This commit is contained in:
Adolfo Delorenzo 2021-03-29 18:15:47 -06:00
parent e946f171c1
commit 92ee6eb920

View File

@ -1,418 +0,0 @@
# Default values for Traefik
image:
name: traefik
# defaults to appVersion
tag: ""
pullPolicy: IfNotPresent
#
# Configure the deployment
#
deployment:
enabled: true
# Can be either Deployment or DaemonSet
kind: Deployment
# Number of pods of the deployment (only applies when kind == Deployment)
replicas: 1
# Additional deployment annotations (e.g. for jaeger-operator sidecar injection)
annotations: {}
# Additional deployment labels (e.g. for filtering deployment by custom labels)
labels: {}
# Additional pod annotations (e.g. for mesh injection or prometheus scraping)
podAnnotations: {}
# Additional Pod labels (e.g. for filtering Pod by custom labels)
podLabels: {}
# Additional containers (e.g. for metric offloading sidecars)
additionalContainers: []
# https://docs.datadoghq.com/developers/dogstatsd/unix_socket/?tab=host
# - name: socat-proxy
# image: alpine/socat:1.0.5
# args: ["-s", "-u", "udp-recv:8125", "unix-sendto:/socket/socket"]
# volumeMounts:
# - name: dsdsocket
# mountPath: /socket
# Additional volumes available for use with initContainers and additionalContainers
additionalVolumes: []
# - name: dsdsocket
# hostPath:
# path: /var/run/statsd-exporter
# Additional initContainers (e.g. for setting file permission as shown below)
initContainers: []
# The "volume-permissions" init container is required if you run into permission issues.
# Related issue: https://github.com/traefik/traefik/issues/6972
# - name: volume-permissions
# image: busybox:1.31.1
# command: ["sh", "-c", "chmod -Rv 600 /data/*"]
# volumeMounts:
# - name: data
# mountPath: /data
# Custom pod DNS policy. Apply if `hostNetwork: true`
# dnsPolicy: ClusterFirstWithHostNet
# Additional imagePullSecrets
imagePullSecrets: []
# - name: myRegistryKeySecretName
# Pod disruption budget
podDisruptionBudget:
enabled: false
# maxUnavailable: 1
# minAvailable: 0
# Use ingressClass. Ignored if Traefik version < 2.3 / kubernetes < 1.18.x
ingressClass:
# true is not unit-testable yet, pending https://github.com/rancher/helm-unittest/pull/12
enabled: true
isDefaultClass: true
# Activate Pilot integration
pilot:
enabled: false
token: ""
dashboard: true
# Enable experimental features
experimental:
plugins:
enabled: false
kubernetesGateway:
enabled: false
appLabelSelector: "traefik"
certificates: []
# - group: "core"
# kind: "Secret"
# name: "mysecret"
# Create an IngressRoute for the dashboard
ingressRoute:
dashboard:
enabled: true
# Additional ingressRoute annotations (e.g. for kubernetes.io/ingress.class)
annotations: {}
# Additional ingressRoute labels (e.g. for filtering IngressRoute by custom labels)
labels: {}
rollingUpdate:
maxUnavailable: 1
maxSurge: 1
#
# Configure providers
#
providers:
kubernetesCRD:
enabled: true
namespaces: []
# - "default"
kubernetesIngress:
enabled: true
# labelSelector: environment=production,method=traefik
namespaces: []
# - "default"
# IP used for Kubernetes Ingress endpoints
publishedService:
enabled: false
# Published Kubernetes Service to copy status from. Format: namespace/servicename
# By default this Traefik service
# pathOverride: ""
#
# Add volumes to the traefik pod. The volume name will be passed to tpl.
# This can be used to mount a cert pair or a configmap that holds a config.toml file.
# After the volume has been mounted, add the configs into traefik by using the `additionalArguments` list below, eg:
# additionalArguments:
# - "--providers.file.filename=/config/dynamic.toml"
# - "--ping"
# - "--ping.entrypoint=web"
volumes: []
# - name: public-cert
# mountPath: "/certs"
# type: secret
# - name: '{{ printf "%s-configs" .Release.Name }}'
# mountPath: "/config"
# type: configMap
# Additional volumeMounts to add to the Traefik container
additionalVolumeMounts: []
# For instance when using a logshipper for access logs
# - name: traefik-logs
# mountPath: /var/log/traefik
# Logs
# https://docs.traefik.io/observability/logs/
logs:
# Traefik logs concern everything that happens to Traefik itself (startup, configuration, events, shutdown, and so on).
general:
# By default, the logs use a text format (common), but you can
# also ask for the json format in the format option
# format: json
# By default, the level is set to ERROR. Alternative logging levels are DEBUG, PANIC, FATAL, ERROR, WARN, and INFO.
level: ERROR
access:
# To enable access logs
enabled: false
# By default, logs are written using the Common Log Format (CLF).
# To write logs in JSON, use json in the format option.
# If the given format is unsupported, the default (CLF) is used instead.
# format: json
# To write the logs in an asynchronous fashion, specify a bufferingSize option.
# This option represents the number of log lines Traefik will keep in memory before writing
# them to the selected output. In some cases, this option can greatly help performances.
# bufferingSize: 100
# Filtering https://docs.traefik.io/observability/access-logs/#filtering
filters: {}
# statuscodes: "200,300-302"
# retryattempts: true
# minduration: 10ms
# Fields
# https://docs.traefik.io/observability/access-logs/#limiting-the-fieldsincluding-headers
fields:
general:
defaultmode: keep
names: {}
# Examples:
# ClientUsername: drop
headers:
defaultmode: drop
names: {}
# Examples:
# User-Agent: redact
# Authorization: drop
# Content-Type: keep
globalArguments:
- "--global.checknewversion"
- "--global.sendanonymoususage"
# Configure Traefik static configuration
# Additional arguments to be passed at Traefik's binary
# All available options available on https://docs.traefik.io/reference/static-configuration/cli/
## Use curly braces to pass values: `helm install --set="additionalArguments={--providers.kubernetesingress.ingressclass=traefik-internal,--log.level=DEBUG}"`
additionalArguments:
- "--providers.kubernetesingress.ingressclass=traefik"
- "--log.level=DEBUG"
- "--log.format=json"
- "--certificatesresolvers.le.acme.caserver=https://acme-v02.api.letsencrypt.org/directory"
- "--certificatesresolvers.le.acme.tlschallenge=true"
- "--certificatesresolvers.le.acme.email=adelorenzo@oe74.net"
- "--certificatesresolvers.le.acme.storage=/data/acme.json"
# Environment variables to be passed to Traefik's binary
env: []
# - name: SOME_VAR
# value: some-var-value
# - name: SOME_VAR_FROM_CONFIG_MAP
# valueFrom:
# configMapRef:
# name: configmap-name
# key: config-key
# - name: SOME_SECRET
# valueFrom:
# secretKeyRef:
# name: secret-name
# key: secret-key
envFrom: []
# - configMapRef:
# name: config-map-name
# - secretRef:
# name: secret-name
# Configure ports
ports:
# The name of this one can't be changed as it is used for the readiness and
# liveness probes, but you can adjust its config to your liking
traefik:
port: 9000
# Use hostPort if set.
# hostPort: 9000
#
# Use hostIP if set. If not set, Kubernetes will default to 0.0.0.0, which
# means it's listening on all your interfaces and all your IPs. You may want
# to set this value if you need traefik to listen on specific interface
# only.
# hostIP: 192.168.100.10
# Override the liveness/readiness port. This is useful to integrate traefik
# with an external Load Balancer that performs healthchecks.
# healthchecksPort: 9000
# Defines whether the port is exposed if service.type is LoadBalancer or
# NodePort.
#
# You SHOULD NOT expose the traefik port on production deployments.
# If you want to access it from outside of your cluster,
# use `kubectl port-forward` or create a secure ingress
expose: false
# The exposed port for this service
exposedPort: 9000
# The port protocol (TCP/UDP)
protocol: TCP
web:
port: 8000
hostPort: 80
expose: true
exposedPort: 80
# The port protocol (TCP/UDP)
protocol: TCP
# Use nodeport if set. This is useful if you have configured Traefik in a
# LoadBalancer
# nodePort: 32080
# Port Redirections
# Added in 2.2, you can make permanent redirects via entrypoints.
# https://docs.traefik.io/routing/entrypoints/#redirection
redirectTo: websecure
websecure:
port: 8443
hostPort: 443
expose: true
exposedPort: 443
# The port protocol (TCP/UDP)
protocol: TCP
# nodePort: 32443
# Set TLS at the entrypoint
# https://doc.traefik.io/traefik/routing/entrypoints/#tls
tls:
enabled: true
# this is the name of a TLSOption definition
options: ""
certResolver: "le"
domains:
- main: zz11.net
# sans:
# - foo.example.com
# - bar.example.com
# TLS Options are created as TLSOption CRDs
# https://doc.traefik.io/traefik/https/tls/#tls-options
# Example:
# tlsOptions:
# default:
# sniStrict: true
# preferServerCipherSuites: true
# foobar:
# curvePreferences:
# - CurveP521
# - CurveP384
tlsOptions: {}
# Options for the main traefik service, where the entrypoints traffic comes
# from.
service:
enabled: true
type: LoadBalancer
# Additional annotations (e.g. for cloud provider specific config)
annotations: {}
# Additional service labels (e.g. for filtering Service by custom labels)
labels: {}
# Additional entries here will be added to the service spec. Cannot contains
# type, selector or ports entries.
spec: {}
# externalTrafficPolicy: Cluster
# loadBalancerIP: "1.2.3.4"
# clusterIP: "2.3.4.5"
loadBalancerSourceRanges: []
# - 192.168.0.1/32
# - 172.16.0.0/16
externalIPs: []
# - 1.2.3.4
## Create HorizontalPodAutoscaler object.
##
autoscaling:
enabled: false
# minReplicas: 1
# maxReplicas: 10
# metrics:
# - type: Resource
# resource:
# name: cpu
# targetAverageUtilization: 60
# - type: Resource
# resource:
# name: memory
# targetAverageUtilization: 60
# Enable persistence using Persistent Volume Claims
# ref: http://kubernetes.io/docs/user-guide/persistent-volumes/
# After the pvc has been mounted, add the configs into traefik by using the `additionalArguments` list below, eg:
# additionalArguments:
# - "--certificatesresolvers.le.acme.storage=/data/acme.json"
# It will persist TLS certificates.
persistence:
enabled: true
name: data
# existingClaim: ""
accessMode: ReadWriteOnce
size: 128Mi
# storageClass: ""
path: /data
annotations: {}
# subPath: "" # only mount a subpath of the Volume into the pod
# If hostNetwork is true, runs traefik in the host network namespace
# To prevent unschedulabel pods due to port collisions, if hostNetwork=true
# and replicas>1, a pod anti-affinity is recommended and will be set if the
# affinity is left as default.
hostNetwork: false
# Whether Role Based Access Control objects like roles and rolebindings should be created
rbac:
enabled: true
# If set to false, installs ClusterRole and ClusterRoleBinding so Traefik can be used across namespaces.
# If set to true, installs namespace-specific Role and RoleBinding and requires provider configuration be set to that same namespace
namespaced: false
# Enable to create a PodSecurityPolicy and assign it to the Service Account via RoleBindin or ClusterRoleBinding
podSecurityPolicy:
enabled: false
# The service account the pods will use to interact with the Kubernetes API
serviceAccount:
# If set, an existing service account is used
# If not set, a service account is created automatically using the fullname template
name: ""
# Additional serviceAccount annotations (e.g. for oidc authentication)
serviceAccountAnnotations: {}
resources: {}
# requests:
# cpu: "100m"
# memory: "50Mi"
# limits:
# cpu: "300m"
# memory: "150Mi"
affinity: {}
# # This example pod anti-affinity forces the scheduler to put traefik pods
# # on nodes where no other traefik pods are scheduled.
# # It should be used when hostNetwork: true to prevent port conflicts
# podAntiAffinity:
# requiredDuringSchedulingIgnoredDuringExecution:
# - labelSelector:
# matchExpressions:
# - key: app
# operator: In
# values:
# - {{ template "traefik.name" . }}
# topologyKey: failure-domain.beta.kubernetes.io/zone
nodeSelector: {}
tolerations: []
# Pods can have priority.
# Priority indicates the importance of a Pod relative to other Pods.
priorityClassName: ""
# Set the container security context
# To run the container with ports below 1024 this will need to be adjust to run as root
securityContext:
capabilities:
drop: [ALL]
readOnlyRootFilesystem: true
runAsGroup: 65532
runAsNonRoot: true
runAsUser: 65532
podSecurityContext:
fsGroup: 65532