As I understand the purpose of the Kubernetes Controller is to make sure that current state is equal to the desired state. Nevertheless, Kubernetes Operator does the same job.

The list of controller in the Control-plane:

  • Deployment
  • ReplicaSet
  • StatefulSet
  • DaemonSet
  • etc

From the Google Search, I found out that there are K8s Operators such as

  • etcd Operator
  • Prometheus Operator
  • kong Operators

However, I was not able to understand why it cannot be done using Controller?

Is Operator complementing the Controllers?

What's the difference between these two design as a purpose and functionality.

What certain things need to keep in mind to choose between Controller and Operator? ?


I believe the term "kubernetes operator" was introduced by the CoreOS people here

An Operator is an application-specific controller that extends the Kubernetes API to create, configure and manage instances of complex stateful applications on behalf of a Kubernetes user. It builds upon the basic Kubernetes resource and controller concepts, but also includes domain or application-specific knowledge to automate common tasks better managed by computers.

So basically, a kubernetes operator is the name of a pattern that consists of a kubernetes controller that adds new objects to the Kubernetes API, in order to configure and manage an application, such as Prometheus or etcd.

In one sentence: An operator is a domain specific controller.


There is a new discussion on Github about this very same topic, linking to the same blog post. Relevant bits of the discussion are:

All Operators use the controller pattern, but not all controllers are Operators. It's only an Operator if it's got: controller pattern + API extension + single-app focus.

Operator is a customized controller implement with CRD. It follow the same pattern with build-in controllers (i.e. watch, diff, action).

Update 2

I found a new blog post that tries to explain the difference as well.

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  • 1
    Thanks for the answer.So Controller is for general purpose, however, Operator for the specific purpose. correct me If I am wrong. Why is not a good idea to implement Controller for the specific purpose? – Suresh Vishnoi Dec 18 '17 at 7:42
  • 2
    I don't understand what you mean with "general purpose" and "specific purpose" here. An Operator is a controller. It's just that when the controller adds new k8s objects to store configuration for a component like prometheus or memcached, they use the term Operator. A controller normally just watches and reacts to native k8s objects. – Jose Armesto Dec 18 '17 at 14:00
  • Please, accept the answer if you think it answers the question! – Jose Armesto Dec 21 '17 at 16:27
  • I sincerely apologise, I was trying to figure out write way to put my question in this scenario. I am still not convinced to have two different way to do the same set of the tasks in the k8s cluster. Soon I will update you. – Suresh Vishnoi Dec 21 '17 at 17:55
  • Updated answer with more takes on the subject coming from more people. – Jose Armesto Jan 13 '18 at 12:02

In Kubernetes, most of the operations happen in an asynchronous manner.

For instance, when one creates a ReplicaSet object (picking a simpler object), this is the sequence that happens:

  1. We send the request to the Kube api-server.
  2. The kube-api server has a complex validation
    • Ensures that the user has the RBAC credential to create the RS in the given namespace
    • The request is validated by all the configured admission controllers
  3. Finally the object is just written to ETCD - nothing more nothing less

Now, it is the responsibility of the various Kubernetes controllers to watch the ETCD changes and actually execute the necessary operations. In this case, the ReplicaSet controller would be watching for the changes in ETCD (e.g. CRUD of ReplicataSets) and would create the Pods as per the replica count etc.

Now, coming to Operators, conceptually they are very similar to Kubernetes controllers. But they are used with third-party entities. In Kubernetes, there is a concept of CRDs, where vendors can define their own CRD which is nothing but a custom (e.g. Vendor specific) kubernetes object type. Very similar to the manner in which Kubernetes controllers read to the CRUD of Kubernetes objects, these operators respond to the operations on the corresponding CRDs. E.g. Kong operator can create new API entries in the Kong API server when a new API CRD object is created in the Kubernetes cluster.

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