[[setting-up-authentication]] == Setting Up User Authentication Authentication identifies an individual. To gain access to restricted resources, a user must prove their identity, via passwords, credentials, or some other means (typically referred to as authentication tokens). You can use the native support for managing and authenticating users, or integrate with external user management systems such as LDAP and Active Directory. For information about managing native users, see <>. [float] [[built-in-users]] === Built-in Users {security} provides built-in user credentials to help you get up and running. These users have a fixed set of privileges and the default password `changeme`. Please read <> and <> below. .{security} Built-in Users |======== | Name | Description | `elastic` | A built-in _superuser_. See <>. | `kibana` | The user Kibana uses to connect and communicate with Elasticsearch. | `logstash_system` | The user Logstash uses when storing monitoring information in Elasticsearch. |======== [float] [[reset-built-in-user-passwords]] ==== Reset Built-in User Passwords [IMPORTANT] ============================================================================= You must reset the default passwords for all built-in users, and then <>. You can update passwords from the *Management > Users* UI in Kibana or with the <>: [source,js] --------------------------------------------------------------------- PUT _xpack/security/user/elastic/_password { "password": "elasticpassword" } --------------------------------------------------------------------- // CONSOLE [source,js] --------------------------------------------------------------------- PUT _xpack/security/user/kibana/_password { "password": "kibanapassword" } --------------------------------------------------------------------- // CONSOLE [source,js] --------------------------------------------------------------------- PUT _xpack/security/user/logstash_system/_password { "password": "logstashpassword" } --------------------------------------------------------------------- // CONSOLE Once the `kibana` user password is reset, you need to update the Kibana server with the new password by setting `elasticsearch.password` in the `kibana.yml` configuration file: [source,yaml] ----------------------------------------------- elasticsearch.password: kibanapassword ----------------------------------------------- The `logstash_system` user is used internally within Logstash when <> is enabled for logstash If you wish to enable this feature in Logstash, then you need to update the Logstash configuration with the new password by setting `xpack.monitoring.elasticsearch.password` in the `logstash.yml` configuration file: [source,yaml] ---------------------------------------------------------- xpack.monitoring.elasticsearch.password: logstashpassword ---------------------------------------------------------- If you have upgraded from an older version of elasticsearch/x-pack, the `logstash_system` user may have defaulted to _disabled_ for security reasons. Once the password has been changed, you can enable the user via the following API call: [source,js] --------------------------------------------------------------------- PUT _xpack/security/user/logstash_system/_enable --------------------------------------------------------------------- // CONSOLE ============================================================================= [float] [[disabling-default-password]] ==== Disable Default Password Functionality [IMPORTANT] ============================================================================= The default password of `changeme` is provided as a convenience that allows you to quickly setup your Elasticsearch stack. It should not be used when running in production. Once you have changed the password for the built-in users, you must disable default password support by setting `xpack.security.authc.accept_default_password` to `false`. A {ref}/bootstrap-checks.html[bootstrap check] will prevent your cluster from operating in production mode until you make this configuration change. ============================================================================= === How Authentication Works Authentication in {security} is handled by one or more authentication services called _realms_. A _realm_ is used to resolve and authenticate users based on authentication tokens. {security} provides the following built-in realms: _native_:: An internal realm where users are stored in a dedicated Elasticsearch index. This realm supports an authentication token in the form of username and password, and is available by default when no realms are explicitly configured. See <>. _ldap_:: A realm that uses an external LDAP server to authenticate the users. This realm supports an authentication token in the form of username and password, and requires explicit configuration in order to be used. See <>. _active_directory_:: A realm that uses an external Active Directory Server to authenticate the users. With this realm, users are authenticated by usernames and passwords. See <>. _pki_:: A realm that authenticates users using Public Key Infrastructure (PKI). This realm works in conjunction with SSL/TLS and identifies the users through the Distinguished Name (DN) of the client's X.509 certificates. See <>. _file_:: An internal realm where users are defined in files stored on each node in the Elasticsearch cluster. This realm supports an authentication token in the form of username and password, and is always available. See <>. {security} also supports custom realms. If you need to integrate with another authentication system, you can build a custom realm plugin. For more information, see <>. Realms live within a _realm chain_. It is essentially a prioritized list of configured realms (typically of various types). The order of the list determines the order in which the realms will be consulted. During the authentication process, {security} will consult and try to authenticate the request one realm at a time. Once one of the realms successfully authenticates the request, the authentication is considered to be successful and the authenticated user will be associated with the request (which will then proceed to the authorization phase). If a realm cannot authenticate the request, the next in line realm in the chain will be consulted. If all realms in the chain could not authenticate the request, the authentication is then considered to be unsuccessful and an authentication error will be returned (as HTTP status code `401`). NOTE: Some systems (e.g. Active Directory) have a temporary lock-out period after several successive failed login attempts. If the same username exists in multiple realms, unintentional account lockouts are possible. For more information, please see <>. The default realm chain contains the `native` and `file` realms. To explicitly, configure a realm chain, you specify the chain in `elasticsearch.yml`. When you configure a realm chain, only the realms you specify are used for authentication. To use the `native` and `file` realms, you must include them in the chain. The following snippet configures a realm chain that includes the `file` and `native` realms, as well as two LDAP realms and an Active Directory realm. [source,yaml] ---------------------------------------- xpack.security.authc: realms: file: type: file order: 0 native: type: native order: 1 ldap1: type: ldap order: 2 enabled: false url: 'url_to_ldap1' ... ldap2: type: ldap order: 3 url: 'url_to_ldap2' ... ad1: type: active_directory order: 4 url: 'url_to_ad' ---------------------------------------- As can be seen above, each realm has a unique name that identifies it and each realm type dictates its own set of required and optional settings. That said, there are three settings that are common to all realms: [cols=",^,",options="header"] |========= | Setting | Required | Description | `type` | true | Identifies the type of the realm. The realm type determines what other settings the realms should be configured with. The type can be one of: `native`, `ldap`, `active_directory`, `pki`, `file`, or in case of a custom realm, the type name that identifies it. | `order` | false | A numeric value representing the priority/index of the realm within the realm chain. This will determine the order by which the realms will be consulted during authentication, with lower order being consulted first. | `enabled` | false | When set to `false` the realm will be disabled and will not be added to the realm chain. This is useful for debugging purposes as it enables you to remove a realm from the chain without deleting and losing its configuration. |========= Realm types can roughly be classified in two categories: Internal:: Realms that are internal to Elasticsearch and don't require any communication with external parties. They are fully managed by {security}. There can only be a maximum of one configured realm per internal realm type. {security} provides two internal realm types: `native` and `file`. External:: Realms that require interaction with parties/components external to Elasticsearch, typically, with enterprise grade identity management systems. Unlike internal realms, there can be as many external realms as one would like - each with its own unique name and configuration. {security} provides three external realm types: `ldap`, `active_directory` and `pki`. include::authentication/anonymous-access.asciidoc[] include::authentication/native-realm.asciidoc[] include::authentication/ldap-realm.asciidoc[] include::authentication/active-directory-realm.asciidoc[] include::authentication/pki-realm.asciidoc[] include::authentication/file-realm.asciidoc[] include::authentication/custom-realm.asciidoc[] include::authentication/user-cache.asciidoc[]