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rust: pci: implement I/O mappable pci::Bar
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Implement `pci::Bar`, `pci::Device::iomap_region` and
`pci::Device::iomap_region_sized` to allow for I/O mappings of PCI BARs.

To ensure that a `pci::Bar`, and hence the I/O memory mapping, can't
out-live the PCI device, the `pci::Bar` type is always embedded into a
`Devres` container, such that the `pci::Bar` is revoked once the device
is unbound and hence the I/O mapped memory is unmapped.

A `pci::Bar` can be requested with (`pci::Device::iomap_region_sized`) or
without (`pci::Device::iomap_region`) a const generic representing the
minimal requested size of the I/O mapped memory region. In case of the
latter only runtime checked I/O reads / writes are possible.

Co-developed-by: Philipp Stanner <pstanner@redhat.com>
Signed-off-by: Philipp Stanner <pstanner@redhat.com>
Signed-off-by: Danilo Krummrich <dakr@redhat.com>
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dakr authored and Danilo Krummrich committed Sep 26, 2024
1 parent 8706122 commit 249ffdf
Showing 1 changed file with 142 additions and 0 deletions.
142 changes: 142 additions & 0 deletions rust/kernel/pci.rs
Original file line number Diff line number Diff line change
Expand Up @@ -5,14 +5,18 @@
//! C header: [`include/linux/pci.h`](srctree/include/linux/pci.h)

use crate::{
alloc::flags::*,
bindings, container_of, device,
device_id::{IdTable, RawDeviceId},
devres::Devres,
driver,
error::{to_result, Result},
io::Io,
str::CStr,
types::{ARef, ForeignOwnable},
ThisModule,
};
use core::ops::Deref;
use kernel::prelude::*; // for pinned_drop

/// An adapter for the registration of PCI drivers.
Expand Down Expand Up @@ -281,9 +285,114 @@ pub trait Driver {
///
/// A PCI device is based on an always reference counted `device:Device` instance. Cloning a PCI
/// device, hence, also increments the base device' reference count.
///
/// # Invariants
///
/// `Device` hold a valid reference of `ARef<device::Device>` whose underlying `struct device` is a
/// member of a `struct pci_dev`.
#[derive(Clone)]
pub struct Device(ARef<device::Device>);

/// A PCI BAR to perform I/O-Operations on.
///
/// # Invariants
///
/// `Bar` always holds an `Io` inststance 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: Device,
io: Io<SIZE>,
num: i32,
}

impl<const SIZE: usize> Bar<SIZE> {
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` 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);
}

// SAFETY: `ioptr` is guaranteed to be the start of a valid I/O mapped memory region of size
// `len`.
let io = match unsafe { Io::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, 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 _);
bindings::pci_release_region(pdev.as_raw(), num);
}
}

fn release(&self) {
// SAFETY: Safe by the invariants of `Device` and `Bar`.
unsafe { Self::do_release(&self.pdev, self.io.base_addr(), self.num) };
}
}

impl Bar {
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 = Io<SIZE>;

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

impl Device {
/// Create a PCI Device instance from an existing `device::Device`.
///
Expand Down Expand Up @@ -316,6 +425,39 @@ impl Device {
// SAFETY: Safe by the type invariants.
unsafe { bindings::pci_set_master(self.as_raw()) };
}

/// Returns the size of the given PCI bar resource.
pub fn resource_len(&self, bar: u32) -> Result<bindings::resource_size_t> {
if !Bar::index_is_valid(bar) {
return Err(EINVAL);
}

// SAFETY: Safe by the type invariant.
Ok(unsafe { bindings::pci_resource_len(self.as_raw(), bar.try_into()?) })
}

/// Mapps 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<const SIZE: usize>(
&self,
bar: u32,
name: &CStr,
) -> Result<Devres<Bar<SIZE>>> {
let bar = Bar::<SIZE>::new(self.clone(), bar, name)?;
let devres = Devres::new(self.as_ref(), bar, GFP_KERNEL)?;

Ok(devres)
}

/// Mapps an entire PCI-BAR after performing a region-request on it.
pub fn iomap_region(&self, bar: u32, name: &CStr) -> Result<Devres<Bar>> {
self.iomap_region_sized::<0>(bar, name)
}

/// Returns a new `ARef` of the base `device::Device`.
pub fn as_dev(&self) -> ARef<device::Device> {
self.0.clone()
}
}

impl AsRef<device::Device> for Device {
Expand Down

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