fn offset(self) -> usize;
}
+/// Implements [`IoLoc<$ty>`] for [`usize`], allowing [`usize`] to be used as a parameter of
+/// [`Io::read`] and [`Io::write`].
+macro_rules! impl_usize_ioloc {
+ ($($ty:ty),*) => {
+ $(
+ impl IoLoc<$ty> for usize {
+ type IoType = $ty;
+
+ #[inline(always)]
+ fn offset(self) -> usize {
+ self
+ }
+ }
+ )*
+ }
+}
+
+// Provide the ability to read any primitive type from a [`usize`].
+impl_usize_ioloc!(u8, u16, u32, u64);
+
/// Types implementing this trait (e.g. MMIO BARs or PCI config regions)
/// can perform I/O operations on regions of memory.
///
where
Self: IoCapable<u8>,
{
- let address = self.io_addr::<u8>(offset)?;
-
- // SAFETY: `address` has been validated by `io_addr`.
- Ok(unsafe { self.io_read(address) })
+ self.try_read(offset)
}
/// Fallible 16-bit read with runtime bounds check.
where
Self: IoCapable<u16>,
{
- let address = self.io_addr::<u16>(offset)?;
-
- // SAFETY: `address` has been validated by `io_addr`.
- Ok(unsafe { self.io_read(address) })
+ self.try_read(offset)
}
/// Fallible 32-bit read with runtime bounds check.
where
Self: IoCapable<u32>,
{
- let address = self.io_addr::<u32>(offset)?;
-
- // SAFETY: `address` has been validated by `io_addr`.
- Ok(unsafe { self.io_read(address) })
+ self.try_read(offset)
}
/// Fallible 64-bit read with runtime bounds check.
where
Self: IoCapable<u64>,
{
- let address = self.io_addr::<u64>(offset)?;
-
- // SAFETY: `address` has been validated by `io_addr`.
- Ok(unsafe { self.io_read(address) })
+ self.try_read(offset)
}
/// Fallible 8-bit write with runtime bounds check.
where
Self: IoCapable<u8>,
{
- let address = self.io_addr::<u8>(offset)?;
-
- // SAFETY: `address` has been validated by `io_addr`.
- unsafe { self.io_write(value, address) };
- Ok(())
+ self.try_write(offset, value)
}
/// Fallible 16-bit write with runtime bounds check.
where
Self: IoCapable<u16>,
{
- let address = self.io_addr::<u16>(offset)?;
-
- // SAFETY: `address` has been validated by `io_addr`.
- unsafe { self.io_write(value, address) };
- Ok(())
+ self.try_write(offset, value)
}
/// Fallible 32-bit write with runtime bounds check.
where
Self: IoCapable<u32>,
{
- let address = self.io_addr::<u32>(offset)?;
-
- // SAFETY: `address` has been validated by `io_addr`.
- unsafe { self.io_write(value, address) };
- Ok(())
+ self.try_write(offset, value)
}
/// Fallible 64-bit write with runtime bounds check.
where
Self: IoCapable<u64>,
{
- let address = self.io_addr::<u64>(offset)?;
-
- // SAFETY: `address` has been validated by `io_addr`.
- unsafe { self.io_write(value, address) };
- Ok(())
+ self.try_write(offset, value)
}
/// Infallible 8-bit read with compile-time bounds check.
where
Self: IoKnownSize + IoCapable<u8>,
{
- let address = self.io_addr_assert::<u8>(offset);
-
- // SAFETY: `address` has been validated by `io_addr_assert`.
- unsafe { self.io_read(address) }
+ self.read(offset)
}
/// Infallible 16-bit read with compile-time bounds check.
where
Self: IoKnownSize + IoCapable<u16>,
{
- let address = self.io_addr_assert::<u16>(offset);
-
- // SAFETY: `address` has been validated by `io_addr_assert`.
- unsafe { self.io_read(address) }
+ self.read(offset)
}
/// Infallible 32-bit read with compile-time bounds check.
where
Self: IoKnownSize + IoCapable<u32>,
{
- let address = self.io_addr_assert::<u32>(offset);
-
- // SAFETY: `address` has been validated by `io_addr_assert`.
- unsafe { self.io_read(address) }
+ self.read(offset)
}
/// Infallible 64-bit read with compile-time bounds check.
where
Self: IoKnownSize + IoCapable<u64>,
{
- let address = self.io_addr_assert::<u64>(offset);
-
- // SAFETY: `address` has been validated by `io_addr_assert`.
- unsafe { self.io_read(address) }
+ self.read(offset)
}
/// Infallible 8-bit write with compile-time bounds check.
where
Self: IoKnownSize + IoCapable<u8>,
{
- let address = self.io_addr_assert::<u8>(offset);
-
- // SAFETY: `address` has been validated by `io_addr_assert`.
- unsafe { self.io_write(value, address) }
+ self.write(offset, value)
}
/// Infallible 16-bit write with compile-time bounds check.
where
Self: IoKnownSize + IoCapable<u16>,
{
- let address = self.io_addr_assert::<u16>(offset);
-
- // SAFETY: `address` has been validated by `io_addr_assert`.
- unsafe { self.io_write(value, address) }
+ self.write(offset, value)
}
/// Infallible 32-bit write with compile-time bounds check.
where
Self: IoKnownSize + IoCapable<u32>,
{
- let address = self.io_addr_assert::<u32>(offset);
-
- // SAFETY: `address` has been validated by `io_addr_assert`.
- unsafe { self.io_write(value, address) }
+ self.write(offset, value)
}
/// Infallible 64-bit write with compile-time bounds check.
where
Self: IoKnownSize + IoCapable<u64>,
{
- let address = self.io_addr_assert::<u64>(offset);
-
- // SAFETY: `address` has been validated by `io_addr_assert`.
- unsafe { self.io_write(value, address) }
+ self.write(offset, value)
}
/// Generic fallible read with runtime bounds check.
+ ///
+ /// # Examples
+ ///
+ /// Read a primitive type from an I/O address:
+ ///
+ /// ```no_run
+ /// use kernel::io::{
+ /// Io,
+ /// Mmio,
+ /// };
+ ///
+ /// fn do_reads(io: &Mmio) -> Result {
+ /// // 32-bit read from address `0x10`.
+ /// let v: u32 = io.try_read(0x10)?;
+ ///
+ /// // 8-bit read from address `0xfff`.
+ /// let v: u8 = io.try_read(0xfff)?;
+ ///
+ /// Ok(())
+ /// }
+ /// ```
#[inline(always)]
fn try_read<T, L>(&self, location: L) -> Result<T>
where
}
/// Generic fallible write with runtime bounds check.
+ ///
+ /// # Examples
+ ///
+ /// Write a primitive type to an I/O address:
+ ///
+ /// ```no_run
+ /// use kernel::io::{
+ /// Io,
+ /// Mmio,
+ /// };
+ ///
+ /// fn do_writes(io: &Mmio) -> Result {
+ /// // 32-bit write of value `1` at address `0x10`.
+ /// io.try_write(0x10, 1u32)?;
+ ///
+ /// // 8-bit write of value `0xff` at address `0xfff`.
+ /// io.try_write(0xfff, 0xffu8)?;
+ ///
+ /// Ok(())
+ /// }
+ /// ```
#[inline(always)]
fn try_write<T, L>(&self, location: L, value: T) -> Result
where
///
/// Note: this does not perform any synchronization. The caller is responsible for ensuring
/// exclusive access if required.
+ ///
+ /// # Examples
+ ///
+ /// Read the u32 value at address `0x10`, increment it, and store the updated value back:
+ ///
+ /// ```no_run
+ /// use kernel::io::{
+ /// Io,
+ /// Mmio,
+ /// };
+ ///
+ /// fn do_update(io: &Mmio<0x1000>) -> Result {
+ /// io.try_update(0x10, |v: u32| {
+ /// v + 1
+ /// })
+ /// }
+ /// ```
#[inline(always)]
fn try_update<T, L, F>(&self, location: L, f: F) -> Result
where
}
/// Generic infallible read with compile-time bounds check.
+ ///
+ /// # Examples
+ ///
+ /// Read a primitive type from an I/O address:
+ ///
+ /// ```no_run
+ /// use kernel::io::{
+ /// Io,
+ /// Mmio,
+ /// };
+ ///
+ /// fn do_reads(io: &Mmio<0x1000>) {
+ /// // 32-bit read from address `0x10`.
+ /// let v: u32 = io.read(0x10);
+ ///
+ /// // 8-bit read from the top of the I/O space.
+ /// let v: u8 = io.read(0xfff);
+ /// }
+ /// ```
#[inline(always)]
fn read<T, L>(&self, location: L) -> T
where
}
/// Generic infallible write with compile-time bounds check.
+ ///
+ /// # Examples
+ ///
+ /// Write a primitive type to an I/O address:
+ ///
+ /// ```no_run
+ /// use kernel::io::{
+ /// Io,
+ /// Mmio,
+ /// };
+ ///
+ /// fn do_writes(io: &Mmio<0x1000>) {
+ /// // 32-bit write of value `1` at address `0x10`.
+ /// io.write(0x10, 1u32);
+ ///
+ /// // 8-bit write of value `0xff` at the top of the I/O space.
+ /// io.write(0xfff, 0xffu8);
+ /// }
+ /// ```
#[inline(always)]
fn write<T, L>(&self, location: L, value: T)
where
///
/// Note: this does not perform any synchronization. The caller is responsible for ensuring
/// exclusive access if required.
+ ///
+ /// # Examples
+ ///
+ /// Read the u32 value at address `0x10`, increment it, and store the updated value back:
+ ///
+ /// ```no_run
+ /// use kernel::io::{
+ /// Io,
+ /// Mmio,
+ /// };
+ ///
+ /// fn do_update(io: &Mmio<0x1000>) {
+ /// io.update(0x10, |v: u32| {
+ /// v + 1
+ /// })
+ /// }
+ /// ```
#[inline(always)]
fn update<T, L, F>(&self, location: L, f: F)
where
projects / thirdparty / kernel / linux.git / commitdiff
