{F:/usr/local/etc/openldap/schema/local.schema}}
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and then include this file in your {{slapd.conf}}(5) file immediately
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after other schema {{EX:include}} directives.
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> # include schema
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> include /usr/local/etc/openldap/schema/core.schema
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> include /usr/local/etc/openldap/schema/cosine.schema
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> include /usr/local/etc/openldap/schema/inetorgperson.schema
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> # include local schema
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> include /usr/local/etc/openldap/schema/local.schema
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H3: Attribute Type Specification
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The {{attributetype}} directive is used to define a new attribute
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type. The directive uses the same Attribute Type Description
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(as defined in {{REF:RFC2252}}) used by the attributeTypes
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attribute found in the subschema subentry, e.g.:
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E: attributetype <{{REF:RFC2252}} Attribute Type Description>
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where Attribute Type Description is defined by the following
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{{TERM:BNF}}:
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> AttributeTypeDescription = "(" whsp
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> numericoid whsp ; AttributeType identifier
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> [ "NAME" qdescrs ] ; name used in AttributeType
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> [ "DESC" qdstring ] ; description
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> [ "OBSOLETE" whsp ]
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> [ "SUP" woid ] ; derived from this other
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> ; AttributeType
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> [ "EQUALITY" woid ; Matching Rule name
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> [ "ORDERING" woid ; Matching Rule name
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> [ "SUBSTR" woid ] ; Matching Rule name
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> [ "SYNTAX" whsp noidlen whsp ] ; Syntax OID
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> [ "SINGLE-VALUE" whsp ] ; default multi-valued
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> [ "COLLECTIVE" whsp ] ; default not collective
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> [ "NO-USER-MODIFICATION" whsp ]; default user modifiable
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> [ "USAGE" whsp AttributeUsage ]; default userApplications
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> whsp ")"
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>
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> AttributeUsage =
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> "userApplications" /
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> "directoryOperation" /
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> "distributedOperation" / ; DSA-shared
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> "dSAOperation" ; DSA-specific, value depends on server
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>
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where whsp is a space ('{{EX: }}'), numericoid is a globally unique
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OID in dotted-decimal form (e.g. {{EX:1.1.0}}), qdescrs is one or
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more names, woid is either the name or OID optionally followed
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by a length specifier (e.g {{EX:{10}}}).
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For example, the attribute types {{EX:name}} and {{EX:cn}} are defined
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in {{F:core.schema}} as:
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> attributeType ( 2.5.4.41 NAME 'name'
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> DESC 'name(s) associated with the object'
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> EQUALITY caseIgnoreMatch
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> SUBSTR caseIgnoreSubstringsMatch
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> SYNTAX 1.3.6.1.4.1.1466.115.121.1.15{32768} )
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> attributeType ( 2.5.4.3 NAME ( 'cn' 'commonName' )
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> DESC 'common name(s) assciated with the object'
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> SUP name )
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Notice that each defines the attribute's OID, provides a short name,
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and a brief description. Each name is an alias for the OID.
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{{slapd}}(8) returns the first listed name when returning results.
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The first attribute, {{EX:name}}, holds values of {{EX:directoryString}}
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(UTF-8 encoded Unicode) syntax. The syntax is specified by OID
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(1.3.6.1.4.1.1466.115.121.1.15 identifies the directoryString
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syntax). A length recommendation of 32768 is specified. Servers
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should support values of this length, but may support longer values
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The field does NOT specify a size constraint, so is ignored on
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servers (such as slapd) which don't impose such size limits. In
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addition, the equality and substring matching uses case ignore
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rules. Below are tables listing commonly used syntax and
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matching rules (OpenLDAP supports these and many more).
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!block table; align=Center; coltags="EX,EX,N"; \
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title="Table 8.3: Commonly Used Syntaxes"
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Name OID Description
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boolean 1.3.6.1.4.1.1466.115.121.1.7 boolean value
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distinguishedName 1.3.6.1.4.1.1466.115.121.1.12 DN
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directoryString 1.3.6.1.4.1.1466.115.121.1.15 UTF-8 string
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IA5String 1.3.6.1.4.1.1466.115.121.1.26 ASCII string
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Integer 1.3.6.1.4.1.1466.115.121.1.27 integer
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Name and Optional UID 1.3.6.1.4.1.1466.115.121.1.34 DN plus UID
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Numeric String 1.3.6.1.4.1.1466.115.121.1.36 numeric string
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OID 1.3.6.1.4.1.1466.115.121.1.38 object identifier
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Octet String 1.3.6.1.4.1.1466.115.121.1.40 arbitary octets
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Printable String 1.3.6.1.4.1.1466.115.121.1.44 printable string
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!endblock
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>
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!block table; align=Center; coltags="EX,N"; \
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title="Table 8.4: Commonly Used Matching Rules"
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Name Type Description
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booleanMatch equality boolean
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octetStringMatch equality octet string
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objectIdentiferMatch equality OID
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distinguishedNameMatch equality DN
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uniqueMemberMatch equality Name with optional UID
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numericStringMatch equality numerical
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numericStringOrderingMatch ordering numerical
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numericStringSubstringsMatch substrings numerical
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caseIgnoreMatch equality case insensitive, space insensitive
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caseIgnoreOrderingMatch ordering case insensitive, space insensitive
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caseIgnoreSubstringsMatch substrings case insensitive, space insensitive
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caseExactMatch equality case sensitive, space insensitive
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caseExactOrderingMatch ordering case sensitive, space insensitive
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caseExactSubstringsMatch substrings case sensitive, space insensitive
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caseIgnoreIA5Match equality case insensitive, space insensitive
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caseIgnoreIA5OrderingMatch ordering case insensitive, space insensitive
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caseIgnoreIA5SubstringsMatch substrings case insensitive, space insensitive
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caseExactIA5Match equality case sensitive, space insensitive
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caseExactIA5OrderingMatch ordering case sensitive, space insensitive
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caseExactIA5SubstringsMatch substrings case sensitive, space insensitive
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!endblock
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The second attribute, {{EX:cn}}, is a subtype of {{EX:name}} hence
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it inherits the syntax, matching rules, and usage of {{EX:name}}.
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{{EX:commonName}} is an alternative name.
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Neither attribute is restricted to a single value. Both are meant
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for usage by user applications. Neither is obsolete nor collective.
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The following subsections provide a couple of examples.
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H4: myUniqueName
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Many organizations maintain a single unique name for each user.
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Though one could use {{EX:displayName}} ({{REF:RFC2798}}), this
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attribute is really meant to be controlled by the user, not the
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organization. We could just copy the definition of {{EX:displayName}}
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from {{F:inetorgperson.schema}} and replace the OID, name, and
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description, e.g:
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> attributetype ( 1.1.2.1.1 NAME 'myUniqueName'
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> DESC 'unique name with my organization'
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> EQUALITY caseIgnoreMatch
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> SUBSTR caseIgnoreSubstringsMatch
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> SYNTAX 1.3.6.1.4.1.1466.115.121.1.15
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> SINGLE-VALUE )
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However, if we want this name to be included in
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{{EX:name}} assertions [e.g. {{EX:(name=*Jane*)}}], the attribute
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could alternatively be defined as a subtype of {{EX:name}}, e.g.:
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> attributetype ( 1.1.2.1.1 NAME 'myUniqueName'
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> DESC 'unique name with my organization'
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> SUP name )
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H4: myPhoto
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Many organizations maintain a photo of each each user. A
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{{EX:myPhoto}} attribute type could be defined to hold a photo.
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Of course, one could use just use {{EX:jpegPhoto}} ({{REF:RFC2798}})
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(or a subtype) to hold the photo. However, you can only do
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this if the photo is in {{JPEG File Interchange Format}}.
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Alternatively, an attribute type which uses the {{Octet String}}
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syntax can be defined, e.g.:
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> attributetype ( 1.1.2.1.2 NAME 'myPhoto'
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> DESC 'a photo (application defined format)'
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> SYNTAX 1.3.6.1.4.1.1466.115.121.1.40
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> SINGLE-VALUE )
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In this case, the syntax doesn't specify the format of the photo.
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It's assumed (maybe incorrectly) that all applications accessing
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this attribute agree on the handling of values.
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If you wanted to support multiple photo formats, you could define
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a separate attribute type for each format, prefix the photo
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with some typing information, or describe the value using
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{{TERM:ASN.1}} and use the {{EX:;binary}} transfer option.
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Another alternative is for the attribute to hold a {{TERM:URI}}
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pointing to the photo. You can model such an attribute after
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{{EX:labeledURI}} ({{REF:RFC2079}}) or simply create a subtype,
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e.g.:
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> attributetype ( 1.1.2.1.3 NAME 'myPhotoURI'
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> DESC 'URI and optional label referring to a photo'
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> SUP labeledURI )
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H3: Object Class Specification
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The {{objectclasses}} directive is used to define a new object
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class. The directive uses the same Object Class Description
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(as defined in {{REF:RFC2252}}) used by the objectClasses
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attribute found in the subschema subentry, e.g.:
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E: objectclass <{{REF:RFC2252}} Object Class Description>
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where Object Class Description is defined by the following
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{{TERM:BNF}}:
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> ObjectClassDescription = "(" whsp
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> numericoid whsp ; ObjectClass identifier
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> [ "NAME" qdescrs ]
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> [ "DESC" qdstring ]
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> [ "OBSOLETE" whsp ]
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> [ "SUP" oids ] ; Superior ObjectClasses
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> [ ( "ABSTRACT" / "STRUCTURAL" / "AUXILIARY" ) whsp ]
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> ; default structural
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> [ "MUST" oids ] ; AttributeTypes
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> [ "MAY" oids ] ; AttributeTypes
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> whsp ")"
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where whsp is a space ('{{EX: }}'), numericoid is a globally unique
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OID in numeric form (e.g. {{EX:1.1.0}}), qdescrs is one or more
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names, and oids is one or more names and/or OIDs.
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H4: myPhotoObject
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To define an {{auxiliary}} object class which allows
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myPhoto to be added to any existing entry.
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> objectclass ( 1.1.2.2.1 NAME 'myPhotoObject'
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> DESC 'mixin myPhoto'
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> AUXILIARY
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> MAY myPhoto )
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H4: myPerson
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If your organization would like have a private {{structural}}
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object class to instantiate users, you can subclass one of
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the existing person classes, such as {{EX:inetOrgPerson}}
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({{REF:RFC2798}}), and add any additional attributes which
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you desire.
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> objectclass ( 1.1.2.2.2 NAME 'myPerson'
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> DESC 'my person'
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> SUP inetOrgPerson
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> MUST ( myUniqueName $ givenName )
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> MAY myPhoto )
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The object class inherits the required/allowed attribute
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types of {{EX:inetOrgPerson}} but requires {{EX:myUniqueName}}
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and {{EX:givenName}} and allows {{EX:myPhoto}}.
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!if 0
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H2: Transferring Schema
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Since the {{slapd.conf}}(5) schema directives use {{REF:RFC2252}}
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format values, you can extract schema elements published by
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any LDAPv3 server and easily construct directives for use with
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{{slapd}}(8).
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LDAPv3 servers publish schema elements in special {{subschema}}
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entries (or subentries). While {{slapd}}(8) publishes a single
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subschema subentry normally named {{EX:cn=Subschema}}, this behavior
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cannot be expected from other servers. The subschema subentry
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controlling a particular entry can be obtained by examining the
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{{EX:subschemaSubentry}} attribute contained in the entry at the
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root of each administrative context. For example,
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> ldapsearch -LLL -x -b "dc=example,dc=com" -s base "(objectclass=*)" subschemaSubentry
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To obtain the schema from a subschema subentry, you can use
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ldapsearch(1) as follows (replace the search base as needed):
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> ldapsearch -LLL -x -b "cn=Subschema" -s base "(objectclass=subschema)" attributeTypes objectClasses
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where "cn=Subschema" is the value of subschemaSubentry returned in
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the prior search.
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This will return {{TERM:LDIF}} output containing many type/value
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pairs. The following is an abbreviated example:
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> dn: cn=Subschema
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> objectClasses: ( 1.1.2.2.2 NAME 'myPerson' DESC 'my person' SUP inet
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> OrgPerson MUST ( myUniqueName $ givenName ) MAY myPhoto )
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> attributeTypes: ( 1.1.2.1.1 NAME 'myUniqueName' DESC 'unique name wi
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> th my organization' EQUALITY caseIgnoreMatch SUBSTR caseIgnoreSubst
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> ringsMatch SYNTAX 1.3.6.1.4.1.1466.115.121.1.15 SINGLE-VALUE )
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> attributeTypes: ( 1.1.2.1.2 NAME 'myPhoto' DESC 'a photo (applicatio
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> n defined format)' SYNTAX 1.3.6.1.4.1.1466.115.121.1.40
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Capture the output of the search in a file and then edit the file:
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+ to contain only desired type/value pairs
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^ join LDIF continuation lines
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^ replace attribute type with directive name
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(e.g. {{EX:s/attributeTypes:/attributeType /}} and
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|
{{EX:s/objectClasses:/objectClass /}}).
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|
^ reorder lines so each element is defined before first use
|
|
^ continue long directives over multiple lines
|
|
|
|
For the three type/value pairs in our example, the edit should
|
|
result in a file with contains of:
|
|
|
|
> attributetype ( 1.1.2.1.1 NAME 'myUniqueName'
|
|
> DESC 'unique name with my organization'
|
|
> EQUALITY caseIgnoreMatch
|
|
> SUBSTR caseIgnoreSubstringsMatch
|
|
> SYNTAX 1.3.6.1.4.1.1466.115.121.1.15
|
|
> SINGLE-VALUE )
|
|
> attributeType ( 1.1.2.1.2 NAME 'myPhoto'
|
|
> DESC 'a photo (application defined format)'
|
|
> SYNTAX 1.3.6.1.4.1.1466.115.121.1.40
|
|
> objectClass ( 1.1.2.2.2 NAME 'myPerson'
|
|
> DESC 'my person'
|
|
> SUP inetOrgPerson
|
|
> MUST ( myUniqueName $ givenName )
|
|
> MAY myPhoto )
|
|
|
|
Save in an appropriately named file (e.g. {{F:local.schema}}).
|
|
You may now include this file in your {{slapd.conf}}(5) file.
|
|
!endif
|
|
|
|
|
|
H3: OID Macros
|
|
|
|
To ease the management and use of OIDs, {{slapd}}(8) supports
|
|
{{Object Identifier}} macros. The {{EX:objectIdentifier}} directive
|
|
is used to equate a macro (name) with a OID. The OID may possibly
|
|
be derived from a previously defined OID macro. The {{slapd.conf}}(5)
|
|
syntax is:
|
|
|
|
E: objectIdentifier <name> { <oid> | <name>[:<suffix>] }
|
|
|
|
The following demonstrates definition of a set of OID macros
|
|
and their use in defining schema elements:
|
|
|
|
> objectIdentifier myOID 1.1
|
|
> objectIdentifier mySNMP myOID:1
|
|
> objectIdentifier myLDAP myOID:2
|
|
> objectIdentifier myAttributeType myLDAP:1
|
|
> objectIdentifier myObjectClass myLDAP:2
|
|
> attributetype ( myAttributeType:3 NAME 'myPhotoURI'
|
|
> DESC 'URI and optional label referring to a photo'
|
|
> SUP labeledURI )
|
|
> objectclass ( myObjectClass:1 NAME 'myPhotoObject'
|
|
> DESC 'mixin myPhoto'
|
|
> AUXILIARY
|
|
> MAY myPhoto )
|
|
|