aboutsummaryrefslogtreecommitdiffstats
path: root/Documentation/dev-tools/ktap.rst
diff options
context:
space:
mode:
Diffstat (limited to '')
-rw-r--r--Documentation/dev-tools/ktap.rst311
1 files changed, 311 insertions, 0 deletions
diff --git a/Documentation/dev-tools/ktap.rst b/Documentation/dev-tools/ktap.rst
new file mode 100644
index 000000000000..d0a9565b0f44
--- /dev/null
+++ b/Documentation/dev-tools/ktap.rst
@@ -0,0 +1,311 @@
+.. SPDX-License-Identifier: GPL-2.0
+
+===================================================
+The Kernel Test Anything Protocol (KTAP), version 1
+===================================================
+
+TAP, or the Test Anything Protocol is a format for specifying test results used
+by a number of projects. It's website and specification are found at this `link
+<https://testanything.org/>`_. The Linux Kernel largely uses TAP output for test
+results. However, Kernel testing frameworks have special needs for test results
+which don't align with the original TAP specification. Thus, a "Kernel TAP"
+(KTAP) format is specified to extend and alter TAP to support these use-cases.
+This specification describes the generally accepted format of KTAP as it is
+currently used in the kernel.
+
+KTAP test results describe a series of tests (which may be nested: i.e., test
+can have subtests), each of which can contain both diagnostic data -- e.g., log
+lines -- and a final result. The test structure and results are
+machine-readable, whereas the diagnostic data is unstructured and is there to
+aid human debugging.
+
+KTAP output is built from four different types of lines:
+- Version lines
+- Plan lines
+- Test case result lines
+- Diagnostic lines
+
+In general, valid KTAP output should also form valid TAP output, but some
+information, in particular nested test results, may be lost. Also note that
+there is a stagnant draft specification for TAP14, KTAP diverges from this in
+a couple of places (notably the "Subtest" header), which are described where
+relevant later in this document.
+
+Version lines
+-------------
+
+All KTAP-formatted results begin with a "version line" which specifies which
+version of the (K)TAP standard the result is compliant with.
+
+For example:
+- "KTAP version 1"
+- "TAP version 13"
+- "TAP version 14"
+
+Note that, in KTAP, subtests also begin with a version line, which denotes the
+start of the nested test results. This differs from TAP14, which uses a
+separate "Subtest" line.
+
+While, going forward, "KTAP version 1" should be used by compliant tests, it
+is expected that most parsers and other tooling will accept the other versions
+listed here for compatibility with existing tests and frameworks.
+
+Plan lines
+----------
+
+A test plan provides the number of tests (or subtests) in the KTAP output.
+
+Plan lines must follow the format of "1..N" where N is the number of tests or subtests.
+Plan lines follow version lines to indicate the number of nested tests.
+
+While there are cases where the number of tests is not known in advance -- in
+which case the test plan may be omitted -- it is strongly recommended one is
+present where possible.
+
+Test case result lines
+----------------------
+
+Test case result lines indicate the final status of a test.
+They are required and must have the format:
+
+.. code-block:: none
+
+ <result> <number> [<description>][ # [<directive>] [<diagnostic data>]]
+
+The result can be either "ok", which indicates the test case passed,
+or "not ok", which indicates that the test case failed.
+
+<number> represents the number of the test being performed. The first test must
+have the number 1 and the number then must increase by 1 for each additional
+subtest within the same test at the same nesting level.
+
+The description is a description of the test, generally the name of
+the test, and can be any string of words (can't include #). The
+description is optional, but recommended.
+
+The directive and any diagnostic data is optional. If either are present, they
+must follow a hash sign, "#".
+
+A directive is a keyword that indicates a different outcome for a test other
+than passed and failed. The directive is optional, and consists of a single
+keyword preceding the diagnostic data. In the event that a parser encounters
+a directive it doesn't support, it should fall back to the "ok" / "not ok"
+result.
+
+Currently accepted directives are:
+
+- "SKIP", which indicates a test was skipped (note the result of the test case
+ result line can be either "ok" or "not ok" if the SKIP directive is used)
+- "TODO", which indicates that a test is not expected to pass at the moment,
+ e.g. because the feature it is testing is known to be broken. While this
+ directive is inherited from TAP, its use in the kernel is discouraged.
+- "XFAIL", which indicates that a test is expected to fail. This is similar
+ to "TODO", above, and is used by some kselftest tests.
+- “TIMEOUT”, which indicates a test has timed out (note the result of the test
+ case result line should be “not ok” if the TIMEOUT directive is used)
+- “ERROR”, which indicates that the execution of a test has failed due to a
+ specific error that is included in the diagnostic data. (note the result of
+ the test case result line should be “not ok” if the ERROR directive is used)
+
+The diagnostic data is a plain-text field which contains any additional details
+about why this result was produced. This is typically an error message for ERROR
+or failed tests, or a description of missing dependencies for a SKIP result.
+
+The diagnostic data field is optional, and results which have neither a
+directive nor any diagnostic data do not need to include the "#" field
+separator.
+
+Example result lines include::
+
+ ok 1 test_case_name
+
+The test "test_case_name" passed.
+
+::
+
+ not ok 1 test_case_name
+
+The test "test_case_name" failed.
+
+::
+
+ ok 1 test # SKIP necessary dependency unavailable
+
+The test "test" was SKIPPED with the diagnostic message "necessary dependency
+unavailable".
+
+::
+
+ not ok 1 test # TIMEOUT 30 seconds
+
+The test "test" timed out, with diagnostic data "30 seconds".
+
+::
+
+ ok 5 check return code # rcode=0
+
+The test "check return code" passed, with additional diagnostic data “rcode=0”
+
+
+Diagnostic lines
+----------------
+
+If tests wish to output any further information, they should do so using
+"diagnostic lines". Diagnostic lines are optional, freeform text, and are
+often used to describe what is being tested and any intermediate results in
+more detail than the final result and diagnostic data line provides.
+
+Diagnostic lines are formatted as "# <diagnostic_description>", where the
+description can be any string. Diagnostic lines can be anywhere in the test
+output. As a rule, diagnostic lines regarding a test are directly before the
+test result line for that test.
+
+Note that most tools will treat unknown lines (see below) as diagnostic lines,
+even if they do not start with a "#": this is to capture any other useful
+kernel output which may help debug the test. It is nevertheless recommended
+that tests always prefix any diagnostic output they have with a "#" character.
+
+Unknown lines
+-------------
+
+There may be lines within KTAP output that do not follow the format of one of
+the four formats for lines described above. This is allowed, however, they will
+not influence the status of the tests.
+
+This is an important difference from TAP. Kernel tests may print messages
+to the system console or a log file. Both of these destinations may contain
+messages either from unrelated kernel or userspace activity, or kernel
+messages from non-test code that is invoked by the test. The kernel code
+invoked by the test likely is not aware that a test is in progress and
+thus can not print the message as a diagnostic message.
+
+Nested tests
+------------
+
+In KTAP, tests can be nested. This is done by having a test include within its
+output an entire set of KTAP-formatted results. This can be used to categorize
+and group related tests, or to split out different results from the same test.
+
+The "parent" test's result should consist of all of its subtests' results,
+starting with another KTAP version line and test plan, and end with the overall
+result. If one of the subtests fail, for example, the parent test should also
+fail.
+
+Additionally, all lines in a subtest should be indented. One level of
+indentation is two spaces: " ". The indentation should begin at the version
+line and should end before the parent test's result line.
+
+"Unknown lines" are not considered to be lines in a subtest and thus are
+allowed to be either indented or not indented.
+
+An example of a test with two nested subtests:
+
+::
+
+ KTAP version 1
+ 1..1
+ KTAP version 1
+ 1..2
+ ok 1 test_1
+ not ok 2 test_2
+ # example failed
+ not ok 1 example
+
+An example format with multiple levels of nested testing:
+
+::
+
+ KTAP version 1
+ 1..2
+ KTAP version 1
+ 1..2
+ KTAP version 1
+ 1..2
+ not ok 1 test_1
+ ok 2 test_2
+ not ok 1 test_3
+ ok 2 test_4 # SKIP
+ not ok 1 example_test_1
+ ok 2 example_test_2
+
+
+Major differences between TAP and KTAP
+--------------------------------------
+
+================================================== ========= ===============
+Feature TAP KTAP
+================================================== ========= ===============
+yaml and json in diagnosic message ok not recommended
+TODO directive ok not recognized
+allows an arbitrary number of tests to be nested no yes
+"Unknown lines" are in category of "Anything else" yes no
+"Unknown lines" are incorrect allowed
+================================================== ========= ===============
+
+The TAP14 specification does permit nested tests, but instead of using another
+nested version line, uses a line of the form
+"Subtest: <name>" where <name> is the name of the parent test.
+
+Example KTAP output
+--------------------
+::
+
+ KTAP version 1
+ 1..1
+ KTAP version 1
+ 1..3
+ KTAP version 1
+ 1..1
+ # test_1: initializing test_1
+ ok 1 test_1
+ ok 1 example_test_1
+ KTAP version 1
+ 1..2
+ ok 1 test_1 # SKIP test_1 skipped
+ ok 2 test_2
+ ok 2 example_test_2
+ KTAP version 1
+ 1..3
+ ok 1 test_1
+ # test_2: FAIL
+ not ok 2 test_2
+ ok 3 test_3 # SKIP test_3 skipped
+ not ok 3 example_test_3
+ not ok 1 main_test
+
+This output defines the following hierarchy:
+
+A single test called "main_test", which fails, and has three subtests:
+- "example_test_1", which passes, and has one subtest:
+
+ - "test_1", which passes, and outputs the diagnostic message "test_1: initializing test_1"
+
+- "example_test_2", which passes, and has two subtests:
+
+ - "test_1", which is skipped, with the explanation "test_1 skipped"
+ - "test_2", which passes
+
+- "example_test_3", which fails, and has three subtests
+
+ - "test_1", which passes
+ - "test_2", which outputs the diagnostic line "test_2: FAIL", and fails.
+ - "test_3", which is skipped with the explanation "test_3 skipped"
+
+Note that the individual subtests with the same names do not conflict, as they
+are found in different parent tests. This output also exhibits some sensible
+rules for "bubbling up" test results: a test fails if any of its subtests fail.
+Skipped tests do not affect the result of the parent test (though it often
+makes sense for a test to be marked skipped if _all_ of its subtests have been
+skipped).
+
+See also:
+---------
+
+- The TAP specification:
+ https://testanything.org/tap-version-13-specification.html
+- The (stagnant) TAP version 14 specification:
+ https://github.com/TestAnything/Specification/blob/tap-14-specification/specification.md
+- The kselftest documentation:
+ Documentation/dev-tools/kselftest.rst
+- The KUnit documentation:
+ Documentation/dev-tools/kunit/index.rst