// SPDX-License-Identifier: GPL-2.0 //! KUnit-based macros for Rust unit tests. //! //! C header: [`include/kunit/test.h`](srctree/include/kunit/test.h) //! //! Reference: use core::{ffi::c_void, fmt}; /// Prints a KUnit error-level message. /// /// Public but hidden since it should only be used from KUnit generated code. #[doc(hidden)] pub fn err(args: fmt::Arguments<'_>) { // SAFETY: The format string is null-terminated and the `%pA` specifier matches the argument we // are passing. #[cfg(CONFIG_PRINTK)] unsafe { bindings::_printk( c"\x013%pA".as_ptr() as _, &args as *const _ as *const c_void, ); } } /// Prints a KUnit info-level message. /// /// Public but hidden since it should only be used from KUnit generated code. #[doc(hidden)] pub fn info(args: fmt::Arguments<'_>) { // SAFETY: The format string is null-terminated and the `%pA` specifier matches the argument we // are passing. #[cfg(CONFIG_PRINTK)] unsafe { bindings::_printk( c"\x016%pA".as_ptr() as _, &args as *const _ as *const c_void, ); } } use macros::kunit_tests; /// Asserts that a boolean expression is `true` at runtime. /// /// Public but hidden since it should only be used from generated tests. /// /// Unlike the one in `core`, this one does not panic; instead, it is mapped to the KUnit /// facilities. See [`assert!`] for more details. #[doc(hidden)] #[macro_export] macro_rules! kunit_assert { ($name:literal, $file:literal, $diff:expr, $condition:expr $(,)?) => { 'out: { // Do nothing if the condition is `true`. if $condition { break 'out; } static FILE: &'static $crate::str::CStr = $crate::c_str!($file); static LINE: i32 = core::line!() as i32 - $diff; static CONDITION: &'static $crate::str::CStr = $crate::c_str!(stringify!($condition)); // SAFETY: FFI call without safety requirements. let kunit_test = unsafe { $crate::bindings::kunit_get_current_test() }; if kunit_test.is_null() { // The assertion failed but this task is not running a KUnit test, so we cannot call // KUnit, but at least print an error to the kernel log. This may happen if this // macro is called from an spawned thread in a test (see // `scripts/rustdoc_test_gen.rs`) or if some non-test code calls this macro by // mistake (it is hidden to prevent that). // // This mimics KUnit's failed assertion format. $crate::kunit::err(format_args!( " # {}: ASSERTION FAILED at {FILE}:{LINE}\n", $name )); $crate::kunit::err(format_args!( " Expected {CONDITION} to be true, but is false\n" )); $crate::kunit::err(format_args!( " Failure not reported to KUnit since this is a non-KUnit task\n" )); break 'out; } #[repr(transparent)] struct Location($crate::bindings::kunit_loc); #[repr(transparent)] struct UnaryAssert($crate::bindings::kunit_unary_assert); // SAFETY: There is only a static instance and in that one the pointer field points to // an immutable C string. unsafe impl Sync for Location {} // SAFETY: There is only a static instance and in that one the pointer field points to // an immutable C string. unsafe impl Sync for UnaryAssert {} static LOCATION: Location = Location($crate::bindings::kunit_loc { file: FILE.as_char_ptr(), line: LINE, }); static ASSERTION: UnaryAssert = UnaryAssert($crate::bindings::kunit_unary_assert { assert: $crate::bindings::kunit_assert {}, condition: CONDITION.as_char_ptr(), expected_true: true, }); // SAFETY: // - FFI call. // - The `kunit_test` pointer is valid because we got it from // `kunit_get_current_test()` and it was not null. This means we are in a KUnit // test, and that the pointer can be passed to KUnit functions and assertions. // - The string pointers (`file` and `condition` above) point to null-terminated // strings since they are `CStr`s. // - The function pointer (`format`) points to the proper function. // - The pointers passed will remain valid since they point to `static`s. // - The format string is allowed to be null. // - There are, however, problems with this: first of all, this will end up stopping // the thread, without running destructors. While that is problematic in itself, // it is considered UB to have what is effectively a forced foreign unwind // with `extern "C"` ABI. One could observe the stack that is now gone from // another thread. We should avoid pinning stack variables to prevent library UB, // too. For the moment, given that test failures are reported immediately before the // next test runs, that test failures should be fixed and that KUnit is explicitly // documented as not suitable for production environments, we feel it is reasonable. unsafe { $crate::bindings::__kunit_do_failed_assertion( kunit_test, core::ptr::addr_of!(LOCATION.0), $crate::bindings::kunit_assert_type_KUNIT_ASSERTION, core::ptr::addr_of!(ASSERTION.0.assert), Some($crate::bindings::kunit_unary_assert_format), core::ptr::null(), ); } // SAFETY: FFI call; the `test` pointer is valid because this hidden macro should only // be called by the generated documentation tests which forward the test pointer given // by KUnit. unsafe { $crate::bindings::__kunit_abort(kunit_test); } } }; } /// Asserts that two expressions are equal to each other (using [`PartialEq`]). /// /// Public but hidden since it should only be used from generated tests. /// /// Unlike the one in `core`, this one does not panic; instead, it is mapped to the KUnit /// facilities. See [`assert!`] for more details. #[doc(hidden)] #[macro_export] macro_rules! kunit_assert_eq { ($name:literal, $file:literal, $diff:expr, $left:expr, $right:expr $(,)?) => {{ // For the moment, we just forward to the expression assert because, for binary asserts, // KUnit supports only a few types (e.g. integers). $crate::kunit_assert!($name, $file, $diff, $left == $right); }}; } /// Represents an individual test case. /// /// The [`kunit_unsafe_test_suite!`] macro expects a NULL-terminated list of valid test cases. /// Use [`kunit_case_null`] to generate such a delimiter. #[doc(hidden)] pub const fn kunit_case( name: &'static kernel::str::CStr, run_case: unsafe extern "C" fn(*mut kernel::bindings::kunit), ) -> kernel::bindings::kunit_case { kernel::bindings::kunit_case { run_case: Some(run_case), name: name.as_char_ptr(), attr: kernel::bindings::kunit_attributes { speed: kernel::bindings::kunit_speed_KUNIT_SPEED_NORMAL, }, generate_params: None, status: kernel::bindings::kunit_status_KUNIT_SUCCESS, module_name: core::ptr::null_mut(), log: core::ptr::null_mut(), } } /// Represents the NULL test case delimiter. /// /// The [`kunit_unsafe_test_suite!`] macro expects a NULL-terminated list of test cases. This /// function returns such a delimiter. #[doc(hidden)] pub const fn kunit_case_null() -> kernel::bindings::kunit_case { kernel::bindings::kunit_case { run_case: None, name: core::ptr::null_mut(), generate_params: None, attr: kernel::bindings::kunit_attributes { speed: kernel::bindings::kunit_speed_KUNIT_SPEED_NORMAL, }, status: kernel::bindings::kunit_status_KUNIT_SUCCESS, module_name: core::ptr::null_mut(), log: core::ptr::null_mut(), } } /// Registers a KUnit test suite. /// /// # Safety /// /// `test_cases` must be a NULL terminated array of valid test cases, /// whose lifetime is at least that of the test suite (i.e., static). /// /// # Examples /// /// ```ignore /// extern "C" fn test_fn(_test: *mut kernel::bindings::kunit) { /// let actual = 1 + 1; /// let expected = 2; /// assert_eq!(actual, expected); /// } /// /// static mut KUNIT_TEST_CASES: [kernel::bindings::kunit_case; 2] = [ /// kernel::kunit::kunit_case(kernel::c_str!("name"), test_fn), /// kernel::kunit::kunit_case_null(), /// ]; /// kernel::kunit_unsafe_test_suite!(suite_name, KUNIT_TEST_CASES); /// ``` #[doc(hidden)] #[macro_export] macro_rules! kunit_unsafe_test_suite { ($name:ident, $test_cases:ident) => { const _: () = { const KUNIT_TEST_SUITE_NAME: [::kernel::ffi::c_char; 256] = { let name_u8 = ::core::stringify!($name).as_bytes(); let mut ret = [0; 256]; if name_u8.len() > 255 { panic!(concat!( "The test suite name `", ::core::stringify!($name), "` exceeds the maximum length of 255 bytes." )); } let mut i = 0; while i < name_u8.len() { ret[i] = name_u8[i] as ::kernel::ffi::c_char; i += 1; } ret }; static mut KUNIT_TEST_SUITE: ::kernel::bindings::kunit_suite = ::kernel::bindings::kunit_suite { name: KUNIT_TEST_SUITE_NAME, #[allow(unused_unsafe)] // SAFETY: `$test_cases` is passed in by the user, and // (as documented) must be valid for the lifetime of // the suite (i.e., static). test_cases: unsafe { ::core::ptr::addr_of_mut!($test_cases) .cast::<::kernel::bindings::kunit_case>() }, suite_init: None, suite_exit: None, init: None, exit: None, attr: ::kernel::bindings::kunit_attributes { speed: ::kernel::bindings::kunit_speed_KUNIT_SPEED_NORMAL, }, status_comment: [0; 256usize], debugfs: ::core::ptr::null_mut(), log: ::core::ptr::null_mut(), suite_init_err: 0, is_init: false, }; #[used] #[allow(unused_unsafe)] #[cfg_attr(not(target_os = "macos"), link_section = ".kunit_test_suites")] static mut KUNIT_TEST_SUITE_ENTRY: *const ::kernel::bindings::kunit_suite = // SAFETY: `KUNIT_TEST_SUITE` is static. unsafe { ::core::ptr::addr_of_mut!(KUNIT_TEST_SUITE) }; }; }; } /// Returns whether we are currently running a KUnit test. /// /// In some cases, you need to call test-only code from outside the test case, for example, to /// create a function mock. This function allows to change behavior depending on whether we are /// currently running a KUnit test or not. /// /// # Examples /// /// This example shows how a function can be mocked to return a well-known value while testing: /// /// ``` /// # use kernel::kunit::in_kunit_test; /// fn fn_mock_example(n: i32) -> i32 { /// if in_kunit_test() { /// return 100; /// } /// /// n + 1 /// } /// /// let mock_res = fn_mock_example(5); /// assert_eq!(mock_res, 100); /// ``` pub fn in_kunit_test() -> bool { // SAFETY: `kunit_get_current_test()` is always safe to call (it has fallbacks for // when KUnit is not enabled). !unsafe { bindings::kunit_get_current_test() }.is_null() } #[kunit_tests(rust_kernel_kunit)] mod tests { use super::*; #[test] fn rust_test_kunit_example_test() { #![expect(clippy::eq_op)] assert_eq!(1 + 1, 2); } #[test] fn rust_test_kunit_in_kunit_test() { assert!(in_kunit_test()); } }