Test coverage visualization
With the help of GitLab CI/CD, you can collect the test coverage information of your favorite testing or coverage-analysis tool, and visualize this information inside the file diff view of your merge requests (MRs). This allows you to see which lines are covered by tests, and which lines still require coverage, before the MR is merged.
How test coverage visualization works
Collecting the coverage information is done by using the GitLab CI/CD artifacts reports feature. You can specify one or more coverage reports to collect, including wildcard paths. GitLab then takes the coverage information in all the files and combines it together. Coverage files are parsed in a background job so there can be a delay between pipeline completion and the visualization loading on the page.
For the coverage analysis to work, you have to provide a properly formatted
Cobertura XML report to
artifacts:reports:coverage_report
.
This format was originally developed for Java, but most coverage analysis frameworks
for other languages have plugins to add support for it, like:
- simplecov-cobertura (Ruby)
- gocover-cobertura (Go)
Other coverage analysis frameworks support the format out of the box, for example:
- Istanbul (JavaScript)
- Coverage.py (Python)
- PHPUnit (PHP)
After configuration, if your merge request triggers a pipeline that collects coverage reports, the coverage information is displayed in the diff view. This includes reports from any job in any stage in the pipeline. The coverage displays for each line:
-
covered
(green): lines which have been checked at least once by tests -
no test coverage
(orange): lines which are loaded but never executed - no coverage information: lines which are non-instrumented or not loaded
Hovering over the coverage bar provides further information, such as the number of times the line was checked by tests.
Uploading a test coverage report does not enable:
You must configure these separately.
Limits
A limit of 100 <source>
nodes for Cobertura format XML files applies. If your Cobertura report exceeds
100 nodes, there can be mismatches or no matches in the merge request diff view.
A single Cobertura XML file can be no more than 10 MiB. For large projects, split the Cobertura XML into smaller files. See this issue for more details. When submitting many files, it can take a few minutes for coverage to show on a merge request.
The visualization only displays after the pipeline is complete. If the pipeline has a blocking manual job, the pipeline waits for the manual job before continuing and is not considered complete. The visualization cannot be displayed if the blocking manual job did not run.
Data expiration
By default, the data used to draw the visualization on the merge request expires one week after creation.
Coverage report from child pipeline
-
Introduced in GitLab 15.1 with a flag named
ci_child_pipeline_coverage_reports
. Disabled by default. -
Enabled on GitLab.com and self-managed and feature flag
ci_child_pipeline_coverage_reports
removed in GitLab 15.2.
If a job in a child pipeline creates a coverage report, the report is included in the parent pipeline’s coverage report.
child_test_pipeline:
trigger:
include:
- local: path/to/child_pipeline_with_coverage.yml
Automatic class path correction
The coverage report properly matches changed files only if the filename
of a class
element
contains the full path relative to the project root. However, in some coverage analysis frameworks,
the generated Cobertura XML has the filename
path relative to the class package directory instead.
To make an intelligent guess on the project root relative class
path, the Cobertura XML parser
attempts to build the full path by:
- Extracting a portion of the
source
paths from thesources
element and combining them with the classfilename
path. - Checking if the candidate path exists in the project.
- Using the first candidate that matches as the class full path.
Path correction example
As an example, a C# project with:
- A full path of
test-org/test-cs-project
. -
The following files relative to the project root:
Auth/User.cs Lib/Utils/User.cs
-
sources
from Cobertura XML, the following paths in the format<CI_BUILDS_DIR>/<PROJECT_FULL_PATH>/...
:<sources> <source>/builds/test-org/test-cs-project/Auth</source> <source>/builds/test-org/test-cs-project/Lib/Utils</source> </sources>
The parser:
- Extracts
Auth
andLib/Utils
from thesources
and uses these to determine theclass
path relative to the project root. - Combines these extracted
sources
and the class filename. For example, if there is aclass
element with thefilename
value ofUser.cs
, the parser takes the first candidate path that matches, which isAuth/User.cs
. - For each
class
element, attempts to look for a match for each extractedsource
path up to 100 iterations. If it reaches this limit without finding a matching path in the file tree, the class is not included in the final coverage report.
Automatic class path correction also works for a Java project with:
- A full path of
test-org/test-java-project
. -
The following files relative to the project root:
src/main/java/com/gitlab/security_products/tests/App.java
-
sources
from Cobertura XML:<sources> <source>/builds/test-org/test-java-project/src/main/java/</source> </sources>
-
class
element with thefilename
value ofcom/gitlab/security_products/tests/App.java
:<class name="com.gitlab.security_products.tests.App" filename="com/gitlab/security_products/tests/App.java" line-rate="0.0" branch-rate="0.0" complexity="6.0">
source
paths in the format <CI_BUILDS_DIR>/<PROJECT_FULL_PATH>/...
.
The source
is ignored if the path does not follow this pattern. The parser assumes that the
filename
of a class
element contains the full path relative to the project root.Example test coverage configurations
This section provides test coverage configuration examples for different programming languages. You can also see a working example in
the coverage-report
demonstration project.
JavaScript example
The following .gitlab-ci.yml
example uses Mocha
JavaScript testing and nyc coverage-tooling to
generate the coverage artifact:
test:
script:
- npm install
- npx nyc --reporter cobertura mocha
artifacts:
reports:
coverage_report:
coverage_format: cobertura
path: coverage/cobertura-coverage.xml
Java and Kotlin examples
Maven example
The following .gitlab-ci.yml
example for Java or Kotlin uses Maven
to build the project and JaCoCo coverage-tooling to
generate the coverage artifact.
You can check the Docker image configuration and scripts if you want to build your own image.
GitLab expects the artifact in the Cobertura format, so you have to execute a few
scripts before uploading it. The test-jdk11
job tests the code and generates an
XML artifact. The coverage-jdk-11
job converts the artifact into a Cobertura report:
test-jdk11:
stage: test
image: maven:3.6.3-jdk-11
script:
- mvn $MAVEN_CLI_OPTS clean org.jacoco:jacoco-maven-plugin:prepare-agent test jacoco:report
artifacts:
paths:
- target/site/jacoco/jacoco.xml
coverage-jdk11:
# Must be in a stage later than test-jdk11's stage.
# The `visualize` stage does not exist by default.
# Please define it first, or choose an existing stage like `deploy`.
stage: visualize
image: registry.gitlab.com/haynes/jacoco2cobertura:1.0.9
script:
# convert report from jacoco to cobertura, using relative project path
- python /opt/cover2cover.py target/site/jacoco/jacoco.xml $CI_PROJECT_DIR/src/main/java/ > target/site/cobertura.xml
needs: ["test-jdk11"]
artifacts:
reports:
coverage_report:
coverage_format: cobertura
path: target/site/cobertura.xml
Gradle example
The following .gitlab-ci.yml
example for Java or Kotlin uses Gradle
to build the project and JaCoCo coverage-tooling to
generate the coverage artifact.
You can check the Docker image configuration and scripts if you want to build your own image.
GitLab expects the artifact in the Cobertura format, so you have to execute a few
scripts before uploading it. The test-jdk11
job tests the code and generates an
XML artifact. The coverage-jdk-11
job converts the artifact into a Cobertura report:
test-jdk11:
stage: test
image: gradle:6.6.1-jdk11
script:
- 'gradle test jacocoTestReport' # jacoco must be configured to create an xml report
artifacts:
paths:
- build/jacoco/jacoco.xml
coverage-jdk11:
# Must be in a stage later than test-jdk11's stage.
# The `visualize` stage does not exist by default.
# Please define it first, or chose an existing stage like `deploy`.
stage: visualize
image: registry.gitlab.com/haynes/jacoco2cobertura:1.0.7
script:
# convert report from jacoco to cobertura, using relative project path
- python /opt/cover2cover.py build/jacoco/jacoco.xml $CI_PROJECT_DIR/src/main/java/ > build/cobertura.xml
needs: ["test-jdk11"]
artifacts:
reports:
coverage_report:
coverage_format: cobertura
path: build/cobertura.xml
Python example
The following .gitlab-ci.yml
example uses pytest-cov to collect test coverage data:
run tests:
stage: test
image: python:3
script:
- pip install pytest pytest-cov
- pytest --cov --cov-report term --cov-report xml:coverage.xml
artifacts:
reports:
coverage_report:
coverage_format: cobertura
path: coverage.xml
PHP example
The following .gitlab-ci.yml
example for PHP uses PHPUnit
to collect test coverage data and generate the report.
With a minimal phpunit.xml
file (you may reference
this example repository), you can run the test and
generate the coverage.xml
:
run tests:
stage: test
image: php:latest
variables:
XDEBUG_MODE: coverage
before_script:
- apt-get update && apt-get -yq install git unzip zip libzip-dev zlib1g-dev
- docker-php-ext-install zip
- pecl install xdebug && docker-php-ext-enable xdebug
- php -r "copy('https://getcomposer.org/installer', 'composer-setup.php');"
- php composer-setup.php --install-dir=/usr/local/bin --filename=composer
- composer install
- composer require --dev phpunit/phpunit phpunit/php-code-coverage
script:
- php ./vendor/bin/phpunit --coverage-text --coverage-cobertura=coverage.cobertura.xml
artifacts:
reports:
coverage_report:
coverage_format: cobertura
path: coverage.cobertura.xml
Codeception, through PHPUnit, also supports generating Cobertura report with
run
. The path for the generated file
depends on the --coverage-cobertura
option and paths
configuration for the unit test suite. Configure .gitlab-ci.yml
to find Cobertura in the appropriate path.
C/C++ example
The following .gitlab-ci.yml
example for C/C++ with
gcc
or g++
as the compiler uses gcovr
to generate the coverage
output file in Cobertura XML format.
This example assumes:
- That the
Makefile
is created bycmake
in thebuild
directory, within another job in a previous stage. (If you useautomake
to generate theMakefile
, then you need to callmake check
instead ofmake test
.) -
cmake
(orautomake
) has set the compiler option--coverage
.
run tests:
stage: test
script:
- cd build
- make test
- gcovr --xml-pretty --exclude-unreachable-branches --print-summary -o coverage.xml --root ${CI_PROJECT_DIR}
artifacts:
name: ${CI_JOB_NAME}-${CI_COMMIT_REF_NAME}-${CI_COMMIT_SHA}
expire_in: 2 days
reports:
coverage_report:
coverage_format: cobertura
path: build/coverage.xml
Go example
The following .gitlab-ci.yml
example for Go uses:
-
go test
to run tests. -
gocover-cobertura
to convert Go’s coverage profile into the Cobertura XML format.
This example assumes that Go modules
are being used. The -covermode count
option does not work with the -race
flag.
If you want to generate code coverage while also using the -race
flag, you must switch to
-covermode atomic
which is slower than -covermode count
. See this blog post
for more details.
run tests:
stage: test
image: golang:1.17
script:
- go install
- go test ./... -coverprofile=coverage.txt -covermode count
- go get github.com/boumenot/gocover-cobertura
- go run github.com/boumenot/gocover-cobertura < coverage.txt > coverage.xml
artifacts:
reports:
coverage_report:
coverage_format: cobertura
path: coverage.xml
Ruby example
The following .gitlab-ci.yml
example for Ruby uses
-
rspec
to run tests. -
simplecov
andsimplecov-cobertura
to record the coverage profile and create a report in the Cobertura XML format.
This example assumes:
- That
bundler
is being used for dependency management. Therspec
,simplecov
andsimplecov-cobertura
gems have been added to yourGemfile
. - The
CoberturaFormatter
has been added to yourSimpleCov.formatters
configuration within thespec_helper.rb
file.
run tests:
stage: test
image: ruby:3.1
script:
- bundle install
- bundle exec rspec
artifacts:
reports:
coverage_report:
coverage_format: cobertura
path: coverage/coverage.xml
Troubleshooting
Test coverage visualization not displayed
If the test coverage visualization is not displayed in the diff view, you can check the coverage report itself and verify that:
- The file you are viewing in the diff view is mentioned in the coverage report.
- The
source
andfilename
nodes in the report follows the expected structure to match the files in your repository. - The pipeline has completed. If the pipeline is blocked on a manual job, the pipeline is not considered complete.
- The coverage report file does not exceed the limits.
Report artifacts are not downloadable by default. If you want the report to be downloadable
from the job details page, add your coverage report to the artifact paths
:
artifacts:
paths:
- coverage/cobertura-coverage.xml
reports:
coverage_report:
coverage_format: cobertura
path: coverage/cobertura-coverage.xml