kops has the concept of "instance groups", which are a group of similar machines. On AWS, they map to an AutoScalingGroup.
By default, a cluster has:
- An instance group called
nodes
spanning all the zones; these instances are your workers. - One instance group for each master zone, called
master-<zone>
(e.g.master-us-east-1c
). These normally have minimum size and maximum size = 1, so they will run a single instance. We do this so that the cloud will always relaunch masters, even if everything is terminated at once. We have an instance group per zone because we need to force the cloud to run an instance in every zone, so we can mount the master volumes - we cannot do that across zones.
- When there is only one availability zone in a region (eu-central-1) and you would like to run multiple masters,
you have to define multiple instance groups for each of those masters. (e.g.
master-eu-central-1-a
andmaster-eu-central-1-b
and so on...) - If instance groups are not defined correctly (particularly when there are an even number of master or multiple groups of masters into one availability zone in a single region), etcd servers will not start and master nodes will not check in. This is because etcd servers are configured per availability zone. DNS and Route53 would be the first places to check when these problems are happening.
kops get instancegroups
NAME ROLE MACHINETYPE MIN MAX ZONES
master-us-east-1c Master 1 1 us-east-1c
nodes Node t2.medium 2 2
You can also use the kops get ig
alias.
First you edit the instance group spec, using kops edit ig nodes
. Change the machine type to t2.large
,
for example. Now if you kops get ig
, you will see the large instance size. Note though that these changes
have not yet been applied (this may change soon though!).
To preview the change:
kops update cluster <clustername>
...
Will modify resources:
*awstasks.LaunchConfiguration launchConfiguration/mycluster.mydomain.com
InstanceType t2.medium -> t2.large
Presuming you're happy with the change, go ahead and apply it: kops update cluster <clustername> --yes
This change will apply to new instances only; if you'd like to roll it out immediately to all the instances you have to perform a rolling update.
See a preview with: kops rolling-update cluster
Then restart the machines with: kops rolling-update cluster --yes
This will drain nodes, restart them with the new instance type, and validate them after startup.
The procedure to resize an instance group works the same way:
- Edit the instance group, set minSize and maxSize to the desired size:
kops edit ig nodes
- Preview changes:
kops update cluster <clustername>
- Apply changes:
kops update cluster <clustername> --yes
- (you do not need a
rolling-update
when changing instancegroup sizes)
The default volume size for Masters is 64 GB, while the default volume size for a node is 128 GB.
The procedure to resize the root volume works the same way:
- Edit the instance group, set
rootVolumeSize
and/orrootVolumeType
to the desired values:kops edit ig nodes
rootVolumeType
must be one of supported volume types, e.g.gp2
(default),io1
(high performance) orstandard
(for testing).- If
rootVolumeType
is set toio1
then you can define the number of Iops by specifyingrootVolumeIops
(defaults to 100 if not defined) - Preview changes:
kops update cluster <clustername>
- Apply changes:
kops update cluster <clustername> --yes
- Rolling update to update existing instances:
kops rolling-update cluster --yes
For example, to set up a 200GB gp2 root volume, your InstanceGroup spec might look like:
metadata:
creationTimestamp: "2016-07-11T04:14:00Z"
name: nodes
spec:
machineType: t2.medium
maxSize: 2
minSize: 2
role: Node
rootVolumeSize: 200
rootVolumeType: gp2
For example, to set up a 200GB io1 root volume with 200 provisioned Iops, your InstanceGroup spec might look like:
metadata:
creationTimestamp: "2016-07-11T04:14:00Z"
name: nodes
spec:
machineType: t2.medium
maxSize: 2
minSize: 2
role: Node
rootVolumeSize: 200
rootVolumeType: io1
rootVolumeIops: 200
Suppose you want to add a new group of nodes, perhaps with a different instance type. You do this using kops create ig <InstanceGroupName> --subnet <zone(s)>
. Currently the
--subnet
flag is required, and it receives the zone(s) of the subnet(s) in which the instance group will be. The command opens an editor with a skeleton configuration, allowing you to edit it before creation.
So the procedure is:
-
kops create ig morenodes --subnet us-east-1a
or, in case you need it to be in more than one subnet, use a comma-separated list:
-
kops create ig morenodes --subnet us-east-1a,us-east-1b,us-east-1c
-
Preview:
kops update cluster <clustername>
-
Apply:
kops update cluster <clustername> --yes
-
(no instances need to be relaunched, so no rolling-update is needed)
It may be beneficial to have one IG per AZ rather than one IG spanning multiple AZs. One common example is, when you have a persistent volume claim bound to an AWS EBS Volume this volume is bound to the AZ it has been created in so any resource (e.g. a StatefulSet) depending on that volume is bound to that same AZ. In this case you have to ensure that there is at least one node running in that same AZ, which is not guaranteed by one IG. This however can be guaranteed by one IG per AZ.
So the procedure is:
kops edit ig nodes
- Remove two of the subnets, e.g.
eu-central-1b
andeu-central-1c
- Alternatively you can also delete the existing IG and create a new one with a more suitable name
kops create ig nodes-eu-central-1b --subnet eu-central-1b
kops create ig nodes-eu-central-1c --subnet eu-central-1c
- Preview:
kops update cluster <clustername>
- Apply:
kops update cluster <clustername> --yes
- Rolling update to update existing instances:
kops rolling-update cluster --yes
Follow the normal procedure for reconfiguring an InstanceGroup, but set the maxPrice property to your bid. For example, "0.10" represents a spot-price bid of $0.10 (10 cents) per hour.
An example spec looks like this:
metadata:
creationTimestamp: "2016-07-10T15:47:14Z"
name: nodes
spec:
machineType: t2.medium
maxPrice: "0.01"
maxSize: 3
minSize: 3
role: Node
So the procedure is:
- Edit:
kops edit ig nodes
- Preview:
kops update cluster <clustername>
- Apply:
kops update cluster <clustername> --yes
- Rolling-update, only if you want to apply changes immediately:
kops rolling-update cluster
If you're running Kubernetes 1.6.0 or later, you can also control taints in the InstanceGroup.
The taints property takes a list of strings. The following example would add two taints to an IG,
using the same edit
-> update
-> rolling-update
process as above.
Additionally, nodeLabels
can be added to an IG in order to take advantage of Pod Affinity. Every node in the IG will be assigned the desired labels. For more information see the labels documentation.
metadata:
creationTimestamp: "2016-07-10T15:47:14Z"
name: nodes
spec:
machineType: m3.medium
maxSize: 3
minSize: 3
role: Node
taints:
- dedicated=gpu:NoSchedule
- team=search:PreferNoSchedule
nodeLabels:
spot: "false"
(This procedure should be pretty familiar by now!)
Your master instance group will probably be called master-us-west-1c
or something similar.
kops edit ig master-us-west-1c
Add or set the machineType:
spec:
machineType: m3.large
-
Preview changes:
kops update cluster <clustername>
-
Apply changes:
kops update cluster <clustername> --yes
-
Rolling-update, only if you want to apply changes immediately:
kops rolling-update cluster
If you want to minimize downtime, scale the master ASG up to size 2, then wait for that new master to
be Ready in kubectl get nodes
, then delete the old master instance, and scale the ASG back down to size 1. (A
future version of rolling-update will probably do this automatically)
If you decide you don't need an InstanceGroup any more, you delete it using: kops delete ig <name>
Example: kops delete ig morenodes
No kops update cluster
nor kops rolling-update
is needed, so be careful when deleting an instance group, your nodes will be deleted automatically (and note this is not currently graceful, so there may be interruptions to workloads where the pods are running on those nodes).
EBS-Optimized instances can be created by setting the following field:
spec:
rootVolumeOptimization: true
Kops utilizes cloud-init to initialize and setup a host at boot time. However in certain cases you may already be leveraging certain features of cloud-init in your infrastructure and would like to continue doing so. More information on cloud-init can be found here
Additional user-data can be passed to the host provisioning by setting the additionalUserData
field. A list of valid user-data content-types can be found here
Example:
spec:
additionalUserData:
- name: myscript.sh
type: text/x-shellscript
content: |
#!/bin/sh
echo "Hello World. The time is now $(date -R)!" | tee /root/output.txt
- name: local_repo.txt
type: text/cloud-config
content: |
#cloud-config
apt:
primary:
- arches: [default]
uri: http://local-mirror.mydomain
search:
- http://local-mirror.mydomain
- http://archive.ubuntu.com
If you need to add tags on auto scaling groups or instances (propagate ASG tags), you can add it in the instance group specs with cloudLabels. Cloud Labels defined at the cluster spec level will also be inherited.
# Example for nodes
apiVersion: kops/v1alpha2
kind: InstanceGroup
metadata:
labels:
kops.k8s.io/cluster: k8s.dev.local
name: nodes
spec:
cloudLabels:
billing: infra
environment: dev
associatePublicIp: false
machineType: m4.xlarge
maxSize: 20
minSize: 2
role: Node
Autoscaling groups automatically include multiple scaling processes that keep our ASGs healthy. In some cases, you may want to disable certain scaling activities.
An example of this is if you are running multiple AZs in an ASG while using a Kubernetes Autoscaler.
The autoscaler will remove specific instances that are not being used. In some cases, the AZRebalance
process
will rescale the ASG without warning.
# Example for nodes
apiVersion: kops/v1alpha2
kind: InstanceGroup
metadata:
labels:
kops.k8s.io/cluster: k8s.dev.local
name: nodes
spec:
machineType: m4.xlarge
maxSize: 20
minSize: 2
role: Node
suspendProcesses:
- AZRebalance
Instance groups can be linked to up to 10 load balancers. When attached, any instance launched will automatically register itself to the load balancer. For example, if you can create an instance group dedicated to running an ingress controller exposed on a NodePort, you can manually create a load balancer and link it to the instance group. Traffic to the load balancer will now automatically go to one of the nodes.
You can specify either loadBalancerName
to link the instance group to an AWS Classic ELB or you can
specify targetGroupARN
to link the instance group to a target group, which are used by Application
load balancers and Network load balancers.
# Example ingress nodes
apiVersion: kops/v1alpha2
kind: InstanceGroup
metadata:
labels:
kops.k8s.io/cluster: k8s.dev.local
name: ingress
spec:
machineType: m4.large
maxSize: 2
minSize: 2
role: Node
externalLoadBalancers:
- targetGroupARN: arn:aws:elasticloadbalancing:eu-west-1:123456789012:targetgroup/my-ingress-target-group/0123456789abcdef
- loadBalancerName: my-elb-classic-load-balancer
Detailed-Monitoring will cause the monitoring data to be available every 1 minute instead of every 5 minutes. Enabling Detailed Monitoring. In production environments you may want to consider to enable detailed monitoring for quicker troubleshooting.
Note: that enabling detailed monitoring is a subject for charge
# Example for nodes
apiVersion: kops/v1alpha2
kind: InstanceGroup
metadata:
labels:
kops.k8s.io/cluster: k8s.dev.local
name: nodes
spec:
detailedInstanceMonitoring: true
machineType: t2.medium
maxSize: 2
minSize: 2
role: Node