=========================== HashiCorp Vault Integration =========================== HashiCorp `Vault`_ can be used as a secure key management service for `Server-Side Encryption`_ (SSE-KMS). .. ditaa:: +---------+ +---------+ +-------+ +-------+ | Client | | RadosGW | | Vault | | OSD | +---------+ +---------+ +-------+ +-------+ | create secret | | | | key for key ID | | | |-----------------+---------------->| | | | | | | upload object | | | | with key ID | | | |---------------->| request secret | | | | key for key ID | | | |---------------->| | | |<----------------| | | | return secret | | | | key | | | | | | | | encrypt object | | | | with secret key | | | |--------------+ | | | | | | | | |<-------------+ | | | | | | | | store encrypted | | | | object | | | |------------------------------>| #. `Vault secrets engines`_ #. `Vault authentication`_ #. `Vault namespaces`_ #. `Create a key in Vault`_ #. `Configure the Ceph Object Gateway`_ #. `Upload object`_ Some examples below use the Vault command line utility to interact with Vault. You may need to set the following environment variable with the correct address of your Vault server to use this utility:: export VAULT_ADDR='https://vault-server-fqdn:8200' Vault secrets engines ===================== Vault provides several secrets engines, which can store, generate, and encrypt data. Currently, the Object Gateway supports: - `KV secrets engine`_ version 2 - `Transit engine`_ KV secrets engine ----------------- The KV secrets engine is used to store arbitrary key/value secrets in Vault. To enable the KV engine version 2 in Vault, use the following command:: vault secrets enable -path secret kv-v2 The Object Gateway can be configured to use the KV engine version 2 with the following setting:: rgw crypt vault secret engine = kv Transit secrets engine ---------------------- The transit engine handles cryptographic functions on data in-transit. To enable it in Vault, use the following command:: vault secrets enable transit The Object Gateway can be configured to use the transit engine with the following setting:: rgw crypt vault secret engine = transit Vault authentication ==================== Vault supports several authentication mechanisms. Currently, the Object Gateway can be configured to authenticate to Vault using the `Token authentication method`_ or a `Vault agent`_. Most tokens in Vault have limited lifetimes and powers. The only sort of Vault token that does not have a lifetime are root tokens. For all other tokens, it is necessary to periodically refresh them, either by performing initial authentication, or by renewing the token. Ceph does not have any logic to perform either operation. The simplest best way to use Vault tokens with ceph is to also run the Vault agent and have it refresh the token file. When the Vault agent is used in this mode, file system permissions can be used to restrict who has the use of tokens. Instead of having Vault agent refresh a token file, it can be told to act as a proxy server. In this mode, Vault will add a token when necessary and add it to requests passed to it before forwarding them on to the real server. Vault agent will still handle token renewal just as it would when storing a token in the filesystem. In this mode, it is necessary to properly secure the network path rgw uses to reach the Vault agent, such as having the Vault agent listen only to localhost. Token policies for the object gateway ------------------------------------- All Vault tokens have powers as specified by the polices attached to that token. Multiple policies may be associated with one token. You should only use the policies necessary for your configuration. When using the kv secret engine with the object gateway:: vault policy write rgw-kv-policy -<``. Using the Transit engine ------------------------ Keys created for use with the Transit engine should no longer be marked exportable. They can be created with:: vault write -f transit/keys/mybucketkey The command above creates a keyring, which contains a key of type ``aes256-gcm96`` by default. To verify that the key was correctly created, use the following command:: vault read transit/keys/mybucketkey Sample output:: Key Value --- ----- derived false exportable false name mybucketkey type aes256-gcm96 Configure the Ceph Object Gateway ================================= Edit the Ceph configuration file to enable Vault as a KMS backend for server-side encryption:: rgw crypt s3 kms backend = vault Choose the Vault authentication method, e.g.:: rgw crypt vault auth = token rgw crypt vault token file = /run/.rgw-vault-token rgw crypt vault addr = https://vault-server-fqdn:8200 Or:: rgw crypt vault auth = agent rgw crypt vault addr = http://localhost:8100 Choose the secrets engine:: rgw crypt vault secret engine = kv Or:: rgw crypt vault secret engine = transit Optionally, set the Vault namespace where encryption keys will be fetched from:: rgw crypt vault namespace = tenant1 Finally, the URLs where the Gateway will retrieve encryption keys from Vault can be restricted by setting a path prefix. For instance, the Gateway can be restricted to fetch KV keys as follows:: rgw crypt vault prefix = /v1/secret/data Or, when using the transit secret engine:: rgw crypt vault prefix = /v1/transit In the example above, the Gateway would only fetch transit encryption keys under ``https://vault-server:8200/v1/transit``. You can use custom ssl certs to authenticate with vault with help of following options:: rgw crypt vault verify ssl = true rgw crypt vault ssl cacert = /etc/ceph/vault.ca rgw crypt vault ssl clientcert = /etc/ceph/vault.crt rgw crypt vault ssl clientkey = /etc/ceph/vault.key where vault.ca is CA certificate and vault.key/vault.crt are private key and ssl certificate generated for RGW to access the vault server. It highly recommended to set this option true, setting false is very dangerous and need to avoid since this runs in very secured environments. Transit engine compatibility support ------------------------------------ The transit engine has compatibility support for previous versions of ceph, which used the transit engine as a simple key store. There is a "compat" option which can be given to the transit engine to configure the compatibility support, To entirely disable backwards support, use:: rgw crypt vault secret engine = transit compat=0 This will be the default in future versions. and is safe to use for new installs using the current version. This is the normal default with the current version:: rgw crypt vault secret engine = transit compat=1 This enables the new engine for newly created objects, but still allows the old engine to be used for old objects. In order to access old and new objects, the vault token given to ceph must have both the old and new transit policies. To force use of only the old engine, use:: rgw crypt vault secret engine = transit compat=2 This mode is automatically selected if the vault prefix ends in export/encryption-key, which was the previously documented setting. Upload object ============= When uploading an object to the Gateway, provide the SSE key ID in the request. As an example, for the kv engine, using the AWS command-line client:: aws --endpoint=http://radosgw:8000 s3 cp plaintext.txt s3://mybucket/encrypted.txt --sse=aws:kms --sse-kms-key-id myproject/mybucketkey As an example, for the transit engine (new flavor), using the AWS command-line client:: aws --endpoint=http://radosgw:8000 s3 cp plaintext.txt s3://mybucket/encrypted.txt --sse=aws:kms --sse-kms-key-id mybucketkey The Object Gateway will fetch the key from Vault, encrypt the object and store it in the bucket. Any request to download the object will make the Gateway automatically retrieve the correspondent key from Vault and decrypt the object. Note that the secret will be fetched from Vault using a URL constructed by concatenating the base address (``rgw crypt vault addr``), the (optional) URL prefix (``rgw crypt vault prefix``), and finally the key ID. In the kv engine example above, the Gateway would fetch the secret from:: http://vaultserver:8200/v1/secret/data/myproject/mybucketkey In the transit engine example above, the Gateway would encrypt the secret using this key:: http://vaultserver:8200/v1/transit/mybucketkey .. _Server-Side Encryption: ../encryption .. _Vault: https://www.vaultproject.io/docs/ .. _Token authentication method: https://www.vaultproject.io/docs/auth/token.html .. _Vault agent: https://www.vaultproject.io/docs/agent/index.html .. _KV Secrets engine: https://www.vaultproject.io/docs/secrets/kv/ .. _Transit engine: https://www.vaultproject.io/docs/secrets/transit .. _namespaces: https://www.vaultproject.io/docs/enterprise/namespaces/index.html