As an application developer, you can use Red Hat build of Quarkus to create microservices written in Java that run on OpenShift Container Platform and serverless environments. Applications compiled to native executables have small memory footprints and fast startup times.
This guide shows you how to compile the Quarkus Getting Started project into a native executable and how to configure and test the native executable. You will need the application created in Getting started with Quarkus.
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Building a native executable with a single command using a container runtime such as Podman or Docker
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Creating a custom container image using the produced native executable
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Creating a container image using the OpenShift Container Platform Docker build strategy
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Deploying the Quarkus native application to OpenShift Container Platform
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Configuring the native executable
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Testing the native executable
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Have OpenJDK 17 installed and the
JAVA_HOMEenvironment variable set to specify the location of the Java SDK.-
Log in to the Red Hat Customer Portal to download Red Hat build of OpenJDK from the Software Downloads page.
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An Open Container Initiative (OCI) compatible container runtime, such as Podman or Docker.
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A completed Quarkus Getting Started project.
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To learn how to build the Quarkus Getting Started project, see Getting started with Quarkus.
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Alternatively, you can download the Quarkus quickstart archive or clone the
Quarkus QuickstartsGit repository. The sample project is in thegetting-starteddirectory.
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Making open source more inclusive
Red Hat is committed to replacing problematic language in our code, documentation, and web properties. We are beginning with these four terms: master, slave, blacklist, and whitelist. Because of the enormity of this endeavor, these changes will be implemented gradually over several upcoming releases. For more details, see our CTO Chris Wright’s message.
1. Producing a native executable
A native binary is an executable that is created to run on a specific operating system (OS) or CPU architecture.
The following list outlines some examples of a native executable:
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A universal binary for Mac
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An ELF binary for Linux
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An EXE binary for Windows
When you build a native executable, one advantage is that your application and dependencies, including the JVM, are packaged into a single file. The native executable for your application contains the following items:
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The compiled application code
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The Java APIs
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The required libraries
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A reduced version of the Java virtual machine (JVM) for improved application startup times and minimal disk and memory footprint
To produce a native executable from your Quarkus application, you can select either an in-container build or a local-host build. The following table explains the different building options that you can use:
| Building option | Requires | Uses | Results in | Benefits |
|---|---|---|---|---|
| In-container build - Supported |
A container runtime, for example, Podman or Docker |
The default |
A Linux 64-bit executable |
GraalVM does not need to be set up locally, which makes your CI pipelines run more efficiently |
| Local-host build - Only supported upstream |
A local installation of GraalVM or Mandrel |
Its local installation as a default for the |
An executable that has the same OS and CPU architecture as the machine on which the build is executed |
An alternative for developers that are not allowed or don’t want to use tools such as Docker or Podman. Overall is faster than containers. |
Red Hat build of Quarkus 2.13 only provides support for building native executables based on the Java 17-based Mandrel 22.3 base image.
While other images are available in the community, they are not supported in the product, so you should not use them for production builds that you want Red Hat to provide support for.
Applications whose source is written based on Java 11, with no Java 12 - 17 features used, can still compile a native executable of that application using the Java 17-based Mandrel 22.3 base image.
Red Hat build of Quarkus supports the building of native Linux executables by using a Red Hat build of Quarkus Native builder image, which is a productized distribution of Mandrel. For more information, see Compiling your Quarkus applications to native executables. Building native executables by using Oracle GraalVM Community Edition (CE), Mandrel community edition, or any other distributions of GraalVM is not supported for Red Hat build of Quarkus.
1.1. Producing a native executable by using an in-container build
To create a native executable and run the native image tests, use the native profile that is provided by Red Hat build of Quarkus for an in-container build.
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Podman or Docker is installed.
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The container has access to at least 8GB of memory.
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Open the Getting Started project
pom.xmlfile, and verify that the project includes thenativeprofile:<profiles> <profile> <id>native</id> <properties> <quarkus.package.type>native</quarkus.package.type> </properties> </profile> </profiles> -
Build a native executable by using one of the following ways:
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Using Maven:
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For Docker:
./mvnw package -Pnative -Dquarkus.native.container-build=true -
For Podman:
./mvnw package -Pnative -Dquarkus.native.container-build=true -Dquarkus.native.container-runtime=podman
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Using the Quarkus CLI:
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For Docker:
quarkus build --native -Dquarkus.native.container-build=true -
For Podman:
quarkus build --native -Dquarkus.native.container-build=true -Dquarkus.native.container-runtime=podmanStep resultsThese commands create a
*-runnerbinary in thetargetdirectory, where the following applies: -
The
*-runnerfile is the built native binary produced by Quarkus. -
The
targetdirectory is a directory that Maven creates when you build a Maven application.Compiling a Quarkus application to a native executable consumes a large amount of memory during analysis and optimization. You can limit the amount of memory used during native compilation by setting the
quarkus.native.native-image-xmxconfiguration property. Setting low memory limits might increase the build time.
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To run the native executable, enter the following command:
./target/*-runner
For more information, see 'Native executable configuration properties' in Compiling your Quarkus applications to native executables.
1.2. Producing a native executable by using a local-host build
If you are not using Docker or Podman, use the Quarkus local-host build option to create and run a native executable.
Using the local-host build approach is faster than using containers and is suitable for machines that use a Linux operating system.
Using the following procedure in production is not supported by Red Hat build of Quarkus. Use this method only when testing or as a backup approach when Docker or Podman is not available.
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A local installation of Mandrel or GraalVm, correctly configured according to the Building a native executable guide.
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Additionally, for a GraalVM installation,
native-imagemust also be installed.
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For GraalVM or Mandrel, build a native executable by using one of the following ways:
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Using Maven:
./mvnw package -Pnative -
Using the Quarkus CLI:
quarkus build --nativeStep resultsThese commands create a
*-runnerbinary in thetargetdirectory, where the following applies:-
The
*-runnerfile is the built native binary produced by Quarkus. -
The
targetdirectory is a directory that Maven creates when you build a Maven application.When you build the native executable, the
prodprofile is enabled unless modified in thequarkus.profileproperty.
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Run the native executable:
./target/*-runner-
Native tests run using the
prodprofile by default unless modified in thequarkus.test.native-image-profileproperty.
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For more information, see Producing a native executable.
2. Creating a custom container image
You can create a container image from your Quarkus application using one of the following methods:
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Creating a container manually
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Creating a container by using the OpenShift Container Platform Docker build
quarkus.native.native-image-xmx configuration property. Setting low memory limits might increase the build time.
2.1. Creating a container manually
This section shows you how to manually create a container image with your application for Linux AMD64. When you produce a native image by using the Quarkus Native container, the native image creates an executable that targets Linux AMD64. If your host operating system is different from Linux AMD64, you cannot run the binary directly and you need to create a container manually.
Your Quarkus Getting Started project includes a Dockerfile.native in the src/main/docker directory with the following content:
FROM registry.access.redhat.com/ubi8/ubi-minimal:8.6
WORKDIR /work/
RUN chown 1001 /work \
&& chmod "g+rwX" /work \
&& chown 1001:root /work
COPY --chown=1001:root target/*-runner /work/application
EXPOSE 8080
USER 1001
CMD ["./application", "-Dquarkus.http.host=0.0.0.0"]The following list displays the suitable images for use with Dockerfiles.
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Red Hat Universal Base Image 8 (UBI8). This base image is designed and engineered to be the base layer for all of your containerized applications, middleware, and utilities.
registry.access.redhat.com/ubi8/ubi:8.6
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Red Hat Universal Base Image 8 Minimal (UBI8-minimal). A stripped-down UBI8 image that uses microdnf as a package manager.
registry.access.redhat.com/ubi8/ubi-minimal:8.6
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All Red Hat Base images are available on the Container images catalog site.
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Build a native Linux executable by using one of the following methods:
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Docker:
./mvnw package -Pnative -Dquarkus.native.container-build=true -
Podman:
./mvnw package -Pnative -Dquarkus.native.container-build=true -Dquarkus.native.container-runtime=podman
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Build the container image by using one of the following methods:
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Docker:
docker build -f src/main/docker/Dockerfile.native -t quarkus-quickstart/getting-started . -
Podman
podman build -f src/main/docker/Dockerfile.native -t quarkus-quickstart/getting-started .
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Run the container by using one of the following methods:
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Docker:
docker run -i --rm -p 8080:8080 quarkus-quickstart/getting-started -
Podman:
podman run -i --rm -p 8080:8080 quarkus-quickstart/getting-started
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2.2. Creating a container by using the OpenShift Docker build
You can create a container image for your Quarkus application by using the OpenShift Container Platform Docker build strategy. This strategy creates a container image by using a build configuration in the cluster.
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You have access to an OpenShift Container Platform cluster and the latest version of the
octool installed. For information about installingoc, see Installing the CLI in the Installing and configuring OpenShift Container Platform clusters guide. -
A URL for the OpenShift Container Platform API endpoint.
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Log in to the OpenShift CLI:
oc login -u <username_url> -
Create a new project in OpenShift:
oc new-project <project_name> -
Create a build config based on the
src/main/docker/Dockerfile.nativefile:cat src/main/docker/Dockerfile.native | oc new-build --name <build_name> --strategy=docker --dockerfile - -
Build the project:
oc start-build <build_name> --from-dir . -
Deploy the project to OpenShift Container Platform:
oc new-app <build_name> -
Expose the services:
oc expose svc/<build_name>
3. Native executable configuration properties
Configuration properties define how the native executable is generated. You can configure your Quarkus application using the application.properties file.
The following table lists the configuration properties that you can set to define how the native executable is generated:
| Property |
Description |
Type |
Default |
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If debug is enabled and debug symbols are generated. The symbols will be generated in a separate |
boolean |
false |
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A comma separated list of globs to match resource paths that should not be added to the native image. |
list of strings |
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Additional arguments to pass to the build process. |
list of strings |
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Enables HTTP URL handler. This allows you to do |
boolean |
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Enables HTTPS URL handler. This allows you to do |
boolean |
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Adds all security services to the native image. |
boolean |
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Adds all character sets to the native image. This increases the image size. |
boolean |
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Contains the path of the GraalVM distribution. |
string |
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Contains the path of the JDK. |
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The maximum Java heap used to generate the native image. |
string |
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Waits for a debugger to attach to the build process before running the native image build. This is an advanced option for those familiar with GraalVM internals. |
boolean |
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Publishes the debug port when building with docker if |
boolean |
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Restarts the native image server. |
boolean |
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Enables isolates to improve memory management. |
boolean |
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Creates a JVM-based fallback image if the native image fails. |
boolean |
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Uses the native image server. This can speed up compilation but can result in lost changes due to cache invalidation issues. |
boolean |
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Automatically registers all |
boolean |
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Dumps the bytecode of all proxies for inspection. |
boolean |
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Builds using a container runtime. Docker is used by default. |
boolean |
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The docker image to build the image. |
string |
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The container runtime used build the image. For example, Docker. |
string |
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Options to pass to the container runtime. |
list of strings |
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Enables VM introspection in the image. |
boolean |
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Enables full stack traces in the image. |
boolean |
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Generates reports on call paths and included packages/classes/methods. |
boolean |
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Reports exceptions with a full stack trace. |
boolean |
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Reports errors at runtime. This may cause your application to fail at runtime if you use unsupported features. |
boolean |
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A comma-separated list of globs to match resource paths that should be added to the native image. Use a slash ( |
list of strings |
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Enables debugging and generates debug symbols in a separate |
boolean |
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The following table lists the supported glob features and descriptions:
| Character |
Feature description |
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Matches a possibly-empty sequence of characters that does not contain slash ( |
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Matches a possibly-empty sequence of characters that might contain slash ( |
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Matches one character, but not slash. |
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Matches one character specified in the bracket, but not slash. |
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Matches one character from the range specified in the bracket, but not slash. |
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Matches one character not specified in the bracket; does not match slash. |
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Matches one character outside the range specified in the bracket; does not match slash. |
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Matches any of the alternating tokens separated by commas; the tokens may contain wildcards, nested alternations, and ranges. |
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The escape character. There are three levels of escaping: |
3.1. Configuring memory consumption for Quarkus native compilation
Compiling a Quarkus application to a native executable consumes a large amount of memory during analysis and optimization. You can limit the amount of memory used during native compilation by setting the quarkus.native.native-image-xmx configuration property. Setting low memory limits might increase the build time.
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Use one of the following methods to set a value for the
quarkus.native.native-image-xmxproperty to limit the memory consumption during the native image build time:-
Using the
application.propertiesfile:quarkus.native.native-image-xmx=<maximum_memory> -
Setting system properties:
mvn -Pnative -Dquarkus.native.container-build=true -Dquarkus.native.native-image-xmx=<maximum_memory>This command builds the native executable with Docker. To use Podman, add the
-Dquarkus.native.container-runtime=podmanargument.
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quarkus.native.native-image-xmx=6g. The value must be a multiple of 1024 and greater than 2MB. Append the letter
m or
M to indicate megabytes, or
g or
G to indicate gigabytes.
4. Testing the native executable
Test the application in native mode to test the functionality of the native executable. Use the @QuarkusIntegrationTest annotation to build the native executable and run tests against the HTTP endpoints.
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Open the
pom.xmlfile and verify that thenativeprofile has the following elements:<plugin> <groupId>org.apache.maven.plugins</groupId> <artifactId>maven-failsafe-plugin</artifactId> <version>${surefire-plugin.version}</version> <executions> <execution> <goals> <goal>integration-test</goal> <goal>verify</goal> </goals> <configuration> <systemPropertyVariables> <native.image.path>${project.build.directory}/${project.build.finalName}-runner</native.image.path> <java.util.logging.manager>org.jboss.logmanager.LogManager</java.util.logging.manager> <maven.home>${maven.home}</maven.home> </systemPropertyVariables> </configuration> </execution> </executions> </plugin>The Maven Failsafe plugin (
maven-failsafe-plugin) runs the integration test and also indicates the location of the native executable that is generated. -
Open the
src/test/java/org/acme/quickstart/NativeGreetingResourceIT.javafile and verify that it includes the following content:package org.acme.getting.started; import io.quarkus.test.junit.QuarkusIntegrationTest; @QuarkusIntegrationTest 1 public class GreetingResourceIT extends GreetingResourceTest { 2 // Execute the same tests but in native mode. }-
Use another test runner that starts the application from the native file before the tests. The executable is retrieved by using the
native.image.pathsystem property configured in the Maven Failsafe plugin. -
This example extends the
GreetingResourceTest, but you can also create a new test.
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Run the test:
./mvnw verify -PnativeThe following example shows the output of this command:
./mvnw verify -Pnative ... [getting-started-1.0-SNAPSHOT-runner:18820] universe: 587.26 ms [getting-started-1.0-SNAPSHOT-runner:18820] (parse): 2,247.59 ms [getting-started-1.0-SNAPSHOT-runner:18820] (inline): 1,985.70 ms [getting-started-1.0-SNAPSHOT-runner:18820] (compile): 14,922.77 ms [getting-started-1.0-SNAPSHOT-runner:18820] compile: 20,361.28 ms [getting-started-1.0-SNAPSHOT-runner:18820] image: 2,228.30 ms [getting-started-1.0-SNAPSHOT-runner:18820] write: 364.35 ms [getting-started-1.0-SNAPSHOT-runner:18820] [total]: 52,777.76 ms [INFO] [INFO] --- maven-failsafe-plugin:2.22.1:integration-test (default) @ getting-started --- [INFO] [INFO] ------------------------------------------------------- [INFO] T E S T S [INFO] ------------------------------------------------------- [INFO] Running org.acme.quickstart.NativeGreetingResourceIT Executing [/data/home/gsmet/git/quarkus-quickstarts/getting-started/target/getting-started-1.0-SNAPSHOT-runner, -Dquarkus.http.port=8081, -Dtest.url=http://localhost:8081, -Dquarkus.log.file.path=build/quarkus.log] 2019-04-15 11:33:20,348 INFO [io.quarkus] (main) Quarkus 999-SNAPSHOT started in 0.002s. Listening on: http://[::]:8081 2019-04-15 11:33:20,348 INFO [io.quarkus] (main) Installed features: [cdi, resteasy] [INFO] Tests run: 2, Failures: 0, Errors: 0, Skipped: 0, Time elapsed: 1.387 s - in org.acme.quickstart.NativeGreetingResourceIT ...Quarkus waits for 60 seconds for the native image to start before automatically failing the native tests. You can change this duration by configuring the
quarkus.test.wait-timesystem property.You can extend the wait time by using the following command where
<duration>is the wait time in seconds:./mvnw verify -Pnative -Dquarkus.test.wait-time=<duration>
4.1. Excluding tests when running as a native executable
When you run tests against your native application, you can only interact with its HTTP endpoints. Because tests do not run natively, you cannot link against your application’s code like you do when running tests on the JVM.
You can share your test class between your JVM and native executions and exclude certain tests using the @DisabledOnNativeImage annotation to run tests only on the JVM.
4.2. Testing an existing native executable
By using the Failsafe Maven plugin, you can test against the existing executable build. You can run multiple sets of tests in stages on the binary after it is built.
To test the native executable that you produced with Quarkus, use the available Maven commands. There are no equivalent Quarkus CLI commands to complete this task by using the command line.
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Run a test against a native executable that is already built:
./mvnw test-compile failsafe:integration-testThis command runs the test against the existing native image by using the
FailsafeMaven plugin. -
Alternatively, you can specify the path to the native executable with the following command where
<path>is the native image path:./mvnw test-compile failsafe:integration-test -Dnative.image.path=<path>
