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561 lines
25 KiB
Plaintext
# Copyright 1999-2000, The OpenLDAP Foundation, All Rights Reserved.
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# COPYING RESTRICTIONS APPLY, see COPYRIGHT.
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H1: Using SASL
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OpenLDAP clients and servers are capable of authenticating via the
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{{TERM[expand]SASL}} ({{TERM:SASL}}) framework, which is detailed
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in {{REF:RFC2222}}. This chapter describes how to make use of
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SASL in OpenLDAP.
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There are several industry standard authentication mechanisms that
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can be used with SASL, including Kerberos V4, GSSAPI, and some of
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the Digest mechanisms. The standard client tools provided with
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OpenLDAP, such as {{ldapsearch}}(1) and {{ldapmodify}}(1), will by
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default attempt to authenticate the user to the {{slapd}}(8) server
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using SASL. Basic authentication service can be set up by the LDAP
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administrator with a few steps, allowing users to be authenticated
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to the slapd server as their LDAP entry. With a few extra steps,
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some users and services can be allowed to exploit SASL's authorization
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feature, allowing them to authenticate themselves and then switch
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their identity to that of another user or service.
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This chapter assumes you have read {{Cyrus SASL for System
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Administrators}}, provided with the {{PRD:Cyrus}} {{PRD:SASL}}
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package (in {{FILE:doc/sysadmin.html}}).
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Note that in the following text the term {{user}} is used to describe
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a person or application entity who is connecting to the LDAP server
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via an LDAP client, such as {{ldapsearch}}(1). That is, the term
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{{user}} not only applies to both an individual using an LDAP client,
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but to an application entity which issues LDAP client operations
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without direct user control. For example, an e-mail server which
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uses LDAP operations to access information held in an LDAP server
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is an application entity.
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H2: SASL Security Considerations
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SASL offers many different authentication mechanisms. This section
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briefly outlines security considerations.
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Some mechanisms, such as PLAIN and LOGIN, offer no greater security over
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LDAP "simple" authentication. Like "simple" authentication, such
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mechanisms should not be used unless you have adequate security
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protections in place. It is recommended that these mechanisms be
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used only in conjunction with {{TERM[expand]TLS}} (TLS). Use of
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PLAIN and LOGIN are not discussed further in this document.
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The DIGEST-MD5 mechanism is the mandatory-to-implement authentication
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mechanism for LDAPv3. Though DIGEST-MD5 is not a strong authentication
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mechanism in comparison with trusted third party authentication
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systems (such as Kerberos or public key systems), yet it does offer
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significant protections against a number of attacks. Unlike the
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CRAM-MD5 mechanism, it prevents chosen plaintext attacks. DIGEST-MD5
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is favored over the weaker and even more dangerous use of plaintext
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password mechanisms. The CRAM-MD5 mechanism is deprecated in favor
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of DIGEST-MD5. Use of {{SECT:DIGEST-MD5}} is discussed below.
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The KERBEROS_V4 mechanism utilizes Kerberos IV to provide secure
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authentication services. There is also a GSSAPI based mechanism
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which is generally used in conjunction with Kerberos V. Kerberos
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is viewed as a secure, distributed authentication system suitable
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for both small and large enterprises. Use of {{SECT:KERBEROS_V4}}
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and {{SECT:GSSAPI}} are discussed below.
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The EXTERNAL mechanism utilizes authentication services provided
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by lower level network services such as {{TERM:TLS}} (TLS). When
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used in conjunction with TLS {{TERM:X.509}}-based public key technology,
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EXTERNAL offers strong authentication. Use of EXTERNAL is discussed
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in the {{SECT:Using TLS}} chapter.
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There are other strong authentication mechanisms to choose from,
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including OTP (one time passwords) and SRP (secure remote passwords).
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These mechanisms are not discussed in this document.
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H2: SASL Authentication
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Getting basic SASL authentication running involves a few steps.
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The first step configures your slapd server environment so
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that it can communicate with client programs using the security
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system in place at your site. This usually involves setting up a
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service key, a public key, or other form of secret. The second step
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concerns mapping authentication identities to LDAP DN's, which
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depends on how entries are laid out in your directory. An explanation
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of the first step will be given in the next section using Kerberos
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V4 as an example mechanism. The steps necessary for your site's
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authentication mechanism will be similar, but a guide to every
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mechanism available under SASL is beyond the scope of this chapter.
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The second step is described in the section
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{{SECT:Mapping Authentication identities to LDAP entries}}.
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H3: KERBEROS_V4
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This section describes the use of the SASL KERBEROS_V4 mechanism
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with OpenLDAP. It will be assumed that you are familiar with the
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workings of the Kerberos IV security system, and that your site has
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Kerberos IV deployed. Your users should be familiar with
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authentication policy, how to receive credentials in
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a Kerberos ticket cache, and how to refresh expired credentials.
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Client programs will need to be able to obtain a session key for
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use when connecting to your LDAP server. This allows the LDAP server
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to know the identity of the user, and allows the client to know it
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is connecting to a legitimate server. If encryption layers are to
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be used, the session key can also be used to help negotiate that
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option.
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The slapd server runs the service called "{{ldap}}", and the server
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will require a srvtab file with a service key. SASL aware client
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programs will be obtaining an "ldap" service ticket with the user's
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ticket granting ticket (TGT), with the instance of the ticket
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matching the hostname of the OpenLDAP server. For example, if your
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realm is named {{EX:EXAMPLE.COM}} and the slapd server is running
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on the host named {{EX:directory.example.com}}, the {{FILE:/etc/srvtab}}
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file on the server will have a service key
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> ldap.directory@EXAMPLE.COM
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When an LDAP client is authenticating a user to the directory using
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the KERBEROS_IV mechanism, it will request a session key for that
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same principal, either from the ticket cache or by obtaining a new
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one from the Kerberos server. This will require the TGT to be
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available and valid in the cache as well. If it is not present or
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has expired, SASL will print out the message
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> ldap_sasl_interactive_bind_s: Local error
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When the service ticket is obtained, it will be passed to the LDAP
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server as proof of the user's identity. The server will extract
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the identity and realm out of the service ticket using SASL
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library calls, and convert them into an {{authentication request
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DN}} of the form
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> uid=<username>,cn=<realm>,cn=<mechanism>,cn=auth
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So in our above example, if the user's name were "adamson", the
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authentication request DN would be:
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> uid=adamsom,cn=example.com,cn=kerberos_v4,cn=auth
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This authentication request DN by itself could be placed into ACL's
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and {{EX:groupOfNames}} "member" attributes, since it is of legitimate
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LDAP DN format. The section
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{{SECT:Mapping Authentication identities to LDAP entries}},
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however, tells how to map that
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DN into the DN of a person's own LDAP entry.
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Also note that this example, being for Kerberos, shows the <realm>
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portion of the DN being filled in with the Kerberos realm of the
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company. Several other authentication mechanisms do not employ the
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concept of a realm, so the ",cn=<realm>" portion of the authentication
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request DN would not appear.
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H3: GSSAPI
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This section describes the use of the SASL GSSAPI mechanism and
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Kerberos V with OpenLDAP. Since Kerberos V is being used, the information
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is very similar to the previous section.
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It will be assumed that you have Kerberos
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V deployed, you are familiar with the operation of the system, and that
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your users are trained in its use. This section also assumes you have
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familiarized yourself with the use of the GSSAPI mechanism by reading
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{{Configuring GSSAPI and Cyrus SASL}} (provided with Cyrus SASL in
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the {{FILE:doc/gssapi}} file) and successfully experimented with
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the Cyrus provided sample_server and sample_client applications.
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General information about Kerberos is available at
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{{URL:http://web.mit.edu/kerberos/www/}}.
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To use the GSSAPI mechanism with {{slapd}}(8) one must create a service
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key with a principal for {{ldap}} service within the realm for the host
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on which the service runs. For example, if you run {{slapd}} on
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{{EX:directory.example.com}} and your realm is {{EX:EXAMPLE.COM}},
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you need to create a service key with the principal:
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> ldap/directory.example.com@EXAMPLE.COM
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When {{slapd}}(8) runs, it must have access to this key. This is
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generally done by placing the key into a keytab, such as
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{{FILE:/etc/krb5.keytab}}.
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To use the GSSAPI mechanism to authenticate to the directory, the
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user obtains a Ticket Granting Ticket (TGT) prior to running the
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LDAP client. When using OpenLDAP client tools, the user may mandate
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use of the GSSAPI mechanism by specifying {{EX:-Y GSSAPI}} as a
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command option.
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For the purposes of authentication and authorization, {{slapd}}(8)
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associates a non-mapped authentication request DN of the form:
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> uid=<principal>,cn=<realm>,cn=gssapi,cn=auth
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Continuing our example, a user
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with the Kerberos principal {{EX:kurt@EXAMPLE.COM}} would have
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the associated DN:
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> uid=kurt,cn=example.com,cn=gssapi,cn=auth
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and the principal {{EX:ursula@FOREIGN.REALM}} would have the
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associated DN:
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> uid=ursula,cn=foreign.realm,cn=gssapi,cn=auth
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H3: Mapping Authentication identities to LDAP entries
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The authentication mechanism in the slapd server will use SASL
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library calls to obtain the authenticated user's "username", based
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on whatever underlying authentication mechanism was used. This
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username is in the namespace of the authentication mechanism, and
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not in the LDAP namespace. As stated in the sections above, that
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username is reformatted into an authentication request DN of the
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form
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> uid=<username>,cn=<realm>,cn=<mechanism>,cn=auth
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or
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> uid=<username>,cn=<mechanism>,cn=auth
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depending on whether or not <mechanism> employs the concept of
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"realms".
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It is not intended that you should add LDAP entries of the above
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form to your LDAP database. Chances are you have an LDAP entry for
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each of the people that will be authenticating to LDAP, laid out
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in your directory tree, and the tree does not start at cn=auth.
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But if your site has a clear mapping between the "username" and an
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LDAP entry for the person, you will be able to configure your LDAP
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server to automatically map a user's authentication username to
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their {{authentication DN}}.
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The LDAP administrator will need to tell the slapd server how to
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map an authentication request DN to a user's authentication DN.
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This is done by adding one or more {{EX:sasl-regexp}} directives to
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the {{slapd.conf}}(5) file. This directive takes two arguments:
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> sasl-regexp <search pattern> <replacement pattern>
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The authentication request DN is compared to the search pattern
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using the regular expression functions {{regcomp}}() and {{regexec}}(),
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and if it matches, it is rewritten as the replacement pattern. If
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there are multiple {{EX:sasl-regexp}} directives, only the first
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whose search pattern matches the authentication identity is used.
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The string that is output from the replacement pattern should be
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the authentication DN of the user, in a legitimate LDAP DN format.
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It can also be an LDAP URL, which is discussed below.
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The search pattern can contain any of the regular expression
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characters listed in {{regexec}}(3C). The main characters of note
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are dot ".", asterisk "*", and the open and close parenthesis "("
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and ")". Essentially, the dot matches any character, the asterisk
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matches one or more characters, and terms in parenthesis are
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remembered for the replacement pattern.
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The replacement pattern will produce the final authentication DN
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of the user. Anything from the authentication request DN that
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matched a string in parenthesis in the search pattern is stored in
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the variable "$1". That variable "$1" can appear in the replacement
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pattern, and will be replaced by the string from the authentication
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request DN. If there were multiple sets of parentheses in the search
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pattern, the variables $2, $3, etc are used.
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For example, suppose the user's authentication identity is written
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as the DN string
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> uid=adamson,cn=example.com,cn=kerberos_v4,cn=auth
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and the user's actual LDAP entry is
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> uid=adamson,ou=person,dc=example,dc=com
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The {{EX:sasl-regexp}} directive in {{slapd.conf}}(5) could be
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written
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> sasl-regexp
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> uid=(.*),cn=example.com,cn=kerberos_v4,cn=auth
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> uid=$1,ou=person,dc=example,dc=com
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An even more lenient rule could be written as
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> sasl-regexp
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> uid=(.*),.*cn=auth
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> uid=$1,ou=person,dc=example,dc=com
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Be careful about setting the search pattern too leniently, however,
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since it may mistakenly allow people to become authenticated as a
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DN to which they should not have access. It is better to write
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several strict directives than one lenient directive which has
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security holes. If there is only one authentication mechanism in
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place at your site, and zero or one realms in use, you might be
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able to map between authentication identities and LDAP DN's with
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a single {{EX:sasl-regexp}} directive.
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Some sites may have people's DN's spread to multiple areas of the
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LDAP tree, such as if there were an ou=accounting tree and an
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ou=engineering tree, with people interspersed between them. Or
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there may not be enough information in the authentication identity
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to isolate the DN, such as if the above person's LDAP entry looked
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like
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> dn: cn=mark adamson,ou=person,dc=example,dc=com
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> objectclass: Person
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> cn: mark adamson
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> uid: adamson
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In this case, the information in the authentication identity can
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only be used to search for the user's DN, not derive it directly.
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For both of these situations, and others, the replacement pattern
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in the {{EX:sasl-regexp}} directives will need to produce an LDAP
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URL, described in the next section.
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H3: Performing searches for a person's DN
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When there is not enough information in the authentication identity
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to derive a person's authentication DN directly, the {{EX:sasl-regexp}}
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directives in the {{slapd.conf}}(5) file will need to produce an
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LDAP URL. This URL will then be used to perform an internal search
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of the LDAP database to find the person's authentication DN.
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An LDAP URL, similar to other URL's, is of the form
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> ldap://<host>/<base>?<attrs>?<scope>?<filter>
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This contains all of the elements necessary to perform an LDAP
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search: the name of the server <host>, the LDAP DN search base
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<base>, the LDAP attributes to retrieve <attrs>, the search scope
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<scope> which is one of the three options "base", "one", or "sub",
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and lastly an LDAP search filter <filter>. Since the search is for
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an LDAP DN on the local machine, the <host> portion should be empty.
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The <attrs> field is also ignored since only the DN is of concern.
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These two elements are left in the format of the URL to maintain
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the clarity of what information goes where in the string.
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Suppose that the person in the example from above did in fact have
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an authentication username of "adamson" and that information was
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kept in the attribute "uid" in their LDAP entry. The {{EX:sasl-regexp}}
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directive might be written as
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> sasl-regexp
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> uid=(.*),cn=example.com,cn=kerberos_v4,cn=auth
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> ldap:///ou=person,dc=example,dc=com??sub?(uid=$1)
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This will initiate an internal search of the LDAP database inside
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the slapd server. If the search returns exactly one entry, it is
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accepted as being the DN of the user. If there are more than one
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entries returned, or if there are zero entries returned, the
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authentication fails and the user's connection is left bound as
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the authentication request DN.
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Note that if the search scope <scope> in the URL is "base", then
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the only LDAP entry that will be returned is the searchbase DN
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<base>, so the actual search of the database is skipped. This is
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equivalent to setting the replacement pattern in the directive to
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a DN directly, as in the section above.
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The attributes that are used in the search filter <filter> in the
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URL should be indexed to allow faster searching. If they are not,
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the authentication step alone can take uncomfortably long periods,
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and users may assume the server is down.
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H2: SASL Authorization
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The SASL offers a feature known as {{authorization}}, which allows
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an authenticated user to request that they act on the behalf of
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another user. This step occurs after the user has obtained an
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authentication DN, and involves sending an authorization identity
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to the server. The server will then make a decision on whether or
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not to allow the authorization to occur. If it is allowed, the
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user's LDAP connection is switched to have a binding DN derived
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from the authorization identity, and the LDAP session proceeds with
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the access of the new authorization DN.
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The decision to allow an authorization to proceed depends on the
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rules and policies of the site where LDAP is running, and thus
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cannot be made by SASL alone. The SASL library leaves it up to the
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server to make the decision. The LDAP administrator sets the
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guidelines of who can authorize to what identity by adding information
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into the LDAP database entries. By default, the authorization
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features are disabled, and must be explicitly configured by the
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LDAP administrator before use.
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H3: Uses of Authorization
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This sort of service is useful when one entity needs to act on the
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behalf of many other users. For example, users may be directed to
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a web page to make changes to their personal information in their
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LDAP entry. The users authenticate to the web server to establish
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their identity, but the web server CGI cannot authenticate to the
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LDAP server as that user to make changes for them. Instead, the
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web server authenticates itself to the LDAP server as a service
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identity, say,
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> cn=WebUpdate,dc=example,dc=com
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and then it will SASL authorize to the DN of the user. Once so
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authorized, the CGI makes changes to the LDAP entry of the user,
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and as far as the slapd server can tell for its ACLs, it is the
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user themself on the other end of the connection. The user could
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have connected to the LDAP server directly and authenticated as
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themself, but that would require the user to have more knowledge
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of LDAP clients, knowledge which the web page provides in an easier
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format.
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Authorization can also be used to limit access to an account that
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has greater access to the database. Such an account, perhaps even
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the root DN specified in {{slapd.conf}}(5), can have a strict list
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of people who can authorize to that DN. Changes to the LDAP database
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could then be only allowed by that DN, and in order to become that
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DN, users must first authenticate as one of the persons on the
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list. This allows for better auditing of who made changes to the
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LDAP database. If people were allowed to authenticate directly to
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the priviliged account, possibly through the {{EX:rootpw}}
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{{slapd.conf}}(5) directive or through a {{EX:userPassword}}
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attribute, then auditing becomes more difficult.
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Note that after a successful authorization, the original authentication
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DN in the LDAP connection is overwritten by the new DN from the
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authorization request. If a service program is able to authenticate
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itself as its own authentication DN and then authorize to other
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DN's, and it is planning on switching to several different identities
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during one LDAP session, it will need to authenticate itself each
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time before authorizing to another DN. The slapd server does not
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keep record of the service program's ability to switch to other
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DN's. On authentication mechanisms like Kerberos this will not
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require multiple connections being made to the Kerberos server,
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since the user's TGT and "ldap" session key are valid for multiple
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uses for the several hours of the ticket lifetime.
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H3: Authorization Identities
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The authorization identity is sent to the slapd server via the -X
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switch for {{ldapsearch}}(1) and other tools, or in the *authzid
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parameter to the {{lutil_sasl_defaults}}() call. The identity can
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be in one of two forms, either
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> u:<username>
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or
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> dn:<dn>
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In the first form, the <username> is from the same namespace as
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the authentication identities above. It is the user's username as
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it is refered to by the underlying authentication mechanism.
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Authorization identities of this form are converted into a DN format
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by the same function that the authentication process used, producing
|
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an {{authorization request DN}} of the form
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|
|
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> uid=<username>,cn=<realm>,cn=<mechanism>,cn=auth
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|
|
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That authorization request DN is then run through the same
|
|
{{EX:sasl-regexp}} process to convert it into a legitimate authorization
|
|
DN from the database. If it cannot be converted due to a failed
|
|
search from an LDAP URL, the authorization request fails with
|
|
"inappropriate access". Otherwise, the DN string is now a legitimate
|
|
authorization DN ready to undergo approval.
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|
|
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If the authorization identity was provided in the second form, with
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a {{EX:"dn:"}} prefix, the string after the prefix is already in
|
|
authorization DN form, ready to undergo approval.
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|
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H3: Authorization rules
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|
|
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Once slapd has the authorization DN, the actual approval process
|
|
begins. There are two attributes that the LDAP administrator can
|
|
put into LDAP entries to allow authorization:
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|
|
|
> saslAuthzTo
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|
> saslAuthzFrom
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|
|
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Both can be multivalued. The {{EX:saslAuthzTo}} attribute is a
|
|
source rule, and it is placed into the entry associated with the
|
|
authentication DN to tell what authorization DNs the authenticated
|
|
DN is allowed to assume. The second attribute is a destination
|
|
rule, and it is placed into the entry associated with the requested
|
|
authorization DN to tell which authenticated DNs may assume it.
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|
|
|
The choice of which authorization policy attribute to use is up to
|
|
the administrator. Source rules are checked first in the person's
|
|
authentication DN entry, and if none of the {{EX:saslAuthzTo}} rules
|
|
specify the authorization is permitted, the {{EX:saslAuthzFrom}}
|
|
rules in the authorization DN entry are then checked. If neither
|
|
case specifies that the request be honored, the request is denied.
|
|
Since the default behaviour is to deny authorization requests, rules
|
|
only specify that a request be allowed; there are no negative rules
|
|
telling what authorizations to deny.
|
|
|
|
The value(s) in the two attributes are of the same form as the
|
|
output of the replacement pattern of a {{EX:sasl-regexp}} directive:
|
|
either a DN or an LDAP URL. For example, if a {{EX:saslAuthzTo}}
|
|
value is a DN, that DN is one the authenticated user can authorize
|
|
to. On the other hand, if the {{EX:saslAuthzTo}} value is an LDAP
|
|
URL, the URL is used as an internal search of the LDAP database,
|
|
and the authenticated user can become ANY DN returned by the search.
|
|
If an LDAP entry looked like:
|
|
|
|
> dn: cn=WebUpdate,dc=example,dc=com
|
|
> saslAuthzTo: ldap:///dc=example,dc=com??sub?(objectclass=Person)
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|
|
|
then any user who authenticated as cn=WebUpdate,dc=example,dc=com
|
|
could authorize to any other LDAP entry under the search base
|
|
"dc=example,dc=com" which has an objectClass of "Person".
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|
|
|
|
|
H4: Notes on Authorization rules
|
|
|
|
An LDAP URL in a {{EX:saslAuthzTo}} or {{EX:saslAuthzFrom}} attribute
|
|
will return a set of DNs. Each DN returned will be checked.
|
|
Searches which return a large set can cause the authorization
|
|
process to take an uncomfortably long time. Also, searches should
|
|
be performed on attributes that have been indexed by slapd.
|
|
|
|
To help produce more sweeping rules for {{EX:saslAuthzFrom}} and
|
|
{{EX:saslAuthzTo}}, the values of these attributes are allowed to
|
|
be DNs with regular expression characters in them. This means a
|
|
source rule like
|
|
|
|
> saslAuthzTo: uid=.*,dc=example,dc=com
|
|
|
|
would allow that authenticated user to authorize to any DN that
|
|
matches the regular expression pattern given. This regular expression
|
|
comparison can be evaluated much faster than an LDAP search for
|
|
"uid=*".
|
|
|
|
Also note that the values in an authorization rule must be one of
|
|
the two forms: an LDAP URL or a DN (with or without regular expression
|
|
characters). Anything that does not begin with "ldap://" is taken
|
|
as a DN. It is not permissable to enter another authorization
|
|
identity of the form "u:<username>" as an authorization rule.
|
|
|
|
H4: Policy Configuration
|
|
|
|
The decision of which type of rules to use, {{EX:saslAuthzFrom}} or
|
|
{{EX:saslAuthzTo}}, will depend on the site's situation. For example, if
|
|
the set of people who may become a given identity can easily be
|
|
written as a search filter, then a single destination rule could
|
|
be written. If the set of people is not easily defined by a search
|
|
filter, and the set of people is small, it may be better to write
|
|
a source rule in the entries of each of those people who should be
|
|
allowed to perform the authorization.
|
|
|
|
By default, processing of authorization rules is disabled. The
|
|
{{EX:sasl-authz-policy}} directive must be set in the {{slapd.conf}}(5) file
|
|
to enable authorization. This directive can be set to {{EX:none}}
|
|
for no rules (the default), {{EX:from}} for source rules, {{EX:to}}
|
|
for destination rules, or {{EX:both}} for both source and destination
|
|
rules.
|
|
|
|
Destination rules are extremely powerful. If ordinary users have
|
|
access to write the {{EX:saslAuthzTo}} attribute in their own entries, then
|
|
they can write rules that would allow them to authorize as anyone else.
|
|
As such, when using destination rules, the {{EX:saslAuthzTo}} attribute
|
|
should be protected with an ACL that only allows privileged users
|
|
to set its values.
|