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xk6-kafka logo xk6-kafka

GitHub Workflow Status Docker Pulls Coverage Status Go Reference

The xk6-kafka project is a k6 extension that enables k6 users to load test Apache Kafka using a producer and possibly a consumer for debugging.

The real purpose of this extension is to test the system you meticulously designed to use Apache Kafka. So, you can test your consumers, hence your system, by auto-generating messages and sending them to your system via Apache Kafka.

You can send many messages with each connection to Kafka. These messages are arrays of objects containing a key and a value in various serialization formats, passed via configuration objects. Various serialization formats are supported, including strings, JSON, binary, Avro, and JSON Schema. Avro and JSON Schema can either be fetched from Schema Registry or hard-code directly in the script. SASL PLAIN/SCRAM authentication and message compression are also supported.

For debugging and testing purposes, a consumer is available to make sure you send the correct data to Kafka.

If you want to learn more about the extension, read the article (outdated) explaining how to load test your Kafka producers and consumers using k6 on the k6 blog. You can also watch this recording of the k6 Office Hours about this extension.

Supported Features

Download Binaries

The Official Docker Image

The official Docker image is available on Docker Hub. Before running your script, make the script available to the container by mounting a volume (a directory) or passing it via stdin.

docker run --rm -i mostafamoradian/xk6-kafka:latest run - <scripts/test_json.js

The Official Binaries

The binaries are generated by the build process and published on the releases page. Currently, binaries for the GNU/Linux, macOS, and Windows on amd64 (x86_64) machines are available.

Note: If you want to see an official build for your machine, please build and test xk6-kafka from source and then create an issue with details. I'll add the specific binary to the build pipeline and publish them on the next release.

Build from Source

You can build the k6 binary on various platforms, each with its requirements. The following shows how to build k6 binary with this extension on GNU/Linux distributions.

Prerequisites

You must have the latest Go version installed to build the k6 binary. The latest version should match k6 and xk6. I recommend gvm because it eases version management.

  • gvm for easier installation and management of Go versions on your machine
  • Git for cloning the project
  • xk6 for building k6 binary with extensions

Install and build the latest tagged version

Feel free to skip the first two steps if you already have Go installed.

  1. Install gvm by following its installation guide.

  2. Install the latest version of Go using gvm. You need Go 1.4 installed for bootstrapping into higher Go versions, as explained here.

  3. Install xk6:

    go install go.k6.io/xk6/cmd/xk6@latest
  4. Build the binary:

    xk6 build --with github.com/mostafa/xk6-kafka@latest

Note You can always use the latest version of k6 to build the extension, but the earliest version of k6 that supports extensions via xk6 is v0.32.0. The xk6 is constantly evolving, so some APIs may not be backward compatible.

Build for development

If you want to add a feature or make a fix, clone the project and build it using the following commands. The xk6 will force the build to use the local clone instead of fetching the latest version from the repository. This process enables you to update the code and test it locally.

git clone git@github.com:mostafa/xk6-kafka.git && cd xk6-kafka
xk6 build --with github.com/mostafa/xk6-kafka@latest=.

Example scripts

There are many examples in the script directory that show how to use various features of the extension.

How to Test You Kafka Setup

You can start testing your setup immediately, but it takes some time to develop the script, so it would be better to test your script against a development environment and then start testing your environment.

Development environment

I recommend the fast-data-dev Docker image by Lenses.io, a Kafka setup for development that includes Kafka, Zookeeper, Schema Registry, Kafka-Connect, Landoop Tools, 20+ connectors. It is relatively easy to set up if you have Docker installed. Just monitor Docker logs to have a working setup before attempting to test because the initial setup, leader election, and test data ingestion take time.

  1. Run the Kafka environment and expose the ports:

    sudo docker run \
        --detach --rm \
        --name lensesio \
        -p 2181:2181 \
        -p 3030:3030 \
        -p 8081-8083:8081-8083 \
        -p 9581-9585:9581-9585 \
        -p 9092:9092 \
        -e ADV_HOST=127.0.0.1 \
        -e RUN_TESTS=0 \
        lensesio/fast-data-dev:latest
  2. After running the command, visit localhost:3030 to get into the fast-data-dev environment.

  3. You can run the command to see the container logs:

    sudo docker logs -f -t lensesio

Note: If you have errors running the Kafka development environment, refer to the fast-data-dev documentation.

The xk6-kafka API

All the exported functions are available by importing the module object from k6/x/kafka. The exported objects, constants and other data structures are available in the index.d.ts file, and they always reflect the latest changes on the main branch. You can access the generated documentation at api-docs/docs/README.md.

⚠️ Warning: The Javascript API is subject to change in future versions unless a new major version is released.

k6 Test Scripts

The example scripts are available as test_<format/feature>.js with more code and commented sections in the scripts directory. Since this project extends the functionality of k6, it has four stages in the test life cycle.

  1. To use the extension, you need to import it in your script, like any other JS module:

    // Either import the module object
    import * as kafka from "k6/x/kafka";
    
    // Or individual classes and constants
    import {
        Writer,
        Reader,
        Connection,
        SchemaRegistry,
        SCHEMA_TYPE_STRING,
    } from "k6/x/kafka";
  2. You need to instantiate the classes in the init context. All the k6 options are also configured here:

    // Creates a new Writer object to produce messages to Kafka
    const writer = new Writer({
        // WriterConfig object
        brokers: ["localhost:9092"],
        topic: "my-topic",
    });
    
    const reader = new Reader({
        // ReaderConfig object
        brokers: ["localhost:9092"],
        topic: "my-topic",
    });
    
    const connection = new Connection({
        // ConnectionConfig object
        address: "localhost:9092",
    });
    
    const schemaRegistry = new SchemaRegistry();
    // Can accept a SchemaRegistryConfig object
    
    if (__VU == 0) {
        // Create a topic on initialization (before producing messages)
        connection.createTopic({
        // TopicConfig object
        topic: "my-topic",
        });
    }
  3. In the VU code, you can produce messages to Kafka or consume messages from it:

    export default function () {
        // Fetch the list of all topics
        const topics = connection.listTopics();
        console.log(topics); // list of topics
    
        // Produces message to Kafka
        writer.produce({
        // ProduceConfig object
        messages: [
            // Message object(s)
            {
            key: schemaRegistry.serialize({
                data: "my-key",
                schemaType: SCHEMA_TYPE_STRING,
            }),
            value: schemaRegistry.serialize({
                data: "my-value",
                schemaType: SCHEMA_TYPE_STRING,
            }),
            },
        ],
        });
    
        // Consume messages from Kafka
        let messages = reader.consume({
        // ConsumeConfig object
        limit: 10,
        });
    
        // your messages
        console.log(messages);
    
        // You can use checks to verify the contents,
        // length and other properties of the message(s)
    
        // To serialize the data back into a string, you should use
        // the deserialize method of the Schema Registry client. You
        // can use it inside a check, as shown in the example scripts.
        let deserializedValue = schemaRegistry.deserialize({
        data: messages[0].value,
        schemaType: SCHEMA_TYPE_STRING,
        });
    }
  4. In the teardown function, close all the connections and possibly delete the topic:

    export function teardown(data) {
        // Delete the topic
        connection.deleteTopic("my-topic");
    
        // Close all connections
        writer.close();
        reader.close();
        connection.close();
    }
  5. You can now run k6 with the extension using the following command:

    ./k6 run --vus 50 --duration 60s scripts/test_json.js
  6. And here's the test result output:

            /\      |‾‾| /‾‾/   /‾‾/
        /\  /  \     |  |/  /   /  /
        /  \/    \    |     (   /   ‾‾\
    /          \   |  |\  \ |  (‾)  |
    / __________ \  |__| \__\ \_____/ .io
    
    execution: local
        script: scripts/test_json.js
        output: -
    
    scenarios: (100.00%) 1 scenario, 50 max VUs, 1m30s max duration (incl. graceful stop):
            * default: 50 looping VUs for 1m0s (gracefulStop: 30s)
    
    
    running (1m04.4s), 00/50 VUs, 20170 complete and 0 interrupted iterations
    default ✓ [======================================] 50 VUs  1m0s
    
        ✓ 10 messages are received
        ✓ Topic equals to xk6_kafka_json_topic
        ✓ Key contains key/value and is JSON
        ✓ Value contains key/value and is JSON
        ✓ Header equals {'mykey': 'myvalue'}
        ✓ Time is past
        ✓ Partition is zero
        ✓ Offset is gte zero
        ✓ High watermark is gte zero
    
        █ teardown
    
        checks.........................: 100.00% ✓ 181530       ✗ 0
        data_received..................: 0 B     0 B/s
        data_sent......................: 0 B     0 B/s
        iteration_duration.............: avg=153.45ms min=6.01ms med=26.8ms  max=8.14s   p(90)=156.3ms p(95)=206.4ms
        iterations.....................: 20170   313.068545/s
        kafka_reader_dial_count........: 50      0.776075/s
        kafka_reader_dial_seconds......: avg=171.22µs min=0s     med=0s      max=1.09s   p(90)=0s      p(95)=0s
        ✓ kafka_reader_error_count.......: 0       0/s
        kafka_reader_fetch_bytes_max...: 1000000 min=1000000    max=1000000
        kafka_reader_fetch_bytes_min...: 1       min=1          max=1
        kafka_reader_fetch_wait_max....: 200ms   min=200ms      max=200ms
        kafka_reader_fetch_bytes.......: 58 MB   897 kB/s
        kafka_reader_fetch_size........: 147167  2284.25179/s
        kafka_reader_fetches_count.....: 107     1.6608/s
        kafka_reader_lag...............: 1519055 min=0          max=2436190
        kafka_reader_message_bytes.....: 40 MB   615 kB/s
        kafka_reader_message_count.....: 201749  3131.446006/s
        kafka_reader_offset............: 4130    min=11         max=5130
        kafka_reader_queue_capacity....: 1       min=1          max=1
        kafka_reader_queue_length......: 1       min=0          max=1
        kafka_reader_read_seconds......: avg=96.5ms   min=0s     med=0s      max=59.37s  p(90)=0s      p(95)=0s
        kafka_reader_rebalance_count...: 0       0/s
        kafka_reader_timeouts_count....: 57      0.884725/s
        kafka_reader_wait_seconds......: avg=102.71µs min=0s     med=0s      max=85.71ms p(90)=0s      p(95)=0s
        kafka_writer_acks_required.....: 0       min=0          max=0
        kafka_writer_async.............: 0.00%   ✓ 0            ✗ 2017000
        kafka_writer_attempts_max......: 0       min=0          max=0
        kafka_writer_batch_bytes.......: 441 MB  6.8 MB/s
        kafka_writer_batch_max.........: 1       min=1          max=1
        kafka_writer_batch_size........: 2017000 31306.854525/s
        kafka_writer_batch_timeout.....: 0s      min=0s         max=0s
        ✓ kafka_writer_error_count.......: 0       0/s
        kafka_writer_message_bytes.....: 883 MB  14 MB/s
        kafka_writer_message_count.....: 4034000 62613.709051/s
        kafka_writer_read_timeout......: 0s      min=0s         max=0s
        kafka_writer_retries_count.....: 0       0/s
        kafka_writer_wait_seconds......: avg=0s       min=0s     med=0s      max=0s      p(90)=0s      p(95)=0s
        kafka_writer_write_count.......: 4034000 62613.709051/s
        kafka_writer_write_seconds.....: avg=523.21µs min=4.84µs med=14.48µs max=4.05s   p(90)=33.85µs p(95)=42.68µs
        kafka_writer_write_timeout.....: 0s      min=0s         max=0s
        vus............................: 7       min=7          max=50
        vus_max........................: 50      min=50         max=50

Emitted Metrics

Metric Type Description
kafka_reader_dial_count Counter Total number of times the reader tries to connect.
kafka_reader_fetches_count Counter Total number of times the reader fetches batches of messages.
kafka_reader_message_count Counter Total number of messages consumed.
kafka_reader_message_bytes Counter Total bytes consumed.
kafka_reader_rebalance_count Counter Total number of rebalances of a topic in a consumer group (deprecated).
kafka_reader_timeouts_count Counter Total number of timeouts occurred when reading.
kafka_reader_error_count Counter Total number of errors occurred when reading.
kafka_reader_dial_seconds Trend The time it takes to connect to the leader in a Kafka cluster.
kafka_reader_read_seconds Trend The time it takes to read a batch of message.
kafka_reader_wait_seconds Trend Waiting time before read a batch of messages.
kafka_reader_fetch_size Counter Total messages fetched.
kafka_reader_fetch_bytes Counter Total bytes fetched.
kafka_reader_offset Gauge Number of messages read after the given offset in a batch.
kafka_reader_lag Gauge The lag between the last message offset and the current read offset.
kafka_reader_fetch_bytes_min Gauge Minimum number of bytes fetched.
kafka_reader_fetch_bytes_max Gauge Maximum number of bytes fetched.
kafka_reader_fetch_wait_max Gauge The maximum time it takes to fetch a batch of messages.
kafka_reader_queue_length Gauge The queue length while reading batch of messages.
kafka_reader_queue_capacity Gauge The queue capacity while reading batch of messages.
kafka_writer_write_count Counter Total number of times the writer writes batches of messages.
kafka_writer_message_count Counter Total number of messages produced.
kafka_writer_message_bytes Counter Total bytes produced.
kafka_writer_error_count Counter Total number of errors occurred when writing.
kafka_writer_batch_seconds Trend The time it takes to write a batch of messages.
kafka_writer_batch_queue_seconds Trend The time it takes to queue a batch of messages.
kafka_writer_write_seconds Trend The time it takes writing messages.
kafka_writer_wait_seconds Trend Waiting time before writing messages.
kafka_writer_retries_count Counter Total number of attempts at writing messages.
kafka_writer_batch_size Counter Total batch size.
kafka_writer_batch_bytes Counter Total number of bytes in a batch of messages.
kafka_writer_attempts_max Gauge Maximum number of attempts at writing messages.
kafka_writer_batch_max Gauge Maximum batch size.
kafka_writer_batch_timeout Gauge Batch timeout.
kafka_writer_read_timeout Gauge Batch read timeout.
kafka_writer_write_timeout Gauge Batch write timeout.
kafka_writer_acks_required Gauge Required Acks.
kafka_writer_async Rate Async writer.

FAQ

  1. Why do I receive Error writing messages?

    There are a few reasons why this might happen. The most prominent one is that the topic might not exist, which causes the producer to fail to send messages to a non-existent topic. You can use Connection.createTopic method to create the topic in Kafka, as shown in scripts/test_topics.js. You can also set the autoCreateTopic on the WriterConfig. You can also create a topic using the kafka-topics command:

    $ docker exec -it lensesio bash
    (inside container)$ kafka-topics --create --topic xk6_kafka_avro_topic --bootstrap-server localhost:9092
    (inside container)$ kafka-topics --create --topic xk6_kafka_json_topic --bootstrap-server localhost:9092
  2. Why does the reader.consume keep hanging?

    If the reader.consume keeps hanging, it might be because the topic doesn't exist or is empty.

  3. I want to test SASL authentication. How should I do that?

    If you want to test SASL authentication, look at this commit message, in which I describe how to run a test environment to test SASL authentication.

  4. Why doesn't the consumer group consume messages from the topic?

    As explained in issue #37, multiple inits by k6 cause multiple consumer group instances to be created in the init context, which sometimes causes the random partitions to be selected by each instance. This, in turn, causes confusion when consuming messages from different partitions. This can be solved by using a UUID when naming the consumer group, thereby guaranteeing that the consumer group object was assigned to all partitions in a topic.

  5. Why do I receive a MessageTooLargeError when I produce messages bigger than 1 MB?

    Kafka has a maximum message size of 1 MB by default, which is set by message.max.bytes, and this limit is also applied to the Writer object.

    There are two ways to produce larger messages: 1) Change the default value of your Kafka instance to a larger number. 2) Use compression.

    Remember that the Writer object will reject messages larger than the default Kafka message size limit (1 MB). Hence you need to set batchBytes to a larger value, for example, 1024 * 1024 * 2 (2 MB). The batchBytes refers to the raw uncompressed size of all the keys and values (data) in your array of messages you pass to the Writer object. You can calculate the raw data size of your messages using this example script.

  6. Can I consume messages from a consumer group in a topic with multiple partitions?

    Yes, you can. Just pass the groupID to your Reader object. You must not specify the partition anymore. Visit this documentation article to learn more about Kafka consumer groups.

    Remember that you must set sessionTimeout on your Reader object if the consume function terminates abruptly, thus failing to consume messages.

  7. Why does the Reader.consume produces an unable to read message error?

    For performance testing reasons, the maxWait of the Reader is set to 200ms. If you keep receiving this error, consider increasing it to a larger value.

  8. How can I consume from multiple partitions on a single topic?

    You can configure your reader to consume from a (list of) topic(s) and its partitions using a consumer group. This can be achieve by setting groupTopics, groupID and a few other options for timeouts, intervals and lags. Have a look at the test_consumer_group.js example script.

  9. How can I use autocompletion in IDEs?

    Copy api-docs/index.d.ts into your project directory and reference it at the top of your JavaScript file:

    /// <reference path="index.d.ts" />
    
    ...
  10. Why timeouts give up sooner than expected?

    There are many ways to configure timeout for the Reader and Writer objects. They follow Go's time conventions, which means that one second is equal to 1000000000 (one billion). For ease of use, I added the constants that can be imported from the module.

    import { SECOND } from "k6/x/kafka";
    
    console.log(2 * SECOND); // 2000000000
    console.log(typeof SECOND); // number
  11. Can I catch errors returned by the consume function?

    Yes. You can catch errors by using a try-catch block. The consume function returns an error object. If the consume function raises, the error object will be populated with the error message.

    try {
        let messages = reader.consume({
        limit: 10,
        });
    } catch (error) {
        console.error(error);
    }
  12. I am using a nested Avro schema and getting unknown errors. How can I debug them?

    If you have a nested Avro schema and you want to test it against your data, I created a small tool for it, called nested-avro-schema. This tool will help you to find discrepancies and errors in your schema data, so that you can fix them before you run xk6-kafka tests. Refer to this comment for more information.

  13. What is the difference between hard-coded schemas in the script and the ones fetched from the Schema Registry? Read this comment.

  14. I want to specify the offset of a message when consuming from a topic. How can I do that? To specify the offset of a message while consuming from a topic, use the following options based on your consumption setup:

    1. When consuming from a group: Use the startOffset option in the Reader object. This option allows you to define the starting point for message consumption. Here are the values you can use for startOffset:

      • -1: Consume from the most recent message. This is equivalent to START_OFFSETS_LAST_OFFSET.
      • -2: Consume from the oldest message. This is equivalent to START_OFFSETS_FIRST_OFFSET.
      • Any positive number: Consume from the specific offset number provided.

      The constants START_OFFSETS_LAST_OFFSET and START_OFFSETS_FIRST_OFFSET are part of the xk6-kafka module. You can import and use them in your script. The startOffset option is a string.

      import {
          Reader,
          START_OFFSETS_LAST_OFFSET,
      } from "k6/x/kafka";
      
      const reader = new Reader({
          brokers: ["localhost:9092"], // Replace with your broker(s)
          groupID: "example-group", // Specify your consumer group ID
          groupTopics: ["example-topic"], // List of topics for the group
          startOffset: START_OFFSETS_LAST_OFFSET, // Use the most recent offset
      });
    2. When consuming from a topic: Use the offset option instead of startOffset. The offset option is a number that directly specifies the offset of the message you want to consume, unlike startOffset, which is a string.

      import { Reader } from "k6/x/kafka";
      
      const reader = new Reader({
          brokers: ["localhost:9092"], // Replace with your broker(s)
          topic: "example-topic", // Specify the topic
          offset: 10, // Consume from offset 10
      });

Contributions, Issues and Feedback

I'd be thrilled to receive contributions and feedback on this project. You're always welcome to create an issue if you find one (or many). I would do my best to address the issues. Also, feel free to contribute by opening a PR with changes, and I'll do my best to review and merge it as soon as I can.

Backward Compatibility Notice

If you want to keep up to date with the latest changes, please follow the project board. Also, since v0.9.0, the main branch is the development branch and usually has the latest changes and might be unstable. If you want to use the latest features, you might need to build your binary by following the build from source instructions. In turn, the tagged releases and the Docker images are more stable.

I make no guarantee to keep the API stable, as this project is in active development unless I release a major version. The best way to keep up with the changes is to follow the xk6-kafka API and look at the scripts directory.

The Release Process

The main branch is the development branch, and the pull requests will be squashed and merged into the main branch. When a commit is tagged with a version, for example, v0.10.0, the build pipeline will build the main branch on that commit. The build process creates the binaries and the Docker image. If you want to test the latest unreleased features, you can clone the main branch and instruct the xk6 to use the locally cloned repository instead of using the @latest, which refers to the latest tagged version, as explained in the build for development section.

The CycloneDX SBOM

CycloneDX SBOMs in JSON format are generated for go.mod (as of v0.9.0) and the Docker image (as of v0.14.0) and they can be accessed from the the release assets.

Disclaimer

This project was a proof of concept but seems to be used by some companies nowadays. However, it isn't supported by the k6 team, but rather by me personally, and the APIs may change in the future. USE AT YOUR OWN RISK!

This project was AGPL3-licensed up until 7 October 2021, and then we relicensed it under the Apache License 2.0.