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6dd818fbbb
Parameterize the implementation of ClassInitImpl so that it is possible to call up the chain of implementations, one superclass at a time starting at ClassInitImpl<Self::Class>. In order to avoid having to implement (for example) ClassInitImpl<PL011Class>, also remove the dummy PL011Class and PL011LuminaryClass structs and specify the same ObjectType::Class as the superclass. In the future this default behavior can be handled by a procedural macro, by looking at the first field in the struct. Note that the new trait is safe: the calls are started by rust_class_init<>(), which is not public and can convert the class pointer to a Rust reference. Since CLASS_BASE_INIT applies to the type that is being defined, and only to it, move it to ObjectImpl. Reviewed-by: Zhao Liu <zhao1.liu@intel.com> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
139 lines
4.6 KiB
Rust
139 lines
4.6 KiB
Rust
// Copyright 2024, Linaro Limited
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// Author(s): Manos Pitsidianakis <manos.pitsidianakis@linaro.org>
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// SPDX-License-Identifier: GPL-2.0-or-later
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use std::ffi::CStr;
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use crate::{
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bindings::{self, DeviceClass, DeviceState, Error, Property, VMStateDescription},
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definitions::ClassInitImpl,
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prelude::*,
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};
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/// Trait providing the contents of [`DeviceClass`].
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pub trait DeviceImpl {
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/// _Realization_ is the second stage of device creation. It contains
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/// all operations that depend on device properties and can fail (note:
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/// this is not yet supported for Rust devices).
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///
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/// If not `None`, the parent class's `realize` method is overridden
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/// with the function pointed to by `REALIZE`.
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const REALIZE: Option<fn(&mut Self)> = None;
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/// If not `None`, the parent class's `reset` method is overridden
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/// with the function pointed to by `RESET`.
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///
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/// Rust does not yet support the three-phase reset protocol; this is
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/// usually okay for leaf classes.
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const RESET: Option<fn(&mut Self)> = None;
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/// An array providing the properties that the user can set on the
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/// device. Not a `const` because referencing statics in constants
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/// is unstable until Rust 1.83.0.
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fn properties() -> &'static [Property] {
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&[]
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}
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/// A `VMStateDescription` providing the migration format for the device
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/// Not a `const` because referencing statics in constants is unstable
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/// until Rust 1.83.0.
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fn vmsd() -> Option<&'static VMStateDescription> {
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None
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}
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}
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/// # Safety
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///
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/// This function is only called through the QOM machinery and
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/// used by the `ClassInitImpl<DeviceClass>` trait.
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/// We expect the FFI user of this function to pass a valid pointer that
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/// can be downcasted to type `T`. We also expect the device is
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/// readable/writeable from one thread at any time.
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unsafe extern "C" fn rust_realize_fn<T: DeviceImpl>(dev: *mut DeviceState, _errp: *mut *mut Error) {
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assert!(!dev.is_null());
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let state = dev.cast::<T>();
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T::REALIZE.unwrap()(unsafe { &mut *state });
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}
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/// # Safety
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///
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/// We expect the FFI user of this function to pass a valid pointer that
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/// can be downcasted to type `T`. We also expect the device is
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/// readable/writeable from one thread at any time.
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unsafe extern "C" fn rust_reset_fn<T: DeviceImpl>(dev: *mut DeviceState) {
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assert!(!dev.is_null());
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let state = dev.cast::<T>();
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T::RESET.unwrap()(unsafe { &mut *state });
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}
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impl<T> ClassInitImpl<DeviceClass> for T
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where
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T: DeviceImpl,
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{
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fn class_init(dc: &mut DeviceClass) {
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if <T as DeviceImpl>::REALIZE.is_some() {
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dc.realize = Some(rust_realize_fn::<T>);
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}
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if <T as DeviceImpl>::RESET.is_some() {
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unsafe {
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bindings::device_class_set_legacy_reset(dc, Some(rust_reset_fn::<T>));
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}
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}
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if let Some(vmsd) = <T as DeviceImpl>::vmsd() {
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dc.vmsd = vmsd;
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}
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let prop = <T as DeviceImpl>::properties();
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if !prop.is_empty() {
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unsafe {
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bindings::device_class_set_props_n(dc, prop.as_ptr(), prop.len());
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}
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}
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}
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}
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#[macro_export]
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macro_rules! define_property {
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($name:expr, $state:ty, $field:ident, $prop:expr, $type:ty, default = $defval:expr$(,)*) => {
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$crate::bindings::Property {
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// use associated function syntax for type checking
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name: ::std::ffi::CStr::as_ptr($name),
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info: $prop,
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offset: $crate::offset_of!($state, $field) as isize,
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set_default: true,
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defval: $crate::bindings::Property__bindgen_ty_1 { u: $defval as u64 },
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..$crate::zeroable::Zeroable::ZERO
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}
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};
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($name:expr, $state:ty, $field:ident, $prop:expr, $type:ty$(,)*) => {
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$crate::bindings::Property {
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// use associated function syntax for type checking
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name: ::std::ffi::CStr::as_ptr($name),
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info: $prop,
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offset: $crate::offset_of!($state, $field) as isize,
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set_default: false,
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..$crate::zeroable::Zeroable::ZERO
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}
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};
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}
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#[macro_export]
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macro_rules! declare_properties {
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($ident:ident, $($prop:expr),*$(,)*) => {
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pub static $ident: [$crate::bindings::Property; {
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let mut len = 0;
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$({
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_ = stringify!($prop);
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len += 1;
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})*
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len
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}] = [
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$($prop),*,
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];
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};
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}
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unsafe impl ObjectType for DeviceState {
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type Class = DeviceClass;
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const TYPE_NAME: &'static CStr =
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unsafe { CStr::from_bytes_with_nul_unchecked(bindings::TYPE_DEVICE) };
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}
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