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charts/common | ||
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README.md | ||
values.yaml |
Bitnami package for Redis(R) Cluster
Redis(R) is an open source, scalable, distributed in-memory cache for applications. It can be used to store and serve data in the form of strings, hashes, lists, sets and sorted sets.
Disclaimer: Redis is a registered trademark of Redis Ltd. Any rights therein are reserved to Redis Ltd. Any use by Bitnami is for referential purposes only and does not indicate any sponsorship, endorsement, or affiliation between Redis Ltd.
TL;DR
$ helm repo add bitnami https://charts.bitnami.com/bitnami
$ helm install my-release bitnami/redis-cluster
Introduction
This chart bootstraps a Redis® deployment on a Kubernetes cluster using the Helm package manager.
Bitnami charts can be used with Kubeapps for deployment and management of Helm Charts in clusters.
Choose between Redis® Helm Chart and Redis® Cluster Helm Chart
You can choose any of the two Redis® Helm charts for deploying a Redis® cluster. While Redis® Helm Chart will deploy a master-slave cluster using Redis® Sentinel, the Redis® Cluster Helm Chart will deploy a Redis® Cluster with sharding. The main features of each chart are the following:
Redis® | Redis® Cluster |
---|---|
Supports multiple databases | Supports only one database. Better if you have a big dataset |
Single write point (single master) | Multiple write points (multiple masters) |
Prerequisites
- Kubernetes 1.19+
- Helm 3.2.0+
- PV provisioner support in the underlying infrastructure
Installing the Chart
To install the chart with the release name my-release
:
$ helm install my-release bitnami/redis-cluster
The command deploys Redis® on the Kubernetes cluster in the default configuration. The Parameters section lists the parameters that can be configured during installation.
NOTE: if you get a timeout error waiting for the hook to complete increase the default timeout (300s) to a higher one, for example:
helm install --timeout 600s myrelease bitnami/redis-cluster
Tip: List all releases using
helm list
Uninstalling the Chart
To uninstall/delete the my-release
deployment:
$ helm delete my-release
The command removes all the Kubernetes components associated with the chart and deletes the release.
Parameters
Global parameters
Name | Description | Value |
---|---|---|
global.imageRegistry |
Global Docker image registry | "" |
global.imagePullSecrets |
Global Docker registry secret names as an array | [] |
global.storageClass |
Global StorageClass for Persistent Volume(s) | "" |
global.redis.password |
Redis® password (overrides password ) |
"" |
Redis® Cluster Common parameters
Name | Description | Value |
---|---|---|
nameOverride |
String to partially override common.names.fullname template (will maintain the release name) | "" |
fullnameOverride |
String to fully override common.names.fullname template | "" |
clusterDomain |
Kubernetes Cluster Domain | cluster.local |
commonAnnotations |
Annotations to add to all deployed objects | {} |
commonLabels |
Labels to add to all deployed objects | {} |
extraDeploy |
Array of extra objects to deploy with the release (evaluated as a template) | [] |
diagnosticMode.enabled |
Enable diagnostic mode (all probes will be disabled and the command will be overridden) | false |
diagnosticMode.command |
Command to override all containers in the deployment | ["sleep"] |
diagnosticMode.args |
Args to override all containers in the deployment | ["infinity"] |
image.registry |
Redis® cluster image registry | docker.io |
image.repository |
Redis® cluster image repository | bitnami/redis-cluster |
image.tag |
Redis® cluster image tag (immutable tags are recommended) | 6.2.7-debian-11-r9 |
image.pullPolicy |
Redis® cluster image pull policy | IfNotPresent |
image.pullSecrets |
Specify docker-registry secret names as an array | [] |
image.debug |
Enable image debug mode | false |
networkPolicy.enabled |
Enable NetworkPolicy | false |
networkPolicy.allowExternal |
The Policy model to apply. Don't require client label for connections | true |
networkPolicy.ingressNSMatchLabels |
Allow connections from other namespacess. Just set label for namespace and set label for pods (optional). | {} |
networkPolicy.ingressNSPodMatchLabels |
For other namespaces match by pod labels and namespace labels | {} |
serviceAccount.create |
Specifies whether a ServiceAccount should be created | false |
serviceAccount.name |
The name of the ServiceAccount to create | "" |
serviceAccount.annotations |
Annotations for Cassandra Service Account | {} |
serviceAccount.automountServiceAccountToken |
Automount API credentials for a service account. | false |
rbac.create |
Specifies whether RBAC resources should be created | false |
rbac.role.rules |
Rules to create. It follows the role specification | [] |
podSecurityContext.enabled |
Enable Redis® pod Security Context | true |
podSecurityContext.fsGroup |
Group ID for the pods | 1001 |
podSecurityContext.runAsUser |
User ID for the pods | 1001 |
podSecurityContext.sysctls |
Set namespaced sysctls for the pods | [] |
podDisruptionBudget |
Limits the number of pods of the replicated application that are down simultaneously from voluntary disruptions | {} |
minAvailable |
Min number of pods that must still be available after the eviction | "" |
maxUnavailable |
Max number of pods that can be unavailable after the eviction | "" |
containerSecurityContext.enabled |
Enable Containers' Security Context | true |
containerSecurityContext.runAsUser |
User ID for the containers. | 1001 |
containerSecurityContext.runAsNonRoot |
Run container as non root | true |
usePassword |
Use password authentication | true |
password |
Redis® password (ignored if existingSecret set) | "" |
existingSecret |
Name of existing secret object (for password authentication) | "" |
existingSecretPasswordKey |
Name of key containing password to be retrieved from the existing secret | "" |
usePasswordFile |
Mount passwords as files instead of environment variables | false |
tls.enabled |
Enable TLS support for replication traffic | false |
tls.authClients |
Require clients to authenticate or not | true |
tls.autoGenerated |
Generate automatically self-signed TLS certificates | false |
tls.existingSecret |
The name of the existing secret that contains the TLS certificates | "" |
tls.certificatesSecret |
DEPRECATED. Use tls.existingSecret instead | "" |
tls.certFilename |
Certificate filename | "" |
tls.certKeyFilename |
Certificate key filename | "" |
tls.certCAFilename |
CA Certificate filename | "" |
tls.dhParamsFilename |
File containing DH params (in order to support DH based ciphers) | "" |
service.ports.redis |
Kubernetes Redis service port | 6379 |
service.nodePorts.redis |
Node port for Redis | "" |
service.extraPorts |
Extra ports to expose in the service (normally used with the sidecar value) |
[] |
service.annotations |
Provide any additional annotations which may be required. | {} |
service.labels |
Additional labels for redis service | {} |
service.type |
Service type for default redis service | ClusterIP |
service.clusterIP |
Service Cluster IP | "" |
service.loadBalancerIP |
Load balancer IP if service.type is LoadBalancer |
"" |
service.loadBalancerSourceRanges |
Service Load Balancer sources | [] |
service.externalTrafficPolicy |
Service external traffic policy | Cluster |
service.sessionAffinity |
Session Affinity for Kubernetes service, can be "None" or "ClientIP" | None |
service.sessionAffinityConfig |
Additional settings for the sessionAffinity | {} |
persistence.path |
Path to mount the volume at, to use other images Redis® images. | /bitnami/redis/data |
persistence.subPath |
The subdirectory of the volume to mount to, useful in dev environments and one PV for multiple services | "" |
persistence.storageClass |
Storage class of backing PVC | "" |
persistence.annotations |
Persistent Volume Claim annotations | {} |
persistence.accessModes |
Persistent Volume Access Modes | ["ReadWriteOnce"] |
persistence.size |
Size of data volume | 8Gi |
persistence.matchLabels |
Persistent Volume selectors | {} |
persistence.matchExpressions |
matchExpressions Persistent Volume selectors | {} |
volumePermissions.enabled |
Enable init container that changes volume permissions in the registry (for cases where the default k8s runAsUser and fsUser values do not work) |
false |
volumePermissions.image.registry |
Init container volume-permissions image registry | docker.io |
volumePermissions.image.repository |
Init container volume-permissions image repository | bitnami/bitnami-shell |
volumePermissions.image.tag |
Init container volume-permissions image tag | 11-debian-11-r10 |
volumePermissions.image.pullPolicy |
Init container volume-permissions image pull policy | IfNotPresent |
volumePermissions.image.pullSecrets |
Specify docker-registry secret names as an array | [] |
volumePermissions.resources.limits |
The resources limits for the container | {} |
volumePermissions.resources.requests |
The requested resources for the container | {} |
podSecurityPolicy.create |
Whether to create a PodSecurityPolicy. WARNING: PodSecurityPolicy is deprecated in Kubernetes v1.21 or later, unavailable in v1.25 or later | false |
Redis® statefulset parameters
Name | Description | Value |
---|---|---|
redis.command |
Redis® entrypoint string. The command redis-server is executed if this is not provided |
[] |
redis.args |
Arguments for the provided command if needed | [] |
redis.updateStrategy.type |
Argo Workflows statefulset strategy type | RollingUpdate |
redis.updateStrategy.rollingUpdate.partition |
Partition update strategy | 0 |
redis.podManagementPolicy |
Statefulset Pod management policy, it needs to be Parallel to be able to complete the cluster join | Parallel |
redis.hostAliases |
Deployment pod host aliases | [] |
redis.hostNetwork |
Host networking requested for this pod. Use the host's network namespace. | false |
redis.useAOFPersistence |
Whether to use AOF Persistence mode or not | yes |
redis.containerPorts.redis |
Redis® port | 6379 |
redis.containerPorts.bus |
The busPort should be obtained adding 10000 to the redisPort. By default: 10000 + 6379 = 16379 | 16379 |
redis.lifecycleHooks |
LifecycleHook to set additional configuration before or after startup. Evaluated as a template | {} |
redis.extraVolumes |
Extra volumes to add to the deployment | [] |
redis.extraVolumeMounts |
Extra volume mounts to add to the container | [] |
redis.customLivenessProbe |
Override default liveness probe | {} |
redis.customReadinessProbe |
Override default readiness probe | {} |
redis.customStartupProbe |
Custom startupProbe that overrides the default one | {} |
redis.initContainers |
Extra init containers to add to the deployment | [] |
redis.sidecars |
Extra sidecar containers to add to the deployment | [] |
redis.podLabels |
Additional labels for Redis® pod | {} |
redis.priorityClassName |
Redis® Master pod priorityClassName | "" |
redis.configmap |
Additional Redis® configuration for the nodes | "" |
redis.extraEnvVars |
An array to add extra environment variables | [] |
redis.extraEnvVarsCM |
ConfigMap with extra environment variables | "" |
redis.extraEnvVarsSecret |
Secret with extra environment variables | "" |
redis.podAnnotations |
Redis® additional annotations | {} |
redis.resources.limits |
The resources limits for the container | {} |
redis.resources.requests |
The requested resources for the container | {} |
redis.schedulerName |
Use an alternate scheduler, e.g. "stork". | "" |
redis.shareProcessNamespace |
Enable shared process namespace in a pod. | false |
redis.livenessProbe.enabled |
Enable livenessProbe | true |
redis.livenessProbe.initialDelaySeconds |
Initial delay seconds for livenessProbe | 5 |
redis.livenessProbe.periodSeconds |
Period seconds for livenessProbe | 5 |
redis.livenessProbe.timeoutSeconds |
Timeout seconds for livenessProbe | 5 |
redis.livenessProbe.failureThreshold |
Failure threshold for livenessProbe | 5 |
redis.livenessProbe.successThreshold |
Success threshold for livenessProbe | 1 |
redis.readinessProbe.enabled |
Enable readinessProbe | true |
redis.readinessProbe.initialDelaySeconds |
Initial delay seconds for readinessProbe | 5 |
redis.readinessProbe.periodSeconds |
Period seconds for readinessProbe | 5 |
redis.readinessProbe.timeoutSeconds |
Timeout seconds for readinessProbe | 1 |
redis.readinessProbe.failureThreshold |
Failure threshold for readinessProbe | 5 |
redis.readinessProbe.successThreshold |
Success threshold for readinessProbe | 1 |
redis.startupProbe.enabled |
Enable startupProbe | false |
redis.startupProbe.path |
Path to check for startupProbe | / |
redis.startupProbe.initialDelaySeconds |
Initial delay seconds for startupProbe | 300 |
redis.startupProbe.periodSeconds |
Period seconds for startupProbe | 10 |
redis.startupProbe.timeoutSeconds |
Timeout seconds for startupProbe | 5 |
redis.startupProbe.failureThreshold |
Failure threshold for startupProbe | 6 |
redis.startupProbe.successThreshold |
Success threshold for startupProbe | 1 |
redis.podAffinityPreset |
Redis® pod affinity preset. Ignored if redis.affinity is set. Allowed values: soft or hard |
"" |
redis.podAntiAffinityPreset |
Redis® pod anti-affinity preset. Ignored if redis.affinity is set. Allowed values: soft or hard |
soft |
redis.nodeAffinityPreset.type |
Redis® node affinity preset type. Ignored if redis.affinity is set. Allowed values: soft or hard |
"" |
redis.nodeAffinityPreset.key |
Redis® node label key to match Ignored if redis.affinity is set. |
"" |
redis.nodeAffinityPreset.values |
Redis® node label values to match. Ignored if redis.affinity is set. |
[] |
redis.affinity |
Affinity settings for Redis® pod assignment | {} |
redis.nodeSelector |
Node labels for Redis® pods assignment | {} |
redis.tolerations |
Tolerations for Redis® pods assignment | [] |
redis.topologySpreadConstraints |
Pod topology spread constraints for Redis® pod | [] |
Cluster update job parameters
Name | Description | Value |
---|---|---|
updateJob.activeDeadlineSeconds |
Number of seconds the Job to create the cluster will be waiting for the Nodes to be ready. | 600 |
updateJob.command |
Container command (using container default if not set) | [] |
updateJob.args |
Container args (using container default if not set) | [] |
updateJob.hostAliases |
Deployment pod host aliases | [] |
updateJob.annotations |
Job annotations | {} |
updateJob.podAnnotations |
Job pod annotations | {} |
updateJob.podLabels |
Pod extra labels | {} |
updateJob.extraEnvVars |
An array to add extra environment variables | [] |
updateJob.extraEnvVarsCM |
ConfigMap containing extra environment variables | "" |
updateJob.extraEnvVarsSecret |
Secret containing extra environment variables | "" |
updateJob.extraVolumes |
Extra volumes to add to the deployment | [] |
updateJob.extraVolumeMounts |
Extra volume mounts to add to the container | [] |
updateJob.initContainers |
Extra init containers to add to the deployment | [] |
updateJob.podAffinityPreset |
Update job pod affinity preset. Ignored if updateJob.affinity is set. Allowed values: soft or hard |
"" |
updateJob.podAntiAffinityPreset |
Update job pod anti-affinity preset. Ignored if updateJob.affinity is set. Allowed values: soft or hard |
soft |
updateJob.nodeAffinityPreset.type |
Update job node affinity preset type. Ignored if updateJob.affinity is set. Allowed values: soft or hard |
"" |
updateJob.nodeAffinityPreset.key |
Update job node label key to match Ignored if updateJob.affinity is set. |
"" |
updateJob.nodeAffinityPreset.values |
Update job node label values to match. Ignored if updateJob.affinity is set. |
[] |
updateJob.affinity |
Affinity for update job pods assignment | {} |
updateJob.nodeSelector |
Node labels for update job pods assignment | {} |
updateJob.tolerations |
Tolerations for update job pods assignment | [] |
updateJob.priorityClassName |
Priority class name | "" |
updateJob.resources.limits |
The resources limits for the container | {} |
updateJob.resources.requests |
The requested resources for the container | {} |
Cluster management parameters
Name | Description | Value |
---|---|---|
cluster.init |
Enable the initialization of the Redis® Cluster | true |
cluster.nodes |
The number of master nodes should always be >= 3, otherwise cluster creation will fail | 6 |
cluster.replicas |
Number of replicas for every master in the cluster | 1 |
cluster.externalAccess.enabled |
Enable access to the Redis | false |
cluster.externalAccess.service.type |
Type for the services used to expose every Pod | LoadBalancer |
cluster.externalAccess.service.port |
Port for the services used to expose every Pod | 6379 |
cluster.externalAccess.service.loadBalancerIP |
Array of load balancer IPs for each Redis® node. Length must be the same as cluster.nodes | [] |
cluster.externalAccess.service.loadBalancerSourceRanges |
Service Load Balancer sources | [] |
cluster.externalAccess.service.annotations |
Annotations to add to the services used to expose every Pod of the Redis® Cluster | {} |
cluster.update.addNodes |
Boolean to specify if you want to add nodes after the upgrade | false |
cluster.update.currentNumberOfNodes |
Number of currently deployed Redis® nodes | 6 |
cluster.update.currentNumberOfReplicas |
Number of currently deployed Redis® replicas | 1 |
cluster.update.newExternalIPs |
External IPs obtained from the services for the new nodes to add to the cluster | [] |
Metrics sidecar parameters
Name | Description | Value |
---|---|---|
metrics.enabled |
Start a side-car prometheus exporter | false |
metrics.image.registry |
Redis® exporter image registry | docker.io |
metrics.image.repository |
Redis® exporter image name | bitnami/redis-exporter |
metrics.image.tag |
Redis® exporter image tag | 1.43.0-debian-11-r3 |
metrics.image.pullPolicy |
Redis® exporter image pull policy | IfNotPresent |
metrics.image.pullSecrets |
Specify docker-registry secret names as an array | [] |
metrics.resources |
Metrics exporter resource requests and limits | {} |
metrics.extraArgs |
Extra arguments for the binary; possible values [here](https://github.com/oliver006/redis_exporter | {} |
metrics.podAnnotations |
Additional annotations for Metrics exporter pod | {} |
metrics.podLabels |
Additional labels for Metrics exporter pod | {} |
metrics.serviceMonitor.enabled |
If true , creates a Prometheus Operator ServiceMonitor (also requires metrics.enabled to be true ) |
false |
metrics.serviceMonitor.namespace |
Optional namespace which Prometheus is running in | "" |
metrics.serviceMonitor.interval |
How frequently to scrape metrics (use by default, falling back to Prometheus' default) | "" |
metrics.serviceMonitor.scrapeTimeout |
Timeout after which the scrape is ended | "" |
metrics.serviceMonitor.selector |
Prometheus instance selector labels | {} |
metrics.serviceMonitor.labels |
ServiceMonitor extra labels | {} |
metrics.serviceMonitor.annotations |
ServiceMonitor annotations | {} |
metrics.serviceMonitor.jobLabel |
The name of the label on the target service to use as the job name in prometheus. | "" |
metrics.serviceMonitor.relabelings |
RelabelConfigs to apply to samples before scraping | [] |
metrics.serviceMonitor.metricRelabelings |
MetricRelabelConfigs to apply to samples before ingestion | [] |
metrics.prometheusRule.enabled |
Set this to true to create prometheusRules for Prometheus operator | false |
metrics.prometheusRule.additionalLabels |
Additional labels that can be used so prometheusRules will be discovered by Prometheus | {} |
metrics.prometheusRule.namespace |
namespace where prometheusRules resource should be created | "" |
metrics.prometheusRule.rules |
Create specified rules, check values for an example. | [] |
metrics.priorityClassName |
Metrics exporter pod priorityClassName | "" |
metrics.service.type |
Kubernetes Service type (redis metrics) | ClusterIP |
metrics.service.loadBalancerIP |
Use serviceLoadBalancerIP to request a specific static IP, otherwise leave blank | "" |
metrics.service.annotations |
Annotations for the services to monitor. | {} |
metrics.service.labels |
Additional labels for the metrics service | {} |
metrics.service.clusterIP |
Service Cluster IP | "" |
Sysctl Image parameters
Name | Description | Value |
---|---|---|
sysctlImage.enabled |
Enable an init container to modify Kernel settings | false |
sysctlImage.command |
sysctlImage command to execute | [] |
sysctlImage.registry |
sysctlImage Init container registry | docker.io |
sysctlImage.repository |
sysctlImage Init container repository | bitnami/bitnami-shell |
sysctlImage.tag |
sysctlImage Init container tag | 11-debian-11-r10 |
sysctlImage.pullPolicy |
sysctlImage Init container pull policy | IfNotPresent |
sysctlImage.pullSecrets |
Specify docker-registry secret names as an array | [] |
sysctlImage.mountHostSys |
Mount the host /sys folder to /host-sys |
false |
sysctlImage.resources.limits |
The resources limits for the container | {} |
sysctlImage.resources.requests |
The requested resources for the container | {} |
Specify each parameter using the --set key=value[,key=value]
argument to helm install
. For example,
$ helm install my-release \
--set password=secretpassword \
bitnami/redis-cluster
The above command sets the Redis® server password to secretpassword
.
NOTE: Once this chart is deployed, it is not possible to change the application's access credentials, such as usernames or passwords, using Helm. To change these application credentials after deployment, delete any persistent volumes (PVs) used by the chart and re-deploy it, or use the application's built-in administrative tools if available.
Alternatively, a YAML file that specifies the values for the parameters can be provided while installing the chart. For example,
$ helm install my-release -f values.yaml bitnami/redis-cluster
Tip: You can use the default values.yaml
Note for minikube users: Current versions of minikube (v0.24.1 at the time of writing) provision
hostPath
persistent volumes that are only writable by root. Using chart defaults cause pod failure for the Redis® pod as it attempts to write to the/bitnami
directory. See minikube issue 1990 for more information.
Configuration and installation details
Rolling VS Immutable tags
It is strongly recommended to use immutable tags in a production environment. This ensures your deployment does not change automatically if the same tag is updated with a different image.
Bitnami will release a new chart updating its containers if a new version of the main container, significant changes, or critical vulnerabilities exist.
Use a different Redis® version
To modify the application version used in this chart, specify a different version of the image using the image.tag
parameter and/or a different repository using the image.repository
parameter. Refer to the chart documentation for more information on these parameters and how to use them with images from a private registry.
Cluster topology
To successfully set the cluster up, it will need to have at least 3 master nodes. The total number of nodes is calculated like- nodes = numOfMasterNodes + numOfMasterNodes * replicas
. Hence, the defaults cluster.nodes = 6
and cluster.replicas = 1
means, 3 master and 3 replica nodes will be deployed by the chart.
By default the Redis® Cluster is not accessible from outside the Kubernetes cluster, to access the Redis® Cluster from outside you have to set cluster.externalAccess.enabled=true
at deployment time. It will create in the first installation only 6 LoadBalancer services, one for each Redis® node, once you have the external IPs of each service you will need to perform an upgrade passing those IPs to the cluster.externalAccess.service.loadbalancerIP
array.
The replicas will be read-only replicas of the masters. By default only one service is exposed (when not using the external access mode). You will connect your client to the exposed service, regardless you need to read or write. When a write operation arrives to a replica it will redirect the client to the proper master node. For example, using redis-cli
you will need to provide the -c
flag for redis-cli
to follow the redirection automatically.
Using the external access mode, you can connect to any of the pods and the slaves will redirect the client in the same way as explained before, but the all the IPs will be public.
In case the master crashes, one of his slaves will be promoted to master. The slots stored by the crashed master will be unavailable until the slave finish the promotion. If a master and all his slaves crash, the cluster will be down until one of them is up again. To avoid downtime, it is possible to configure the number of Redis® nodes with cluster.nodes
and the number of replicas that will be assigned to each master with cluster.replicas
. For example:
cluster.nodes=9
( 3 master plus 2 replicas for each master)cluster.replicas=2
Providing the values above, the cluster will have 3 masters and, each master, will have 2 replicas.
NOTE: By default
cluster.init
will be set totrue
in order to initialize the Redis® Cluster in the first installation. If for testing purposes you only want to deploy or upgrade the nodes but avoiding the creation of the cluster you can setcluster.init
tofalse
.
Adding a new node to the cluster
There is a job that will be executed using a post-upgrade
hook that will allow you to add a new node. To use it, you should provide some parameters to the upgrade:
- Pass as
password
the password used in the installation time. If you did not provide a password follow the instructions from the NOTES.txt to get the generated password. - Set the desired number of nodes at
cluster.nodes
. - Set the number of current nodes at
cluster.update.currentNumberOfNodes
. - Set to true
cluster.update.addNodes
.
The following will be an example to add one more node:
helm upgrade --timeout 600s <release> --set "password=${REDIS_PASSWORD},cluster.nodes=7,cluster.update.addNodes=true,cluster.update.currentNumberOfNodes=6" bitnami/redis-cluster
Where REDIS_PASSWORD
is the password obtained with the command that appears after the first installation of the Helm Chart.
The cluster will continue up while restarting pods one by one as the quorum is not lost.
External Access
If you are using external access, to add a new node you will need to perform two upgrades. First upgrade the release to add a new Redis® node and to get a LoadBalancerIP service. For example:
helm upgrade <release> --set "password=${REDIS_PASSWORD},cluster.externalAccess.enabled=true,cluster.externalAccess.service.type=LoadBalancer,cluster.externalAccess.service.loadBalancerIP[0]=<loadBalancerip-0>,cluster.externalAccess.service.loadBalancerIP[1]=<loadbalanacerip-1>,cluster.externalAccess.service.loadBalancerIP[2]=<loadbalancerip-2>,cluster.externalAccess.service.loadBalancerIP[3]=<loadbalancerip-3>,cluster.externalAccess.service.loadBalancerIP[4]=<loadbalancerip-4>,cluster.externalAccess.service.loadBalancerIP[5]=<loadbalancerip-5>,cluster.externalAccess.service.loadBalancerIP[6]=,cluster.nodes=7,cluster.init=false bitnami/redis-cluster
Important here to provide the loadBalancerIP parameters for the new nodes empty to not get an index error.
As we want to add a new node, we are setting cluster.nodes=7
and we leave empty the LoadBalancerIP for the new node, so the cluster will provide the correct one.
REDIS_PASSWORD
is the password obtained with the command that appears after the first installation of the Helm Chart.
At this point, you will have a new Redis® Pod that will remain in crashLoopBackOff
state until we provide the LoadBalancerIP for the new service.
Now, wait until the cluster provides the new LoadBalancerIP for the new service and perform the second upgrade:
helm upgrade <release> --set "password=${REDIS_PASSWORD},cluster.externalAccess.enabled=true,cluster.externalAccess.service.type=LoadBalancer,cluster.externalAccess.service.loadBalancerIP[0]=<loadbalancerip-0>,cluster.externalAccess.service.loadBalancerIP[1]=<loadbalancerip-1>,cluster.externalAccess.service.loadBalancerIP[2]=<loadbalancerip-2>,cluster.externalAccess.service.loadBalancerIP[3]=<loadbalancerip-3>,cluster.externalAccess.service.loadBalancerIP[4]=<loadbalancerip-4>,cluster.externalAccess.service.loadBalancerIP[5]=<loadbalancerip-5>,cluster.externalAccess.service.loadBalancerIP[6]=<loadbalancerip-6>,cluster.nodes=7,cluster.init=false,cluster.update.addNodes=true,cluster.update.newExternalIPs[0]=<load-balancerip-6>" bitnami/redis-cluster
Note we are providing the new IPs at cluster.update.newExternalIPs
, the flag cluster.update.addNodes=true
to enable the creation of the Job that adds a new node and now we are setting the LoadBalancerIP of the new service instead of leave it empty.
NOTE: To avoid the creation of the Job that initializes the Redis® Cluster again, you will need to provide
cluster.init=false
.
Scale down the cluster
To scale down the Redis® Cluster, follow these steps:
First perform a normal upgrade setting the cluster.nodes
value to the desired number of nodes. It should not be less than 6
and the difference between current number of nodes and the desired should be less or equal to cluster.replicas
to avoid removing master node an its slaves at the same time. Also it is needed to provide the password using the password
. For example, having more than 6 nodes, to scale down the cluster to 6 nodes:
helm upgrade --timeout 600s <release> --set "password=${REDIS_PASSWORD},cluster.nodes=6" .
The cluster will continue working during the update as long as the quorum is not lost.
NOTE: To avoid the creation of the Job that initializes the Redis® Cluster again, you will need to provide
cluster.init=false
.
Once all the nodes are ready, get the list of nodes in the cluster using the CLUSTER NODES
command. You will see references to the ones that were removed. Write down the node IDs of the nodes that show fail
. In the following example the cluster scaled down from 7 to 6 nodes.
redis-cli -a $REDIS_PASSWORD CLUSTER NODES
...
b23bcffa1fd64368d445c1d9bd9aeb92641105f7 10.0.0.70:6379@16379 slave,fail - 1645633139060 0 0 connected
...
In each cluster node, execute the following command. Replace the NODE_ID placeholder.
redis-cli -a $REDIS_PASSWORD CLUSTER FORGET NODE_ID
In the previous example the commands would look like this in each cluster node:
redis-cli -a $REDIS_PASSWORD CLUSTER FORGET b23bcffa1fd64368d445c1d9bd9aeb92641105f7
Using password file
To use a password file for Redis® you need to create a secret containing the password.
NOTE: It is important that the file with the password must be called
redis-password
And then deploy the Helm Chart using the secret name as parameter:
usePassword=true
usePasswordFile=true
existingSecret=redis-password-secret
metrics.enabled=true
Securing traffic using TLS
TLS support can be enabled in the chart by specifying the tls.
parameters while creating a release. The following parameters should be configured to properly enable the TLS support in the cluster:
tls.enabled
: Enable TLS support. Defaults tofalse
tls.existingSecret
: Name of the secret that contains the certificates. No defaults.tls.certFilename
: Certificate filename. No defaults.tls.certKeyFilename
: Certificate key filename. No defaults.tls.certCAFilename
: CA Certificate filename. No defaults.
For example:
First, create the secret with the certificates files:
kubectl create secret generic certificates-tls-secret --from-file=./cert.pem --from-file=./cert.key --from-file=./ca.pem
Then, use the following parameters:
tls.enabled="true"
tls.existingSecret="certificates-tls-secret"
tls.certFilename="cert.pem"
tls.certKeyFilename="cert.key"
tls.certCAFilename="ca.pem"
Sidecars and Init Containers
If you have a need for additional containers to run within the same pod as Redis® (e.g. an additional metrics or logging exporter), you can do so via the sidecars
config parameter. Simply define your container according to the Kubernetes container spec.
sidecars:
- name: your-image-name
image: your-image
imagePullPolicy: Always
ports:
- name: portname
containerPort: 1234
Similarly, you can add extra init containers using the initContainers
parameter.
initContainers:
- name: your-image-name
image: your-image
imagePullPolicy: Always
ports:
- name: portname
containerPort: 1234
Adding extra environment variables
In case you want to add extra environment variables (useful for advanced operations like custom init scripts), you can use the extraEnvVars
property.
extraEnvVars:
- name: REDIS_WHATEVER
value: value
Alternatively, you can use a ConfigMap or a Secret with the environment variables. To do so, use the extraEnvVarsCM
or the extraEnvVarsSecret
values.
Metrics
The chart optionally can start a metrics exporter for prometheus. The metrics endpoint (port 9121) is exposed in the service. Metrics can be scraped from within the cluster using something similar as the described in the example Prometheus scrape configuration. If metrics are to be scraped from outside the cluster, the Kubernetes API proxy can be utilized to access the endpoint.
Host Kernel Settings
Redis® may require some changes in the kernel of the host machine to work as expected, in particular increasing the somaxconn
value and disabling transparent huge pages.
To do so, you can set up a privileged initContainer with the sysctlImage
config values, for example:
sysctlImage:
enabled: true
mountHostSys: true
command:
- /bin/sh
- -c
- |-
sysctl -w net.core.somaxconn=10000
echo never > /host-sys/kernel/mm/transparent_hugepage/enabled
Alternatively, for Kubernetes 1.12+ you can set podSecurityContext.sysctls
which will configure sysctls for master and slave pods. Example:
podSecurityContext:
sysctls:
- name: net.core.somaxconn
value: "10000"
Note that this will not disable transparent huge tables.
Helm Upgrade
By default cluster.init
will be set to true
in order to initialize the Redis® Cluster in the first installation. If for testing purposes you only want to deploy or upgrade the nodes but avoiding the creation of the cluster you can set cluster.init
to false
.
Persistence
By default, the chart mounts a Persistent Volume at the /bitnami
path. The volume is created using dynamic volume provisioning.
NetworkPolicy
To enable network policy for Redis®, install
a networking plugin that implements the Kubernetes NetworkPolicy spec,
and set networkPolicy.enabled
to true
.
For Kubernetes v1.5 & v1.6, you must also turn on NetworkPolicy by setting the DefaultDeny namespace annotation. Note: this will enforce policy for all pods in the namespace:
kubectl annotate namespace default "net.beta.kubernetes.io/network-policy={\"ingress\":{\"isolation\":\"DefaultDeny\"}}"
With NetworkPolicy enabled, only pods with the generated client label will be able to connect to Redis®. This label will be displayed in the output after a successful install.
With networkPolicy.ingressNSMatchLabels
pods from other namespaces can connect to redis. Set networkPolicy.ingressNSPodMatchLabels
to match pod labels in matched namespace. For example, for a namespace labeled redis=external
and pods in that namespace labeled redis-client=true
the fields should be set:
networkPolicy:
enabled: true
ingressNSMatchLabels:
redis: external
ingressNSPodMatchLabels:
redis-client: true
Setting Pod's affinity
This chart allows you to set your custom affinity using the XXX.affinity
paremeter(s). Find more information about Pod's affinity in the kubernetes documentation.
As an alternative, you can use of the preset configurations for pod affinity, pod anti-affinity, and node affinity available at the bitnami/common chart. To do so, set the XXX.podAffinityPreset
, XXX.podAntiAffinityPreset
, or XXX.nodeAffinityPreset
parameters.
Troubleshooting
Find more information about how to deal with common errors related to Bitnami's Helm charts in this troubleshooting guide.
Upgrading
To 7.0.0
This major release renames several values in this chart and adds missing features, in order to be inline with the rest of assets in the Bitnami charts repository.
Since this version performs changes in the statefulset, in order to upgrade from previous versions you need to delete the statefulset object before the upgrade.
kubectl delete statefulset <statefulsetName>
helm upgrade <release-name> bitnami/redis-cluster --set redis.password=<REDIS_PASSWORD>
To 6.0.0
The cluster initialization job have been removed. Instead, the pod with index 0 from the statefulset will handle the initialization of the cluster.
As consequence, the initJob
configuration section have been removed.
To 5.0.0
This major version updates the Redis® docker image version used from 6.0
to 6.2
, the new stable version. There are no major changes in the chart and there shouldn't be any breaking changes in it as 6.2
breaking changes center around some command and behaviour changes. For more information, please refer to Redis® 6.2 release notes.
To 4.0.0
On November 13, 2020, Helm v2 support was formally finished, this major version is the result of the required changes applied to the Helm Chart to be able to incorporate the different features added in Helm v3 and to be consistent with the Helm project itself regarding the Helm v2 EOL.
What changes were introduced in this major version?
- Previous versions of this Helm Chart use
apiVersion: v1
(installable by both Helm 2 and 3), this Helm Chart was updated toapiVersion: v2
(installable by Helm 3 only). Here you can find more information about theapiVersion
field. - Move dependency information from the requirements.yaml to the Chart.yaml
- After running
helm dependency update
, a Chart.lock file is generated containing the same structure used in the previous requirements.lock - The different fields present in the Chart.yaml file has been ordered alphabetically in a homogeneous way for all the Bitnami Helm Charts
Considerations when upgrading to this version
- If you want to upgrade to this version from a previous one installed with Helm v3, you shouldn't face any issues
- If you want to upgrade to this version using Helm v2, this scenario is not supported as this version doesn't support Helm v2 anymore
- If you installed the previous version with Helm v2 and wants to upgrade to this version with Helm v3, please refer to the official Helm documentation about migrating from Helm v2 to v3
Useful links
- https://docs.bitnami.com/tutorials/resolve-helm2-helm3-post-migration-issues/
- https://helm.sh/docs/topics/v2_v3_migration/
- https://helm.sh/blog/migrate-from-helm-v2-to-helm-v3/
To 3.0.0
This version of the chart adapts the chart to the most recent Bitnami best practices and standards. Most of the Redis® parameters were moved to the redis
values section (such as extraEnvVars, sidecars, and so on). No major issues are expected during the upgrade.
To 2.0.0
The version 1.0.0
was using a label in the Statefulset's volumeClaimTemplate that didn't allow to upgrade the chart. The version 2.0.0
fixed that issue. Also it adds more docs in the README.md.
License
Copyright © 2022 Bitnami
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.