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authorBoris Kolpackov <boris@codesynthesis.com>2024-03-21 07:07:14 +0200
committerBoris Kolpackov <boris@codesynthesis.com>2024-03-21 07:07:14 +0200
commit3445704ff70ba84d9840fe017ca4fd2a53624e5b (patch)
treee40bca5291992e722b0a627204668ad97d512c5a /doc/packaging.cli
parent62452b9937b0bb280753dd56a8b6792b231a26fd (diff)
Further work on packaging guide (executables)
Diffstat (limited to 'doc/packaging.cli')
-rw-r--r--doc/packaging.cli78
1 files changed, 77 insertions, 1 deletions
diff --git a/doc/packaging.cli b/doc/packaging.cli
index 18bc0ac..e52217e 100644
--- a/doc/packaging.cli
+++ b/doc/packaging.cli
@@ -2728,7 +2728,8 @@ physically modifying upstream source code. \N{See the
\l{https://github.com/build2-packaging/zstd/tree/v1.5.5 \c{zstd}} package
repository for a real example of doing this.}
-\N|We will discuss the \c{testscript} prerequisite in @@ ref.|
+\N|We will discuss the \c{testscript} prerequisite on the
+\l{#core-test-smoke-exe Make smoke test: executables} step below.|
\h2#core-adjust-build-src-source-ext|Adjust source \c{buildfile}: extra requirements|
@@ -2846,6 +2847,9 @@ separate package. See
How do I handle tests that have extra dependencies?} for background and
details.|
+\N|If instead of a library you are packaging an executable, you can skip
+directly to \l{#core-test-smoke-exe Make smoke test: executables}.|
+
To recap, the \c{bdep-new}-generated \c{tests/} subdirectory looks like this
(continuing with our \c{libfoo} example):
@@ -2946,6 +2950,53 @@ exe{driver}: {hxx cxx}{**} $libs
\
+\h2#core-test-smoke-exe|Make smoke test: executables|
+
+If instead of a library we are packaging an executable, then instead of the
+\c{tests/} subproject we get the \c{testscript} file in the source
+subdirectory (see \l{#core-adjust-build-src-source-exe Adjust source
+\c{buildfile}: executables} for a refresher). This file can be used to write
+one or more tests that exercise our executable (see \l{b#intro-operations-test
+Testing} for background).
+
+How exactly to test any given executable depends on its functionality. For
+instance, for a compression utility we could write a roundtrip test that first
+compresses some input, then decompresses it, and finally compares the result
+to the original. For example (taken from the
+\l{https://github.com/build2-packaging/zstd/tree/v1.5.5 \c{zstd}} package
+repository):
+
+\
+: roundtrip
+:
+echo 'test content' | $* -zc | $* -dc >'test content'
+\
+
+On the other hand, for an executable that is a source code generator, proper
+testing would involve a separate tests package that has a build-time
+dependency on the executable and that exercises the generated code (see
+\l{https://github.com/build2/HOWTO/blob/master/entries/handle-tests-with-extra-dependencies.md
+How do I handle tests that have extra dependencies?} for background and
+details). \N{See the \l{https://github.com/build2-packaging/thrift/tree/0.17
+\c{thrift}} package repository for an example of this setup.}
+
+If the executable provides a way to query its version, one test that you
+should always be able to write, and which can serve as a last resort smoke
+test, is the version check. For example:
+
+\
+: version
+:
+$* --version >>~\"/EOO/\"
+/.*$(version.major)\.$(version.minor)\.$(version.patch).*/
+EOO
+\
+
+See also
+\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-smoke-locally|Test locally|
With the smoke test ready, we can finally do some end-to-end testing of our
@@ -3146,6 +3197,21 @@ to give up, then go with just the smoke test. In this case it's a good idea to
create an issue in the package repository mentioning that upstream tests are
still a TODO.|
+\N|If instead of a library you are packaging an executable, then whether the
+below steps will apply depends on the functionality of the executable.
+
+In particular, testing source code generators would normally involve
+exercising the generated code, in which case the following will largely apply,
+though in this case the tests would need to be placed into a separate tests
+package that has a build-time dependency on the executable (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 background and
+details). In fact, if a source code generator is accompanied by a runtime
+library, then the tests will normally exercise them together (though a runtime
+library might also have its own tests). See the
+\l{https://github.com/build2-packaging/thrift/tree/0.17 \c{thrift}} package
+repository for an example of this setup.|
+
To get you started with analyzing the upstream tests, below are some of the
questions you would likely need answered before you can proceed with the
conversion:
@@ -3362,6 +3428,16 @@ logs, contributing guidelines, etc) or legal files (alternative licenses, list
of authors, code of conduct, etc), then you may want to symlink and list them
as the \c{doc{\}} and \c{legal{\}} prerequisites, respectively.
+\N|If you are packaging an executable and it provides a man page, then it can
+also be listed in the root \c{buildfile}. For example, if the man page file is
+called \c{foo.1}:
+
+\
+./: ... man1{foo}
+\
+
+|
+
\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 of a third-party project the