values.yaml

# Available parameters and their default values for the Vault chart.

global:
  # enabled is the master enabled switch. Setting this to true or false
  # will enable or disable all the components within this chart by default.
  enabled: true
  # Image pull secret to use for registry authentication.
  imagePullSecrets: []
  # imagePullSecrets:
  #   - name: image-pull-secret
  # TLS for end-to-end encrypted transport
  tlsDisable: true
  # If deploying to OpenShift
  openshift: false
  # Create PodSecurityPolicy for pods
  psp:
    enable: false
    # Annotation for PodSecurityPolicy.
    # This is a multi-line templated string map, and can also be set as YAML.
    annotations: |
      seccomp.security.alpha.kubernetes.io/allowedProfileNames: docker/default,runtime/default
      apparmor.security.beta.kubernetes.io/allowedProfileNames: runtime/default
      seccomp.security.alpha.kubernetes.io/defaultProfileName:  runtime/default
      apparmor.security.beta.kubernetes.io/defaultProfileName:  runtime/default

injector:
  # True if you want to enable vault agent injection.
  enabled: true

  # If true, will enable a node exporter metrics endpoint at /metrics.
  metrics:
    enabled: false

  # External vault server address for the injector to use. Setting this will
  # disable deployment of a vault server along with the injector.
  externalVaultAddr: ""

  # image sets the repo and tag of the vault-k8s image to use for the injector.
  image:
    repository: "hashicorp/vault-k8s"
    tag: "0.6.0"
    pullPolicy: IfNotPresent

  # agentImage sets the repo and tag of the Vault image to use for the Vault Agent
  # containers.  This should be set to the official Vault image.  Vault 1.3.1+ is
  # required.
  agentImage:
    repository: "vault"
    tag: "1.5.4"

  # Mount Path of the Vault Kubernetes Auth Method.
  authPath: "auth/kubernetes"

  # Configures the log verbosity of the injector. Supported log levels: Trace, Debug, Error, Warn, Info
  logLevel: "info"

  # Configures the log format of the injector. Supported log formats: "standard", "json".
  logFormat: "standard"

  # Configures all Vault Agent sidecars to revoke their token when shutting down
  revokeOnShutdown: false

  # namespaceSelector is the selector for restricting the webhook to only
  # specific namespaces.
  # See https://kubernetes.io/docs/reference/access-authn-authz/extensible-admission-controllers/#matching-requests-namespaceselector
  # for more details.
  # Example:
  # namespaceSelector:
  #    matchLabels:
  #      sidecar-injector: enabled
  namespaceSelector: {}

  # Configures failurePolicy of the webhook. By default webhook failures are ignored.
  # To block pod creation while webhook is unavailable, set the policy to `Fail` below.
  # See https://kubernetes.io/docs/reference/access-authn-authz/extensible-admission-controllers/#failure-policy
  #
  # failurePolcy: Fail

  certs:
    # secretName is the name of the secret that has the TLS certificate and
    # private key to serve the injector webhook. If this is null, then the
    # injector will default to its automatic management mode that will assign
    # a service account to the injector to generate its own certificates.
    secretName: null

    # caBundle is a base64-encoded PEM-encoded certificate bundle for the
    # CA that signed the TLS certificate that the webhook serves. This must
    # be set if secretName is non-null.
    caBundle: ""

    # certName and keyName are the names of the files within the secret for
    # the TLS cert and private key, respectively. These have reasonable
    # defaults but can be customized if necessary.
    certName: tls.crt
    keyName: tls.key

  resources: {}
  # resources:
  #   requests:
  #     memory: 256Mi
  #     cpu: 250m
  #   limits:
  #     memory: 256Mi
  #     cpu: 250m

  # extraEnvironmentVars is a list of extra environment variables to set in the
  # injector deployment.
  extraEnvironmentVars: {}
    # KUBERNETES_SERVICE_HOST: kubernetes.default.svc

  # Affinity Settings for injector pods
  # This should be a multi-line string matching the affinity section of a
  # PodSpec.
  affinity: null

  # Toleration Settings for injector pods
  # This should be a multi-line string matching the Toleration array
  # in a PodSpec.
  tolerations: null

  # nodeSelector labels for injector pod assignment, formatted as a muli-line string.
  # ref: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/#nodeselector
  # Example:
  # nodeSelector: |
  #   beta.kubernetes.io/arch: amd64
  nodeSelector: null

  # Priority class for injector pods
  priorityClassName: ""

  # Extra annotations to attach to the injector pods
  # This can either be YAML or a YAML-formatted multi-line templated string map
  # of the annotations to apply to the injector pods
  annotations: {}

server:
  # Resource requests, limits, etc. for the server cluster placement. This
  # should map directly to the value of the resources field for a PodSpec.
  # By default no direct resource request is made.

  image:
    repository: "vault"
    tag: "1.5.4"
    # Overrides the default Image Pull Policy
    pullPolicy: IfNotPresent

  # Configure the Update Strategy Type for the StatefulSet
  # See https://kubernetes.io/docs/concepts/workloads/controllers/statefulset/#update-strategies
  updateStrategyType: "OnDelete"

  resources: {}
  # resources:
  #   requests:
  #     memory: 256Mi
  #     cpu: 250m
  #   limits:
  #     memory: 256Mi
  #     cpu: 250m

  # Ingress allows ingress services to be created to allow external access
  # from Kubernetes to access Vault pods.
  # If deployment is on OpenShift, the following block is ignored.
  # In order to expose the service, use the route section below
  ingress:
    enabled: false
    labels: {}
      # traffic: external
    annotations: {}
      # |
      # kubernetes.io/ingress.class: nginx
      # kubernetes.io/tls-acme: "true"
      #   or
      # kubernetes.io/ingress.class: nginx
      # kubernetes.io/tls-acme: "true"
    hosts:
      - host: chart-example.local
        paths: []

    tls: []
    #  - secretName: chart-example-tls
    #    hosts:
    #      - chart-example.local

  # OpenShift only - create a route to expose the service
  # The created route will be of type passthrough
  route:
    enabled: false
    labels: {}
    annotations: {}
    host: chart-example.local

  # authDelegator enables a cluster role binding to be attached to the service
  # account.  This cluster role binding can be used to setup Kubernetes auth
  # method.  https://www.vaultproject.io/docs/auth/kubernetes.html
  authDelegator:
    enabled: true

  # extraInitContainers is a list of init containers. Specified as a YAML list.
  # This is useful if you need to run a script to provision TLS certificates or
  # write out configuration files in a dynamic way.
  extraInitContainers: null
    # # This example installs a plugin pulled from github into the /usr/local/libexec/vault/oauthapp folder,
    # # which is defined in the volumes value.
    # - name: oauthapp
    #   image: "alpine"
    #   command: [sh, -c]
    #   args:
    #     - cd /tmp &&
    #       wget https://github.com/puppetlabs/vault-plugin-secrets-oauthapp/releases/download/v1.2.0/vault-plugin-secrets-oauthapp-v1.2.0-linux-amd64.tar.xz -O oauthapp.xz &&
    #       tar -xf oauthapp.xz &&
    #       mv vault-plugin-secrets-oauthapp-v1.2.0-linux-amd64 /usr/local/libexec/vault/oauthapp &&
    #       chmod +x /usr/local/libexec/vault/oauthapp
    #   volumeMounts:
    #     - name: plugins
    #       mountPath: /usr/local/libexec/vault

  # extraContainers is a list of sidecar containers. Specified as a YAML list.
  extraContainers: null

  # shareProcessNamespace enables process namespace sharing between Vault and the extraContainers
  # This is useful if Vault must be signaled, e.g. to send a SIGHUP for log rotation
  shareProcessNamespace: false

  # extraArgs is a string containing additional Vault server arguments.
  extraArgs: ""

  # Used to define custom readinessProbe settings
  readinessProbe:
    enabled: true
    # If you need to use a http path instead of the default exec
    # path: /v1/sys/health?standbyok=true

    # When a probe fails, Kubernetes will try failureThreshold times before giving up
    failureThreshold: 2
    # Number of seconds after the container has started before probe initiates
    initialDelaySeconds: 5
    # How often (in seconds) to perform the probe
    periodSeconds: 5
    # Minimum consecutive successes for the probe to be considered successful after having failed
    successThreshold: 1
    # Number of seconds after which the probe times out.
    timeoutSeconds: 3
  # Used to enable a livenessProbe for the pods
  livenessProbe:
    enabled: false
    path: "/v1/sys/health?standbyok=true"
    # When a probe fails, Kubernetes will try failureThreshold times before giving up
    failureThreshold: 2
    # Number of seconds after the container has started before probe initiates
    initialDelaySeconds: 60
    # How often (in seconds) to perform the probe
    periodSeconds: 5
    # Minimum consecutive successes for the probe to be considered successful after having failed
    successThreshold: 1
    # Number of seconds after which the probe times out.
    timeoutSeconds: 3

  # Used to set the sleep time during the preStop step
  preStopSleepSeconds: 5

  # Used to define commands to run after the pod is ready.
  # This can be used to automate processes such as initialization
  # or boostrapping auth methods.
  postStart: []
  # - /bin/sh
  # - -c
  # - /vault/userconfig/myscript/run.sh

  # extraEnvironmentVars is a list of extra environment variables to set with the stateful set. These could be
  # used to include variables required for auto-unseal.
  extraEnvironmentVars: {}
    # GOOGLE_REGION: global
    # GOOGLE_PROJECT: myproject
    # GOOGLE_APPLICATION_CREDENTIALS: /vault/userconfig/myproject/myproject-creds.json

  # extraSecretEnvironmentVars is a list of extra environment variables to set with the stateful set.
  # These variables take value from existing Secret objects.
  extraSecretEnvironmentVars: []
    # - envName: AWS_SECRET_ACCESS_KEY
    #   secretName: vault
    #   secretKey: AWS_SECRET_ACCESS_KEY

  # extraVolumes is a list of extra volumes to mount. These will be exposed
  # to Vault in the path `/vault/userconfig/<name>/`. The value below is
  # an array of objects, examples are shown below.
  extraVolumes: []
    # - type: secret (or "configMap")
    #   name: my-secret
    #   path: null # default is `/vault/userconfig`

  # volumes is a list of volumes made available to all containers. These are rendered
  # via toYaml rather than pre-processed like the extraVolumes value.
  # The purpose is to make it easy to share volumes between containers.
  volumes: null
  #   - name: plugins
  #     emptyDir: {}

  # volumeMounts is a list of volumeMounts for the main server container. These are rendered
  # via toYaml rather than pre-processed like the extraVolumes value.
  # The purpose is to make it easy to share volumes between containers.
  volumeMounts: null
  #   - mountPath: /usr/local/libexec/vault
  #     name: plugins
  #     readOnly: true


  # Affinity Settings
  # Commenting out or setting as empty the affinity variable, will allow
  # deployment to single node services such as Minikube
  affinity: |
    podAntiAffinity:
      requiredDuringSchedulingIgnoredDuringExecution:
        - labelSelector:
            matchLabels:
              app.kubernetes.io/name: {{ template "vault.name" . }}
              app.kubernetes.io/instance: "{{ .Release.Name }}"
              component: server
          topologyKey: kubernetes.io/hostname

  # Toleration Settings for server pods
  # This should be a multi-line string matching the Toleration array
  # in a PodSpec.
  tolerations: null

  # nodeSelector labels for server pod assignment, formatted as a muli-line string.
  # ref: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/#nodeselector
  # Example:
  # nodeSelector: |
  #   beta.kubernetes.io/arch: amd64
  nodeSelector: null

  # Enables network policy for server pods
  networkPolicy:
    enabled: false

  # Priority class for server pods
  priorityClassName: ""

  # Extra labels to attach to the server pods
  # This should be a YAML map of the labels to apply to the server pods
  extraLabels: {}

  # Extra annotations to attach to the server pods
  # This can either be YAML or a YAML-formatted multi-line templated string map
  # of the annotations to apply to the server pods
  annotations: {}

  # Enables a headless service to be used by the Vault Statefulset
  service:
    enabled: true
    # clusterIP controls whether a Cluster IP address is attached to the
    # Vault service within Kubernetes.  By default the Vault service will
    # be given a Cluster IP address, set to None to disable.  When disabled
    # Kubernetes will create a "headless" service.  Headless services can be
    # used to communicate with pods directly through DNS instead of a round robin
    # load balancer.
    # clusterIP: None

    # Configures the service type for the main Vault service.  Can be ClusterIP
    # or NodePort.
    #type: ClusterIP

    # If type is set to "NodePort", a specific nodePort value can be configured,
    # will be random if left blank.
    #nodePort: 30000

    # Port on which Vault server is listening
    port: 8200
    # Target port to which the service should be mapped to
    targetPort: 8200
    # Extra annotations for the service definition. This can either be YAML or a
    # YAML-formatted multi-line templated string map of the annotations to apply
    # to the service.
    annotations: {}

  # This configures the Vault Statefulset to create a PVC for data
  # storage when using the file or raft backend storage engines.
  # See https://www.vaultproject.io/docs/configuration/storage/index.html to know more
  dataStorage:
    enabled: true
    # Size of the PVC created
    size: 10Gi
    # Location where the PVC will be mounted.
    mountPath: "/vault/data"
    # Name of the storage class to use.  If null it will use the
    # configured default Storage Class.
    storageClass: null
    # Access Mode of the storage device being used for the PVC
    accessMode: ReadWriteOnce
    # Annotations to apply to the PVC
    annotations: {}

  # This configures the Vault Statefulset to create a PVC for audit
  # logs.  Once Vault is deployed, initialized and unseal, Vault must
  # be configured to use this for audit logs.  This will be mounted to
  # /vault/audit
  # See https://www.vaultproject.io/docs/audit/index.html to know more
  auditStorage:
    enabled: false
    # Size of the PVC created
    size: 10Gi
    # Location where the PVC will be mounted.
    mountPath: "/vault/audit"
    # Name of the storage class to use.  If null it will use the
    # configured default Storage Class.
    storageClass: null
    # Access Mode of the storage device being used for the PVC
    accessMode: ReadWriteOnce
    # Annotations to apply to the PVC
    annotations: {}

  # Run Vault in "dev" mode. This requires no further setup, no state management,
  # and no initialization. This is useful for experimenting with Vault without
  # needing to unseal, store keys, et. al. All data is lost on restart - do not
  # use dev mode for anything other than experimenting.
  # See https://www.vaultproject.io/docs/concepts/dev-server.html to know more
  dev:
    enabled: false

  # Run Vault in "standalone" mode. This is the default mode that will deploy if
  # no arguments are given to helm. This requires a PVC for data storage to use
  # the "file" backend.  This mode is not highly available and should not be scaled
  # past a single replica.
  standalone:
    enabled: "-"

    # config is a raw string of default configuration when using a Stateful
    # deployment. Default is to use a PersistentVolumeClaim mounted at /vault/data
    # and store data there. This is only used when using a Replica count of 1, and
    # using a stateful set. This should be HCL.

    # Note: Configuration files are stored in ConfigMaps so sensitive data
    # such as passwords should be either mounted through extraSecretEnvironmentVars
    # or through a Kube secret.  For more information see:
    # https://www.vaultproject.io/docs/platform/k8s/helm/run#protecting-sensitive-vault-configurations
    config: |
      ui = true

      listener "tcp" {
        tls_disable = 1
        address = "[::]:8200"
        cluster_address = "[::]:8201"
      }
      storage "file" {
        path = "/vault/data"
      }

      # Example configuration for using auto-unseal, using Google Cloud KMS. The
      # GKMS keys must already exist, and the cluster must have a service account
      # that is authorized to access GCP KMS.
      #seal "gcpckms" {
      #   project     = "vault-helm-dev"
      #   region      = "global"
      #   key_ring    = "vault-helm-unseal-kr"
      #   crypto_key  = "vault-helm-unseal-key"
      #}

  # Run Vault in "HA" mode. There are no storage requirements unless audit log
  # persistence is required.  In HA mode Vault will configure itself to use Consul
  # for its storage backend.  The default configuration provided will work the Consul
  # Helm project by default.  It is possible to manually configure Vault to use a
  # different HA backend.
  ha:
    enabled: false
    replicas: 3

    # Set the api_addr configuration for Vault HA
    # See https://www.vaultproject.io/docs/configuration#api_addr
    # If set to null, this will be set to the Pod IP Address
    apiAddr: null

    # Enables Vault's integrated Raft storage.  Unlike the typical HA modes where
    # Vault's persistence is external (such as Consul), enabling Raft mode will create
    # persistent volumes for Vault to store data according to the configuration under server.dataStorage.
    # The Vault cluster will coordinate leader elections and failovers internally.
    raft:

      # Enables Raft integrated storage
      enabled: false
      # Set the Node Raft ID to the name of the pod
      setNodeId: false

      # Note: Configuration files are stored in ConfigMaps so sensitive data
      # such as passwords should be either mounted through extraSecretEnvironmentVars
      # or through a Kube secret.  For more information see:
      # https://www.vaultproject.io/docs/platform/k8s/helm/run#protecting-sensitive-vault-configurations
      config: |
        ui = true

        listener "tcp" {
          tls_disable = 1
          address = "[::]:8200"
          cluster_address = "[::]:8201"
        }

        storage "raft" {
          path = "/vault/data"
        }

        service_registration "kubernetes" {}

    # config is a raw string of default configuration when using a Stateful
    # deployment. Default is to use a Consul for its HA storage backend.
    # This should be HCL.

    # Note: Configuration files are stored in ConfigMaps so sensitive data
    # such as passwords should be either mounted through extraSecretEnvironmentVars
    # or through a Kube secret.  For more information see:
    # https://www.vaultproject.io/docs/platform/k8s/helm/run#protecting-sensitive-vault-configurations
    config: |
      ui = true

      listener "tcp" {
        tls_disable = 1
        address = "[::]:8200"
        cluster_address = "[::]:8201"
      }
      storage "consul" {
        path = "vault"
        address = "HOST_IP:8500"
      }

      service_registration "kubernetes" {}

      # Example configuration for using auto-unseal, using Google Cloud KMS. The
      # GKMS keys must already exist, and the cluster must have a service account
      # that is authorized to access GCP KMS.
      #seal "gcpckms" {
      #   project     = "vault-helm-dev-246514"
      #   region      = "global"
      #   key_ring    = "vault-helm-unseal-kr"
      #   crypto_key  = "vault-helm-unseal-key"
      #}

    # A disruption budget limits the number of pods of a replicated application
    # that are down simultaneously from voluntary disruptions
    disruptionBudget:
      enabled: true

    # maxUnavailable will default to (n/2)-1 where n is the number of
    # replicas. If you'd like a custom value, you can specify an override here.
      maxUnavailable: null

  # Definition of the serviceAccount used to run Vault.
  # These options are also used when using an external Vault server to validate
  # Kubernetes tokens.
  serviceAccount:
    # Specifies whether a service account should be created
    create: true
    # The name of the service account to use.
    # If not set and create is true, a name is generated using the fullname template
    name: ""
    # Extra annotations for the serviceAccount definition. This can either be
    # YAML or a YAML-formatted multi-line templated string map of the
    # annotations to apply to the serviceAccount.
    annotations: {}

  # Settings for the statefulSet used to run Vault.
  statefulSet:
    # Extra annotations for the statefulSet. This can either be YAML or a
    # YAML-formatted multi-line templated string map of the annotations to apply
    # to the statefulSet.
    annotations: {}

# Vault UI
ui:
  # True if you want to create a Service entry for the Vault UI.
  #
  # serviceType can be used to control the type of service created. For
  # example, setting this to "LoadBalancer" will create an external load
  # balancer (for supported K8S installations) to access the UI.
  enabled: false
  publishNotReadyAddresses: true
  # The service should only contain selectors for active Vault pod
  activeVaultPodOnly: false
  serviceType: "ClusterIP"
  serviceNodePort: null
  externalPort: 8200

  # loadBalancerSourceRanges:
  #   - 10.0.0.0/16
  #   - 1.78.23.3/32

  # loadBalancerIP:

  # Extra annotations to attach to the ui service
  # This can either be YAML or a YAML-formatted multi-line templated string map
  # of the annotations to apply to the ui service
  annotations: {}