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Kafka Connect Twitter

A Kafka Connect for Twitter. Both a source (from Twitter to Kafka) and sink (from Kafka to Twitter) are provided:

  • The sink receives plain strings from Kafka, which are tweeted using Twitter4j;
  • The source receives tweets from the Twitter Streaming API using Hosebird, which are fed into Kafka either as a TwitterStatus structure (default) or as plain strings.

Data types

  • The sink connector expects plain strings (UTF-8 by default) from Kafka (org.apache.kafka.connect.storage.StringConverter), i.e. kafka-console-producer will do;
  • The source connector either outputs TwitterStatus structures (default) or plain strings. The Kafka Connect framework is serialization format agnostic. An intermidiate representation is used inside the framework; when an actual Kafka record is to be created, the key.converter and value.converter properties are used. Chances are that you use Avro (io.confluent.connect.avro.AvroConverter) or JSON (org.apache.kafka.connect.json.JsonConverter). When output.format=string, both the key and value are strings, with the key the user name and the value the tweet text. Here the org.apache.kafka.connect.storage.StringConverter converter must be used.

An actual TwitterStatus after JSON conversion, freshly grabbed from Kafka, looks like:

{
  "id": 723416534626881536,
  "createdAt": "Fri Apr 22 09:41:56 CEST 2016",
  "favoriteCount": 0,
  "text": "Pipio ergo sum",
  "user": {
    "id": 4877511249,
    "name": "rollulus",
    "screenName": "rollulus"
  }
}

(indeed, having the favoriteCount field in there was a totally arbitrary choice)

Setup

Properties

In addition to the default configuration for Kafka connectors (e.g. name, connector.class, etc.) the following options are needed for both the source and sink:

name data type required default description
twitter.consumerkey string yes Twitter consumer key
twitter.consumersecret string yes Twitter consumer secret
twitter.token string yes Twitter token
twitter.secret string yes Twitter secret

This is all for the sink. The source has the following additional properties:

name data type required default description
stream.type string no filter Type of stream ¹
track.terms string maybe ² A Twitter track parameter ²
track.locations string maybe ² A Twitter locations parameter ³
track.follow string maybe ² A Twitter follow parameter ⁴
batch.size int no 100 Flush after this many tweets ⁶
batch.timeout double no 0.1 Flush after this many seconds ⁶
language string no List of languages to fetch ⁷
output.format string no structured The output format: `[structured

¹ Type of stream: filter, or sample.

² When the filter type is used, one of the parameters track.terms, track.locations, or track.follow should be specified. If multiple parameters are specified, they are working as OR operation.

³ Please refer to here for the format of the track parameter.

⁴ Please refer to here for the format of the locations parameter.

⁵ Please refer to here for the format of the follow parameter.

⁶ Tweets are accumulated and flushed as a batch into Kafka; when the batch is larger than batch.size or when the oldest tweet in it is older than batch.timeout [s], it is flushed.

⁷ List of languages for which tweets will be returned. Can be used with any stream type. See here for format of the language parameter.

⁸ The source can output in two ways: structured, where a TwitterStatus structures are output as values, or string, where both the key and value are strings, with the key the user name and the value the tweet text. Remember to update key.converter and value.converter appropriately: io.confluent.connect.avro.AvroConverter or org.apache.kafka.connect.json.JsonConverter for structured; org.apache.kafka.connect.storage.StringConverter for string.

An example twitter-source.properties:

name=twitter-source
connector.class=com.eneco.trading.kafka.connect.twitter.TwitterSourceConnector
tasks.max=1
topic=twitter
twitter.consumerkey=(secret)
twitter.consumersecret=(secret)
twitter.token=(secret)
twitter.secret=(secret)
track.terms=test

And an example twitter-sink.properties is like:

name=twitter-sink
connector.class=com.eneco.trading.kafka.connect.twitter.TwitterSinkConnector
tasks.max=1
topics=texts-to-tweet
twitter.consumerkey=(secret)
twitter.consumersecret=(secret)
twitter.token=(secret)
twitter.secret=(secret)

Creating a Twitter application

To obtain the required keys, visit https://apps.twitter.com/ and Create a New App. Fill in an application name & description & web site and accept the developer aggreement. Click on Create my access token and populate a file twitter-source.properties with consumer key & secret and the access token & token secret using the example file to begin with.

Setting up the Confluent Platform

Follow instructions at Confluent and install and run the schema-registry service, and appropriate zookeeper & kafka brokers. Once the platform is up & running, populate the file connect-sink-standalone.properties and / or connect-source-standalone.properties with the appropriate hostnames and ports.

Assuming that $CONFLUENT_HOME refers to the root of your Confluent Platform installation:

Start Zookeeper:

$CONFLUENT_HOME/bin/zookeeper-server-start $CONFLUENT_HOME/etc/kafka/zookeeper.properties

Start Kafka:

$CONFLUENT_HOME/bin/kafka-server-start $CONFLUENT_HOME/etc/kafka/server.properties

Start the Schema Registry:

$CONFLUENT_HOME/bin/schema-registry-start $CONFLUENT_HOME/etc/schema-registry/schema-registry.properties

Running

Starting kafka-connect-twitter

Having cloned this repository, build the latest source code with:

mvn clean package

Put the JAR file location into your CLASSPATH:

export CLASSPATH=`pwd`/target/kafka-connect-twitter-0.1-jar-with-dependencies.jar

Source, structured output mode

To start a Kafka Connect source instance:

$CONFLUENT_HOME/bin/connect-standalone connect-source-standalone.properties twitter-source.properties 

And watch Avro TwitterStatus tweets come in represented as JSON:

$CONFLUENT_HOME/bin/kafka-avro-console-consumer --topic twitter --zookeeper localhost:2181

Source, simple (plain strings) output mode

To start a Kafka Connect source instance:

$CONFLUENT_HOME/bin/connect-standalone connect-simple-source-standalone.properties twitter-simple-source.properties

And watch tweets come in, with the key the user, and the value the tweet text:

$CONFLUENT_HOME/bin/kafka-console-consumer --zookeeper localhost:2181 \
      --topic twitter \
      --formatter kafka.tools.DefaultMessageFormatter \
      --property print.key=true \
      --property key.deserializer=org.apache.kafka.common.serialization.StringDeserializer \
      --property value.deserializer=org.apache.kafka.common.serialization.StringDeserializer

Sink

To start a Kafka Connect sink instance:

$CONFLUENT_HOME/bin/connect-standalone connect-sink-standalone.properties twitter-sink.properties 

Fire up the console producer to feed text from the console into your topic:

$CONFLUENT_HOME/bin/kafka-console-producer -broker-list localhost:9092 --topic texts-to-tweet
Pipio ergo sum

Todo:

  • Add hosebird client mode to take the full fat response rather than the twitter4j subset. Needs json to Avro converter. Avro4s?
  • Split the track terms up and assign to workers? Limits on connections to twitter?
  • Extend
  • Test
  • Document