1 .TH SLAPD.CONF 5 "RELEASEDATE" "OpenLDAP LDVERSION"
2 .\" Copyright 1998-2006 The OpenLDAP Foundation All Rights Reserved.
3 .\" Copying restrictions apply. See COPYRIGHT/LICENSE.
6 slapd.conf \- configuration file for slapd, the stand-alone LDAP daemon
12 contains configuration information for the
14 daemon. This configuration file is also used by the
16 replication daemon and by the SLAPD tools
28 file consists of a series of global configuration options that apply to
30 as a whole (including all backends), followed by zero or more database
31 backend definitions that contain information specific to a backend
33 The configuration options are case-insensitive;
34 their value, on a case by case basis, may be case-sensitive.
41 # comment - these options apply to every database
42 <global configuration options>
43 # first database definition & configuration options
44 database <backend 1 type>
45 <configuration options specific to backend 1>
46 # subsequent database definitions & configuration options
50 As many backend-specific sections as desired may be included. Global
51 options can be overridden in a backend (for options that appear more
52 than once, the last appearance in the
56 If a line begins with white space, it is considered a continuation
57 of the previous line. Blank lines and comment lines beginning with
58 a `#' character are ignored. Note: continuation lines are unwrapped
59 before comment processing is applied.
61 Arguments on configuration lines are separated by white space. If an
62 argument contains white space, the argument should be enclosed in
63 double quotes. If an argument contains a double quote (`"') or a
64 backslash character (`\\'), the character should be preceded by a
67 The specific configuration options available are discussed below in the
68 Global Configuration Options, General Backend Options, and General Database
69 Options. Backend-specific options are discussed in the
71 manual pages. Refer to the "OpenLDAP Administrator's Guide" for more
72 details on the slapd configuration file.
73 .SH GLOBAL CONFIGURATION OPTIONS
74 Options described in this section apply to all backends, unless specifically
75 overridden in a backend definition. Arguments that should be replaced by
76 actual text are shown in brackets <>.
78 .B access to <what> "[ by <who> <access> <control> ]+"
79 Grant access (specified by <access>) to a set of entries and/or
80 attributes (specified by <what>) by one or more requestors (specified
82 If no access controls are present, the default policy
83 allows anyone and everyone to read anything but restricts
84 updates to rootdn. (e.g., "access to * by * read").
85 The rootdn can always read and write EVERYTHING!
88 and the "OpenLDAP's Administrator's Guide" for details.
91 Specify a set of features (separated by white space) to
94 allows acceptance of LDAPv2 bind requests. Note that
96 does not truly implement LDAPv2 (RFC 1777), now Historic (RFC 3494).
98 allows anonymous bind when credentials are not empty (e.g.
101 allows unauthenticated (anonymous) bind when DN is not empty.
103 allows unauthenticated (anonymous) update operations to be processed
104 (subject to access controls and other administrative limits).
106 .B argsfile <filename>
107 The ( absolute ) name of a file that will hold the
109 server's command line options
110 if started without the debugging command line option.
112 .B attributeoptions [option-name]...
113 Define tagging attribute options or option tag/range prefixes.
114 Options must not end with `-', prefixes must end with `-'.
115 The `lang-' prefix is predefined.
118 directive, `lang-' will no longer be defined and you must specify it
119 explicitly if you want it defined.
121 An attribute description with a tagging option is a subtype of that
122 attribute description without the option.
123 Except for that, options defined this way have no special semantics.
124 Prefixes defined this way work like the `lang-' options:
125 They define a prefix for tagging options starting with the prefix.
126 That is, if you define the prefix `x-foo-', you can use the option
128 Furthermore, in a search or compare, a prefix or range name (with
129 a trailing `-') matches all options starting with that name, as well
130 as the option with the range name sans the trailing `-'.
131 That is, `x-foo-bar-' matches `x-foo-bar' and `x-foo-bar-baz'.
133 RFC 2251 reserves options beginning with `x-' for private experiments.
134 Other options should be registered with IANA, see RFC 3383 section 3.4.
135 OpenLDAP also has the `binary' option built in, but this is a transfer
136 option, not a tagging option.
139 .B attributetype "(\ <oid>\
141 [DESC\ <description>]\
150 [NO\-USER\-MODIFICATION]\
151 [USAGE\ <attributeUsage>]\ )"
153 Specify an attribute type using the LDAPv3 syntax defined in RFC 2252.
154 The slapd parser extends the RFC 2252 definition by allowing string
155 forms as well as numeric OIDs to be used for the attribute OID and
156 attribute syntax OID.
162 .B authz-policy <policy>
163 Used to specify which rules to use for Proxy Authorization. Proxy
164 authorization allows a client to authenticate to the server using one
165 user's credentials, but specify a different identity to use for authorization
166 and access control purposes. It essentially allows user A to login as user
167 B, using user A's password.
170 flag disables proxy authorization. This is the default setting.
173 flag will use rules in the
175 attribute of the authorization DN.
178 flag will use rules in the
180 attribute of the authentication DN.
183 flag, an alias for the deprecated value of
185 will allow any of the above, whatever succeeds first (checked in
191 flag requires both authorizations to succeed.
194 The rules are mechanisms to specify which identities are allowed
195 to perform proxy authorization.
198 attribute in an entry specifies which other users
199 are allowed to proxy login to this entry. The
202 an entry specifies which other users this user can authorize as. Use of
205 abused if users are allowed to write arbitrary values to this attribute.
208 attribute must be protected with ACLs such that
209 only privileged users can modify it.
216 or a set of identities; it can take three forms:
219 .B ldap:///<base>??[<scope>]?<filter>
222 .B dn[.<dnstyle>]:<pattern>
225 .B u[<mech>[<realm>]]:<pattern>
228 .B group[/objectClass[/attributeType]]:<pattern>
235 .B <dnstyle>:={exact|onelevel|children|subtree|regex}
238 The first form is a valid LDAP
246 portions must be absent, so that the search occurs locally on either
252 with the optional style modifiers
258 for exact, onelevel, children and subtree matches, which cause
260 to be normalized according to the DN normalization rules, or the special
262 style, which causes the
264 to be treated as a POSIX (''extended'') regular expression, as
271 means any non-anonymous DN.
272 The third form is a SASL
274 with the optional fields
278 that allow to specify a SASL
280 and eventually a SASL
282 for those mechanisms that support one.
283 The need to allow the specification of a mechanism is still debated,
284 and users are strongly discouraged to rely on this possibility.
285 The fourth form is a group specification, consisting of the keyword
287 optionally followed by the specification of the group
293 is searched with base scope, and in case of match, the values of the
296 are searched for the asserted DN.
297 For backwards compatibility, if no identity type is provided, i.e. only
301 is assumed; as a consequence,
303 is subjected to DN normalization.
304 Since the interpretation of
308 can impact security, users are strongly encouraged
309 to explicitly set the type of identity specification that is being used.
310 A subset of these rules can be used as third arg in the
312 statement (see below); significantly, the
319 .B authz-regexp <match> <replace>
320 Used by the authentication framework to convert simple user names,
321 such as provided by SASL subsystem, to an LDAP DN used for
322 authorization purposes. Note that the resultant DN need not refer
323 to an existing entry to be considered valid. When an authorization
324 request is received from the SASL subsystem, the SASL
329 are taken, when available, and combined into a name of the form
333 .B UID=<username>[[,CN=<realm>],CN=<mechanism>],CN=auth
336 This name is then compared against the
338 POSIX (''extended'') regular expression, and if the match is successful,
339 the name is replaced with the
341 string. If there are wildcard strings in the
343 regular expression that are enclosed in parenthesis, e.g.
349 then the portion of the name that matched the wildcard will be stored
350 in the numbered placeholder variable $1. If there are other wildcard strings
351 in parenthesis, the matching strings will be in $2, $3, etc. up to $9. The
352 placeholders can then be used in the
357 .B UID=$1,OU=Accounts,DC=example,DC=com
360 The replaced name can be either a DN, i.e. a string prefixed by "dn:",
362 If the latter, the server will use the URI to search its own database(s)
363 and, if the search returns exactly one entry, the name is
364 replaced by the DN of that entry. The LDAP URI must have no
365 hostport, attrs, or extensions components, but the filter is mandatory,
369 .B ldap:///OU=Accounts,DC=example,DC=com??one?(UID=$1)
372 The protocol portion of the URI must be strictly
377 options can be given in the configuration file to allow for multiple matching
378 and replacement patterns. The matching patterns are checked in the order they
379 appear in the file, stopping at the first successful match.
382 .\"Because the plus sign + is a character recognized by the regular expression engine,
383 .\"and it will appear in names that include a REALM, be careful to escape the
384 .\"plus sign with a backslash \\+ to remove the character's special meaning.
387 .B concurrency <integer>
388 Specify a desired level of concurrency. Provided to the underlying
389 thread system as a hint. The default is not to provide any hint.
391 .B conn_max_pending <integer>
392 Specify the maximum number of pending requests for an anonymous session.
393 If requests are submitted faster than the server can process them, they
394 will be queued up to this limit. If the limit is exceeded, the session
395 is closed. The default is 100.
397 .B conn_max_pending_auth <integer>
398 Specify the maximum number of pending requests for an authenticated session.
401 .B defaultsearchbase <dn>
402 Specify a default search base to use when client submits a
403 non-base search request with an empty base DN.
404 Base scoped search requests with an empty base DN are not affected.
406 .B disallow <features>
407 Specify a set of features (separated by white space) to
408 disallow (default none).
410 disables acceptance of anonymous bind requests.
412 disables simple (bind) authentication.
414 disables forcing session to anonymous status (see also
415 .BR tls_authc ) upon StartTLS operation receipt.
417 dissallow the StartTLS operation if authenticated (see also
421 .B ditcontentrule "(\ <oid>\
423 [DESC\ <description>]\
430 Specify an DIT Content Rule using the LDAPv3 syntax defined in RFC 2252.
431 The slapd parser extends the RFC 2252 definition by allowing string
432 forms as well as numeric OIDs to be used for the attribute OID and
433 attribute syntax OID.
439 .B gentlehup { on | off }
440 A SIGHUP signal will only cause a 'gentle' shutdown-attempt:
442 will stop listening for new connections, but will not close the
443 connections to the current clients. Future write operations return
444 unwilling-to-perform, though. Slapd terminates when all clients
445 have closed their connections (if they ever do), or \- as before \-
446 if it receives a SIGTERM signal. This can be useful if you wish to
447 terminate the server and start a new
450 .B with another database,
451 without disrupting the currently active clients.
452 The default is off. You may wish to use
454 along with this option.
456 .B idletimeout <integer>
457 Specify the number of seconds to wait before forcibly closing
458 an idle client connection. A idletimeout of 0 disables this
459 feature. The default is 0.
461 .B include <filename>
462 Read additional configuration information from the given file before
463 continuing with the next line of the current file.
465 .B index_substr_if_minlen <integer>
466 Specify the minimum length for subinitial and subfinal indices. An
467 attribute value must have at least this many characters in order to be
468 processed by the indexing functions. The default is 2.
470 .B index_substr_if_maxlen <integer>
471 Specify the maximum length for subinitial and subfinal indices. Only
472 this many characters of an attribute value will be processed by the
473 indexing functions; any excess characters are ignored. The default is 4.
475 .B index_substr_any_len <integer>
476 Specify the length used for subany indices. An attribute value must have
477 at least this many characters in order to be processed. Attribute values
478 longer than this length will be processed in segments of this length. The
479 default is 4. The subany index will also be used in subinitial and
480 subfinal index lookups when the filter string is longer than the
481 .I index_substr_if_maxlen
484 .B index_substr_any_step <integer>
485 Specify the steps used in subany index lookups. This value sets the offset
486 for the segments of a filter string that are processed for a subany index
487 lookup. The default is 2. For example, with the default values, a search
488 using this filter "cn=*abcdefgh*" would generate index lookups for
489 "abcd", "cdef", and "efgh".
491 .\"-- NEW_LOGGING option --
493 .\".B logfile <filename>
494 .\"Specify a file for recording debug log messages. By default these messages
495 .\"only go to stderr and are not recorded anywhere else. Specifying a logfile
496 .\"copies messages to both stderr and the logfile.
499 Specifies the Security Strength Factor (SSF) to be given local LDAP sessions,
500 such as those to the ldapi:// listener. For a description of SSF values,
504 option description. The default is 71.
506 .B loglevel <integer> [...]
507 Specify the level at which debugging statements and operation
508 statistics should be syslogged (currently logged to the
510 LOG_LOCAL4 facility).
511 They must be considered subsystems rather than increasingly verbose
513 Some messages with higher priority are logged regardless
514 of the configured loglevel as soon as some logging is configured,
515 otherwise anything is logged at all.
516 Log levels are additive, and available levels are:
527 debug packet handling
531 heavy trace debugging (function args)
535 connection management
539 print out packets sent and received
543 search filter processing
547 configuration file processing
551 access control list processing
555 stats log connections/operations/results
559 stats log entries sent
563 print communication with shell backends
575 data indexing (unused)
583 only messages that get logged whatever log level is set
586 The desired log level can be input as a single integer that combines
587 the (ORed) desired levels, both in decimal or in hexadecimal notation,
588 as a list of integers (that are ORed internally),
589 or as a list of the names that are shown between brackets, such that
602 can be used as a shortcut to enable logging at all levels (equivalent to -1).
605 or the equivalent integer representation, causes those messages
606 that are logged regardless of the configured loglevel to be logged.
607 In fact, if no loglevel (or a 0 level) is defined, no logging occurs,
610 level is required to have high priority messages logged.
613 .B moduleload <filename>
614 Specify the name of a dynamically loadable module to load. The filename
615 may be an absolute path name or a simple filename. Non-absolute names
616 are searched for in the directories specified by the
618 option. This option and the
620 option are only usable if slapd was compiled with --enable-modules.
622 .B modulepath <pathspec>
623 Specify a list of directories to search for loadable modules. Typically
624 the path is colon-separated but this depends on the operating system.
627 .B objectclass "(\ <oid>\
629 [DESC\ <description>]\
632 [{ ABSTRACT | STRUCTURAL | AUXILIARY }]\
633 [MUST\ <oids>] [MAY\ <oids>] )"
635 Specify an objectclass using the LDAPv3 syntax defined in RFC 2252.
636 The slapd parser extends the RFC 2252 definition by allowing string
637 forms as well as numeric OIDs to be used for the object class OID.
641 description.) Object classes are "STRUCTURAL" by default.
644 .B objectidentifier <name> "{ <oid> | <name>[:<suffix>] }"
645 Define a string name that equates to the given OID. The string can be used
646 in place of the numeric OID in objectclass and attribute definitions. The
647 name can also be used with a suffix of the form ":xx" in which case the
648 value "oid.xx" will be used.
650 .B password-hash <hash> [<hash>...]
651 This option configures one or more hashes to be used in generation of user
652 passwords stored in the userPassword attribute during processing of
653 LDAP Password Modify Extended Operations (RFC 3062).
654 The <hash> must be one of
668 use the SHA-1 algorithm (FIPS 160-1), the latter with a seed.
673 use the MD5 algorithm (RFC 1321), the latter with a seed.
680 indicates that the new password should be
681 added to userPassword as clear text.
683 Note that this option does not alter the normal user applications
684 handling of userPassword during LDAP Add, Modify, or other LDAP operations.
686 .B password\-crypt\-salt\-format <format>
687 Specify the format of the salt passed to
689 when generating {CRYPT} passwords (see
691 during processing of LDAP Password Modify Extended Operations (RFC 3062).
693 This string needs to be in
695 format and may include one (and only one) %s conversion.
696 This conversion will be substituted with a string of random
697 characters from [A\-Za\-z0\-9./]. For example, "%.2s"
698 provides a two character salt and "$1$%.8s" tells some
699 versions of crypt(3) to use an MD5 algorithm and provides
700 8 random characters of salt. The default is "%s", which
701 provides 31 characters of salt.
703 .B pidfile <filename>
704 The ( absolute ) name of a file that will hold the
706 server's process ID ( see
708 ) if started without the debugging command line option.
711 Specify the referral to pass back when
713 cannot find a local database to handle a request.
714 If specified multiple times, each url is provided.
717 The ( absolute ) name of a file that will hold the
719 server's command line options
720 if started without the debugging command line option.
723 The ( absolute ) name of a file that will hold the
725 server's process ID ( see
727 ) if started without the debugging command line option.
729 .B replicationinterval
730 The number of seconds
732 waits before checking the replogfile for changes.
734 .B require <conditions>
735 Specify a set of conditions (separated by white space) to
736 require (default none).
737 The directive may be specified globally and/or per-database.
739 requires bind operation prior to directory operations.
741 requires session to be using LDAP version 3.
743 requires authentication prior to directory operations.
745 requires SASL authentication prior to directory operations.
747 requires strong authentication prior to directory operations.
748 The strong keyword allows protected "simple" authentication
749 as well as SASL authentication.
751 may be used to require no conditions (useful for clearly globally
752 set conditions within a particular database).
754 .B reverse-lookup on | off
755 Enable/disable client name unverified reverse lookup (default is
757 if compiled with --enable-rlookups).
760 Specify the name of an LDIF(5) file containing user defined attributes
761 for the root DSE. These attributes are returned in addition to the
762 attributes normally produced by slapd.
765 Used to specify the fully qualified domain name used for SASL processing.
767 .B sasl-realm <realm>
768 Specify SASL realm. Default is empty.
770 .B sasl-secprops <properties>
771 Used to specify Cyrus SASL security properties.
774 flag (without any other properties) causes the flag properties
775 default, "noanonymous,noplain", to be cleared.
778 flag disables mechanisms susceptible to simple passive attacks.
781 flag disables mechanisms susceptible to active attacks.
784 flag disables mechanisms susceptible to passive dictionary attacks.
787 flag disables mechanisms which support anonymous login.
790 flag require forward secrecy between sessions.
793 require mechanisms which pass client credentials (and allow
794 mechanisms which can pass credentials to do so).
797 property specifies the minimum acceptable
798 .I security strength factor
799 as an integer approximate to effective key length used for
800 encryption. 0 (zero) implies no protection, 1 implies integrity
801 protection only, 56 allows DES or other weak ciphers, 112
802 allows triple DES and other strong ciphers, 128 allows RC4,
803 Blowfish and other modern strong ciphers. The default is 0.
806 property specifies the maximum acceptable
807 .I security strength factor
808 as an integer (see minssf description). The default is INT_MAX.
811 property specifies the maximum security layer receive buffer
812 size allowed. 0 disables security layers. The default is 65536.
815 Specify the distinguished name for the subschema subentry that
816 controls the entries on this server. The default is "cn=Subschema".
818 .B security <factors>
819 Specify a set of security strength factors (separated by white space)
823 option for a description of security strength factors).
824 The directive may be specified globally and/or per-database.
826 specifies the overall security strength factor.
828 specifies the transport security strength factor.
830 specifies the TLS security strength factor.
832 specifies the SASL security strength factor.
834 specifies the overall security strength factor to require for
836 .B update_transport=<n>
837 specifies the transport security strength factor to require for
840 specifies the TLS security strength factor to require for
843 specifies the SASL security strength factor to require for
846 specifies the security strength factor required for
848 username/password authentication.
851 factor is measure of security provided by the underlying transport,
852 e.g. ldapi:// (and eventually IPSEC). It is not normally used.
854 .B sizelimit {<integer>|unlimited}
856 .B sizelimit size[.{soft|hard|unchecked}]=<integer> [...]
857 Specify the maximum number of entries to return from a search operation.
858 The default size limit is 500.
861 to specify no limits.
862 The second format allows a fine grain setting of the size limits.
863 Extra args can be added on the same line.
866 for an explanation of the different flags.
868 .B sockbuf_max_incoming <integer>
869 Specify the maximum incoming LDAP PDU size for anonymous sessions.
870 The default is 262143.
872 .B sockbuf_max_incoming_auth <integer>
873 Specify the maximum incoming LDAP PDU size for authenticated sessions.
874 The default is 4194303.
877 Specify the maximum size of the primary thread pool.
880 .B timelimit {<integer>|unlimited}
882 .B timelimit time[.{soft|hard}]=<integer> [...]
883 Specify the maximum number of seconds (in real time)
885 will spend answering a search request. The default time limit is 3600.
888 to specify no limits.
889 The second format allows a fine grain setting of the time limits.
890 Extra args can be added on the same line.
893 for an explanation of the different flags.
895 .B tool-threads <integer>
896 Specify the maximum number of threads to use in tool mode.
897 This should not be greater than the number of CPUs in the system.
899 .\"ucdata-path is obsolete / ignored...
901 .\".B ucdata-path <path>
902 .\"Specify the path to the directory containing the Unicode character
903 .\"tables. The default path is DATADIR/ucdata.
907 is built with support for Transport Layer Security, there are more options
910 .B TLSCipherSuite <cipher-suite-spec>
911 Permits configuring what ciphers will be accepted and the preference order.
912 <cipher-suite-spec> should be a cipher specification for OpenSSL. Example:
914 TLSCipherSuite HIGH:MEDIUM:+SSLv2
916 To check what ciphers a given spec selects, use:
918 openssl ciphers -v <cipher-suite-spec>
920 .B TLSCACertificateFile <filename>
921 Specifies the file that contains certificates for all of the Certificate
926 .B TLSCACertificatePath <path>
927 Specifies the path of a directory that contains Certificate Authority
928 certificates in separate individual files. Usually only one of this
929 or the TLSCACertificateFile is used.
931 .B TLSCertificateFile <filename>
932 Specifies the file that contains the
936 .B TLSCertificateKeyFile <filename>
937 Specifies the file that contains the
939 server private key that matches the certificate stored in the
940 .B TLSCertificateFile
941 file. Currently, the private key must not be protected with a password, so
942 it is of critical importance that it is protected carefully.
944 .B TLSDHParamFile <filename>
945 This directive specifies the file that contains parameters for Diffie-Hellman
946 ephemeral key exchange. This is required in order to use a DSA certificate on
947 the server. If multiple sets of parameters are present in the file, all of
948 them will be processed. Note that setting this option may also enable
949 Anonymous Diffie-Hellman key exchanges in certain non-default cipher suites.
950 You should append "!ADH" to your cipher suites if you have changed them
951 from the default, otherwise no certificate exchanges or verification will
954 .B TLSRandFile <filename>
955 Specifies the file to obtain random bits from when /dev/[u]random
956 is not available. Generally set to the name of the EGD/PRNGD socket.
957 The environment variable RANDFILE can also be used to specify the filename.
959 .B TLSVerifyClient <level>
960 Specifies what checks to perform on client certificates in an
961 incoming TLS session, if any.
964 can be specified as one of the following keywords:
970 will not ask the client for a certificate.
973 The client certificate is requested. If no certificate is provided,
974 the session proceeds normally. If a bad certificate is provided,
975 it will be ignored and the session proceeds normally.
978 The client certificate is requested. If no certificate is provided,
979 the session proceeds normally. If a bad certificate is provided,
980 the session is immediately terminated.
982 .B demand | hard | true
983 These keywords are all equivalent, for compatibility reasons.
984 The client certificate is requested. If no certificate is provided,
985 or a bad certificate is provided, the session is immediately terminated.
987 Note that a valid client certificate is required in order to use the
988 SASL EXTERNAL authentication mechanism with a TLS session. As such,
991 setting must be chosen to enable SASL EXTERNAL authentication.
994 .B TLSCRLCheck <level>
995 Specifies if the Certificate Revocation List (CRL) of the CA should be
996 used to verify if the client certificates have not been revoked. This
998 .B TLSCACertificatePath
1001 can be specified as one of the following keywords:
1005 No CRL checks are performed
1008 Check the CRL of the peer certificate
1011 Check the CRL for a whole certificate chain
1013 .SH GENERAL BACKEND OPTIONS
1014 Options in this section only apply to the configuration file section
1015 for the specified backend. They are supported by every
1018 .B backend <databasetype>
1019 Mark the beginning of a backend definition. <databasetype>
1037 depending on which backend will serve the database.
1039 .SH GENERAL DATABASE OPTIONS
1040 Options in this section only apply to the configuration file section
1041 for the database in which they are defined. They are supported by every
1042 type of backend. Note that the
1046 option are mandatory for each database.
1048 .B database <databasetype>
1049 Mark the beginning of a new database instance definition. <databasetype>
1067 depending on which backend will serve the database.
1072 will automatically maintain the
1073 modifiersName, modifyTimestamp, creatorsName, and
1074 createTimestamp attributes for entries. By default, lastmod is on.
1076 .B limits <who> <limit> [<limit> [...]]
1077 Specify time and size limits based on who initiated an operation.
1084 anonymous | users | [dn[.<style>]=]<pattern> | group[/oc[/at]]=<pattern>
1090 <style> ::= exact | base | onelevel | subtree | children | regex | anonymous
1095 matches all unauthenticated clients.
1098 matches all authenticated clients;
1101 dn pattern is assumed unless otherwise specified by qualifying
1102 the (optional) key string
1108 (which are synonyms), to require an exact match; with
1110 to require exactly one level of depth match; with
1112 to allow any level of depth match, including the exact match; with
1114 to allow any level of depth match, not including the exact match;
1116 explicitly requires the (default) match based on POSIX (''extended'')
1117 regular expression pattern.
1120 matches unbound operations; the
1123 The same behavior is obtained by using the
1130 with the optional objectClass
1136 sets the limits for any DN listed in the values of the
1142 group objectClass (default
1144 whose DN exactly matches
1147 The currently supported limits are
1152 The syntax for time limits is
1153 .BR time[.{soft|hard}]=<integer> ,
1156 is the number of seconds slapd will spend answering a search request.
1157 If no time limit is explicitly requested by the client, the
1159 limit is used; if the requested time limit exceeds the
1162 .\".I "Administrative limit exceeded"
1163 .\"error is returned.
1164 limit, the value of the limit is used instead.
1167 limit is set to the keyword
1169 the soft limit is used in either case; if it is set to the keyword
1171 no hard limit is enforced.
1172 Explicit requests for time limits smaller or equal to the
1175 If no limit specifier is set, the value is assigned to the
1181 to preserve the original behavior.
1183 The syntax for size limits is
1184 .BR size[.{soft|hard|unchecked}]=<integer> ,
1187 is the maximum number of entries slapd will return answering a search
1189 If no size limit is explicitly requested by the client, the
1191 limit is used; if the requested size limit exceeds the
1194 .\".I "Administrative limit exceeded"
1195 .\"error is returned.
1196 limit, the value of the limit is used instead.
1199 limit is set to the keyword
1201 the soft limit is used in either case; if it is set to the keyword
1203 no hard limit is enforced.
1204 Explicit requests for size limits smaller or equal to the
1209 specifier sets a limit on the number of candidates a search request is allowed
1211 The rationale behind it is that searches for non-properly indexed
1212 attributes may result in large sets of candidates, which must be
1215 to determine whether they match the search filter or not.
1218 limit provides a means to drop such operations before they are even
1220 If the selected candidates exceed the
1222 limit, the search will abort with
1223 .IR "Unwilling to perform" .
1224 If it is set to the keyword
1226 no limit is applied (the default).
1229 the search is not even performed; this can be used to disallow searches
1230 for a specific set of users.
1231 If no limit specifier is set, the value is assigned to the
1237 to preserve the original behavior.
1239 In case of no match, the global limits are used.
1240 The default values are the same of
1249 control is requested, the
1251 size limit is used by default, because the request of a specific page size
1252 is considered an explicit request for a limitation on the number
1253 of entries to be returned.
1254 However, the size limit applies to the total count of entries returned within
1255 the search, and not to a single page.
1256 Additional size limits may be enforced; the syntax is
1257 .BR size.pr={<integer>|noEstimate|unlimited} ,
1260 is the max page size if no explicit limit is set; the keyword
1262 inhibits the server from returning an estimate of the total number
1263 of entries that might be returned
1264 (note: the current implementation does not return any estimate).
1267 indicates that no limit is applied to the pagedResults control page size.
1269 .B size.prtotal={<integer>|unlimited|disabled}
1270 allows to set a limit on the total number of entries that a pagedResults
1271 control allows to return.
1272 By default it is set to the
1277 is the max number of entries that the whole search with pagedResults control
1281 to allow unlimited number of entries to be returned, e.g. to allow
1282 the use of the pagedResults control as a means to circumvent size
1283 limitations on regular searches; the keyword
1285 disables the control, i.e. no paged results can be returned.
1286 Note that the total number of entries returned when the pagedResults control
1287 is requested cannot exceed the
1289 size limit of regular searches unless extended by the
1294 .B maxderefdepth <depth>
1295 Specifies the maximum number of aliases to dereference when trying to
1296 resolve an entry, used to avoid infinite alias loops. The default is 1.
1298 .B overlay <overlay-name>
1299 Add the specified overlay to this database. An overlay is a piece of
1300 code that intercepts database operations in order to extend or change
1301 them. Overlays are pushed onto
1302 a stack over the database, and so they will execute in the reverse
1303 of the order in which they were configured and the database itself
1304 will receive control last of all.
1306 .B readonly on | off
1307 This option puts the database into "read-only" mode. Any attempts to
1308 modify the database will return an "unwilling to perform" error. By
1309 default, readonly is off.
1312 .B replica uri=ldap[s]://<hostname>[:port]|host=<hostname>[:port]
1313 .B [starttls=yes|critical]
1314 .B [suffix=<suffix> [...]]
1315 .B bindmethod=simple|sasl [binddn=<simple DN>] [credentials=<simple password>]
1316 .B [saslmech=<SASL mech>] [secprops=<properties>] [realm=<realm>]
1317 .B [authcId=<authentication ID>] [authzId=<authorization ID>]
1318 .B [attr[!]=<attr list>]
1320 Specify a replication site for this database. Refer to the "OpenLDAP
1321 Administrator's Guide" for detailed information on setting up a replicated
1323 directory service. Zero or more
1325 instances can be used to select the subtrees that will be replicated
1326 (defaults to all the database).
1328 is deprecated in favor of the
1332 allows the replica LDAP server to be specified as an LDAP URI.
1337 requires the options
1341 and should only be used when adequate security services
1342 (e.g TLS or IPSEC) are in place. A
1348 Specific security properties (as with the
1350 keyword above) for a SASL bind can be set with the
1352 option. A non-default SASL realm can be set with the
1357 will use Kerberos, a kerberos instance should be given in
1361 can be given after the
1363 keyword to allow the selective replication of the listed attributes only;
1366 mark is used, the list is considered exclusive, i.e. the listed attributes
1368 If an objectClass is listed, all the related attributes
1369 are (are not) replicated.
1372 .B replogfile <filename>
1373 Specify the name of the replication log file to log changes to.
1374 The replication log is typically written by
1379 .BR slapd.replog (5)
1380 for more information. The specified file should be located
1381 in a directory with limited read/write/execute access as the replication
1382 logs may contain sensitive information.
1384 .B restrict <oplist>
1385 Specify a whitespace separated list of operations that are restricted.
1386 If defined inside a database specification, restrictions apply only
1387 to that database, otherwise they are global.
1388 Operations can be any of
1393 .BR extended[=<OID>] ,
1397 or the special pseudo-operations
1401 which respectively summarize read and write operations.
1409 keyword allows to indicate the OID of the specific operation
1413 Specify the distinguished name that is not subject to access control
1414 or administrative limit restrictions for operations on this database.
1415 This DN may or may not be associated with an entry. An empty root
1416 DN (the default) specifies no root access is to be granted. It is
1417 recommended that the rootdn only be specified when needed (such as
1418 when initially populating a database). If the rootdn is within
1419 a namingContext (suffix) of the database, a simple bind password
1420 may also be provided using the
1422 directive. Note that the rootdn is always needed when using syncrepl.
1424 .B rootpw <password>
1425 Specify a password (or hash of the password) for the rootdn. The
1426 password can only be set if the rootdn is within the namingContext
1427 (suffix) of the database.
1428 This option accepts all RFC 2307 userPassword formats known to
1431 description) as well as cleartext.
1433 may be used to generate a hash of a password. Cleartext
1434 and \fB{CRYPT}\fP passwords are not recommended. If empty
1435 (the default), authentication of the root DN is by other means
1436 (e.g. SASL). Use of SASL is encouraged.
1438 .B suffix <dn suffix>
1439 Specify the DN suffix of queries that will be passed to this
1440 backend database. Multiple suffix lines can be given and at least one is
1441 required for each database definition.
1442 If the suffix of one database is "inside" that of another, the database
1443 with the inner suffix must come first in the configuration file.
1445 .B subordinate [advertise]
1446 Specify that the current backend database is a subordinate of another
1447 backend database. A subordinate database may have only one suffix. This
1448 option may be used to glue multiple databases into a single namingContext.
1449 If the suffix of the current database is within the namingContext of a
1450 superior database, searches against the superior database will be
1451 propagated to the subordinate as well. All of the databases
1452 associated with a single namingContext should have identical rootdns.
1453 Behavior of other LDAP operations is unaffected by this setting. In
1454 particular, it is not possible to use moddn to move an entry from
1455 one subordinate to another subordinate within the namingContext.
1457 If the optional \fBadvertise\fP flag is supplied, the naming context of
1458 this database is advertised in the root DSE. The default is to hide this
1459 database context, so that only the superior context is visible.
1466 are used on the superior database, any glued subordinates that support
1467 these tools are opened as well.
1469 Databases that are glued together should usually be configured with the
1470 same indices (assuming they support indexing), even for attributes that
1471 only exist in some of these databases. In general, all of the glued
1472 databases should be configured as similarly as possible, since the intent
1473 is to provide the appearance of a single directory.
1475 Note that the \fIsubordinate\fP functionality is implemented internally
1476 by the \fIglue\fP overlay and as such its behavior will interact with other
1477 overlays in use. By default, the glue overlay is automatically configured as
1478 the last overlay on the superior backend. Its position on the backend
1479 can be explicitly configured by setting an \fBoverlay glue\fP directive
1480 at the desired position. This explicit configuration is necessary e.g.
1481 when using the \fIsyncprov\fP overlay, which needs to follow \fIglue\fP
1482 in order to work over all of the glued databases. E.g.
1486 suffix dc=example,dc=com
1494 .B syncrepl rid=<replica ID>
1495 .B provider=ldap[s]://<hostname>[:port]
1496 .B [type=refreshOnly|refreshAndPersist]
1497 .B [interval=dd:hh:mm:ss]
1498 .B [retry=[<retry interval> <# of retries>]+]
1499 .B [searchbase=<base DN>]
1500 .B [filter=<filter str>]
1501 .B [scope=sub|one|base]
1502 .B [attrs=<attr list>]
1504 .B [sizelimit=<limit>]
1505 .B [timelimit=<limit>]
1506 .B [schemachecking=on|off]
1507 .B [starttls=yes|critical]
1508 .B [bindmethod=simple|sasl]
1510 .B [saslmech=<mech>]
1511 .B [authcid=<identity>]
1512 .B [authzid=<identity>]
1513 .B [credentials=<passwd>]
1515 .B [secprops=<properties>]
1516 .B [logbase=<base DN>]
1517 .B [logfilter=<filter str>]
1518 .B [syncdata=default|accesslog|changelog]
1520 Specify the current database as a replica which is kept up-to-date with the
1521 master content by establishing the current
1523 as a replication consumer site running a
1526 The replica content is kept synchronized to the master content using
1527 the LDAP Content Synchronization protocol. Refer to the
1528 "OpenLDAP Administrator's Guide" for detailed information on
1529 setting up a replicated
1531 directory service using the
1535 identifies the current
1537 directive within the replication consumer site.
1538 It is a non-negative integer having no more than three digits.
1540 specifies the replication provider site containing the master content
1541 as an LDAP URI. If <port> is not given, the standard LDAP port number
1542 (389 or 636) is used. The content of the
1544 replica is defined using a search
1545 specification as its result set. The consumer
1547 will send search requests to the provider
1549 according to the search specification. The search specification includes
1550 .B searchbase, scope, filter, attrs, attrsonly, sizelimit,
1553 parameters as in the normal search specification.
1554 The \fBscope\fP defaults to \fBsub\fP, the \fBfilter\fP defaults to
1555 \fB(objectclass=*)\fP, and there is no default \fBsearchbase\fP. The
1556 \fBattrs\fP list defaults to \fB"*,+"\fP to return all user and operational
1557 attributes, and \fBattrsonly\fP is unset by default.
1558 The \fBsizelimit\fP and \fBtimelimit\fP only
1559 accept "unlimited" and positive integers, and both default to "unlimited".
1560 The LDAP Content Synchronization protocol has two operation types.
1563 operation, the next synchronization search operation
1564 is periodically rescheduled at an interval time (specified by
1566 parameter; 1 day by default)
1567 after each synchronization operation finishes.
1569 .B refreshAndPersist
1570 operation, a synchronization search remains persistent in the provider slapd.
1571 Further updates to the master replica will generate
1572 .B searchResultEntry
1573 to the consumer slapd as the search responses to the persistent
1574 synchronization search.
1575 If an error occurs during replication, the consumer will attempt to
1576 reconnect according to the
1578 parameter which is a list of the <retry interval> and <# of retries> pairs.
1579 For example, retry="60 10 300 3" lets the consumer retry every 60 seconds
1580 for the first 10 times and then retry every 300 seconds for the next 3
1581 times before stop retrying. The `+' in <# of retries> means indefinite
1582 number of retries until success.
1583 The schema checking can be enforced at the LDAP Sync
1584 consumer site by turning on the
1586 parameter. The default is off.
1589 parameter specifies use of the StartTLS extended operation
1590 to establish a TLS session before Binding to the provider. If the
1592 argument is supplied, the session will be aborted if the StartTLS request
1593 fails. Otherwise the syncrepl session continues without TLS.
1598 requires the options
1602 and should only be used when adequate security services
1603 (e.g. TLS or IPSEC) are in place.
1610 Depending on the mechanism, an authentication identity and/or
1611 credentials can be specified using
1617 parameter may be used to specify an authorization identity.
1618 Specific security properties (as with the
1620 keyword above) for a SASL bind can be set with the
1622 option. A non default SASL realm can be set with the
1626 Rather than replicating whole entries, the consumer can query logs of
1627 data modifications. This mode of operation is referred to as \fIdelta
1628 syncrepl\fP. In addition to the above parameters, the
1632 parameters must be set appropriately for the log that will be used. The
1634 parameter must be set to either "accesslog" if the log conforms to the
1635 .BR slapo-accesslog (5)
1636 log format, or "changelog" if the log conforms
1637 to the obsolete \fIchangelog\fP format. If the
1639 parameter is omitted or set to "default" then the log parameters are
1644 This option is only applicable in a slave
1645 database updated using
1647 It specifies the DN permitted to update (subject to access controls)
1648 the replica (typically, this is the DN
1650 binds to update the replica). Generally, this DN
1657 Specify the referral to pass back when
1659 is asked to modify a replicated local database.
1660 If specified multiple times, each url is provided.
1662 .SH DATABASE-SPECIFIC OPTIONS
1663 Each database may allow specific configuration options; they are
1664 documented separately in the backends' manual pages.
1666 The following backends can be compiled into slapd.
1667 They are documented in the
1668 .BR slapd-<backend> (5)
1672 This is the recommended primary backend for a normal slapd database.
1673 It takes care to configure it properly.
1674 It uses the transactional database interface of the Sleepycat Berkeley
1675 DB (BDB) package to store data.
1678 This backend is used to manage the configuration of slapd run-time.
1681 This backend is experimental.
1682 It serves up referrals based upon SRV resource records held in the
1686 This is a variant of the BDB backend that uses a hierarchical database
1687 layout which supports subtree renames.
1690 This backend acts as a proxy to forward incoming requests to another
1694 This is an easy-to-configure but obsolete database backend. It
1695 does not offer the data durability features of the BDB and HDB
1696 backends and hence is deprecated in favor of these robust backends.
1697 LDBM uses lightweight non-transactional DB interfaces,
1698 such as those providing by GDBM or Berkeley DB, to store data.
1701 This database uses the filesystem to build the tree structure
1702 of the database, using plain ascii files to store data.
1703 Its usage should be limited to very simple databases, where performance
1704 is not a requirement.
1707 This backend performs basic LDAP proxying with respect to a set of
1708 remote LDAP servers. It is an enhancement of the ldap backend.
1711 This backend provides information about the running status of the slapd
1715 Operations in this backend succeed but do nothing.
1718 This backend is provided for demonstration purposes only.
1719 It serves up user account information from the system
1724 This backend embeds a
1726 interpreter into slapd.
1727 It runs Perl subroutines to implement LDAP operations.
1730 This backend is experimental.
1731 It redirects LDAP operations to another database
1732 in the same server, based on the naming context of the request.
1733 Its use requires the
1737 for details) to rewrite the naming context of the request.
1738 It is primarily intended to implement virtual views on databases
1739 that actually store data.
1742 This backend executes external programs to implement LDAP operations.
1743 It is primarily intended to be used in prototypes.
1746 This backend is experimental.
1747 It services LDAP requests from an SQL database.
1749 The following overlays can be compiled into slapd.
1750 They are documented in the
1751 .BR slapo-<overlay> (5)
1756 This overlay can record accesses to a given backend database on another
1761 This overlay records changes on a given backend database to an LDIF log
1763 By default it is not built.
1767 This overlay allows automatic referral chasing when a referral would
1768 have been returned, either when configured by the server or when
1769 requested by the client.
1773 This overlay allows selected operations to be denied, similar to the
1774 \fBrestrict\fP option.
1778 This is a demo overlay which extends the Compare operation to detect
1779 members of a dynamic group.
1780 It has no effect on any other operations.
1784 This overlay allows expansion of dynamic groups and more.
1788 This overlay maintains a service entry in the database with the DN,
1789 modification type, modifiersName and modifyTimestamp of the last write
1790 operation performed on that database.
1794 This overlay allows caching of LDAP search requests in a local database.
1795 It is most often used with the ldap or meta backends.
1799 This overlay provides a variety of password control mechanisms,
1800 e.g. password aging, password reuse and duplication control, mandatory
1801 password resets, etc.
1804 Referential Integrity.
1805 This overlay can be used with a backend database such as
1807 to maintain the cohesiveness of a schema which utilizes reference
1812 This overlay is useful to test the behavior of clients when
1813 server-generated erroneous and/or unusual responses occur.
1817 This overlay is experimental.
1818 It performs basic DN/data rewrite and
1819 objectClass/attributeType mapping.
1823 This overlay implements the provider-side support for
1825 replication, including persistent search functionality.
1829 This overlay can be used with a backend database such as
1831 to create a "translucent proxy".
1832 Content of entries retrieved from a remote LDAP server can be partially
1833 overridden by the database.
1836 Attribute Uniqueness.
1837 This overlay can be used with a backend database such as
1839 to enforce the uniqueness of some or all attributes within a subtree.
1842 Here is a short example of a configuration file:
1846 include SYSCONFDIR/schema/core.schema
1847 pidfile LOCALSTATEDIR/slapd.pid
1849 # Subtypes of "name" (e.g. "cn" and "ou") with the
1850 # option ";x-hidden" can be searched for/compared,
1851 # but are not shown. See \fBslapd.access\fP(5).
1852 attributeoptions x-hidden lang-
1853 access to attr=name;x-hidden by * =cs
1855 # Protect passwords. See \fBslapd.access\fP(5).
1856 access to attrs=userPassword by * auth
1857 # Read access to other attributes and entries.
1858 access to * by * read
1861 suffix "dc=our-domain,dc=com"
1862 # The database directory MUST exist prior to
1863 # running slapd AND should only be accessible
1864 # by the slapd/tools. Mode 0700 recommended.
1865 directory LOCALSTATEDIR/openldap-data
1866 # Indices to maintain
1867 index objectClass eq
1868 index cn,sn,mail pres,eq,approx,sub
1870 # We serve small clients that do not handle referrals,
1871 # so handle remote lookups on their behalf.
1874 uri ldap://ldap.some-server.com/
1879 "OpenLDAP Administrator's Guide" contains a longer annotated
1880 example of a configuration file.
1881 The original ETCDIR/slapd.conf is another example.
1885 default slapd configuration file
1889 .BR slapd\-dnssrv (5),
1891 .BR slapd\-ldap (5),
1892 .BR slapd\-ldbm (5),
1893 .BR slapd\-ldif (5),
1894 .BR slapd\-meta (5),
1895 .BR slapd\-monitor (5),
1896 .BR slapd\-null (5),
1897 .BR slapd\-passwd (5),
1898 .BR slapd\-perl (5),
1899 .BR slapd\-relay (5),
1900 .BR slapd\-shell (5),
1902 .BR slapd.access (5),
1903 .BR slapd.plugin (5),
1904 .BR slapd.replog (5),
1916 Known overlays are documented in
1917 .BR slapo\-accesslog (5),
1918 .BR slapo\-auditlog (5),
1919 .BR slapo\-chain (5),
1920 .BR slapo\-dynlist (5),
1921 .BR slapo\-lastmod (5),
1922 .BR slapo\-pcache (5),
1923 .BR slapo\-ppolicy (5),
1924 .BR slapo\-refint (5),
1925 .BR slapo\-retcode (5),
1927 .BR slapo\-syncprov (5),
1928 .BR slapo\-translucent (5),
1929 .BR slapo\-unique (5).
1931 "OpenLDAP Administrator's Guide" (http://www.OpenLDAP.org/doc/admin/)
1932 .SH ACKNOWLEDGEMENTS
1934 is developed and maintained by The OpenLDAP Project (http://www.openldap.org/).
1936 is derived from University of Michigan LDAP 3.3 Release.