Nothing Special   »   [go: up one dir, main page]

Skip to content

Latest commit

 

History

History

adminrest

Folders and files

NameName
Last commit message
Last commit date

parent directory

..
 
 
 
 
 
 
 
 

Confluent Admin REST APIs demo

Product

Definition

Apache Kafka allows users to perform admin operations via the Java AdminClient and, in some cases, via CLI commands. The Confluent Admin REST APIs allow users to perform admin operations via a series of REST APIs. The following operations are available starting in Confluent Platform 6.0.0:

  • Clusters: List and describe
  • Brokers: List and describe
  • Topics: Create, delete, list and describe
  • Configurations (cluster-, broker- and topic-level): Create, delete, list and describe
  • ACLs: Create, delete, list and describe
  • Consumer groups: Delete, list and describe
  • Partition reassignments: List and describe

To learn more, see Confluent REST APIs in the Confluent documentation.

Deployment

Admin REST APIs are available in these forms:

  • Users can deploy Confluent Server, which exposes Admin REST APIs by default directly on the brokers.
  • Users can deploy standalone REST Proxy node(s), which in addition to Produce and Consume APIs, now also offer Admin REST APIs.
  • Admin REST APIs may also available to Cloud users in upcoming releases.

Demo

About

This demo is a sample use case for some of the Admin REST APIs, which are available in Confluent Platform, starting with the the 6.0.0 release.

Specifically, the examples show how to create a basic GUI that allows users to create, delete, list and describe topics.

Requirements

To run this demo, you will need:

  • Docker

What's included

This demo pulls the following Docker images:

  • ZooKeeper
  • Confluent Platform (including core Kafka and Confluent Server)
  • nginx, a webserver

Tutorial

Start the Demo

Begin by setting up the test cluster. Run docker-compose in the background:

docker-compose up -d

This starts a single ZooKeeper instance, 3 Confluent Server Kafka brokers, and an nginx webserver to host the local HTML pages.

The following sections demo and explain 3 static HTML pages with embedded JavaScript that fetches data from the Confluent Admin REST APIs. You can see the code in action, by using the web pages shown on localhost to list topics, create topics, and delete topics.

Listing topics

We'll start by going to the Topics list page in the UI, then exploring the code to see how it's implemented.

Try this on the UI

Go to localhost in your web browser (localhost on port: 80).

The Topics list page, backed by src/index.html, lists existing topics, and provides a link to a page where you can create new topics.

At first, no topics are listed because you haven't created any yet.

Here is what the list looks like when it's populated with a single topic.

topics list with new topic

Explore sample code for listing topics

The index page (src/index.html), which shows a list of all topics, is constructed using the following code:

<!doctype html>
<html lang="en">
  <head>
    <meta charset="utf-8"/>
    <title>Topic list</title>
    <script>
      function getTopics() {
        fetch('http://localhost:8090/kafka/v3/clusters')
          .then(response => response.json())
          .then(({data}) => fetch(data[0].metadata.self + '/topics'))
          .then(response => response.json())
          .then(({data}) => {
            document.getElementById('topics').innerHTML += data
              .filter(({topic_name}) => !topic_name.startsWith('_')) // Skip internal topics
              .map(topic => '<li><a href="./details.html?topic_name=' + topic.topic_name + '">' + topic.topic_name + '</a></li>')
              .join('');
          })
          .catch(error => console.warn(error));
      }
      window.onload = getTopics;
    </script>
  </head>
  <body>
    <ul id="topics">
      <li style="font-weight: bold;"><a href="./new.html">New topic ...</a></li>
    </ul>
  </body>
</html>

This code sets up an unordered list of existing topics, and an item that links to the page for creating topics.

The JavaScript getTopics function populates the list of existing topics as follows:

  • First, we call the REST API to determine the cluster ID. Since the REST API can currently only be configured to work with a single cluster, the first element in the response is the one we're after.

  • Then, we make a second HTTP request to get a list of all the topics.

  • Finally, we display the topic names in the list along with a link to a details page.

Creating topics

You might have noticed that our code above also filters topics that start with _. This is done to avoid showing, e.g., the license topic. Most likely, the list currently shows nothing. Therefore, the next step is to set up a page that allows us to create topics.

Try this on the UI

Return to the topics list in your web browser and, if you haven't done so already, click New topic...

create topic form

Explore the sample code for creating topics

The create topics page (src/new.html), displays a form that allows users to input a topic name, partitions count and replication factor. It is constructed using the following code:

<!doctype html>
<html lang="en">
  <head>
    <meta charset="utf-8"/>
    <title>New topic</title>
    <script>
      function createTopic(event) {
        event.preventDefault();
        fetch('http://localhost:8090/kafka/v3/clusters')
          .then(response => response.json())
          .then(({data}) =>
            fetch(data[0].metadata.self + '/topics', {
              method: 'post',
              body: JSON.stringify({
                topic_name: document.getElementById('topic_name').value,
                partitions_count: document.getElementById('partitions_count').value,
                replication_factor: document.getElementById('replication_factor').value
              }),
              headers: {'Content-Type': 'application/json'}
            })
          )
          .then(_ => {
            window.location.href = './index.html';
          })
          .catch(error => console.warn(error));
      }
    </script>
  </head>
  <body>
    <form>
      <label for="topic_name">Topic name:</label><br />
      <input type="text" id="topic_name" name="topic_name" /><br />
      <label for="partitions_count">Partitions count:</label><br />
      <input type="text" id="partitions_count" name="partitions_count" /><br />
      <label for="replication_factor">Replication factor:</label><br />
      <input type="text" id="replication_factor" name="replication_factor" /><br />
      <br />
      <button onclick="createTopic(event)">Create topic</button>
    </form>
  </body>
</html>

For simplicity, we are not allowing other parameters that the API supports, such as configs. Also, this code doesn't validate input in any way.

The createTopic function works as follows:

  • When the user clicks the Create topic button, we fetch the cluster ID (for simplicity, we haven't passed state from the previous page)

  • We then perform a second HTTP request that creates a topic with the parameters the user provided in the form.

  • Finally, our code goes back to the topic list where we should now see the topic we just created.

Use the "New topic" page to create some topics, and populate the topics list.

create topic parameters

When you click Create, you are returned to the updated topics list.

Describing and deleting topics

Now that you have some topics, you need a page where you can see more details on a topic and possibly delete it.

Try this on the UI

  1. In your web browser, go to the topics list:

    topics list
  2. Select a topic to view details on it. This page also gives you an option to delete the selected topic.

    topics describe

Explore sample code for describing and deleting a topic

The topic details page (src/details.html)displays the topic name, partitions count and replication factor, along with a button to delete the topic.

<!doctype html>
<html lang="en">
  <head>
    <meta charset="utf-8"/>
    <title>Topic details</title>
    <script>
      function getTopic() {
        const topicName = new URLSearchParams(window.location.search).get('topic_name');
        document.getElementById('topic_name').innerHTML += topicName;
        fetch('http://localhost:8090/kafka/v3/clusters')
          .then(response => response.json())
          .then(({data}) => {
            topicUrl = data[0].metadata.self + '/topics/' + topicName;
            return fetch(topicUrl);
          })
          .then(response => response.json())
          .then(data => {
            document.getElementById('replication_factor').innerHTML += data.replication_factor;
            return data.partitions.related;
          })
          .then(url => fetch(url))
          .then(response => response.json())
          .then(({data}) => {
            document.getElementById('partitions_count').innerHTML += data.length;
          })
          .catch(error => console.warn(error));
      }
      function deleteTopic(event) {
        event.preventDefault();
        fetch(topicUrl, {method: 'delete'})
          .then(_ => {
            window.location.href = './index.html';
          })
          .catch(error => console.warn(error));
      }
      let topicUrl;
      window.onload = getTopic;
    </script>
  </head>
  <body>
    <ul id="topic">
      <li id="topic_name">Topic name: </li>
      <li id="partitions_count">Partitions count: </li>
      <li id="replication_factor">Replication factor: </li>
    </ul>
    <br />
    <button onclick="deleteTopic(event)">Delete topic</button>
  </body>
</html>

This code works in the following way:

  • When the page loads, we retrieve the cluster ID and update the topic name (which has been passed in a query string parameter).

  • In a second HTTP request, we describe the topic, and from the response we are able to update the replication factor in the document object model (DOM). Partition count is not returned, but we get a link to the actual partitions, so by following that link and counting the number of items in the response, we can figure out the partition count and update the DOM with that value.

  • Finally, if the user clicks the Delete topic button, we perform an HTTP request that deletes the topic and takes us back to the list of topics where the deleted topic has now disappeared.

    For example, if you delete my-test-topic, it no longer shows in the topic list.

list after topic delete

Teardown

  • Type docker-compose down to stop the demo.
  • Run docker ps or docker container ls to make sure you have no running containers.
  • Use docker images to view the images on your system.
  • To remove the images one by one: docker image rm <image-id>.
  • To remove all Docker images from your system: docker rmi $(docker images -q)