15a5110d2SManos Pitsidianakis // Copyright 2024, Linaro Limited 25a5110d2SManos Pitsidianakis // Author(s): Manos Pitsidianakis <manos.pitsidianakis@linaro.org> 35a5110d2SManos Pitsidianakis // SPDX-License-Identifier: GPL-2.0-or-later 45a5110d2SManos Pitsidianakis 54aed0296SPaolo Bonzini //! Bindings to access QOM functionality from Rust. 64aed0296SPaolo Bonzini //! 7f50cd85cSPaolo Bonzini //! The QEMU Object Model (QOM) provides inheritance and dynamic typing for QEMU 8ba3b81f3SPaolo Bonzini //! devices. This module makes QOM's features available in Rust through three 9ba3b81f3SPaolo Bonzini //! main mechanisms: 10f50cd85cSPaolo Bonzini //! 11f50cd85cSPaolo Bonzini //! * Automatic creation and registration of `TypeInfo` for classes that are 12f50cd85cSPaolo Bonzini //! written in Rust, as well as mapping between Rust traits and QOM vtables. 13f50cd85cSPaolo Bonzini //! 14f50cd85cSPaolo Bonzini //! * Type-safe casting between parent and child classes, through the [`IsA`] 15f50cd85cSPaolo Bonzini //! trait and methods such as [`upcast`](ObjectCast::upcast) and 16f50cd85cSPaolo Bonzini //! [`downcast`](ObjectCast::downcast). 174aed0296SPaolo Bonzini //! 18ba3b81f3SPaolo Bonzini //! * Automatic delegation of parent class methods to child classes. When a 19ba3b81f3SPaolo Bonzini //! trait uses [`IsA`] as a bound, its contents become available to all child 20ba3b81f3SPaolo Bonzini //! classes through blanket implementations. This works both for class methods 21ba3b81f3SPaolo Bonzini //! and for instance methods accessed through references or smart pointers. 22ba3b81f3SPaolo Bonzini //! 234aed0296SPaolo Bonzini //! # Structure of a class 244aed0296SPaolo Bonzini //! 254aed0296SPaolo Bonzini //! A leaf class only needs a struct holding instance state. The struct must 26f50cd85cSPaolo Bonzini //! implement the [`ObjectType`] and [`IsA`] traits, as well as any `*Impl` 27f50cd85cSPaolo Bonzini //! traits that exist for its superclasses. 284aed0296SPaolo Bonzini //! 294aed0296SPaolo Bonzini //! If a class has subclasses, it will also provide a struct for instance data, 304aed0296SPaolo Bonzini //! with the same characteristics as for concrete classes, but it also needs 314aed0296SPaolo Bonzini //! additional components to support virtual methods: 324aed0296SPaolo Bonzini //! 334aed0296SPaolo Bonzini //! * a struct for class data, for example `DeviceClass`. This corresponds to 344aed0296SPaolo Bonzini //! the C "class struct" and holds the vtable that is used by instances of the 354aed0296SPaolo Bonzini //! class and its subclasses. It must start with its parent's class struct. 364aed0296SPaolo Bonzini //! 374aed0296SPaolo Bonzini //! * a trait for virtual method implementations, for example `DeviceImpl`. 384aed0296SPaolo Bonzini //! Child classes implement this trait to provide their own behavior for 394aed0296SPaolo Bonzini //! virtual methods. The trait's methods take `&self` to access instance data. 404aed0296SPaolo Bonzini //! 414aed0296SPaolo Bonzini //! * an implementation of [`ClassInitImpl`], for example 424aed0296SPaolo Bonzini //! `ClassInitImpl<DeviceClass>`. This fills the vtable in the class struct; 434aed0296SPaolo Bonzini //! the source for this is the `*Impl` trait; the associated consts and 444aed0296SPaolo Bonzini //! functions if needed are wrapped to map C types into Rust types. 45ba3b81f3SPaolo Bonzini //! 46ba3b81f3SPaolo Bonzini //! * a trait for instance methods, for example `DeviceMethods`. This trait is 47ba3b81f3SPaolo Bonzini //! automatically implemented for any reference or smart pointer to a device 48ba3b81f3SPaolo Bonzini //! instance. It calls into the vtable provides access across all subclasses 49ba3b81f3SPaolo Bonzini //! to methods defined for the class. 50ba3b81f3SPaolo Bonzini //! 51ba3b81f3SPaolo Bonzini //! * optionally, a trait for class methods, for example `DeviceClassMethods`. 52ba3b81f3SPaolo Bonzini //! This provides access to class-wide functionality that doesn't depend on 53ba3b81f3SPaolo Bonzini //! instance data. Like instance methods, these are automatically inherited by 54ba3b81f3SPaolo Bonzini //! child classes. 555a5110d2SManos Pitsidianakis 56f50cd85cSPaolo Bonzini use std::{ 57f50cd85cSPaolo Bonzini ffi::CStr, 58*ca0d60a6SPaolo Bonzini fmt, 59f50cd85cSPaolo Bonzini ops::{Deref, DerefMut}, 60f50cd85cSPaolo Bonzini os::raw::c_void, 61f50cd85cSPaolo Bonzini }; 625a5110d2SManos Pitsidianakis 63716d89f9SPaolo Bonzini pub use bindings::{Object, ObjectClass}; 64716d89f9SPaolo Bonzini 65ba3b81f3SPaolo Bonzini use crate::bindings::{self, object_dynamic_cast, object_get_class, object_get_typename, TypeInfo}; 66f50cd85cSPaolo Bonzini 67f50cd85cSPaolo Bonzini /// Marker trait: `Self` can be statically upcasted to `P` (i.e. `P` is a direct 68f50cd85cSPaolo Bonzini /// or indirect parent of `Self`). 69f50cd85cSPaolo Bonzini /// 70f50cd85cSPaolo Bonzini /// # Safety 71f50cd85cSPaolo Bonzini /// 72f50cd85cSPaolo Bonzini /// The struct `Self` must be `#[repr(C)]` and must begin, directly or 73f50cd85cSPaolo Bonzini /// indirectly, with a field of type `P`. This ensures that invalid casts, 74f50cd85cSPaolo Bonzini /// which rely on `IsA<>` for static checking, are rejected at compile time. 75f50cd85cSPaolo Bonzini pub unsafe trait IsA<P: ObjectType>: ObjectType {} 76f50cd85cSPaolo Bonzini 77f50cd85cSPaolo Bonzini // SAFETY: it is always safe to cast to your own type 78f50cd85cSPaolo Bonzini unsafe impl<T: ObjectType> IsA<T> for T {} 79f50cd85cSPaolo Bonzini 80f50cd85cSPaolo Bonzini /// Macro to mark superclasses of QOM classes. This enables type-safe 81f50cd85cSPaolo Bonzini /// up- and downcasting. 82f50cd85cSPaolo Bonzini /// 83f50cd85cSPaolo Bonzini /// # Safety 84f50cd85cSPaolo Bonzini /// 85f50cd85cSPaolo Bonzini /// This macro is a thin wrapper around the [`IsA`] trait and performs 86f50cd85cSPaolo Bonzini /// no checking whatsoever of what is declared. It is the caller's 87f50cd85cSPaolo Bonzini /// responsibility to have $struct begin, directly or indirectly, with 88f50cd85cSPaolo Bonzini /// a field of type `$parent`. 89f50cd85cSPaolo Bonzini #[macro_export] 90f50cd85cSPaolo Bonzini macro_rules! qom_isa { 91f50cd85cSPaolo Bonzini ($struct:ty : $($parent:ty),* ) => { 92f50cd85cSPaolo Bonzini $( 93f50cd85cSPaolo Bonzini // SAFETY: it is the caller responsibility to have $parent as the 94f50cd85cSPaolo Bonzini // first field 95f50cd85cSPaolo Bonzini unsafe impl $crate::qom::IsA<$parent> for $struct {} 96f50cd85cSPaolo Bonzini 97f50cd85cSPaolo Bonzini impl AsRef<$parent> for $struct { 98f50cd85cSPaolo Bonzini fn as_ref(&self) -> &$parent { 99f50cd85cSPaolo Bonzini // SAFETY: follows the same rules as for IsA<U>, which is 100f50cd85cSPaolo Bonzini // declared above. 101f50cd85cSPaolo Bonzini let ptr: *const Self = self; 102f50cd85cSPaolo Bonzini unsafe { &*ptr.cast::<$parent>() } 103f50cd85cSPaolo Bonzini } 104f50cd85cSPaolo Bonzini } 105f50cd85cSPaolo Bonzini )* 106f50cd85cSPaolo Bonzini }; 107f50cd85cSPaolo Bonzini } 1085a5110d2SManos Pitsidianakis 109*ca0d60a6SPaolo Bonzini /// This is the same as [`ManuallyDrop<T>`](std::mem::ManuallyDrop), though 110*ca0d60a6SPaolo Bonzini /// it hides the standard methods of `ManuallyDrop`. 111*ca0d60a6SPaolo Bonzini /// 112*ca0d60a6SPaolo Bonzini /// The first field of an `ObjectType` must be of type `ParentField<T>`. 113*ca0d60a6SPaolo Bonzini /// (Technically, this is only necessary if there is at least one Rust 114*ca0d60a6SPaolo Bonzini /// superclass in the hierarchy). This is to ensure that the parent field is 115*ca0d60a6SPaolo Bonzini /// dropped after the subclass; this drop order is enforced by the C 116*ca0d60a6SPaolo Bonzini /// `object_deinit` function. 117*ca0d60a6SPaolo Bonzini /// 118*ca0d60a6SPaolo Bonzini /// # Examples 119*ca0d60a6SPaolo Bonzini /// 120*ca0d60a6SPaolo Bonzini /// ```ignore 121*ca0d60a6SPaolo Bonzini /// #[repr(C)] 122*ca0d60a6SPaolo Bonzini /// #[derive(qemu_api_macros::Object)] 123*ca0d60a6SPaolo Bonzini /// pub struct MyDevice { 124*ca0d60a6SPaolo Bonzini /// parent: ParentField<DeviceState>, 125*ca0d60a6SPaolo Bonzini /// ... 126*ca0d60a6SPaolo Bonzini /// } 127*ca0d60a6SPaolo Bonzini /// ``` 128*ca0d60a6SPaolo Bonzini #[derive(Debug)] 129*ca0d60a6SPaolo Bonzini #[repr(transparent)] 130*ca0d60a6SPaolo Bonzini pub struct ParentField<T: ObjectType>(std::mem::ManuallyDrop<T>); 131*ca0d60a6SPaolo Bonzini 132*ca0d60a6SPaolo Bonzini impl<T: ObjectType> Deref for ParentField<T> { 133*ca0d60a6SPaolo Bonzini type Target = T; 134*ca0d60a6SPaolo Bonzini 135*ca0d60a6SPaolo Bonzini #[inline(always)] 136*ca0d60a6SPaolo Bonzini fn deref(&self) -> &Self::Target { 137*ca0d60a6SPaolo Bonzini &self.0 138*ca0d60a6SPaolo Bonzini } 139*ca0d60a6SPaolo Bonzini } 140*ca0d60a6SPaolo Bonzini 141*ca0d60a6SPaolo Bonzini impl<T: ObjectType> DerefMut for ParentField<T> { 142*ca0d60a6SPaolo Bonzini #[inline(always)] 143*ca0d60a6SPaolo Bonzini fn deref_mut(&mut self) -> &mut Self::Target { 144*ca0d60a6SPaolo Bonzini &mut self.0 145*ca0d60a6SPaolo Bonzini } 146*ca0d60a6SPaolo Bonzini } 147*ca0d60a6SPaolo Bonzini 148*ca0d60a6SPaolo Bonzini impl<T: fmt::Display + ObjectType> fmt::Display for ParentField<T> { 149*ca0d60a6SPaolo Bonzini #[inline(always)] 150*ca0d60a6SPaolo Bonzini fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> { 151*ca0d60a6SPaolo Bonzini self.0.fmt(f) 152*ca0d60a6SPaolo Bonzini } 153*ca0d60a6SPaolo Bonzini } 154*ca0d60a6SPaolo Bonzini 1551f9d52c9SPaolo Bonzini unsafe extern "C" fn rust_instance_init<T: ObjectImpl>(obj: *mut Object) { 1561f9d52c9SPaolo Bonzini // SAFETY: obj is an instance of T, since rust_instance_init<T> 1571f9d52c9SPaolo Bonzini // is called from QOM core as the instance_init function 1581f9d52c9SPaolo Bonzini // for class T 1591f9d52c9SPaolo Bonzini unsafe { T::INSTANCE_INIT.unwrap()(&mut *obj.cast::<T>()) } 1601f9d52c9SPaolo Bonzini } 1611f9d52c9SPaolo Bonzini 1621f9d52c9SPaolo Bonzini unsafe extern "C" fn rust_instance_post_init<T: ObjectImpl>(obj: *mut Object) { 1631f9d52c9SPaolo Bonzini // SAFETY: obj is an instance of T, since rust_instance_post_init<T> 1641f9d52c9SPaolo Bonzini // is called from QOM core as the instance_post_init function 1651f9d52c9SPaolo Bonzini // for class T 1661f9d52c9SPaolo Bonzini // 1671f9d52c9SPaolo Bonzini // FIXME: it's not really guaranteed that there are no backpointers to 1681f9d52c9SPaolo Bonzini // obj; it's quite possible that they have been created by instance_init(). 1691f9d52c9SPaolo Bonzini // The receiver should be &self, not &mut self. 1701f9d52c9SPaolo Bonzini T::INSTANCE_POST_INIT.unwrap()(unsafe { &mut *obj.cast::<T>() }) 1711f9d52c9SPaolo Bonzini } 1721f9d52c9SPaolo Bonzini 1736dd818fbSPaolo Bonzini unsafe extern "C" fn rust_class_init<T: ObjectType + ClassInitImpl<T::Class>>( 1746dd818fbSPaolo Bonzini klass: *mut ObjectClass, 1756dd818fbSPaolo Bonzini _data: *mut c_void, 1766dd818fbSPaolo Bonzini ) { 1776dd818fbSPaolo Bonzini // SAFETY: klass is a T::Class, since rust_class_init<T> 1786dd818fbSPaolo Bonzini // is called from QOM core as the class_init function 1796dd818fbSPaolo Bonzini // for class T 1806dd818fbSPaolo Bonzini T::class_init(unsafe { &mut *klass.cast::<T::Class>() }) 1816dd818fbSPaolo Bonzini } 1826dd818fbSPaolo Bonzini 1837bd8e3efSPaolo Bonzini /// Trait exposed by all structs corresponding to QOM objects. 1841f9d52c9SPaolo Bonzini /// 1851f9d52c9SPaolo Bonzini /// # Safety 1861f9d52c9SPaolo Bonzini /// 1877bd8e3efSPaolo Bonzini /// For classes declared in C: 1881f9d52c9SPaolo Bonzini /// 1897bd8e3efSPaolo Bonzini /// - `Class` and `TYPE` must match the data in the `TypeInfo`; 1907bd8e3efSPaolo Bonzini /// 1917bd8e3efSPaolo Bonzini /// - the first field of the struct must be of the instance type corresponding 1927bd8e3efSPaolo Bonzini /// to the superclass, as declared in the `TypeInfo` 1937bd8e3efSPaolo Bonzini /// 1947bd8e3efSPaolo Bonzini /// - likewise, the first field of the `Class` struct must be of the class type 1957bd8e3efSPaolo Bonzini /// corresponding to the superclass 1967bd8e3efSPaolo Bonzini /// 1977bd8e3efSPaolo Bonzini /// For classes declared in Rust and implementing [`ObjectImpl`]: 1987bd8e3efSPaolo Bonzini /// 1997bd8e3efSPaolo Bonzini /// - the struct must be `#[repr(C)]`; 2001f9d52c9SPaolo Bonzini /// 201*ca0d60a6SPaolo Bonzini /// - the first field of the struct must be of type 202*ca0d60a6SPaolo Bonzini /// [`ParentField<T>`](ParentField), where `T` is the parent type 203*ca0d60a6SPaolo Bonzini /// [`ObjectImpl::ParentType`] 2047bd8e3efSPaolo Bonzini /// 205*ca0d60a6SPaolo Bonzini /// - the first field of the `Class` must be of the class struct corresponding 206*ca0d60a6SPaolo Bonzini /// to the superclass, which is `ObjectImpl::ParentType::Class`. `ParentField` 207*ca0d60a6SPaolo Bonzini /// is not needed here. 208*ca0d60a6SPaolo Bonzini /// 209*ca0d60a6SPaolo Bonzini /// In both cases, having a separate class type is not necessary if the subclass 210*ca0d60a6SPaolo Bonzini /// does not add any field. 2117bd8e3efSPaolo Bonzini pub unsafe trait ObjectType: Sized { 2126dd818fbSPaolo Bonzini /// The QOM class object corresponding to this struct. This is used 2136dd818fbSPaolo Bonzini /// to automatically generate a `class_init` method. 214c6c4f3e0SPaolo Bonzini type Class; 2151f9d52c9SPaolo Bonzini 2161f9d52c9SPaolo Bonzini /// The name of the type, which can be passed to `object_new()` to 2171f9d52c9SPaolo Bonzini /// generate an instance of this type. 2185a5110d2SManos Pitsidianakis const TYPE_NAME: &'static CStr; 219f50cd85cSPaolo Bonzini 220f50cd85cSPaolo Bonzini /// Return the receiver as an Object. This is always safe, even 221f50cd85cSPaolo Bonzini /// if this type represents an interface. 222f50cd85cSPaolo Bonzini fn as_object(&self) -> &Object { 223f50cd85cSPaolo Bonzini unsafe { &*self.as_object_ptr() } 2247bd8e3efSPaolo Bonzini } 2251f9d52c9SPaolo Bonzini 226f50cd85cSPaolo Bonzini /// Return the receiver as a const raw pointer to Object. 227f50cd85cSPaolo Bonzini /// This is preferrable to `as_object_mut_ptr()` if a C 228f50cd85cSPaolo Bonzini /// function only needs a `const Object *`. 229f50cd85cSPaolo Bonzini fn as_object_ptr(&self) -> *const Object { 230f50cd85cSPaolo Bonzini self.as_ptr().cast() 231f50cd85cSPaolo Bonzini } 232f50cd85cSPaolo Bonzini 233f50cd85cSPaolo Bonzini /// Return the receiver as a mutable raw pointer to Object. 234f50cd85cSPaolo Bonzini /// 235f50cd85cSPaolo Bonzini /// # Safety 236f50cd85cSPaolo Bonzini /// 237f50cd85cSPaolo Bonzini /// This cast is always safe, but because the result is mutable 238f50cd85cSPaolo Bonzini /// and the incoming reference is not, this should only be used 239f50cd85cSPaolo Bonzini /// for calls to C functions, and only if needed. 240f50cd85cSPaolo Bonzini unsafe fn as_object_mut_ptr(&self) -> *mut Object { 241f50cd85cSPaolo Bonzini self.as_object_ptr() as *mut _ 242f50cd85cSPaolo Bonzini } 243f50cd85cSPaolo Bonzini } 244f50cd85cSPaolo Bonzini 245f50cd85cSPaolo Bonzini /// This trait provides safe casting operations for QOM objects to raw pointers, 246f50cd85cSPaolo Bonzini /// to be used for example for FFI. The trait can be applied to any kind of 247f50cd85cSPaolo Bonzini /// reference or smart pointers, and enforces correctness through the [`IsA`] 248f50cd85cSPaolo Bonzini /// trait. 249f50cd85cSPaolo Bonzini pub trait ObjectDeref: Deref 250f50cd85cSPaolo Bonzini where 251f50cd85cSPaolo Bonzini Self::Target: ObjectType, 252f50cd85cSPaolo Bonzini { 253f50cd85cSPaolo Bonzini /// Convert to a const Rust pointer, to be used for example for FFI. 254f50cd85cSPaolo Bonzini /// The target pointer type must be the type of `self` or a superclass 255f50cd85cSPaolo Bonzini fn as_ptr<U: ObjectType>(&self) -> *const U 256f50cd85cSPaolo Bonzini where 257f50cd85cSPaolo Bonzini Self::Target: IsA<U>, 258f50cd85cSPaolo Bonzini { 259f50cd85cSPaolo Bonzini let ptr: *const Self::Target = self.deref(); 260f50cd85cSPaolo Bonzini ptr.cast::<U>() 261f50cd85cSPaolo Bonzini } 262f50cd85cSPaolo Bonzini 263f50cd85cSPaolo Bonzini /// Convert to a mutable Rust pointer, to be used for example for FFI. 264f50cd85cSPaolo Bonzini /// The target pointer type must be the type of `self` or a superclass. 265f50cd85cSPaolo Bonzini /// Used to implement interior mutability for objects. 266f50cd85cSPaolo Bonzini /// 267f50cd85cSPaolo Bonzini /// # Safety 268f50cd85cSPaolo Bonzini /// 269f50cd85cSPaolo Bonzini /// This method is unsafe because it overrides const-ness of `&self`. 270f50cd85cSPaolo Bonzini /// Bindings to C APIs will use it a lot, but otherwise it should not 271f50cd85cSPaolo Bonzini /// be necessary. 272f50cd85cSPaolo Bonzini unsafe fn as_mut_ptr<U: ObjectType>(&self) -> *mut U 273f50cd85cSPaolo Bonzini where 274f50cd85cSPaolo Bonzini Self::Target: IsA<U>, 275f50cd85cSPaolo Bonzini { 276f50cd85cSPaolo Bonzini #[allow(clippy::as_ptr_cast_mut)] 277f50cd85cSPaolo Bonzini { 278f50cd85cSPaolo Bonzini self.as_ptr::<U>() as *mut _ 279f50cd85cSPaolo Bonzini } 280f50cd85cSPaolo Bonzini } 281f50cd85cSPaolo Bonzini } 282f50cd85cSPaolo Bonzini 283f50cd85cSPaolo Bonzini /// Trait that adds extra functionality for `&T` where `T` is a QOM 284f50cd85cSPaolo Bonzini /// object type. Allows conversion to/from C objects in generic code. 285f50cd85cSPaolo Bonzini pub trait ObjectCast: ObjectDeref + Copy 286f50cd85cSPaolo Bonzini where 287f50cd85cSPaolo Bonzini Self::Target: ObjectType, 288f50cd85cSPaolo Bonzini { 289f50cd85cSPaolo Bonzini /// Safely convert from a derived type to one of its parent types. 290f50cd85cSPaolo Bonzini /// 291f50cd85cSPaolo Bonzini /// This is always safe; the [`IsA`] trait provides static verification 292f50cd85cSPaolo Bonzini /// trait that `Self` dereferences to `U` or a child of `U`. 293f50cd85cSPaolo Bonzini fn upcast<'a, U: ObjectType>(self) -> &'a U 294f50cd85cSPaolo Bonzini where 295f50cd85cSPaolo Bonzini Self::Target: IsA<U>, 296f50cd85cSPaolo Bonzini Self: 'a, 297f50cd85cSPaolo Bonzini { 298f50cd85cSPaolo Bonzini // SAFETY: soundness is declared via IsA<U>, which is an unsafe trait 299f50cd85cSPaolo Bonzini unsafe { self.unsafe_cast::<U>() } 300f50cd85cSPaolo Bonzini } 301f50cd85cSPaolo Bonzini 302f50cd85cSPaolo Bonzini /// Attempt to convert to a derived type. 303f50cd85cSPaolo Bonzini /// 304f50cd85cSPaolo Bonzini /// Returns `None` if the object is not actually of type `U`. This is 305f50cd85cSPaolo Bonzini /// verified at runtime by checking the object's type information. 306f50cd85cSPaolo Bonzini fn downcast<'a, U: IsA<Self::Target>>(self) -> Option<&'a U> 307f50cd85cSPaolo Bonzini where 308f50cd85cSPaolo Bonzini Self: 'a, 309f50cd85cSPaolo Bonzini { 310f50cd85cSPaolo Bonzini self.dynamic_cast::<U>() 311f50cd85cSPaolo Bonzini } 312f50cd85cSPaolo Bonzini 313f50cd85cSPaolo Bonzini /// Attempt to convert between any two types in the QOM hierarchy. 314f50cd85cSPaolo Bonzini /// 315f50cd85cSPaolo Bonzini /// Returns `None` if the object is not actually of type `U`. This is 316f50cd85cSPaolo Bonzini /// verified at runtime by checking the object's type information. 317f50cd85cSPaolo Bonzini fn dynamic_cast<'a, U: ObjectType>(self) -> Option<&'a U> 318f50cd85cSPaolo Bonzini where 319f50cd85cSPaolo Bonzini Self: 'a, 320f50cd85cSPaolo Bonzini { 321f50cd85cSPaolo Bonzini unsafe { 322f50cd85cSPaolo Bonzini // SAFETY: upcasting to Object is always valid, and the 323f50cd85cSPaolo Bonzini // return type is either NULL or the argument itself 324f50cd85cSPaolo Bonzini let result: *const U = 325f50cd85cSPaolo Bonzini object_dynamic_cast(self.as_object_mut_ptr(), U::TYPE_NAME.as_ptr()).cast(); 326f50cd85cSPaolo Bonzini 327f50cd85cSPaolo Bonzini result.as_ref() 328f50cd85cSPaolo Bonzini } 329f50cd85cSPaolo Bonzini } 330f50cd85cSPaolo Bonzini 331f50cd85cSPaolo Bonzini /// Convert to any QOM type without verification. 332f50cd85cSPaolo Bonzini /// 333f50cd85cSPaolo Bonzini /// # Safety 334f50cd85cSPaolo Bonzini /// 335f50cd85cSPaolo Bonzini /// What safety? You need to know yourself that the cast is correct; only 336f50cd85cSPaolo Bonzini /// use when performance is paramount. It is still better than a raw 337f50cd85cSPaolo Bonzini /// pointer `cast()`, which does not even check that you remain in the 338f50cd85cSPaolo Bonzini /// realm of QOM `ObjectType`s. 339f50cd85cSPaolo Bonzini /// 340f50cd85cSPaolo Bonzini /// `unsafe_cast::<Object>()` is always safe. 341f50cd85cSPaolo Bonzini unsafe fn unsafe_cast<'a, U: ObjectType>(self) -> &'a U 342f50cd85cSPaolo Bonzini where 343f50cd85cSPaolo Bonzini Self: 'a, 344f50cd85cSPaolo Bonzini { 345f50cd85cSPaolo Bonzini unsafe { &*(self.as_ptr::<Self::Target>().cast::<U>()) } 346f50cd85cSPaolo Bonzini } 347f50cd85cSPaolo Bonzini } 348f50cd85cSPaolo Bonzini 349f50cd85cSPaolo Bonzini impl<T: ObjectType> ObjectDeref for &T {} 350f50cd85cSPaolo Bonzini impl<T: ObjectType> ObjectCast for &T {} 351f50cd85cSPaolo Bonzini 352f50cd85cSPaolo Bonzini /// Trait for mutable type casting operations in the QOM hierarchy. 353f50cd85cSPaolo Bonzini /// 354f50cd85cSPaolo Bonzini /// This trait provides the mutable counterparts to [`ObjectCast`]'s conversion 355f50cd85cSPaolo Bonzini /// functions. Unlike `ObjectCast`, this trait returns `Result` for fallible 356f50cd85cSPaolo Bonzini /// conversions to preserve the original smart pointer if the cast fails. This 357f50cd85cSPaolo Bonzini /// is necessary because mutable references cannot be copied, so a failed cast 358f50cd85cSPaolo Bonzini /// must return ownership of the original reference. For example: 359f50cd85cSPaolo Bonzini /// 360f50cd85cSPaolo Bonzini /// ```ignore 361f50cd85cSPaolo Bonzini /// let mut dev = get_device(); 362f50cd85cSPaolo Bonzini /// // If this fails, we need the original `dev` back to try something else 363f50cd85cSPaolo Bonzini /// match dev.dynamic_cast_mut::<FooDevice>() { 364f50cd85cSPaolo Bonzini /// Ok(foodev) => /* use foodev */, 365f50cd85cSPaolo Bonzini /// Err(dev) => /* still have ownership of dev */ 366f50cd85cSPaolo Bonzini /// } 367f50cd85cSPaolo Bonzini /// ``` 368f50cd85cSPaolo Bonzini pub trait ObjectCastMut: Sized + ObjectDeref + DerefMut 369f50cd85cSPaolo Bonzini where 370f50cd85cSPaolo Bonzini Self::Target: ObjectType, 371f50cd85cSPaolo Bonzini { 372f50cd85cSPaolo Bonzini /// Safely convert from a derived type to one of its parent types. 373f50cd85cSPaolo Bonzini /// 374f50cd85cSPaolo Bonzini /// This is always safe; the [`IsA`] trait provides static verification 375f50cd85cSPaolo Bonzini /// that `Self` dereferences to `U` or a child of `U`. 376f50cd85cSPaolo Bonzini fn upcast_mut<'a, U: ObjectType>(self) -> &'a mut U 377f50cd85cSPaolo Bonzini where 378f50cd85cSPaolo Bonzini Self::Target: IsA<U>, 379f50cd85cSPaolo Bonzini Self: 'a, 380f50cd85cSPaolo Bonzini { 381f50cd85cSPaolo Bonzini // SAFETY: soundness is declared via IsA<U>, which is an unsafe trait 382f50cd85cSPaolo Bonzini unsafe { self.unsafe_cast_mut::<U>() } 383f50cd85cSPaolo Bonzini } 384f50cd85cSPaolo Bonzini 385f50cd85cSPaolo Bonzini /// Attempt to convert to a derived type. 386f50cd85cSPaolo Bonzini /// 387f50cd85cSPaolo Bonzini /// Returns `Ok(..)` if the object is of type `U`, or `Err(self)` if the 388f50cd85cSPaolo Bonzini /// object if the conversion failed. This is verified at runtime by 389f50cd85cSPaolo Bonzini /// checking the object's type information. 390f50cd85cSPaolo Bonzini fn downcast_mut<'a, U: IsA<Self::Target>>(self) -> Result<&'a mut U, Self> 391f50cd85cSPaolo Bonzini where 392f50cd85cSPaolo Bonzini Self: 'a, 393f50cd85cSPaolo Bonzini { 394f50cd85cSPaolo Bonzini self.dynamic_cast_mut::<U>() 395f50cd85cSPaolo Bonzini } 396f50cd85cSPaolo Bonzini 397f50cd85cSPaolo Bonzini /// Attempt to convert between any two types in the QOM hierarchy. 398f50cd85cSPaolo Bonzini /// 399f50cd85cSPaolo Bonzini /// Returns `Ok(..)` if the object is of type `U`, or `Err(self)` if the 400f50cd85cSPaolo Bonzini /// object if the conversion failed. This is verified at runtime by 401f50cd85cSPaolo Bonzini /// checking the object's type information. 402f50cd85cSPaolo Bonzini fn dynamic_cast_mut<'a, U: ObjectType>(self) -> Result<&'a mut U, Self> 403f50cd85cSPaolo Bonzini where 404f50cd85cSPaolo Bonzini Self: 'a, 405f50cd85cSPaolo Bonzini { 406f50cd85cSPaolo Bonzini unsafe { 407f50cd85cSPaolo Bonzini // SAFETY: upcasting to Object is always valid, and the 408f50cd85cSPaolo Bonzini // return type is either NULL or the argument itself 409f50cd85cSPaolo Bonzini let result: *mut U = 410f50cd85cSPaolo Bonzini object_dynamic_cast(self.as_object_mut_ptr(), U::TYPE_NAME.as_ptr()).cast(); 411f50cd85cSPaolo Bonzini 412f50cd85cSPaolo Bonzini result.as_mut().ok_or(self) 413f50cd85cSPaolo Bonzini } 414f50cd85cSPaolo Bonzini } 415f50cd85cSPaolo Bonzini 416f50cd85cSPaolo Bonzini /// Convert to any QOM type without verification. 417f50cd85cSPaolo Bonzini /// 418f50cd85cSPaolo Bonzini /// # Safety 419f50cd85cSPaolo Bonzini /// 420f50cd85cSPaolo Bonzini /// What safety? You need to know yourself that the cast is correct; only 421f50cd85cSPaolo Bonzini /// use when performance is paramount. It is still better than a raw 422f50cd85cSPaolo Bonzini /// pointer `cast()`, which does not even check that you remain in the 423f50cd85cSPaolo Bonzini /// realm of QOM `ObjectType`s. 424f50cd85cSPaolo Bonzini /// 425f50cd85cSPaolo Bonzini /// `unsafe_cast::<Object>()` is always safe. 426f50cd85cSPaolo Bonzini unsafe fn unsafe_cast_mut<'a, U: ObjectType>(self) -> &'a mut U 427f50cd85cSPaolo Bonzini where 428f50cd85cSPaolo Bonzini Self: 'a, 429f50cd85cSPaolo Bonzini { 430f50cd85cSPaolo Bonzini unsafe { &mut *self.as_mut_ptr::<Self::Target>().cast::<U>() } 431f50cd85cSPaolo Bonzini } 432f50cd85cSPaolo Bonzini } 433f50cd85cSPaolo Bonzini 434f50cd85cSPaolo Bonzini impl<T: ObjectType> ObjectDeref for &mut T {} 435f50cd85cSPaolo Bonzini impl<T: ObjectType> ObjectCastMut for &mut T {} 436f50cd85cSPaolo Bonzini 4377bd8e3efSPaolo Bonzini /// Trait a type must implement to be registered with QEMU. 4386dd818fbSPaolo Bonzini pub trait ObjectImpl: ObjectType + ClassInitImpl<Self::Class> { 439*ca0d60a6SPaolo Bonzini /// The parent of the type. This should match the first field of the 440*ca0d60a6SPaolo Bonzini /// struct that implements `ObjectImpl`, minus the `ParentField<_>` wrapper. 441166e8a1fSPaolo Bonzini type ParentType: ObjectType; 4421f9d52c9SPaolo Bonzini 4431f9d52c9SPaolo Bonzini /// Whether the object can be instantiated 444b2a48545SPaolo Bonzini const ABSTRACT: bool = false; 445b2a48545SPaolo Bonzini const INSTANCE_FINALIZE: Option<unsafe extern "C" fn(obj: *mut Object)> = None; 4463701fb22SPaolo Bonzini 4471f9d52c9SPaolo Bonzini /// Function that is called to initialize an object. The parent class will 4481f9d52c9SPaolo Bonzini /// have already been initialized so the type is only responsible for 4491f9d52c9SPaolo Bonzini /// initializing its own members. 4501f9d52c9SPaolo Bonzini /// 4511f9d52c9SPaolo Bonzini /// FIXME: The argument is not really a valid reference. `&mut 4521f9d52c9SPaolo Bonzini /// MaybeUninit<Self>` would be a better description. 4531f9d52c9SPaolo Bonzini const INSTANCE_INIT: Option<unsafe fn(&mut Self)> = None; 4541f9d52c9SPaolo Bonzini 4551f9d52c9SPaolo Bonzini /// Function that is called to finish initialization of an object, once 4561f9d52c9SPaolo Bonzini /// `INSTANCE_INIT` functions have been called. 4571f9d52c9SPaolo Bonzini const INSTANCE_POST_INIT: Option<fn(&mut Self)> = None; 4581f9d52c9SPaolo Bonzini 4596dd818fbSPaolo Bonzini /// Called on descendent classes after all parent class initialization 4606dd818fbSPaolo Bonzini /// has occurred, but before the class itself is initialized. This 4616dd818fbSPaolo Bonzini /// is only useful if a class is not a leaf, and can be used to undo 4626dd818fbSPaolo Bonzini /// the effects of copying the contents of the parent's class struct 4636dd818fbSPaolo Bonzini /// to the descendants. 4646dd818fbSPaolo Bonzini const CLASS_BASE_INIT: Option< 4656dd818fbSPaolo Bonzini unsafe extern "C" fn(klass: *mut ObjectClass, data: *mut c_void), 4666dd818fbSPaolo Bonzini > = None; 4676dd818fbSPaolo Bonzini 4683701fb22SPaolo Bonzini const TYPE_INFO: TypeInfo = TypeInfo { 4693701fb22SPaolo Bonzini name: Self::TYPE_NAME.as_ptr(), 470166e8a1fSPaolo Bonzini parent: Self::ParentType::TYPE_NAME.as_ptr(), 4713701fb22SPaolo Bonzini instance_size: core::mem::size_of::<Self>(), 4723701fb22SPaolo Bonzini instance_align: core::mem::align_of::<Self>(), 4731f9d52c9SPaolo Bonzini instance_init: match Self::INSTANCE_INIT { 4741f9d52c9SPaolo Bonzini None => None, 4751f9d52c9SPaolo Bonzini Some(_) => Some(rust_instance_init::<Self>), 4761f9d52c9SPaolo Bonzini }, 4771f9d52c9SPaolo Bonzini instance_post_init: match Self::INSTANCE_POST_INIT { 4781f9d52c9SPaolo Bonzini None => None, 4791f9d52c9SPaolo Bonzini Some(_) => Some(rust_instance_post_init::<Self>), 4801f9d52c9SPaolo Bonzini }, 4813701fb22SPaolo Bonzini instance_finalize: Self::INSTANCE_FINALIZE, 4823701fb22SPaolo Bonzini abstract_: Self::ABSTRACT, 4833701fb22SPaolo Bonzini class_size: core::mem::size_of::<Self::Class>(), 4846dd818fbSPaolo Bonzini class_init: Some(rust_class_init::<Self>), 4856dd818fbSPaolo Bonzini class_base_init: Self::CLASS_BASE_INIT, 4863701fb22SPaolo Bonzini class_data: core::ptr::null_mut(), 4873701fb22SPaolo Bonzini interfaces: core::ptr::null_mut(), 4883701fb22SPaolo Bonzini }; 489cb36da9bSPaolo Bonzini 490cb36da9bSPaolo Bonzini // methods on ObjectClass 491cb36da9bSPaolo Bonzini const UNPARENT: Option<fn(&Self)> = None; 4925a5110d2SManos Pitsidianakis } 4935a5110d2SManos Pitsidianakis 4946dd818fbSPaolo Bonzini /// Internal trait used to automatically fill in a class struct. 49593ea0896SPaolo Bonzini /// 49693ea0896SPaolo Bonzini /// Each QOM class that has virtual methods describes them in a 49793ea0896SPaolo Bonzini /// _class struct_. Class structs include a parent field corresponding 49893ea0896SPaolo Bonzini /// to the vtable of the parent class, all the way up to [`ObjectClass`]. 4996dd818fbSPaolo Bonzini /// Each QOM type has one such class struct; this trait takes care of 5006dd818fbSPaolo Bonzini /// initializing the `T` part of the class struct, for the type that 5016dd818fbSPaolo Bonzini /// implements the trait. 50293ea0896SPaolo Bonzini /// 5036dd818fbSPaolo Bonzini /// Each struct will implement this trait with `T` equal to each 5046dd818fbSPaolo Bonzini /// superclass. For example, a device should implement at least 505716d89f9SPaolo Bonzini /// `ClassInitImpl<`[`DeviceClass`](crate::qdev::DeviceClass)`>` and 506716d89f9SPaolo Bonzini /// `ClassInitImpl<`[`ObjectClass`]`>`. Such implementations are made 507716d89f9SPaolo Bonzini /// in one of two ways. 5086dd818fbSPaolo Bonzini /// 5096dd818fbSPaolo Bonzini /// For most superclasses, `ClassInitImpl` is provided by the `qemu-api` 5106dd818fbSPaolo Bonzini /// crate itself. The Rust implementation of methods will come from a 5114aed0296SPaolo Bonzini /// trait like [`ObjectImpl`] or [`DeviceImpl`](crate::qdev::DeviceImpl), 5124aed0296SPaolo Bonzini /// and `ClassInitImpl` is provided by blanket implementations that 5134aed0296SPaolo Bonzini /// operate on all implementors of the `*Impl`* trait. For example: 5146dd818fbSPaolo Bonzini /// 5156dd818fbSPaolo Bonzini /// ```ignore 5166dd818fbSPaolo Bonzini /// impl<T> ClassInitImpl<DeviceClass> for T 5176dd818fbSPaolo Bonzini /// where 518cb36da9bSPaolo Bonzini /// T: ClassInitImpl<ObjectClass> + DeviceImpl, 5196dd818fbSPaolo Bonzini /// ``` 5206dd818fbSPaolo Bonzini /// 521cb36da9bSPaolo Bonzini /// The bound on `ClassInitImpl<ObjectClass>` is needed so that, 522cb36da9bSPaolo Bonzini /// after initializing the `DeviceClass` part of the class struct, 523cb36da9bSPaolo Bonzini /// the parent [`ObjectClass`] is initialized as well. 524cb36da9bSPaolo Bonzini /// 5256dd818fbSPaolo Bonzini /// The other case is when manual implementation of the trait is needed. 5266dd818fbSPaolo Bonzini /// This covers the following cases: 5276dd818fbSPaolo Bonzini /// 5286dd818fbSPaolo Bonzini /// * if a class implements a QOM interface, the Rust code _has_ to define its 5296dd818fbSPaolo Bonzini /// own class struct `FooClass` and implement `ClassInitImpl<FooClass>`. 5306dd818fbSPaolo Bonzini /// `ClassInitImpl<FooClass>`'s `class_init` method will then forward to 5316dd818fbSPaolo Bonzini /// multiple other `class_init`s, for the interfaces as well as the 5326dd818fbSPaolo Bonzini /// superclass. (Note that there is no Rust example yet for using interfaces). 5336dd818fbSPaolo Bonzini /// 5346dd818fbSPaolo Bonzini /// * for classes implemented outside the ``qemu-api`` crate, it's not possible 5356dd818fbSPaolo Bonzini /// to add blanket implementations like the above one, due to orphan rules. In 5366dd818fbSPaolo Bonzini /// that case, the easiest solution is to implement 5376dd818fbSPaolo Bonzini /// `ClassInitImpl<YourSuperclass>` for each subclass and not have a 5386dd818fbSPaolo Bonzini /// `YourSuperclassImpl` trait at all. 5396dd818fbSPaolo Bonzini /// 5406dd818fbSPaolo Bonzini /// ```ignore 5416dd818fbSPaolo Bonzini /// impl ClassInitImpl<YourSuperclass> for YourSubclass { 5426dd818fbSPaolo Bonzini /// fn class_init(klass: &mut YourSuperclass) { 5436dd818fbSPaolo Bonzini /// klass.some_method = Some(Self::some_method); 5446dd818fbSPaolo Bonzini /// <Self as ClassInitImpl<SysBusDeviceClass>>::class_init(&mut klass.parent_class); 5456dd818fbSPaolo Bonzini /// } 5466dd818fbSPaolo Bonzini /// } 5476dd818fbSPaolo Bonzini /// ``` 5486dd818fbSPaolo Bonzini /// 5496dd818fbSPaolo Bonzini /// While this method incurs a small amount of code duplication, 5506dd818fbSPaolo Bonzini /// it is generally limited to the recursive call on the last line. 5516dd818fbSPaolo Bonzini /// This is because classes defined in Rust do not need the same 5526dd818fbSPaolo Bonzini /// glue code that is needed when the classes are defined in C code. 5536dd818fbSPaolo Bonzini /// You may consider using a macro if you have many subclasses. 5546dd818fbSPaolo Bonzini pub trait ClassInitImpl<T> { 5556dd818fbSPaolo Bonzini /// Initialize `klass` to point to the virtual method implementations 5566dd818fbSPaolo Bonzini /// for `Self`. On entry, the virtual method pointers are set to 55793ea0896SPaolo Bonzini /// the default values coming from the parent classes; the function 55893ea0896SPaolo Bonzini /// can change them to override virtual methods of a parent class. 5596dd818fbSPaolo Bonzini /// 5606dd818fbSPaolo Bonzini /// The virtual method implementations usually come from another 5614aed0296SPaolo Bonzini /// trait, for example [`DeviceImpl`](crate::qdev::DeviceImpl) 562716d89f9SPaolo Bonzini /// when `T` is [`DeviceClass`](crate::qdev::DeviceClass). 5636dd818fbSPaolo Bonzini /// 5646dd818fbSPaolo Bonzini /// On entry, `klass`'s parent class is initialized, while the other fields 5656dd818fbSPaolo Bonzini /// are all zero; it is therefore assumed that all fields in `T` can be 5666dd818fbSPaolo Bonzini /// zeroed, otherwise it would not be possible to provide the class as a 5676dd818fbSPaolo Bonzini /// `&mut T`. TODO: add a bound of [`Zeroable`](crate::zeroable::Zeroable) 5686dd818fbSPaolo Bonzini /// to T; this is more easily done once Zeroable does not require a manual 5696dd818fbSPaolo Bonzini /// implementation (Rust 1.75.0). 5706dd818fbSPaolo Bonzini fn class_init(klass: &mut T); 5715a5110d2SManos Pitsidianakis } 5725a5110d2SManos Pitsidianakis 573cb36da9bSPaolo Bonzini /// # Safety 574cb36da9bSPaolo Bonzini /// 575cb36da9bSPaolo Bonzini /// We expect the FFI user of this function to pass a valid pointer that 576cb36da9bSPaolo Bonzini /// can be downcasted to type `T`. We also expect the device is 577cb36da9bSPaolo Bonzini /// readable/writeable from one thread at any time. 578cb36da9bSPaolo Bonzini unsafe extern "C" fn rust_unparent_fn<T: ObjectImpl>(dev: *mut Object) { 579cb36da9bSPaolo Bonzini unsafe { 580cb36da9bSPaolo Bonzini assert!(!dev.is_null()); 581cb36da9bSPaolo Bonzini let state = core::ptr::NonNull::new_unchecked(dev.cast::<T>()); 582cb36da9bSPaolo Bonzini T::UNPARENT.unwrap()(state.as_ref()); 583cb36da9bSPaolo Bonzini } 584cb36da9bSPaolo Bonzini } 585cb36da9bSPaolo Bonzini 586cb36da9bSPaolo Bonzini impl<T> ClassInitImpl<ObjectClass> for T 587cb36da9bSPaolo Bonzini where 588cb36da9bSPaolo Bonzini T: ObjectImpl, 589cb36da9bSPaolo Bonzini { 590cb36da9bSPaolo Bonzini fn class_init(oc: &mut ObjectClass) { 591cb36da9bSPaolo Bonzini if <T as ObjectImpl>::UNPARENT.is_some() { 592cb36da9bSPaolo Bonzini oc.unparent = Some(rust_unparent_fn::<T>); 593cb36da9bSPaolo Bonzini } 594cb36da9bSPaolo Bonzini } 595cb36da9bSPaolo Bonzini } 596cb36da9bSPaolo Bonzini 597cb36da9bSPaolo Bonzini unsafe impl ObjectType for Object { 598cb36da9bSPaolo Bonzini type Class = ObjectClass; 599cb36da9bSPaolo Bonzini const TYPE_NAME: &'static CStr = 600cb36da9bSPaolo Bonzini unsafe { CStr::from_bytes_with_nul_unchecked(bindings::TYPE_OBJECT) }; 601cb36da9bSPaolo Bonzini } 602ba3b81f3SPaolo Bonzini 603ba3b81f3SPaolo Bonzini /// Trait for methods exposed by the Object class. The methods can be 604ba3b81f3SPaolo Bonzini /// called on all objects that have the trait `IsA<Object>`. 605ba3b81f3SPaolo Bonzini /// 606ba3b81f3SPaolo Bonzini /// The trait should only be used through the blanket implementation, 607ba3b81f3SPaolo Bonzini /// which guarantees safety via `IsA` 608ba3b81f3SPaolo Bonzini pub trait ObjectMethods: ObjectDeref 609ba3b81f3SPaolo Bonzini where 610ba3b81f3SPaolo Bonzini Self::Target: IsA<Object>, 611ba3b81f3SPaolo Bonzini { 612ba3b81f3SPaolo Bonzini /// Return the name of the type of `self` 613ba3b81f3SPaolo Bonzini fn typename(&self) -> std::borrow::Cow<'_, str> { 614ba3b81f3SPaolo Bonzini let obj = self.upcast::<Object>(); 615ba3b81f3SPaolo Bonzini // SAFETY: safety of this is the requirement for implementing IsA 616ba3b81f3SPaolo Bonzini // The result of the C API has static lifetime 617ba3b81f3SPaolo Bonzini unsafe { 618ba3b81f3SPaolo Bonzini let p = object_get_typename(obj.as_mut_ptr()); 619ba3b81f3SPaolo Bonzini CStr::from_ptr(p).to_string_lossy() 620ba3b81f3SPaolo Bonzini } 621ba3b81f3SPaolo Bonzini } 622ba3b81f3SPaolo Bonzini 623ba3b81f3SPaolo Bonzini fn get_class(&self) -> &'static <Self::Target as ObjectType>::Class { 624ba3b81f3SPaolo Bonzini let obj = self.upcast::<Object>(); 625ba3b81f3SPaolo Bonzini 626ba3b81f3SPaolo Bonzini // SAFETY: all objects can call object_get_class; the actual class 627ba3b81f3SPaolo Bonzini // type is guaranteed by the implementation of `ObjectType` and 628ba3b81f3SPaolo Bonzini // `ObjectImpl`. 629ba3b81f3SPaolo Bonzini let klass: &'static <Self::Target as ObjectType>::Class = 630ba3b81f3SPaolo Bonzini unsafe { &*object_get_class(obj.as_mut_ptr()).cast() }; 631ba3b81f3SPaolo Bonzini 632ba3b81f3SPaolo Bonzini klass 633ba3b81f3SPaolo Bonzini } 634ba3b81f3SPaolo Bonzini } 635ba3b81f3SPaolo Bonzini 636ba3b81f3SPaolo Bonzini impl<R: ObjectDeref> ObjectMethods for R where R::Target: IsA<Object> {} 637