diff options
author | Boris Kolpackov <boris@codesynthesis.com> | 2024-01-10 07:52:16 +0200 |
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committer | Boris Kolpackov <boris@codesynthesis.com> | 2024-01-10 07:53:11 +0200 |
commit | ea98ce884ad79e88797d50ba33468f9d9ce8a6bb (patch) | |
tree | b6dc9c3b54edd5768f257aca3783d22fb66a37dc | |
parent | c67dd131bf88c16d5356ce9de640f0dc4b33836c (diff) |
Further work on packaging guide
-rw-r--r-- | doc/packaging.cli | 303 |
1 files changed, 292 insertions, 11 deletions
diff --git a/doc/packaging.cli b/doc/packaging.cli index 8a55296..c5d1863 100644 --- a/doc/packaging.cli +++ b/doc/packaging.cli @@ -1104,11 +1104,11 @@ plan is as follows: \li|Make a smoke test for the library.| -\li|Replace the smoke tests with upstream tests.| +\li|Replace the smoke test with upstream tests.| \li|Tweak root \c{buildfile} and \c{manifest}.| -\li|Test the result using the CI service.| +\li|Test the result using the CI service. @@ Actually doing it as ready.| | @@ -2371,6 +2371,7 @@ subdirectory which contains the generated test and which is what we will be turning into a smoke test. The subproject root \c{buildfile} rarely needs changing. + \h2#core-test-smoke-build-wide|Review project-wide build system files in \c{tests/build/}| Review the generated \c{bootstrap.build} and \c{root.build} (there will be no @@ -2445,7 +2446,7 @@ exe{driver}: {hxx cxx}{**} $libs \ -\h2#core-test-smoke-localy|Test locally| +\h2#core-test-smoke-locally|Test locally| With the smoke test ready, we can finally do some end-to-end testing of our library build. We will start with doing some local testing to catch basic @@ -2471,7 +2472,7 @@ initialized} your library in several: $ bdep test -a \ -\h2#core-test-smoke-localy-install|Test locally: installation| +\h2#core-test-smoke-locally-install|Test locally: installation| Once this works, let's test the installed version of the library. In particular, this makes sure that the public headers are installed in a way @@ -2514,7 +2515,7 @@ Once done testing the installed case, let's clean things up: $ rm -r /tmp/install /tmp/libfoo-tests-out \ -\h2#core-test-smoke-localy-dist|Test locally: distribution| +\h2#core-test-smoke-locally-dist|Test locally: distribution| Another special case worth testing is the preparation of the source distribution (see \l{b#intro-operations-dist Distributing} for @@ -2581,6 +2582,7 @@ $ cd foo/ # Change to the package repository root. $ git add . $ git status $ git commit -m \"Add smoke test\" +$ git push $ bdep ci \ @@ -2613,17 +2615,298 @@ that it will be fixed in the next upstream version. Note that in this case you should not exclude the failing build from CI.| +\h#core-test-upstream|Replace smoke test with upstream tests| + +With the smoke test working we can now proceed with replacing it with the +upstream tests. + + +\h2#core-test-upstream-understand|Understand how upstream tests work| + +While there are some commonalities in how C/C++ libraries are normally built, +when it comes to tests there is unfortunately little common ground in how they +are arranged, built, and executed. As a result, the first step in dealing with +upstream tests is to study the existing build system and try to understand how +they work. To get you started, below are some of the questions you would +likely need answered before you can proceed: + +\ul| + +\li|\b{Are upstream tests unit tests or integration tests?} + +While the distinction is often fuzzy, for our purposes the key differentiator +between unit and integration tests is which API they use: integration tests +only use the library's public API while unit tests need access to the +implementation details. + +Normally (but not always), unit tests will reside next to the library source +code since they need access to more than just the library binary (individual +object files, utility libraries, etc). While integration tests are normally +(but again not always) placed into a seperate subdirectory, usually called +\c{tests} or \c{test}. + +If the library has unit tests, then refer to \l{b#intro-unit-test Implementing +Unit Testing} for background on how to hanle them in \c{build2}. + +If the library has integration tests, then use them to to replace (or +complement) the smoke test. + +If the library has unit tests but no integration tests, then it's recommended +to keep the smoke test since that's the only way the library will be tested +via its public API.| + + +\li|\b{Do upstream tests use an external testing framework?} + +Oftentimes a C++ library will use an external testing framework to implement +tests. Popular choices include \l{https://cppget.org/catch2 \c{catch2}}, +\l{https://cppget.org/gtest \c{gtest}}, \l{https://cppget.org/doctest +\c{doctest}}, and \l{https://cppget.org/libboost-test \c{libboost-test}}. + +If a library uses such an external testing framework, then it is recommended +to factor tests into a separate package in order to avoid making the library +package depend on the testing framework (which is only required during +testing). See +\l{https://github.com/build2/HOWTO/blob/master/entries/handle-tests-with-extra-dependencies.md +How do I handle tests that have extra dependencies?} for details. + +\N|Sometimes you will find that upstream bundles the source code of the +testing framework with their tests. This is especially common with +\c{catch2}. If that's the case, it is strongly recommended that you +\"unbundle\" it by making it a proper external dependency.|| + + +\li|\b{Are upstream tests in a single or multiple executables?} + +It's not unusual for libraries to have a single test executable that runs all +the test cases. This is especially common if a C++ testing framework is used. +In this case it is natural to replace the contents of the smoke test with the +upstream source code, potentially renaming the test subdirectory (\c{basics/}) +to better match upstream naming. + +If upstream has multiple test executables, then they could all be in single +test subdirectory (potentially reusing some common bits) or spread over +multiple subdirectories. In both cases it's a good idea to follow the upstream +structure unless you have good reasons to deviate. In the former case (all +executables in the same subdirectory), you can re-purpose the smoke test +subdirectory. In the latter case (each executable in a separate subdirectory) +you can make copies of the smoke test subdirectory.| + + +\li|\b{Are upstream tests well behaved?} + +Unfortunately it's not uncommon for upstream tests not to behave well, such as +write diagnostics to \c{stdout} instead of \c{stderr}, create temporary files +without cleaning them up, or assume presence of input files in the current +working directory. For details on how to deal with such situations see +\l{https://github.com/build2/HOWTO/blob/master/entries/sanitize-test-execution.md +How do I sanitize the execution of my tests?}|| + + +\h2#core-test-upstream-convert|Convert smoke test to upstream tests| + +Once you have a good grasp of how upstream tests work, convert or replace the +smoke test with the upstream tests. If upstream has multiple test executables, +you may want to deal with one test at a time, making sure that it passes +before moving to the next one. + +It's normally a good idea to use the smoke test \c{buildfile} as a starting +point for upstream tests. To recap, the smoke test \c{buildfile} for our +\c{libfoo} example ended up looking like this: + +\ +import libs = libfoo%lib{foo} + +exe{driver}: {hxx cxx}{**} $libs +\ + +At a minimum you will most likely need to change the name of the executable to +match upstream. If you need to build multiple executables in the same +directory, then it's probably best to get rid of the name pattern for the +source files and specify the prerequisite names explicitly, for example: + +\ +import libs = libfoo%lib{foo} + +./: exe{test1}: cxx{test1} $libs +./: exe{test2}: cxx{test2} $libs +\ + +If you have a large number of such test executables, then a \c{for}-loop might +be a more scalable option: + +\ +import libs = libfoo%lib{foo} + +for src: cxx{test*} + ./: exe{$name($src)}: $src $libs +\ + + +\h2#core-test-upstream-locally|Test locally| + +With the upstream tests ready, we re-do the same end-to-end testing as we did +with the smoke test: + +\l{#core-test-smoke-locally Test locally}\n +\l{#core-test-smoke-locally-install Test locally: installation}\n +\l{#core-test-smoke-locally-dist Test locally: distribution}\n + + +\h2#core-test-upstream-ci|Commit and test with CI| + +With local testing complete, we commit our changes and submit a remote CI +job. This step is similar to what \l{#core-test-smoke-ci we did for the smoke +test} but this time we are using the upstream tests: + +\ +$ cd foo/ # Change to the package repository root. +$ git add . +$ git status +$ git commit -m \"Add upstream tests\" +$ git push + +$ bdep ci +\ + + +\h#core-examples-banchmarks|Add upstream examples, benchmarks, if any| + +If the upstream project provides examples and/or benchmarks and you wish to +add them to the \c{build2} build (which is not strictly necessary for the +\c{build2} package to be usable), then now is a good time to do that. + +As was mentioned in \l{#core-package-review Review and test auto-genetated +\c{buildfile} templates}, the recommended approach is to copy the \c{tests/} +subproject (potentially from the commit history before the smoke test was +replaced with the upstream tests) and use that as a starting point for +examples and/or benchmarks. Just do not forgeting to add the corresponding +entry in the root \c{buildfile}. + +Once that is done, follow the same steps as in \l{#core-test-upstream Replace +smoke test with upstream tests} to add upstream examples/benchmarks and test +the result. + + +\h#core-root|Adjust root \c{buildfile} and \c{manifest}| + +The last few files that we need to review and potentially adjust are +the root \c{buildfile} and package \c{manifest}. + + +\h2#core-root-buildfile|Adjust root \c{buildfile}| + +The main function of the root \c{buildfile} is to pull all the subdirectories +that need building plus list targets that are usually found in the root +directory of a project, typically \c{README.md}, \c{LICENSE}, etc. This is +what the generated root \c{buildfile} looks like for our \c{libfoo} project +assuming we have symlinked \c{README.md} and \c{LICENSE} from upstream on the +\l{#core-package-create Create final package} step: + +@@ PACKAGE-README.md? + +\ +./: {*/ -build/} doc{README.md} legal{LICENSE} manifest + +# Don't install tests. +# +tests/: install = false +\ + +If the upstream project provides any other documentation (change log, news, +etc) or legal files (list of authorts, code of conduct, etc), then you may +want to symlink and list them as the \c{doc{\}} and \c{legal{\}} +prerequisites, respectively. + +\N|One file you don't need listing is \c{INSTALL} (or equivalent) which +normally contains the installation instructions for the upstream build +system. In the \c{build2} package the \c{PACKAGE-README.md} file serves this +purpose.| + + +\h2#core-root-buildfile-doc|Adjust root \c{buildfile}: other subdirectories| + +If the upstream project has other subdirectories that makes sense to include +into the \c{build2} package, then now is good time to take care of that. The +most common such case will be extra documentation (besides the root +\c{README}), typically in a subdirectory called \c{doc/}, \c{docs/}, or +\c{documentation/}. + +The typical procedure for handling such subdirectories will be to symlink the +relevant files (or the entire subdirectory) and then list the files as +prerequisites. For this last step, there are two options: we can list the +files directly in the root \c{buildfile} or we can create a seperate +\c{buildfile} in the subdirectory. + +Let's examine both approaches using our \c{libfoo} as an example. Assume that +upstream \c{libfoo} contains the \c{docs/} subdirectory with additional +\c{*.md} files that document its API. It would make sense to include them into +the \c{build2} package. + +Listing the subdirectory files directly in the root \c{buildfile} works best +for simple case, where you have a bunch of static files that don't require any +customizations, such as to their installation location. In this case we can +symlink the entire \c{docs/} subdirectory: + +\ +$ cd libfoo/ # Change to the package root. +$ ln -s ../upstream/docs ./ +\ + +The adjustment to the root \c{buildfile} are pretty straightforward: we +exclude the \c{docs/} subdirectory (since it has no \c{buildfile}) and list +the \c{*.md} files as prerequisites using the \c{doc{\}} target type (which, +in particular, makes sure they are installed into the appropriate location): + +\ +./: {*/ -build/ -docs/} \ + doc{README.md} docs/doc{*.md} \ + legal{LICENSE} manifest +\ + +The alternative approach (create a seperate \c{buildfile}) is a good choice if +things are more complicated then that. Let's say we need to adjust the +installation location of the files in \c{docs/} because there is another +\c{README.md} that would conflict with the root one when installed into the +same location. This time we cannot symlink the top-level \c{docs/} +subdirectory (because we need to place a \c{buildfile} there). The two options +here is to either symlink the individual files or introduce another +subdirectory level inside \c{docs/} (which is the same approach as discussed +in \l{#dont-main-target-root-buildfile Don't build your main targets in root +\c{buldfile}}). Let's illustrate both sub-cases. + +Symlinking individual files works best when you don't expect the set of +files to change often. For example, if \c{docs/} contains a man page and +its HTML rendering, then it's unlikely this set will change often. On the +other hand, if \c{docs/} contains a manual split into an \c{.md} file per +chapter, then there is good chance this set of files will fluctuate between +releases. + + +@@ Commit. + + +@@ Any other upstream files besides source? Maybe do Doc here? +@@ We could just list them in the root buildfile... Could do any +@@ extra files like this. + + +\h2#core-root-manifest|Adjust \c{manifest}| + +@@ changes-file + +@@ Maybe we should start with pre-release of upstream version? If want + strict versioning? + +@@ Maybe re-CI at the ends? -@@ Next section: convert smoke test to upstream tests. -@@ Next section: adjust root buildfile and manifest. @@ Next section: release and publish (see README in build2-packaging/). +@@ GH issue #?? has some notes. ======== @@ Add example of propagating config.libfoo.debug to macro on build options? -@@ Upstream tests: link to HOWTO on how to sanitize. - @@ Note on library metadata where talk about configuration. Also about autoconf. @@ -2631,8 +2914,6 @@ should not exclude the failing build from CI.| @@ Squash commits? -@@ Any other upstream files besides source? Doc? - @@ The 'Don't write buildfiles by hand entry' is now mostly duplicate/redundant. ====================================================================== |