rust/kernel/debugfs/file_ops.rs - linux - Git at Google

 // SPDX-License-Identifier: GPL-2.0
 // Copyright (C) 2025 Google LLC.

 use super::{Reader, Writer};
 use crate::debugfs::callback_adapters::Adapter;
 use crate::prelude::*;
 use crate::seq_file::SeqFile;
 use crate::seq_print;
 use crate::uaccess::UserSlice;
 use core::fmt::{Display, Formatter, Result};
 use core::marker::PhantomData;

 #[cfg(CONFIG_DEBUG_FS)]
 use core::ops::Deref;

 /// # Invariant
 ///
 /// `FileOps<T>` will always contain an `operations` which is safe to use for a file backed
 /// off an inode which has a pointer to a `T` in its private data that is safe to convert
 /// into a reference.
 pub(super) struct FileOps<T> {
     #[cfg(CONFIG_DEBUG_FS)]
     operations: bindings::file_operations,
     #[cfg(CONFIG_DEBUG_FS)]
     mode: u16,
     _phantom: PhantomData<T>,
 }

 impl<T> FileOps<T> {
     /// # Safety
     ///
     /// The caller asserts that the provided `operations` is safe to use for a file whose
     /// inode has a pointer to `T` in its private data that is safe to convert into a reference.
     const unsafe fn new(operations: bindings::file_operations, mode: u16) -> Self {
         Self {
             #[cfg(CONFIG_DEBUG_FS)]
             operations,
             #[cfg(CONFIG_DEBUG_FS)]
             mode,
             _phantom: PhantomData,
         }
     }

     #[cfg(CONFIG_DEBUG_FS)]
     pub(crate) const fn mode(&self) -> u16 {
         self.mode
     }
 }

 impl<T: Adapter> FileOps<T> {
     pub(super) const fn adapt(&self) -> &FileOps<T::Inner> {
         // SAFETY: `Adapter` asserts that `T` can be legally cast to `T::Inner`.
         unsafe { core::mem::transmute(self) }
     }
 }

 #[cfg(CONFIG_DEBUG_FS)]
 impl<T> Deref for FileOps<T> {
     type Target = bindings::file_operations;

     fn deref(&self) -> &Self::Target {
         &self.operations
     }
 }

 struct WriterAdapter<T>(T);

 impl<'a, T: Writer> Display for WriterAdapter<&'a T> {
     fn fmt(&self, f: &mut Formatter<'_>) -> Result {
         self.0.write(f)
     }
 }

 /// Implements `open` for `file_operations` via `single_open` to fill out a `seq_file`.
 ///
 /// # Safety
 ///
 /// * `inode`'s private pointer must point to a value of type `T` which will outlive the `inode`
 ///   and will not have any unique references alias it during the call.
 /// * `file` must point to a live, not-yet-initialized file object.
 unsafe extern "C" fn writer_open<T: Writer + Sync>(
     inode: *mut bindings::inode,
     file: *mut bindings::file,
 ) -> c_int {
     // SAFETY: The caller ensures that `inode` is a valid pointer.
     let data = unsafe { (*inode).i_private };
     // SAFETY:
     // * `file` is acceptable by caller precondition.
     // * `print_act` will be called on a `seq_file` with private data set to the third argument,
     //   so we meet its safety requirements.
     // * The `data` pointer passed in the third argument is a valid `T` pointer that outlives
     //   this call by caller preconditions.
     unsafe { bindings::single_open(file, Some(writer_act::<T>), data) }
 }

 /// Prints private data stashed in a seq_file to that seq file.
 ///
 /// # Safety
 ///
 /// `seq` must point to a live `seq_file` whose private data is a valid pointer to a `T` which may
 /// not have any unique references alias it during the call.
 unsafe extern "C" fn writer_act<T: Writer + Sync>(
     seq: *mut bindings::seq_file,
     _: *mut c_void,
 ) -> c_int {
     // SAFETY: By caller precondition, this pointer is valid pointer to a `T`, and
     // there are not and will not be any unique references until we are done.
     let data = unsafe { &*((*seq).private.cast::<T>()) };
     // SAFETY: By caller precondition, `seq_file` points to a live `seq_file`, so we can lift
     // it.
     let seq_file = unsafe { SeqFile::from_raw(seq) };
     seq_print!(seq_file, "{}", WriterAdapter(data));
     0
 }

 // Work around lack of generic const items.
 pub(crate) trait ReadFile<T> {
     const FILE_OPS: FileOps<T>;
 }

 impl<T: Writer + Sync> ReadFile<T> for T {
     const FILE_OPS: FileOps<T> = {
         let operations = bindings::file_operations {
             read: Some(bindings::seq_read),
             llseek: Some(bindings::seq_lseek),
             release: Some(bindings::single_release),
             open: Some(writer_open::<Self>),
             // SAFETY: `file_operations` supports zeroes in all fields.
             ..unsafe { core::mem::zeroed() }
         };
         // SAFETY: `operations` is all stock `seq_file` implementations except for `writer_open`.
         // `open`'s only requirement beyond what is provided to all open functions is that the
         // inode's data pointer must point to a `T` that will outlive it, which matches the
         // `FileOps` requirements.
         unsafe { FileOps::new(operations, 0o400) }
     };
 }

 fn read<T: Reader + Sync>(data: &T, buf: *const c_char, count: usize) -> isize {
     let mut reader = UserSlice::new(UserPtr::from_ptr(buf as *mut c_void), count).reader();

     if let Err(e) = data.read_from_slice(&mut reader) {
         return e.to_errno() as isize;
     }

     count as isize
 }

 /// # Safety
 ///
 /// `file` must be a valid pointer to a `file` struct.
 /// The `private_data` of the file must contain a valid pointer to a `seq_file` whose
 /// `private` data in turn points to a `T` that implements `Reader`.
 /// `buf` must be a valid user-space buffer.
 pub(crate) unsafe extern "C" fn write<T: Reader + Sync>(
     file: *mut bindings::file,
     buf: *const c_char,
     count: usize,
     _ppos: *mut bindings::loff_t,
 ) -> isize {
     // SAFETY: The file was opened with `single_open`, which sets `private_data` to a `seq_file`.
     let seq = unsafe { &mut *((*file).private_data.cast::<bindings::seq_file>()) };
     // SAFETY: By caller precondition, this pointer is live and points to a value of type `T`.
     let data = unsafe { &*(seq.private as *const T) };
     read(data, buf, count)
 }

 // A trait to get the file operations for a type.
 pub(crate) trait ReadWriteFile<T> {
     const FILE_OPS: FileOps<T>;
 }

 impl<T: Writer + Reader + Sync> ReadWriteFile<T> for T {
     const FILE_OPS: FileOps<T> = {
         let operations = bindings::file_operations {
             open: Some(writer_open::<T>),
             read: Some(bindings::seq_read),
             write: Some(write::<T>),
             llseek: Some(bindings::seq_lseek),
             release: Some(bindings::single_release),
             // SAFETY: `file_operations` supports zeroes in all fields.
             ..unsafe { core::mem::zeroed() }
         };
         // SAFETY: `operations` is all stock `seq_file` implementations except for `writer_open`
         // and `write`.
         // `writer_open`'s only requirement beyond what is provided to all open functions is that
         // the inode's data pointer must point to a `T` that will outlive it, which matches the
         // `FileOps` requirements.
         // `write` only requires that the file's private data pointer points to `seq_file`
         // which points to a `T` that will outlive it, which matches what `writer_open`
         // provides.
         unsafe { FileOps::new(operations, 0o600) }
     };
 }

 /// # Safety
 ///
 /// `inode` must be a valid pointer to an `inode` struct.
 /// `file` must be a valid pointer to a `file` struct.
 unsafe extern "C" fn write_only_open(
     inode: *mut bindings::inode,
     file: *mut bindings::file,
 ) -> c_int {
     // SAFETY: The caller ensures that `inode` and `file` are valid pointers.
     unsafe { (*file).private_data = (*inode).i_private };
     0
 }

 /// # Safety
 ///
 /// * `file` must be a valid pointer to a `file` struct.
 /// * The `private_data` of the file must contain a valid pointer to a `T` that implements
 ///   `Reader`.
 /// * `buf` must be a valid user-space buffer.
 pub(crate) unsafe extern "C" fn write_only_write<T: Reader + Sync>(
     file: *mut bindings::file,
     buf: *const c_char,
     count: usize,
     _ppos: *mut bindings::loff_t,
 ) -> isize {
     // SAFETY: The caller ensures that `file` is a valid pointer and that `private_data` holds a
     // valid pointer to `T`.
     let data = unsafe { &*((*file).private_data as *const T) };
     read(data, buf, count)
 }

 pub(crate) trait WriteFile<T> {
     const FILE_OPS: FileOps<T>;
 }

 impl<T: Reader + Sync> WriteFile<T> for T {
     const FILE_OPS: FileOps<T> = {
         let operations = bindings::file_operations {
             open: Some(write_only_open),
             write: Some(write_only_write::<T>),
             llseek: Some(bindings::noop_llseek),
             // SAFETY: `file_operations` supports zeroes in all fields.
             ..unsafe { core::mem::zeroed() }
         };
         // SAFETY:
         // * `write_only_open` populates the file private data with the inode private data
         // * `write_only_write`'s only requirement is that the private data of the file point to
         //   a `T` and be legal to convert to a shared reference, which `write_only_open`
         //   satisfies.
         unsafe { FileOps::new(operations, 0o200) }
     };
 }
	// SPDX-License-Identifier: GPL-2.0
	// Copyright (C) 2025 Google LLC.

	use super::{Reader, Writer};
	use crate::debugfs::callback_adapters::Adapter;
	use crate::prelude::*;
	use crate::seq_file::SeqFile;
	use crate::seq_print;
	use crate::uaccess::UserSlice;
	use core::fmt::{Display, Formatter, Result};
	use core::marker::PhantomData;

	#[cfg(CONFIG_DEBUG_FS)]
	use core::ops::Deref;

	/// # Invariant
	///
	/// `FileOps<T>` will always contain an `operations` which is safe to use for a file backed
	/// off an inode which has a pointer to a `T` in its private data that is safe to convert
	/// into a reference.
	pub(super) struct FileOps<T> {
	#[cfg(CONFIG_DEBUG_FS)]
	operations: bindings::file_operations,
	#[cfg(CONFIG_DEBUG_FS)]
	mode: u16,
	_phantom: PhantomData<T>,
	}

	impl<T> FileOps<T> {
	/// # Safety
	///
	/// The caller asserts that the provided `operations` is safe to use for a file whose
	/// inode has a pointer to `T` in its private data that is safe to convert into a reference.
	const unsafe fn new(operations: bindings::file_operations, mode: u16) -> Self {
	Self {
	#[cfg(CONFIG_DEBUG_FS)]
	operations,
	#[cfg(CONFIG_DEBUG_FS)]
	mode,
	_phantom: PhantomData,
	}
	}

	#[cfg(CONFIG_DEBUG_FS)]
	pub(crate) const fn mode(&self) -> u16 {
	self.mode
	}
	}

	impl<T: Adapter> FileOps<T> {
	pub(super) const fn adapt(&self) -> &FileOps<T::Inner> {
	// SAFETY: `Adapter` asserts that `T` can be legally cast to `T::Inner`.
	unsafe { core::mem::transmute(self) }
	}
	}

	#[cfg(CONFIG_DEBUG_FS)]
	impl<T> Deref for FileOps<T> {
	type Target = bindings::file_operations;

	fn deref(&self) -> &Self::Target {
	&self.operations
	}
	}

	struct WriterAdapter<T>(T);

	impl<'a, T: Writer> Display for WriterAdapter<&'a T> {
	fn fmt(&self, f: &mut Formatter<'_>) -> Result {
	self.0.write(f)
	}
	}

	/// Implements `open` for `file_operations` via `single_open` to fill out a `seq_file`.
	///
	/// # Safety
	///
	/// * `inode`'s private pointer must point to a value of type `T` which will outlive the `inode`
	/// and will not have any unique references alias it during the call.
	/// * `file` must point to a live, not-yet-initialized file object.
	unsafe extern "C" fn writer_open<T: Writer + Sync>(
	inode: *mut bindings::inode,
	file: *mut bindings::file,
	) -> c_int {
	// SAFETY: The caller ensures that `inode` is a valid pointer.
	let data = unsafe { (*inode).i_private };
	// SAFETY:
	// * `file` is acceptable by caller precondition.
	// * `print_act` will be called on a `seq_file` with private data set to the third argument,
	// so we meet its safety requirements.
	// * The `data` pointer passed in the third argument is a valid `T` pointer that outlives
	// this call by caller preconditions.
	unsafe { bindings::single_open(file, Some(writer_act::<T>), data) }
	}

	/// Prints private data stashed in a seq_file to that seq file.
	///
	/// # Safety
	///
	/// `seq` must point to a live `seq_file` whose private data is a valid pointer to a `T` which may
	/// not have any unique references alias it during the call.
	unsafe extern "C" fn writer_act<T: Writer + Sync>(
	seq: *mut bindings::seq_file,
	_: *mut c_void,
	) -> c_int {
	// SAFETY: By caller precondition, this pointer is valid pointer to a `T`, and
	// there are not and will not be any unique references until we are done.
	let data = unsafe { &((seq).private.cast::<T>()) };
	// SAFETY: By caller precondition, `seq_file` points to a live `seq_file`, so we can lift
	// it.
	let seq_file = unsafe { SeqFile::from_raw(seq) };
	seq_print!(seq_file, "{}", WriterAdapter(data));
	0
	}

	// Work around lack of generic const items.
	pub(crate) trait ReadFile<T> {
	const FILE_OPS: FileOps<T>;
	}

	impl<T: Writer + Sync> ReadFile<T> for T {
	const FILE_OPS: FileOps<T> = {
	let operations = bindings::file_operations {
	read: Some(bindings::seq_read),
	llseek: Some(bindings::seq_lseek),
	release: Some(bindings::single_release),
	open: Some(writer_open::<Self>),
	// SAFETY: `file_operations` supports zeroes in all fields.
	..unsafe { core::mem::zeroed() }
	};
	// SAFETY: `operations` is all stock `seq_file` implementations except for `writer_open`.
	// `open`'s only requirement beyond what is provided to all open functions is that the
	// inode's data pointer must point to a `T` that will outlive it, which matches the
	// `FileOps` requirements.
	unsafe { FileOps::new(operations, 0o400) }
	};
	}

	fn read<T: Reader + Sync>(data: &T, buf: *const c_char, count: usize) -> isize {
	let mut reader = UserSlice::new(UserPtr::from_ptr(buf as *mut c_void), count).reader();

	if let Err(e) = data.read_from_slice(&mut reader) {
	return e.to_errno() as isize;
	}

	count as isize
	}

	/// # Safety
	///
	/// `file` must be a valid pointer to a `file` struct.
	/// The `private_data` of the file must contain a valid pointer to a `seq_file` whose
	/// `private` data in turn points to a `T` that implements `Reader`.
	/// `buf` must be a valid user-space buffer.
	pub(crate) unsafe extern "C" fn write<T: Reader + Sync>(
	file: *mut bindings::file,
	buf: *const c_char,
	count: usize,
	_ppos: *mut bindings::loff_t,
	) -> isize {
	// SAFETY: The file was opened with `single_open`, which sets `private_data` to a `seq_file`.
	let seq = unsafe { &mut ((file).private_data.cast::<bindings::seq_file>()) };
	// SAFETY: By caller precondition, this pointer is live and points to a value of type `T`.
	let data = unsafe { &(seq.private as const T) };
	read(data, buf, count)
	}

	// A trait to get the file operations for a type.
	pub(crate) trait ReadWriteFile<T> {
	const FILE_OPS: FileOps<T>;
	}

	impl<T: Writer + Reader + Sync> ReadWriteFile<T> for T {
	const FILE_OPS: FileOps<T> = {
	let operations = bindings::file_operations {
	open: Some(writer_open::<T>),
	read: Some(bindings::seq_read),
	write: Some(write::<T>),
	llseek: Some(bindings::seq_lseek),
	release: Some(bindings::single_release),
	// SAFETY: `file_operations` supports zeroes in all fields.
	..unsafe { core::mem::zeroed() }
	};
	// SAFETY: `operations` is all stock `seq_file` implementations except for `writer_open`
	// and `write`.
	// `writer_open`'s only requirement beyond what is provided to all open functions is that
	// the inode's data pointer must point to a `T` that will outlive it, which matches the
	// `FileOps` requirements.
	// `write` only requires that the file's private data pointer points to `seq_file`
	// which points to a `T` that will outlive it, which matches what `writer_open`
	// provides.
	unsafe { FileOps::new(operations, 0o600) }
	};
	}

	/// # Safety
	///
	/// `inode` must be a valid pointer to an `inode` struct.
	/// `file` must be a valid pointer to a `file` struct.
	unsafe extern "C" fn write_only_open(
	inode: *mut bindings::inode,
	file: *mut bindings::file,
	) -> c_int {
	// SAFETY: The caller ensures that `inode` and `file` are valid pointers.
	unsafe { (file).private_data = (inode).i_private };
	0
	}

	/// # Safety
	///
	/// * `file` must be a valid pointer to a `file` struct.
	/// * The `private_data` of the file must contain a valid pointer to a `T` that implements
	/// `Reader`.
	/// * `buf` must be a valid user-space buffer.
	pub(crate) unsafe extern "C" fn write_only_write<T: Reader + Sync>(
	file: *mut bindings::file,
	buf: *const c_char,
	count: usize,
	_ppos: *mut bindings::loff_t,
	) -> isize {
	// SAFETY: The caller ensures that `file` is a valid pointer and that `private_data` holds a
	// valid pointer to `T`.
	let data = unsafe { &((file).private_data as *const T) };
	read(data, buf, count)
	}

	pub(crate) trait WriteFile<T> {
	const FILE_OPS: FileOps<T>;
	}

	impl<T: Reader + Sync> WriteFile<T> for T {
	const FILE_OPS: FileOps<T> = {
	let operations = bindings::file_operations {
	open: Some(write_only_open),
	write: Some(write_only_write::<T>),
	llseek: Some(bindings::noop_llseek),
	// SAFETY: `file_operations` supports zeroes in all fields.
	..unsafe { core::mem::zeroed() }
	};
	// SAFETY:
	// * `write_only_open` populates the file private data with the inode private data
	// * `write_only_write`'s only requirement is that the private data of the file point to
	// a `T` and be legal to convert to a shared reference, which `write_only_open`
	// satisfies.
	unsafe { FileOps::new(operations, 0o200) }
	};
	}