diff options
Diffstat (limited to 'rust/kernel')
| -rw-r--r-- | rust/kernel/init.rs | 16 | ||||
| -rw-r--r-- | rust/kernel/init/macros.rs | 115 |
2 files changed, 129 insertions, 2 deletions
diff --git a/rust/kernel/init.rs b/rust/kernel/init.rs index ecf6a4bd0ce4..33f2666d5bae 100644 --- a/rust/kernel/init.rs +++ b/rust/kernel/init.rs @@ -508,14 +508,18 @@ macro_rules! stack_try_pin_init { /// - Fields that you want to initialize in-place have to use `<-` instead of `:`. /// - In front of the initializer you can write `&this in` to have access to a [`NonNull<Self>`] /// pointer named `this` inside of the initializer. +/// - Using struct update syntax one can place `..Zeroable::zeroed()` at the very end of the +/// struct, this initializes every field with 0 and then runs all initializers specified in the +/// body. This can only be done if [`Zeroable`] is implemented for the struct. /// /// For instance: /// /// ```rust /// # use kernel::pin_init; -/// # use macros::pin_data; +/// # use macros::{Zeroable, pin_data}; /// # use core::{ptr::addr_of_mut, marker::PhantomPinned}; /// #[pin_data] +/// #[derive(Zeroable)] /// struct Buf { /// // `ptr` points into `buf`. /// ptr: *mut u8, @@ -528,6 +532,10 @@ macro_rules! stack_try_pin_init { /// ptr: unsafe { addr_of_mut!((*this.as_ptr()).buf).cast() }, /// pin: PhantomPinned, /// }); +/// pin_init!(Buf { +/// buf: [1; 64], +/// ..Zeroable::zeroed() +/// }); /// ``` /// /// [`try_pin_init!`]: kernel::try_pin_init @@ -547,6 +555,7 @@ macro_rules! pin_init { @data(PinData, use_data), @has_data(HasPinData, __pin_data), @construct_closure(pin_init_from_closure), + @munch_fields($($fields)*), ) }; } @@ -603,6 +612,7 @@ macro_rules! try_pin_init { @data(PinData, use_data), @has_data(HasPinData, __pin_data), @construct_closure(pin_init_from_closure), + @munch_fields($($fields)*), ) }; ($(&$this:ident in)? $t:ident $(::<$($generics:ty),* $(,)?>)? { @@ -616,6 +626,7 @@ macro_rules! try_pin_init { @data(PinData, use_data), @has_data(HasPinData, __pin_data), @construct_closure(pin_init_from_closure), + @munch_fields($($fields)*), ) }; } @@ -650,6 +661,7 @@ macro_rules! init { @data(InitData, /*no use_data*/), @has_data(HasInitData, __init_data), @construct_closure(init_from_closure), + @munch_fields($($fields)*), ) } } @@ -700,6 +712,7 @@ macro_rules! try_init { @data(InitData, /*no use_data*/), @has_data(HasInitData, __init_data), @construct_closure(init_from_closure), + @munch_fields($($fields)*), ) }; ($(&$this:ident in)? $t:ident $(::<$($generics:ty),* $(,)?>)? { @@ -713,6 +726,7 @@ macro_rules! try_init { @data(InitData, /*no use_data*/), @has_data(HasInitData, __init_data), @construct_closure(init_from_closure), + @munch_fields($($fields)*), ) }; } diff --git a/rust/kernel/init/macros.rs b/rust/kernel/init/macros.rs index 6e6c13b2fe78..9931666293fa 100644 --- a/rust/kernel/init/macros.rs +++ b/rust/kernel/init/macros.rs @@ -991,6 +991,7 @@ macro_rules! __pin_data { /// /// This macro has multiple internal call configurations, these are always the very first ident: /// - nothing: this is the base case and called by the `{try_}{pin_}init!` macros. +/// - `with_update_parsed`: when the `..Zeroable::zeroed()` syntax has been handled. /// - `init_slot`: recursively creates the code that initializes all fields in `slot`. /// - `make_initializer`: recursively create the struct initializer that guarantees that every /// field has been initialized exactly once. @@ -1009,6 +1010,82 @@ macro_rules! __init_internal { @has_data($has_data:ident, $get_data:ident), // `pin_init_from_closure` or `init_from_closure`. @construct_closure($construct_closure:ident), + @munch_fields(), + ) => { + $crate::__init_internal!(with_update_parsed: + @this($($this)?), + @typ($t $(::<$($generics),*>)? ), + @fields($($fields)*), + @error($err), + @data($data, $($use_data)?), + @has_data($has_data, $get_data), + @construct_closure($construct_closure), + @zeroed(), // Nothing means default behavior. + ) + }; + ( + @this($($this:ident)?), + @typ($t:ident $(::<$($generics:ty),*>)?), + @fields($($fields:tt)*), + @error($err:ty), + // Either `PinData` or `InitData`, `$use_data` should only be present in the `PinData` + // case. + @data($data:ident, $($use_data:ident)?), + // `HasPinData` or `HasInitData`. + @has_data($has_data:ident, $get_data:ident), + // `pin_init_from_closure` or `init_from_closure`. + @construct_closure($construct_closure:ident), + @munch_fields(..Zeroable::zeroed()), + ) => { + $crate::__init_internal!(with_update_parsed: + @this($($this)?), + @typ($t $(::<$($generics),*>)? ), + @fields($($fields)*), + @error($err), + @data($data, $($use_data)?), + @has_data($has_data, $get_data), + @construct_closure($construct_closure), + @zeroed(()), // `()` means zero all fields not mentioned. + ) + }; + ( + @this($($this:ident)?), + @typ($t:ident $(::<$($generics:ty),*>)?), + @fields($($fields:tt)*), + @error($err:ty), + // Either `PinData` or `InitData`, `$use_data` should only be present in the `PinData` + // case. + @data($data:ident, $($use_data:ident)?), + // `HasPinData` or `HasInitData`. + @has_data($has_data:ident, $get_data:ident), + // `pin_init_from_closure` or `init_from_closure`. + @construct_closure($construct_closure:ident), + @munch_fields($ignore:tt $($rest:tt)*), + ) => { + $crate::__init_internal!( + @this($($this)?), + @typ($t $(::<$($generics),*>)? ), + @fields($($fields)*), + @error($err), + @data($data, $($use_data)?), + @has_data($has_data, $get_data), + @construct_closure($construct_closure), + @munch_fields($($rest)*), + ) + }; + (with_update_parsed: + @this($($this:ident)?), + @typ($t:ident $(::<$($generics:ty),*>)?), + @fields($($fields:tt)*), + @error($err:ty), + // Either `PinData` or `InitData`, `$use_data` should only be present in the `PinData` + // case. + @data($data:ident, $($use_data:ident)?), + // `HasPinData` or `HasInitData`. + @has_data($has_data:ident, $get_data:ident), + // `pin_init_from_closure` or `init_from_closure`. + @construct_closure($construct_closure:ident), + @zeroed($($init_zeroed:expr)?), ) => {{ // We do not want to allow arbitrary returns, so we declare this type as the `Ok` return // type and shadow it later when we insert the arbitrary user code. That way there will be @@ -1026,6 +1103,17 @@ macro_rules! __init_internal { { // Shadow the structure so it cannot be used to return early. struct __InitOk; + // If `$init_zeroed` is present we should zero the slot now and not emit an + // error when fields are missing (since they will be zeroed). We also have to + // check that the type actually implements `Zeroable`. + $({ + fn assert_zeroable<T: $crate::init::Zeroable>(_: *mut T) {} + // Ensure that the struct is indeed `Zeroable`. + assert_zeroable(slot); + // SAFETY: The type implements `Zeroable` by the check above. + unsafe { ::core::ptr::write_bytes(slot, 0, 1) }; + $init_zeroed // This will be `()` if set. + })? // Create the `this` so it can be referenced by the user inside of the // expressions creating the individual fields. $(let $this = unsafe { ::core::ptr::NonNull::new_unchecked(slot) };)? @@ -1062,7 +1150,7 @@ macro_rules! __init_internal { @data($data:ident), @slot($slot:ident), @guards($($guards:ident,)*), - @munch_fields($(,)?), + @munch_fields($(..Zeroable::zeroed())? $(,)?), ) => { // Endpoint of munching, no fields are left. If execution reaches this point, all fields // have been initialized. Therefore we can now dismiss the guards by forgetting them. @@ -1166,6 +1254,31 @@ macro_rules! __init_internal { (make_initializer: @slot($slot:ident), @type_name($t:ident), + @munch_fields(..Zeroable::zeroed() $(,)?), + @acc($($acc:tt)*), + ) => { + // Endpoint, nothing more to munch, create the initializer. Since the users specified + // `..Zeroable::zeroed()`, the slot will already have been zeroed and all field that have + // not been overwritten are thus zero and initialized. We still check that all fields are + // actually accessible by using the struct update syntax ourselves. + // We are inside of a closure that is never executed and thus we can abuse `slot` to + // get the correct type inference here: + #[allow(unused_assignments)] + unsafe { + let mut zeroed = ::core::mem::zeroed(); + // We have to use type inference here to make zeroed have the correct type. This does + // not get executed, so it has no effect. + ::core::ptr::write($slot, zeroed); + zeroed = ::core::mem::zeroed(); + ::core::ptr::write($slot, $t { + $($acc)* + ..zeroed + }); + } + }; + (make_initializer: + @slot($slot:ident), + @type_name($t:ident), @munch_fields($(,)?), @acc($($acc:tt)*), ) => { |