If you are using a released version of Kubernetes, you should refer to the docs that go with that version.
The latest 1.0.x release of this document can be found [here](http://releases.k8s.io/release-1.0/docs/user-guide/managing-deployments.md).Documentation for other releases can be found at releases.k8s.io.
You’ve deployed your application and exposed it via a service. Now what? Kubernetes provides a number of tools to help you manage your application deployment, including scaling and updating. Among the features we’ll discuss in more depth are configuration files and labels.
Table of Contents
Many applications require multiple resources to be created, such as a Replication Controller and a Service. Management of multiple resources can be simplified by grouping them together in the same file (separated by --- in YAML). For example:
apiVersion: v1
kind: Service
metadata:
name: my-nginx-svc
labels:
app: nginx
spec:
type: LoadBalancer
ports:
- port: 80
selector:
app: nginx
---
apiVersion: v1
kind: ReplicationController
metadata:
name: my-nginx
spec:
replicas: 2
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: nginx
image: nginx
ports:
- containerPort: 80Multiple resources can be created the same way as a single resource:
$ kubectl create -f ./nginx-app.yaml
services/my-nginx-svc
replicationcontrollers/my-nginxThe resources will be created in the order they appear in the file. Therefore, it's best to specify the service first, since that will ensure the scheduler can spread the pods associated with the service as they are created by the replication controller(s).
kubectl create also accepts multiple -f arguments:
$ kubectl create -f ./nginx-svc.yaml -f ./nginx-rc.yamlAnd a directory can be specified rather than or in addition to individual files:
$ kubectl create -f ./nginx/kubectl will read any files with suffixes .yaml, .yml, or .json.
It is a recommended practice to put resources related to the same microservice or application tier into the same file, and to group all of the files associated with your application in the same directory. If the tiers of your application bind to each other using DNS, then you can then simply deploy all of the components of your stack en masse.
A URL can also be specified as a configuration source, which is handy for deploying directly from configuration files checked into github:
$ kubectl create -f https://raw.githubusercontent.com/GoogleCloudPlatform/kubernetes/master/docs/user-guide/replication.yaml
replicationcontrollers/nginxResource creation isn’t the only operation that kubectl can perform in bulk. It can also extract resource names from configuration files in order to perform other operations, in particular to delete the same resources you created:
$ kubectl delete -f ./nginx/
replicationcontrollers/my-nginx
services/my-nginx-svcIn the case of just two resources, it’s also easy to specify both on the command line using the resource/name syntax:
$ kubectl delete replicationcontrollers/my-nginx services/my-nginx-svcFor larger numbers of resources, one can use labels to filter resources. The selector is specified using -l:
$ kubectl delete all -lapp=nginx
replicationcontrollers/my-nginx
services/my-nginx-svcBecause kubectl outputs resource names in the same syntax it accepts, it’s easy to chain operations using $() or xargs:
$ kubectl get $(kubectl create -f ./nginx/ | grep my-nginx)
CONTROLLER CONTAINER(S) IMAGE(S) SELECTOR REPLICAS
my-nginx nginx nginx app=nginx 2
NAME LABELS SELECTOR IP(S) PORT(S)
my-nginx-svc app=nginx app=nginx 10.0.152.174 80/TCPThe examples we’ve used so far apply at most a single label to any resource. There are many scenarios where multiple labels should be used to distinguish sets from one another.
For instance, different applications would use different values for the app label, but a multi-tier application, such as the guestbook example, would additionally need to distinguish each tier. The frontend could carry the following labels:
labels:
app: guestbook
tier: frontendwhile the Redis master and slave would have different tier labels, and perhaps even an additional role label:
labels:
app: guestbook
tier: backend
role: masterand
labels:
app: guestbook
tier: backend
role: slaveThe labels allow us to slice and dice our resources along any dimension specified by a label:
$ kubectl create -f ./guestbook-fe.yaml -f ./redis-master.yaml -f ./redis-slave.yaml
replicationcontrollers/guestbook-fe
replicationcontrollers/guestbook-redis-master
replicationcontrollers/guestbook-redis-slave
$ kubectl get pods -Lapp -Ltier -Lrole
NAME READY STATUS RESTARTS AGE APP TIER ROLE
guestbook-fe-4nlpb 1/1 Running 0 1m guestbook frontend <n/a>
guestbook-fe-ght6d 1/1 Running 0 1m guestbook frontend <n/a>
guestbook-fe-jpy62 1/1 Running 0 1m guestbook frontend <n/a>
guestbook-redis-master-5pg3b 1/1 Running 0 1m guestbook backend master
guestbook-redis-slave-2q2yf 1/1 Running 0 1m guestbook backend slave
guestbook-redis-slave-qgazl 1/1 Running 0 1m guestbook backend slave
my-nginx-divi2 1/1 Running 0 29m nginx <n/a> <n/a>
my-nginx-o0ef1 1/1 Running 0 29m nginx <n/a> <n/a>
$ kubectl get pods -lapp=guestbook,role=slave
NAME READY STATUS RESTARTS AGE
guestbook-redis-slave-2q2yf 1/1 Running 0 3m
guestbook-redis-slave-qgazl 1/1 Running 0 3mAnother scenario where multiple labels are needed is to distinguish deployments of different releases or configurations of the same component. For example, it is common practice to deploy a canary of a new application release (specified via image tag) side by side with the previous release so that the new release can receive live production traffic before fully rolling it out. For instance, a new release of the guestbook frontend might carry the following labels:
labels:
app: guestbook
tier: frontend
track: canaryand the primary, stable release would have a different value of the track label, so that the sets of pods controlled by the two replication controllers would not overlap:
labels:
app: guestbook
tier: frontend
track: stableThe frontend service would span both sets of replicas by selecting the common subset of their labels, omitting the track label:
selector:
app: guestbook
tier: frontendSometimes existing pods and other resources need to be relabeled before creating new resources. This can be done with kubectl label. For example:
$ kubectl label pods -lapp=nginx tier=fe
NAME READY STATUS RESTARTS AGE
my-nginx-v4-9gw19 1/1 Running 0 14m
NAME READY STATUS RESTARTS AGE
my-nginx-v4-hayza 1/1 Running 0 13m
NAME READY STATUS RESTARTS AGE
my-nginx-v4-mde6m 1/1 Running 0 17m
NAME READY STATUS RESTARTS AGE
my-nginx-v4-sh6m8 1/1 Running 0 18m
NAME READY STATUS RESTARTS AGE
my-nginx-v4-wfof4 1/1 Running 0 16m
$ kubectl get pods -lapp=nginx -Ltier
NAME READY STATUS RESTARTS AGE TIER
my-nginx-v4-9gw19 1/1 Running 0 15m fe
my-nginx-v4-hayza 1/1 Running 0 14m fe
my-nginx-v4-mde6m 1/1 Running 0 18m fe
my-nginx-v4-sh6m8 1/1 Running 0 19m fe
my-nginx-v4-wfof4 1/1 Running 0 16m feWhen load on your application grows or shrinks, it’s easy to scale with kubectl. For instance, to increase the number of nginx replicas from 2 to 3, do:
$ kubectl scale rc my-nginx --replicas=3
scaled
$ kubectl get pods -lapp=nginx
NAME READY STATUS RESTARTS AGE
my-nginx-1jgkf 1/1 Running 0 3m
my-nginx-divi2 1/1 Running 0 1h
my-nginx-o0ef1 1/1 Running 0 1hAt some point, you’ll eventually need to update your deployed application, typically by specifying a new image or image tag, as in the canary deployment scenario above. kubectl supports several update operations, each of which is applicable to different scenarios.
To update a service without an outage, kubectl supports what is called “rolling update”, which updates one pod at a time, rather than taking down the entire service at the same time. See the rolling update design document and the example of rolling update for more information.
Let’s say you were running version 1.7.9 of nginx:
apiVersion: v1
kind: ReplicationController
metadata:
name: my-nginx
spec:
replicas: 5
template:
metadata:
labels:
app: nginx
spec:
containers:
- name: nginx
image: nginx:1.7.9
ports:
- containerPort: 80To update to version 1.9.1, you can use kubectl rolling-update --image:
$ kubectl rolling-update my-nginx --image=nginx:1.9.1
Creating my-nginx-ccba8fbd8cc8160970f63f9a2696fc46In another window, you can see that kubectl added a deployment label to the pods, whose value is a hash of the configuration, to distinguish the new pods from the old:
$ kubectl get pods -lapp=nginx -Ldeployment
NAME READY STATUS RESTARTS AGE DEPLOYMENT
my-nginx-1jgkf 1/1 Running 0 1h 2d1d7a8f682934a254002b56404b813e
my-nginx-ccba8fbd8cc8160970f63f9a2696fc46-k156z 1/1 Running 0 1m ccba8fbd8cc8160970f63f9a2696fc46
my-nginx-ccba8fbd8cc8160970f63f9a2696fc46-v95yh 1/1 Running 0 35s ccba8fbd8cc8160970f63f9a2696fc46
my-nginx-divi2 1/1 Running 0 2h 2d1d7a8f682934a254002b56404b813e
my-nginx-o0ef1 1/1 Running 0 2h 2d1d7a8f682934a254002b56404b813e
my-nginx-q6all 1/1 Running 0 8m 2d1d7a8f682934a254002b56404b813ekubectl rolling-update reports progress as it progresses:
Updating my-nginx replicas: 4, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 1
At end of loop: my-nginx replicas: 4, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 1
At beginning of loop: my-nginx replicas: 3, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 2
Updating my-nginx replicas: 3, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 2
At end of loop: my-nginx replicas: 3, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 2
At beginning of loop: my-nginx replicas: 2, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 3
Updating my-nginx replicas: 2, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 3
At end of loop: my-nginx replicas: 2, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 3
At beginning of loop: my-nginx replicas: 1, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 4
Updating my-nginx replicas: 1, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 4
At end of loop: my-nginx replicas: 1, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 4
At beginning of loop: my-nginx replicas: 0, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 5
Updating my-nginx replicas: 0, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 5
At end of loop: my-nginx replicas: 0, my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 replicas: 5
Update succeeded. Deleting old controller: my-nginx
Renaming my-nginx-ccba8fbd8cc8160970f63f9a2696fc46 to my-nginx
my-nginxIf you encounter a problem, you can stop the rolling update midway and revert to the previous version using --rollback:
$ kubectl kubectl rolling-update my-nginx --image=nginx:1.9.1 --rollback
Found existing update in progress (my-nginx-ccba8fbd8cc8160970f63f9a2696fc46), resuming.
Found desired replicas.Continuing update with existing controller my-nginx.
Stopping my-nginx-02ca3e87d8685813dbe1f8c164a46f02 replicas: 1 -> 0
Update succeeded. Deleting my-nginx-ccba8fbd8cc8160970f63f9a2696fc46
my-nginxThis is one example where the immutability of containers is a huge asset.
If you need to update more than just the image (e.g., command arguments, environment variables), you can create a new replication controller, with a new name and distinguishing label value, such as:
apiVersion: v1
kind: ReplicationController
metadata:
name: my-nginx-v4
spec:
replicas: 5
selector:
app: nginx
deployment: v4
template:
metadata:
labels:
app: nginx
deployment: v4
spec:
containers:
- name: nginx
image: nginx:1.9.2
args: [“nginx”,”-T”]
ports:
- containerPort: 80and roll it out:
$ kubectl rolling-update my-nginx -f ./nginx-rc.yaml
Creating my-nginx-v4
At beginning of loop: my-nginx replicas: 4, my-nginx-v4 replicas: 1
Updating my-nginx replicas: 4, my-nginx-v4 replicas: 1
At end of loop: my-nginx replicas: 4, my-nginx-v4 replicas: 1
At beginning of loop: my-nginx replicas: 3, my-nginx-v4 replicas: 2
Updating my-nginx replicas: 3, my-nginx-v4 replicas: 2
At end of loop: my-nginx replicas: 3, my-nginx-v4 replicas: 2
At beginning of loop: my-nginx replicas: 2, my-nginx-v4 replicas: 3
Updating my-nginx replicas: 2, my-nginx-v4 replicas: 3
At end of loop: my-nginx replicas: 2, my-nginx-v4 replicas: 3
At beginning of loop: my-nginx replicas: 1, my-nginx-v4 replicas: 4
Updating my-nginx replicas: 1, my-nginx-v4 replicas: 4
At end of loop: my-nginx replicas: 1, my-nginx-v4 replicas: 4
At beginning of loop: my-nginx replicas: 0, my-nginx-v4 replicas: 5
Updating my-nginx replicas: 0, my-nginx-v4 replicas: 5
At end of loop: my-nginx replicas: 0, my-nginx-v4 replicas: 5
Update succeeded. Deleting my-nginx
my-nginx-v4You can also run the update demo to see a visual representation of the rolling update process.
Sometimes it’s necessary to make narrow, non-disruptive updates to resources you’ve created. For instance, you might want to add an annotation with a description of your object. That’s easiest to do with kubectl patch:
$ kubectl patch rc my-nginx-v4 -p '{"metadata": {"annotations": {"description": "my frontend running nginx"}}}'
my-nginx-v4
$ kubectl get rc my-nginx-v4 -o yaml
apiVersion: v1
kind: ReplicationController
metadata:
annotations:
description: my frontend running nginx
...The patch is specified using json.
For more significant changes, you can get the resource, edit it, and then replace the resource with the updated version:
$ kubectl get rc my-nginx-v4 -o yaml > /tmp/nginx.yaml
$ vi /tmp/nginx.yaml
$ kubectl replace -f /tmp/nginx.yaml
replicationcontrollers/my-nginx-v4
$ rm $TMPThe system ensures that you don’t clobber changes made by other users or components by confirming that the resourceVersion doesn’t differ from the version you edited. If you want to update regardless of other changes, remove the resourceVersion field when you edit the resource. However, if you do this, don’t use your original configuration file as the source since additional fields most likely were set in the live state.
In some cases, you may need to update resource fields that cannot be updated once initialized, or you may just want to make a recursive change immediately, such as to fix broken pods created by a replication controller. To change such fields, use replace --force, which deletes and re-creates the resource. In this case, you can simply modify your original configuration file:
$ kubectl replace -f ./nginx-rc.yaml --force
replicationcontrollers/my-nginx-v4
replicationcontrollers/my-nginx-v4- Learn about how to use
kubectlfor application introspection and debugging. - Tips and tricks when working with config