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Deploying NFS in Constellation using Rook
This document describes how to deploy NFS in Constellation using Rook.
Create a Cluster
The cluster needs at least 3 worker nodes, default machines are powerful enough.
constellation create --name nfs -c 1 -w 3
Deploy CSI Driver
We need block storage form somewhere. We will use the official Azure CSI for that. We need to create the azure config secret again with the expected fields. Replace "XXX" with the corresponding value from the secret azureconfig
.
kubectl create secret generic -n kube-system --from-literal=cloud-config='{"cloud":"AzurePublicCloud","useInstanceMetadata":true,"vmType":"vmss","tenantId":"XXX","subscriptionId":"XXX","resourceGroup":"XXX","location":"XXX", "aadClientId":"XXX","aadClientSecret":"XXX"}' azure-config
helm repo add azuredisk-csi-driver https://raw.githubusercontent.com/kubernetes-sigs/azuredisk-csi-driver/master/charts
helm repo update azuredisk-csi-driver
helm install azuredisk-csi-driver azuredisk-csi-driver/azuredisk-csi-driver --namespace kube-system --set linux.distro=fedora --set controller.cloudConfigSecretName=azure-config --set node.cloudConfigSecretName=azure-config
Deploy the StorageClass
apiVersion: storage.k8s.io/v1
kind: StorageClass
metadata:
name: managed-premium
provisioner: disk.csi.azure.com
parameters:
skuName: Premium_LRS
cachingmode: ReadOnly
kind: Managed
volumeBindingMode: WaitForFirstConsumer
Deploy Rook
git clone https://github.com/rook/rook.git
cd rook/deploy/examples
kubectl apply -f common.yaml -f crds.yaml -f operator.yaml
kubectl rollout status -n rook-ceph deployment/rook-ceph-operator
Apply the following changes to cluster-on-pvc.yaml
:
euler@work:~/projects/rook/deploy/examples$ git diff cluster-on-pvc.yaml
diff --git a/deploy/examples/cluster-on-pvc.yaml b/deploy/examples/cluster-on-pvc.yaml
index ee4976be2..b5cf294cb 100644
--- a/deploy/examples/cluster-on-pvc.yaml
+++ b/deploy/examples/cluster-on-pvc.yaml
@@ -16,7 +16,7 @@ spec:
mon:
# Set the number of mons to be started. Generally recommended to be 3.
# For highest availability, an odd number of mons should be specified.
- count: 3
+ count: 1
# The mons should be on unique nodes. For production, at least 3 nodes are recommended for this reason.
# Mons should only be allowed on the same node for test environments where data loss is acceptable.
allowMultiplePerNode: false
@@ -28,7 +28,7 @@ spec:
# size appropriate for monitor data will be used.
volumeClaimTemplate:
spec:
- storageClassName: gp2
+ storageClassName: managed-premium
resources:
requests:
storage: 10Gi
@@ -59,13 +59,13 @@ spec:
# Certain storage class in the Cloud are slow
# Rook can configure the OSD running on PVC to accommodate that by tuning some of the Ceph internal
# Currently, "gp2" has been identified as such
- tuneDeviceClass: true
+ tuneDeviceClass: false
# Certain storage class in the Cloud are fast
# Rook can configure the OSD running on PVC to accommodate that by tuning some of the Ceph internal
# Currently, "managed-premium" has been identified as such
- tuneFastDeviceClass: false
+ tuneFastDeviceClass: true
# whether to encrypt the deviceSet or not
- encrypted: false
+ encrypted: true
# Since the OSDs could end up on any node, an effort needs to be made to spread the OSDs
# across nodes as much as possible. Unfortunately the pod anti-affinity breaks down
# as soon as you have more than one OSD per node. The topology spread constraints will
@@ -100,7 +100,7 @@ spec:
topologySpreadConstraints:
- maxSkew: 1
# IMPORTANT: If you don't have zone labels, change this to another key such as kubernetes.io/hostname
- topologyKey: topology.kubernetes.io/zone
+ topologyKey: kubernetes.io/hostname
whenUnsatisfiable: DoNotSchedule
labelSelector:
matchExpressions:
@@ -127,7 +127,7 @@ spec:
requests:
storage: 10Gi
# IMPORTANT: Change the storage class depending on your environment
- storageClassName: gp2
+ storageClassName: managed-premium
volumeMode: Block
accessModes:
- ReadWriteOnce
Now apply the yaml:
kubectl apply -f cluster-on-pvc.yaml
Verify the health of the ceph cluster:
$ kubectl apply -f toolbox.yaml
$ kubectl -n rook-ceph exec -it deploy/rook-ceph-tools -- ceph status
cluster:
id: 7c220b31-29f7-4f17-a291-3ef39a9553b3
health: HEALTH_OK
services:
mon: 3 daemons, quorum a,b,c (age 2m)
mgr: a(active, since 72s)
osd: 3 osds: 3 up (since 61s), 3 in (since 81s)
data:
pools: 1 pools, 1 pgs
objects: 2 objects, 449 KiB
usage: 62 MiB used, 30 GiB / 30 GiB avail
pgs: 1 active+clean
Deploy the filesystem:
$ kubectl apply -f filesystem.yaml
$ kubectl -n rook-ceph exec -it deploy/rook-ceph-tools -- ceph status
cluster:
id: 7c220b31-29f7-4f17-a291-3ef39a9553b3
health: HEALTH_OK
services:
mon: 3 daemons, quorum a,b,c (age 3m)
mgr: a(active, since 2m)
mds: 1/1 daemons up, 1 hot standby
osd: 3 osds: 3 up (since 2m), 3 in (since 2m)
data:
volumes: 1/1 healthy
pools: 3 pools, 34 pgs
objects: 24 objects, 451 KiB
usage: 63 MiB used, 30 GiB / 30 GiB avail
pgs: 34 active+clean
io:
client: 853 B/s rd, 1 op/s rd, 0 op/s wr
progress:
Deploy the StorageClass:
kubectl apply -f csi/cephfs/storageclass.yaml
Rescale the monitor count to 3:
kubectl -n rook-ceph patch cephcluster rook-ceph --type merge -p '{"spec":{"mon":{"count":3}}}'
Use the NFS
The following deployment will create a PVC based on NFS and mount it into 3 pods.
apiVersion: v1
kind: PersistentVolumeClaim
metadata:
name: nfs
spec:
accessModes:
- ReadWriteMany
resources:
requests:
storage: 5Gi
storageClassName: rook-cephfs
---
# from https://github.com/Azure/kubernetes-volume-drivers/tree/master/nfs
apiVersion: apps/v1
kind: StatefulSet
metadata:
name: statefulset-nfs
labels:
app: nginx
spec:
serviceName: statefulset-nfs
replicas: 3
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: statefulset-nfs
image: nginx
command:
- "/bin/sh"
- "-c"
- "sleep 9999999"
volumeMounts:
- name: persistent-storage
mountPath: /mnt/nfs
volumes:
- name: persistent-storage
persistentVolumeClaim:
claimName: nfs
readOnly: false
updateStrategy:
type: RollingUpdate
selector:
matchLabels:
app: nginx