mirror of
https://github.com/systemd/systemd.git
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557 lines
22 KiB
Plaintext
557 lines
22 KiB
Plaintext
# Integration tests
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## Running the integration tests with meson + mkosi
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To run the integration tests with meson + mkosi, make sure you're running the
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latest version of mkosi. See
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[`docs/HACKING.md`](https://github.com/systemd/systemd/blob/main/docs/HACKING.md)
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for more specific details. Make sure `mkosi` is available in `$PATH` when
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reconfiguring meson to make sure it is picked up properly.
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We also need to make sure the required meson options are enabled:
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```shell
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$ meson setup --reconfigure build -Dremote=enabled
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```
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To make sure `mkosi` doesn't try to build systemd from source during the image build
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process, you can add the following to `mkosi.local.conf`:
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```
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[Content]
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Environment=NO_BUILD=1
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```
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You might also want to use the `PackageDirectories=` or `Repositories=` option to provide
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mkosi with a directory or repository containing the systemd packages that should be installed
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instead. If the repository containing the systemd packages is not a builtin repository known
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by mkosi, you can use the `SandboxTrees=` option to write an extra repository definition
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to /etc which is used when building the image instead.
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Next, we can build the integration test image with meson:
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```shell
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$ meson compile -C build mkosi
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```
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By default, the `mkosi` meson target which builds the integration test image depends on
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other meson targets to build various systemd tools that are used to build the image to make
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sure they are up-to-date. If you instead want the already installed systemd tools on the
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host to be used, you can run `mkosi` manually to build the image. To build the integration test
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image without meson, run the following:
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```shell
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$ mkosi -f
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```
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Note that by default we assume that `build/` is used as the meson build directory that will be used to run
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the integration tests. If you want to use another directory as the meson build directory, you will have to
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configure the mkosi build directory (`BuildDirectory=`), cache directory (`CacheDirectory=`) and output
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directory (`OutputDirectory=`) to point to the other directory using `mkosi.local.conf`.
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After the image has been built, the integration tests can be run with:
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```shell
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$ SYSTEMD_INTEGRATION_TESTS=1 meson test -C build --no-rebuild --suite integration-tests --num-processes "$(($(nproc) / 4))"
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```
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As usual, specific tests can be run in meson by appending the name of the test
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which is usually the name of the directory e.g.
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```shell
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$ SYSTEMD_INTEGRATION_TESTS=1 meson test -C build --no-rebuild -v TEST-01-BASIC
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```
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See `meson introspect build --tests` for a list of tests.
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To interactively debug a failing integration test, the `--interactive` option
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(`-i`) for `meson test` can be used. Note that this requires meson v1.5.0 or
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newer:
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```shell
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$ SYSTEMD_INTEGRATION_TESTS=1 meson test -C build --no-rebuild -i TEST-01-BASIC
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```
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Due to limitations in meson, the integration tests do not yet depend on the
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mkosi target, which means the mkosi target has to be manually rebuilt before
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running the integration tests. To rebuild the image and rerun a test, the
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following command can be used:
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```shell
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$ meson compile -C build mkosi && SYSTEMD_INTEGRATION_TESTS=1 meson test -C build --no-rebuild -v TEST-01-BASIC
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```
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The integration tests use the same mkosi configuration that's used when you run
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mkosi in the systemd reposistory, so any local modifications to the mkosi
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configuration (e.g. in `mkosi.local.conf`) are automatically picked up and used
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by the integration tests as well.
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## Iterating on an integration test
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To iterate on an integration test, let's first get a shell in the integration test environment by running
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the following:
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```shell
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$ meson compile -C build mkosi && SYSTEMD_INTEGRATION_TESTS=1 TEST_SHELL=1 meson test -C build --no-rebuild -i TEST-01-BASIC
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```
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This will get us a shell in the integration test environment after booting the machine without running the
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integration test itself. After booting, we can verify the integration test passes by running it manually,
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for example with `systemctl start TEST-01-BASIC`.
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Now you can extend the test in whatever way you like to add more coverage of existing features or to add
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coverage for a new feature. Once you've finished writing the logic and want to rerun the test, run the
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the following on the host:
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```shell
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$ mkosi -t none
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```
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This will rebuild the distribution packages without rebuilding the entire integration test image. Next, run
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the following in the integration test machine:
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```shell
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$ systemctl soft-reboot
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$ systemctl start TEST-01-BASIC
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```
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A soft-reboot is required to make sure all the leftover state from the previous run of the test is cleaned
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up by soft-rebooting into the btrfs snapshot we made before running the test. After the soft-reboot,
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re-running the test will first install the new packages we just built, make a new snapshot and finally run
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the test again. You can keep running the loop of `mkosi -t none`, `systemctl soft-reboot` and
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`systemctl start ...` until the changes to the integration test are working.
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If you're debugging a failing integration test (running `meson test --interactive` without `TEST_SHELL`),
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there's no need to run `systemctl start ...`, running `systemctl soft-reboot` on its own is sufficient to
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rerun the test.
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## Running the integration tests the old fashioned way
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The extended testsuite only works with UID=0. It consists of the subdirectories
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named `test/TEST-??-*`, each of which contains a description of an OS image and
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a test which consists of systemd units and scripts to execute in this image.
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The same image is used for execution under `systemd-nspawn` and `qemu`.
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To run the extended testsuite do the following:
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```shell
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$ ninja -C build # Avoid building anything as root later
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$ sudo test/run-integration-tests.sh
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ninja: Entering directory `/home/zbyszek/src/systemd/build'
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ninja: no work to do.
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--x-- Running TEST-01-BASIC --x--
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+ make -C TEST-01-BASIC clean setup run
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make: Entering directory '/home/zbyszek/src/systemd/test/TEST-01-BASIC'
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TEST-01-BASIC CLEANUP: Basic systemd setup
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TEST-01-BASIC SETUP: Basic systemd setup
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...
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TEST-01-BASIC RUN: Basic systemd setup [OK]
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make: Leaving directory '/home/zbyszek/src/systemd/test/TEST-01-BASIC'
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--x-- Result of TEST-01-BASIC: 0 --x--
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--x-- Running TEST-02-CRYPTSETUP --x--
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+ make -C TEST-02-CRYPTSETUP clean setup run
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```
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If one of the tests fails, then $subdir/test.log contains the log file of
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the test.
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To run just one of the cases:
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```shell
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$ sudo make -C test/TEST-01-BASIC clean setup run
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```
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### Specifying the build directory
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If the build directory is not detected automatically, it can be specified
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with BUILD_DIR=:
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```shell
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$ sudo BUILD_DIR=some-other-build/ test/run-integration-tests
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```
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or
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```shell
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$ sudo make -C test/TEST-01-BASIC BUILD_DIR=../../some-other-build/ ...
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```
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Note that in the second case, the path is relative to the test case directory.
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An absolute path may also be used in both cases.
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### Testing installed binaries instead of built
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To run the extended testsuite using the systemd installed on the system instead
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of the systemd from a build, use the NO_BUILD=1:
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```shell
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$ sudo NO_BUILD=1 test/run-integration-tests
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```
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### Configuration variables
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`TEST_NO_QEMU=1`: Don't run tests under qemu.
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`TEST_QEMU_ONLY=1`: Run only tests that require qemu.
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`TEST_NO_NSPAWN=1`: Don't run tests under systemd-nspawn.
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`TEST_PREFER_NSPAWN=1`: Run all tests that do not require qemu under
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systemd-nspawn.
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`TEST_NO_KVM=1`: Disable qemu KVM auto-detection (may be necessary when you're
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trying to run the *vanilla* qemu and have both qemu and qemu-kvm installed)
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`QEMU_MEM=512M`: Configure amount of memory for qemu VMs (defaults to 512M).
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`QEMU_SMP=1`: Configure number of CPUs for qemu VMs (defaults to 1).
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`KERNEL_APPEND='...'`: Append additional parameters to the kernel command line.
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`NSPAWN_ARGUMENTS='...'`: Specify additional arguments for systemd-nspawn.
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`QEMU_TIMEOUT=infinity`: Set a timeout for tests under qemu (defaults to 1800
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sec).
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`NSPAWN_TIMEOUT=infinity`: Set a timeout for tests under systemd-nspawn
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(defaults to 1800 sec).
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`TEST_SHELL=1`: Configure the machine to be more *user-friendly* for
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interactive debugging (e.g. by setting a usable default terminal, suppressing
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the shutdown after the test, etc.).
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`TEST_MATCH_SUBTEST=subtest`: If the test makes use of `run_subtests` use this
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variable to provide a POSIX extended regex to run only subtests matching the
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expression.
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`TEST_MATCH_TESTCASE=testcase`: Same as $TEST_MATCH_SUBTEST but for subtests
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that make use of `run_testcases`.
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The kernel and initrd can be specified with $KERNEL_BIN and $INITRD. (Fedora's
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or Debian's default kernel path and initrd are used by default.)
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A script will try to find your qemu binary. If you want to specify a different
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one with `$QEMU_BIN`.
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`TEST_SKIP`: takes a space separated list of tests to skip.
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### Debugging the qemu image
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If you want to log in the testsuite virtual machine, use `TEST_SHELL=1`
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and log in as root:
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```shell
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$ sudo make -C test/TEST-01-BASIC TEST_SHELL=1 run
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```
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The root password is empty.
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## Ubuntu CI
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New PRs submitted to the project are run through regression tests, and one set
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of those is the 'autopkgtest' runs for several different architectures, called
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'Ubuntu CI'. Part of that testing is to run all these tests. Sometimes these
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tests are temporarily deny-listed from running in the 'autopkgtest' tests while
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debugging a flaky test; that is done by creating a file in the test directory
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named 'deny-list-ubuntu-ci', for example to prevent the TEST-01-BASIC test from
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running in the 'autopkgtest' runs, create the file
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'TEST-01-BASIC/deny-list-ubuntu-ci'.
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The tests may be disabled only for specific archs, by creating a deny-list file
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with the arch name at the end, e.g.
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'TEST-01-BASIC/deny-list-ubuntu-ci-arm64' to disable the TEST-01-BASIC test
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only on test runs for the 'arm64' architecture.
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Note the arch naming is not from 'uname -m', it is Debian arch names:
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https://wiki.debian.org/ArchitectureSpecificsMemo
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For PRs that fix a currently deny-listed test, the PR should include removal
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of the deny-list file.
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In case a test fails, the full set of artifacts, including the journal of the
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failed run, can be downloaded from the artifacts.tar.gz archive which will be
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reachable in the same URL parent directory as the logs.gz that gets linked on
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the Github CI status.
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The log URL can be derived following a simple algorithm, however the test
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completion timestamp is needed and it's not easy to find without access to the
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log itself. For example, a noble s390x job started on 2024-03-23 at 02:09:11
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will be stored at the following URL:
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https://autopkgtest.ubuntu.com/results/autopkgtest-noble-upstream-systemd-ci-systemd-ci/noble/s390x/s/systemd-upstream/20240323_020911_e8e88@/log.gz
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Fortunately a list of URLs listing file paths for recently completed test runs
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is available at:
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https://autopkgtest.ubuntu.com/results/autopkgtest-noble-upstream-systemd-ci-systemd-ci/
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paths listed at this URL can be appended to the URL to download them. Unfortunately
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there are too many results and the web server cannot list them all at once. Fortunately
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there is a workaround: copy the last line on the page, and append it to the URL, with
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a '?marker=' prefix, and the web server will show the next page of results. For example:
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https://autopkgtest.ubuntu.com/results/autopkgtest-noble-upstream-systemd-ci-systemd-ci/?marker=noble/amd64/s/systemd-upstream/20240616_211635_5993a@/result.tar
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The 5 characters at the end of the last directory are not random, but the first
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5 characters of a SHA1 hash generated based on the set of parameters given to
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the build plus the completion timestamp, such as:
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```shell
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$ echo -n 'systemd-upstream {"build-git": "https://salsa.debian.org/systemd-team/systemd.git#debian/master", "env": ["UPSTREAM_REPO=https://github.com/systemd/systemd.git", "CFLAGS=-O0", "DEB_BUILD_PROFILES=pkg.systemd.upstream noudeb", "TEST_UPSTREAM=1", "CONFFLAGS_UPSTREAM=--werror -Dslow-tests=true", "UPSTREAM_PULL_REQUEST=31444", "GITHUB_STATUSES_URL=https://api.github.com/repos/systemd/systemd/statuses/c27f600a1c47f10b22964eaedfb5e9f0d4279cd9"], "ppas": ["upstream-systemd-ci/systemd-ci"], "submit-time": "2024-02-27 17:06:27", "uuid": "02cd262f-af22-4f82-ac91-53fa5a9e7811"}' | sha1sum | cut -c1-5
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```
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To add new dependencies or new binaries to the packages used during the tests,
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a merge request can be sent to: https://salsa.debian.org/systemd-team/systemd
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targeting the 'upstream-ci' branch.
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The cloud-side infrastructure, that is hooked into the Github interface, is
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located at:
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https://git.launchpad.net/autopkgtest-cloud/
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A generic description of the testing infrastructure can be found at:
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https://wiki.ubuntu.com/ProposedMigration/AutopkgtestInfrastructure
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In case of infrastructure issues with this CI, things might go wrong in two
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places:
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- starting a job: this is done via a Github webhook, so check if the HTTP POST
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are failing on https://github.com/systemd/systemd/settings/hooks
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- running a job: all currently running jobs are listed at
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https://autopkgtest.ubuntu.com/running#pkg-systemd-upstream in case the PR
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does not show the status for some reason
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- reporting the job result: this is done on Canonical's cloud infrastructure, if
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jobs are started and running but no status is visible on the PR, then it is
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likely that reporting back is not working
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The CI job needs a PPA in order to be accepted, and the
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upstream-systemd-ci/systemd-ci PPA is used. Note that this is necessary even
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when there are no packages to backport, but by default a PPA won't have a
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repository for a release if there are no packages built for it. To work around
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this problem, when a new empty release is needed the mark-suite-dirty tool from
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the https://git.launchpad.net/ubuntu-archive-tools can be used to force the PPA
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to publish an empty repository, for example:
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```shell
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$ ./mark-suite-dirty -A ppa:upstream-systemd-ci/ubuntu/systemd-ci -s noble
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```
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will create an empty 'noble' repository that can be used for 'noble' CI jobs.
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For infrastructure help, reaching out to 'qa-help' via the #ubuntu-quality
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channel on libera.chat is an effective way to receive support in general.
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Given access to the shared secret, tests can be re-run using the generic
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retry-github-test tool:
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https://git.launchpad.net/autopkgtest-cloud/tree/charms/focal/autopkgtest-cloud-worker/autopkgtest-cloud/tools/retry-github-test
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A wrapper script that makes it easier to use is also available:
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https://piware.de/gitweb/?p=bin.git;a=blob;f=retry-gh-systemd-Test
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## Manually running a part of the Ubuntu CI test suite
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In some situations one may want/need to run one of the tests run by Ubuntu CI
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locally for debugging purposes. For this, you need a machine (or a VM) with
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the same Ubuntu release as is used by Ubuntu CI (Jammy ATTOW).
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First of all, clone the Debian systemd repository and sync it with the code of
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the PR (set by the `$UPSTREAM_PULL_REQUEST` env variable) you'd like to debug:
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```shell
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$ git clone https://salsa.debian.org/systemd-team/systemd.git
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$ cd systemd
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$ git checkout upstream-ci
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$ TEST_UPSTREAM=1 UPSTREAM_PULL_REQUEST=12345 ./debian/extra/checkout-upstream
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```
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Now install necessary build & test dependencies:
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```shell
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# PPA with some newer Ubuntu packages required by upstream systemd
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$ add-apt-repository -y --enable-source ppa:upstream-systemd-ci/systemd-ci
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$ apt build-dep -y systemd
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$ apt install -y autopkgtest debhelper genisoimage git qemu-system-x86 \
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libcurl4-openssl-dev libfdisk-dev libtss2-dev libfido2-dev \
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libssl-dev python3-pefile
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```
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Build systemd deb packages with debug info:
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```shell
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$ TEST_UPSTREAM=1 DEB_BUILD_OPTIONS="nocheck nostrip noopt" dpkg-buildpackage -us -uc
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$ cd ..
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```
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Prepare a testbed image for autopkgtest (tweak the release as necessary):
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```shell
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$ autopkgtest-buildvm-ubuntu-cloud --ram-size 1024 -v -a amd64 -r jammy
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```
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And finally run the autopkgtest itself:
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```shell
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$ autopkgtest -o logs *.deb systemd/ \
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--env=TEST_UPSTREAM=1 \
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--timeout-factor=3 \
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--test-name=boot-and-services \
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--shell-fail \
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-- autopkgtest-virt-qemu --cpus 4 --ram-size 2048 autopkgtest-jammy-amd64.img
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```
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where `--test-name=` is the name of the test you want to run/debug. The
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`--shell-fail` option will pause the execution in case the test fails and shows
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you the information how to connect to the testbed for further debugging.
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## Manually running CodeQL analysis
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This is mostly useful for debugging various CodeQL quirks.
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Download the CodeQL Bundle from https://github.com/github/codeql-action/releases
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and unpack it somewhere. From now the 'tutorial' assumes you have the `codeql`
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binary from the unpacked archive in $PATH for brevity.
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Switch to the systemd repository if not already:
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```shell
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$ cd <systemd-repo>
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```
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Create an initial CodeQL database:
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```shell
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$ CCACHE_DISABLE=1 codeql database create codeqldb --language=cpp -vvv
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```
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Disabling ccache is important, otherwise you might see CodeQL complaining:
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No source code was seen and extracted to
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/home/mrc0mmand/repos/@ci-incubator/systemd/codeqldb. This can occur if the
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specified build commands failed to compile or process any code.
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- Confirm that there is some source code for the specified language in the
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project.
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- For codebases written in Go, JavaScript, TypeScript, and Python, do not
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specify an explicit --command.
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- For other languages, the --command must specify a "clean" build which
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compiles all the source code files without reusing existing build artefacts.
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If you want to run all queries systemd uses in CodeQL, run:
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```shell
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$ codeql database analyze codeqldb/ --format csv --output results.csv .github/codeql-custom.qls .github/codeql-queries/*.ql -vvv
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```
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Note: this will take a while.
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If you're interested in a specific check, the easiest way (without hunting down
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the specific CodeQL query file) is to create a custom query suite. For example:
|
|
|
|
```shell
|
|
$ cat >test.qls <<EOF
|
|
- queries: .
|
|
from: codeql/cpp-queries
|
|
- include:
|
|
id:
|
|
- cpp/missing-return
|
|
EOF
|
|
```
|
|
|
|
And then execute it in the same way as above:
|
|
|
|
```shell
|
|
$ codeql database analyze codeqldb/ --format csv --output results.csv test.qls -vvv
|
|
```
|
|
|
|
More about query suites here: https://codeql.github.com/docs/codeql-cli/creating-codeql-query-suites/
|
|
|
|
The results are then located in the `results.csv` file as a comma separated
|
|
values list (obviously), which is the most human-friendly output format the
|
|
CodeQL utility provides (so far).
|
|
|
|
## Running Coverity locally
|
|
|
|
Note: this requires a Coverity license, as the public tool
|
|
[tarball](https://scan.coverity.com/download) doesn't contain cov-analyze and
|
|
friends, so the usefulness of this guide is somewhat limited.
|
|
|
|
Debugging certain pesky Coverity defects can be painful, especially since the
|
|
OSS Coverity instance has a very strict limit on how many builds we can send it
|
|
per day/week, so if you have an access to a non-OSS Coverity license, knowing
|
|
how to debug defects locally might come in handy.
|
|
|
|
After installing the necessary tooling we need to populate the emit DB first:
|
|
|
|
```shell
|
|
$ rm -rf build cov
|
|
$ meson setup build -Dman=false
|
|
$ cov-build --dir=./cov ninja -C build
|
|
```
|
|
|
|
From there it depends if you're interested in a specific defect or all of them.
|
|
For the latter run:
|
|
|
|
```shell
|
|
$ cov-analyze --dir=./cov --wait-for-license
|
|
```
|
|
|
|
If you want to debug a specific defect, telling that to cov-analyze speeds
|
|
things up a bit:
|
|
|
|
```shell
|
|
$ cov-analyze --dir=./cov --wait-for-license --disable-default --enable ASSERT_SIDE_EFFECT
|
|
```
|
|
|
|
The final step is getting the actual report which can be generated in multiple
|
|
formats, for example:
|
|
|
|
```shell
|
|
$ cov-format-errors --dir ./cov --text-output-style multiline
|
|
$ cov-format-errors --dir=./cov --emacs-style
|
|
$ cov-format-errors --dir=./cov --html-output html-out
|
|
```
|
|
|
|
Which generate a text report, an emacs-compatible text report, and an HTML
|
|
report respectively.
|
|
|
|
Other useful options for cov-format-error include `--file <file>` to filter out
|
|
defects for a specific file, `--checker-regex DEFECT_TYPE` to filter our only a
|
|
specific defect (if this wasn't done already by cov-analyze), and many others,
|
|
see `--help` for an exhaustive list.
|
|
|
|
## Code coverage
|
|
|
|
We have a daily cron job in CentOS CI which runs all unit and integration tests,
|
|
collects coverage using gcov/lcov, and uploads the report to
|
|
[Coveralls](https://coveralls.io/github/systemd/systemd). In order to collect
|
|
the most accurate coverage information, some measures have to be taken regarding
|
|
sandboxing, namely:
|
|
|
|
- ProtectSystem= and ProtectHome= need to be turned off
|
|
- the $BUILD_DIR with necessary .gcno files needs to be present in the image
|
|
and needs to be writable by all processes
|
|
|
|
The first point is relatively easy to handle and is handled automagically by
|
|
our test "framework" by creating necessary dropins.
|
|
|
|
Making the `$BUILD_DIR` accessible to _everything_ is slightly more complicated.
|
|
First, and foremost, the `$BUILD_DIR` has a POSIX ACL that makes it writable
|
|
to everyone. However, this is not enough in some cases, like for services
|
|
that use DynamicUser=yes, since that implies ProtectSystem=strict that can't
|
|
be turned off. A solution to this is to use `ReadWritePaths=$BUILD_DIR`, which
|
|
works for the majority of cases, but can't be turned on globally, since
|
|
ReadWritePaths= creates its own mount namespace which might break some
|
|
services. Hence, the `ReadWritePaths=$BUILD_DIR` is enabled for all services
|
|
with the `test-` prefix (i.e. test-foo.service or test-foo-bar.service), both
|
|
in the system and the user managers.
|
|
|
|
So, if you're considering writing an integration test that makes use of
|
|
DynamicUser=yes, or other sandboxing stuff that implies it, please prefix the
|
|
test unit (be it a static one or a transient one created via systemd-run), with
|
|
`test-`, unless the test unit needs to be able to install mount points in the
|
|
main mount namespace - in that case use `IGNORE_MISSING_COVERAGE=yes` in the
|
|
test definition (i.e. `TEST-*-NAME/test.sh`), which will skip the post-test
|
|
check for missing coverage for the respective test.
|