| title | description | layout | permalink |
|---|---|---|---|
Using sample Operators |
How to use sample Operators |
docs |
/docs/using-samples |
We have several sample Operators under the samples directory:
- pure-java: Minimal Operator implementation which only parses the Custom Resource and prints to stdout. Implemented with and without Spring Boot support. The two samples share the common module.
- spring-boot-plain: Sample showing integration with Spring Boot.
There are also more samples in the standalone samples repo:
- webserver: Simple example creating an NGINX webserver from a Custom Resource containing HTML code.
- mysql-schema: Operator managing schemas in a MySQL database.
- tomcat: Operator with two controllers, managing Tomcat instances and Webapps for these.
Add dependency to your project with Maven:
<dependency>
<groupId>io.javaoperatorsdk</groupId>
<artifactId>operator-framework</artifactId>
<version>{see https://search.maven.org/search?q=a:operator-framework for latest version}</version>
</dependency>Or alternatively with Gradle, which also requires declaring the SDK as an annotation processor to generate the mappings between controllers and custom resource classes:
dependencies {
implementation "io.javaoperatorsdk:operator-framework:${javaOperatorVersion}"
annotationProcessor "io.javaoperatorsdk:operator-framework:${javaOperatorVersion}"
}Once you've added the dependency, define a main method initializing the Operator and registering a controllerConfiguration.
public class Runner {
public static void main(String[] args) {
Operator operator = new Operator(DefaultConfigurationService.instance());
operator.register(new WebServerController());
}
}The Controller implements the business logic and describes all the classes needed to handle the CRD.
@Controller
public class WebServerController implements ResourceController<WebServer> {
// Return the changed resource, so it gets updated. See javadoc for details.
@Override
public UpdateControl<CustomService> createOrUpdateResource(CustomService resource,
Context<WebServer> context) {
// ... your logic ...
return UpdateControl.updateStatusSubResource(resource);
}
}A sample custom resource POJO representation
@Group("sample.javaoperatorsdk")
@Version("v1")
public class WebServer extends CustomResource<WebServerSpec, WebServerStatus> implements
Namespaced {
}
public class WebServerSpec {
private String html;
public String getHtml() {
return html;
}
public void setHtml(String html) {
this.html = html;
}
}The operator will, by default, query the deployed CRDs to check that the CustomResource
implementations match what is known to the cluster. This requires an additional query to the cluster
and, sometimes, elevated privileges for the operator to be able to read the CRDs from the cluster.
This validation is mostly meant to help users new to operator development get started and avoid
common mistakes. Advanced users or production deployments might want to skip this step. This is done
by setting the CHECK_CRD_ENV_KEY environment variable to false.
To automatically generate CRD manifests from your annotated Custom Resource classes, you only need to add the following dependencies to your project:
<dependency>
<groupId>io.fabric8</groupId>
<artifactId>crd-generator-apt</artifactId>
<scope>provided</scope>
</dependency>The CRD will be generated in target/classes/META-INF/fabric8 (or
in target/test-classes/META-INF/fabric8, if you use the test scope) with the CRD name suffixed
by the generated spec version. For example, a CR using the java-operator-sdk.io group with
a mycrs plural form will result in 2 files:
mycrs.java-operator-sdk.io-v1.ymlmycrs.java-operator-sdk.io-v1beta1.yml
NOTE:
Quarkus users using the
quarkus-operator-sdkextension do not need to add any extra dependency to get their CRD generated as this is handled by the extension itself.
A Quarkus extension is also provided to ease the development of Quarkus-based operators.
Add this dependency to your project:
<dependency>
<groupId>io.quarkiverse.operatorsdk</groupId>
<artifactId>quarkus-operator-sdk</artifactId>
<version>{see https://search.maven.org/search?q=a:quarkus-operator-sdk for latest version}
</version>
</dependency>Create an Application, Quarkus will automatically create and inject a KubernetesClient (
or OpenShiftClient), Operator, ConfigurationService and ResourceController instances that
your application can use. Below, you can see the minimal code you need to write to get your operator
and controllers up and running:
@QuarkusMain
public class QuarkusOperator implements QuarkusApplication {
@Inject
Operator operator;
public static void main(String... args) {
Quarkus.run(QuarkusOperator.class, args);
}
@Override
public int run(String... args) throws Exception {
operator.start();
Quarkus.waitForExit();
return 0;
}
}You can also let Spring Boot wire your application together and automatically register the controllers.
Add this dependency to your project:
<dependency>
<groupId>io.javaoperatorsdk</groupId>
<artifactId>operator-framework-spring-boot-starter</artifactId>
<version>{see https://search.maven.org/search?q=a:operator-framework-spring-boot-starter for
latest version}
</version>
</dependency>Create an Application
@SpringBootApplication
public class Application {
public static void main(String[] args) {
SpringApplication.run(Application.class, args);
}
}Adding the following dependency would let you mock the operator for the tests where loading the spring container is necessary, but it doesn't need real access to a Kubernetes cluster.
<dependency>
<groupId>io.javaoperatorsdk</groupId>
<artifactId>operator-framework-spring-boot-starter-test</artifactId>
<version>{see https://search.maven.org/search?q=a:operator-framework-spring-boot-starter for
latest version}
</version>
</dependency>Mock the operator:
@SpringBootTest
@EnableMockOperator
public class SpringBootStarterSampleApplicationTest {
@Test
void contextLoads() {
}
}