charts/bitnami/zipkin/values.yaml

# Copyright Broadcom, Inc. All Rights Reserved.
# SPDX-License-Identifier: APACHE-2.0

## @section Global parameters
## Global Docker image parameters
## Please, note that this will override the image parameters, including dependencies, configured to use the global value
## Current available global Docker image parameters: imageRegistry, imagePullSecrets and storageClass
##

## @param global.imageRegistry Global Docker image registry
## @param global.imagePullSecrets Global Docker registry secret names as an array
## @param global.defaultStorageClass Global default StorageClass for Persistent Volume(s)
##
global:
  imageRegistry: ""
  ## E.g.
  ## imagePullSecrets:
  ##   - myRegistryKeySecretName
  ##
  imagePullSecrets: []
  defaultStorageClass: ""
  ## Security parameters
  ##
  security:
    ## @param global.security.allowInsecureImages Allows skipping image verification
    allowInsecureImages: false
  ## Compatibility adaptations for Kubernetes platforms
  ##
  compatibility:
    ## Compatibility adaptations for Openshift
    ##
    openshift:
      ## @param global.compatibility.openshift.adaptSecurityContext Adapt the securityContext sections of the deployment to make them compatible with Openshift restricted-v2 SCC: remove runAsUser, runAsGroup and fsGroup and let the platform use their allowed default IDs. Possible values: auto (apply if the detected running cluster is Openshift), force (perform the adaptation always), disabled (do not perform adaptation)
      ##
      adaptSecurityContext: auto

## @section Common parameters
##

## @param kubeVersion Override Kubernetes version
##
kubeVersion: ""
## @param apiVersions Override Kubernetes API versions reported by .Capabilities
##
apiVersions: []
## @param nameOverride String to partially override common.names.name
##
nameOverride: ""
## @param fullnameOverride String to fully override common.names.fullname
##
fullnameOverride: ""
## @param namespaceOverride String to fully override common.names.namespace
##
namespaceOverride: ""
## @param commonLabels Labels to add to all deployed objects
##
commonLabels: {}
## @param commonAnnotations Annotations to add to all deployed objects
##
commonAnnotations: {}
## @param clusterDomain Kubernetes cluster domain name
##
clusterDomain: cluster.local
## @param extraDeploy Array of extra objects to deploy with the release
##
extraDeploy: []

## Enable diagnostic mode in the deployment
##
diagnosticMode:
  ## @param diagnosticMode.enabled Enable diagnostic mode (all probes will be disabled and the command will be overridden)
  ##
  enabled: false
  ## @param diagnosticMode.command Command to override all containers in the deployment
  ##
  command:
    - sleep
  ## @param diagnosticMode.args Args to override all containers in the deployment
  ##
  args:
    - infinity

## @param configOverrides Overwrite or add extra configuration options to the chart default
## Example:
## configOverrides:
##   MEM_MAX_SPANS: 500000
##
configOverrides: {}

## @param secretConfigOverrides Overwrite or add extra configuration options to the chart default (these will be added in a secret)
## Example:
## secretConfigOverrides:
##   CASSANDRA_PASSWORD: test123
##
secretConfigOverrides: {}

## @param existingConfigmap The name of an existing ConfigMap with your custom configuration for zipkin
## NOTE: By providing a ConfigMap, other settings provided using values may be ignored.
##
existingConfigmap: ""

## @param existingSecret The name of an existing Secret with your custom sensitive configuration for zipkin
##
existingSecret: ""

## @param javaOpts Set extra Java Options when launching zipkin
##
javaOpts: ""

## Bitnami zipkin image
## ref: https://hub.docker.com/r/bitnami/zipkin/tags/
## @param image.registry [default: REGISTRY_NAME] zipkin image registry
## @param image.repository [default: REPOSITORY_NAME/zipkin] zipkin image repository
## @skip image.tag zipkin image tag (immutable tags are recommended)
## @param image.digest zipkin image digest in the way sha256:aa.... Please note this parameter, if set, will override the tag image tag (immutable tags are recommended)
## @param image.pullPolicy zipkin image pull policy
## @param image.pullSecrets zipkin image pull secrets
## @param image.debug Enable zipkin image debug mode
##
image:
  registry: docker.io
  repository: bitnami/zipkin
  tag: 3.5.1-debian-12-r5
  digest: ""
  ## Specify a imagePullPolicy
  ## ref: http://kubernetes.io/docs/concepts/containers/images/#pre-pulled-images
  ##
  pullPolicy: IfNotPresent
  ## 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/
  ## e.g:
  ## pullSecrets:
  ##   - myRegistryKeySecretName
  ##
  pullSecrets: []
  ## Enable debug mode
  ##
  debug: false

## @param replicaCount Number of zipkin replicas to deploy
##
replicaCount: 1
## @param containerPorts.http zipkin http server container port
##
containerPorts:
  http: 9411
## @param extraContainerPorts Optionally specify extra list of additional container ports
## e.g:
## extraContainerPorts:
##   - name: myservice
##     containerPort: 9090
##
extraContainerPorts: []
## @param deploymentLabels Add extra labels to the Deployment object
##
deploymentLabels: {}
## @param deploymentAnnotations Add extra annotations to the Deployment object
##
deploymentAnnotations: {}
## @param logLevel Set application log level
##
logLevel: INFO
## @param usePasswordFiles Mount all sensitive information as files
##
usePasswordFiles: true
## @param storageType Set version store type. The chart natively supports cassandra3, mem or other. Any other type requires you to add the configuration in configOverrides and secretConfigOverrides.
##
storageType: cassandra3
## TLS/SSL parameters
## @param tls.enabled Enable TLS
## @param tls.usePemCerts Use certificates in .pem format
## @param tls.existingSecret Name of a secret containing the certificate files
## @param tls.certFilename Filename inside the secret of the .crt file (when usePemCerts=true)
## @param tls.certKeyFilename Filename inside the secret of the .key file (when usePemCerts=true)
## @param tls.keystoreFilename Filename inside the secret of the .jks file (when usePemCerts=false)
## @param tls.password Password of the Java keystore
## @param tls.passwordSecret Name of a secret containing the password of the Java keystore
##
tls:
  enabled: false
  usePemCerts: true
  existingSecret: ""
  certFilename: tls.crt
  certKeyFilename: tls.key
  keystoreFilename: zipkin.jks
  password: ""
  passwordSecret: ""
  ## @param tls.autoGenerated.enabled Enable automatic generation of certificates for TLS
  ## @param tls.autoGenerated.engine Mechanism to generate the certificates (allowed values: helm, cert-manager)
  autoGenerated:
    enabled: true
    engine: helm
    ## @param tls.autoGenerated.certManager.existingIssuer The name of an existing Issuer to use for generating the certificates (only for `cert-manager` engine)
    ## @param tls.autoGenerated.certManager.existingIssuerKind Existing Issuer kind, defaults to Issuer (only for `cert-manager` engine)
    ## @param tls.autoGenerated.certManager.keyAlgorithm Key algorithm for the certificates (only for `cert-manager` engine)
    ## @param tls.autoGenerated.certManager.keySize Key size for the certificates (only for `cert-manager` engine)
    ## @param tls.autoGenerated.certManager.duration Duration for the certificates (only for `cert-manager` engine)
    ## @param tls.autoGenerated.certManager.renewBefore Renewal period for the certificates (only for `cert-manager` engine)
    certManager:
      existingIssuer: ""
      existingIssuerKind: ""
      keySize: 2048
      keyAlgorithm: RSA
      duration: 2160h
      renewBefore: 360h

## Configure extra options for zipkin containers' liveness and readiness probes
## ref: https://kubernetes.io/docs/tasks/configure-pod-container/configure-liveness-readiness-probes/#configure-probes
## @param livenessProbe.enabled Enable livenessProbe on zipkin containers
## @param livenessProbe.initialDelaySeconds Initial delay seconds for livenessProbe
## @param livenessProbe.periodSeconds Period seconds for livenessProbe
## @param livenessProbe.timeoutSeconds Timeout seconds for livenessProbe
## @param livenessProbe.failureThreshold Failure threshold for livenessProbe
## @param livenessProbe.successThreshold Success threshold for livenessProbe
##
livenessProbe:
  enabled: true
  initialDelaySeconds: 10
  periodSeconds: 10
  timeoutSeconds: 5
  successThreshold: 1
  failureThreshold: 5
## @param readinessProbe.enabled Enable readinessProbe on zipkin containers
## @param readinessProbe.initialDelaySeconds Initial delay seconds for readinessProbe
## @param readinessProbe.periodSeconds Period seconds for readinessProbe
## @param readinessProbe.timeoutSeconds Timeout seconds for readinessProbe
## @param readinessProbe.failureThreshold Failure threshold for readinessProbe
## @param readinessProbe.successThreshold Success threshold for readinessProbe
##
readinessProbe:
  enabled: true
  initialDelaySeconds: 10
  periodSeconds: 10
  timeoutSeconds: 5
  successThreshold: 1
  failureThreshold: 5
## @param startupProbe.enabled Enable startupProbe on zipkin containers
## @param startupProbe.initialDelaySeconds Initial delay seconds for startupProbe
## @param startupProbe.periodSeconds Period seconds for startupProbe
## @param startupProbe.timeoutSeconds Timeout seconds for startupProbe
## @param startupProbe.failureThreshold Failure threshold for startupProbe
## @param startupProbe.successThreshold Success threshold for startupProbe
##
startupProbe:
  enabled: false
  initialDelaySeconds: 90
  periodSeconds: 10
  timeoutSeconds: 5
  successThreshold: 1
  failureThreshold: 5
## @param customLivenessProbe Custom livenessProbe that overrides the default one
##
customLivenessProbe: {}
## @param customReadinessProbe Custom readinessProbe that overrides the default one
##
customReadinessProbe: {}
## @param customStartupProbe Custom startupProbe that overrides the default one
##
customStartupProbe: {}
## zipkin resource requests and limits
## ref: https://kubernetes.io/docs/concepts/configuration/manage-compute-resources-container/
## We usually recommend not to specify default resources and to leave this as a conscious
## choice for the user. This also increases chances charts run on environments with little
## resources, such as Minikube. If you do want to specify resources, uncomment the following
## lines, adjust them as necessary, and remove the curly braces after 'resources:'.
## @param resourcesPreset Set container resources according to one common preset (allowed values: none, nano, small, medium, large, xlarge, 2xlarge). This is ignored if resources is set (secondary.resources is recommended for production).
## More information: https://github.com/bitnami/charts/blob/main/bitnami/common/templates/_resources.tpl#L15
##
resourcesPreset: "small"
## @param resources Set container requests and limits for different resources like CPU or memory (essential for production workloads)
## Example:
## resources:
##   requests:
##     cpu: 2
##     memory: 512Mi
##   limits:
##     cpu: 3
##     memory: 1024Mi
##
resources: {}
## Configure Pods Security Context
## ref: https://kubernetes.io/docs/tasks/configure-pod-container/security-context/#set-the-security-context-for-a-pod
## @param podSecurityContext.enabled Enable security context for zipkin pods
## @param podSecurityContext.fsGroupChangePolicy Set filesystem group change policy
## @param podSecurityContext.sysctls Set kernel settings using the sysctl interface
## @param podSecurityContext.supplementalGroups Set filesystem extra groups
## @param podSecurityContext.fsGroup Group ID for the mounted volumes' filesystem
##
podSecurityContext:
  enabled: true
  fsGroupChangePolicy: Always
  sysctls: []
  supplementalGroups: []
  fsGroup: 1001
## Configure Container Security Context
## ref: https://kubernetes.io/docs/tasks/configure-pod-container/security-context/#set-the-security-context-for-a-container
## @param containerSecurityContext.enabled zipkin container securityContext
## @param containerSecurityContext.seLinuxOptions [object,nullable] Set SELinux options in container
## @param containerSecurityContext.runAsUser User ID for the zipkin container
## @param containerSecurityContext.runAsGroup Group ID for the zipkin container
## @param containerSecurityContext.runAsNonRoot Set secondary container's Security Context runAsNonRoot
## @param containerSecurityContext.privileged Set secondary container's Security Context privileged
## @param containerSecurityContext.allowPrivilegeEscalation Set secondary container's Security Context allowPrivilegeEscalation
## @param containerSecurityContext.readOnlyRootFilesystem Set container's Security Context readOnlyRootFilesystem
## @param containerSecurityContext.capabilities.drop List of capabilities to be dropped
## @param containerSecurityContext.seccompProfile.type Set container's Security Context seccomp profile
##
containerSecurityContext:
  enabled: true
  seLinuxOptions: {}
  runAsUser: 1001
  runAsGroup: 1001
  runAsNonRoot: true
  privileged: false
  allowPrivilegeEscalation: false
  readOnlyRootFilesystem: true
  capabilities:
    drop: ["ALL"]
  seccompProfile:
    type: "RuntimeDefault"

## @param command Override default container command (useful when using custom images)
##
command: []
## @param args Override default container args (useful when using custom images)
##
args: []
## @param hostAliases zipkin pods host aliases
## https://kubernetes.io/docs/concepts/services-networking/add-entries-to-pod-etc-hosts-with-host-aliases/
##
hostAliases: []
## @param annotations Annotations for zipkin deployment/statefulset
## ref: https://kubernetes.io/docs/concepts/overview/working-with-objects/annotations/
##
annotations: {}
## @param podLabels Extra labels for zipkin pods
## ref: https://kubernetes.io/docs/concepts/overview/working-with-objects/labels/
##
podLabels: {}
## @param podAnnotations Annotations for zipkin pods
## ref: https://kubernetes.io/docs/concepts/overview/working-with-objects/annotations/
##
podAnnotations: {}
## @param podAffinityPreset Pod affinity preset. Ignored if `affinity` is set. Allowed values: `soft` or `hard`
## ref: https://kubernetes.io/docs/concepts/scheduling-eviction/assign-pod-node/#inter-pod-affinity-and-anti-affinity
##
podAffinityPreset: ""
## @param podAntiAffinityPreset Pod anti-affinity preset. Ignored if `affinity` is set. Allowed values: `soft` or `hard`
## ref: https://kubernetes.io/docs/concepts/scheduling-eviction/assign-pod-node/#inter-pod-affinity-and-anti-affinity
##
podAntiAffinityPreset: soft
## Pod Disruption Budget configuration
## ref: https://kubernetes.io/docs/tasks/run-application/configure-pdb
## @param pdb.create Enable/disable a Pod Disruption Budget creation
## @param pdb.minAvailable Minimum number/percentage of pods that should remain scheduled
## @param pdb.maxUnavailable Maximum number/percentage of pods that may be made unavailable
##
pdb:
  create: true
  minAvailable: ""
  maxUnavailable: ""
## Node affinity preset
## ref: https://kubernetes.io/docs/concepts/scheduling-eviction/assign-pod-node/#node-affinity
##
nodeAffinityPreset:
  ## @param nodeAffinityPreset.type Node affinity preset type. Ignored if `affinity` is set. Allowed values: `soft` or `hard`
  ##
  type: ""
  ## @param nodeAffinityPreset.key Node label key to match. Ignored if `affinity` is set
  ##
  key: ""
  ## @param nodeAffinityPreset.values Node label values to match. Ignored if `affinity` is set
  ## E.g.
  ## values:
  ##   - e2e-az1
  ##   - e2e-az2
  ##
  values: []
## @param affinity Affinity for zipkin pods assignment
## ref: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/#affinity-and-anti-affinity
## NOTE: `podAffinityPreset`, `podAntiAffinityPreset`, and `nodeAffinityPreset` will be ignored when it's set
##
affinity: {}
## @param automountServiceAccountToken Mount Service Account token in pod
##
automountServiceAccountToken: false
## @param nodeSelector Node labels for zipkin pods assignment
## ref: https://kubernetes.io/docs/concepts/scheduling-eviction/assign-pod-node/
##
nodeSelector: {}
## @param tolerations Tolerations for zipkin pods assignment
## ref: https://kubernetes.io/docs/concepts/configuration/taint-and-toleration/
##
tolerations: []
## @param updateStrategy.type zipkin strategy type
## ref: https://kubernetes.io/docs/concepts/workloads/controllers/statefulset/#update-strategies
##
updateStrategy:
  ## StrategyType
  ## Can be set to RollingUpdate or Recreate
  ##
  type: RollingUpdate

## @param priorityClassName zipkin pods' priorityClassName
##
priorityClassName: ""
## @param topologySpreadConstraints Topology Spread Constraints for pod assignment spread across your cluster among failure-domains. Evaluated as a template
## Ref: https://kubernetes.io/docs/concepts/workloads/pods/pod-topology-spread-constraints/#spread-constraints-for-pods
##
topologySpreadConstraints: []
## @param schedulerName Name of the k8s scheduler (other than default) for zipkin pods
## ref: https://kubernetes.io/docs/tasks/administer-cluster/configure-multiple-schedulers/
##
schedulerName: ""
## @param terminationGracePeriodSeconds Seconds Redmine pod needs to terminate gracefully
## ref: https://kubernetes.io/docs/concepts/workloads/pods/pod/#termination-of-pods
##
terminationGracePeriodSeconds: ""
## @param lifecycleHooks for the zipkin container(s) to automate configuration before or after startup
##
lifecycleHooks: {}
## @param extraEnvVars Array with extra environment variables to add to zipkin nodes
## e.g:
## extraEnvVars:
##   - name: FOO
##     value: "bar"
##
extraEnvVars: []
## @param extraEnvVarsCM Name of existing ConfigMap containing extra env vars for zipkin nodes
##
extraEnvVarsCM: ""
## @param extraEnvVarsSecret Name of existing Secret containing extra env vars for zipkin nodes
##
extraEnvVarsSecret: ""
## @param extraVolumes Optionally specify extra list of additional volumes for the zipkin pod(s)
##
extraVolumes: []
## @param extraVolumeMounts Optionally specify extra list of additional volumeMounts for the zipkin container(s)
##
extraVolumeMounts: []
## @param sidecars Add additional sidecar containers to the zipkin pod(s)
## e.g:
## sidecars:
##   - name: your-image-name
##     image: your-image
##     imagePullPolicy: Always
##     ports:
##       - name: portname
##         containerPort: 1234
##
sidecars: []
## @param initContainers Add additional init containers to the zipkin pod(s)
## ref: https://kubernetes.io/docs/concepts/workloads/pods/init-containers/
## e.g:
## initContainers:
##  - name: your-image-name
##    image: your-image
##    imagePullPolicy: Always
##    command: ['sh', '-c', 'echo "hello world"']
##
initContainers: []

## @section Autoscaling
## ref: https://kubernetes.io/docs/tasks/run-application/horizontal-pod-autoscale/
##
autoscaling:
  vpa:
    ## @param autoscaling.vpa.enabled Enable VPA
    ##
    enabled: false
    ## @param autoscaling.vpa.annotations Annotations for VPA resource
    ##
    annotations: {}
    ## @param autoscaling.vpa.controlledResources VPA List of resources that the vertical pod autoscaler can control. Defaults to cpu and memory
    ##
    controlledResources: []
    ## @param autoscaling.vpa.maxAllowed VPA Max allowed resources for the pod
    ## cpu: 200m
    ## memory: 100Mi
    maxAllowed: {}
    ## @param autoscaling.vpa.minAllowed VPA Min allowed resources for the pod
    ## cpu: 200m
    ## memory: 100Mi
    minAllowed: {}
    ## @section VPA update policy
    ##
    updatePolicy:
      ## @param autoscaling.vpa.updatePolicy.updateMode Autoscaling update policy Specifies whether recommended updates are applied when a Pod is started and whether recommended updates are applied during the life of a Pod
      ## Possible values are "Off", "Initial", "Recreate", and "Auto".
      ##
      updateMode: Auto
  hpa:
    ## @param autoscaling.hpa.enabled Enable HPA
    ##
    enabled: false
    ## @param autoscaling.hpa.minReplicas Minimum number of replicas
    ##
    minReplicas: ""
    ## @param autoscaling.hpa.maxReplicas Maximum number of replicas
    ##
    maxReplicas: ""
    ## @param autoscaling.hpa.targetCPU Target CPU utilization percentage
    ##
    targetCPU: ""
    ## @param autoscaling.hpa.targetMemory Target Memory utilization percentage
    ##
    targetMemory: ""
## @section Traffic Exposure Parameters
##

## zipkin service parameters
##
service:
  ## @param service.type zipkin service type
  ##
  type: ClusterIP
  ## @param service.ports.http zipkin service http port
  ##
  ports:
    http: 9411
  ## Node ports to expose
  ## @param service.nodePorts.http Node port for Gremlin
  ## NOTE: choose port between <30000-32767>
  ##
  nodePorts:
    http: ""
  ## @param service.clusterIP zipkin service Cluster IP
  ## e.g.:
  ## clusterIP: None
  ##
  clusterIP: ""
  ## @param service.loadBalancerIP zipkin service Load Balancer IP
  ## ref: https://kubernetes.io/docs/concepts/services-networking/service/#type-loadbalancer
  ##
  loadBalancerIP: ""
  ## @param service.loadBalancerSourceRanges zipkin service Load Balancer sources
  ## ref: https://kubernetes.io/docs/tasks/access-application-cluster/configure-cloud-provider-firewall/#restrict-access-for-loadbalancer-service
  ## e.g:
  ## loadBalancerSourceRanges:
  ##   - 10.10.10.0/24
  ##
  loadBalancerSourceRanges: []
  ## @param service.externalTrafficPolicy zipkin service external traffic policy
  ## ref http://kubernetes.io/docs/tasks/access-application-cluster/create-external-load-balancer/#preserving-the-client-source-ip
  ##
  externalTrafficPolicy: Cluster
  ## @param service.annotations Additional custom annotations for zipkin service
  ##
  annotations: {}
  ## @param service.extraPorts Extra ports to expose in zipkin service (normally used with the `sidecars` value)
  ##
  extraPorts: []
  ## @param service.sessionAffinity Control where client requests go, to the same pod or round-robin
  ## Values: ClientIP or None
  ## ref: https://kubernetes.io/docs/concepts/services-networking/service/
  ##
  sessionAffinity: None
  ## @param service.sessionAffinityConfig Additional settings for the sessionAffinity
  ## sessionAffinityConfig:
  ##   clientIP:
  ##     timeoutSeconds: 300
  ##
  sessionAffinityConfig: {}

## Configure the ingress resource that allows you to access the
## zipkin installation. Set up the URL
## ref: https://kubernetes.io/docs/concepts/services-networking/ingress/
##
ingress:
  ## @param ingress.enabled Set to true to enable ingress record generation
  ##
  enabled: false
  ## @param ingress.selfSigned Create a TLS secret for this ingress record using self-signed certificates generated by Helm
  ##
  selfSigned: false
  ## @param ingress.pathType Ingress path type
  ##
  pathType: ImplementationSpecific
  ## @param ingress.apiVersion Force Ingress API version (automatically detected if not set)
  ##
  apiVersion: ""
  ## @param ingress.hostname Default host for the ingress resource
  ##
  hostname: zipkin.local
  ## @param ingress.path The Path to Nginx. You may need to set this to '/*' in order to use this with ALB ingress controllers.
  ##
  path: /
  ## @param ingress.annotations Additional annotations for the Ingress resource. To enable certificate autogeneration, place here your cert-manager annotations.
  ## For a full list of possible ingress annotations, please see
  ## ref: https://github.com/kubernetes/ingress-nginx/blob/main/docs/user-guide/nginx-configuration/annotations.md
  ## Use this parameter to set the required annotations for cert-manager, see
  ## ref: https://cert-manager.io/docs/usage/ingress/#supported-annotations
  ##
  ## e.g:
  ## annotations:
  ##   kubernetes.io/ingress.class: nginx
  ##   cert-manager.io/cluster-issuer: cluster-issuer-name
  ##
  annotations: {}
  ## @param ingress.ingressClassName Set the ingerssClassName on the ingress record for k8s 1.18+
  ## This is supported in Kubernetes 1.18+ and required if you have more than one IngressClass marked as the default for your cluster .
  ## ref: https://kubernetes.io/blog/2020/04/02/improvements-to-the-ingress-api-in-kubernetes-1.18/
  ##
  ingressClassName: ""
  ## @param ingress.tls Create TLS Secret
  ## TLS certificates will be retrieved from a TLS secret with name: {{- printf "%s-tls" .Values.ingress.hostname }}
  ## You can use the ingress.secrets parameter to create this TLS secret or relay on cert-manager to create it
  ##
  tls: false
  ## @param ingress.tlsWwwPrefix Adds www subdomain to default cert
  ## Creates tls host with ingress.hostname: {{ print "www.%s" .Values.ingress.hostname }}
  ## Is enabled if "nginx.ingress.kubernetes.io/from-to-www-redirect" is "true"
  tlsWwwPrefix: false
  ## @param ingress.extraHosts The list of additional hostnames to be covered with this ingress record.
  ## Most likely the hostname above will be enough, but in the event more hosts are needed, this is an array
  ## extraHosts:
  ## - name: zipkin.local
  ##   path: /
  ##
  extraHosts: []
  ## @param ingress.extraPaths Any additional arbitrary paths that may need to be added to the ingress under the main host.
  ## For example: The ALB ingress controller requires a special rule for handling SSL redirection.
  ## extraPaths:
  ## - path: /*
  ##   backend:
  ##     serviceName: ssl-redirect
  ##     servicePort: use-annotation
  ##
  extraPaths: []
  ## @param ingress.extraTls The tls configuration for additional hostnames to be covered with this ingress record.
  ## see: https://kubernetes.io/docs/concepts/services-networking/ingress/#tls
  ## extraTls:
  ## - hosts:
  ##     - zipkin.local
  ##   secretName: zipkin.local-tls
  ##
  extraTls: []
  ## @param ingress.secrets If you're providing your own certificates, please use this to add the certificates as secrets
  ## key and certificate should start with -----BEGIN CERTIFICATE----- or
  ## -----BEGIN RSA PRIVATE KEY-----
  ##
  ## name should line up with a tlsSecret set further up
  ## If you're using cert-manager, this is unneeded, as it will create the secret for you if it is not set
  ##
  ## It is also possible to create and manage the certificates outside of this helm chart
  ## Please see README.md for more information
  ## e.g:
  ## - name: zipkin.local-tls
  ##   key:
  ##   certificate:
  ##
  secrets: []
  ## @param ingress.extraRules The list of additional rules to be added to this ingress record. Evaluated as a template
  ## Useful when looking for additional customization, such as using different backend
  ##
  extraRules: []

## @section Other Parameters
##

## ServiceAccount configuration
##
serviceAccount:
  ## @param serviceAccount.create Specifies whether a ServiceAccount should be created
  ##
  create: true
  ## @param serviceAccount.name The name of the ServiceAccount to use.
  ## If not set and create is true, a name is generated using the common.names.fullname template
  ##
  name: ""
  ## @param serviceAccount.annotations Additional Service Account annotations (evaluated as a template)
  ##
  annotations: {}
  ## @param serviceAccount.automountServiceAccountToken Automount service account token for the server service account
  ##
  automountServiceAccountToken: false

## @section Default Init Container Parameters
##
defaultInitContainers:
  ## Init container that waits for backends to be ready
  ##
  waitForCassandra:
    ## @param defaultInitContainers.waitForCassandra.enabled Enable init container that waits for backends to be ready
    ##
    enabled: true
    ## Cassandra image
    ## ref: https://hub.docker.com/r/bitnami/cassandra/tags/
    ## @param defaultInitContainers.waitForCassandra.image.registry [default: REGISTRY_NAME] Cassandra image registry
    ## @param defaultInitContainers.waitForCassandra.image.repository [default: REPOSITORY_NAME/cassandra] Cassandra image repository
    ## @skip defaultInitContainers.waitForCassandra.image.tag Cassandra image tag (immutable tags are recommended)
    ## @param defaultInitContainers.waitForCassandra.image.pullPolicy Cassandra image pull policy
    ## @param defaultInitContainers.waitForCassandra.image.pullSecrets Cassandra image pull secrets
    ## @param defaultInitContainers.waitForCassandra.image.debug Enable debug output
    ##
    image:
      registry: docker.io
      repository: bitnami/cassandra
      tag: 5.0.5-debian-12-r7
      pullPolicy: IfNotPresent
      pullSecrets: []
      debug: false
    ## Init container's resource requests and limits
    ## ref: http://kubernetes.io/docs/concepts/configuration/manage-compute-resources-container/
    ## @param defaultInitContainers.waitForCassandra.resourcesPreset Set init container resources according to one common preset (allowed values: none, nano, small, medium, large, xlarge, 2xlarge). This is ignored if volumePermissions.resources is set (volumePermissions.resources is recommended for production).
    ## More information: https://github.com/bitnami/charts/blob/main/bitnami/common/templates/_resources.tpl#L15
    ##
    resourcesPreset: "nano"
    ## @param defaultInitContainers.waitForCassandra.resources Set init container requests and limits for different resources like CPU or memory (essential for production workloads)
    ## Example:
    ## resources:
    ##   requests:
    ##     cpu: 2
    ##     memory: 512Mi
    ##   limits:
    ##     cpu: 3
    ##     memory: 1024Mi
    ##
    resources: {}
    ## Init container Container Security Context
    ## ref: https://kubernetes.io/docs/tasks/configure-pod-container/security-context/#set-the-security-context-for-a-container
    ## @param defaultInitContainers.waitForCassandra.containerSecurityContext.enabled Enabled Init container' Security Context
    ## @param defaultInitContainers.waitForCassandra.containerSecurityContext.seLinuxOptions [object,nullable] Set SELinux options in Init container
    ## @param defaultInitContainers.waitForCassandra.containerSecurityContext.runAsUser Set runAsUser in Init container' Security Context
    ## @param defaultInitContainers.waitForCassandra.containerSecurityContext.runAsGroup Set runAsGroup in Init container' Security Context
    ## @param defaultInitContainers.waitForCassandra.containerSecurityContext.runAsNonRoot Set runAsNonRoot in Init container' Security Context
    ## @param defaultInitContainers.waitForCassandra.containerSecurityContext.readOnlyRootFilesystem Set readOnlyRootFilesystem in Init container' Security Context
    ## @param defaultInitContainers.waitForCassandra.containerSecurityContext.privileged Set privileged in Init container' Security Context
    ## @param defaultInitContainers.waitForCassandra.containerSecurityContext.allowPrivilegeEscalation Set allowPrivilegeEscalation in Init container' Security Context
    ## @param defaultInitContainers.waitForCassandra.containerSecurityContext.capabilities.drop List of capabilities to be dropped in Init container
    ## @param defaultInitContainers.waitForCassandra.containerSecurityContext.seccompProfile.type Set seccomp profile in Init container
    ##
    containerSecurityContext:
      enabled: true
      seLinuxOptions: {}
      runAsUser: 1001
      runAsGroup: 1001
      runAsNonRoot: true
      readOnlyRootFilesystem: true
      privileged: false
      allowPrivilegeEscalation: false
      capabilities:
        drop: ["ALL"]
      seccompProfile:
        type: "RuntimeDefault"
  ## Init container that initializes the Java keystore with the TLS certificates (requires tls.enabled=true)
  ##
  initCerts:
    ## @param defaultInitContainers.initCerts.enabled Enable init container that initializes the Java keystore with the TLS certificates (requires tls.enabled=true)
    ##
    enabled: true
    ## Init container's resource requests and limits
    ## ref: http://kubernetes.io/docs/concepts/configuration/manage-compute-resources-container/
    ## @param defaultInitContainers.initCerts.resourcesPreset Set init container resources according to one common preset (allowed values: none, nano, small, medium, large, xlarge, 2xlarge). This is ignored if volumePermissions.resources is set (volumePermissions.resources is recommended for production).
    ## More information: https://github.com/bitnami/charts/blob/main/bitnami/common/templates/_resources.tpl#L15
    ##
    resourcesPreset: "nano"
    ## @param defaultInitContainers.initCerts.resources Set init container requests and limits for different resources like CPU or memory (essential for production workloads)
    ## Example:
    ## resources:
    ##   requests:
    ##     cpu: 2
    ##     memory: 512Mi
    ##   limits:
    ##     cpu: 3
    ##     memory: 1024Mi
    ##
    resources: {}
    ## Init container Container Security Context
    ## ref: https://kubernetes.io/docs/tasks/configure-pod-container/security-context/#set-the-security-context-for-a-container
    ## @param defaultInitContainers.initCerts.containerSecurityContext.enabled Enabled Init container' Security Context
    ## @param defaultInitContainers.initCerts.containerSecurityContext.seLinuxOptions [object,nullable] Set SELinux options in Init container
    ## @param defaultInitContainers.initCerts.containerSecurityContext.runAsUser Set runAsUser in Init container' Security Context
    ## @param defaultInitContainers.initCerts.containerSecurityContext.runAsGroup Set runAsGroup in Init container' Security Context
    ## @param defaultInitContainers.initCerts.containerSecurityContext.runAsNonRoot Set runAsNonRoot in Init container' Security Context
    ## @param defaultInitContainers.initCerts.containerSecurityContext.readOnlyRootFilesystem Set readOnlyRootFilesystem in Init container' Security Context
    ## @param defaultInitContainers.initCerts.containerSecurityContext.privileged Set privileged in Init container' Security Context
    ## @param defaultInitContainers.initCerts.containerSecurityContext.allowPrivilegeEscalation Set allowPrivilegeEscalation in Init container' Security Context
    ## @param defaultInitContainers.initCerts.containerSecurityContext.capabilities.drop List of capabilities to be dropped in Init container
    ## @param defaultInitContainers.initCerts.containerSecurityContext.seccompProfile.type Set seccomp profile in Init container
    ##
    containerSecurityContext:
      enabled: true
      seLinuxOptions: {}
      runAsUser: 1001
      runAsGroup: 1001
      runAsNonRoot: true
      readOnlyRootFilesystem: true
      privileged: false
      allowPrivilegeEscalation: false
      capabilities:
        drop: ["ALL"]
      seccompProfile:
        type: "RuntimeDefault"



## @section NetworkPolicy parameters
## ref: https://kubernetes.io/docs/concepts/services-networking/network-policies/
##
networkPolicy:
  ## @param networkPolicy.enabled Enable creation of NetworkPolicy resources
  ##
  enabled: true
  ## @param networkPolicy.allowExternal The Policy model to apply
  ## When set to false, only pods with the correct client label will have network access to the ports zipkin is
  ## listening on. When true, zipkin will accept connections from any source (with the correct destination port).
  ##
  allowExternal: true
  ## @param networkPolicy.allowExternalEgress Allow the pod to access any range of port and all destinations.
  ##
  allowExternalEgress: true
  ## @param networkPolicy.extraIngress [array] Add extra ingress rules to the NetworkPolicy
  ## e.g:
  ## extraIngress:
  ##   - ports:
  ##       - port: 1234
  ##     from:
  ##       - podSelector:
  ##           - matchLabels:
  ##               - role: frontend
  ##       - podSelector:
  ##           - matchExpressions:
  ##               - key: role
  ##                 operator: In
  ##                 values:
  ##                   - frontend
  ##
  extraIngress: []
  ## @param networkPolicy.extraEgress [array] Add extra ingress rules to the NetworkPolicy
  ## e.g:
  ## extraEgress:
  ##   - ports:
  ##       - port: 1234
  ##     to:
  ##       - podSelector:
  ##           - matchLabels:
  ##               - role: frontend
  ##       - podSelector:
  ##           - matchExpressions:
  ##               - key: role
  ##                 operator: In
  ##                 values:
  ##                   - frontend
  ##
  extraEgress: []
  ## @param networkPolicy.ingressNSMatchLabels [object] Labels to match to allow traffic from other namespaces
  ## @param networkPolicy.ingressNSPodMatchLabels [object] Pod labels to match to allow traffic from other namespaces
  ##
  ingressNSMatchLabels: {}
  ingressNSPodMatchLabels: {}

## @section Metrics parameters
##
metrics:
  ## @param metrics.enabled Enable metrics
  ##
  enabled: false
  ## @param metrics.annotations [object] Annotations for the server service in order to scrape metrics
  annotations: {}
  ## Prometheus Operator ServiceMonitor configuration
  ##
  serviceMonitor:
    ## @param metrics.serviceMonitor.enabled Create ServiceMonitor Resource for scraping metrics using Prometheus Operator
    ##
    enabled: false
    ## @param metrics.serviceMonitor.annotations Annotations for the ServiceMonitor Resource
    ##
    annotations: ""
    ## @param metrics.serviceMonitor.namespace Namespace for the ServiceMonitor Resource (defaults to the Release Namespace)
    ##
    namespace: ""
    ## @param metrics.serviceMonitor.interval Interval at which metrics should be scraped.
    ## ref: https://github.com/coreos/prometheus-operator/blob/master/Documentation/api.md#endpoint
    ##
    interval: ""
    ## @param metrics.serviceMonitor.scrapeTimeout Timeout after which the scrape is ended
    ## ref: https://github.com/coreos/prometheus-operator/blob/master/Documentation/api.md#endpoint
    ##
    scrapeTimeout: ""
    ## @param metrics.serviceMonitor.labels Additional labels that can be used so ServiceMonitor will be discovered by Prometheus
    ##
    labels: {}
    ## @param metrics.serviceMonitor.selector Prometheus instance selector labels
    ## ref: https://github.com/bitnami/charts/tree/main/bitnami/prometheus-operator#prometheus-configuration
    ##
    selector: {}
    ## @param metrics.serviceMonitor.relabelings RelabelConfigs to apply to samples before scraping
    ##
    relabelings: []
    ## @param metrics.serviceMonitor.metricRelabelings MetricRelabelConfigs to apply to samples before ingestion
    ##
    metricRelabelings: []
    ## @param metrics.serviceMonitor.honorLabels Specify honorLabels parameter to add the scrape endpoint
    ##
    honorLabels: false
    ## @param metrics.serviceMonitor.jobLabel The name of the label on the target service to use as the job name in prometheus.
    ##
    jobLabel: ""

## @section Database parameters
##
externalDatabase:
  ## @param externalDatabase.host External database host
  host: ""
  ## @param externalDatabase.port External database port
  port: 9042
  ## Database credentials
  ## @param externalDatabase.user Cassandra admin user
  ## @param externalDatabase.password Password for `dbUser.user`. Randomly generated if empty
  ##
  user: bn_zipkin
  password: ""
  ## @param externalDatabase.existingSecret Name of existing secret containing the database secret
  ##
  existingSecret: ""
  ## @param externalDatabase.existingSecretPasswordKey Name of existing secret key containing the database password secret key
  ##
  existingSecretPasswordKey: ""
  ## Cluster parameters
  ## @param externalDatabase.cluster.datacenter Name for cassandra's zipkin datacenter
  ##
  cluster:
    datacenter: "datacenter1"
  ## @param externalDatabase.keyspace Name for cassandra's zipkin keyspace
  ##
  keyspace: "bitnami_zipkin"
## @section Cassandra storage sub-chart
##
cassandra:
  ## @param cassandra.enabled Enables cassandra storage pod
  ##
  enabled: true
  ## Cluster parameters
  ## @param cassandra.cluster.datacenter Name for cassandra's zipkin datacenter
  ##
  cluster:
    datacenter: "datacenter1"
  ## @param cassandra.keyspace Name for cassandra's zipkin keyspace
  ##
  keyspace: "bitnami_zipkin"
  ## Database credentials
  ## @param cassandra.dbUser.user Cassandra admin user
  ## @param cassandra.dbUser.password Password for `dbUser.user`. Randomly generated if empty
  ## @param cassandra.dbUser.existingSecret Name of an existing secret containing the user password.
  ##
  dbUser:
    user: bn_zipkin
    password: ""
    existingSecret: ""
  ## Cassandra service port
  ## @param cassandra.service.ports.cql Cassandra cql port
  service:
    ports:
      cql: 9042
  ## Cassandra pods' resource requests and limits
  ## ref: https://kubernetes.io/docs/concepts/configuration/manage-compute-resources-container/
  ## Minimum memory for development is 4GB and 2 CPU cores
  ## Minimum memory for production is 8GB and 4 CPU cores
  ## ref: http://docs.datastax.com/en/archived/cassandra/2.0/cassandra/architecture/architecturePlanningHardware_c.html
  ##
  ## We usually recommend not to specify default resources and to leave this as a conscious
  ## choice for the user. This also increases chances charts run on environments with little
  ## resources, such as Minikube. If you do want to specify resources, uncomment the following
  ## lines, adjust them as necessary, and remove the curly braces after 'resources:'.
  ## @param cassandra.resourcesPreset Set container resources according to one common preset (allowed values: none, nano, small, medium, large, xlarge, 2xlarge). This is ignored if resources is set (resources is recommended for production).
  ## More information: https://github.com/bitnami/charts/blob/main/bitnami/common/templates/_resources.tpl#L15
  ##
  resourcesPreset: "medium"
  ## @param cassandra.resources Set container requests and limits for different resources like CPU or memory (essential for production workloads)
  ## Example:
  ## resources:
  ##   requests:
  ##     cpu: 2
  ##     memory: 512Mi
  ##   limits:
  ##     cpu: 3
  ##     memory: 1024Mi
  ##
  resources: {}
  ## @param cassandra.initDB [object] Init script for initializing the instance
  ##
  initDB:
    create_keyspace.cql: |
      CREATE KEYSPACE {{ include "zipkin.cassandra.keyspace" . }} WITH REPLICATION = { 'class' : 'SimpleStrategy', 'replication_factor' : 1 };
  ## @param cassandra.extraEnvVars [array] Add extra env variables to the Cassandra installation
  ## Note: Zipkin requires SASI indexes
  extraEnvVars:
    - name: CASSANDRA_CFG_YAML_SASI_INDEXES_ENABLED
      value: "true"