--- title: Update API Objects in Place Using kubectl patch description: Use kubectl patch to update Kubernetes API objects in place. Do a strategic merge patch or a JSON merge patch. --- {% capture overview %} This task shows how to use `kubectl patch` to update an API object in place. The exercises in this task demonstrate a strategic merge patch and a JSON merge patch. {% endcapture %} {% capture prerequisites %} {% include task-tutorial-prereqs.md %} {% endcapture %} {% capture steps %} ## Use a strategic merge patch to update a Deployment Here's the configuration file for a Deployment that has two replicas. Each replica is a Pod that has one container: {% include code.html language="yaml" file="deployment-patch-demo.yaml" ghlink="/docs/tasks/run-application/deployment-patch-demo.yaml" %} Create the Deployment: ```shell kubectl create -f https://k8s.io/docs/tasks/run-application/deployment-patch-demo.yaml ``` View the Pods associated with your Deployment: ```shell kubectl get pods ``` The output shows that the Deployment has two Pods. The `1/1` indicates that each Pod has one container: ``` NAME READY STATUS RESTARTS AGE patch-demo-28633765-670qr 1/1 Running 0 23s patch-demo-28633765-j5qs3 1/1 Running 0 23s ``` Make a note of the names of the running Pods. Later, you will see that these Pods get terminated and replaced by new ones. At this point, each Pod has one Container that runs the nginx image. Now suppose you want each Pod to have two containers: one that runs nginx and one that runs redis. Create a file named `patch-file.yaml` that has this content: ```shell spec: template: spec: containers: - name: patch-demo-ctr-2 image: redis ``` Patch your Deployment: ```shell kubectl patch deployment patch-demo --patch "$(cat patch-file.yaml)" ``` View the patched Deployment: ```shell kubectl get deployment patch-demo --output yaml ``` The output shows that the PodSpec in the Deployment has two Containers: ```shell containers: - image: redis imagePullPolicy: Always name: patch-demo-ctr-2 ... - image: nginx imagePullPolicy: Always name: patch-demo-ctr ... ``` View the Pods associated with your patched Deployment: ```shell kubectl get pods ``` The output shows that the running Pods have different names from the Pods that were running previously. The Deployment terminated the old Pods and created two new Pods that comply with the updated Deployment spec. The `2/2` indicates that each Pod has two Containers: ``` NAME READY STATUS RESTARTS AGE patch-demo-1081991389-2wrn5 2/2 Running 0 1m patch-demo-1081991389-jmg7b 2/2 Running 0 1m ``` Take a closer look at one of the patch-demo Pods: ```shell kubectl get pod --output yaml ``` The output shows that the Pod has two Containers: one running nginx and one running redis: ``` containers: - image: redis ... - image: nginx ... ``` ### Notes on the strategic merge patch With a patch, you do not have to specify an entire object; you specify only the portion of the object that you want to change. For example, in the preceding exercise, you specified one Container in the `containers` list in a `PodSpec`. The patch you did in the preceding exercise is called a *strategic merge patch*. With a strategic merge patch, you can update a list by specifying only the elements that you want to add to the list. The existing list elements remain, and the new elements are merged with the existing elements. In the preceding exercise, the resulting `containers` list has both the original nginx Container and the new redis Container. ## Use a JSON merge patch to update a Deployment A strategic merge patch is different from a [JSON merge patch](https://tools.ietf.org/html/rfc6902). With a JSON merge patch, if you want to update a list, you have to specify the entire new list. And the new list completely replaces the existing list. The `kubectl patch` command has a `type` parameter that you can set to one of these values:
Parameter valueMerge type
jsonJSON Patch, RFC 6902
mergeJSON Merge Patch, RFC 7386
strategicStrategic merge patch
For a comparison of JSON patch and JSON merge patch, see [JSON Patch and JSON Merge Patch](http://erosb.github.io/post/json-patch-vs-merge-patch/). The default value for the `type` parameter is `strategic`. So in the preceding exercise, you did a strategic merge patch. Next, do a JSON merge patch on your same Deployment. Create a file named `patch-file-2.yaml` that has this content: ```shell spec: template: spec: containers: - name: patch-demo-ctr-3 image: gcr.io/google-samples/node-hello:1.0 ``` In your patch command, set `type` to `merge`: ```shell kubectl patch deployment patch-demo --type merge --patch "$(cat patch-file-2.yaml)" ``` View the patched Deployment: ```shell kubectl get deployment patch-demo --output yaml ``` The `containers` list that you specified in the patch has only one Container. The output shows that your list of one Container replaced the existing `containers` list. ```shell spec: containers: - image: gcr.io/google-samples/node-hello:1.0 ... name: patch-demo-ctr-3 ``` List the running Pods: ```shell kubectl get pods ``` In the output, you can see that the existing Pods were terminated, and new Pods were created. The `1/1` indicates that each new Pod is running only one Container. ```shell NAME READY STATUS RESTARTS AGE patch-demo-1307768864-69308 1/1 Running 0 1m patch-demo-1307768864-c86dc 1/1 Running 0 1m ``` ## Alternate forms of the kubectl patch command The `kubectl patch` command takes YAML or JSON. It can take the patch as a file or directly on the command line. Create a file named `patch-file.json` that has this content: ```shell { "spec": { "template": { "spec": { "containers": [ { "name": "patch-demo-ctr-2", "image": "redis" } ] } } } } ``` The following commands are equivalent: ```shell kubectl patch deployment patch-demo --patch "$(cat patch-file.yaml)" kubectl patch deployment patch-demo --patch $'spec:\n template:\n spec:\n containers:\n - name: patch-demo-ctr-2\n image: redis' kubectl patch deployment patch-demo --patch "$(cat patch-file.json)" kubectl patch deployment patch-demo --patch '{"spec": {"template": {"spec": {"containers": [{"name": "patch-demo-ctr-2","image": "redis"}]}}}}' ``` ## Summary In this exercise, you `kubectl patch` to change the live configuration of a Deployment object. You did not change the configuration file that you originally used to create the Deployment object. Other commands for updating API objects include [kubectl annotate](/docs/user-guide/kubectl/{{page.version}}/#annotate), [kubectl edit](/docs/user-guide/kubectl/{{page.version}}/#edit), [kubectl replace](/docs/user-guide/kubectl/{{page.version}}/#replace), [kubectl scale](/docs/user-guide/kubectl/{{page.version}}/#scale), and [kubectl apply](/docs/user-guide/kubectl/{{page.version}}/#apply). {% endcapture %} {% capture whatsnext %} * [Kubernetes Object Management](/docs/tutorials/object-management-kubectl/object-management/) * [Managing Kubernetes Objects Using Imperative Commands](/docs/tutorials/object-management-kubectl/imperative-object-management-command/) * [Imperative Management of Kubernetes Objects Using Configuration Files](/docs/tutorials/object-management-kubectl/imperative-object-management-configuration/) * [Declarative Management of Kubernetes Objects Using Configuration Files](/docs/tutorials/object-management-kubectl/declarative-object-management-configuration/) {% endcapture %} {% include templates/task.md %}