# Running tests ## Unit-tests The unit-tests for each Nix library (`libexpr`, `libstore`, etc..) are defined under `src/{library_name}/tests` using the [googletest](https://google.github.io/googletest/) and [rapidcheck](https://github.com/emil-e/rapidcheck) frameworks. You can run the whole testsuite with `make check`, or the tests for a specific component with `make libfoo-tests_RUN`. Finer-grained filtering is also possible using the [--gtest_filter](https://google.github.io/googletest/advanced.html#running-a-subset-of-the-tests) command-line option, or the `GTEST_FILTER` environment variable. ## Functional tests The functional tests reside under the `tests` directory and are listed in `tests/local.mk`. Each test is a bash script. ### Running the whole test suite The whole test suite can be run with: ```shell-session $ make install && make installcheck ran test tests/foo.sh... [PASS] ran test tests/bar.sh... [PASS] ... ``` ### Grouping tests Sometimes it is useful to group related tests so they can be easily run together without running the entire test suite. Each test group is in a subdirectory of `tests`. For example, `tests/ca/local.mk` defines a `ca` test group for content-addressed derivation outputs. That test group can be run like this: ```shell-session $ make ca.test-group -j50 ran test tests/ca/nix-run.sh... [PASS] ran test tests/ca/import-derivation.sh... [PASS] ... ``` The test group is defined in Make like this: ```makefile $(test-group-name)-tests := \ $(d)/test0.sh \ $(d)/test1.sh \ ... install-tests-groups += $(test-group-name) ``` ### Running individual tests Individual tests can be run with `make`: ```shell-session $ make tests/${testName}.sh.test ran test tests/${testName}.sh... [PASS] ``` or without `make`: ```shell-session $ ./mk/run-test.sh tests/${testName}.sh ran test tests/${testName}.sh... [PASS] ``` To see the complete output, one can also run: ```shell-session $ ./mk/debug-test.sh tests/${testName}.sh + foo output from foo + bar output from bar ... ``` The test script will then be traced with `set -x` and the output displayed as it happens, regardless of whether the test succeeds or fails. ### Debugging failing functional tests When a functional test fails, it usually does so somewhere in the middle of the script. To figure out what's wrong, it is convenient to run the test regularly up to the failing `nix` command, and then run that command with a debugger like GDB. For example, if the script looks like: ```bash foo nix blah blub bar ``` edit it like so: ```diff foo -nix blah blub +gdb --args nix blah blub bar ``` Then, running the test with `./mk/debug-test.sh` will drop you into GDB once the script reaches that point: ```shell-session $ ./mk/debug-test.sh tests/${testName}.sh ... + gdb blash blub GNU gdb (GDB) 12.1 ... (gdb) ``` One can debug the Nix invocation in all the usual ways. For example, enter `run` to start the Nix invocation. ### Characterization testing Occasionally, Nix utilizes a technique called [Characterization Testing](https://en.wikipedia.org/wiki/Characterization_test) as part of the functional tests. This technique is to include the exact output/behavior of a former version of Nix in a test in order to check that Nix continues to produce the same behavior going forward. For example, this technique is used for the language tests, to check both the printed final value if evaluation was successful, and any errors and warnings encountered. It is frequently useful to regenerate the expected output. To do that, rerun the failed test with `_NIX_TEST_ACCEPT=1`. (At least, this is the convention we've used for `tests/lang.sh`. If we add more characterization testing we should always strive to be consistent.) An interesting situation to document is the case when these tests are "overfitted". The language tests are, again, an example of this. The expected successful output of evaluation is supposed to be highly stable – we do not intend to make breaking changes to (the stable parts of) the Nix language. However, the errors and warnings during evaluation (successful or not) are not stable in this way. We are free to change how they are displayed at any time. It may be surprising that we would test non-normative behavior like diagnostic outputs. Diagnostic outputs are indeed not a stable interface, but they still are important to users. By recording the expected output, the test suite guards against accidental changes, and ensure the *result* (not just the code that implements it) of the diagnostic code paths are under code review. Regressions are caught, and improvements always show up in code review. To ensure that characterization testing doesn't make it harder to intentionally change these interfaces, there always must be an easy way to regenerate the expected output, as we do with `_NIX_TEST_ACCEPT=1`. ## Integration tests The integration tests are defined in the Nix flake under the `hydraJobs.tests` attribute. These tests include everything that needs to interact with external services or run Nix in a non-trivial distributed setup. Because these tests are expensive and require more than what the standard github-actions setup provides, they only run on the master branch (on ). You can run them manually with `nix build .#hydraJobs.tests.{testName}` or `nix-build -A hydraJobs.tests.{testName}` ## Installer tests After a one-time setup, the Nix repository's GitHub Actions continuous integration (CI) workflow can test the installer each time you push to a branch. Creating a Cachix cache for your installer tests and adding its authorization token to GitHub enables [two installer-specific jobs in the CI workflow](https://github.com/NixOS/nix/blob/88a45d6149c0e304f6eb2efcc2d7a4d0d569f8af/.github/workflows/ci.yml#L50-L91): - The `installer` job generates installers for the platforms below and uploads them to your Cachix cache: - `x86_64-linux` - `armv6l-linux` - `armv7l-linux` - `x86_64-darwin` - The `installer_test` job (which runs on `ubuntu-latest` and `macos-latest`) will try to install Nix with the cached installer and run a trivial Nix command. ### One-time setup 1. Have a GitHub account with a fork of the [Nix repository](https://github.com/NixOS/nix). 2. At cachix.org: - Create or log in to an account. - Create a Cachix cache using the format `-nix-install-tests`. - Navigate to the new cache > Settings > Auth Tokens. - Generate a new Cachix auth token and copy the generated value. 3. At github.com: - Navigate to your Nix fork > Settings > Secrets > Actions > New repository secret. - Name the secret `CACHIX_AUTH_TOKEN`. - Paste the copied value of the Cachix cache auth token. ## Working on documentation ### Using the CI-generated installer for manual testing After the CI run completes, you can check the output to extract the installer URL: 1. Click into the detailed view of the CI run. 2. Click into any `installer_test` run (the URL you're here to extract will be the same in all of them). 3. Click into the `Run cachix/install-nix-action@v...` step and click the detail triangle next to the first log line (it will also be `Run cachix/install-nix-action@v...`) 4. Copy the value of `install_url` 5. To generate an install command, plug this `install_url` and your GitHub username into this template: ```console curl -L | sh -s -- --tarball-url-prefix https://-nix-install-tests.cachix.org/serve ```