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Chapter 1. Getting Started with Red Hat build of Apache Camel for Quarkus

This guide introduces Red Hat build of Apache Camel for Quarkus, the various ways to create a project and how to get started building an application using Red Hat build of Apache Camel for Quarkus:

Red Hat build of Apache Camel for Quarkus brings the integration capabilities of Apache Camel and its vast component library to the Quarkus runtime.

The benefits of using Red Hat build of Apache Camel for Quarkus include the following:

  • Enables users to take advantage of the performance benefits, developer joy and the container first ethos which Quarkus provides.
  • Provides Quarkus extensions for many of the Apache Camel components.
  • Takes advantage of the many performance improvements made in Camel, which results in a lower memory footprint, less reliance on reflection and faster startup times.

1.1.1. Languages
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In Red Hat build of Apache Camel for Quarkus, you can define Camel routes using the following languages:

  • Java DSL
  • YAML
  • XML IO

1.2. Tooling
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1.2.1. IDE plugins
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Quarkus has plugins for most of the popular development IDEs which provide Quarkus language support, code/configuration completion, project creation wizards and much more. The plugins are available at each respective IDE marketplace.

Check the plugin documentation to discover how to create projects for your preferred IDE.

1.2.2. Camel content assist
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The following plugins provide support for content assist when editing Camel routes and application.properties:

1.3.1. Overview
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You can use code.quarkus.redhat.com to generate a Quarkus Maven project which automatically adds and configures the extensions that you want to use in your application.

This section walks you through the process of creating a Quarkus Maven project with Red Hat build of Apache Camel for Quarkus including:

  • Creating the skeleton application using code.quarkus.redhat.com
  • Adding a simple Camel route
  • Exploring the application code
  • Compiling the application in development mode
  • Testing the application

You can bootstrap and generate projects on code.quarkus.redhat.com.

The Red Hat build of Apache Camel for Quarkus extensions are located under the 'Integration' heading.

If you need additional extensions, use the 'search' field to find them.

Select the component extensions that you want to work with and click 'Generate your application' to download a basic skeleton project.

You can also push the project directly to GitHub.

For more information about using code.quarkus.redhat.com to generate Quarkus Maven projects, see Creating a Quarkus Maven project using code.quarkus.redhat.com in the Getting started with Red Hat build of Quarkus guide.

Procedure

  1. In the code.quarkus.redhat.com website, select the following extensions:

    • camel-quarkus-rest
    • camel-quarkus-jackson

    • camel-quarkus-direct

      Note

      Do not compile the application on code.quarkus.redhat.com (in the final step of the procedure). Instead, use the compile command described in the Section 1.3.5, “Development mode” section below.

  2. Navigate to the directory where you extracted the generated project files from the previous step: 

    $ cd <directory_name>

1.3.3. Explore the application code
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The application has two compile dependencies which are managed within the com.redhat.quarkus.platform:quarkus-camel-bom that is imported in <dependencyManagement>.:

pom.xml

<quarkus.platform.artifact-id>quarkus-bom</quarkus.platform.artifact-id>
<quarkus.platform.group-id>com.redhat.quarkus.platform</quarkus.platform.group-id>
<quarkus.platform.version>
    <!-- The latest 3.15.x version from https://maven.repository.redhat.com/ga/com/redhat/quarkus/platform/quarkus-bom -->
</quarkus.platform.version>

...

<dependency>
    <groupId>${quarkus.platform.group-id}</groupId>
    <artifactId>${quarkus.platform.artifact-id}</artifactId>
    <version>${quarkus.platform.version}</version>
    <type>pom</type>
    <scope>import</scope>
</dependency>
<dependency>
    <groupId>${quarkus.platform.group-id}</groupId>
    <artifactId>quarkus-camel-bom</artifactId>
    <version>${quarkus.platform.version}</version>
    <type>pom</type>
    <scope>import</scope>
</dependency>

Note

For more information about BOM dependency management, see Developing Applications with Red Hat build of Apache Camel for Quarkus

The application is configured by properties defined within src/main/resources/application.properties, for example, the camel.context.name can be set there.

1.3.4. Adding a simple Camel route
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Note

In this example, we use the simple example from the camel-quarkus-examples repository. It consists of the two simple classes Fruit.java, Legume.java and the route definitions Routes.java .

Procedure

  1. Create a file named Fruit.java in the src/main/java/org/acme/ subfolder.

  2. Add the class as shown in the following code snippet:

    Fruit.java

    package org.acme.rest.json;

import java.util.Objects;

import io.quarkus.runtime.annotations.RegisterForReflection;

/**
 * A REST entity representing a fruit.
 */
@RegisterForReflection // Lets Quarkus register this class for reflection during the native build
public class Fruit {
    private String name;
    private String description;

    public Fruit() {
    }

    public Fruit(String name, String description) {
        this.name = name;
        this.description = description;
    }

    public String getName() {
        return name;
    }

    public void setName(String name) {
        this.name = name;
    }

    public String getDescription() {
        return description;
    }

    public void setDescription(String description) {
        this.description = description;
    }

    @Override
    public boolean equals(Object obj) {
        if (!(obj instanceof Fruit)) {
            return false;
        }

        Fruit other = (Fruit) obj;

        return Objects.equals(other.name, this.name);
    }

    @Override
    public int hashCode() {
        return Objects.hash(this.name);
    }
}

  3. Create a file named Legume.java in the src/main/java/org/acme/ subfolder.

  4. Add the class as shown in the following code snippet:

    Legume.java

    package org.acme.rest.json;

import java.util.Objects;

import io.quarkus.runtime.annotations.RegisterForReflection;

/**
 * A REST entity representing a legume.
 */
@RegisterForReflection // Lets Quarkus register this class for reflection during the native build
public class Legume {
    private String name;
    private String description;

    public Legume() {
    }

    public Legume(String name, String description) {
        this.name = name;
        this.description = description;
    }

    public String getName() {
        return name;
    }

    public void setName(String name) {
        this.name = name;
    }

    public String getDescription() {
        return description;
    }

    public void setDescription(String description) {
        this.description = description;
    }

    @Override
    public boolean equals(Object obj) {
        if (!(obj instanceof Legume)) {
            return false;
        }

        Legume other = (Legume) obj;

        return Objects.equals(other.name, this.name);
    }

    @Override
    public int hashCode() {
        return Objects.hash(this.name);
    }
}

  5. Create a file named Routes.java in the src/main/java/org/acme/ subfolder.

  6. Add a Camel Rest route as shown in the following code snippet:

    Routes.java

    package org.acme.rest.json;

import java.util.Collections;
import java.util.LinkedHashSet;
import java.util.Set;

import org.apache.camel.builder.RouteBuilder;
import org.apache.camel.model.rest.RestBindingMode;

/**
 * Camel route definitions.
 */
public class Routes extends RouteBuilder {
    private final Set<Fruit> fruits = Collections.synchronizedSet(new LinkedHashSet<>());
    private final Set<Legume> legumes = Collections.synchronizedSet(new LinkedHashSet<>());

    public Routes() {

        /* Let's add some initial fruits */
        this.fruits.add(new Fruit("Apple", "Winter fruit"));
        this.fruits.add(new Fruit("Pineapple", "Tropical fruit"));

        /* Let's add some initial legumes */
        this.legumes.add(new Legume("Carrot", "Root vegetable, usually orange"));
        this.legumes.add(new Legume("Zucchini", "Summer squash"));
    }

    @Override
    public void configure() throws Exception {

        restConfiguration().bindingMode(RestBindingMode.json);

        rest("/fruits")
                .get()
                .to("direct:getFruits")

                .post()
                .type(Fruit.class)
                .to("direct:addFruit");

        rest("/legumes")
                .get()
                .to("direct:getLegumes");

        from("direct:getFruits")
                .setBody().constant(fruits);

        from("direct:addFruit")
                .process().body(Fruit.class, fruits::add)
                .setBody().constant(fruits);

        from("direct:getLegumes")
                .setBody().constant(legumes);
    }
}

    For more information about this example, see camel-quarkus-examples repository.

1.3.5. Development mode
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$ mvn clean compile quarkus:dev

This command compiles the project, starts your application, and lets the Quarkus tooling watch for changes in your workspace. Any modifications you make to your project will automatically take effect in the running application.

You can check the application in your browser. (For example, for the rest-json sample application, access http://localhost:8080/fruits)

If you change the application code, for example, change 'Apple' to 'Orange', your application automatically updates. To see the changes applied, refresh your browser.

Refer to Quarkus documentation Development mode section for more details about the development mode.

1.3.6. Testing
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1.3.6.1. JVM mode
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To test the Camel Rest route that we have created in JVM mode, add a test class as follows:

Procedure

  1. Create a file named RoutesTest.java in the src/test/java/org/acme/ subfolder.

  2. Add the RoutesTest class as shown in the following code snippet:

    RoutesTest.java

    package org.acme;

import io.quarkus.test.junit.QuarkusTest;
import org.junit.jupiter.api.Test;

import static io.restassured.RestAssured.given;
import org.hamcrest.Matchers;

@QuarkusTest
public class RoutesTest {

    @Test
    public void testFruitsEndpoint() {

        /* Assert the initial fruit is there */
        given()
                .when().get("/fruits")
                .then()
                .statusCode(200)
                .body(
                        "$.size()", Matchers.is(1),
                        "name", Matchers.contains("Orange"));

        /* Add a new fruit */
        given()
                .body("{\"name\": \"Pear\"}")
                .header("Content-Type", "application/json")
                .when()
                .post("/fruits")
                .then()
                .statusCode(200);

        /* Assert that pear was added */
        given()
                .when().get("/fruits")
                .then()
                .statusCode(200)
                .body(
                        "$.size()", Matchers.is(2),
                        "name", Matchers.contains("Orange", "Pear"));
    }

}

The JVM mode tests are run by maven-surefire-plugin in the test Maven phase: 

$ mvn clean test

1.3.6.2. Native mode
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To test the Camel Rest route that we have created in Native mode, add a test class as follows:

Procedure

  1. Create a file named NativeRoutesIT.java in the src/test/java/org/acme/ subfolder.

  2. Add the NativeRoutesIT class as shown in the following code snippet:

    NativeRoutesIT.java

    package org.acme;

import io.quarkus.test.junit.NativeImageTest;

@NativeImageTest
public class NativeRoutesIT extends RoutesTest {

    // Execute the same tests but in native mode.
}

    The native mode tests are verified by maven-failsafe-plugin in the verify phase.

  3. Pass the native property to activate the profile that runs them: 

    $ mvn clean verify -Pnative
Tip

For more details, and how to use the CamelTestSupport style of testing, see Testing Camel Quarkus Extensions.

1.3.7. Packaging and running the application
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1.3.7.1. JVM mode
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Procedure

  1. Run mvn package to prepare a thin jar for running on a stock JVM: 

    $ mvn clean package
$ ls -lh target/quarkus-app
...
-rw-r--r--. 1 user user 238K Oct 11 18:55  quarkus-run.jar
...
    Note

    The thin jar contains just the application code. You also need the dependencies in target/quarkus-app/lib to run it.

  2. Run the jar as follows: 

    $ java -jar target/quarkus-app/quarkus-run.jar
...
[io.quarkus] (main) Quarkus started in 1.163s. Listening on: http://[::]:8080
Note

The boot time should be around a second.

1.3.7.2. Native mode
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Procedure

To prepare a native executable, do as follows:

  1. Run the command mvn clean package -Pnative: 

    $ mvn clean package -Pnative
$ ls -lh target
...
-rwxr-xr-x. 1 user user  46M Oct 11 18:57  code-with-quarkus-1.0.0-SNAPSHOT-runner
...
    Note

    The runner has no .jar extension and has the x (executable) permission set. You can run it directly: 

    $ ./target/*-runner
...
[io.quarkus] (main) Quarkus started in 0.013s. Listening on: http://[::]:8080
...

    The application started in 13 milliseconds.

  2. View the memory usage with the ps -o rss,command -p $(pgrep code-with) command : 

    $ ps -o rss,command -p $(pgrep code-with)
  RSS COMMAND
65852 ./target/code-with-quarkus-1.0.0-SNAPSHOT-runner

    The application uses 65 MB of memory.

Tip

See Producing a native executable in the Compiling your Quarkus applications to native executables guide for additional information about preparing a native executable.

Tip

1.4. Testing Camel Quarkus Extensions
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Testing offers a good way to ensure Camel routes behave as expected over time. If you haven’t already, read the Camel Quarkus user guide First Steps and the Quarkus documentation Testing your application section.

When it comes to testing a route in the context of Quarkus, the recommended approach is to write local integration tests. This has the advantage of covering both JVM and native mode.

In JVM mode, you can use the CamelTestSupport style of testing.

1.4.1. Running in JVM mode
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In JVM mode, use the @QuarkusTest annotation to bootstrap Quarkus and start Camel routes before the @Test logic executes.

For example: 

import io.quarkus.test.junit.QuarkusTest;
import org.junit.jupiter.api.Test;

@QuarkusTest
class MyTest {
    @Test
    public void test() {
        // Use any suitable code that sends test data to the route and then assert outcomes
        ...
    }
}
Tip

You can find a sample implementation in the Camel Quarkus source:

1.4.2. Running in native mode
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Note

Always test that your application works in native mode for all supported extensions.

You can reuse the test logic defined for JVM mode by inheriting the logic from the respective JVM mode class.

Add the @QuarkusIntegrationTest annotation to tell the Quarkus JUnit extension to compile the application under test to native image and start it before running the tests. 

import io.quarkus.test.junit.QuarkusIntegrationTest;

@QuarkusIntegrationTest
class MyIT extends MyTest {
   ...
}
Tip

You can find a sample implementation in the Camel Quarkus source:

A native executable does not need a JVM to run, and cannot run in a JVM, because it is native code, not bytecode.

There is no point in compiling tests to native code so they run using a traditional JVM.

This means that communication between tests and the application must go over the network (HTTP/REST, or any other protocol your application speaks), through watching filesystems (log files for example), or any other interprocess communication.

1.4.3.1. @QuarkusTest in JVM mode
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In JVM mode, tests annotated with @QuarkusTest execute in the same JVM as the application under test.

This means you can use @Inject to add beans from the application into the test code.

You can also define new beans or even override the beans from the application using @jakarta.enterprise.inject.Alternative and @jakarta.annotation.Priority.

1.4.3.2. @QuarkusIntegrationTest in native mode
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In native mode, tests annotated with @QuarkusIntegrationTest execute in a JVM hosted in a process separate from the running native application.

An important consequence of this, is that all communication between the tests and the native application, must take one or more of the following forms:

  • Network calls. Typically, HTTP or any other network protocol your application supports.
  • Watching the filesystem for changes. (For example via Camel file endpoints.)
  • Any other kind of interprocess communication.

QuarkusIntegrationTest provides additional features that are not available through @QuarkusTest:

  • In JVM mode, you can launch and test the runnable application JAR produced by the Quarkus build.
  • In native mode, you can launch and test the native application produced by the Quarkus build.
  • If you add a container image to the build, a container starts, and tests execute against it.

For more information about QuarkusIntegrationTest, see the Quarkus testing guide.

1.4.4. Testing with external services
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1.4.4.1. Testcontainers
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Sometimes your application needs to access some external resource, such as a messaging broker, a database, or other service.

If a container image is available for the service of interest, you can use Testcontainers to start and configure the services during testing.

For the application to work properly, it is often essential to pass the connection configuration data (host, port, user, password of the remote service) to the application before it starts.

In the Quarkus ecosystem, QuarkusTestResourceLifecycleManager serves this purpose.

You can start one or more Testcontainers in the start() method and return the connection configuration from the method in the form of a Map.

The entries of this map are then passed to the application in different ways depending on the mode:

  • Native mode: a command line (-Dkey=value)
  • JVM Mode: a special MicroProfile configuration provider
Note

Command line and MicroProfile settings have a higher precedence than the settings in the application.properties file. 

import java.util.Map;
import java.util.HashMap;

import io.quarkus.test.common.QuarkusTestResourceLifecycleManager;
import org.testcontainers.containers.GenericContainer;
import org.testcontainers.containers.wait.strategy.Wait;

public class MyTestResource implements QuarkusTestResourceLifecycleManager {

    private GenericContainer<?> myContainer;

    @Override
    public Map<String, String> start() {
        // Start the needed container(s)
        myContainer = new GenericContainer(DockerImageName.parse("my/image:1.0.0"))
                .withExposedPorts(1234)
                .waitingFor(Wait.forListeningPort());

        myContainer.start();

        // Pass the configuration to the application under test
        // You can also pass camel component property names / values to automatically configure Camel components
        return new HashMap<>() {{
                put("my-container.host", container.getHost());
                put("my-container.port", "" + container.getMappedPort(1234));
        }};
    }

    @Override
    public void stop() {
        // Stop the needed container(s)
        myContainer.stop();
        ...
    }
}

Reference the defined test resource from the test classes with @QuarkusTestResource: 

import io.quarkus.test.common.QuarkusTestResource;
import io.quarkus.test.junit.QuarkusTest;

@QuarkusTest
@QuarkusTestResource(MyTestResource.class)
class MyTest {
   ...
}
Tip

You can find a sample implementation in the Camel Quarkus source:

1.4.4.2. WireMock
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Instead of having the tests connect to live endpoints, for example, if they are unavailable, unreliable, or expensive, you can stub HTTP interactions with third-party services & APIs.

You can use WireMock for mocking & recording HTTP interactions. It is used extensively throughout the Camel Quarkus test suite for various component extensions.

1.4.4.2.1. Setting up WireMock
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Procedure

  1. Set up the WireMock server.

    Note

    Always configure the Camel component under test to pass any HTTP interactions through the WireMock proxy. You can achieve this by configuring a component property that determines the API endpoint URL. 

    import static com.github.tomakehurst.wiremock.client.WireMock.aResponse;
import static com.github.tomakehurst.wiremock.client.WireMock.get;
import static com.github.tomakehurst.wiremock.client.WireMock.urlEqualTo;
import static com.github.tomakehurst.wiremock.core.WireMockConfiguration.wireMockConfig;

import java.util.HashMap;
import java.util.Map;

import com.github.tomakehurst.wiremock.WireMockServer;

import io.quarkus.test.common.QuarkusTestResourceLifecycleManager;

public class WireMockTestResource implements QuarkusTestResourceLifecycleManager {

    private WireMockServer server;

    @Override
    public Map<String, String> start() {
        // Setup & start the server
        server = new WireMockServer(
            wireMockConfig().dynamicPort()
        );
        server.start();

        // Stub an HTTP endpoint. WireMock also supports a record and playback mode
        // https://wiremock.org/docs/record-playback/
        server.stubFor(
            get(urlEqualTo("/api/greeting"))
                .willReturn(aResponse()
                    .withHeader("Content-Type", "application/json")
                    .withBody("{\"message\": \"Hello World\"}")));

        // Ensure the camel component API client passes requests through the WireMock proxy
        Map<String, String> conf = new HashMap<>();
        conf.put("camel.component.foo.server-url", server.baseUrl());
        return conf;
    }

    @Override
    public void stop() {
        if (server != null) {
            server.stop();
        }
    }
}
  2. Ensure your test class has the @QuarkusTestResource annotation with the appropriate test resource class specified as the value. The WireMock server will be started before all tests are executed and will be shut down when all tests are finished. 
import io.quarkus.test.common.QuarkusTestResource;
import io.quarkus.test.junit.QuarkusTest;

@QuarkusTest
@QuarkusTestResource(WireMockTestResource.class)
class MyTest {
   ...
}

The WireMock server starts before all tests execute and shuts down when all tests finish.

Tip

You can find a sample implementation in the Camel Quarkus integration test source tree:

Since Camel Quarkus 2.13.0, you can use CamelQuarkusTestSupport for testing. It is a replacement for CamelTestSupport, which does not work well with Quarkus.

Important

CamelQuarkusTestSupport only works in JVM mode. If you need to test in native mode, then use one of the alternate test strategies described above.

Add the following dependency into your module (preferably in the test scope): 

<dependency>
    <groupId>org.apache.camel.quarkus</groupId>
    <artifactId>camel-quarkus-junit5</artifactId>
    <scope>test</scope>
</dependency>

You can use CamelQuarkusTestSupport in your test like this: 

@QuarkusTest
@TestProfile(SimpleTest.class) //necessary only if "newly created" context is required for the test (worse performance)
public class SimpleTest extends CamelQuarkusTestSupport {
    ...
}

1.4.5.2. Customizing the CamelContext for testing
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You can customize the CamelContext for testing with configuration profiles, CDI beans, observers, mocks etc. You can also override the createCamelContext method and interact directly with the CamelContext.

Important

When using createCamelContext you MUST NOT instantiate and return a new CamelContext. Instead, invoke super.createCamelContext() and modify the returned CamelContext as needed. Failing to follow this rule will result in an exception being thrown. 

@QuarkusTest
class SimpleTest extends CamelQuarkusTestSupport {

    @Override
    protected CamelContext createCamelContext() throws Exception {
        // Must call super to get a handle on the application scoped CamelContext
        CamelContext context = super.createCamelContext();
        // Apply customizations
        context.setTracing(true);
        // Return the modified CamelContext
        return context;
    }
}

1.4.5.3. Configuring routes for testing
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Any classes that extend RouteBuilder in your application will have their routes automatically added to the CamelContext. Similarly, any XML or YAML routes configured from camel.main.routes-include-pattern will also be loaded.

This may not always be desirable for your tests. You control which routes get loaded at test time with configuration properties:

  • quarkus.camel.routes-discovery.include-patterns
  • quarkus.camel.routes-discovery.exclude-patterns,
  • camel.main.routes-include-pattern
  • camel.main.routes-exclude-pattern.

You can also define test specific routes per test class by overriding createRouteBuilder: 

@QuarkusTest
class SimpleTest extends CamelQuarkusTestSupport {
    @Test
    void testGreeting() {
        MockEndpoint mockEndpoint = getMockEndpoint("mock:result");
        mockEndpoint.expectedBodiesReceived("Hello World");

        template.sendBody("direct:start", "World");

        mockEndpoint.assertIsSatisified();
    }

    @Override
    protected RoutesBuilder createRouteBuilder() throws Exception {
        return new RouteBuilder() {
            @Override
            public void configure() throws Exception {
                from("direct:start")
                    .transform().simple("Hello ${body}")
                    .to("mock:result");
            }
        };
    }
}

1.4.5.4. CamelContext test lifecycle
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One of the main differences in CamelQuarkusTestSupport compared to CamelTestSupport is how the CamelContext lifecycle is managed.

On Camel Quarkus, a single CamelContext is created for you automatically by the runtime. By default, this CamelContext is shared among all tests and remains started for the duration of the entire test suite execution.

This can potentially have some unintended side effects for your tests. If you need to have the CamelContext restarted between tests, then you can create a custom test profile, which will force the application under test to be restarted.

For example, to define a test profile: 

@QuarkusTest
class MyTestProfile implements QuarkusTestProfile {
    ...
}

Then reference it on the test class with @TestProfile: 

// @TestProfile will trigger the application to be restarted
@TestProfile(MyTestProfile.class)
@QuarkusTest
class SimpleTest extends CamelQuarkusTestSupport {
    ...
}
Note

You cannot manually restart the CamelContext by invoking its stop() and start() methods. This will result in an exception.

1.4.5.5. Examples
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1.4.5.5.1. Simple RouteBuilder and test class
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Simple RouteBuilder: 

public class MyRoutes extends RouteBuilder {
    @Override
    public void configure() {
        from("direct:start")
            .transform().simple("Hello ${body}")
            .to("mock:result");
    }
}

Test sending a message payload to the direct:start endpoint: 

@QuarkusTest
class SimpleTest extends CamelQuarkusTestSupport {
    @Test
    void testGreeting() {
        MockEndpoint mockEndpoint = getMockEndpoint("mock:result");
        mockEndpoint.expectedBodiesReceived("Hello World");

        template.sendBody("direct:start", "World");

        mockEndpoint.assertIsSatisified();
    }
}
1.4.5.5.2. Using AdviceWith
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@QuarkusTest
class SimpleTest extends CamelQuarkusTestSupport {
    @BeforeEach
    public void beforeEach() throws Exception {
        AdviceWith.adviceWith(this.context, "advisedRoute", route -> {
            route.replaceFromWith("direct:replaced");
        });
    }

    @Override
    protected RoutesBuilder createRouteBuilder() throws Exception {
        return new RouteBuilder() {
            @Override
            public void configure() throws Exception {
                from("direct:start").routeId("advisedRoute")
                    .transform().simple("Hello ${body}")
                    .to("mock:result");
            }
        };
    }

    @Test
    void testAdvisedRoute() throws Exception {
        MockEndpoint mockEndpoint = getMockEndpoint("mock:result");
        mockEndpoint.expectedBodiesReceived("Hello World");

        template.sendBody("direct:replaced", "World");

        mockEndpoint.assertIsSatisfied();
    }
}
1.4.5.5.3. Explicitly enabling advice
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When explicitly enabling advice you must invoke startRouteDefinitions when completing your AdviceWith setup.

Note

Invoking startRouteDefinitions is only required if you have routes configured that are NOT being advised.

1.4.5.6. Limitations
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CamelQuarkusTestSupport inherits some test lifecycle methods from CamelTestSupport. However, they should not be used and instead are replaced with equivalent methods in CamelQuarkusTestSupport.

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CamelTestSupport lifecycle methodsCamelQuarkusTestSupport equivalent

afterAll

doAfterAll

afterEach, afterTestExecution

doAfterEach

beforeAll

doAfterConstruct

beforeEach

doBeforeEach

The CamelQuarkusTestSupport implementation of createCamelRegistry will throw UnsupportedOperationException.

If you need to bind or unbind objects to the Camel registry, then you can do it by one of the following methods.

  • Produce named CDI beans 

    public class MyBeanProducers {
    @Produces
    @Named("myBean")
    public MyBean createMyBean() {
        return new MyBean();
    }
}
  • Override createCamelContext (see example above) and invoke camelContext.getRegistry().bind("foo", fooBean)

  • Use the @BindToRegistry annotation 

    @QuarkusTest
class SimpleTest extends CamelQuarkusTestSupport {
    @BindToRegistry("myBean")
    MyBean myBean = new MyBean();
}
    Note

    Beans bound to the Camel registry from individual test classes, will persist for the duration of the test suite execution. This could have unintended consequences, depending on your test expectations. You can use test profiles to restart the CamelContext to avoid this.

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