a0ccdfcdb1
Updated vault and chart versions, and some formatting from the pre-commit hook. Also updated chart values.
564 lines
18 KiB
Plaintext
564 lines
18 KiB
Plaintext
---
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layout: docs
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page_title: Running Vault - Kubernetes
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description: >-
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Vault can run directly on Kubernetes in various configurations. For
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pure-Kubernetes workloads, this enables Vault to also exist purely within
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Kubernetes.
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---
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# Run Vault on Kubernetes
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Vault works with Kubernetes in various modes: `dev`, `standalone`, `ha`,
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and `external`.
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~> **Important Note:** This chart is not compatible with Helm 2. Please use Helm 3 with this chart.
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## Helm Chart
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The [Vault Helm chart](https://github.com/hashicorp/vault-helm)
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is the recommended way to install and configure Vault on Kubernetes.
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In addition to running Vault itself, the Helm chart is the primary
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method for installing and configuring Vault to integrate with other
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services such as Consul for High Availability (HA) deployments.
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While the Helm chart automatically sets up complex resources and exposes the
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configuration to meet your requirements, it **does not automatically operate
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Vault.** You are still responsible for learning how to monitor, backup, upgrade,
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etc. the Vault cluster.
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~> **Security Warning:** By default, the chart runs in standalone mode. This
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mode uses a single Vault server with a file storage backend. This is a less
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secure and less resilient installation that is **NOT** appropriate for a
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production setup. It is highly recommended to use a [properly secured Kubernetes
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cluster](https://kubernetes.io/docs/tasks/administer-cluster/securing-a-cluster/),
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[learn the available configuration
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options](/docs/platform/k8s/helm/configuration), and read the [production deployment
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checklist](/docs/platform/k8s/helm/run#architecture).
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## How-To
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### Install Vault
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Helm must be installed and configured on your machine. Please refer to the [Helm
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documentation](https://helm.sh/) or the [Vault Installation to Minikube via
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Helm](https://learn.hashicorp.com/vault/getting-started-k8s/minikube) guide.
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To use the Helm chart, add the Hashicorp helm repository and check that you have
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access to the chart:
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@include 'helm/repo.mdx'
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-> **Important:** The Helm chart is new and under significant development.
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Please always run Helm with `--dry-run` before any install or upgrade to verify
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changes.
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Use `helm install` to install the latest release of the Vault Helm chart.
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```shell-session
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$ helm install vault hashicorp/vault
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```
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Or install a specific version of the chart.
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@include 'helm/install.mdx'
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The `helm install` command accepts parameters to override default configuration
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values inline or defined in a file.
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Override the `server.dev.enabled` configuration value:
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```shell-session
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$ helm install vault hashicorp/vault \
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--set "server.dev.enabled=true"
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```
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Override all the configuration found in a file:
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```shell-session
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$ cat override-values.yml
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server:
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ha:
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enabled: true
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replicas: 5
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##
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$ helm install vault hashicorp/vault \
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--values override-values.yml
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```
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#### Dev mode
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The Helm chart may run a Vault server in development. This installs a single
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Vault server with a memory storage backend.
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-> **Dev mode:** This is ideal for learning and demonstration environments but
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NOT recommended for a production environment.
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Install the latest Vault Helm chart in development mode.
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```shell-session
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$ helm install vault hashicorp/vault \
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--set "server.dev.enabled=true"
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```
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#### Standalone mode
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The Helm chart defaults to run in `standalone` mode. This installs a single
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Vault server with a file storage backend.
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Install the latest Vault Helm chart in standalone mode.
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```shell-session
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$ helm install vault hashicorp/vault
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```
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#### HA mode
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The Helm chart may be run in high availability (HA) mode. This installs three
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Vault servers with an existing Consul storage backend. It is suggested that
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Consul is installed via the [Consul Helm
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chart](https://github.com/hashicorp/consul-helm).
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Install the latest Vault Helm chart in HA mode.
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```shell-session
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$ helm install vault hashicorp/vault \
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--set "server.ha.enabled=true"
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```
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-> **Step-by-step instructions:** The [Vault Installation to Minikube via
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Helm](https://learn.hashicorp.com/vault/getting-started-k8s/minikube) guide
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demonstrates set up of Consul and Vault in HA mode.
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#### External mode
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The Helm chart may be run in external mode. This installs no Vault server and
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relies on a network addressable Vault server to exist.
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Install the latest Vault Helm chart in external mode.
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```shell-session
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$ helm install vault hashicorp/vault \
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--set "injector.externalVaultAddr=http://external-vault:8200"
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```
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-> **Step-by-step instructions:** The [Integrate a Kubernetes Cluster with an
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External
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Vault](https://learn.hashicorp.com/vault/getting-started-k8s/external-vault)
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guide demonstrates using an external Vault within a Kubernetes cluster.
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### View the Vault UI
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The Vault UI is enabled but NOT exposed as service for security reasons. The
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Vault UI can also be exposed via port-forwarding or through a [`ui`
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configuration value](/docs/platform/k8s/helm/configuration/#ui).
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Expose the Vault UI with port-forwarding:
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```shell-session
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$ kubectl port-forward vault-0 8200:8200
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Forwarding from 127.0.0.1:8200 -> 8200
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Forwarding from [::1]:8200 -> 8200
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##...
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```
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### Initialize and unseal Vault
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After the Vault Helm chart is installed in `standalone` or `ha` mode one of the
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Vault servers need to be
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[initialized](/docs/commands/operator/init). The
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initialization generates the credentials necessary to
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[unseal](/docs/concepts/seal#why) all the Vault
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servers.
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#### CLI initialize and unseal
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View all the Vault pods in the current namespace:
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```shell-session
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$ kubectl get pods -l app.kubernetes.io/name=vault
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NAME READY STATUS RESTARTS AGE
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vault-0 0/1 Running 0 1m49s
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vault-1 0/1 Running 0 1m49s
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vault-2 0/1 Running 0 1m49s
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```
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Initialize one Vault server with the default number of key shares and default
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key threshold:
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```shell-session
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$ kubectl exec -ti vault-0 -- vault operator init
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Unseal Key 1: MBFSDepD9E6whREc6Dj+k3pMaKJ6cCnCUWcySJQymObb
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Unseal Key 2: zQj4v22k9ixegS+94HJwmIaWLBL3nZHe1i+b/wHz25fr
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Unseal Key 3: 7dbPPeeGGW3SmeBFFo04peCKkXFuuyKc8b2DuntA4VU5
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Unseal Key 4: tLt+ME7Z7hYUATfWnuQdfCEgnKA2L173dptAwfmenCdf
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Unseal Key 5: vYt9bxLr0+OzJ8m7c7cNMFj7nvdLljj0xWRbpLezFAI9
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Initial Root Token: s.zJNwZlRrqISjyBHFMiEca6GF
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##...
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```
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The output displays the key shares and initial root key generated.
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Unseal the Vault server with the key shares until the key threshold is met:
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```sh
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## Unseal the first vault server until it reaches the key threshold
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$ kubectl exec -ti vault-0 -- vault operator unseal # ... Unseal Key 1
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$ kubectl exec -ti vault-0 -- vault operator unseal # ... Unseal Key 2
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$ kubectl exec -ti vault-0 -- vault operator unseal # ... Unseal Key 3
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```
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Repeat the unseal process for all Vault server pods. When all Vault server pods
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are unsealed they report READY `1/1`.
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```shell-session
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$ kubectl get pods -l app.kubernetes.io/name=vault
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NAME READY STATUS RESTARTS AGE
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vault-0 1/1 Running 0 1m49s
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vault-1 1/1 Running 0 1m49s
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vault-2 1/1 Running 0 1m49s
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```
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#### Google KMS Auto Unseal
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The Helm chart may be run with [Google KMS for Auto
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Unseal](/docs/configuration/seal/gcpckms). This enables Vault server pods to
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auto unseal if they are rescheduled.
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Vault Helm requires the Google Cloud KMS credentials stored in
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`credentials.json` and mounted as a secret in each Vault server pod.
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##### Create the Secret
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First, create the secret in Kubernetes:
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```bash
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kubectl create secret generic kms-creds --from-file=credentials.json
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```
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Vault Helm mounts this to `/vault/userconfig/kms-creds/credentials.json`.
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##### Config Example
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This is a Vault Helm configuration that uses Google KMS:
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```yaml
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global:
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enabled: true
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server:
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extraEnvironmentVars:
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GOOGLE_REGION: global
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GOOGLE_PROJECT: <PROJECT NAME>
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GOOGLE_APPLICATION_CREDENTIALS: /vault/userconfig/kms-creds/credentials.json
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extraVolumes:
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- type: 'secret'
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name: 'kms-creds'
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ha:
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enabled: true
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replicas: 3
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config: |
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ui = true
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listener "tcp" {
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tls_disable = 1
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address = "[::]:8200"
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cluster_address = "[::]:8201"
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}
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seal "gcpckms" {
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project = "<NAME OF PROJECT>"
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region = "global"
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key_ring = "<NAME OF KEYRING>"
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crypto_key = "<NAME OF KEY>"
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}
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storage "consul" {
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path = "vault"
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address = "HOST_IP:8500"
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}
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```
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#### Amazon KMS Auto Unseal
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The Helm chart may be run with [AWS KMS for Auto
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Unseal](/docs/configuration/seal/awskms). This enables Vault server pods to auto
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unseal if they are rescheduled.
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Vault Helm requires the AWS credentials stored as environment variables that
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are defined in each Vault server pod.
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##### Create the Secret
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First, create a secret with your KMS access key/secret:
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```shell-session
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$ kubectl create secret generic kms-creds \
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--from-literal=AWS_ACCESS_KEY_ID="${AWS_ACCESS_KEY_ID?}" \
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--from-literal=AWS_SECRET_ACCESS_KEY="${AWS_SECRET_ACCESS_KEY?}"
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```
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##### Config Example
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This is a Vault Helm configuration that uses AWS KMS:
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```yaml
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global:
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enabled: true
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server:
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extraSecretEnvironmentVars:
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- envName: AWS_ACCESS_KEY_ID
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secretName: kms-creds
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secretKey: AWS_ACCESS_KEY_ID
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- envName: AWS_SECRET_ACCESS_KEY
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secretName: kms-creds
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secretKey: AWS_SECRET_ACCESS_KEY
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ha:
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enabled: true
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config: |
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ui = true
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listener "tcp" {
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tls_disable = 1
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address = "[::]:8200"
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cluster_address = "[::]:8201"
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}
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seal "awskms" {
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region = "KMS_REGION_HERE"
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kms_key_id = "KMS_KEY_ID_HERE"
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}
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storage "consul" {
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path = "vault"
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address = "HOST_IP:8500"
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}
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```
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### Probes
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Probes are essential for detecting failures, rescheduling and using pods in
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Kubernetes. The helm chart offers configurable readiness and liveliness probes
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which can be customized for a variety of use cases.
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Vault's [/sys/health`](/api-docs/system/health) endpoint can be customized to
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change the behavior of the health check. For example, we can change the Vault
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readiness probe to show the Vault pods are ready even if they're still uninitialized
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and sealed using the following probe:
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```yaml
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server:
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readinessProbe:
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enabled: true
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path: '/v1/sys/health?standbyok=true&sealedcode=204&uninitcode=204'
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```
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Using this customized probe, a `postStart` script could automatically run once the
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pod is ready for additional setup.
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### Upgrading Vault on Kubernetes
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To upgrade Vault on Kubernetes, we follow the same pattern as
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[generally upgrading Vault](/docs/upgrading), except we can use
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the Helm chart to update the Vault server StatefulSet. It is important to understand
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how to [generally upgrade Vault](/docs/upgrading) before reading this
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section.
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The Vault StatefulSet uses `OnDelete` update strategy. It is critical to use `OnDelete` instead
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of `RollingUpdate` because standbys must be updated before the active primary. A
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failover to an older version of Vault must always be avoided.
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!> **IMPORTANT NOTE:** Always back up your data before upgrading! Vault does not
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make backward-compatibility guarantees for its data store. Simply replacing the
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newly-installed Vault binary with the previous version not cleanly
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downgrade Vault, as upgrades may perform changes to the underlying data
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structure that make the data incompatible with a downgrade. If you need to roll
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back to a previous version of Vault, you should roll back your data store as
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well.
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#### Upgrading Vault Servers
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!> **IMPORTANT NOTE:** Helm will install the latest chart found in a repo by default.
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It's recommended to specify the chart version when upgrading.
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To initiate the upgrade, set the `server.image` values to the desired Vault
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version, either in a values yaml file or on the command line. For illustrative
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purposes, the example below uses `vault:123.456`.
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```yaml
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server:
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image:
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repository: 'vault'
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tag: '123.456'
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```
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Next, list the Helm versions and choose the desired version to install.
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```bash
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$ helm search repo hashicorp/vault
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NAME CHART VERSION APP VERSION DESCRIPTION
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hashicorp/vault 0.17.0 1.8.4 Official HashiCorp Vault Chart
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```
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Next, test the upgrade with `--dry-run` first to verify the changes sent to the
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Kubernetes cluster.
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```shell-session
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$ helm upgrade vault hashicorp/vault --version=0.17.0 \
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--set='server.image.repository=vault' \
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--set='server.image.tag=123.456' \
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--dry-run
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```
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This should cause no changes (although the resources are updated). If
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everything is stable, `helm upgrade` can be run.
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The `helm upgrade` command should have updated the StatefulSet template for
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the Vault servers, however, no pods have been deleted. The pods must be manually
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deleted to upgrade. Deleting the pods does not delete any persisted data.
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If Vault is not deployed using `ha` mode, the single Vault server may be deleted by
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running:
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```shell-session
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$ kubectl delete pod <name of Vault pod>
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```
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If Vault is deployed using `ha` mode, the standby pods must be upgraded first.
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To identify which pod is currently the active primary, run the following command
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on each Vault pod:
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```shell-session
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$ kubectl exec -ti <name of pod> -- vault status | grep "HA Mode"
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```
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Next, delete every pod that is not the active primary:
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```shell-session
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$ kubectl delete pod <name of Vault pods>
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```
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If auto-unseal is not being used, the newly scheduled Vault standby pods needs
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to be unsealed:
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```shell-session
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$ kubectl exec -ti <name of pod> -- vault operator unseal
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```
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Finally, once the standby nodes have been updated and unsealed, delete the active
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primary:
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```shell-session
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$ kubectl delete pod <name of Vault primary>
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```
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Similar to the standby nodes, the former primary also needs to be unsealed:
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```shell-session
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$ kubectl exec -ti <name of pod> -- vault operator unseal
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```
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After a few moments the Vault cluster should elect a new active primary. The Vault
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cluster is now upgraded!
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### Protecting Sensitive Vault Configurations
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Vault Helm renders a Vault configuration file during installation and stores the
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file in a Kubernetes configmap. Some configurations require sensitive data to be
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included in the configuration file and would not be encrypted at rest once created
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in Kubernetes.
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The following example shows how to add extra configuration files to Vault Helm
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to protect sensitive configurations from being in plaintext at rest using Kubernetes
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secrets.
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First, create a partial Vault configuration with the sensitive settings Vault
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loads during startup:
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```shell-session
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$ cat <<EOF >>config.hcl
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storage "mysql" {
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username = "user1234"
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password = "secret123!"
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database = "vault"
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}
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EOF
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```
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Next, create a Kubernetes secret containing this partial configuration:
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```shell-session
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$ kubectl create secret generic vault-storage-config \
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--from-file=config.hcl
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```
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Finally, mount this secret as an extra volume and add an additional `-config` flag
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to the Vault startup command:
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```shell-session
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$ helm install vault hashicorp/vault \
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--set='server.extraVolumes[0].type=secret' \
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--set='server.extraVolumes[0].name=vault-storage-config' \
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--set='server.extraArgs=-config=/vault/userconfig/vault-storage-config/config.hcl'
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```
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## Architecture
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We recommend running Vault on Kubernetes with the same
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[general architecture](/docs/internals/architecture)
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as running it anywhere else. There are some benefits Kubernetes can provide
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that eases operating a Vault cluster and we document those below. The standard
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[production deployment guide](https://learn.hashicorp.com/vault/day-one/production-hardening) is still an
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important read even if running Vault within Kubernetes.
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### Production Deployment Checklist
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_End-to-End TLS._ Vault should always be used with TLS in production. If
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intermediate load balancers or reverse proxies are used to front Vault,
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they should not terminate TLS. This way traffic is always encrypted in transit
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to Vault and minimizes risks introduced by intermediate layers. See the
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[official documentation](/docs/platform/k8s/helm/examples/standalone-tls/)
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for example on configuring Vault Helm to use TLS.
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_Single Tenancy._ Vault should be the only main process running on a machine.
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This reduces the risk that another process running on the same machine is
|
|
compromised and can interact with Vault. This can be accomplished by using Vault
|
|
Helm's `affinity` configurable. See the
|
|
[official documentation](/docs/platform/k8s/helm/examples/ha-with-consul/)
|
|
for example on configuring Vault Helm to use affinity rules.
|
|
|
|
_Enable Auditing._ Vault supports several auditing backends. Enabling auditing
|
|
provides a history of all operations performed by Vault and provides a forensics
|
|
trail in the case of misuse or compromise. Audit logs securely hash any sensitive
|
|
data, but access should still be restricted to prevent any unintended disclosures.
|
|
Vault Helm includes a configurable `auditStorage` option that provisions a persistent
|
|
volume to store audit logs. See the
|
|
[official documentation](/docs/platform/k8s/helm/examples/standalone-audit/)
|
|
for an example on configuring Vault Helm to use auditing.
|
|
|
|
_Immutable Upgrades._ Vault relies on an external storage backend for persistence,
|
|
and this decoupling allows the servers running Vault to be managed immutably.
|
|
When upgrading to new versions, new servers with the upgraded version of Vault
|
|
are brought online. They are attached to the same shared storage backend and
|
|
unsealed. Then the old servers are destroyed. This reduces the need for remote
|
|
access and upgrade orchestration which may introduce security gaps. See the
|
|
[upgrade section](#how-to) for instructions
|
|
on upgrading Vault on Kubernetes.
|
|
|
|
_Upgrade Frequently._ Vault is actively developed, and updating frequently is
|
|
important to incorporate security fixes and any changes in default settings such
|
|
as key lengths or cipher suites. Subscribe to the Vault mailing list and
|
|
GitHub CHANGELOG for updates.
|
|
|
|
_Restrict Storage Access._ Vault encrypts all data at rest, regardless of which
|
|
storage backend is used. Although the data is encrypted, an attacker with arbitrary
|
|
control can cause data corruption or loss by modifying or deleting keys. Access
|
|
to the storage backend should be restricted to only Vault to avoid unauthorized
|
|
access or operations.
|