scripts/rustdoc_test_gen.rs - linux/kernel/git/will/linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0

 //! Generates KUnit tests from saved `rustdoc`-generated tests.
 //!
 //! KUnit passes a context (`struct kunit *`) to each test, which should be forwarded to the other
 //! KUnit functions and macros.
 //!
 //! However, we want to keep this as an implementation detail because:
 //!
 //!   - Test code should not care about the implementation.
 //!
 //!   - Documentation looks worse if it needs to carry extra details unrelated to the piece
 //!     being described.
 //!
 //!   - Test code should be able to define functions and call them, without having to carry
 //!     the context.
 //!
 //!   - Later on, we may want to be able to test non-kernel code (e.g. `core`, `alloc` or
 //!     third-party crates) which likely use the standard library `assert*!` macros.
 //!
 //! For this reason, instead of the passed context, `kunit_get_current_test()` is used instead
 //! (i.e. `current->kunit_test`).
 //!
 //! Note that this means other threads/tasks potentially spawned by a given test, if failing, will
 //! report the failure in the kernel log but will not fail the actual test. Saving the pointer in
 //! e.g. a `static` per test does not fully solve the issue either, because currently KUnit does
 //! not support assertions (only expectations) from other tasks. Thus leave that feature for
 //! the future, which simplifies the code here too. We could also simply not allow `assert`s in
 //! other tasks, but that seems overly constraining, and we do want to support them, eventually.

 use std::{
     fs,
     fs::File,
     io::{BufWriter, Read, Write},
     path::{Path, PathBuf},
 };

 /// Find the real path to the original file based on the `file` portion of the test name.
 ///
 /// `rustdoc` generated `file`s look like `sync_locked_by_rs`. Underscores (except the last one)
 /// may represent an actual underscore in a directory/file, or a path separator. Thus the actual
 /// file might be `sync_locked_by.rs`, `sync/locked_by.rs`, `sync_locked/by.rs` or
 /// `sync/locked/by.rs`. This function walks the file system to determine which is the real one.
 ///
 /// This does require that ambiguities do not exist, but that seems fair, especially since this is
 /// all supposed to be temporary until `rustdoc` gives us proper metadata to build this. If such
 /// ambiguities are detected, they are diagnosed and the script panics.
 fn find_real_path<'a>(srctree: &Path, valid_paths: &'a mut Vec<PathBuf>, file: &str) -> &'a str {
     valid_paths.clear();

     let potential_components: Vec<&str> = file.strip_suffix("_rs").unwrap().split('_').collect();

     find_candidates(srctree, valid_paths, Path::new(""), &potential_components);
     fn find_candidates(
         srctree: &Path,
         valid_paths: &mut Vec<PathBuf>,
         prefix: &Path,
         potential_components: &[&str],
     ) {
         // The base case: check whether all the potential components left, joined by underscores,
         // is a file.
         let joined_potential_components = potential_components.join("_") + ".rs";
         if srctree
             .join("rust/kernel")
             .join(prefix)
             .join(&joined_potential_components)
             .is_file()
         {
             // Avoid `srctree` here in order to keep paths relative to it in the KTAP output.
             valid_paths.push(
                 Path::new("rust/kernel")
                     .join(prefix)
                     .join(joined_potential_components),
             );
         }

         // In addition, check whether each component prefix, joined by underscores, is a directory.
         // If not, there is no need to check for combinations with that prefix.
         for i in 1..potential_components.len() {
             let (components_prefix, components_rest) = potential_components.split_at(i);
             let prefix = prefix.join(components_prefix.join("_"));
             if srctree.join("rust/kernel").join(&prefix).is_dir() {
                 find_candidates(srctree, valid_paths, &prefix, components_rest);
             }
         }
     }

     assert!(
         valid_paths.len() > 0,
         "No path candidates found. This is likely a bug in the build system, or some files went \
         away while compiling."
     );

     if valid_paths.len() > 1 {
         eprintln!("Several path candidates found:");
         for path in valid_paths {
             eprintln!("    {path:?}");
         }
         panic!(
             "Several path candidates found, please resolve the ambiguity by renaming a file or \
             folder."
         );
     }

     valid_paths[0].to_str().unwrap()
 }

 fn main() {
     let srctree = std::env::var("srctree").unwrap();
     let srctree = Path::new(&srctree);

     let mut paths = fs::read_dir("rust/test/doctests/kernel")
         .unwrap()
         .map(|entry| entry.unwrap().path())
         .collect::<Vec<_>>();

     // Sort paths.
     paths.sort();

     let mut rust_tests = String::new();
     let mut c_test_declarations = String::new();
     let mut c_test_cases = String::new();
     let mut body = String::new();
     let mut last_file = String::new();
     let mut number = 0;
     let mut valid_paths: Vec<PathBuf> = Vec::new();
     let mut real_path: &str = "";
     for path in paths {
         // The `name` follows the `{file}_{line}_{number}` pattern (see description in
         // `scripts/rustdoc_test_builder.rs`). Discard the `number`.
         let name = path.file_name().unwrap().to_str().unwrap().to_string();

         // Extract the `file` and the `line`, discarding the `number`.
         let (file, line) = name.rsplit_once('_').unwrap().0.rsplit_once('_').unwrap();

         // Generate an ID sequence ("test number") for each one in the file.
         if file == last_file {
             number += 1;
         } else {
             number = 0;
             last_file = file.to_string();

             // Figure out the real path, only once per file.
             real_path = find_real_path(srctree, &mut valid_paths, file);
         }

         // Generate a KUnit name (i.e. test name and C symbol) for this test.
         //
         // We avoid the line number, like `rustdoc` does, to make things slightly more stable for
         // bisection purposes. However, to aid developers in mapping back what test failed, we will
         // print a diagnostics line in the KTAP report.
         let kunit_name = format!("rust_doctest_kernel_{file}_{number}");

         // Read the test's text contents to dump it below.
         body.clear();
         File::open(path).unwrap().read_to_string(&mut body).unwrap();

         // Calculate how many lines before `main` function (including the `main` function line).
         let body_offset = body
             .lines()
             .take_while(|line| !line.contains("fn main() {"))
             .count()
             + 1;

         use std::fmt::Write;
         write!(
             rust_tests,
             r#"/// Generated `{name}` KUnit test case from a Rust documentation test.
 #[no_mangle]
 pub extern "C" fn {kunit_name}(__kunit_test: *mut kernel::bindings::kunit) {{
     /// Overrides the usual [`assert!`] macro with one that calls KUnit instead.
     #[allow(unused)]
     macro_rules! assert {{
         ($cond:expr $(,)?) => {{{{
             kernel::kunit_assert!("{kunit_name}", "{real_path}", __DOCTEST_ANCHOR - {line}, $cond);
         }}}}
     }}

     /// Overrides the usual [`assert_eq!`] macro with one that calls KUnit instead.
     #[allow(unused)]
     macro_rules! assert_eq {{
         ($left:expr, $right:expr $(,)?) => {{{{
             kernel::kunit_assert_eq!("{kunit_name}", "{real_path}", __DOCTEST_ANCHOR - {line}, $left, $right);
         }}}}
     }}

     // Many tests need the prelude, so provide it by default.
     #[allow(unused)]
     use kernel::prelude::*;

     // Unconditionally print the location of the original doctest (i.e. rather than the location in
     // the generated file) so that developers can easily map the test back to the source code.
     //
     // This information is also printed when assertions fail, but this helps in the successful cases
     // when the user is running KUnit manually, or when passing `--raw_output` to `kunit.py`.
     //
     // This follows the syntax for declaring test metadata in the proposed KTAP v2 spec, which may
     // be used for the proposed KUnit test attributes API. Thus hopefully this will make migration
     // easier later on.
     kernel::kunit::info(format_args!("    # {kunit_name}.location: {real_path}:{line}\n"));

     /// The anchor where the test code body starts.
     #[allow(unused)]
     static __DOCTEST_ANCHOR: i32 = core::line!() as i32 + {body_offset} + 1;
     {{
         {body}
         main();
     }}
 }}

 "#
         )
         .unwrap();

         write!(c_test_declarations, "void {kunit_name}(struct kunit *);\n").unwrap();
         write!(c_test_cases, "    KUNIT_CASE({kunit_name}),\n").unwrap();
     }

     let rust_tests = rust_tests.trim();
     let c_test_declarations = c_test_declarations.trim();
     let c_test_cases = c_test_cases.trim();

     write!(
         BufWriter::new(File::create("rust/doctests_kernel_generated.rs").unwrap()),
         r#"//! `kernel` crate documentation tests.

 const __LOG_PREFIX: &[u8] = b"rust_doctests_kernel\0";

 {rust_tests}
 "#
     )
     .unwrap();

     write!(
         BufWriter::new(File::create("rust/doctests_kernel_generated_kunit.c").unwrap()),
         r#"/*
  * `kernel` crate documentation tests.
  */

 #include <kunit/test.h>

 {c_test_declarations}

 static struct kunit_case test_cases[] = {{
     {c_test_cases}
     {{ }}
 }};

 static struct kunit_suite test_suite = {{
     .name = "rust_doctests_kernel",
     .test_cases = test_cases,
 }};

 kunit_test_suite(test_suite);

 MODULE_LICENSE("GPL");
 "#
     )
     .unwrap();
 }
	// SPDX-License-Identifier: GPL-2.0

	//! Generates KUnit tests from saved `rustdoc`-generated tests.
	//!
	//! KUnit passes a context (`struct kunit *`) to each test, which should be forwarded to the other
	//! KUnit functions and macros.
	//!
	//! However, we want to keep this as an implementation detail because:
	//!
	//! - Test code should not care about the implementation.
	//!
	//! - Documentation looks worse if it needs to carry extra details unrelated to the piece
	//! being described.
	//!
	//! - Test code should be able to define functions and call them, without having to carry
	//! the context.
	//!
	//! - Later on, we may want to be able to test non-kernel code (e.g. `core`, `alloc` or
	//! third-party crates) which likely use the standard library `assert*!` macros.
	//!
	//! For this reason, instead of the passed context, `kunit_get_current_test()` is used instead
	//! (i.e. `current->kunit_test`).
	//!
	//! Note that this means other threads/tasks potentially spawned by a given test, if failing, will
	//! report the failure in the kernel log but will not fail the actual test. Saving the pointer in
	//! e.g. a `static` per test does not fully solve the issue either, because currently KUnit does
	//! not support assertions (only expectations) from other tasks. Thus leave that feature for
	//! the future, which simplifies the code here too. We could also simply not allow `assert`s in
	//! other tasks, but that seems overly constraining, and we do want to support them, eventually.

	use std::{
	fs,
	fs::File,
	io::{BufWriter, Read, Write},
	path::{Path, PathBuf},
	};

	/// Find the real path to the original file based on the `file` portion of the test name.
	///
	/// `rustdoc` generated `file`s look like `sync_locked_by_rs`. Underscores (except the last one)
	/// may represent an actual underscore in a directory/file, or a path separator. Thus the actual
	/// file might be `sync_locked_by.rs`, `sync/locked_by.rs`, `sync_locked/by.rs` or
	/// `sync/locked/by.rs`. This function walks the file system to determine which is the real one.
	///
	/// This does require that ambiguities do not exist, but that seems fair, especially since this is
	/// all supposed to be temporary until `rustdoc` gives us proper metadata to build this. If such
	/// ambiguities are detected, they are diagnosed and the script panics.
	fn find_real_path<'a>(srctree: &Path, valid_paths: &'a mut Vec<PathBuf>, file: &str) -> &'a str {
	valid_paths.clear();

	let potential_components: Vec<&str> = file.strip_suffix("_rs").unwrap().split('_').collect();

	find_candidates(srctree, valid_paths, Path::new(""), &potential_components);
	fn find_candidates(
	srctree: &Path,
	valid_paths: &mut Vec<PathBuf>,
	prefix: &Path,
	potential_components: &[&str],
	) {
	// The base case: check whether all the potential components left, joined by underscores,
	// is a file.
	let joined_potential_components = potential_components.join("_") + ".rs";
	if srctree
	.join("rust/kernel")
	.join(prefix)
	.join(&joined_potential_components)
	.is_file()
	{
	// Avoid `srctree` here in order to keep paths relative to it in the KTAP output.
	valid_paths.push(
	Path::new("rust/kernel")
	.join(prefix)
	.join(joined_potential_components),
	);
	}

	// In addition, check whether each component prefix, joined by underscores, is a directory.
	// If not, there is no need to check for combinations with that prefix.
	for i in 1..potential_components.len() {
	let (components_prefix, components_rest) = potential_components.split_at(i);
	let prefix = prefix.join(components_prefix.join("_"));
	if srctree.join("rust/kernel").join(&prefix).is_dir() {
	find_candidates(srctree, valid_paths, &prefix, components_rest);
	}
	}
	}

	assert!(
	valid_paths.len() > 0,
	"No path candidates found. This is likely a bug in the build system, or some files went \
	away while compiling."
	);

	if valid_paths.len() > 1 {
	eprintln!("Several path candidates found:");
	for path in valid_paths {
	eprintln!(" {path:?}");
	}
	panic!(
	"Several path candidates found, please resolve the ambiguity by renaming a file or \
	folder."
	);
	}

	valid_paths[0].to_str().unwrap()
	}

	fn main() {
	let srctree = std::env::var("srctree").unwrap();
	let srctree = Path::new(&srctree);

	let mut paths = fs::read_dir("rust/test/doctests/kernel")
	.unwrap()
	.map(\|entry\| entry.unwrap().path())
	.collect::<Vec<_>>();

	// Sort paths.
	paths.sort();

	let mut rust_tests = String::new();
	let mut c_test_declarations = String::new();
	let mut c_test_cases = String::new();
	let mut body = String::new();
	let mut last_file = String::new();
	let mut number = 0;
	let mut valid_paths: Vec<PathBuf> = Vec::new();
	let mut real_path: &str = "";
	for path in paths {
	// The `name` follows the `{file}_{line}_{number}` pattern (see description in
	// `scripts/rustdoc_test_builder.rs`). Discard the `number`.
	let name = path.file_name().unwrap().to_str().unwrap().to_string();

	// Extract the `file` and the `line`, discarding the `number`.
	let (file, line) = name.rsplit_once('_').unwrap().0.rsplit_once('_').unwrap();

	// Generate an ID sequence ("test number") for each one in the file.
	if file == last_file {
	number += 1;
	} else {
	number = 0;
	last_file = file.to_string();

	// Figure out the real path, only once per file.
	real_path = find_real_path(srctree, &mut valid_paths, file);
	}

	// Generate a KUnit name (i.e. test name and C symbol) for this test.
	//
	// We avoid the line number, like `rustdoc` does, to make things slightly more stable for
	// bisection purposes. However, to aid developers in mapping back what test failed, we will
	// print a diagnostics line in the KTAP report.
	let kunit_name = format!("rust_doctest_kernel_{file}_{number}");

	// Read the test's text contents to dump it below.
	body.clear();
	File::open(path).unwrap().read_to_string(&mut body).unwrap();

	// Calculate how many lines before `main` function (including the `main` function line).
	let body_offset = body
	.lines()
	.take_while(\|line\| !line.contains("fn main() {"))
	.count()
	+ 1;

	use std::fmt::Write;
	write!(
	rust_tests,
	r#"/// Generated `{name}` KUnit test case from a Rust documentation test.
	#[no_mangle]
	pub extern "C" fn {kunit_name}(__kunit_test: *mut kernel::bindings::kunit) {{
	/// Overrides the usual [`assert!`] macro with one that calls KUnit instead.
	#[allow(unused)]
	macro_rules! assert {{
	($cond:expr $(,)?) => {{{{
	kernel::kunit_assert!("{kunit_name}", "{real_path}", __DOCTEST_ANCHOR - {line}, $cond);
	}}}}
	}}

	/// Overrides the usual [`assert_eq!`] macro with one that calls KUnit instead.
	#[allow(unused)]
	macro_rules! assert_eq {{
	($left:expr, $right:expr $(,)?) => {{{{
	kernel::kunit_assert_eq!("{kunit_name}", "{real_path}", __DOCTEST_ANCHOR - {line}, $left, $right);
	}}}}
	}}

	// Many tests need the prelude, so provide it by default.
	#[allow(unused)]
	use kernel::prelude::*;

	// Unconditionally print the location of the original doctest (i.e. rather than the location in
	// the generated file) so that developers can easily map the test back to the source code.
	//
	// This information is also printed when assertions fail, but this helps in the successful cases
	// when the user is running KUnit manually, or when passing `--raw_output` to `kunit.py`.
	//
	// This follows the syntax for declaring test metadata in the proposed KTAP v2 spec, which may
	// be used for the proposed KUnit test attributes API. Thus hopefully this will make migration
	// easier later on.
	kernel::kunit::info(format_args!(" # {kunit_name}.location: {real_path}:{line}\n"));

	/// The anchor where the test code body starts.
	#[allow(unused)]
	static __DOCTEST_ANCHOR: i32 = core::line!() as i32 + {body_offset} + 1;
	{{
	{body}
	main();
	}}
	}}

	"#
	)
	.unwrap();

	write!(c_test_declarations, "void {kunit_name}(struct kunit *);\n").unwrap();
	write!(c_test_cases, " KUNIT_CASE({kunit_name}),\n").unwrap();
	}

	let rust_tests = rust_tests.trim();
	let c_test_declarations = c_test_declarations.trim();
	let c_test_cases = c_test_cases.trim();

	write!(
	BufWriter::new(File::create("rust/doctests_kernel_generated.rs").unwrap()),
	r#"//! `kernel` crate documentation tests.

	const __LOG_PREFIX: &[u8] = b"rust_doctests_kernel\0";

	{rust_tests}
	"#
	)
	.unwrap();

	write!(
	BufWriter::new(File::create("rust/doctests_kernel_generated_kunit.c").unwrap()),
	r#"/*
	* `kernel` crate documentation tests.
	*/

	#include <kunit/test.h>

	{c_test_declarations}

	static struct kunit_case test_cases[] = {{
	{c_test_cases}
	{{ }}
	}};

	static struct kunit_suite test_suite = {{
	.name = "rust_doctests_kernel",
	.test_cases = test_cases,
	}};

	kunit_test_suite(test_suite);

	MODULE_LICENSE("GPL");
	"#
	)
	.unwrap();
	}