--- layout: intro page_title: Secrets Engines - Getting Started sidebar_title: Secrets Engines description: 'secrets engines are what create, read, update, and delete secrets.' --- # Secrets Engines Previously, we saw how to read and write arbitrary secrets to Vault. You may have noticed all requests started with `secret/`. Try using a different prefix - Vault will return an error: ```shell-session $ vault write foo/bar a=b # ... * no handler for route 'foo/bar' ``` The path prefix tells Vault which secrets engine it should route traffic to. When a request comes to Vault, it matches the initial path part using a longest prefix match and then passes the request to the corresponding secrets engine enabled at that path. By default, Vault enables a secrets engine called `kv` at the path `secret/`. The kv secrets engine reads and writes raw data to the backend storage. Vault supports many other secrets engines besides `kv`, and this feature makes Vault flexible and unique. For example, the `aws` secrets engine generates AWS IAM access keys on demand. The `database` secrets engine generates on-demand, time-limited database credentials. These are just a few examples of the many available secrets engines. For simplicity and familiarity, Vault presents these secrets engines similar to a filesystem. A secrets engine is enabled at a path. Vault itself performs prefix routing on incoming requests and routes the request to the correct secrets engine based on the path at which they were enabled. This page discusses secrets engines and the operations they support. This information is important to both operators who will configure Vault and users who will interact with Vault. ## Enable a Secrets Engine To get started, enable another instance of the `kv` secrets engine at a different path. Just like a filesystem, Vault can enable a secrets engine at many different paths. Each path is completely isolated and cannot talk to other paths. For example, a `kv` secrets engine enabled at `foo` has no ability to communicate with a `kv` secrets engine enabled at `bar`. ```shell-session $ vault secrets enable -path=kv kv Success! Enabled the kv secrets engine at: kv/ ``` The path where the secrets engine is enabled defaults to the name of the secrets engine. Thus, the following commands are actually equivalent: ```shell-session $ vault secrets enable -path=kv kv $ vault secrets enable kv ``` To verify our success and get more information about the secrets engine, use the `vault secrets list` command: ```shell-session $ vault secrets list Path Type Description ---- ---- ----------- cubbyhole/ cubbyhole per-token private secret storage kv/ kv n/a secret/ kv key/value secret storage sys/ system system endpoints used for control, policy and debugging ``` This shows there are 4 enabled secrets engines on this Vault server. You can see the type of the secrets engine, the corresponding path, and an optional description (or "n/a" if none was given). ~> The `sys/` path corresponds to the system backend. While the system backend is not specifically discussed in this guide, there is plentiful documentation on the system backend. Many of these operations interact with Vault's core system and is not required for beginners. Take a few moments to read and write some data to the new `kv` secrets engine enabled at `kv/`. Here are a few ideas to get started: ```shell-session $ vault write kv/my-secret value="s3c(eT" $ vault write kv/hello target=world $ vault write kv/airplane type=boeing class=787 $ vault list kv ``` ## Disable a Secrets Engine When a secrets engine is no longer needed, it can be disabled. When a secrets engine is disabled, all secrets are revoked and the corresponding Vault data and configuration is removed. Any requests to route data to the original path would result in an error, but another secrets engine could now be enabled at that path. If, for some reason, Vault is unable to delete the data or revoke the leases, the disabling operation will fail. If this happens, the secrets engine will remain enabled and available, but the request will return an error. ```shell-session $ vault secrets disable kv/ Success! Disabled the secrets engine (if it existed) at: kv/ ``` Note that this command takes a PATH to the secrets engine as an argument, not the TYPE of the secrets engine. In addition to disabling a secrets engine, it is also possible to "move" a secrets engine to a new path. This is still a disruptive command. All configuration data is retained, but any secrets are revoked, since secrets are closely tied to their engine's paths. ## What is a Secrets Engine? Now that you've successfully enabled and disabled a secrets engine... what is it? What is the point of a secrets engine? As mentioned above, Vault behaves similarly to a [virtual filesystem][vfs]. The read/write/delete/list operations are forwarded to the corresponding secrets engine, and the secrets engine decides how to react to those operations. This abstraction is incredibly powerful. It enables Vault to interface directly with physical systems, databases, HSMs, etc. But in addition to these physical systems, Vault can interact with more unique environments like AWS IAM, dynamic SQL user creation, etc. all while using the same read/write interface. ## Next You now know about secrets engines and how to operate on them. This is important knowledge to move forward and learn about other secrets engines. Next, we'll use the AWS backend to [generate dynamic secrets](/intro/getting-started/dynamic-secrets). [vfs]: https://en.wikipedia.org/wiki/Virtual_file_system