The kops InstanceGroup is a declarative model of a group of nodes. By modifying the object, you can change the instance type you're using, the number of nodes you have, the OS image you're running - essentially all the per-node configuration is in the InstanceGroup.
We'll assume you have a working cluster - if not, you probably want to read how to get started on GCE.
If you kops get ig
you should see that you have InstanceGroups for your nodes and for your master:
> kops get ig
NAME ROLE MACHINETYPE MIN MAX SUBNETS
master-us-central1-a Master n1-standard-1 1 1 us-central1
nodes Node n1-standard-2 2 2 us-central1
Let's change the number of nodes to 3. We'll edit the InstanceGroup configuration using kops edit
(which
should be very familiar to you if you've used kubectl edit
). kops edit ig nodes
will open
the InstanceGroup in your editor, looking a bit like this:
apiVersion: kops.k8s.io/v1alpha2
kind: InstanceGroup
metadata:
creationTimestamp: 2017-10-03T15:17:31Z
labels:
kops.k8s.io/cluster: simple.k8s.local
name: nodes
spec:
image: cos-cloud/cos-stable-57-9202-64-0
machineType: n1-standard-2
maxSize: 2
minSize: 2
role: Node
subnets:
- us-central1
zones:
- us-central1-a
Edit minSize
and maxSize
, changing both from 2 to 3, save and exit your editor. If you wanted to change
the image or the machineType, you could do that here as well. There are actually a lot more fields,
but most of them have their default values, so won't show up unless they are set. The general approach is the same though.
On saving you'll note that nothing happens. Although you've changed the model, you need to tell kops to apply your changes to the cloud.
We use the same kops update cluster
command that we used when initially creating the cluster; when
run without --yes
it should show you a preview of the changes, and now there should be only one change:
> kops update cluster
Will modify resources:
InstanceGroupManager/us-central1-a-nodes-simple-k8s-local
TargetSize 2 -> 3
This is saying that we will alter the TargetSize
property of the InstanceGroupManager
object named
us-central1-a-nodes-simple-k8s-local
, changing it from 2 to 3.
That's what we want, so we kops update cluster --yes
.
kops will resize the GCE managed instance group from 2 to 3, which will create a new GCE instance, which will then boot and join the cluster. Within a minute or so you should see the new node join:
> kubectl get nodes
NAME STATUS AGE VERSION
master-us-central1-a-thjq Ready 10h v1.7.2
nodes-g2v2 Ready 10h v1.7.2
nodes-tmk8 Ready 10h v1.7.2
nodes-z2cz Ready 1s v1.7.2
nodes-z2cz
just joined our cluster!
That was a fairly simple change, because we didn't have to reboot the nodes. Most changes though do
require rolling your instances - this is actually a deliberate design decision, in that we are aiming
for immutable nodes. An example is changing your image. We're using cos-stable
, which is Google's
Container OS. Let's try Debian Stretch instead.
If you run gcloud compute images list
to list the images available to you in GCE, you should see
a debian-9 image:
> gcloud compute images list
...
debian-9-stretch-v20170918 debian-cloud debian-9 READY
...
So now we'll do the same kops edit ig nodes
, except this time change the image to debian-cloud/debian-9-stretch-v20170918
:
Now kops update cluster
will show that you're going to create a new GCE Instance Template,
and that the Managed Instance Group is going to use it:
Will create resources:
InstanceTemplate/nodes-simple-k8s-local
Network name:default id:default
Tags [simple-k8s-local-k8s-io-role-node]
Preemptible false
BootDiskImage debian-cloud/debian-9-stretch-v20170918
BootDiskSizeGB 128
BootDiskType pd-standard
CanIPForward true
Scopes [compute-rw, monitoring, logging-write, storage-ro]
Metadata {cluster-name: <resource>, startup-script: <resource>}
MachineType n1-standard-2
Will modify resources:
InstanceGroupManager/us-central1-a-nodes-simple-k8s-local
InstanceTemplate id:nodes-simple-k8s-local-1507043948 -> name:nodes-simple-k8s-local
Note that the BootDiskImage
is indeed set to the debian 9 image you requested.
kops update cluster --yes
will now apply the change, but if you were to run kubectl get nodes
you would see
that the instances had not yet been reconfigured. There's a hint at the bottom:
Changes may require instances to restart: kops rolling-update cluster`
These changes require your instances to restart (we'll remove the COS images and replace them with Debian images). kops can perform a rolling update to minimize disruption, but even so you might not want to perform the update right away; you might want to make more changes or you might want to wait for off-peak hours. You might just want to wait for the instances to terminate naturally - new instances will come up with the new configuration - though if you're not using preemptible/spot instances you might be waiting for a long time.
When you're ready to force your instances to restart, use kops rollling-update cluster
:
> kops rolling-update cluster
Using cluster from kubectl context: simple.k8s.local
NAME STATUS NEEDUPDATE READY MIN MAX NODES
master-us-central1-a Ready 0 1 1 1 1
nodes NeedsUpdate 3 0 3 3 3
Must specify --yes to rolling-update.
You can see that your nodes need to be restarted, and your masters do not. A kops rolling-update cluster --yes
will perform the update.
It will only restart instances that need restarting (unless you --force
a rolling-update).
When you're ready, do kops rolling-update cluster --yes
. It'll take a few minutes per node, because for each node
we cordon the node, drain the pods, shut it down and wait for the new node to join the cluster and for the cluster
to be healthy again. But this procedure minimizes disruption to your cluster - a rolling-update cluster is never
going to be something you do during your superbowl commercial, but ideally it should be minimally disruptive.
After the rolling-update is complete, you can see that the nodes are now running a new image:
> kubectl get nodes -owide
NAME STATUS AGE VERSION EXTERNAL-IP OS-IMAGE KERNEL-VERSION
master-us-central1-a-8fcc Ready 48m v1.7.2 35.188.177.16 Container-Optimized OS from Google 4.4.35+
nodes-9cml Ready 17m v1.7.2 35.194.25.144 Container-Optimized OS from Google 4.4.35+
nodes-km98 Ready 11m v1.7.2 35.202.95.161 Container-Optimized OS from Google 4.4.35+
nodes-wbb2 Ready 5m v1.7.2 35.194.56.129 Container-Optimized OS from Google 4.4.35+
Next steps: learn how to perform cluster-wide operations, like upgrading kubernetes.