This document covers how to build Eclipse CDT from the command line (e.g. like you may do on Jenkins).
Please see CONTRIBUTING.md for contributing information, including setting up a development environment.
Eclipse CDT uses the standard Maven and Tycho workflow for building CDT using Maven 3.9 and Java 21. Therefore to package CDT do:
mvn package
and the resulting p2 repository will be in releng/org.eclipse.cdt.repo/target/repository
The current set of options to Maven used for building on the CI can be seen in the Jenkinsfile and GitHub actions workflows
To build CDT plug-ins you need a standard Maven & Java development environment. The Dockerfiles used for CDT's images are published in docker. The requirements for running all tests successfully and for rebuilding non-Java parts of CDT are much more extensive than standard Maven & Java and include items such as GCC, GDB, yarn, Node, etc. Refer to the Dockerfiles for the current versions of those dependencies.
The CI build automatically run code cleanliness checks. To run them on your computer it is recommended to use the Docker image, for example like this from the root of the checked out CDT repo:
docker run --rm -it -v $(git rev-parse --show-toplevel):/work -w /work/$(git rev-parse --show-prefix) --cap-add=SYS_PTRACE --security-opt seccomp=unconfined quay.io/eclipse-cdt/cdt-infra-plus-eclipse-install:latest releng/scripts/check_code_cleanliness.shThere are a number of profiles (-P to mvn) to control the behaviour of the build.
Individual p2 repos can be turned on and off to allow building CDT, or parts of CDT against different target platforms easily. For example, you can:
- test CDT against a pre-built CDT by using the cdtRepo profile.
- build the standalone rcp debugger against the latest simrel
mvn verify -DuseSimrelRepo -f debug/org.eclipse.cdt.debug.application.product
Using any of the above profiles can skip large sets of tests. The CI build uses this to parallelize tests. See https://ci.eclipse.org/cdt/view/Gerrit/
The terminal directory has a special profile that enables only the terminal and its dependencies when used. The allows
running maven like this mvn -f terminal/pom.xml verify -P only-terminal to build and test only the terminal
and its dependencies. A special terminal only p2 site is created in terminal/repo/target/repository. The CI build
uses this to speedup turnaround on changes only affecting the terminal. See https://ci.eclipse.org/cdt/view/Gerrit/
baseline-compare-and-replace profile controls whether baseline replace and compare
is performed. On a local build you want to avoid baseline replace and compare,
especially if you have different versions of Java than the baseline was built with.
If you have the same version of Java as the build machine you can run baseline comparison and
replace. To do that run with the baseline-compare-and-replace profile.
Requires verify phase of maven to run, i.e. will not run with mvn package even if profile is specified.
api-baseline-check checks the API of CDT matches the API policy
Runs the production steps of the build. This profile can only be run on the CDT CI machines as access to Eclipse key signing server is needed to sign the jars.
The jniheaders profile can be used on the core/org.eclipse.cdt.core.native and
native/org.eclipse.cdt.native.serial to rebuild the header files for JNI natives.
See also native property below.
There are a number of properties (-D to mvn) to control the behaviour of the build. Refer to the pom.xml for the full list. Many of the properties are not intended to be set at the command line.
Documentation generation for CDT can be time consuming. For local builds this can be skipped
with -DskipDoc=true
Running tests for CDT can be time consuming. For local builds this can be skipped
with -DskipTests=true.
Some tests in CDT are fairly slow to run and rarely are exercising actively changing code. Some tests in CDT are fairly flaky to run and rarely are exercising actively changing code. These tests are excluded from the main CDT builds (both master/branch and gerrit verify jobs) and are instead run in a special job. Therefore the Jenkinsfiles for master/branch and gerrit use excludedGroups by default.
To skip slow tests use -DexcludedGroups=slowTest
To skip flaky tests use -DexcludedGroups=flakyTest
To skip both use -DexcludedGroups=flakyTest,slowTest
See section below on marking tests for how to annotate a test properly.
Running a build with uncommitted changes will normally cause an error. To run a build with
uncommited changes use -Djgit.dirtyWorkingTree-cdtDefault=warning
For running CDT's DSF-GDB tests, this specifies the path to the location of gdb.
The default, defined in the root pom.xml, it is blank, which uses gdb from the PATH.
See BaseTestCase for more info.
For running CDT's DSF-GDB tests, this specifies the executable names of the gdbs to run, comma-separated.
There are a few special values that can be specified (see BaseParametrizedTestCase for source):
- all: run all versions listed in ITestConstants.ALL_KNOWN_VERSIONS
- supported: run all versions listed in ITestConstants.ALL_SUPPORTED_VERSIONS
- unsupported: run all versions listed in ITestConstants.ALL_UNSUPPORTED_VERSIONS
The default, defined in the root pom.xml, it is blank, which uses gdb and gdbserver.
See BaseParametrizedTestCase for more info.
To build all gdb versions for testing CDT see download-build-gdb.sh
The native property can be used to build the native libraries. Defining the native property will activate profiles to add the extra steps to compile the natives libraries used by CDT. The main CDT build by default will not build the libraries, but instead use the versions of the libraries checked into git. Therefore when users modify the sources of the native libraries, they have to build and commit the changed library binaries as part of the commit.
The releng/scripts/check_code_cleanliness.sh, which is run on the build machine as part of the gerrit and main build flows, will ensure that the libraries that are checked in are indeed up to date with their sources.
The native property can be one of the following:
linux.x86_64- uses local tools and builds only linux.x86_64 librarieslinux.ppc64le- uses local tools and builds only linux.ppc64le librariesdocker- uses CDT's docker releng images to do the native builds for all platformsall- uses local tools to do the native builds for all platforms
Therefore to build all the natives using docker add -Dnative=docker to your maven command line (e.g. mvn verify -Dnative=docker).
To build only the native libraries mvn process-resources can be used on the individual bundles with the simrel target platform, e.g.:
- Serial library:
mvn process-resources -Dnative=docker -DuseSimrelRepo -f native/org.eclipse.cdt.native.serial - Core library:
mvn process-resources -Dnative=docker -DuseSimrelRepo -f core/org.eclipse.cdt.core.native
However, the challenge is that dll files on Windows have a timestamp in them. To have reproducible builds, we need to have a reproducible timestamp. As Microsoft has moved away from using a timestamp to rather use a hash of the source files as the value, we therefore hash the source files used by the library and the header files for the Java API and use that as the value.
An additional tip is to set the following in .gitconfig to allow you to diff .dll files. This will show the timestamp of the DLL in the diff as part of the DLL headers.
[diff "dll"]
textconv = objdump -x
binary = true
When the host is Windows, getting docker to behave as encoded in the pom.xml may be challenging, instead a command like this will probably work (replace your path to git root). Note that running this in git bash causes problems because of the /work in the command line arguments. (TODO integrate this command line way of running into the pom.xml so the original instructions work.)
docker 'run' '--rm' '-t' '-v' 'D:\cdt\git\org.eclipse.cdt:/work' '-w' '/work/core/org.eclipse.cdt.core.native' 'quay.io/eclipse-cdt/cdt-infra-eclipse-full:latest' 'make' '-C' 'native_src' 'rebuild'
See also jniheaders profile above.