SSSD-LDAP(5) File Formats and Conventions SSSD-LDAP(5)NAMEsssd-ldap - the configuration file for SSSD
DESCRIPTION
This manual page describes the configuration of LDAP domains for
sssd(8). Refer to the “FILE FORMAT” section of the sssd.conf(5) manual
page for detailed syntax information.
You can configure SSSD to use more than one LDAP domain.
LDAP back end supports id, auth, access and chpass providers. If you
want to authenticate against an LDAP server either TLS/SSL or LDAPS is
required. sssd does not support authentication over an unencrypted
channel. If the LDAP server is used only as an identity provider, an
encrypted channel is not needed. Please refer to “ldap_access_filter”
config option for more information about using LDAP as an access
provider.
CONFIGURATION OPTIONS
All of the common configuration options that apply to SSSD domains also
apply to LDAP domains. Refer to the “DOMAIN SECTIONS” section of the
sssd.conf(5) manual page for full details.
ldap_uri, ldap_backup_uri (string)
Specifies the comma-separated list of URIs of the LDAP servers to
which SSSD should connect in the order of preference. Refer to the
“FAILOVER” section for more information on failover and server
redundancy. If neither option is specified, service discovery is
enabled. For more information, refer to the “SERVICE DISCOVERY”
section.
The format of the URI must match the format defined in RFC 2732:
ldap[s]://<host>[:port]
For explicit IPv6 addresses, <host> must be enclosed in brackets []
example: ldap://[fc00::126:25]:389
ldap_chpass_uri, ldap_chpass_backup_uri (string)
Specifies the comma-separated list of URIs of the LDAP servers to
which SSSD should connect in the order of preference to change the
password of a user. Refer to the “FAILOVER” section for more
information on failover and server redundancy.
To enable service discovery ldap_chpass_dns_service_name must be
set.
Default: empty, i.e. ldap_uri is used.
ldap_search_base (string)
The default base DN to use for performing LDAP user operations.
Starting with SSSD 1.7.0, SSSD supports multiple search bases using
the syntax:
search_base[?scope?[filter][?search_base?scope?[filter]]*]
The scope can be one of "base", "onelevel" or "subtree".
The filter must be a valid LDAP search filter as specified by
http://www.ietf.org/rfc/rfc2254.txt
Examples:
ldap_search_base = dc=example,dc=com (which is equivalent to)
ldap_search_base = dc=example,dc=com?subtree?
ldap_search_base =
cn=host_specific,dc=example,dc=com?subtree?(host=thishost)?dc=example.com?subtree?
Note: It is unsupported to have multiple search bases which
reference identically-named objects (for example, groups with the
same name in two different search bases). This will lead to
unpredictable behavior on client machines.
Default: If not set, the value of the defaultNamingContext or
namingContexts attribute from the RootDSE of the LDAP server is
used. If defaultNamingContext does not exist or has an empty value
namingContexts is used. The namingContexts attribute must have a
single value with the DN of the search base of the LDAP server to
make this work. Multiple values are are not supported.
ldap_schema (string)
Specifies the Schema Type in use on the target LDAP server.
Depending on the selected schema, the default attribute names
retrieved from the servers may vary. The way that some attributes
are handled may also differ.
Four schema types are currently supported:
· rfc2307
· rfc2307bis
· IPA
· AD
The main difference between these schema types is how group
memberships are recorded in the server. With rfc2307, group
members are listed by name in the memberUid attribute. With
rfc2307bis and IPA, group members are listed by DN and stored
in the member attribute. The AD schema type sets the attributes
to correspond with Active Directory 2008r2 values.
Default: rfc2307
ldap_default_bind_dn (string)
The default bind DN to use for performing LDAP operations.
ldap_default_authtok_type (string)
The type of the authentication token of the default bind DN.
The two mechanisms currently supported are:
password
obfuscated_password
Default: password
ldap_default_authtok (string)
The authentication token of the default bind DN. Only clear
text passwords are currently supported.
ldap_user_object_class (string)
The object class of a user entry in LDAP.
Default: posixAccount
ldap_user_name (string)
The LDAP attribute that corresponds to the user´s login name.
Default: uid
ldap_user_uid_number (string)
The LDAP attribute that corresponds to the user´s id.
Default: uidNumber
ldap_user_gid_number (string)
The LDAP attribute that corresponds to the user´s primary group
id.
Default: gidNumber
ldap_user_gecos (string)
The LDAP attribute that corresponds to the user´s gecos field.
Default: gecos
ldap_user_home_directory (string)
The LDAP attribute that contains the name of the user´s home
directory.
Default: homeDirectory
ldap_user_shell (string)
The LDAP attribute that contains the path to the user´s default
shell.
Default: loginShell
ldap_user_uuid (string)
The LDAP attribute that contains the UUID/GUID of an LDAP user
object.
Default: nsUniqueId
ldap_user_objectsid (string)
The LDAP attribute that contains the objectSID of an LDAP user
object. This is usually only necessary for ActiveDirectory
servers.
Default: objectSid for ActiveDirectory, not set for other
servers.
ldap_user_modify_timestamp (string)
The LDAP attribute that contains timestamp of the last
modification of the parent object.
Default: modifyTimestamp
ldap_user_shadow_last_change (string)
When using ldap_pwd_policy=shadow, this parameter contains the
name of an LDAP attribute corresponding to its shadow(5)
counterpart (date of the last password change).
Default: shadowLastChange
ldap_user_shadow_min (string)
When using ldap_pwd_policy=shadow, this parameter contains the
name of an LDAP attribute corresponding to its shadow(5)
counterpart (minimum password age).
Default: shadowMin
ldap_user_shadow_max (string)
When using ldap_pwd_policy=shadow, this parameter contains the
name of an LDAP attribute corresponding to its shadow(5)
counterpart (maximum password age).
Default: shadowMax
ldap_user_shadow_warning (string)
When using ldap_pwd_policy=shadow, this parameter contains the
name of an LDAP attribute corresponding to its shadow(5)
counterpart (password warning period).
Default: shadowWarning
ldap_user_shadow_inactive (string)
When using ldap_pwd_policy=shadow, this parameter contains the
name of an LDAP attribute corresponding to its shadow(5)
counterpart (password inactivity period).
Default: shadowInactive
ldap_user_shadow_expire (string)
When using ldap_pwd_policy=shadow or
ldap_account_expire_policy=shadow, this parameter contains the
name of an LDAP attribute corresponding to its shadow(5)
counterpart (account expiration date).
Default: shadowExpire
ldap_user_krb_last_pwd_change (string)
When using ldap_pwd_policy=mit_kerberos, this parameter
contains the name of an LDAP attribute storing the date and
time of last password change in kerberos.
Default: krbLastPwdChange
ldap_user_krb_password_expiration (string)
When using ldap_pwd_policy=mit_kerberos, this parameter
contains the name of an LDAP attribute storing the date and
time when current password expires.
Default: krbPasswordExpiration
ldap_user_ad_account_expires (string)
When using ldap_account_expire_policy=ad, this parameter
contains the name of an LDAP attribute storing the expiration
time of the account.
Default: accountExpires
ldap_user_ad_user_account_control (string)
When using ldap_account_expire_policy=ad, this parameter
contains the name of an LDAP attribute storing the user account
control bit field.
Default: userAccountControl
ldap_ns_account_lock (string)
When using ldap_account_expire_policy=rhds or equivalent, this
parameter determines if access is allowed or not.
Default: nsAccountLock
ldap_user_nds_login_disabled (string)
When using ldap_account_expire_policy=nds, this attribute
determines if access is allowed or not.
Default: loginDisabled
ldap_user_nds_login_expiration_time (string)
When using ldap_account_expire_policy=nds, this attribute
determines until which date access is granted.
Default: loginDisabled
ldap_user_nds_login_allowed_time_map (string)
When using ldap_account_expire_policy=nds, this attribute
determines the hours of a day in a week when access is granted.
Default: loginAllowedTimeMap
ldap_user_principal (string)
The LDAP attribute that contains the user´s Kerberos User
Principal Name (UPN).
Default: krbPrincipalName
ldap_user_ssh_public_key (string)
The LDAP attribute that contains the user´s SSH public keys.
ldap_force_upper_case_realm (boolean)
Some directory servers, for example Active Directory, might
deliver the realm part of the UPN in lower case, which might
cause the authentication to fail. Set this option to a non-zero
value if you want to use an upper-case realm.
Default: false
ldap_enumeration_refresh_timeout (integer)
Specifies how many seconds SSSD has to wait before refreshing
its cache of enumerated records.
Default: 300
ldap_purge_cache_timeout (integer)
Determine how often to check the cache for inactive entries
(such as groups with no members and users who have never logged
in) and remove them to save space.
Setting this option to zero will disable the cache cleanup
operation.
Default: 10800 (12 hours)
ldap_user_fullname (string)
The LDAP attribute that corresponds to the user´s full name.
Default: cn
ldap_user_member_of (string)
The LDAP attribute that lists the user´s group memberships.
Default: memberOf
ldap_user_authorized_service (string)
If access_provider=ldap and
ldap_access_order=authorized_service, SSSD will use the
presence of the authorizedService attribute in the user´s LDAP
entry to determine access privilege.
An explicit deny (!svc) is resolved first. Second, SSSD
searches for explicit allow (svc) and finally for allow_all
(*).
Default: authorizedService
ldap_user_authorized_host (string)
If access_provider=ldap and ldap_access_order=host, SSSD will
use the presence of the host attribute in the user´s LDAP entry
to determine access privilege.
An explicit deny (!host) is resolved first. Second, SSSD
searches for explicit allow (host) and finally for allow_all
(*).
Default: host
ldap_group_object_class (string)
The object class of a group entry in LDAP.
Default: posixGroup
ldap_group_name (string)
The LDAP attribute that corresponds to the group name.
Default: cn
ldap_group_gid_number (string)
The LDAP attribute that corresponds to the group´s id.
Default: gidNumber
ldap_group_member (string)
The LDAP attribute that contains the names of the group´s
members.
Default: memberuid (rfc2307) / member (rfc2307bis)
ldap_group_uuid (string)
The LDAP attribute that contains the UUID/GUID of an LDAP group
object.
Default: nsUniqueId
ldap_group_objectsid (string)
The LDAP attribute that contains the objectSID of an LDAP group
object. This is usually only necessary for ActiveDirectory
servers.
Default: objectSid for ActiveDirectory, not set for other
servers.
ldap_group_modify_timestamp (string)
The LDAP attribute that contains timestamp of the last
modification of the parent object.
Default: modifyTimestamp
ldap_group_nesting_level (integer)
If ldap_schema is set to a schema format that supports nested
groups (e.g. RFC2307bis), then this option controls how many
levels of nesting SSSD will follow. This option has no effect
on the RFC2307 schema.
Default: 2
ldap_groups_use_matching_rule_in_chain
This option tells SSSD to take advantage of an Active
Directory-specific feature which may speed up group lookup
operations on deployments with complex or deep nested groups.
In most common cases, it is best to leave this option disabled.
It generally only provides a performance increase on very
complex nestings.
If this option is enabled, SSSD will use it if it detects that
the server supports it during initial connection. So "True"
here essentially means "auto-detect".
Note: This feature is currently known to work only with Active
Directory 2008 R1 and later. See MSDN(TM) documentation[1] for
more details.
Default: False
ldap_initgroups_use_matching_rule_in_chain
This option tells SSSD to take advantage of an Active
Directory-specific feature which might speed up initgroups
operations (most notably when dealing with complex or deep
nested groups).
If this option is enabled, SSSD will use it if it detects that
the server supports it during initial connection. So "True"
here essentially means "auto-detect".
Note: This feature is currently known to work only with Active
Directory 2008 R1 and later. See MSDN(TM) documentation[1] for
more details.
Default: False
ldap_netgroup_object_class (string)
The object class of a netgroup entry in LDAP.
In IPA provider, ipa_netgroup_object_class should be used
instead.
Default: nisNetgroup
ldap_netgroup_name (string)
The LDAP attribute that corresponds to the netgroup name.
In IPA provider, ipa_netgroup_name should be used instead.
Default: cn
ldap_netgroup_member (string)
The LDAP attribute that contains the names of the netgroup´s
members.
In IPA provider, ipa_netgroup_member should be used instead.
Default: memberNisNetgroup
ldap_netgroup_triple (string)
The LDAP attribute that contains the (host, user, domain)
netgroup triples.
This option is not available in IPA provider.
Default: nisNetgroupTriple
ldap_netgroup_uuid (string)
The LDAP attribute that contains the UUID/GUID of an LDAP
netgroup object.
In IPA provider, ipa_netgroup_uuid should be used instead.
Default: nsUniqueId
ldap_netgroup_modify_timestamp (string)
The LDAP attribute that contains timestamp of the last
modification of the parent object.
This option is not available in IPA provider.
Default: modifyTimestamp
ldap_service_object_class (string)
The object class of a service entry in LDAP.
Default: ipService
ldap_service_name (string)
The LDAP attribute that contains the name of service attributes
and their aliases.
Default: cn
ldap_service_port (string)
The LDAP attribute that contains the port managed by this
service.
Default: ipServicePort
ldap_service_proto (string)
The LDAP attribute that contains the protocols understood by
this service.
Default: ipServiceProtocol
ldap_service_search_base (string)
An optional base DN, search scope and LDAP filter to restrict
LDAP searches for this attribute type.
syntax:
search_base[?scope?[filter][?search_base?scope?[filter]]*]
The scope can be one of "base", "onelevel" or "subtree". The
filter must be a valid LDAP search filter as specified by
http://www.ietf.org/rfc/rfc2254.txt
For examples of this syntax, please refer to the
“ldap_search_base” examples section.
Default: the value of ldap_search_base
Please note that specifying scope or filter is not supported
for searches against an Active Directory Server that might
yield a large number of results and trigger the Range Retrieval
extension in the response.
ldap_search_timeout (integer)
Specifies the timeout (in seconds) that ldap searches are
allowed to run before they are cancelled and cached results are
returned (and offline mode is entered)
Note: this option is subject to change in future versions of
the SSSD. It will likely be replaced at some point by a series
of timeouts for specific lookup types.
Default: 6
ldap_enumeration_search_timeout (integer)
Specifies the timeout (in seconds) that ldap searches for user
and group enumerations are allowed to run before they are
cancelled and cached results are returned (and offline mode is
entered)
Default: 60
ldap_network_timeout (integer)
Specifies the timeout (in seconds) after which the
poll(2)/select(2) following a connect(2) returns in case of no
activity.
Default: 6
ldap_opt_timeout (integer)
Specifies a timeout (in seconds) after which calls to
synchronous LDAP APIs will abort if no response is received.
Also controls the timeout when communicating with the KDC in
case of SASL bind.
Default: 6
ldap_connection_expire_timeout (integer)
Specifies a timeout (in seconds) that a connection to an LDAP
server will be maintained. After this time, the connection will
be re-established. If used in parallel with SASL/GSSAPI, the
sooner of the two values (this value vs. the TGT lifetime) will
be used.
Default: 900 (15 minutes)
ldap_page_size (integer)
Specify the number of records to retrieve from LDAP in a single
request. Some LDAP servers enforce a maximum limit per-request.
Default: 1000
ldap_disable_paging (boolean)
Disable the LDAP paging control. This option should be used if
the LDAP server reports that it supports the LDAP paging
control in its RootDSE but it is not enabled or does not behave
properly.
Example: OpenLDAP servers with the paging control module
installed on the server but not enabled will report it in the
RootDSE but be unable to use it.
Example: 389 DS has a bug where it can only support a one
paging control at a time on a single connection. On busy
clients, this can result in some requests being denied.
Default: False
ldap_disable_range_retrieval (boolean)
Disable Active Directory range retrieval.
Active Directory limits the number of members to be retrieved
in a single lookup using the MaxValRange policy (which defaults
to 1500 members). If a group contains more members, the reply
would include an AD-specific range extension. This option
disables parsing of the range extension, therefore large groups
will appear as having no members.
Default: False
ldap_sasl_minssf (integer)
When communicating with an LDAP server using SASL, specify the
minimum security level necessary to establish the connection.
The values of this option are defined by OpenLDAP.
Default: Use the system default (usually specified by
ldap.conf)
ldap_deref_threshold (integer)
Specify the number of group members that must be missing from
the internal cache in order to trigger a dereference lookup. If
less members are missing, they are looked up individually.
You can turn off dereference lookups completely by setting the
value to 0.
A dereference lookup is a means of fetching all group members
in a single LDAP call. Different LDAP servers may implement
different dereference methods. The currently supported servers
are 389/RHDS, OpenLDAP and Active Directory.
Note: If any of the search bases specifies a search filter,
then the dereference lookup performance enhancement will be
disabled regardless of this setting.
Default: 10
ldap_tls_reqcert (string)
Specifies what checks to perform on server certificates in a
TLS session, if any. It can be specified as one of the
following values:
never = The client will not request or check any server
certificate.
allow = The server certificate is requested. If no certificate
is provided, the session proceeds normally. If a bad
certificate is provided, it will be ignored and the session
proceeds normally.
try = The server certificate is requested. If no certificate is
provided, the session proceeds normally. If a bad certificate
is provided, the session is immediately terminated.
demand = The server certificate is requested. If no certificate
is provided, or a bad certificate is provided, the session is
immediately terminated.
hard = Same as “demand”
Default: hard
ldap_tls_cacert (string)
Specifies the file that contains certificates for all of the
Certificate Authorities that sssd will recognize.
Default: use OpenLDAP defaults, typically in
/etc/openldap/ldap.conf
ldap_tls_cacertdir (string)
Specifies the path of a directory that contains Certificate
Authority certificates in separate individual files. Typically
the file names need to be the hash of the certificate followed
by ´.0´. If available, cacertdir_rehash can be used to create
the correct names.
Default: use OpenLDAP defaults, typically in
/etc/openldap/ldap.conf
ldap_tls_cert (string)
Specifies the file that contains the certificate for the
client´s key.
Default: not set
ldap_tls_key (string)
Specifies the file that contains the client´s key.
Default: not set
ldap_tls_cipher_suite (string)
Specifies acceptable cipher suites. Typically this is a colon
sperated list. See ldap.conf(5) for format.
Default: use OpenLDAP defaults, typically in
/etc/openldap/ldap.conf
ldap_id_use_start_tls (boolean)
Specifies that the id_provider connection must also use tls to
protect the channel.
Default: false
ldap_id_mapping (boolean)
Specifies that SSSD should attempt to map user and group IDs
from the ldap_user_objectsid and ldap_group_objectsid
attributes instead of relying on ldap_user_uid_number and
ldap_group_gid_number.
Currently this feature supports only ActiveDirectory objectSID
mapping.
Default: false
ldap_sasl_mech (string)
Specify the SASL mechanism to use. Currently only GSSAPI is
tested and supported.
Default: not set
ldap_sasl_authid (string)
Specify the SASL authorization id to use. When GSSAPI is used,
this represents the Kerberos principal used for authentication
to the directory. This option can either contain the full
principal (for example host/myhost@EXAMPLE.COM) or just the
principal name (for example host/myhost).
Default: host/hostname@REALM
ldap_sasl_realm (string)
Specify the SASL realm to use. When not specified, this option
defaults to the value of krb5_realm. If the ldap_sasl_authid
contains the realm as well, this option is ignored.
Default: the value of krb5_realm.
ldap_sasl_canonicalize (boolean)
If set to true, the LDAP library would perform a reverse lookup
to canonicalize the host name during a SASL bind.
Default: false;
ldap_krb5_keytab (string)
Specify the keytab to use when using SASL/GSSAPI.
Default: System keytab, normally /etc/krb5.keytab
ldap_krb5_init_creds (boolean)
Specifies that the id_provider should init Kerberos credentials
(TGT). This action is performed only if SASL is used and the
mechanism selected is GSSAPI.
Default: true
ldap_krb5_ticket_lifetime (integer)
Specifies the lifetime in seconds of the TGT if GSSAPI is used.
Default: 86400 (24 hours)
krb5_server, krb5_backup_server (string)
Specifies the comma-separated list of IP addresses or hostnames
of the Kerberos servers to which SSSD should connect in the
order of preference. For more information on failover and
server redundancy, see the “FAILOVER” section. An optional port
number (preceded by a colon) may be appended to the addresses
or hostnames. If empty, service discovery is enabled - for more
information, refer to the “SERVICE DISCOVERY” section.
When using service discovery for KDC or kpasswd servers, SSSD
first searches for DNS entries that specify _udp as the
protocol and falls back to _tcp if none are found.
This option was named “krb5_kdcip” in earlier releases of SSSD.
While the legacy name is recognized for the time being, users
are advised to migrate their config files to use “krb5_server”
instead.
krb5_realm (string)
Specify the Kerberos REALM (for SASL/GSSAPI auth).
Default: System defaults, see /etc/krb5.conf
krb5_canonicalize (boolean)
Specifies if the host principal should be canonicalized when
connecting to LDAP server. This feature is available with MIT
Kerberos >= 1.7
Default: false
ldap_pwd_policy (string)
Select the policy to evaluate the password expiration on the
client side. The following values are allowed:
none - No evaluation on the client side. This option cannot
disable server-side password policies.
shadow - Use shadow(5) style attributes to evaluate if the
password has expired.
mit_kerberos - Use the attributes used by MIT Kerberos to
determine if the password has expired. Use chpass_provider=krb5
to update these attributes when the password is changed.
Default: none
ldap_referrals (boolean)
Specifies whether automatic referral chasing should be enabled.
Please note that sssd only supports referral chasing when it is
compiled with OpenLDAP version 2.4.13 or higher.
Chasing referrals may incur a performance penalty in
environments that use them heavily, a notable example is
Microsoft Active Directory. If your setup does not in fact
require the use of referrals, setting this option to false
might bring a noticeable performance improvement.
Default: true
ldap_dns_service_name (string)
Specifies the service name to use when service discovery is
enabled.
Default: ldap
ldap_chpass_dns_service_name (string)
Specifies the service name to use to find an LDAP server which
allows password changes when service discovery is enabled.
Default: not set, i.e. service discovery is disabled
ldap_chpass_update_last_change (bool)
Specifies whether to update the ldap_user_shadow_last_change
attribute with days since the Epoch after a password change
operation.
Default: False
ldap_access_filter (string)
If using access_provider = ldap and ldap_access_order = filter
(default), this option is mandatory. It specifies an LDAP
search filter criteria that must be met for the user to be
granted access on this host. If access_provider = ldap,
ldap_access_order = filter and this option is not set, it will
result in all users being denied access. Use access_provider =
permit to change this default behavior.
Example:
access_provider = ldap
ldap_access_filter = memberOf=cn=allowedusers,ou=Groups,dc=example,dc=com
This example means that access to this host is restricted to
members of the "allowedusers" group in ldap.
Offline caching for this feature is limited to determining
whether the user´s last online login was granted access
permission. If they were granted access during their last
login, they will continue to be granted access while offline
and vice-versa.
Default: Empty
ldap_account_expire_policy (string)
With this option a client side evaluation of access control
attributes can be enabled.
Please note that it is always recommended to use server side
access control, i.e. the LDAP server should deny the bind
request with a suitable error code even if the password is
correct.
The following values are allowed:
shadow: use the value of ldap_user_shadow_expire to determine
if the account is expired.
ad: use the value of the 32bit field
ldap_user_ad_user_account_control and allow access if the
second bit is not set. If the attribute is missing access is
granted. Also the expiration time of the account is checked.
rhds, ipa, 389ds: use the value of ldap_ns_account_lock to
check if access is allowed or not.
nds: the values of ldap_user_nds_login_allowed_time_map,
ldap_user_nds_login_disabled and
ldap_user_nds_login_expiration_time are used to check if access
is allowed. If both attributes are missing access is granted.
This is an experimental feature, please use
http://fedorahosted.org/sssd to report any issues.
Default: Empty
ldap_access_order (string)
Comma separated list of access control options. Allowed values
are:
filter: use ldap_access_filter
expire: use ldap_account_expire_policy
authorized_service: use the authorizedService attribute to
determine access
host: use the host attribute to determine access
Default: filter
Please note that it is a configuration error if a value is used
more than once.
ldap_deref (string)
Specifies how alias dereferencing is done when performing a
search. The following options are allowed:
never: Aliases are never dereferenced.
searching: Aliases are dereferenced in subordinates of the base
object, but not in locating the base object of the search.
finding: Aliases are only dereferenced when locating the base
object of the search.
always: Aliases are dereferenced both in searching and in
locating the base object of the search.
Default: Empty (this is handled as never by the LDAP client
libraries)
ldap_rfc2307_fallback_to_local_users (boolean)
Allows to retain local users as members of an LDAP group for
servers that use the RFC2307 schema.
In some environments where the RFC2307 schema is used, local
users are made members of LDAP groups by adding their names to
the memberUid attribute. The self-consistency of the domain is
compromised when this is done, so SSSD would normally remove
the "missing" users from the cached group memberships as soon
as nsswitch tries to fetch information about the user via
getpw*() or initgroups() calls.
This option falls back to checking if local users are
referenced, and caches them so that later initgroups() calls
will augment the local users with the additional LDAP groups.
Default: false
SUDO OPTIONS
ldap_sudorule_object_class (string)
The object class of a sudo rule entry in LDAP.
Default: sudoRole
ldap_sudorule_name (string)
The LDAP attribute that corresponds to the sudo rule name.
Default: cn
ldap_sudorule_command (string)
The LDAP attribute that corresponds to the command name.
Default: sudoCommand
ldap_sudorule_host (string)
The LDAP attribute that corresponds to the host name (or host IP
address, host IP network, or host netgroup)
Default: sudoHost
ldap_sudorule_user (string)
The LDAP attribute that corresponds to the user name (or UID, group
name or user´s netgroup)
Default: sudoUser
ldap_sudorule_option (string)
The LDAP attribute that corresponds to the sudo options.
Default: sudoOption
ldap_sudorule_runasuser (string)
The LDAP attribute that corresponds to the user name that commands
may be run as.
Default: sudoRunAsUser
ldap_sudorule_runasgroup (string)
The LDAP attribute that corresponds to the group name or group GID
that commands may be run as.
Default: sudoRunAsGroup
ldap_sudorule_notbefore (string)
The LDAP attribute that corresponds to the start date/time for when
the sudo rule is valid.
Default: sudoNotBefore
ldap_sudorule_notafter (string)
The LDAP attribute that corresponds to the expiration date/time,
after which the sudo rule will no longer be valid.
Default: sudoNotAfter
ldap_sudorule_order (string)
The LDAP attribute that corresponds to the ordering index of the
rule.
Default: sudoOrder
ldap_sudo_full_refresh_interval (integer)
How many seconds SSSD will wait between executing a full refresh of
sudo rules (which downloads all rules that are stored on the
server).
The value must be greater than ldap_sudo_smart_refresh_interval
Default: 21600 (6 hours)
ldap_sudo_smart_refresh_interval (integer)
How many seconds SSSD has to wait before executing a smart refresh
of sudo rules (which downloads all rules that have USN higher than
the highest USN of cached rules).
If USN attributes are not supported by the server, the
modifyTimestamp attribute is used instead.
Default: 900 (15 minutes)
ldap_sudo_use_host_filter (boolean)
If true, SSSD will download only rules that are applicable to this
machine (using the IPv4 or IPv6 host/network addresses and
hostnames).
Default: true
ldap_sudo_hostnames (string)
Space separated list of hostnames or fully qualified domain names
that should be used to filter the rules.
If this option is empty, SSSD will try to discover the hostname and
the fully qualified domain name automatically.
If ldap_sudo_use_host_filter is false then this option has no
effect.
Default: not specified
ldap_sudo_ip (string)
Space separated list of IPv4 or IPv6 host/network addresses that
should be used to filter the rules.
If this option is empty, SSSD will try to discover the addresses
automatically.
If ldap_sudo_use_host_filter is false then this option has no
effect.
Default: not specified
ldap_sudo_include_netgroups (boolean)
If true then SSSD will download every rule that contains a netgroup
in sudoHost attribute.
If ldap_sudo_use_host_filter is false then this option has no
effect.
Default: true
ldap_sudo_include_regexp (boolean)
If true then SSSD will download every rule that contains a wildcard
in sudoHost attribute.
If ldap_sudo_use_host_filter is false then this option has no
effect.
Default: true
This manual page only describes attribute name mapping. For detailed
explanation of sudo related attribute semantics, see sudoers.ldap(5)AUTOFS OPTIONS
Please note that the default values correspond to the default schema
which is RFC2307.
ldap_autofs_map_object_class (string)
The object class of an automount map entry in LDAP.
Default: automountMap
ldap_autofs_map_name (string)
The name of an automount map entry in LDAP.
Default: ou
ldap_autofs_entry_object_class (string)
The object class of an automount map entry in LDAP.
Default: automountMap
ldap_autofs_entry_key (string)
The key of an automount entry in LDAP. The entry usually
corresponds to a mount point.
Default: cn
ldap_autofs_entry_value (string)
The key of an automount entry in LDAP. The entry usually
corresponds to a mount point.
Default: automountInformation
Please note that the automounter only reads the master map on startup,
so if any autofs-related changes are made to the sssd.conf, you
typically also need to restart the automounter daemon after restarting
the SSSD.
ADVANCED OPTIONS
These options are supported by LDAP domains, but they should be used
with caution. Please include them in your configuration only if you
know what you are doing.
ldap_netgroup_search_base (string)
An optional base DN, search scope and LDAP filter to restrict LDAP
searches for this attribute type.
syntax:
search_base[?scope?[filter][?search_base?scope?[filter]]*]
The scope can be one of "base", "onelevel" or "subtree". The filter
must be a valid LDAP search filter as specified by
http://www.ietf.org/rfc/rfc2254.txt
For examples of this syntax, please refer to the “ldap_search_base”
examples section.
Default: the value of ldap_search_base
Please note that specifying scope or filter is not supported for
searches against an Active Directory Server that might yield a
large number of results and trigger the Range Retrieval extension
in the response.
ldap_user_search_base (string)
An optional base DN, search scope and LDAP filter to restrict LDAP
searches for this attribute type.
syntax:
search_base[?scope?[filter][?search_base?scope?[filter]]*]
The scope can be one of "base", "onelevel" or "subtree". The filter
must be a valid LDAP search filter as specified by
http://www.ietf.org/rfc/rfc2254.txt
For examples of this syntax, please refer to the “ldap_search_base”
examples section.
Default: the value of ldap_search_base
Please note that specifying scope or filter is not supported for
searches against an Active Directory Server that might yield a
large number of results and trigger the Range Retrieval extension
in the response.
ldap_group_search_base (string)
An optional base DN, search scope and LDAP filter to restrict LDAP
searches for this attribute type.
syntax:
search_base[?scope?[filter][?search_base?scope?[filter]]*]
The scope can be one of "base", "onelevel" or "subtree". The filter
must be a valid LDAP search filter as specified by
http://www.ietf.org/rfc/rfc2254.txt
For examples of this syntax, please refer to the “ldap_search_base”
examples section.
Default: the value of ldap_search_base
Please note that specifying scope or filter is not supported for
searches against an Active Directory Server that might yield a
large number of results and trigger the Range Retrieval extension
in the response.
ldap_user_search_filter (string)
This option specifies an additional LDAP search filter criteria
that restrict user searches.
This option is deprecated in favor of the syntax used by
ldap_user_search_base.
Default: not set
Example:
ldap_user_search_filter = (loginShell=/bin/tcsh)
This filter would restrict user searches to users that have their
shell set to /bin/tcsh.
ldap_group_search_filter (string)
This option specifies an additional LDAP search filter criteria
that restrict group searches.
This option is deprecated in favor of the syntax used by
ldap_group_search_base.
Default: not set
ldap_sudo_search_base (string)
An optional base DN, search scope and LDAP filter to restrict LDAP
searches for this attribute type.
syntax:
search_base[?scope?[filter][?search_base?scope?[filter]]*]
The scope can be one of "base", "onelevel" or "subtree". The filter
must be a valid LDAP search filter as specified by
http://www.ietf.org/rfc/rfc2254.txt
For examples of this syntax, please refer to the “ldap_search_base”
examples section.
Default: the value of ldap_search_base
Please note that specifying scope or filter is not supported for
searches against an Active Directory Server that might yield a
large number of results and trigger the Range Retrieval extension
in the response.
ldap_autofs_search_base (string)
An optional base DN, search scope and LDAP filter to restrict LDAP
searches for this attribute type.
syntax:
search_base[?scope?[filter][?search_base?scope?[filter]]*]
The scope can be one of "base", "onelevel" or "subtree". The filter
must be a valid LDAP search filter as specified by
http://www.ietf.org/rfc/rfc2254.txt
For examples of this syntax, please refer to the “ldap_search_base”
examples section.
Default: the value of ldap_search_base
Please note that specifying scope or filter is not supported for
searches against an Active Directory Server that might yield a
large number of results and trigger the Range Retrieval extension
in the response.
FAILOVER
The failover feature allows back ends to automatically switch to a
different server if the current server fails.
Failover Syntax
The list of servers is given as a comma-separated list; any number of
spaces is allowed around the comma. The servers are listed in order of
preference. The list can contain any number of servers.
For each failover-enabled config option, two variants exist: primary
and backup. The idea is that servers in the primary list are preferred
and backup servers are only searched if no primary servers can be
reached. If a backup server is selected, a timeout of 31 seconds is
set. After this timeout SSSD will periodically try to reconnect to one
of the primary servers. If it succeeds, it will replace the current
active (backup) server.
The Failover Mechanism
The failover mechanism distinguishes between a machine and a service.
The back end first tries to resolve the hostname of a given machine; if
this resolution attempt fails, the machine is considered offline. No
further attempts are made to connect to this machine for any other
service. If the resolution attempt succeeds, the back end tries to
connect to a service on this machine. If the service connection attempt
fails, then only this particular service is considered offline and the
back end automatically switches over to the next service. The machine
is still considered online and might still be tried for another
service.
Further connection attempts are made to machines or services marked as
offline after a specified period of time; this is currently hard coded
to 30 seconds.
If there are no more machines to try, the back end as a whole switches
to offline mode, and then attempts to reconnect every 30 seconds.
SERVICE DISCOVERY
The service discovery feature allows back ends to automatically find
the appropriate servers to connect to using a special DNS query. This
feature is not supported for backup servers.
Configuration
If no servers are specified, the back end automatically uses service
discovery to try to find a server. Optionally, the user may choose to
use both fixed server addresses and service discovery by inserting a
special keyword, “_srv_”, in the list of servers. The order of
preference is maintained. This feature is useful if, for example, the
user prefers to use service discovery whenever possible, and fall back
to a specific server when no servers can be discovered using DNS.
The domain name
Please refer to the “dns_discovery_domain” parameter in the
sssd.conf(5) manual page for more details.
The protocol
The queries usually specify _tcp as the protocol. Exceptions are
documented in respective option description.
See Also
For more information on the service discovery mechanism, refer to RFC
2782.
ID MAPPING
The ID-mapping feature allows SSSD to act as a client of Active
Directory without requiring administrators to extend user attributes to
support POSIX attributes for user and group identifiers.
NOTE: When ID-mapping is enabled, the uidNumber and gidNumber
attributes are ignored. This is to avoid the possibility of conflicts
between automatically-assigned and manually-assigned values. If you
need to use manually-assigned values, ALL values must be
manually-assigned.
Mapping Algorithm
Active Directory provides an objectSID for every user and group object
in the directory. This objectSID can be broken up into components that
represent the Active Directory domain identity and the relative
identifier (RID) of the user or group object.
The SSSD ID-mapping algorithm takes a range of available UIDs and
divides it into equally-sized component sections - called "slices"-.
Each slice represents the space available to an Active Directory
domain.
When a user or group entry for a particular domain is encountered for
the first time, the SSSD allocates one of the available slices for that
domain. In order to make this slice-assignment repeatable on different
client machines, we select the slice based on the following algorithm:
The SID string is passed through the murmurhash3 algorithm to convert
it to a 32-bit hashed value. We then take the modulus of this value
with the total number of available slices to pick the slice.
NOTE: It is possible to encounter collisions in the hash and subsequent
modulus. In these situations, we will select the next available slice,
but it may not be possible to reproduce the same exact set of slices on
other machines (since the order that they are encountered will
determine their slice). In this situation, it is recommended to either
switch to using explicit POSIX attributes in Active Directory
(disabling ID-mapping) or configure a default domain to guarantee that
at least one is always consistent. See “Configuration” for details.
Configuration
Minimum configuration (in the “[domain/DOMAINNAME]” section):
ldap_id_mapping = True
ldap_schema = ad
The default configuration results in configuring 10,000 slices, each
capable of holding up to 200,000 IDs, starting from 10,001 and going up
to 2,000,100,000. This should be sufficient for most deployments.
Advanced Configuration
ldap_idmap_range_min (integer)
Specifies the lower bound of the range of POSIX IDs to use for
mapping Active Directory user and group SIDs.
NOTE: This option is different from “min_id” in that “min_id”
acts to filter the output of requests to this domain, whereas
this option controls the range of ID assignment. This is a
subtle distinction, but the good general advice would be to
have “min_id” be less-than or equal to “ldap_idmap_range_min”
Default: 200000
ldap_idmap_range_max (integer)
Specifies the upper bound of the range of POSIX IDs to use for
mapping Active Directory user and group SIDs.
NOTE: This option is different from “max_id” in that “max_id”
acts to filter the output of requests to this domain, whereas
this option controls the range of ID assignment. This is a
subtle distinction, but the good general advice would be to
have “max_id” be greater-than or equal to
“ldap_idmap_range_max”
Default: 2000200000
ldap_idmap_range_size (integer)
Specifies the number of IDs available for each slice. If the
range size does not divide evenly into the min and max values,
it will create as many complete slices as it can.
Default: 200000
ldap_idmap_default_domain_sid (string)
Specify the domain SID of the default domain. This will
guarantee that this domain will always be assigned to slice
zero in the ID map, bypassing the murmurhash algorithm
described above.
Default: not set
ldap_idmap_default_domain (string)
Specify the name of the default domain.
Default: not set
ldap_idmap_autorid_compat (boolean)
Changes the behavior of the ID-mapping algorithm to behave more
similarly to winbind´s “idmap_autorid” algorithm.
When this option is configured, domains will be allocated
starting with slice zero and increasing monatomically with each
additional domain.
NOTE: This algorithm is non-deterministic (it depends on the
order that users and groups are requested). If this mode is
required for compatibility with machines running winbind, it is
recommended to also use the “ldap_idmap_default_domain_sid”
option to guarantee that at least one domain is consistently
allocated to slice zero.
Default: False
EXAMPLE
The following example assumes that SSSD is correctly configured and
LDAP is set to one of the domains in the [domains] section.
[domain/LDAP]
id_provider = ldap
auth_provider = ldap
ldap_uri = ldap://ldap.mydomain.org
ldap_search_base = dc=mydomain,dc=org
ldap_tls_reqcert = demand
cache_credentials = true
NOTES
The descriptions of some of the configuration options in this manual
page are based on the ldap.conf(5) manual page from the OpenLDAP 2.4
distribution.
SEE ALSOsssd(8), sssd.conf(5), sssd-ldap(5), sssd-krb5(5), sssd-simple(5),
sssd-ipa(5), sssd-ad(5), sssd-sudo(5), sss_cache(8), sss_debuglevel(8),
sss_groupadd(8), sss_groupdel(8), sss_groupshow(8), sss_groupmod(8),
sss_useradd(8), sss_userdel(8), sss_usermod(8), sss_obfuscate(8),
sss_seed(8), sssd_krb5_locator_plugin(8), sss_ssh_authorizedkeys(8),
sss_ssh_knowhostsproxy(8), pam_sss(8).
AUTHORS
The SSSD upstream - http://fedorahosted.org/sssd
NOTES
1. MSDN(TM) documentation
http://msdn.microsoft.com/en-us/library/windows/desktop/aa746475%28v=vs.85%29.aspx
SSSD 11/21/2013 SSSD-LDAP(5)