--- layout: "docs" page_title: "Cassandra - Secrets Engines" sidebar_current: "docs-secrets-cassandra" description: |- The Cassandra secrets engine for Vault generates database credentials to access Cassandra. --- # Cassandra Secrets Engine ~> **Deprecation Note:** This secrets engine is deprecated in favor of the combined databases secrets engine added in v0.7.1. See the documentation for the new implementation of this secrets engine at [Cassandra database plugin](/docs/secrets/databases/cassandra.html). The Cassandra secrets engine for Vault generates database credentials dynamically based on configured roles. This means that services that need to access a database no longer need to hardcode credentials: they can request them from Vault, and use Vault's leasing mechanism to more easily roll keys. Additionally, it introduces a new ability: with every service accessing the database with unique credentials, it makes auditing much easier when questionable data access is discovered: you can track it down to the specific instance of a service based on the Cassandra username. This page will show a quick start for this secrets engine. For detailed documentation on every path, use `vault path-help` after mounting the secrets engine. ## Quick Start The first step to using the Cassandra secrets engine is to mount it. Unlike the `kv` secrets engine, the `cassandra` secrets engine is not mounted by default. ```text $ vault secrets enable cassandra Success! Enabled the cassandra secrets engine at: cassandra/ ``` Next, Vault must be configured to connect to Cassandra. This is done by writing one or more hosts, a username, and a password: ```text $ vault write cassandra/config/connection \ hosts=localhost \ username=cassandra \ password=cassandra ``` In this case, we've configured Vault with the user "cassandra" and password "cassandra", It is important that the Vault user is a superuser, in order to manage other user accounts. The next step is to configure a role. A role is a logical name that maps to a policy used to generated those credentials. For example, lets create a "readonly" role: ```text $ vault write cassandra/roles/readonly \ creation_cql="CREATE USER '{{username}}' WITH PASSWORD '{{password}}' NOSUPERUSER; \ GRANT SELECT ON ALL KEYSPACES TO {{username}};" Success! Data written to: cassandra/roles/readonly ``` By writing to the `roles/readonly` path we are defining the `readonly` role. This role will be created by evaluating the given `creation_cql` statements. By default, the `{{username}}` and `{{password}}` fields will be populated by Vault with dynamically generated values. This CQL statement is creating the named user, and then granting it `SELECT` or read-only privileges to keyspaces. More complex `GRANT` queries can be used to customize the privileges of the role. See the [CQL Reference Manual](https://docs.datastax.com/en/cql/3.1/cql/cql_reference/grant_r.html) for more information. To generate a new set of credentials, we simply read from that role: Vault is now configured to create and manage credentials for Cassandra! ```text $ vault read cassandra/creds/readonly Key Value --- ----- lease_id cassandra/creds/test/7a23e890-3a26-531d-529b-92d18d1fa63f lease_duration 3600 lease_renewable true password dfa80eea-ccbe-b228-ebf7-e2f62b245e71 username vault-root-1434647667-9313 ``` By reading from the `creds/readonly` path, Vault has generated a new set of credentials using the `readonly` role configuration. Here we see the dynamically generated username and password, along with a one hour lease. Using ACLs, it is possible to restrict using the `cassandra` secrets engine such that trusted operators can manage the role definitions, and both users and applications are restricted in the credentials they are allowed to read. If you get stuck at any time, simply run `vault path-help cassandra` or with a subpath for interactive help output. ## API The Cassandra secrets engine has a full HTTP API. Please see the [Cassandra secrets engine API](/api/secret/cassandra/index.html) for more details.