Mount Vault secrets through Container Storage Interface (CSI) volume
Kubernetes application pods that rely on Vault to manage their secrets can retrieve them directly via network requests or maintained on a mounted file system through the Vault Injector service via annotations or attached as ephemeral volumes. This approach of employing ephemeral volumes to store secrets is a feature of the Secrets Store extension to the Kubernetes Container Storage Interface (CSI) driver.
In this tutorial, you will setup Vault and its dependencies with a Helm chart. Then enable and configure the secrets store CSI driver to create a volume that contains a secret that you will mount to an application pod.
Prerequisites
This tutorial requires the Kubernetes command-line interface (CLI) and the Helm CLI installed, Minikube, and additional configuration to bring it all together.
This tutorial was last tested 25 Apr 2022 on macOS 11.6.1 using this configuration.
Docker version.
$ docker versionClient: Cloud integration: v1.0.22 Version: 20.10.13...snip...Server: Docker Desktop 4.6.1 (76265) Engine: Version: 20.10.13...snip...
Minikube version.
$ minikube versionminikube version: v1.25.2commit: 362d5fdc0a3dbee389b3d3f1034e8023e72bd3a7
Helm version.
$ helm version version.BuildInfo{Version:"v3.8.1", GitCommit:"5cb9af4b1b271d11d7a97a71df3ac337dd94ad37", GitTreeState:"clean", GoVersion:"go1.17.8"}
These are recommended software versions and the output displayed may vary depending on your environment and the software versions you use.
First, follow the directions to install Minikube, including VirtualBox or similar.
Next, install kubectl CLI and helm CLI.
Install kubectl
with Homebrew.
$ brew install kubernetes-cli
Install helm
with Homebrew.
$ brew install helm
Start Minikube
Minikube is a CLI tool that provisions and manages the lifecycle of single-node Kubernetes clusters. These clusters are run locally inside Virtual Machines (VM).
Start a Kubernetes cluster.
$ minikube start😄 minikube v1.25.2 on Darwin 11.6.1✨ Using the docker driver based on existing profile👍 Starting control plane node minikube in cluster minikube🚜 Pulling base image ...🔄 Restarting existing docker container for "minikube" ...🐳 Preparing Kubernetes v1.23.3 on Docker 20.10.12 ... ▪ kubelet.housekeeping-interval=5m🔎 Verifying Kubernetes components... ▪ Using image gcr.io/k8s-minikube/storage-provisioner:v5🌟 Enabled addons: storage-provisioner, default-storageclass🏄 Done! kubectl is now configured to use "minikube" cluster and "default" namespace by default
Display the version of the Kubernetes cluster.
$ kubectl versionClient Version: version.Info{Major:"1", Minor:"23", GitVersion:"v1.23.5", GitCommit:"c285e781331a3785a7f436042c65c5641ce8a9e9", GitTreeState:"clean", BuildDate:"2022-03-16T15:51:05Z", GoVersion:"go1.17.8", Compiler:"gc", Platform:"darwin/amd64"}Server Version: version.Info{Major:"1", Minor:"23", GitVersion:"v1.23.3", GitCommit:"816c97ab8cff8a1c72eccca1026f7820e93e0d25", GitTreeState:"clean", BuildDate:"2022-01-25T21:19:12Z", GoVersion:"go1.17.6", Compiler:"gc", Platform:"linux/amd64"}
Kubernetes version 1.19.0 and lower requires a local Kubernetes cluster started with two additional arguments to set the apiserver service account credentials.
Delete the current cluster.
$ minikube delete
Start a new Kubernetes cluster with additional arguments.
$ minikube start \ --extra-config=apiserver.service-account-signing-key-file=/var/lib/minikube/certs/sa.key \ --extra-config=apiserver.service-account-issuer=https://kubernetes.default.svc.cluster.local
Verify the status of the Minikube cluster.
$ minikube statusminikubetype: Control Planehost: Runningkubelet: Runningapiserver: Runningkubeconfig: Configured
Additional waiting
Even if this last command completed successfully, you may have to wait for Minikube to be available. If an error is displayed, try again after a few minutes.
The host, kubelet, apiserver report that they are running. The kubectl
, a
command line interface (CLI) for running commands against Kubernetes cluster, is
also configured to communicate with this recently started cluster.
Install the Vault Helm chart
Vault manages the secrets that are written to these mountable volumes. To provide these secrets a single Vault server is required. For this demonstration Vault can be run in development mode to automatically handle initialization, unsealing, and setup of a KV secrets engine.
Add the HashiCorp Helm repository.
$ helm repo add hashicorp https://helm.releases.hashicorp.com"hashicorp" has been added to your repositories
Update all the repositories to ensure helm
is aware of the latest versions.
$ helm repo updateHang tight while we grab the latest from your chart repositories......Successfully got an update from the "hashicorp" chart repositoryUpdate Complete. ⎈Happy Helming!⎈
Install the latest version of the Vault Helm chart running in development mode with the injector service disabled and CSI enabled.
$ helm install vault hashicorp/vault \ --set "server.dev.enabled=true" \ --set "injector.enabled=false" \ --set "csi.enabled=true"
Example output:
NAME: vaultLAST DEPLOYED: Mon Apr 25 17:06:20 2022NAMESPACE: defaultSTATUS: deployedREVISION: 1NOTES:Thank you for installing HashiCorp Vault!Now that you have deployed Vault, you should look over the docs on usingVault with Kubernetes available here:https://www.vaultproject.io/docs/Your release is named vault. To learn more about the release, try: $ helm status vault $ helm get manifest vault
The Vault server runs in development mode on a single pod
server.dev.enabled=true
. The Vault Agent Injector pod is disabled
injector.enabled=false
and the Vault CSI Provider pod csi.enabled=true
is
enabled.
Display all the pods within the default namespace.
$ kubectl get podsNAME READY STATUS RESTARTS AGEvault-0 1/1 Running 0 58svault-csi-provider-t874l 1/1 Running 0 58s
Wait until the vault-0
pod is running and ready (1/1
).
Set a secret in Vault
The volume mounted to the pod in the Create a pod with secret
mounted section expects a secret stored at
the path secret/data/db-pass
. When Vault is run in development a KV
secrets engine is
enabled at the path /secret
.
First, start an interactive shell session on the vault-0
pod.
$ kubectl exec -it vault-0 -- /bin/sh/ $
Your system prompt is replaced with a new prompt / $
. Commands issued at this
prompt are executed on the vault-0
container.
Create a secret at the path secret/db-pass
with a password
.
$ vault kv put secret/db-pass password="db-secret-password"Key Value--- -----created_time 2020-05-30T16:58:54.295890646Zdeletion_time n/adestroyed falseversion 1
Verify that the secret is readable at the path secret/db-pass
.
$ vault kv get secret/db-pass====== Metadata ======Key Value--- -----created_time 2020-05-30T16:58:54.295890646Zdeletion_time n/adestroyed falseversion 1 ====== Data ======Key Value--- -----password db-secret-password
Configure Kubernetes authentication
Vault provides a Kubernetes authentication method that enables clients to authenticate with a Kubernetes Service Account Token. The Kubernetes resources that access the secret and create the volume authenticate through this method through a role.
Enable the Kubernetes authentication method.
$ vault auth enable kubernetesSuccess! Enabled kubernetes auth method at: kubernetes/
Configure the Kubernetes authentication method with the Kubernetes API address. It will automatically use the Vault pod's own service account token.
$ vault write auth/kubernetes/config \ kubernetes_host="https://$KUBERNETES_PORT_443_TCP_ADDR:443"
Successful output:
Success! Data written to: auth/kubernetes/config
The environment variable KUBERNETES_PORT_443_TCP_ADDR
references the internal network address of the Kubernetes host.
Create a policy named internal-app
. This will be used to give
the webapp-sa
service account permission to read the kv
secret
created earlier.
$ vault policy write internal-app - <<EOFpath "secret/data/db-pass" { capabilities = ["read"]}EOF
The data of
kv-v2 requires that
an additional path element of data
is included after its mount path (in this
case, secret/
).
Finally, create a Kubernetes authentication role named database
that binds
this policy with a Kubernetes service account named webapp-sa
.
$ vault write auth/kubernetes/role/database \ bound_service_account_names=webapp-sa \ bound_service_account_namespaces=default \ policies=internal-app \ ttl=20m
Successful output:
Success! Data written to: auth/kubernetes/role/database
The role connects the Kubernetes service account, webapp-sa
, in
the namespace, default
, with the Vault policy, internal-app
. The tokens
returned after authentication are valid for 20 minutes. This Kubernetes service
account name, webapp-sa
, will be created below.
Lastly, exit the vault-0
pod.
$ exit
Install the secrets store CSI driver
The Secrets Store CSI driver secrets-store.csi.k8s.io allows Kubernetes to mount multiple secrets, keys, and certs stored in enterprise-grade external secrets stores into their pods as a volume. Once the Volume is attached, the data in it is mounted into the container's file system.
Add the Secrets Store CSI driver Helm repository.
$ helm repo add secrets-store-csi-driver https://kubernetes-sigs.github.io/secrets-store-csi-driver/charts"secrets-store-csi-driver" has been added to your repositories
Install the latest version of the Kubernetes Secrets Store CSI Driver.
$ helm install csi secrets-store-csi-driver/secrets-store-csi-driver \ --set syncSecret.enabled=true
Example output:
NAME: csiLAST DEPLOYED: Mon Apr 25 17:12:21 2022NAMESPACE: defaultSTATUS: deployedREVISION: 1TEST SUITE: NoneNOTES:The Secrets Store CSI Driver is getting deployed to your cluster.To verify that Secrets Store CSI Driver has started, run: kubectl --namespace=default get pods -l "app=secrets-store-csi-driver"Now you can follow these steps https://secrets-store-csi-driver.sigs.k8s.io/getting-started/usage.htmlto create a SecretProviderClass resource, and a deployment using the SecretProviderClass.
Verify the Vault CSI provider is running
The Secrets Store CSI driver enables extension through providers. A provider is launched as a Kubernetes DaemonSet alongside of Secrets Store CSI driver DaemonSet.
The Vault CSI provider was installed above alongside Vault by the Vault Helm chart.
This DaemonSet launches its own provider pod and runs a gRPC server which the Secrets Store CSI Driver connects to to make volume mount requests.
Get all the pods within the default namespace to check that the Vault CSI provider is running.
$ kubectl get podsNAME READY STATUS RESTARTS AGEcsi-secrets-store-csi-driver-vkppq 3/3 Running 0 20svault-0 1/1 Running 0 3m10svault-csi-provider-t874l 1/1 Running 0 3m10s
Wait until the vault-csi-provider
pod is running and ready (1/1
).
Define a SecretProviderClass resource
The Kubernetes Secrets Store CSI Driver Helm chart creates a definition for a SecretProviderClass resource. This resource describes the parameters that are given to the Vault CSI provider. To configure it requires the address of the Vault server, the name of the Vault Kubernetes authentication role, and the secrets.
Define a SecretProviderClass named vault-database
.
$ cat > spc-vault-database.yaml <<EOFapiVersion: secrets-store.csi.x-k8s.io/v1kind: SecretProviderClassmetadata: name: vault-databasespec: provider: vault parameters: vaultAddress: "http://vault.default:8200" roleName: "database" objects: | - objectName: "db-password" secretPath: "secret/data/db-pass" secretKey: "password"EOF
Create the vault-database
SecretProviderClass.
$ kubectl apply --filename spc-vault-database.yaml
The vault-database
SecretProviderClass describes one secret object:
objectName
is a symbolic name for that secret, and the file name to write to.secretPath
is the path to the secret defined in Vault.secretKey
is a key name within that secret.
Verify that the SecretProviderClass, named vault-database
has been defined in
the default namespace.
$ kubectl describe SecretProviderClass vault-database Name: vault-databaseNamespace: defaultLabels: <none>Annotations: kubectl.kubernetes.io/last-applied-configuration: {"apiVersion":"secrets-store.csi.x-k8s.io/v1","kind":"SecretProviderClass","metadata":{"annotations":{},"name":"vault-database","namespace...API Version: secrets-store.csi.x-k8s.io/v1Kind: SecretProviderClass## ...
Create a pod with secret mounted
With the secret stored in Vault, the authentication configured and role created,
the provider-vault
extension installed and the SecretProviderClass defined
it is finally time to create a pod that mounts the desired secret.
Create a service account named webapp-sa
.
$ kubectl create serviceaccount webapp-sa
Define the webapp
pod that mounts the secrets volume.
$ cat > webapp-pod.yaml <<EOFkind: PodapiVersion: v1metadata: name: webappspec: serviceAccountName: webapp-sa containers: - image: jweissig/app:0.0.1 name: webapp volumeMounts: - name: secrets-store-inline mountPath: "/mnt/secrets-store" readOnly: true volumes: - name: secrets-store-inline csi: driver: secrets-store.csi.k8s.io readOnly: true volumeAttributes: secretProviderClass: "vault-database"EOF
The webapp
pod defines and mounts a read-only volume to /mnt/secrets-store
.
The objects defined in the vault-database
SecretProviderClass are written as
files within that path.
Create the webapp
pod.
$ kubectl apply --filename webapp-pod.yaml
Get all the pods within the default namespace.
$ kubectl get podsNAME READY STATUS RESTARTS AGEcsi-secrets-store-csi-driver-6rf2k 3/3 Running 0 13mcsi-secrets-store-provider-vault-qm44g 1/1 Running 0 8mwebapp 1/1 Running 0 5mvault-0 1/1 Running 0 27m
Wait until the webapp
pod is running and ready (1/1
).
Display the password secret written to the file system at
/mnt/secrets-store/db-password
on the webapp
pod.
$ kubectl exec webapp -- cat /mnt/secrets-store/db-passworddb-secret-password
The value displayed matches the password
value for the secret
secret/db-pass
.
Sync to a Kubernetes Secret
The Secrets Store CSI Driver also supports syncing to Kubernetes secret objects. Kubernetes secrets are populated with the contents of files from your CSI volume, and their lifetime is closely tied to the lifetime of the pod they are created for.
To add secret syncing for your webapp
pod, update the
SecretProviderClass to add a secretObjects
entry:
$ cat > spc-vault-database.yaml <<EOFapiVersion: secrets-store.csi.x-k8s.io/v1kind: SecretProviderClassmetadata: name: vault-databasespec: provider: vault secretObjects: - data: - key: password objectName: db-password secretName: dbpass type: Opaque parameters: vaultAddress: "http://vault.default:8200" roleName: "database" objects: | - objectName: "db-password" secretPath: "secret/data/db-pass" secretKey: "password"EOF
Apply the change:
$ kubectl apply --filename spc-vault-database.yaml
When a pod references this SecretProviderClass, the CSI driver will create a Kubernetes secret called "dbpass" with the "password" field set to the contents of the "db-password" object from the parameters. The pod will wait for the secret to be created before starting, and the secret will be deleted when the pod stops.
Next, update the pod to reference the new secret:
$ cat > webapp-pod.yaml <<EOFkind: PodapiVersion: v1metadata: name: webappspec: serviceAccountName: webapp-sa containers: - image: jweissig/app:0.0.1 name: webapp env: - name: DB_PASSWORD valueFrom: secretKeyRef: name: dbpass key: password volumeMounts: - name: secrets-store-inline mountPath: "/mnt/secrets-store" readOnly: true volumes: - name: secrets-store-inline csi: driver: secrets-store.csi.k8s.io readOnly: true volumeAttributes: secretProviderClass: "vault-database"EOF
Notice there is now an env
entry, referencing a secret. Delete and redeploy
the pod:
$ kubectl delete pod webapp && kubectl apply --filename webapp-pod.yaml
Deploy the updated configs and wait until the webapp
pod has come up again.
$ kubectl get podsNAME READY STATUS RESTARTS AGEcsi-secrets-store-csi-driver-w2xxv 3/3 Running 0 4m28svault-0 1/1 Running 0 5m57svault-csi-provider-qxz8d 1/1 Running 0 5m57swebapp 1/1 Running 0 36s
You can now verify the Kubernetes secret has been created:
$ kubectl get secret dbpassNAME TYPE DATA AGEdbpass Opaque 1 89s
And you can also verify the secret is available in the pod's environment:
$ kubectl exec webapp -- env | grep DB_PASSWORDDB_PASSWORD=db-secret-password
Next steps
The Kubernetes Container Storage Interface (CSI) is an extensible approach to the management of storage alongside the lifecycle of containers. Learn more about the Secrets Store CSI driver and the Vault provider in this tutorial to accomplish the secrets management for the container.
Secrets mounted on ephemeral volumes is one approach to manage secrets for applications pods. Explore how pods can retrieve them directly via network requests and through the Vault Injector service via annotations.