// SPDX-License-Identifier: GPL-2.0 //! Bitfield library for Rust structures //! //! Support for defining bitfields in Rust structures. Also used by the [`register!`] macro. /// Defines a struct with accessors to access bits within an inner unsigned integer. /// /// # Syntax /// /// ```rust /// use nova_core::bitfield; /// /// #[derive(Debug, Clone, Copy, Default)] /// enum Mode { /// #[default] /// Low = 0, /// High = 1, /// Auto = 2, /// } /// /// impl TryFrom for Mode { /// type Error = u8; /// fn try_from(value: u8) -> Result { /// match value { /// 0 => Ok(Mode::Low), /// 1 => Ok(Mode::High), /// 2 => Ok(Mode::Auto), /// _ => Err(value), /// } /// } /// } /// /// impl From for u8 { /// fn from(mode: Mode) -> u8 { /// mode as u8 /// } /// } /// /// #[derive(Debug, Clone, Copy, Default)] /// enum State { /// #[default] /// Inactive = 0, /// Active = 1, /// } /// /// impl From for State { /// fn from(value: bool) -> Self { /// if value { State::Active } else { State::Inactive } /// } /// } /// /// impl From for bool { /// fn from(state: State) -> bool { /// match state { /// State::Inactive => false, /// State::Active => true, /// } /// } /// } /// /// bitfield! { /// pub struct ControlReg(u32) { /// 7:7 state as bool => State; /// 3:0 mode as u8 ?=> Mode; /// } /// } /// ``` /// /// This generates a struct with: /// - Field accessors: `mode()`, `state()`, etc. /// - Field setters: `set_mode()`, `set_state()`, etc. (supports chaining with builder pattern). /// Note that the compiler will error out if the size of the setter's arg exceeds the /// struct's storage size. /// - Debug and Default implementations. /// /// Note: Field accessors and setters inherit the same visibility as the struct itself. /// In the example above, both `mode()` and `set_mode()` methods will be `pub`. /// /// Fields are defined as follows: /// /// - `as ` simply returns the field value casted to , typically `u32`, `u16`, `u8` or /// `bool`. Note that `bool` fields must have a range of 1 bit. /// - `as => ` calls ``'s `From::<>` implementation and returns /// the result. /// - `as ?=> ` calls ``'s `TryFrom::<>` implementation /// and returns the result. This is useful with fields for which not all values are valid. macro_rules! bitfield { // Main entry point - defines the bitfield struct with fields ($vis:vis struct $name:ident($storage:ty) $(, $comment:literal)? { $($fields:tt)* }) => { bitfield!(@core $vis $name $storage $(, $comment)? { $($fields)* }); }; // All rules below are helpers. // Defines the wrapper `$name` type, as well as its relevant implementations (`Debug`, // `Default`, and conversion to the value type) and field accessor methods. (@core $vis:vis $name:ident $storage:ty $(, $comment:literal)? { $($fields:tt)* }) => { $( #[doc=$comment] )? #[repr(transparent)] #[derive(Clone, Copy)] $vis struct $name($storage); impl ::core::convert::From<$name> for $storage { fn from(val: $name) -> $storage { val.0 } } bitfield!(@fields_dispatcher $vis $name $storage { $($fields)* }); }; // Captures the fields and passes them to all the implementers that require field information. // // Used to simplify the matching rules for implementers, so they don't need to match the entire // complex fields rule even though they only make use of part of it. (@fields_dispatcher $vis:vis $name:ident $storage:ty { $($hi:tt:$lo:tt $field:ident as $type:tt $(?=> $try_into_type:ty)? $(=> $into_type:ty)? $(, $comment:literal)? ; )* } ) => { bitfield!(@field_accessors $vis $name $storage { $( $hi:$lo $field as $type $(?=> $try_into_type)? $(=> $into_type)? $(, $comment)? ; )* }); bitfield!(@debug $name { $($field;)* }); bitfield!(@default $name { $($field;)* }); }; // Defines all the field getter/setter methods for `$name`. ( @field_accessors $vis:vis $name:ident $storage:ty { $($hi:tt:$lo:tt $field:ident as $type:tt $(?=> $try_into_type:ty)? $(=> $into_type:ty)? $(, $comment:literal)? ; )* } ) => { $( bitfield!(@check_field_bounds $hi:$lo $field as $type); )* #[allow(dead_code)] impl $name { $( bitfield!(@field_accessor $vis $name $storage, $hi:$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 $vis:vis $name:ident $storage:ty, $hi:tt:$lo:tt $field:ident as bool => $into_type:ty $(, $comment:literal)?; ) => { bitfield!( @leaf_accessor $vis $name $storage, $hi:$lo $field { |f| <$into_type>::from(f != 0) } bool $into_type => $into_type $(, $comment)?; ); }; // Shortcut for fields defined as `bool` without the `=>` syntax. ( @field_accessor $vis:vis $name:ident $storage:ty, $hi:tt:$lo:tt $field:ident as bool $(, $comment:literal)?; ) => { bitfield!( @field_accessor $vis $name $storage, $hi:$lo $field as bool => bool $(, $comment)?; ); }; // Catches the `?=>` syntax for non-boolean fields. ( @field_accessor $vis:vis $name:ident $storage:ty, $hi:tt:$lo:tt $field:ident as $type:tt ?=> $try_into_type:ty $(, $comment:literal)?; ) => { bitfield!(@leaf_accessor $vis $name $storage, $hi:$lo $field { |f| <$try_into_type>::try_from(f as $type) } $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 $vis:vis $name:ident $storage:ty, $hi:tt:$lo:tt $field:ident as $type:tt => $into_type:ty $(, $comment:literal)?; ) => { bitfield!(@leaf_accessor $vis $name $storage, $hi:$lo $field { |f| <$into_type>::from(f as $type) } $type $into_type => $into_type $(, $comment)?;); }; // Shortcut for non-boolean fields defined without the `=>` or `?=>` syntax. ( @field_accessor $vis:vis $name:ident $storage:ty, $hi:tt:$lo:tt $field:ident as $type:tt $(, $comment:literal)?; ) => { bitfield!( @field_accessor $vis $name $storage, $hi:$lo $field as $type => $type $(, $comment)?; ); }; // Generates the accessor methods for a single field. ( @leaf_accessor $vis:vis $name:ident $storage:ty, $hi:tt:$lo:tt $field:ident { $process:expr } $prim_type:tt $to_type:ty => $res_type:ty $(, $comment:literal)?; ) => { ::kernel::macros::paste!( const [<$field:upper _RANGE>]: ::core::ops::RangeInclusive = $lo..=$hi; const [<$field:upper _MASK>]: $storage = { // Generate mask for shifting match ::core::mem::size_of::<$storage>() { 1 => ::kernel::bits::genmask_u8($lo..=$hi) as $storage, 2 => ::kernel::bits::genmask_u16($lo..=$hi) as $storage, 4 => ::kernel::bits::genmask_u32($lo..=$hi) as $storage, 8 => ::kernel::bits::genmask_u64($lo..=$hi) as $storage, _ => ::kernel::build_error!("Unsupported storage type size") } }; const [<$field:upper _SHIFT>]: u32 = $lo; ); $( #[doc="Returns the value of this field:"] #[doc=$comment] )? #[inline(always)] $vis fn $field(self) -> $res_type { ::kernel::macros::paste!( const MASK: $storage = $name::[<$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(always)] $vis fn [](mut self, value: $to_type) -> Self { const MASK: $storage = $name::[<$field:upper _MASK>]; const SHIFT: u32 = $name::[<$field:upper _SHIFT>]; let value = ($storage::from($prim_type::from(value)) << SHIFT) & MASK; self.0 = (self.0 & !MASK) | value; self } ); }; // Generates the `Debug` implementation for `$name`. (@debug $name:ident { $($field:ident;)* }) => { impl ::kernel::fmt::Debug for $name { fn fmt(&self, f: &mut ::kernel::fmt::Formatter<'_>) -> ::kernel::fmt::Result { f.debug_struct(stringify!($name)) .field("", &::kernel::prelude::fmt!("{:#x}", &self.0)) $( .field(stringify!($field), &self.$field()) )* .finish() } } }; // Generates the `Default` implementation for `$name`. (@default $name:ident { $($field:ident;)* }) => { /// Returns a value for the bitfield where all fields are set to their default value. impl ::core::default::Default for $name { fn default() -> Self { #[allow(unused_mut)] let mut value = Self(Default::default()); ::kernel::macros::paste!( $( value.[](Default::default()); )* ); value } } }; }