// Copyright 2024, Linaro Limited // Author(s): Manos Pitsidianakis // SPDX-License-Identifier: GPL-2.0-or-later //! Definitions required by QEMU when registering a device. use std::{ffi::CStr, os::raw::c_void}; use crate::bindings::{Object, ObjectClass, TypeInfo}; unsafe extern "C" fn rust_instance_init(obj: *mut Object) { // SAFETY: obj is an instance of T, since rust_instance_init // is called from QOM core as the instance_init function // for class T unsafe { T::INSTANCE_INIT.unwrap()(&mut *obj.cast::()) } } unsafe extern "C" fn rust_instance_post_init(obj: *mut Object) { // SAFETY: obj is an instance of T, since rust_instance_post_init // is called from QOM core as the instance_post_init function // for class T // // FIXME: it's not really guaranteed that there are no backpointers to // obj; it's quite possible that they have been created by instance_init(). // The receiver should be &self, not &mut self. T::INSTANCE_POST_INIT.unwrap()(unsafe { &mut *obj.cast::() }) } /// Trait exposed by all structs corresponding to QOM objects. /// /// # Safety /// /// For classes declared in C: /// /// - `Class` and `TYPE` must match the data in the `TypeInfo`; /// /// - the first field of the struct must be of the instance type corresponding /// to the superclass, as declared in the `TypeInfo` /// /// - likewise, the first field of the `Class` struct must be of the class type /// corresponding to the superclass /// /// For classes declared in Rust and implementing [`ObjectImpl`]: /// /// - the struct must be `#[repr(C)]`; /// /// - the first field of the struct must be of the instance struct corresponding /// to the superclass, which is `ObjectImpl::ParentType` /// /// - likewise, the first field of the `Class` must be of the class struct /// corresponding to the superclass, which is `ObjectImpl::ParentType::Class`. pub unsafe trait ObjectType: Sized { /// The QOM class object corresponding to this struct. Not used yet. type Class; /// The name of the type, which can be passed to `object_new()` to /// generate an instance of this type. const TYPE_NAME: &'static CStr; } /// Trait a type must implement to be registered with QEMU. pub trait ObjectImpl: ObjectType + ClassInitImpl { /// The parent of the type. This should match the first field of /// the struct that implements `ObjectImpl`: type ParentType: ObjectType; /// Whether the object can be instantiated const ABSTRACT: bool = false; const INSTANCE_FINALIZE: Option = None; /// Function that is called to initialize an object. The parent class will /// have already been initialized so the type is only responsible for /// initializing its own members. /// /// FIXME: The argument is not really a valid reference. `&mut /// MaybeUninit` would be a better description. const INSTANCE_INIT: Option = None; /// Function that is called to finish initialization of an object, once /// `INSTANCE_INIT` functions have been called. const INSTANCE_POST_INIT: Option = None; const TYPE_INFO: TypeInfo = TypeInfo { name: Self::TYPE_NAME.as_ptr(), parent: Self::ParentType::TYPE_NAME.as_ptr(), instance_size: core::mem::size_of::(), instance_align: core::mem::align_of::(), instance_init: match Self::INSTANCE_INIT { None => None, Some(_) => Some(rust_instance_init::), }, instance_post_init: match Self::INSTANCE_POST_INIT { None => None, Some(_) => Some(rust_instance_post_init::), }, instance_finalize: Self::INSTANCE_FINALIZE, abstract_: Self::ABSTRACT, class_size: core::mem::size_of::(), class_init: ::CLASS_INIT, class_base_init: ::CLASS_BASE_INIT, class_data: core::ptr::null_mut(), interfaces: core::ptr::null_mut(), }; } /// Trait used to fill in a class struct. /// /// Each QOM class that has virtual methods describes them in a /// _class struct_. Class structs include a parent field corresponding /// to the vtable of the parent class, all the way up to [`ObjectClass`]. /// Each QOM type has one such class struct. /// /// The Rust implementation of methods will usually come from a trait /// like [`ObjectImpl`] or [`DeviceImpl`](crate::device_class::DeviceImpl). pub trait ClassInitImpl { /// Function that is called after all parent class initialization /// has occurred. On entry, the virtual method pointers are set to /// the default values coming from the parent classes; the function /// can change them to override virtual methods of a parent class. const CLASS_INIT: Option; /// Called on descendent classes after all parent class initialization /// has occurred, but before the class itself is initialized. This /// is only useful if a class is not a leaf, and can be used to undo /// the effects of copying the contents of the parent's class struct /// to the descendants. const CLASS_BASE_INIT: Option< unsafe extern "C" fn(klass: *mut ObjectClass, data: *mut c_void), >; } #[macro_export] macro_rules! module_init { ($type:ident => $body:block) => { const _: () = { #[used] #[cfg_attr( not(any(target_vendor = "apple", target_os = "windows")), link_section = ".init_array" )] #[cfg_attr(target_vendor = "apple", link_section = "__DATA,__mod_init_func")] #[cfg_attr(target_os = "windows", link_section = ".CRT$XCU")] pub static LOAD_MODULE: extern "C" fn() = { extern "C" fn init_fn() { $body } extern "C" fn ctor_fn() { unsafe { $crate::bindings::register_module_init( Some(init_fn), $crate::bindings::module_init_type::$type, ); } } ctor_fn }; }; }; // shortcut because it's quite common that $body needs unsafe {} ($type:ident => unsafe $body:block) => { $crate::module_init! { $type => { unsafe { $body } } } }; }