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willa CircleCI Clojars Project

Alpha

Willa provides a data-driven DSL on top of the Kafka Streams DSL, inspired by Onyx. It uses Jackdaw under the hood.

Willa is named after Willa Muir, who translated Kafka's "The Metamorphosis". Her husband Edwin was also involved, but apparently he "only helped".

Rationale

The Kafka Streams DSL is very "Javaish". It uses a KStreamsBuilder object to build topologies, which operates by in-place mutation. This has all the usual disadvantages of mutability, including making topologies difficult to compose, test, and visualise. The built topology is represented as a ProcessorTopology object, which can theoretically be used to manipulate the topology. However, it is extremely difficult to work with in practice - not least because the ProcessorTopology class isn't documented. The KStreamsBuilder API also re-implements many of the stateless transformation functions from the core Clojure library (map, filter, mapcat, etc.), encouraging needless code duplication.

Willa aims to provide an immutable, data-driven DSL (inspired by Onyx) on top of the Kafka Streams DSL. It represents all aspects of your topology as Clojure data structures and functions. This makes topologies far easier to manipulate and compose. For example, if you want to log every message that is published to output topics, you can write a generic pure function to transform a Willa topology to achieve this. It also enables you to visualise your topology using GraphViz, which is very useful for reasoning about how a topology works, and also for documentation purposes.

Willa uses transducers for stateless transformations, as opposed to a separate API like with the KStreamsBuilder. Transducers are far more composable, and allow you to re-use code far more effectively. They also enable you to test your transformation logic completely independently of Kafka (and Willa).

Willa also provides a mechanism for experimenting with a topology from the repl, and seeing how data flows through it. It can also be used for unit testing. This mechanism is similar in scope to Kafka's TestTopologyDriver, but has a few advantages:

  1. It gives you the output data of each individual KStream/KTable/topic within your topology, instead of just the data on the output topics.
  2. It enables you to visualise the data flow using GraphViz.
  3. It is faster, and doesn't persist anything on disk.

Getting Started

Willa represents your topology as a map, containing 3 keys:

  • :entities - an entity is a map containing information about a topic, KStream, or KTable. The :entities map is a map of identifier to entity.
  • :workflow - a vector of tuples of [input-entity-id output-entity-id], similar to a workflow in Onyx.
  • :joins - this is a map representing all the joins/merges in your topology as data. It is a map of a vector of entity names involved in the join, to a join config.

This may sound confusing, but let's try to clear things up with a simple example. Before we start, make sure you have a Kafka broker running locally, either using the Confluent distribution or Landoop's fast-data-dev docker image. Also, if you don't have an existing application, create one by running lein new my-cool-app.

Say we want a topology that simply reads messages from an input topic, increments the value, then writes to an output topic. The topology would look like this:

Simple Topology

Start by adding [willa "0.1.0"] to your project.clj. Next, we'll require some necessary namespaces:

(ns my-cool-app.core
  (:require [jackdaw.streams :as streams]
            [jackdaw.serdes.edn :as serdes.edn]
            [willa.core :as w]))

We then create the workflow like so:

(def workflow
  [[:input-topic :increment-stream]
   [:increment-stream :output-topic]])

You can see that data will flow from the :input-topic to the :increment-stream, then from :increment-stream to the :output-topic. Now we need to tell Willa what exactly the :input-topic, :increment-stream and :output-topic entities are. To do this, we'll create the entity config map. It looks like this:

(def entities
  {:input-topic {::w/entity-type :topic
                 :topic-name "input-topic"
                 :replication-factor 1
                 :partition-count 1
                 :key-serde (serdes.edn/serde)
                 :value-serde (serdes.edn/serde)}
   :increment-stream {::w/entity-type :kstream
                      :willa.core/xform (map (fn [[k v]] [k (inc v)])) ;; Note that the mapping function expects a key-value tuple
                      }
   :output-topic {::w/entity-type :topic
                  :topic-name "output-topic"
                  :replication-factor 1
                  :partition-count 1
                  :key-serde (serdes.edn/serde)
                  :value-serde (serdes.edn/serde)}})

That's all the data Willa needs to build your topology! To get our topology up and running, we'll follow these steps:

  1. Create a KStreamsBuilder object
  2. Call the willa.core/build-topology! function, passing it the builder, workflow, and entities
  3. Create a KafkaStreams object from the builder
  4. Call start on it

The code looks like this:

(def app-config
  {"application.id" "my-cool-app"
   "bootstrap.servers" "localhost:9092"
   "cache.max.bytes.buffering" "0"})

(def topology 
  {:workflow workflow
   :entities entities})

(defn start! []
  (let [builder   (doto (streams/streams-builder) ;; step 1
                     (w/build-topology! topology)) ;; step 2
         kstreams-app (streams/kafka-streams builder app-config) ;; step 3
         ]
    (streams/start kstreams-app) ;; step 4
    kstreams-app))

You can verify that it works by running the following commands in your repl:

(require 'jackdaw.client
         'jackdaw.admin
         'willa.streams)

(def admin-client (jackdaw.admin/->AdminClient app-config))       
;; create the input and output topics
(jackdaw.admin/create-topics! admin-client [(:input-topic entities) (:output-topic entities)])

;; start the topology
(def kstreams-app (start!))

;; create a Kafka Producer, and produce a message with value 1 to the input topic
(def producer (jackdaw.client/producer app-config
                                       willa.streams/default-serdes))                           
@(jackdaw.client/send! producer (jackdaw.data/->ProducerRecord (:input-topic entities) "key" 1))  
                                     
;; create a Kafka Consumer, and consume everything from the output topic                                     
(def consumer (jackdaw.client/consumer (assoc app-config "group.id" "consumer")
                                              willa.streams/default-serdes))
(jackdaw.client/subscribe consumer [(:output-topic entities)])
(jackdaw.client/seek-to-beginning-eager consumer)

;; should return something like: [{:key "key" :value 2}] 
(->> (jackdaw.client/poll consumer 200)
     (map #(select-keys % [:key :value])))                                           

Going Further

One of the cool features of Willa is that you can visualise your topology. To do this, first make sure you have graphviz installed, then run these commands in your repl:

(require 'willa.viz)

(willa.viz/view-topology topology)

A diagram of your topology should pop up in a separate window.

You can also use Willa to experiment with your Topology. For instance, you might want to know what would happen if you receive a message with value 1. To do this, we'll use the run-experiment function in the willa.experiment namespace. This function takes a topology and a map of entity id to records. Each record must contain the :key, :value, and :timestamp keys. The code looks like this:

(require 'willa.experiment)

(def experiment-results
  ;; should return the topology map, but with each entity updated with a :willa.experiment/output key
  (willa.experiment/run-experiment topology
                                   {:input-topic [{:key "some-key"
                                                   :value 1
                                                   :timestamp 0}]}))
                                                 
;; you can now visualise how data flows through the topology in a diagram
(willa.viz/view-topology experiment-results)                                              

Reference

Entity Config

KeyRequired?Valid Entity TypesDescription
:willa.core/entity-typeAllThe type of the entity. Can be one of: :topic, :kstream, :ktable, or :global-ktable
:topic-name:topicThe name of the topic
:key-serde:topicThe serde to use to serialize/deserialize the keys of records on the topic
:value-serde:topicThe serde to use to serialize/deserialize the values of records on the topic
:willa.core/xform:kstreamA transducer to apply to the KStream
:willa.core/group-by-fn:ktableA function which takes a key-value pair, and returns the key of the group. If this key is present, :willa.core/aggregate-adder-fn and :willa.core/aggregate-initial-value must also be provided.
:willa.core/window:ktableThe windowing to apply after grouping the input records. Should be either a Windows or a SessionWindows object. If this key is present, :willa.core/group-by must also be provided. Will cause the input to be coerced to a KStream
:willa.core/aggregate-initial-value:ktableThe initial value to use in an aggregation. Must be provided if :willa.core/aggregate-adder-fn is present
:willa.core/aggregate-adder-fn:ktableThe aggregator function if the input is a KStream, or the "adder" function if it is a KTable. If this key is present, :willa.core/group-by must also be provided.
:willa.core/aggregate-subtractor-fn:ktableThe aggregate "subtractor" function, only valid if the input is a KTable. If this key is present, :willa.core/group-by must also be provided.
:willa.core/suppression:ktableA Suppressed object that determines how updates to the KTable are emitted. See the Kafka Streams docs for more info

Join Config

KeyDescription
:willa.core/join-typeThe type of the join. Can be one of :merge, :left, :inner or :outer.
:willa.core/windowA JoinWindows object that specifies the windowing to be used in the join. Not used when the join type is :merge or when joining a :kstream and a :global-ktable
:willa.core/kv-mapperThe kv-mapper function to use when joining a :kstream with a :global-ktable. Extracts a key of the GlobalKTable from each [k v] of the stream. If not specified, the key of the stream is used. Not used when joining other kinds of objects. See the Kafka Streams docs for more info

License

This program and the accompanying materials are made available under the terms of the GPL V3 license, which is available at https://www.gnu.org/licenses/gpl-3.0.en.html.

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