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Version: 2.1.2

Contribute Spark Plugins

There are two parent modules for Spark plugins:

  1. seatunnel-connectors-spark
  2. seatunnel-transforms-spark

Once you want to contribute a new plugin, you need to:

Create plugin module​

Create your plugin module under the corresponding parent plugin module. For example, if you want to add a new Spark connector plugin, you need to create a new module under the seatunnel-connectors-spark module.


<project xmlns="http://maven.apache.org/POM/4.0.0"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 http://maven.apache.org/xsd/maven-4.0.0.xsd">
<parent>
<groupId>org.apache.seatunnel</groupId>
<artifactId>seatunnel-connectors-spark</artifactId>
<version>${revision}</version>
</parent>
<modelVersion>4.0.0</modelVersion>

<artifactId>seatunnel-connector-spark-hello</artifactId>

<dependencies>
<dependency>
<groupId>org.apache.seatunnel</groupId>
<artifactId>seatunnel-api-spark</artifactId>
<version>${project.version}</version>
</dependency>
</dependencies>
</project>

Add plugin implementation​

You need to implement the Connector service provider interface. e.g. BaseSource/BaseSink.

Conveniently, there are some abstract class can help you easy to create your plugin. If you want to create a source connector, you can implement with SparkBatchSource/SparkStreamingSource. If you want to create a sink connector, you can implement with SparkBatchSink/SparkStreamingSink.

The methods defined in SparkBatchSource are some lifecycle methods. will be executed by SeaTunnel engine. The execution order of the lifecycle methods is: checkConfig -> prepare -> getData -> close.

import java.util.Date;

@AutoService(BaseSparkSource.class)
public class Hello extends SparkBatchSource {
@Override
public Dataset<Row> getData(SparkEnvironment env) {
// do your logic here to generate data
Dataset<Row> dataset = null;
return dataset;
}

@Override
public CheckResult checkConfig() {
return super.checkConfig();
}

@Override
public void prepare(SparkEnvironment env) {
super.prepare(env);
}

@Override
public void close() throws Exception {
super.close();
}

@Override
public String getPluginName() {
return "hello";
}
}
  • The getPluginName method is used to identify the plugin name.
  • The @AutoService is used to generate the META-INF/services/org.apache.seatunnel.BaseSparkSource file automatically.

Since this process cannot work on scala, if you use slala to implement your plugin, you need to add a service provider to the META-INF/services file. The file name should be org.apache.seatunnel.spark.BaseSparkSource or org.apache.seatunnel.spark.BaseSparkSink, dependents on the plugin type. The content of the file should be the fully qualified class name of your implementation.

Add plugin to the distribution​

You need to add your plugin to the seatunnel-connectors-spark-dist module, then the plugin will in distribution.

<dependency>
<groupId>org.apache.seatunnel</groupId>
<artifactId>seatunnel-connector-spark-hello</artifactId>
<version>${project.version}</version>
</dependency>

After you using mvn package to make a distribution, you can find the plugin in your ${distribution}/connectors/spark.

Add information to plugin-mapping.properties file​

SeaTunnel use plugin-mapping.properties file to locate the name of the jar package, the file is under module seatunnel-connectors, the key/value rule in properties is : engineName.pluginType.pluginName=artifactId. eg: spark.source.hello=seatunnel-connector-spark-hello. So that SeaTunnel can find plugin jar according to user's config file.

Contribute Flink Plugins

The steps to contribute a Flink plugin is similar to the steps to contribute a Spark plugin. Different from Spark, you need to add your plugin in Flink plugin modules.

Add e2e tests for your plugin

Once you add a new plugin, it is recommended to add e2e tests for it. We have a seatunnel-e2e module to help you to do this.

For example, if you want to add an e2e test for your flink connector, you can create a new test in seatunnel-flink-e2e module. And extend the FlinkContainer class in the test.

public class HellpSourceIT extends FlinkContainer {

@Test
public void testHellpSource() throws IOException, InterruptedException {
Container.ExecResult execResult = executeSeaTunnelFlinkJob("/hello/hellosource.conf");
Assert.assertEquals(0, execResult.getExitCode());
// do some other assertion here
}
}

Once your class implements the FlinkContainer interface, it will auto create a Flink cluster in Docker, and you just need to execute the executeSeaTunnelFlinkJob method with your SeaTunnel configuration file, it will submit the SeaTunnel job.

In most times, you need to start a third-part datasource in your test, for example, if you add a clickhouse connectors, you may need to start a Clickhouse database in your test. You can use GenericContainer to start a container.

It should be noted that your e2e test class should be named ending with IT. By default, we will not execute the test if the class name ending with IT. You can add -DskipIT=false to execute the e2e test, it will rely on a Docker environment.