Documentation/dev-tools/kunit/kunit-tool.rst - linux/kernel/git/bpf/bpf-next - Git at Google

 .. SPDX-License-Identifier: GPL-2.0

 =================
 kunit_tool How-To
 =================

 What is kunit_tool?
 ===================

 kunit_tool is a script (``tools/testing/kunit/kunit.py``) that aids in building
 the Linux kernel as UML (`User Mode Linux
 <http://user-mode-linux.sourceforge.net/>`_), running KUnit tests, parsing
 the test results and displaying them in a user friendly manner.

 kunit_tool 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 the kernel as a standalone Linux executable 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.

 What is a .kunitconfig?
 =======================

 It's just a defconfig that kunit_tool looks for in the build directory
 (``.kunit`` by default).  kunit_tool uses it to generate a .config as you might
 expect. In addition, it verifies that the generated .config contains the CONFIG
 options in the .kunitconfig; the reason it does this is so that it is easy to
 be sure that a CONFIG that enables a test actually ends up in the .config.

 It's also possible to pass a separate .kunitconfig fragment to kunit_tool,
 which is useful if you have several different groups of tests you wish
 to run independently, or if you want to use pre-defined test configs for
 certain subsystems.

 Getting Started with kunit_tool
 ===============================

 If a kunitconfig is present at the root directory, all you have to do is:

 .. code-block:: bash

 	./tools/testing/kunit/kunit.py run

 However, you most likely want to use it with the following options:

 .. code-block:: bash

 	./tools/testing/kunit/kunit.py run --timeout=30 --jobs=`nproc --all`

 - ``--timeout`` sets a maximum amount of time to allow tests to run.
 - ``--jobs`` sets the number of threads to use to build the kernel.

 .. note::
 	This command will work even without a .kunitconfig file: if no
 	.kunitconfig is present, a default one will be used instead.

 If you wish to use a different .kunitconfig file (such as one provided for
 testing a particular subsystem), you can pass it as an option.

 .. code-block:: bash

 	./tools/testing/kunit/kunit.py run --kunitconfig=fs/ext4/.kunitconfig

 For a list of all the flags supported by kunit_tool, you can run:

 .. code-block:: bash

 	./tools/testing/kunit/kunit.py run --help

 Configuring, Building, and Running Tests
 ========================================

 It's also possible to run just parts of the KUnit build process independently,
 which is useful if you want to make manual changes to part of the process.

 A .config can be generated from a .kunitconfig by using the ``config`` argument
 when running kunit_tool:

 .. code-block:: bash

 	./tools/testing/kunit/kunit.py config

 Similarly, if you just want to build a KUnit kernel from the current .config,
 you can use the ``build`` argument:

 .. code-block:: bash

 	./tools/testing/kunit/kunit.py build

 And, if you already have a built UML kernel with built-in KUnit tests, you can
 run the kernel and display the test results with the ``exec`` argument:

 .. code-block:: bash

 	./tools/testing/kunit/kunit.py exec

 The ``run`` command which is discussed above is equivalent to running all three
 of these in sequence.

 All of these commands accept a number of optional command-line arguments. The
 ``--help`` flag will give a complete list of these, or keep reading this page
 for a guide to some of the more useful ones.

 Parsing Test Results
 ====================

 KUnit tests output their results in TAP (Test Anything Protocol) format.
 kunit_tool will, when running tests, parse this output and print a summary
 which is much more pleasant to read. If you wish to look at the raw test
 results in TAP format, you can pass the ``--raw_output`` argument.

 .. code-block:: bash

 	./tools/testing/kunit/kunit.py run --raw_output

 .. note::
 	The raw output from test runs may contain other, non-KUnit kernel log
 	lines.

 If you have KUnit results in their raw TAP format, you can parse them and print
 the human-readable summary with the ``parse`` command for kunit_tool. This
 accepts a filename for an argument, or will read from standard input.

 .. code-block:: bash

 	# Reading from a file
 	./tools/testing/kunit/kunit.py parse /var/log/dmesg
 	# Reading from stdin
 	dmesg | ./tools/testing/kunit/kunit.py parse

 This is very useful if you wish to run tests in a configuration not supported
 by kunit_tool (such as on real hardware, or an unsupported architecture).

 Filtering Tests
 ===============

 It's possible to run only a subset of the tests built into a kernel by passing
 a filter to the ``exec`` or ``run`` commands. For example, if you only wanted
 to run KUnit resource tests, you could use:

 .. code-block:: bash

 	./tools/testing/kunit/kunit.py run 'kunit-resource*'

 This uses the standard glob format for wildcards.

 Running Tests on QEMU
 =====================

 kunit_tool supports running tests on QEMU as well as via UML (as mentioned
 elsewhere). The default way of running tests on QEMU requires two flags:

 ``--arch``
 	Selects a collection of configs (Kconfig as well as QEMU configs
 	options, etc) that allow KUnit tests to be run on the specified
 	architecture in a minimal way; this is usually not much slower than
 	using UML. The architecture argument is the same as the name of the
 	option passed to the ``ARCH`` variable used by Kbuild. Not all
 	architectures are currently supported by this flag, but can be handled
 	by the ``--qemu_config`` discussed later. If ``um`` is passed (or this
 	this flag is ignored) the tests will run via UML. Non-UML architectures,
 	e.g. i386, x86_64, arm, um, etc. Non-UML run on QEMU.

 ``--cross_compile``
 	Specifies the use of a toolchain by Kbuild. The argument passed here is
 	the same passed to the ``CROSS_COMPILE`` variable used by Kbuild. As a
 	reminder this will be the prefix for the toolchain binaries such as gcc
 	for example ``sparc64-linux-gnu-`` if you have the sparc toolchain
 	installed on your system, or
 	``$HOME/toolchains/microblaze/gcc-9.2.0-nolibc/microblaze-linux/bin/microblaze-linux-``
 	if you have downloaded the microblaze toolchain from the 0-day website
 	to a directory in your home directory called ``toolchains``.

 In many cases it is likely that you may want to run an architecture which is
 not supported by the ``--arch`` flag, or you may want to just run KUnit tests
 on QEMU using a non-default configuration. For this use case, you can write
 your own QemuConfig. These QemuConfigs are written in Python. They must have an
 import line ``from ..qemu_config import QemuArchParams`` at the top of the file
 and the file must contain a variable called ``QEMU_ARCH`` that has an instance
 of ``QemuArchParams`` assigned to it. An example can be seen in
 ``tools/testing/kunit/qemu_configs/x86_64.py``.

 Once you have a QemuConfig you can pass it into kunit_tool using the
 ``--qemu_config`` flag; when used this flag replaces the ``--arch`` flag. If we
 were to do this with the ``x86_64.py`` example from above, the invocation would
 look something like this:

 .. code-block:: bash

 	./tools/testing/kunit/kunit.py run \
 		--timeout=60 \
 		--jobs=12 \
 		--qemu_config=./tools/testing/kunit/qemu_configs/x86_64.py

 Other Useful Options
 ====================

 kunit_tool has a number of other command-line arguments which can be useful
 when adapting it to fit your environment or needs.

 Some of the more useful ones are:

 ``--help``
 	Lists all of the available options. Note that different commands
 	(``config``, ``build``, ``run``, etc) will have different supported
 	options. Place ``--help`` before the command to list common options,
 	and after the command for options specific to that command.

 ``--build_dir``
 	Specifies the build directory that kunit_tool will use. This is where
 	the .kunitconfig file is located, as well as where the .config and
 	compiled kernel will be placed. Defaults to ``.kunit``.

 ``--make_options``
 	Specifies additional options to pass to ``make`` when compiling a
 	kernel (with the ``build`` or ``run`` commands). For example, to enable
 	compiler warnings, you can pass ``--make_options W=1``.

 ``--alltests``
         Builds a UML kernel with all config options enabled using ``make
         allyesconfig``. This allows you to run as many tests as is possible,
         but is very slow and prone to breakage as new options are added or
         modified. In most cases, enabling all tests which have satisfied
         dependencies by adding ``CONFIG_KUNIT_ALL_TESTS=1`` to your
         .kunitconfig is preferable.

 There are several other options (and new ones are often added), so do check
 ``--help`` if you're looking for something not mentioned here.
	.. SPDX-License-Identifier: GPL-2.0

	=================
	kunit_tool How-To
	=================

	What is kunit_tool?
	===================

	kunit_tool is a script (``tools/testing/kunit/kunit.py``) that aids in building
	the Linux kernel as UML (`User Mode Linux
	<http://user-mode-linux.sourceforge.net/>`_), running KUnit tests, parsing
	the test results and displaying them in a user friendly manner.

	kunit_tool 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 the kernel as a standalone Linux executable 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.

	What is a .kunitconfig?
	=======================

	It's just a defconfig that kunit_tool looks for in the build directory
	(``.kunit`` by default). kunit_tool uses it to generate a .config as you might
	expect. In addition, it verifies that the generated .config contains the CONFIG
	options in the .kunitconfig; the reason it does this is so that it is easy to
	be sure that a CONFIG that enables a test actually ends up in the .config.

	It's also possible to pass a separate .kunitconfig fragment to kunit_tool,
	which is useful if you have several different groups of tests you wish
	to run independently, or if you want to use pre-defined test configs for
	certain subsystems.

	Getting Started with kunit_tool
	===============================

	If a kunitconfig is present at the root directory, all you have to do is:

	.. code-block:: bash

	./tools/testing/kunit/kunit.py run

	However, you most likely want to use it with the following options:

	.. code-block:: bash

	./tools/testing/kunit/kunit.py run --timeout=30 --jobs=`nproc --all`

	- ``--timeout`` sets a maximum amount of time to allow tests to run.
	- ``--jobs`` sets the number of threads to use to build the kernel.

	.. note::
	This command will work even without a .kunitconfig file: if no
	.kunitconfig is present, a default one will be used instead.

	If you wish to use a different .kunitconfig file (such as one provided for
	testing a particular subsystem), you can pass it as an option.

	.. code-block:: bash

	./tools/testing/kunit/kunit.py run --kunitconfig=fs/ext4/.kunitconfig

	For a list of all the flags supported by kunit_tool, you can run:

	.. code-block:: bash

	./tools/testing/kunit/kunit.py run --help

	Configuring, Building, and Running Tests
	========================================

	It's also possible to run just parts of the KUnit build process independently,
	which is useful if you want to make manual changes to part of the process.

	A .config can be generated from a .kunitconfig by using the ``config`` argument
	when running kunit_tool:

	.. code-block:: bash

	./tools/testing/kunit/kunit.py config

	Similarly, if you just want to build a KUnit kernel from the current .config,
	you can use the ``build`` argument:

	.. code-block:: bash

	./tools/testing/kunit/kunit.py build

	And, if you already have a built UML kernel with built-in KUnit tests, you can
	run the kernel and display the test results with the ``exec`` argument:

	.. code-block:: bash

	./tools/testing/kunit/kunit.py exec

	The ``run`` command which is discussed above is equivalent to running all three
	of these in sequence.

	All of these commands accept a number of optional command-line arguments. The
	``--help`` flag will give a complete list of these, or keep reading this page
	for a guide to some of the more useful ones.

	Parsing Test Results
	====================

	KUnit tests output their results in TAP (Test Anything Protocol) format.
	kunit_tool will, when running tests, parse this output and print a summary
	which is much more pleasant to read. If you wish to look at the raw test
	results in TAP format, you can pass the ``--raw_output`` argument.

	.. code-block:: bash

	./tools/testing/kunit/kunit.py run --raw_output

	.. note::
	The raw output from test runs may contain other, non-KUnit kernel log
	lines.

	If you have KUnit results in their raw TAP format, you can parse them and print
	the human-readable summary with the ``parse`` command for kunit_tool. This
	accepts a filename for an argument, or will read from standard input.

	.. code-block:: bash

	# Reading from a file
	./tools/testing/kunit/kunit.py parse /var/log/dmesg
	# Reading from stdin
	dmesg \| ./tools/testing/kunit/kunit.py parse

	This is very useful if you wish to run tests in a configuration not supported
	by kunit_tool (such as on real hardware, or an unsupported architecture).

	Filtering Tests
	===============

	It's possible to run only a subset of the tests built into a kernel by passing
	a filter to the ``exec`` or ``run`` commands. For example, if you only wanted
	to run KUnit resource tests, you could use:

	.. code-block:: bash

	./tools/testing/kunit/kunit.py run 'kunit-resource*'

	This uses the standard glob format for wildcards.

	Running Tests on QEMU
	=====================

	kunit_tool supports running tests on QEMU as well as via UML (as mentioned
	elsewhere). The default way of running tests on QEMU requires two flags:

	``--arch``
	Selects a collection of configs (Kconfig as well as QEMU configs
	options, etc) that allow KUnit tests to be run on the specified
	architecture in a minimal way; this is usually not much slower than
	using UML. The architecture argument is the same as the name of the
	option passed to the ``ARCH`` variable used by Kbuild. Not all
	architectures are currently supported by this flag, but can be handled
	by the ``--qemu_config`` discussed later. If ``um`` is passed (or this
	this flag is ignored) the tests will run via UML. Non-UML architectures,
	e.g. i386, x86_64, arm, um, etc. Non-UML run on QEMU.

	``--cross_compile``
	Specifies the use of a toolchain by Kbuild. The argument passed here is
	the same passed to the ``CROSS_COMPILE`` variable used by Kbuild. As a
	reminder this will be the prefix for the toolchain binaries such as gcc
	for example ``sparc64-linux-gnu-`` if you have the sparc toolchain
	installed on your system, or
	``$HOME/toolchains/microblaze/gcc-9.2.0-nolibc/microblaze-linux/bin/microblaze-linux-``
	if you have downloaded the microblaze toolchain from the 0-day website
	to a directory in your home directory called ``toolchains``.

	In many cases it is likely that you may want to run an architecture which is
	not supported by the ``--arch`` flag, or you may want to just run KUnit tests
	on QEMU using a non-default configuration. For this use case, you can write
	your own QemuConfig. These QemuConfigs are written in Python. They must have an
	import line ``from ..qemu_config import QemuArchParams`` at the top of the file
	and the file must contain a variable called ``QEMU_ARCH`` that has an instance
	of ``QemuArchParams`` assigned to it. An example can be seen in
	``tools/testing/kunit/qemu_configs/x86_64.py``.

	Once you have a QemuConfig you can pass it into kunit_tool using the
	``--qemu_config`` flag; when used this flag replaces the ``--arch`` flag. If we
	were to do this with the ``x86_64.py`` example from above, the invocation would
	look something like this:

	.. code-block:: bash

	./tools/testing/kunit/kunit.py run \
	--timeout=60 \
	--jobs=12 \
	--qemu_config=./tools/testing/kunit/qemu_configs/x86_64.py

	Other Useful Options
	====================

	kunit_tool has a number of other command-line arguments which can be useful
	when adapting it to fit your environment or needs.

	Some of the more useful ones are:

	``--help``
	Lists all of the available options. Note that different commands
	(``config``, ``build``, ``run``, etc) will have different supported
	options. Place ``--help`` before the command to list common options,
	and after the command for options specific to that command.

	``--build_dir``
	Specifies the build directory that kunit_tool will use. This is where
	the .kunitconfig file is located, as well as where the .config and
	compiled kernel will be placed. Defaults to ``.kunit``.

	``--make_options``
	Specifies additional options to pass to ``make`` when compiling a
	kernel (with the ``build`` or ``run`` commands). For example, to enable
	compiler warnings, you can pass ``--make_options W=1``.

	``--alltests``
	Builds a UML kernel with all config options enabled using ``make
	allyesconfig``. This allows you to run as many tests as is possible,
	but is very slow and prone to breakage as new options are added or
	modified. In most cases, enabling all tests which have satisfied
	dependencies by adding ``CONFIG_KUNIT_ALL_TESTS=1`` to your
	.kunitconfig is preferable.

	There are several other options (and new ones are often added), so do check
	``--help`` if you're looking for something not mentioned here.