1 files changed, 50 insertions, 64 deletions

diff --git a/rust/kernel/dma.rs b/rust/kernel/dma.rs
index 909d56fd5118..a396f8435739 100644
--- a/rust/kernel/dma.rs
+++ b/rust/kernel/dma.rs
@@ -461,6 +461,19 @@ impl<T: AsBytes + FromBytes> CoherentAllocation<T> {
         self.count * core::mem::size_of::<T>()
     }
 
+    /// Returns the raw pointer to the allocated region in the CPU's virtual address space.
+    #[inline]
+    pub fn as_ptr(&self) -> *const [T] {
+        core::ptr::slice_from_raw_parts(self.cpu_addr.as_ptr(), self.count)
+    }
+
+    /// Returns the raw pointer to the allocated region in the CPU's virtual address space as
+    /// a mutable pointer.
+    #[inline]
+    pub fn as_mut_ptr(&self) -> *mut [T] {
+        core::ptr::slice_from_raw_parts_mut(self.cpu_addr.as_ptr(), self.count)
+    }
+
     /// Returns the base address to the allocated region in the CPU's virtual address space.
     pub fn start_ptr(&self) -> *const T {
         self.cpu_addr.as_ptr()
@@ -581,23 +594,6 @@ impl<T: AsBytes + FromBytes> CoherentAllocation<T> {
         Ok(())
     }
 
-    /// Returns a pointer to an element from the region with bounds checking. `offset` is in
-    /// units of `T`, not the number of bytes.
-    ///
-    /// Public but hidden since it should only be used from [`dma_read`] and [`dma_write`] macros.
-    #[doc(hidden)]
-    pub fn item_from_index(&self, offset: usize) -> Result<*mut T> {
-        if offset >= self.count {
-            return Err(EINVAL);
-        }
-        // SAFETY:
-        // - The pointer is valid due to type invariant on `CoherentAllocation`
-        // and we've just checked that the range and index is within bounds.
-        // - `offset` can't overflow since it is smaller than `self.count` and we've checked
-        // that `self.count` won't overflow early in the constructor.
-        Ok(unsafe { self.cpu_addr.as_ptr().add(offset) })
-    }
-
     /// Reads the value of `field` and ensures that its type is [`FromBytes`].
     ///
     /// # Safety
@@ -670,6 +666,9 @@ unsafe impl<T: AsBytes + FromBytes + Send> Send for CoherentAllocation<T> {}
 
 /// Reads a field of an item from an allocated region of structs.
 ///
+/// The syntax is of the form `kernel::dma_read!(dma, proj)` where `dma` is an expression evaluating
+/// to a [`CoherentAllocation`] and `proj` is a [projection specification](kernel::ptr::project!).
+///
 /// # Examples
 ///
 /// ```
@@ -684,36 +683,29 @@ unsafe impl<T: AsBytes + FromBytes + Send> Send for CoherentAllocation<T> {}
 /// unsafe impl kernel::transmute::AsBytes for MyStruct{};
 ///
 /// # fn test(alloc: &kernel::dma::CoherentAllocation<MyStruct>) -> Result {
-/// let whole = kernel::dma_read!(alloc[2]);
-/// let field = kernel::dma_read!(alloc[1].field);
+/// let whole = kernel::dma_read!(alloc, [2]?);
+/// let field = kernel::dma_read!(alloc, [1]?.field);
 /// # Ok::<(), Error>(()) }
 /// ```
 #[macro_export]
 macro_rules! dma_read {
-    ($dma:expr, $idx: expr, $($field:tt)*) => {{
-        (|| -> ::core::result::Result<_, $crate::error::Error> {
-            let item = $crate::dma::CoherentAllocation::item_from_index(&$dma, $idx)?;
-            // SAFETY: `item_from_index` ensures that `item` is always a valid pointer and can be
-            // dereferenced. The compiler also further validates the expression on whether `field`
-            // is a member of `item` when expanded by the macro.
-            unsafe {
-                let ptr_field = ::core::ptr::addr_of!((*item) $($field)*);
-                ::core::result::Result::Ok(
-                    $crate::dma::CoherentAllocation::field_read(&$dma, ptr_field)
-                )
-            }
-        })()
+    ($dma:expr, $($proj:tt)*) => {{
+        let dma = &$dma;
+        let ptr = $crate::ptr::project!(
+            $crate::dma::CoherentAllocation::as_ptr(dma), $($proj)*
+        );
+        // SAFETY: The pointer created by the projection is within the DMA region.
+        unsafe { $crate::dma::CoherentAllocation::field_read(dma, ptr) }
     }};
-    ($dma:ident [ $idx:expr ] $($field:tt)* ) => {
-        $crate::dma_read!($dma, $idx, $($field)*)
-    };
-    ($($dma:ident).* [ $idx:expr ] $($field:tt)* ) => {
-        $crate::dma_read!($($dma).*, $idx, $($field)*)
-    };
 }
 
 /// Writes to a field of an item from an allocated region of structs.
 ///
+/// The syntax is of the form `kernel::dma_write!(dma, proj, val)` where `dma` is an expression
+/// evaluating to a [`CoherentAllocation`], `proj` is a
+/// [projection specification](kernel::ptr::project!), and `val` is the value to be written to the
+/// projected location.
+///
 /// # Examples
 ///
 /// ```
@@ -728,37 +720,31 @@ macro_rules! dma_read {
 /// unsafe impl kernel::transmute::AsBytes for MyStruct{};
 ///
 /// # fn test(alloc: &kernel::dma::CoherentAllocation<MyStruct>) -> Result {
-/// kernel::dma_write!(alloc[2].member = 0xf);
-/// kernel::dma_write!(alloc[1] = MyStruct { member: 0xf });
+/// kernel::dma_write!(alloc, [2]?.member, 0xf);
+/// kernel::dma_write!(alloc, [1]?, MyStruct { member: 0xf });
 /// # Ok::<(), Error>(()) }
 /// ```
 #[macro_export]
 macro_rules! dma_write {
-    ($dma:ident [ $idx:expr ] $($field:tt)*) => {{
-        $crate::dma_write!($dma, $idx, $($field)*)
-    }};
-    ($($dma:ident).* [ $idx:expr ] $($field:tt)* ) => {{
-        $crate::dma_write!($($dma).*, $idx, $($field)*)
+    (@parse [$dma:expr] [$($proj:tt)*] [, $val:expr]) => {{
+        let dma = &$dma;
+        let ptr = $crate::ptr::project!(
+            mut $crate::dma::CoherentAllocation::as_mut_ptr(dma), $($proj)*
+        );
+        let val = $val;
+        // SAFETY: The pointer created by the projection is within the DMA region.
+        unsafe { $crate::dma::CoherentAllocation::field_write(dma, ptr, val) }
     }};
-    ($dma:expr, $idx: expr, = $val:expr) => {
-        (|| -> ::core::result::Result<_, $crate::error::Error> {
-            let item = $crate::dma::CoherentAllocation::item_from_index(&$dma, $idx)?;
-            // SAFETY: `item_from_index` ensures that `item` is always a valid item.
-            unsafe { $crate::dma::CoherentAllocation::field_write(&$dma, item, $val) }
-            ::core::result::Result::Ok(())
-        })()
+    (@parse [$dma:expr] [$($proj:tt)*] [.$field:tt $($rest:tt)*]) => {
+        $crate::dma_write!(@parse [$dma] [$($proj)* .$field] [$($rest)*])
+    };
+    (@parse [$dma:expr] [$($proj:tt)*] [[$index:expr]? $($rest:tt)*]) => {
+        $crate::dma_write!(@parse [$dma] [$($proj)* [$index]?] [$($rest)*])
+    };
+    (@parse [$dma:expr] [$($proj:tt)*] [[$index:expr] $($rest:tt)*]) => {
+        $crate::dma_write!(@parse [$dma] [$($proj)* [$index]] [$($rest)*])
     };
-    ($dma:expr, $idx: expr, $(.$field:ident)* = $val:expr) => {
-        (|| -> ::core::result::Result<_, $crate::error::Error> {
-            let item = $crate::dma::CoherentAllocation::item_from_index(&$dma, $idx)?;
-            // SAFETY: `item_from_index` ensures that `item` is always a valid pointer and can be
-            // dereferenced. The compiler also further validates the expression on whether `field`
-            // is a member of `item` when expanded by the macro.
-            unsafe {
-                let ptr_field = ::core::ptr::addr_of_mut!((*item) $(.$field)*);
-                $crate::dma::CoherentAllocation::field_write(&$dma, ptr_field, $val)
-            }
-            ::core::result::Result::Ok(())
-        })()
+    ($dma:expr, $($rest:tt)*) => {
+        $crate::dma_write!(@parse [$dma] [] [$($rest)*])
     };
 }