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You can connect Stash to an existing LDAP user directory, so that your existing users and groups in an enterprise directory can be used in Stash. The LDAP directory is used for both user authentication and account management.
Stash is able to connect to the following LDAP directory servers:
See also this information about deleting users and groups in Stash.
Connecting Atlassian Stash to your external directory is not sufficient to allow your users to log in to Stash. You must explicitly grant them access to Stash in the global permission screen.
We recommend that you use groups instead of invidual accounts when granting permissions.
When connecting Stash to an external directory, be careful not to allow access to Stash by more users than your Stash license allows. If the license limit is exceeded, your developers will not be able to push commits to repositories, and Stash will display a warning banner. See this FAQ.
When you first connect Stash to an existing LDAP directory, the Stash internal directory is synchronised with the LDAP directory. User information, including groups and group memberships, is copied across to the Stash directory.
When we performed internal testing of synchronisation with an Active Directory server on our local network with 10 000 users, 1000 groups and 200 000 memberships, we found that the initial synchronisation took about 5 minutes. Subsequent synchronisations with 100 modifications on the AD server took a couple of seconds to complete. See the option below.
Note that when Stash is connected to an LDAP directory, you cannot update user details in Stash. Updates must be done directly on the LDAP directory, perhaps using a LDAP browser tool such as Apache Directory Studio.
You can use LDAP filters to restrict the users and groups that are synchronised with the Stash internal directory. You may wish to do this in order to limit the users or groups that can access Stash, or if you are concerned that synchronisation performance may be poor.
For example, to limit synchronisation to just the groups named "stash_user" or "red_team", enter the following into the Group Object Filter field (see Group Schema Settings below):
For further discussion about filters, with examples, please see How to write LDAP search filters. Note that you need to know the names for the various containers, attributes and object classes in your particular directory tree, rather than simply copying these examples. You can discover these container names by using a tool such as Apache Directory Studio.
When a user attempts to log in to Stash, once synchronisation has completed, Stash confirms that the user exists in it's internal directory and then passes the user's password to the LDAP directory for confirmation. If the password matches that stored for the user, LDAP passes a confirmation back to Stash, and Stash logs in the user. During the user's session, all authorisations (i.e. access to Stash resources such as repositories, pull requests and administration screens) are handled by Stash, based on permissions maintained by Stash in its internal directory.
To connect Stash to an LDAP directory:
Enter a meaningful name to help you identify the LDAP directory server. Examples:
Select the type of LDAP directory that you will connect to. If you are adding a new LDAP connection, the value you select here will determine the default values for many of the options on the rest of screen. Examples:
The host name of your directory server. Examples:
The port on which your directory server is listening. Examples:
Check this if the connection to the directory server is an SSL (Secure Sockets Layer) connection. Note that you will need to configure an SSL certificate in order to use this setting.
The distinguished name of the user that the application will use when connecting to the directory server. Examples:
By default, all users can read the uSNChanged attribute; however, only administrators or users with relevant permissions can access the Deleted Objects container. The specific privileges required by the user to connect to LDAP are "Bind" and "Read" (user info, group info, group membership, update sequence number, deleted objects), which the user can obtain by being a member of the Active Directory's built-in administrators group.
Note that the incremental sync will fail silently if the Active Directory is accessed by a user without these privileges. This has been reported as CWD-3093.
The password of the user specified above.
Note: Connecting to an LDAP server requires that this application log in to the server with the username and password configured here. As a result, this password cannot be one-way hashed - it must be recoverable in the context of this application. The password is currently stored in the database in plain text without obfuscation. To guarantee its security, you need to ensure that other processes do not have OS-level read permissions for this application's database or configuration files.
The root distinguished name (DN) to use when running queries against the directory server. Examples:
Additional User DN
This value is used in addition to the base DN when searching and loading users. If no value is supplied, the subtree search will start from the base DN. Example:
Additional Group DN
This value is used in addition to the base DN when searching and loading groups. If no value is supplied, the subtree search will start from the base DN. Example:
If no value is supplied for Additional User DN or Additional Group DN this will cause the subtree search to start from the base DN and, in case of huge directory structure, could cause performance issues for login and operations that rely on login to be performed.
LDAP users, groups and memberships are retrieved from your directory server and can only be modified via your directory server. You cannot modify LDAP users, groups or memberships via the application administration screens.
Read Only, with Local Groups
LDAP users, groups and memberships are retrieved from your directory server and can only be modified via your directory server. You cannot modify LDAP users, groups or memberships via the application administration screens. However, you can add groups to the internal directory and add LDAP users to those groups.
Enable Nested Groups
Enable or disable support for nested groups.
Some directory servers allow you to define a group as a member of another group. Groups in such a structure are called nested groups. Nested groups simplify permissions by allowing sub-groups to inherit permissions from a parent group.
|Manage User Status Locally||If true, you can activate and deactivate users in Crowd independent of their status in the directory server.|
|Filter out expired users|
If true, user accounts marked as expired in ActiveDirectory will be automatically removed. For cached directories, the removal of a user will occur during the first synchronization after the account's expiration date.
Note: This is available in Embedded Crowd 2.0.0 and above, but not available in the 2.0.0 m04 release.
Use Paged Results
Enable or disable the use of the LDAP control extension for simple paging of search results. If paging is enabled, the search will retrieve sets of data rather than all of the search results at once. Enter the desired page size – that is, the maximum number of search results to be returned per page when paged results are enabled. The default is 1000 results.
Choose whether to allow the directory server to redirect requests to other servers. This option uses the node referral (JNDI lookup
Naive DN Matching
If your directory server will always return a consistent string representation of a DN, you can enable naive DN matching. Using naive DN matching will result in a significant performance improvement, so we recommend enabling it where possible.
|Enable Incremental Synchronization|
Enable incremental synchronization if you only want changes since the last synchronization to be queried when synchronizing a directory.
Please be aware that when using this option, the user account configured for synchronization must have read access to:
If at least one of these conditions is not met, you may end up with users who are added to (or deleted from) the Active Directory not being respectively added (or deleted) in the application.
This setting is only available if the directory type is set to "Microsoft Active Directory".
Synchronization Interval (minutes)
Synchronization is the process by which the application updates its internal store of user data to agree with the data on the directory server. The application will send a request to your directory server every x minutes, where 'x' is the number specified here. The default value is 60 minutes.
Read Timeout (seconds)
The time, in seconds, to wait for a response to be received. If there is no response within the specified time period, the read attempt will be aborted. A value of 0 (zero) means there is no limit. The default value is 120 seconds.
Search Timeout (seconds)
The time, in seconds, to wait for a response from a search operation. A value of 0 (zero) means there is no limit. The default value is 60 seconds.
Connection Timeout (seconds)
This setting affects two actions. The default value is 0.
User Object Class
This is the name of the class used for the LDAP user object. Example:
User Object Filter
The filter to use when searching user objects. Example:
More examples can be found in our knowledge base. See How to write LDAP search filters.
User Name Attribute
The attribute field to use when loading the username. Examples:
NB: In Active Directory, the 'sAMAccountName' is the 'User Logon Name (pre-Windows 2000)' field. The User Logon Name field is referenced by 'cn'.
User Name RDN Attribute
The RDN (relative distinguished name) to use when loading the username. The DN for each LDAP entry is composed of two parts: the RDN and the location within the LDAP directory where the record resides. The RDN is the portion of your DN that is not related to the directory tree structure. Example:
User First Name Attribute
The attribute field to use when loading the user's first name. Example:
User Last Name Attribute
The attribute field to use when loading the user's last name. Example:
User Display Name Attribute
The attribute field to use when loading the user's full name. Example:
User Email Attribute
The attribute field to use when loading the user's email address. Example:
User Password Attribute
The attribute field to use when loading a user's password. Example:
|User Unique ID Attribute|
The attribute used as a unique immutable identifier for user objects. This is used to track username changes and is optional. If this attribute is not set (or is set to an invalid value), user renames will not be detected — they will be interpreted as a user deletion then a new user addition.
This should normally point to a UUID value. Standards-compliant LDAP servers will implement this as 'entryUUID' according to RFC 4530. This setting exists because it is known under different names on some servers, e.g. 'objectGUID' in Microsoft Active Directory.
Group Object Class
This is the name of the class used for the LDAP group object. Examples:
Group Object Filter
The filter to use when searching group objects. Example:
Group Name Attribute
The attribute field to use when loading the group's name. Example:
Group Description Attribute
The attribute field to use when loading the group's description. Example:
Group Members Attribute
The attribute field to use when loading the group's members. Example:
User Membership Attribute
The attribute field to use when loading the user's groups. Example:
Use the User Membership Attribute, when finding the user's group membership
Check this if your directory server supports the group membership attribute on the user. (By default, this is the '
Use the User Membership Attribute, when finding the members of a group
Check this if your directory server supports the user membership attribute on the group. (By default, this is the '