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1342 lines
51 KiB
Plaintext
1342 lines
51 KiB
Plaintext
# $OpenLDAP$
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# Copyright 1999-2017 The OpenLDAP Foundation, All Rights Reserved.
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# COPYING RESTRICTIONS APPLY, see COPYRIGHT.
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H1: Access Control
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H2: Introduction
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As the directory gets populated with more and more data of varying sensitivity,
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controlling the kinds of access granted to the directory becomes more and more
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critical. For instance, the directory may contain data of a confidential nature
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that you may need to protect by contract or by law. Or, if using the directory
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to control access to other services, inappropriate access to the directory may
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create avenues of attack to your sites security that result in devastating
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damage to your assets.
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Access to your directory can be configured via two methods, the first using
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{{SECT:The slapd Configuration File}} and the second using the {{slapd-config}}(5)
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format ({{SECT:Configuring slapd}}).
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The default access control policy is allow read by all clients. Regardless of
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what access control policy is defined, the {{rootdn}} is always allowed full
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rights (i.e. auth, search, compare, read and write) on everything and anything.
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As a consequence, it's useless (and results in a performance penalty) to explicitly
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list the {{rootdn}} among the {{<by>}} clauses.
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The following sections will describe Access Control Lists in greater depth and
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follow with some examples and recommendations. See {{slapd.access}}(5) for
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complete details.
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H2: Access Control via Static Configuration
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Access to entries and attributes is controlled by the
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access configuration file directive. The general form of an
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access line is:
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> <access directive> ::= access to <what>
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> [by <who> [<access>] [<control>] ]+
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> <what> ::= * |
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> [dn[.<basic-style>]=<regex> | dn.<scope-style>=<DN>]
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> [filter=<ldapfilter>] [attrs=<attrlist>]
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> <basic-style> ::= regex | exact
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> <scope-style> ::= base | one | subtree | children
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> <attrlist> ::= <attr> [val[.<basic-style>]=<regex>] | <attr> , <attrlist>
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> <attr> ::= <attrname> | entry | children
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> <who> ::= * | [anonymous | users | self
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> | dn[.<basic-style>]=<regex> | dn.<scope-style>=<DN>]
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> [dnattr=<attrname>]
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> [group[/<objectclass>[/<attrname>][.<basic-style>]]=<regex>]
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> [peername[.<basic-style>]=<regex>]
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> [sockname[.<basic-style>]=<regex>]
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> [domain[.<basic-style>]=<regex>]
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> [sockurl[.<basic-style>]=<regex>]
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> [set=<setspec>]
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> [aci=<attrname>]
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> <access> ::= [self]{<level>|<priv>}
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> <level> ::= none | disclose | auth | compare | search | read | write | manage
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> <priv> ::= {=|+|-}{m|w|r|s|c|x|d|0}+
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> <control> ::= [stop | continue | break]
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where the <what> part selects the entries and/or attributes to which
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the access applies, the {{EX:<who>}} part specifies which entities
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are granted access, and the {{EX:<access>}} part specifies the
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access granted. Multiple {{EX:<who> <access> <control>}} triplets
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are supported, allowing many entities to be granted different access
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to the same set of entries and attributes. Not all of these access
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control options are described here; for more details see the
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{{slapd.access}}(5) man page.
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H3: What to control access to
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The <what> part of an access specification determines the entries
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and attributes to which the access control applies. Entries are
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commonly selected in two ways: by DN and by filter. The following
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qualifiers select entries by DN:
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> to *
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> to dn[.<basic-style>]=<regex>
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> to dn.<scope-style>=<DN>
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The first form is used to select all entries. The second form may
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be used to select entries by matching a regular expression against
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the target entry's {{normalized DN}}. (The second form is not
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discussed further in this document.) The third form is used to
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select entries which are within the requested scope of DN. The
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<DN> is a string representation of the Distinguished Name, as
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described in {{REF:RFC4514}}.
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The scope can be either {{EX:base}}, {{EX:one}}, {{EX:subtree}},
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or {{EX:children}}. Where {{EX:base}} matches only the entry with
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provided DN, {{EX:one}} matches the entries whose parent is the
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provided DN, {{EX:subtree}} matches all entries in the subtree whose
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root is the provided DN, and {{EX:children}} matches all entries
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under the DN (but not the entry named by the DN).
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For example, if the directory contained entries named:
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> 0: o=suffix
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> 1: cn=Manager,o=suffix
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> 2: ou=people,o=suffix
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> 3: uid=kdz,ou=people,o=suffix
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> 4: cn=addresses,uid=kdz,ou=people,o=suffix
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> 5: uid=hyc,ou=people,o=suffix
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\Then:
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. {{EX:dn.base="ou=people,o=suffix"}} match 2;
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. {{EX:dn.one="ou=people,o=suffix"}} match 3, and 5;
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. {{EX:dn.subtree="ou=people,o=suffix"}} match 2, 3, 4, and 5; and
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. {{EX:dn.children="ou=people,o=suffix"}} match 3, 4, and 5.
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Entries may also be selected using a filter:
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> to filter=<ldap filter>
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where <ldap filter> is a string representation of an LDAP
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search filter, as described in {{REF:RFC4515}}. For example:
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> to filter=(objectClass=person)
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Note that entries may be selected by both DN and filter by
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including both qualifiers in the <what> clause.
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> to dn.one="ou=people,o=suffix" filter=(objectClass=person)
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Attributes within an entry are selected by including a comma-separated
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list of attribute names in the <what> selector:
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> attrs=<attribute list>
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A specific value of an attribute is selected by using a single
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attribute name and also using a value selector:
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> attrs=<attribute> val[.<style>]=<regex>
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There are two special {{pseudo}} attributes {{EX:entry}} and
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{{EX:children}}. To read (and hence return) a target entry, the
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subject must have {{EX:read}} access to the target's {{entry}}
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attribute. To perform a search, the subject must have
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{{EX:search}} access to the search base's {{entry}} attribute.
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To add or delete an entry, the subject must have
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{{EX:write}} access to the entry's {{EX:entry}} attribute AND must
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have {{EX:write}} access to the entry's parent's {{EX:children}}
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attribute. To rename an entry, the subject must have {{EX:write}}
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access to entry's {{EX:entry}} attribute AND have {{EX:write}}
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access to both the old parent's and new parent's {{EX:children}}
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attributes. The complete examples at the end of this section should
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help clear things up.
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Lastly, there is a special entry selector {{EX:"*"}} that is used to
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select any entry. It is used when no other {{EX:<what>}}
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selector has been provided. It's equivalent to "{{EX:dn=.*}}"
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H3: Who to grant access to
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The <who> part identifies the entity or entities being granted
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access. Note that access is granted to "entities" not "entries."
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The following table summarizes entity specifiers:
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!block table; align=Center; coltags="EX,N"; \
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title="Table 6.3: Access Entity Specifiers"
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Specifier|Entities
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*|All, including anonymous and authenticated users
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anonymous|Anonymous (non-authenticated) users
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users|Authenticated users
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self|User associated with target entry
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dn[.<basic-style>]=<regex>|Users matching a regular expression
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dn.<scope-style>=<DN>|Users within scope of a DN
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!endblock
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The DN specifier behaves much like <what> clause DN specifiers.
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Other control factors are also supported. For example, a {{EX:<who>}}
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can be restricted by an entry listed in a DN-valued attribute in
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the entry to which the access applies:
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> dnattr=<dn-valued attribute name>
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The dnattr specification is used to give access to an entry
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whose DN is listed in an attribute of the entry (e.g., give
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access to a group entry to whoever is listed as the owner of
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the group entry).
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Some factors may not be appropriate in all environments (or any).
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For example, the domain factor relies on IP to domain name lookups.
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As these can easily be spoofed, the domain factor should be avoided.
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H3: The access to grant
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The kind of <access> granted can be one of the following:
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!block table; colaligns="LRL"; coltags="EX,EX,N"; align=Center; \
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title="Table 6.4: Access Levels"
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Level Privileges Description
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none =0 no access
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disclose =d needed for information disclosure on error
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auth =dx needed to authenticate (bind)
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compare =cdx needed to compare
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search =scdx needed to apply search filters
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read =rscdx needed to read search results
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write =wrscdx needed to modify/rename
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manage =mwrscdx needed to manage
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!endblock
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Each level implies all lower levels of access. So, for example,
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granting someone {{EX:write}} access to an entry also grants them
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{{EX:read}}, {{EX:search}}, {{EX:compare}}, {{EX:auth}} and
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{{EX:disclose}} access. However, one may use the privileges specifier
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to grant specific permissions.
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H3: Access Control Evaluation
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When evaluating whether some requester should be given access to
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an entry and/or attribute, slapd compares the entry and/or attribute
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to the {{EX:<what>}} selectors given in the configuration file.
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For each entry, access controls provided in the database which holds
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the entry (or the global access directives if not held in any database) apply
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first, followed by the global access directives. However, when dealing with
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an access list, because the global access list is effectively appended
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to each per-database list, if the resulting list is non-empty then the
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access list will end with an implicit {{EX:access to * by * none}} directive.
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If there are no access directives applicable to a backend, then a default
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read is used.
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Within this
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priority, access directives are examined in the order in which they
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appear in the config file. Slapd stops with the first {{EX:<what>}}
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selector that matches the entry and/or attribute. The corresponding
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access directive is the one slapd will use to evaluate access.
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Next, slapd compares the entity requesting access to the {{EX:<who>}}
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selectors within the access directive selected above in the order
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in which they appear. It stops with the first {{EX:<who>}} selector
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that matches the requester. This determines the access the entity
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requesting access has to the entry and/or attribute.
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Finally, slapd compares the access granted in the selected
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{{EX:<access>}} clause to the access requested by the client. If
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it allows greater or equal access, access is granted. Otherwise,
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access is denied.
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The order of evaluation of access directives makes their placement
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in the configuration file important. If one access directive is
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more specific than another in terms of the entries it selects, it
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should appear first in the config file. Similarly, if one {{EX:<who>}}
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selector is more specific than another it should come first in the
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access directive. The access control examples given below should
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help make this clear.
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H3: Access Control Examples
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The access control facility described above is quite powerful. This
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section shows some examples of its use for descriptive purposes.
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A simple example:
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> access to * by * read
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This access directive grants read access to everyone.
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> access to *
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> by self write
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> by anonymous auth
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> by * read
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This directive allows the user to modify their entry, allows anonymous
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to authenticate against these entries, and allows all others to
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read these entries. Note that only the first {{EX:by <who>}} clause
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which matches applies. Hence, the anonymous users are granted
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{{EX:auth}}, not {{EX:read}}. The last clause could just as well
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have been "{{EX:by users read}}".
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It is often desirable to restrict operations based upon the level
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of protection in place. The following shows how security strength
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factors (SSF) can be used.
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> access to *
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> by ssf=128 self write
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> by ssf=64 anonymous auth
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> by ssf=64 users read
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This directive allows users to modify their own entries if security
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protections have of strength 128 or better have been established,
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allows authentication access to anonymous users, and read access
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when 64 or better security protections have been established. If
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client has not establish sufficient security protections, the
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implicit {{EX:by * none}} clause would be applied.
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The following example shows the use of a style specifiers to select
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the entries by DN in two access directives where ordering is
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significant.
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> access to dn.children="dc=example,dc=com"
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> by * search
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> access to dn.children="dc=com"
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> by * read
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Read access is granted to entries under the {{EX:dc=com}} subtree,
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except for those entries under the {{EX:dc=example,dc=com}} subtree,
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to which search access is granted. No access is granted to
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{{EX:dc=com}} as neither access directive matches this DN. If the
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order of these access directives was reversed, the trailing directive
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would never be reached, since all entries under {{EX:dc=example,dc=com}}
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are also under {{EX:dc=com}} entries.
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Also note that if no {{EX:access to}} directive matches or no {{EX:by
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<who>}} clause, {{B:access is denied}}. That is, every {{EX:access
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to}} directive ends with an implicit {{EX:by * none}} clause. When dealing
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with an access list, because the global access list is effectively appended
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to each per-database list, if the resulting list is non-empty then the access
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list will end with an implicit {{EX:access to * by * none}} directive. If
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there are no access directives applicable to a backend, then a default read is
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used.
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The next example again shows the importance of ordering, both of
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the access directives and the {{EX:by <who>}} clauses. It also
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shows the use of an attribute selector to grant access to a specific
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attribute and various {{EX:<who>}} selectors.
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> access to dn.subtree="dc=example,dc=com" attrs=homePhone
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> by self write
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> by dn.children="dc=example,dc=com" search
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> by peername.regex=IP=10\..+ read
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> access to dn.subtree="dc=example,dc=com"
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> by self write
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> by dn.children="dc=example,dc=com" search
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> by anonymous auth
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This example applies to entries in the "{{EX:dc=example,dc=com}}"
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subtree. To all attributes except {{EX:homePhone}}, an entry can
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write to itself, entries under {{EX:example.com}} entries can search
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by them, anybody else has no access (implicit {{EX:by * none}})
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excepting for authentication/authorization (which is always done
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anonymously). The {{EX:homePhone}} attribute is writable by the
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entry, searchable by entries under {{EX:example.com}}, readable by
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clients connecting from network 10, and otherwise not readable
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(implicit {{EX:by * none}}). All other access is denied by the
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implicit {{EX:access to * by * none}}.
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Sometimes it is useful to permit a particular DN to add or
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remove itself from an attribute. For example, if you would like to
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create a group and allow people to add and remove only
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their own DN from the member attribute, you could accomplish
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it with an access directive like this:
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> access to attrs=member,entry
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> by dnattr=member selfwrite
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The dnattr {{EX:<who>}} selector says that the access applies to
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entries listed in the {{EX:member}} attribute. The {{EX:selfwrite}} access
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selector says that such members can only add or delete their
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own DN from the attribute, not other values. The addition of
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the entry attribute is required because access to the entry is
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required to access any of the entry's attributes.
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!if 0
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For more details on how to use the {{EX:access}} directive,
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consult the {{Advanced Access Control}} chapter.
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!endif
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H2: Access Control via Dynamic Configuration
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Access to slapd entries and attributes is controlled by the
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olcAccess attribute, whose values are a sequence of access directives.
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The general form of the olcAccess configuration is:
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> olcAccess: <access directive>
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> <access directive> ::= to <what>
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> [by <who> [<access>] [<control>] ]+
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> <what> ::= * |
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> [dn[.<basic-style>]=<regex> | dn.<scope-style>=<DN>]
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> [filter=<ldapfilter>] [attrs=<attrlist>]
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> <basic-style> ::= regex | exact
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> <scope-style> ::= base | one | subtree | children
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> <attrlist> ::= <attr> [val[.<basic-style>]=<regex>] | <attr> , <attrlist>
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> <attr> ::= <attrname> | entry | children
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> <who> ::= * | [anonymous | users | self
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> | dn[.<basic-style>]=<regex> | dn.<scope-style>=<DN>]
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> [dnattr=<attrname>]
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> [group[/<objectclass>[/<attrname>][.<basic-style>]]=<regex>]
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> [peername[.<basic-style>]=<regex>]
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> [sockname[.<basic-style>]=<regex>]
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> [domain[.<basic-style>]=<regex>]
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> [sockurl[.<basic-style>]=<regex>]
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> [set=<setspec>]
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> [aci=<attrname>]
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> <access> ::= [self]{<level>|<priv>}
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> <level> ::= none | disclose | auth | compare | search | read | write | manage
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> <priv> ::= {=|+|-}{m|w|r|s|c|x|d|0}+
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> <control> ::= [stop | continue | break]
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|
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where the <what> part selects the entries and/or attributes to which
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the access applies, the {{EX:<who>}} part specifies which entities
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|
are granted access, and the {{EX:<access>}} part specifies the
|
|
access granted. Multiple {{EX:<who> <access> <control>}} triplets
|
|
are supported, allowing many entities to be granted different access
|
|
to the same set of entries and attributes. Not all of these access
|
|
control options are described here; for more details see the
|
|
{{slapd.access}}(5) man page.
|
|
|
|
|
|
H3: What to control access to
|
|
|
|
The <what> part of an access specification determines the entries
|
|
and attributes to which the access control applies. Entries are
|
|
commonly selected in two ways: by DN and by filter. The following
|
|
qualifiers select entries by DN:
|
|
|
|
> to *
|
|
> to dn[.<basic-style>]=<regex>
|
|
> to dn.<scope-style>=<DN>
|
|
|
|
The first form is used to select all entries. The second form may
|
|
be used to select entries by matching a regular expression against
|
|
the target entry's {{normalized DN}}. (The second form is not
|
|
discussed further in this document.) The third form is used to
|
|
select entries which are within the requested scope of DN. The
|
|
<DN> is a string representation of the Distinguished Name, as
|
|
described in {{REF:RFC4514}}.
|
|
|
|
The scope can be either {{EX:base}}, {{EX:one}}, {{EX:subtree}},
|
|
or {{EX:children}}. Where {{EX:base}} matches only the entry with
|
|
provided DN, {{EX:one}} matches the entries whose parent is the
|
|
provided DN, {{EX:subtree}} matches all entries in the subtree whose
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|
root is the provided DN, and {{EX:children}} matches all entries
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under the DN (but not the entry named by the DN).
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|
|
For example, if the directory contained entries named:
|
|
|
|
> 0: o=suffix
|
|
> 1: cn=Manager,o=suffix
|
|
> 2: ou=people,o=suffix
|
|
> 3: uid=kdz,ou=people,o=suffix
|
|
> 4: cn=addresses,uid=kdz,ou=people,o=suffix
|
|
> 5: uid=hyc,ou=people,o=suffix
|
|
|
|
\Then:
|
|
. {{EX:dn.base="ou=people,o=suffix"}} match 2;
|
|
. {{EX:dn.one="ou=people,o=suffix"}} match 3, and 5;
|
|
. {{EX:dn.subtree="ou=people,o=suffix"}} match 2, 3, 4, and 5; and
|
|
. {{EX:dn.children="ou=people,o=suffix"}} match 3, 4, and 5.
|
|
|
|
|
|
Entries may also be selected using a filter:
|
|
|
|
> to filter=<ldap filter>
|
|
|
|
where <ldap filter> is a string representation of an LDAP
|
|
search filter, as described in {{REF:RFC4515}}. For example:
|
|
|
|
> to filter=(objectClass=person)
|
|
|
|
Note that entries may be selected by both DN and filter by
|
|
including both qualifiers in the <what> clause.
|
|
|
|
> to dn.one="ou=people,o=suffix" filter=(objectClass=person)
|
|
|
|
Attributes within an entry are selected by including a comma-separated
|
|
list of attribute names in the <what> selector:
|
|
|
|
> attrs=<attribute list>
|
|
|
|
A specific value of an attribute is selected by using a single
|
|
attribute name and also using a value selector:
|
|
|
|
> attrs=<attribute> val[.<style>]=<regex>
|
|
|
|
There are two special {{pseudo}} attributes {{EX:entry}} and
|
|
{{EX:children}}. To read (and hence return) a target entry, the
|
|
subject must have {{EX:read}} access to the target's {{entry}}
|
|
attribute. To perform a search, the subject must have
|
|
{{EX:search}} access to the search base's {{entry}} attribute.
|
|
To add or delete an entry, the subject must have
|
|
{{EX:write}} access to the entry's {{EX:entry}} attribute AND must
|
|
have {{EX:write}} access to the entry's parent's {{EX:children}}
|
|
attribute. To rename an entry, the subject must have {{EX:write}}
|
|
access to entry's {{EX:entry}} attribute AND have {{EX:write}}
|
|
access to both the old parent's and new parent's {{EX:children}}
|
|
attributes. The complete examples at the end of this section should
|
|
help clear things up.
|
|
|
|
Lastly, there is a special entry selector {{EX:"*"}} that is used to
|
|
select any entry. It is used when no other {{EX:<what>}}
|
|
selector has been provided. It's equivalent to "{{EX:dn=.*}}"
|
|
|
|
|
|
H3: Who to grant access to
|
|
|
|
The <who> part identifies the entity or entities being granted
|
|
access. Note that access is granted to "entities" not "entries."
|
|
The following table summarizes entity specifiers:
|
|
|
|
!block table; align=Center; coltags="EX,N"; \
|
|
title="Table 5.3: Access Entity Specifiers"
|
|
Specifier|Entities
|
|
*|All, including anonymous and authenticated users
|
|
anonymous|Anonymous (non-authenticated) users
|
|
users|Authenticated users
|
|
self|User associated with target entry
|
|
dn[.<basic-style>]=<regex>|Users matching a regular expression
|
|
dn.<scope-style>=<DN>|Users within scope of a DN
|
|
!endblock
|
|
|
|
The DN specifier behaves much like <what> clause DN specifiers.
|
|
|
|
Other control factors are also supported. For example, a {{EX:<who>}}
|
|
can be restricted by an entry listed in a DN-valued attribute in
|
|
the entry to which the access applies:
|
|
|
|
> dnattr=<dn-valued attribute name>
|
|
|
|
The dnattr specification is used to give access to an entry
|
|
whose DN is listed in an attribute of the entry (e.g., give
|
|
access to a group entry to whoever is listed as the owner of
|
|
the group entry).
|
|
|
|
Some factors may not be appropriate in all environments (or any).
|
|
For example, the domain factor relies on IP to domain name lookups.
|
|
As these can easily be spoofed, the domain factor should be avoided.
|
|
|
|
|
|
H3: The access to grant
|
|
|
|
The kind of <access> granted can be one of the following:
|
|
|
|
!block table; colaligns="LRL"; coltags="EX,EX,N"; align=Center; \
|
|
title="Table 5.4: Access Levels"
|
|
Level Privileges Description
|
|
none =0 no access
|
|
disclose =d needed for information disclosure on error
|
|
auth =dx needed to authenticate (bind)
|
|
compare =cdx needed to compare
|
|
search =scdx needed to apply search filters
|
|
read =rscdx needed to read search results
|
|
write =wrscdx needed to modify/rename
|
|
manage =mwrscdx needed to manage
|
|
!endblock
|
|
|
|
Each level implies all lower levels of access. So, for example,
|
|
granting someone {{EX:write}} access to an entry also grants them
|
|
{{EX:read}}, {{EX:search}}, {{EX:compare}}, {{EX:auth}} and
|
|
{{EX:disclose}} access. However, one may use the privileges specifier
|
|
to grant specific permissions.
|
|
|
|
|
|
H3: Access Control Evaluation
|
|
|
|
When evaluating whether some requester should be given access to
|
|
an entry and/or attribute, slapd compares the entry and/or attribute
|
|
to the {{EX:<what>}} selectors given in the configuration. For
|
|
each entry, access controls provided in the database which holds
|
|
the entry (or the global access directives if not held in any database) apply
|
|
first, followed by the global access directives (which are held in
|
|
the {{EX:frontend}} database definition). However, when dealing with
|
|
an access list, because the global access list is effectively appended
|
|
to each per-database list, if the resulting list is non-empty then the
|
|
access list will end with an implicit {{EX:access to * by * none}} directive.
|
|
If there are no access directives applicable to a backend, then a default
|
|
read is used.
|
|
|
|
Within this priority,
|
|
access directives are examined in the order in which they appear
|
|
in the configuration attribute. Slapd stops with the first
|
|
{{EX:<what>}} selector that matches the entry and/or attribute. The
|
|
corresponding access directive is the one slapd will use to evaluate
|
|
access.
|
|
|
|
Next, slapd compares the entity requesting access to the {{EX:<who>}}
|
|
selectors within the access directive selected above in the order
|
|
in which they appear. It stops with the first {{EX:<who>}} selector
|
|
that matches the requester. This determines the access the entity
|
|
requesting access has to the entry and/or attribute.
|
|
|
|
Finally, slapd compares the access granted in the selected
|
|
{{EX:<access>}} clause to the access requested by the client. If
|
|
it allows greater or equal access, access is granted. Otherwise,
|
|
access is denied.
|
|
|
|
The order of evaluation of access directives makes their placement
|
|
in the configuration file important. If one access directive is
|
|
more specific than another in terms of the entries it selects, it
|
|
should appear first in the configuration. Similarly, if one {{EX:<who>}}
|
|
selector is more specific than another it should come first in the
|
|
access directive. The access control examples given below should
|
|
help make this clear.
|
|
|
|
|
|
|
|
H3: Access Control Examples
|
|
|
|
The access control facility described above is quite powerful. This
|
|
section shows some examples of its use for descriptive purposes.
|
|
|
|
A simple example:
|
|
|
|
> olcAccess: to * by * read
|
|
|
|
This access directive grants read access to everyone.
|
|
|
|
> olcAccess: to *
|
|
> by self write
|
|
> by anonymous auth
|
|
> by * read
|
|
|
|
This directive allows the user to modify their entry, allows anonymous
|
|
to authenticate against these entries, and allows all others to
|
|
read these entries. Note that only the first {{EX:by <who>}} clause
|
|
which matches applies. Hence, the anonymous users are granted
|
|
{{EX:auth}}, not {{EX:read}}. The last clause could just as well
|
|
have been "{{EX:by users read}}".
|
|
|
|
It is often desirable to restrict operations based upon the level
|
|
of protection in place. The following shows how security strength
|
|
factors (SSF) can be used.
|
|
|
|
> olcAccess: to *
|
|
> by ssf=128 self write
|
|
> by ssf=64 anonymous auth
|
|
> by ssf=64 users read
|
|
|
|
This directive allows users to modify their own entries if security
|
|
protections of strength 128 or better have been established,
|
|
allows authentication access to anonymous users, and read access
|
|
when strength 64 or better security protections have been established. If
|
|
the client has not establish sufficient security protections, the
|
|
implicit {{EX:by * none}} clause would be applied.
|
|
|
|
The following example shows the use of style specifiers to select
|
|
the entries by DN in two access directives where ordering is
|
|
significant.
|
|
|
|
> olcAccess: to dn.children="dc=example,dc=com"
|
|
> by * search
|
|
> olcAccess: to dn.children="dc=com"
|
|
> by * read
|
|
|
|
Read access is granted to entries under the {{EX:dc=com}} subtree,
|
|
except for those entries under the {{EX:dc=example,dc=com}} subtree,
|
|
to which search access is granted. No access is granted to
|
|
{{EX:dc=com}} as neither access directive matches this DN. If the
|
|
order of these access directives was reversed, the trailing directive
|
|
would never be reached, since all entries under {{EX:dc=example,dc=com}}
|
|
are also under {{EX:dc=com}} entries.
|
|
|
|
Also note that if no {{EX:olcAccess: to}} directive matches or no {{EX:by
|
|
<who>}} clause, {{B:access is denied}}. When dealing with an access list,
|
|
because the global access list is effectively appended to each per-database
|
|
list, if the resulting list is non-empty then the access list will end with
|
|
an implicit {{EX:access to * by * none}} directive. If there are no access
|
|
directives applicable to a backend, then a default read is used.
|
|
|
|
The next example again shows the importance of ordering, both of
|
|
the access directives and the {{EX:by <who>}} clauses. It also
|
|
shows the use of an attribute selector to grant access to a specific
|
|
attribute and various {{EX:<who>}} selectors.
|
|
|
|
> olcAccess: to dn.subtree="dc=example,dc=com" attrs=homePhone
|
|
> by self write
|
|
> by dn.children=dc=example,dc=com" search
|
|
> by peername.regex=IP=10\..+ read
|
|
> olcAccess: to dn.subtree="dc=example,dc=com"
|
|
> by self write
|
|
> by dn.children="dc=example,dc=com" search
|
|
> by anonymous auth
|
|
|
|
This example applies to entries in the "{{EX:dc=example,dc=com}}"
|
|
subtree. To all attributes except {{EX:homePhone}}, an entry can
|
|
write to itself, entries under {{EX:example.com}} entries can search
|
|
by them, anybody else has no access (implicit {{EX:by * none}})
|
|
excepting for authentication/authorization (which is always done
|
|
anonymously). The {{EX:homePhone}} attribute is writable by the
|
|
entry, searchable by entries under {{EX:example.com}}, readable by
|
|
clients connecting from network 10, and otherwise not readable
|
|
(implicit {{EX:by * none}}). All other access is denied by the
|
|
implicit {{EX:access to * by * none}}.
|
|
|
|
Sometimes it is useful to permit a particular DN to add or
|
|
remove itself from an attribute. For example, if you would like to
|
|
create a group and allow people to add and remove only
|
|
their own DN from the member attribute, you could accomplish
|
|
it with an access directive like this:
|
|
|
|
> olcAccess: to attrs=member,entry
|
|
> by dnattr=member selfwrite
|
|
|
|
The dnattr {{EX:<who>}} selector says that the access applies to
|
|
entries listed in the {{EX:member}} attribute. The {{EX:selfwrite}} access
|
|
selector says that such members can only add or delete their
|
|
own DN from the attribute, not other values. The addition of
|
|
the entry attribute is required because access to the entry is
|
|
required to access any of the entry's attributes.
|
|
|
|
|
|
|
|
H3: Access Control Ordering
|
|
|
|
Since the ordering of {{EX:olcAccess}} directives is essential to their
|
|
proper evaluation, but LDAP attributes normally do not preserve the
|
|
ordering of their values, OpenLDAP uses a custom schema extension to
|
|
maintain a fixed ordering of these values. This ordering is maintained
|
|
by prepending a {{EX:"{X}"}} numeric index to each value, similarly to
|
|
the approach used for ordering the configuration entries. These index
|
|
tags are maintained automatically by slapd and do not need to be specified
|
|
when originally defining the values. For example, when you create the
|
|
settings
|
|
|
|
> olcAccess: to attrs=member,entry
|
|
> by dnattr=member selfwrite
|
|
> olcAccess: to dn.children="dc=example,dc=com"
|
|
> by * search
|
|
> olcAccess: to dn.children="dc=com"
|
|
> by * read
|
|
|
|
when you read them back using slapcat or ldapsearch they will contain
|
|
|
|
> olcAccess: {0}to attrs=member,entry
|
|
> by dnattr=member selfwrite
|
|
> olcAccess: {1}to dn.children="dc=example,dc=com"
|
|
> by * search
|
|
> olcAccess: {2}to dn.children="dc=com"
|
|
> by * read
|
|
|
|
The numeric index may be used to specify a particular value to change
|
|
when using ldapmodify to edit the access rules. This index can be used
|
|
instead of (or in addition to) the actual access value. Using this
|
|
numeric index is very helpful when multiple access rules are being managed.
|
|
|
|
For example, if we needed to change the second rule above to grant
|
|
write access instead of search, we could try this LDIF:
|
|
|
|
> changetype: modify
|
|
> delete: olcAccess
|
|
> olcAccess: to dn.children="dc=example,dc=com" by * search
|
|
> -
|
|
> add: olcAccess
|
|
> olcAccess: to dn.children="dc=example,dc=com" by * write
|
|
> -
|
|
|
|
But this example {{B:will not}} guarantee that the existing values remain in
|
|
their original order, so it will most likely yield a broken security
|
|
configuration. Instead, the numeric index should be used:
|
|
|
|
> changetype: modify
|
|
> delete: olcAccess
|
|
> olcAccess: {1}
|
|
> -
|
|
> add: olcAccess
|
|
> olcAccess: {1}to dn.children="dc=example,dc=com" by * write
|
|
> -
|
|
|
|
This example deletes whatever rule is in value #1 of the {{EX:olcAccess}}
|
|
attribute (regardless of its value) and adds a new value that is
|
|
explicitly inserted as value #1. The result will be
|
|
|
|
> olcAccess: {0}to attrs=member,entry
|
|
> by dnattr=member selfwrite
|
|
> olcAccess: {1}to dn.children="dc=example,dc=com"
|
|
> by * write
|
|
> olcAccess: {2}to dn.children="dc=com"
|
|
> by * read
|
|
|
|
which is exactly what was intended.
|
|
|
|
!if 0
|
|
For more details on how to use the {{EX:access}} directive,
|
|
consult the {{Advanced Access Control}} chapter.
|
|
!endif
|
|
|
|
|
|
H2: Access Control Common Examples
|
|
|
|
H3: Basic ACLs
|
|
|
|
Generally one should start with some basic ACLs such as:
|
|
|
|
> access to attrs=userPassword
|
|
> by self =xw
|
|
> by anonymous auth
|
|
> by * none
|
|
>
|
|
>
|
|
> access to *
|
|
> by self write
|
|
> by users read
|
|
> by * none
|
|
|
|
The first ACL allows users to update (but not read) their passwords, anonymous
|
|
users to authenticate against this attribute, and (implicitly) denying all
|
|
access to others.
|
|
|
|
The second ACL allows users full access to their entry, authenticated users read
|
|
access to anything, and (implicitly) denying all access to others (in this case,
|
|
anonymous users).
|
|
|
|
|
|
H3: Matching Anonymous and Authenticated users
|
|
|
|
An anonymous user has a empty DN. While the {{dn.exact=""}} or {{dn.regex="^$"}}
|
|
could be used, {{slapd}}(8)) offers an anonymous shorthand which should be
|
|
used instead.
|
|
|
|
> access to *
|
|
> by anonymous none
|
|
> by * read
|
|
|
|
denies all access to anonymous users while granting others read.
|
|
|
|
Authenticated users have a subject DN. While {{dn.regex=".+"}} will match any
|
|
authenticated user, OpenLDAP provides the users short hand which should be used
|
|
instead.
|
|
|
|
> access to *
|
|
> by users read
|
|
> by * none
|
|
|
|
This ACL grants read permissions to authenticated users while denying others
|
|
(i.e.: anonymous users).
|
|
|
|
|
|
H3: Controlling rootdn access
|
|
|
|
You could specify the {{rootdn}} in {{slapd.conf}}(5) or {{slapd.d}} without
|
|
specifying a {{rootpw}}. Then you have to add an actual directory entry with
|
|
the same dn, e.g.:
|
|
|
|
> dn: cn=Manager,o=MyOrganization
|
|
> cn: Manager
|
|
> sn: Manager
|
|
> objectClass: person
|
|
> objectClass: top
|
|
> userPassword: {SSHA}someSSHAdata
|
|
|
|
Then binding as the {{rootdn}} will require a regular bind to that DN, which
|
|
in turn requires auth access to that entry's DN and {{userPassword}}, and this
|
|
can be restricted via ACLs. E.g.:
|
|
|
|
> access to dn.base="cn=Manager,o=MyOrganization"
|
|
> by peername.regex=127\.0\.0\.1 auth
|
|
> by peername.regex=192\.168\.0\..* auth
|
|
> by users none
|
|
> by * none
|
|
|
|
The ACLs above will only allow binding using rootdn from localhost and
|
|
192.168.0.0/24.
|
|
|
|
|
|
H3: Managing access with Groups
|
|
|
|
There are a few ways to do this. One approach is illustrated here. Consider the
|
|
following DIT layout:
|
|
|
|
> +-dc=example,dc=com
|
|
> +---cn=administrators,dc=example,dc=com
|
|
> +---cn=fred blogs,dc=example,dc=com
|
|
|
|
and the following group object (in LDIF format):
|
|
|
|
> dn: cn=administrators,dc=example,dc=com
|
|
> cn: administrators of this region
|
|
> objectclass: groupOfNames (important for the group acl feature)
|
|
> member: cn=fred blogs,dc=example,dc=com
|
|
> member: cn=somebody else,dc=example,dc=com
|
|
|
|
One can then grant access to the members of this this group by adding appropriate
|
|
{{by group}} clause to an access directive in {{slapd.conf}}(5). For instance,
|
|
|
|
> access to dn.children="dc=example,dc=com"
|
|
> by self write
|
|
> by group.exact="cn=Administrators,dc=example,dc=com" write
|
|
> by * auth
|
|
|
|
Like by {{dn}} clauses, one can also use {{expand}} to expand the group name
|
|
based upon the regular expression matching of the target, that is, the to {{dn.regex}}).
|
|
For instance,
|
|
|
|
> access to dn.regex="(.+,)?ou=People,(dc=[^,]+,dc=[^,]+)$"
|
|
> attrs=children,entry,uid
|
|
> by group.expand="cn=Managers,$2" write
|
|
> by users read
|
|
> by * auth
|
|
|
|
|
|
The above illustration assumed that the group members are to be found in the
|
|
{{member}} attribute type of the {{groupOfNames}} object class. If you need to
|
|
use a different group object and/or a different attribute type then use the
|
|
following {{slapd.conf}}(5) (abbreviated) syntax:
|
|
|
|
> access to <what>
|
|
> by group/<objectclass>/<attributename>=<DN> <access>
|
|
|
|
For example:
|
|
|
|
> access to *
|
|
> by group/organizationalRole/roleOccupant="cn=Administrator,dc=example,dc=com" write
|
|
|
|
In this case, we have an ObjectClass {{organizationalRole}} which contains the
|
|
administrator DN's in the {{roleOccupant}} attribute. For instance:
|
|
|
|
> dn: cn=Administrator,dc=example,dc=com
|
|
> cn: Administrator
|
|
> objectclass: organizationalRole
|
|
> roleOccupant: cn=Jane Doe,dc=example,dc=com
|
|
|
|
Note: the specified member attribute type MUST be of DN or {{NameAndOptionalUID}} syntax,
|
|
and the specified object class SHOULD allow the attribute type.
|
|
|
|
Dynamic Groups are also supported in Access Control. Please see {{slapo-dynlist}}(5)
|
|
and the {{SECT:Dynamic Lists}} overlay section.
|
|
|
|
|
|
H3: Granting access to a subset of attributes
|
|
|
|
You can grant access to a set of attributes by specifying a list of attribute names
|
|
in the ACL {{to}} clause. To be useful, you also need to grant access to the
|
|
{{entry}} itself. Also note how {{children}} controls the ability to add, delete,
|
|
and rename entries.
|
|
|
|
> # mail: self may write, authenticated users may read
|
|
> access to attrs=mail
|
|
> by self write
|
|
> by users read
|
|
> by * none
|
|
>
|
|
> # cn, sn: self my write, all may read
|
|
> access to attrs=cn,sn
|
|
> by self write
|
|
> by * read
|
|
>
|
|
> # immediate children: only self can add/delete entries under this entry
|
|
> access to attrs=children
|
|
> by self write
|
|
>
|
|
> # entry itself: self may write, all may read
|
|
> access to attrs=entry
|
|
> by self write
|
|
> by * read
|
|
>
|
|
> # other attributes: self may write, others have no access
|
|
> access to *
|
|
> by self write
|
|
> by * none
|
|
|
|
ObjectClass names may also be specified in this list, which will affect
|
|
all the attributes that are required and/or allowed by that {{objectClass}}.
|
|
Actually, names in {{attrlist}} that are prefixed by {{@}} are directly treated
|
|
as objectClass names. A name prefixed by {{!}} is also treated as an objectClass,
|
|
but in this case the access rule affects the attributes that are not required
|
|
nor allowed by that {{objectClass}}.
|
|
|
|
|
|
H3: Allowing a user write to all entries below theirs
|
|
|
|
For a setup where a user can write to its own record and to all of its children:
|
|
|
|
> access to dn.regex="(.+,)?(uid=[^,]+,o=Company)$"
|
|
> by dn.exact,expand="$2" write
|
|
> by anonymous auth
|
|
|
|
(Add more examples for above)
|
|
|
|
|
|
H3: Allowing entry creation
|
|
|
|
Let's say, you have it like this:
|
|
|
|
> o=<basedn>
|
|
> ou=domains
|
|
> associatedDomain=<somedomain>
|
|
> ou=users
|
|
> uid=<someuserid>
|
|
> uid=<someotheruserid>
|
|
> ou=addressbooks
|
|
> uid=<someuserid>
|
|
> cn=<someone>
|
|
> cn=<someoneelse>
|
|
|
|
and, for another domain <someotherdomain>:
|
|
|
|
> o=<basedn>
|
|
> ou=domains
|
|
> associatedDomain=<someotherdomain>
|
|
> ou=users
|
|
> uid=<someuserid>
|
|
> uid=<someotheruserid>
|
|
> ou=addressbooks
|
|
> uid=<someotheruserid>
|
|
> cn=<someone>
|
|
> cn=<someoneelse>
|
|
|
|
then, if you wanted user {{uid=<someuserid>}} to {{B:ONLY}} create an entry
|
|
for its own thing, you could write an ACL like this:
|
|
|
|
> # this rule lets users of "associatedDomain=<matcheddomain>"
|
|
> # write under "ou=addressbook,associatedDomain=<matcheddomain>,ou=domains,o=<basedn>",
|
|
> # i.e. a user can write ANY entry below its domain's address book;
|
|
> # this permission is necessary, but not sufficient, the next
|
|
> # will restrict this permission further
|
|
>
|
|
>
|
|
> access to dn.regex="^ou=addressbook,associatedDomain=([^,]+),ou=domains,o=<basedn>$" attrs=children
|
|
> by dn.regex="^uid=([^,]+),ou=users,associatedDomain=$1,ou=domains,o=<basedn>$$" write
|
|
> by * none
|
|
>
|
|
>
|
|
> # Note that above the "by" clause needs a "regex" style to make sure
|
|
> # it expands to a DN that starts with a "uid=<someuserid>" pattern
|
|
> # while substituting the associatedDomain submatch from the "what" clause.
|
|
>
|
|
>
|
|
> # This rule lets a user with "uid=<matcheduid>" of "<associatedDomain=matcheddomain>"
|
|
> # write (i.e. add, modify, delete) the entry whose DN is exactly
|
|
> # "uid=<matcheduid>,ou=addressbook,associatedDomain=<matcheddomain>,ou=domains,o=<basedn>"
|
|
> # and ANY entry as subtree of it
|
|
>
|
|
>
|
|
> access to dn.regex="^(.+,)?uid=([^,]+),ou=addressbook,associatedDomain=([^,]+),ou=domains,o=<basedn>$"
|
|
> by dn.exact,expand="uid=$2,ou=users,associatedDomain=$3,ou=domains,o=<basedn>" write
|
|
> by * none
|
|
>
|
|
>
|
|
> # Note that above the "by" clause uses the "exact" style with the "expand"
|
|
> # modifier because now the whole pattern can be rebuilt by means of the
|
|
> # submatches from the "what" clause, so a "regex" compilation and evaluation
|
|
> # is no longer required.
|
|
|
|
|
|
H3: Tips for using regular expressions in Access Control
|
|
|
|
Always use {{dn.regex=<pattern>}} when you intend to use regular expression
|
|
matching. {{dn=<pattern>}} alone defaults to {{dn.exact<pattern>}}.
|
|
|
|
Use {{(.+)}} instead of {{(.*)}} when you want at least one char to be matched.
|
|
{{(.*)}} matches the empty string as well.
|
|
|
|
Don't use regular expressions for matches that can be done otherwise in a safer
|
|
and cheaper manner. Examples:
|
|
|
|
> dn.regex=".*dc=example,dc=com"
|
|
|
|
is unsafe and expensive:
|
|
|
|
* unsafe because any string containing {{dc=example,dc=com }}will match,
|
|
not only those that end with the desired pattern; use {{.*dc=example,dc=com$}} instead.
|
|
* unsafe also because it would allow any {{attributeType}} ending with {{dc}}
|
|
as naming attribute for the first RDN in the string, e.g. a custom attributeType
|
|
{{mydc}} would match as well. If you really need a regular expression that allows
|
|
just {{dc=example,dc=com}} or any of its subtrees, use {{^(.+,)?dc=example,dc=com$}},
|
|
which means: anything to the left of dc=..., if any (the question mark after the
|
|
pattern within brackets), must end with a comma;
|
|
* expensive because if you don't need submatches, you could use scoping styles, e.g.
|
|
|
|
> dn.subtree="dc=example,dc=com"
|
|
|
|
to include {{dc=example,dc=com}} in the matching patterns,
|
|
|
|
> dn.children="dc=example,dc=com"
|
|
|
|
to exclude {{dc=example,dc=com}} from the matching patterns, or
|
|
|
|
> dn.onelevel="dc=example,dc=com"
|
|
|
|
to allow exactly one sublevel matches only.
|
|
|
|
Always use {{^}} and {{$}} in regexes, whenever appropriate, because
|
|
{{ou=(.+),ou=(.+),ou=addressbooks,o=basedn}} will match
|
|
{{something=bla,ou=xxx,ou=yyy,ou=addressbooks,o=basedn,ou=addressbooks,o=basedn,dc=some,dc=org}}
|
|
|
|
Always use {{([^,]+)}} to indicate exactly one RDN, because {{(.+)}} can
|
|
include any number of RDNs; e.g. {{ou=(.+),dc=example,dc=com}} will match
|
|
{{ou=My,o=Org,dc=example,dc=com}}, which might not be what you want.
|
|
|
|
Never add the rootdn to the by clauses. ACLs are not even processed for operations
|
|
performed with rootdn identity (otherwise there would be no reason to define a
|
|
rootdn at all).
|
|
|
|
Use shorthands. The user directive matches authenticated users and the anonymous
|
|
directive matches anonymous users.
|
|
|
|
Don't use the {{dn.regex}} form for <by> clauses if all you need is scoping
|
|
and/or substring replacement; use scoping styles (e.g. {{exact}}, {{onelevel}},
|
|
{{children}} or {{subtree}}) and the style modifier expand to cause substring expansion.
|
|
|
|
For instance,
|
|
|
|
> access to dn.regex=".+,dc=([^,]+),dc=([^,]+)$"
|
|
> by dn.regex="^[^,],ou=Admin,dc=$1,dc=$2$$" write
|
|
|
|
although correct, can be safely and efficiently replaced by
|
|
|
|
> access to dn.regex=".+,(dc=[^,]+,dc=[^,]+)$"
|
|
> by dn.onelevel,expand="ou=Admin,$1" write
|
|
|
|
where the regex in the {{<what>}} clause is more compact, and the one in the {{<by>}}
|
|
clause is replaced by a much more efficient scoping style of onelevel with substring expansion.
|
|
|
|
|
|
H3: Granting and Denying access based on security strength factors (ssf)
|
|
|
|
You can restrict access based on the security strength factor (SSF)
|
|
|
|
> access to dn="cn=example,cn=edu"
|
|
> by * ssf=256 read
|
|
|
|
0 (zero) implies no protection,
|
|
1 implies integrity protection only,
|
|
56 DES or other weak ciphers,
|
|
112 triple DES and other strong ciphers,
|
|
128 RC4, Blowfish and other modern strong ciphers.
|
|
|
|
Other possibilities:
|
|
|
|
> transport_ssf=<n>
|
|
> tls_ssf=<n>
|
|
> sasl_ssf=<n>
|
|
|
|
256 is recommended.
|
|
|
|
See {{slapd.conf}}(5) for information on {{ssf}}.
|
|
|
|
|
|
H3: When things aren't working as expected
|
|
|
|
Consider this example:
|
|
|
|
> access to *
|
|
> by anonymous auth
|
|
>
|
|
> access to *
|
|
> by self write
|
|
>
|
|
> access to *
|
|
> by users read
|
|
|
|
You may think this will allow any user to login, to read everything and change
|
|
his own data if he is logged in. But in this example only the login works and
|
|
an ldapsearch returns no data. The Problem is that SLAPD goes through its access
|
|
config line by line and stops as soon as it finds a match in the part of the
|
|
access rule.(here: {{to *}})
|
|
|
|
To get what we wanted the file has to read:
|
|
|
|
> access to *
|
|
> by anonymous auth
|
|
> by self write
|
|
> by users read
|
|
|
|
The general rule is: "special access rules first, generic access rules last"
|
|
|
|
See also {{slapd.access}}(5), loglevel 128 and {{slapacl}}(8) for debugging
|
|
information.
|
|
|
|
|
|
H2: Sets - Granting rights based on relationships
|
|
|
|
Sets are best illustrated via examples. The following sections will present
|
|
a few set ACL examples in order to facilitate their understanding.
|
|
|
|
(Sets in Access Controls FAQ Entry: {{URL:http://www.openldap.org/faq/data/cache/1133.html}})
|
|
|
|
Note: Sets are considered experimental.
|
|
|
|
|
|
H3: Groups of Groups
|
|
|
|
The OpenLDAP ACL for groups doesn't expand groups within groups, which are
|
|
groups that have another group as a member. For example:
|
|
|
|
> dn: cn=sudoadm,ou=group,dc=example,dc=com
|
|
> cn: sudoadm
|
|
> objectClass: groupOfNames
|
|
> member: uid=john,ou=people,dc=example,dc=com
|
|
> member: cn=accountadm,ou=group,dc=example,dc=com
|
|
>
|
|
> dn: cn=accountadm,ou=group,dc=example,dc=com
|
|
> cn: accountadm
|
|
> objectClass: groupOfNames
|
|
> member: uid=mary,ou=people,dc=example,dc=com
|
|
|
|
If we use standard group ACLs with the above entries and allow members of the
|
|
{{F:sudoadm}} group to write somewhere, {{F:mary}} won't be included:
|
|
|
|
> access to dn.subtree="ou=sudoers,dc=example,dc=com"
|
|
> by group.exact="cn=sudoadm,ou=group,dc=example,dc=com" write
|
|
> by * read
|
|
|
|
With sets we can make the ACL be recursive and consider group within groups. So
|
|
for each member that is a group, it is further expanded:
|
|
|
|
> access to dn.subtree="ou=sudoers,dc=example,dc=com"
|
|
> by set="[cn=sudoadm,ou=group,dc=example,dc=com]/member* & user" write
|
|
> by * read
|
|
|
|
This set ACL means: take the {{F:cn=sudoadm}} DN, check its {{F:member}}
|
|
attribute(s) (where the "{{F:*}}" means recursively) and intersect the result
|
|
with the authenticated user's DN. If the result is non-empty, the ACL is
|
|
considered a match and write access is granted.
|
|
|
|
The following drawing explains how this set is built:
|
|
!import "set-recursivegroup.png"; align="center"; title="Building a recursive group"
|
|
FT[align="Center"] Figure X.Y: Populating a recursive group set
|
|
|
|
First we get the {{F:uid=john}} DN. This entry doesn't have a {{F:member}}
|
|
attribute, so the expansion stops here. Now we get to {{F:cn=accountadm}}.
|
|
This one does have a {{F:member}} attribute, which is {{F:uid=mary}}. The
|
|
{{F:uid=mary}} entry, however, doesn't have member, so we stop here again. The
|
|
end comparison is:
|
|
|
|
> {"uid=john,ou=people,dc=example,dc=com","uid=mary,ou=people,dc=example,dc=com"} & user
|
|
|
|
If the authenticated user's DN is any one of those two, write access is
|
|
granted. So this set will include {{F:mary}} in the {{F:sudoadm}} group and she
|
|
will be allowed the write access.
|
|
|
|
H3: Group ACLs without DN syntax
|
|
|
|
The traditional group ACLs, and even the previous example about recursive groups, require
|
|
that the members are specified as DNs instead of just usernames.
|
|
|
|
With sets, however, it's also possible to use simple names in group ACLs, as this example will
|
|
show.
|
|
|
|
Let's say we want to allow members of the {{F:sudoadm}} group to write to the
|
|
{{F:ou=sudoers}} branch of our tree. But our group definition now is using {{F:memberUid}} for
|
|
the group members:
|
|
|
|
> dn: cn=sudoadm,ou=group,dc=example,dc=com
|
|
> cn: sudoadm
|
|
> objectClass: posixGroup
|
|
> gidNumber: 1000
|
|
> memberUid: john
|
|
|
|
With this type of group, we can't use group ACLs. But with a set ACL we can
|
|
grant the desired access:
|
|
|
|
> access to dn.subtree="ou=sudoers,dc=example,dc=com"
|
|
> by set="[cn=sudoadm,ou=group,dc=example,dc=com]/memberUid & user/uid" write
|
|
> by * read
|
|
|
|
We use a simple intersection where we compare the {{F:uid}} attribute
|
|
of the connecting (and authenticated) user with the {{F:memberUid}} attributes
|
|
of the group. If they match, the intersection is non-empty and the ACL will
|
|
grant write access.
|
|
|
|
This drawing illustrates this set when the connecting user is authenticated as
|
|
{{F:uid=john,ou=people,dc=example,dc=com}}:
|
|
!import "set-memberUid.png"; align="center"; title="Sets with memberUid"
|
|
FT[align="Center"] Figure X.Y: Sets with {{F:memberUid}}
|
|
|
|
In this case, it's a match. If it were {{F:mary}} authenticating, however, she
|
|
would be denied write access to {{F:ou=sudoers}} because her {{F:uid}}
|
|
attribute is not listed in the group's {{F:memberUid}}.
|
|
|
|
H3: Following references
|
|
|
|
We will now show a quite powerful example of what can be done with sets. This
|
|
example tends to make OpenLDAP administrators smile after they have understood
|
|
it and its implications.
|
|
|
|
Let's start with an user entry:
|
|
|
|
> dn: uid=john,ou=people,dc=example,dc=com
|
|
> uid: john
|
|
> objectClass: inetOrgPerson
|
|
> givenName: John
|
|
> sn: Smith
|
|
> cn: john
|
|
> manager: uid=mary,ou=people,dc=example,dc=com
|
|
|
|
Writing an ACL to allow the manager to update some attributes is quite simple
|
|
using sets:
|
|
|
|
> access to dn.exact="uid=john,ou=people,dc=example,dc=com"
|
|
> attrs=carLicense,homePhone,mobile,pager,telephoneNumber
|
|
> by self write
|
|
> by set="this/manager & user" write
|
|
> by * read
|
|
|
|
In that set, {{F:this}} expands to the entry being accessed, so that
|
|
{{F:this/manager}} expands to {{F:uid=mary,ou=people,dc=example,dc=com}} when
|
|
john's entry is accessed. If the manager herself is accessing John's entry,
|
|
the ACL will match and write access to those attributes will be granted.
|
|
|
|
So far, this same behavior can be obtained with the {{F:dnattr}} keyword. With
|
|
sets, however, we can further enhance this ACL. Let's say we want to allow the
|
|
secretary of the manager to also update these attributes. This is how we do it:
|
|
|
|
> access to dn.exact="uid=john,ou=people,dc=example,dc=com"
|
|
> attrs=carLicense,homePhone,mobile,pager,telephoneNumber
|
|
> by self write
|
|
> by set="this/manager & user" write
|
|
> by set="this/manager/secretary & user" write
|
|
> by * read
|
|
|
|
Now we need a picture to help explain what is happening here (entries shortened
|
|
for clarity):
|
|
|
|
!import "set-following-references.png"; align="center"; title="Sets jumping through entries"
|
|
FT[align="Center"] Figure X.Y: Sets jumping through entries
|
|
|
|
In this example, Jane is the secretary of Mary, which is the manager of John.
|
|
This whole relationship is defined with the {{F:manager}} and {{F:secretary}}
|
|
attributes, which are both of the distinguishedName syntax (i.e., full DNs).
|
|
So, when the {{F:uid=john}} entry is being accessed, the
|
|
{{F:this/manager/secretary}} set becomes
|
|
{{F:{"uid=jane,ou=people,dc=example,dc=com"}}} (follow the references in the
|
|
picture):
|
|
|
|
> this = [uid=john,ou=people,dc=example,dc=com]
|
|
> this/manager = \
|
|
> [uid=john,ou=people,dc=example,dc=com]/manager = uid=mary,ou=people,dc=example,dc=com
|
|
> this/manager/secretary = \
|
|
> [uid=mary,ou=people,dc=example,dc=com]/secretary = uid=jane,ou=people,dc=example,dc=com
|
|
|
|
The end result is that when Jane accesses John's entry, she will be granted
|
|
write access to the specified attributes. Better yet, this will happen to any
|
|
entry she accesses which has Mary as the manager.
|
|
|
|
This is all cool and nice, but perhaps gives too much power to secretaries. Maybe we need to further
|
|
restrict it. For example, let's only allow executive secretaries to have this power:
|
|
|
|
> access to dn.exact="uid=john,ou=people,dc=example,dc=com"
|
|
> attrs=carLicense,homePhone,mobile,pager,telephoneNumber
|
|
> by self write
|
|
> by set="this/manager & user" write
|
|
> by set="this/manager/secretary &
|
|
> [cn=executive,ou=group,dc=example,dc=com]/member* &
|
|
> user" write
|
|
> by * read
|
|
|
|
It's almost the same ACL as before, but we now also require that the connecting user be a member
|
|
of the (possibly nested) {{F:cn=executive}} group.
|
|
|
|
|