Command Mode Applications
This reference covers how to write applications that run and then exit.
Solução
Recomendamos que siga as instruções nas seções seguintes e crie a aplicação passo a passo. No entanto, você pode ir diretamente para o exemplo completo.
Clone o repositório Git: git clone https://github.com/quarkusio/quarkus-quickstarts.git
, ou baixe um arquivo.
The solution is located in the getting-started-command-mode
directory.
Criar o projeto Maven
First, we need to create a new Quarkus project with the following command:
Para usuários do Windows:
-
Se estiver usando cmd, (não use barra invertida '\' e coloque tudo na mesma linha)
-
Se estiver usando o Powershell, envolva os parâmetros '-D' entre aspas duplas, por exemplo, '"-DprojectArtifactId=command-mode-quickstart"'
The suggested project creation command lines disable the codestarts to avoid including a REST server. Similarly, if you use code.quarkus.io to generate a project, you need to go to MORE OPTIONS → Starter Code and select No to avoid adding the Quarkus REST (formerly RESTEasy Reactive) extension. |
The Quarkus REST extension is added automatically only if you ask for codestarts and you didn’t specify any extensions.
Writing Command Mode Applications
There are two different approaches that can be used to implement applications that exit.
-
Implement
QuarkusApplication
and have Quarkus run this method automatically -
Implement
QuarkusApplication
and a Java main method, and use the Java main method to launch Quarkus
In this document the QuarkusApplication
instance is referred to as the application main,
and a class with a Java main method is the Java main.
The simplest possible command mode application with access to Quarkus APIs might appear as follows:
import io.quarkus.runtime.QuarkusApplication;
import io.quarkus.runtime.annotations.QuarkusMain;
@QuarkusMain (1)
public class HelloWorldMain implements QuarkusApplication {
@Override
public int run(String... args) throws Exception { (2)
System.out.println("Hello " + args[0]);
return 0;
}
}
1 | The @QuarkusMain annotation tells Quarkus that this is the main entry point. |
2 | The run method is invoked once Quarkus starts, and the application stops when it finishes. |
Main method
If we want to use a Java main to run the application main it would look like:
import io.quarkus.runtime.Quarkus;
import io.quarkus.runtime.annotations.QuarkusMain;
@QuarkusMain
public class JavaMain {
public static void main(String... args) {
Quarkus.run(HelloWorldMain.class, args);
}
}
This is effectively the same as running the HelloWorldMain
application main directly, but has the advantage it can
be run from the IDE.
If a class that implements QuarkusApplication and has a Java main then the Java main will be run.
|
It is recommended that a Java main perform very little logic, and just launch the application main. In development mode the Java main will run in a different ClassLoader to the main application, so may not behave as you would expect. |
Multiple Main Methods
It is possible to have multiple main methods in an application, and select between them at build time.
The @QuarkusMain
annotation takes an optional 'name' parameter, and this can be used to select the
main to run using the quarkus.package.main-class
build time configuration option. If you don’t want
to use annotations this can also be used to specify the fully qualified name of a main class.
By default, the @QuarkusMain
with no name (i.e. the empty string) will be used, and if it is not present
and quarkus.package.main-class
is not specified then Quarkus will automatically generate a main class
that just runs the application.
The name of @QuarkusMain must be unique (including the default of the empty string). If you
have multiple @QuarkusMain annotations in your application the build will fail if the names are not
unique.
|
The command mode lifecycle
When running a command mode application the basic lifecycle is as follows:
-
Start Quarkus
-
Run the
QuarkusApplication
main method -
Shut down Quarkus and exit the JVM after the main method returns
Shutdown is always initiated by the application main thread returning. If you want to run some logic on startup,
and then run like a normal application (i.e. not exit) then you should call Quarkus.waitForExit
from the main
thread (A non-command mode application is essentially just running an application that just calls waitForExit
).
If you want to shut down a running application and you are not in the main thread, then you should call Quarkus.asyncExit
in order to unblock the main thread and initiate the shutdown process.
Executando a aplicação
To run the command mode application on the JVM, first build it using mvnw package
or equivalent.
Then launch it:
java -jar target/quarkus-app/quarkus-run.jar
You can also build a native application with mvnw package -Dnative
, and launch it with something like:
./target/getting-started-command-mode-1.0-SNAPSHOT-runner
Modo de desenvolvimento
Also, for command mode applications, the dev mode is supported. When you start your application in dev mode, the command mode application is executed:
quarkus dev
./mvnw quarkus:dev
./gradlew --console=plain quarkusDev
As command mode applications will often require arguments to be passed on the command line, this is also possible in dev mode:
quarkus dev '--help'
./mvnw quarkus:dev -Dquarkus.args='--help'
./gradlew quarkusDev --quarkus-args='--help'
You should see the following down the bottom of the screen after the application is stopped:
--
Press [space] to restart, [e] to edit command line args (currently '-w --tags 1.0.1.Final'), [r] to resume testing, [o] Toggle test output, [h] for more options>
You can press the Space bar
key and the application will be started again.
You can also use the e
hotkey to edit the command line arguments and restart your application.
Testing Command Mode Applications
Command Mode applications can be tested using the @QuarkusMainTest
and @QuarkusMainIntegrationTest
annotations. These
work in a similar way to @QuarkusTest
and @QuarkusIntegrationTest
where @QuarkusMainTest
will run the CLI tests
within the current JVM, while QuarkusIntegrationTest
is used to run the generated executable (both jars and native).
We can write a simple test for our CLI application above as follows:
import io.quarkus.test.junit.main.Launch;
import io.quarkus.test.junit.main.LaunchResult;
import io.quarkus.test.junit.main.QuarkusMainLauncher;
import io.quarkus.test.junit.main.QuarkusMainTest;
import org.junit.jupiter.api.Assertions;
import org.junit.jupiter.api.Test;
@QuarkusMainTest
public class HelloTest {
@Test
@Launch("World")
public void testLaunchCommand(LaunchResult result) {
Assertions.assertTrue(result.getOutput().contains("Hello World"));
}
@Test
@Launch(value = {}, exitCode = 1)
public void testLaunchCommandFailed() {
}
@Test
public void testManualLaunch(QuarkusMainLauncher launcher) {
LaunchResult result = launcher.launch("Everyone");
Assertions.assertEquals(0, result.exitCode());
Assertions.assertTrue(result.getOutput().contains("Hello Everyone"));
}
}
Each test method must be annotated with @Launch
to automatically start the application or have a QuarkusMainLauncher
parameter to manually launch the application.
We can then extend this with an integration test that can be used to test the native executable or runnable jar:
import io.quarkus.test.junit.main.QuarkusMainIntegrationTest;
@QuarkusMainIntegrationTest
public class HelloIT extends HelloTest {
}
Mocking (Simulação)
CDI injection is not supported in the @QuarkusMainTest
tests.
Consequently, mocking CDI beans with QuarkusMock
or @InjectMock
is not supported either.
It is possible to mock CDI beans by leveraging test profiles though.
For instance, in the following test, the singleton CdiBean1
will be mocked by MockedCdiBean1
:
package org.acme.commandmode.test;
import java.util.Set;
import jakarta.enterprise.inject.Alternative;
import jakarta.inject.Singleton;
import org.junit.jupiter.api.Test;
import org.acme.commandmode.test.MyCommandModeTest.MyTestProfile;
import io.quarkus.test.junit.QuarkusTestProfile;
import io.quarkus.test.junit.TestProfile;
import io.quarkus.test.junit.main.Launch;
import io.quarkus.test.junit.main.LaunchResult;
import io.quarkus.test.junit.main.QuarkusMainTest;
@QuarkusMainTest
@TestProfile(MyTestProfile.class)
public class MyCommandModeTest {
@Test
@Launch(value = {})
public void testLaunchCommand(LaunchResult result) {
// ... assertions ...
}
public static class MyTestProfile implements QuarkusTestProfile {
@Override
public Set<Class<?>> getEnabledAlternatives() {
return Set.of(MockedCdiBean1.class); (1)
}
}
@Alternative (2)
@Singleton (3)
public static class MockedCdiBean1 implements CdiBean1 {
@Override
public String myMethod() {
return "mocked value";
}
}
}
1 | List all the CDI beans for which you want to enable an alternative mocked bean. |
2 | Use @Alternative without a @Priority . Make sure you don’t use @Mock . |
3 | The scope of the mocked bean should be consistent with the original one. |
Using this pattern, you can enable specific alternatives for any given test.