![aws sm](../pictures/eso-az-kv-azure-kv.png) ## Azure Key vault External Secrets Operator integrates with [Azure Key vault](https://azure.microsoft.com/en-us/services/key-vault/) for secrets, certificates and Keys management. ### Authentication We support Service Principals, Managed Identity and Workload Identity authentication. To use Managed Identity authentication, you should use [aad-pod-identity](https://azure.github.io/aad-pod-identity/docs/) to assign the identity to external-secrets operator. To add the selector to external-secrets operator, use `podLabels` in your values.yaml in case of Helm installation of external-secrets. We support connecting to different cloud flavours azure supports: `PublicCloud`, `USGovernmentCloud`, `ChinaCloud` and `GermanCloud`. You have to specify the `environmentType` and point to the correct cloud flavour. This defaults to `PublicCloud`. ```yaml apiVersion: external-secrets.io/v1beta1 kind: SecretStore metadata: name: azure-backend spec: provider: azurekv: # PublicCloud, USGovernmentCloud, ChinaCloud, GermanCloud environmentType: PublicCloud # default ``` Minimum required permissions are `Get` over secret and certificate permissions. This can be done by adding a Key Vault access policy: ```sh KUBELET_IDENTITY_OBJECT_ID=$(az aks show --resource-group --name --query 'identityProfile.kubeletidentity.objectId' -o tsv) az keyvault set-policy --name kv-name-with-certs --object-id "$KUBELET_IDENTITY_OBJECT_ID" --certificate-permissions get --secret-permissions get ``` #### Service Principal key authentication A service Principal client and Secret is created and the JSON keyfile is stored in a `Kind=Secret`. The `ClientID` and `ClientSecret` should be configured for the secret. This service principal should have proper access rights to the keyvault to be managed by the operator #### Managed Identity authentication A Managed Identity should be created in Azure, and that Identity should have proper rights to the keyvault to be managed by the operator. If there are multiple Managed Identities for different keyvaults, the operator should have been assigned all identities via [aad-pod-identity](https://azure.github.io/aad-pod-identity/docs/), then the SecretStore configuration should include the Id of the identity to be used via the `identityId` field. ```yaml {% include 'azkv-secret-store-mi.yaml' %} ``` #### Workload Identity You can use [Azure AD Workload Identity Federation](https://docs.microsoft.com/en-us/azure/active-directory/develop/workload-identity-federation) to access Azure managed services like Key Vault **without needing to manage secrets**. You need to configure a trust relationship between your Kubernetes Cluster and Azure AD. This can be done in various ways, for instance using `terraform`, the Azure Portal or the `az` cli. We found the [azwi](https://azure.github.io/azure-workload-identity/docs/installation/azwi.html) cli very helpful. The Azure [Workload Identity Quick Start Guide](https://azure.github.io/azure-workload-identity/docs/quick-start.html) is also good place to get started. This is basically a two step process: 1. Create a Kubernetes Service Account ([guide](https://azure.github.io/azure-workload-identity/docs/quick-start.html#5-create-a-kubernetes-service-account)) ```sh azwi serviceaccount create phase sa \ --aad-application-name "${APPLICATION_NAME}" \ --service-account-namespace "${SERVICE_ACCOUNT_NAMESPACE}" \ --service-account-name "${SERVICE_ACCOUNT_NAME}" ``` 2. Configure the trust relationship between Azure AD and Kubernetes ([guide](https://azure.github.io/azure-workload-identity/docs/quick-start.html#6-establish-federated-identity-credential-between-the-aad-application-and-the-service-account-issuer--subject)) ```sh azwi serviceaccount create phase federated-identity \ --aad-application-name "${APPLICATION_NAME}" \ --service-account-namespace "${SERVICE_ACCOUNT_NAMESPACE}" \ --service-account-name "${SERVICE_ACCOUNT_NAME}" \ --service-account-issuer-url "${SERVICE_ACCOUNT_ISSUER}" ``` With these prerequisites met you can configure `ESO` to use that Service Account. You have two options: ##### Mounted Service Account You run the controller and mount that particular service account into the pod by adding the label `azure.workload.identity/use: "true"`to the pod. That grants _everyone_ who is able to create a secret store or reference a correctly configured one the ability to read secrets. **This approach is usually not recommended**. But may make sense when you want to share an identity with multiple namespaces. Also see our [Multi-Tenancy Guide](../guides/multi-tenancy.md) for design considerations. ```yaml {% include 'azkv-workload-identity-mounted.yaml' %} ``` ##### Referenced Service Account You run the controller without service account (effectively without azure permissions). Now you have to configure the SecretStore and set the `serviceAccountRef` and point to the service account you have just created. **This is usually the recommended approach**. It makes sense for everyone who wants to run the controller withour Azure permissions and delegate authentication via service accounts in particular namespaces. Also see our [Multi-Tenancy Guide] for design considerations. ```yaml {% include 'azkv-workload-identity.yaml' %} ``` ### Update secret store Be sure the `azurekv` provider is listed in the `Kind=SecretStore` ```yaml {% include 'azkv-secret-store.yaml' %} ``` **NOTE:** In case of a `ClusterSecretStore`, Be sure to provide `namespace` in `clientId` and `clientSecret` with the namespaces where the secrets reside. Or in case of Managed Identity authentication: ```yaml {% include 'azkv-secret-store-mi.yaml' %} ``` ### Object Types Azure KeyVault manages different [object types](https://docs.microsoft.com/en-us/azure/key-vault/general/about-keys-secrets-certificates#object-types), we support `keys`, `secrets` and `certificates`. Simply prefix the key with `key`, `secret` or `cert` to retrieve the desired type (defaults to secret). | Object Type | Return Value | | ------------- | --------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- | | `secret` | the raw secret value. | | `key` | A JWK which contains the public key. Azure KeyVault does **not** export the private key. You may want to use [template functions](../guides/templating.md) to transform this JWK into PEM encoded PKIX ASN.1 DER format. | | `certificate` | The raw CER contents of the x509 certificate. You may want to use [template functions](../guides/templating.md) to transform this into your desired encoding | ### Creating external secret To create a kubernetes secret from the Azure Key vault secret a `Kind=ExternalSecret` is needed. You can manage keys/secrets/certificates saved inside the keyvault , by setting a "/" prefixed type in the secret name, the default type is a `secret`. Other supported values are `cert` and `key`. ```yaml {% include 'azkv-external-secret.yaml' %} ``` The operator will fetch the Azure Key vault secret and inject it as a `Kind=Secret`. Then the Kubernetes secret can be fetched by issuing: ```sh kubectl get secret secret-to-be-created -n -o jsonpath='{.data.dev-secret-test}' | base64 -d ``` To select all secrets inside the key vault or all tags inside a secret, you can use the `dataFrom` directive: ```yaml {% include 'azkv-datafrom-external-secret.yaml' %} ``` To get a PKCS#12 certificate from Azure Key Vault and inject it as a `Kind=Secret` of type `kubernetes.io/tls`: ```yaml {% include 'azkv-pkcs12-cert-external-secret.yaml' %} ``` ### Creating a PushSecret You can push secrets to Keyvault into the different `secret`, `key` and `certificate` APIs. #### Pushing to a Secret Pushing to a Secret requires no previous setup. with the secret available in kubernetes, you can simply refer it to a PushSecret object to have it created on Azure Keyvault: ```yaml {% include 'azkv-pushsecret-secret.yaml' %} ``` !!! note In order to create a PushSecret targeting keys, `CreateSecret` and `DeleteSecret` actions must be granted to the Service Principal/Identity configured on the SecretStore. #### Pushing to a Key The first step is to generate a valid Private Key. Supported Formats include `PRIVATE KEY`, `RSA PRIVATE KEY` AND `EC PRIVATE KEY` (EC/PKCS1/PKCS8 types). After uploading your key to a Kubernetes Secret, the next step is to create a PushSecret manifest with the following configuration: ```yaml {% include 'azkv-pushsecret-key.yaml' %} ``` !!! note In order to create a PushSecret targeting keys, `ImportKey` and `DeleteKey` actions must be granted to the Service Principal/Identity configured on the SecretStore. #### Pushing to a Certificate The first step is to generate a valid P12 certificate. Currently, only PKCS1/PKCS8 types are supported. Currently only passwordless P12 certificates are supported. After uploading your P12 certificate to a Kubernetes Secret, the next step is to create a PushSecret manifest with the following configuration ```yaml {% include 'azkv-pushsecret-certificate.yaml' %} ``` !!! note In order to create a PushSecret targeting keys, `ImportCertificate` and `DeleteCertificate` actions must be granted to the Service Principal/Identity configured on the SecretStore.