Set up LDAP access control

The management of what type of access (read, write, etc) users should be granted for resources is known as access control. The configuration directives involved are called access control lists or ACLs.

When we installed the slapd package, various ACLs were set up automatically. We will look at a few important consequences of those defaults and, in so doing, we’ll get an idea of how ACLs work and how they’re configured.

To get the effective ACL for an LDAP query we need to look at the ACL entries of both the database being queried, and those of the special frontend database instance. Note that the ACLs belonging to the frontend database are always appended to the database-specific ACLs, and the first match ‘wins’.

Getting the ACLs

The following commands give the ACLs of the mdb database (dc=example,dc=com) and those of the frontend database respectively.

For the main database:

sudo ldapsearch -Q -LLL -Y EXTERNAL -H ldapi:/// -b cn=config '(olcDatabase={1}mdb)' olcAccess

Output:

dn: olcDatabase={1}mdb,cn=config
olcAccess: {0}to attrs=userPassword by self write by anonymous auth by * none
olcAccess: {1}to attrs=shadowLastChange by self write by * read
olcAccess: {2}to * by * read

For the frontend database:

sudo ldapsearch -Q -LLL -Y EXTERNAL -H ldapi:/// -b cn=config '(olcDatabase={-1}frontend)' olcAccess

Output:

dn: olcDatabase={-1}frontend,cn=config
olcAccess: {0}to * by dn.exact=gidNumber=0+uidNumber=0,cn=peercred,cn=external
 ,cn=auth manage by * break
olcAccess: {1}to dn.exact="" by * read
olcAccess: {2}to dn.base="cn=Subschema" by * read

Note

The Root DN always has full rights to its database and does not need to be included in any ACL.

Interpreting the results

The first two ACLs are crucial:

olcAccess: {0}to attrs=userPassword by self write by anonymous auth by * none
olcAccess: {1}to attrs=shadowLastChange by self write by * read

This can be represented differently for easier reading:

to attrs=userPassword
    by self write
    by anonymous auth
    by * none

to attrs=shadowLastChange
    by self write
    by * read

These ACLs enforce the following:

  • Anonymous ‘auth’ access is provided to the userPassword attribute so that users can authenticate, or bind. Perhaps counter-intuitively, ‘by anonymous auth’ is needed even when anonymous access to the DIT is unwanted, otherwise this would be a chicken-and-egg problem: before authentication, all users are anonymous.

  • The ‘by self write’ ACL grants write access to the userPassword attribute to users who authenticated as the DN where the attribute lives. In other words, users can update the userPassword attribute of their own entries.

  • The userPassword attribute is otherwise inaccessible by all other users, with the exception of the Root DN, who always has access and doesn’t need to be mentioned explicitly.

  • In order for users to change their own password, using passwd or other utilities, the user’s own shadowLastChange attribute needs to be writable. All other directory users get to read this attribute’s contents.

This DIT can be searched anonymously because of to * by * read in this ACL, which grants read access to everything else, by anyone (including anonymous):

to *
    by * read

If this is unwanted then you need to change the ACL. To force authentication during a bind request you can alternatively (or in combination with the modified ACL) use the olcRequire: authc directive.

SASL identity

There is no administrative account (“Root DN”) created for the slapd-config database. There is, however, a SASL identity that is granted full access to it. It represents the localhost’s superuser (root/sudo). Here it is:

dn.exact=gidNumber=0+uidNumber=0,cn=peercred,cn=external,cn=auth

The following command displays the ACLs of the slapd-config database:

sudo ldapsearch -Q -LLL -Y EXTERNAL -H ldapi:/// -b cn=config '(olcDatabase={0}config)' olcAccess

Output:

dn: olcDatabase={0}config,cn=config
olcAccess: {0}to * by dn.exact=gidNumber=0+uidNumber=0,cn=peercred,
              cn=external,cn=auth manage by * break

Since this is a SASL identity we need to use a SASL mechanism when invoking the LDAP utility in question – the EXTERNAL mechanism (see the previous command for an example). Note that:

  • You must use sudo to become the root identity in order for the ACL to match.

  • The EXTERNAL mechanism works via Inter-process Communication (IPC, UNIX domain sockets). This means you must use the ldapi URI format.

Grant root passwordless access to the data tree

By default, the local root user can manage cn=config via SASL EXTERNAL, but not the data tree (dc=example,dc=com). To allow root to also manage the data tree without entering a password, add an ACL rule.

Create a file called peercred.ldif:

# Allow root user (via peercred) to manage the primary database (mdb)
dn: olcDatabase={1}mdb,cn=config
changetype: modify
add: olcAccess
# Inserted as the first ACL rule
olcAccess: {0}to * by dn.exact="gidNumber=0+uidNumber=0,cn=peercred,cn=external,cn=auth" manage by * break

Apply the change:

sudo ldapmodify -Q -Y EXTERNAL -H ldapi:/// -f peercred.ldif

Now you can run LDAP commands to modify the data tree, as root, without a LDAP password (when you run this on the OpenLDAP server machine):

sudo ldapadd -Q -Y EXTERNAL -H ldapi:/// -f add_content.ldif

This simplifies administration and is used throughout the other guides in this series.

A succinct way to get all the ACLs is:

sudo ldapsearch -Q -LLL -Y EXTERNAL -H ldapi:/// -b cn=config '(olcAccess=*)' olcAccess olcSuffix

Next steps

See how to set up LDAP users and groups.

Further reading