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Security settings in Elasticsearchedit

By default, the Elasticsearch security features are disabled when you have a basic or trial license. To enable security features, use the xpack.security.enabled setting.

You configure xpack.security settings to enable anonymous access and perform message authentication, set up document and field level security, configure realms, encrypt communications with SSL,and audit security events.

All of these settings can be added to the elasticsearch.yml configuration file, with the exception of the secure settings, which you add to the Elasticsearch keystore. For more information about creating and updating the Elasticsearch keystore, see Secure settings.

General security settingsedit

xpack.security.enabled

Set to true to enable Elasticsearch security features on the node.

If set to false, which is the default value for basic and trial licenses, security features are disabled. It also affects all Kibana instances that connect to this Elasticsearch instance; you do not need to disable security features in those kibana.yml files. For more information about disabling security features in specific Kibana instances, see Kibana security settings.

If you have gold or higher licenses, the default value is true; we recommend that you explicitly add this setting to avoid confusion.

xpack.security.hide_settings
A comma-separated list of settings that are omitted from the results of the cluster nodes info API. You can use wildcards to include multiple settings in the list. For example, the following value hides all the settings for the ad1 active_directory realm: xpack.security.authc.realms.active_directory.ad1.*. The API already omits all ssl settings, bind_dn, and bind_password due to the sensitive nature of the information.
xpack.security.fips_mode.enabled
Enables fips mode of operation. Set this to true if you run this Elasticsearch instance in a FIPS 140-2 enabled JVM. For more information, see FIPS 140-2. Defaults to false.

Password hashing settingsedit

xpack.security.authc.password_hashing.algorithm
Specifies the hashing algorithm that is used for secure user credential storage. See Table 2, “Password hashing algorithms”. Defaults to bcrypt.

Anonymous access settingsedit

You can configure the following anonymous access settings in elasticsearch.yml. For more information, see Enabling anonymous access.

xpack.security.authc.anonymous.username
The username (principal) of the anonymous user. Defaults to _es_anonymous_user.
xpack.security.authc.anonymous.roles
The roles to associate with the anonymous user. Required.
xpack.security.authc.anonymous.authz_exception
When true, an HTTP 403 response is returned if the anonymous user does not have the appropriate permissions for the requested action. The user is not prompted to provide credentials to access the requested resource. When set to false, an HTTP 401 response is returned and the user can provide credentials with the appropriate permissions to gain access. Defaults to true.

Automata Settingsedit

In places where the security features accept wildcard patterns (e.g. index patterns in roles, group matches in the role mapping API), each pattern is compiled into an Automaton. The follow settings are available to control this behaviour.

xpack.security.automata.max_determinized_states
The upper limit on how many automaton states may be created by a single pattern. This protects against too-difficult (e.g. exponentially hard) patterns. Defaults to 100,000.
xpack.security.automata.cache.enabled
Whether to cache the compiled automata. Compiling automata can be CPU intensive and may slowdown some operations. The cache reduces the frequency with which automata need to be compiled. Defaults to true.
xpack.security.automata.cache.size
The maximum number of items to retain in the automata cache. Defaults to 10,000.
xpack.security.automata.cache.ttl
The length of time to retain in an item in the automata cache (based on most recent usage). Defaults to 48h (48 hours).

Document and field level security settingsedit

You can set the following document and field level security settings in elasticsearch.yml. For more information, see Setting up field and document level security.

xpack.security.dls_fls.enabled
Set to false to prevent document and field level security from being configured. Defaults to true.
xpack.security.dls.bitset.cache.ttl
The time-to-live for cached BitSet entries for document level security. Document level security queries may depend on Lucene BitSet objects, and these are automatically cached to improve performance. Defaults to expire entries that are unused for 168h (7 days).
xpack.security.dls.bitset.cache.size
The maximum memory usage of cached BitSet entries for document level security. Document level security queries may depend on Lucene BitSet objects, and these are automatically cached to improve performance. Defaults to 50mb, after which least-recently-used entries will be evicted.

Token service settingsedit

You can set the following token service settings in elasticsearch.yml.

xpack.security.authc.token.enabled
Set to false to disable the built-in token service. Defaults to true unless xpack.security.http.ssl.enabled is false. This prevents sniffing the token from a connection over plain http.
xpack.security.authc.token.timeout
The length of time that a token is valid for. By default this value is 20m or 20 minutes. The maximum value is 1 hour.

API key service settingsedit

You can set the following API key service settings in elasticsearch.yml.

xpack.security.authc.api_key.enabled
Set to false to disable the built-in API key service. Defaults to true unless xpack.security.http.ssl.enabled is false. This prevents sniffing the API key from a connection over plain http.
xpack.security.authc.api_key.hashing.algorithm
Specifies the hashing algorithm that is used for securing API key credentials. See Table 2, “Password hashing algorithms”. Defaults to pbkdf2.
xpack.security.authc.api_key.cache.ttl
The time-to-live for cached API key entries. A API key id and a hash of its API key are cached for this period of time. Specify the time period using the standard Elasticsearch time units. Defaults to 1d.
xpack.security.authc.api_key.cache.max_keys
The maximum number of API key entries that can live in the cache at any given time. Defaults to 10,000.
xpack.security.authc.api_key.cache.hash_algo
(Expert Setting) The hashing algorithm that is used for the in-memory cached API key credentials. For possible values, see Table 1, “Cache hash algorithms”. Defaults to ssha256.

Realm settingsedit

You configure realm settings in the xpack.security.authc.realms namespace in elasticsearch.yml. For example:

xpack.security.authc.realms:

    native.realm1: 
        order: 0
        ...

    ldap.realm2:
        order: 1
        ...

    active_directory.realm3:
        order: 2
        ...
    ...

Specifies the type of realm (for example, native, ldap, active_directory, pki, file, kerberos, saml) and the realm name. This information is required.

The valid settings vary depending on the realm type. For more information, see User authentication.

Settings valid for all realmsedit
order
The priority of the realm within the realm chain. Realms with a lower order are consulted first. Although not required, use of this setting is strongly recommended when you configure multiple realms. Defaults to Integer.MAX_VALUE.
enabled
Indicates whether a realm is enabled. You can use this setting to disable a realm without removing its configuration information. Defaults to true.
Native realm settingsedit

For a native realm, the type must be set to native. In addition to the settings that are valid for all realms, you can specify the following optional settings:

cache.ttl
The time-to-live for cached user entries. A user and a hash of its credentials are cached for this period of time. Specify the time period using the standard Elasticsearch time units. Defaults to 20m.
cache.max_users
The maximum number of user entries that can live in the cache at any given time. Defaults to 100,000.
cache.hash_algo
(Expert Setting) The hashing algorithm that is used for the in-memory cached user credentials. For possible values, see Table 1, “Cache hash algorithms”. Defaults to ssha256.
authentication.enabled
If set to false, disables authentication support in this realm, so that it only supports user lookups. (See the run as and authorization realms features). Defaults to true.
File realm settingsedit

The type setting must be set to file. In addition to the settings that are valid for all realms, you can specify the following settings:

cache.ttl
The time-to-live for cached user entries. A user and a hash of its credentials are cached for this configured period of time. Defaults to 20m. Specify values using the standard Elasticsearch time units. Defaults to 20m.
cache.max_users
The maximum number of user entries that can live in the cache at a given time. Defaults to 100,000.
cache.hash_algo
(Expert Setting) The hashing algorithm that is used for the in-memory cached user credentials. See Table 1, “Cache hash algorithms”. Defaults to ssha256.
authentication.enabled
If set to false, disables authentication support in this realm, so that it only supports user lookups. (See the run as and authorization realms features). Defaults to true.
LDAP realm settingsedit

The type setting must be set to ldap. In addition to the Settings valid for all realms, you can specify the following settings:

url

One or more LDAP URLs in the ldap[s]://<server>:<port> format. Required.

To provide multiple URLs, use a YAML array (["ldap://server1:636", "ldap://server2:636"]) or comma-separated string ("ldap://server1:636, ldap://server2:636").

While both are supported, you can’t mix the ldap and ldaps protocols.

load_balance.type
The behavior to use when there are multiple LDAP URLs defined. For supported values see load balancing and failover types. Defaults to failover.
load_balance.cache_ttl
When using dns_failover or dns_round_robin as the load balancing type, this setting controls the amount of time to cache DNS lookups. Defaults to 1h.
bind_dn
The DN of the user that is used to bind to the LDAP and perform searches. Only applicable in user search mode. If not specified, an anonymous bind is attempted. Defaults to Empty. Due to its potential security impact, bind_dn is not exposed via the nodes info API.
bind_password
[6.3] Deprecated in 6.3. Use secure_bind_password instead. The password for the user that is used to bind to the LDAP directory. Defaults to Empty. Due to its potential security impact, bind_password is not exposed via the nodes info API.
secure_bind_password (Secure)
The password for the user that is used to bind to the LDAP directory. Defaults to Empty.
user_dn_templates
The DN template that replaces the user name with the string {0}. This setting is multivalued; you can specify multiple user contexts. Required to operate in user template mode. If user_search.base_dn is specified, this setting is not valid. For more information on the different modes, see LDAP user authentication.
authorization_realms

The names of the realms that should be consulted for delegated authorization. If this setting is used, then the LDAP realm does not perform role mapping and instead loads the user from the listed realms. The referenced realms are consulted in the order that they are defined in this list. See Delegating authorization to another realm.

If any settings starting with user_search are specified, the user_dn_templates settings are ignored.

user_group_attribute
Specifies the attribute to examine on the user for group membership. If any group_search settings are specified, this setting is ignored. Defaults to memberOf.
user_search.base_dn
Specifies a container DN to search for users. Required to operated in user search mode. If user_dn_templates is specified, this setting is not valid. For more information on the different modes, see LDAP user authentication.
user_search.scope
The scope of the user search. Valid values are sub_tree, one_level or base. one_level only searches objects directly contained within the base_dn. sub_tree searches all objects contained under base_dn. base specifies that the base_dn is the user object, and that it is the only user considered. Defaults to sub_tree.
user_search.filter
Specifies the filter used to search the directory in attempts to match an entry with the username provided by the user. Defaults to (uid={0}). {0} is substituted with the username provided when searching.
user_search.attribute
[5.6] Deprecated in 5.6. Use user_search.filter instead. The attribute to match with the username sent with the request. Defaults to uid.
user_search.pool.enabled
Enables or disables connection pooling for user search. If set to false, a new connection is created for every search. The default is true when bind_dn is set.
user_search.pool.size
The maximum number of connections to the LDAP server to allow in the connection pool. Defaults to 20.
user_search.pool.initial_size
The initial number of connections to create to the LDAP server on startup. Defaults to 0. If the LDAP server is down, values greater than 0 could cause startup failures.
user_search.pool.health_check.enabled
Enables or disables a health check on LDAP connections in the connection pool. Connections are checked in the background at the specified interval. Defaults to true.
user_search.pool.health_check.dn
The distinguished name that is retrieved as part of the health check. Defaults to the value of bind_dn if present; if not, falls back to user_search.base_dn.
user_search.pool.health_check.interval
The interval to perform background checks of connections in the pool. Defaults to 60s.
group_search.base_dn
The container DN to search for groups in which the user has membership. When this element is absent, Elasticsearch searches for the attribute specified by user_group_attribute set on the user in order to determine group membership.
group_search.scope
Specifies whether the group search should be sub_tree, one_level or base. one_level only searches objects directly contained within the base_dn. sub_tree searches all objects contained under base_dn. base specifies that the base_dn is a group object, and that it is the only group considered. Defaults to sub_tree.
group_search.filter
Specifies a filter to use to look up a group. When not set, the realm searches for group, groupOfNames, groupOfUniqueNames, or posixGroup with the attributes member, memberOf, or memberUid. Any instance of {0} in the filter is replaced by the user attribute defined in group_search.user_attribute.
group_search.user_attribute
Specifies the user attribute that is fetched and provided as a parameter to the filter. If not set, the user DN is passed into the filter. Defaults to Empty.
unmapped_groups_as_roles
If set to true, the names of any unmapped LDAP groups are used as role names and assigned to the user. A group is considered to be unmapped if it is not referenced in a role-mapping file. API-based role mappings are not considered. Defaults to false.
files.role_mapping
The location for the YAML role mapping configuration file. Defaults to ES_PATH_CONF/role_mapping.yml.
follow_referrals
Specifies whether Elasticsearch should follow referrals returned by the LDAP server. Referrals are URLs returned by the server that are to be used to continue the LDAP operation (for example, search). Defaults to true.
metadata
A list of additional LDAP attributes that should be loaded from the LDAP server and stored in the authenticated user’s metadata field.
timeout.tcp_connect
The TCP connect timeout period for establishing an LDAP connection. An s at the end indicates seconds, or ms indicates milliseconds. Defaults to 5s (5 seconds ).
timeout.tcp_read
[7.7] Deprecated in 7.7. The TCP read timeout period after establishing an LDAP connection. This is equivalent to and is deprecated in favor of timeout.response and they cannot be used simultaneously. An s at the end indicates seconds, or ms indicates milliseconds.
timeout.response
The time interval to wait for the response from the LDAP server. An s at the end indicates seconds, or ms indicates milliseconds. Defaults to the value of timeout.ldap_search.
timeout.ldap_search
The timeout period for an LDAP search. The value is specified in the request and is enforced by the receiving LDAP Server. An s at the end indicates seconds, or ms indicates milliseconds. Defaults to 5s (5 seconds ).
ssl.key

Path to a PEM encoded file containing the private key.

If the LDAP server requires client authentication, it uses this file. You cannot use this setting and ssl.keystore.path at the same time.

ssl.key_passphrase
The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.
ssl.secure_key_passphrase (Secure)
The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.
ssl.certificate

Specifies the path for the PEM encoded certificate (or certificate chain) that is associated with the key.

This certificate is presented to clients when they connect.

ssl.certificate_authorities

List of paths to PEM encoded certificate files that should be trusted.

You cannot use this setting and ssl.truststore.path at the same time.

ssl.keystore.path

The path for the keystore file that contains a private key and certificate.

You cannot use this setting and ssl.key at the same time.

ssl.keystore.type
The format of the keystore file. It must be either jks or PKCS12. If the keystore path ends in ".p12", ".pfx", or ".pkcs12", this setting defaults to PKCS12. Otherwise, it defaults to jks.
ssl.keystore.password
The password for the keystore.
ssl.keystore.secure_password (Secure)
The password for the keystore.
ssl.keystore.key_password
The password for the key in the keystore. The default is the keystore password.
ssl.keystore.secure_key_password
The password for the key in the keystore. The default is the keystore password.
ssl.truststore.path

The path for the keystore that contains the certificates to trust. It must be either a Java keystore (jks) or a PKCS#12 file.

You cannot use this setting and ssl.certificate_authorities at the same time.

ssl.truststore.password
The password for the truststore.
ssl.truststore.secure_password (Secure)
Password for the truststore.
ssl.truststore.type
The format of the truststore file. For the Java keystore format, use jks. For PKCS#12 files, use PKCS12. For a PKCS#11 token, use PKCS11. The default is jks.
ssl.verification_mode

Indicates the type of verification when using ldaps to protect against man in the middle attacks and certificate forgery. Valid values are:

  • full, which verifies that the provided certificate is signed by a trusted authority (CA) and also verifies that the server’s hostname (or IP address) matches the names identified within the certificate.
  • certificate, which verifies that the provided certificate is signed by a trusted authority (CA), but does not perform any hostname verification.
  • none, which performs no verification of the server’s certificate. This mode disables many of the security benefits of SSL/TLS and should only be used after very careful consideration. It is primarily intended as a temporary diagnostic mechanism when attempting to resolve TLS errors; its use on production clusters is strongly discouraged.

    The default value is full.

ssl.supported_protocols

Supported protocols with versions. Valid protocols: SSLv2Hello, SSLv3, TLSv1, TLSv1.1, TLSv1.2, TLSv1.3. If the JVM’s SSL provider supports TLSv1.3, the default is TLSv1.3,TLSv1.2,TLSv1.1. Otherwise, the default is TLSv1.2,TLSv1.1.

If xpack.security.fips_mode.enabled is true, you cannot use SSLv2Hello or SSLv3. See FIPS 140-2.

ssl.cipher_suites

Specifies the cipher suites that should be supported when communicating with the LDAP server. Supported cipher suites vary depending on which version of Java you use. For example, for version 11 the default value is TLS_AES_256_GCM_SHA384, TLS_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, TLS_RSA_WITH_AES_256_GCM_SHA384, TLS_RSA_WITH_AES_128_GCM_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA256, TLS_RSA_WITH_AES_128_CBC_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA, TLS_RSA_WITH_AES_128_CBC_SHA.

The default cipher suites list above includes TLSv1.3 ciphers and ciphers that require the Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files for 256-bit AES encryption. If TLSv1.3 is not available, the TLSv1.3 ciphers TLS_AES_256_GCM_SHA384 and TLS_AES_128_GCM_SHA256 are not included in the default list. If 256-bit AES is unavailable, ciphers with AES_256 in their names are not included in the default list. Finally, AES GCM has known performance issues in Java versions prior to 11 and is included in the default list only when using Java 11 or above.

For more information, see Oracle’s Java Cryptography Architecture documentation.

cache.ttl
Specifies the time-to-live for cached user entries. A user and a hash of its credentials are cached for this period of time. Use the standard Elasticsearch time units. Defaults to 20m.
cache.max_users
Specifies the maximum number of user entries that the cache can contain. Defaults to 100000.
cache.hash_algo
(Expert Setting) Specifies the hashing algorithm that is used for the in-memory cached user credentials. See Table 1, “Cache hash algorithms”. Defaults to ssha256.
authentication.enabled
If set to false, disables authentication support in this realm, so that it only supports user lookups. (See the run as and authorization realms features). Defaults to true.
Active Directory realm settingsedit

The type setting must be set to active_directory. In addition to the settings that are valid for all realms, you can specify the following settings:

url

One or more LDAP URLs in the ldap[s]://<server>:<port> format. Defaults to ldap://<domain_name>:389. This setting is required when connecting using SSL/TLS or when using a custom port.

To provide multiple URLs, use a YAML array (["ldap://server1:636", "ldap://server2:636"]) or comma-separated string ("ldap://server1:636, ldap://server2:636").

While both are supported, you can’t mix the ldap and ldaps protocols.

If no URL is provided, Elasticsearch uses a default of ldap://<domain_name>:389. This default uses the domain_name setting value and assumes an unencrypted connection to port 389.

load_balance.type
The behavior to use when there are multiple LDAP URLs defined. For supported values see load balancing and failover types. Defaults to failover.
load_balance.cache_ttl
When using dns_failover or dns_round_robin as the load balancing type, this setting controls the amount of time to cache DNS lookups. Defaults to 1h.
domain_name
The domain name of Active Directory. If the url and the user_search.base_dn settings are not specified, the cluster can derive those values from this setting. Required.
bind_dn
The DN of the user that is used to bind to Active Directory and perform searches. Defaults to Empty. Due to its potential security impact, bind_dn is not exposed via the nodes info API.
bind_password
[6.3] Deprecated in 6.3. Use secure_bind_password instead. The password for the user that is used to bind to Active Directory. Defaults to Empty. Due to its potential security impact, bind_password is not exposed via the nodes info API.
secure_bind_password (Secure)
The password for the user that is used to bind to Active Directory. Defaults to Empty.
unmapped_groups_as_roles
If set to true, the names of any unmapped Active Directory groups are used as role names and assigned to the user. A group is considered unmapped when it is not referenced in any role-mapping files. API-based role mappings are not considered. Defaults to false.
files.role_mapping
The location for the YAML role mapping configuration file. Defaults to ES_PATH_CONF/role_mapping.yml.
user_search.base_dn
The context to search for a user. Defaults to the root of the Active Directory domain.
user_search.scope
Specifies whether the user search should be sub_tree, one_level or base. one_level only searches users directly contained within the base_dn. sub_tree searches all objects contained under base_dn. base specifies that the base_dn is a user object, and that it is the only user considered. Defaults to sub_tree.
user_search.filter
Specifies a filter to use to lookup a user given a username. The default filter looks up user objects with either sAMAccountName or userPrincipalName. If specified, this must be a valid LDAP user search filter. For example (&(objectClass=user)(sAMAccountName={0})). For more information, see Search Filter Syntax.
user_search.upn_filter
Specifies a filter to use to lookup a user given a user principal name. The default filter looks up user objects with a matching userPrincipalName. If specified, this must be a valid LDAP user search filter. For example, (&(objectClass=user)(userPrincipalName={1})). {1} is the full user principal name provided by the user. For more information, see Search Filter Syntax.
user_search.down_level_filter
Specifies a filter to use to lookup a user given a down level logon name (DOMAIN\user). The default filter looks up user objects with a matching sAMAccountName in the domain provided. If specified, this must be a valid LDAP user search filter. For example, (&(objectClass=user)(sAMAccountName={0})). For more information, see Search Filter Syntax.
user_search.pool.enabled
Enables or disables connection pooling for user search. When disabled a new connection is created for every search. The default is true when bind_dn is provided.
user_search.pool.size
The maximum number of connections to the Active Directory server to allow in the connection pool. Defaults to 20.
user_search.pool.initial_size
The initial number of connections to create to the Active Directory server on startup. Defaults to 0. If the LDAP server is down, values greater than 0 could cause startup failures.
user_search.pool.health_check.enabled
Enables or disables a health check on Active Directory connections in the connection pool. Connections are checked in the background at the specified interval. Defaults to true.
user_search.pool.health_check.dn
The distinguished name to be retrieved as part of the health check. Defaults to the value of bind_dn if that setting is present. Otherwise, it defaults to the value of the user_search.base_dn setting.
user_search.pool.health_check.interval
The interval to perform background checks of connections in the pool. Defaults to 60s.
group_search.base_dn
The context to search for groups in which the user has membership. Defaults to the root of the Active Directory domain.
group_search.scope
Specifies whether the group search should be sub_tree, one_level or base. one_level searches for groups directly contained within the base_dn. sub_tree searches all objects contained under base_dn. base specifies that the base_dn is a group object, and that it is the only group considered. Defaults to sub_tree.
metadata
A list of additional LDAP attributes that should be loaded from the LDAP server and stored in the authenticated user’s metadata field.
timeout.tcp_connect
The TCP connect timeout period for establishing an LDAP connection. An s at the end indicates seconds, or ms indicates milliseconds. Defaults to 5s (5 seconds ).
timeout.tcp_read
[7.7] Deprecated in 7.7. The TCP read timeout period after establishing an LDAP connection. This is equivalent to and is deprecated in favor of timeout.response and they cannot be used simultaneously. An s at the end indicates seconds, or ms indicates milliseconds. Defaults to the value of timeout.ldap_search.
timeout.response
The time interval to wait for the response from the AD server. An s at the end indicates seconds, or ms indicates milliseconds. Defaults to the value of timeout.ldap_search.
timeout.ldap_search
The timeout period for an LDAP search. The value is specified in the request and is enforced by the receiving LDAP Server. An s at the end indicates seconds, or ms indicates milliseconds. Defaults to 5s (5 seconds ).
ssl.certificate

Specifies the path for the PEM encoded certificate (or certificate chain) that is associated with the key.

This certificate is presented to clients when they connect.

ssl.certificate_authorities

List of paths to PEM encoded certificate files that should be trusted.

You cannot use this setting and ssl.truststore.path at the same time.

ssl.key

Path to a PEM encoded file containing the private key.

If the Active Directory server requires client authentication, it uses this file. You cannot use this setting and ssl.keystore.path at the same time.

ssl.key_passphrase
The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.
ssl.secure_key_passphrase (Secure)
The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.
ssl.keystore.key_password
The password for the key in the keystore. The default is the keystore password.
ssl.keystore.secure_key_password (Secure)
The password for the key in the keystore. The default is the keystore password.
ssl.keystore.password
The password for the keystore.
ssl.secure_keystore.password (Secure)
The password for the keystore.
ssl.keystore.path

The path for the keystore file that contains a private key and certificate.

You cannot use this setting and ssl.key at the same time.

ssl.keystore.type
The format of the keystore file. It must be either jks or PKCS12. If the keystore path ends in ".p12", ".pfx", or ".pkcs12", this setting defaults to PKCS12. Otherwise, it defaults to jks.
ssl.truststore.password
The password for the truststore.
ssl.truststore.secure_password (Secure)
Password for the truststore.
ssl.truststore.path

The path for the keystore that contains the certificates to trust. It must be either a Java keystore (jks) or a PKCS#12 file.

You cannot use this setting and ssl.certificate_authorities at the same time.

ssl.truststore.type
The format of the truststore file. For the Java keystore format, use jks. For PKCS#12 files, use PKCS12. For a PKCS#11 token, use PKCS11. The default is jks.
ssl.verification_mode

Indicates the type of verification when using ldaps to protect against man in the middle attacks and certificate forgery. Valid values are:

  • full, which verifies that the provided certificate is signed by a trusted authority (CA) and also verifies that the server’s hostname (or IP address) matches the names identified within the certificate.
  • certificate, which verifies that the provided certificate is signed by a trusted authority (CA), but does not perform any hostname verification.
  • none, which performs no verification of the server’s certificate. This mode disables many of the security benefits of SSL/TLS and should only be used after very careful consideration. It is primarily intended as a temporary diagnostic mechanism when attempting to resolve TLS errors; its use on production clusters is strongly discouraged.

    The default value is full.

ssl.supported_protocols

Supported protocols with versions. Valid protocols: SSLv2Hello, SSLv3, TLSv1, TLSv1.1, TLSv1.2, TLSv1.3. If the JVM’s SSL provider supports TLSv1.3, the default is TLSv1.3,TLSv1.2,TLSv1.1. Otherwise, the default is TLSv1.2,TLSv1.1.

If xpack.security.fips_mode.enabled is true, you cannot use SSLv2Hello or SSLv3. See FIPS 140-2.

ssl.cipher_suites

Specifies the cipher suites that should be supported when communicating with the Active Directory server. Supported cipher suites vary depending on which version of Java you use. For example, for version 11 the default value is TLS_AES_256_GCM_SHA384, TLS_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, TLS_RSA_WITH_AES_256_GCM_SHA384, TLS_RSA_WITH_AES_128_GCM_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA256, TLS_RSA_WITH_AES_128_CBC_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA, TLS_RSA_WITH_AES_128_CBC_SHA.

The default cipher suites list above includes TLSv1.3 ciphers and ciphers that require the Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files for 256-bit AES encryption. If TLSv1.3 is not available, the TLSv1.3 ciphers TLS_AES_256_GCM_SHA384 and TLS_AES_128_GCM_SHA256 are not included in the default list. If 256-bit AES is unavailable, ciphers with AES_256 in their names are not included in the default list. Finally, AES GCM has known performance issues in Java versions prior to 11 and is included in the default list only when using Java 11 or above.

For more information, see Oracle’s Java Cryptography Architecture documentation.

cache.ttl
Specifies the time-to-live for cached user entries. A user and a hash of its credentials are cached for this configured period of time. Use the standard Elasticsearch time units). Defaults to 20m.
cache.max_users
Specifies the maximum number of user entries that the cache can contain. Defaults to 100000.
cache.hash_algo
(Expert Setting) Specifies the hashing algorithm that is used for the in-memory cached user credentials. See Table 1, “Cache hash algorithms”. Defaults to ssha256.
authentication.enabled
If set to false, disables authentication support in this realm, so that it only supports user lookups. (See the run as and authorization realms features). Defaults to true.
follow_referrals
If set to true, Elasticsearch follows referrals returned by the LDAP server. Referrals are URLs returned by the server that are to be used to continue the LDAP operation (such as search). Defaults to true.
PKI realm settingsedit

The type setting must be set to pki. In addition to the settings that are valid for all realms, you can specify the following settings:

username_pattern
The regular expression pattern used to extract the username from the certificate DN. The first match group is the used as the username. Defaults to CN=(.*?)(?:,\|$).
certificate_authorities
List of paths to the PEM certificate files that should be used to authenticate a user’s certificate as trusted. Defaults to the trusted certificates configured for SSL. This setting cannot be used with truststore.path.
truststore.algorithm
Algorithm for the truststore. Defaults to SunX509.
truststore.password
The password for the truststore.

If truststore.path is set, this setting is required.

truststore.secure_password (Secure)
Password for the truststore.
truststore.path
The path of a truststore to use. Defaults to the trusted certificates configured for SSL. This setting cannot be used with certificate_authorities.
files.role_mapping
Specifies the location of the YAML role mapping configuration file. Defaults to ES_PATH_CONF/role_mapping.yml.
authorization_realms
The names of the realms that should be consulted for delegated authorization. If this setting is used, then the PKI realm does not perform role mapping and instead loads the user from the listed realms. See Delegating authorization to another realm.
cache.ttl
Specifies the time-to-live for cached user entries. A user and a hash of its credentials are cached for this period of time. Use the standard Elasticsearch time units). Defaults to 20m.
cache.max_users
Specifies the maximum number of user entries that the cache can contain. Defaults to 100000.
delegation.enabled
Generally, in order for the clients to be authenticated by the PKI realm they must connect directly to Elasticsearch. That is, they must not pass through proxies which terminate the TLS connection. In order to allow for a trusted and smart proxy, such as Kibana, to sit before Elasticsearch and terminate TLS connections, but still allow clients to be authenticated on Elasticsearch by this realm, you need to toggle this to true. Defaults to false. If delegation is enabled, then either truststore.path or certificate_authorities setting must be defined. For more details, see Configuring authentication delegation for PKI realms.
SAML realm settingsedit

The type setting must be set to saml. In addition to the settings that are valid for all realms, you can specify the following settings:

idp.entity_id
The Entity ID of the SAML Identity Provider. An Entity ID is a URI with a maximum length of 1024 characters. It can be a URL (https://idp.example.com/) or a URN (urn:example.com:idp) and can be found in the configuration or the SAML metadata of the Identity Provider.
idp.metadata.path
The path (recommended) or URL to a SAML 2.0 metadata file describing the capabilities and configuration of the Identity Provider. If a path is provided, then it is resolved relative to the Elasticsearch config directory. If a URL is provided, then it must be either a file URL or a https URL. Elasticsearch automatically polls this metadata resource and reloads the IdP configuration when changes are detected. File based resources are polled at a frequency determined by the global Elasticsearch resource.reload.interval.high setting, which defaults to 5 seconds. HTTPS resources are polled at a frequency determined by the realm’s idp.metadata.http.refresh setting.
idp.metadata.http.refresh
Controls the frequency with which https metadata is checked for changes. Defaults to 1h (1 hour).
idp.use_single_logout
Indicates whether to utilise the Identity Provider’s Single Logout service (if one exists in the IdP metadata file). Defaults to true.
sp.entity_id
The Entity ID to use for this SAML Service Provider. This should be entered as a URI. We recommend that you use the base URL of your Kibana instance. For example, https://kibana.example.com/.
sp.acs
The URL of the Assertion Consumer Service within Kibana. Typically this is the "api/security/v1/saml" endpoint of your Kibana server. For example, https://kibana.example.com/api/security/v1/saml.
sp.logout
The URL of the Single Logout service within Kibana. Typically this is the "logout" endpoint of your Kibana server. For example, https://kibana.example.com/logout.
attributes.principal
The Name of the SAML attribute that contains the user’s principal (username).
attributes.groups
The Name of the SAML attribute that contains the user’s groups.
attributes.name
The Name of the SAML attribute that contains the user’s full name.
attributes.mail
The Name of the SAML attribute that contains the user’s email address.
attributes.dn
The Name of the SAML attribute that contains the user’s X.50 Distinguished Name.
attribute_patterns.principal
A Java regular expression that is matched against the SAML attribute specified by attributes.pattern before it is applied to the user’s principal property. The attribute value must match the pattern and the value of the first capturing group is used as the principal. For example, ^([^@]+)@example\\.com$ matches email addresses from the "example.com" domain and uses the local-part as the principal.
attribute_patterns.groups
As per attribute_patterns.principal, but for the group property.
attribute_patterns.name
As per attribute_patterns.principal, but for the name property.
attribute_patterns.mail
As per attribute_patterns.principal, but for the mail property.
attribute_patterns.dn
As per attribute_patterns.principal, but for the dn property.
nameid_format
The NameID format that should be requested when asking the IdP to authenticate the current user. Defaults to requesting transient names (urn:oasis:names:tc:SAML:2.0:nameid-format:transient).
nameid.allow_create
The value of the AllowCreate attribute of the NameIdPolicy element in an authentication request. Defaults to false.
nameid.sp_qualifier
The value of the SPNameQualifier attribute of the NameIdPolicy element in an authentication request. The default is to not include the SPNameQualifier attribute.
force_authn
Specifies whether to set the ForceAuthn attribute when requesting that the IdP authenticate the current user. If set to true, the IdP is required to verify the user’s identity, irrespective of any existing sessions they might have. Defaults to false.
populate_user_metadata
Specifies whether to populate the Elasticsearch user’s metadata with the values that are provided by the SAML attributes. Defaults to true.
authorization_realms
The names of the realms that should be consulted for delegated authorization. If this setting is used, then the SAML realm does not perform role mapping and instead loads the user from the listed realms. See Delegating authorization to another realm.
allowed_clock_skew
The maximum amount of skew that can be tolerated between the IdP’s clock and the Elasticsearch node’s clock. Defaults to 3m (3 minutes).
req_authn_context_class_ref

A comma separated list of Authentication Context Class Reference values to be included in the Requested Authentication Context when requesting the IdP to authenticate the current user. The Authentication Context of the corresponding authentication response should contain at least one of the requested values.

For more information, see Requesting specific authentication methods.

SAML realm signing settingsedit

If a signing key is configured (that is, either signing.key or signing.keystore.path is set), then Elasticsearch signs outgoing SAML messages. Signing can be configured using the following settings:

signing.saml_messages
A list of SAML message types that should be signed or * to sign all messages. Each element in the list should be the local name of a SAML XML Element. Supported element types are AuthnRequest, LogoutRequest and LogoutResponse. Only valid if signing.key or signing.keystore.path is also specified. Defaults to *.
signing.key
Specifies the path to the PEM encoded private key to use for SAML message signing. signing.key and signing.keystore.path cannot be used at the same time.
signing.secure_key_passphrase (Secure)
Specifies the passphrase to decrypt the PEM encoded private key (signing.key) if it is encrypted.
signing.certificate
Specifies the path to the PEM encoded certificate (or certificate chain) that corresponds to the signing.key. This certificate must also be included in the Service Provider metadata or manually configured within the IdP to allow for signature validation. This setting can only be used if signing.key is set.
signing.keystore.path
The path to the keystore that contains a private key and certificate. It must be either a Java keystore (jks) or a PKCS#12 file. You cannot use this setting and signing.key at the same time.
signing.keystore.type
The type of the keystore in signing.keystore.path. Must be either jks or PKCS12. If the keystore path ends in ".p12", ".pfx", or "pkcs12", this setting defaults to PKCS12. Otherwise, it defaults to jks.
signing.keystore.alias
Specifies the alias of the key within the keystore that should be used for SAML message signing. If the keystore contains more than one private key, this setting must be specified.
signing.keystore.secure_password (Secure)
The password to the keystore in signing.keystore.path.
signing.keystore.secure_key_password (Secure)
The password for the key in the keystore (signing.keystore.path). Defaults to the keystore password.
SAML realm encryption settingsedit

If an encryption key is configured (that is, either encryption.key or encryption.keystore.path is set), then Elasticsearch publishes an encryption certificate when generating metadata and attempts to decrypt incoming SAML content. Encryption can be configured using the following settings:

encryption.key
Specifies the path to the PEM encoded private key to use for SAML message decryption. encryption.key and encryption.keystore.path cannot be used at the same time.
encryption.secure_key_passphrase (Secure)
Specifies the passphrase to decrypt the PEM encoded private key (encryption.key) if it is encrypted.
encryption.certificate
Specifies the path to the PEM encoded certificate (or certificate chain) that is associated with the encryption.key. This certificate must also be included in the Service Provider metadata or manually configured within the IdP to enable message encryption. This setting can be used only if encryption.key is set.
encryption.keystore.path
The path to the keystore that contains a private key and certificate. It must be either a Java keystore (jks) or a PKCS#12 file. You cannot use this setting and encryption.key at the same time.
encryption.keystore.type
The type of the keystore (encryption.keystore.path). Must be either jks or PKCS12. If the keystore path ends in ".p12", ".pfx", or "pkcs12", this setting defaults to PKCS12. Otherwise, it defaults to jks.
encryption.keystore.alias
Specifies the alias of the key within the keystore (encryption.keystore.path) that should be used for SAML message decryption. If not specified, all compatible key pairs from the keystore are considered as candidate keys for decryption.
encryption.keystore.secure_password (Secure)
The password to the keystore (encryption.keystore.path).
encryption.keystore.secure_key_password (Secure)
The password for the key in the keystore (encryption.keystore.path). Only a single password is supported. If you are using multiple decryption keys, they cannot have individual passwords.
SAML realm SSL settingsedit

If you are loading the IdP metadata over SSL/TLS (that is, idp.metadata.path is a URL using the https protocol), the following settings can be used to configure SSL.

These settings are not used for any purpose other than loading metadata over https.

ssl.key

Path to a PEM encoded file containing the private key.

If HTTP client authentication is required, it uses this file. You cannot use this setting and ssl.keystore.path at the same time.

ssl.key_passphrase

The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.

You cannot use this setting and ssl.secure_key_passphrase at the same time.

ssl.secure_key_passphrase (Secure)

The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.

You cannot use this setting and ssl.key_passphrase at the same time.

ssl.certificate

Specifies the path for the PEM encoded certificate (or certificate chain) that is associated with the key.

This setting can be used only if ssl.key is set.

ssl.certificate_authorities

List of paths to PEM encoded certificate files that should be trusted.

This setting and ssl.truststore.path cannot be used at the same time.

ssl.keystore.path

The path for the keystore file that contains a private key and certificate.

It must be either a Java keystore (jks) or a PKCS#12 file. You cannot use this setting and ssl.key at the same time.

ssl.keystore.type
The format of the keystore file. It must be either jks or PKCS12. If the keystore path ends in ".p12", ".pfx", or ".pkcs12", this setting defaults to PKCS12. Otherwise, it defaults to jks.
ssl.keystore.password

The password for the keystore.

You cannot use this setting and ssl.keystore.secure_password at the same time.

ssl.keystore.secure_password (Secure)

The password for the keystore.

You cannot use this setting and ssl.keystore.password at the same time.

ssl.keystore.key_password

The password for the key in the keystore. The default is the keystore password.

You cannot use this setting and ssl.keystore.secure_key_password at the same time.

ssl.keystore.secure_key_password (Secure)
The password for the key in the keystore. The default is the keystore password.

You cannot use this setting and ssl.keystore.key_password at the same time.

ssl.truststore.path

The path for the keystore that contains the certificates to trust. It must be either a Java keystore (jks) or a PKCS#12 file.

You cannot use this setting and ssl.certificate_authorities at the same time.

ssl.truststore.type
The format of the truststore file. It must be either jks or PKCS12. If the file name ends in ".p12", ".pfx" or "pkcs12", the default is PKCS12. Otherwise, it defaults to jks.
ssl.truststore.password

The password for the truststore.

You cannot use this setting and ssl.truststore.secure_password at the same time.

ssl.truststore.secure_password (Secure)

Password for the truststore.

This setting cannot be used with ssl.truststore.password.

ssl.verification_mode

Controls the verification of certificates. Valid values are:

  • full, which verifies that the provided certificate is signed by a trusted authority (CA) and also verifies that the server’s hostname (or IP address) matches the names identified within the certificate.
  • certificate, which verifies that the provided certificate is signed by a trusted authority (CA), but does not perform any hostname verification.
  • none, which performs no verification of the server’s certificate. This mode disables many of the security benefits of SSL/TLS and should only be used after very careful consideration. It is primarily intended as a temporary diagnostic mechanism when attempting to resolve TLS errors; its use on production clusters is strongly discouraged.

    The default value is full.

ssl.supported_protocols

Supported protocols with versions. Valid protocols: SSLv2Hello, SSLv3, TLSv1, TLSv1.1, TLSv1.2, TLSv1.3. If the JVM’s SSL provider supports TLSv1.3, the default is TLSv1.3,TLSv1.2,TLSv1.1. Otherwise, the default is TLSv1.2,TLSv1.1.

If xpack.security.fips_mode.enabled is true, you cannot use SSLv2Hello or SSLv3. See FIPS 140-2.

ssl.cipher_suites

Supported cipher suites vary depending on which version of Java you use. For example, for version 11 the default value is TLS_AES_256_GCM_SHA384, TLS_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, TLS_RSA_WITH_AES_256_GCM_SHA384, TLS_RSA_WITH_AES_128_GCM_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA256, TLS_RSA_WITH_AES_128_CBC_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA, TLS_RSA_WITH_AES_128_CBC_SHA.

The default cipher suites list above includes TLSv1.3 ciphers and ciphers that require the Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files for 256-bit AES encryption. If TLSv1.3 is not available, the TLSv1.3 ciphers TLS_AES_256_GCM_SHA384 and TLS_AES_128_GCM_SHA256 are not included in the default list. If 256-bit AES is unavailable, ciphers with AES_256 in their names are not included in the default list. Finally, AES GCM has known performance issues in Java versions prior to 11 and is included in the default list only when using Java 11 or above.

For more information, see Oracle’s Java Cryptography Architecture documentation.

Kerberos realm settingsedit

For a Kerberos realm, the type must be set to kerberos. In addition to the settings that are valid for all realms, you can specify the following settings:

keytab.path
Specifies the path to the Kerberos keytab file that contains the service principal used by this Elasticsearch node. This must be a location within the Elasticsearch configuration directory and the file must have read permissions. Required.
remove_realm_name
Set to true to remove the realm part of principal names. Principal names in Kerberos have the form user/instance@REALM. If this option is true, the realm part (@REALM) will not be included in the username. Defaults to false.
krb.debug
Set to true to enable debug logs for the Java login module that provides support for Kerberos authentication. Defaults to false.
cache.ttl
The time-to-live for cached user entries. A user is cached for this period of time. Specify the time period using the standard Elasticsearch time units. Defaults to 20m.
cache.max_users
The maximum number of user entries that can live in the cache at any given time. Defaults to 100,000.
authorization_realms
The names of the realms that should be consulted for delegated authorization. If this setting is used, then the Kerberos realm does not perform role mapping and instead loads the user from the listed realms. See Delegating authorization to another realm.
OpenID Connect realm settingsedit

In addition to the settings that are valid for all realms, you can specify the following settings:

op.issuer
A verifiable Identifier for your OpenID Connect Provider. An Issuer Identifier is usually a case sensitive URL using the https scheme that contains scheme, host, and optionally, port number and path components and no query or fragment components. The value for this setting should be provided by your OpenID Connect Provider.
op.authorization_endpoint
The URL for the Authorization Endpoint at the OpenID Connect Provider. The value for this setting should be provided by your OpenID Connect Provider.
op.token_endpoint
The URL for the Token Endpoint at the OpenID Connect Provider. The value for this setting should be provided by your OpenID Connect Provider.
op.userinfo_endpoint
The URL for the User Info Endpoint at the OpenID Connect Provider. The value for this setting should be provided by your OpenID Connect Provider.
op.endsession_endpoint
The URL for the End Session Endpoint at the OpenID Connect Provider. The value for this setting should be provided by your OpenID Connect Provider.
op.jwkset_path
The path or URL to a JSON Web Key Set with the key material that the OpenID Connect Provider uses for signing tokens and claims responses. If a path is provided, then it is resolved relative to the Elasticsearch config directory. If a URL is provided, then it must be either a file URL or a https URL. Elasticsearch automatically caches the retrieved JWK set to avoid unnecessary HTTP requests but will attempt to refresh the JWK upon signature verification failure, as this might indicate that the OpenID Connect Provider has rotated the signing keys.

File based resources are polled at a frequency determined by the global Elasticsearch resource.reload.interval.high setting, which defaults to 5 seconds.

rp.client_id
The OAuth 2.0 Client Identifier that was assigned to Elasticsearch during registration at the OpenID Connect Provider
rp.client_secret(Secure)
The OAuth 2.0 Client Secret that was assigned to Elasticsearch during registration at the OpenID Connect Provider
rp.redirect_uri
The Redirect URI within Kibana. If you want to use the authorization code flow, this is the "api/security/oidc/callback" endpoint of your Kibana server. If you want to use the implicit flow, it is the "api/security/oidc/implicit" endpoint. For example, https://kibana.example.com/api/security/oidc/callback.
rp.response_type
OAuth 2.0 Response Type value that determines the authorization processing flow to be used. Can be code for authorization code grant flow, or one of id_token, id_token token for the implicit flow.
rp.signature_algorithm
The signature algorithm that will be used by Elasticsearch in order to verify the signature of the id tokens it will receive from the OpenID Connect Provider. Defaults to RSA256
rp.requested_scopes
The scope values that will be requested by the OpenID Connect Provider as part of the Authentication Request. Optional, defaults to openid
rp.post_logout_redirect_uri
The Redirect URI (usually within Kibana) that the OpenID Connect Provider should redirect the browser to after a successful Single Logout.
claims.principal
The name of the OpenID Connect claim that contains the user’s principal (username).
claims.groups
The name of the OpenID Connect claim that contains the user’s groups.
claims.name
The name of the OpenID Connect claim that contains the user’s full name.
claims.mail
The name of the OpenID Connect claim that contains the user’s email address.
claims.dn
The name of the OpenID Connect claim that contains the user’s X.509 Distinguished Name.
claim_patterns.principal
A Java regular expression that is matched against the OpenID Connect claim specified by claims.principal before it is applied to the user’s principal property. The attribute value must match the pattern and the value of the first capturing group is used as the principal. For example, ^([^@]+)@example\\.com$ matches email addresses from the "example.com" domain and uses the local-part as the principal.
claim_patterns.groups
As per claim_patterns.principal, but for the group property.
claim_patterns.name
As per claim_patterns.principal, but for the name property.
claim_patterns.mail
As per claim_patterns.principal, but for the mail property.
claim_patterns.dn
As per claim_patterns.principal, but for the dn property.
allowed_clock_skew
The maximum allowed clock skew to be taken into consideration when validating id tokens with regards to their creation and expiration times.
populate_user_metadata
Specifies whether to populate the Elasticsearch user’s metadata with the values that are provided by the OpenID Connect claims. Defaults to true.
http.connect_timeout
Controls the behavior of the http client used for back-channel communication to the OpenID Connect Provider endpoints. Specifies the timeout until a connection is established. A value of zero means the timeout is not used. Defaults to 5s
http.connection_read_timeout
Controls the behavior of the http client used for back-channel communication to the OpenID Connect Provider endpoints. Specifies the timeout used when requesting a connection from the connection manager. Defaults to 5s
http.socket_timeout
Controls the behavior of the http client used for back-channel communication to the OpenID Connect Provider endpoints. Specifies the socket timeout (SO_TIMEOUT) in milliseconds, which is the timeout for waiting for data or, put differently, a maximum period inactivity between two consecutive data packets). Defaults to 5s
http.max_connections
Controls the behavior of the http client used for back-channel communication to the OpenID Connect Provider endpoints. Specifies the maximum number of connections allowed across all endpoints.
http.max_endpoint_connections
Controls the behavior of the http client used for back-channel communication to the OpenID Connect Provider endpoints. Specifies the maximum number of connections allowed per endpoint.
OpenID Connect realm SSL settingsedit

The following settings can be used to configure SSL for all outgoing http connections to the OpenID Connect Provider endpoints.

These settings are only used for the back-channel communication between Elasticsearch and the OpenID Connect Provider

ssl.key

Path to a PEM encoded file containing the private key.

If HTTP client authentication is required, it uses this file. You cannot use this setting and ssl.keystore.path at the same time.

ssl.key_passphrase

The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.

You cannot use this setting and ssl.secure_key_passphrase at the same time.

ssl.secure_key_passphrase (Secure)

The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.

You cannot use this setting and ssl.key_passphrase at the same time.

ssl.certificate

Specifies the path for the PEM encoded certificate (or certificate chain) that is associated with the key.

This setting can be used only if ssl.key is set.

ssl.certificate_authorities

List of paths to PEM encoded certificate files that should be trusted.

This setting and ssl.truststore.path cannot be used at the same time.

ssl.keystore.path

The path for the keystore file that contains a private key and certificate.

It must be either a Java keystore (jks) or a PKCS#12 file. You cannot use this setting and ssl.key at the same time.

ssl.keystore.type
The format of the keystore file. It must be either jks or PKCS12. If the keystore path ends in ".p12", ".pfx", or ".pkcs12", this setting defaults to PKCS12. Otherwise, it defaults to jks.
ssl.keystore.password

The password for the keystore.

You cannot use this setting and ssl.keystore.secure_password at the same time.

ssl.keystore.secure_password (Secure)

The password for the keystore.

You cannot use this setting and ssl.keystore.password at the same time.

ssl.keystore.key_password

The password for the key in the keystore. The default is the keystore password.

You cannot use this setting and ssl.keystore.secure_key_password at the same time.

ssl.keystore.secure_key_password (Secure)

The password for the key in the keystore. The default is the keystore password.

You cannot use this setting and ssl.keystore.key_password at the same time.

ssl.truststore.path

The path for the keystore that contains the certificates to trust. It must be either a Java keystore (jks) or a PKCS#12 file.

You cannot use this setting and ssl.certificate_authorities at the same time.

ssl.truststore.type
The format of the truststore file. It must be either jks or PKCS12. If the file name ends in ".p12", ".pfx" or "pkcs12", the default is PKCS12. Otherwise, it defaults to jks.
ssl.truststore.password

The password for the truststore.

You cannot use this setting and ssl.truststore.secure_password at the same time.

ssl.truststore.secure_password (Secure)

Password for the truststore.

You cannot use this setting and ssl.truststore.password at the same time.

ssl.verification_mode

Controls the verification of certificates. Valid values are:

  • full, which verifies that the provided certificate is signed by a trusted authority (CA) and also verifies that the server’s hostname (or IP address) matches the names identified within the certificate.
  • certificate, which verifies that the provided certificate is signed by a trusted authority (CA), but does not perform any hostname verification.
  • none, which performs no verification of the server’s certificate. This mode disables many of the security benefits of SSL/TLS and should only be used after very careful consideration. It is primarily intended as a temporary diagnostic mechanism when attempting to resolve TLS errors; its use on production clusters is strongly discouraged.

    The default value is full.

ssl.supported_protocols

Supported protocols with versions. Valid protocols: SSLv2Hello, SSLv3, TLSv1, TLSv1.1, TLSv1.2, TLSv1.3. If the JVM’s SSL provider supports TLSv1.3, the default is TLSv1.3,TLSv1.2,TLSv1.1. Otherwise, the default is TLSv1.2,TLSv1.1.

If xpack.security.fips_mode.enabled is true, you cannot use SSLv2Hello or SSLv3. See FIPS 140-2.

ssl.cipher_suites

Supported cipher suites vary depending on which version of Java you use. For example, for version 11 the default value is TLS_AES_256_GCM_SHA384, TLS_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, TLS_RSA_WITH_AES_256_GCM_SHA384, TLS_RSA_WITH_AES_128_GCM_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA256, TLS_RSA_WITH_AES_128_CBC_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA, TLS_RSA_WITH_AES_128_CBC_SHA.

The default cipher suites list above includes TLSv1.3 ciphers and ciphers that require the Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files for 256-bit AES encryption. If TLSv1.3 is not available, the TLSv1.3 ciphers TLS_AES_256_GCM_SHA384 and TLS_AES_128_GCM_SHA256 are not included in the default list. If 256-bit AES is unavailable, ciphers with AES_256 in their names are not included in the default list. Finally, AES GCM has known performance issues in Java versions prior to 11 and is included in the default list only when using Java 11 or above.

For more information, see Oracle’s Java Cryptography Architecture documentation.

Load balancing and failoveredit

The load_balance.type setting can have the following values:

  • failover: The URLs specified are used in the order that they are specified. The first server that can be connected to will be used for all subsequent connections. If a connection to that server fails then the next server that a connection can be established to will be used for subsequent connections.
  • dns_failover: In this mode of operation, only a single URL may be specified. This URL must contain a DNS name. The system will be queried for all IP addresses that correspond to this DNS name. Connections to the Active Directory or LDAP server will always be tried in the order in which they were retrieved. This differs from failover in that there is no reordering of the list and if a server has failed at the beginning of the list, it will still be tried for each subsequent connection.
  • round_robin: Connections will continuously iterate through the list of provided URLs. If a server is unavailable, iterating through the list of URLs will continue until a successful connection is made.
  • dns_round_robin: In this mode of operation, only a single URL may be specified. This URL must contain a DNS name. The system will be queried for all IP addresses that correspond to this DNS name. Connections will continuously iterate through the list of addresses. If a server is unavailable, iterating through the list of URLs will continue until a successful connection is made.

General TLS settingsedit

xpack.security.ssl.diagnose.trust
Controls whether to output diagnostic messages for SSL/TLS trust failures. If this is true (the default), a message will be printed to the Elasticsearch log whenever an SSL connection (incoming or outgoing) is rejected due to a failure to establish trust. This diagnostic message contains information that can be used to determine the cause of the failure and assist with resolving the problem. Set to false to disable these messages. NOTE: This defaults to false when xpack.security.fips_mode.enabled is true.
TLS/SSL key and trusted certificate settingsedit

The following settings are used to specify a private key, certificate, and the trusted certificates that should be used when communicating over an SSL/TLS connection. If no trusted certificates are configured, the default certificates that are trusted by the JVM will be trusted along with the certificate(s) associated with a key in the same context. The key and certificate must be in place for connections that require client authentication or when acting as a SSL enabled server.

Storing trusted certificates in a PKCS#12 file, although supported, is uncommon in practice. The elasticsearch-certutil tool, as well as Java’s keytool, are designed to generate PKCS#12 files that can be used both as a keystore and as a truststore, but this may not be the case for container files that are created using other tools. Usually, PKCS#12 files only contain secret and private entries. To confirm that a PKCS#12 container includes trusted certificate ("anchor") entries look for 2.16.840.1.113894.746875.1.1: <Unsupported tag 6> in the openssl pkcs12 -info output, or trustedCertEntry in the keytool -list output.

HTTP TLS/SSL settingsedit

You can configure the following TLS/SSL settings.

xpack.security.http.ssl.enabled
Used to enable or disable TLS/SSL. The default is false.
xpack.security.http.ssl.supported_protocols

Supported protocols with versions. Valid protocols: SSLv2Hello, SSLv3, TLSv1, TLSv1.1, TLSv1.2, TLSv1.3. If the JVM’s SSL provider supports TLSv1.3, the default is TLSv1.3,TLSv1.2,TLSv1.1. Otherwise, the default is TLSv1.2,TLSv1.1.

If xpack.security.fips_mode.enabled is true, you cannot use SSLv2Hello or SSLv3. See FIPS 140-2.

xpack.security.http.ssl.client_authentication
Controls the server’s behavior in regard to requesting a certificate from client connections. Valid values are required, optional, and none. required forces a client to present a certificate, while optional requests a client certificate but the client is not required to present one. Defaults to none.
xpack.security.http.ssl.cipher_suites

Supported cipher suites vary depending on which version of Java you use. For example, for version 11 the default value is TLS_AES_256_GCM_SHA384, TLS_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, TLS_RSA_WITH_AES_256_GCM_SHA384, TLS_RSA_WITH_AES_128_GCM_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA256, TLS_RSA_WITH_AES_128_CBC_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA, TLS_RSA_WITH_AES_128_CBC_SHA.

The default cipher suites list above includes TLSv1.3 ciphers and ciphers that require the Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files for 256-bit AES encryption. If TLSv1.3 is not available, the TLSv1.3 ciphers TLS_AES_256_GCM_SHA384 and TLS_AES_128_GCM_SHA256 are not included in the default list. If 256-bit AES is unavailable, ciphers with AES_256 in their names are not included in the default list. Finally, AES GCM has known performance issues in Java versions prior to 11 and is included in the default list only when using Java 11 or above.

For more information, see Oracle’s Java Cryptography Architecture documentation.

HTTP TLS/SSL key and trusted certificate settingsedit

The following settings are used to specify a private key, certificate, and the trusted certificates that should be used when communicating over an SSL/TLS connection. A private key and certificate must be configured.

PEM encoded filesedit

When using PEM encoded files, use the following settings:

xpack.security.http.ssl.key
Path to a PEM encoded file containing the private key.
xpack.security.http.ssl.key_passphrase
The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.
xpack.security.http.ssl.secure_key_passphrase (Secure)
The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.
xpack.security.http.ssl.certificate
Specifies the path for the PEM encoded certificate (or certificate chain) that is associated with the key.
xpack.security.http.ssl.certificate_authorities
List of paths to PEM encoded certificate files that should be trusted.

Java keystore filesedit

When using Java keystore files (JKS), which contain the private key, certificate and certificates that should be trusted, use the following settings:

xpack.security.http.ssl.keystore.path
The path for the keystore file that contains a private key and certificate.
xpack.security.http.ssl.keystore.password
The password for the keystore.
xpack.security.http.ssl.keystore.secure_password (Secure)
The password for the keystore.
xpack.security.http.ssl.keystore.key_password
The password for the key in the keystore. The default is the keystore password.
xpack.security.http.ssl.keystore.secure_key_password (Secure)
The password for the key in the keystore. The default is the keystore password.
xpack.security.http.ssl.truststore.path
The path for the keystore that contains the certificates to trust. It must be either a Java keystore (jks) or a PKCS#12 file.
xpack.security.http.ssl.truststore.password
The password for the truststore.
xpack.security.http.ssl.truststore.secure_password (Secure)
Password for the truststore.

PKCS#12 filesedit

Elasticsearch can be configured to use PKCS#12 container files (.p12 or .pfx files) that contain the private key, certificate and certificates that should be trusted.

PKCS#12 files are configured in the same way as Java keystore files:

xpack.security.http.ssl.keystore.path
The path for the keystore file that contains a private key and certificate.
xpack.security.http.ssl.keystore.type
The format of the keystore file. It must be either jks or PKCS12. If the keystore path ends in ".p12", ".pfx", or ".pkcs12", this setting defaults to PKCS12. Otherwise, it defaults to jks.
xpack.security.http.ssl.keystore.password
The password for the keystore.
xpack.security.http.ssl.keystore.secure_password (Secure)
The password for the keystore.
xpack.security.http.ssl.keystore.key_password
The password for the key in the keystore. The default is the keystore password.
xpack.security.http.ssl.keystore.secure_key_password (Secure)
The password for the key in the keystore. The default is the keystore password.
xpack.security.http.ssl.truststore.path
The path for the keystore that contains the certificates to trust. It must be either a Java keystore (jks) or a PKCS#12 file.
xpack.security.http.ssl.truststore.type
Set this to PKCS12 to indicate that the truststore is a PKCS#12 file.
xpack.security.http.ssl.truststore.password
The password for the truststore.
xpack.security.http.ssl.truststore.secure_password (Secure)
Password for the truststore.

PKCS#11 tokensedit

Elasticsearch can be configured to use a PKCS#11 token that contains the private key, certificate and certificates that should be trusted.

PKCS#11 token require additional configuration on the JVM level and can be enabled via the following settings:

xpack.security.http.keystore.type
Set this to PKCS11 to indicate that the PKCS#11 token should be used as a keystore.
xpack.security.http.truststore.type
The format of the truststore file. For the Java keystore format, use jks. For PKCS#12 files, use PKCS12. For a PKCS#11 token, use PKCS11. The default is jks.

When configuring the PKCS#11 token that your JVM is configured to use as a keystore or a truststore for Elasticsearch, the PIN for the token can be configured by setting the appropriate value to ssl.truststore.password or ssl.truststore.secure_password in the context that you are configuring. Since there can only be one PKCS#11 token configured, only one keystore and truststore will be usable for configuration in Elasticsearch. This in turn means that only one certificate can be used for TLS both in the transport and the http layer.

Transport TLS/SSL settingsedit

You can configure the following TLS/SSL settings.

xpack.security.transport.ssl.enabled
Used to enable or disable TLS/SSL. The default is false.
xpack.security.transport.ssl.supported_protocols

Supported protocols with versions. Valid protocols: SSLv2Hello, SSLv3, TLSv1, TLSv1.1, TLSv1.2, TLSv1.3. If the JVM’s SSL provider supports TLSv1.3, the default is TLSv1.3,TLSv1.2,TLSv1.1. Otherwise, the default is TLSv1.2,TLSv1.1.

If xpack.security.fips_mode.enabled is true, you cannot use SSLv2Hello or SSLv3. See FIPS 140-2.

xpack.security.transport.ssl.client_authentication
Controls the server’s behavior in regard to requesting a certificate from client connections. Valid values are required, optional, and none. required forces a client to present a certificate, while optional requests a client certificate but the client is not required to present one. Defaults to none.
xpack.security.transport.ssl.verification_mode

Controls the verification of certificates. Valid values are:

  • full, which verifies that the provided certificate is signed by a trusted authority (CA) and also verifies that the server’s hostname (or IP address) matches the names identified within the certificate.
  • certificate, which verifies that the provided certificate is signed by a trusted authority (CA), but does not perform any hostname verification.
  • none, which performs no verification of the server’s certificate. This mode disables many of the security benefits of SSL/TLS and should only be used after very careful consideration. It is primarily intended as a temporary diagnostic mechanism when attempting to resolve TLS errors; its use on production clusters is strongly discouraged.

    The default value is full.

xpack.security.transport.ssl.cipher_suites

Supported cipher suites vary depending on which version of Java you use. For example, for version 11 the default value is TLS_AES_256_GCM_SHA384, TLS_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_RSA_WITH_AES_256_GCM_SHA384, TLS_ECDHE_RSA_WITH_AES_128_GCM_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256, TLS_ECDHE_ECDSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA, TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA, TLS_RSA_WITH_AES_256_GCM_SHA384, TLS_RSA_WITH_AES_128_GCM_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA256, TLS_RSA_WITH_AES_128_CBC_SHA256, TLS_RSA_WITH_AES_256_CBC_SHA, TLS_RSA_WITH_AES_128_CBC_SHA.

The default cipher suites list above includes TLSv1.3 ciphers and ciphers that require the Java Cryptography Extension (JCE) Unlimited Strength Jurisdiction Policy Files for 256-bit AES encryption. If TLSv1.3 is not available, the TLSv1.3 ciphers TLS_AES_256_GCM_SHA384 and TLS_AES_128_GCM_SHA256 are not included in the default list. If 256-bit AES is unavailable, ciphers with AES_256 in their names are not included in the default list. Finally, AES GCM has known performance issues in Java versions prior to 11 and is included in the default list only when using Java 11 or above.

For more information, see Oracle’s Java Cryptography Architecture documentation.

Transport TLS/SSL key and trusted certificate settingsedit

The following settings are used to specify a private key, certificate, and the trusted certificates that should be used when communicating over an SSL/TLS connection. A private key and certificate must be configured.

PEM encoded filesedit

When using PEM encoded files, use the following settings:

xpack.security.transport.ssl.key
Path to a PEM encoded file containing the private key.
xpack.security.transport.ssl.key_passphrase
The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.
xpack.security.transport.ssl.secure_key_passphrase (Secure)
The passphrase that is used to decrypt the private key. Since the key might not be encrypted, this value is optional.
xpack.security.transport.ssl.certificate
Specifies the path for the PEM encoded certificate (or certificate chain) that is associated with the key.
xpack.security.transport.ssl.certificate_authorities
List of paths to PEM encoded certificate files that should be trusted.

Java keystore filesedit

When using Java keystore files (JKS), which contain the private key, certificate and certificates that should be trusted, use the following settings:

xpack.security.transport.ssl.keystore.path
The path for the keystore file that contains a private key and certificate.
xpack.security.transport.ssl.keystore.password
The password for the keystore.
xpack.security.transport.ssl.keystore.secure_password (Secure)
The password for the keystore.
xpack.security.transport.ssl.keystore.key_password
The password for the key in the keystore. The default is the keystore password.
xpack.security.transport.ssl.keystore.secure_key_password (Secure)
The password for the key in the keystore. The default is the keystore password.
xpack.security.transport.ssl.truststore.path
The path for the keystore that contains the certificates to trust. It must be either a Java keystore (jks) or a PKCS#12 file.
xpack.security.transport.ssl.truststore.password
The password for the truststore.
xpack.security.transport.ssl.truststore.secure_password (Secure)
Password for the truststore.

PKCS#12 filesedit

Elasticsearch can be configured to use PKCS#12 container files (.p12 or .pfx files) that contain the private key, certificate and certificates that should be trusted.

PKCS#12 files are configured in the same way as Java keystore files:

xpack.security.transport.ssl.keystore.path
The path for the keystore file that contains a private key and certificate.
xpack.security.transport.ssl.keystore.type
The format of the keystore file. It must be either jks or PKCS12. If the keystore path ends in ".p12", ".pfx", or ".pkcs12", this setting defaults to PKCS12. Otherwise, it defaults to jks.
xpack.security.transport.ssl.keystore.password
The password for the keystore.
xpack.security.transport.ssl.keystore.secure_password (Secure)
The password for the keystore.
xpack.security.transport.ssl.keystore.key_password
The password for the key in the keystore. The default is the keystore password.
xpack.security.transport.ssl.keystore.secure_key_password (Secure)
The password for the key in the keystore. The default is the keystore password.
xpack.security.transport.ssl.truststore.path
The path for the keystore that contains the certificates to trust. It must be either a Java keystore (jks) or a PKCS#12 file.
xpack.security.transport.ssl.truststore.type
Set this to PKCS12 to indicate that the truststore is a PKCS#12 file.
xpack.security.transport.ssl.truststore.password
The password for the truststore.
xpack.security.transport.ssl.truststore.secure_password (Secure)
Password for the truststore.

PKCS#11 tokensedit

Elasticsearch can be configured to use a PKCS#11 token that contains the private key, certificate and certificates that should be trusted.

PKCS#11 token require additional configuration on the JVM level and can be enabled via the following settings:

xpack.security.transport.keystore.type
Set this to PKCS11 to indicate that the PKCS#11 token should be used as a keystore.
xpack.security.transport.truststore.type
The format of the truststore file. For the Java keystore format, use jks. For PKCS#12 files, use PKCS12. For a PKCS#11 token, use PKCS11. The default is jks.

When configuring the PKCS#11 token that your JVM is configured to use as a keystore or a truststore for Elasticsearch, the PIN for the token can be configured by setting the appropriate value to ssl.truststore.password or ssl.truststore.secure_password in the context that you are configuring. Since there can only be one PKCS#11 token configured, only one keystore and truststore will be usable for configuration in Elasticsearch. This in turn means that only one certificate can be used for TLS both in the transport and the http layer.

Transport profile TLS/SSL settingsedit

The same settings that are available for the default transport are also available for each transport profile. By default, the settings for a transport profile will be the same as the default transport unless they are specified.

As an example, lets look at the key setting. For the default transport this is xpack.security.transport.ssl.key. In order to use this setting in a transport profile, use the prefix transport.profiles.$PROFILE.xpack.security. and append the portion of the setting after xpack.security.transport.. For the key setting, this would be transport.profiles.$PROFILE.xpack.security.ssl.key.

IP filtering settingsedit

You can configure the following settings for IP filtering.

xpack.security.transport.filter.allow
List of IP addresses to allow.
xpack.security.transport.filter.deny
List of IP addresses to deny.
xpack.security.http.filter.allow
List of IP addresses to allow just for HTTP.
xpack.security.http.filter.deny
List of IP addresses to deny just for HTTP.
transport.profiles.$PROFILE.xpack.security.filter.allow
List of IP addresses to allow for this profile.
transport.profiles.$PROFILE.xpack.security.filter.deny
List of IP addresses to deny for this profile.

User cache and password hash algorithmsedit

Certain realms store user credentials in memory. To limit exposure to credential theft and mitigate credential compromise, the cache only stores a hashed version of the user credentials in memory. By default, the user cache is hashed with a salted sha-256 hash algorithm. You can use a different hashing algorithm by setting the cache.hash_algo realm settings to any of the following values:

Table 1. Cache hash algorithms

Algorithm

Description

ssha256

Uses a salted sha-256 algorithm (default).

md5

Uses MD5 algorithm.

sha1

Uses SHA1 algorithm.

bcrypt

Uses bcrypt algorithm with salt generated in 1024 rounds.

bcrypt4

Uses bcrypt algorithm with salt generated in 16 rounds.

bcrypt5

Uses bcrypt algorithm with salt generated in 32 rounds.

bcrypt6

Uses bcrypt algorithm with salt generated in 64 rounds.

bcrypt7

Uses bcrypt algorithm with salt generated in 128 rounds.

bcrypt8

Uses bcrypt algorithm with salt generated in 256 rounds.

bcrypt9

Uses bcrypt algorithm with salt generated in 512 rounds.

pbkdf2

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 10000 iterations.

pbkdf2_1000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 1000 iterations.

pbkdf2_10000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 10000 iterations.

pbkdf2_50000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 50000 iterations.

pbkdf2_100000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 100000 iterations.

pbkdf2_500000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 500000 iterations.

pbkdf2_1000000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 1000000 iterations.

noop,clear_text

Doesn’t hash the credentials and keeps it in clear text in memory. CAUTION: keeping clear text is considered insecure and can be compromised at the OS level (for example through memory dumps and using ptrace).

Likewise, realms that store passwords hash them using cryptographically strong and password-specific salt values. You can configure the algorithm for password hashing by setting the xpack.security.authc.password_hashing.algorithm setting to one of the following:

Table 2. Password hashing algorithms

Algorithm Description

bcrypt

Uses bcrypt algorithm with salt generated in 1024 rounds. (default)

bcrypt4

Uses bcrypt algorithm with salt generated in 16 rounds.

bcrypt5

Uses bcrypt algorithm with salt generated in 32 rounds.

bcrypt6

Uses bcrypt algorithm with salt generated in 64 rounds.

bcrypt7

Uses bcrypt algorithm with salt generated in 128 rounds.

bcrypt8

Uses bcrypt algorithm with salt generated in 256 rounds.

bcrypt9

Uses bcrypt algorithm with salt generated in 512 rounds.

bcrypt10

Uses bcrypt algorithm with salt generated in 1024 rounds.

bcrypt11

Uses bcrypt algorithm with salt generated in 2048 rounds.

bcrypt12

Uses bcrypt algorithm with salt generated in 4096 rounds.

bcrypt13

Uses bcrypt algorithm with salt generated in 8192 rounds.

bcrypt14

Uses bcrypt algorithm with salt generated in 16384 rounds.

pbkdf2

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 10000 iterations.

pbkdf2_1000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 1000 iterations.

pbkdf2_10000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 10000 iterations.

pbkdf2_50000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 50000 iterations.

pbkdf2_100000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 100000 iterations.

pbkdf2_500000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 500000 iterations.

pbkdf2_1000000

Uses PBKDF2 key derivation function with HMAC-SHA512 as a pseudorandom function using 1000000 iterations.