use crate::{
bindings, container_of, device,
+ device::Bound,
device_id::{RawDeviceId, RawDeviceIdIndex},
- devres::Devres,
+ devres::{self, Devres},
driver,
error::{from_result, to_result, Result},
io::{Io, IoRaw},
};
use core::{
marker::PhantomData,
- ops::Deref,
+ ops::{Deref, RangeInclusive},
ptr::{addr_of_mut, NonNull},
};
use kernel::prelude::*;
pub use self::id::{Class, ClassMask, Vendor};
+/// IRQ type flags for PCI interrupt allocation.
+#[derive(Debug, Clone, Copy)]
+pub enum IrqType {
+ /// INTx interrupts.
+ Intx,
+ /// Message Signaled Interrupts (MSI).
+ Msi,
+ /// Extended Message Signaled Interrupts (MSI-X).
+ MsiX,
+}
+
+impl IrqType {
+ /// Convert to the corresponding kernel flags.
+ const fn as_raw(self) -> u32 {
+ match self {
+ IrqType::Intx => bindings::PCI_IRQ_INTX,
+ IrqType::Msi => bindings::PCI_IRQ_MSI,
+ IrqType::MsiX => bindings::PCI_IRQ_MSIX,
+ }
+ }
+}
+
+/// Set of IRQ types that can be used for PCI interrupt allocation.
+#[derive(Debug, Clone, Copy, Default)]
+pub struct IrqTypes(u32);
+
+impl IrqTypes {
+ /// Create a set containing all IRQ types (MSI-X, MSI, and Legacy).
+ pub const fn all() -> Self {
+ Self(bindings::PCI_IRQ_ALL_TYPES)
+ }
+
+ /// Build a set of IRQ types.
+ ///
+ /// # Examples
+ ///
+ /// ```ignore
+ /// // Create a set with only MSI and MSI-X (no legacy interrupts).
+ /// let msi_only = IrqTypes::default()
+ /// .with(IrqType::Msi)
+ /// .with(IrqType::MsiX);
+ /// ```
+ pub const fn with(self, irq_type: IrqType) -> Self {
+ Self(self.0 | irq_type.as_raw())
+ }
+
+ /// Get the raw flags value.
+ const fn as_raw(self) -> u32 {
+ self.0
+ }
+}
+
/// An adapter for the registration of PCI drivers.
pub struct Adapter<T: Driver>(T);
}
}
+/// Represents an allocated IRQ vector for a specific PCI device.
+///
+/// This type ties an IRQ vector to the device it was allocated for,
+/// ensuring the vector is only used with the correct device.
+#[derive(Clone, Copy)]
+pub struct IrqVector<'a> {
+ dev: &'a Device<Bound>,
+ index: u32,
+}
+
+impl<'a> IrqVector<'a> {
+ /// Creates a new [`IrqVector`] for the given device and index.
+ ///
+ /// # Safety
+ ///
+ /// - `index` must be a valid IRQ vector index for `dev`.
+ /// - `dev` must point to a [`Device`] that has successfully allocated IRQ vectors.
+ unsafe fn new(dev: &'a Device<Bound>, index: u32) -> Self {
+ Self { dev, index }
+ }
+
+ /// Returns the raw vector index.
+ fn index(&self) -> u32 {
+ self.index
+ }
+}
+
+/// Represents an IRQ vector allocation for a PCI device.
+///
+/// This type ensures that IRQ vectors are properly allocated and freed by
+/// tying the allocation to the lifetime of this registration object.
+///
+/// # Invariants
+///
+/// The [`Device`] has successfully allocated IRQ vectors.
+struct IrqVectorRegistration {
+ dev: ARef<Device>,
+}
+
+impl IrqVectorRegistration {
+ /// Allocate and register IRQ vectors for the given PCI device.
+ ///
+ /// Allocates IRQ vectors and registers them with devres for automatic cleanup.
+ /// Returns a range of valid IRQ vectors.
+ fn register<'a>(
+ dev: &'a Device<Bound>,
+ min_vecs: u32,
+ max_vecs: u32,
+ irq_types: IrqTypes,
+ ) -> Result<RangeInclusive<IrqVector<'a>>> {
+ // SAFETY:
+ // - `dev.as_raw()` is guaranteed to be a valid pointer to a `struct pci_dev`
+ // by the type invariant of `Device`.
+ // - `pci_alloc_irq_vectors` internally validates all other parameters
+ // and returns error codes.
+ let ret = unsafe {
+ bindings::pci_alloc_irq_vectors(dev.as_raw(), min_vecs, max_vecs, irq_types.as_raw())
+ };
+
+ to_result(ret)?;
+ let count = ret as u32;
+
+ // SAFETY:
+ // - `pci_alloc_irq_vectors` returns the number of allocated vectors on success.
+ // - Vectors are 0-based, so valid indices are [0, count-1].
+ // - `pci_alloc_irq_vectors` guarantees `count >= min_vecs > 0`, so both `0` and
+ // `count - 1` are valid IRQ vector indices for `dev`.
+ let range = unsafe { IrqVector::new(dev, 0)..=IrqVector::new(dev, count - 1) };
+
+ // INVARIANT: The IRQ vector allocation for `dev` above was successful.
+ let irq_vecs = Self { dev: dev.into() };
+ devres::register(dev.as_ref(), irq_vecs, GFP_KERNEL)?;
+
+ Ok(range)
+ }
+}
+
+impl Drop for IrqVectorRegistration {
+ fn drop(&mut self) {
+ // SAFETY:
+ // - By the type invariant, `self.dev.as_raw()` is a valid pointer to a `struct pci_dev`.
+ // - `self.dev` has successfully allocated IRQ vectors.
+ unsafe { bindings::pci_free_irq_vectors(self.dev.as_raw()) };
+ }
+}
+
impl Device<device::Bound> {
/// 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.
self.iomap_region_sized::<0>(bar, name)
}
- /// Returns an [`IrqRequest`] for the IRQ vector at the given index, if any.
- pub fn irq_vector(&self, index: u32) -> Result<IrqRequest<'_>> {
+ /// Returns an [`IrqRequest`] for the given IRQ vector.
+ pub fn irq_vector(&self, vector: IrqVector<'_>) -> Result<IrqRequest<'_>> {
+ // Verify that the vector belongs to this device.
+ if !core::ptr::eq(vector.dev.as_raw(), self.as_raw()) {
+ return Err(EINVAL);
+ }
+
// SAFETY: `self.as_raw` returns a valid pointer to a `struct pci_dev`.
- let irq = unsafe { crate::bindings::pci_irq_vector(self.as_raw(), index) };
+ let irq = unsafe { crate::bindings::pci_irq_vector(self.as_raw(), vector.index()) };
if irq < 0 {
return Err(crate::error::Error::from_errno(irq));
}
Ok(unsafe { IrqRequest::new(self.as_ref(), irq as u32) })
}
- /// Returns a [`kernel::irq::Registration`] for the IRQ vector at the given
- /// index.
+ /// Returns a [`kernel::irq::Registration`] for the given IRQ vector.
pub fn request_irq<'a, T: crate::irq::Handler + 'static>(
&'a self,
- index: u32,
+ vector: IrqVector<'_>,
flags: irq::Flags,
name: &'static CStr,
handler: impl PinInit<T, Error> + 'a,
) -> Result<impl PinInit<irq::Registration<T>, Error> + 'a> {
- let request = self.irq_vector(index)?;
+ let request = self.irq_vector(vector)?;
Ok(irq::Registration::<T>::new(request, flags, name, handler))
}
- /// Returns a [`kernel::irq::ThreadedRegistration`] for the IRQ vector at
- /// the given index.
+ /// Returns a [`kernel::irq::ThreadedRegistration`] for the given IRQ vector.
pub fn request_threaded_irq<'a, T: crate::irq::ThreadedHandler + 'static>(
&'a self,
- index: u32,
+ vector: IrqVector<'_>,
flags: irq::Flags,
name: &'static CStr,
handler: impl PinInit<T, Error> + 'a,
) -> Result<impl PinInit<irq::ThreadedRegistration<T>, Error> + 'a> {
- let request = self.irq_vector(index)?;
+ let request = self.irq_vector(vector)?;
Ok(irq::ThreadedRegistration::<T>::new(
request, flags, name, handler,
))
}
+
+ /// Allocate IRQ vectors for this PCI device with automatic cleanup.
+ ///
+ /// Allocates between `min_vecs` and `max_vecs` interrupt vectors for the device.
+ /// The allocation will use MSI-X, MSI, or legacy interrupts based on the `irq_types`
+ /// parameter and hardware capabilities. When multiple types are specified, the kernel
+ /// will try them in order of preference: MSI-X first, then MSI, then legacy interrupts.
+ ///
+ /// The allocated vectors are automatically freed when the device is unbound, using the
+ /// devres (device resource management) system.
+ ///
+ /// # Arguments
+ ///
+ /// * `min_vecs` - Minimum number of vectors required.
+ /// * `max_vecs` - Maximum number of vectors to allocate.
+ /// * `irq_types` - Types of interrupts that can be used.
+ ///
+ /// # Returns
+ ///
+ /// Returns a range of IRQ vectors that were successfully allocated, or an error if the
+ /// allocation fails or cannot meet the minimum requirement.
+ ///
+ /// # Examples
+ ///
+ /// ```
+ /// # use kernel::{ device::Bound, pci};
+ /// # fn no_run(dev: &pci::Device<Bound>) -> Result {
+ /// // Allocate using any available interrupt type in the order mentioned above.
+ /// let vectors = dev.alloc_irq_vectors(1, 32, pci::IrqTypes::all())?;
+ ///
+ /// // Allocate MSI or MSI-X only (no legacy interrupts).
+ /// let msi_only = pci::IrqTypes::default()
+ /// .with(pci::IrqType::Msi)
+ /// .with(pci::IrqType::MsiX);
+ /// let vectors = dev.alloc_irq_vectors(4, 16, msi_only)?;
+ /// # Ok(())
+ /// # }
+ /// ```
+ pub fn alloc_irq_vectors(
+ &self,
+ min_vecs: u32,
+ max_vecs: u32,
+ irq_types: IrqTypes,
+ ) -> Result<RangeInclusive<IrqVector<'_>>> {
+ IrqVectorRegistration::register(self, min_vecs, max_vecs, irq_types)
+ }
}
impl Device<device::Core> {
projects / thirdparty / kernel / linux.git / commitdiff
