# File generated by install/kubernetes/Makefile; DO NOT EDIT. # This file is based on install/kubernetes/cilium/values.yaml.tmpl. # upgradeCompatibility helps users upgrading to ensure that the configMap for # Cilium will not change critical values to ensure continued operation # This is flag is not required for new installations. # For example: 1.7, 1.8, 1.9 # upgradeCompatibility: '1.8' debug: # -- Enable debug logging enabled: false # verbose: rbac: # -- Enable creation of Resource-Based Access Control configuration. create: true # -- Configure image pull secrets for pulling container images imagePullSecrets: # - name: "image-pull-secret" # kubeConfigPath: ~/.kube/config # k8sServiceHost: # k8sServicePort: cluster: # -- Name of the cluster. Only required for Cluster Mesh. name: default # -- (int) Unique ID of the cluster. Must be unique across all connected # clusters and in the range of 1 to 255. Only required for Cluster Mesh, # may be 0 if Cluster Mesh is not used. id: 0 # -- Define serviceAccount names for components. # @default -- Component's fully qualified name. serviceAccounts: cilium: create: true name: cilium annotations: {} etcd: create: true name: cilium-etcd-operator annotations: {} operator: create: true name: cilium-operator annotations: {} preflight: create: true name: cilium-pre-flight annotations: {} relay: create: true name: hubble-relay annotations: {} ui: create: true name: hubble-ui annotations: {} clustermeshApiserver: create: true name: clustermesh-apiserver annotations: {} # -- Clustermeshcertgen is used if clustermesh.apiserver.tls.auto.method=cronJob clustermeshcertgen: create: true name: clustermesh-apiserver-generate-certs annotations: {} # -- Hubblecertgen is used if hubble.tls.auto.method=cronJob hubblecertgen: create: true name: hubble-generate-certs annotations: {} # -- Configure termination grace period for cilium-agent DaemonSet. terminationGracePeriodSeconds: 1 # -- Install the cilium agent resources. agent: true # -- Agent container name. name: cilium # -- Roll out cilium agent pods automatically when configmap is updated. rollOutCiliumPods: false # -- Agent container image. image: override: ~ repository: "quay.io/cilium/cilium" tag: "v1.12.6" pullPolicy: "IfNotPresent" # cilium-digest digest: "" useDigest: false # -- Security context to be added to agent pods securityContext: # runAsUser: 0 privileged: false extraCapabilities: # Allow discretionary access control (e.g. required for package installation) - DAC_OVERRIDE # Allow to set Access Control Lists (ACLs) on arbitrary files (e.g. required for package installation) - FOWNER # Allow to execute program that changes GID (e.g. required for package installation) - SETGID # Allow to execute program that changes UID (e.g. required for package installation) - SETUID # -- Cilium agent update strategy updateStrategy: type: RollingUpdate rollingUpdate: maxUnavailable: 1 # -- Enable bandwidth manager to optimize TCP and UDP workloads and allow # for rate-limiting traffic from individual Pods with EDT (Earliest Departure # Time) through the "kubernetes.io/egress-bandwidth" Pod annotation. bandwidthManager: # -- Enable bandwidth manager infrastructure (also prerequirement for BBR) enabled: false # -- Activate BBR TCP congestion control for Pods bbr: false # -- Configure BGP bgp: # -- Enable BGP support inside Cilium; embeds a new ConfigMap for BGP inside # cilium-agent and cilium-operator enabled: false announce: # -- Enable allocation and announcement of service LoadBalancer IPs loadbalancerIP: false # -- Enable announcement of node pod CIDR podCIDR: false # -- This feature set enables virtual BGP routers to be created via # CiliumBGPPeeringPolicy CRDs. bgpControlPlane: # -- Enables the BGP control plane. enabled: false bpf: # -- Configure the mount point for the BPF filesystem root: /sys/fs/bpf # -- Enable BPF clock source probing for more efficient tick retrieval. clockProbe: false # -- Enables pre-allocation of eBPF map values. This increases # memory usage but can reduce latency. preallocateMaps: false # -- Configure the maximum number of entries in the TCP connection tracking # table. # ctTcpMax: '524288' # -- Configure the maximum number of entries for the non-TCP connection # tracking table. # ctAnyMax: '262144' # -- Configure the maximum number of service entries in the # load balancer maps. lbMapMax: 65536 # -- Configure the maximum number of entries for the NAT table. # natMax: 524288 # -- Configure the maximum number of entries for the neighbor table. # neighMax: 524288 # -- Configure the maximum number of entries in endpoint policy map (per endpoint). policyMapMax: 16384 # -- Configure auto-sizing for all BPF maps based on available memory. # ref: https://docs.cilium.io/en/stable/concepts/ebpf/maps/#ebpf-maps #mapDynamicSizeRatio: 0.0025 # -- Configure the level of aggregation for monitor notifications. # Valid options are none, low, medium, maximum. monitorAggregation: medium # -- Configure the typical time between monitor notifications for # active connections. monitorInterval: "5s" # -- Configure which TCP flags trigger notifications when seen for the # first time in a connection. monitorFlags: "all" # -- Allow cluster external access to ClusterIP services. lbExternalClusterIP: false # -- Enable native IP masquerade support in eBPF #masquerade: false # -- Deprecated in favor of bpf.hostLegacyRouting. To be removed in 1.13. # Configure whether direct routing mode should route traffic via # host stack (true) or directly and more efficiently out of BPF (false) if # the kernel supports it. #hostRouting: true # -- Configure whether direct routing mode should route traffic via # host stack (true) or directly and more efficiently out of BPF (false) if # the kernel supports it. The latter has the implication that it will also # bypass netfilter in the host namespace. #hostLegacyRouting: false # -- Configure the eBPF-based TPROXY to reduce reliance on iptables rules # for implementing Layer 7 policy. # tproxy: true # -- Configure the FIB lookup bypass optimization for nodeport reverse # NAT handling. # lbBypassFIBLookup: true # -- Configure explicitly allowed VLAN id's for bpf logic bypass. # [0] will allow all VLAN id's without any filtering. # vlanBypass: [] # -- Wait for KUBE-PROXY-CANARY iptables rule to appear in "wait-for-kube-proxy" # init container before launching cilium-agent. # More context can be found in the commit message of below PR # https://github.com/cilium/cilium/pull/20123 waitForKubeProxy: false cni: # -- Install the CNI configuration and binary files into the filesystem. install: true # -- Configure chaining on top of other CNI plugins. Possible values: # - none # - aws-cni # - flannel # - generic-veth # - portmap chainingMode: none # -- Make Cilium take ownership over the `/etc/cni/net.d` directory on the # node, renaming all non-Cilium CNI configurations to `*.cilium_bak`. # This ensures no Pods can be scheduled using other CNI plugins during Cilium # agent downtime. exclusive: true # -- Configure the log file for CNI logging with retention policy of 7 days. # Disable CNI file logging by setting this field to empty explicitly. logFile: /var/run/cilium/cilium-cni.log # -- Skip writing of the CNI configuration. This can be used if # writing of the CNI configuration is performed by external automation. customConf: false # -- Configure the path to the CNI configuration directory on the host. confPath: /etc/cni/net.d # -- Configure the path to the CNI binary directory on the host. binPath: /opt/cni/bin # -- Specify the path to a CNI config to read from on agent start. # This can be useful if you want to manage your CNI # configuration outside of a Kubernetes environment. This parameter is # mutually exclusive with the 'cni.configMap' parameter. # readCniConf: /host/etc/cni/net.d/05-cilium.conf # -- When defined, configMap will mount the provided value as ConfigMap and # interpret the cniConf variable as CNI configuration file and write it # when the agent starts up # configMap: cni-configuration # -- Configure the key in the CNI ConfigMap to read the contents of # the CNI configuration from. configMapKey: cni-config # -- Configure the path to where to mount the ConfigMap inside the agent pod. confFileMountPath: /tmp/cni-configuration # -- Configure the path to where the CNI configuration directory is mounted # inside the agent pod. hostConfDirMountPath: /host/etc/cni/net.d # -- Configure how frequently garbage collection should occur for the datapath # connection tracking table. # conntrackGCInterval: "0s" # -- Configure container runtime specific integration. containerRuntime: # -- Enables specific integrations for container runtimes. # Supported values: # - containerd # - crio # - docker # - none # - auto (automatically detect the container runtime) integration: auto # -- Configure the path to the container runtime control socket. # socketPath: /path/to/runtime.sock # crdWaitTimeout: "" # -- Tail call hooks for custom eBPF programs. customCalls: # -- Enable tail call hooks for custom eBPF programs. enabled: false # -- Configure which datapath mode should be used for configuring container # connectivity. Valid options are "veth" or "ipvlan". Deprecated, to be removed # in v1.12. datapathMode: veth daemon: # -- Configure where Cilium runtime state should be stored. runPath: "/var/run/cilium" # -- Specify which network interfaces can run the eBPF datapath. This means # that a packet sent from a pod to a destination outside the cluster will be # masqueraded (to an output device IPv4 address), if the output device runs the # program. When not specified, probing will automatically detect devices. # devices: "" # -- Enables experimental support for the detection of new and removed datapath # devices. When devices change the eBPF datapath is reloaded and services updated. # If "devices" is set then only those devices, or devices matching a wildcard will # be considered. enableRuntimeDeviceDetection: false # -- Chains to ignore when installing feeder rules. # disableIptablesFeederRules: "" # -- Limit egress masquerading to interface selector. # egressMasqueradeInterfaces: "" # -- Whether to enable CNP status updates. enableCnpStatusUpdates: false # -- Configures the use of the KVStore to optimize Kubernetes event handling by # mirroring it into the KVstore for reduced overhead in large clusters. enableK8sEventHandover: false # -- Enable setting identity mark for local traffic. # enableIdentityMark: true # -- Enable Kubernetes EndpointSlice feature in Cilium if the cluster supports it. # enableK8sEndpointSlice: true # -- Enable CiliumEndpointSlice feature. enableCiliumEndpointSlice: false ingressController: # -- Enable cilium ingress controller # This will automatically set enable-envoy-config as well. enabled: false # -- Enforce https for host having matching TLS host in Ingress. # Incoming traffic to http listener will return 308 http error code with respective location in header. enforceHttps: true # -- SecretsNamespace is the namespace in which envoy SDS will retrieve TLS secrets from. secretsNamespace: # -- Create secrets namespace for Ingress. create: true # -- Name of Ingress secret namespace. name: cilium-secrets # -- Enable secret sync, which will make sure all TLS secrets used by Ingress are synced to secretsNamespace.name. # If disabled, TLS secrets must be maintained externally. sync: true # -- Enables the fallback compatibility solution for when the xt_socket kernel # module is missing and it is needed for the datapath L7 redirection to work # properly. See documentation for details on when this can be disabled: # https://docs.cilium.io/en/stable/operations/system_requirements/#linux-kernel. enableXTSocketFallback: true encryption: # -- Enable transparent network encryption. enabled: false # -- Encryption method. Can be either ipsec or wireguard. type: ipsec # -- Enable encryption for pure node to node traffic. # This option is only effective when encryption.type is set to ipsec. nodeEncryption: false ipsec: # -- Name of the key file inside the Kubernetes secret configured via secretName. keyFile: "" # -- Path to mount the secret inside the Cilium pod. mountPath: "" # -- Name of the Kubernetes secret containing the encryption keys. secretName: "" # -- The interface to use for encrypted traffic. interface: "" wireguard: # -- Enables the fallback to the user-space implementation. userspaceFallback: false # -- Deprecated in favor of encryption.ipsec.keyFile. # Name of the key file inside the Kubernetes secret configured via secretName. # This option is only effective when encryption.type is set to ipsec. keyFile: keys # -- Deprecated in favor of encryption.ipsec.mountPath. # Path to mount the secret inside the Cilium pod. # This option is only effective when encryption.type is set to ipsec. mountPath: /etc/ipsec # -- Deprecated in favor of encryption.ipsec.secretName. # Name of the Kubernetes secret containing the encryption keys. # This option is only effective when encryption.type is set to ipsec. secretName: cilium-ipsec-keys # -- Deprecated in favor of encryption.ipsec.interface. # The interface to use for encrypted traffic. # This option is only effective when encryption.type is set to ipsec. interface: "" endpointHealthChecking: # -- Enable connectivity health checking between virtual endpoints. enabled: true # -- Enable endpoint status. # Status can be: policy, health, controllers, logs and / or state. For 2 or more options use a comma. endpointStatus: enabled: false status: "" endpointRoutes: # -- Enable use of per endpoint routes instead of routing via # the cilium_host interface. enabled: false eni: # -- Enable Elastic Network Interface (ENI) integration. enabled: false # -- Update ENI Adapter limits from the EC2 API updateEC2AdapterLimitViaAPI: false # -- Release IPs not used from the ENI awsReleaseExcessIPs: false # -- Enable ENI prefix delegation awsEnablePrefixDelegation: false # -- EC2 API endpoint to use ec2APIEndpoint: "" # -- Tags to apply to the newly created ENIs eniTags: {} # -- If using IAM role for Service Accounts will not try to # inject identity values from cilium-aws kubernetes secret. # Adds annotation to service account if managed by Helm. # See https://github.com/aws/amazon-eks-pod-identity-webhook iamRole: "" # -- Filter via subnet IDs which will dictate which subnets are going to be used to create new ENIs # Important note: This requires that each instance has an ENI with a matching subnet attached # when Cilium is deployed. If you only want to control subnets for ENIs attached by Cilium, # use the CNI configuration file settings (cni.customConf) instead. subnetIDsFilter: "" # -- Filter via tags (k=v) which will dictate which subnets are going to be used to create new ENIs # Important note: This requires that each instance has an ENI with a matching subnet attached # when Cilium is deployed. If you only want to control subnets for ENIs attached by Cilium, # use the CNI configuration file settings (cni.customConf) instead. subnetTagsFilter: "" # -- Filter via AWS EC2 Instance tags (k=v) which will dictate which AWS EC2 Instances # are going to be used to create new ENIs instanceTagsFilter: "" externalIPs: # -- Enable ExternalIPs service support. enabled: false # fragmentTracking enables IPv4 fragment tracking support in the datapath. # fragmentTracking: true # -- Enable connectivity health checking. healthChecking: true # -- TCP port for the agent health API. This is not the port for cilium-health. healthPort: 9879 # -- Configure the host firewall. hostFirewall: # -- Enables the enforcement of host policies in the eBPF datapath. enabled: false hostPort: # -- Enable hostPort service support. enabled: false # -- Configure socket LB socketLB: # -- Enable socket LB enabled: false # -- Disable socket lb for non-root ns. This is used to enable Istio routing rules. # hostNamespaceOnly: false # -- Configure certificate generation for Hubble integration. # If hubble.tls.auto.method=cronJob, these values are used # for the Kubernetes CronJob which will be scheduled regularly to # (re)generate any certificates not provided manually. certgen: image: override: ~ repository: "quay.io/cilium/certgen" tag: "v0.1.8@sha256:4a456552a5f192992a6edcec2febb1c54870d665173a33dc7d876129b199ddbd" pullPolicy: "IfNotPresent" # -- Seconds after which the completed job pod will be deleted ttlSecondsAfterFinished: 1800 # -- Labels to be added to hubble-certgen pods podLabels: {} # -- Node tolerations for pod assignment on nodes with taints # ref: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/ tolerations: [] hubble: # -- Enable Hubble (true by default). enabled: true # -- Buffer size of the channel Hubble uses to receive monitor events. If this # value is not set, the queue size is set to the default monitor queue size. # eventQueueSize: "" # -- Number of recent flows for Hubble to cache. Defaults to 4095. # Possible values are: # 1, 3, 7, 15, 31, 63, 127, 255, 511, 1023, # 2047, 4095, 8191, 16383, 32767, 65535 # eventBufferCapacity: "4095" # -- Hubble metrics configuration. # See https://docs.cilium.io/en/stable/operations/metrics/#hubble-metrics # for more comprehensive documentation about Hubble metrics. metrics: # -- Configures the list of metrics to collect. If empty or null, metrics # are disabled. # Example: # enabled: - dns:query;ignoreAAAA - drop - tcp - flow - icmp - http # # You can specify the list of metrics from the helm CLI: # # --set metrics.enabled="{dns:query;ignoreAAAA,drop,tcp,flow,icmp,http}" # enabled: ~ # -- Configure the port the hubble metric server listens on. port: 9965 # -- Annotations to be added to hubble-metrics service. serviceAnnotations: {} serviceMonitor: # -- Create ServiceMonitor resources for Prometheus Operator. # This requires the prometheus CRDs to be available. # ref: https://github.com/prometheus-operator/prometheus-operator/blob/master/example/prometheus-operator-crd/monitoring.coreos.com_servicemonitors.yaml) enabled: false # -- Labels to add to ServiceMonitor hubble labels: {} # -- Annotations to add to ServiceMonitor hubble annotations: {} # -- Unix domain socket path to listen to when Hubble is enabled. socketPath: /var/run/cilium/hubble.sock # -- An additional address for Hubble to listen to. # Set this field ":4244" if you are enabling Hubble Relay, as it assumes that # Hubble is listening on port 4244. listenAddress: ":4244" peerService: # -- Enable a K8s Service for the Peer service, so that it can be accessed # by a non-local client enabled: true # -- Service Port for the Peer service. # If not set, it is dynamically assigned to port 443 if TLS is enabled and to # port 80 if not. # servicePort: 80 # -- Target Port for the Peer service. targetPort: 4244 # -- The cluster domain to use to query the Hubble Peer service. It should # be the local cluster. clusterDomain: cluster.local # -- TLS configuration for Hubble tls: # -- Enable mutual TLS for listenAddress. Setting this value to false is # highly discouraged as the Hubble API provides access to potentially # sensitive network flow metadata and is exposed on the host network. enabled: true # -- Configure automatic TLS certificates generation. auto: # -- Auto-generate certificates. # When set to true, automatically generate a CA and certificates to # enable mTLS between Hubble server and Hubble Relay instances. If set to # false, the certs for Hubble server need to be provided by setting # appropriate values below. enabled: true # -- Set the method to auto-generate certificates. Supported values: # - helm: This method uses Helm to generate all certificates. # - cronJob: This method uses a Kubernetes CronJob the generate any # certificates not provided by the user at installation # time. # - certmanager: This method use cert-manager to generate & rotate certificates. method: helm # -- Generated certificates validity duration in days. certValidityDuration: 1095 # -- Schedule for certificates regeneration (regardless of their expiration date). # Only used if method is "cronJob". If nil, then no recurring job will be created. # Instead, only the one-shot job is deployed to generate the certificates at # installation time. # # Defaults to midnight of the first day of every fourth month. For syntax, see # https://kubernetes.io/docs/tasks/job/automated-tasks-with-cron-jobs/#schedule schedule: "0 0 1 */4 *" # [Example] # certManagerIssuerRef: # group: cert-manager.io # kind: ClusterIssuer # name: ca-issuer # -- certmanager issuer used when hubble.tls.auto.method=certmanager. # If not specified, a CA issuer will be created. certManagerIssuerRef: {} # -- Deprecated in favor of tls.ca. To be removed in 1.13. # base64 encoded PEM values for the Hubble CA certificate and private key. ca: # -- Deprecated in favor of tls.ca.cert. To be removed in 1.13. cert: "" # -- Deprecated in favor of tls.ca.key. To be removed in 1.13. # The CA private key (optional). If it is provided, then it will be # used by hubble.tls.auto.method=cronJob to generate all other certificates. # Otherwise, a ephemeral CA is generated if hubble.tls.auto.enabled=true. key: "" # -- base64 encoded PEM values for the Hubble server certificate and private key server: cert: "" key: "" # -- Extra DNS names added to certificate when it's auto generated extraDnsNames: [] # -- Extra IP addresses added to certificate when it's auto generated extraIpAddresses: [] relay: # -- Enable Hubble Relay (requires hubble.enabled=true) enabled: true # -- Roll out Hubble Relay pods automatically when configmap is updated. rollOutPods: false # -- Hubble-relay container image. image: override: ~ repository: "quay.io/cilium/hubble-relay" tag: "v1.12.6" # hubble-relay-digest digest: "" useDigest: false pullPolicy: "IfNotPresent" # -- Specifies the resources for the hubble-relay pods resources: {} # -- Number of replicas run for the hubble-relay deployment. replicas: 1 # -- Affinity for hubble-replay affinity: podAffinity: requiredDuringSchedulingIgnoredDuringExecution: - topologyKey: kubernetes.io/hostname labelSelector: matchLabels: k8s-app: cilium # -- Node labels for pod assignment # ref: https://kubernetes.io/docs/user-guide/node-selection/ nodeSelector: kubernetes.io/os: linux # -- Node tolerations for pod assignment on nodes with taints # ref: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/ # tolerations: [] # -- Additional hubble-relay environment variables. extraEnv: [] # -- Annotations to be added to hubble-relay pods podAnnotations: {} # -- Labels to be added to hubble-relay pods podLabels: {} # PodDisruptionBudget settings podDisruptionBudget: # -- enable PodDisruptionBudget # ref: https://kubernetes.io/docs/concepts/workloads/pods/disruptions/ enabled: false # -- Minimum number/percentage of pods that should remain scheduled. # When it's set, maxUnavailable must be disabled by `maxUnavailable: null` minAvailable: null # -- Maximum number/percentage of pods that may be made unavailable maxUnavailable: 1 # -- The priority class to use for hubble-relay priorityClassName: "" # -- Configure termination grace period for hubble relay Deployment. terminationGracePeriodSeconds: 1 # -- hubble-relay update strategy updateStrategy: type: RollingUpdate rollingUpdate: maxUnavailable: 1 # -- hubble-relay security context securityContext: {} # -- hubble-relay service configuration. service: # --- The type of service used for Hubble Relay access, either ClusterIP or NodePort. type: ClusterIP # --- The port to use when the service type is set to NodePort. nodePort: 31234 # -- Host to listen to. Specify an empty string to bind to all the interfaces. listenHost: "" # -- Port to listen to. listenPort: "4245" # -- TLS configuration for Hubble Relay tls: # -- base64 encoded PEM values for the hubble-relay client certificate and private key # This keypair is presented to Hubble server instances for mTLS # authentication and is required when hubble.tls.enabled is true. # These values need to be set manually if hubble.tls.auto.enabled is false. client: cert: "" key: "" # -- base64 encoded PEM values for the hubble-relay server certificate and private key server: # When set to true, enable TLS on for Hubble Relay server # (ie: for clients connecting to the Hubble Relay API). enabled: false # These values need to be set manually if hubble.tls.auto.enabled is false. cert: "" key: "" # -- extra DNS names added to certificate when its auto gen extraDnsNames: [] # -- extra IP addresses added to certificate when its auto gen extraIpAddresses: [] # -- Dial timeout to connect to the local hubble instance to receive peer information (e.g. "30s"). dialTimeout: ~ # -- Backoff duration to retry connecting to the local hubble instance in case of failure (e.g. "30s"). retryTimeout: ~ # -- Max number of flows that can be buffered for sorting before being sent to the # client (per request) (e.g. 100). sortBufferLenMax: ~ # -- When the per-request flows sort buffer is not full, a flow is drained every # time this timeout is reached (only affects requests in follow-mode) (e.g. "1s"). sortBufferDrainTimeout: ~ # -- Port to use for the k8s service backed by hubble-relay pods. # If not set, it is dynamically assigned to port 443 if TLS is enabled and to # port 80 if not. # servicePort: 80 # -- Enable prometheus metrics for hubble-relay on the configured port at # /metrics prometheus: enabled: false port: 9966 serviceMonitor: # -- Enable service monitors. # This requires the prometheus CRDs to be available (see https://github.com/prometheus-operator/prometheus-operator/blob/master/example/prometheus-operator-crd/monitoring.coreos.com_servicemonitors.yaml) enabled: false # -- Labels to add to ServiceMonitor hubble-relay labels: {} # -- Annotations to add to ServiceMonitor hubble-relay annotations: {} # -- Interval for scrape metrics. interval: "10s" # -- Specify the Kubernetes namespace where Prometheus expects to find # service monitors configured. # namespace: "" ui: # -- Whether to enable the Hubble UI. enabled: true standalone: # -- When true, it will allow installing the Hubble UI only, without checking dependencies. # It is useful if a cluster already has cilium and Hubble relay installed and you just # want Hubble UI to be deployed. # When installed via helm, installing UI should be done via `helm upgrade` and when installed via the cilium cli, then `cilium hubble enable --ui` enabled: false tls: # -- When deploying Hubble UI in standalone, with tls enabled for Hubble relay, it is required # to provide a volume for mounting the client certificates. certsVolume: {} # projected: # defaultMode: 0400 # sources: # - secret: # name: hubble-ui-client-certs # items: # - key: tls.crt # path: client.crt # - key: tls.key # path: client.key # - key: ca.crt # path: hubble-relay-ca.crt # -- Roll out Hubble-ui pods automatically when configmap is updated. rollOutPods: false tls: # -- base64 encoded PEM values used to connect to hubble-relay # This keypair is presented to Hubble Relay instances for mTLS # authentication and is required when hubble.relay.tls.server.enabled is true. # These values need to be set manually if hubble.tls.auto.enabled is false. client: cert: "" key: "" backend: # -- Hubble-ui backend image. image: override: ~ repository: "quay.io/cilium/hubble-ui-backend" tag: "v0.10.0@sha256:cc5e2730b3be6f117b22176e25875f2308834ced7c3aa34fb598aa87a2c0a6a4" pullPolicy: "IfNotPresent" # -- Additional hubble-ui backend environment variables. extraEnv: [] # -- Resource requests and limits for the 'backend' container of the 'hubble-ui' deployment. resources: {} # limits: # cpu: 1000m # memory: 1024M # requests: # cpu: 100m # memory: 64Mi frontend: # -- Hubble-ui frontend image. image: override: ~ repository: "quay.io/cilium/hubble-ui" tag: "v0.10.0@sha256:118ad2fcfd07fabcae4dde35ec88d33564c9ca7abe520aa45b1eb13ba36c6e0a" pullPolicy: "IfNotPresent" # -- Additional hubble-ui frontend environment variables. extraEnv: [] # -- Resource requests and limits for the 'frontend' container of the 'hubble-ui' deployment. resources: {} # limits: # cpu: 1000m # memory: 1024M # requests: # cpu: 100m # memory: 64Mi # -- The number of replicas of Hubble UI to deploy. replicas: 1 # -- Annotations to be added to hubble-ui pods podAnnotations: {} # -- Labels to be added to hubble-ui pods podLabels: {} # PodDisruptionBudget settings podDisruptionBudget: # -- enable PodDisruptionBudget # ref: https://kubernetes.io/docs/concepts/workloads/pods/disruptions/ enabled: false # -- Minimum number/percentage of pods that should remain scheduled. # When it's set, maxUnavailable must be disabled by `maxUnavailable: null` minAvailable: null # -- Maximum number/percentage of pods that may be made unavailable maxUnavailable: 1 # -- Affinity for hubble-ui affinity: {} # -- Node labels for pod assignment # ref: https://kubernetes.io/docs/user-guide/node-selection/ nodeSelector: kubernetes.io/os: linux # -- Node tolerations for pod assignment on nodes with taints # ref: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/ # tolerations: [] # -- The priority class to use for hubble-ui priorityClassName: "" # -- hubble-ui update strategy. updateStrategy: type: RollingUpdate rollingUpdate: maxUnavailable: 1 # -- Security context to be added to Hubble UI pods securityContext: # -- Deprecated in favor of hubble.ui.securityContext. # Whether to set the security context on the Hubble UI pods. enabled: true runAsUser: 1001 runAsGroup: 1001 fsGroup: 1001 # -- hubble-ui service configuration. service: # --- The type of service used for Hubble UI access, either ClusterIP or NodePort. type: ClusterIP # --- The port to use when the service type is set to NodePort. nodePort: 31235 # -- hubble-ui ingress configuration. ingress: enabled: true className: ingress-internal-traefik annotations: cert-manager.io/cluster-issuer: vault-issuer traefik.ingress.kubernetes.io/router.tls: 'true' hosts: - cilium.dc tls: - secretName: cilium-dc-tls hosts: - cilium.dc # -- Method to use for identity allocation (`crd` or `kvstore`). identityAllocationMode: "crd" # -- Time to wait before using new identity on endpoint identity change. # identityChangeGracePeriod: "5s" # -- GC interval for security identities. # identityGCInterval: "15m0s" # -- Timeout after which identity expires on lack of heartbeat. # identityHeartbeatTimeout: "30m0s" # -- Configure whether to install iptables rules to allow for TPROXY # (L7 proxy injection), iptables-based masquerading and compatibility # with kube-proxy. installIptablesRules: true # -- Install Iptables rules to skip netfilter connection tracking on all pod # traffic. This option is only effective when Cilium is running in direct # routing and full KPR mode. Moreover, this option cannot be enabled when Cilium # is running in a managed Kubernetes environment or in a chained CNI setup. installNoConntrackIptablesRules: false ipam: # -- Configure IP Address Management mode. # ref: https://docs.cilium.io/en/stable/concepts/networking/ipam/ mode: "cluster-pool" operator: # -- Deprecated in favor of ipam.operator.clusterPoolIPv4PodCIDRList. # IPv4 CIDR range to delegate to individual nodes for IPAM. clusterPoolIPv4PodCIDR: "10.0.0.0/8" # -- IPv4 CIDR list range to delegate to individual nodes for IPAM. clusterPoolIPv4PodCIDRList: [] # -- IPv4 CIDR mask size to delegate to individual nodes for IPAM. clusterPoolIPv4MaskSize: 24 # -- Deprecated in favor of ipam.operator.clusterPoolIPv6PodCIDRList. # IPv6 CIDR range to delegate to individual nodes for IPAM. clusterPoolIPv6PodCIDR: "fd00::/104" # -- IPv6 CIDR list range to delegate to individual nodes for IPAM. clusterPoolIPv6PodCIDRList: [] # -- IPv6 CIDR mask size to delegate to individual nodes for IPAM. clusterPoolIPv6MaskSize: 120 # -- Configure the eBPF-based ip-masq-agent ipMasqAgent: enabled: false # iptablesLockTimeout defines the iptables "--wait" option when invoked from Cilium. # iptablesLockTimeout: "5s" ipv4: # -- Enable IPv4 support. enabled: true ipv6: # -- Enable IPv6 support. enabled: false # -- Configure Kubernetes specific configuration k8s: {} # -- requireIPv4PodCIDR enables waiting for Kubernetes to provide the PodCIDR # range via the Kubernetes node resource # requireIPv4PodCIDR: false # -- requireIPv6PodCIDR enables waiting for Kubernetes to provide the PodCIDR # range via the Kubernetes node resource # requireIPv6PodCIDR: false # -- Keep the deprecated selector labels when deploying Cilium DaemonSet. keepDeprecatedLabels: false # -- Keep the deprecated probes when deploying Cilium DaemonSet keepDeprecatedProbes: false startupProbe: # -- failure threshold of startup probe. # 105 x 2s translates to the old behaviour of the readiness probe (120s delay + 30 x 3s) failureThreshold: 105 # -- interval between checks of the startup probe periodSeconds: 2 livenessProbe: # -- failure threshold of liveness probe failureThreshold: 10 # -- interval between checks of the liveness probe periodSeconds: 30 readinessProbe: # -- failure threshold of readiness probe failureThreshold: 3 # -- interval between checks of the readiness probe periodSeconds: 30 # -- Configure the kube-proxy replacement in Cilium BPF datapath # Valid options are "disabled", "partial", "strict". # ref: https://docs.cilium.io/en/stable/gettingstarted/kubeproxy-free/ kubeProxyReplacement: "strict" # -- healthz server bind address for the kube-proxy replacement. # To enable set the value to '0.0.0.0:10256' for all ipv4 # addresses and this '[::]:10256' for all ipv6 addresses. # By default it is disabled. kubeProxyReplacementHealthzBindAddr: "" l2NeighDiscovery: # -- Enable L2 neighbor discovery in the agent enabled: true # -- Override the agent's default neighbor resolution refresh period. refreshPeriod: "30s" # -- Enable Layer 7 network policy. l7Proxy: true # -- Enable Local Redirect Policy. localRedirectPolicy: false # To include or exclude matched resources from cilium identity evaluation # labels: "" # logOptions allows you to define logging options. eg: # logOptions: # format: json # -- Enables periodic logging of system load logSystemLoad: false # -- Configure maglev consistent hashing maglev: {} # -- tableSize is the size (parameter M) for the backend table of one # service entry # tableSize: # -- hashSeed is the cluster-wide base64 encoded seed for the hashing # hashSeed: # -- Enables masquerading of IPv4 traffic leaving the node from endpoints. enableIPv4Masquerade: true # -- Enables masquerading of IPv6 traffic leaving the node from endpoints. enableIPv6Masquerade: true # -- Enables egress gateway to redirect and SNAT the traffic that leaves the # cluster. egressGateway: enabled: false # -- Install egress gateway IP rules and routes in order to properly steer # egress gateway traffic to the correct ENI interface installRoutes: false vtep: # -- Enables VXLAN Tunnel Endpoint (VTEP) Integration (beta) to allow # Cilium-managed pods to talk to third party VTEP devices over Cilium tunnel. enabled: false # -- A space separated list of VTEP device endpoint IPs, for example "1.1.1.1 1.1.2.1" endpoint: "" # -- A space separated list of VTEP device CIDRs, for example "1.1.1.0/24 1.1.2.0/24" cidr: "" # -- VTEP CIDRs Mask that applies to all VTEP CIDRs, for example "255.255.255.0" mask: "" # -- A space separated list of VTEP device MAC addresses (VTEP MAC), for example "x:x:x:x:x:x y:y:y:y:y:y:y" mac: "" # -- Allows to explicitly specify the IPv4 CIDR for native routing. # When specified, Cilium assumes networking for this CIDR is preconfigured and # hands traffic destined for that range to the Linux network stack without # applying any SNAT. # Generally speaking, specifying a native routing CIDR implies that Cilium can # depend on the underlying networking stack to route packets to their # destination. To offer a concrete example, if Cilium is configured to use # direct routing and the Kubernetes CIDR is included in the native routing CIDR, # the user must configure the routes to reach pods, either manually or by # setting the auto-direct-node-routes flag. # ipv4NativeRoutingCIDR: # -- Allows to explicitly specify the IPv6 CIDR for native routing. # When specified, Cilium assumes networking for this CIDR is preconfigured and # hands traffic destined for that range to the Linux network stack without # applying any SNAT. # Generally speaking, specifying a native routing CIDR implies that Cilium can # depend on the underlying networking stack to route packets to their # destination. To offer a concrete example, if Cilium is configured to use # direct routing and the Kubernetes CIDR is included in the native routing CIDR, # the user must configure the routes to reach pods, either manually or by # setting the auto-direct-node-routes flag. # ipv6NativeRoutingCIDR: # -- cilium-monitor sidecar. monitor: # -- Enable the cilium-monitor sidecar. enabled: false # -- Configure service load balancing # loadBalancer: # -- standalone enables the standalone L4LB which does not connect to # kube-apiserver. # standalone: false # -- algorithm is the name of the load balancing algorithm for backend # selection e.g. random or maglev # algorithm: random # -- mode is the operation mode of load balancing for remote backends # e.g. snat, dsr, hybrid # mode: snat # -- acceleration is the option to accelerate service handling via XDP # e.g. native, disabled # acceleration: disabled # -- dsrDispatch configures whether IP option or IPIP encapsulation is # used to pass a service IP and port to remote backend # dsrDispatch: opt # -- serviceTopology enables K8s Topology Aware Hints -based service # endpoints filtering # serviceTopology: false # -- Configure N-S k8s service loadbalancing nodePort: # -- Enable the Cilium NodePort service implementation. enabled: false # -- Port range to use for NodePort services. # range: "30000,32767" # -- Set to true to prevent applications binding to service ports. bindProtection: true # -- Append NodePort range to ip_local_reserved_ports if clash with ephemeral # ports is detected. autoProtectPortRange: true # -- Enable healthcheck nodePort server for NodePort services enableHealthCheck: true # policyAuditMode: false # -- The agent can be put into one of the three policy enforcement modes: # default, always and never. # ref: https://docs.cilium.io/en/stable/policy/intro/#policy-enforcement-modes policyEnforcementMode: "default" pprof: # -- Enable Go pprof debugging enabled: false # -- Configure prometheus metrics on the configured port at /metrics prometheus: enabled: false port: 9962 serviceMonitor: # -- Enable service monitors. # This requires the prometheus CRDs to be available (see https://github.com/prometheus-operator/prometheus-operator/blob/master/example/prometheus-operator-crd/monitoring.coreos.com_servicemonitors.yaml) enabled: false # -- Labels to add to ServiceMonitor cilium-agent labels: {} # -- Annotations to add to ServiceMonitor cilium-agent annotations: {} # -- Specify the Kubernetes namespace where Prometheus expects to find # service monitors configured. # namespace: "" # -- Metrics that should be enabled or disabled from the default metric # list. (+metric_foo to enable metric_foo , -metric_bar to disable # metric_bar). # ref: https://docs.cilium.io/en/stable/operations/metrics/#exported-metrics metrics: ~ # -- Configure Istio proxy options. proxy: prometheus: enabled: true port: "9964" # -- Regular expression matching compatible Istio sidecar istio-proxy # container image names sidecarImageRegex: "cilium/istio_proxy" # -- Enable use of the remote node identity. # ref: https://docs.cilium.io/en/v1.7/install/upgrade/#configmap-remote-node-identity remoteNodeIdentity: true # -- Enable resource quotas for priority classes used in the cluster. resourceQuotas: enabled: false cilium: hard: # 5k nodes * 2 DaemonSets (Cilium and cilium node init) pods: "10k" operator: hard: # 15 "clusterwide" Cilium Operator pods for HA pods: "15" # Need to document default ################## #sessionAffinity: false # -- Do not run Cilium agent when running with clean mode. Useful to completely # uninstall Cilium as it will stop Cilium from starting and create artifacts # in the node. sleepAfterInit: false # -- Configure BPF socket operations configuration sockops: # enabled enables installation of socket options acceleration. enabled: false # -- Enable check of service source ranges (currently, only for LoadBalancer). svcSourceRangeCheck: true # -- Synchronize Kubernetes nodes to kvstore and perform CNP GC. synchronizeK8sNodes: true # -- Configure TLS configuration in the agent. tls: # -- This configures how the Cilium agent loads the secrets used TLS-aware CiliumNetworkPolicies # (namely the secrets referenced by terminatingTLS and originatingTLS). # Possible values: # - local # - k8s secretsBackend: local # -- Base64 encoded PEM values for the CA certificate and private key. # This can be used as common CA to generate certificates used by hubble and clustermesh components ca: # -- Optional CA cert. If it is provided, it will be used by cilium to # generate all other certificates. Otherwise, an ephemeral CA is generated. cert: "" # -- Optional CA private key. If it is provided, it will be used by cilium to # generate all other certificates. Otherwise, an ephemeral CA is generated. key: "" # -- Generated certificates validity duration in days. This will be used for auto generated CA. certValidityDuration: 1095 # -- Configure the encapsulation configuration for communication between nodes. # Possible values: # - disabled # - vxlan (default) # - geneve tunnel: "vxlan" # -- Disable the usage of CiliumEndpoint CRD. disableEndpointCRD: "false" wellKnownIdentities: # -- Enable the use of well-known identities. enabled: false etcd: # -- Enable etcd mode for the agent. enabled: false # -- cilium-etcd-operator image. image: override: ~ repository: "quay.io/cilium/cilium-etcd-operator" tag: "v2.0.7@sha256:04b8327f7f992693c2cb483b999041ed8f92efc8e14f2a5f3ab95574a65ea2dc" pullPolicy: "IfNotPresent" # -- The priority class to use for cilium-etcd-operator priorityClassName: "" # -- Additional cilium-etcd-operator container arguments. extraArgs: [] # -- Node tolerations for cilium-etcd-operator scheduling to nodes with taints # ref: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/ tolerations: - operator: Exists # - key: "key" # operator: "Equal|Exists" # value: "value" # effect: "NoSchedule|PreferNoSchedule|NoExecute(1.6 only)" # -- Node labels for cilium-etcd-operator pod assignment # ref: https://kubernetes.io/docs/user-guide/node-selection/ nodeSelector: kubernetes.io/os: linux # -- Annotations to be added to cilium-etcd-operator pods podAnnotations: {} # -- Labels to be added to cilium-etcd-operator pods podLabels: {} # PodDisruptionBudget settings podDisruptionBudget: # -- enable PodDisruptionBudget # ref: https://kubernetes.io/docs/concepts/workloads/pods/disruptions/ enabled: false # -- Minimum number/percentage of pods that should remain scheduled. # When it's set, maxUnavailable must be disabled by `maxUnavailable: null` minAvailable: null # -- Maximum number/percentage of pods that may be made unavailable maxUnavailable: 1 # -- cilium-etcd-operator resource limits & requests # ref: https://kubernetes.io/docs/user-guide/compute-resources/ resources: {} # limits: # cpu: 4000m # memory: 4Gi # requests: # cpu: 100m # memory: 512Mi # -- Security context to be added to cilium-etcd-operator pods securityContext: {} # runAsUser: 0 # -- cilium-etcd-operator update strategy updateStrategy: type: RollingUpdate rollingUpdate: maxSurge: 1 maxUnavailable: 1 # -- If etcd is behind a k8s service set this option to true so that Cilium # does the service translation automatically without requiring a DNS to be # running. k8sService: false # -- Cluster domain for cilium-etcd-operator. clusterDomain: cluster.local # -- List of etcd endpoints (not needed when using managed=true). endpoints: - https://CHANGE-ME:2379 # -- Enable use of TLS/SSL for connectivity to etcd. (auto-enabled if # managed=true) ssl: false operator: # -- Enable the cilium-operator component (required). enabled: true # -- Roll out cilium-operator pods automatically when configmap is updated. rollOutPods: false # -- cilium-operator image. image: override: ~ repository: "quay.io/cilium/operator" tag: "v1.12.5" # operator-generic-digest genericDigest: "" # operator-azure-digest azureDigest: "" # operator-aws-digest awsDigest: "" # operator-alibabacloud-digest alibabacloudDigest: "" useDigest: false pullPolicy: "IfNotPresent" suffix: "" # -- Number of replicas to run for the cilium-operator deployment replicas: 1 # -- The priority class to use for cilium-operator priorityClassName: "" # -- DNS policy for Cilium operator pods. # Ref: https://kubernetes.io/docs/concepts/services-networking/dns-pod-service/#pod-s-dns-policy dnsPolicy: "" # -- cilium-operator update strategy updateStrategy: type: RollingUpdate rollingUpdate: maxSurge: 1 maxUnavailable: 1 # -- Affinity for cilium-operator affinity: podAntiAffinity: requiredDuringSchedulingIgnoredDuringExecution: - topologyKey: kubernetes.io/hostname labelSelector: matchLabels: io.cilium/app: operator # -- Node labels for cilium-operator pod assignment # ref: https://kubernetes.io/docs/user-guide/node-selection/ # nodeSelector: kubernetes.io/os: linux # -- Node tolerations for cilium-operator scheduling to nodes with taints # ref: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/ tolerations: - operator: Exists # - key: "key" # operator: "Equal|Exists" # value: "value" # effect: "NoSchedule|PreferNoSchedule|NoExecute(1.6 only)" # -- Additional cilium-operator container arguments. extraArgs: [] # -- Additional cilium-operator environment variables. extraEnv: [] # -- Additional cilium-operator hostPath mounts. extraHostPathMounts: [] # - name: host-mnt-data # mountPath: /host/mnt/data # hostPath: /mnt/data # hostPathType: Directory # readOnly: true # mountPropagation: HostToContainer # -- Additional cilium-operator volumes. extraVolumes: [] # -- Additional cilium-operator volumeMounts. extraVolumeMounts: [] # -- Annotations to be added to cilium-operator pods podAnnotations: {} # -- Labels to be added to cilium-operator pods podLabels: {} # PodDisruptionBudget settings podDisruptionBudget: # -- enable PodDisruptionBudget # ref: https://kubernetes.io/docs/concepts/workloads/pods/disruptions/ enabled: false # -- Minimum number/percentage of pods that should remain scheduled. # When it's set, maxUnavailable must be disabled by `maxUnavailable: null` minAvailable: null # -- Maximum number/percentage of pods that may be made unavailable maxUnavailable: 1 # -- cilium-operator resource limits & requests # ref: https://kubernetes.io/docs/user-guide/compute-resources/ resources: {} # limits: # cpu: 1000m # memory: 1Gi # requests: # cpu: 100m # memory: 128Mi # -- Security context to be added to cilium-operator pods securityContext: {} # runAsUser: 0 # -- Interval for endpoint garbage collection. endpointGCInterval: "5m0s" # -- Interval for cilium node garbage collection. nodeGCInterval: "5m0s" # -- Interval for identity garbage collection. identityGCInterval: "15m0s" # -- Timeout for identity heartbeats. identityHeartbeatTimeout: "30m0s" # -- Enable prometheus metrics for cilium-operator on the configured port at # /metrics prometheus: enabled: false port: 9963 serviceMonitor: # -- Enable service monitors. # This requires the prometheus CRDs to be available (see https://github.com/prometheus-operator/prometheus-operator/blob/master/example/prometheus-operator-crd/monitoring.coreos.com_servicemonitors.yaml) enabled: false # -- Labels to add to ServiceMonitor cilium-operator labels: {} # -- Annotations to add to ServiceMonitor cilium-operator annotations: {} # -- Skip CRDs creation for cilium-operator skipCRDCreation: false # -- Remove Cilium node taint from Kubernetes nodes that have a healthy Cilium # pod running. removeNodeTaints: true # -- Set Node condition NetworkUnavailable to 'false' with the reason # 'CiliumIsUp' for nodes that have a healthy Cilium pod. setNodeNetworkStatus: true unmanagedPodWatcher: # -- Restart any pod that are not managed by Cilium. restart: true # -- Interval, in seconds, to check if there are any pods that are not # managed by Cilium. intervalSeconds: 15 nodeinit: # -- Enable the node initialization DaemonSet enabled: false # -- node-init image. image: override: ~ repository: "quay.io/cilium/startup-script" tag: "d69851597ea019af980891a4628fb36b7880ec26" pullPolicy: "IfNotPresent" # -- The priority class to use for the nodeinit pod. priorityClassName: "" # -- node-init update strategy updateStrategy: type: RollingUpdate # -- Additional nodeinit environment variables. extraEnv: [] # -- Affinity for cilium-nodeinit affinity: {} # -- Node labels for nodeinit pod assignment # ref: https://kubernetes.io/docs/user-guide/node-selection/ # nodeSelector: kubernetes.io/os: linux # -- Node tolerations for nodeinit scheduling to nodes with taints # ref: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/ tolerations: - operator: Exists # - key: "key" # operator: "Equal|Exists" # value: "value" # effect: "NoSchedule|PreferNoSchedule|NoExecute(1.6 only)" # -- Annotations to be added to node-init pods. podAnnotations: {} # -- Labels to be added to node-init pods. podLabels: {} # -- nodeinit resource limits & requests # ref: https://kubernetes.io/docs/user-guide/compute-resources/ resources: requests: cpu: 100m memory: 100Mi # -- Security context to be added to nodeinit pods. securityContext: privileged: false seLinuxOptions: level: 's0' # Running with spc_t since we have removed the privileged mode. # Users can change it to a different type as long as they have the # type available on the system. type: 'spc_t' capabilities: add: # Used in iptables. Consider removing once we are iptables-free - SYS_MODULE # Used for nsenter - NET_ADMIN - SYS_ADMIN - SYS_CHROOT - SYS_PTRACE # -- bootstrapFile is the location of the file where the bootstrap timestamp is # written by the node-init DaemonSet bootstrapFile: "/tmp/cilium-bootstrap.d/cilium-bootstrap-time" preflight: # -- Enable Cilium pre-flight resources (required for upgrade) enabled: false # -- Cilium pre-flight image. image: override: ~ repository: "quay.io/cilium/cilium" tag: "v1.12.6" # cilium-digest digest: "" useDigest: false pullPolicy: "IfNotPresent" # -- The priority class to use for the preflight pod. priorityClassName: "" # -- preflight update strategy updateStrategy: type: RollingUpdate # -- Additional preflight environment variables. extraEnv: [] # -- Affinity for cilium-preflight affinity: podAffinity: requiredDuringSchedulingIgnoredDuringExecution: - topologyKey: kubernetes.io/hostname labelSelector: matchLabels: k8s-app: cilium # -- Node labels for preflight pod assignment # ref: https://kubernetes.io/docs/user-guide/node-selection/ # nodeSelector: kubernetes.io/os: linux # -- Node tolerations for preflight scheduling to nodes with taints # ref: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/ tolerations: - key: node.kubernetes.io/not-ready effect: NoSchedule - key: node-role.kubernetes.io/master effect: NoSchedule - key: node.cloudprovider.kubernetes.io/uninitialized effect: NoSchedule value: "true" - key: CriticalAddonsOnly operator: "Exists" # - key: "key" # operator: "Equal|Exists" # value: "value" # effect: "NoSchedule|PreferNoSchedule|NoExecute(1.6 only)" # -- Annotations to be added to preflight pods podAnnotations: {} # -- Labels to be added to the preflight pod. podLabels: {} # PodDisruptionBudget settings podDisruptionBudget: # -- enable PodDisruptionBudget # ref: https://kubernetes.io/docs/concepts/workloads/pods/disruptions/ enabled: false # -- Minimum number/percentage of pods that should remain scheduled. # When it's set, maxUnavailable must be disabled by `maxUnavailable: null` minAvailable: null # -- Maximum number/percentage of pods that may be made unavailable maxUnavailable: 1 # -- preflight resource limits & requests # ref: https://kubernetes.io/docs/user-guide/compute-resources/ resources: {} # limits: # cpu: 4000m # memory: 4Gi # requests: # cpu: 100m # memory: 512Mi # -- Security context to be added to preflight pods securityContext: {} # runAsUser: 0 # -- Path to write the `--tofqdns-pre-cache` file to. tofqdnsPreCache: "" # -- Configure termination grace period for preflight Deployment and DaemonSet. terminationGracePeriodSeconds: 1 # -- By default we should always validate the installed CNPs before upgrading # Cilium. This will make sure the user will have the policies deployed in the # cluster with the right schema. validateCNPs: true # -- Explicitly enable or disable priority class. # .Capabilities.KubeVersion is unsettable in `helm template` calls, # it depends on k8s libraries version that Helm was compiled against. # This option allows to explicitly disable setting the priority class, which # is useful for rendering charts for gke clusters in advance. enableCriticalPriorityClass: true # disableEnvoyVersionCheck removes the check for Envoy, which can be useful # on AArch64 as the images do not currently ship a version of Envoy. #disableEnvoyVersionCheck: false clustermesh: # -- Deploy clustermesh-apiserver for clustermesh useAPIServer: false # -- Clustermesh explicit configuration. config: # -- Enable the Clustermesh explicit configuration. enabled: false # -- Default dns domain for the Clustermesh API servers # This is used in the case cluster addresses are not provided # and IPs are used. domain: mesh.cilium.io # -- List of clusters to be peered in the mesh. clusters: [] # clusters: # # -- Name of the cluster # - name: cluster1 # # -- Address of the cluster, use this if you created DNS records for # # the cluster Clustermesh API server. # address: cluster1.mesh.cilium.io # # -- Port of the cluster Clustermesh API server. # port: 2379 # # -- IPs of the cluster Clustermesh API server, use multiple ones when # # you have multiple IPs to access the Clustermesh API server. # ips: # - 172.18.255.201 # # -- base64 encoded PEM values for the cluster client certificate, private key and certificate authority. # tls: # cert: "" # key: "" apiserver: # -- Clustermesh API server image. image: override: ~ repository: "quay.io/cilium/clustermesh-apiserver" tag: "v1.12.6" # clustermesh-apiserver-digest digest: "" useDigest: false pullPolicy: "IfNotPresent" etcd: # -- Clustermesh API server etcd image. image: override: ~ repository: "quay.io/coreos/etcd" tag: "v3.5.7@sha256:7238b08a6bad494e84ed1c632a62d39bdeed1f929950a05c1a32b6d4490a0047" pullPolicy: "IfNotPresent" service: # -- The type of service used for apiserver access. type: NodePort # -- Optional port to use as the node port for apiserver access. nodePort: 32379 # -- Optional loadBalancer IP address to use with type LoadBalancer. # loadBalancerIP: # -- Annotations for the clustermesh-apiserver # For GKE LoadBalancer, use annotation cloud.google.com/load-balancer-type: "Internal" # For EKS LoadBalancer, use annotation service.beta.kubernetes.io/aws-load-balancer-internal: 0.0.0.0/0 annotations: {} # -- Number of replicas run for the clustermesh-apiserver deployment. replicas: 1 # -- Additional clustermesh-apiserver environment variables. extraEnv: [] # -- Annotations to be added to clustermesh-apiserver pods podAnnotations: {} # -- Labels to be added to clustermesh-apiserver pods podLabels: {} # PodDisruptionBudget settings podDisruptionBudget: # -- enable PodDisruptionBudget # ref: https://kubernetes.io/docs/concepts/workloads/pods/disruptions/ enabled: false # -- Minimum number/percentage of pods that should remain scheduled. # When it's set, maxUnavailable must be disabled by `maxUnavailable: null` minAvailable: null # -- Maximum number/percentage of pods that may be made unavailable maxUnavailable: 1 # -- Resource requests and limits for the clustermesh-apiserver container of the clustermesh-apiserver deployment, such as # resources: # limits: # cpu: 1000m # memory: 1024M # requests: # cpu: 100m # memory: 64Mi # -- Resource requests and limits for the clustermesh-apiserver resources: {} # requests: # cpu: 100m # memory: 64Mi # limits: # cpu: 1000m # memory: 1024M # -- Affinity for clustermesh.apiserver affinity: podAntiAffinity: requiredDuringSchedulingIgnoredDuringExecution: - topologyKey: kubernetes.io/hostname labelSelector: matchLabels: k8s-app: clustermesh-apiserver # -- Node labels for pod assignment # ref: https://kubernetes.io/docs/user-guide/node-selection/ nodeSelector: kubernetes.io/os: linux # -- Node tolerations for pod assignment on nodes with taints # ref: https://kubernetes.io/docs/concepts/configuration/assign-pod-node/ tolerations: [] # -- clustermesh-apiserver update strategy updateStrategy: type: RollingUpdate rollingUpdate: maxUnavailable: 1 # -- The priority class to use for clustermesh-apiserver priorityClassName: "" tls: # -- Configure automatic TLS certificates generation. # A Kubernetes CronJob is used the generate any # certificates not provided by the user at installation # time. auto: # -- When set to true, automatically generate a CA and certificates to # enable mTLS between clustermesh-apiserver and external workload instances. # If set to false, the certs to be provided by setting appropriate values below. enabled: true # Sets the method to auto-generate certificates. Supported values: # - helm: This method uses Helm to generate all certificates. # - cronJob: This method uses a Kubernetes CronJob the generate any # certificates not provided by the user at installation # time. # - certmanager: This method use cert-manager to generate & rotate certificates. method: helm # -- Generated certificates validity duration in days. certValidityDuration: 1095 # -- Schedule for certificates regeneration (regardless of their expiration date). # Only used if method is "cronJob". If nil, then no recurring job will be created. # Instead, only the one-shot job is deployed to generate the certificates at # installation time. # # Due to the out-of-band distribution of client certs to external workloads the # CA is (re)regenerated only if it is not provided as a helm value and the k8s # secret is manually deleted. # # Defaults to none. Commented syntax gives midnight of the first day of every # fourth month. For syntax, see # https://kubernetes.io/docs/tasks/job/automated-tasks-with-cron-jobs/#schedule # schedule: "0 0 1 */4 *" # [Example] # certManagerIssuerRef: # group: cert-manager.io # kind: ClusterIssuer # name: ca-issuer # -- certmanager issuer used when clustermesh.apiserver.tls.auto.method=certmanager. # If not specified, a CA issuer will be created. certManagerIssuerRef: {} # -- base64 encoded PEM values for the ExternalWorkload CA certificate and private key. ca: # -- Optional CA cert. If it is provided, it will be used by the 'cronJob' method to # generate all other certificates. Otherwise, an ephemeral CA is generated. cert: "" # -- Optional CA private key. If it is provided, it will be used by the 'cronJob' method to # generate all other certificates. Otherwise, an ephemeral CA is generated. key: "" # -- base64 encoded PEM values for the clustermesh-apiserver server certificate and private key. # Used if 'auto' is not enabled. server: cert: "" key: "" # -- Extra DNS names added to certificate when it's auto generated extraDnsNames: [] # -- Extra IP addresses added to certificate when it's auto generated extraIpAddresses: [] # -- base64 encoded PEM values for the clustermesh-apiserver admin certificate and private key. # Used if 'auto' is not enabled. admin: cert: "" key: "" # -- base64 encoded PEM values for the clustermesh-apiserver client certificate and private key. # Used if 'auto' is not enabled. client: cert: "" key: "" # -- base64 encoded PEM values for the clustermesh-apiserver remote cluster certificate and private key. # Used if 'auto' is not enabled. remote: cert: "" key: "" # -- Configure external workloads support externalWorkloads: # -- Enable support for external workloads, such as VMs (false by default). enabled: false # -- Configure cgroup related configuration cgroup: autoMount: # -- Enable auto mount of cgroup2 filesystem. # When `autoMount` is enabled, cgroup2 filesystem is mounted at # `cgroup.hostRoot` path on the underlying host and inside the cilium agent pod. # If users disable `autoMount`, it's expected that users have mounted # cgroup2 filesystem at the specified `cgroup.hostRoot` volume, and then the # volume will be mounted inside the cilium agent pod at the same path. enabled: true # -- Configure cgroup root where cgroup2 filesystem is mounted on the host (see also: `cgroup.autoMount`) hostRoot: /run/cilium/cgroupv2 # -- Configure whether to enable auto detect of terminating state for endpoints # in order to support graceful termination. enableK8sTerminatingEndpoint: true # -- Configure whether to unload DNS policy rules on graceful shutdown # dnsPolicyUnloadOnShutdown: false # -- Configure the key of the taint indicating that Cilium is not ready on the node. # When set to a value starting with `ignore-taint.cluster-autoscaler.kubernetes.io/`, the Cluster Autoscaler will ignore the taint on its decisions, allowing the cluster to scale up. agentNotReadyTaintKey: "node.cilium.io/agent-not-ready" dnsProxy: # -- DNS response code for rejecting DNS requests, available options are '[nameError refused]'. dnsRejectResponseCode: refused # -- Allow the DNS proxy to compress responses to endpoints that are larger than 512 Bytes or the EDNS0 option, if present. enableDnsCompression: true # -- Maximum number of IPs to maintain per FQDN name for each endpoint. endpointMaxIpPerHostname: 50 # -- Time during which idle but previously active connections with expired DNS lookups are still considered alive. idleConnectionGracePeriod: 0s # -- Maximum number of IPs to retain for expired DNS lookups with still-active connections. maxDeferredConnectionDeletes: 10000 # -- The minimum time, in seconds, to use DNS data for toFQDNs policies. minTtl: 3600 # -- DNS cache data at this path is preloaded on agent startup. preCache: "" # -- Global port on which the in-agent DNS proxy should listen. Default 0 is a OS-assigned port. proxyPort: 0 # -- The maximum time the DNS proxy holds an allowed DNS response before sending it along. Responses are sent as soon as the datapath is updated with the new IP information. proxyResponseMaxDelay: 100ms