extraArgs: []
  # - --storage-timestamp-tolerance 1s
replicaCount: 1
strategy:
  type: RollingUpdate
image:
  repository: frooodle/s-pdf
  # took Chart appVersion by default
  tag: ~
  pullPolicy: IfNotPresent
secret:
  labels: {}
## Labels to apply to all resources
##
commonLabels: {}
# team_name: dev

# rootpath for the application
rootPath: /

envs: []
# - name: UI_APP_NAME
#   value: "Stirling PDF"
# - name: UI_HOME_DESCRIPTION
#   value: "Your locally hosted one-stop-shop for all your PDF needs."
# - name: UI_APP_NAVBAR_NAME
#   value: "Stirling PDF"
# - name: ALLOW_GOOGLE_VISIBILITY
#   value: "true"
# - name: APP_LOCALE
#   value: "en_GB"

deployment:
  ## stirling-pdf Deployment annotations
  annotations: {}
  #   name: value
  labels: {}
  #   name: value
  # additional volumes
  extraVolumes: []
  #  - name: nginx-config
  #    secret:
  #      secretName: nginx-config
  # additional volumes to mount
  extraVolumeMounts: []
  ## sidecarContainers for the stirling-pdf
  # Can be used to add a proxy to the pod that does
  # scanning for secrets, signing, authentication, validation
  # of the chart's content, send notifications...
  sidecarContainers: {}
  ## Example sidecarContainer which uses an extraVolume from above and
  ## a named port that can be referenced in the service as targetPort.
  #  proxy:
  #    image: nginx:latest
  #    ports:
  #      - name: proxy
  #        containerPort: 8081
  #    volumeMounts:
  #      - name: nginx-config
  #        readOnly: true
  #        mountPath: /etc/nginx

## Pod annotations
## ref: https://kubernetes.io/docs/concepts/overview/working-with-objects/annotations/
## Read more about kube2iam to provide access to s3 https://github.com/jtblin/kube2iam
##
podAnnotations: {}
  # iam.amazonaws.com/role: role-arn

## Pod labels
## ref: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
podLabels: {}
  # name: value

service:
  servicename:
  type: ClusterIP
  externalTrafficPolicy: Local
  ## Uses pre-assigned IP address from cloud provider
  ## Only valid if service.type: LoadBalancer
  loadBalancerIP:
  ## Limits which cidr blocks can connect to service's load balancer
  ## Only valid if service.type: LoadBalancer
  loadBalancerSourceRanges: []
  # clusterIP: None
  externalPort: 8080
  ## targetPort of the container to use. If a sidecar should handle the
  ## requests first, use the named port from the sidecar. See sidecar example
  ## from deployment above. Leave empty to use stirling-pdf directly.
  targetPort:
  nodePort:
  annotations: {}
  labels: {}

serviceMonitor:
  enabled: false
  # namespace: prometheus
  labels: {}
  metricsPath: "/metrics"
  # timeout: 60
  # interval: 60

resources: {}
#  limits:
#    cpu: 100m
#    memory: 128Mi
#  requests:
#    cpu: 80m
#    memory: 64Mi

probes:
  liveness:
    initialDelaySeconds: 5
    periodSeconds: 10
    timeoutSeconds: 1
    successThreshold: 1
    failureThreshold: 3
  livenessHttpGetConfig:
    scheme: HTTP
  readiness:
    initialDelaySeconds: 5
    periodSeconds: 10
    timeoutSeconds: 1
    successThreshold: 1
    failureThreshold: 3
  readinessHttpGetConfig:
    scheme: HTTP

serviceAccount:
  create: true
  name: ""
  automountServiceAccountToken: false
  ## Annotations for the Service Account
  annotations: {}

# UID/GID 1000 is the default user "stirling-pdf" used in
# the container image starting in v0.8.0 and above. This
# is required for local persistent storage. If your cluster
# does not allow this, try setting securityContext: {}
securityContext:
  enabled: true
  fsGroup: 1000
  ## Optionally, specify supplementalGroups and/or
  ## runAsNonRoot for security purposes
  # runAsNonRoot: true
  # supplementalGroups: [1000]

containerSecurityContext: {}

priorityClassName: ""

nodeSelector: {}

tolerations: []

affinity: {}

persistence:
  enabled: false
  accessMode: ReadWriteOnce
  size: 8Gi
  labels: {}
    # name: value
  path: /tmp
  ## A manually managed Persistent Volume and Claim
  ## Requires persistence.enabled: true
  ## If defined, PVC must be created manually before volume will be bound
  # existingClaim:

  ## stirling-pdf data Persistent Volume Storage Class
  ## If defined, storageClassName: <storageClass>
  ## If set to "-", storageClassName: "", which disables dynamic provisioning
  ## If undefined (the default) or set to null, no storageClassName spec is
  ##   set, choosing the default provisioner.  (gp2 on AWS, standard on
  ##   GKE, AWS & OpenStack)
  ##
  # storageClass: "-"
  # volumeName:
  pv:
    enabled: false
    pvname:
    capacity:
      storage: 8Gi
    accessMode: ReadWriteOnce
    nfs:
      server:
      path:

## Init containers parameters:
## volumePermissions: Change the owner of the persistent volume mountpoint to RunAsUser:fsGroup
##
volumePermissions:
  image:
    registry: docker.io
    repository: bitnami/minideb
    tag: buster
    pullPolicy: Always
    ## Optionally specify an array of imagePullSecrets.
    ## Secrets must be manually created in the namespace.
    ## ref: https://kubernetes.io/docs/tasks/configure-pod-container/pull-image-private-registry/
    ##
    # pullSecrets:
    #   - myRegistryKeySecretName

## Ingress for load balancer
ingress:
  enabled: false
  pathType: "ImplementationSpecific"
  ## stirling-pdf Ingress labels
  ##
  labels: {}
    # dns: "route53"

  ## stirling-pdf Ingress annotations
  ##
  annotations: {}
    # kubernetes.io/ingress.class: nginx
    # kubernetes.io/tls-acme: "true"

  ## stirling-pdf Ingress hostnames
  ## Must be provided if Ingress is enabled
  ##
  hosts: []
    # - name: stirling-pdf.domain1.com
    #   path: /
    #   tls: false
    # - name: stirling-pdf.domain2.com
    #   path: /
    #
    #   ## Set this to true in order to enable TLS on the ingress record
    #   tls: true
    #
    #   ## If TLS is set to true, you must declare what secret will store the key/certificate for TLS
    #   ## Secrets must be added manually to the namespace
    #   tlsSecret: stirling-pdf.domain2-tls

  # For Kubernetes >= 1.18 you should specify the ingress-controller via the field ingressClassName
  # See https://kubernetes.io/blog/2020/04/02/improvements-to-the-ingress-api-in-kubernetes-1.18/#specifying-the-class-of-an-ingress
  ingressClassName: