freeleaps-ops/freeleaps/helm-pkg/3rd/rabbitmq

Bitnami package for RabbitMQ

RabbitMQ is an open source general-purpose message broker that is designed for consistent, highly-available messaging scenarios (both synchronous and asynchronous).

Overview of RabbitMQ

Trademarks: This software listing is packaged by Bitnami. The respective trademarks mentioned in the offering are owned by the respective companies, and use of them does not imply any affiliation or endorsement.

TL;DR

helm install my-release oci://registry-1.docker.io/bitnamicharts/rabbitmq

Looking to use RabbitMQ in production? Try VMware Tanzu Application Catalog, the commercial edition of the Bitnami catalog.

Introduction

This chart bootstraps a RabbitMQ 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.

Prerequisites

• Kubernetes 1.23+
• Helm 3.8.0+
• PV provisioner support in the underlying infrastructure

Installing the Chart

To install the chart with the release name my-release:

helm install my-release oci://REGISTRY_NAME/REPOSITORY_NAME/rabbitmq

Note: You need to substitute the placeholders REGISTRY_NAME and REPOSITORY_NAME with a reference to your Helm chart registry and repository. For example, in the case of Bitnami, you need to use REGISTRY_NAME=registry-1.docker.io and REPOSITORY_NAME=bitnamicharts.

The command deploys RabbitMQ on the Kubernetes cluster in the default configuration. The Parameters section lists the parameters that can be configured during installation.

Tip

: List all releases using helm list

Configuration and installation details

Resource requests and limits

Bitnami charts allow setting resource requests and limits for all containers inside the chart deployment. These are inside the resources value (check parameter table). Setting requests is essential for production workloads and these should be adapted to your specific use case.

To make this process easier, the chart contains the resourcesPreset values, which automatically sets the resources section according to different presets. Check these presets in the bitnami/common chart. However, in production workloads using resourcesPreset is discouraged as it may not fully adapt to your specific needs. Find more information on container resource management in the official Kubernetes documentation.

Prometheus metrics

This chart can be integrated with Prometheus by setting metrics.enabled to true. This enable the rabbitmq_prometheus plugin and expose a metrics endpoints in all pods and the RabbitMQ service. The service will have the necessary annotations to be automatically scraped by Prometheus.

Prometheus requirements

It is necessary to have a working installation of Prometheus or Prometheus Operator for the integration to work. Install the Bitnami Prometheus helm chart or the Bitnami Kube Prometheus helm chart to easily have a working Prometheus in your cluster.

Integration with Prometheus Operator

The chart can deploy ServiceMonitor objects for integration with Prometheus Operator installations. There are different ServiceMonitor objects per RabbitMQ endpoins. The chart includes:

• metrics.serviceMonitor.default for the /metrics endpoint.
• metrics.serviceMonitor.perObject for the /metrics/per-object endpoint.
• metrics.serviceMonitor.detailed for the /metrics/detailed endpoint.

Enable each ServiceMonitor by setting metrics.serviceMonitor.*.enabled=true. Ensure that the Prometheus Operator CustomResourceDefinitions are installed in the cluster or it will fail with the following error:

no matches for kind "ServiceMonitor" in version "monitoring.coreos.com/v1"

Install the Bitnami Kube Prometheus helm chart for having the necessary CRDs and the Prometheus Operator.

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.

Set pod affinity

This chart allows you to set your custom affinity using the affinity parameter. 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 podAffinityPreset, podAntiAffinityPreset, or nodeAffinityPreset parameters.

Scale horizontally

To horizontally scale this chart once it has been deployed, two options are available:

• Use the kubectl scale command.
• Upgrade the chart modifying the replicaCount parameter.

    replicaCount=3
    auth.password="$RABBITMQ_PASSWORD"
    auth.erlangCookie="$RABBITMQ_ERLANG_COOKIE"

NOTE: It is mandatory to specify the password and Erlang cookie that was set the first time the chart was installed when upgrading the chart. Otherwise, new pods won't be able to join the cluster.

When scaling down the solution, unnecessary RabbitMQ nodes are automatically stopped, but they are not removed from the cluster. These nodes must be manually removed via the rabbitmqctl forget_cluster_node command.

For instance, if RabbitMQ was initially installed with three replicas and then scaled down to two replicas, run the commands below (assuming that the release name is rabbitmq and the clustering type is hostname):

    kubectl exec rabbitmq-0 --container rabbitmq -- rabbitmqctl forget_cluster_node rabbit@rabbitmq-2.rabbitmq-headless.default.svc.cluster.local
    kubectl delete pvc data-rabbitmq-2

NOTE: It is mandatory to specify the password and Erlang cookie that was set the first time the chart was installed when upgrading the chart.

Securing traffic using TLS

To enable TLS support, first generate the certificates as described in the RabbitMQ documentation for SSL certificate generation.

Once the certificates are generated, you have two alternatives:

• Create a secret with the certificates and associate the secret when deploying the chart
• Include the certificates in the values.yaml file when deploying the chart

Set the auth.tls.failIfNoPeerCert parameter to false to allow a TLS connection if the client fails to provide a certificate.

Set the auth.tls.sslOptionsVerify to verify_peer to force a node to perform peer verification. When set to verify_none, peer verification will be disabled and certificate exchange won't be performed.

This chart also facilitates the creation of TLS secrets for use with the Ingress controller (although this is not mandatory). There are several common use cases:

• Generate certificate secrets based on chart parameters.
• Enable externally generated certificates.
• Manage application certificates via an external service (like cert-manager).
• Create self-signed certificates within the chart (if supported).

In the first two cases, a certificate and a key are needed. Files are expected in .pem format.

Here is an example of a certificate file:

NOTE: There may be more than one certificate if there is a certificate chain.

-----BEGIN CERTIFICATE-----
MIID6TCCAtGgAwIBAgIJAIaCwivkeB5EMA0GCSqGSIb3DQEBCwUAMFYxCzAJBgNV
...
jScrvkiBO65F46KioCL9h5tDvomdU1aqpI/CBzhvZn1c0ZTf87tGQR8NK7v7
-----END CERTIFICATE-----

Here is an example of a certificate key:

-----BEGIN RSA PRIVATE KEY-----
MIIEogIBAAKCAQEAvLYcyu8f3skuRyUgeeNpeDvYBCDcgq+LsWap6zbX5f8oLqp4
...
wrj2wDbCDCFmfqnSJ+dKI3vFLlEz44sAV8jX/kd4Y6ZTQhlLbYc=
-----END RSA PRIVATE KEY-----

• If using Helm to manage the certificates based on the parameters, copy these values into the certificate and key values for a given *.ingress.secrets entry.
• If managing TLS secrets separately, it is necessary to create a TLS secret with name INGRESS_HOSTNAME-tls (where INGRESS_HOSTNAME is a placeholder to be replaced with the hostname you set using the *.ingress.hostname parameter).
• If your cluster has a cert-manager add-on to automate the management and issuance of TLS certificates, add to *.ingress.annotations the corresponding ones for cert-manager.
• If using self-signed certificates created by Helm, set both *.ingress.tls and *.ingress.selfSigned to true.

Load custom definitions

It is possible to load a RabbitMQ definitions file to configure RabbitMQ. Follow the steps below:

Because definitions may contain RabbitMQ credentials, store the JSON as a Kubernetes secret. Within the secret's data, choose a key name that corresponds with the desired load definitions filename (i.e. load_definition.json) and use the JSON object as the value.

Next, specify the load_definitions property as an extraConfiguration pointing to the load definition file path within the container (i.e. /app/load_definition.json) and set loadDefinition.enable to true. Any load definitions specified will be available within in the container at /app.

NOTE: Loading a definition will take precedence over any configuration done through Helm values.

If needed, you can use extraSecrets to let the chart create the secret for you. This way, you don't need to manually create it before deploying a release. These secrets can also be templated to use supplied chart values. Here is an example:

auth:
  password: CHANGEME
extraSecrets:
  load-definition:
    load_definition.json: |
      {
        "users": [
          {
            "name": "{{ .Values.auth.username }}",
            "password": "{{ .Values.auth.password }}",
            "tags": "administrator"
          }
        ],
        "vhosts": [
          {
            "name": "/"
          }
        ]
      }      
loadDefinition:
  enabled: true
  existingSecret: load-definition
extraConfiguration: |
  load_definitions = /app/load_definition.json  

Update credentials

The Bitnami RabbitMQ chart, when upgrading, reuses the secret previously rendered by the chart or the one specified in auth.existingSecret. To update credentials, use one of the following:

• Run helm upgrade specifying a new password in auth.password and auth.updatePassword=true.
• Run helm upgrade specifying a new secret in auth.existingSecret and auth.updatePassword=true.

Configure LDAP support

LDAP support can be enabled in the chart by specifying the ldap.* parameters while creating a release. For example:

ldap.enabled="true"
ldap.server="my-ldap-server"
ldap.port="389"
ldap.user_dn_pattern="cn=${username},dc=example,dc=org"

If ldap.tls.enabled is set to true, consider using ldap.port=636 and checking the settings in the advancedConfiguration chart parameters.

Configure memory high watermark

It is possible to configure a memory high watermark on RabbitMQ to define memory thresholds using the memoryHighWatermark.* parameters. To do so, you have two alternatives:

• Set an absolute limit of RAM to be used on each RabbitMQ node, as shown in the configuration example below:

memoryHighWatermark.enabled="true"
memoryHighWatermark.type="absolute"
memoryHighWatermark.value="512Mi"

• Set a relative limit of RAM to be used on each RabbitMQ node. To enable this feature, define the memory limits at pod level too. An example configuration is shown below:

memoryHighWatermark.enabled="true"
memoryHighWatermark.type="relative"
memoryHighWatermark.value="0.4"
resources.limits.memory="2Gi"

Add 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: LOG_LEVEL
    value: error

Alternatively, you can use a ConfigMap or a Secret with the environment variables. To do so, use the .extraEnvVarsCM or the extraEnvVarsSecret properties.

Configure the default user/vhost

If you want to create default user/vhost and set the default permission. you can use extraConfiguration:

auth:
  username: default-user
extraConfiguration: |-
  default_vhost = default-vhost
  default_permissions.configure = .*
  default_permissions.read = .*
  default_permissions.write = .*  

Use plugins

The Bitnami Docker RabbitMQ image ships a set of plugins by default. By default, this chart enables rabbitmq_management and rabbitmq_peer_discovery_k8s since they are required for RabbitMQ to work on K8s.

To enable extra plugins, set the extraPlugins parameter with the list of plugins you want to enable. In addition to this, the communityPlugins parameter can be used to specify a list of URLs (separated by spaces) for custom plugins for RabbitMQ.

communityPlugins="http://URL-TO-PLUGIN/"
extraPlugins="my-custom-plugin"

Advanced logging

In case you want to configure RabbitMQ logging set logs value to false and set the log config in extraConfiguration following the official documentation.

An example:

logs: false # custom logging
extraConfiguration: |
  log.default.level = warning
  log.file = false
  log.console = true
  log.console.level = warning
  log.console.formatter = json  

How to Avoid Deadlocked Deployments After a Cluster-Wide Restart

RabbitMQ nodes assume their peers come back online within five minutes (by default). When the OrderedReady pod management policy is used with a readiness probe that implicitly requires a fully booted node, the deployment can deadlock:

• Kubernetes will expect the first node to pass a readiness probe
• The readiness probe may require a fully booted node
• The node will fully boot after it detects that its peers have come online
• Kubernetes will not start any more pods until the first one boots

The following combination of deployment settings avoids the problem:

• Use podManagementPolicy: "Parallel" to boot multiple cluster nodes in parallel
• Use rabbitmq-diagnostics ping for readiness probe

To learn more, please consult RabbitMQ documentation guides:

• RabbitMQ Clustering guide: Node Restarts
• RabbitMQ Clustering guide: Restarts and Readiness Probes
• Recommendations for Operator-less (DIY) deployments to Kubernetes

Do Not Force Boot Nodes on a Regular Basis

Note that forcing nodes to boot is not a solution and doing so can be dangerous. Forced booting is a last resort mechanism in RabbitMQ that helps make remaining cluster nodes recover and rejoin each other after a permanent loss of some of their former peers. In other words, forced booting a node is an emergency event recovery procedure.

Known issues

• Changing the password through RabbitMQ's UI can make the pod fail due to the default liveness probes. If you do so, remember to make the chart aware of the new password. Updating the default secret with the password you set through RabbitMQ's UI will automatically recreate the pods. If you are using your own secret, you may have to manually recreate the pods.

Backup and restore

To back up and restore Helm chart deployments on Kubernetes, you need to back up the persistent volumes from the source deployment and attach them to a new deployment using Velero, a Kubernetes backup/restore tool. Find the instructions for using Velero in this guide.

Persistence

The Bitnami RabbitMQ image stores the RabbitMQ data and configurations at the /opt/bitnami/rabbitmq/var/lib/rabbitmq/ path of the container.

The chart mounts a Persistent Volume at this location. By default, the volume is created using dynamic volume provisioning. An existing PersistentVolumeClaim can also be defined.

Use existing PersistentVolumeClaims

1. Create the PersistentVolume
2. Create the PersistentVolumeClaim
3. Install the chart

helm install my-release --set persistence.existingClaim=PVC_NAME oci://REGISTRY_NAME/REPOSITORY_NAME/rabbitmq

Note: You need to substitute the placeholders REGISTRY_NAME and REPOSITORY_NAME with a reference to your Helm chart registry and repository. For example, in the case of Bitnami, you need to use REGISTRY_NAME=registry-1.docker.io and REPOSITORY_NAME=bitnamicharts.

Adjust permissions of the persistence volume mountpoint

As the image runs as non-root by default, it is necessary to adjust the ownership of the persistent volume so that the container can write data into it.

By default, the chart is configured to use Kubernetes Security Context to automatically change the ownership of the volume. However, this feature does not work in all Kubernetes distributions. As an alternative, this chart supports using an initContainer to change the ownership of the volume before mounting it in the final destination.

You can enable this initContainer by setting volumePermissions.enabled to true.

Prometheus Metrics

RabbitMQ has built-in support for Prometheus metrics exposed at GET /metrics. However, these metrics are all cluster-wide, and do not show any per-queue or per-node metrics.

To get per-object metrics, there is a second metrics endpoint at GET /metrics/detailed that accepts query parameters to choose which metric families you would like to see. For instance, you can pass family=node_coarse_metrics&family=queue_coarse_metrics to see per-node and per-queue metrics, but with no need to see Erlang, connection, or channel metrics.

Additionally, there is a third metrics endpoint: GET /metrics/per-object. which returns all per-object metrics. However, this can be computationally expensive on a large cluster with many objects, and so RabbitMQ docs suggest using GET /metrics/detailed mentioned above to filter your scraping and only fetch the per-object metrics that are needed for a given monitoring application.

Because they expose different sets of data, a valid use case is to scrape metrics from both GET /metrics and GET /metrics/detailed, ingesting both cluster-level and per-object metrics. The metrics.serviceMonitor.default and metrics.serviceMonitor.detailed values support configuring a ServiceMonitor that targets one or both of these metrics.

Parameters

Global parameters

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

RabbitMQ Image parameters

Name	Description	Value
image.registry	RabbitMQ image registry	REGISTRY_NAME
image.repository	RabbitMQ image repository	REPOSITORY_NAME/rabbitmq
image.digest	RabbitMQ image digest in the way sha256:aa.... Please note this parameter, if set, will override the tag	""
image.pullPolicy	RabbitMQ image pull policy	IfNotPresent
image.pullSecrets	Specify docker-registry secret names as an array	[]
image.debug	Set to true if you would like to see extra information on logs	false

Common parameters

Name	Description	Value
nameOverride	String to partially override rabbitmq.fullname template (will maintain the release name)	""
fullnameOverride	String to fully override rabbitmq.fullname template	""
namespaceOverride	String to fully override common.names.namespace	""
kubeVersion	Force target Kubernetes version (using Helm capabilities if not set)	""
clusterDomain	Kubernetes Cluster Domain	cluster.local
extraDeploy	Array of extra objects to deploy with the release	[]
commonAnnotations	Annotations to add to all deployed objects	{}
servicenameOverride	String to partially override headless service name	""
commonLabels	Labels to add to all deployed objects	{}
serviceBindings.enabled	Create secret for service binding (Experimental)	false
enableServiceLinks	Whether information about services should be injected into pod's environment variable	true
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"]
automountServiceAccountToken	Mount Service Account token in pod	true
hostAliases	Deployment pod host aliases	[]
dnsPolicy	DNS Policy for pod	""
dnsConfig	DNS Configuration pod	{}
auth.username	RabbitMQ application username	user
auth.password	RabbitMQ application password	""
auth.securePassword	Whether to set the RabbitMQ password securely. This is incompatible with loading external RabbitMQ definitions and 'true' when not setting the auth.password parameter.	true
auth.updatePassword	Update RabbitMQ password on secret change	false
auth.existingPasswordSecret	Existing secret with RabbitMQ credentials (existing secret must contain a value for rabbitmq-password key or override with setting auth.existingSecretPasswordKey)	""
auth.existingSecretPasswordKey	Password key to be retrieved from existing secret	rabbitmq-password
auth.enableLoopbackUser	If enabled, the user auth.username can only connect from localhost	false
auth.erlangCookie	Erlang cookie to determine whether different nodes are allowed to communicate with each other	""
auth.existingErlangSecret	Existing secret with RabbitMQ Erlang cookie (must contain a value for rabbitmq-erlang-cookie key or override with auth.existingSecretErlangKey)	""
auth.existingSecretErlangKey	Erlang cookie key to be retrieved from existing secret	rabbitmq-erlang-cookie
auth.tls.enabled	Enable TLS support on RabbitMQ	false
auth.tls.autoGenerated	Generate automatically self-signed TLS certificates	false
auth.tls.failIfNoPeerCert	When set to true, TLS connection will be rejected if client fails to provide a certificate	true
auth.tls.sslOptionsVerify	Should peer verification be enabled?	verify_peer
auth.tls.sslOptionsPassword.enabled	Enable usage of password for private Key	false
auth.tls.sslOptionsPassword.existingSecret	Name of existing Secret containing the sslOptionsPassword	""
auth.tls.sslOptionsPassword.key	Enable Key referring to sslOptionsPassword in Secret specified in auth.tls.sslOptionsPassword.existingSecret	""
auth.tls.sslOptionsPassword.password	Use this string as Password. If set, auth.tls.sslOptionsPassword.existingSecret and auth.tls.sslOptionsPassword.key are ignored	""
auth.tls.caCertificate	Certificate Authority (CA) bundle content	""
auth.tls.serverCertificate	Server certificate content	""
auth.tls.serverKey	Server private key content	""
auth.tls.existingSecret	Existing secret with certificate content to RabbitMQ credentials	""
auth.tls.existingSecretFullChain	Whether or not the existing secret contains the full chain in the certificate (tls.crt). Will be used in place of ca.cert if true.	false
auth.tls.overrideCaCertificate	Existing secret with certificate content be mounted instead of the ca.crt coming from caCertificate or existingSecret/existingSecretFullChain.	""
logs	Path of the RabbitMQ server's Erlang log file. Value for the RABBITMQ_LOGS environment variable	-
ulimitNofiles	RabbitMQ Max File Descriptors	65535
maxAvailableSchedulers	RabbitMQ maximum available scheduler threads	""
onlineSchedulers	RabbitMQ online scheduler threads	""
memoryHighWatermark.enabled	Enable configuring Memory high watermark on RabbitMQ	false
memoryHighWatermark.type	Memory high watermark type. Either absolute or relative	relative
memoryHighWatermark.value	Memory high watermark value	0.4
plugins	List of default plugins to enable (should only be altered to remove defaults; for additional plugins use extraPlugins)	rabbitmq_management rabbitmq_peer_discovery_k8s
queue_master_locator	Changes the queue_master_locator setting in the rabbitmq config file	min-masters
communityPlugins	List of Community plugins (URLs) to be downloaded during container initialization	""
extraPlugins	Extra plugins to enable (single string containing a space-separated list)	rabbitmq_auth_backend_ldap
clustering.enabled	Enable RabbitMQ clustering	true
clustering.name	RabbitMQ cluster name	""
clustering.addressType	Switch clustering mode. Either ip or hostname	hostname
clustering.rebalance	Rebalance master for queues in cluster when new replica is created	false
clustering.forceBoot	Force boot of an unexpectedly shut down cluster (in an unexpected order).	false
clustering.partitionHandling	Switch Partition Handling Strategy. Either autoheal or pause_minority or pause_if_all_down or ignore	autoheal
loadDefinition.enabled	Enable loading a RabbitMQ definitions file to configure RabbitMQ	false
loadDefinition.file	Name of the definitions file	/app/load_definition.json
loadDefinition.existingSecret	Existing secret with the load definitions file	""
command	Override default container command (useful when using custom images)	[]
args	Override default container args (useful when using custom images)	[]
lifecycleHooks	Overwrite livecycle for the RabbitMQ container(s) to automate configuration before or after startup	{}
terminationGracePeriodSeconds	Default duration in seconds k8s waits for container to exit before sending kill signal.	120
extraEnvVars	Extra environment variables to add to RabbitMQ pods	[]
extraEnvVarsCM	Name of existing ConfigMap containing extra environment variables	""
extraEnvVarsSecret	Name of existing Secret containing extra environment variables (in case of sensitive data)	""
containerPorts.amqp		5672
containerPorts.amqpTls		5671
containerPorts.dist		25672
containerPorts.manager		15672
containerPorts.epmd		4369
containerPorts.metrics		9419
hostPorts.amqp		""
hostPorts.amqpTls		""
hostPorts.manager		""
hostPorts.metrics		""
initScripts	Dictionary of init scripts. Evaluated as a template.	{}
initScriptsCM	ConfigMap with the init scripts. Evaluated as a template.	""
initScriptsSecret	Secret containing /docker-entrypoint-initdb.d scripts to be executed at initialization time that contain sensitive data. Evaluated as a template.	""
extraContainerPorts	Extra ports to be included in container spec, primarily informational	[]
configuration	RabbitMQ Configuration file content: required cluster configuration	""
tcpListenOptions.enabled	Enable TCP listen options of RabbitMQ	true
tcpListenOptions.backlog	Maximum size of the unaccepted TCP connections queue	128
tcpListenOptions.nodelay	When set to true, deactivates Nagle's algorithm. Default is true. Highly recommended for most users.	true
tcpListenOptions.linger.lingerOn	Enable Server socket lingering	true
tcpListenOptions.linger.timeout	Server Socket lingering timeout	0
tcpListenOptions.keepalive	When set to true, enables TCP keepalives	false
configurationExistingSecret	Existing secret with the configuration to use as rabbitmq.conf.	""
extraConfiguration	Configuration file content: extra configuration to be appended to RabbitMQ configuration	""
extraConfigurationExistingSecret	Existing secret with the extra configuration to append to configuration.	""
advancedConfiguration	Configuration file content: advanced configuration	""
advancedConfigurationExistingSecret	Existing secret with the advanced configuration file (must contain a key advanced.config).	""
featureFlags	that controls what features are considered to be enabled or available on all cluster nodes.	""
ldap.enabled	Enable LDAP support	false
ldap.uri	LDAP connection string.	""
ldap.servers	List of LDAP servers hostnames. This is valid only if ldap.uri is not set	[]
ldap.port	LDAP servers port. This is valid only if ldap.uri is not set	""
ldap.userDnPattern	Pattern used to translate the provided username into a value to be used for the LDAP bind.	""
ldap.binddn	DN of the account used to search in the LDAP server.	""
ldap.bindpw	Password for binddn account.	""
ldap.basedn	Base DN path where binddn account will search for the users.	""
ldap.uidField	Field used to match with the user name (uid, samAccountName, cn, etc). It matches with 'dn_lookup_attribute' in RabbitMQ configuration	""
ldap.uidField	Field used to match with the user name (uid, samAccountName, cn, etc). It matches with 'dn_lookup_attribute' in RabbitMQ configuration	""
ldap.authorisationEnabled	Enable LDAP authorisation. Please set 'advancedConfiguration' with tag, topic, resources and vhost mappings	false
ldap.tls.enabled	Enabled TLS configuration.	false
ldap.tls.startTls	Use STARTTLS instead of LDAPS.	false
ldap.tls.skipVerify	Skip any SSL verification (hostanames or certificates)	false
ldap.tls.verify	Verify connection. Valid values are 'verify_peer' or 'verify_none'	verify_peer
ldap.tls.certificatesMountPath	Where LDAP certifcates are mounted.	/opt/bitnami/rabbitmq/ldap/certs
ldap.tls.certificatesSecret	Secret with LDAP certificates.	""
ldap.tls.CAFilename	CA certificate filename. Should match with the CA entry key in the ldap.tls.certificatesSecret.	""
ldap.tls.certFilename	Client certificate filename to authenticate against the LDAP server. Should match with certificate the entry key in the ldap.tls.certificatesSecret.	""
ldap.tls.certKeyFilename	Client Key filename to authenticate against the LDAP server. Should match with certificate the entry key in the ldap.tls.certificatesSecret.	""
extraVolumeMounts	Optionally specify extra list of additional volumeMounts	[]
extraVolumes	Optionally specify extra list of additional volumes .	[]
extraSecrets	Optionally specify extra secrets to be created by the chart.	{}
extraSecretsPrependReleaseName	Set this flag to true if extraSecrets should be created with prepended.	false

Statefulset parameters

Name	Description	Value
replicaCount	Number of RabbitMQ replicas to deploy	1
schedulerName	Use an alternate scheduler, e.g. "stork".	""
podManagementPolicy	Pod management policy	OrderedReady
podLabels	RabbitMQ Pod labels. Evaluated as a template	{}
podAnnotations	RabbitMQ Pod annotations. Evaluated as a template	{}
updateStrategy.type	Update strategy type for RabbitMQ statefulset	RollingUpdate
statefulsetLabels	RabbitMQ statefulset labels. Evaluated as a template	{}
statefulsetAnnotations	RabbitMQ statefulset annotations. Evaluated as a template	{}
priorityClassName	Name of the priority class to be used by RabbitMQ pods, priority class needs to be created beforehand	""
podAffinityPreset	Pod affinity preset. Ignored if affinity is set. Allowed values: soft or hard	""
podAntiAffinityPreset	Pod anti-affinity preset. Ignored if affinity is set. Allowed values: soft or hard	soft
nodeAffinityPreset.type	Node affinity preset type. Ignored if affinity is set. Allowed values: soft or hard	""
nodeAffinityPreset.key	Node label key to match Ignored if affinity is set.	""
nodeAffinityPreset.values	Node label values to match. Ignored if affinity is set.	[]
affinity	Affinity for pod assignment. Evaluated as a template	{}
nodeSelector	Node labels for pod assignment. Evaluated as a template	{}
tolerations	Tolerations for pod assignment. Evaluated as a template	[]
topologySpreadConstraints	Topology Spread Constraints for pod assignment spread across your cluster among failure-domains. Evaluated as a template	[]
podSecurityContext.enabled	Enable RabbitMQ pods' Security Context	true
podSecurityContext.fsGroupChangePolicy	Set filesystem group change policy	Always
podSecurityContext.sysctls	Set kernel settings using the sysctl interface	[]
podSecurityContext.supplementalGroups	Set filesystem extra groups	[]
podSecurityContext.fsGroup	Set RabbitMQ pod's Security Context fsGroup	1001
containerSecurityContext.enabled	Enabled RabbitMQ containers' Security Context	true
containerSecurityContext.seLinuxOptions	Set SELinux options in container	{}
containerSecurityContext.runAsUser	Set RabbitMQ containers' Security Context runAsUser	1001
containerSecurityContext.runAsGroup	Set RabbitMQ containers' Security Context runAsGroup	1001
containerSecurityContext.runAsNonRoot	Set RabbitMQ container's Security Context runAsNonRoot	true
containerSecurityContext.allowPrivilegeEscalation	Set container's privilege escalation	false
containerSecurityContext.readOnlyRootFilesystem	Set container's Security Context readOnlyRootFilesystem	true
containerSecurityContext.capabilities.drop	Set container's Security Context runAsNonRoot	["ALL"]
containerSecurityContext.seccompProfile.type	Set container's Security Context seccomp profile	RuntimeDefault
resourcesPreset	Set container resources according to one common preset (allowed values: none, nano, micro, small, medium, large, xlarge, 2xlarge). This is ignored if resources is set (resources is recommended for production).	micro
resources	Set container requests and limits for different resources like CPU or memory (essential for production workloads)	{}
livenessProbe.enabled	Enable livenessProbe	true
livenessProbe.initialDelaySeconds	Initial delay seconds for livenessProbe	120
livenessProbe.periodSeconds	Period seconds for livenessProbe	30
livenessProbe.timeoutSeconds	Timeout seconds for livenessProbe	20
livenessProbe.failureThreshold	Failure threshold for livenessProbe	6
livenessProbe.successThreshold	Success threshold for livenessProbe	1
readinessProbe.enabled	Enable readinessProbe	true
readinessProbe.initialDelaySeconds	Initial delay seconds for readinessProbe	10
readinessProbe.periodSeconds	Period seconds for readinessProbe	30
readinessProbe.timeoutSeconds	Timeout seconds for readinessProbe	20
readinessProbe.failureThreshold	Failure threshold for readinessProbe	3
readinessProbe.successThreshold	Success threshold for readinessProbe	1
startupProbe.enabled	Enable startupProbe	false
startupProbe.initialDelaySeconds	Initial delay seconds for startupProbe	10
startupProbe.periodSeconds	Period seconds for startupProbe	30
startupProbe.timeoutSeconds	Timeout seconds for startupProbe	20
startupProbe.failureThreshold	Failure threshold for startupProbe	3
startupProbe.successThreshold	Success threshold for startupProbe	1
customLivenessProbe	Override default liveness probe	{}
customReadinessProbe	Override default readiness probe	{}
customStartupProbe	Define a custom startup probe	{}
initContainers	Add init containers to the RabbitMQ pod	[]
sidecars	Add sidecar containers to the RabbitMQ pod	[]
pdb.create	Enable/disable a Pod Disruption Budget creation	true
pdb.minAvailable	Minimum number/percentage of pods that should remain scheduled	""
pdb.maxUnavailable	Maximum number/percentage of pods that may be made unavailable. Defaults to 1 if both pdb.minAvailable and pdb.maxUnavailable are empty.	""

RBAC parameters

Name	Description	Value
serviceAccount.create	Enable creation of ServiceAccount for RabbitMQ pods	true
serviceAccount.name	Name of the created serviceAccount	""
serviceAccount.automountServiceAccountToken	Auto-mount the service account token in the pod	false
serviceAccount.annotations	Annotations for service account. Evaluated as a template. Only used if create is true.	{}
rbac.create	Whether RBAC rules should be created	true
rbac.rules	Custom RBAC rules	[]

Persistence parameters

Name	Description	Value
persistence.enabled	Enable RabbitMQ data persistence using PVC	true
persistence.storageClass	PVC Storage Class for RabbitMQ data volume	""
persistence.selector	Selector to match an existing Persistent Volume	{}
persistence.accessModes	PVC Access Modes for RabbitMQ data volume	["ReadWriteOnce"]
persistence.existingClaim	Provide an existing PersistentVolumeClaims	""
persistence.mountPath	The path the volume will be mounted at	/opt/bitnami/rabbitmq/.rabbitmq/mnesia
persistence.subPath	The subdirectory of the volume to mount to	""
persistence.size	PVC Storage Request for RabbitMQ data volume	8Gi
persistence.annotations	Persistence annotations. Evaluated as a template	{}
persistence.labels	Persistence labels. Evaluated as a template	{}
persistentVolumeClaimRetentionPolicy.enabled	Enable Persistent volume retention policy for rabbitmq Statefulset	false
persistentVolumeClaimRetentionPolicy.whenScaled	Volume retention behavior when the replica count of the StatefulSet is reduced	Retain
persistentVolumeClaimRetentionPolicy.whenDeleted	Volume retention behavior that applies when the StatefulSet is deleted	Retain

Exposure parameters

Name	Description	Value
service.type	Kubernetes Service type	ClusterIP
service.portEnabled	Amqp port. Cannot be disabled when auth.tls.enabled is false. Listener can be disabled with listeners.tcp = none.	true
service.distPortEnabled	Erlang distribution server port	true
service.managerPortEnabled	RabbitMQ Manager port	true
service.epmdPortEnabled	RabbitMQ EPMD Discovery service port	true
service.ports.amqp	Amqp service port	5672
service.ports.amqpTls	Amqp TLS service port	5671
service.ports.dist	Erlang distribution service port	25672
service.ports.manager	RabbitMQ Manager service port	15672
service.ports.metrics	RabbitMQ Prometheues metrics service port	9419
service.ports.epmd	EPMD Discovery service port	4369
service.portNames.amqp	Amqp service port name	amqp
service.portNames.amqpTls	Amqp TLS service port name	amqp-tls
service.portNames.dist	Erlang distribution service port name	dist
service.portNames.manager	RabbitMQ Manager service port name	http-stats
service.portNames.metrics	RabbitMQ Prometheues metrics service port name	metrics
service.portNames.epmd	EPMD Discovery service port name	epmd
service.nodePorts.amqp	Node port for Ampq	""
service.nodePorts.amqpTls	Node port for Ampq TLS	""
service.nodePorts.dist	Node port for Erlang distribution	""
service.nodePorts.manager	Node port for RabbitMQ Manager	""
service.nodePorts.epmd	Node port for EPMD Discovery	""
service.nodePorts.metrics	Node port for RabbitMQ Prometheues metrics	""
service.extraPorts	Extra ports to expose in the service	[]
service.extraPortsHeadless	Extra ports to expose in the headless service	[]
service.loadBalancerSourceRanges	Address(es) that are allowed when service is LoadBalancer	[]
service.allocateLoadBalancerNodePorts	Whether to allocate node ports when service type is LoadBalancer	true
service.externalIPs	Set the ExternalIPs	[]
service.externalTrafficPolicy	Enable client source IP preservation	Cluster
service.loadBalancerClass	Set the LoadBalancerClass	""
service.loadBalancerIP	Set the LoadBalancerIP	""
service.clusterIP	Kubernetes service Cluster IP	""
service.labels	Service labels. Evaluated as a template	{}
service.annotations	Service annotations. Evaluated as a template	{}
service.annotationsHeadless	Headless Service annotations. Evaluated as a template	{}
service.headless.annotations	Annotations for the headless service.	{}
service.sessionAffinity	Session Affinity for Kubernetes service, can be "None" or "ClientIP"	None
service.sessionAffinityConfig	Additional settings for the sessionAffinity	{}
ingress.enabled	Enable ingress resource for Management console	false
ingress.path	Path for the default host. You may need to set this to '/*' in order to use this with ALB ingress controllers.	/
ingress.pathType	Ingress path type	ImplementationSpecific
ingress.hostname	Default host for the ingress resource	rabbitmq.local
ingress.annotations	Additional annotations for the Ingress resource. To enable certificate autogeneration, place here your cert-manager annotations.	{}
ingress.tls	Enable TLS configuration for the hostname defined at ingress.hostname parameter	false
ingress.selfSigned	Set this to true in order to create a TLS secret for this ingress record	false
ingress.extraHosts	The list of additional hostnames to be covered with this ingress record.	[]
ingress.extraPaths	An array with additional arbitrary paths that may need to be added to the ingress under the main host	[]
ingress.extraRules	The list of additional rules to be added to this ingress record. Evaluated as a template	[]
ingress.extraTls	The tls configuration for additional hostnames to be covered with this ingress record.	[]
ingress.secrets	Custom TLS certificates as secrets	[]
ingress.ingressClassName	IngressClass that will be be used to implement the Ingress (Kubernetes 1.18+)	""
ingress.existingSecret	It is you own the certificate as secret.	""
networkPolicy.enabled	Specifies whether a NetworkPolicy should be created	true
networkPolicy.kubeAPIServerPorts	List of possible endpoints to kube-apiserver (limit to your cluster settings to increase security)	[]
networkPolicy.allowExternal	Don't require server label for connections	true
networkPolicy.allowExternalEgress	Allow the pod to access any range of port and all destinations.	true
networkPolicy.addExternalClientAccess	Allow access from pods with client label set to "true". Ignored if networkPolicy.allowExternal is true.	true
networkPolicy.extraIngress	Add extra ingress rules to the NetworkPolicy	[]
networkPolicy.extraEgress	Add extra ingress rules to the NetworkPolicy	[]
networkPolicy.ingressPodMatchLabels	Labels to match to allow traffic from other pods. Ignored if networkPolicy.allowExternal is true.	{}
networkPolicy.ingressNSMatchLabels	Labels to match to allow traffic from other namespaces. Ignored if networkPolicy.allowExternal is true.	{}
networkPolicy.ingressNSPodMatchLabels	Pod labels to match to allow traffic from other namespaces. Ignored if networkPolicy.allowExternal is true.	{}

Metrics Parameters

Name	Description	Value
metrics.enabled	Enable exposing RabbitMQ metrics to be gathered by Prometheus	false
metrics.plugins	Plugins to enable Prometheus metrics in RabbitMQ	rabbitmq_prometheus
metrics.podAnnotations	Annotations for enabling prometheus to access the metrics endpoint	{}
metrics.serviceMonitor.namespace	Specify the namespace in which the serviceMonitor resource will be created	""
metrics.serviceMonitor.jobLabel	The name of the label on the target service to use as the job name in prometheus.	""
metrics.serviceMonitor.targetLabels	Used to keep given service's labels in target	{}
metrics.serviceMonitor.podTargetLabels	Used to keep given pod's labels in target	{}
metrics.serviceMonitor.selector	ServiceMonitor selector labels	{}
metrics.serviceMonitor.labels	Extra labels for the ServiceMonitor	{}
metrics.serviceMonitor.annotations	Extra annotations for the ServiceMonitor	{}
metrics.serviceMonitor.default.enabled	Enable default metrics endpoint (GET /metrics) to be scraped by the ServiceMonitor	false
metrics.serviceMonitor.default.interval	Specify the interval at which metrics should be scraped	30s
metrics.serviceMonitor.default.scrapeTimeout	Specify the timeout after which the scrape is ended	""
metrics.serviceMonitor.default.relabelings	RelabelConfigs to apply to samples before scraping.	[]
metrics.serviceMonitor.default.metricRelabelings	MetricsRelabelConfigs to apply to samples before ingestion.	[]
metrics.serviceMonitor.default.honorLabels	honorLabels chooses the metric's labels on collisions with target labels	false
metrics.serviceMonitor.perObject.enabled	Enable per-object metrics endpoint (GET /metrics/per-object) to be scraped by the ServiceMonitor	false
metrics.serviceMonitor.perObject.interval	Specify the interval at which metrics should be scraped	30s
metrics.serviceMonitor.perObject.scrapeTimeout	Specify the timeout after which the scrape is ended	""
metrics.serviceMonitor.perObject.relabelings	RelabelConfigs to apply to samples before scraping.	[]
metrics.serviceMonitor.perObject.metricRelabelings	MetricsRelabelConfigs to apply to samples before ingestion.	[]
metrics.serviceMonitor.perObject.honorLabels	honorLabels chooses the metric's labels on collisions with target labels	false
metrics.serviceMonitor.detailed.enabled	Enable detailed metrics endpoint (GET /metrics/detailed) to be scraped by the ServiceMonitor	false
metrics.serviceMonitor.detailed.family	List of metric families to get	[]
metrics.serviceMonitor.detailed.vhost	Filter metrics to only show for the specified vhosts	[]
metrics.serviceMonitor.detailed.interval	Specify the interval at which metrics should be scraped	30s
metrics.serviceMonitor.detailed.scrapeTimeout	Specify the timeout after which the scrape is ended	""
metrics.serviceMonitor.detailed.relabelings	RelabelConfigs to apply to samples before scraping.	[]
metrics.serviceMonitor.detailed.metricRelabelings	MetricsRelabelConfigs to apply to samples before ingestion.	[]
metrics.serviceMonitor.detailed.honorLabels	honorLabels chooses the metric's labels on collisions with target labels	false
metrics.serviceMonitor.enabled	Deprecated. Please use metrics.serviceMonitor.{default/perObject/detailed} instead.	false
metrics.serviceMonitor.interval	Deprecated. Please use metrics.serviceMonitor.{default/perObject/detailed} instead.	30s
metrics.serviceMonitor.scrapeTimeout	Deprecated. Please use metrics.serviceMonitor.{default/perObject/detailed} instead.	""
metrics.serviceMonitor.relabelings	Deprecated. Please use metrics.serviceMonitor.{default/perObject/detailed} instead.	[]
metrics.serviceMonitor.metricRelabelings	Deprecated. Please use metrics.serviceMonitor.{default/perObject/detailed} instead.	[]
metrics.serviceMonitor.honorLabels	Deprecated. Please use metrics.serviceMonitor.{default/perObject/detailed} instead.	false
metrics.serviceMonitor.path	Deprecated. Please use metrics.serviceMonitor.{default/perObject/detailed} instead.	""
metrics.serviceMonitor.params	Deprecated. Please use metrics.serviceMonitor.{default/perObject/detailed} instead.	{}
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	List of rules, used as template by Helm.	[]

Init Container Parameters

Name	Description	Value
volumePermissions.enabled	Enable init container that changes the owner and group of the persistent volume(s) mountpoint to runAsUser:fsGroup	false
volumePermissions.image.registry	Init container volume-permissions image registry	REGISTRY_NAME
volumePermissions.image.repository	Init container volume-permissions image repository	REPOSITORY_NAME/os-shell
volumePermissions.image.digest	Init container volume-permissions image digest in the way sha256:aa.... Please note this parameter, if set, will override the tag	""
volumePermissions.image.pullPolicy	Init container volume-permissions image pull policy	IfNotPresent
volumePermissions.image.pullSecrets	Specify docker-registry secret names as an array	[]
volumePermissions.resourcesPreset	Set container resources according to one common preset (allowed values: none, nano, micro, small, medium, large, xlarge, 2xlarge). This is ignored if volumePermissions.resources is set (volumePermissions.resources is recommended for production).	nano
volumePermissions.resources	Set container requests and limits for different resources like CPU or memory (essential for production workloads)	{}
volumePermissions.containerSecurityContext.seLinuxOptions	Set SELinux options in container	{}
volumePermissions.containerSecurityContext.runAsUser	User ID for the init container	0

The above parameters map to the env variables defined in bitnami/rabbitmq. For more information please refer to the bitnami/rabbitmq image documentation.

Specify each parameter using the --set key=value[,key=value] argument to helm install. For example,

helm install my-release \
  --set auth.username=admin,auth.password=secretpassword,auth.erlangCookie=secretcookie \
    oci://REGISTRY_NAME/REPOSITORY_NAME/rabbitmq

Note: You need to substitute the placeholders REGISTRY_NAME and REPOSITORY_NAME with a reference to your Helm chart registry and repository. For example, in the case of Bitnami, you need to use REGISTRY_NAME=registry-1.docker.io and REPOSITORY_NAME=bitnamicharts.

The above command sets the RabbitMQ admin username and password to admin and secretpassword respectively. Additionally the secure erlang cookie is set to secretcookie.

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 oci://REGISTRY_NAME/REPOSITORY_NAME/rabbitmq

Note: You need to substitute the placeholders REGISTRY_NAME and REPOSITORY_NAME with a reference to your Helm chart registry and repository. For example, in the case of Bitnami, you need to use REGISTRY_NAME=registry-1.docker.io and REPOSITORY_NAME=bitnamicharts. Tip: You can use the default values.yaml

Troubleshooting

Find more information about how to deal with common errors related to Bitnami's Helm charts in this troubleshooting guide.

Upgrading

To 15.2.0

This version introduces image verification for security purposes. To disable it, set global.security.allowInsecureImages to true. More details at GitHub issue.

It's necessary to set the auth.password and auth.erlangCookie parameters when upgrading for readiness/liveness probes to work properly. When you install this chart for the first time, some notes will be displayed providing the credentials you must use under the 'Credentials' section. Please note down the password and the cookie, and run the command below to upgrade your chart:

helm upgrade my-release oci://REGISTRY_NAME/REPOSITORY_NAME/rabbitmq --set auth.password=[PASSWORD] --set auth.erlangCookie=[RABBITMQ_ERLANG_COOKIE]

Note: You need to substitute the placeholders REGISTRY_NAME and REPOSITORY_NAME with a reference to your Helm chart registry and repository. For example, in the case of Bitnami, you need to use REGISTRY_NAME=registry-1.docker.io and REPOSITORY_NAME=bitnamicharts.

| Note: you need to substitute the placeholders [PASSWORD] and [RABBITMQ_ERLANG_COOKIE] with the values obtained in the installation notes.

To 15.0.0

This major updates RabbitMQ subchart to 4.0.1. For more information on this subchart's major, please refer to RabbitMQ upgrade notes.

To 14.0.0

This major version changes the default RabbitMQ image from 3.12.x to 3.13.x. Follow the official instructions to upgrade from 3.12 to 3.13.

To 13.0.0

This major bump changes the following security defaults:

• runAsGroup is changed from 0 to 1001
• readOnlyRootFilesystem is set to true
• resourcesPreset is changed from none to the minimum size working in our test suites (NOTE: resourcesPreset is not meant for production usage, but resources adapted to your use case).
• global.compatibility.openshift.adaptSecurityContext is changed from disabled to auto.

This could potentially break any customization or init scripts used in your deployment. If this is the case, change the default values to the previous ones.

To 12.10.0

This version adds NetworkPolicy objects by default. Its default configuration is setting open egress (this can be changed by setting networkPolicy.allowExternalEgress=false) and limited ingress to the default container ports. If you have any extra port exposed you may need to set the networkPolicy.extraIngress value. In the example below an extra port is exposed using extraContainerPorts and access is allowed using networkPolicy.extraIngress:

  extraContainerPorts:
    - name: "mqtts"
      protocol: "TCP"
      containerPort: 8883
  networkPolicy:
    extraIngress:
      - ports:
          - protocol: "TCP"
            containerPort: 8883
            port: 8883

You can revert this behavior by setting networkPolicy.enabled=false.

To 11.0.0

This major version changes the default RabbitMQ image from 3.10.x to 3.11.x. Follow the official instructions to upgrade from 3.10 to 3.11.

To 10.0.0

This major version changes the default RabbitMQ image from 3.9.x to 3.10.x. Follow the official instructions to upgrade from 3.9 to 3.10.

To 9.0.0

This major release renames several values in this chart and adds missing features, in order to be aligned with the rest of the assets in the Bitnami charts repository.

.dist .manager .metrics .epmd

• service.port has been renamed as service.ports.amqp.
• service.portName has been renamed as service.portNames.amqp.
• service.nodePorthas been renamed as service.nodePorts.amqp.
• service.tlsPort has been renamed as service.ports.amqpTls.
• service.tlsPortName has been renamed as service.portNames.amqpTls.
• service.tlsNodePort has been renamed as service.nodePorts.amqpTls.
• service.epmdPortName has been renamed as service.portNames.epmd.
• service.epmdNodePort has been renamed as service.nodePorts.epmd.
• service.distPort has been renamed as service.ports.dist.
• service.distPortName has been renamed as service.portNames.dist.
• service.distNodePort has been renamed as service.nodePorts.dist.
• service.managerPort has been renamed as service.ports.manager.
• service.managerPortName has been renamed as service.portNames.manager.
• service.managerNodePort has been renamed as service.nodePorts.manager.
• service.metricsPort has been renamed as service.ports.metrics.
• service.metricsPortName has been renamed as service.portNames.metrics.
• service.metricsNodePort has been renamed as service.nodePorts.metrics.
• persistence.volumes has been removed, as it duplicates the parameter extraVolumes.
• ingress.certManager has been removed.
• metrics.serviceMonitor.relabellings has been replaced with metrics.serviceMonitor.relabelings, and it sets the field relabelings instead of metricRelabelings.
• metrics.serviceMonitor.additionalLabels has been renamed as metrics.serviceMonitor.labels
• updateStrategyType has been removed, use the field updateStrategy instead, which is interpreted as a template.
• The content of podSecurityContext and containerSecurityContext have been modified.
• The behavior of VolumePermissions has been modified to not change ownership of '.snapshot' and 'lost+found'
• Introduced the values ContainerPorts.*, separating the service and container ports configuration.

To 8.21.0

This new version of the chart bumps the RabbitMQ version to 3.9.1. It is considered a minor release, and no breaking changes are expected. Additionally, RabbitMQ 3.9.X nodes can run alongside 3.8.X nodes.

See the Upgrading guide and the RabbitMQ change log for further documentation.

To 8.0.0

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.

To 7.0.0

• Several parameters were renamed or disappeared in favor of new ones on this major version:
  • replicas is renamed to replicaCount.
  • securityContext.* is deprecated in favor of podSecurityContext and containerSecurityContext.
  • Authentication parameters were reorganized under the auth.* parameter:
    • rabbitmq.username, rabbitmq.password, and rabbitmq.erlangCookie are now auth.username, auth.password, and auth.erlangCookie respectively.
    • rabbitmq.tls.* parameters are now under auth.tls.*.
  • Parameters prefixed with rabbitmq. were renamed removing the prefix. E.g. rabbitmq.configuration -> renamed to configuration.
  • rabbitmq.rabbitmqClusterNodeName is deprecated.
  • rabbitmq.setUlimitNofiles is deprecated.
  • forceBoot.enabled is renamed to clustering.forceBoot.
  • loadDefinition.secretName is renamed to loadDefinition.existingSecret.
  • metics.port is remamed to service.metricsPort.
  • service.extraContainerPorts is renamed to extraContainerPorts.
  • service.nodeTlsPort is renamed to service.tlsNodePort.
  • podDisruptionBudget is deprecated in favor of pdb.create, pdb.minAvailable, and pdb.maxUnavailable.
  • rbacEnabled -> deprecated in favor of rbac.create.
  • New parameters: serviceAccount.create, and serviceAccount.name.
  • New parameters: memoryHighWatermark.enabled, memoryHighWatermark.type, and memoryHighWatermark.value.
• Chart labels and Ingress configuration were adapted to follow the Helm charts best practices.
• Initialization logic now relies on the container.
• This version introduces bitnami/common, a library chart as a dependency. More documentation about this new utility could be found here. Please, make sure that you have updated the chart dependencies before executing any upgrade.
• The layout of the persistent volumes has changed (if using persistence). Action is required if preserving data through the upgrade is desired:
  • The data has moved from mnesia/ within the persistent volume to the root of the persistent volume
  • The config/ and schema/ directories within the persistent volume are no longer used
  • An init container can be used to move and clean up the peristent volumes. An example can be found here.
  • Alternately the value persistence.subPath can be overridden to be mnesia so that the directory layout is consistent with what it was previously.
    • Note however that this will leave the unused config/ and schema/ directories within the peristent volume forever.

Consequences:

• Backwards compatibility is not guaranteed.
• Compatibility with non Bitnami images is not guaranteed anymore.

To 6.0.0

This new version updates the RabbitMQ image to a new version based on bash instead of node.js. However, since this Chart overwrites the container's command, the changes to the container shouldn't affect the Chart. To upgrade, it may be needed to enable the fastBoot option, as it is already the case from upgrading from 5.X to 5.Y.

To 5.0.0

This major release changes the clustering method from ip to hostname. This change is needed to fix the persistence. The data dir will now depend on the hostname which is stable instead of the pod IP that might change.

IMPORTANT: Note that if you upgrade from a previous version you will lose your data.

To 3.0.0

Backwards compatibility is not guaranteed unless you modify the labels used on the chart's deployments. Use the workaround below to upgrade from versions previous to 3.0.0. The following example assumes that the release name is rabbitmq:

kubectl delete statefulset rabbitmq --cascade=false

Bitnami Kubernetes Documentation

Bitnami Kubernetes documentation is available at https://docs.bitnami.com/. You can find there the following resources:

• Documentation for RabbitMQ Helm chart
• Get Started with Kubernetes guides
• Kubernetes FAQs
• Kubernetes Developer guides

License

Copyright © 2025 Broadcom. The term "Broadcom" refers to Broadcom Inc. and/or its subsidiaries.

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.