Good practices for Kubernetes Secrets
In Kubernetes, a Secret is an object that stores sensitive information, such as passwords, OAuth tokens, and SSH keys.
Secrets give you more control over how sensitive information is used and reduces the risk of accidental exposure. Secret values are encoded as base64 strings and are stored unencrypted by default, but can be configured to be encrypted at rest.
A Pod can reference the Secret in a variety of ways, such as in a volume mount or as an environment variable. Secrets are designed for confidential data and ConfigMaps are designed for non-confidential data.
The following good practices are intended for both cluster administrators and application developers. Use these guidelines to improve the security of your sensitive information in Secret objects, as well as to more effectively manage your Secrets.
Cluster administrators
This section provides good practices that cluster administrators can use to improve the security of confidential information in the cluster.
Configure encryption at rest
By default, Secret objects are stored unencrypted in etcd. You should configure encryption of your Secret
data in etcd
. For instructions, refer to
Encrypt Secret Data at Rest.
Configure least-privilege access to Secrets
When planning your access control mechanism, such as Kubernetes
Role-based Access Control (RBAC),
consider the following guidelines for access to Secret
objects. You should
also follow the other guidelines in
RBAC good practices.
- Components: Restrict
watch
orlist
access to only the most privileged, system-level components. Only grantget
access for Secrets if the component's normal behavior requires it. - Humans: Restrict
get
,watch
, orlist
access to Secrets. Only allow cluster admistrators to accessetcd
. This includes read-only access. For more complex access control, such as restricting access to Secrets with specific annotations, consider using third-party authorization mechanisms.
list
access to Secrets implicitly lets the subject fetch the
contents of the Secrets.
A user who can create a Pod that uses a Secret can also see the value of that Secret. Even if cluster policies do not allow a user to read the Secret directly, the same user could have access to run a Pod that then exposes the Secret. You can detect or limit the impact caused by Secret data being exposed, either intentionally or unintentionally, by a user with this access. Some recommendations include:
- Use short-lived Secrets
- Implement audit rules that alert on specific events, such as concurrent reading of multiple Secrets by a single user
Improve etcd management policies
Consider wiping or shredding the durable storage used by etcd
once it is
no longer in use.
If there are multiple etcd
instances, configure encrypted SSL/TLS
communication between the instances to protect the Secret data in transit.
Configure access to external Secrets
You can use third-party Secrets store providers to keep your confidential data outside your cluster and then configure Pods to access that information. The Kubernetes Secrets Store CSI Driver is a DaemonSet that lets the kubelet retrieve Secrets from external stores, and mount the Secrets as a volume into specific Pods that you authorize to access the data.
For a list of supported providers, refer to Providers for the Secret Store CSI Driver.
Developers
This section provides good practices for developers to use to improve the security of confidential data when building and deploying Kubernetes resources.
Restrict Secret access to specific containers
If you are defining multiple containers in a Pod, and only one of those containers needs access to a Secret, define the volume mount or environment variable configuration so that the other containers do not have access to that Secret.
Protect Secret data after reading
Applications still need to protect the value of confidential information after reading it from an environment variable or volume. For example, your application must avoid logging the secret data in the clear or transmitting it to an untrusted party.
Avoid sharing Secret manifests
If you configure a Secret through a manifest, with the secret data encoded as base64, sharing this file or checking it in to a source repository means the secret is available to everyone who can read the manifest.
Items on this page refer to third party products or projects that provide functionality required by Kubernetes. The Kubernetes project authors aren't responsible for those third-party products or projects. See the CNCF website guidelines for more details.
You should read the content guide before proposing a change that adds an extra third-party link.