Documentation/test/index.rst - linux - Git at Google

 .. SPDX-License-Identifier: GPL-2.0

 =========================================
 KUnit - Unit Testing for the Linux Kernel
 =========================================

 .. toctree::
 	:maxdepth: 2

 	start
 	usage
 	api/index
 	faq

 What is KUnit?
 ==============

 KUnit is a lightweight unit testing and mocking framework for the Linux kernel.
 These tests are able to be run locally on a developer’s workstation without a VM
 or special hardware.

 KUnit is heavily inspired by JUnit, Python's ``unittest.mock``, and
 Googletest/Googlemock for C++. They have the same structure for defining test
 suites and test cases. KUnit defines a way to mock out C style classes and
 functions and create expectations on methods called within the code under test.

 Get started now: :doc:`start`

 Why KUnit?
 ==========

 Aside from KUnit there is no true unit testing framework for the Linux kernel.
 Autotest and kselftest are sometimes cited as unit testing frameworks; however,
 they are not by most reasonable definitions of unit tests.

 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.

 Outside of KUnit, there are no testing frameworks currently
 available for the kernel that do not require installing the kernel on a test
 machine or in a VM and all require tests to be written in userspace running on
 the kernel; this is true for Autotest, and kselftest, disqualifying
 any of them from being considered unit testing frameworks.

 KUnit addresses the problem of being able to run tests without needing a virtual
 machine or actual hardware with User Mode Linux. User Mode Linux is a Linux
 architecture, like ARM or x86; however, unlike other architectures it compiles
 to a standalone program that can be run like any other program directly inside
 of a host operating system; to be clear, it does not require any virtualization
 support; it is just a regular program.

 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, everytime you make a change, and everytime
 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 his / her test log?

 How do I use it?
 ===================

 *   :doc:`start` - for new users of KUnit
 *   :doc:`usage` - for a more detailed explanation of KUnit features
 *   :doc:`api/index` - for the list of KUnit APIs used for testing
	.. SPDX-License-Identifier: GPL-2.0

	=========================================
	KUnit - Unit Testing for the Linux Kernel
	=========================================

	.. toctree::
	:maxdepth: 2

	start
	usage
	api/index
	faq

	What is KUnit?
	==============

	KUnit is a lightweight unit testing and mocking framework for the Linux kernel.
	These tests are able to be run locally on a developer’s workstation without a VM
	or special hardware.

	KUnit is heavily inspired by JUnit, Python's ``unittest.mock``, and
	Googletest/Googlemock for C++. They have the same structure for defining test
	suites and test cases. KUnit defines a way to mock out C style classes and
	functions and create expectations on methods called within the code under test.

	Get started now: :doc:`start`

	Why KUnit?
	==========

	Aside from KUnit there is no true unit testing framework for the Linux kernel.
	Autotest and kselftest are sometimes cited as unit testing frameworks; however,
	they are not by most reasonable definitions of unit tests.

	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.

	Outside of KUnit, there are no testing frameworks currently
	available for the kernel that do not require installing the kernel on a test
	machine or in a VM and all require tests to be written in userspace running on
	the kernel; this is true for Autotest, and kselftest, disqualifying
	any of them from being considered unit testing frameworks.

	KUnit addresses the problem of being able to run tests without needing a virtual
	machine or actual hardware with User Mode Linux. User Mode Linux is a Linux
	architecture, like ARM or x86; however, unlike other architectures it compiles
	to a standalone program that can be run like any other program directly inside
	of a host operating system; to be clear, it does not require any virtualization
	support; it is just a regular program.

	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, everytime you make a change, and everytime
	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 his / her test log?

	How do I use it?
	===================

	* :doc:`start` - for new users of KUnit
	* :doc:`usage` - for a more detailed explanation of KUnit features
	* :doc:`api/index` - for the list of KUnit APIs used for testing