TL;DR
If you have the prerequisites, running
$ bazel build gerrit
should generate a .war file under bazel-bin/gerrit.war
.
Prerequisites
To build Gerrit from source, you need:
-
A Linux or macOS system (Windows is not supported at this time)
-
A JDK for Java 11 or Java 17
-
Python 3
-
Bower (
npm install -g bower
) -
Maven
-
zip, unzip
-
curl
-
gcc
Bazel
Java
Ensure that the required Java version
is installed and that JAVA_HOME
is set to it.
To check the installed version of Java, open a terminal window and run:
java -version
Java 11 support
To build Gerrit with Java 11 language level, run:
$ bazel build --java_toolchain=//tools:error_prone_warnings_toolchain_java11 :release
Java 17 support
Java 17 is supported. To build Gerrit with Java 17, run:
$ bazel build --config=java17 :release
To run the tests with Java 17, run:
$ bazel test --config=java17 //...
Node.js and npm packages
Building on the Command Line
Gerrit Development WAR File
To build the Gerrit web application:
bazel build gerrit
The output executable WAR will be placed in:
bazel-bin/gerrit.war
Gerrit Release WAR File
To build the Gerrit web application that includes the Gerrit UI, core plugins and documentation:
bazel build release
The output executable WAR will be placed in:
bazel-bin/release.war
Headless Mode
To build Gerrit in headless mode, i.e. without the Gerrit UI:
bazel build headless
The output executable WAR will be placed in:
bazel-bin/headless.war
Extension and Plugin API JAR Files
To build the extension, plugin and acceptance-framework JAR files:
bazel build api
The output archive that contains Java binaries, Java sources and Java docs will be placed in:
bazel-bin/api.zip
Install {extension,plugin,acceptance-framework}-api to the local maven repository:
tools/maven/api.sh install
Install gerrit.war to the local maven repository:
tools/maven/api.sh war_install
Plugins
bazel build plugins:core
The output JAR files for individual plugins will be placed in:
bazel-bin/plugins/<name>/<name>.jar
The JAR files will also be packaged in:
bazel-bin/plugins/core.zip
To build a specific plugin:
bazel build plugins/<name>
The output JAR file will be be placed in:
bazel-bin/plugins/<name>/<name>.jar
Note that when building an individual plugin, the core.zip
package
is not regenerated.
Using an IDE.
IntelliJ
The Gerrit build works with Bazel’s IntelliJ plugin. Please follow the instructions on IntelliJ Setup.
Eclipse
Generating the Eclipse Project
Create the Eclipse project:
tools/eclipse/project.py
and then follow the setup instructions.
Refreshing the Classpath
If an updated classpath is needed, the Eclipse project can be
refreshed and missing dependency JARs can be downloaded by running
project.py
again. For IntelliJ, you need to click the Sync Project
with BUILD Files
button of Bazel plugin.
Documentation
To build only the documentation for testing or static hosting:
bazel build Documentation:searchfree
The html files will be bundled into searchfree.zip
in this location:
bazel-bin/Documentation/searchfree.zip
To generate HTML files skipping the zip archiving:
bazel build Documentation
And open bazel-bin/Documentation/index.html
.
To build the Gerrit executable WAR with the documentation included:
bazel build withdocs
The WAR file will be placed in:
bazel-bin/withdocs.war
Alternatively, one can generate the documentation as flat files:
bazel build Documentation:Documentation
The html, css, js files are placed in:
`bazel-bin/Documentation/`
Running Unit Tests
bazel test --build_tests_only //...
Debugging tests:
bazel test --test_output=streamed --test_filter=com.gerrit.TestClass.testMethod testTarget
Debug test example:
bazel test --test_output=streamed --test_filter=com.google.gerrit.acceptance.api.change.ChangeIT.getAmbiguous //javatests/com/google/gerrit/acceptance/api/change:api_change
To run a specific test group, e.g. the rest-account test group:
bazel test //javatests/com/google/gerrit/acceptance/rest/account:rest_account
To run only tests that do not use SSH:
bazel test --test_env=GERRIT_USE_SSH=NO //...
To exclude tests that have been marked as flaky:
bazel test --test_tag_filters=-flaky //...
To exclude tests that require very recent git client version:
bazel test --test_tag_filters=-git-protocol-v2 //...
To ignore cached test results:
bazel test --cache_test_results=NO //...
To run one or more specific groups of tests:
bazel test --test_tag_filters=api,git //...
To run the tests against a specific index backend (LUCENE, FAKE):
bazel test --test_env=GERRIT_INDEX_TYPE=LUCENE //...
The following values are currently supported for the group name:
-
annotation
-
api
-
edit
-
git
-
git-protocol-v2
-
git-upload-archive
-
notedb
-
pgm
-
rest
-
server
-
ssh
Bazel itself supports a multitude of ways to specify targets for fine-grained test selection that can be combined with many of the examples above.
Debugging Unit Tests
In some cases it may be necessary to debug a test while running it in bazel. For example, when we
observe a different test result in Eclipse and bazel. Using the --java_debug
option will start the
JVM in debug mode and await for a remote debugger to attach.
Example:
bazel test --java_debug --test_tag_filters=delete-project //...
...
Listening for transport dt_socket at address: 5005
...
Now attach with a debugger to the port 5005
. For example use "Remote Java Application" launch
configuration in Eclipe and specify the port 5005
.
Controlling logging level
Per default, logging level is set to INFO
level for all tests. The DEBUG
log level can be enabled for the tests.
In IDE, set -Dgerrit.logLevel=debug
as a VM argument. With bazel
, pass
GERRIT_LOG_LEVEL=debug
environment variable:
bazel test --test_filter=com.google.gerrit.server.notedb.ChangeNotesTest \ --test_env=GERRIT_LOG_LEVEL=debug \ javatests/com/google/gerrit/server:server_tests
The log results can be found in:
bazel-testlogs/javatests/com/google/gerrit/server/server_tests/test.log
.
Dependencies
Dependency JARs are normally downloaded as needed, but you can download everything upfront. This is useful to enable subsequent builds to run without network access:
bazel fetch //...
When downloading from behind a proxy (which is common in some corporate
environments), it might be necessary to explicitly specify the proxy that
is then used by curl
:
export http_proxy=http://<proxy_user_id>:<proxy_password>@<proxy_server>:<proxy_port>
Redirection to local mirrors of Maven Central and the Gerrit storage
bucket is supported by defining specific properties in
local.properties
, a file that is not tracked by Git:
echo download.GERRIT = http://nexus.my-company.com/ >>local.properties echo download.MAVEN_CENTRAL = http://nexus.my-company.com/ >>local.properties
The local.properties
file may be placed in the root of the gerrit repository
being built, or in ~/.gerritcodereview/
. The file in the root of the gerrit
repository has precedence.
Building against unpublished Maven JARs
To build against unpublished Maven JARs, like PrologCafe, the custom JARs must
be installed in the local Maven repository (mvn clean install
) and
maven_jar()
must be updated to point to the MAVEN_LOCAL
Maven repository for
that artifact:
maven_jar(
name = 'prolog-runtime',
artifact = 'com.googlecode.prolog-cafe:prolog-runtime:42',
repository = MAVEN_LOCAL,
)
Building against artifacts from custom Maven repositories
To build against custom Maven repositories, two modes of operations are supported: with rewrite in local.properties and without.
Without rewrite the URL of custom Maven repository can be directly passed to the maven_jar() function:
GERRIT_FORGE = 'http://gerritforge.com/snapshot'
maven_jar(
name = 'gitblit',
artifact = 'com.gitblit:gitblit:1.4.0',
sha1 = '1b130dbf5578ace37507430a4a523f6594bf34fa',
repository = GERRIT_FORGE,
)
When the custom URL has to be rewritten, then the same logic as with Gerrit known Maven repository is used: Repo name must be defined that matches an entry in local.properties file:
download.GERRIT_FORGE = http://my.company.mirror/gerrit-forge
And corresponding WORKSPACE excerpt:
GERRIT_FORGE = 'GERRIT_FORGE:'
maven_jar(
name = 'gitblit',
artifact = 'com.gitblit:gitblit:1.4.0',
sha1 = '1b130dbf5578ace37507430a4a523f6594bf34fa',
repository = GERRIT_FORGE,
)
Building against SNAPSHOT Maven JARs
To build against SNAPSHOT Maven JARs, the complete SNAPSHOT version must be used:
maven_jar(
name = "pac4j-core",
artifact = "org.pac4j:pac4j-core:3.5.0-SNAPSHOT-20190112.120241-16",
sha1 = "da2b1cb68a8f87bfd40813179abd368de9f3a746",
)
To accelerate builds, several caches are activated per default:
-
~/.gerritcodereview/bazel-cache/downloaded-artifacts
-
~/.gerritcodereview/bazel-cache/repository
-
~/.gerritcodereview/bazel-cache/cas
The downloaded-artifacts
cache can be relocated by setting the
GERRIT_CACHE_HOME
environment variable. The other two can be adjusted with
bazel build
options --repository_cache
and --disk_cache
respectively.
Currently none of these caches have a maximum size limit. See this bazel issue for details. Users should watch the cache sizes and clean them manually if necessary.
NPM Binaries
Parts of the Gerrit web app build require running NPM-based JavaScript programs as "binaries". We don’t attempt to resolve and download NPM dependencies at build time, but instead use pre-built bundles of the NPM binary along with all its dependencies. Some packages on registry.npmjs.org come with their dependencies bundled, but this is the exception rather than the rule. More commonly, to add a new binary to this list, you will need to bundle the binary yourself.
Note
|
We can only use binaries that meet certain licensing requirements, and that do not include any native code. |
Start by checking that the license and file types of the bundle are acceptable:
gerrit_repo=/path/to/gerrit
package=some-npm-package
version=1.2.3
# Note - yarn must be installed before running the following commands
yarn global add license-checker && \
rm -rf /tmp/$package-$version && mkdir -p /tmp/$package-$version && \
cd /tmp/$package-$version && \
yarn add $package@$version && \
license-checker | grep licenses: | sort -u
This will output a list of the different licenses used by the package and all
its transitive dependencies. We can only legally distribute a bundle via our
storage bucket if the licenses allow us to do so. As long as all of the listed
license are allowed by
Google’s. Any by_exception_only
, commercial, prohibited, or unlisted
licenses are not allowed; otherwise, it is ok to distribute the source. If in
doubt, contact a maintainer who is a Googler.
Next, check the file types:
cd /tmp/$package-$version
find . -type f | xargs file | grep -v 'ASCII\|UTF-8\|empty$'
If you see anything that looks like a native library or binary, then we can’t use the bundle.
If everything looks good, install the package with the following command:
# Add to ui_npm. Other packages.json can be updated in the same way
cd $gerrit_repo/polygerrit-ui/app
bazel run @nodejs//:yarn add $package
Update the polygerrit-ui/app/node_modules_licenses/licenses.ts
file. You should add licenses
for the package itself and for all transitive depndencies. If you forgot to add a license, the
Documentation:check_licenses
test will fail.
After the update, commit all changes to the repository (including yarn.lock
).
Note
|
If a npm package has transitive dependencies (or just several files) with a not allowed license and you can’t avoid use it in release, then you can add this package. For example some packages contain demo-code with a different license. Another example - optional dependencies, which are not needed to build the Gerrit web app, but they are installed together with the package anyway. In this case you should exclude all files and/or transitive dependencies with a not allowed license. Adding such package requires additional updates:
|
Update NPM Binaries
To update a NPM binary the same actions as for a new one must be done (check licenses,
update licenses.ts
file, etc…). The only difference is a command to install a package: instead
of bazel run @nodejs//:yarn add $package
you should run the bazel run @nodejs//:yarn upgrade …
command with correct arguments. You can find the list of arguments in the
yarn upgrade doc.
Google Remote Build Support
The Bazel build can be used with Google’s Remote Build Execution.
This needs the following setup steps:
gcloud auth application-default login
gcloud services enable remotebuildexecution.googleapis.com --project=${PROJECT}
Create a worker pool. The instances should have at least 4 CPUs each for adequate performance.
gcloud alpha remote-build-execution worker-pools create default \
--project=${PROJECT} \
--instance=default_instance \
--worker-count=50 \
--machine-type=e2-standard-4 \
--disk-size=200
Due to outdated Git version in official RBE docker images, a custom RBE docker
image must be used. To build custom docker imager, change to the directory
tools/platforms
and build and publish custom RBE docker image.
To build the custom RBE docker image, run:
docker build -t gcr.io/api-project-164060093628/rbe-ubuntu18-04 .
To publish the custom RBE docker image, run:
docker push gcr.io/api-project-164060093628/rbe-ubuntu18-04
[...]
latest: digest: sha256:de5186d4313630a6111f9a2449b72563d0bc59ec9fb60956f063b69a38a76834 size: 1584
Re-build rbe_autoconfig project conduct a new release and switch to using it
in WORKSPACE
file.
Note, to authenticate to the gcr.io registry, the following command must be used:
gcloud auth configure-docker
To see the documentation, developer must be added to this group: https://groups.google.com/forum/#!forum/rbe-alpha-customers.
Documentation can be found at: https://cloud.google.com/remote-build-execution/docs.
To use RBE, execute
bazel test --config=remote \
--remote_instance_name=projects/${PROJECT}/instances/default_instance \
javatests/...
Part of Gerrit Code Review