How-To: Reference secrets in components
How to securly reference secrets from a component definition
Overview
Components can reference secrets for the spec.metadata
section within the components definition.
In order to reference a secret, you need to set the auth.secretStore
field to specify the name of the secret store that holds the secrets.
When running in Kubernetes, if the auth.secretStore
is empty, the Kubernetes secret store is assumed.
Supported secret stores
Go to this link to see all the secret stores supported by Dapr, along with information on how to configure and use them.
Referencing secrets
While you have the option to use plain text secrets (like MyPassword), as shown in the yaml below for the value
of redisPassword
, this is not recommended for production:
apiVersion: dapr.io/v1alpha1
kind: Component
metadata:
name: statestore
spec:
type: state.redis
version: v1
metadata:
- name: redisHost
value: localhost:6379
- name: redisPassword
value: MyPassword
Instead create the secret in your secret store and reference it in the component definition. There are two cases for this shown below – the “Secret contains an embedded key” and the “Secret is a string”.
The “Secret contains an embedded key” case applies when there is a key embedded within the secret, i.e. the secret is not an entire connection string. This is shown in the following component definition yaml.
apiVersion: dapr.io/v1alpha1
kind: Component
metadata:
name: statestore
spec:
type: state.redis
version: v1
metadata:
- name: redisHost
value: localhost:6379
- name: redisPassword
secretKeyRef:
name: redis-secret
key: redis-password
auth:
secretStore: <SECRET_STORE_NAME>
SECRET_STORE_NAME
is the name of the configured secret store component. When running in Kubernetes and using a Kubernetes secret store, the field auth.SecretStore
defaults to kubernetes
and can be left empty.
The above component definition tells Dapr to extract a secret named redis-secret
from the defined secretStore
and assign the value associated with the redis-password
key embedded in the secret to the redisPassword
field in the component. One use of this case is when your code is constructing a connection string, for example putting together a URL, a secret, plus other information as necessary, into a string.
On the other hand, the below “Secret is a string” case applies when there is NOT a key embedded in the secret. Rather, the secret is just a string. Therefore, in the secretKeyRef
section both the secret name
and the secret key
will be identical. This is the case when the secret itself is an entire connection string with no embedded key whose value needs to be extracted. Typically a connection string consists of connection information, some sort of secret to allow connection, plus perhaps other information and does not require a separate “secret”. This case is shown in the below component definition yaml.
apiVersion: dapr.io/v1alpha1
kind: Component
metadata:
name: servicec-inputq-azkvsecret-asbqueue
spec:
type: bindings.azure.servicebusqueues
version: v1
metadata:
-name: connectionString
secretKeyRef:
name: asbNsConnString
key: asbNsConnString
-name: queueName
value: servicec-inputq
auth:
secretStore: <SECRET_STORE_NAME>
The above “Secret is a string” case yaml tells Dapr to extract a connection string named asbNsConnstring
from the defined secretStore
and assign the value to the connectionString
field in the component since there is no key embedded in the “secret” from the secretStore
because it is a plain string. This requires the secret name
and secret key
to be identical.
Example
Referencing a Kubernetes secret
The following example shows you how to create a Kubernetes secret to hold the connection string for an Event Hubs binding.
First, create the Kubernetes secret:
kubectl create secret generic eventhubs-secret --from-literal=connectionString=*********
Next, reference the secret in your binding:
apiVersion: dapr.io/v1alpha1
kind: Component
metadata:
name: eventhubs
spec:
type: bindings.azure.eventhubs
version: v1
metadata:
- name: connectionString
secretKeyRef:
name: eventhubs-secret
key: connectionString
Finally, apply the component to the Kubernetes cluster:
kubectl apply -f ./eventhubs.yaml
Scoping access to secrets
Dapr can restrict access to secrets in a secret store using its configuration. Read How To: Use secret scoping and How-To: Limit the secrets that can be read from secret stores for more information. This is the recommended way to limit access to secrets using Dapr.
Kubernetes permissions
Default namespace
When running in Kubernetes, Dapr, during installation, defines default Role and RoleBinding for secrets access from Kubernetes secret store in the default
namespace. For Dapr enabled apps that fetch secrets from default
namespace, a secret can be defined and referenced in components as shown in the example above.
Non-default namespaces
If your Dapr enabled apps are using components that fetch secrets from non-default namespaces, apply the following resources to that namespace:
---
apiVersion: rbac.authorization.k8s.io/v1
kind: Role
metadata:
name: secret-reader
namespace: <NAMESPACE>
rules:
- apiGroups: [""]
resources: ["secrets"]
verbs: ["get", "list"]
---
kind: RoleBinding
apiVersion: rbac.authorization.k8s.io/v1
metadata:
name: dapr-secret-reader
namespace: <NAMESPACE>
subjects:
- kind: ServiceAccount
name: default
roleRef:
kind: Role
name: secret-reader
apiGroup: rbac.authorization.k8s.io
These resources grant Dapr permissions to get secrets from the Kubernetes secret store for the namespace defined in the Role and RoleBinding.
Note
In production scenario to limit Dapr’s access to certain secret resources alone, you can use the resourceNames
field. See this link for further explanation.
Related links
Last modified June 19, 2023: Merge pull request #3565 from dapr/aacrawfi/skip-secrets-close (b1763bf)