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There is some consistent confusion between the Community Helm Chart in this repo and the MinIO Kubernetes Operator Helm Chart. This change seeks to clarify the differences between the two charts and which ones are community maintained vs MinIO maintained. |
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templates | ||
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Chart.yaml | ||
README.md | ||
values.yaml |
MinIO Community Helm Chart
MinIO is a High Performance Object Storage released under GNU Affero General Public License v3.0. It is API compatible with Amazon S3 cloud storage service. Use MinIO to build high performance infrastructure for machine learning, analytics and application data workloads.
IMPORTANT |
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This Helm chart is community built, maintained, and supported. MinIO does not guarantee support for any given bug, feature request, or update referencing this chart. MinIO publishes a separate MinIO Kubernetes Operator and Tenant Helm Chart that is officially maintained and supported. MinIO strongly recommends using the MinIO Kubernetes Operator for production deployments. See Deploy Operator With Helm for additional documentation. |
Introduction
This chart bootstraps MinIO Cluster on Kubernetes using the Helm package manager.
Prerequisites
- Helm cli with Kubernetes cluster configured.
- PV provisioner support in the underlying infrastructure. (We recommend using https://github.com/minio/direct-csi)
- Use Kubernetes version v1.19 and later for best experience.
Configure MinIO Helm repo
helm repo add minio https://charts.min.io/
Installing the Chart
Install this chart using:
helm install --namespace minio --set rootUser=rootuser,rootPassword=rootpass123 --generate-name minio/minio
The command deploys MinIO on the Kubernetes cluster in the default configuration. The configuration section lists the parameters that can be configured during installation.
Installing the Chart (toy-setup)
Minimal toy setup for testing purposes can be deployed using:
helm install --set resources.requests.memory=512Mi --set replicas=1 --set persistence.enabled=false --set mode=standalone --set rootUser=rootuser,rootPassword=rootpass123 --generate-name minio/minio
Upgrading the Chart
You can use Helm to update MinIO version in a live release. Assuming your release is named as my-release
, get the values using the command:
helm get values my-release > old_values.yaml
Then change the field image.tag
in old_values.yaml
file with MinIO image tag you want to use. Now update the chart using
helm upgrade -f old_values.yaml my-release minio/minio
Default upgrade strategies are specified in the values.yaml
file. Update these fields if you'd like to use a different strategy.
Configuration
Refer the Values file for all the possible config fields.
You can specify each parameter using the --set key=value[,key=value]
argument to helm install
. For example,
helm install --name my-release --set persistence.size=1Ti minio/minio
The above command deploys MinIO server with a 1Ti backing persistent volume.
Alternately, you can provide a YAML file that specifies parameter values while installing the chart. For example,
helm install --name my-release -f values.yaml minio/minio
Persistence
This chart provisions a PersistentVolumeClaim and mounts corresponding persistent volume to default location /export
. You'll need physical storage available in the Kubernetes cluster for this to work. If you'd rather use emptyDir
, disable PersistentVolumeClaim by:
helm install --set persistence.enabled=false minio/minio
"An emptyDir volume is first created when a Pod is assigned to a Node, and exists as long as that Pod is running on that node. When a Pod is removed from a node for any reason, the data in the emptyDir is deleted forever."
Existing PersistentVolumeClaim
If a Persistent Volume Claim already exists, specify it during installation.
- Create the PersistentVolume
- Create the PersistentVolumeClaim
- Install the chart
helm install --set persistence.existingClaim=PVC_NAME minio/minio
NetworkPolicy
To enable network policy for MinIO,
install a networking plugin that implements the Kubernetes
NetworkPolicy spec,
and set networkPolicy.enabled
to true
.
For Kubernetes v1.5 & v1.6, you must also turn on NetworkPolicy by setting the DefaultDeny namespace annotation. Note: this will enforce policy for all pods in the namespace:
kubectl annotate namespace default "net.beta.kubernetes.io/network-policy={\"ingress\":{\"isolation\":\"DefaultDeny\"}}"
With NetworkPolicy enabled, traffic will be limited to just port 9000.
For more precise policy, set networkPolicy.allowExternal=true
. This will
only allow pods with the generated client label to connect to MinIO.
This label will be displayed in the output of a successful install.
Existing secret
Instead of having this chart create the secret for you, you can supply a preexisting secret, much like an existing PersistentVolumeClaim.
First, create the secret:
kubectl create secret generic my-minio-secret --from-literal=rootUser=foobarbaz --from-literal=rootPassword=foobarbazqux
Then install the chart, specifying that you want to use an existing secret:
helm install --set existingSecret=my-minio-secret minio/minio
The following fields are expected in the secret:
.data.<key> in Secret | Corresponding variable | Description | Required |
---|---|---|---|
rootUser |
rootUser |
Root user. | yes |
rootPassword |
rootPassword |
Root password. | yes |
All corresponding variables will be ignored in values file.
Configure TLS
To enable TLS for MinIO containers, acquire TLS certificates from a CA or create self-signed certificates. While creating / acquiring certificates ensure the corresponding domain names are set as per the standard DNS naming conventions in a Kubernetes StatefulSet (for a distributed MinIO setup). Then create a secret using
kubectl create secret generic tls-ssl-minio --from-file=path/to/private.key --from-file=path/to/public.crt
Then install the chart, specifying that you want to use the TLS secret:
helm install --set tls.enabled=true,tls.certSecret=tls-ssl-minio minio/minio
Installing certificates from third party CAs
MinIO can connect to other servers, including MinIO nodes or other server types such as NATs and Redis. If these servers use certificates that were not registered with a known CA, add trust for these certificates to MinIO Server by bundling these certificates into a Kubernetes secret and providing it to Helm via the trustedCertsSecret
value. If .Values.tls.enabled
is true
and you're installing certificates for third party CAs, remember to include MinIO's own certificate with key public.crt
, if it also needs to be trusted.
For instance, given that TLS is enabled and you need to add trust for MinIO's own CA and for the CA of a Keycloak server, a Kubernetes secret can be created from the certificate files using kubectl
:
kubectl -n minio create secret generic minio-trusted-certs --from-file=public.crt --from-file=keycloak.crt
If TLS is not enabled, you would need only the third party CA:
kubectl -n minio create secret generic minio-trusted-certs --from-file=keycloak.crt
The name of the generated secret can then be passed to Helm using a values file or the --set
parameter:
trustedCertsSecret: "minio-trusted-certs"
or
--set trustedCertsSecret=minio-trusted-certs
Create buckets after install
Install the chart, specifying the buckets you want to create after install:
helm install --set buckets[0].name=bucket1,buckets[0].policy=none,buckets[0].purge=false minio/minio
Description of the configuration parameters used above -
buckets[].name
- name of the bucket to create, must be a string with length > 0buckets[].policy
- can be one of none|download|upload|publicbuckets[].purge
- purge if bucket exists already
Create policies after install
Install the chart, specifying the policies you want to create after install:
helm install --set policies[0].name=mypolicy,policies[0].statements[0].resources[0]='arn:aws:s3:::bucket1',policies[0].statements[0].actions[0]='s3:ListBucket',policies[0].statements[0].actions[1]='s3:GetObject' minio/minio
Description of the configuration parameters used above -
policies[].name
- name of the policy to create, must be a string with length > 0policies[].statements[]
- list of statements, includes actions and resourcespolicies[].statements[].resources[]
- list of resources that applies the statementpolicies[].statements[].actions[]
- list of actions granted
Create user after install
Install the chart, specifying the users you want to create after install:
helm install --set users[0].accessKey=accessKey,users[0].secretKey=secretKey,users[0].policy=none,users[1].accessKey=accessKey2,users[1].secretRef=existingSecret,users[1].secretKey=password,users[1].policy=none minio/minio
Description of the configuration parameters used above -
users[].accessKey
- accessKey of userusers[].secretKey
- secretKey of usersecretRefusers[].existingSecret
- secret name that contains the secretKey of userusers[].existingSecretKey
- data key in existingSecret secret containing the secretKeyusers[].policy
- name of the policy to assign to user
Create service account after install
Install the chart, specifying the service accounts you want to create after install:
helm install --set svcaccts[0].accessKey=accessKey,svcaccts[0].secretKey=secretKey,svcaccts[0].user=parentUser,svcaccts[1].accessKey=accessKey2,svcaccts[1].secretRef=existingSecret,svcaccts[1].secretKey=password,svcaccts[1].user=parentUser2 minio/minio
Description of the configuration parameters used above -
svcaccts[].accessKey
- accessKey of service accountsvcaccts[].secretKey
- secretKey of svcacctsecretRefsvcaccts[].existingSecret
- secret name that contains the secretKey of service accountsvcaccts[].existingSecretKey
- data key in existingSecret secret containing the secretKeysvcaccts[].user
- name of the parent user to assign to service account
Uninstalling the Chart
Assuming your release is named as my-release
, delete it using the command:
helm delete my-release
or
helm uninstall my-release
The command removes all the Kubernetes components associated with the chart and deletes the release.