Aims to provide an idiomatic Elixir interface to the Kafka protocol.
This work is based on kafka_protocol for Erlang, which is used in brod. It is built to work with KafkaEx though there is no reason why it couldn't be used elsewhere.
Kayrock generates structs for every version of every message in the Kafka
protocol. It does this by converting the Erlang-based schema descriptions in
:kpro_schema
from the kafka_protocol
library and is therefore limited to
messages and versions included there. Each request message has a serializer
(that generates iodata), and each response message has a deserializer. There is
also a protocol, Kayrock.Request
, that has an implementation created for each
request. The Kayrock.Request
protocol defines a serializer as well as a
response deserializer factory.
This repo includes a mix task, mix gen.kafka_protocol
, that produces the code
in lib/generated
. I chose to check the generated code into the repository to
simplify its use. End users should not need to run the mix task unless they are
doing development on Kayrock itself.
The generated structs are namespaced as follows: Kayrock.<api>.V<version number>.[Request|Response]
. For example, the version 4 fetch api corresponds
to Kayrock.Fetch.V4.Request
and Kayrock.Fetch.V4.Response
.
An example of basic usage, taken (and modified) from
Kayrock.broker_sync_call/2
:
alias Kayrock.Request
request = %Kayrock.ApiVersions.V1.Request{client_id: "some_client", correlation_id: 0}
# wire_protocol will be iodata representing the serialized request
wire_protocol = Request.serialize(request)
# implementation-specific network request/response handling
:ok = BrokerConnection.send(broker_pid, wire_protocol)
{:ok, resp} = BrokerConnection.recv(broker_pid)
# response_deserializer will be a function that accepts binary data and
# returns {%Kayrock.ApiVersions.V1.Response{}, rest} where rest is any
# extra binary data in the response
response_deserializer = Request.response_deserializer(request)
{deserialized_resp, _} = response_deserializer.(resp)
# deserialized_resp will be a %Kayrock.ApiVersions.V1.Response{} representing
# the api versions supported by the broker
Currently Kayrock is supporting two types of compression: snappy or gzip
For snappy compression by default will be used snappy-erlang-nif but this is deprecated in favor for snappyer which is way more popular.
To change compression library change config from
config :kayrock, snappy_module: :snappy
to
config :kayrock, snappy_module: :snappyer
Kayrock uses only the kpro_schema
module from kafka_protocol
.
kafka_protocol
provides quite a lot of functionality (especially when used as
part of brod
). This repo chooses to limit the integration surface between
itself and kafka_protocol
because
kafka_protocol
produces Erlang records whereas Kayrock aims to provide Elixir structs.kafka_protocol
provides network-level implementation whereas Kayrock is intended to only provide serialization and deserialization of the protocol.kpro_schema
is itself automatically generated from the Java source code of Kafka, meaning that Kayrock could feasibly reproduce this without needing an intermediate dependency.
This is in no way meant to detract from the great work that the
kafka_protocol
/brod
team has done. I have simply chosen a different path
here.
You will notice that in this repo there is also a lightweight implementation of a Kafka client. This serves a few purposes:
- To help with the development of the Kayrock protocol API.
- To allow for testing against a server without creating a circular dependency on KafkaEx.
- Because I want to mess around with it.
Regardless, it is not a production-ready implementation. I would refer you to KafkaEx or brod for that.
Kayrock includes a test suite that checks that the generated code is correct. We have both unit tests and integration tests.
The unit tests are run as part of the normal mix test process. To run unit tests
mix test
The integration tests require a running docker, currently we are using docker-compose to run a kafka cluster. But we are in a process of migrating to use testcontainers to run kafka cluster.
To run original integration tests
mix test --include integration
To run integration tests with testcontainers
mix test.integration