Bitnami package for Redmine

Redmine is an open source management application. It includes a tracking issue system, Gantt charts for a visual view of projects and deadlines, and supports SCM integration for version control.

Overview of Redmine

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_NAME/REPOSITORY_NAME/redmine

Note: You need to substitute the placeholders REGISTRY_NAME and REPOSITORY_NAME with a reference to your Helm chart registry and repository.

Introduction

This chart bootstraps a Redmine deployment on a Kubernetes cluster using the Helm package manager.

It also packages the Bitnami MariaDB chart and the PostgreSQL chart which are required for bootstrapping a MariaDB/PostgreSQL deployment for the database requirements of the Redmine application.

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
• ReadWriteMany volumes for deployment scaling

Installing the Chart

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

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

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 Redmine 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

Using PostgreSQL instead of MariaDB

This chart includes the option to use a PostgreSQL database for Redmine instead of MariaDB. To use this, set the databaseType parameter to postgresql:

helm install my-release oci://REGISTRY_NAME/REPOSITORY_NAME/redmine --set databaseType=postgresql

Important

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.

Certificates

CA Certificates

Custom CA certificates not included in the base docker image can be added with the following configuration. The secret must exist in the same namespace as the deployment. Will load all certificates files it finds in the secret.

certificates:
  customCAs:
    - secret: my-ca-1
    - secret: my-ca-2

CA Certificates Secret

Secret can be created with:

kubectl create secret generic my-ca-1 --from-file my-ca-1.crt

TLS Certificate

A web server TLS Certificate can be injected into the container with the following configuration. The certificate will be stored at the location specified in the certificateLocation value.

certificates:
  customCertificate:
    certificateSecret: my-secret
    certificateLocation: /ssl/server.pem
    keyLocation: /ssl/key.pem
    chainSecret:
      name: my-cert-chain
      key: chain.pem

TLS Certificate Secret

The certificate tls secret can be created with:

kubectl create secret tls my-secret --cert tls.crt --key tls.key

The certificate chain is created with:

kubectl create secret generic my-cert-chain --from-file chain.pem

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 resourcePreset is discouraged as it may not fully adapt to your specific needs. Find more information on container resource management in the official Kubernetes documentation.

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.

Replicas

Redmine writes uploaded files to a persistent volume. By default that volume cannot be shared between pods (RWO). In such a configuration the replicas option must be set to 1. If the persistent volume supports more than one writer (RWX), ie NFS, replicas can be greater than 1.

Important

: When running more than one instance of Redmine they must share the same secret_key_base to have sessions working acreoss all instances. This can be achieved by setting

  extraEnvVars:
   - name: SECRET_KEY_BASE
     value: someredminesecretkeybase

Deploying to a sub-URI

(adapted from https://github.com/bitnami/containers/tree/main/bitnami/redmine)

On certain occasions, you may need that Redmine is available under a specific sub-URI path rather than the root. A common scenario to this problem may arise if you plan to set up your Redmine container behind a reverse proxy. To deploy your Redmine container using a certain sub-URI you just need to follow these steps:

Create a configmap containing an altered version of post-init.sh

apiVersion: v1
kind: ConfigMap
metadata:
  name: redmine-init-configmap
  namespace: <same-namespace-as-the-chart>
  labels:
  ...
data:

  post-init.sh: |-
    #!/bin/bash

    # REPLACE WITH YOUR OWN SUB-URI
    SUB_URI_PATH='/redmine'

    #Config files where to apply changes
    config1=/opt/bitnami/redmine/config.ru
    config2=/opt/bitnami/redmine/config/environment.rb

    sed -i '$ d' ${config1}
    echo 'map ActionController::Base.config.try(:relative_url_root) || "/" do' >> ${config1}
    echo 'run Rails.application' >> ${config1}
    echo 'end' >> ${config1}
    echo 'Redmine::Utils::relative_url_root = "'${SUB_URI_PATH}'"' >> ${config2}

    SUB_URI_PATH=$(echo ${SUB_URI_PATH} | sed -e 's|/|\\/|g')
    sed -i -e "s/\(relative_url_root\ \=\ \"\).*\(\"\)/\1${SUB_URI_PATH}\2/" ${config2}

Add this confimap as a volume/volume mount in the chart values

## Extra volumes to add to the deployment
##
extraVolumes:
  - name: redmine-init-volume
    configMap:
      name: redmine-init-configmap

## Extra volume mounts to add to the container
##
extraVolumeMounts:
  - name: "redmine-init-volume"
    mountPath: "/post-init.sh"
    subPath: post-init.sh

Change the probes URI

## Configure extra options for liveness and readiness probes
## ref: https://kubernetes.io/docs/tasks/configure-pod-container/configure-liveness-readiness-probes/#configure-probes)
##
startupProbe:
  enabled: true
  path: /redmine/
---
readinessProbe:
  enabled: true
  path: /redmine/

Persistence

The Bitnami Redmine image stores the Redmine data and configurations at the /bitnami/redmine path of the container.

Persistent Volume Claims are used to keep the data across deployments. This is known to work in GCE, AWS, and minikube. The volume is created using dynamic volume provisioning. Clusters configured with NFS mounts require manually managed volumes and claims.

See the Parameters section to configure the PVC or to disable persistence.

Existing PersistentVolumeClaims

The following example includes two PVCs, one for Redmine and another for MariaDB.

1. Create the PersistentVolume
2. Create the PersistentVolumeClaim
3. Create the directory, on a worker
4. Install the chart

helm install test --set persistence.existingClaim=PVC_REDMINE,mariadb.persistence.existingClaim=PVC_MARIADB oci://REGISTRY_NAME/REPOSITORY_NAME/redmine

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.

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.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

Common parameters

Name	Description	Value
kubeVersion	Override Kubernetes version	""
nameOverride	String to partially override common.names.fullname	""
fullnameOverride	String to fully override common.names.fullname	""
commonLabels	Labels to add to all deployed objects	{}
commonAnnotations	Annotations to add to all deployed objects	{}
clusterDomain	Default Kubernetes cluster domain	cluster.local
extraDeploy	Array of extra objects to deploy with the release	[]
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 the deployment	["sleep"]
diagnosticMode.args	Args to override all containers in the the deployment	["infinity"]

Redmine Configuration parameters

Name	Description	Value
image.registry	Redmine image registry	REGISTRY_NAME
image.repository	Redmine image repository	REPOSITORY_NAME/redmine
image.digest	Redmine image digest in the way sha256:aa…. Please note this parameter, if set, will override the tag	""
image.pullPolicy	Redmine image pull policy	IfNotPresent
image.pullSecrets	Redmine image pull secrets	[]
image.debug	Enable image debug mode	false
redmineUsername	Redmine username	user
redminePassword	Redmine user password	""
redmineEmail	Redmine user email	[email protected]
redmineLanguage	Redmine default data language	en
allowEmptyPassword	Allow the container to be started with blank passwords	false
smtpHost	SMTP server host	""
smtpPort	SMTP server port	""
smtpUser	SMTP username	""
smtpPassword	SMTP user password	""
smtpProtocol	SMTP protocol	""
existingSecret	Name of existing secret containing Redmine credentials	""
smtpExistingSecret	The name of an existing secret with SMTP credentials	""
customPostInitScripts	Custom post-init.d user scripts	{}
command	Override default container command (useful when using custom images)	[]
args	Override default container args (useful when using custom images)	[]
extraEnvVars	Array with extra environment variables to add to the Redmine container	[]
extraEnvVarsCM	Name of existing ConfigMap containing extra env vars	""
extraEnvVarsSecret	Name of existing Secret containing extra env vars	""

Redmine deployment parameters

Name	Description	Value
replicaCount	Number of Redmine replicas to deploy	1
containerPorts.http	Redmine HTTP container port	3000
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)	{}
podSecurityContext.enabled	Enabled Redmine 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 Redmine pod’s Security Context fsGroup	0
containerSecurityContext.enabled	Enabled containers’ Security Context	true
containerSecurityContext.seLinuxOptions	Set SELinux options in container	{}
containerSecurityContext.runAsUser	Set containers’ Security Context runAsUser	0
containerSecurityContext.runAsGroup	Set containers’ Security Context runAsGroup	0
containerSecurityContext.runAsNonRoot	Set container’s Security Context runAsNonRoot	false
containerSecurityContext.privileged	Set container’s Security Context privileged	false
containerSecurityContext.readOnlyRootFilesystem	Set container’s Security Context readOnlyRootFilesystem	false
containerSecurityContext.allowPrivilegeEscalation	Set container’s Security Context allowPrivilegeEscalation	false
containerSecurityContext.capabilities.drop	List of capabilities to be dropped	["ALL"]
containerSecurityContext.capabilities.add	List of capabilities to be added	["CHOWN","SYS_CHROOT","FOWNER","SETGID","SETUID","DAC_OVERRIDE"]
containerSecurityContext.seccompProfile.type	Set container’s Security Context seccomp profile	RuntimeDefault
livenessProbe.enabled	Enable livenessProbe on Redmine containers	true
livenessProbe.initialDelaySeconds	Initial delay seconds for livenessProbe	300
livenessProbe.periodSeconds	Period seconds for livenessProbe	10
livenessProbe.timeoutSeconds	Timeout seconds for livenessProbe	5
livenessProbe.failureThreshold	Failure threshold for livenessProbe	6
livenessProbe.successThreshold	Success threshold for livenessProbe	1
readinessProbe.enabled	Enable readinessProbe on Redmine containers	true
readinessProbe.path	Path to check for readinessProbe	/
readinessProbe.initialDelaySeconds	Initial delay seconds for readinessProbe	5
readinessProbe.periodSeconds	Period seconds for readinessProbe	10
readinessProbe.timeoutSeconds	Timeout seconds for readinessProbe	5
readinessProbe.failureThreshold	Failure threshold for readinessProbe	6
readinessProbe.successThreshold	Success threshold for readinessProbe	1
startupProbe.enabled	Enable startupProbe on Redmine containers	false
startupProbe.path	Path to check for startupProbe	/
startupProbe.initialDelaySeconds	Initial delay seconds for startupProbe	300
startupProbe.periodSeconds	Period seconds for startupProbe	10
startupProbe.timeoutSeconds	Timeout seconds for startupProbe	5
startupProbe.failureThreshold	Failure threshold for startupProbe	6
startupProbe.successThreshold	Success threshold for startupProbe	1
customLivenessProbe	Custom livenessProbe that overrides the default one	{}
customReadinessProbe	Custom readinessProbe that overrides the default one	{}
customStartupProbe	Custom startupProbe that overrides the default one	{}
lifecycleHooks	LifecycleHooks to set additional configuration at startup	{}
automountServiceAccountToken	Mount Service Account token in pod	false
hostAliases	Redmine pod host aliases	[]
podLabels	Extra labels for Redmine pods	{}
podAnnotations	Annotations for Redmine pods	{}
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	{}
nodeSelector	Node labels for pod assignment	{}
tolerations	Tolerations for pod assignment	[]
priorityClassName	Redmine pods’ Priority Class Name	""
schedulerName	Alternate scheduler	""
terminationGracePeriodSeconds	Seconds Redmine pod needs to terminate gracefully	""
topologySpreadConstraints	Topology Spread Constraints for pod assignment spread across your cluster among failure-domains. Evaluated as a template	[]
updateStrategy.type	Redmine statefulset strategy type	RollingUpdate
updateStrategy.rollingUpdate	Redmine statefulset rolling update configuration parameters	{}
extraVolumes	Optionally specify extra list of additional volumes for Redmine pods	[]
extraVolumeMounts	Optionally specify extra list of additional volumeMounts for Redmine container(s)	[]
initContainers	Add additional init containers to the Redmine pods	[]
sidecars	Add additional sidecar containers to the Redmine pod	[]

Traffic Exposure Parameters

Name	Description	Value
service.type	Redmine service type	LoadBalancer
service.ports.http	Redmine service HTTP port	80
service.nodePorts.http	NodePort for the Redmine HTTP endpoint	""
service.sessionAffinity	Control where client requests go, to the same pod or round-robin	None
service.sessionAffinityConfig	Additional settings for the sessionAffinity	{}
service.clusterIP	Redmine service Cluster IP	""
service.loadBalancerIP	Redmine service Load Balancer IP	""
service.loadBalancerSourceRanges	Redmine service Load Balancer sources	[]
service.externalTrafficPolicy	Redmine service external traffic policy	Cluster
service.annotations	Additional custom annotations for Redmine service	{}
service.extraPorts	Extra port to expose on Redmine service	[]
ingress.enabled	Enable ingress record generation for Redmine	false
ingress.ingressClassName	IngressClass that will be be used to implement the Ingress (Kubernetes 1.18+)	""
ingress.pathType	Ingress path type	ImplementationSpecific
ingress.apiVersion	Force Ingress API version (automatically detected if not set)	""
ingress.hostname	Default host for the ingress record	redmine.local
ingress.path	Default path for the ingress record	/
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 host defined at ingress.hostname parameter	false
ingress.selfSigned	Create a TLS secret for this ingress record using self-signed certificates generated by Helm	false
ingress.extraHosts	An array with additional hostname(s) to be covered with the ingress record	[]
ingress.extraPaths	An array with additional arbitrary paths that may need to be added to the ingress under the main host	[]
ingress.extraTls	The tls configuration for additional hostnames to be covered with this ingress record.	[]
ingress.secrets	If you’re providing your own certificates, please use this to add the certificates as secrets	[]
ingress.extraRules	Additional rules to be covered with this ingress record	[]

Persistence Parameters

Name	Description	Value
persistence.enabled	Enable persistence using Persistent Volume Claims	true
persistence.storageClass	Persistent Volume storage class	""
persistence.accessModes	Persistent Volume access modes	[]
persistence.size	Persistent Volume size	8Gi
persistence.dataSource	Custom PVC data source	{}
persistence.annotations	Annotations for the PVC	{}
persistence.selector	Selector to match an existing Persistent Volume (this value is evaluated as a template)	{}
persistence.existingClaim	The name of an existing PVC to use for persistence	""
volumePermissions.enabled	Enable init container that changes the owner/group of the PV mount point to runAsUser:fsGroup	false
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.enabled	Enable init container’s Security Context	true
volumePermissions.containerSecurityContext.seLinuxOptions	Set SELinux options in container	nil
volumePermissions.containerSecurityContext.runAsUser	Set init container’s Security Context runAsUser	0

RBAC Parameters

Name	Description	Value
serviceAccount.create	Specifies whether a ServiceAccount should be created	true
serviceAccount.name	The name of the ServiceAccount to create (name generated using common.names.fullname template otherwise)	""
serviceAccount.automountServiceAccountToken	Auto-mount the service account token in the pod	false
serviceAccount.annotations	Additional custom annotations for the ServiceAccount	{}

Other Parameters

Name	Description	Value
pdb.create	Enable 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 server.pdb.minAvailable and server.pdb.maxUnavailable are empty.	""
autoscaling.enabled	Enable Horizontal POD autoscaling for Redmine	false
autoscaling.minReplicas	Minimum number of Redmine replicas	1
autoscaling.maxReplicas	Maximum number of Redmine replicas	11
autoscaling.targetCPU	Target CPU utilization percentage	50
autoscaling.targetMemory	Target Memory utilization percentage	50

Database Parameters

Name	Description	Value
databaseType	Redmine database type. Allowed values: mariadb and postgresql	mariadb
mariadb.enabled	Switch to enable or disable the MariaDB helm chart	true
mariadb.auth.rootPassword	MariaDB root password	""
mariadb.auth.username	MariaDB username	bn_redmine
mariadb.auth.password	MariaDB password	""
mariadb.auth.existingSecret	Name of existing secret to use for MariaDB credentials	""
mariadb.architecture	MariaDB architecture. Allowed values: standalone or replication	standalone
postgresql.enabled	Switch to enable or disable the PostgreSQL helm chart	true
postgresql.auth.username	Name for a custom user to create	bn_redmine
postgresql.auth.password	Password for the custom user to create	""
postgresql.auth.database	Name for a custom database to create	bitnami_redmine
postgresql.auth.existingSecret	Name of existing secret to use for PostgreSQL credentials	""
postgresql.architecture	PostgreSQL architecture (standalone or replication)	standalone
externalDatabase.host	Database host	""
externalDatabase.port	Database port number	5432
externalDatabase.user	Non-root username for Redmine	bn_redmine
externalDatabase.password	Password for the non-root username for Redmine	""
externalDatabase.database	Redmine database name	bitnami_redmine
externalDatabase.existingSecret	Name of an existing secret resource containing the database credentials	""
externalDatabase.existingSecretPasswordKey	Name of an existing secret key containing the database credentials	""

Mail Receiver/Cron Job Parameters

Name	Description	Value
mailReceiver.enabled	Whether to enable scheduled mail-to-task CronJob	false
mailReceiver.schedule	Kubernetes CronJob schedule	*/5 * * * *
mailReceiver.suspend	Whether to create suspended CronJob	true
mailReceiver.mailProtocol	Mail protocol to use for reading emails. Allowed values: IMAP and POP3	IMAP
mailReceiver.host	Server to receive emails from	""
mailReceiver.port	TCP port on the host	993
mailReceiver.username	Login to authenticate on the host	""
mailReceiver.password	Password to authenticate on the host	""
mailReceiver.ssl	Whether use SSL/TLS to connect to the host	true
mailReceiver.startTLS	Whether use StartTLS to connect to the host	false
mailReceiver.imapFolder	IMAP only. Folder to read emails from	INBOX
mailReceiver.moveOnSuccess	IMAP only. Folder to move processed emails to	""
mailReceiver.moveOnFailure	IMAP only. Folder to move emails with processing errors to	""
mailReceiver.unknownUserAction	Action to perform is an email received from unregistered user	ignore
mailReceiver.noPermissionCheck	Whether skip permission check during creating a new task	0
mailReceiver.noAccountNotice	Whether send an email to an unregistered user created during a new task creation	1
mailReceiver.defaultGroup	Defines a group list to add created user to	""
mailReceiver.project	Defines identifier of the target project for a new task	""
mailReceiver.projectFromSubaddress	Defines email address to select project from subaddress	""
mailReceiver.status	Defines a new task status	""
mailReceiver.tracker	Defines a new task tracker	""
mailReceiver.category	Defines a new task category	""
mailReceiver.priority	Defines a new task priority	""
mailReceiver.assignedTo	Defines a new task assignee	""
mailReceiver.allowOverride	Defines if email content is allowed to set attributes values. Values is a comma separated list of attributes or all to allow all attributes	""
mailReceiver.command	Override default container command (useful when using custom images)	[]
mailReceiver.args	Override default container args (useful when using custom images)	[]
mailReceiver.extraEnvVars	Extra environment variables to be set on mailReceiver container	[]
mailReceiver.extraEnvVarsCM	Name of existing ConfigMap containing extra env vars	""
mailReceiver.extraEnvVarsSecret	Name of existing Secret containing extra env vars	""
mailReceiver.podSecurityContext.enabled	Enabled Redmine pods’ Security Context	true
mailReceiver.podSecurityContext.fsGroupChangePolicy	Set filesystem group change policy	Always
mailReceiver.podSecurityContext.sysctls	Set kernel settings using the sysctl interface	[]
mailReceiver.podSecurityContext.supplementalGroups	Set filesystem extra groups	[]
mailReceiver.podSecurityContext.fsGroup	Set Redmine pod’s Security Context fsGroup	1001
mailReceiver.containerSecurityContext.enabled	mailReceiver Container securityContext	false
mailReceiver.containerSecurityContext.seLinuxOptions	Set SELinux options in container	nil
mailReceiver.containerSecurityContext.runAsUser	User ID for the mailReceiver container	1001
mailReceiver.containerSecurityContext.runAsNonRoot	Whether to run the mailReceiver container as a non-root user	true
mailReceiver.podAnnotations	Additional pod annotations	{}
mailReceiver.podLabels	Additional pod labels	{}
mailReceiver.podAffinityPreset	Pod affinity preset. Ignored if mailReceiver.affinity is set. Allowed values: soft or hard	""
mailReceiver.podAntiAffinityPreset	Pod anti-affinity preset. Ignored if mailReceiver.affinity is set. Allowed values: soft or hard	soft
mailReceiver.nodeAffinityPreset.type	Node affinity preset. Ignored if mailReceiver.affinity is set. Allowed values: soft or hard	""
mailReceiver.nodeAffinityPreset.key	Node label key to match. Ignored if mailReceiver.affinity is set.	""
mailReceiver.nodeAffinityPreset.values	Node label values to match. Ignored if mailReceiver.affinity is set.	[]
mailReceiver.affinity	Affinity for pod assignment	{}
mailReceiver.nodeSelector	Node labels for pod assignment	{}
mailReceiver.tolerations	Tolerations for pod assignment	[]
mailReceiver.priorityClassName	Redmine pods’ priority.	""
mailReceiver.initContainers	Add additional init containers to the mailReceiver pods	[]
mailReceiver.sidecars	Add additional sidecar containers to the mailReceiver pods	[]
mailReceiver.extraVolumes	Optionally specify extra list of additional volumes for mailReceiver container	[]
mailReceiver.extraVolumeMounts	Optionally specify extra list of additional volumeMounts for mailReceiver container	[]

Custom Certificates parameters

Name	Description	Value
certificates.customCertificate.certificateSecret	Secret containing the certificate and key to add	""
certificates.customCertificate.certificateLocation	Location in the container to store the certificate	/etc/ssl/certs/ssl-cert-snakeoil.pem
certificates.customCertificate.keyLocation	Location in the container to store the private key	/etc/ssl/private/ssl-cert-snakeoil.key
certificates.customCertificate.chainLocation	Location in the container to store the certificate chain	/etc/ssl/certs/mychain.pem
certificates.customCertificate.chainSecret.name	Name of the secret containing the certificate chain	""
certificates.customCertificate.chainSecret.key	Key of the certificate chain file inside the secret	""
certificates.customCA	Defines a list of secrets to import into the container trust store	[]
certificates.image.registry	Redmine image registry	REGISTRY_NAME
certificates.image.repository	Redmine image repository	REPOSITORY_NAME/os-shell
certificates.image.digest	Redmine image digest in the way sha256:aa…. Please note this parameter, if set, will override the tag	""
certificates.image.pullPolicy	Redmine image pull policy	IfNotPresent
certificates.image.pullSecrets	Redmine image pull secrets	[]
certificates.extraEnvVars	Container sidecar extra environment variables (e.g. proxy)	[]

NetworkPolicy parameters

Name	Description	Value
networkPolicy.enabled	Specifies whether a NetworkPolicy should be created	true
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.extraIngress	Add extra ingress rules to the NetworkPolicy	[]
networkPolicy.extraEgress	Add extra ingress rules to the NetworkPolicy	[]
networkPolicy.ingressNSMatchLabels	Labels to match to allow traffic from other namespaces	{}
networkPolicy.ingressNSPodMatchLabels	Pod labels to match to allow traffic from other namespaces	{}

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

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

helm install my-release \
  --set redmineUsername=admin,redminePassword=password,mariadb.mariadb.auth.rootPassword=secretpassword \
    oci://REGISTRY_NAME/REPOSITORY_NAME/redmine

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 Redmine administrator account username and password to admin and password respectively. Additionally, it sets the MariaDB root user 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 above parameters can be provided while installing the chart. For example,

helm install my-release -f values.yaml oci://REGISTRY_NAME/REPOSITORY_NAME/redmine

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 30.0.0

This major updates the PostgreSQL subchart to its newest major, 16.0.0, which uses PostgreSQL 17.x. Follow the official instructions to upgrade to 17.x.

To 29.0.0

This major release bumps the MariaDB version to 11.4. Follow the upstream instructions for upgrading from MariaDB 11.3 to 11.4. No major issues are expected during the upgrade.

To 28.0.0

This major bump changes the following security defaults:

• 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.
• The networkPolicy section has been normalized amongst all Bitnami charts. Compared to the previous approach, the values section has been simplified (check the Parameters section) and now it set to enabled=true by default. Egress traffic is allowed by default and ingress traffic is allowed by all pods but only to the ports set in containerPorts and extraContainerPorts.

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.

Also, this major release bumps the MariaDB chart version to 18.x.x; no major issues are expected during the upgrade.

To 27.0.0

This major release bumps the PostgreSQL chart version to 14.x.x and MariaDB to 16.x.x; no major issues are expected during the upgrade.

To 26.0.0

This major release bumps the MariaDB version to 11.2. No major issues are expected during the upgrade.

To 25.0.0

This major release bumps the MariaDB version to 11.1. No major issues are expected during the upgrade.

To 24.0.0

This major updates the PostgreSQL subchart to its newest major, 13.0.0. Here you can find more information about the changes introduced in that version.

To 23.0.0

This major release bumps the MariaDB version to 11.0. Follow the upstream instructions for upgrading from MariaDB 10.11 to 11.0. No major issues are expected during the upgrade.

To 22.0.0

This major release bumps the MariaDB version to 10.11. Follow the upstream instructions for upgrading from MariaDB 10.6 to 10.11. No major issues are expected during the upgrade.

To 21.0.0

This major updates the PostgreSQL subchart to its newest major, 12.0.0. Here you can find more information about the changes introduced in that version.

To 20.0.0

The MariaDB subchart has been updated to the latest version (now it uses 10.6). No major issues are expected during the upgrade.

To 18.0.0

This major release updates the PostgreSQL subchart to its newest major 11.x.x, which contain several changes in the supported values (check the upgrade notes to obtain more information).

How to upgrade to version 18.0.0

To upgrade to 18.0.0 from 17.x using PostgreSQL as database, it should be done reusing the PVC(s) used to hold the data on your previous release. To do so, follow the instructions below (the following example assumes that the release name is redmine and the release namespace default):

1. Obtain the credentials and the names of the PVCs used to hold the data on your current release:

export REDMINE_PASSWORD=$(kubectl get secret --namespace default redmine -o jsonpath="{.data.redmine-password}" | base64 --decode)
export POSTGRESQL_PASSWORD=$(kubectl get secret --namespace default redmine-postgresql -o jsonpath="{.data.postgresql-password}" | base64 --decode)
export POSTGRESQL_PVC=$(kubectl get pvc -l app.kubernetes.io/instance=redmine,app.kubernetes.io/name=postgresql,role=primary -o jsonpath="{.items[0].metadata.name}")

1. Delete the PostgreSQL statefulset (notice the option –cascade=false) and secret:

kubectl delete statefulsets.apps --cascade=false redmine-postgresql
kubectl delete secret redmine-postgresql --namespace default

1. Upgrade your release using the same PostgreSQL version:

CURRENT_PG_VERSION=$(kubectl exec redmine-postgresql-0 -- bash -c 'echo $BITNAMI_IMAGE_VERSION')
helm upgrade redmine bitnami/redmine \
  --set databaseType=postgresql \
  --set redminePassword=$REDMINE_PASSWORD \
  --set postgresql.image.tag=$CURRENT_PG_VERSION \
  --set postgresql.auth.password=$POSTGRESQL_PASSWORD \
  --set postgresql.persistence.existingClaim=$POSTGRESQL_PVC

1. Delete the existing PostgreSQL pods and the new statefulset will create a new one:

kubectl delete pod redmine-postgresql-0

17.0.0

In this version, the image block is defined once and is used in the different templates, while in the previous version, the image block was duplicated for the main container and the mail receiver one:

image:
  registry: docker.io
  repository: bitnami/redmine
  tag: 4.2.2

VS

image:
  registry: docker.io
  repository: bitnami/redmine
  tag: 4.2.2
---
mailReceiver:
  image:
    registry: docker.io
    repository: bitnami/redmine
    tag: 4.2.2

See PR#7114 for more info about the implemented changes

To 16.0.0

The Bitnami Redmine image was refactored and now the source code is published in GitHub in the rootfs folder of the container image repository.

Upgrading Instructions

To upgrade to 16.0.0 from 15.x, it should be done enabling the “volumePermissions” init container. To do so, follow the instructions below (the following example assumes that the release name is redmine and the release namespace default):

1. Obtain the credentials on your current release:

export REDMINE_PASSWORD=$(kubectl get secret --namespace default redmine -o jsonpath="{.data.redmine-password}" | base64 --decode)
export MARIADB_ROOT_PASSWORD=$(kubectl get secret --namespace default example-mariadb -o jsonpath="{.data.mariadb-root-password}" | base64 --decode)
export MARIADB_PASSWORD=$(kubectl get secret --namespace default example-mariadb -o jsonpath="{.data.mariadb-password}" | base64 --decode)

1. Upgrade your release:

helm upgrade redmine bitnami/redmine \
  --set redminePassword=$REDMINE_PASSWORD \
  --set mariadb.auth.rootPassword=$MARIADB_ROOT_PASSWORD \
  --set mariadb.auth.password=$MARIADB_PASSWORD \
  --set volumePermissions.enabled=true

To 15.0.0

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 to apiVersion: v2 (installable by Helm 3 only). Here you can find more information about the apiVersion 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 Chart.
• Additionally updates the MariaDB & PostgreSQL subcharts to their newest major 9.x.x and 10.x.x, respectively, which contain similar changes.

Considerations when upgrading to this version

• If you want to upgrade to this version using Helm v2, this scenario is not supported as this version does not 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

• Bitnami Tutorial
• Helm docs
• Helm Blog

How to upgrade to version 15.0.0

To upgrade to 15.0.0 from 14.x, it should be done reusing the credentials on your previous release. To do so, follow the instructions below (the following example assumes that the release name is redmine and the release namespace default):

1. Obtain the credentials on your current release:

export REDMINE_PASSWORD=$(kubectl get secret --namespace default redmine -o jsonpath="{.data.redmine-password}" | base64 --decode)
export MARIADB_ROOT_PASSWORD=$(kubectl get secret --namespace default example-mariadb -o jsonpath="{.data.mariadb-root-password}" | base64 --decode)
export MARIADB_PASSWORD=$(kubectl get secret --namespace default example-mariadb -o jsonpath="{.data.mariadb-password}" | base64 --decode)

1. Upgrade your release:

helm upgrade redmine bitnami/redmine \
  --set redminePassword=$REDMINE_PASSWORD \
  --set mariadb.auth.rootPassword=$MARIADB_ROOT_PASSWORD \
  --set mariadb.auth.password=$MARIADB_PASSWORD

License

Copyright © 2024 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.