Ceph
PLEASE NOTE: This document applies to v1.5 version and not to the latest stable release v1.9
Ceph Storage Quickstart
This guide will walk you through the basic setup of a Ceph cluster and enable you to consume block, object, and file storage from other pods running in your cluster.
Minimum Version
Kubernetes v1.11 or higher is supported by Rook.
Important If you are using K8s 1.15 or older, you will need to create a different version of the Rook CRDs. Create the crds.yaml
found in the pre-k8s-1.16 subfolder of the example manifests.
Prerequisites
To make sure you have a Kubernetes cluster that is ready for Rook
, you can follow these instructions.
In order to configure the Ceph storage cluster, at least one of these local storage options are required:
- Raw devices (no partitions or formatted filesystems)
- Raw partitions (no formatted filesystem)
- PVs available from a storage class in
block
mode
You can confirm whether your partitions or devices are formatted filesystems with the following command.
lsblk -f
NAME FSTYPE LABEL UUID MOUNTPOINT
vda
└─vda1 LVM2_member eSO50t-GkUV-YKTH-WsGq-hNJY-eKNf-3i07IB
├─ubuntu--vg-root ext4 c2366f76-6e21-4f10-a8f3-6776212e2fe4 /
└─ubuntu--vg-swap_1 swap 9492a3dc-ad75-47cd-9596-678e8cf17ff9 [SWAP]
vdb
If the FSTYPE
field is not empty, there is a filesystem on top of the corresponding device. In this case, you can use vdb for Ceph and can’t use vda and its partitions.
TL;DR
If you’re feeling lucky, a simple Rook cluster can be created with the following kubectl commands and example yaml files. For the more detailed install, skip to the next section to deploy the Rook operator.
git clone --single-branch --branch v1.5.12 https://github.com/rook/rook.git
cd rook/cluster/examples/kubernetes/ceph
kubectl create -f crds.yaml -f common.yaml -f operator.yaml
kubectl create -f cluster.yaml
After the cluster is running, you can create block, object, or file storage to be consumed by other applications in your cluster.
Cluster Environments
The Rook documentation is focused around starting Rook in a production environment. Examples are also provided to relax some settings for test environments. When creating the cluster later in this guide, consider these example cluster manifests:
- cluster.yaml: Cluster settings for a production cluster running on bare metal. Requires at least three worker nodes.
- cluster-on-pvc.yaml: Cluster settings for a production cluster running in a dynamic cloud environment.
- cluster-test.yaml: Cluster settings for a test environment such as minikube.
See the Ceph examples for more details.
Deploy the Rook Operator
The first step is to deploy the Rook operator. Check that you are using the example yaml files that correspond to your release of Rook. For more options, see the examples documentation.
cd cluster/examples/kubernetes/ceph
kubectl create -f crds.yaml -f common.yaml -f operator.yaml
## verify the rook-ceph-operator is in the `Running` state before proceeding
kubectl -n rook-ceph get pod
You can also deploy the operator with the Rook Helm Chart.
Before you start the operator in production, there are some settings that you may want to consider:
- If you are using kubernetes v1.15 or older you need to create CRDs found here
/cluster/examples/kubernetes/ceph/pre-k8s-1.16/crd.yaml
. The apiextension v1beta1 version of CustomResourceDefinition was deprecated in Kubernetes v1.16. - Consider if you want to enable certain Rook features that are disabled by default. See the operator.yaml for these and other advanced settings.
- Device discovery: Rook will watch for new devices to configure if the
ROOK_ENABLE_DISCOVERY_DAEMON
setting is enabled, commonly used in bare metal clusters. - Flex driver: The flex driver is deprecated in favor of the CSI driver, but can still be enabled with the
ROOK_ENABLE_FLEX_DRIVER
setting. - Node affinity and tolerations: The CSI driver by default will run on any node in the cluster. To configure the CSI driver affinity, several settings are available.
- Device discovery: Rook will watch for new devices to configure if the
If you wish to deploy into a namespace other than the default rook-ceph
, see the
Ceph advanced configuration section on the topic.
Create a Rook Ceph Cluster
Now that the Rook operator is running we can create the Ceph cluster. For the cluster to survive reboots,
make sure you set the dataDirHostPath
property that is valid for your hosts. For more settings, see the documentation on configuring the cluster.
Create the cluster:
kubectl create -f cluster.yaml
Use kubectl
to list pods in the rook-ceph
namespace. You should be able to see the following pods once they are all running.
The number of osd pods will depend on the number of nodes in the cluster and the number of devices configured.
If you did not modify the cluster.yaml
above, it is expected that one OSD will be created per node.
The CSI, rook-ceph-agent
(flex driver), and rook-discover
pods are also optional depending on your settings.
If the
rook-ceph-mon
,rook-ceph-mgr
, orrook-ceph-osd
pods are not created, please refer to the Ceph common issues for more details and potential solutions.
$ kubectl -n rook-ceph get pod
NAME READY STATUS RESTARTS AGE
csi-cephfsplugin-provisioner-d77bb49c6-n5tgs 5/5 Running 0 140s
csi-cephfsplugin-provisioner-d77bb49c6-v9rvn 5/5 Running 0 140s
csi-cephfsplugin-rthrp 3/3 Running 0 140s
csi-rbdplugin-hbsm7 3/3 Running 0 140s
csi-rbdplugin-provisioner-5b5cd64fd-nvk6c 6/6 Running 0 140s
csi-rbdplugin-provisioner-5b5cd64fd-q7bxl 6/6 Running 0 140s
rook-ceph-crashcollector-minikube-5b57b7c5d4-hfldl 1/1 Running 0 105s
rook-ceph-mgr-a-64cd7cdf54-j8b5p 1/1 Running 0 77s
rook-ceph-mon-a-694bb7987d-fp9w7 1/1 Running 0 105s
rook-ceph-mon-b-856fdd5cb9-5h2qk 1/1 Running 0 94s
rook-ceph-mon-c-57545897fc-j576h 1/1 Running 0 85s
rook-ceph-operator-85f5b946bd-s8grz 1/1 Running 0 92m
rook-ceph-osd-0-6bb747b6c5-lnvb6 1/1 Running 0 23s
rook-ceph-osd-1-7f67f9646d-44p7v 1/1 Running 0 24s
rook-ceph-osd-2-6cd4b776ff-v4d68 1/1 Running 0 25s
rook-ceph-osd-prepare-node1-vx2rz 0/2 Completed 0 60s
rook-ceph-osd-prepare-node2-ab3fd 0/2 Completed 0 60s
rook-ceph-osd-prepare-node3-w4xyz 0/2 Completed 0 60s
To verify that the cluster is in a healthy state, connect to the Rook toolbox and run the
ceph status
command.
- All mons should be in quorum
- A mgr should be active
- At least one OSD should be active
- If the health is not
HEALTH_OK
, the warnings or errors should be investigated
$ ceph status
cluster:
id: a0452c76-30d9-4c1a-a948-5d8405f19a7c
health: HEALTH_OK
services:
mon: 3 daemons, quorum a,b,c (age 3m)
mgr: a(active, since 2m)
osd: 3 osds: 3 up (since 1m), 3 in (since 1m)
...
If the cluster is not healthy, please refer to the Ceph common issues for more details and potential solutions.
Storage
For a walkthrough of the three types of storage exposed by Rook, see the guides for:
- Block: Create block storage to be consumed by a pod
- Object: Create an object store that is accessible inside or outside the Kubernetes cluster
- Shared Filesystem: Create a filesystem to be shared across multiple pods
Ceph Dashboard
Ceph has a dashboard in which you can view the status of your cluster. Please see the dashboard guide for more details.
Tools
We have created a toolbox container that contains the full suite of Ceph clients for debugging and troubleshooting your Rook cluster. Please see the toolbox readme for setup and usage information. Also see our advanced configuration document for helpful maintenance and tuning examples.
Monitoring
Each Rook cluster has some built in metrics collectors/exporters for monitoring with Prometheus. To learn how to set up monitoring for your Rook cluster, you can follow the steps in the monitoring guide.
Teardown
When you are done with the test cluster, see these instructions to clean up the cluster.