@@ -1,11 +1,12 @@
.. SPDX-License-Identifier: GPL-2.0
-=========================================
-KUnit - Unit Testing for the Linux Kernel
-=========================================
+=================================
+KUnit - Linux Kernel Unit Testing
+=================================
.. toctree::
:maxdepth: 2
+ :caption: Contents:
start
usage
@@ -16,82 +17,84 @@ KUnit - Unit Testing for the Linux Kernel
tips
running_tips
-What is KUnit?
-==============
-
-KUnit is a lightweight unit testing and mocking framework for the Linux kernel.
-
-KUnit is heavily inspired by JUnit, Python's unittest.mock, and
-Googletest/Googlemock for C++. KUnit provides facilities for defining unit test
-cases, grouping related test cases into test suites, providing common
-infrastructure for running tests, and much more.
-
-KUnit consists of a kernel component, which provides a set of macros for easily
-writing unit tests. Tests written against KUnit will run on kernel boot if
-built-in, or when loaded if built as a module. These tests write out results to
-the kernel log in `TAP <https://testanything.org/>`_ format.
-
-To make running these tests (and reading the results) easier, KUnit offers
-:doc:`kunit_tool <kunit-tool>`, which builds a `User Mode Linux
-<http://user-mode-linux.sourceforge.net>`_ kernel, runs it, and parses the test
-results. This provides a quick way of running KUnit tests during development,
-without requiring a virtual machine or separate hardware.
-
-Get started now: Documentation/dev-tools/kunit/start.rst
-
-Why KUnit?
-==========
-
-A unit test is supposed to test a single unit of code in isolation, hence the
-name. A unit test should be the finest granularity of testing and as such should
-allow all possible code paths to be tested in the code under test; this is only
-possible if the code under test is very small and does not have any external
-dependencies outside of the test's control like hardware.
-
-KUnit provides a common framework for unit tests within the kernel.
-
-KUnit tests can be run on most architectures, and most tests are architecture
-independent. All built-in KUnit tests run on kernel startup. Alternatively,
-KUnit and KUnit tests can be built as modules and tests will run when the test
-module is loaded.
-
-.. note::
-
- KUnit can also run tests without needing a virtual machine or actual
- hardware under User Mode Linux. User Mode Linux is a Linux architecture,
- like ARM or x86, which compiles the kernel as a Linux executable. KUnit
- can be used with UML either by building with ``ARCH=um`` (like any other
- architecture), or by using :doc:`kunit_tool <kunit-tool>`.
-
-KUnit is fast. Excluding build time, from invocation to completion KUnit can run
-several dozen tests in only 10 to 20 seconds; this might not sound like a big
-deal to some people, but having such fast and easy to run tests fundamentally
-changes the way you go about testing and even writing code in the first place.
-Linus himself said in his `git talk at Google
-<https://gist.github.com/lorn/1272686/revisions#diff-53c65572127855f1b003db4064a94573R874>`_:
-
- "... a lot of people seem to think that performance is about doing the
- same thing, just doing it faster, and that is not true. That is not what
- performance is all about. If you can do something really fast, really
- well, people will start using it differently."
-
-In this context Linus was talking about branching and merging,
-but this point also applies to testing. If your tests are slow, unreliable, are
-difficult to write, and require a special setup or special hardware to run,
-then you wait a lot longer to write tests, and you wait a lot longer to run
-tests; this means that tests are likely to break, unlikely to test a lot of
-things, and are unlikely to be rerun once they pass. If your tests are really
-fast, you run them all the time, every time you make a change, and every time
-someone sends you some code. Why trust that someone ran all their tests
-correctly on every change when you can just run them yourself in less time than
-it takes to read their test log?
+This section details the kernel unit testing framework.
+
+Introduction
+============
+
+KUnit (Kernel unit testing framework) prvoides a common framework for
+unit tests within the Linux kernel. Using KUnit, you can define groups
+of test cases called test suites. The tests either run on kernel boot
+if built-in, or load as a module. KUnit automatically flags and reports
+failed test cases in the kernel log. The test results appear in TAP
+(Test Anything Protocol) format. It is inspired by JUnit, Python’s
+unittest.mock, and GoogleTest/GoogleMock (C++ unit testing framework).
+
+KUnit tests are part of the kernel, written in the C (programming)
+language, and test parts of the Kernel implementation (example: a C
+language function). Excluding build time, from invocation to
+completion, KUnit can run around 100 tests in less than 10 seconds.
+KUnit can test all kernel components, example: file system, system
+calls, memory management, device drivers and so on.
+
+KUnit follows the white-box testing approach. The test has access to
+internal system functionality. KUnit runs in kernel space and is not
+restricted to things exposed to user-space.
+
+Features
+--------
+
+- Perform unit tests.
+- Run tests on any kernel architecture.
+- Runs test in milliseconds.
+
+Prerequisites
+-------------
+
+- Any Linux kernel compatible hardware.
+- For Kernel under test, Linux kernel version 5.5 or greater.
+
+Unit Testing
+============
+
+A unit test verifies a single code unit. For example: a function or
+codepath. The test executes a single test method multiple times with
+different parameters. It is recommended to run unit test
+independently of any other unit test or code.
+
+Write Unit Tests
+----------------
+
+To write good unit tests, there is a simple but powerful pattern:
+Arrange-Act-Asert. This is a great way to structure test cases and
+defines an order of operations.
+
+- Arrange inputs and targets: At the start of the test, arrange the data
+ that allows a function to work. Example: initialize a statement or
+ object.
+- Act on the target behavior: Call your function/code under test.
+- Assert expected outcome: Verify the initial state and result as
+ expected or not.
+
+Unit Testing Advantages
+-----------------------
+
+- Increases testing speed and development in the long run.
+- Detects bugs at initial stage and therefore decreases bug fix cost
+ compared to acceptance testing.
+- Improves code quality.
+- Encourages writing testable code.
How do I use it?
================
-* Documentation/dev-tools/kunit/start.rst - for new users of KUnit
-* Documentation/dev-tools/kunit/tips.rst - for short examples of best practices
-* Documentation/dev-tools/kunit/usage.rst - for a more detailed explanation of KUnit features
-* Documentation/dev-tools/kunit/api/index.rst - for the list of KUnit APIs used for testing
-* Documentation/dev-tools/kunit/kunit-tool.rst - for more information on the kunit_tool helper script
-* Documentation/dev-tools/kunit/faq.rst - for answers to some common questions about KUnit
+* Documentation/dev-tools/kunit/start.rst - for KUnit new users.
+* Documentation/dev-tools/kunit/usage.rst - KUnit features.
+* Documentation/dev-tools/kunit/tips.rst - best practices with
+ examples.
+* Documentation/dev-tools/kunit/api/index.rst - KUnit APIs
+ used for testing.
+* Documentation/dev-tools/kunit/kunit-tool.rst - kunit_tool helper
+ script.
+* Documentation/dev-tools/kunit/faq.rst - KUnit common questions and
+ answers.
Add a section on advantages of unit testing, how to write unit tests, KUnit features and Prerequisites. Signed-off-by: Harinder Singh <sharinder@google.com> --- Documentation/dev-tools/kunit/index.rst | 159 ++++++++++++------------ 1 file changed, 81 insertions(+), 78 deletions(-)