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diff --git a/doc/guide/admin/backends.sdf b/doc/guide/admin/backends.sdf new file mode 100644 index 0000000..0e33627 --- /dev/null +++ b/doc/guide/admin/backends.sdf @@ -0,0 +1,589 @@ +# $OpenLDAP$ +# Copyright 2007-2018 The OpenLDAP Foundation, All Rights Reserved. +# COPYING RESTRICTIONS APPLY, see COPYRIGHT. + +H1: Backends + +Backends do the actual work of storing or retrieving data in response +to LDAP requests. Backends may be compiled statically into {{slapd}}, +or when module support is enabled, they may be dynamically loaded. + +If your installation uses dynamic modules, you may need to add the +relevant {{moduleload}} directives to the examples that follow. The +name of the module for a backend is usually of the form: + +> back_<backend name>.la + +So for example, if you need to load the {{hdb}} backend, you would configure + +> moduleload back_hdb.la + +H2: Berkeley DB Backends + + +H3: Overview + +The {{hdb}} backend to {{slapd}}(8) is a backend for a +normal {{slapd}} database. It uses the Oracle Berkeley DB ({{TERM:BDB}}) +package to store data. It makes extensive use of indexing and caching +(see the {{SECT:Tuning}} section) to speed data access. + +{{hdb}} is a variant of the original {{bdb}} backend which was first written for use with BDB. +{{hdb}} uses a hierarchical database layout which supports subtree renames. +It is otherwise identical to the {{bdb}} +behavior, and all the same configuration options apply. + +Note: An {{hdb}} database needs a large {{idlcachesize}} for good search performance, +typically three times the {{cachesize}} (entry cache size) or larger. + +Note: The {{hdb}} backend has superseded the {{bdb}} backend, and both will +soon be deprecated in favor of the new {{mdb}} backend. See below. + +H3: back-bdb/back-hdb Configuration + +MORE LATER + +H3: Further Information + +{{slapd-bdb}}(5) + +H2: LDAP + + +H3: Overview + +The LDAP backend to {{slapd}}(8) is not an actual database; instead it acts +as a proxy to forward incoming requests to another LDAP server. While +processing requests it will also chase referrals, so that referrals are fully +processed instead of being returned to the {{slapd}} client. + +Sessions that explicitly {{Bind}} to the {{back-ldap}} database always create +their own private connection to the remote LDAP server. Anonymous sessions +will share a single anonymous connection to the remote server. For sessions +bound through other mechanisms, all sessions with the same DN will share the +same connection. This connection pooling strategy can enhance the proxy's +efficiency by reducing the overhead of repeatedly making/breaking multiple +connections. + +The ldap database can also act as an information service, i.e. the identity +of locally authenticated clients is asserted to the remote server, possibly +in some modified form. For this purpose, the proxy binds to the remote server +with some administrative identity, and, if required, authorizes the asserted +identity. + +It is heavily used by a lot of other {{SECT: Backends}} and {{SECT: Overlays}}. + +H3: back-ldap Configuration + +As previously mentioned, {{slapd-ldap(5)}} is used behind the scenes by many +other {{SECT: Backends}} and {{SECT: Overlays}}. Some of them merely provide a +few configuration directive themselves, but have available to the administrator +the whole of the {{slapd-ldap(5)}} options. + +For example, the {{SECT: Translucent Proxy}}, which retrieves entries from a +remote LDAP server that can be partially overridden by the defined database, has +only four specific {{translucent-}} directives, but can be configured using any +of the normal {{slapd-ldap(5)}} options. See {[slapo-translucent(5)}} for details. + +Other {{SECT: Overlays}} allow you to tag directives in front of a normal +{{slapd-ldap(5)}} directive. For example, the {{slapo-chain(5)}} overlay does +this: + +{{"There are very few chain overlay specific directives; however, directives +related to the instances of the ldap backend that may be implicitly instantiated +by the overlay may assume a special meaning when used in conjunction with this +overlay. They are described in slapd-ldap(5), and they also need to be prefixed +by chain-."}} + +You may have also seen the {{slapd-ldap(5)}} backend used and described in the +{{SECT: Push Based}} {{SECT: Replication}} section of the guide. + +It should therefore be obvious that the {{slapd-ldap(5)}} backend is extremely +flexible and heavily used throughout the OpenLDAP Suite. + +The following is a very simple example, but already the power of the {{slapd-ldap(5)}} +backend is seen by use of a {{uri list}}: + +> database ldap +> suffix "dc=suretecsystems,dc=com" +> rootdn "cn=slapd-ldap" +> uri ldap://localhost/ ldap://remotehost ldap://remotehost2 + +The URI list is space or comma-separated. Whenever the server that responds +is not the first one in the list, the list is rearranged and the responsive +server is moved to the head, so that it will be first contacted the next time +a connection needs be created. + +This feature can be used to provide a form of load balancing when using +{{SECT: MirrorMode replication}}. + +H3: Further Information + +{{slapd-ldap}}(5) + +H2: LDIF + + +H3: Overview + +The LDIF backend to {{slapd}}(8) is a basic storage backend that stores +entries in text files in LDIF format, and exploits the filesystem to create +the tree structure of the database. It is intended as a cheap, low performance +easy to use backend. + +When using the {{cn=config}} dynamic configuration database with persistent +storage, the configuration data is stored using this backend. See {{slapd-config}}(5) +for more information + +H3: back-ldif Configuration + +Like many other backends, the LDIF backend can be instantiated with very few +configuration lines: + +> include ./schema/core.schema +> +> database ldif +> directory ./ldif +> suffix "dc=suretecsystems,dc=com" +> rootdn "cn=LDIF,dc=suretecsystems,dc=com" +> rootpw LDIF + +If we add the {{dcObject}} for {{dc=suretecsystems,dc=com}}, you can see how this +is added behind the scenes on the file system: + +> dn: dc=suretecsystems,dc=com +> objectClass: dcObject +> objectClass: organization +> dc: suretecsystems +> o: Suretec Systems Ltd + +Now we add it to the directory: + +> ldapadd -x -H ldap://localhost:9011 -f suretec.ldif -D "cn=LDIF,dc=suretecsystems,dc=com" -w LDIF +> adding new entry "dc=suretecsystems,dc=com" + +And inside {{F: ./ldif}} we have: + +> ls ./ldif +> dc=suretecsystems,dc=com.ldif + +which again contains: + +> cat ldif/dc\=suretecsystems\,dc\=com.ldif +> +> dn: dc=suretecsystems +> objectClass: dcObject +> objectClass: organization +> dc: suretecsystems +> o: Suretec Systems Ltd. +> structuralObjectClass: organization +> entryUUID: 2134b714-e3a1-102c-9a15-f96ee263886d +> creatorsName: cn=LDIF,dc=suretecsystems,dc=com +> createTimestamp: 20080711142643Z +> entryCSN: 20080711142643.661124Z#000000#000#000000 +> modifiersName: cn=LDIF,dc=suretecsystems,dc=com +> modifyTimestamp: 20080711142643Z + +This is the complete format you would get when exporting your directory using +{{F: slapcat}} etc. + +H3: Further Information + +{{slapd-ldif}}(5) + +H2: LMDB + + +H3: Overview + +The {{mdb}} backend to {{slapd}}(8) is the recommended primary backend for a +normal {{slapd}} database. It uses OpenLDAP's own +Lightning Memory-Mapped Database ({{TERM:LMDB}}) +library to store data and is intended to replace the Berkeley DB backends. + +It supports indexing like the BDB backends, but it uses no caching and requires +no tuning to deliver maximum search performance. Like {{hdb}}, it is also +fully hierarchical and supports subtree renames in constant time. + +H3: back-mdb Configuration + +Unlike the BDB backends, the {{mdb}} backend can be instantiated with very few +configuration lines: + +> include ./schema/core.schema +> +> database mdb +> directory ./mdb +> suffix "dc=suretecsystems,dc=com" +> rootdn "cn=mdb,dc=suretecsystems,dc=com" +> rootpw mdb +> maxsize 1073741824 + +In addition to the usual parameters that a minimal configuration requires, the {{mdb}} +backend requires a maximum size to be set. This should be the largest that +the database is ever anticipated to grow (in bytes). The filesystem must also +provide enough free space to accommodate this size. + +H3: Further Information + +{{slapd-mdb}}(5) + +H2: Metadirectory + + +H3: Overview + +The meta backend to {{slapd}}(8) performs basic LDAP proxying with respect +to a set of remote LDAP servers, called "targets". The information contained +in these servers can be presented as belonging to a single Directory Information +Tree ({{TERM:DIT}}). + +A basic knowledge of the functionality of the {{slapd-ldap}}(5) backend is +recommended. This backend has been designed as an enhancement of the ldap +backend. The two backends share many features (actually they also share portions + of code). While the ldap backend is intended to proxy operations directed + to a single server, the meta backend is mainly intended for proxying of + multiple servers and possibly naming context masquerading. + +These features, although useful in many scenarios, may result in excessive +overhead for some applications, so its use should be carefully considered. + + +H3: back-meta Configuration + +LATER + +H3: Further Information + +{{slapd-meta}}(5) + +H2: Monitor + + +H3: Overview + +The monitor backend to {{slapd}}(8) is not an actual database; if enabled, +it is automatically generated and dynamically maintained by slapd with +information about the running status of the daemon. + +To inspect all monitor information, issue a subtree search with base {{cn=Monitor}}, +requesting that attributes "+" and "*" are returned. The monitor backend produces +mostly operational attributes, and LDAP only returns operational attributes +that are explicitly requested. Requesting attribute "+" is an extension which +requests all operational attributes. + +See the {{SECT:Monitoring}} section. + +H3: back-monitor Configuration + +The monitor database can be instantiated only once, i.e. only one occurrence +of "database monitor" can occur in the {{slapd.conf(5)}} file. Also the suffix +is automatically set to {{"cn=Monitor"}}. + +You can however set a {{rootdn}} and {{rootpw}}. The following is all that is +needed to instantiate a monitor backend: + +> include ./schema/core.schema +> +> database monitor +> rootdn "cn=monitoring,cn=Monitor" +> rootpw monitoring + +You can also apply Access Control to this database like any other database, for +example: + +> access to dn.subtree="cn=Monitor" +> by dn.exact="uid=Admin,dc=my,dc=org" write +> by users read +> by * none + +Note: The {{F: core.schema}} must be loaded for the monitor database to work. + +A small example of the data returned via {{ldapsearch}} would be: + +> ldapsearch -x -H ldap://localhost:9011 -b 'cn=Monitor' +> # extended LDIF +> # +> # LDAPv3 +> # base <cn=Monitor> with scope subtree +> # filter: (objectclass=*) +> # requesting: ALL +> # +> +> # Monitor +> dn: cn=Monitor +> objectClass: monitorServer +> cn: Monitor +> description: This subtree contains monitoring/managing objects. +> description: This object contains information about this server. +> description: Most of the information is held in operational attributes, which +> must be explicitly requested. +> +> # Backends, Monitor +> dn: cn=Backends,cn=Monitor +> objectClass: monitorContainer +> cn: Backends +> description: This subsystem contains information about available backends. + +Please see the {{SECT: Monitoring}} section for complete examples of information +available via this backend. + +H3: Further Information + +{{slapd-monitor}}(5) + +H2: Null + + +H3: Overview + +The Null backend to {{slapd}}(8) is surely the most useful part of slapd: + +* Searches return success but no entries. +* Compares return compareFalse. +* Updates return success (unless readonly is on) but do nothing. +* Binds other than as the rootdn fail unless the database option "bind on" is given. +* The slapadd(8) and slapcat(8) tools are equally exciting. + +Inspired by the {{F:/dev/null}} device. + +H3: back-null Configuration + +This has to be one of the shortest configurations you'll ever do. In order to +test this, your {{F: slapd.conf}} file would look like: + +> database null +> suffix "cn=Nothing" +> bind on + +{{bind on}} means: + +{{"Allow binds as any DN in this backend's suffix, with any password. The default is "off"."}} + +To test this backend with {{ldapsearch}}: + +> ldapsearch -x -H ldap://localhost:9011 -D "uid=none,cn=Nothing" -w testing -b 'cn=Nothing' +> # extended LDIF +> # +> # LDAPv3 +> # base <cn=Nothing> with scope subtree +> # filter: (objectclass=*) +> # requesting: ALL +> # +> +> # search result +> search: 2 +> result: 0 Success +> +> # numResponses: 1 + + +H3: Further Information + +{{slapd-null}}(5) + +H2: Passwd + + +H3: Overview + +The PASSWD backend to {{slapd}}(8) serves up the user account information +listed in the system {{passwd}}(5) file (defaulting to {{F: /etc/passwd}}). + +This backend is provided for demonstration purposes only. The DN of each entry +is "uid=<username>,<suffix>". + +H3: back-passwd Configuration + +The configuration using {{F: slapd.conf}} a slightly longer, but not much. For +example: + +> include ./schema/core.schema +> +> database passwd +> suffix "cn=passwd" + +Again, testing this with {{ldapsearch}} would result in something like: + +> ldapsearch -x -H ldap://localhost:9011 -b 'cn=passwd' +> # extended LDIF +> # +> # LDAPv3 +> # base <cn=passwd> with scope subtree +> # filter: (objectclass=*) +> # requesting: ALL +> # +> +> # passwd +> dn: cn=passwd +> cn: passwd +> objectClass: organizationalUnit +> +> # root, passwd +> dn: uid=root,cn=passwd +> objectClass: person +> objectClass: uidObject +> uid: root +> cn: root +> sn: root +> description: root + + +H3: Further Information + +{{slapd-passwd}}(5) + +H2: Perl/Shell + +H3: Overview + +The Perl backend to {{slapd}}(8) works by embedding a {{perl}}(1) interpreter +into {{slapd}}(8). Any perl database section of the configuration file +{{slapd.conf}}(5) must then specify what Perl module to use. Slapd then creates +a new Perl object that handles all the requests for that particular instance of the backend. + +The Shell backend to {{slapd}}(8) executes external programs to implement +operations, and is designed to make it easy to tie an existing database to the +slapd front-end. This backend is primarily intended to be used in prototypes. + +H3: back-perl/back-shell Configuration + +LATER + +H3: Further Information + +{{slapd-shell}}(5) and {{slapd-perl}}(5) + +H2: Relay + + +H3: Overview + +The primary purpose of this {{slapd}}(8) backend is to map a naming context +defined in a database running in the same {{slapd}}(8) instance into a +virtual naming context, with attributeType and objectClass manipulation, if +required. It requires the rwm overlay. + +This backend and the above mentioned overlay are experimental. + +H3: back-relay Configuration + +LATER + +H3: Further Information + +{{slapd-relay}}(5) + +H2: SQL + + +H3: Overview + +The primary purpose of this {{slapd}}(8) backend is to PRESENT information +stored in some RDBMS as an LDAP subtree without any programming (some SQL and +maybe stored procedures can't be considered programming, anyway ;). + +That is, for example, when you (some ISP) have account information you use in +an RDBMS, and want to use modern solutions that expect such information in LDAP +(to authenticate users, make email lookups etc.). Or you want to synchronize or +distribute information between different sites/applications that use RDBMSes +and/or LDAP. Or whatever else... + +It is {{B:NOT}} designed as a general-purpose backend that uses RDBMS instead of +BerkeleyDB (as the standard BDB backend does), though it can be used as such with +several limitations. Please see {{SECT: LDAP vs RDBMS}} for discussion. + +The idea is to use some meta-information to translate LDAP queries to SQL queries, +leaving relational schema untouched, so that old applications can continue using +it without any modifications. This allows SQL and LDAP applications to interoperate +without replication, and exchange data as needed. + +The SQL backend is designed to be tunable to virtually any relational schema without +having to change source (through that meta-information mentioned). Also, it uses +ODBC to connect to RDBMSes, and is highly configurable for SQL dialects RDBMSes +may use, so it may be used for integration and distribution of data on different +RDBMSes, OSes, hosts etc., in other words, in highly heterogeneous environments. + +This backend is experimental. + +H3: back-sql Configuration + +This backend has to be one of the most abused and complex backends there is. +Therefore, we will go through a simple, small example that comes with the +OpenLDAP source and can be found in {{F: servers/slapd/back-sql/rdbms_depend/README}} + +For this example we will be using PostgreSQL. + +First, we add to {{F: /etc/odbc.ini}} a block of the form: + +> [example] <=== +> Description = Example for OpenLDAP's back-sql +> Driver = PostgreSQL +> Trace = No +> Database = example <=== +> Servername = localhost +> UserName = manager <=== +> Password = secret <=== +> Port = 5432 +> ;Protocol = 6.4 +> ReadOnly = No +> RowVersioning = No +> ShowSystemTables = No +> ShowOidColumn = No +> FakeOidIndex = No +> ConnSettings = + +The relevant information for our test setup is highlighted with '<===' on the +right above. + +Next, we add to {{F: /etc/odbcinst.ini}} a block of the form: + +> [PostgreSQL] +> Description = ODBC for PostgreSQL +> Driver = /usr/lib/libodbcpsql.so +> Setup = /usr/lib/libodbcpsqlS.so +> FileUsage = 1 + + +We will presume you know how to create a database and user in PostgreSQL and +how to set a password. Also, we'll presume you can populate the 'example' +database you've just created with the following files, as found in {{F: servers/slapd/back-sql/rdbms_depend/pgsql }} + +> backsql_create.sql, testdb_create.sql, testdb_data.sql, testdb_metadata.sql + +Lastly, run the test: + +> [root@localhost]# cd $SOURCES/tests +> [root@localhost]# SLAPD_USE_SQL=pgsql ./run sql-test000 + +Briefly, you should see something like (cut short for space): + +> Cleaning up test run directory leftover from previous run. +> Running ./scripts/sql-test000-read... +> running defines.sh +> Starting slapd on TCP/IP port 9011... +> Testing SQL backend read operations... +> Waiting 5 seconds for slapd to start... +> Testing correct bind... dn:cn=Mitya Kovalev,dc=example,dc=com +> Testing incorrect bind (should fail)... ldap_bind: Invalid credentials (49) +> +> ...... +> +> Filtering original ldif... +> Comparing filter output... +> >>>>> Test succeeded + +The test is basically readonly; this can be performed by all RDBMSes +(listed above). + +There is another test, sql-test900-write, which is currently enabled +only for PostgreSQL and IBM db2. + +Using {{F: sql-test000}}, files in {{F: servers/slapd/back-sql/rdbms_depend/pgsql/}} +and the man page, you should be set. + +Note: This backend is experimental. + +H3: Further Information + +{{slapd-sql}}(5) and {{F: servers/slapd/back-sql/rdbms_depend/README}} |