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Strimzi Kafka Bridge Documentation (0.26.1)

Strimzi Kafka Bridge Documentation (0.26.1)

Table of Contents

1. Kafka Bridge overview

Use the Strimzi Kafka Bridge to make HTTP requests to a Kafka cluster.

You can use the Kafka Bridge to integrate HTTP client applications with your Kafka cluster.

HTTP client integration

Internal and external HTTP producers and consumers exchange data with the Kafka brokers through the Kafka Bridge

1.1. Running the Kafka Bridge

Install the Strimzi Kafka Bridge to run in the same environment as your Kafka cluster.

You can download and add the Kafka Bridge installation artifacts to your host machine. To try out the Kafka Bridge in your local environment, see the Kafka Bridge quickstart.

It’s important to note that each instance of the Kafka Bridge maintains its own set of in-memory consumers (and subscriptions) that connect to the Kafka Brokers on behalf of the HTTP clients. This means that each HTTP client must maintain affinity to the same Kafka Bridge instance in order to access any subscriptions that are created. Additionally, when an instance of the Kafka Bridge restarts, the in-memory consumers and subscriptions are lost. It is the responsibility of the HTTP client to recreate any consumers and subscriptions if the Kafka Bridge restarts.

1.1.1. Running the Kafka Bridge on Kubernetes

If you deployed Strimzi on Kubernetes, you can use the Strimzi Cluster Operator to deploy the Kafka Bridge to the Kubernetes cluster. Configure and deploy the Kafka Bridge as a KafkaBridge resource. You’ll need a running Kafka cluster that was deployed by the Cluster Operator in a Kubernetes namespace. You can configure your deployment to access the Kafka Bridge outside the Kubernetes cluster.

HTTP clients must maintain affinity to the same instance of the Kafka Bridge to access any consumers or subscriptions that they create. Hence, running multiple replicas of the Kafka Bridge per Kubernetes Deployment is not recommended. If the Kafka Bridge pod restarts (for instance, due to Kubernetes relocating the workload to another node), the HTTP client must recreate any consumers or subscriptions.

For information on deploying and configuring the Kafka Bridge as a KafkaBridge resource, see the Strimzi documentation.

1.2. Kafka Bridge interface

The Kafka Bridge provides a RESTful interface that allows HTTP-based clients to interact with a Kafka cluster.  It offers the advantages of a web API connection to Strimzi, without the need for client applications to interpret the Kafka protocol.

The API has two main resources — consumers and topics — that are exposed and made accessible through endpoints to interact with consumers and producers in your Kafka cluster. The resources relate only to the Kafka Bridge, not the consumers and producers connected directly to Kafka.

1.2.1. HTTP requests

The Kafka Bridge supports HTTP requests to a Kafka cluster, with methods to:

  • Send messages to a topic.

  • Retrieve messages from topics.

  • Retrieve a list of partitions for a topic.

  • Create and delete consumers.

  • Subscribe consumers to topics, so that they start receiving messages from those topics.

  • Retrieve a list of topics that a consumer is subscribed to.

  • Unsubscribe consumers from topics.

  • Assign partitions to consumers.

  • Commit a list of consumer offsets.

  • Seek on a partition, so that a consumer starts receiving messages from the first or last offset position, or a given offset position.

The methods provide JSON responses and HTTP response code error handling. Messages can be sent in JSON or binary formats.

Clients can produce and consume messages without the requirement to use the native Kafka protocol.

Additional resources

1.3. Kafka Bridge OpenAPI specification

Kafka Bridge APIs use the OpenAPI Specification (OAS). OAS provides a standard framework for describing and implementing HTTP APIs.

The Kafka Bridge OpenAPI specification is in JSON format. You can find the OpenAPI JSON files in the src/main/resources/ folder of the Kafka Bridge source download files. The download files are available from the GitHub release page.

You can also use the GET /openapi method to retrieve the OpenAPI v2 specification in JSON format.

Additional resources

1.4. Securing connectivity to the Kafka cluster

You can configure the following between the Kafka Bridge and your Kafka cluster:

  • TLS or SASL-based authentication

  • A TLS-encrypted connection

You configure the Kafka Bridge for authentication through its properties file.

You can also use ACLs in Kafka brokers to restrict the topics that can be consumed and produced using the Kafka Bridge.

Note
Use the KafkaBridge resource to configure authentication when you are running the Kafka Bridge on Kubernetes.

1.5. Securing the Kafka Bridge HTTP interface

Authentication and encryption between HTTP clients and the Kafka Bridge is not supported directly by the Kafka Bridge. Requests sent from clients to the Kafka Bridge are sent without authentication or encryption. Requests must use HTTP rather than HTTPS.

You can combine the Kafka Bridge with the following tools to secure it:

  • Network policies and firewalls that define which pods can access the Kafka Bridge

  • Reverse proxies (for example, OAuth 2.0)

  • API gateways

1.6. Requests to the Kafka Bridge

Specify data formats and HTTP headers to ensure valid requests are submitted to the Kafka Bridge.

1.6.1. Content Type headers

API request and response bodies are always encoded as JSON.

  • When performing consumer operations, POST requests must provide the following Content-Type header if there is a non-empty body:

    Content-Type: application/vnd.kafka.v2+json
  • When performing producer operations, POST requests must provide Content-Type headers specifying the embedded data format of the messages produced. This can be either json or binary.

    Embedded data format Content-Type header

    JSON

    Content-Type: application/vnd.kafka.json.v2+json

    Binary

    Content-Type: application/vnd.kafka.binary.v2+json

The embedded data format is set per consumer, as described in the next section.

The Content-Type must not be set if the POST request has an empty body. An empty body can be used to create a consumer with the default values.

1.6.2. Embedded data format

The embedded data format is the format of the Kafka messages that are transmitted, over HTTP, from a producer to a consumer using the Kafka Bridge. Two embedded data formats are supported: JSON and binary.

When creating a consumer using the /consumers/groupid endpoint, the POST request body must specify an embedded data format of either JSON or binary. This is specified in the format field, for example:

{
  "name": "my-consumer",
  "format": "binary", # (1)
  # ...
}
  1. A binary embedded data format.

The embedded data format specified when creating a consumer must match the data format of the Kafka messages it will consume.

If you choose to specify a binary embedded data format, subsequent producer requests must provide the binary data in the request body as Base64-encoded strings. For example, when sending messages using the /topics/topicname endpoint, records.value must be encoded in Base64:

{
  "records": [
    {
      "key": "my-key",
      "value": "ZWR3YXJkdGhldGhyZWVsZWdnZWRjYXQ="
    },
  ]
}

Producer requests must also provide a Content-Type header that corresponds to the embedded data format, for example, Content-Type: application/vnd.kafka.binary.v2+json.

1.6.3. Message format

When sending messages using the /topics endpoint, you enter the message payload in the request body, in the records parameter.

The records parameter can contain any of these optional fields:

  • Message headers

  • Message key

  • Message value

  • Destination partition

Example POST request to /topics
curl -X POST \
  http://localhost:8080/topics/my-topic \
  -H 'content-type: application/vnd.kafka.json.v2+json' \
  -d '{
    "records": [
        {
            "key": "my-key",
            "value": "sales-lead-0001",
            "partition": 2,
            "headers": [
              {
                "key": "key1",
                "value": "QXBhY2hlIEthZmthIGlzIHRoZSBib21iIQ==" (1)
              }
            ]
        }
    ]
}'
  1. The header value in binary format and encoded as Base64.

1.6.4. Accept headers

After creating a consumer, all subsequent GET requests must provide an Accept header in the following format:

Accept: application/vnd.kafka.EMBEDDED-DATA-FORMAT.v2+json

The EMBEDDED-DATA-FORMAT is either json or binary.

For example, when retrieving records for a subscribed consumer using an embedded data format of JSON, include this Accept header:

Accept: application/vnd.kafka.json.v2+json

1.7. CORS

In general, it is not possible for an HTTP client to issue requests across different domains.

For example, suppose the Kafka Bridge you deployed alongside a Kafka cluster is accessible using the http://my-bridge.io domain. HTTP clients can use the URL to interact with the Kafka Bridge and exchange messages through the Kafka cluster. However, your client is running as a web application in the http://my-web-application.io domain. The client (source) domain is different from the Kafka Bridge (target) domain. Because of same-origin policy restrictions, requests from the client fail. You can avoid this situation by using Cross-Origin Resource Sharing (CORS).

CORS allows for simple and preflighted requests between origin sources on different domains.

Simple requests are suitable for standard requests using GET, HEAD, POST methods.

A preflighted request sends a HTTP OPTIONS request as an initial check that the actual request is safe to send. On confirmation, the actual request is sent. Preflight requests are suitable for methods that require greater safeguards, such as PUT and DELETE, and use non-standard headers.

All requests require an origins value in their header, which is the source of the HTTP request.

CORS allows you to specify allowed methods and originating URLs for accessing the Kafka cluster in your Kafka Bridge HTTP configuration.

Example CORS configuration for Kafka Bridge
# ...
http.cors.enabled=true
http.cors.allowedOrigins=http://my-web-application.io
http.cors.allowedMethods=GET,POST,PUT,DELETE,OPTIONS,PATCH

1.7.1. Simple request

For example, this simple request header specifies the origin as http://my-web-application.io.

Origin: http://my-web-application.io

The header information is added to the request to consume records.

curl -v -X GET HTTP-BRIDGE-ADDRESS/consumers/my-group/instances/my-consumer/records \
-H 'Origin: http://my-web-application.io'\
-H 'content-type: application/vnd.kafka.v2+json'

In the response from the Kafka Bridge, an Access-Control-Allow-Origin header is returned. It contains the list of domains from where HTTP requests can be issued to the bridge.

HTTP/1.1 200 OK
Access-Control-Allow-Origin: * (1)
  1. Returning an asterisk (*) shows the resource can be accessed by any domain.

1.7.2. Preflighted request

An initial preflight request is sent to Kafka Bridge using an OPTIONS method. The HTTP OPTIONS request sends header information to check that Kafka Bridge will allow the actual request.

Here the preflight request checks that a POST request is valid from http://my-web-application.io.

OPTIONS /my-group/instances/my-consumer/subscription HTTP/1.1
Origin: http://my-web-application.io
Access-Control-Request-Method: POST (1)
Access-Control-Request-Headers: Content-Type (2)
  1. Kafka Bridge is alerted that the actual request is a POST request.

  2. The actual request will be sent with a Content-Type header.

OPTIONS is added to the header information of the preflight request.

curl -v -X OPTIONS -H 'Origin: http://my-web-application.io' \
-H 'Access-Control-Request-Method: POST' \
-H 'content-type: application/vnd.kafka.v2+json'

Kafka Bridge responds to the initial request to confirm that the request will be accepted. The response header returns allowed origins, methods and headers.

HTTP/1.1 200 OK
Access-Control-Allow-Origin: http://my-web-application.io
Access-Control-Allow-Methods: GET,POST,PUT,DELETE,OPTIONS,PATCH
Access-Control-Allow-Headers: content-type

If the origin or method is rejected, an error message is returned.

The actual request does not require Access-Control-Request-Method header, as it was confirmed in the preflight request, but it does require the origin header.

curl -v -X POST HTTP-BRIDGE-ADDRESS/topics/bridge-topic \
-H 'Origin: http://my-web-application.io' \
-H 'content-type: application/vnd.kafka.v2+json'

The response shows the originating URL is allowed.

HTTP/1.1 200 OK
Access-Control-Allow-Origin: http://my-web-application.io
Additional resources

1.8. Configuring loggers for the Kafka Bridge

You can set a different log level for each operation that is defined by the Kafka Bridge OpenAPI specification.

Each operation has a corresponding API endpoint through which the bridge receives requests from HTTP clients. You can change the log level on each endpoint to produce more or less fine-grained logging information about the incoming and outgoing HTTP requests.

Loggers are defined in the log4j2.properties file, which has the following default configuration for healthy and ready endpoints:

logger.healthy.name = http.openapi.operation.healthy
logger.healthy.level = WARN
logger.ready.name = http.openapi.operation.ready
logger.ready.level = WARN

The log level of all other operations is set to INFO by default. Loggers are formatted as follows:

logger.<operation_id>.name = http.openapi.operation.<operation_id>
logger.<operation_id>_level = _<LOG_LEVEL>

Where <operation_id> is the identifier of the specific operation.

List of operations defined by the OpenAPI specification
  • createConsumer

  • deleteConsumer

  • subscribe

  • unsubscribe

  • poll

  • assign

  • commit

  • send

  • sendToPartition

  • seekToBeginning

  • seekToEnd

  • seek

  • healthy

  • ready

  • openapi

Where <LOG_LEVEL> is the logging level as defined by log4j2 (i.e. INFO, DEBUG, …​).

2. Kafka Bridge quickstart

Use this quickstart to try out the Strimzi Kafka Bridge in your local development environment.

You will learn how to do the following:

  • Produce messages to topics and partitions in your Kafka cluster

  • Create a Kafka Bridge consumer

  • Perform basic consumer operations, such as subscribing the consumer to topics and retrieving the messages that you produced

In this quickstart, HTTP requests are formatted as curl commands that you can copy and paste to your terminal.

Ensure you have the prerequisites and then follow the tasks in the order provided in this chapter.

In this quickstart, you will produce and consume messages in JSON format.

Prerequisites for the quickstart
  • A Kafka cluster is running on the host machine.

2.1. Downloading a Kafka Bridge archive

A zipped distribution of the Strimzi Kafka Bridge is available for download.

Procedure
  • Download the latest version of the Strimzi Kafka Bridge archive from the GitHub release page.

2.2. Installing the Kafka Bridge

Use the script provided with the Kafka Bridge archive to install the Kafka Bridge. The application.properties file provided with the installation archive provides default configuration settings.

The following default property values configure the Kafka Bridge to listen for requests on port 8080.

Default configuration properties
http.host=0.0.0.0
http.port=8080
Procedure
  1. If you have not already done so, unzip the Kafka Bridge installation archive to any directory.

  2. Run the Kafka Bridge script using the configuration properties as a parameter:

    For example:

    ./bin/kafka_bridge_run.sh --config-file=<path>/application.properties
  3. Check to see that the installation was successful in the log.

    HTTP-Kafka Bridge started and listening on port 8080
    HTTP-Kafka Bridge bootstrap servers localhost:9092

2.3. Producing messages to topics and partitions

Use the Kafka Bridge to produce messages to a Kafka topic in JSON format by using the topics endpoint.

You can produce messages to topics in JSON format by using the topics endpoint. You can specify destination partitions for messages in the request body. The partitions endpoint provides an alternative method for specifying a single destination partition for all messages as a path parameter.

In this procedure, messages are produced to a topic called bridge-quickstart-topic.

Prerequisites
  • The Kafka cluster has a topic with three partitions.

    You can use the kafka-topics.sh utility to create topics.

    Example topic creation with three partitions
    bin/kafka-topics.sh --bootstrap-server localhost:9092 --create --topic bridge-quickstart-topic --partitions 3 --replication-factor 1
    Verifying the topic was created
    bin/kafka-topics.sh --bootstrap-server localhost:9092 --describe --topic bridge-quickstart-topic
Note
If you deployed Strimzi on Kubernetes, you can create a topic using the KafkaTopic custom resource.
Procedure
  1. Using the Kafka Bridge, produce three messages to the topic you created:

    curl -X POST \
      http://localhost:8080/topics/bridge-quickstart-topic \
      -H 'content-type: application/vnd.kafka.json.v2+json' \
      -d '{
        "records": [
            {
                "key": "my-key",
                "value": "sales-lead-0001"
            },
            {
                "value": "sales-lead-0002",
                "partition": 2
            },
            {
                "value": "sales-lead-0003"
            }
        ]
    }'
    • sales-lead-0001 is sent to a partition based on the hash of the key.

    • sales-lead-0002 is sent directly to partition 2.

    • sales-lead-0003 is sent to a partition in the bridge-quickstart-topic topic using a round-robin method.

  2. If the request is successful, the Kafka Bridge returns an offsets array, along with a 200 code and a content-type header of application/vnd.kafka.v2+json. For each message, the offsets array describes:

    • The partition that the message was sent to

    • The current message offset of the partition

      Example response
      #...
      {
        "offsets":[
          {
            "partition":0,
            "offset":0
          },
          {
            "partition":2,
            "offset":0
          },
          {
            "partition":0,
            "offset":1
          }
        ]
      }
Additional topic requests

Make other curl requests to find information on topics and partitions.

List topics
curl -X GET \
  http://localhost:8080/topics
Example response
[
  "__strimzi_store_topic",
  "__strimzi-topic-operator-kstreams-topic-store-changelog",
  "bridge-quickstart-topic",
  "my-topic"
]
Get topic configuration and partition details
curl -X GET \
  http://localhost:8080/topics/bridge-quickstart-topic
Example response
{
  "name": "bridge-quickstart-topic",
  "configs": {
    "compression.type": "producer",
    "leader.replication.throttled.replicas": "",
    "min.insync.replicas": "1",
    "message.downconversion.enable": "true",
    "segment.jitter.ms": "0",
    "cleanup.policy": "delete",
    "flush.ms": "9223372036854775807",
    "follower.replication.throttled.replicas": "",
    "segment.bytes": "1073741824",
    "retention.ms": "604800000",
    "flush.messages": "9223372036854775807",
    "message.format.version": "2.8-IV1",
    "max.compaction.lag.ms": "9223372036854775807",
    "file.delete.delay.ms": "60000",
    "max.message.bytes": "1048588",
    "min.compaction.lag.ms": "0",
    "message.timestamp.type": "CreateTime",
    "preallocate": "false",
    "index.interval.bytes": "4096",
    "min.cleanable.dirty.ratio": "0.5",
    "unclean.leader.election.enable": "false",
    "retention.bytes": "-1",
    "delete.retention.ms": "86400000",
    "segment.ms": "604800000",
    "message.timestamp.difference.max.ms": "9223372036854775807",
    "segment.index.bytes": "10485760"
  },
  "partitions": [
    {
      "partition": 0,
      "leader": 0,
      "replicas": [
        {
          "broker": 0,
          "leader": true,
          "in_sync": true
        },
        {
          "broker": 1,
          "leader": false,
          "in_sync": true
        },
        {
          "broker": 2,
          "leader": false,
          "in_sync": true
        }
      ]
    },
    {
      "partition": 1,
      "leader": 2,
      "replicas": [
        {
          "broker": 2,
          "leader": true,
          "in_sync": true
        },
        {
          "broker": 0,
          "leader": false,
          "in_sync": true
        },
        {
          "broker": 1,
          "leader": false,
          "in_sync": true
        }
      ]
    },
    {
      "partition": 2,
      "leader": 1,
      "replicas": [
        {
          "broker": 1,
          "leader": true,
          "in_sync": true
        },
        {
          "broker": 2,
          "leader": false,
          "in_sync": true
        },
        {
          "broker": 0,
          "leader": false,
          "in_sync": true
        }
      ]
    }
  ]
}
List the partitions of a specific topic
curl -X GET \
  http://localhost:8080/topics/bridge-quickstart-topic/partitions
Example response
[
  {
    "partition": 0,
    "leader": 0,
    "replicas": [
      {
        "broker": 0,
        "leader": true,
        "in_sync": true
      },
      {
        "broker": 1,
        "leader": false,
        "in_sync": true
      },
      {
        "broker": 2,
        "leader": false,
        "in_sync": true
      }
    ]
  },
  {
    "partition": 1,
    "leader": 2,
    "replicas": [
      {
        "broker": 2,
        "leader": true,
        "in_sync": true
      },
      {
        "broker": 0,
        "leader": false,
        "in_sync": true
      },
      {
        "broker": 1,
        "leader": false,
        "in_sync": true
      }
    ]
  },
  {
    "partition": 2,
    "leader": 1,
    "replicas": [
      {
        "broker": 1,
        "leader": true,
        "in_sync": true
      },
      {
        "broker": 2,
        "leader": false,
        "in_sync": true
      },
      {
        "broker": 0,
        "leader": false,
        "in_sync": true
      }
    ]
  }
]
List the details of a specific topic partition
curl -X GET \
  http://localhost:8080/topics/bridge-quickstart-topic/partitions/0
Example response
{
  "partition": 0,
  "leader": 0,
  "replicas": [
    {
      "broker": 0,
      "leader": true,
      "in_sync": true
    },
    {
      "broker": 1,
      "leader": false,
      "in_sync": true
    },
    {
      "broker": 2,
      "leader": false,
      "in_sync": true
    }
  ]
}
List the offsets of a specific topic partition
curl -X GET \
  http://localhost:8080/topics/bridge-quickstart-topic/partitions/0/offsets
Example response
{
  "beginning_offset": 0,
  "end_offset": 1
}
What to do next

After producing messages to topics and partitions, create a Kafka Bridge consumer.

2.4. Creating a Kafka Bridge consumer

Before you can perform any consumer operations in the Kafka cluster, you must first create a consumer by using the consumers endpoint. The consumer is referred to as a Kafka Bridge consumer.

Procedure
  1. Create a Kafka Bridge consumer in a new consumer group named bridge-quickstart-consumer-group:

    curl -X POST http://localhost:8080/consumers/bridge-quickstart-consumer-group \
      -H 'content-type: application/vnd.kafka.v2+json' \
      -d '{
        "name": "bridge-quickstart-consumer",
        "auto.offset.reset": "earliest",
        "format": "json",
        "enable.auto.commit": false,
        "fetch.min.bytes": 512,
        "consumer.request.timeout.ms": 30000
      }'
    • The consumer is named bridge-quickstart-consumer and the embedded data format is set as json.

    • Some basic configuration settings are defined.

    • The consumer will not commit offsets to the log automatically because the enable.auto.commit setting is false. You will commit the offsets manually later in this quickstart.

      If the request is successful, the Kafka Bridge returns the consumer ID (instance_id) and base URL (base_uri) in the response body, along with a 200 code.

      Example response
      #...
      {
        "instance_id": "bridge-quickstart-consumer",
        "base_uri":"http://<bridge_id>-bridge-service:8080/consumers/bridge-quickstart-consumer-group/instances/bridge-quickstart-consumer"
      }
  2. Copy the base URL (base_uri) to use in the other consumer operations in this quickstart.

What to do next

Now that you have created a Kafka Bridge consumer, you can subscribe it to topics.

Additional resources

2.5. Subscribing a Kafka Bridge consumer to topics

After you have created a Kafka Bridge consumer, subscribe it to one or more topics by using the subscription endpoint. When subscribed, the consumer starts receiving all messages that are produced to the topic.

Procedure
  • Subscribe the consumer to the bridge-quickstart-topic topic that you created earlier, in Producing messages to topics and partitions:

    curl -X POST http://localhost:8080/consumers/bridge-quickstart-consumer-group/instances/bridge-quickstart-consumer/subscription \
      -H 'content-type: application/vnd.kafka.v2+json' \
      -d '{
        "topics": [
            "bridge-quickstart-topic"
        ]
    }'

    The topics array can contain a single topic (as shown here) or multiple topics. If you want to subscribe the consumer to multiple topics that match a regular expression, you can use the topic_pattern string instead of the topics array.

    If the request is successful, the Kafka Bridge returns a 204 (No Content) code only.

When using an Apache Kafka client, the HTTP subscribe operation adds topics to the local consumer’s subscriptions. Joining a consumer group and obtaining partition assignments occur after running multiple HTTP poll operations, starting the partition rebalance and join-group process. It’s important to note that the initial HTTP poll operations may not return any records.

What to do next

After subscribing a Kafka Bridge consumer to topics, you can retrieve messages from the consumer.

2.6. Retrieving the latest messages from a Kafka Bridge consumer

Retrieve the latest messages from the Kafka Bridge consumer by requesting data from the records endpoint. In production, HTTP clients can call this endpoint repeatedly (in a loop).

Procedure
  1. Produce additional messages to the Kafka Bridge consumer, as described in Producing messages to topics and partitions.

  2. Submit a GET request to the records endpoint:

    curl -X GET http://localhost:8080/consumers/bridge-quickstart-consumer-group/instances/bridge-quickstart-consumer/records \
      -H 'accept: application/vnd.kafka.json.v2+json'

    After creating and subscribing to a Kafka Bridge consumer, a first GET request will return an empty response because the poll operation starts a rebalancing process to assign partitions.

  3. Repeat step two to retrieve messages from the Kafka Bridge consumer.

    The Kafka Bridge returns an array of messages — describing the topic name, key, value, partition, and offset — in the response body, along with a 200 code. Messages are retrieved from the latest offset by default.

    HTTP/1.1 200 OK
    content-type: application/vnd.kafka.json.v2+json
    #...
    [
      {
        "topic":"bridge-quickstart-topic",
        "key":"my-key",
        "value":"sales-lead-0001",
        "partition":0,
        "offset":0
      },
      {
        "topic":"bridge-quickstart-topic",
        "key":null,
        "value":"sales-lead-0003",
        "partition":0,
        "offset":1
      },
    #...
    Note
    If an empty response is returned, produce more records to the consumer as described in Producing messages to topics and partitions, and then try retrieving messages again.
What to do next

After retrieving messages from a Kafka Bridge consumer, try committing offsets to the log.

2.7. Commiting offsets to the log

Use the offsets endpoint to manually commit offsets to the log for all messages received by the Kafka Bridge consumer. This is required because the Kafka Bridge consumer that you created earlier, in Creating a Kafka Bridge consumer, was configured with the enable.auto.commit setting as false.

Procedure
  • Commit offsets to the log for the bridge-quickstart-consumer:

    curl -X POST http://localhost:8080/consumers/bridge-quickstart-consumer-group/instances/bridge-quickstart-consumer/offsets

    Because no request body is submitted, offsets are committed for all the records that have been received by the consumer. Alternatively, the request body can contain an array (OffsetCommitSeekList) that specifies the topics and partitions that you want to commit offsets for.

    If the request is successful, the Kafka Bridge returns a 204 code only.

What to do next

After committing offsets to the log, try out the endpoints for seeking to offsets.

2.8. Seeking to offsets for a partition

Use the positions endpoints to configure the Kafka Bridge consumer to retrieve messages for a partition from a specific offset, and then from the latest offset. This is referred to in Apache Kafka as a seek operation.

Procedure
  1. Seek to a specific offset for partition 0 of the quickstart-bridge-topic topic:

    curl -X POST http://localhost:8080/consumers/bridge-quickstart-consumer-group/instances/bridge-quickstart-consumer/positions \
      -H 'content-type: application/vnd.kafka.v2+json' \
      -d '{
        "offsets": [
            {
                "topic": "bridge-quickstart-topic",
                "partition": 0,
                "offset": 2
            }
        ]
    }'

    If the request is successful, the Kafka Bridge returns a 204 code only.

  2. Submit a GET request to the records endpoint:

    curl -X GET http://localhost:8080/consumers/bridge-quickstart-consumer-group/instances/bridge-quickstart-consumer/records \
      -H 'accept: application/vnd.kafka.json.v2+json'

    The Kafka Bridge returns messages from the offset that you seeked to.

  3. Restore the default message retrieval behavior by seeking to the last offset for the same partition. This time, use the positions/end endpoint.

    curl -X POST http://localhost:8080/consumers/bridge-quickstart-consumer-group/instances/bridge-quickstart-consumer/positions/end \
      -H 'content-type: application/vnd.kafka.v2+json' \
      -d '{
        "partitions": [
            {
                "topic": "bridge-quickstart-topic",
                "partition": 0
            }
        ]
    }'

    If the request is successful, the Kafka Bridge returns another 204 code.

Note
You can also use the positions/beginning endpoint to seek to the first offset for one or more partitions.
What to do next

In this quickstart, you have used the Strimzi Kafka Bridge to perform several common operations on a Kafka cluster. You can now delete the Kafka Bridge consumer that you created earlier.

2.9. Deleting a Kafka Bridge consumer

Delete the Kafka Bridge consumer that you used throughout this quickstart.

Procedure
  • Delete the Kafka Bridge consumer by sending a DELETE request to the instances endpoint.

    curl -X DELETE http://localhost:8080/consumers/bridge-quickstart-consumer-group/instances/bridge-quickstart-consumer

    If the request is successful, the Kafka Bridge returns a 204 code.

3. Kafka Bridge configuration

Configure a deployment of the Kafka Bridge using configuration properties. Configure Kafka and specify the HTTP connection details needed to be able to interact with Kafka. You can also use configuration properties to enable and use distributed tracing with the Kafka Bridge. Distributed tracing allows you to track the progress of transactions between applications in a distributed system.

Note
Use the KafkaBridge resource to configure properties when you are running the Kafka Bridge on Kubernetes.

3.1. Configuring Kafka Bridge properties

This procedure describes how to configure the Kafka and HTTP connection properties used by the Kafka Bridge.

You configure the Kafka Bridge, as any other Kafka client, using appropriate prefixes for Kafka-related properties.

  • kafka. for general configuration that applies to producers and consumers, such as server connection and security.

  • kafka.consumer. for consumer-specific configuration passed only to the consumer.

  • kafka.producer. for producer-specific configuration passed only to the producer.

As well as enabling HTTP access to a Kafka cluster, HTTP properties provide the capability to enable and define access control for the Kafka Bridge through Cross-Origin Resource Sharing (CORS). CORS is a HTTP mechanism that allows browser access to selected resources from more than one origin. To configure CORS, you define a list of allowed resource origins and HTTP methods to access them. Additional HTTP headers in requests describe the CORS origins that are permitted access to the Kafka cluster.

Procedure
  1. Edit the application.properties file provided with the Kafka Bridge installation archive.

    Use the properties file to specify Kafka and HTTP-related properties.

    1. Configure standard Kafka-related properties, including properties specific to the Kafka consumers and producers.

      Use:

      • kafka.bootstrap.servers to define the host/port connections to the Kafka cluster

      • kafka.producer.acks to provide acknowledgments to the HTTP client

      • kafka.consumer.auto.offset.reset to determine how to manage reset of the offset in Kafka

        For more information on configuration of Kafka properties, see the Apache Kafka website

    2. Configure HTTP-related properties to enable HTTP access to the Kafka cluster.

      For example:

      bridge.id=my-bridge
      http.host=0.0.0.0
      http.port=8080 (1)
      http.cors.enabled=true (2)
      http.cors.allowedOrigins=https://strimzi.io (3)
      http.cors.allowedMethods=GET,POST,PUT,DELETE,OPTIONS,PATCH (4)
      1. The default HTTP configuration for the Kafka Bridge to listen on port 8080.

      2. Set to true to enable CORS.

      3. Comma-separated list of allowed CORS origins. You can use a URL or a Java regular expression.

      4. Comma-separated list of allowed HTTP methods for CORS.

  2. Save the configuration file.

3.2. Configuring distributed tracing

Enable distributed tracing to trace messages consumed and produced by the Kafka Bridge, and HTTP requests from client applications.

Properties to enable tracing are present in the application.properties file. To enable distributed tracing, do the following:

  • Set the bridge.tracing property value to enable the tracing you want to use. Possible values are jaeger and opentelemetry.

  • Set environment variables for tracing.

With the default configuration, OpenTelemetry tracing uses OTLP as the exporter protocol. By configuring the OTLP endpoint, you can still use a Jaeger backend instance to get traces.

Note
Jaeger has supported the OTLP protocol since version 1.35. Older Jaeger versions cannot get traces using the OTLP protocol.

OpenTelemetry and OpenTracing are API specifications for collecting tracing data as spans of metrics data. Spans represent a specific operation. A trace is a collection of one or more spans.

Traces are generated when the Kafka Bridge does the following:

  • Sends messages from Kafka to consumer HTTP clients

  • Receives messages from producer HTTP clients to send to Kafka

Jaeger implements the required APIs and presents visualizations of the trace data in its user interface for analysis.

To have end-to-end tracing, you must configure tracing in your HTTP clients.

Caution
The OpenTracing project is now archived, so Strimzi has deprecated support for OpenTracing. If possible, we will maintain the support for bridge.tracing=jaeger tracing until June 2023 and remove it afterwards. Please migrate to OpenTelemetry as soon as possible.
Procedure
  1. Edit the application.properties file provided with the Kafka Bridge installation archive.

    Use the bridge.tracing property to enable the tracing you want to use.

    Example configuration to enable OpenTelemetry
    #bridge.tracing=jaeger # (1)
    bridge.tracing=opentelemetry # (2)
    1. The property for enabling OpenTracing (deprecated). Here left commented.

    2. The property for enabling OpenTelemetry is uncommented.

    With tracing enabled, you initialize tracing when you run the Kafka Bridge script.

  2. Save the configuration file.

  3. Set the environment variables for tracing.

    Environment variables for OpenTelemetry
    OTEL_SERVICE_NAME=my-tracing-service # (1)
    OTEL_EXPORTER_OTLP_ENDPOINT=http://localhost:4317 # (2)
    1. The name of the OpenTelemetry tracer service.

    2. The gRPC-based OTLP endpoint that listens for spans on port 4317.

    Environment variables for OpenTracing
    JAEGER_SERVICE_NAME=my-jaeger-service # (1)
    JAEGER_AGENT_HOST=localhost # (2)
    JAEGER_AGENT_PORT=6831 # (3)
    1. The name of the OpenTracing Jaeger tracer service.

    2. The hostname for communicating with the Jaeger agent that listens for spans.

    3. The port for communicating with the Jaeger agent. Port 6831 is exposed by the Jaeger agent.

  4. Run the Kafka Bridge script with the property enabled for tracing:

    Running the Kafka Bridge with OpenTelemetry enabled
    ./bin/kafka_bridge_run.sh --config-file=<path>/application.properties

    The internal consumers and producers of the Kafka Bridge are now enabled for tracing.

3.2.1. Specifying tracing systems with OpenTelemetry

Instead of the default OTLP tracing system, you can specify other tracing systems that are supported by OpenTelemetry.

If you want to use another tracing system with OpenTelemetry, do the following:

  1. Add the library of the tracing system to the Kafka classpath.

  2. Add the name of the tracing system as an additional exporter environment variable.

    Additional environment variable when not using OTLP
    OTEL_SERVICE_NAME=my-tracing-service
    OTEL_TRACES_EXPORTER=zipkin # (1)
    OTEL_EXPORTER_ZIPKIN_ENDPOINT=http://localhost:9411/api/v2/spans (2)
    1. The name of the tracing system. In this example, Zipkin is specified.

    2. The endpoint of the specific selected exporter that listens for spans. In this example, a Zipkin endpoint is specified.

Additional resources

4. Strimzi Kafka Bridge API Reference

4.1. Overview

The Strimzi Kafka Bridge provides a REST API for integrating HTTP based client applications with a Kafka cluster. You can use the API to create and manage consumers and send and receive records over HTTP rather than the native Kafka protocol.

4.1.1. Version information

Version : 0.1.0

4.1.2. Tags

  • Consumers : Consumer operations to create consumers in your Kafka cluster and perform common actions, such as subscribing to topics, retrieving processed records, and committing offsets.

  • Producer : Producer operations to send records to a specified topic or topic partition.

  • Seek : Seek operations that enable a consumer to begin receiving messages from a given offset position.

  • Topics : Topic operations to send messages to a specified topic or topic partition, optionally including message keys in requests. You can also retrieve topics and topic metadata.

4.1.3. Consumes

  • application/json

4.1.4. Produces

  • application/json

4.2. Definitions

4.2.1. AssignedTopicPartitions

Type : < string, < integer (int32) > array > map

4.2.2. BridgeInfo

Information about Kafka Bridge instance.

Name Schema

bridge_version
optional

string

4.2.3. Consumer

Name Description Schema

auto.offset.reset
optional

Resets the offset position for the consumer. If set to latest (default), messages are read from the latest offset. If set to earliest, messages are read from the first offset.

string

consumer.request.timeout.ms
optional

Sets the maximum amount of time, in milliseconds, for the consumer to wait for messages for a request. If the timeout period is reached without a response, an error is returned. Default is 30000 (30 seconds).

integer

enable.auto.commit
optional

If set to true (default), message offsets are committed automatically for the consumer. If set to false, message offsets must be committed manually.

boolean

fetch.min.bytes
optional

Sets the minimum amount of data, in bytes, for the consumer to receive. The broker waits until the data to send exceeds this amount. Default is 1 byte.

integer

format
optional

The allowable message format for the consumer, which can be binary (default) or json. The messages are converted into a JSON format.

string

isolation.level
optional

If set to read_uncommitted (default), all transaction records are retrieved, indpendent of any transaction outcome. If set to read_committed, the records from committed transactions are retrieved.

string

name
optional

The unique name for the consumer instance. The name is unique within the scope of the consumer group. The name is used in URLs. If a name is not specified, a randomly generated name is assigned.

string

4.2.4. ConsumerRecord

Name Schema

headers
optional

offset
optional

integer (int64)

partition
optional

integer (int32)

topic
optional

string

4.2.6. CreatedConsumer

Name Description Schema

base_uri
optional

Base URI used to construct URIs for subsequent requests against this consumer instance.

string

instance_id
optional

Unique ID for the consumer instance in the group.

string

4.2.7. Error

Name Schema

error_code
optional

integer (int32)

message
optional

string

4.2.8. KafkaHeader

Name Description Schema

key
required

string

value
required

The header value in binary format, base64-encoded
Pattern : "^(?:[A-Za-z0-9+/]{4})*(?:[A-Za-z0-9+/]{2}==|[A-Za-z0-9+/]{3}=)?$"

string (byte)

4.2.10. OffsetCommitSeek

Name Schema

offset
required

integer (int64)

partition
required

integer (int32)

topic
required

string

4.2.11. OffsetCommitSeekList

Name Schema

offsets
optional

< OffsetCommitSeek > array

4.2.12. OffsetRecordSent

Name Schema

offset
optional

integer (int64)

partition
optional

integer (int32)

4.2.13. OffsetRecordSentList

Name Schema

offsets
optional

< OffsetRecordSent > array

4.2.14. OffsetsSummary

Name Schema

beginning_offset
optional

integer (int64)

end_offset
optional

integer (int64)

4.2.15. Partition

Name Schema

partition
optional

integer (int32)

topic
optional

string

4.2.16. PartitionMetadata

Name Schema

leader
optional

integer (int32)

partition
optional

integer (int32)

replicas
optional

< Replica > array

4.2.17. Partitions

Name Schema

partitions
optional

< Partition > array

4.2.18. ProducerRecord

Name Schema

headers
optional

partition
optional

integer (int32)

4.2.19. ProducerRecordList

Name Schema

records
optional

< ProducerRecord > array

4.2.20. ProducerRecordToPartition

Name Schema

headers
optional

4.2.21. ProducerRecordToPartitionList

Name Schema

records
optional

4.2.22. Replica

Name Schema

broker
optional

integer (int32)

in_sync
optional

boolean

leader
optional

boolean

4.2.23. SubscribedTopicList

Name Schema

partitions
optional

topics
optional

4.2.24. TopicMetadata

Name Description Schema

configs
optional

Per-topic configuration overrides

< string, string > map

name
optional

Name of the topic

string

partitions
optional

< PartitionMetadata > array

4.2.25. Topics

Name Description Schema

topic_pattern
optional

A regex topic pattern for matching multiple topics

string

topics
optional

< string > array

4.3. Paths

4.3.1. GET /

Description

Retrieves information about the Kafka Bridge instance, in JSON format.

Responses
HTTP Code Description Schema

200

Information about Kafka Bridge instance.

Produces
  • application/json

Example HTTP response
Response 200
{
  "bridge_version" : "0.16.0"
}

4.3.2. POST /consumers/{groupid}

Description

Creates a consumer instance in the given consumer group. You can optionally specify a consumer name and supported configuration options. It returns a base URI which must be used to construct URLs for subsequent requests against this consumer instance.

Parameters
Type Name Description Schema

Path

groupid
required

ID of the consumer group in which to create the consumer.

string

Body

body
required

Name and configuration of the consumer. The name is unique within the scope of the consumer group. If a name is not specified, a randomly generated name is assigned. All parameters are optional. The supported configuration options are shown in the following example.

Responses
HTTP Code Description Schema

200

Consumer created successfully.

409

A consumer instance with the specified name already exists in the Kafka Bridge.

422

One or more consumer configuration options have invalid values.

Consumes
  • application/vnd.kafka.v2+json

Produces
  • application/vnd.kafka.v2+json

Tags
  • Consumers

Example HTTP request
Request body
{
  "name" : "consumer1",
  "format" : "binary",
  "auto.offset.reset" : "earliest",
  "enable.auto.commit" : false,
  "fetch.min.bytes" : 512,
  "consumer.request.timeout.ms" : 30000,
  "isolation.level" : "read_committed"
}
Example HTTP response
Response 200
{
  "instance_id" : "consumer1",
  "base_uri" : "http://localhost:8080/consumers/my-group/instances/consumer1"
}
Response 409
{
  "error_code" : 409,
  "message" : "A consumer instance with the specified name already exists in the Kafka Bridge."
}
Response 422
{
  "error_code" : 422,
  "message" : "One or more consumer configuration options have invalid values."
}

4.3.3. DELETE /consumers/{groupid}/instances/{name}

Description

Deletes a specified consumer instance. The request for this operation MUST use the base URL (including the host and port) returned in the response from the POST request to /consumers/{groupid} that was used to create this consumer.

Parameters
Type Name Description Schema

Path

groupid
required

ID of the consumer group to which the consumer belongs.

string

Path

name
required

Name of the consumer to delete.

string

Responses
HTTP Code Description Schema

204

Consumer removed successfully.

No Content

404

The specified consumer instance was not found.

Consumes
  • application/vnd.kafka.v2+json

Produces
  • application/vnd.kafka.v2+json

Tags
  • Consumers

Example HTTP response
Response 404
{
  "error_code" : 404,
  "message" : "The specified consumer instance was not found."
}

4.3.4. POST /consumers/{groupid}/instances/{name}/assignments

Description

Assigns one or more topic partitions to a consumer.

Parameters
Type Name Description Schema

Path

groupid
required

ID of the consumer group to which the consumer belongs.

string

Path

name
required

Name of the consumer to assign topic partitions to.

string

Body

body
required

List of topic partitions to assign to the consumer.

Responses
HTTP Code Description Schema

204

Partitions assigned successfully.

No Content

404

The specified consumer instance was not found.

409

Subscriptions to topics, partitions, and patterns are mutually exclusive.

Consumes
  • application/vnd.kafka.v2+json

Produces
  • application/vnd.kafka.v2+json

Tags
  • Consumers

Example HTTP request
Request body
{
  "partitions" : [ {
    "topic" : "topic",
    "partition" : 0
  }, {
    "topic" : "topic",
    "partition" : 1
  } ]
}
Example HTTP response
Response 404
{
  "error_code" : 404,
  "message" : "The specified consumer instance was not found."
}
Response 409
{
  "error_code" : 409,
  "message" : "Subscriptions to topics, partitions, and patterns are mutually exclusive."
}

4.3.5. POST /consumers/{groupid}/instances/{name}/offsets

Description

Commits a list of consumer offsets. To commit offsets for all records fetched by the consumer, leave the request body empty.

Parameters
Type Name Description Schema

Path

groupid
required

ID of the consumer group to which the consumer belongs.

string

Path

name
required

Name of the consumer.

string

Body

body
optional

List of consumer offsets to commit to the consumer offsets commit log. You can specify one or more topic partitions to commit offsets for.

Responses
HTTP Code Description Schema

204

Commit made successfully.

No Content

404

The specified consumer instance was not found.

Consumes
  • application/vnd.kafka.v2+json

Produces
  • application/vnd.kafka.v2+json

Tags
  • Consumers

Example HTTP request
Request body
{
  "offsets" : [ {
    "topic" : "topic",
    "partition" : 0,
    "offset" : 15
  }, {
    "topic" : "topic",
    "partition" : 1,
    "offset" : 42
  } ]
}
Example HTTP response
Response 404
{
  "error_code" : 404,
  "message" : "The specified consumer instance was not found."
}

4.3.6. POST /consumers/{groupid}/instances/{name}/positions

Description

Configures a subscribed consumer to fetch offsets from a particular offset the next time it fetches a set of records from a given topic partition. This overrides the default fetch behavior for consumers. You can specify one or more topic partitions.

Parameters
Type Name Description Schema

Path

groupid
required

ID of the consumer group to which the consumer belongs.

string

Path

name
required

Name of the subscribed consumer.

string

Body

body
required

List of partition offsets from which the subscribed consumer will next fetch records.

Responses
HTTP Code Description Schema

204

Seek performed successfully.

No Content

404

The specified consumer instance was not found, or the specified consumer instance did not have one of the specified partitions assigned.

Consumes
  • application/vnd.kafka.v2+json

Produces
  • application/vnd.kafka.v2+json

Tags
  • Consumers

  • Seek

Example HTTP request
Request body
{
  "offsets" : [ {
    "topic" : "topic",
    "partition" : 0,
    "offset" : 15
  }, {
    "topic" : "topic",
    "partition" : 1,
    "offset" : 42
  } ]
}
Example HTTP response
Response 404
{
  "error_code" : 404,
  "message" : "The specified consumer instance was not found."
}

4.3.7. POST /consumers/{groupid}/instances/{name}/positions/beginning

Description

Configures a subscribed consumer to seek (and subsequently read from) the first offset in one or more given topic partitions.

Parameters
Type Name Description Schema

Path

groupid
required

ID of the consumer group to which the subscribed consumer belongs.

string

Path

name
required

Name of the subscribed consumer.

string

Body

body
required

List of topic partitions to which the consumer is subscribed. The consumer will seek the first offset in the specified partitions.

Responses
HTTP Code Description Schema

204

Seek to the beginning performed successfully.

No Content

404

The specified consumer instance was not found, or the specified consumer instance did not have one of the specified partitions assigned.

Consumes
  • application/vnd.kafka.v2+json

Produces
  • application/vnd.kafka.v2+json

Tags
  • Consumers

  • Seek

Example HTTP request
Request body
{
  "partitions" : [ {
    "topic" : "topic",
    "partition" : 0
  }, {
    "topic" : "topic",
    "partition" : 1
  } ]
}
Example HTTP response
Response 404
{
  "error_code" : 404,
  "message" : "The specified consumer instance was not found."
}

4.3.8. POST /consumers/{groupid}/instances/{name}/positions/end

Description

Configures a subscribed consumer to seek (and subsequently read from) the offset at the end of one or more of the given topic partitions.

Parameters
Type Name Description Schema

Path

groupid
required

ID of the consumer group to which the subscribed consumer belongs.

string

Path

name
required

Name of the subscribed consumer.

string

Body

body
optional

List of topic partitions to which the consumer is subscribed. The consumer will seek the last offset in the specified partitions.

Responses
HTTP Code Description Schema

204

Seek to the end performed successfully.

No Content

404

The specified consumer instance was not found, or the specified consumer instance did not have one of the specified partitions assigned.

Consumes
  • application/vnd.kafka.v2+json

Produces
  • application/vnd.kafka.v2+json

Tags
  • Consumers

  • Seek

Example HTTP request
Request body
{
  "partitions" : [ {
    "topic" : "topic",
    "partition" : 0
  }, {
    "topic" : "topic",
    "partition" : 1
  } ]
}
Example HTTP response
Response 404
{
  "error_code" : 404,
  "message" : "The specified consumer instance was not found."
}

4.3.9. GET /consumers/{groupid}/instances/{name}/records

Description

Retrieves records for a subscribed consumer, including message values, topics, and partitions. The request for this operation MUST use the base URL (including the host and port) returned in the response from the POST request to /consumers/{groupid} that was used to create this consumer.

Parameters
Type Name Description Schema

Path

groupid
required

ID of the consumer group to which the subscribed consumer belongs.

string

Path

name
required

Name of the subscribed consumer to retrieve records from.

string

Query

max_bytes
optional

The maximum size, in bytes, of unencoded keys and values that can be included in the response. Otherwise, an error response with code 422 is returned.

integer

Query

timeout
optional

The maximum amount of time, in milliseconds, that the HTTP Bridge spends retrieving records before timing out the request.

integer

Responses
HTTP Code Description Schema

200

Poll request executed successfully.

404

The specified consumer instance was not found.

406

The format used in the consumer creation request does not match the embedded format in the Accept header of this request or the bridge got a message from the topic which is not JSON encoded.

422

Response exceeds the maximum number of bytes the consumer can receive

Produces
  • application/vnd.kafka.json.v2+json

  • application/vnd.kafka.binary.v2+json

  • application/vnd.kafka.v2+json

Tags
  • Consumers

Example HTTP response
Response 200
[ {
  "topic" : "topic",
  "key" : "key1",
  "value" : {
    "foo" : "bar"
  },
  "partition" : 0,
  "offset" : 2
}, {
  "topic" : "topic",
  "key" : "key2",
  "value" : [ "foo2", "bar2" ],
  "partition" : 1,
  "offset" : 3
} ]
[
  {
    "topic": "test",
    "key": "a2V5",
    "value": "Y29uZmx1ZW50",
    "partition": 1,
    "offset": 100,
  },
  {
    "topic": "test",
    "key": "a2V5",
    "value": "a2Fma2E=",
    "partition": 2,
    "offset": 101,
  }
]
Response 404
{
  "error_code" : 404,
  "message" : "The specified consumer instance was not found."
}
Response 406
{
  "error_code" : 406,
  "message" : "The `format` used in the consumer creation request does not match the embedded format in the Accept header of this request."
}
Response 422
{
  "error_code" : 422,
  "message" : "Response exceeds the maximum number of bytes the consumer can receive"
}

4.3.10. POST /consumers/{groupid}/instances/{name}/subscription

Description

Subscribes a consumer to one or more topics. You can describe the topics to which the consumer will subscribe in a list (of Topics type) or as a topic_pattern field. Each call replaces the subscriptions for the subscriber.

Parameters
Type Name Description Schema

Path

groupid
required

ID of the consumer group to which the subscribed consumer belongs.

string

Path

name
required

Name of the consumer to subscribe to topics.

string

Body

body
required

List of topics to which the consumer will subscribe.

Responses
HTTP Code Description Schema

204

Consumer subscribed successfully.

No Content

404

The specified consumer instance was not found.

409

Subscriptions to topics, partitions, and patterns are mutually exclusive.

422

A list (of Topics type) or a topic_pattern must be specified.

Consumes
  • application/vnd.kafka.v2+json

Produces
  • application/vnd.kafka.v2+json

Tags
  • Consumers

Example HTTP request
Request body
{
  "topics" : [ "topic1", "topic2" ]
}
Example HTTP response
Response 404
{
  "error_code" : 404,
  "message" : "The specified consumer instance was not found."
}
Response 409
{
  "error_code" : 409,
  "message" : "Subscriptions to topics, partitions, and patterns are mutually exclusive."
}
Response 422
{
  "error_code" : 422,
  "message" : "A list (of Topics type) or a topic_pattern must be specified."
}

4.3.11. GET /consumers/{groupid}/instances/{name}/subscription

Description

Retrieves a list of the topics to which the consumer is subscribed.

Parameters
Type Name Description Schema

Path

groupid
required

ID of the consumer group to which the subscribed consumer belongs.

string

Path

name
required

Name of the subscribed consumer.

string

Responses
HTTP Code Description Schema

200

List of subscribed topics and partitions.

404

The specified consumer instance was not found.

Produces
  • application/vnd.kafka.v2+json

Tags
  • Consumers

Example HTTP response
Response 200
{
  "topics" : [ "my-topic1", "my-topic2" ],
  "partitions" : [ {
    "my-topic1" : [ 1, 2, 3 ]
  }, {
    "my-topic2" : [ 1 ]
  } ]
}
Response 404
{
  "error_code" : 404,
  "message" : "The specified consumer instance was not found."
}

4.3.12. DELETE /consumers/{groupid}/instances/{name}/subscription

Description

Unsubscribes a consumer from all topics.

Parameters
Type Name Description Schema

Path

groupid
required

ID of the consumer group to which the subscribed consumer belongs.

string

Path

name
required

Name of the consumer to unsubscribe from topics.

string

Responses
HTTP Code Description Schema

204

Consumer unsubscribed successfully.

No Content

404

The specified consumer instance was not found.

Tags
  • Consumers

Example HTTP response
Response 404
{
  "error_code" : 404,
  "message" : "The specified consumer instance was not found."
}

4.3.13. GET /healthy

Description

Check if the bridge is running. This does not necessarily imply that it is ready to accept requests.

Responses
HTTP Code Description Schema

204

The bridge is healthy

No Content

500

The bridge is not healthy

No Content

4.3.14. GET /metrics

Description

Retrieves the bridge metrics in Prometheus format.

Responses
HTTP Code Description Schema

200

Metrics in Prometheus format retrieved successfully.

string

Produces
  • text/plain

4.3.15. GET /openapi

Description

Retrieves the OpenAPI v2 specification in JSON format.

Responses
HTTP Code Description Schema

204

OpenAPI v2 specification in JSON format retrieved successfully.

string

Produces
  • application/json

4.3.16. GET /ready

Description

Check if the bridge is ready and can accept requests.

Responses
HTTP Code Description Schema

204

The bridge is ready

No Content

500

The bridge is not ready

No Content

4.3.17. GET /topics

Description

Retrieves a list of all topics.

Responses
HTTP Code Description Schema

200

List of topics.

< string > array

Produces
  • application/vnd.kafka.v2+json

Tags
  • Topics

Example HTTP response
Response 200
[ "topic1", "topic2" ]

4.3.18. POST /topics/{topicname}

Description

Sends one or more records to a given topic, optionally specifying a partition, key, or both.

Parameters
Type Name Description Schema

Path

topicname
required

Name of the topic to send records to or retrieve metadata from.

string

Query

async
optional

Whether to return immediately upon sending records, instead of waiting for metadata. No offsets will be returned if specified. Defaults to false.

boolean

Body

body
required

Responses
HTTP Code Description Schema

200

Records sent successfully.

404

The specified topic was not found.

422

The record list is not valid.

Consumes
  • application/vnd.kafka.json.v2+json

  • application/vnd.kafka.binary.v2+json

Produces
  • application/vnd.kafka.v2+json

Tags
  • Producer

  • Topics

Example HTTP request
Request body
{
  "records" : [ {
    "key" : "key1",
    "value" : "value1"
  }, {
    "value" : "value2",
    "partition" : 1
  }, {
    "value" : "value3"
  } ]
}
Example HTTP response
Response 200
{
  "offsets" : [ {
    "partition" : 2,
    "offset" : 0
  }, {
    "partition" : 1,
    "offset" : 1
  }, {
    "partition" : 2,
    "offset" : 2
  } ]
}
Response 404
{
  "error_code" : 404,
  "message" : "The specified topic was not found."
}
Response 422
{
  "error_code" : 422,
  "message" : "The record list contains invalid records."
}

4.3.19. GET /topics/{topicname}

Description

Retrieves the metadata about a given topic.

Parameters
Type Name Description Schema

Path

topicname
required

Name of the topic to send records to or retrieve metadata from.

string

Responses
HTTP Code Description Schema

200

Topic metadata

Produces
  • application/vnd.kafka.v2+json

Tags
  • Topics

Example HTTP response
Response 200
{
  "name" : "topic",
  "offset" : 2,
  "configs" : {
    "cleanup.policy" : "compact"
  },
  "partitions" : [ {
    "partition" : 1,
    "leader" : 1,
    "replicas" : [ {
      "broker" : 1,
      "leader" : true,
      "in_sync" : true
    }, {
      "broker" : 2,
      "leader" : false,
      "in_sync" : true
    } ]
  }, {
    "partition" : 2,
    "leader" : 2,
    "replicas" : [ {
      "broker" : 1,
      "leader" : false,
      "in_sync" : true
    }, {
      "broker" : 2,
      "leader" : true,
      "in_sync" : true
    } ]
  } ]
}

4.3.20. GET /topics/{topicname}/partitions

Description

Retrieves a list of partitions for the topic.

Parameters
Type Name Description Schema

Path

topicname
required

Name of the topic to send records to or retrieve metadata from.

string

Responses
HTTP Code Description Schema

200

List of partitions

< PartitionMetadata > array

404

The specified topic was not found.

Produces
  • application/vnd.kafka.v2+json

Tags
  • Topics

Example HTTP response
Response 200
[ {
  "partition" : 1,
  "leader" : 1,
  "replicas" : [ {
    "broker" : 1,
    "leader" : true,
    "in_sync" : true
  }, {
    "broker" : 2,
    "leader" : false,
    "in_sync" : true
  } ]
}, {
  "partition" : 2,
  "leader" : 2,
  "replicas" : [ {
    "broker" : 1,
    "leader" : false,
    "in_sync" : true
  }, {
    "broker" : 2,
    "leader" : true,
    "in_sync" : true
  } ]
} ]
Response 404
{
  "error_code" : 404,
  "message" : "The specified topic was not found."
}

4.3.21. POST /topics/{topicname}/partitions/{partitionid}

Description

Sends one or more records to a given topic partition, optionally specifying a key.

Parameters
Type Name Description Schema

Path

partitionid
required

ID of the partition to send records to or retrieve metadata from.

integer

Path

topicname
required

Name of the topic to send records to or retrieve metadata from.

string

Query

async
optional

Whether to return immediately upon sending records, instead of waiting for metadata. No offsets will be returned if specified. Defaults to false.

boolean

Body

body
required

List of records to send to a given topic partition, including a value (required) and a key (optional).

Responses
HTTP Code Description Schema

200

Records sent successfully.

404

The specified topic partition was not found.

422

The record is not valid.

Consumes
  • application/vnd.kafka.json.v2+json

  • application/vnd.kafka.binary.v2+json

Produces
  • application/vnd.kafka.v2+json

Tags
  • Producer

  • Topics

Example HTTP request
Request body
{
  "records" : [ {
    "key" : "key1",
    "value" : "value1"
  }, {
    "value" : "value2"
  } ]
}
Example HTTP response
Response 200
{
  "offsets" : [ {
    "partition" : 2,
    "offset" : 0
  }, {
    "partition" : 1,
    "offset" : 1
  }, {
    "partition" : 2,
    "offset" : 2
  } ]
}
Response 404
{
  "error_code" : 404,
  "message" : "The specified topic partition was not found."
}
Response 422
{
  "error_code" : 422,
  "message" : "The record is not valid."
}

4.3.22. GET /topics/{topicname}/partitions/{partitionid}

Description

Retrieves partition metadata for the topic partition.

Parameters
Type Name Description Schema

Path

partitionid
required

ID of the partition to send records to or retrieve metadata from.

integer

Path

topicname
required

Name of the topic to send records to or retrieve metadata from.

string

Responses
HTTP Code Description Schema

200

Partition metadata

404

The specified topic partition was not found.

Produces
  • application/vnd.kafka.v2+json

Tags
  • Topics

Example HTTP response
Response 200
{
  "partition" : 1,
  "leader" : 1,
  "replicas" : [ {
    "broker" : 1,
    "leader" : true,
    "in_sync" : true
  }, {
    "broker" : 2,
    "leader" : false,
    "in_sync" : true
  } ]
}
Response 404
{
  "error_code" : 404,
  "message" : "The specified topic partition was not found."
}

4.3.23. GET /topics/{topicname}/partitions/{partitionid}/offsets

Description

Retrieves a summary of the offsets for the topic partition.

Parameters
Type Name Description Schema

Path

partitionid
required

ID of the partition.

integer

Path

topicname
required

Name of the topic containing the partition.

string

Responses
HTTP Code Description Schema

200

A summary of the offsets for the topic partition.

404

The specified topic partition was not found.

Produces
  • application/vnd.kafka.v2+json

Tags
  • Topics

Example HTTP response
Response 200
{
  "beginning_offset" : 10,
  "end_offset" : 50
}
Response 404
{
  "error_code" : 404,
  "message" : "The specified topic partition was not found."
}

Revised on 2023-07-25 14:57:21 UTC