SUDOERS.LDAP(8) BSD System Manager's Manual SUDOERS.LDAP(8)NAMEsudoers.ldap — sudo LDAP configuration
DESCRIPTION
In addition to the standard sudoers file, sudo may be configured via
LDAP. This can be especially useful for synchronizing sudoers in a
large, distributed environment.
Using LDAP for sudoers has several benefits:
· sudo no longer needs to read sudoers in its entirety. When LDAP is
used, there are only two or three LDAP queries per invocation. This
makes it especially fast and particularly usable in LDAP environ‐
ments.
· sudo no longer exits if there is a typo in sudoers. It is not possi‐
ble to load LDAP data into the server that does not conform to the
sudoers schema, so proper syntax is guaranteed. It is still possible
to have typos in a user or host name, but this will not prevent sudo
from running.
· It is possible to specify per-entry options that override the global
default options. /etc/sudoers only supports default options and lim‐
ited options associated with user/host/commands/aliases. The syntax
is complicated and can be difficult for users to understand. Placing
the options directly in the entry is more natural.
· The visudo program is no longer needed. visudo provides locking and
syntax checking of the /etc/sudoers file. Since LDAP updates are
atomic, locking is no longer necessary. Because syntax is checked
when the data is inserted into LDAP, there is no need for a special‐
ized tool to check syntax.
Another major difference between LDAP and file-based sudoers is that in
LDAP, sudo-specific Aliases are not supported.
For the most part, there is really no need for sudo-specific Aliases.
Unix groups, non-Unix groups (via the group_plugin) or user netgroups can
be used in place of User_Aliases and Runas_Aliases. Host netgroups can
be used in place of Host_Aliases. Since groups and netgroups can also be
stored in LDAP there is no real need for sudo-specific aliases.
Cmnd_Aliases are not really required either since it is possible to have
multiple users listed in a sudoRole. Instead of defining a Cmnd_Alias
that is referenced by multiple users, one can create a sudoRole that con‐
tains the commands and assign multiple users to it.
SUDOers LDAP container
The sudoers configuration is contained in the ou=SUDOers LDAP container.
Sudo first looks for the cn=default entry in the SUDOers container. If
found, the multi-valued sudoOption attribute is parsed in the same manner
as a global Defaults line in /etc/sudoers. In the following example, the
SSH_AUTH_SOCK variable will be preserved in the environment for all
users.
dn: cn=defaults,ou=SUDOers,dc=example,dc=com
objectClass: top
objectClass: sudoRole
cn: defaults
description: Default sudoOption's go here
sudoOption: env_keep+=SSH_AUTH_SOCK
The equivalent of a sudoer in LDAP is a sudoRole. It consists of the
following attributes:
sudoUser
A user name, user ID (prefixed with ‘#’), Unix group name or ID
(prefixed with ‘%’ or ‘%#’ respectively), user netgroup (prefixed
with ‘+’), or non-Unix group name or ID (prefixed with ‘%:’ or
‘%:#’ respectively). Non-Unix group support is only available when
an appropriate group_plugin is defined in the global defaults
sudoRole object.
sudoHost
A host name, IP address, IP network, or host netgroup (prefixed
with a ‘+’). The special value ALL will match any host.
sudoCommand
A fully-qualified Unix command name with optional command line
arguments, potentially including globbing characters (aka wild
cards). If a command name is preceded by an exclamation point,
‘!’, the user will be prohibited from running that command.
The built-in command “sudoedit” is used to permit a user to run
sudo with the -e option (or as sudoedit). It may take command line
arguments just as a normal command does. Note that “sudoedit” is a
command built into sudo itself and must be specified in without a
leading path.
The special value ALL will match any command.
If a command name is prefixed with a SHA-2 digest, it will only be
allowed if the digest matches. This may be useful in situations
where the user invoking sudo has write access to the command or its
parent directory. The following digest formats are supported:
sha224, sha256, sha384 and sha512. The digest name must be fol‐
lowed by a colon (‘:’) and then the actual digest, in either hex or
base64 format. For example, given the following value for sudoCom‐
mand:
sha224:0GomF8mNN3wlDt1HD9XldjJ3SNgpFdbjO1+NsQ /bin/ls
The user may only run /bin/ls if its sha224 digest matches the
specified value. Command digests are only supported by version
1.8.7 or higher.
sudoOption
Identical in function to the global options described above, but
specific to the sudoRole in which it resides.
sudoRunAsUser
A user name or uid (prefixed with ‘#’) that commands may be run as
or a Unix group (prefixed with a ‘%’) or user netgroup (prefixed
with a ‘+’) that contains a list of users that commands may be run
as. The special value ALL will match any user.
The sudoRunAsUser attribute is only available in sudo versions
1.7.0 and higher. Older versions of sudo use the sudoRunAs
attribute instead.
sudoRunAsGroup
A Unix group or gid (prefixed with ‘#’) that commands may be run
as. The special value ALL will match any group.
The sudoRunAsGroup attribute is only available in sudo versions
1.7.0 and higher.
sudoNotBefore
A timestamp in the form yyyymmddHHMMSSZ that can be used to provide
a start date/time for when the sudoRole will be valid. If multiple
sudoNotBefore entries are present, the earliest is used. Note that
timestamps must be in Coordinated Universal Time (UTC), not the
local timezone. The minute and seconds portions are optional, but
some LDAP servers require that they be present (contrary to the
RFC).
The sudoNotBefore attribute is only available in sudo versions
1.7.5 and higher and must be explicitly enabled via the
SUDOERS_TIMED option in /etc/openldap/ldap.conf.
sudoNotAfter
A timestamp in the form yyyymmddHHMMSSZ that indicates an expira‐
tion date/time, after which the sudoRole will no longer be valid.
If multiple sudoNotBefore entries are present, the last one is
used. Note that timestamps must be in Coordinated Universal Time
(UTC), not the local timezone. The minute and seconds portions are
optional, but some LDAP servers require that they be present (con‐
trary to the RFC).
The sudoNotAfter attribute is only available in sudo versions 1.7.5
and higher and must be explicitly enabled via the SUDOERS_TIMED
option in /etc/openldap/ldap.conf.
sudoOrder
The sudoRole entries retrieved from the LDAP directory have no
inherent order. The sudoOrder attribute is an integer (or floating
point value for LDAP servers that support it) that is used to sort
the matching entries. This allows LDAP-based sudoers entries to
more closely mimic the behavior of the sudoers file, where the of
the entries influences the result. If multiple entries match, the
entry with the highest sudoOrder attribute is chosen. This corre‐
sponds to the “last match” behavior of the sudoers file. If the
sudoOrder attribute is not present, a value of 0 is assumed.
The sudoOrder attribute is only available in sudo versions 1.7.5
and higher.
Each attribute listed above should contain a single value, but there may
be multiple instances of each attribute type. A sudoRole must contain at
least one sudoUser, sudoHost and sudoCommand.
The following example allows users in group wheel to run any command on
any host via sudo:
dn: cn=%wheel,ou=SUDOers,dc=example,dc=com
objectClass: top
objectClass: sudoRole
cn: %wheel
sudoUser: %wheel
sudoHost: ALL
sudoCommand: ALL
Anatomy of LDAP sudoers lookup
When looking up a sudoer using LDAP there are only two or three LDAP
queries per invocation. The first query is to parse the global options.
The second is to match against the user's name and the groups that the
user belongs to. (The special ALL tag is matched in this query too.) If
no match is returned for the user's name and groups, a third query
returns all entries containing user netgroups and checks to see if the
user belongs to any of them.
If timed entries are enabled with the SUDOERS_TIMED configuration direc‐
tive, the LDAP queries include a sub-filter that limits retrieval to
entries that satisfy the time constraints, if any.
Differences between LDAP and non-LDAP sudoers
There are some subtle differences in the way sudoers is handled once in
LDAP. Probably the biggest is that according to the RFC, LDAP ordering
is arbitrary and you cannot expect that Attributes and Entries are
returned in any specific order.
The order in which different entries are applied can be controlled using
the sudoOrder attribute, but there is no way to guarantee the order of
attributes within a specific entry. If there are conflicting command
rules in an entry, the negative takes precedence. This is called para‐
noid behavior (not necessarily the most specific match).
Here is an example:
# /etc/sudoers:
# Allow all commands except shell
johnny ALL=(root) ALL,!/bin/sh
# Always allows all commands because ALL is matched last
puddles ALL=(root) !/bin/sh,ALL
# LDAP equivalent of johnny
# Allows all commands except shell
dn: cn=role1,ou=Sudoers,dc=my-domain,dc=com
objectClass: sudoRole
objectClass: top
cn: role1
sudoUser: johnny
sudoHost: ALL
sudoCommand: ALL
sudoCommand: !/bin/sh
# LDAP equivalent of puddles
# Notice that even though ALL comes last, it still behaves like
# role1 since the LDAP code assumes the more paranoid configuration
dn: cn=role2,ou=Sudoers,dc=my-domain,dc=com
objectClass: sudoRole
objectClass: top
cn: role2
sudoUser: puddles
sudoHost: ALL
sudoCommand: !/bin/sh
sudoCommand: ALL
Another difference is that negations on the Host, User or Runas are cur‐
rently ignored. For example, the following attributes do not behave the
way one might expect.
# does not match all but joe
# rather, does not match anyone
sudoUser: !joe
# does not match all but joe
# rather, matches everyone including Joe
sudoUser: ALL
sudoUser: !joe
# does not match all but web01
# rather, matches all hosts including web01
sudoHost: ALL
sudoHost: !web01
Sudoers schema
In order to use sudo's LDAP support, the sudo schema must be installed on
your LDAP server. In addition, be sure to index the sudoUser attribute.
Three versions of the schema: one for OpenLDAP servers (schema.OpenLDAP),
one for Netscape-derived servers (schema.iPlanet), and one for Microsoft
Active Directory (schema.ActiveDirectory) may be found in the sudo dis‐
tribution.
The schema for sudo in OpenLDAP form is also included in the EXAMPLES
section.
Configuring ldap.conf
Sudo reads the /etc/openldap/ldap.conf file for LDAP-specific configura‐
tion. Typically, this file is shared between different LDAP-aware
clients. As such, most of the settings are not sudo-specific. Note that
sudo parses /etc/openldap/ldap.conf itself and may support options that
differ from those described in the system's ldap.conf(8) manual. The
path to ldap.conf may be overridden via the ldap_conf plugin argument in
sudo.conf(5).
Also note that on systems using the OpenLDAP libraries, default values
specified in /etc/openldap/ldap.conf or the user's .ldaprc files are not
used.
Only those options explicitly listed in /etc/openldap/ldap.conf as being
supported by sudo are honored. Configuration options are listed below in
upper case but are parsed in a case-independent manner.
The pound sign (‘#’) is used to indicate a comment. Both the comment
character and any text after it, up to the end of the line, are ignored.
Long lines can be continued with a backslash (‘\’) as the last character
on the line. Note that leading white space is removed from the beginning
of lines even when the continuation character is used.
URI ldap[s]://[hostname[:port]] ...
Specifies a white space-delimited list of one or more URIs describ‐
ing the LDAP server(s) to connect to. The protocol may be either
ldap ldaps, the latter being for servers that support TLS (SSL)
encryption. If no port is specified, the default is port 389 for
ldap:// or port 636 for ldaps://. If no hostname is specified,
sudo will connect to localhost. Multiple URI lines are treated
identically to a URI line containing multiple entries. Only sys‐
tems using the OpenSSL libraries support the mixing of ldap:// and
ldaps:// URIs. Both the Netscape-derived and Tivoli LDAP libraries
used on most commercial versions of Unix are only capable of sup‐
porting one or the other.
HOST name[:port] ...
If no URI is specified, the HOST parameter specifies a white space-
delimited list of LDAP servers to connect to. Each host may
include an optional port separated by a colon (‘:’). The HOST
parameter is deprecated in favor of the URI specification and is
included for backwards compatibility.
PORT port_number
If no URI is specified, the PORT parameter specifies the default
port to connect to on the LDAP server if a HOST parameter does not
specify the port itself. If no PORT parameter is used, the default
is port 389 for LDAP and port 636 for LDAP over TLS (SSL). The
PORT parameter is deprecated in favor of the URI specification and
is included for backwards compatibility.
BIND_TIMELIMIT seconds
The BIND_TIMELIMIT parameter specifies the amount of time, in sec‐
onds, to wait while trying to connect to an LDAP server. If multi‐
ple URIs or HOSTs are specified, this is the amount of time to wait
before trying the next one in the list.
NETWORK_TIMEOUT seconds
An alias for BIND_TIMELIMIT for OpenLDAP compatibility.
TIMELIMIT seconds
The TIMELIMIT parameter specifies the amount of time, in seconds,
to wait for a response to an LDAP query.
TIMEOUT seconds
The TIMEOUT parameter specifies the amount of time, in seconds, to
wait for a response from the various LDAP APIs.
SUDOERS_BASE base
The base DN to use when performing sudo LDAP queries. Typically
this is of the form ou=SUDOers,dc=example,dc=com for the domain
example.com. Multiple SUDOERS_BASE lines may be specified, in
which case they are queried in the order specified.
SUDOERS_SEARCH_FILTER ldap_filter
An LDAP filter which is used to restrict the set of records
returned when performing a sudo LDAP query. Typically, this is of
the form attribute=value or
(&(attribute=value)(attribute2=value2)). The default search filter
is: objectClass=sudoRole. If ldap_filter is omitted, no search
filter will be used.
SUDOERS_TIMED on/true/yes/off/false/no
Whether or not to evaluate the sudoNotBefore and sudoNotAfter
attributes that implement time-dependent sudoers entries.
SUDOERS_DEBUG debug_level
This sets the debug level for sudo LDAP queries. Debugging infor‐
mation is printed to the standard error. A value of 1 results in a
moderate amount of debugging information. A value of 2 shows the
results of the matches themselves. This parameter should not be
set in a production environment as the extra information is likely
to confuse users.
The SUDOERS_DEBUG parameter is deprecated and will be removed in a
future release. The same information is now logged via the sudo
debugging framework using the “ldap” subsystem at priorities diag
and info for debug_level values 1 and 2 respectively. See the
sudo.conf(5) manual for details on how to configure sudo debugging.
BINDDN DN
The BINDDN parameter specifies the identity, in the form of a Dis‐
tinguished Name (DN), to use when performing LDAP operations. If
not specified, LDAP operations are performed with an anonymous
identity. By default, most LDAP servers will allow anonymous
access.
BINDPW secret
The BINDPW parameter specifies the password to use when performing
LDAP operations. This is typically used in conjunction with the
BINDDN parameter.
ROOTBINDDN DN
The ROOTBINDDN parameter specifies the identity, in the form of a
Distinguished Name (DN), to use when performing privileged LDAP
operations, such as sudoers queries. The password corresponding to
the identity should be stored in the or the path specified by the
ldap_secret plugin argument in sudo.conf(5), which defaults to
/etc/ldap.secret. If no ROOTBINDDN is specified, the BINDDN iden‐
tity is used (if any).
LDAP_VERSION number
The version of the LDAP protocol to use when connecting to the
server. The default value is protocol version 3.
SSL on/true/yes/off/false/no
If the SSL parameter is set to on, true or yes, TLS (SSL) encryp‐
tion is always used when communicating with the LDAP server. Typi‐
cally, this involves connecting to the server on port 636 (ldaps).
SSL start_tls
If the SSL parameter is set to start_tls, the LDAP server connec‐
tion is initiated normally and TLS encryption is begun before the
bind credentials are sent. This has the advantage of not requiring
a dedicated port for encrypted communications. This parameter is
only supported by LDAP servers that honor the start_tls extension,
such as the OpenLDAP and Tivoli Directory servers.
TLS_CHECKPEER on/true/yes/off/false/no
If enabled, TLS_CHECKPEER will cause the LDAP server's TLS certifi‐
cated to be verified. If the server's TLS certificate cannot be
verified (usually because it is signed by an unknown certificate
authority), sudo will be unable to connect to it. If TLS_CHECKPEER
is disabled, no check is made. Note that disabling the check cre‐
ates an opportunity for man-in-the-middle attacks since the
server's identity will not be authenticated. If possible, the CA's
certificate should be installed locally so it can be verified.
This option is not supported by the Tivoli Directory Server LDAP
libraries.
TLS_CACERT file name
An alias for TLS_CACERTFILE for OpenLDAP compatibility.
TLS_CACERTFILE file name
The path to a certificate authority bundle which contains the cer‐
tificates for all the Certificate Authorities the client knows to
be valid, e.g. /etc/ssl/ca-bundle.pem. This option is only sup‐
ported by the OpenLDAP libraries. Netscape-derived LDAP libraries
use the same certificate database for CA and client certificates
(see TLS_CERT).
TLS_CACERTDIR directory
Similar to TLS_CACERTFILE but instead of a file, it is a directory
containing individual Certificate Authority certificates, e.g.
/etc/ssl/certs. The directory specified by TLS_CACERTDIR is
checked after TLS_CACERTFILE. This option is only supported by the
OpenLDAP libraries.
TLS_CERT file name
The path to a file containing the client certificate which can be
used to authenticate the client to the LDAP server. The certifi‐
cate type depends on the LDAP libraries used.
OpenLDAP:
tls_cert /etc/ssl/client_cert.pem
Netscape-derived:
tls_cert /var/ldap/cert7.db
Tivoli Directory Server:
Unused, the key database specified by TLS_KEY contains both
keys and certificates.
When using Netscape-derived libraries, this file may also
contain Certificate Authority certificates.
TLS_KEY file name
The path to a file containing the private key which matches the
certificate specified by TLS_CERT. The private key must not be
password-protected. The key type depends on the LDAP libraries
used.
OpenLDAP:
tls_key /etc/ssl/client_key.pem
Netscape-derived:
tls_key /var/ldap/key3.db
Tivoli Directory Server:
tls_key /usr/ldap/ldapkey.kdb
When using Tivoli LDAP libraries, this file may also contain Cer‐
tificate Authority and client certificates and may be encrypted.
TLS_KEYPW secret
The TLS_KEYPW contains the password used to decrypt the key data‐
base on clients using the Tivoli Directory Server LDAP library.
This should be a simple string without quotes. The password may
not include the comment character (‘#’) and escaping of special
characters with a backslash (‘\’) is not supported. If this option
is used, /etc/openldap/ldap.conf must not be world-readable to
avoid exposing the password. Alternately, a stash file can be used
to store the password in encrypted form (see below).
If no TLS_KEYPW is specified, a stash file will be used if it
exists. The stash file must have the same path as the file speci‐
fied by TLS_KEY, but use a .sth file extension instead of .kdb,
e.g. ldapkey.sth. The default ldapkey.kdb that ships with Tivoli
Directory Server is encrypted with the password ssl_password. The
gsk8capicmd utility can be used to manage the key database and cre‐
ate a stash file. This option is only supported by the Tivoli LDAP
libraries.
TLS_RANDFILE file name
The TLS_RANDFILE parameter specifies the path to an entropy source
for systems that lack a random device. It is generally used in
conjunction with prngd or egd. This option is only supported by
the OpenLDAP libraries.
TLS_CIPHERS cipher list
The TLS_CIPHERS parameter allows the administer to restrict which
encryption algorithms may be used for TLS (SSL) connections. See
the OpenLDAP or Tivoli Directory Server manual for a list of valid
ciphers. This option is not supported by Netscape-derived
libraries.
USE_SASL on/true/yes/off/false/no
Enable USE_SASL for LDAP servers that support SASL authentication.
SASL_AUTH_ID identity
The SASL user name to use when connecting to the LDAP server. By
default, sudo will use an anonymous connection.
ROOTUSE_SASL on/true/yes/off/false/no
Enable ROOTUSE_SASL to enable SASL authentication when connecting
to an LDAP server from a privileged process, such as sudo.
ROOTSASL_AUTH_ID identity
The SASL user name to use when ROOTUSE_SASL is enabled.
SASL_SECPROPS none/properties
SASL security properties or none for no properties. See the SASL
programmer's manual for details.
KRB5_CCNAME file name
The path to the Kerberos 5 credential cache to use when authenti‐
cating with the remote server.
DEREF never/searching/finding/always
How alias dereferencing is to be performed when searching. See the
ldap.conf(8) manual for a full description of this option.
See the ldap.conf entry in the EXAMPLES section.
Configuring nsswitch.conf
Unless it is disabled at build time, sudo consults the Name Service
Switch file, /etc/nsswitch.conf, to specify the sudoers search order.
Sudo looks for a line beginning with sudoers: and uses this to determine
the search order. Note that sudo does not stop searching after the first
match and later matches take precedence over earlier ones. The following
sources are recognized:
files read sudoers from /etc/sudoers
ldap read sudoers from LDAP
In addition, the entry [NOTFOUND=return] will short-circuit the search if
the user was not found in the preceding source.
To consult LDAP first followed by the local sudoers file (if it exists),
use:
sudoers: ldap files
The local sudoers file can be ignored completely by using:
sudoers: ldap
If the /etc/nsswitch.conf file is not present or there is no sudoers
line, the following default is assumed:
sudoers: files
Note that /etc/nsswitch.conf is supported even when the underlying oper‐
ating system does not use an nsswitch.conf file, except on AIX (see
below).
Configuring netsvc.conf
On AIX systems, the /etc/netsvc.conf file is consulted instead of
/etc/nsswitch.conf. sudo simply treats netsvc.conf as a variant of
nsswitch.conf; information in the previous section unrelated to the file
format itself still applies.
To consult LDAP first followed by the local sudoers file (if it exists),
use:
sudoers = ldap, files
The local sudoers file can be ignored completely by using:
sudoers = ldap
To treat LDAP as authoritative and only use the local sudoers file if the
user is not present in LDAP, use:
sudoers = ldap = auth, files
Note that in the above example, the auth qualifier only affects user
lookups; both LDAP and sudoers will be queried for Defaults entries.
If the /etc/netsvc.conf file is not present or there is no sudoers line,
the following default is assumed:
sudoers = files
FILES
/etc/openldap/ldap.conf LDAP configuration file
/etc/nsswitch.conf determines sudoers source order
/etc/netsvc.conf determines sudoers source order on AIX
EXAMPLES
Example ldap.conf
# Either specify one or more URIs or one or more host:port pairs.
# If neither is specified sudo will default to localhost, port 389.
#
#host ldapserver
#host ldapserver1 ldapserver2:390
#
# Default port if host is specified without one, defaults to 389.
#port 389
#
# URI will override the host and port settings.
uri ldap://ldapserver
#uri ldaps://secureldapserver
#uri ldaps://secureldapserver ldap://ldapserver
#
# The amount of time, in seconds, to wait while trying to connect to
# an LDAP server.
bind_timelimit 30
#
# The amount of time, in seconds, to wait while performing an LDAP query.
timelimit 30
#
# Must be set or sudo will ignore LDAP; may be specified multiple times.
sudoers_base ou=SUDOers,dc=example,dc=com
#
# verbose sudoers matching from ldap
#sudoers_debug 2
#
# Enable support for time-based entries in sudoers.
#sudoers_timed yes
#
# optional proxy credentials
#binddn <who to search as>
#bindpw <password>
#rootbinddn <who to search as, uses /etc/ldap.secret for bindpw>
#
# LDAP protocol version, defaults to 3
#ldap_version 3
#
# Define if you want to use an encrypted LDAP connection.
# Typically, you must also set the port to 636 (ldaps).
#ssl on
#
# Define if you want to use port 389 and switch to
# encryption before the bind credentials are sent.
# Only supported by LDAP servers that support the start_tls
# extension such as OpenLDAP.
#ssl start_tls
#
# Additional TLS options follow that allow tweaking of the
# SSL/TLS connection.
#
#tls_checkpeer yes # verify server SSL certificate
#tls_checkpeer no # ignore server SSL certificate
#
# If you enable tls_checkpeer, specify either tls_cacertfile
# or tls_cacertdir. Only supported when using OpenLDAP.
#
#tls_cacertfile /etc/certs/trusted_signers.pem
#tls_cacertdir /etc/certs
#
# For systems that don't have /dev/random
# use this along with PRNGD or EGD.pl to seed the
# random number pool to generate cryptographic session keys.
# Only supported when using OpenLDAP.
#
#tls_randfile /etc/egd-pool
#
# You may restrict which ciphers are used. Consult your SSL
# documentation for which options go here.
# Only supported when using OpenLDAP.
#
#tls_ciphers <cipher-list>
#
# Sudo can provide a client certificate when communicating to
# the LDAP server.
# Tips:
# * Enable both lines at the same time.
# * Do not password protect the key file.
# * Ensure the keyfile is only readable by root.
#
# For OpenLDAP:
#tls_cert /etc/certs/client_cert.pem
#tls_key /etc/certs/client_key.pem
#
# For SunONE or iPlanet LDAP, tls_cert and tls_key may specify either
# a directory, in which case the files in the directory must have the
# default names (e.g. cert8.db and key4.db), or the path to the cert
# and key files themselves. However, a bug in version 5.0 of the LDAP
# SDK will prevent specific file names from working. For this reason
# it is suggested that tls_cert and tls_key be set to a directory,
# not a file name.
#
# The certificate database specified by tls_cert may contain CA certs
# and/or the client's cert. If the client's cert is included, tls_key
# should be specified as well.
# For backward compatibility, "sslpath" may be used in place of tls_cert.
#tls_cert /var/ldap
#tls_key /var/ldap
#
# If using SASL authentication for LDAP (OpenSSL)
# use_sasl yes
# sasl_auth_id <SASL user name>
# rootuse_sasl yes
# rootsasl_auth_id <SASL user name for root access>
# sasl_secprops none
# krb5_ccname /etc/.ldapcache
Sudo schema for OpenLDAP
The following schema, in OpenLDAP format, is included with sudo source
and binary distributions as schema.OpenLDAP. Simply copy it to the
schema directory (e.g. /etc/openldap/schema), add the proper include line
in slapd.conf and restart slapd.
attributetype ( 1.3.6.1.4.1.15953.9.1.1
NAME 'sudoUser'
DESC 'User(s) who may run sudo'
EQUALITY caseExactIA5Match
SUBSTR caseExactIA5SubstringsMatch
SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )
attributetype ( 1.3.6.1.4.1.15953.9.1.2
NAME 'sudoHost'
DESC 'Host(s) who may run sudo'
EQUALITY caseExactIA5Match
SUBSTR caseExactIA5SubstringsMatch
SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )
attributetype ( 1.3.6.1.4.1.15953.9.1.3
NAME 'sudoCommand'
DESC 'Command(s) to be executed by sudo'
EQUALITY caseExactIA5Match
SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )
attributetype ( 1.3.6.1.4.1.15953.9.1.4
NAME 'sudoRunAs'
DESC 'User(s) impersonated by sudo'
EQUALITY caseExactIA5Match
SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )
attributetype ( 1.3.6.1.4.1.15953.9.1.5
NAME 'sudoOption'
DESC 'Options(s) followed by sudo'
EQUALITY caseExactIA5Match
SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )
attributetype ( 1.3.6.1.4.1.15953.9.1.6
NAME 'sudoRunAsUser'
DESC 'User(s) impersonated by sudo'
EQUALITY caseExactIA5Match
SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )
attributetype ( 1.3.6.1.4.1.15953.9.1.7
NAME 'sudoRunAsGroup'
DESC 'Group(s) impersonated by sudo'
EQUALITY caseExactIA5Match
SYNTAX 1.3.6.1.4.1.1466.115.121.1.26 )
attributetype ( 1.3.6.1.4.1.15953.9.1.8
NAME 'sudoNotBefore'
DESC 'Start of time interval for which the entry is valid'
EQUALITY generalizedTimeMatch
ORDERING generalizedTimeOrderingMatch
SYNTAX 1.3.6.1.4.1.1466.115.121.1.24 )
attributetype ( 1.3.6.1.4.1.15953.9.1.9
NAME 'sudoNotAfter'
DESC 'End of time interval for which the entry is valid'
EQUALITY generalizedTimeMatch
ORDERING generalizedTimeOrderingMatch
SYNTAX 1.3.6.1.4.1.1466.115.121.1.24 )
attributeTypes ( 1.3.6.1.4.1.15953.9.1.10
NAME 'sudoOrder'
DESC 'an integer to order the sudoRole entries'
EQUALITY integerMatch
ORDERING integerOrderingMatch
SYNTAX 1.3.6.1.4.1.1466.115.121.1.27 )
objectclass ( 1.3.6.1.4.1.15953.9.2.1 NAME 'sudoRole' SUP top STRUCTURAL
DESC 'Sudoer Entries'
MUST ( cn )
MAY ( sudoUser $ sudoHost $ sudoCommand $ sudoRunAs $ sudoRunAsUser $
sudoRunAsGroup $ sudoOption $ sudoNotBefore $ sudoNotAfter $
sudoOrder $ description )
)
SEE ALSOldap.conf(5), sudo.conf(5), sudoers(8)CAVEATS
Note that there are differences in the way that LDAP-based sudoers is
parsed compared to file-based sudoers. See the Differences between LDAP
and non-LDAP sudoers section for more information.
BUGS
If you feel you have found a bug in sudo, please submit a bug report at
http://www.sudo.ws/sudo/bugs/
SUPPORT
Limited free support is available via the sudo-users mailing list, see
http://www.sudo.ws/mailman/listinfo/sudo-users to subscribe or search the
archives.
DISCLAIMER
sudo is provided “AS IS” and any express or implied warranties, includ‐
ing, but not limited to, the implied warranties of merchantability and
fitness for a particular purpose are disclaimed. See the LICENSE file
distributed with sudo or http://www.sudo.ws/sudo/license.html for com‐
plete details.
Sudo 1.8.10p2 February 7, 2014 Sudo 1.8.10p2