Retrieve secrets for Kubernetes workloads with Vault Agent
Nearly all requests to Vault must be accompanied by an authentication token. This includes all API requests, as well as via the Vault CLI and other libraries. If you can securely get the first secret from an originator to a consumer, all subsequent secrets transmitted between this originator and consumer can be authenticated with the trust established by the successful distribution and user of that first secret.
Challenge
The applications running in a Kubernetes environment is no exception. Luckily, Vault provides Kubernetes auth method to authenticate the clients using a Kubernetes Service Account Token.
However, the client is still responsible for managing the lifecycle of its Vault tokens. Therefore, the next challenge becomes how to manage the lifecycle of tokens in a standard way without having to write custom logic.
Solution
Vault Agent provides a number of different helper features, specifically addressing the following challenges:
- Automatic authentication
- Secure delivery/storage of tokens
- Lifecycle management of these tokens (renewal & re-authentication)
Note
Though this tutorial focuses on the demonstration of the Vault Agent Auto-Auth using the kubernetes
auth method for application integration, there are two other options. The other options are the Vault Secrets Operator and the Agent Sidecar Injector.
Refer to Vault Secrets Operator and Injecting Secrets into Kubernetes Pods via Vault Helm Sidecar for a step-by-step tutorial on these options.
Prerequisites
To perform the tasks described in this tutorial, you need:
- Docker
- Kubernetes command-line interface (CLI)
- minikube
- A running Vault environment reachable from your Kubernetes environment. Refer to the Vault install guide to install Vault. Make sure that your Vault server has been initialized and unsealed
Install supporting tools
This tutorial was last tested 13 November 2023 on a macOS 13.5.2 using the following software versions.
$ docker versionClient: Cloud integration: v1.0.35+desktop.5 Version: 24.0.6...
$ kubectl version --shortClient Version: v1.28.3Kustomize Version: v5.0.4-0.20230601165947-6ce0bf390ce3...
$ minikube versionminikube version: v1.32.0commit: 8220a6eb95f0a4d75f7f2d7b14cef975f050512d
Retrieve the additional configuration by cloning the hashicorp/learn-vault-agent repository from GitHub.
$ git clone https://github.com/hashicorp-education/learn-vault-agent
This repository contains supporting content for all of the Vault learn tutorials. The content specific to this tutorial can be found in a sub-directory.
Go into the
learn-vault-agent/vault-agent-k8s-demo
directory.$ cd learn-vault-agent/vault-agent-k8s-demo
Working directory
This tutorial assumes that the remainder of commands are executed in this directory.
Start a Vault server
To go through this tutorial, start a Vault dev server which listens for requests locally at
0.0.0.0:8200
withroot
as the root token ID.$ vault server -dev -dev-root-token-id root -dev-listen-address 0.0.0.0:8200
Setting the
-dev-listen-address
to0.0.0.0:8200
overrides the default address of a Vault dev server (127.0.0.1:8200
) and enables Vault to be addressable by the Kubernetes cluster and its pods because it binds to a shared network.Insecure operation
Do not run a Vault dev server in production. This approach is only used here to simplify the unsealing process for this demonstration.
Export an environment variable for the
vault
CLI to address the Vault server.$ export VAULT_ADDR=http://0.0.0.0:8200
Create a service account
Start a Kubernetes cluster running in minikube.
$ minikube start --driver=docker
Wait a couple of minutes for the minikube environment to become fully available.
$ minikube status minikubetype: Control Planehost: Runningkubelet: Runningapiserver: Runningkubeconfig: Configured
In Kubernetes, a service account provides an identity for processes that run in a Pod so that the processes can contact the API server. Open the provided
vault-auth-service-account.yaml
file in your preferred text editor and examine its content for the service account definition to be used for this tutorial.vault-auth-service-account.yaml
apiVersion: v1kind: ServiceAccountmetadata: name: vault-auth namespace: default---apiVersion: rbac.authorization.k8s.io/v1kind: ClusterRoleBindingmetadata: name: role-tokenreview-binding namespace: defaultroleRef: apiGroup: rbac.authorization.k8s.io kind: ClusterRole name: system:auth-delegatorsubjects:- kind: ServiceAccount name: vault-auth namespace: default
Create the
vault-auth
service account.$ kubectl apply --filename vault-auth-service-account.yaml
Kubernetes 1.24+ only
The service account generated a secret that is required for configuration automatically in Kubernetes 1.23. In Kubernetes 1.24+, you need to create the secret explicitly.
vault-auth-secret.yaml
apiVersion: v1kind: Secretmetadata: name: vault-auth-secret annotations: kubernetes.io/service-account.name: vault-authtype: kubernetes.io/service-account-token
Create a
vault-auth-secret
secret.$ kubectl apply --filename vault-auth-secret.yaml
Configure Kubernetes auth method
Create a read-only policy,
myapp-kv-ro
in Vault.$ vault policy write myapp-kv-ro - <<EOFpath "secret/data/myapp/*" { capabilities = ["read", "list"]}EOF
Create some test data at the
secret/myapp
path.$ vault kv put secret/myapp/config \ username='appuser' \ password='suP3rsec(et!' \ ttl='30s'
Output:
====== Secret Path ======secret/data/myapp/config======= Metadata =======Key Value--- -----created_time 2022-03-24T06:09:49.99472Zcustom_metadata <nil>deletion_time n/adestroyed falseversion 1
Set the environment variables to point to the running minikube environment.
Set the
SA_SECRET_NAME
environment variable value to thevault-auth
service account secret.$ export SA_SECRET_NAME=$(kubectl get secrets --output=json \ | jq -r '.items[].metadata | select(.name|startswith("vault-auth-")).name')
Set the
SA_JWT_TOKEN
environment variable value to the service account JWT used to access the TokenReview API$ export SA_JWT_TOKEN=$(kubectl get secret $SA_SECRET_NAME \ --output 'go-template={{ .data.token }}' | base64 --decode)
Set the
SA_CA_CRT
environment variable value to the PEM encoded CA cert used to talk to Kubernetes API.$ export SA_CA_CRT=$(kubectl config view --raw --minify --flatten --output 'jsonpath={.clusters[].cluster.certificate-authority-data}' | base64 --decode | awk '{printf "%s\\n", $0}')
Set the
K8S_HOST
environment variable value to minikube IP address.$ export K8S_HOST=$(kubectl config view --raw --minify --flatten \ --output 'jsonpath={.clusters[].cluster.server}')
Now, enable and configure the Kubernetes auth method.
Enable the Kubernetes auth method at the default path ("auth/kubernetes").
$ vault auth enable kubernetesSuccess! Enabled kubernetes auth method at: kubernetes/
Tell Vault how to communicate with the Kubernetes (minikube) cluster.
$ vault write auth/kubernetes/config \ token_reviewer_jwt="$SA_JWT_TOKEN" \ kubernetes_host="$K8S_HOST" \ kubernetes_ca_cert="$SA_CA_CRT" \ issuer="https://kubernetes.default.svc.cluster.local"
Output:
Success! Data written to: auth/kubernetes/config
You can validate the issuer name of your Kubernetes cluster found under Discovering the service account issuer.
Create a role named,
example
, that maps the Kubernetes Service Account to Vault policies and default token TTL.$ vault write auth/kubernetes/role/example \ bound_service_account_names=vault-auth \ bound_service_account_namespaces=default \ token_policies=myapp-kv-ro \ ttl=24h
Output:
Success! Data written to: auth/kubernetes/role/example
Note
The pattern Vault uses to authenticate Pods depends on sharing the JWT token over the network. Given the security model of Vault, this is allowable because Vault is part of the trusted compute base. In general, Kubernetes applications should not share this JWT with other applications, as it allows API calls to be made on behalf of the Pod and can result in unintended access being granted to 3rd parties.
Determine the Vault address
A service bound to all networks on the host, as you configured Vault, is addressable by pods within minikube's cluster by sending requests to the gateway address of the Kubernetes cluster.
Start a minikube SSH session.
$ minikube ssh## ... minikube ssh login
Within this SSH session, retrieve the value of the minikube host. TODO: is there a better way?
$ dig +short host.docker.internal192.168.65.2
Docker networking
The host has a changing IP address (or none if you have no network access). It is recommended that you connect to the special DNS name
host.docker.internal
which resolves to the internal IP address used by the host. This is for development purpose and will not work in production. For more information, review the documentation for Mac, Windows.Next, retrieve the status of the Vault server to verify network connectivity.
$ dig +short host.docker.internal | xargs -I{} curl -s http://{}:8200/v1/sys/seal-status | python3 -m json.tool{ "type": "shamir", "initialized": true, "sealed": false, "t": 1, "n": 1, "progress": 0, "nonce": "", "version": "1.4.1+ent", "migration": false, "cluster_name": "vault-cluster-3de6c2d3", "cluster_id": "10fd177e-d55a-d740-0c54-26268ed86e31", "recovery_seal": false, "storage_type": "inmem"}
The output displays that Vault is initialized and unsealed. This confirms that pods within your cluster are able to reach Vault given that each pod is configured to use the gateway address.
Next, exit the minikube SSH session.
$ exit
Finally, create a variable named
EXTERNAL_VAULT_ADDR
to capture the minikube gateway address.$ EXTERNAL_VAULT_ADDR=$(minikube ssh "dig +short host.docker.internal" | tr -d '\r')
Verify that the variable contains the IP address you saw when executed in the minikube shell.
$ echo $EXTERNAL_VAULT_ADDR192.168.65.2
Optional: Verify the Kubernetes auth method configuration
Define a Pod with a container.
$ cat > devwebapp.yaml <<EOFapiVersion: v1kind: Podmetadata: name: devwebapp labels: app: devwebappspec: serviceAccountName: vault-auth containers: - name: devwebapp image: burtlo/devwebapp-ruby:k8s env: - name: VAULT_ADDR value: "http://$EXTERNAL_VAULT_ADDR:8200"EOF
The Pod is named
devwebapp
and runs with thevault-auth
service account.Create the
devwebapp
pod in thedefault
namespace$ kubectl apply --filename devwebapp.yaml --namespace defaultpod/devwebapp created
Display all the pods in the default namespace. Wait until the
devwebapp
pod is running and ready (1/1
).$ kubectl get podsNAME READY STATUS RESTARTS AGEdevwebapp 1/1 Running 0 77s
Start an interactive shell session on the
devwebapp
pod.$ kubectl exec --stdin=true --tty=true devwebapp -- /bin/sh#
Your system prompt is replaced with a new prompt
#
.Note
The prompt within this section is shown as
$
but the commands are intended to be executed within this interactive shell on thedevwebapp
container.Set
KUBE_TOKEN
to the service account token.$ KUBE_TOKEN=$(cat /var/run/secrets/kubernetes.io/serviceaccount/token)
Authenticate with Vault through the
example
role with theKUBE_TOKEN
.$ curl --request POST \ --data '{"jwt": "'"$KUBE_TOKEN"'", "role": "example"}' \ $VAULT_ADDR/v1/auth/kubernetes/login | python3 -m json.tool
Example output:
{ ...snip... "auth": { "client_token": "hvs.CAESIBxfvzds7M4tas017ls36Dl_kA-3YpCCBT9wczP1E41DGh4KHGh2cy5JYW1NMmFkb2gwTVBhZVhsN0pDM0tOaWM", "accessor": "1Miu5tbfuZzYuYWCntb4Ztke", "policies": [ "default", "myapp-kv-ro" ], "token_policies": [ "default", "myapp-kv-ro" ], "metadata": { "role": "example", "service_account_name": "vault-auth", "service_account_namespace": "default", "service_account_secret_name": "", "service_account_uid": "a293b5fb-96a2-43b0-acee-03d9ffce9423" }, "lease_duration": 86400, "renewable": true, "entity_id": "8925670b-d8d6-0792-ee56-eec1a9e740cb", "token_type": "service", "orphan": true, "mfa_requirement": null, "num_uses": 0 }}
Notice that
client_token
is successfully generated andmyapp-kv-ro
policy is attached with the token. Themetadata
displays that its service account name (service_account_name
) isvault-auth
.Lastly, exit the pod.
$ exit
Start Vault Agent with Auto-Auth
Now that you have verified that the Kubernetes auth method has been configured on the Vault server, it is time to spin up a client Pod which leverages Vault Agent to automatically authenticate with Vault and retrieve a client token.
First, open the provided
configmap.yaml
file in your preferred text editor and review its content.configmap.yaml
apiVersion: v1data: vault-agent-config.hcl: | # Comment this out if running as sidecar instead of initContainer exit_after_auth = true pid_file = "/home/vault/pidfile" auto_auth { method "kubernetes" { mount_path = "auth/kubernetes" config = { role = "example" } } sink "file" { config = { path = "/home/vault/.vault-token" } } } template { destination = "/etc/secrets/index.html" contents = <<EOT <html> <body> <p>Some secrets:</p> {{- with secret "secret/data/myapp/config" }} <ul> <li><pre>username: {{ .Data.data.username }}</pre></li> <li><pre>password: {{ .Data.data.password }}</pre></li> </ul> {{ end }} </body> </html> EOT }kind: ConfigMapmetadata: name: example-vault-agent-config namespace: default
This creates a Vault Agent configuration file,
vault-agent-config.hcl
. Notice that the Vault Agent Auto-Auth (auto_auth
block) is configured to use thekubernetes
auth method enabled at theauth/kubernetes
path on the Vault server. The Vault Agent will use theexample
role which you created in Configure Kubernetes auth method.The
sink
block specifies the location on disk where to write tokens. Vault Agent Auto-Authsink
can be configured multiple times if you want Vault Agent to place the token into multiple locations. In this example, thesink
is set to/home/vault/.vault-token
.The template block creates a file which retrieves
username
andpassword
values at thesecret/data/myapp/config
path.Create a ConfigMap containing a Vault Agent configuration.
$ kubectl create --filename configmap.yamlconfigmap/example-vault-agent-config created
View the created ConfigMap.
$ kubectl get configmap example-vault-agent-config --output yaml
An example Pod spec file is provided. Review the provided example Pod spec file,
example-k8s-spec.yaml
.example-k8s-spec.yaml
apiVersion: v1kind: Podmetadata: name: vault-agent-example namespace: defaultspec: serviceAccountName: vault-auth volumes: - configMap: items: - key: vault-agent-config.hcl path: vault-agent-config.hcl name: example-vault-agent-config name: config - emptyDir: {} name: shared-data initContainers: - args: - agent - -config=/etc/vault/vault-agent-config.hcl - -log-level=debug env: - name: VAULT_ADDR value: http://EXTERNAL_VAULT_ADDR:8200 image: vault name: vault-agent volumeMounts: - mountPath: /etc/vault name: config - mountPath: /etc/secrets name: shared-data containers: - image: nginx name: nginx-container ports: - containerPort: 80 volumeMounts: - mountPath: /usr/share/nginx/html name: shared-data
The example Pod spec (
example-k8s-spec.yaml
) spins up two containers invault-agent-example
pod. A Vault container which runs Vault Agent as an Init Container and annginx
container exposing port 80.The Vault address,
VAULT_ADDR
, is set to a placeholder valueEXTERNAL_VAULT_ADDR
.Generate the Pod spec with
EXTERNAL_VAULT_ADDR
variable value in its place.$ cat example-k8s-spec.yaml | \ sed -e s/"EXTERNAL_VAULT_ADDR"/"$EXTERNAL_VAULT_ADDR"/ \ > vault-agent-example.yaml
Create the
vault-agent-example
pod defined invault-agent-example.yaml
.$ kubectl apply --filename vault-agent-example.yaml --record
This takes a minute or so for the pod to become fully up and running.
Verification
In another terminal, launch the minikube dashboard.
$ minikube dashboard
Under Workloads click Pods to verify that
vault-agent-example
pod has been created successfully.Select vault-agent-example to see its details.
In another terminal, port forward all requests made to
http://localhost:8080
to port80
on thevault-agent-example
pod.$ kubectl port-forward pod/vault-agent-example 8080:80
In a web browser, go to
localhost:8080
Notice that the
username
andpassword
values were successfully read fromsecret/myapp/config
.Optionally, you can view the HTML source.
$ kubectl exec -it vault-agent-example --container nginx-container -- cat /usr/share/nginx/html/index.html<html><body><p>Some secrets:</p><ul><li><pre>username: appuser</pre></li><li><pre>password: suP3rsec(et!</pre></li></ul> </body></html>
Clean up
Stop the cluster.
$ minikube stop✋ Stopping node "minikube" ...🛑 Powering off "minikube" via SSH ...🛑 1 node stopped.
Delete the cluster.
$ minikube delete🔥 Deleting "minikube" in docker ...🔥 Deleting container "minikube" ...🔥 Removing /Users/mrken/.minikube/machines/minikube ...💀 Removed all traces of the "minikube" cluster
Delete the supporting code repository copied locally.
$ cd ../.. && rm -rf learn-vault-agent
Stop the Vault server process.
$ pkill vault
Help and reference
- Blog post: Why Use the Vault Agent for Secrets Management?
- Video: Streamline Secrets Management with Vault Agent and Vault 0.11
- Secure Introduction of Vault Clients
- Vault Agent Auto-Auth
- Kubernetes Auth Method
- Kubernetes Auth Method (API)
- Vault Kubernetes Workshop on Google Cloud Platform
- Kubernetes Tutorials
- Consul Template
- Vault Secrets Operator
- Vault Secrets Operator Tutorial