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linux/rust/kernel/error.rs
Jimmy Ostler 7871c612ca rust: error: import kernel's LayoutError instead of core's 
Import the internal (`kernel::alloc`) version of `LayoutError` instead
of the `core::alloc` one.

In particular, this results in switching the type in the existing
`From<LayoutError> for Error` implementation.

Acked-by: Danilo Krummrich <dakr@kernel.org>
Signed-off-by: Jimmy Ostler <jtostler1@gmail.com>
Link: https://lore.kernel.org/r/fe58a02189e8804a9eabdd01cb1927d4c491d79c.1734674670.git.jtostler1@gmail.com
[ Reworded commit. - Miguel ]
Signed-off-by: Miguel Ojeda <ojeda@kernel.org>
2025-01-13 23:45:13 +01:00

348 lines
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Rust
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// SPDX-License-Identifier: GPL-2.0
//! Kernel errors.
//!
//! C header: [`include/uapi/asm-generic/errno-base.h`](srctree/include/uapi/asm-generic/errno-base.h)
use crate::{
alloc::{layout::LayoutError, AllocError},
str::CStr,
};
use core::fmt;
use core::num::NonZeroI32;
use core::num::TryFromIntError;
use core::str::Utf8Error;
/// Contains the C-compatible error codes.
#[rustfmt::skip]
pub mod code {
macro_rules! declare_err {
($err:tt $(,)? $($doc:expr),+) => {
$(
#[doc = $doc]
)*
pub const $err: super::Error =
match super::Error::try_from_errno(-(crate::bindings::$err as i32)) {
Some(err) => err,
None => panic!("Invalid errno in `declare_err!`"),
};
};
}
declare_err!(EPERM, "Operation not permitted.");
declare_err!(ENOENT, "No such file or directory.");
declare_err!(ESRCH, "No such process.");
declare_err!(EINTR, "Interrupted system call.");
declare_err!(EIO, "I/O error.");
declare_err!(ENXIO, "No such device or address.");
declare_err!(E2BIG, "Argument list too long.");
declare_err!(ENOEXEC, "Exec format error.");
declare_err!(EBADF, "Bad file number.");
declare_err!(ECHILD, "No child processes.");
declare_err!(EAGAIN, "Try again.");
declare_err!(ENOMEM, "Out of memory.");
declare_err!(EACCES, "Permission denied.");
declare_err!(EFAULT, "Bad address.");
declare_err!(ENOTBLK, "Block device required.");
declare_err!(EBUSY, "Device or resource busy.");
declare_err!(EEXIST, "File exists.");
declare_err!(EXDEV, "Cross-device link.");
declare_err!(ENODEV, "No such device.");
declare_err!(ENOTDIR, "Not a directory.");
declare_err!(EISDIR, "Is a directory.");
declare_err!(EINVAL, "Invalid argument.");
declare_err!(ENFILE, "File table overflow.");
declare_err!(EMFILE, "Too many open files.");
declare_err!(ENOTTY, "Not a typewriter.");
declare_err!(ETXTBSY, "Text file busy.");
declare_err!(EFBIG, "File too large.");
declare_err!(ENOSPC, "No space left on device.");
declare_err!(ESPIPE, "Illegal seek.");
declare_err!(EROFS, "Read-only file system.");
declare_err!(EMLINK, "Too many links.");
declare_err!(EPIPE, "Broken pipe.");
declare_err!(EDOM, "Math argument out of domain of func.");
declare_err!(ERANGE, "Math result not representable.");
declare_err!(ERESTARTSYS, "Restart the system call.");
declare_err!(ERESTARTNOINTR, "System call was interrupted by a signal and will be restarted.");
declare_err!(ERESTARTNOHAND, "Restart if no handler.");
declare_err!(ENOIOCTLCMD, "No ioctl command.");
declare_err!(ERESTART_RESTARTBLOCK, "Restart by calling sys_restart_syscall.");
declare_err!(EPROBE_DEFER, "Driver requests probe retry.");
declare_err!(EOPENSTALE, "Open found a stale dentry.");
declare_err!(ENOPARAM, "Parameter not supported.");
declare_err!(EBADHANDLE, "Illegal NFS file handle.");
declare_err!(ENOTSYNC, "Update synchronization mismatch.");
declare_err!(EBADCOOKIE, "Cookie is stale.");
declare_err!(ENOTSUPP, "Operation is not supported.");
declare_err!(ETOOSMALL, "Buffer or request is too small.");
declare_err!(ESERVERFAULT, "An untranslatable error occurred.");
declare_err!(EBADTYPE, "Type not supported by server.");
declare_err!(EJUKEBOX, "Request initiated, but will not complete before timeout.");
declare_err!(EIOCBQUEUED, "iocb queued, will get completion event.");
declare_err!(ERECALLCONFLICT, "Conflict with recalled state.");
declare_err!(ENOGRACE, "NFS file lock reclaim refused.");
}
/// Generic integer kernel error.
///
/// The kernel defines a set of integer generic error codes based on C and
/// POSIX ones. These codes may have a more specific meaning in some contexts.
///
/// # Invariants
///
/// The value is a valid `errno` (i.e. `>= -MAX_ERRNO && < 0`).
#[derive(Clone, Copy, PartialEq, Eq)]
pub struct Error(NonZeroI32);
impl Error {
/// Creates an [`Error`] from a kernel error code.
///
/// It is a bug to pass an out-of-range `errno`. `EINVAL` would
/// be returned in such a case.
pub fn from_errno(errno: crate::ffi::c_int) -> Error {
if let Some(error) = Self::try_from_errno(errno) {
error
} else {
// TODO: Make it a `WARN_ONCE` once available.
crate::pr_warn!(
"attempted to create `Error` with out of range `errno`: {}",
errno
);
code::EINVAL
}
}
/// Creates an [`Error`] from a kernel error code.
///
/// Returns [`None`] if `errno` is out-of-range.
const fn try_from_errno(errno: crate::ffi::c_int) -> Option<Error> {
if errno < -(bindings::MAX_ERRNO as i32) || errno >= 0 {
return None;
}
// SAFETY: `errno` is checked above to be in a valid range.
Some(unsafe { Error::from_errno_unchecked(errno) })
}
/// Creates an [`Error`] from a kernel error code.
///
/// # Safety
///
/// `errno` must be within error code range (i.e. `>= -MAX_ERRNO && < 0`).
const unsafe fn from_errno_unchecked(errno: crate::ffi::c_int) -> Error {
// INVARIANT: The contract ensures the type invariant
// will hold.
// SAFETY: The caller guarantees `errno` is non-zero.
Error(unsafe { NonZeroI32::new_unchecked(errno) })
}
/// Returns the kernel error code.
pub fn to_errno(self) -> crate::ffi::c_int {
self.0.get()
}
#[cfg(CONFIG_BLOCK)]
pub(crate) fn to_blk_status(self) -> bindings::blk_status_t {
// SAFETY: `self.0` is a valid error due to its invariant.
unsafe { bindings::errno_to_blk_status(self.0.get()) }
}
/// Returns the error encoded as a pointer.
pub fn to_ptr<T>(self) -> *mut T {
// SAFETY: `self.0` is a valid error due to its invariant.
unsafe { bindings::ERR_PTR(self.0.get() as _) as *mut _ }
}
/// Returns a string representing the error, if one exists.
#[cfg(not(any(test, testlib)))]
pub fn name(&self) -> Option<&'static CStr> {
// SAFETY: Just an FFI call, there are no extra safety requirements.
let ptr = unsafe { bindings::errname(-self.0.get()) };
if ptr.is_null() {
None
} else {
// SAFETY: The string returned by `errname` is static and `NUL`-terminated.
Some(unsafe { CStr::from_char_ptr(ptr) })
}
}
/// Returns a string representing the error, if one exists.
///
/// When `testlib` is configured, this always returns `None` to avoid the dependency on a
/// kernel function so that tests that use this (e.g., by calling [`Result::unwrap`]) can still
/// run in userspace.
#[cfg(any(test, testlib))]
pub fn name(&self) -> Option<&'static CStr> {
None
}
}
impl fmt::Debug for Error {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self.name() {
// Print out number if no name can be found.
None => f.debug_tuple("Error").field(&-self.0).finish(),
Some(name) => f
.debug_tuple(
// SAFETY: These strings are ASCII-only.
unsafe { core::str::from_utf8_unchecked(name) },
)
.finish(),
}
}
}
impl From<AllocError> for Error {
fn from(_: AllocError) -> Error {
code::ENOMEM
}
}
impl From<TryFromIntError> for Error {
fn from(_: TryFromIntError) -> Error {
code::EINVAL
}
}
impl From<Utf8Error> for Error {
fn from(_: Utf8Error) -> Error {
code::EINVAL
}
}
impl From<LayoutError> for Error {
fn from(_: LayoutError) -> Error {
code::ENOMEM
}
}
impl From<core::fmt::Error> for Error {
fn from(_: core::fmt::Error) -> Error {
code::EINVAL
}
}
impl From<core::convert::Infallible> for Error {
fn from(e: core::convert::Infallible) -> Error {
match e {}
}
}
/// A [`Result`] with an [`Error`] error type.
///
/// To be used as the return type for functions that may fail.
///
/// # Error codes in C and Rust
///
/// In C, it is common that functions indicate success or failure through
/// their return value; modifying or returning extra data through non-`const`
/// pointer parameters. In particular, in the kernel, functions that may fail
/// typically return an `int` that represents a generic error code. We model
/// those as [`Error`].
///
/// In Rust, it is idiomatic to model functions that may fail as returning
/// a [`Result`]. Since in the kernel many functions return an error code,
/// [`Result`] is a type alias for a [`core::result::Result`] that uses
/// [`Error`] as its error type.
///
/// Note that even if a function does not return anything when it succeeds,
/// it should still be modeled as returning a `Result` rather than
/// just an [`Error`].
pub type Result<T = (), E = Error> = core::result::Result<T, E>;
/// Converts an integer as returned by a C kernel function to an error if it's negative, and
/// `Ok(())` otherwise.
pub fn to_result(err: crate::ffi::c_int) -> Result {
if err < 0 {
Err(Error::from_errno(err))
} else {
Ok(())
}
}
/// Transform a kernel "error pointer" to a normal pointer.
///
/// Some kernel C API functions return an "error pointer" which optionally
/// embeds an `errno`. Callers are supposed to check the returned pointer
/// for errors. This function performs the check and converts the "error pointer"
/// to a normal pointer in an idiomatic fashion.
///
/// # Examples
///
/// ```ignore
/// # use kernel::from_err_ptr;
/// # use kernel::bindings;
/// fn devm_platform_ioremap_resource(
/// pdev: &mut PlatformDevice,
/// index: u32,
/// ) -> Result<*mut kernel::ffi::c_void> {
/// // SAFETY: `pdev` points to a valid platform device. There are no safety requirements
/// // on `index`.
/// from_err_ptr(unsafe { bindings::devm_platform_ioremap_resource(pdev.to_ptr(), index) })
/// }
/// ```
pub fn from_err_ptr<T>(ptr: *mut T) -> Result<*mut T> {
// CAST: Casting a pointer to `*const crate::ffi::c_void` is always valid.
let const_ptr: *const crate::ffi::c_void = ptr.cast();
// SAFETY: The FFI function does not deref the pointer.
if unsafe { bindings::IS_ERR(const_ptr) } {
// SAFETY: The FFI function does not deref the pointer.
let err = unsafe { bindings::PTR_ERR(const_ptr) };
#[allow(clippy::unnecessary_cast)]
// CAST: If `IS_ERR()` returns `true`,
// then `PTR_ERR()` is guaranteed to return a
// negative value greater-or-equal to `-bindings::MAX_ERRNO`,
// which always fits in an `i16`, as per the invariant above.
// And an `i16` always fits in an `i32`. So casting `err` to
// an `i32` can never overflow, and is always valid.
//
// SAFETY: `IS_ERR()` ensures `err` is a
// negative value greater-or-equal to `-bindings::MAX_ERRNO`.
return Err(unsafe { Error::from_errno_unchecked(err as crate::ffi::c_int) });
}
Ok(ptr)
}
/// Calls a closure returning a [`crate::error::Result<T>`] and converts the result to
/// a C integer result.
///
/// This is useful when calling Rust functions that return [`crate::error::Result<T>`]
/// from inside `extern "C"` functions that need to return an integer error result.
///
/// `T` should be convertible from an `i16` via `From<i16>`.
///
/// # Examples
///
/// ```ignore
/// # use kernel::from_result;
/// # use kernel::bindings;
/// unsafe extern "C" fn probe_callback(
/// pdev: *mut bindings::platform_device,
/// ) -> kernel::ffi::c_int {
/// from_result(|| {
/// let ptr = devm_alloc(pdev)?;
/// bindings::platform_set_drvdata(pdev, ptr);
/// Ok(0)
/// })
/// }
/// ```
pub fn from_result<T, F>(f: F) -> T
where
T: From<i16>,
F: FnOnce() -> Result<T>,
{
match f() {
Ok(v) => v,
// NO-OVERFLOW: negative `errno`s are no smaller than `-bindings::MAX_ERRNO`,
// `-bindings::MAX_ERRNO` fits in an `i16` as per invariant above,
// therefore a negative `errno` always fits in an `i16` and will not overflow.
Err(e) => T::from(e.to_errno() as i16),
}
}
/// Error message for calling a default function of a [`#[vtable]`](macros::vtable) trait.
pub const VTABLE_DEFAULT_ERROR: &str =
"This function must not be called, see the #[vtable] documentation.";
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