[[xpack-security]] = Securing Elasticsearch and Kibana [partintro] -- {security} enables you to easily secure a cluster. With Security, you can password-protect your data as well as implement more advanced security measures such as encrypting communications, role-based access control, IP filtering, and auditing. This guide describes how to configure the security features you need, and interact with your secured cluster. Security protects Elasticsearch clusters by: * <> with password protection, role-based access control, and IP filtering. * <> with message authentication and SSL/TLS encryption. * <> so you know who's doing what to your cluster and the data it stores. [float] [[preventing-unauthorized-access]] === Preventing Unauthorized Access To prevent unauthorized access to your Elasticsearch cluster, you must have a way to _authenticate_ users. This simply means that you need a way to validate that a user is who they claim to be. For example, you have to make sure only the person named _Kelsey Andorra_ can sign in as the user `kandorra`. X-Pack Security provides a standalone authentication mechanism that enables you to quickly password-protect your cluster. If you're already using <>, <>, or <> to manage users in your organization, {security} is able to integrate with those systems to perform user authentication. In many cases, simply authenticating users isn't enough. You also need a way to control what data users have access to and what tasks they can perform. {security} enables you to _authorize_ users by assigning access _privileges_ to _roles_, and assigning those roles to users. For example, this <> mechanism (a.k.a RBAC) enables you to specify that the user `kandorra` can only perform read operations on the `events` index and can't do anything at all with other indices. {security} also supports <>. You can whitelist and blacklist specific IP addresses or subnets to control network-level access to a server. [float] [[preserving-data-integrity]] === Preserving Data Integrity A critical part of security is keeping confidential data confidential. Elasticsearch has built-in protections against accidental data loss and corruption. However, there's nothing to stop deliberate tampering or data interception. {security} preserves the integrity of your data by <> to and from nodes. For even greater protection, you can increase the <> and <>. [float] [[maintaining-audit-trail]] === Maintaining an Audit Trail Keeping a system secure takes vigilance. By using {security} to maintain an audit trail, you can easily see who is accessing your cluster and what they're doing. By analyzing access patterns and failed attempts to access your cluster, you can gain insights into attempted attacks and data breaches. Keeping an auditable log of the activity in your cluster can also help diagnose operational issues. [float] === Where to Go Next * <> steps through how to install and start using Security for basic authentication. * <> provides more information about how Security supports user authentication, authorization, and encryption. * <> shows you how to interact with an Elasticsearch cluster protected by X-Pack Security. * <> provides detailed information about the access privileges you can grant to users, the settings you can configure for Security in `elasticsearch.yml`, and the files where Security configuration information is stored. [float] === Have Comments, Questions, or Feedback? Head over to our {security-forum}[Security Discussion Forum] to share your experience, questions, and suggestions. -- include::getting-started.asciidoc[] include::how-security-works.asciidoc[] include::authentication.asciidoc[] include::authorization.asciidoc[] include::auditing.asciidoc[] include::securing-communications.asciidoc[] include::using-ip-filtering.asciidoc[] include::tribe-clients-integrations.asciidoc[] include::reference.asciidoc[]