docs/integrations/platforms/kubernetes/infisical-secret-crd.mdx
Once you have installed the operator to your cluster, you'll need to create a InfisicalSecret custom resource definition (CRD).
In this CRD, you'll define the authentication method to use, the secrets to fetch, and the target location to store the secrets within your cluster.
apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-sample
labels:
label-to-be-passed-to-managed-secret: sample-value
annotations:
example.com/annotation-to-be-passed-to-managed-secret: "sample-value"
spec:
hostAPI: https://app.infisical.com/api
syncConfig:
resyncInterval: 10s
instantUpdates: false
authentication:
kubernetesAuth:
identityId: <machine-identity-id>
serviceAccountRef:
name: <service-account-name>
namespace: <service-account-namespace>
managedKubeSecretReferences:
- secretName: managed-secret
secretNamespace: default
creationPolicy: "Orphan"
template:
includeAllSecrets: true
data:
NEW_KEY_NAME: "{{ .KEY.SecretPath }} {{ .KEY.Value }}"
KEY_WITH_BINARY_VALUE: "{{ .KEY.SecretPath }} {{ .KEY.Value }}"
The following properties help define what instance of Infisical the operator will interact with, the interval it will sync secrets and any CA certificates that may be required to connect.
<Accordion title="hostAPI"> If you are fetching secrets from a self-hosted instance of Infisical set the value of `hostAPI` to ` https://your-self-hosted-instace.com/api`When hostAPI is not defined the operator fetches secrets from Infisical Cloud.
``` bash
http://<backend-svc-name>.<namespace>.svc.cluster.local:4000/api
```
Make sure to replace `<backend-svc-name>` and `<namespace>` with the appropriate values for your backend service and namespace.
The format of the field is [duration][unit] where duration is a number and unit is a string representing the unit of time.
The following units are supported:
s for seconds (must be at least 5 seconds)m for minutesh for hoursd for daysw for weeksThe default value is 1m (1 minute) when instantUpdates is set to false, and 1h (1 hour) when instantUpdates is set to true.
Valid expressions for the resyncInterval field:
resyncInterval: 60s # 60 seconds
resyncInterval: 5m # 5 minutes
resyncInterval: 2h # 2 hours
resyncInterval: 3d # 3 days
resyncInterval: 4w # 4 weeks
Instant Updates is available under the Enterprise Tier.
Please contact [[email protected]](mailto:[email protected]) for more information.
To retrieve the requested secrets, the operator must first authenticate with Infisical. The list of available authentication methods are shown below.
<Accordion title="authentication"> This block defines the authentication credentials and secrets scope to be used when fetching secrets from Infisical. </Accordion> <Accordion title="authentication.universalAuth"> The universal machine identity authentication method is used to authenticate with Infisical. The client ID and client secret needs to be stored in a Kubernetes secret. This block defines the reference to the name and namespace of secret that stores these credentials. <Steps> <Step title="Create a machine identity"> You need to create a machine identity, and give it access to the project(s) you want to interact with. You can [read more about machine identities here](/documentation/platform/identities/universal-auth). </Step> <Step title="Create Kubernetes secret containing machine identity credentials"> Once you have created your machine identity and added it to your project(s), you will need to create a Kubernetes secret containing the identity credentials. To quickly create a Kubernetes secret containing the identity credentials, you can run the command below. Make sure you replace `<your-identity-client-id>` with the identity client ID and `<your-identity-client-secret>` with the identity client secret.
``` bash
kubectl create secret generic universal-auth-credentials --from-literal=clientId="<your-identity-client-id>" --from-literal=clientSecret="<your-identity-client-secret>"
```
</Step>
<Step title="Add reference for the Kubernetes secret containing the identity credentials">
Once the secret is created, add the `secretName` and `secretNamespace` of the secret that was just created under `authentication.universalAuth.credentialsRef` field in the InfisicalSecret resource.
</Step>
apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-sample-crd
spec:
authentication:
universalAuth:
secretsScope:
# either projectSlug or projectId is required
projectSlug: <project-slug> # <-- project slug
projectId: <project-id> # <-- project id
secretName: <secret-name> # OPTIONAL: If you want to fetch a single Infisical secret, you can specify the secret name here. If not specified, all secrets in the specified scope will be fetched.
envSlug: <env-slug> # "dev", "staging", "prod", etc..
secretsPath: "<secrets-path>" # Root is "/"
credentialsRef:
secretName: universal-auth-credentials # <-- name of the Kubernetes secret that stores our machine identity credentials
secretNamespace: default # <-- namespace of the Kubernetes secret that stores our machine identity credentials
...
<Steps>
<Step title="Obtaining the token reviewer JWT for Infisical">
**1.1.** Start by creating a reviewer service account in your Kubernetes cluster that will be used by Infisical to authenticate with the Kubernetes API Server.
```yaml infisical-reviewer-service-account.yaml
apiVersion: v1
kind: ServiceAccount
metadata:
name: infisical-token-reviewer
namespace: default
```
```bash
kubectl apply -f infisical-reviewer-service-account.yaml
```
**1.2.** Bind the reviewer service account to the `system:auth-delegator` cluster role. As described [here](https://kubernetes.io/docs/reference/access-authn-authz/rbac/#other-component-roles), this role allows delegated authentication and authorization checks, specifically for Infisical to access the [TokenReview API](https://kubernetes.io/docs/reference/kubernetes-api/authentication-resources/token-review-v1/). You can apply the following configuration file:
```yaml infisical-reviewer-cluster-role-binding.yaml
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
name: infisical-token-reviewer-role-binding
namespace: default
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: system:auth-delegator
subjects:
- kind: ServiceAccount
name: infisical-token-reviewer
namespace: default
```
```bash
kubectl apply -f infisical-reviewer-cluster-role-binding.yaml
```
**1.3.** Next, create a long-lived service account JWT token (i.e. the token reviewer JWT token) for the service account using this configuration file for a new `Secret` resource:
```yaml service-account-reviewer-token.yaml
apiVersion: v1
kind: Secret
type: kubernetes.io/service-account-token
metadata:
name: infisical-token-reviewer-token
annotations:
kubernetes.io/service-account.name: "infisical-token-reviewer"
```
```bash
kubectl apply -f service-account-reviewer-token.yaml
```
**1.4.** Link the secret in step 1.3 to the service account in step 1.1:
```bash
kubectl patch serviceaccount infisical-token-reviewer -p '{"secrets": [{"name": "infisical-token-reviewer-token"}]}' -n default
```
**1.5.** Finally, retrieve the token reviewer JWT token from the secret.
```bash
kubectl get secret infisical-token-reviewer-token -n default -o=jsonpath='{.data.token}' | base64 --decode
```
Keep this JWT token handy as you will need it for the **Token Reviewer JWT** field when configuring the Kubernetes Auth authentication method for the identity in step 2.
</Step>
<Step title="Creating an identity">
To create an identity, head to your Organization Settings > Access Control > Identities and press **Create identity**.
When creating an identity, you specify an organization level [role](/documentation/platform/access-controls/role-based-access-controls) for it to assume; you can configure roles in Organization Settings > Access Control > Organization Roles.
Now input a few details for your new identity. Here's some guidance for each field:
- Name (required): A friendly name for the identity.
- Role (required): A role from the **Organization Roles** tab for the identity to assume. The organization role assigned will determine what organization level resources this identity can have access to.
Once you've created an identity, you'll be prompted to configure the authentication method for it. Here, select **Kubernetes Auth**.
<Info>
To learn more about each field of the Kubernetes native authentication method, see step 2 of [guide](/documentation/platform/identities/kubernetes-auth#guide).
</Info>
</Step>
<Step title="Adding an identity to a project">
To allow the operator to use the given identity to access secrets, you will need to add the identity to project(s) that you would like to grant it access to.
To do this, head over to the project you want to add the identity to and go to Project Settings > Access Control > Machine Identities and press **Add identity**.
Next, select the identity you want to add to the project and the project level role you want to allow it to assume. The project role assigned will determine what project level resources this identity can have access to.
</Step>
<Step title="Create a new Kubernetes service account to authenticate with Infisical">
You have already created the reviewer service account in step **1.1**. Now, create a new Kubernetes service account that will be used to authenticate with Infisical.
This service account will create short-lived tokens that will be used to authenticate with Infisical. The operator itself will handle the creation of these tokens automatically.
```yaml infisical-service-account.yaml
kind: ServiceAccount
apiVersion: v1
metadata:
name: infisical-service-account
```
```bash
kubectl apply -f infisical-service-account.yaml -n default
```
</Step>
<Step title="Add your identity ID & service account to your InfisicalSecret resource">
Once you have created your machine identity and added it to your project(s), you will need to add the identity ID to your InfisicalSecret resource.
In the `authentication.kubernetesAuth.identityId` field, add the identity ID of the machine identity you created.
See the example below for more details.
</Step>
<Step title="Add your Kubernetes service account token to the InfisicalSecret resource">
Add the service account details from the previous steps under `authentication.kubernetesAuth.serviceAccountRef`.
Here you will need to enter the name and namespace of the service account.
The example below shows a complete InfisicalSecret resource with all required fields defined.
Make sure you set `authentication.kubernetesAuth.autoCreateServiceAccountToken` to `true` to automatically create short-lived service account tokens for the service account.
</Step>
</Steps>
<Info>
Make sure to also populate the `secretsScope` field with the project slug
_`projectSlug`_, environment slug _`envSlug`_, and secrets path
_`secretsPath`_ that you want to fetch secrets from. Please see the example
below.
</Info>
## Example
```yaml example-kubernetes-auth.yaml
apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-sample-crd
spec:
authentication:
kubernetesAuth:
identityId: <machine-identity-id>
autoCreateServiceAccountToken: true # Automatically creates short-lived service account tokens for the service account.
serviceAccountTokenAudiences:
- <audience> # Optionally specify audience for the service account token. No audience is specified by default.
serviceAccountRef:
name: infisical-service-account # The service account we just created in the previous step.
namespace: <service-account-namespace>
# secretsScope is identical to the secrets scope in the universalAuth field in this sample.
secretsScope:
projectSlug: your-project-slug
envSlug: prod
secretsPath: "/path"
secretName: <secret-name> # OPTIONAL: If you want to fetch a single Infisical secret, you can specify the secret name here. If not specified, all secrets in the specified scope will be fetched.
recursive: true
...
```
```yaml infisical-reviewer-service-account.yaml
apiVersion: v1
kind: ServiceAccount
metadata:
name: infisical-token-reviewer
namespace: default
```
```bash
kubectl apply -f infisical-reviewer-service-account.yaml
```
**1.2.** Bind the reviewer service account to the `system:auth-delegator` cluster role. As described [here](https://kubernetes.io/docs/reference/access-authn-authz/rbac/#other-component-roles), this role allows delegated authentication and authorization checks, specifically for Infisical to access the [TokenReview API](https://kubernetes.io/docs/reference/kubernetes-api/authentication-resources/token-review-v1/). You can apply the following configuration file:
```yaml infisical-reviewer-cluster-role-binding.yaml
apiVersion: rbac.authorization.k8s.io/v1
kind: ClusterRoleBinding
metadata:
name: infisical-token-reviewer-role-binding
namespace: default
roleRef:
apiGroup: rbac.authorization.k8s.io
kind: ClusterRole
name: system:auth-delegator
subjects:
- kind: ServiceAccount
name: infisical-token-reviewer
namespace: default
```
```bash
kubectl apply -f infisical-reviewer-cluster-role-binding.yaml
```
**1.3.** Next, create a long-lived service account JWT token (i.e. the token reviewer JWT token) for the service account using this configuration file for a new `Secret` resource:
```yaml service-account-reviewer-token.yaml
apiVersion: v1
kind: Secret
type: kubernetes.io/service-account-token
metadata:
name: infisical-token-reviewer-token
annotations:
kubernetes.io/service-account.name: "infisical-token-reviewer"
```
```bash
kubectl apply -f service-account-reviewer-token.yaml
```
**1.4.** Link the secret in step 1.3 to the service account in step 1.1:
```bash
kubectl patch serviceaccount infisical-token-reviewer -p '{"secrets": [{"name": "infisical-token-reviewer-token"}]}' -n default
```
**1.5.** Finally, retrieve the token reviewer JWT token from the secret.
```bash
kubectl get secret infisical-token-reviewer-token -n default -o=jsonpath='{.data.token}' | base64 --decode
```
Keep this JWT token handy as you will need it for the **Token Reviewer JWT** field when configuring the Kubernetes Auth authentication method for the identity in step 2.
</Step>
<Step title="Creating an identity">
To create an identity, head to your Organization Settings > Access Control > Identities and press **Create identity**.
When creating an identity, you specify an organization level [role](/documentation/platform/access-controls/role-based-access-controls) for it to assume; you can configure roles in Organization Settings > Access Control > Organization Roles.
Now input a few details for your new identity. Here's some guidance for each field:
- Name (required): A friendly name for the identity.
- Role (required): A role from the **Organization Roles** tab for the identity to assume. The organization role assigned will determine what organization level resources this identity can have access to.
Once you've created an identity, you'll be prompted to configure the authentication method for it. Here, select **Kubernetes Auth**.
<Info>
To learn more about each field of the Kubernetes native authentication method, see step 2 of [guide](/documentation/platform/identities/kubernetes-auth#guide).
</Info>
</Step>
<Step title="Adding an identity to a project">
To allow the operator to use the given identity to access secrets, you will need to add the identity to project(s) that you would like to grant it access to.
To do this, head over to the project you want to add the identity to and go to Project Settings > Access Control > Machine Identities and press **Add identity**.
Next, select the identity you want to add to the project and the project level role you want to allow it to assume. The project role assigned will determine what project level resources this identity can have access to.
</Step>
<Step title="Create a new Kubernetes service account to authenticate with Infisical">
You have already created the reviewer service account in step **1.1**. Now, create a new Kubernetes service account that will be used to authenticate with Infisical.
```yaml infisical-service-account.yaml
kind: ServiceAccount
apiVersion: v1
metadata:
name: infisical-service-account
```
```bash
kubectl apply -f infisical-service-account.yaml -n default
```
</Step>
<Step title="Create a service account token for the Kubernetes service account">
Create a service account token for the newly created Kubernetes service account from the previous step.
```yaml infisical-service-account-token.yaml
apiVersion: v1
kind: Secret
type: kubernetes.io/service-account-token
metadata:
name: infisical-service-account-token
annotations:
kubernetes.io/service-account.name: "infisical-service-account"
```
```bash
kubectl apply -f infisical-service-account-token.yaml -n default
```
Patch the service account with the newly created service account token.
```bash
kubectl patch serviceaccount infisical-service-account -p '{"secrets": [{"name": "infisical-service-account-token"}]}' -n default
```
</Step>
<Step title="Add your identity ID & service account to your InfisicalSecret resource">
Once you have created your machine identity and added it to your project(s), you will need to add the identity ID to your InfisicalSecret resource.
In the `authentication.kubernetesAuth.identityId` field, add the identity ID of the machine identity you created.
See the example below for more details.
</Step>
<Step title="Add your Kubernetes service account token to the InfisicalSecret resource">
Add the service account details from the previous steps under `authentication.kubernetesAuth.serviceAccountRef`.
Here you will need to enter the name and namespace of the service account.
The example below shows a complete InfisicalSecret resource with all required fields defined.
</Step>
</Steps>
<Info>
Make sure to also populate the `secretsScope` field with the project slug
_`projectSlug`_, or project ID _`projectId`_, environment slug _`envSlug`_, and secrets path
_`secretsPath`_ that you want to fetch secrets from. Please see the example
below.
Please note that you can only use either `projectSlug` or `projectId` in the `secretsScope` field.
</Info>
## Example
```yaml example-kubernetes-auth.yaml
apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-sample-crd
spec:
authentication:
kubernetesAuth:
identityId: <machine-identity-id>
serviceAccountRef:
name: infisical-service-account # The service account we just created in the previous step. (*not* the reviewer service account)
namespace: <service-account-namespace>
# secretsScope is identical to the secrets scope in the universalAuth field in this sample.
secretsScope:
projectSlug: your-project-slug
envSlug: prod
secretsPath: "/path"
secretName: <secret-name> # OPTIONAL: If you want to fetch a single Infisical secret, you can specify the secret name here. If not specified, all secrets in the specified scope will be fetched.
recursive: true
...
```
Please note that you can only use either projectSlug or projectId in the secretsScope field.
</Info>
apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-sample-crd
spec:
authentication:
awsIamAuth:
identityId: <your-machine-identity-id>
# secretsScope is identical to the secrets scope in the universalAuth field in this sample.
secretsScope:
projectSlug: your-project-slug
envSlug: prod
secretsPath: "/path"
secretName: <secret-name> # OPTIONAL: If you want to fetch a single Infisical secret, you can specify the secret name here. If not specified, all secrets in the specified scope will be fetched.
recursive: true
...
Please note that you can only use either projectSlug or projectId in the secretsScope field.
</Info>
apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-sample-crd
spec:
authentication:
azureAuth:
identityId: <your-machine-identity-id>
# secretsScope is identical to the secrets scope in the universalAuth field in this sample.
secretsScope:
projectSlug: your-project-slug
envSlug: prod
secretsPath: "/path"
secretName: <secret-name> # OPTIONAL: If you want to fetch a single Infisical secret, you can specify the secret name here. If not specified, all secrets in the specified scope will be fetched.
recursive: true
...
Please note that you can only use either projectSlug or projectId in the secretsScope field.
</Info>
apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-sample-crd
spec:
authentication:
gcpIdTokenAuth:
identityId: <your-machine-identity-id>
# secretsScope is identical to the secrets scope in the universalAuth field in this sample.
secretsScope:
projectSlug: your-project-slug
envSlug: prod
secretsPath: "/path"
secretName: <secret-name> # OPTIONAL: If you want to fetch a single Infisical secret, you can specify the secret name here. If not specified, all secrets in the specified scope will be fetched.
recursive: true
...
Please note that you can only use either projectSlug or projectId in the secretsScope field.
</Info>
apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-sample-crd
spec:
authentication:
gcpIamAuth:
identityId: <your-machine-identity-id>
serviceAccountKeyFilePath: "/path/to-service-account-key-file-path.json"
# secretsScope is identical to the secrets scope in the universalAuth field in this sample.
secretsScope:
projectSlug: your-project-slug
envSlug: prod
secretsPath: "/path"
secretName: <secret-name> # OPTIONAL: If you want to fetch a single Infisical secret, you can specify the secret name here. If not specified, all secrets in the specified scope will be fetched.
recursive: true
...
Make sure you replace `<your-identity-ldap-username>` with the identity LDAP username and `<your-identity-ldap-password>` with the identity LDAP password.
``` bash
kubectl create secret generic ldap-auth-credentials --from-literal=username="<your-identity-ldap-username>" --from-literal=password="<your-identity-ldap-password>"
```
</Step>
<Step title="Add reference for the Kubernetes secret containing the identity credentials">
Once the secret is created, add the `secretName` and `secretNamespace` of the secret that was just created under `authentication.ldapAuth.credentialsRef` field in the InfisicalSecret resource.
</Step>
Please note that you can only use either projectSlug or projectId in the secretsScope field.
</Info>
apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-sample-crd
spec:
authentication:
ldapAuth:
secretsScope:
projectSlug: <project-slug> # <-- project slug
envSlug: <env-slug> # "dev", "staging", "prod", etc..
secretsPath: "<secrets-path>" # Root is "/"
secretName: <secret-name> # OPTIONAL: If you want to fetch a single Infisical secret, you can specify the secret name here. If not specified, all secrets in the specified scope will be fetched.
identityId: <machine-identity-id>
credentialsRef:
secretName: ldap-auth-credentials # <-- name of the Kubernetes secret that stores our machine identity credentials
secretNamespace: default # <-- namespace of the Kubernetes secret that stores our machine identity credentials
The service token required to authenticate with Infisical needs to be stored in a Kubernetes secret. This block defines the reference to the name and namespace of secret that stores this service token. Follow the instructions below to create and store the service token in a Kubernetes secrets and reference it in your CRD.
You can generate a service token for an Infisical project by heading over to the Infisical dashboard then to Project Settings.
Once you have generated the service token, you will need to create a Kubernetes secret containing the service token you generated.
To quickly create a Kubernetes secret containing the generated service token, you can run the command below. Make sure you replace <your-service-token-here> with your service token.
kubectl create secret generic service-token --from-literal=infisicalToken="<your-service-token-here>"
Once the secret is created, add the name and namespace of the secret that was just created under authentication.serviceToken.serviceTokenSecretReference field in the InfisicalSecret resource.
{" "}
<Info> Make sure to also populate the `secretsScope` field with the, environment slug _`envSlug`_, and secrets path _`secretsPath`_ that you want to fetch secrets from. Please see the example below. </Info>apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-sample-crd
spec:
authentication:
serviceToken:
serviceTokenSecretReference:
secretName: service-token # <-- name of the Kubernetes secret that stores our service token
secretNamespace: option # <-- namespace of the Kubernetes secret that stores our service token
secretsScope:
envSlug: <env-slug> # "dev", "staging", "prod", etc..
secretsPath: <secrets-path> # Root is "/"
...
The managed secret properties specify where to store the secrets retrieved from your Infisical project. This includes defining the name and namespace of the Kubernetes secret that will hold these secrets. The Infisical operator will automatically create the Kubernetes secret in the specified name/namespace and ensure it stays up-to-date.
<Note>The managedSecretReference field is deprecated and will be removed in a future release.
Replace it with managedKubeSecretReferences, which now accepts an array of references to support multiple managed secrets in a single InfisicalSecret CRD.
Example:
managedKubeSecretReferences:
- secretName: managed-secret
secretNamespace: default
creationPolicy: "Orphan"
Orphan (default)OwnerFetching secrets from Infisical as is via the operator may not be enough. This is where templating functionality may be helpful. Using Go templates, you can format, combine, and create new key-value pairs from secrets fetched from Infisical before storing them as Kubernetes Secrets.
<Accordion title="managedKubeSecretReferences[].template"> </Accordion> <Accordion title="managedKubeSecretReferences[].template.includeAllSecrets"> This property controls what secrets are included in your managed secret when using templates. When set to `true`, all secrets fetched from your Infisical project will be added into your managed Kubernetes secret resource. **Use this option when you would like to sync all secrets from Infisical to Kubernetes but want to template a subset of them.**When set to false, only secrets defined in the managedKubeSecretReferences[].template.data field of the template will be included in the managed secret.
Use this option when you would like to sync only a subset of secrets from Infisical to Kubernetes.
Secrets are structured as follows:
type TemplateSecret struct {
Value string `json:"value"`
SecretPath string `json:"secretPath"`
}
managedKubeSecretReferences:
- secretName: managed-secret
secretNamespace: default
template:
includeAllSecrets: true
data:
# Create new secret key that doesn't exist in your Infisical project using values of other secrets
NEW_KEY: "{{ .DB_PASSWORD.Value }}"
# Override an existing secret key in Infisical project with a new value using values of other secrets
API_URL: "https://api.{{.COMPANY_NAME.Value}}.{{.REGION.Value}}.com"
For this example, let's assume the following secrets exist in your Infisical project:
DB_PASSWORD = "secret123"
COMPANY_NAME = "acme"
REGION = "us-east-1"
API_URL = "old-url" # This will be overridden
The resulting managed Kubernetes secret will then contain:
# Original secrets (from includeAllSecrets: true)
DB_PASSWORD = "secret123"
COMPANY_NAME = "acme"
REGION = "us-east-1"
# New and overridden templated secrets
NEW_KEY = "secret123" # New secret created from template
API_URL = "https://api.acme.us-east-1.com" # Existing secret overridden by template
To help transform your secrets further, the operator provides a set of built-in functions that you can use in your templates.
Please refer to the templating functions documentation for more information.
</Accordion> <Accordion title="managedKubeSecretReferences[].template.metadata"> Define custom labels and annotations for the managed Kubernetes secret. This allows you to specify metadata that should be applied to the managed secret separately from the InfisicalSecret itself.For detailed information on how metadata propagation works and examples, see the Propagating Labels & Annotations section.
</Accordion>The managed config map properties specify where to store the secrets retrieved from your Infisical project. Config maps can be used to store non-sensitive data, such as application configuration variables. The properties includes defining the name and namespace of the Kubernetes config map that will hold the data retrieved from your Infisical project. The Infisical operator will automatically create the Kubernetes config map in the specified name/namespace and ensure it stays up-to-date. If a config map already exists in the specified namespace, the operator will update the existing config map with the new data.
<Warning> The usage of config maps is only intended for storing non-sensitive data. If you are looking to store sensitive data, please use the [managed secret](#operator-managed-secrets) property instead. </Warning> <Accordion title="managedKubeConfigMapReferences"> </Accordion> <Accordion title="managedKubeConfigMapReferences[].configMapName"> The name of the managed Kubernetes config map that your Infisical data will be stored in. </Accordion> <Accordion title="managedKubeConfigMapReferences[].configMapNamespace"> The namespace of the managed Kubernetes config map that your Infisical data will be stored in. </Accordion> <Accordion title="managedKubeConfigMapReferences[].creationPolicy"> Creation policies allow you to control whether or not owner references should be added to the managed Kubernetes config map that is generated by the Infisical operator. This is useful for tools such as ArgoCD, where every resource requires an owner reference; otherwise, it will be pruned automatically.Orphan (default)OwnerFetching secrets from Infisical as is via the operator may not be enough. This is where templating functionality may be helpful. Using Go templates, you can format, combine, and create new key-value pairs from secrets fetched from Infisical before storing them as Kubernetes Config Maps.
<Accordion title="managedKubeConfigMapReferences[].template"> </Accordion> <Accordion title="managedKubeConfigMapReferences[].template.includeAllSecrets"> This property controls what secrets are included in your managed config map when using templates. When set to `true`, all secrets fetched from your Infisical project will be added into your managed Kubernetes config map resource. **Use this option when you would like to sync all secrets from Infisical to Kubernetes but want to template a subset of them.**When set to false, only secrets defined in the managedKubeConfigMapReferences[].template.data field of the template will be included in the managed config map.
Use this option when you would like to sync only a subset of secrets from Infisical to Kubernetes.
Secrets are structured as follows:
type TemplateSecret struct {
Value string `json:"value"`
SecretPath string `json:"secretPath"`
}
managedKubeConfigMapReferences:
- configMapName: managed-configmap
configMapNamespace: default
template:
includeAllSecrets: true
data:
# Create new key that doesn't exist in your Infisical project using values of other secrets
SITE_URL: "{{ .SITE_URL.Value }}"
# Override an existing key in Infisical project with a new value using values of other secrets
API_URL: "https://api.{{.SITE_URL.Value}}.{{.REGION.Value}}.com"
For this example, let's assume the following secrets exist in your Infisical project:
SITE_URL = "https://example.com"
REGION = "us-east-1"
API_URL = "old-url" # This will be overridden
The resulting managed Kubernetes config map will then contain:
# Original config map data (from includeAllSecrets: true)
SITE_URL = "https://example.com"
REGION = "us-east-1"
# New and overridden config map data
SITE_URL = "https://example.com"
API_URL = "https://api.example.com.us-east-1.com" # Existing secret overridden by template
To help transform your config map data further, the operator provides a set of built-in functions that you can use in your templates.
Please refer to the templating functions documentation for more information.
</Accordion> <Accordion title="managedKubeConfigMapReferences[].template.metadata"> Define custom labels and annotations for the managed Kubernetes ConfigMap. This allows you to specify metadata that should be applied to the managed ConfigMap separately from the InfisicalSecret itself.This field works the same way as template.metadata for managed secrets. For detailed information on how metadata propagation works and examples, see the Propagating Labels & Annotations section.
Once you have configured the InfisicalSecret CRD with the required fields, you can apply it to your cluster. After applying, you should notice that the managed secret has been created in the desired namespace your specified.
kubectl apply -f example-infisical-secret-crd.yaml
To verify that the operator has successfully created the managed secret, you can check the secrets in the namespace that was specified.
<Tabs> <Tab title="Managed Secret"> ```bash # Verify managed secret is created kubectl get secrets -n <namespace of managed secret> ``` <Info> The Infisical secrets will be synced and stored into the managed secret every 1 minute unless configured otherwise. </Info> </Tab> <Tab title="Managed ConfigMap"> ```bash # Verify managed config map is created kubectl get configmaps -n <namespace of managed config map> ``` <Info> The Infisical config map data will be synced and stored into the managed config map every 1 minute unless configured otherwise. </Info> </Tab> </Tabs>To make use of the managed secret created by the operator into your deployment can be achieved through several methods. Here, we will highlight three of the most common ways to utilize it. Learn more about Kubernetes secrets here
<Accordion title="envFrom"> This will take all the secrets from your managed secret and expose them to your container envFrom:
- secretRef:
name: managed-secret # managed secret name
```
Example usage in a deployment
```yaml
apiVersion: apps/v1
kind: Deployment
metadata:
name: nginx-deployment
labels:
app: nginx
spec:
replicas: 1
selector:
matchLabels:
app: nginx
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: nginx
image: nginx:1.14.2
envFrom:
- secretRef:
name: managed-secret # <- name of managed secret
ports:
- containerPort: 80
env:
- name: SECRET_NAME # The environment variable's name which is made available in the container
valueFrom:
secretKeyRef:
name: managed-secret # managed secret name
key: SOME_SECRET_KEY # The name of the key which exists in the managed secret
Example usage in a deployment
apiVersion: apps/v1
kind: Deployment
metadata:
name: nginx-deployment
labels:
app: nginx
spec:
replicas: 1
selector:
matchLabels:
app: nginx
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: nginx
image: nginx:1.14.2
env:
- name: STRIPE_API_SECRET
valueFrom:
secretKeyRef:
name: managed-secret # <- name of managed secret
key: STRIPE_API_SECRET
ports:
- containerPort: 80
You can then mount this volume to the container's filesystem so that your deployment can access the files containing the managed secrets
volumeMounts:
- name: secrets-volume-name
mountPath: /etc/secrets
readOnly: true
Example usage in a deployment
apiVersion: apps/v1
kind: Deployment
metadata:
name: nginx-deployment
labels:
app: nginx
spec:
replicas: 1
selector:
matchLabels:
app: nginx
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: nginx
image: nginx:1.14.2
volumeMounts:
- name: secrets-volume-name
mountPath: /etc/secrets
readOnly: true
ports:
- containerPort: 80
volumes:
- name: secrets-volume-name
secret:
secretName: managed-secret # <- managed secrets
The definition file of the Kubernetes secret for the CA certificate can be structured like the following:
apiVersion: v1
kind: Secret
metadata:
name: custom-ca-certificate
type: Opaque
stringData:
ca.crt: |
-----BEGIN CERTIFICATE-----
MIIEZzCCA0+gAwIBAgIUDk9+HZcMHppiNy0TvoBg8/aMEqIwDQYJKoZIhvcNAQEL
...
BQAwDTELMAkGA1UEChMCUEgwHhcNMjQxMDI1MTU0MjAzWhcNMjUxMDI1MjE0MjAz
-----END CERTIFICATE-----
Deployments using managed secrets don't reload automatically on updates, so they may use outdated secrets unless manually redeployed. To address this, we added functionality to automatically redeploy your deployment when its managed secret updates.
To enable auto redeployment you simply have to add the following annotation to the Deployment, StatefulSet, or DaemonSet that consumes a managed secret.
secrets.infisical.com/auto-reload: "true"
To make use of the managed ConfigMap created by the operator into your deployment can be achieved through several methods. Here, we will highlight three of the most common ways to utilize it. Learn more about Kubernetes ConfigMaps here
<Tip> Automatic redeployment of deployments using managed ConfigMaps is not yet supported. </Tip> <Accordion title="envFrom"> This will take all the secrets from your managed ConfigMap and expose them to your container envFrom:
- configMapRef:
name: managed-configmap # managed configmap name
```
Example usage in a deployment
```yaml
apiVersion: apps/v1
kind: Deployment
metadata:
name: nginx-deployment
labels:
app: nginx
spec:
replicas: 1
selector:
matchLabels:
app: nginx
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: nginx
image: nginx:1.14.2
envFrom:
- configMapRef:
name: managed-configmap # <- name of managed configmap
ports:
- containerPort: 80
env:
- name: CONFIG_NAME # The environment variable's name which is made available in the container
valueFrom:
configMapKeyRef:
name: managed-configmap # managed configmap name
key: SOME_CONFIG_KEY # The name of the key which exists in the managed configmap
Example usage in a deployment
apiVersion: apps/v1
kind: Deployment
metadata:
name: nginx-deployment
labels:
app: nginx
spec:
replicas: 1
selector:
matchLabels:
app: nginx
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: nginx
image: nginx:1.14.2
env:
- name: STRIPE_API_SECRET
valueFrom:
configMapKeyRef:
name: managed-configmap # <- name of managed configmap
key: STRIPE_API_SECRET
ports:
- containerPort: 80
You can then mount this volume to the container's filesystem so that your deployment can access the files containing the managed secrets
volumeMounts:
- name: configmaps-volume-name
mountPath: /etc/config
readOnly: true
Example usage in a deployment
apiVersion: apps/v1
kind: Deployment
metadata:
name: nginx-deployment
labels:
app: nginx
spec:
replicas: 1
selector:
matchLabels:
app: nginx
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: nginx
image: nginx:1.14.2
volumeMounts:
- name: configmaps-volume-name
mountPath: /etc/config
readOnly: true
ports:
- containerPort: 80
volumes:
- name: configmaps-volume-name
configMap:
name: managed-configmap # <- managed configmap
The definition file of the Kubernetes secret for the CA certificate can be structured like the following:
apiVersion: v1
kind: Secret
metadata:
name: custom-ca-certificate
type: Opaque
stringData:
ca.crt: |
-----BEGIN CERTIFICATE-----
MIIEZzCCA0+gAwIBAgIUDk9+HZcMHppiNy0TvoBg8/aMEqIwDQYJKoZIhvcNAQEL
...
BQAwDTELMAkGA1UEChMCUEgwHhcNMjQxMDI1MTU0MjAzWhcNMjUxMDI1MjE0MjAz
-----END CERTIFICATE-----
The operator provides flexible options for managing labels and annotations on managed Kubernetes secrets.
<Accordion title="Default Behavior (Without template.metadata)"> By default, the operator will transfer all labels & annotations present on the `InfisicalSecret` to the managed Kubernetes secret to be created.apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-sample
labels:
label-to-be-passed-to-managed-secret: sample-value
annotations:
example.com/annotation-to-be-passed-to-managed-secret: "sample-value"
spec:
authentication:
# ... auth config ...
managedKubeSecretReferences:
- secretName: managed-token
secretNamespace: default
This would result in the following managed secret to be created:
apiVersion: v1
data: ...
kind: Secret
metadata:
annotations:
example.com/annotation-to-be-passed-to-managed-secret: sample-value
secrets.infisical.com/version: W/"3f1-ZyOSsrCLGSkAhhCkY2USPu2ivRw"
labels:
label-to-be-passed-to-managed-secret: sample-value
name: managed-token
namespace: default
type: Opaque
template.metadata are used exclusively on the managed secret```yaml
template:
metadata:
labels: {}
annotations: {}
```
apiVersion: secrets.infisical.com/v1alpha1
kind: InfisicalSecret
metadata:
name: infisicalsecret-with-template-metadata
labels:
managed-by: infisical-operator
annotations:
example.com/cr-specific: "metadata"
spec:
authentication:
# ... auth config ...
managedKubeSecretReferences:
- secretName: managed-secret-with-custom-metadata
secretNamespace: default
template:
includeAllSecrets: true
metadata:
labels:
app: my-application
environment: production
tier: backend
annotations:
secret.example.com/description: "Production database credentials"
secret.example.com/owner: "platform-team"
This would result in the following managed secret to be created:
apiVersion: v1
data: ...
kind: Secret
metadata:
annotations:
secret.example.com/description: "Production database credentials"
secret.example.com/owner: "platform-team"
labels:
app: my-application
environment: production
tier: backend
name: managed-secret-with-custom-metadata
namespace: default
type: Opaque