ceph/doc/start/kube-helm.rst

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Installation (Kubernetes + Helm)
================================
The ceph-helm_ project enables you to deploy Ceph in a Kubernetes environement.
This documentation assumes a Kubernetes environement is available.
Current limitations
===================
- The public and cluster networks must be the same
- If the storage class user id is not admin, you will have to manually create the user
in your Ceph cluster and create its secret in Kubernetes
- ceph-mgr can only run with 1 replica
Install and start Helm
======================
Helm can be installed by following these instructions_.
Helm finds the Kubernetes cluster by reading from the local Kubernetes config file; make sure this is downloaded and accessible to the ``helm`` client.
A Tiller server must be configured and running for your Kubernetes cluster, and the local Helm client must be connected to it. It may be helpful to look at the Helm documentation for init_. To run Tiller locally and connect Helm to it, run::
$ helm init
The ceph-helm project uses a local Helm repo by default to store charts. To start a local Helm repo server, run::
$ helm serve &
$ helm repo add local http://localhost:8879/charts
Add ceph-helm to Helm local repos
==================================
::
$ git clone https://github.com/ceph/ceph-helm
$ cd ceph-helm/ceph
$ make
Configure your Ceph cluster
===========================
Create a ``ceph-overrides.yaml`` that will contain your Ceph configuration. This file may exist anywhere, but for this docuiment will be assumed to reside in the user's home directory.::
$ cat ~/ceph-overrides.yaml
network:
public: 172.21.0.0/20
cluster: 172.21.0.0/20
osd_devices:
- name: dev-sdd
device: /dev/sdd
zap: "1"
- name: dev-sde
device: /dev/sde
zap: "1"
storageclass:
name: ceph-rbd
pool: rbd
user_id: k8s
.. note:: If journal is not set it will be colocated with device
.. note:: The ``ceph-helm/ceph/ceph/values.yaml`` file contains the full
list of option that can be set
Create the Ceph cluster namespace
==================================
By default, ceph-helm components assume they are to be run in the ``ceph`` Kubernetes namespace. To create the namespace, run::
$ kubectl create namespace ceph
Configure RBAC permissions
==========================
Kubernetes >=v1.6 makes RBAC the default admission controller. ceph-helm provides RBAC roles and permissions for each component::
$ kubectl create -f ~/ceph-helm/ceph/rbac.yaml
The ``rbac.yaml`` file assumes that the Ceph cluster will be deployed in the ``ceph`` namespace.
Label kubelets
==============
The following labels need to be set to deploy a Ceph cluster:
- ceph-mon=enabled
- ceph-mgr=enabled
- ceph-osd=enabled
- ceph-osd-device-<name>=enabled
The ``ceph-osd-device-<name>`` label is created based on the osd_devices name value defined in our ``ceph-overrides.yaml``.
From our example above we will have the two following label: ``ceph-osd-device-dev-sdb`` and ``ceph-osd-device-dev-sdc``.
For each Ceph Monitor::
$ kubectl label node <nodename> ceph-mon=enabled ceph-mgr=enabled
For each OSD node::
$ kubectl label node <nodename> ceph-osd=enabled ceph-osd-device-dev-sdb=enabled ceph-osd-device-dev-sdc=enabled
Ceph Deployment
===============
Run the helm install command to deploy Ceph::
$ helm install --name=ceph local/ceph --namespace=ceph -f ~/ceph-overrides.yaml
NAME: ceph
LAST DEPLOYED: Wed Oct 18 22:25:06 2017
NAMESPACE: ceph
STATUS: DEPLOYED
RESOURCES:
==> v1/Secret
NAME TYPE DATA AGE
ceph-keystone-user-rgw Opaque 7 1s
==> v1/ConfigMap
NAME DATA AGE
ceph-bin-clients 2 1s
ceph-bin 24 1s
ceph-etc 1 1s
ceph-templates 5 1s
==> v1/Service
NAME CLUSTER-IP EXTERNAL-IP PORT(S) AGE
ceph-mon None <none> 6789/TCP 1s
ceph-rgw 10.101.219.239 <none> 8088/TCP 1s
==> v1beta1/DaemonSet
NAME DESIRED CURRENT READY UP-TO-DATE AVAILABLE NODE-SELECTOR AGE
ceph-mon 3 3 0 3 0 ceph-mon=enabled 1s
ceph-osd-dev-sde 3 3 0 3 0 ceph-osd-device-dev-sde=enabled,ceph-osd=enabled 1s
ceph-osd-dev-sdd 3 3 0 3 0 ceph-osd-device-dev-sdd=enabled,ceph-osd=enabled 1s
==> v1beta1/Deployment
NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE
ceph-mds 1 1 1 0 1s
ceph-mgr 1 1 1 0 1s
ceph-mon-check 1 1 1 0 1s
ceph-rbd-provisioner 2 2 2 0 1s
ceph-rgw 1 1 1 0 1s
==> v1/Job
NAME DESIRED SUCCESSFUL AGE
ceph-mgr-keyring-generator 1 0 1s
ceph-mds-keyring-generator 1 0 1s
ceph-osd-keyring-generator 1 0 1s
ceph-rgw-keyring-generator 1 0 1s
ceph-mon-keyring-generator 1 0 1s
ceph-namespace-client-key-generator 1 0 1s
ceph-storage-keys-generator 1 0 1s
==> v1/StorageClass
NAME TYPE
ceph-rbd ceph.com/rbd
The output from helm install shows us the different types of ressources that will be deployed.
A StorageClass named ``ceph-rbd`` of type ``ceph.com/rbd`` will be created with ``ceph-rbd-provisioner`` Pods. These
will allow a RBD to be automatically provisioned upon creation of a PVC. RBDs will also be formatted when mapped for the first
time. All RBDs will use the ext4 filesystem. ``ceph.com/rbd`` does not support the ``fsType`` option.
By default, RBDs will use image format 2 and layering. You can overwrite the following storageclass' defaults in your values file::
storageclass:
name: ceph-rbd
pool: rbd
user_id: k8s
user_secret_name: pvc-ceph-client-key
image_format: "2"
image_features: layering
Check that all Pods are running with the command below. This might take a few minutes::
$ kubectl -n ceph get pods
NAME READY STATUS RESTARTS AGE
ceph-mds-3804776627-976z9 0/1 Pending 0 1m
ceph-mgr-3367933990-b368c 1/1 Running 0 1m
ceph-mon-check-1818208419-0vkb7 1/1 Running 0 1m
ceph-mon-cppdk 3/3 Running 0 1m
ceph-mon-t4stn 3/3 Running 0 1m
ceph-mon-vqzl0 3/3 Running 0 1m
ceph-osd-dev-sdd-6dphp 1/1 Running 0 1m
ceph-osd-dev-sdd-6w7ng 1/1 Running 0 1m
ceph-osd-dev-sdd-l80vv 1/1 Running 0 1m
ceph-osd-dev-sde-6dq6w 1/1 Running 0 1m
ceph-osd-dev-sde-kqt0r 1/1 Running 0 1m
ceph-osd-dev-sde-lp2pf 1/1 Running 0 1m
ceph-rbd-provisioner-2099367036-4prvt 1/1 Running 0 1m
ceph-rbd-provisioner-2099367036-h9kw7 1/1 Running 0 1m
ceph-rgw-3375847861-4wr74 0/1 Pending 0 1m
.. note:: The MDS and RGW Pods are pending since we did not label any nodes with
``ceph-rgw=enabled`` or ``ceph-mds=enabled``
Once all Pods are running, check the status of the Ceph cluster from one Mon::
$ kubectl -n ceph exec -ti ceph-mon-cppdk -c ceph-mon -- ceph -s
cluster:
id: e8f9da03-c2d2-4ad3-b807-2a13d0775504
health: HEALTH_OK
services:
mon: 3 daemons, quorum mira115,mira110,mira109
mgr: mira109(active)
osd: 6 osds: 6 up, 6 in
data:
pools: 0 pools, 0 pgs
objects: 0 objects, 0 bytes
usage: 644 MB used, 5555 GB / 5556 GB avail
pgs:
Configure a Pod to use a PersistentVolume from Ceph
===================================================
Create a keyring for the k8s user defined in the ``~/ceph-overwrite.yaml`` and convert
it to base64::
$ kubectl -n ceph exec -ti ceph-mon-cppdk -c ceph-mon -- bash
# ceph auth get-or-create-key client.k8s mon 'allow r' osd 'allow rwx pool=rbd' | base64
QVFCLzdPaFoxeUxCRVJBQUVEVGdHcE9YU3BYMVBSdURHUEU0T0E9PQo=
# exit
Edit the user secret present in the ``ceph`` namespace::
$ kubectl -n ceph edit secrets/pvc-ceph-client-key
Add the base64 value to the key value with your own and save::
apiVersion: v1
data:
key: QVFCLzdPaFoxeUxCRVJBQUVEVGdHcE9YU3BYMVBSdURHUEU0T0E9PQo=
kind: Secret
metadata:
creationTimestamp: 2017-10-19T17:34:04Z
name: pvc-ceph-client-key
namespace: ceph
resourceVersion: "8665522"
selfLink: /api/v1/namespaces/ceph/secrets/pvc-ceph-client-key
uid: b4085944-b4f3-11e7-add7-002590347682
type: kubernetes.io/rbd
We are going to create a Pod that consumes a RBD in the default namespace.
Copy the user secret from the ``ceph`` namespace to ``default``::
$ kubectl -n ceph get secrets/pvc-ceph-client-key -o json | jq '.metadata.namespace = "default"' | kubectl create -f -
secret "pvc-ceph-client-key" created
$ kubectl get secrets
NAME TYPE DATA AGE
default-token-r43wl kubernetes.io/service-account-token 3 61d
pvc-ceph-client-key kubernetes.io/rbd 1 20s
Create and initialize the RBD pool::
$ kubectl -n ceph exec -ti ceph-mon-cppdk -c ceph-mon -- ceph osd pool create rbd 256
pool 'rbd' created
$ kubectl -n ceph exec -ti ceph-mon-cppdk -c ceph-mon -- rbd pool init rbd
.. important:: Kubernetes uses the RBD kernel module to map RBDs to hosts. Luminous requires
CRUSH_TUNABLES 5 (Jewel). The minimal kernel version for these tunables is 4.5.
If your kernel does not support these tunables, run ``ceph osd crush tunables hammer``
.. important:: Since RBDs are mapped on the host system. Hosts need to be able to resolve
the ceph-mon.ceph.svc.cluster.local name managed by the kube-dns service. To get the
IP address of the kube-dns service, run ``kubectl -n kube-system get svc/kube-dns``
Create a PVC::
$ cat pvc-rbd.yaml
kind: PersistentVolumeClaim
apiVersion: v1
metadata:
name: ceph-pvc
spec:
accessModes:
- ReadWriteOnce
resources:
requests:
storage: 20Gi
storageClassName: ceph-rbd
$ kubectl create -f pvc-rbd.yaml
persistentvolumeclaim "ceph-pvc" created
$ kubectl get pvc
NAME STATUS VOLUME CAPACITY ACCESSMODES STORAGECLASS AGE
ceph-pvc Bound pvc-1c2ada50-b456-11e7-add7-002590347682 20Gi RWO ceph-rbd 3s
You can check that the RBD has been created on your cluster::
$ kubectl -n ceph exec -ti ceph-mon-cppdk -c ceph-mon -- rbd ls
kubernetes-dynamic-pvc-1c2e9442-b456-11e7-9bd2-2a4159ce3915
$ kubectl -n ceph exec -ti ceph-mon-cppdk -c ceph-mon -- rbd info kubernetes-dynamic-pvc-1c2e9442-b456-11e7-9bd2-2a4159ce3915
rbd image 'kubernetes-dynamic-pvc-1c2e9442-b456-11e7-9bd2-2a4159ce3915':
size 20480 MB in 5120 objects
order 22 (4096 kB objects)
block_name_prefix: rbd_data.10762ae8944a
format: 2
features: layering
flags:
create_timestamp: Wed Oct 18 22:45:59 2017
Create a Pod that will use the PVC::
$ cat pod-with-rbd.yaml
kind: Pod
apiVersion: v1
metadata:
name: mypod
spec:
containers:
- name: busybox
image: busybox
command:
- sleep
- "3600"
volumeMounts:
- mountPath: "/mnt/rbd"
name: vol1
volumes:
- name: vol1
persistentVolumeClaim:
claimName: ceph-pvc
$ kubectl create -f pod-with-rbd.yaml
pod "mypod" created
Check the Pod::
$ kubectl get pods
NAME READY STATUS RESTARTS AGE
mypod 1/1 Running 0 17s
$ kubectl exec mypod -- mount | grep rbd
/dev/rbd0 on /mnt/rbd type ext4 (rw,relatime,stripe=1024,data=ordered)
Logging
=======
OSDs and Monitor logs can be accessed via the ``kubectl logs [-f]`` command. Monitors have multiple stream of logging,
each stream is accessible from a container running in the ceph-mon Pod.
There are 3 containers running in the ceph-mon Pod:
- ceph-mon, equivalent of ceph-mon.hostname.log on baremetal
- cluster-audit-log-tailer, equivalent of ceph.audit.log on baremetal
- cluster-log-tailer, equivalent of ceph.log on baremetal or ``ceph -w``
Each container is accessible via the ``--container`` or ``-c`` option.
For instance, to access the cluster-tail-log, one can run::
$ kubectl -n ceph logs ceph-mon-cppdk -c cluster-log-tailer
.. _ceph-helm: https://github.com/ceph/ceph-helm/
.. _instructions: https://github.com/kubernetes/helm/blob/master/docs/install.md
.. _init: https://github.com/kubernetes/helm/blob/master/docs/helm/helm_init.md