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linux/drivers/gpu/nova-core/regs/macros.rs
Linus Torvalds 352af6a011 Rust changes for v6.17 
Toolchain and infrastructure:
 
  - Enable a set of Clippy lints: 'ptr_as_ptr', 'ptr_cast_constness',
    'as_ptr_cast_mut', 'as_underscore', 'cast_lossless' and 'ref_as_ptr'.
 
    These are intended to avoid type casts with the 'as' operator, which
    are quite powerful, into restricted variants that are less powerful
    and thus should help to avoid mistakes.
 
  - Remove the 'author' key now that most instances were moved to the
    plural one in the previous cycle.
 
 'kernel' crate:
 
  - New 'bug' module: add 'warn_on!' macro which reuses the existing
    'BUG'/'WARN' infrastructure, i.e. it respects the usual sysctls and
    kernel parameters:
 
        warn_on!(value == 42);
 
    To avoid duplicating the assembly code, the same strategy is followed
    as for the static branch code in order to share the assembly between
    both C and Rust. This required a few rearrangements on C arch headers
    -- the existing C macros should still generate the same outputs, thus
    no functional change expected there.
 
  - 'workqueue' module: add delayed work items, including a 'DelayedWork'
    struct, a 'impl_has_delayed_work!' macro and an 'enqueue_delayed'
    method, e.g.:
 
        /// Enqueue the struct for execution on the system workqueue,
        /// where its value will be printed 42 jiffies later.
        fn print_later(value: Arc<MyStruct>) {
            let _ = workqueue::system().enqueue_delayed(value, 42);
        }
 
  - New 'bits' module: add support for 'bit' and 'genmask' functions,
    with runtime- and compile-time variants, e.g.:
 
        static_assert!(0b00010000 == bit_u8(4));
        static_assert!(0b00011110 == genmask_u8(1..=4));
 
        assert!(checked_bit_u32(u32::BITS).is_none());
 
  - 'uaccess' module: add 'UserSliceReader::strcpy_into_buf', which reads
    NUL-terminated strings from userspace into a '&CStr'.
 
    Introduce 'UserPtr' newtype, similar in purpose to '__user' in C, to
    minimize mistakes handling userspace pointers, including mixing them
    up with integers and leaking them via the 'Debug' trait. Add it to
    the prelude, too.
 
  - Start preparations for the replacement of our custom 'CStr' type
    with the analogous type in the 'core' standard library. This will
    take place across several cycles to make it easier. For this one,
    it includes a new 'fmt' module, using upstream method names and some
    other cleanups.
 
    Replace 'fmt!' with a re-export, which helps Clippy lint properly,
    and clean up the found 'uninlined-format-args' instances.
 
  - 'dma' module:
 
    - Clarify wording and be consistent in 'coherent' nomenclature.
 
    - Convert the 'read!()' and 'write!()' macros to return a 'Result'.
 
    - Add 'as_slice()', 'write()' methods in 'CoherentAllocation'.
 
    - Expose 'count()' and 'size()' in 'CoherentAllocation' and add the
      corresponding type invariants.
 
    - Implement 'CoherentAllocation::dma_handle_with_offset()'.
 
  - 'time' module:
 
    - Make 'Instant' generic over clock source. This allows the compiler
      to assert that arithmetic expressions involving the 'Instant' use
      'Instants' based on the same clock source.
 
    - Make 'HrTimer' generic over the timer mode. 'HrTimer' timers take a
      'Duration' or an 'Instant' when setting the expiry time, depending
      on the timer mode. With this change, the compiler can check the
      type matches the timer mode.
 
    - Add an abstraction for 'fsleep'. 'fsleep' is a flexible sleep
      function that will select an appropriate sleep method depending on
      the requested sleep time.
 
    - Avoid 64-bit divisions on 32-bit hardware when calculating
      timestamps.
 
    - Seal the 'HrTimerMode' trait. This prevents users of the
      'HrTimerMode' from implementing the trait on their own types.
 
    - Pass the correct timer mode ID to 'hrtimer_start_range_ns()'.
 
  - 'list' module: remove 'OFFSET' constants, allowing to remove pointer
    arithmetic; now 'impl_list_item!' invokes 'impl_has_list_links!' or
    'impl_has_list_links_self_ptr!'. Other simplifications too.
 
  - 'types' module: remove 'ForeignOwnable::PointedTo' in favor of a
    constant, which avoids exposing the type of the opaque pointer, and
    require 'into_foreign' to return non-null.
 
    Remove the 'Either<L, R>' type as well. It is unused, and we want to
    encourage the use of custom enums for concrete use cases.
 
  - 'sync' module: implement 'Borrow' and 'BorrowMut' for 'Arc' types
    to allow them to be used in generic APIs.
 
  - 'alloc' module: implement 'Borrow' and 'BorrowMut' for 'Box<T, A>';
     and 'Borrow', 'BorrowMut' and 'Default' for 'Vec<T, A>'.
 
  - 'Opaque' type: add 'cast_from' method to perform a restricted cast
    that cannot change the inner type and use it in callers of
    'container_of!'. Rename 'raw_get' to 'cast_into' to match it.
 
  - 'rbtree' module: add 'is_empty' method.
 
  - 'sync' module: new 'aref' submodule to hold 'AlwaysRefCounted' and
    'ARef', which are moved from the too general 'types' module which we
    want to reduce or eventually remove. Also fix a safety comment in
    'static_lock_class'.
 
 'pin-init' crate:
 
  - Add 'impl<T, E> [Pin]Init<T, E> for Result<T, E>', so results are now
    (pin-)initializers.
 
  - Add 'Zeroable::init_zeroed()' that delegates to 'init_zeroed()'.
 
  - New 'zeroed()', a safe version of 'mem::zeroed()' and also provide
    it via 'Zeroable::zeroed()'.
 
  - Implement 'Zeroable' for 'Option<&T>', 'Option<&mut T>' and for
    'Option<[unsafe] [extern "abi"] fn(...args...) -> ret>' for '"Rust"'
    and '"C"' ABIs and up to 20 arguments.
 
  - Changed blanket impls of 'Init' and 'PinInit' from 'impl<T, E>
    [Pin]Init<T, E> for T' to 'impl<T> [Pin]Init<T> for T'.
 
  - Renamed 'zeroed()' to 'init_zeroed()'.
 
  - Upstream dev news: improve CI more to deny warnings, use
    '--all-targets'. Check the synchronization status of the two '-next'
    branches in upstream and the kernel.
 
 MAINTAINERS:
 
  - Add Vlastimil Babka, Liam R. Howlett, Uladzislau Rezki and Lorenzo
    Stoakes as reviewers (thanks everyone).
 
 And a few other cleanups and improvements.
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Merge tag 'rust-6.17' of git://git.kernel.org/pub/scm/linux/kernel/git/ojeda/linux

Pull Rust updates from Miguel Ojeda:
 "Toolchain and infrastructure:

   - Enable a set of Clippy lints: 'ptr_as_ptr', 'ptr_cast_constness',
     'as_ptr_cast_mut', 'as_underscore', 'cast_lossless' and
     'ref_as_ptr'

     These are intended to avoid type casts with the 'as' operator,
     which are quite powerful, into restricted variants that are less
     powerful and thus should help to avoid mistakes

   - Remove the 'author' key now that most instances were moved to the
     plural one in the previous cycle

  'kernel' crate:

   - New 'bug' module: add 'warn_on!' macro which reuses the existing
     'BUG'/'WARN' infrastructure, i.e. it respects the usual sysctls and
     kernel parameters:

         warn_on!(value == 42);

     To avoid duplicating the assembly code, the same strategy is
     followed as for the static branch code in order to share the
     assembly between both C and Rust

     This required a few rearrangements on C arch headers -- the
     existing C macros should still generate the same outputs, thus no
     functional change expected there

   - 'workqueue' module: add delayed work items, including a
     'DelayedWork' struct, a 'impl_has_delayed_work!' macro and an
     'enqueue_delayed' method, e.g.:

         /// Enqueue the struct for execution on the system workqueue,
         /// where its value will be printed 42 jiffies later.
         fn print_later(value: Arc<MyStruct>) {
             let _ = workqueue::system().enqueue_delayed(value, 42);
         }

   - New 'bits' module: add support for 'bit' and 'genmask' functions,
     with runtime- and compile-time variants, e.g.:

         static_assert!(0b00010000 == bit_u8(4));
         static_assert!(0b00011110 == genmask_u8(1..=4));

         assert!(checked_bit_u32(u32::BITS).is_none());

   - 'uaccess' module: add 'UserSliceReader::strcpy_into_buf', which
     reads NUL-terminated strings from userspace into a '&CStr'

     Introduce 'UserPtr' newtype, similar in purpose to '__user' in C,
     to minimize mistakes handling userspace pointers, including mixing
     them up with integers and leaking them via the 'Debug' trait. Add
     it to the prelude, too

   - Start preparations for the replacement of our custom 'CStr' type
     with the analogous type in the 'core' standard library. This will
     take place across several cycles to make it easier. For this one,
     it includes a new 'fmt' module, using upstream method names and
     some other cleanups

     Replace 'fmt!' with a re-export, which helps Clippy lint properly,
     and clean up the found 'uninlined-format-args' instances

   - 'dma' module:

      - Clarify wording and be consistent in 'coherent' nomenclature

      - Convert the 'read!()' and 'write!()' macros to return a 'Result'

      - Add 'as_slice()', 'write()' methods in 'CoherentAllocation'

      - Expose 'count()' and 'size()' in 'CoherentAllocation' and add
        the corresponding type invariants

      - Implement 'CoherentAllocation::dma_handle_with_offset()'

   - 'time' module:

      - Make 'Instant' generic over clock source. This allows the
        compiler to assert that arithmetic expressions involving the
        'Instant' use 'Instants' based on the same clock source

      - Make 'HrTimer' generic over the timer mode. 'HrTimer' timers
        take a 'Duration' or an 'Instant' when setting the expiry time,
        depending on the timer mode. With this change, the compiler can
        check the type matches the timer mode

      - Add an abstraction for 'fsleep'. 'fsleep' is a flexible sleep
        function that will select an appropriate sleep method depending
        on the requested sleep time

      - Avoid 64-bit divisions on 32-bit hardware when calculating
        timestamps

      - Seal the 'HrTimerMode' trait. This prevents users of the
        'HrTimerMode' from implementing the trait on their own types

      - Pass the correct timer mode ID to 'hrtimer_start_range_ns()'

   - 'list' module: remove 'OFFSET' constants, allowing to remove
     pointer arithmetic; now 'impl_list_item!' invokes
     'impl_has_list_links!' or 'impl_has_list_links_self_ptr!'. Other
     simplifications too

   - 'types' module: remove 'ForeignOwnable::PointedTo' in favor of a
     constant, which avoids exposing the type of the opaque pointer, and
     require 'into_foreign' to return non-null

     Remove the 'Either<L, R>' type as well. It is unused, and we want
     to encourage the use of custom enums for concrete use cases

   - 'sync' module: implement 'Borrow' and 'BorrowMut' for 'Arc' types
     to allow them to be used in generic APIs

   - 'alloc' module: implement 'Borrow' and 'BorrowMut' for 'Box<T, A>';
     and 'Borrow', 'BorrowMut' and 'Default' for 'Vec<T, A>'

   - 'Opaque' type: add 'cast_from' method to perform a restricted cast
     that cannot change the inner type and use it in callers of
     'container_of!'. Rename 'raw_get' to 'cast_into' to match it

   - 'rbtree' module: add 'is_empty' method

   - 'sync' module: new 'aref' submodule to hold 'AlwaysRefCounted' and
     'ARef', which are moved from the too general 'types' module which
     we want to reduce or eventually remove. Also fix a safety comment
     in 'static_lock_class'

  'pin-init' crate:

   - Add 'impl<T, E> [Pin]Init<T, E> for Result<T, E>', so results are
     now (pin-)initializers

   - Add 'Zeroable::init_zeroed()' that delegates to 'init_zeroed()'

   - New 'zeroed()', a safe version of 'mem::zeroed()' and also provide
     it via 'Zeroable::zeroed()'

   - Implement 'Zeroable' for 'Option<&T>', 'Option<&mut T>' and for
     'Option<[unsafe] [extern "abi"] fn(...args...) -> ret>' for
     '"Rust"' and '"C"' ABIs and up to 20 arguments

   - Changed blanket impls of 'Init' and 'PinInit' from 'impl<T, E>
     [Pin]Init<T, E> for T' to 'impl<T> [Pin]Init<T> for T'

   - Renamed 'zeroed()' to 'init_zeroed()'

   - Upstream dev news: improve CI more to deny warnings, use
     '--all-targets'. Check the synchronization status of the two
     '-next' branches in upstream and the kernel

  MAINTAINERS:

   - Add Vlastimil Babka, Liam R. Howlett, Uladzislau Rezki and Lorenzo
     Stoakes as reviewers (thanks everyone)

  And a few other cleanups and improvements"

* tag 'rust-6.17' of git://git.kernel.org/pub/scm/linux/kernel/git/ojeda/linux: (76 commits)
  rust: Add warn_on macro
  arm64/bug: Add ARCH_WARN_ASM macro for BUG/WARN asm code sharing with Rust
  riscv/bug: Add ARCH_WARN_ASM macro for BUG/WARN asm code sharing with Rust
  x86/bug: Add ARCH_WARN_ASM macro for BUG/WARN asm code sharing with Rust
  rust: kernel: move ARef and AlwaysRefCounted to sync::aref
  rust: sync: fix safety comment for `static_lock_class`
  rust: types: remove `Either<L, R>`
  rust: kernel: use `core::ffi::CStr` method names
  rust: str: add `CStr` methods matching `core::ffi::CStr`
  rust: str: remove unnecessary qualification
  rust: use `kernel::{fmt,prelude::fmt!}`
  rust: kernel: add `fmt` module
  rust: kernel: remove `fmt!`, fix clippy::uninlined-format-args
  scripts: rust: emit path candidates in panic message
  scripts: rust: replace length checks with match
  rust: list: remove nonexistent generic parameter in link
  rust: bits: add support for bits/genmask macros
  rust: list: remove OFFSET constants
  rust: list: add `impl_list_item!` examples
  rust: list: use fully qualified path
  ...
2025-08-03 13:49:10 -07:00

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// SPDX-License-Identifier: GPL-2.0
//! Macro to define register layout and accessors.
//!
//! A single register typically includes several fields, which are accessed through a combination
//! of bit-shift and mask operations that introduce a class of potential mistakes, notably because
//! not all possible field values are necessarily valid.
//!
//! The macro in this module allow to define, using an intruitive and readable syntax, a dedicated
//! type for each register with its own field accessors that can return an error is a field's value
//! is invalid.
/// Defines a dedicated type for a register with an absolute offset, alongside with getter and
/// setter methods for its fields and methods to read and write it from an `Io` region.
///
/// Example:
///
/// ```no_run
/// register!(BOOT_0 @ 0x00000100, "Basic revision information about the GPU" {
/// 3:0 minor_revision as u8, "Minor revision of the chip";
/// 7:4 major_revision as u8, "Major revision of the chip";
/// 28:20 chipset as u32 ?=> Chipset, "Chipset model";
/// });
/// ```
///
/// This defines a `BOOT_0` type which can be read or written from offset `0x100` of an `Io`
/// region. It is composed of 3 fields, for instance `minor_revision` is made of the 4 less
/// significant bits of the register. Each field can be accessed and modified using accessor
/// methods:
///
/// ```no_run
/// // Read from the register's defined offset (0x100).
/// let boot0 = BOOT_0::read(&bar);
/// pr_info!("chip revision: {}.{}", boot0.major_revision(), boot0.minor_revision());
///
/// // `Chipset::try_from` will be called with the value of the field and returns an error if the
/// // value is invalid.
/// let chipset = boot0.chipset()?;
///
/// // Update some fields and write the value back.
/// boot0.set_major_revision(3).set_minor_revision(10).write(&bar);
///
/// // Or just read and update the register in a single step:
/// BOOT_0::alter(&bar, |r| r.set_major_revision(3).set_minor_revision(10));
/// ```
///
/// Fields can be defined as follows:
///
/// - `as <type>` simply returns the field value casted as the requested integer type, typically
/// `u32`, `u16`, `u8` or `bool`. Note that `bool` fields must have a range of 1 bit.
/// - `as <type> => <into_type>` calls `<into_type>`'s `From::<<type>>` implementation and returns
/// the result.
/// - `as <type> ?=> <try_into_type>` calls `<try_into_type>`'s `TryFrom::<<type>>` implementation
/// and returns the result. This is useful on fields for which not all values are value.
///
/// The documentation strings are optional. If present, they will be added to the type's
/// definition, or the field getter and setter methods they are attached to.
///
/// Putting a `+` before the address of the register makes it relative to a base: the `read` and
/// `write` methods take a `base` argument that is added to the specified address before access,
/// and `try_read` and `try_write` methods are also created, allowing access with offsets unknown
/// at compile-time:
///
/// ```no_run
/// register!(CPU_CTL @ +0x0000010, "CPU core control" {
/// 0:0 start as bool, "Start the CPU core";
/// });
///
/// // Flip the `start` switch for the CPU core which base address is at `CPU_BASE`.
/// let cpuctl = CPU_CTL::read(&bar, CPU_BASE);
/// pr_info!("CPU CTL: {:#x}", cpuctl);
/// cpuctl.set_start(true).write(&bar, CPU_BASE);
/// ```
///
/// It is also possible to create a alias register by using the `=> ALIAS` syntax. This is useful
/// for cases where a register's interpretation depends on the context:
///
/// ```no_run
/// register!(SCRATCH_0 @ 0x0000100, "Scratch register 0" {
/// 31:0 value as u32, "Raw value";
///
/// register!(SCRATCH_0_BOOT_STATUS => SCRATCH_0, "Boot status of the firmware" {
/// 0:0 completed as bool, "Whether the firmware has completed booting";
/// ```
///
/// In this example, `SCRATCH_0_BOOT_STATUS` uses the same I/O address as `SCRATCH_0`, while also
/// providing its own `completed` method.
macro_rules! register {
// Creates a register at a fixed offset of the MMIO space.
(
$name:ident @ $offset:literal $(, $comment:literal)? {
$($fields:tt)*
}
) => {
register!(@common $name @ $offset $(, $comment)?);
register!(@field_accessors $name { $($fields)* });
register!(@io $name @ $offset);
};
// Creates a alias register of fixed offset register `alias` with its own fields.
(
$name:ident => $alias:ident $(, $comment:literal)? {
$($fields:tt)*
}
) => {
register!(@common $name @ $alias::OFFSET $(, $comment)?);
register!(@field_accessors $name { $($fields)* });
register!(@io $name @ $alias::OFFSET);
};
// Creates a register at a relative offset from a base address.
(
$name:ident @ + $offset:literal $(, $comment:literal)? {
$($fields:tt)*
}
) => {
register!(@common $name @ $offset $(, $comment)?);
register!(@field_accessors $name { $($fields)* });
register!(@io$name @ + $offset);
};
// Creates a alias register of relative offset register `alias` with its own fields.
(
$name:ident => + $alias:ident $(, $comment:literal)? {
$($fields:tt)*
}
) => {
register!(@common $name @ $alias::OFFSET $(, $comment)?);
register!(@field_accessors $name { $($fields)* });
register!(@io $name @ + $alias::OFFSET);
};
// All rules below are helpers.
// Defines the wrapper `$name` type, as well as its relevant implementations (`Debug`, `BitOr`,
// and conversion to regular `u32`).
(@common $name:ident @ $offset:expr $(, $comment:literal)?) => {
$(
#[doc=$comment]
)?
#[repr(transparent)]
#[derive(Clone, Copy, Default)]
pub(crate) struct $name(u32);
#[allow(dead_code)]
impl $name {
pub(crate) const OFFSET: usize = $offset;
}
// TODO[REGA]: display the raw hex value, then the value of all the fields. This requires
// matching the fields, which will complexify the syntax considerably...
impl ::core::fmt::Debug for $name {
fn fmt(&self, f: &mut ::core::fmt::Formatter<'_>) -> ::core::fmt::Result {
f.debug_tuple(stringify!($name))
.field(&format_args!("0x{0:x}", &self.0))
.finish()
}
}
impl ::core::ops::BitOr for $name {
type Output = Self;
fn bitor(self, rhs: Self) -> Self::Output {
Self(self.0 | rhs.0)
}
}
impl ::core::convert::From<$name> for u32 {
fn from(reg: $name) -> u32 {
reg.0
}
}
};
// Defines all the field getter/methods methods for `$name`.
(
@field_accessors $name:ident {
$($hi:tt:$lo:tt $field:ident as $type:tt
$(?=> $try_into_type:ty)?
$(=> $into_type:ty)?
$(, $comment:literal)?
;
)*
}
) => {
$(
register!(@check_field_bounds $hi:$lo $field as $type);
)*
#[allow(dead_code)]
impl $name {
$(
register!(@field_accessor $name $hi:$lo $field as $type
$(?=> $try_into_type)?
$(=> $into_type)?
$(, $comment)?
;
);
)*
}
};
// Boolean fields must have `$hi == $lo`.
(@check_field_bounds $hi:tt:$lo:tt $field:ident as bool) => {
#[allow(clippy::eq_op)]
const _: () = {
::kernel::build_assert!(
$hi == $lo,
concat!("boolean field `", stringify!($field), "` covers more than one bit")
);
};
};
// Non-boolean fields must have `$hi >= $lo`.
(@check_field_bounds $hi:tt:$lo:tt $field:ident as $type:tt) => {
#[allow(clippy::eq_op)]
const _: () = {
::kernel::build_assert!(
$hi >= $lo,
concat!("field `", stringify!($field), "`'s MSB is smaller than its LSB")
);
};
};
// Catches fields defined as `bool` and convert them into a boolean value.
(
@field_accessor $name:ident $hi:tt:$lo:tt $field:ident as bool => $into_type:ty
$(, $comment:literal)?;
) => {
register!(
@leaf_accessor $name $hi:$lo $field as bool
{ |f| <$into_type>::from(if f != 0 { true } else { false }) }
$into_type => $into_type $(, $comment)?;
);
};
// Shortcut for fields defined as `bool` without the `=>` syntax.
(
@field_accessor $name:ident $hi:tt:$lo:tt $field:ident as bool $(, $comment:literal)?;
) => {
register!(@field_accessor $name $hi:$lo $field as bool => bool $(, $comment)?;);
};
// Catches the `?=>` syntax for non-boolean fields.
(
@field_accessor $name:ident $hi:tt:$lo:tt $field:ident as $type:tt ?=> $try_into_type:ty
$(, $comment:literal)?;
) => {
register!(@leaf_accessor $name $hi:$lo $field as $type
{ |f| <$try_into_type>::try_from(f as $type) } $try_into_type =>
::core::result::Result<
$try_into_type,
<$try_into_type as ::core::convert::TryFrom<$type>>::Error
>
$(, $comment)?;);
};
// Catches the `=>` syntax for non-boolean fields.
(
@field_accessor $name:ident $hi:tt:$lo:tt $field:ident as $type:tt => $into_type:ty
$(, $comment:literal)?;
) => {
register!(@leaf_accessor $name $hi:$lo $field as $type
{ |f| <$into_type>::from(f as $type) } $into_type => $into_type $(, $comment)?;);
};
// Shortcut for fields defined as non-`bool` without the `=>` or `?=>` syntax.
(
@field_accessor $name:ident $hi:tt:$lo:tt $field:ident as $type:tt
$(, $comment:literal)?;
) => {
register!(@field_accessor $name $hi:$lo $field as $type => $type $(, $comment)?;);
};
// Generates the accessor methods for a single field.
(
@leaf_accessor $name:ident $hi:tt:$lo:tt $field:ident as $type:ty
{ $process:expr } $to_type:ty => $res_type:ty $(, $comment:literal)?;
) => {
::kernel::macros::paste!(
const [<$field:upper>]: ::core::ops::RangeInclusive<u8> = $lo..=$hi;
const [<$field:upper _MASK>]: u32 = ((((1 << $hi) - 1) << 1) + 1) - ((1 << $lo) - 1);
const [<$field:upper _SHIFT>]: u32 = Self::[<$field:upper _MASK>].trailing_zeros();
);
$(
#[doc="Returns the value of this field:"]
#[doc=$comment]
)?
#[inline]
pub(crate) fn $field(self) -> $res_type {
::kernel::macros::paste!(
const MASK: u32 = $name::[<$field:upper _MASK>];
const SHIFT: u32 = $name::[<$field:upper _SHIFT>];
);
let field = ((self.0 & MASK) >> SHIFT);
$process(field)
}
::kernel::macros::paste!(
$(
#[doc="Sets the value of this field:"]
#[doc=$comment]
)?
#[inline]
pub(crate) fn [<set_ $field>](mut self, value: $to_type) -> Self {
const MASK: u32 = $name::[<$field:upper _MASK>];
const SHIFT: u32 = $name::[<$field:upper _SHIFT>];
let value = (u32::from(value) << SHIFT) & MASK;
self.0 = (self.0 & !MASK) | value;
self
}
);
};
// Creates the IO accessors for a fixed offset register.
(@io $name:ident @ $offset:expr) => {
#[allow(dead_code)]
impl $name {
#[inline]
pub(crate) fn read<const SIZE: usize, T>(io: &T) -> Self where
T: ::core::ops::Deref<Target = ::kernel::io::Io<SIZE>>,
{
Self(io.read32($offset))
}
#[inline]
pub(crate) fn write<const SIZE: usize, T>(self, io: &T) where
T: ::core::ops::Deref<Target = ::kernel::io::Io<SIZE>>,
{
io.write32(self.0, $offset)
}
#[inline]
pub(crate) fn alter<const SIZE: usize, T, F>(
io: &T,
f: F,
) where
T: ::core::ops::Deref<Target = ::kernel::io::Io<SIZE>>,
F: ::core::ops::FnOnce(Self) -> Self,
{
let reg = f(Self::read(io));
reg.write(io);
}
}
};
// Create the IO accessors for a relative offset register.
(@io $name:ident @ + $offset:literal) => {
#[allow(dead_code)]
impl $name {
#[inline]
pub(crate) fn read<const SIZE: usize, T>(
io: &T,
base: usize,
) -> Self where
T: ::core::ops::Deref<Target = ::kernel::io::Io<SIZE>>,
{
Self(io.read32(base + $offset))
}
#[inline]
pub(crate) fn write<const SIZE: usize, T>(
self,
io: &T,
base: usize,
) where
T: ::core::ops::Deref<Target = ::kernel::io::Io<SIZE>>,
{
io.write32(self.0, base + $offset)
}
#[inline]
pub(crate) fn alter<const SIZE: usize, T, F>(
io: &T,
base: usize,
f: F,
) where
T: ::core::ops::Deref<Target = ::kernel::io::Io<SIZE>>,
F: ::core::ops::FnOnce(Self) -> Self,
{
let reg = f(Self::read(io, base));
reg.write(io, base);
}
#[inline]
pub(crate) fn try_read<const SIZE: usize, T>(
io: &T,
base: usize,
) -> ::kernel::error::Result<Self> where
T: ::core::ops::Deref<Target = ::kernel::io::Io<SIZE>>,
{
io.try_read32(base + $offset).map(Self)
}
#[inline]
pub(crate) fn try_write<const SIZE: usize, T>(
self,
io: &T,
base: usize,
) -> ::kernel::error::Result<()> where
T: ::core::ops::Deref<Target = ::kernel::io::Io<SIZE>>,
{
io.try_write32(self.0, base + $offset)
}
#[inline]
pub(crate) fn try_alter<const SIZE: usize, T, F>(
io: &T,
base: usize,
f: F,
) -> ::kernel::error::Result<()> where
T: ::core::ops::Deref<Target = ::kernel::io::Io<SIZE>>,
F: ::core::ops::FnOnce(Self) -> Self,
{
let reg = f(Self::try_read(io, base)?);
reg.try_write(io, base)
}
}
};
}
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