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Galaxy Helm Chart (v5)

Galaxy is a data analysis platform focusing on accessibility, reproducibility, and transparency of primarily bioinformatics data. This repo contains a Helm chart for easily deploying Galaxy on top of Kubernetes. The chart allows application configuration changes, updates, upgrades, and rollbacks.

Supported software versions

  • Kubernetes 1.27+
  • Helm 3.5+

Kubernetes cluster

You will need kubectl (instructions) and Helm (instructions) installed.

Running Galaxy locally in a dev environment

For testing and development purposes, an easy option to get Kubernetes running is to install Rancher Desktop. Once you have it installed, you will also need to setup an ingress controller. Rancher uses Traefik as the default one, so disable it first by unchecking Enable Traefik from the Kubernetes Settings page. Then deploy the NGINX ingress controller:

helm upgrade --install ingress-nginx ingress-nginx \
  --repo https://kubernetes.github.io/ingress-nginx \
  --namespace ingress-nginx --create-namespace

Dependency charts

This chart relies on the features of other charts for common functionality:

In a production setting, especially if the intention is to run multiple Galaxies in a single cluster, we recommend installing the dependency charts separately once per cluster, and installing Galaxy with --set postgresql.deploy=false --set s3csi.deploy=false --set cvmfs.deploy=false --set rabbitmq.deploy=false.


Installing the chart

Using the chart from the packaged chart repo

  1. The chart is automatically packaged, versioned and uploaded to a helm repository on each accepted PR. Therefore, the latest version of the chart can be downloaded from this repository.
helm repo add cloudve https://raw.githubusercontent.com/CloudVE/helm-charts/master/
helm repo update
  1. Install the chart with the release name my-galaxy. It is not advisable to install Galaxy in the default namespace.
helm install my-galaxy-release cloudve/galaxy

Using the chart from GitHub repo

  1. Clone this repository and add required dependency charts:
git clone https://github.com/galaxyproject/galaxy-helm.git
cd galaxy-helm/galaxy
helm dependency update
  1. To install the chart with the release name my-galaxy. See Data persistence section below about the use of persistence flag that is suitable for your Kubernetes environment.
helm install --create-namespace -n galaxy my-galaxy . --set persistence.accessMode="ReadWriteOnce"

In several minute, Galaxy will be available at /galaxy/ URL of your Kubernetes cluster. If you are running the development Kubernetes, Galaxy will be available at http://localhost/galaxy/ (note the trailing slash).

Uninstalling the chart

To uninstall/delete the my-galaxy deployment, run:

helm delete my-galaxy

if you see that some RabbitMQ and Postgres elements remain after some 10 minutes or more, you should be able to issue:

kubectl delete RabbitmqCluster/my-galaxy-rabbitmq-server
kubectl delete statefulset/galaxy-my-galaxy-postgres

it might be needed to remove the finalizer from the RabbitmqCluster if the above doesn't seem to get rid of RabbitmqCluster, through a

kubectl edit RabbitmqCluster/my-galaxy-rabbitmq-server

remove the finalizer in:

apiVersion: rabbitmq.com/v1beta1
kind: RabbitmqCluster
metadata:
  annotations:
    meta.helm.sh/release-name: my-galaxy
    meta.helm.sh/release-namespace: default
  creationTimestamp: "2022-12-19T16:54:33Z"
  deletionGracePeriodSeconds: 0
  deletionTimestamp: "2022-12-19T17:41:40Z"
  finalizers:
  - deletion.finalizers.rabbitmqclusters.rabbitmq.com

and remove the postgres secret:

kubectl delete secrets/standby.galaxy-my-galaxy-postgres.credentials.postgresql.acid.zalan.do

Consider as well that if you set persistence to be enabled, Postgres and Galaxy will leave their PVCs behind, which you might want to delete or not depending on your use case.

Configuration

The following table lists the configurable parameters of the Galaxy chart. The current default values can be found in values.yaml file.

Parameters Description
nameOverride Override the name of the chart used to prefix resource names. Defaults to {{.Chart.Name}} (e.g., galaxy)
fullnameOverride Override the full name used to prefix resource names. Defaults to {{.Release.Name}}-{{.Values.nameOverride}}
image.pullPolicy Galaxy image pull policy for more info
image.repository The repository and name of the Docker image for Galaxy, searches Docker Hub by default
image.tag Galaxy Docker image tag (generally corresponds to the desired Galaxy version)
imagePullSecrets Secrets used to access a Galaxy image from a private repository
persistence.enabled Enable persistence using PVC
persistence.size PVC storage request for the Galaxy volume, in GB
persistence.accessMode PVC access mode for the Galaxy volume
persistence.annotations.{} Dictionary of annotations to add to the persistent volume claim's metadata
persistence.existingClaim Use existing Persistent Volume Claim instead of creating one
persistence.storageClass Storage class to use for provisioning the Persistent Volume Claim
persistence.name Name of the PVC
persistence.mountPath Path where to mount the Galaxy volume
useSecretConfigs Enable Kubernetes Secrets for all config maps
configs.{} Galaxy configuration files and values for each of the files. The provided value represent the entire content of the given configuration file
jobs.priorityClass.enabled Assign a priorityClass to the dispatched jobs.
jobs.rules Galaxy dynamic job rules. See values.yaml
jobs.priorityClass.existingClass Use an existing priorityClass to assign if jobs.priorityClass.enabled=true
refdata.enabled Whether or not to mount cloud-hosted Galaxy reference data and tools.
refdata.type s3csi or cvmfs, determines the CSI to use for mounting reference data. cvmfs is the default type for reference data.
s3csi.deploy Deploy the CSI-S3 Helm Chart. This is an optional dependency, and for production scenarios it should be deployed separately as a cluster-wide resource.
cvmfs.deploy Deploy the Galaxy-CVMFS-CSI Helm Chart. This is an optional dependency, and for production scenarios it should be deployed separately as a cluster-wide resource
cvmfs.enabled Enable use of CVMFS in configs, and deployment of CVMFS Persistent Volume Claims for Galaxy
cvmfs.pvc.{} Persistent Volume Claim to deploy for CVMFS repositories. See values.yaml for examples.
cvmfs.deployPostInstallFix Deploy the fix for Galaxy-CVMFS-CSI Helm Chart.
setupJob.ttlSecondsAfterFinished Sets ttlSecondsAfterFinished for the initialization jobs. See the Kubernetes documentation for more details.
setupJob.downloadToolConfs.enabled Download configuration files and the tools directory from an archive via a job at startup
setupJob.downloadToolConfs.archives.startup A URL to a tar.gz publicly accessible archive containing AT LEAST conf files and XML tool wrappers. Meant to be enough for Galaxy handlers to startup.
setupJob.downloadToolConfs.archives.running A URL to a tar.gz publicly accessible archive containing AT LEAST confs, tool wrappers, and tool scripts but excluding test data. Meant to be enough for Galaxy handlers to run jobs.
setupJob.downloadToolConfs.archives.full A URL to a tar.gz publicly accessible archive containing the full tools directory, including each tool's test data. Meant to be enough to run automated tool-tests, fully mimicking CVMFS repositories
setupJob.downloadToolConfs.volume.mountPath Path at which to mount the unarchived confs in the each handler (should match path set in the tool confs)
setupJob.downloadToolConfs.volume.subPath Name of subdirectory on Galaxy's shared filesystem to use for the unarchived configs
setupJob.createDatabase Deploy a job to create a Galaxy database from scratch (does not affect subsequent upgrades, only first startup)
ingress.path Path where Galaxy application will be hosted
ingress.annotations.{} Dictionary of annotations to add to the ingress's metadata at the deployment level
ingress.hosts Hosts for the Galaxy ingress
ingress.canary.enabled This will create an additional ingress for detecting activity on Galaxy. Useful for autoscaling on activity.
ingress.enabled Enable Kubernetes ingress
ingress.tls Ingress configuration with HTTPS support
service.nodePort If service.type is set to NodePort, then this can be used to set the port at which Galaxy will be available on all nodes' IP addresses
service.port Kubernetes service port
service.type Kubernetes Service type
serviceAccount.annotations.{} Dictionary of annotations to add to the service account's metadata
serviceAccount.create The serviceAccount will be created if it does not exist.
serviceAccount.name The serviceAccount account to use.
rbac.enabled Enable Galaxy job RBAC. This will grant the service account the necessary permissions/roles to view jobs and pods in this namespace. Defaults to true.
webHandlers.{} Configuration for the web handlers (See table below for all options)
jobHandlers.{} Configuration for the job handlers (See table below for all options)
workflowHandlers.{} Configuration for the workflow handlers (See table below for all options)
resources.limits.memory The maximum memory that can be allocated.
resources.requests.memory The requested amount of memory.
resources.limits.cpu The maximum CPU that can be alloacted.
resources.limits.ephemeral-storage The maximum ephemeral storage that can be allocated.
resources.requests.cpu The requested amount of CPU (as time or number of cores)
resources.requests.ephemeral-storage The requested amount of ephemeral storage
securityContext.fsGroup The group for any files created.
tolerations Define the taints that are tolerated.
extraFileMappings.{} Add extra files mapped as configMaps or Secrets at arbitrary paths. See values.yaml for examples.
extraInitCommands Extra commands that will be run during initialization.
extraInitContainers.[] A list of extra init containers for the handler pods
extraVolumeMounts.[] List of volumeMounts to add to all handlers
extraVolumes.[] List of volumes to add to all handlers
postgresql.enabled Enable the postgresql condition in the requirements.yml.
influxdb.username Influxdb user name.
influxdb.url The connection URL to in the influxdb
influxdb.enabled Enable the influxdb used by the metrics scraper.
influxdb.password Password for the influxdb user.
metrics.podAnnotations.{} Dictionary of annotations to add to the metrics deployment's metadata at the pod level
metrics.image.repository The location of the galay-metrics-scraping image to use.
metrics.image.pullPolicy Define the pull policy, that is, when Kubernetes will pull the image.
metrics.podSpecExtra.{} Dictionary to add to the metrics deployment's pod template under spec
metrics.image.tag The image version to use.
metrics.annotations.{} Dictionary of annotations to add to the metrics deployment's metadata at the deployment level
metrics.enabled Enable metrics gathering. The influxdb setting must be specified when using this setting.
nginx.conf.client_max_body_size Requests larger than this size will result in a 413 Payload Too Large.
nginx.image.tag The Nginx version to pull.
nginx.image.repository Where to obtain the Nginx container.
nginx.image.pullPolicy When Kubernetes will pull the Nginx image from the repository.
nginx.galaxyStaticDir Location at which to copy Galaxy static content in the NGINX pod init container, for direct serving. Defaults to /galaxy/server/static

Handlers

Galaxy defines three handler types: jobHandlers, webHandlers, and workflowHandlers. All three handler types share common configuration options.

Parameter Description
replicaCount The number of handlers to be spawned.
startupDelay Delay in seconds for handler startup. Used to offset handlers and avoid race conditions at first startup
annotations Dictionary of annotations to add to this handler's metadata at the deployment level
podAnnotations Dictionary of annotations to add to this handler's metadata at the pod level
podSpecExtra Dictionary to add to this handler's pod template under spec
startupProbe Probe used to determine if a pod has started. Other probes wait for the startup probe. See table below for all probe options
livenessProbe Probe used to determine if a pod should be restarted. See table below for all probe options
readinessProbe Probe used to determine if the pod is ready to accept workloads. See table below for all probe options

Probes

Kubernetes uses probes to determine the state of a pod. Pods are not considered to have started up, and hence other probes are not run, until the startup probes have succeeded. Pods that fail the livenessProbe will be restarted and work will not be dispatched to the pod until the readinessProbe returns successfully. A pod is ready when all of its containers are ready.

Liveness and readiness probes share the same configuration options.

Parameter Description
enabled Enable/Disable the probe
initialDelaySeconds How long to wait before starting the probe.
periodSeconds How frequently Kubernetes with check the probe.
failureThreshold The number of failures Kubernetes will retry the readiness probe before giving up.
timeoutSeconds How long Kubernetes will wait for a probe to timeout.

Examples

jobHandlers:
  replicaCount: 2
  livenessProbe:
    enabled: false
  readinessProbe:
    enabled: true
    initialDelaySeconds: 300
    periodSecods: 30
    timeoutSeconds: 5
    failureThreshhold: 3

Additional Configurations

Extra File Mappings

The extraFileMappings field can be used to inject files to arbitrary paths in the nginx deployment, as well as any of the job, web, or workflow handlers, and the init jobs.

The contents of the file can be specified directly in the values.yml file with the content attribute.

The tpl flag will determine whether these contents are run through the helm templating engine.

Note: when running with tpl: true, brackets ({{ }}) not meant for Helm should be escaped. One way of escaping is: {{ '{{ mynon-helm-content}}' }}

extraFileMappings:
  /galaxy/server/static/welcome.html:
    applyToWeb: true
    applyToJob: false
    applyToWorkflow: false
    applyToNginx: true
    applyToSetupJob: false
    tpl: false
    content: |
      <!DOCTYPE html>
      <html>...</html>

NOTE for security reasons Helm will not load files from outside the chart so the path must be a relative path to location inside the chart directory. This will change when helm#3276 is resolved. In the interim files can be loaded from external locations by:

  1. Creating a symbolic link in the chart directory to the external file, or
  2. using --set-file to specify the contents of the file. E.g: helm upgrade --install galaxy cloudve/galaxy -n galaxy --set-file extraFileMappings."/galaxy/server/static/welcome\.html".content=/home/user/data/welcome.html --set extraFileMappings."/galaxy/server/static/welcome\.html".applyToWeb=true

Alternatively, if too many .applyTo need to be set, the apply flags can be inserted instead to the extraFileMappings (in addition to the --set-file in the cli) for that file in your values.yaml, with no content: part (as that is done through the --set-file):

extraFileMappings:
  /galaxy/server/static/welcome.html:
    applyToJob: false
    applyToWeb: true
    applyToSetupJob: false
    applyToWorkflow: false
    applyToNginx: false
    tpl: false

Setting parameters on the command line

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

helm install my-galaxy . --set persistence.size=50Gi

The above command sets the Galaxy persistent volume to 50GB.

Setting Galaxy configuration file values requires the key name to be escaped. In this example, we are upgrading an existing deployment.

helm upgrade my-galaxy . --set "configs.galaxy\.yml.brand"="Hello World"

You can also set the galaxy configuration file in its entirety with:

helm install my-galaxy . --set-file "configs.galaxy\.yml"=/path/to/local/galaxy.yml

To unset an existing file and revert to the container's default version:

helm upgrade my-galaxy . --set "configs.job_conf\.xml"=null

Alternatively, any number of YAML files that specifies the values of the parameters can be provided when installing the chart. For example,

helm install my-galaxy . -f values.yaml -f new-values.yaml

To unset a config file in a values file, use the YAML null type:

configs:
  job_conf.xml: ~

Data persistence

By default, the Galaxy handlers store all user data under /galaxy/server/database/ path in each container. This path can be changed via persistence.mountPath variable. Persistent Volume Claims (PVCs) are used to persist the data across deployments. It is possible to specify en existing PVC via persistence.existingClaim. Alternatively, a value for persistence.storageClass can be supplied to designate a desired storage class for dynamic provisioning of the necessary PVCs. If neither value is supplied, the default storage class for the K8s cluster will be used.

For multi-node scenarios, we recommend a storage class that supports ReadWriteMany, such as the nfs-provisioner as the data must be available to all nodes in the cluster.

In single-node scenarios, you must use --set persistence.accessMode="ReadWriteOnce".

Note about persistent deployments and restarts

If you wish to make your deployment persistent or restartable (bring deployment down, keep the state in disk, then bring it up again later in time), you should create PVCs for Galaxy and Postgres and use the persistence.existingClaim variable to point to them as explained in the previous section. In addition, you must set the postgresql.galaxyDatabasePassword variable; otherwise, it will be autogenerated and will mismatch when restoring.

Making Interactive Tools work on localhost

In general, Interactive Tools should work out of the box as long as you have a wildcard DNS mapping to *.its.<host_name>. To make Interactive Tools work on localhost, you can use dnsmasq or similar to handle wildcard DNS mappings for *.localhost.

For linux: Follow the instructions here to configure dnsmasq on Linux: https://superuser.com/a/1718296

For mac:

  $ brew install dnsmasq
  $ cp /usr/local/opt/dnsmasq/dnsmasq.conf.example /usr/local/etc/dnsmasq.conf
  $ edit /usr/local/etc/dnsmasq.conf and set

    address=/localhost/127.0.0.1

  $ sudo brew services start dnsmasq
  $ sudo mkdir /etc/resolver
  $ sudo touch /etc/resolver/localhost
  $ edit /etc/resolver/localhost and set

    nameserver 127.0.0.1

  $ sudo brew services restart dnsmasq

For Debian and Ubuntu:

  $ sudo apt update
  $ sudo apt install -y dnsmasq
  $ sudo cp /etc/dnsmasq.conf /etc/dnsmasq.conf.backup
  $ sudo sh -c 'echo "address=/localhost/127.0.0.1" >> /etc/dnsmasq.conf'
  $ sudo systemctl start dnsmasq
  $ sudo systemctl enable dnsmasq
  $ sudo mkdir -p /etc/resolver
  $ sudo sh -c 'echo "nameserver 127.0.0.1" > /etc/resolver/localhost'
  $ sudo systemctl restart dnsmasq

For RHEL, Fedora, and Rocky Linux:

  $ sudo dnf install dnsmasq -y
  $ sudo cp /etc/dnsmasq.conf /etc/dnsmasq.conf.backup
  $ sudo sh -c 'echo "address=/localhost/127.0.0.1" >> /etc/dnsmasq.conf'
  $ sudo systemctl start dnsmasq
  $ sudo systemctl enable dnsmasq
  $ sudo mkdir -p /etc/resolver
  $ sudo sh -c 'echo "nameserver 127.0.0.1" > /etc/resolver/localhost'
  $ sudo systemctl restart dnsmasq

This should make all *.localhost and *.its.localhost map to 127.0.0.1, and ITs should work with a regular helm install on localhost.

Horizontal scaling

The Galaxy application can be horizontally scaled for the web, job, or workflow handlers by setting the desired values of the webHandlers.replicaCount, jobHandlers.replicaCount, and workflowHandlers.replicaCount configuration options.

Cron jobs

Two Cron jobs are defined by default. One to clean up Galaxy's database and one to clean up the tmp directory. By default, these jobs run at 02:05 (the database maintenance script) and 02:15 (tmp directyory cleanup). Users can change the times the cron jobs are run by changing the schedule field in the values.yaml file:

cronJobs:
  maintenance:
    schedule: "30 6 * * *" # Execute the cron job at 6:30 UTC

or by specifying the schedule on the command line when instaling Galaxy:

# Schedule the maintenance job to run at 06:30 on the first day of each month
helm install galaxy -n galaxy galaxy/galaxy --set cronJobs.maintenance.schedule="30 6 1 * *"

To disable a cron job after Galaxy has been deployed simply set the enabled flag for that job to false:

helm upgrade galaxy -n galaxy galaxy/galaxy --reuse-values --set cronJobs.maintenance.enabled=false

Run a CronJob manually

Cron jobs can be invoked manually with tools such as OpenLens or from the command line with kubectl

kubectl create job --namespace <namespace> <job name> --from cronjob/galaxy-cron-maintenance 

This will run the cron job regardless of the schedule that has been set.

Note: the name of the cron job will be {{ .Release.Name }}-cron-<job name> where the <job name> is the name (key) used in the values.yaml file.

CronJob configuration

The following fields can be specified when defining cron jobs.

Name Definition Required
enabled true or false. If false the cron job will not be run. Default is true Yes
schedule When the job will be run. Use tools such as crontab.guru for assistance determining the proper schedule string Yes
defaultEnv true or false. See the galaxy.podEnvVars macro in _helpers.tpl for the list of variables that will be defined. Default is false No
extraEnv Define extra environment variables that will be available to the job No
securityContext Specifies a securityContext for the job. Typically used to set runAsUser No
image Specify the Docker container used to run the job No
command The command to run Yes
args Any command line arguments that should be passed to the command No
extraFileMappings Allow arbitrary files to be mounted from config maps No

Notes

If specifying the Docker image both the resposity and tag MUST be specified.

  image:
    repository: quay.io/my-organization/my-image
    tag: "1.0"  

The extraFileMappings block is similar to the global extraFileMappings except the file will only be mounted for that cron job. The following fields can be specified for each file.

Name Definition Required
mode The file mode (permissions) assigned to the file No
tpl If set to true the file contents will be run through Helm's templating engine. Defaults to false No
content The contents of the file Yes

See the example cron job included in the values.yaml file for a full example.