This article will discuss one of the central objects in Kubernetes: deployment. The goal is to understand its behavior and how to create, update, and delete it.

What is a Deployment?

A Deployment is one of the objects used to launch Pods. Kubernetes best practices encourage the use of deployments for stateless applications. Without a deployment, you would need to manually create, update, and delete multiple Pods, which would be tedious and unfeasible for many Pods. A deployment declares a single object in YAML which not only creates the Pods but also ensures that they are up-to-date, and running. You can also easily auto-scale your applications using a deployment on Kubernetes. Thus, a deployment is used to scale, deploy, and roll back versions of your applications in Pods. A deployment also tells Kubernetes how many copies of a Pod we want to run, and Kubernetes takes care of the rest. The associated controller will create a ReplicaSet from your configuration when creating a deployment. The controller associated with the ReplicaSet will create a series of Pods from the ReplicaSet configuration. The advantages of using a deployment instead of directly creating a ReplicaSet are:

Historization of the object: each change in the object (via an “apply” or an “edit”) will create a backup of the previous version. Rollout and rollback management: You can go back on a configuration in connection with the previous point.

Creating a Deployment

There are two methods we can use to create a Kubernetes deployment:

Imperative Method

The Kubernetes APIs allow a more direct and imperative approach without requiring configuration files or YAML-formatted manifests. In this approach, all we need to do is say what we want done, and Kubernetes will take responsibility for defining what must be done to achieve the expected result. To use the imperative method, just use the command below:

Declarative Method

In this method, you have to declare everything, and when you use this code, Kubernetes just reads your definitions and create exactly as presented or declared. To use declarative deployment you will have to create a YAML file. YAML file for deployment with the name new_deployment.yaml: In this YAML file, after defining the Kubernetes API version, the type of object you are creating, and the name of the deployment, there is the spec section. In this section, you first define the replicas key, which indicates the number of Pod instances the deployment must keep active. Use a selector label to identify the Pods in the deployment. For this, you can use the deploy label, which tells that all pods that match these labels are grouped in deployment. After that, you have the template object where you have a Pod model inside your deployment specification. When the deployment creates Pods, it creates them using this template. The specification of a regular pod can be found under the template key. With this deployment, Nginx images with labels will be deployed to Pods. Moreover, you also have to be careful on this point, and the Pod is the scalability unit in Kubernetes, so you have to think about the pattern you want to use if you put several containers in the same Pod. Next, apply the new_deployment.yaml Yaml file, use the following command: After a few seconds, you can get the deployment status using the following: 

Retrieve and Update Deployment

Note that you have the Pods created, the deployment and also a Replicaset. So a deployment always creates and manages a Replicaset. Now you can use the following command to describe the deployment: Now you have a full description of the deployment. It highlights the strategy used to create/rebuild the pods when an update has been defined as RollingUpdate. The RollingUpdate strategy allows for an orderly migration of one version of an application to a newer version. It is the default strategy used in Kubernetes. In addition to this, we also have the following strategies:

Recreate: Terminates the currently running Pod instances and ‘recreates’ them with the new version; Blue/Green: This strategy creates two separate but identical environments. In the blue environment, the application is running as is, whereas in the green environment, the application is running as it will be in the future;

Canary: A deployment strategy where a subset of users is involved in the incremental release of an application or service.

If you opt for “rolling-update,” you can configure its behavior about the number of replicas desired.

maxSurge allows you to indicate (in percentage or absolute terms) how many Pods it can create in addition to the number of replicas currently configured. maxUnavailable allows you to indicate (in percentage or absolute terms) how many Pods can be “unavailable” during the update, depending on the number of replicas configured.

Depending on your application and your autoscaler, these configurations will allow you to ensure QoS or speed up your deployments. Next, you have to scale the Pods to 10 and change the Nginx image tag to the latest. Note that we have 5 containers being created, and out of 10 Pods, we have 5 available. After a few seconds, use the following command:  Here you can see that all Pods have been created, and the containers are running.

Deleting your Deployment

To delete a Kubernetes deployment, you can use the following commands:

Helm: Simplify Deployments

When you want to deploy a complex application that uses tens or even hundreds of Kubernetes resources, the kubectl tool becomes unsuitable, which is why the Helm tool was developed. Helm is a package manager for Kubernetes that builds on kubectl and simplifies application deployments. In the Helm vocabulary, an application is called a release. It is associated with a chart, i.e., a collection of configuration files in YAML format containing global variables and templates describing Kubernetes resources.

Conclusion

The deployment is an essential Kubernetes object. As a great power implies a great responsibility, you must be careful when configuring it or risk having unexpected behaviors. To go further with the Deployment configurations, you can refer to the Kubernetes documentation. You may also explore some of the best Kubernetes tutorials to learn from scratch and become an expert.

How to Deploy Applications in Kubernetes - 89How to Deploy Applications in Kubernetes - 20How to Deploy Applications in Kubernetes - 40How to Deploy Applications in Kubernetes - 26How to Deploy Applications in Kubernetes - 87How to Deploy Applications in Kubernetes - 84How to Deploy Applications in Kubernetes - 81How to Deploy Applications in Kubernetes - 95How to Deploy Applications in Kubernetes - 65How to Deploy Applications in Kubernetes - 97How to Deploy Applications in Kubernetes - 13How to Deploy Applications in Kubernetes - 99How to Deploy Applications in Kubernetes - 94How to Deploy Applications in Kubernetes - 72How to Deploy Applications in Kubernetes - 11How to Deploy Applications in Kubernetes - 7How to Deploy Applications in Kubernetes - 27How to Deploy Applications in Kubernetes - 87How to Deploy Applications in Kubernetes - 83How to Deploy Applications in Kubernetes - 68How to Deploy Applications in Kubernetes - 43How to Deploy Applications in Kubernetes - 59How to Deploy Applications in Kubernetes - 94How to Deploy Applications in Kubernetes - 3How to Deploy Applications in Kubernetes - 73How to Deploy Applications in Kubernetes - 73How to Deploy Applications in Kubernetes - 67