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Use Run Tests step for Java, Kotlin, or Scala

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Currently, the new Test step supports Java but it doesn't yet support Kotlin or Scala. Until support is added for these languages, continue to use the Run Tests step for TI with Kotlin or Scala.

While the Run Tests step remains backwards compatible,We recommend using the new Test step with Java applications moving forward.

Using Test Intelligence (TI) in your Harness CI pipelines doesn't require you to change your build and test processes.

Enable TI for Java, Kotlin, or Scala

You can enable TI for Java, Kotlin, or Scala in three steps:

  1. Add a Run Tests step. For Java consider using the new Test step instead.
  2. Trigger test selection.
  3. (Optional) Add test splitting.

Add the Run Tests step

Add the Run Tests step to the Build stage in a CI pipeline.

You must select Run only selected tests (runOnlySelectedTests: true) to enable Test Intelligence. For information about each setting, go to Run Tests step settings.

              - step:
type: RunTests
name: Run Tests
identifier: Run_Tests
spec:
connectorRef: account.harnessImage ## Specify if required by your build infrastructure.
image: maven:3.8-jdk-11 ## Specify if required by your build infrastructure.
language: Java ## Specify Java, Kotlin, or Scala.
buildTool: Maven ## Specify your build tool.
args: test
packages: io.harness.
runOnlySelectedTests: true ## Must be 'true' to enable TI.
postCommand: mvn package -DskipTests
reports: ## Reports must be in JUnit XML format.
type: JUnit
spec:
paths:
- "target/reports/*.xml"

For additional YAML examples, go to Pipeline YAML examples

Additional configuration needed when using Kotlin with Gradle

If you are using Test Intelligence for Kotlin and building using Gradle, add the below section to the build.gradle.kts file under the 'allprojects' section.

tasks.withType<Test> {
val harnessJavaAgent = System.getProperty("HARNESS_JAVA_AGENT")
if (harnessJavaAgent != null) {
jvmArgs(harnessJavaAgent)
}
}

gradle.projectsEvaluated {
tasks.withType<Test> {
filter {
isFailOnNoMatchingTests = false
}
}
}

Trigger test selection

After adding the Run Tests step, trigger test selection. You need to run your pipeline twice to trigger test selection.

Trigger test selection with a webhook trigger (Recommended)
  1. If your pipeline doesn't already have one, add a webhook trigger that listens for Pull Request or Push events in your codebase.

  2. Activate the trigger by opening a PR or pushing changes to your codebase, and then wait while the build runs. You can monitor the build's progress on the Build details page.

    If you created a PR, merge the PR after the build runs.

  3. To trigger test selection, activate the trigger again (by opening a PR or pushing changes to your codebase).

    The first run with TI doesn't apply test selection, because Harness must establish a baseline for comparison in future runs. After establishing a baseline, each time this pipeline runs, Harness can select relevant tests to run based on the content of the code changes.

  4. Wait while the build runs, and then review the test results and test selection. If you created a PR, merge the PR after the build runs.

Trigger test selection with a manual build
  1. Open a PR or push changes to your pipeline's codebase, and then run your pipeline.

    If you opened a PR, select Git Pull Request for Build Type, and enter the PR number.

    If you pushed changes, select Git Branch for Build Type, and then enter the branch name.

  2. Wait while the build runs. You can monitor the build's progress on the Build details page.

    If you created a PR, merge the PR after the build runs.

  3. To trigger test selection, open a new PR (or push changes) to your codebase, and then run your pipeline again.

    The first run with TI doesn't apply test selection, because Harness must establish a baseline for comparison in future runs. After establishing a baseline, each time this pipeline runs, Harness can select relevant tests to run based on the content of the code changes.

  4. Wait while the build runs, and then review the test results and test selection. If you created a PR, merge the PR after the build runs.

Why do I have to run the pipeline twice?

The first time you run a pipeline after adding the Run Test step, Harness creates a baseline for test selection in future builds. Test selection isn't applied to this run because Harness has no baseline against which to compare changes and select tests. You'll start seeing test selection and time savings on the second run after adding the Run Tests step.

Add test splitting

Once you start saving time with test selection, you can further optimize test times by enabling parallelism (test splitting) for TI.

You can also configure TI to ignore tests or files.

Pipeline YAML examples

This example shows a pipeline that uses Harness Cloud build infrastructure and runs tests on Java with Maven and Test Intelligence. By changing the language value, you can use this pipeline for Kotlin or Scala.

pipeline:
name: Test Intelligence Demo
identifier: testintelligencedemo
projectIdentifier: default
orgIdentifier: default
properties:
ci:
codebase:
build: <+input>
connectorRef: YOUR_CODEBASE_CONNECTOR_ID
stages:
- stage:
type: CI
identifier: Build_and_Test
name: Build and Test
spec:
cloneCodebase: true
execution:
steps:
- step:
type: RunTests
name: Run Tests
identifier: Run_Tests
spec:
language: Java ## Specify Java, Kotlin, or Scala.
buildTool: Maven ## For Java or Kotlin, specify Bazel, Maven, or Gradle. For Scala, specify Bazel, Maven, Gradle, or Sbt.
args: test
packages: io.harness.
runOnlySelectedTests: true ## Must be 'true' to enable TI.
postCommand: mvn package -DskipTests
reports: ## Reports must be in JUnit XML format.
type: JUnit
spec:
paths:
- "target/reports/*.xml"
platform:
arch: Amd64
os: Linux
runtime:
spec: {}
type: Cloud

Run Tests step settings

The following information explains how to configure most settings for the Run Tests step. You might not need all settings for all scenarios; some settings are optional, and some settings are only available for specific languages, build tools, or build infrastructures.

Container Registry and Image

The build environment must have the necessary binaries for the Run Tests step to execute your test commands. Depending on the stage's build infrastructure, Run Tests steps can use binaries that exist in the build environment, or use Container Registry and Image to pull an image, such as a public or private Docker image, that contains the required binaries. You can also install tools at runtime in Pre-Command, provided the build machine or image can execute the necessary commands, such as curl commands to download files.

When are Container Registry and Image required?

The stage's build infrastructure determines whether these fields are required or optional:

  • Kubernetes cluster build infrastructure: Container Registry and Image are always required.
  • Local runner build infrastructure: Run Tests steps can use binaries available on the host machine. The Container Registry and Image are required if the machine doesn't have the binaries you need.
  • Self-managed AWS/GCP/Azure VM build infrastructure: Run Tests steps can use binaries that you've made available on your build VMs. The Container Registry and Image are required if the VM doesn't have the necessary binaries. These fields are located under Additional Configuration for stages that use self-managed VM build infrastructure.
  • Harness Cloud build infrastructure: Run Tests steps can use binaries available on Harness Cloud machines, as described in the image specifications. The Container Registry and Image are required if the machine doesn't have the binaries you need. These fields are located under Additional Configuration for stages that use Harness Cloud build infrastructure.
What are the expected values for Container Registry and Image?

For Container Registry, provide a Harness container registry connector, such as a Docker connector, that connects to the container registry where the Image is located.

For Image, provide the FQN (fully-qualified name) or artifact name and tag of a Docker image that has the binaries necessary to run the commands in this step, such as maven:3.8-jdk-11. If you don't include a tag, Harness uses the latest tag.

You can use any Docker image from any Docker registry, including Docker images from private registries. Different container registries require different name formats:

  • Docker Registry: Enter the name of the artifact you want to deploy, such as library/tomcat. Wildcards aren't supported. FQN is required for images in private container registries.
  • ECR: Enter the FQN of the artifact you want to deploy. Images in repos must reference a path, for example: 40000005317.dkr.ecr.us-east-1.amazonaws.com/todolist:0.2.
  • GCR: Enter the FQN of the artifact you want to deploy. Images in repos must reference a path starting with the project ID that the artifact is in, for example: us.gcr.io/playground-243019/quickstart-image:latest.
Bazel container images

If your build tool is Bazel, and you use a Bazel container image to provide the Bazel binary to the Run Tests step, your build will fail if Bazel isn't already installed in your build infrastructure. This is because the Run Tests step calls bazel query before pulling the container image.

Bazel is already installed on Harness Cloud runners. For other build infrastructures, you must manually confirm that Bazel is already installed. If Bazel isn't already installed on your build infrastructure, you need to install Bazel in a Run step prior to the Run Tests step.

Language

Select the source code language to build: Java, Kotlin, or Scala.

Build Tool

Select the build automation tool: Bazel, Maven, Gradle, or Sbt (Scala only).

Bazel container images

If your build tool is Bazel, and you use a container image to provide the Bazel binary to the Run Tests step, your build will fail if Bazel isn't already installed in your build infrastructure. This is because the Run Tests step calls bazel query before pulling the container image.

Bazel is already installed on Harness Cloud runners. For other build infrastructures, you must manually confirm that Bazel is already installed. If Bazel isn't already installed on your build infrastructure, you need to install Bazel in a Run step prior to the Run Tests step.

Java Maven argLine setup

If you use Maven with Java and your pom.xml contains <argLine> or you attach Jacoco or any agent while running unit tests, then you must modify your pom.xml to include <harnessArgLine> in the <properties> and the Maven plugin <configuration>. For example:

<!-- Add harnessArgLine to pom properties. -->
<properties>
<harnessArgLine></harnessArgLine>
</properties>

...

<!-- Add harnessArgLine to Maven plugin configuration. -->
<plugin>
<groupId>org.apache.maven.plugins</groupId>
<artifactId>maven-surefire-plugin</artifactId>
<version>2.22.2</version>
<configuration>
<argLine>${harnessArgLine} @{argLine} </argLine>
</configuration>
</plugin>
Java Gradle compatibility

If you use Java with Gradle, Test Intelligence assumes ./gradlew is present in the root of your project. If not, TI falls back to the Gradle tool to run the tests. As long as your Gradle version has test filtering support, it is compatible with Test Intelligence.

Add the following to your build.gradle to make it compatible with Test Intelligence:

// This adds HARNESS_JAVA_AGENT to the testing command if it's
// provided through the command line.
// Local builds will still remain same as it only adds if the
// parameter is provided.
tasks.withType(Test) {
if(System.getProperty("HARNESS_JAVA_AGENT")) {
jvmArgs += [System.getProperty("HARNESS_JAVA_AGENT")]
}
}

// This makes sure that any test tasks for subprojects don't
// fail in case the test filter does not match.
gradle.projectsEvaluated {
tasks.withType(Test) {
filter {
setFailOnNoMatchingTests(false)
}
}
}

Build Arguments

This setting is required for Java, Kotlin, and Scala.

Enter commands to use as input or runtime arguments for the build tool. You don't need to repeat the build tool, such as maven, this is declared in Build Tool.

This can be as simple as test or you can include additional flags, such as: test -Dmaven.test.failure.ignore=true -DfailIfNoTests=false.

Test Report Paths

This setting is required for the Run Tests step to publish test results.

Specify one or more paths to files that store test results in JUnit XML format. Glob is supported.

You can add multiple paths. If you specify multiple paths, make sure the files contain unique tests to avoid duplicates.

Test Splitting (parallelism)

Used to enable test splitting (parallelism) for TI.

Pre-Command, Post-Command, and Shell

  • Pre-Command: You can enter commands for setting up the environment before running the tests, such as mvn clean package dependency:copy-dependencies
  • Post-Command: You can enter commands used for cleaning up the environment after running the tests, such as mvn package -DskipTests.
  • Shell: If you supplied a script in Pre-command or Post-command, select the corresponding shell script type.

Packages

Leave blank or provide a comma-separated list of source code package prefixes, such as com.company., io.company.migrations. If you do not provide a list, Harness auto-detects the packages.

Run Only Selected Tests

This option must be selected (true) to enable Test Intelligence.

If this option is not selected (false), TI is disabled and all tests run on every build.

Test Annotations

You can provide a comma-separated list of test annotations used in unit testing. Any method with a specified annotation is treated as a test method.

This setting is optional. If not specified, the defaults are: org.junit.Test, org.junit.jupiter.api.Test, org.testing.annotations.Test.

This setting is located under Additional Configuration in the Visual editor, or you can configure it in YAML as:

testAnnotations: annotation1, annotation2, annotation3

Do you want to enable Error Tracking?

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This setting available for Java only, and it requires the CET module. This setting is configurable in the Visual editor only (not YAML).

Error tracking helps you be more proactive at discovering and remediating errors early in the software delivery lifecycle. It helps you more easily discover issues and assess the quality of code before it reaches production.

Select Yes to enable error tracking. When enabled, a set of commands are auto-populated in the Pre-Command. Review these commands to ensure that they are compatible with your build. The auto-populated commands are enclosed in #ET-SETUP-BEGIN and #ET-SETUP-END.

CET Java Error Tracking Pre-command example
#ET-SETUP-BEGIN
PROJ_DIR=$PWD
cd /opt
arch=`uname -m`
if [ $arch = "x86_64" ]; then
if cat /etc/os-release | grep -iq alpine ; then
wget -qO- https://get.et.harness.io/releases/latest/alpine/harness-et-agent.tar.gz | tar -xz
else
wget -qO- https://get.et.harness.io/releases/latest/nix/harness-et-agent.tar.gz | tar -xz
fi
elif [ $arch = "aarch64" ]; then
wget -qO- https://get.et.harness.io/releases/latest/arm/harness-et-agent.tar.gz | tar -xz
fi
export ET_COLLECTOR_URL=https://app.harness.io/<cluster_value>/et-collector
export ET_APPLICATION_NAME=$HARNESS_PIPELINE_ID
export ET_ENV_ID=_INTERNAL_ET_CI
export ET_DEPLOYMENT_NAME=$HARNESS_BUILD_ID
export ET_ACCOUNT_ID=$HARNESS_ACCOUNT_ID
export ET_ORG_ID=$HARNESS_ORG_ID
export ET_PROJECT_ID=$HARNESS_PROJECT_ID
# export ET_SHUTDOWN_GRACETIME=30000
export JAVA_TOOL_OPTIONS="-agentpath:/opt/harness/lib/libETAgent.so"
# Uncomment the line below if using Java version 10 or above
# export JAVA_TOOL_OPTIONS="-Xshare:off -XX:-UseTypeSpeculation -XX:ReservedCodeCacheSize=512m -agentpath:/opt/harness/lib/libETAgent.so"
cd $PROJ_DIR
#ET-SETUP-END

Error tracking output is reported on the Error Tracking tab when the pipeline runs.

Environment Variables

You can inject environment variables into the step container and use them in the step's commands. You must input a Name and Value for each variable.

You can reference environment variables in the Build Arguments, Pre-Command, or Post-Command scripts by name, such as $var_name.

Variable values can be fixed values, runtime inputs, or expressions. For example, if the value type is expression, you can input a value that references the value of some other setting in the stage or pipeline.

Using an expression for an environment variable's value.
Stage variables

Stage variables are inherently available to steps as environment variables.

Additional container settings

Settings specific to containers are not applicable in a stages that use VM or Harness Cloud build infrastructure.

Image Pull Policy

If you specified a Container Registry and Image, you can specify an image pull policy:

  • Always: The kubelet queries the container image registry to resolve the name to an image digest every time the kubelet launches a container. If the kubelet encounters an exact digest cached locally, it uses its cached image; otherwise, the kubelet downloads (pulls) the image with the resolved digest, and uses that image to launch the container.
  • If Not Present: The image is pulled only if it isn't already present locally.
  • Never: The image is not pulled.

Run as User

If you specified a Container Registry and Image, you can specify the user ID to use for running processes in containerized steps.

For a Kubernetes cluster build infrastructure, the step uses this user ID to run all processes in the pod. For more information, go to Set the security context for a pod.

Privileged

For container-based build infrastructures, you can enable this option to run the container with escalated privileges. This is equivalent to running a container with the Docker --privileged flag.

Set Container Resources

These settings specify the maximum resources used by the container at runtime. These setting are only available for container-based build infrastructures, such as a Kubernetes cluster build infrastructure.

  • Limit Memory: The maximum memory that the container can use. You can express memory as a plain integer or as a fixed-point number using the suffixes G or M. You can also use the power-of-two equivalents Gi and Mi. The default is 500Mi.
  • Limit CPU: The maximum number of cores that the container can use. CPU limits are measured in CPU units. Fractional requests are allowed. For example, you can specify one hundred millicpu as 0.1 or 100m. The default is 400m. For more information go to Resource units in Kubernetes.

Timeout

You can set the step's timeout limit. Once the timeout is reached, the step fails and pipeline execution proceeds according to any Step Failure Strategy settings or Step Skip Condition settings.

Troubleshoot Test Intelligence

Go to the CI Knowledge Base for questions and issues related to Test Intelligence, including: