Provided by: lintian_2.117.0ubuntu1.2_all bug

NAME

       Lintian::Tutorial::WritingTests -- Short tutorial on writing tests

SYNOPSIS

       Warning: This document may be out of date.

       This document attempts to be a short / quick tutorial to the Lintian test suite from a
       test-writer's perspective.  As such, it will only cover the standard type of tests (from
       the "tests" suite).

       The guide will involve writing a test for the "deb/pkg-check" check, which was documented
       in the Lintian::Tutorial::WritingChecks tutorial.

       For running tests, please see Lintian::Tutorial::TestSuite instead.

DESCRIPTION

       The Lintian test suite is divided into several parts.  These are:

       -   scripts

           Small (Perl) "prove" tests.  These assert that code style, data files and/or self-
           contained code units (i.e. unit tests) work as intended.  They are not used for
           testing Lintian tags.

       -   tags

           These tests all test for the presence of tags after building test packages using
           skeletons. For most cases, we recommend

            Skeleton: upload-non-native

           suites are small test suites that test some particular tags for .changes, .deb or .dsc
           files.  Typically, you will find the more exotic tags here, which require some special
           fiddling and cannot be built by a "standard" dh7 + dpkg build.

       -   literal

           These tests look to match the literal output of Lintian. These tests are useful as
           general false positives. They also catch Lintian messages unrelated to tags.

       With this in mind, let us move on to the scope.

   Scope of the tutorial
       WARNING: THE REMAINDER OF THIS TUTORIAL IS OUT OF DATE.

       The "tests" suite alone is fairly complex on its own.  To keep things simple, the tutorial
       will limit itself to creating a "native" package with no special requirements in the
       "tests" suite.

       In particular, note that the tags must not be pedantic for this to work.  If you followed
       the check writing tutorial and made the tags pedantic, please change them into "I", "W" or
       "E" tags.

       Once the basics are covered, you should be better equipped to deal with the other ("tag
       testing") suites or using other features of the "tests" suite (e.g. pedantic tags).

   The design of the Lintian test suite
       The basic design of the Lintian test suite can be summed up as less is more.  The Debian
       build system is changing all the time (albeit, slowly) and sometimes it deprecates or
       breaks existing features.

       With over 400 tests all featuring the same basic parts, the test suite features several
       tricks to keep up with the pace.  It uses "skeletons" (template) directories to seed the
       package structures and template files to fill in the basic files (e.g. "debian/control"
       and "debian/changelog").

       This means that when a new standards-version comes along, debhelper deprecates a feature
       or (more likely) Lintian adds a new tag, the majority of the tests can quickly be adapted
       with only a minor effort.

       Since pedantic tags tend to require additional effort to avoid, most Lintian tests do not
       run with pedantic tags enabled.

   The basics of a "native" package in the "tests" suite
       For starters, you need 2 files and 1 directory, which will be placed in
       t/tests/<test-name>.

       The desc file (mandatory)

       This is the test description file.  It is a deb822 file (i.e. same syntax as
       debian/control), which contains a number of fields.

       Let's start with the following template:

        Testname: pkg-deb-check-general
        Version: 1.0
        Description: General test of the pkg/deb-check check
        Test-For:
         missing-multi-arch-field
         missing-pre-depends-on-multiarch-support

       This defines the name of the test, its sequence number (i.e. how early it should be run),
       the version of the generated package, a description and the tags you intend to test for.

       In case you were wondering why "invalid-multi-arch-field" is not listed, then it is
       because dpkg will not allow us to use an invalid Multi-Arch value.  Therefore, that
       particular tag would have to be tested in the "debs" suite instead.

       Note that the value of the Testname field (as Source field), Version field and Description
       field (as the synopsis) will be used in the package.  As such, they must obey the normal
       requirements for these purposes.

       Please keep the following conventions in mind:

       -   The Testname should be "<check-name>-<test-name>"

           Note that regular Lintian checks do not have a "/", so the naming convention works
           slightly better there.

       -   The Version should always be "1.0" unless the test requires anything else.

           For non-native packages, the default would be "1.0-1".

       The "tags" file (mandatory, but may be empty)

       This file contains the sorted "expected" output of lintian.  Assuming all of the tags are
       "I" tags, the file should look something like:

        I: pkg-deb-check-general-missing-ma: missing-multi-arch-field
        I: pkg-deb-check-general-missing-pred: missing-pre-depends-on-multiarch-support

       The "debian/" directory (optional, but usually needed)

       The unpacked debian package in its full glory.  Note that this means that the (e.g.)
       debian/rules file would be t/tests/<test-name>/debian/debian/rules  (note the double
       "debian/").

       The directory is seeded from t/templates/tests/<skeleton>/, where skeleton is the value of
       the "Skeleton" field from the "desc" file.

       For this test, you only need a specialized control file.  This file could look something
       like:

        Source: {$source}
        Priority: extra
        Section: {$section}
        Maintainer: {$author}
        Standards-Version: {$standards_version}
        Build-Depends: {$build_depends}

        Package: {$source}-missing-ma
        Architecture: {$architecture}
        Depends: $\{shlibs:Depends\}, $\{misc:Depends\}
        Description: {$description} (invalid)
         This is a test package designed to exercise some feature or tag of
         Lintian.  It is part of the Lintian test suite and may do very odd
         things.  It should not be installed like a regular package.  It may
         be an empty package.
         .
         Missing M-A field.

        Package: {$source}-missing-pred
        Architecture: any
        Depends: $\{shlibs:Depends\}, $\{misc:Depends\}
        Multi-arch: same
        Description: {$description} (pre-depends)
         This is a test package designed to exercise some feature or tag of
         Lintian.  It is part of the Lintian test suite and may do very odd
         things.  It should not be installed like a regular package.  It may
         be an empty package.
         .
         Missing Pre-Depends.

       Running the test

       At this point, the test is in fact ready to be executed.  It can be run by using:

        $ debian/rules runtests onlyrun=pkg-deb-check-general

        OR

        $ private/runtests --dump-logs t debian/test-out pkg-deb-check-general

       However, it will not emit the correct tags unless pkg/deb-check is part of the debian/main
       lintian profile.  If your check is a part of a different profile, add the "Profile:
       <name>" field to the "desc" file.

       With this, the tutorial is over.  Below you will find some more resources that may be
       useful to your future test writing work.

REFERENCES / APPENDIX

   A step-by-step guide of how a test case works
       Basically, the tag-testing test cases all involve building a package and running lintian
       on the result.  The "tests" suite does a full build with dpkg-buildpackage, the other
       suites "hand-craft" only the type of artifacts they are named after (e.g. "source"
       produces only source packages).

       A test in the "tests" suite

       The basic process of a lintian test in the "tests" suite.

       1.  Copy the "upstream" skeleton dir into the build dir (non-native only)

       2.  Copy the "upstream" dir from the test into the build dir (if present, non-native only)

       3.  Run the "pre_upstream" hook (if present, non-native only)

       4.  Assemble the upstream tarball (non-native only)

       5.  Copy the "debian" skeleton dir into the build dir

       6.  Copy the "debian" directory from the test into the build dir (if present)

       7.  Create debian/control and debian/changelog from "<file>.in" if they do not exist.

       8.  Create an empty watch file (if missing, non-native only)

       9.  Run the "pre_build" hook (if present)

       10. Run dpkg-buildpackage

       11. Run lintian on the build result

       12. Run the "post_test" hook (if present)

       13. Run the "test_calibration" hook (if present), which may produce a new "expected output
           file".

       14. Compare the result with the expected output.

       Note that the majority of the steps are conditional on native/non-native packages or
       presence of hooks.

       A test in the "debs" and the "source" suite

       The "debs" and the "source" suite share the same basic steps, which are:

       1.  Copy the skeleton dir into the build dir

       2.  Copy the test directory files into the build dir

       3.  Create changelog, control, and (debs-only) Makefile from "<file>.in" if they do not
           exist.

       4.  Run make in the build dir

       5.  Run lintian on the produced artifact (there must be exactly one)

       6.  Compare the result with the expected output.

       A test in the "changes" suite

       The changes test is fairly simple as there is not much building.  The steps are as the
       following:

       1.  Find or compute the test artifact as the following:

           -   If <test-dir>/<test-name>.changes exists, it is used as the artifact.

           -   Otherwise, copy <test-dir>/<test-name>.changes.in into the build dir and use it as
               a template to create <build-dir>/<test-name>.changes.  The result is then used as
               the artifact to test.

       2.  Run lintian run on the artifact

       3.  Compare the result with the expected output

   The full layout of a test in the "tests" suite
       Each test in the "tests" suite is placed in t/tests/<check>-<name>.  In these you will
       find some of the following files:

       -   desc (mandatory)

           This is the test description file.  It is a deb822 file (i.e. same syntax as
           debian/control), which contains a number of fields.

       -   tags (mandatory, but may be empty)

           This file contains the "expected" output of lintian.

           This is generally sorted, though a few tests rely on the order of the output.  This
           can be controlled via the "Sort" field in the "desc" file.

       -   debian/ (optional, but usually what you need)

           The unpacked debian package.  For "native" package tests, this is also the "upstream"
           part.  For "non-native" package tests, this can be used to override files in the
           "upstream" part (rarely needed).

           The actual packaging files (e.g. debian/rules) would be in

            I<< t/tests/<test-name>/debian/debian/rules >>

           Note the double "debian".

           This part is seeded from t/templates/tests/<skeleton>/, where skeleton is the value of
           the "Skeleton" field from the "desc" file.

       -   upstream/ (optional, rarely needed)

           This directory is the used to create the "upstream" tarball for "non-native" package
           tests.  Since most tags are emitted for both "native" and "non-native" tests, it is
           simpler (and slightly faster) to use "native" packages for most tests.

           The files here should also be present with the same contents in the debian directory
           unless you're intentionally creating a diff.  However, as normal with a Debian
           package, you can omit files entirely from the debian directory and the deletions will
           be ignored by dpkg-buildpackage.

           The directory will be seeded from t/templates/tests/<skeleton>.upstream/, where
           skeleton is the value of the "Skeleton" field from the "desc" file.

       -   post_test (optional, rarely needed)

           This script (if present) is a sed script that can be used to "massage" the output of
           lintian before comparing it with the "expected output".

           The most common use for this script is to remove the architecture name, multi-arch
           path, drop hardening tags or exact standards-version number from tags output.  Here
           are some examples files used:

             # Remove the exact standards version, so the tags file will not need
             # to be updated with every new standards-version
             s/\(current is ([0-9]+\.)+[0-9]\)/(current is CURRENT)/

             # Drop all hardening tags (they can differ between architectures)
             /: hardening-.*/ d

             # Massage e.g. usr/lib/i386-linux-gnu/pkgconfig into a generic path
             s, usr/lib/[^/]+/pkgconfig/, usr/lib/ARCH/pkgconfig/,

           It may be useful for other cases where the output of Lintian may change on different
           systems.

       -   pre_build / pre_upstream (optional, special case usage)

           If present and executable, these scripts can be used to mess with the package
           directory and (what will become) the upstream tarball.

           Their common use case is to create files in the tarballs that cannot (or preferably
           should not) be included in the revision control system.  Common cases include
           "binary", "minimized" files or files with "weird" names such as backslashes or non
           UTF-8 characters.

           Both scripts receive a directory as first argument, which is the directory they should
           work on.  For:

           -   pre_upstream

               The script will be run before the upstream tarball is compiled.  The first
               argument is the directory that will be included in the upstream tarball.

           -   pre_build

               The script will be run before dpkg-buildpackage is invoked.  The first argument is
               the directory of the unpacked debian source package.

       -   test_calibration (optional, special case usage)

           If present and executable, this script will be invoked after lintian and post_test (if
           present) have been run.  The script can then modify the expected output and the actual
           output.

           This is useful for those extremely rare cases where post_test is insufficient to
           handle the requirements.  So far, this has only been needed for the hardening checks,
           where the output differs between architectures.

           The script will be passed 3 arguments:

           -   Path to the "expected output" file (read-only)

               This is the "tags" file from the test suite and must not be modified.

           -   Path to the "actual output" file (read-write)

               This is the file as lintian and post_test created it.

           -   Path to the "calibrated expected output" (create+write)

               This file does not exist and should be created by the script, if it wishes to
               change the "expected output".  If this file exists when the script terminates,
               this file will be used instead of the original "expected output" file.

SEE ALSO

       The READMEs in the suites: t/tests/README, t/changes/README, t/debs/README and
       t/source/README.

       Lintian::Tutorial::WritingChecks, Lintian::Tutorial::TestSuite