rust/macros/module.rs - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0

 use crate::helpers::*;
 use proc_macro::{token_stream, Delimiter, Literal, TokenStream, TokenTree};
 use std::fmt::Write;

 fn expect_string_array(it: &mut token_stream::IntoIter) -> Vec<String> {
     let group = expect_group(it);
     assert_eq!(group.delimiter(), Delimiter::Bracket);
     let mut values = Vec::new();
     let mut it = group.stream().into_iter();

     while let Some(val) = try_string(&mut it) {
         assert!(val.is_ascii(), "Expected ASCII string");
         values.push(val);
         match it.next() {
             Some(TokenTree::Punct(punct)) => assert_eq!(punct.as_char(), ','),
             None => break,
             _ => panic!("Expected ',' or end of array"),
         }
     }
     values
 }

 struct ModInfoBuilder<'a> {
     module: &'a str,
     counter: usize,
     buffer: String,
 }

 impl<'a> ModInfoBuilder<'a> {
     fn new(module: &'a str) -> Self {
         ModInfoBuilder {
             module,
             counter: 0,
             buffer: String::new(),
         }
     }

     fn emit_base(&mut self, field: &str, content: &str, builtin: bool) {
         let string = if builtin {
             // Built-in modules prefix their modinfo strings by `module.`.
             format!(
                 "{module}.{field}={content}\0",
                 module = self.module,
                 field = field,
                 content = content
             )
         } else {
             // Loadable modules' modinfo strings go as-is.
             format!("{field}={content}\0", field = field, content = content)
         };

         write!(
             &mut self.buffer,
             "
                 {cfg}
                 #[doc(hidden)]
                 #[link_section = \".modinfo\"]
                 #[used]
                 pub static __{module}_{counter}: [u8; {length}] = *{string};
             ",
             cfg = if builtin {
                 "#[cfg(not(MODULE))]"
             } else {
                 "#[cfg(MODULE)]"
             },
             module = self.module.to_uppercase(),
             counter = self.counter,
             length = string.len(),
             string = Literal::byte_string(string.as_bytes()),
         )
         .unwrap();

         self.counter += 1;
     }

     fn emit_only_builtin(&mut self, field: &str, content: &str) {
         self.emit_base(field, content, true)
     }

     fn emit_only_loadable(&mut self, field: &str, content: &str) {
         self.emit_base(field, content, false)
     }

     fn emit(&mut self, field: &str, content: &str) {
         self.emit_only_builtin(field, content);
         self.emit_only_loadable(field, content);
     }
 }

 #[derive(Debug, Default)]
 struct ModuleInfo {
     type_: String,
     license: String,
     name: String,
     author: Option<String>,
     description: Option<String>,
     alias: Option<Vec<String>>,
     firmware: Option<Vec<String>>,
 }

 impl ModuleInfo {
     fn parse(it: &mut token_stream::IntoIter) -> Self {
         let mut info = ModuleInfo::default();

         const EXPECTED_KEYS: &[&str] = &[
             "type",
             "name",
             "author",
             "description",
             "license",
             "alias",
             "firmware",
         ];
         const REQUIRED_KEYS: &[&str] = &["type", "name", "license"];
         let mut seen_keys = Vec::new();

         loop {
             let key = match it.next() {
                 Some(TokenTree::Ident(ident)) => ident.to_string(),
                 Some(_) => panic!("Expected Ident or end"),
                 None => break,
             };

             if seen_keys.contains(&key) {
                 panic!(
                     "Duplicated key \"{}\". Keys can only be specified once.",
                     key
                 );
             }

             assert_eq!(expect_punct(it), ':');

             match key.as_str() {
                 "type" => info.type_ = expect_ident(it),
                 "name" => info.name = expect_string_ascii(it),
                 "author" => info.author = Some(expect_string(it)),
                 "description" => info.description = Some(expect_string(it)),
                 "license" => info.license = expect_string_ascii(it),
                 "alias" => info.alias = Some(expect_string_array(it)),
                 "firmware" => info.firmware = Some(expect_string_array(it)),
                 _ => panic!(
                     "Unknown key \"{}\". Valid keys are: {:?}.",
                     key, EXPECTED_KEYS
                 ),
             }

             assert_eq!(expect_punct(it), ',');

             seen_keys.push(key);
         }

         expect_end(it);

         for key in REQUIRED_KEYS {
             if !seen_keys.iter().any(|e| e == key) {
                 panic!("Missing required key \"{}\".", key);
             }
         }

         let mut ordered_keys: Vec<&str> = Vec::new();
         for key in EXPECTED_KEYS {
             if seen_keys.iter().any(|e| e == key) {
                 ordered_keys.push(key);
             }
         }

         if seen_keys != ordered_keys {
             panic!(
                 "Keys are not ordered as expected. Order them like: {:?}.",
                 ordered_keys
             );
         }

         info
     }
 }

 pub(crate) fn module(ts: TokenStream) -> TokenStream {
     let mut it = ts.into_iter();

     let info = ModuleInfo::parse(&mut it);

     let mut modinfo = ModInfoBuilder::new(info.name.as_ref());
     if let Some(author) = info.author {
         modinfo.emit("author", &author);
     }
     if let Some(description) = info.description {
         modinfo.emit("description", &description);
     }
     modinfo.emit("license", &info.license);
     if let Some(aliases) = info.alias {
         for alias in aliases {
             modinfo.emit("alias", &alias);
         }
     }
     if let Some(firmware) = info.firmware {
         for fw in firmware {
             modinfo.emit("firmware", &fw);
         }
     }

     // Built-in modules also export the `file` modinfo string.
     let file =
         std::env::var("RUST_MODFILE").expect("Unable to fetch RUST_MODFILE environmental variable");
     modinfo.emit_only_builtin("file", &file);

     format!(
         "
             /// The module name.
             ///
             /// Used by the printing macros, e.g. [`info!`].
             const __LOG_PREFIX: &[u8] = b\"{name}\\0\";

             // SAFETY: `__this_module` is constructed by the kernel at load time and will not be
             // freed until the module is unloaded.
             #[cfg(MODULE)]
             static THIS_MODULE: kernel::ThisModule = unsafe {{
                 extern \"C\" {{
                     static __this_module: kernel::types::Opaque<kernel::bindings::module>;
                 }}

                 kernel::ThisModule::from_ptr(__this_module.get())
             }};
             #[cfg(not(MODULE))]
             static THIS_MODULE: kernel::ThisModule = unsafe {{
                 kernel::ThisModule::from_ptr(core::ptr::null_mut())
             }};

             // Double nested modules, since then nobody can access the public items inside.
             mod __module_init {{
                 mod __module_init {{
                     use super::super::{type_};

                     /// The \"Rust loadable module\" mark.
                     //
                     // This may be best done another way later on, e.g. as a new modinfo
                     // key or a new section. For the moment, keep it simple.
                     #[cfg(MODULE)]
                     #[doc(hidden)]
                     #[used]
                     static __IS_RUST_MODULE: () = ();

                     static mut __MOD: Option<{type_}> = None;

                     // Loadable modules need to export the `{{init,cleanup}}_module` identifiers.
                     /// # Safety
                     ///
                     /// This function must not be called after module initialization, because it may be
                     /// freed after that completes.
                     #[cfg(MODULE)]
                     #[doc(hidden)]
                     #[no_mangle]
                     #[link_section = \".init.text\"]
                     pub unsafe extern \"C\" fn init_module() -> core::ffi::c_int {{
                         // SAFETY: This function is inaccessible to the outside due to the double
                         // module wrapping it. It is called exactly once by the C side via its
                         // unique name.
                         unsafe {{ __init() }}
                     }}

                     #[cfg(MODULE)]
                     #[doc(hidden)]
                     #[used]
                     #[link_section = \".init.data\"]
                     static __UNIQUE_ID___addressable_init_module: unsafe extern \"C\" fn() -> i32 = init_module;

                     #[cfg(MODULE)]
                     #[doc(hidden)]
                     #[no_mangle]
                     pub extern \"C\" fn cleanup_module() {{
                         // SAFETY:
                         // - This function is inaccessible to the outside due to the double
                         //   module wrapping it. It is called exactly once by the C side via its
                         //   unique name,
                         // - furthermore it is only called after `init_module` has returned `0`
                         //   (which delegates to `__init`).
                         unsafe {{ __exit() }}
                     }}

                     #[cfg(MODULE)]
                     #[doc(hidden)]
                     #[used]
                     #[link_section = \".exit.data\"]
                     static __UNIQUE_ID___addressable_cleanup_module: extern \"C\" fn() = cleanup_module;

                     // Built-in modules are initialized through an initcall pointer
                     // and the identifiers need to be unique.
                     #[cfg(not(MODULE))]
                     #[cfg(not(CONFIG_HAVE_ARCH_PREL32_RELOCATIONS))]
                     #[doc(hidden)]
                     #[link_section = \"{initcall_section}\"]
                     #[used]
                     pub static __{name}_initcall: extern \"C\" fn() -> core::ffi::c_int = __{name}_init;

                     #[cfg(not(MODULE))]
                     #[cfg(CONFIG_HAVE_ARCH_PREL32_RELOCATIONS)]
                     core::arch::global_asm!(
                         r#\".section \"{initcall_section}\", \"a\"
                         __{name}_initcall:
                             .long   __{name}_init - .
                             .previous
                         \"#
                     );

                     #[cfg(not(MODULE))]
                     #[doc(hidden)]
                     #[no_mangle]
                     pub extern \"C\" fn __{name}_init() -> core::ffi::c_int {{
                         // SAFETY: This function is inaccessible to the outside due to the double
                         // module wrapping it. It is called exactly once by the C side via its
                         // placement above in the initcall section.
                         unsafe {{ __init() }}
                     }}

                     #[cfg(not(MODULE))]
                     #[doc(hidden)]
                     #[no_mangle]
                     pub extern \"C\" fn __{name}_exit() {{
                         // SAFETY:
                         // - This function is inaccessible to the outside due to the double
                         //   module wrapping it. It is called exactly once by the C side via its
                         //   unique name,
                         // - furthermore it is only called after `__{name}_init` has returned `0`
                         //   (which delegates to `__init`).
                         unsafe {{ __exit() }}
                     }}

                     /// # Safety
                     ///
                     /// This function must only be called once.
                     unsafe fn __init() -> core::ffi::c_int {{
                         match <{type_} as kernel::Module>::init(&super::super::THIS_MODULE) {{
                             Ok(m) => {{
                                 // SAFETY: No data race, since `__MOD` can only be accessed by this
                                 // module and there only `__init` and `__exit` access it. These
                                 // functions are only called once and `__exit` cannot be called
                                 // before or during `__init`.
                                 unsafe {{
                                     __MOD = Some(m);
                                 }}
                                 return 0;
                             }}
                             Err(e) => {{
                                 return e.to_errno();
                             }}
                         }}
                     }}

                     /// # Safety
                     ///
                     /// This function must
                     /// - only be called once,
                     /// - be called after `__init` has been called and returned `0`.
                     unsafe fn __exit() {{
                         // SAFETY: No data race, since `__MOD` can only be accessed by this module
                         // and there only `__init` and `__exit` access it. These functions are only
                         // called once and `__init` was already called.
                         unsafe {{
                             // Invokes `drop()` on `__MOD`, which should be used for cleanup.
                             __MOD = None;
                         }}
                     }}

                     {modinfo}
                 }}
             }}
         ",
         type_ = info.type_,
         name = info.name,
         modinfo = modinfo.buffer,
         initcall_section = ".initcall6.init"
     )
     .parse()
     .expect("Error parsing formatted string into token stream.")
 }
	// SPDX-License-Identifier: GPL-2.0

	use crate::helpers::*;
	use proc_macro::{token_stream, Delimiter, Literal, TokenStream, TokenTree};
	use std::fmt::Write;

	fn expect_string_array(it: &mut token_stream::IntoIter) -> Vec<String> {
	let group = expect_group(it);
	assert_eq!(group.delimiter(), Delimiter::Bracket);
	let mut values = Vec::new();
	let mut it = group.stream().into_iter();

	while let Some(val) = try_string(&mut it) {
	assert!(val.is_ascii(), "Expected ASCII string");
	values.push(val);
	match it.next() {
	Some(TokenTree::Punct(punct)) => assert_eq!(punct.as_char(), ','),
	None => break,
	_ => panic!("Expected ',' or end of array"),
	}
	}
	values
	}

	struct ModInfoBuilder<'a> {
	module: &'a str,
	counter: usize,
	buffer: String,
	}

	impl<'a> ModInfoBuilder<'a> {
	fn new(module: &'a str) -> Self {
	ModInfoBuilder {
	module,
	counter: 0,
	buffer: String::new(),
	}
	}

	fn emit_base(&mut self, field: &str, content: &str, builtin: bool) {
	let string = if builtin {
	// Built-in modules prefix their modinfo strings by `module.`.
	format!(
	"{module}.{field}={content}\0",
	module = self.module,
	field = field,
	content = content
	)
	} else {
	// Loadable modules' modinfo strings go as-is.
	format!("{field}={content}\0", field = field, content = content)
	};

	write!(
	&mut self.buffer,
	"
	{cfg}
	#[doc(hidden)]
	#[link_section = \".modinfo\"]
	#[used]
	pub static __{module}_{counter}: [u8; {length}] = *{string};
	",
	cfg = if builtin {
	"#[cfg(not(MODULE))]"
	} else {
	"#[cfg(MODULE)]"
	},
	module = self.module.to_uppercase(),
	counter = self.counter,
	length = string.len(),
	string = Literal::byte_string(string.as_bytes()),
	)
	.unwrap();

	self.counter += 1;
	}

	fn emit_only_builtin(&mut self, field: &str, content: &str) {
	self.emit_base(field, content, true)
	}

	fn emit_only_loadable(&mut self, field: &str, content: &str) {
	self.emit_base(field, content, false)
	}

	fn emit(&mut self, field: &str, content: &str) {
	self.emit_only_builtin(field, content);
	self.emit_only_loadable(field, content);
	}
	}

	#[derive(Debug, Default)]
	struct ModuleInfo {
	type_: String,
	license: String,
	name: String,
	author: Option<String>,
	description: Option<String>,
	alias: Option<Vec<String>>,
	firmware: Option<Vec<String>>,
	}

	impl ModuleInfo {
	fn parse(it: &mut token_stream::IntoIter) -> Self {
	let mut info = ModuleInfo::default();

	const EXPECTED_KEYS: &[&str] = &[
	"type",
	"name",
	"author",
	"description",
	"license",
	"alias",
	"firmware",
	];
	const REQUIRED_KEYS: &[&str] = &["type", "name", "license"];
	let mut seen_keys = Vec::new();

	loop {
	let key = match it.next() {
	Some(TokenTree::Ident(ident)) => ident.to_string(),
	Some(_) => panic!("Expected Ident or end"),
	None => break,
	};

	if seen_keys.contains(&key) {
	panic!(
	"Duplicated key \"{}\". Keys can only be specified once.",
	key
	);
	}

	assert_eq!(expect_punct(it), ':');

	match key.as_str() {
	"type" => info.type_ = expect_ident(it),
	"name" => info.name = expect_string_ascii(it),
	"author" => info.author = Some(expect_string(it)),
	"description" => info.description = Some(expect_string(it)),
	"license" => info.license = expect_string_ascii(it),
	"alias" => info.alias = Some(expect_string_array(it)),
	"firmware" => info.firmware = Some(expect_string_array(it)),
	_ => panic!(
	"Unknown key \"{}\". Valid keys are: {:?}.",
	key, EXPECTED_KEYS
	),
	}

	assert_eq!(expect_punct(it), ',');

	seen_keys.push(key);
	}

	expect_end(it);

	for key in REQUIRED_KEYS {
	if !seen_keys.iter().any(\|e\| e == key) {
	panic!("Missing required key \"{}\".", key);
	}
	}

	let mut ordered_keys: Vec<&str> = Vec::new();
	for key in EXPECTED_KEYS {
	if seen_keys.iter().any(\|e\| e == key) {
	ordered_keys.push(key);
	}
	}

	if seen_keys != ordered_keys {
	panic!(
	"Keys are not ordered as expected. Order them like: {:?}.",
	ordered_keys
	);
	}

	info
	}
	}

	pub(crate) fn module(ts: TokenStream) -> TokenStream {
	let mut it = ts.into_iter();

	let info = ModuleInfo::parse(&mut it);

	let mut modinfo = ModInfoBuilder::new(info.name.as_ref());
	if let Some(author) = info.author {
	modinfo.emit("author", &author);
	}
	if let Some(description) = info.description {
	modinfo.emit("description", &description);
	}
	modinfo.emit("license", &info.license);
	if let Some(aliases) = info.alias {
	for alias in aliases {
	modinfo.emit("alias", &alias);
	}
	}
	if let Some(firmware) = info.firmware {
	for fw in firmware {
	modinfo.emit("firmware", &fw);
	}
	}

	// Built-in modules also export the `file` modinfo string.
	let file =
	std::env::var("RUST_MODFILE").expect("Unable to fetch RUST_MODFILE environmental variable");
	modinfo.emit_only_builtin("file", &file);

	format!(
	"
	/// The module name.
	///
	/// Used by the printing macros, e.g. [`info!`].
	const __LOG_PREFIX: &[u8] = b\"{name}\\0\";

	// SAFETY: `__this_module` is constructed by the kernel at load time and will not be
	// freed until the module is unloaded.
	#[cfg(MODULE)]
	static THIS_MODULE: kernel::ThisModule = unsafe {{
	extern \"C\" {{
	static __this_module: kernel::types::Opaque<kernel::bindings::module>;
	}}

	kernel::ThisModule::from_ptr(__this_module.get())
	}};
	#[cfg(not(MODULE))]
	static THIS_MODULE: kernel::ThisModule = unsafe {{
	kernel::ThisModule::from_ptr(core::ptr::null_mut())
	}};

	// Double nested modules, since then nobody can access the public items inside.
	mod __module_init {{
	mod __module_init {{
	use super::super::{type_};

	/// The \"Rust loadable module\" mark.
	//
	// This may be best done another way later on, e.g. as a new modinfo
	// key or a new section. For the moment, keep it simple.
	#[cfg(MODULE)]
	#[doc(hidden)]
	#[used]
	static __IS_RUST_MODULE: () = ();

	static mut __MOD: Option<{type_}> = None;

	// Loadable modules need to export the `{{init,cleanup}}_module` identifiers.
	/// # Safety
	///
	/// This function must not be called after module initialization, because it may be
	/// freed after that completes.
	#[cfg(MODULE)]
	#[doc(hidden)]
	#[no_mangle]
	#[link_section = \".init.text\"]
	pub unsafe extern \"C\" fn init_module() -> core::ffi::c_int {{
	// SAFETY: This function is inaccessible to the outside due to the double
	// module wrapping it. It is called exactly once by the C side via its
	// unique name.
	unsafe {{ __init() }}
	}}

	#[cfg(MODULE)]
	#[doc(hidden)]
	#[used]
	#[link_section = \".init.data\"]
	static __UNIQUE_ID___addressable_init_module: unsafe extern \"C\" fn() -> i32 = init_module;

	#[cfg(MODULE)]
	#[doc(hidden)]
	#[no_mangle]
	pub extern \"C\" fn cleanup_module() {{
	// SAFETY:
	// - This function is inaccessible to the outside due to the double
	// module wrapping it. It is called exactly once by the C side via its
	// unique name,
	// - furthermore it is only called after `init_module` has returned `0`
	// (which delegates to `__init`).
	unsafe {{ __exit() }}
	}}

	#[cfg(MODULE)]
	#[doc(hidden)]
	#[used]
	#[link_section = \".exit.data\"]
	static __UNIQUE_ID___addressable_cleanup_module: extern \"C\" fn() = cleanup_module;

	// Built-in modules are initialized through an initcall pointer
	// and the identifiers need to be unique.
	#[cfg(not(MODULE))]
	#[cfg(not(CONFIG_HAVE_ARCH_PREL32_RELOCATIONS))]
	#[doc(hidden)]
	#[link_section = \"{initcall_section}\"]
	#[used]
	pub static __{name}_initcall: extern \"C\" fn() -> core::ffi::c_int = __{name}_init;

	#[cfg(not(MODULE))]
	#[cfg(CONFIG_HAVE_ARCH_PREL32_RELOCATIONS)]
	core::arch::global_asm!(
	r#\".section \"{initcall_section}\", \"a\"
	__{name}_initcall:
	.long __{name}_init - .
	.previous
	\"#
	);

	#[cfg(not(MODULE))]
	#[doc(hidden)]
	#[no_mangle]
	pub extern \"C\" fn __{name}_init() -> core::ffi::c_int {{
	// SAFETY: This function is inaccessible to the outside due to the double
	// module wrapping it. It is called exactly once by the C side via its
	// placement above in the initcall section.
	unsafe {{ __init() }}
	}}

	#[cfg(not(MODULE))]
	#[doc(hidden)]
	#[no_mangle]
	pub extern \"C\" fn __{name}_exit() {{
	// SAFETY:
	// - This function is inaccessible to the outside due to the double
	// module wrapping it. It is called exactly once by the C side via its
	// unique name,
	// - furthermore it is only called after `__{name}_init` has returned `0`
	// (which delegates to `__init`).
	unsafe {{ __exit() }}
	}}

	/// # Safety
	///
	/// This function must only be called once.
	unsafe fn __init() -> core::ffi::c_int {{
	match <{type_} as kernel::Module>::init(&super::super::THIS_MODULE) {{
	Ok(m) => {{
	// SAFETY: No data race, since `__MOD` can only be accessed by this
	// module and there only `__init` and `__exit` access it. These
	// functions are only called once and `__exit` cannot be called
	// before or during `__init`.
	unsafe {{
	__MOD = Some(m);
	}}
	return 0;
	}}
	Err(e) => {{
	return e.to_errno();
	}}
	}}
	}}

	/// # Safety
	///
	/// This function must
	/// - only be called once,
	/// - be called after `__init` has been called and returned `0`.
	unsafe fn __exit() {{
	// SAFETY: No data race, since `__MOD` can only be accessed by this module
	// and there only `__init` and `__exit` access it. These functions are only
	// called once and `__init` was already called.
	unsafe {{
	// Invokes `drop()` on `__MOD`, which should be used for cleanup.
	__MOD = None;
	}}
	}}

	{modinfo}
	}}
	}}
	",
	type_ = info.type_,
	name = info.name,
	modinfo = modinfo.buffer,
	initcall_section = ".initcall6.init"
	)
	.parse()
	.expect("Error parsing formatted string into token stream.")
	}