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linux/rust/kernel/pci/io.rs
Alexandre Courbot 50aad5510f rust: pci: io: remove overloaded Io methods of ConfigSpace 
Since `ConfigSpace` now has the relevant implementations of `IoCapable`,
the default methods of `Io` can be used in place of the overloaded ones.
Remove them as well as the macros generating them.

Reviewed-by: Daniel Almeida <daniel.almeida@collabora.com>
Acked-by: Alice Ryhl <aliceryhl@google.com>
Signed-off-by: Alexandre Courbot <acourbot@nvidia.com>
Reviewed-by: Gary Guo <gary@garyguo.net>
Link: https://patch.msgid.link/20260206-io-v2-5-71dea20a06e6@nvidia.com
Signed-off-by: Danilo Krummrich <dakr@kernel.org>
2026-03-17 20:02:09 +01:00

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// SPDX-License-Identifier: GPL-2.0
//! PCI memory-mapped I/O infrastructure.
use super::Device;
use crate::{
bindings,
device,
devres::Devres,
io::{
Io,
IoCapable,
IoKnownSize,
Mmio,
MmioRaw, //
},
prelude::*,
sync::aref::ARef, //
};
use core::{
marker::PhantomData,
ops::Deref, //
};
/// Represents the size of a PCI configuration space.
///
/// PCI devices can have either a *normal* (legacy) configuration space of 256 bytes,
/// or an *extended* configuration space of 4096 bytes as defined in the PCI Express
/// specification.
#[repr(usize)]
#[derive(Eq, PartialEq)]
pub enum ConfigSpaceSize {
/// 256-byte legacy PCI configuration space.
Normal = 256,
/// 4096-byte PCIe extended configuration space.
Extended = 4096,
}
impl ConfigSpaceSize {
/// Get the raw value of this enum.
#[inline(always)]
pub const fn into_raw(self) -> usize {
// CAST: PCI configuration space size is at most 4096 bytes, so the value always fits
// within `usize` without truncation or sign change.
self as usize
}
}
/// Marker type for normal (256-byte) PCI configuration space.
pub struct Normal;
/// Marker type for extended (4096-byte) PCIe configuration space.
pub struct Extended;
/// Trait for PCI configuration space size markers.
///
/// This trait is implemented by [`Normal`] and [`Extended`] to provide
/// compile-time knowledge of the configuration space size.
pub trait ConfigSpaceKind {
/// The size of this configuration space in bytes.
const SIZE: usize;
}
impl ConfigSpaceKind for Normal {
const SIZE: usize = 256;
}
impl ConfigSpaceKind for Extended {
const SIZE: usize = 4096;
}
/// The PCI configuration space of a device.
///
/// Provides typed read and write accessors for configuration registers
/// using the standard `pci_read_config_*` and `pci_write_config_*` helpers.
///
/// The generic parameter `S` indicates the maximum size of the configuration space.
/// Use [`Normal`] for 256-byte legacy configuration space or [`Extended`] for
/// 4096-byte PCIe extended configuration space (default).
pub struct ConfigSpace<'a, S: ConfigSpaceKind = Extended> {
pub(crate) pdev: &'a Device<device::Bound>,
_marker: PhantomData<S>,
}
/// Implements [`IoCapable`] on [`ConfigSpace`] for `$ty` using `$read_fn` and `$write_fn`.
macro_rules! impl_config_space_io_capable {
($ty:ty, $read_fn:ident, $write_fn:ident) => {
impl<'a, S: ConfigSpaceKind> IoCapable<$ty> for ConfigSpace<'a, S> {
unsafe fn io_read(&self, address: usize) -> $ty {
let mut val: $ty = 0;
// Return value from C function is ignored in infallible accessors.
let _ret =
// SAFETY: By the type invariant `self.pdev` is a valid address.
// CAST: The offset is cast to `i32` because the C functions expect a 32-bit
// signed offset parameter. PCI configuration space size is at most 4096 bytes,
// so the value always fits within `i32` without truncation or sign change.
unsafe { bindings::$read_fn(self.pdev.as_raw(), address as i32, &mut val) };
val
}
unsafe fn io_write(&self, value: $ty, address: usize) {
// Return value from C function is ignored in infallible accessors.
let _ret =
// SAFETY: By the type invariant `self.pdev` is a valid address.
// CAST: The offset is cast to `i32` because the C functions expect a 32-bit
// signed offset parameter. PCI configuration space size is at most 4096 bytes,
// so the value always fits within `i32` without truncation or sign change.
unsafe { bindings::$write_fn(self.pdev.as_raw(), address as i32, value) };
}
}
};
}
// PCI configuration space supports 8, 16, and 32-bit accesses.
impl_config_space_io_capable!(u8, pci_read_config_byte, pci_write_config_byte);
impl_config_space_io_capable!(u16, pci_read_config_word, pci_write_config_word);
impl_config_space_io_capable!(u32, pci_read_config_dword, pci_write_config_dword);
impl<'a, S: ConfigSpaceKind> Io for ConfigSpace<'a, S> {
/// Returns the base address of the I/O region. It is always 0 for configuration space.
#[inline]
fn addr(&self) -> usize {
0
}
/// Returns the maximum size of the configuration space.
#[inline]
fn maxsize(&self) -> usize {
self.pdev.cfg_size().into_raw()
}
}
impl<'a, S: ConfigSpaceKind> IoKnownSize for ConfigSpace<'a, S> {
const MIN_SIZE: usize = S::SIZE;
}
/// A PCI BAR to perform I/O-Operations on.
///
/// I/O backend assumes that the device is little-endian and will automatically
/// convert from little-endian to CPU endianness.
///
/// # Invariants
///
/// `Bar` always holds an `IoRaw` instance that holds a valid pointer to the start of the I/O
/// memory mapped PCI BAR and its size.
pub struct Bar<const SIZE: usize = 0> {
pdev: ARef<Device>,
io: MmioRaw<SIZE>,
num: i32,
}
impl<const SIZE: usize> Bar<SIZE> {
pub(super) fn new(pdev: &Device, num: u32, name: &CStr) -> Result<Self> {
let len = pdev.resource_len(num)?;
if len == 0 {
return Err(ENOMEM);
}
// Convert to `i32`, since that's what all the C bindings use.
let num = i32::try_from(num)?;
// SAFETY:
// `pdev` is valid by the invariants of `Device`.
// `num` is checked for validity by a previous call to `Device::resource_len`.
// `name` is always valid.
let ret = unsafe { bindings::pci_request_region(pdev.as_raw(), num, name.as_char_ptr()) };
if ret != 0 {
return Err(EBUSY);
}
// SAFETY:
// `pdev` is valid by the invariants of `Device`.
// `num` is checked for validity by a previous call to `Device::resource_len`.
// `name` is always valid.
let ioptr: usize = unsafe { bindings::pci_iomap(pdev.as_raw(), num, 0) } as usize;
if ioptr == 0 {
// SAFETY:
// `pdev` is valid by the invariants of `Device`.
// `num` is checked for validity by a previous call to `Device::resource_len`.
unsafe { bindings::pci_release_region(pdev.as_raw(), num) };
return Err(ENOMEM);
}
let io = match MmioRaw::new(ioptr, len as usize) {
Ok(io) => io,
Err(err) => {
// SAFETY:
// `pdev` is valid by the invariants of `Device`.
// `ioptr` is guaranteed to be the start of a valid I/O mapped memory region.
// `num` is checked for validity by a previous call to `Device::resource_len`.
unsafe { Self::do_release(pdev, ioptr, num) };
return Err(err);
}
};
Ok(Bar {
pdev: pdev.into(),
io,
num,
})
}
/// # Safety
///
/// `ioptr` must be a valid pointer to the memory mapped PCI BAR number `num`.
unsafe fn do_release(pdev: &Device, ioptr: usize, num: i32) {
// SAFETY:
// `pdev` is valid by the invariants of `Device`.
// `ioptr` is valid by the safety requirements.
// `num` is valid by the safety requirements.
unsafe {
bindings::pci_iounmap(pdev.as_raw(), ioptr as *mut c_void);
bindings::pci_release_region(pdev.as_raw(), num);
}
}
fn release(&self) {
// SAFETY: The safety requirements are guaranteed by the type invariant of `self.pdev`.
unsafe { Self::do_release(&self.pdev, self.io.addr(), self.num) };
}
}
impl Bar {
#[inline]
pub(super) fn index_is_valid(index: u32) -> bool {
// A `struct pci_dev` owns an array of resources with at most `PCI_NUM_RESOURCES` entries.
index < bindings::PCI_NUM_RESOURCES
}
}
impl<const SIZE: usize> Drop for Bar<SIZE> {
fn drop(&mut self) {
self.release();
}
}
impl<const SIZE: usize> Deref for Bar<SIZE> {
type Target = Mmio<SIZE>;
fn deref(&self) -> &Self::Target {
// SAFETY: By the type invariant of `Self`, the MMIO range in `self.io` is properly mapped.
unsafe { Mmio::from_raw(&self.io) }
}
}
impl Device<device::Bound> {
/// Maps an entire PCI BAR after performing a region-request on it. I/O operation bound checks
/// can be performed on compile time for offsets (plus the requested type size) < SIZE.
pub fn iomap_region_sized<'a, const SIZE: usize>(
&'a self,
bar: u32,
name: &'a CStr,
) -> impl PinInit<Devres<Bar<SIZE>>, Error> + 'a {
Devres::new(self.as_ref(), Bar::<SIZE>::new(self, bar, name))
}
/// Maps an entire PCI BAR after performing a region-request on it.
pub fn iomap_region<'a>(
&'a self,
bar: u32,
name: &'a CStr,
) -> impl PinInit<Devres<Bar>, Error> + 'a {
self.iomap_region_sized::<0>(bar, name)
}
/// Returns the size of configuration space.
pub fn cfg_size(&self) -> ConfigSpaceSize {
// SAFETY: `self.as_raw` is a valid pointer to a `struct pci_dev`.
let size = unsafe { (*self.as_raw()).cfg_size };
match size {
256 => ConfigSpaceSize::Normal,
4096 => ConfigSpaceSize::Extended,
_ => {
// PANIC: The PCI subsystem only ever reports the configuration space size as either
// `ConfigSpaceSize::Normal` or `ConfigSpaceSize::Extended`.
unreachable!();
}
}
}
/// Return an initialized normal (256-byte) config space object.
pub fn config_space<'a>(&'a self) -> ConfigSpace<'a, Normal> {
ConfigSpace {
pdev: self,
_marker: PhantomData,
}
}
/// Return an initialized extended (4096-byte) config space object.
pub fn config_space_extended<'a>(&'a self) -> Result<ConfigSpace<'a, Extended>> {
if self.cfg_size() != ConfigSpaceSize::Extended {
return Err(EINVAL);
}
Ok(ConfigSpace {
pdev: self,
_marker: PhantomData,
})
}
}
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