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+.. SPDX-License-Identifier: GPL-2.0
+
+==================
+KUnit Architecture
+==================
+
+The KUnit architecture can be divided into two parts:
+
+- `In-Kernel Testing Framework`_
+- `kunit_tool (Command Line Test Harness)`_
+
+In-Kernel Testing Framework
+===========================
+
+The kernel testing library supports KUnit tests written in C using
+KUnit. KUnit tests are kernel code. KUnit does several things:
+
+- Organizes tests
+- Reports test results
+- Provides test utilities
+
+Test Cases
+----------
+
+The fundamental unit in KUnit is the test case. The KUnit test cases are
+grouped into KUnit suites. A KUnit test case is a function with type
+signature ``void (*)(struct kunit *test)``.
+These test case functions are wrapped in a struct called
+struct kunit_case.
+
+.. note:
+	``generate_params`` is optional for non-parameterized tests.
+
+Each KUnit test case gets a ``struct kunit`` context
+object passed to it that tracks a running test. The KUnit assertion
+macros and other KUnit utilities use the ``struct kunit`` context
+object. As an exception, there are two fields:
+
+- ``->priv``: The setup functions can use it to store arbitrary test
+  user data.
+
+- ``->param_value``: It contains the parameter value which can be
+  retrieved in the parameterized tests.
+
+Test Suites
+-----------
+
+A KUnit suite includes a collection of test cases. The KUnit suites
+are represented by the ``struct kunit_suite``. For example:
+
+.. code-block:: c
+
+	static struct kunit_case example_test_cases[] = {
+		KUNIT_CASE(example_test_foo),
+		KUNIT_CASE(example_test_bar),
+		KUNIT_CASE(example_test_baz),
+		{}
+	};
+
+	static struct kunit_suite example_test_suite = {
+		.name = "example",
+		.init = example_test_init,
+		.exit = example_test_exit,
+		.test_cases = example_test_cases,
+	};
+	kunit_test_suite(example_test_suite);
+
+In the above example, the test suite ``example_test_suite``, runs the
+test cases ``example_test_foo``, ``example_test_bar``, and
+``example_test_baz``. Before running the test, the ``example_test_init``
+is called and after running the test, ``example_test_exit`` is called.
+The ``kunit_test_suite(example_test_suite)`` registers the test suite
+with the KUnit test framework.
+
+Executor
+--------
+
+The KUnit executor can list and run built-in KUnit tests on boot.
+The Test suites are stored in a linker section
+called ``.kunit_test_suites``. For code, see:
+https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/include/asm-generic/vmlinux.lds.h?h=v5.15#n945.
+The linker section consists of an array of pointers to
+``struct kunit_suite``, and is populated by the ``kunit_test_suites()``
+macro. To run all tests compiled into the kernel, the KUnit executor
+iterates over the linker section array.
+
+.. kernel-figure:: kunit_suitememorydiagram.svg
+	:alt:	KUnit Suite Memory
+
+	KUnit Suite Memory Diagram
+
+On the kernel boot, the KUnit executor uses the start and end addresses
+of this section to iterate over and run all tests. For code, see:
+https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/lib/kunit/executor.c
+
+When built as a module, the ``kunit_test_suites()`` macro defines a
+``module_init()`` function, which runs all the tests in the compilation
+unit instead of utilizing the executor.
+
+In KUnit tests, some error classes do not affect other tests
+or parts of the kernel, each KUnit case executes in a separate thread
+context. For code, see:
+https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/lib/kunit/try-catch.c?h=v5.15#n58
+
+Assertion Macros
+----------------
+
+KUnit tests verify state using expectations/assertions.
+All expectations/assertions are formatted as:
+``KUNIT_{EXPECT|ASSERT}_<op>[_MSG](kunit, property[, message])``
+
+- ``{EXPECT|ASSERT}`` determines whether the check is an assertion or an
+  expectation.
+
+	- For an expectation, if the check fails, marks the test as failed
+	  and logs the failure.
+
+	- An assertion, on failure, causes the test case to terminate
+	  immediately.
+
+		- Assertions call function:
+		  ``void __noreturn kunit_abort(struct kunit *)``.
+
+		- ``kunit_abort`` calls function:
+		  ``void __noreturn kunit_try_catch_throw(struct kunit_try_catch *try_catch)``.
+
+		- ``kunit_try_catch_throw`` calls function:
+		  ``void kthread_complete_and_exit(struct completion *, long) __noreturn;``
+		  and terminates the special thread context.
+
+- ``<op>`` denotes a check with options: ``TRUE`` (supplied property
+  has the boolean value “true”), ``EQ`` (two supplied properties are
+  equal), ``NOT_ERR_OR_NULL`` (supplied pointer is not null and does not
+  contain an “err” value).
+
+- ``[_MSG]`` prints a custom message on failure.
+
+Test Result Reporting
+---------------------
+KUnit prints test results in KTAP format. KTAP is based on TAP14, see:
+https://github.com/isaacs/testanything.github.io/blob/tap14/tap-version-14-specification.md.
+KTAP (yet to be standardized format) works with KUnit and Kselftest.
+The KUnit executor prints KTAP results to dmesg, and debugfs
+(if configured).
+
+Parameterized Tests
+-------------------
+
+Each KUnit parameterized test is associated with a collection of
+parameters. The test is invoked multiple times, once for each parameter
+value and the parameter is stored in the ``param_value`` field.
+The test case includes a KUNIT_CASE_PARAM() macro that accepts a
+generator function.
+The generator function is passed the previous parameter and returns the next
+parameter. It also provides a macro to generate common-case generators based on
+arrays.
+
+kunit_tool (Command Line Test Harness)
+======================================
+
+kunit_tool is a Python script ``(tools/testing/kunit/kunit.py)``
+that can be used to configure, build, exec, parse and run (runs other
+commands in order) test results. You can either run KUnit tests using
+kunit_tool or can include KUnit in kernel and parse manually.
+
+- ``configure`` command generates the kernel ``.config`` from a
+  ``.kunitconfig`` file (and any architecture-specific options).
+  For some architectures, additional config options are specified in the
+  ``qemu_config`` Python script
+  (For example: ``tools/testing/kunit/qemu_configs/powerpc.py``).
+  It parses both the existing ``.config`` and the ``.kunitconfig`` files
+  and ensures that ``.config`` is a superset of ``.kunitconfig``.
+  If this is not the case, it will combine the two and run
+  ``make olddefconfig`` to regenerate the ``.config`` file. It then
+  verifies that ``.config`` is now a superset. This checks if all
+  Kconfig dependencies are correctly specified in ``.kunitconfig``.
+  ``kunit_config.py`` includes the parsing Kconfigs code. The code which
+  runs ``make olddefconfig`` is a part of ``kunit_kernel.py``. You can
+  invoke this command via: ``./tools/testing/kunit/kunit.py config`` and
+  generate a ``.config`` file.
+- ``build`` runs ``make`` on the kernel tree with required options
+  (depends on the architecture and some options, for example: build_dir)
+  and reports any errors.
+  To build a KUnit kernel from the current ``.config``, you can use the
+  ``build`` argument: ``./tools/testing/kunit/kunit.py build``.
+- ``exec`` command executes kernel results either directly (using
+  User-mode Linux configuration), or via an emulator such
+  as QEMU. It reads results from the log via standard
+  output (stdout), and passes them to ``parse`` to be parsed.
+  If you already have built a kernel with built-in KUnit tests,
+  you can run the kernel and display the test results with the ``exec``
+  argument: ``./tools/testing/kunit/kunit.py exec``.
+- ``parse`` extracts the KTAP output from a kernel log, parses
+  the test results, and prints a summary. For failed tests, any
+  diagnostic output will be included.