diff options
author | Benno Lossin <benno.lossin@proton.me> | 2023-08-14 08:47:10 +0000 |
---|---|---|
committer | Miguel Ojeda <ojeda@kernel.org> | 2023-08-21 14:31:48 +0200 |
commit | 35e7fca2ff59d9d8f036aba3dcf5c34beb79fdb8 (patch) | |
tree | fb976465a2dd8e52d3017e10e885e3dc1f976ded /rust | |
parent | 92fd540d62701115b22b1f531c8c86454809931b (diff) |
rust: init: add `..Zeroable::zeroed()` syntax for zeroing all missing fields
Add the struct update syntax to the init macros, but only for
`..Zeroable::zeroed()`. Adding this at the end of the struct initializer
allows one to omit fields from the initializer, these fields will be
initialized with 0x00 set to every byte. Only types that implement the
`Zeroable` trait can utilize this.
Suggested-by: Asahi Lina <lina@asahilina.net>
Reviewed-by: Martin Rodriguez Reboredo <yakoyoku@gmail.com>
Reviewed-by: Alice Ryhl <aliceryhl@google.com>
Reviewed-by: Gary Guo <gary@garyguo.net>
Signed-off-by: Benno Lossin <benno.lossin@proton.me>
Link: https://lore.kernel.org/r/20230814084602.25699-8-benno.lossin@proton.me
[ Rebased on `rust-next` and cleaned a few trivial nits. ]
Signed-off-by: Miguel Ojeda <ojeda@kernel.org>
Diffstat (limited to 'rust')
-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)*), ) => { |