175 lines
6.4 KiB
Plaintext
175 lines
6.4 KiB
Plaintext
Kerberos is used to protect services and uses a ticket-based authentication
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protocol to authenticate users.
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You can configure {es} to use the Kerberos V5 authentication protocol, which is
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an industry standard protocol, to authenticate users.
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In this scenario, clients must present Kerberos tickets for authentication.
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In Kerberos, users authenticate with an authentication service and later
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with a ticket granting service to generate a TGT (ticket-granting ticket).
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This ticket is then presented to the service for authentication.
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Refer to your Kerberos installation documentation for more information about
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obtaining TGT. {es} clients must first obtain a TGT then initiate the process of
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authenticating with {es}.
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[[kerberos-realm-prereq]]
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===== Before you begin
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. Deploy Kerberos.
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+
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--
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You must have the Kerberos infrastructure set up in your environment.
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NOTE: Kerberos requires a lot of external services to function properly, such as
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time synchronization between all machines and working forward and reverse DNS
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mappings in your domain. Refer to your Kerberos documentation for more details.
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These instructions do not cover setting up and configuring your Kerberos
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deployment. Where examples are provided, they pertain to an MIT Kerberos V5
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deployment. For more information, see
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http://web.mit.edu/kerberos/www/index.html[MIT Kerberos documentation]
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--
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. Configure Java GSS.
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+
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--
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{es} uses Java GSS framework support for Kerberos authentication.
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To support Kerberos authentication, {es} needs the following files:
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* `krb5.conf`, a Kerberos configuration file
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* A `keytab` file that contains credentials for the {es} service principal
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The configuration requirements depend on your Kerberos setup. Refer to your
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Kerberos documentation to configure the `krb5.conf` file.
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For more information on Java GSS, see
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https://docs.oracle.com/javase/10/security/kerberos-requirements1.htm[Java GSS Kerberos requirements]
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--
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[[kerberos-realm-create]]
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===== Create a Kerberos realm
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To configure a Kerberos realm in {es}:
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. Configure the JVM to find the Kerberos configuration file.
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+
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--
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{es} uses Java GSS and JAAS Krb5LoginModule to support Kerberos authentication
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using a Simple and Protected GSSAPI Negotiation Mechanism (SPNEGO) mechanism.
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The Kerberos configuration file (`krb5.conf`) provides information such as the
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default realm, the Key Distribution Center (KDC), and other configuration details
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required for Kerberos authentication. When the JVM needs some configuration
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properties, it tries to find those values by locating and loading this file. The
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JVM system property to configure the file path is `java.security.krb5.conf`. To
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configure JVM system properties see <<jvm-options>>.
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If this system property is not specified, Java tries to locate the file based on
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the conventions.
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TIP: It is recommended that this system property be configured for {es}.
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The method for setting this property depends on your Kerberos infrastructure.
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Refer to your Kerberos documentation for more details.
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For more information, see http://web.mit.edu/kerberos/krb5-latest/doc/admin/conf_files/krb5_conf.html[krb5.conf]
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--
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. Create a keytab for the {es} node.
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+
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--
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A keytab is a file that stores pairs of principals and encryption keys. {es}
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uses the keys from the keytab to decrypt the tickets presented by the user. You
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must create a keytab for {es} by using the tools provided by your Kerberos
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implementation. For example, some tools that create keytabs are `ktpass.exe` on
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Windows and `kadmin` for MIT Kerberos.
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--
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. Put the keytab file in the {es} configuration directory.
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+
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--
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Make sure that this keytab file has read permissions. This file contains
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credentials, therefore you must take appropriate measures to protect it.
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IMPORTANT: {es} uses Kerberos on the HTTP network layer, therefore there must be
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a keytab file for the HTTP service principal on every {es} node. The service
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principal name must have the format `HTTP/es.domain.local@ES.DOMAIN.LOCAL`.
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The keytab files are unique for each node since they include the hostname.
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An {es} node can act as any principal a client requests as long as that
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principal and its credentials are found in the configured keytab.
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--
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. Create a Kerberos realm.
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+
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--
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To enable Kerberos authentication in {es}, you must add a Kerberos realm in the
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realm chain.
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NOTE: You can configure only one Kerberos realm on {es} nodes.
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To configure a Kerberos realm, there are a few mandatory realm settings and
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other optional settings that you need to configure in the `elasticsearch.yml`
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configuration file. Add a realm configuration under the
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`xpack.security.authc.realms.kerberos` namespace.
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The most common configuration for a Kerberos realm is as follows:
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[source, yaml]
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------------------------------------------------------------
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xpack.security.authc.realms.kerberos.kerb1:
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order: 3
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keytab.path: es.keytab
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remove_realm_name: false
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------------------------------------------------------------
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The `username` is extracted from the ticket presented by user and usually has
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the format `username@REALM`. This `username` is used for mapping
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roles to the user. If realm setting `remove_realm_name` is
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set to `true`, the realm part (`@REALM`) is removed. The resulting `username`
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is used for role mapping.
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For detailed information of available realm settings,
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see <<ref-kerberos-settings>>.
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--
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. Restart {es}
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. Map Kerberos users to roles.
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+
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--
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The `kerberos` realm enables you to map Kerberos users to roles. You can
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configure these role mappings by using the
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<<security-api-put-role-mapping,create or update role mappings API>>. You
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identify users by their `username` field.
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The following example uses the role mapping API to map `user@REALM` to the roles
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`monitoring` and `user`:
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[source,console]
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--------------------------------------------------
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POST /_security/role_mapping/kerbrolemapping
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{
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"roles" : [ "monitoring_user" ],
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"enabled": true,
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"rules" : {
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"field" : { "username" : "user@REALM" }
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}
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}
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--------------------------------------------------
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In case you want to support Kerberos cross realm authentication you may
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need to map roles based on the Kerberos realm name. For such scenarios
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following are the additional user metadata available for role mapping:
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- `kerberos_realm` will be set to Kerberos realm name.
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- `kerberos_user_principal_name` will be set to user principal name from the Kerberos ticket.
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For more information, see <<mapping-roles>>.
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NOTE: The Kerberos realm supports
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<<authorization_realms,authorization realms>> as an
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alternative to role mapping.
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--
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