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# $OpenLDAP$
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# Copyright 1999-2000, The OpenLDAP Foundation, All Rights Reserved.
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# COPYING RESTRICTIONS APPLY, see COPYRIGHT.
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H1: Introduction to slapd and slurpd
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This document describes how to build, configure, and run the stand-alone
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{{TERM:LDAP}} daemon, {{slapd}}(8) and the stand-alone LDAP update replication
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daemon, {{slurpd}}(8). It is intended for newcomers and experienced
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administrators alike. This section provides a basic introduction to
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directory services and, in particular, the directory services provided
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by {{slapd}}(8).
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H2: What is a directory service?
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A directory is specialized database optimized for reading, browsing and
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searching. Directories tend to contain descriptive, attribute-based
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information and support sophisticated filtering capabilities. Directories
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are generally do not support complicated transaction or roll-back schemes
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found in database management systems designed for handling high-volume
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complex updates. Directory updates are typically simple all-or-nothing
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changes, if they are allowed at all. Directories are tuned to give
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quick-response to high-volume lookup or search operations. They may have
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the ability to replicate information widely in order to increase
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availability and reliability, while reducing response time. When
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directory information is replicated, temporary inconsistencies between
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the replicas may be OK, as long as they get in sync eventually.
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There are many different ways to provide a directory service. Different
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methods allow different kinds of information to be stored in the directory,
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place different requirements on how that information can be referenced,
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queried and updated, how it is protected from unauthorized access, etc.
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Some directory services are {{local}}, providing service to a restricted
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context (e.g., the finger service on a single machine). Other services are
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global, providing service to a much broader context (e.g., the entire Internet).
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Global services are usually {{distributed}}, meaning that the data they
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contain is spread across many machines, all of which cooperate to provide
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the directory service. Typically a global service defines a uniform
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{{namespace}} which gives the same view of the data no matter where
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you are in relation to the data itself. The Internet {{TERM[expand]DNS}}
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is an example of a globally distributed directory service.
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H2: What is LDAP?
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{{slapd}}'s model for directory service is based on a global directory
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model called {{TERM:LDAP}}. LDAP stands for {{TERM[expand]LDAP}}.
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LDAP is a directory access protocol that runs over
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{{TERM:TCP}}/{{TERM:IP}}. The nitty-gritty details of LDAP are defined in
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{{REF:RFC2251}} "The Lightweight Directory Access Protocol (v3)."
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This section gives an overview of LDAP from a user's perspective.
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{{What kind of information can be stored in the directory?}}
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The LDAP information model is based on {{entries}}. An entry is a
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collection of attributes that has a globally-unique
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{{TERM[expand]DN}} (DN).
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The DN is used to refer to the entry unambiguously. Each of the
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entry's attributes has a {{type}} and one or more {{values}}.
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The types are typically mnemonic strings, like "{{EX:cn}}" for common
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name, or "{{EX:mail}}" for email address. The syntax of values depend
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on the attribute type is. For example, {{EX:cn}} attribute might
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be the value {{EX: Babs Jensen}}. A {{EX:mail}} attribute might
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contain the value "{{EX:babs@openldap.org}}". A {{EX:jpegPhoto}}
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attribute would contain a photograph in the JPEG (binary) format.
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{{How is the information arranged?}}
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In LDAP, directory entries are arranged in a hierarchical tree-like
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structure. Traditionally, this structure reflected the geographic
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and/or organizational boundaries. Entries representing countries
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appeared at the top of the tree. Below them are entries representing
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states and national organizations. Below them might be entries
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representing organizational units, people, printers, documents,
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or just about anything else you can think of. Figure 1.1 shows an
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example LDAP directory tree using traditional naming.
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!import "intro_tree.gif"; align="center"; \
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title="LDAP directory tree (traditional naming)"
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FT[align="Center"] Figure 1.1: LDAP directory tree (traditional naming)
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The tree may also be arranged based upon Internet domain names.
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Figure 1.2 shows an example using this increasing popular naming approach.
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!import "intro_dctree.gif"; align="center"; \
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title="LDAP directory tree (Internet naming)"
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FT[align="Center"] Figure 1.2: LDAP directory tree (Internet naming)
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In addition, LDAP allows you to control which attributes are required
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and allowed in an entry through the use of a special attribute called
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{{objectClass}}. The values of the {{objectClass}} attribute
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determine the {{schema}} rules the entry must obey.
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{{How is the information referenced?}}
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An entry is referenced by its distinguished name, which is constructed
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by taking the name of the entry itself (called the {{TERM[expand]RDN}}
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or RDN) and concatenating the names of its ancestor entries. For
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example, the entry for Barbara Jensen in the Internet naming example
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above has an RDN of {{EX:uid=babs}} and a DN of
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{{EX:uid=babs, ou=People, dc=OpenLDAP, dc=com}}". The full DN format is
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described in {{REF:RFC2253}}, "Lightweight Directory Access Protocol (v3):
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UTF-8 String Representation of Distinguished Names."
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{{How is the information accessed?}}
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LDAP defines operations for interrogating and updating the directory.
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Operations are provided for adding and deleting
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an entry from the directory, changing an existing entry, and changing the
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name of an entry. Most of the time, though, LDAP is used to search for
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information in the directory. The LDAP search operation allows some portion
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of the directory to be searched for entries that match some criteria specified
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by a search filter. Information can be requested from each entry that matches
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the criteria.
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For example, you might want to search the entire directory subtree at
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and below {{EX:dc=OpenLDAP,dc=org}} for people with the name {{EX:Barbara
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Jensen}}, retrieving the email address of each entry found. LDAP lets
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you do this easily. Or you might want to search the entries directly
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below the {{EX:st=California, c=US}} entry for organizations with the
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string {{EX:Acme}} in their name, and that have a fax number. LDAP lets
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you do this too. The next section describes in more detail what you can
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do with LDAP and how it might be useful to you.
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{{How is the information protected from unauthorized access?}}
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Some directory services provide no protection, allowing anyone to see
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the information. LDAP provides a method for a client to authenticate,
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or prove its identity to a directory server, paving the way for rich
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access control to protect the information the server contains.
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H2: How does LDAP work?
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LDAP directory service is based on a {{client-server}} model. One or more
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LDAP servers contain the data making up the LDAP directory tree. An LDAP
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client connects to an LDAP server and asks it a question. The server
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responds with the answer and/or with a pointer to where the client can
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get additional information (typically, another LDAP server). No matter
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which LDAP server a client connects to, it sees the same view of the
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directory; a name presented to one LDAP server references the same
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entry it would at another LDAP server. This is an important feature of
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a global directory service, like LDAP.
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H2: What is slapd and what can it do?
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{{slapd}} is an LDAP directory server that runs on many different
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platforms. You can use it to provide a directory service of your very own.
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Your directory can contain pretty much anything you want to put in it. You
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can connect it to the global LDAP directory service, or run a service all by
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yourself. Some of slapd's more interesting features and capabilities include:
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{{B:LDAPv2}} and {{B:LDAPv3}}: {{slapd}} supports both version 2 and 3
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of the {{TERM[expand]LDAP}}. {{slapd}} provides support
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for the latest features while maintaining interoperability with existing
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clients. {{slapd}} supports both IPv4 and IPv6 protocols.
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{{B:{{TERM[expand]SASL}}}}: {{slapd}} supports
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strong authentication services through the use of SASL. {{slapd}}'s
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SASL implementation utilizes {{PRD:Cyrus}} software which supports
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a number of mechanisms including DIGEST-MD5, EXTERNAL, and GSSAPI.
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{{B:{{TERM[expand]TLS}}}}: {{slapd}} provides privacy and
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integrity protections through the use of TLS (or SSL). {{slapd}}'s
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TLS implementation utilizes {{PRD:OpenSSL}} software.
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{{B:Access control}}: {{slapd}} provides a rich and powerful access
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control facility, allowing you to control access to the information
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in your database(s). You can control access to entries based on
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LDAP authorization information, {{TERM:IP}} address, domain name
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and other criteria.
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{{slapd}} supports both {{static}} and {{dynamic}} access control
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information.
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{{B:Internationalization}}: {{slapd}} supports Unicode and language
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tags.
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{{B:Choice of databases}}: {{slapd}} comes with a variety of different
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backend databases you can choose from. They include
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{{TERM:LDBM}}, a high-performance disk-based {{embedded}} database;
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SHELL, a database interface to arbitrary shell scripts; and
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PASSWD, a simple password file database. LDBM utilizes either
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{{PRD:BerkeleyDB}} or {{PRD:GDBM}}.
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{{B:Multiple database instances}}: {{slapd}} can be configured to serve
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multiple databases at the same time. This means that a single {{slapd}}
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server can respond to requests for many logically different portions
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of the LDAP tree, using the same or different backend databases.
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{{B:Generic modules API}}: If you require even more customization,
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{{slapd}} lets you write your own modules easily. {{slapd}}
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consists of two distinct parts: a front end that handles protocol
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communication with LDAP clients; and modules which handles specific
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tasks such as database operations. Because these two pieces communicate
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via a well-defined C API, you can write your own customized modules
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which extend {{slapd}} in numerous ways. Also, a number of
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{{programmable database}} modules are provided. These allowing you
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to expose external data sources to {{slapd}} using popular programming
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languages ({{PRD:Perl}}, {{Shell}}, {{PRD:SQL}}, and {{PRD:TCL}}.
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{{B:Threads}}: {{slapd}} is threaded for high performance. A
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single multi-threaded {{slapd}} process handles all incoming
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requests, reducing the amount of system overhead required.
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{{B:Replication}}: {{slapd}} can be configured to maintain replica
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copies of its database. This {{single-master/multiple-slave}}
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replication scheme is vital in high-volume environments where a
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single {{slapd}} just doesn't provide the necessary availability
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or reliability. {{slapd}}
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also includes experimental support for {{multi-master}} replication.
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{{B:Configuration}}: {{slapd}} is highly configurable through a
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single configuration file which allows you to change just about
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everything you'd ever want to change. Configuration options have
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reasonable defaults, making your job much easier.
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{{slapd}} also has its limitations, of course. The main LDBM
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database backend does not handle range queries or negation queries
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very well. These features and more will be coming in a future release.
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H2: What about X.500?
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Technically, LDAP is a directory access protocol to an {{TERM:X.500}}
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directory service, the {{TERM:OSI}} directory service. Initial
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LDAP servers were were gateway between LDAP and the X.500
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{{TERM[expand]DAP}} ({{TERM:DAP}}).
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DAP is a heavyweight protocol that runs over a full OSI protocol stack
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and requires a significant amount of computing resources to run.
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LDAP is designed to operate over {{TERM:TCP}}/{{TERM:IP}} and provides
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most of the functionality of DAP at a much lower cost.
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This use of LDAP makes it easy to access the X.500 directory, but still
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requires a full X.500 service to make data available to the many LDAP
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clients being developed. As with full X.500 DAP clients, a full X.500
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DAP server is no small piece of software to run.
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The stand-alone LDAP daemon, or {{slapd}}(8), is meant to remove much
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of the burden from the server side just as LDAP itself removed much of
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the burden from clients. If you are already running an X.500 DAP service
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and you want to continue to do so, you can probably stop reading this
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guide, which is all about running LDAP via {{slapd}}, without running
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X.500 DAP. If you are not running X.500 DAP, want to stop running
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X.500 DAP, or have no immediate plans to run X.500 DAP, read on.
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It is possible to replicate data from a {{slapd}} directory
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server to a X.500 {{TERM:DSA}}, which allows your organization to
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make your data available as part of the global X.500 DAP directory
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service on a "read-only" basis. This is discussed in section 11.6.
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Another way to make data in a {{slapd}} server available to the
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X.500 community would be by using a X.500 DAP to LDAP gateway. At
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this time, no such software has been written (to the best of our
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knowledge), but hopefully some group will see fit to write such a
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gateway.
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H2: What is slurpd and what can it do?
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2000-07-30 23:18:10 +08:00
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{{slurpd}}(8) is a daemon that helps {{slapd}} provide
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replicated service. It is responsible for distributing changes made
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to the master {{slapd}} database out to the various {{slapd}}
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replicas. It frees {{slapd}} from having to worry that some
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replicas might be down or unreachable when a change comes through;
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{{slurpd}} handles retrying failed requests automatically.
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{{slapd}} and {{slurpd}} communicate through a simple text
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file that is used to log changes.
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