qemu-api/src/qdev.rs

5a5110d2SManos Pitsidianakis// Copyright 2024, Linaro Limited
5a5110d2SManos Pitsidianakis// Author(s): Manos Pitsidianakis <manos.pitsidianakis@linaro.org>
5a5110d2SManos Pitsidianakis// SPDX-License-Identifier: GPL-2.0-or-later
5a5110d2SManos Pitsidianakis
4aed0296SPaolo Bonzini//! Bindings to create devices and access device functionality from Rust.
4aed0296SPaolo Bonzini
201ef001SPaolo Bonziniuse std::{
201ef001SPaolo Bonzini    ffi::{CStr, CString},
201ef001SPaolo Bonzini    os::raw::c_void,
201ef001SPaolo Bonzini    ptr::NonNull,
201ef001SPaolo Bonzini};
ce4a144cSPaolo Bonzini
5472a38cSPaolo Bonzinipub use bindings::{Clock, ClockEvent, DeviceClass, DeviceState, Property, ResetType};
716d89f9SPaolo Bonzini
8c80c472SPaolo Bonziniuse crate::{
5472a38cSPaolo Bonzini    bindings::{self, Error, ResettableClass},
201ef001SPaolo Bonzini    callbacks::FnCall,
201ef001SPaolo Bonzini    cell::bql_locked,
*a22bd55fSPaolo Bonzini    chardev::Chardev,
7bd8e3efSPaolo Bonzini    prelude::*,
68da5402SPaolo Bonzini    qom::{ClassInitImpl, ObjectClass, ObjectImpl, Owned},
716d89f9SPaolo Bonzini    vmstate::VMStateDescription,
8c80c472SPaolo Bonzini};
8c80c472SPaolo Bonzini
5472a38cSPaolo Bonzini/// Trait providing the contents of the `ResettablePhases` struct,
5472a38cSPaolo Bonzini/// which is part of the QOM `Resettable` interface.
5472a38cSPaolo Bonzinipub trait ResettablePhasesImpl {
5472a38cSPaolo Bonzini    /// If not None, this is called when the object enters reset. It
5472a38cSPaolo Bonzini    /// can reset local state of the object, but it must not do anything that
5472a38cSPaolo Bonzini    /// has a side-effect on other objects, such as raising or lowering an
5472a38cSPaolo Bonzini    /// [`InterruptSource`](crate::irq::InterruptSource), or reading or
5472a38cSPaolo Bonzini    /// writing guest memory. It takes the reset's type as argument.
5472a38cSPaolo Bonzini    const ENTER: Option<fn(&Self, ResetType)> = None;
5472a38cSPaolo Bonzini
5472a38cSPaolo Bonzini    /// If not None, this is called when the object for entry into reset, once
5472a38cSPaolo Bonzini    /// every object in the system which is being reset has had its
5472a38cSPaolo Bonzini    /// `ResettablePhasesImpl::ENTER` method called. At this point devices
5472a38cSPaolo Bonzini    /// can do actions that affect other objects.
5472a38cSPaolo Bonzini    ///
5472a38cSPaolo Bonzini    /// If in doubt, implement this method.
5472a38cSPaolo Bonzini    const HOLD: Option<fn(&Self, ResetType)> = None;
5472a38cSPaolo Bonzini
5472a38cSPaolo Bonzini    /// If not None, this phase is called when the object leaves the reset
5472a38cSPaolo Bonzini    /// state. Actions affecting other objects are permitted.
5472a38cSPaolo Bonzini    const EXIT: Option<fn(&Self, ResetType)> = None;
5472a38cSPaolo Bonzini}
5472a38cSPaolo Bonzini
5472a38cSPaolo Bonzini/// # Safety
5472a38cSPaolo Bonzini///
5472a38cSPaolo Bonzini/// We expect the FFI user of this function to pass a valid pointer that
5472a38cSPaolo Bonzini/// can be downcasted to type `T`. We also expect the device is
5472a38cSPaolo Bonzini/// readable/writeable from one thread at any time.
5472a38cSPaolo Bonziniunsafe extern "C" fn rust_resettable_enter_fn<T: ResettablePhasesImpl>(
5472a38cSPaolo Bonzini    obj: *mut Object,
5472a38cSPaolo Bonzini    typ: ResetType,
5472a38cSPaolo Bonzini) {
5472a38cSPaolo Bonzini    let state = NonNull::new(obj).unwrap().cast::<T>();
5472a38cSPaolo Bonzini    T::ENTER.unwrap()(unsafe { state.as_ref() }, typ);
5472a38cSPaolo Bonzini}
5472a38cSPaolo Bonzini
5472a38cSPaolo Bonzini/// # Safety
5472a38cSPaolo Bonzini///
5472a38cSPaolo Bonzini/// We expect the FFI user of this function to pass a valid pointer that
5472a38cSPaolo Bonzini/// can be downcasted to type `T`. We also expect the device is
5472a38cSPaolo Bonzini/// readable/writeable from one thread at any time.
5472a38cSPaolo Bonziniunsafe extern "C" fn rust_resettable_hold_fn<T: ResettablePhasesImpl>(
5472a38cSPaolo Bonzini    obj: *mut Object,
5472a38cSPaolo Bonzini    typ: ResetType,
5472a38cSPaolo Bonzini) {
5472a38cSPaolo Bonzini    let state = NonNull::new(obj).unwrap().cast::<T>();
5472a38cSPaolo Bonzini    T::HOLD.unwrap()(unsafe { state.as_ref() }, typ);
5472a38cSPaolo Bonzini}
5472a38cSPaolo Bonzini
5472a38cSPaolo Bonzini/// # Safety
5472a38cSPaolo Bonzini///
5472a38cSPaolo Bonzini/// We expect the FFI user of this function to pass a valid pointer that
5472a38cSPaolo Bonzini/// can be downcasted to type `T`. We also expect the device is
5472a38cSPaolo Bonzini/// readable/writeable from one thread at any time.
5472a38cSPaolo Bonziniunsafe extern "C" fn rust_resettable_exit_fn<T: ResettablePhasesImpl>(
5472a38cSPaolo Bonzini    obj: *mut Object,
5472a38cSPaolo Bonzini    typ: ResetType,
5472a38cSPaolo Bonzini) {
5472a38cSPaolo Bonzini    let state = NonNull::new(obj).unwrap().cast::<T>();
5472a38cSPaolo Bonzini    T::EXIT.unwrap()(unsafe { state.as_ref() }, typ);
5472a38cSPaolo Bonzini}
5472a38cSPaolo Bonzini
8c80c472SPaolo Bonzini/// Trait providing the contents of [`DeviceClass`].
5472a38cSPaolo Bonzinipub trait DeviceImpl: ObjectImpl + ResettablePhasesImpl {
8c80c472SPaolo Bonzini    /// _Realization_ is the second stage of device creation. It contains
8c80c472SPaolo Bonzini    /// all operations that depend on device properties and can fail (note:
8c80c472SPaolo Bonzini    /// this is not yet supported for Rust devices).
8c80c472SPaolo Bonzini    ///
8c80c472SPaolo Bonzini    /// If not `None`, the parent class's `realize` method is overridden
8c80c472SPaolo Bonzini    /// with the function pointed to by `REALIZE`.
0f9eb0ffSZhao Liu    const REALIZE: Option<fn(&Self)> = None;
8c80c472SPaolo Bonzini
8c80c472SPaolo Bonzini    /// An array providing the properties that the user can set on the
8c80c472SPaolo Bonzini    /// device.  Not a `const` because referencing statics in constants
8c80c472SPaolo Bonzini    /// is unstable until Rust 1.83.0.
8c80c472SPaolo Bonzini    fn properties() -> &'static [Property] {
5f997648SRichard Henderson        &[]
8c80c472SPaolo Bonzini    }
8c80c472SPaolo Bonzini
8c80c472SPaolo Bonzini    /// A `VMStateDescription` providing the migration format for the device
8c80c472SPaolo Bonzini    /// Not a `const` because referencing statics in constants is unstable
8c80c472SPaolo Bonzini    /// until Rust 1.83.0.
8c80c472SPaolo Bonzini    fn vmsd() -> Option<&'static VMStateDescription> {
8c80c472SPaolo Bonzini        None
8c80c472SPaolo Bonzini    }
8c80c472SPaolo Bonzini}
8c80c472SPaolo Bonzini
8c80c472SPaolo Bonzini/// # Safety
8c80c472SPaolo Bonzini///
f75fb90fSPaolo Bonzini/// This function is only called through the QOM machinery and
6dd818fbSPaolo Bonzini/// used by the `ClassInitImpl<DeviceClass>` trait.
f75fb90fSPaolo Bonzini/// We expect the FFI user of this function to pass a valid pointer that
f75fb90fSPaolo Bonzini/// can be downcasted to type `T`. We also expect the device is
f75fb90fSPaolo Bonzini/// readable/writeable from one thread at any time.
f75fb90fSPaolo Bonziniunsafe extern "C" fn rust_realize_fn<T: DeviceImpl>(dev: *mut DeviceState, _errp: *mut *mut Error) {
7d052039SPaolo Bonzini    let state = NonNull::new(dev).unwrap().cast::<T>();
7d052039SPaolo Bonzini    T::REALIZE.unwrap()(unsafe { state.as_ref() });
f75fb90fSPaolo Bonzini}
f75fb90fSPaolo Bonzini
5472a38cSPaolo Bonziniunsafe impl InterfaceType for ResettableClass {
5472a38cSPaolo Bonzini    const TYPE_NAME: &'static CStr =
5472a38cSPaolo Bonzini        unsafe { CStr::from_bytes_with_nul_unchecked(bindings::TYPE_RESETTABLE_INTERFACE) };
5472a38cSPaolo Bonzini}
5472a38cSPaolo Bonzini
5472a38cSPaolo Bonziniimpl<T> ClassInitImpl<ResettableClass> for T
5472a38cSPaolo Bonziniwhere
5472a38cSPaolo Bonzini    T: ResettablePhasesImpl,
5472a38cSPaolo Bonzini{
5472a38cSPaolo Bonzini    fn class_init(rc: &mut ResettableClass) {
5472a38cSPaolo Bonzini        if <T as ResettablePhasesImpl>::ENTER.is_some() {
5472a38cSPaolo Bonzini            rc.phases.enter = Some(rust_resettable_enter_fn::<T>);
5472a38cSPaolo Bonzini        }
5472a38cSPaolo Bonzini        if <T as ResettablePhasesImpl>::HOLD.is_some() {
5472a38cSPaolo Bonzini            rc.phases.hold = Some(rust_resettable_hold_fn::<T>);
5472a38cSPaolo Bonzini        }
5472a38cSPaolo Bonzini        if <T as ResettablePhasesImpl>::EXIT.is_some() {
5472a38cSPaolo Bonzini            rc.phases.exit = Some(rust_resettable_exit_fn::<T>);
5472a38cSPaolo Bonzini        }
5472a38cSPaolo Bonzini    }
f75fb90fSPaolo Bonzini}
f75fb90fSPaolo Bonzini
6dd818fbSPaolo Bonziniimpl<T> ClassInitImpl<DeviceClass> for T
6dd818fbSPaolo Bonziniwhere
5472a38cSPaolo Bonzini    T: ClassInitImpl<ObjectClass> + ClassInitImpl<ResettableClass> + DeviceImpl,
6dd818fbSPaolo Bonzini{
6dd818fbSPaolo Bonzini    fn class_init(dc: &mut DeviceClass) {
f75fb90fSPaolo Bonzini        if <T as DeviceImpl>::REALIZE.is_some() {
f75fb90fSPaolo Bonzini            dc.realize = Some(rust_realize_fn::<T>);
8c80c472SPaolo Bonzini        }
8c80c472SPaolo Bonzini        if let Some(vmsd) = <T as DeviceImpl>::vmsd() {
8c80c472SPaolo Bonzini            dc.vmsd = vmsd;
8c80c472SPaolo Bonzini        }
5f997648SRichard Henderson        let prop = <T as DeviceImpl>::properties();
5f997648SRichard Henderson        if !prop.is_empty() {
6dd818fbSPaolo Bonzini            unsafe {
5f997648SRichard Henderson                bindings::device_class_set_props_n(dc, prop.as_ptr(), prop.len());
5f997648SRichard Henderson            }
8c80c472SPaolo Bonzini        }
cb36da9bSPaolo Bonzini
5472a38cSPaolo Bonzini        ResettableClass::interface_init::<T, DeviceState>(dc);
cb36da9bSPaolo Bonzini        <T as ClassInitImpl<ObjectClass>>::class_init(&mut dc.parent_class);
8c80c472SPaolo Bonzini    }
5a5110d2SManos Pitsidianakis}
5a5110d2SManos Pitsidianakis
5a5110d2SManos Pitsidianakis#[macro_export]
5a5110d2SManos Pitsidianakismacro_rules! define_property {
a3057c52SJunjie Mao    ($name:expr, $state:ty, $field:ident, $prop:expr, $type:ty, default = $defval:expr$(,)*) => {
5a5110d2SManos Pitsidianakis        $crate::bindings::Property {
03a573b9SPaolo Bonzini            // use associated function syntax for type checking
9f7d4520SPaolo Bonzini            name: ::std::ffi::CStr::as_ptr($name),
5a5110d2SManos Pitsidianakis            info: $prop,
f3518400SJunjie Mao            offset: $crate::offset_of!($state, $field) as isize,
5a5110d2SManos Pitsidianakis            set_default: true,
03a573b9SPaolo Bonzini            defval: $crate::bindings::Property__bindgen_ty_1 { u: $defval as u64 },
6e50bde1SPaolo Bonzini            ..$crate::zeroable::Zeroable::ZERO
5a5110d2SManos Pitsidianakis        }
5a5110d2SManos Pitsidianakis    };
a3057c52SJunjie Mao    ($name:expr, $state:ty, $field:ident, $prop:expr, $type:ty$(,)*) => {
5a5110d2SManos Pitsidianakis        $crate::bindings::Property {
03a573b9SPaolo Bonzini            // use associated function syntax for type checking
9f7d4520SPaolo Bonzini            name: ::std::ffi::CStr::as_ptr($name),
5a5110d2SManos Pitsidianakis            info: $prop,
f3518400SJunjie Mao            offset: $crate::offset_of!($state, $field) as isize,
5a5110d2SManos Pitsidianakis            set_default: false,
6e50bde1SPaolo Bonzini            ..$crate::zeroable::Zeroable::ZERO
5a5110d2SManos Pitsidianakis        }
5a5110d2SManos Pitsidianakis    };
5a5110d2SManos Pitsidianakis}
5a5110d2SManos Pitsidianakis
5a5110d2SManos Pitsidianakis#[macro_export]
5a5110d2SManos Pitsidianakismacro_rules! declare_properties {
5a5110d2SManos Pitsidianakis    ($ident:ident, $($prop:expr),*$(,)*) => {
c92c447fSPaolo Bonzini        pub static $ident: [$crate::bindings::Property; {
5f997648SRichard Henderson            let mut len = 0;
5a5110d2SManos Pitsidianakis            $({
5a5110d2SManos Pitsidianakis                _ = stringify!($prop);
5a5110d2SManos Pitsidianakis                len += 1;
5a5110d2SManos Pitsidianakis            })*
5a5110d2SManos Pitsidianakis            len
c92c447fSPaolo Bonzini        }] = [
5a5110d2SManos Pitsidianakis            $($prop),*,
c92c447fSPaolo Bonzini        ];
5a5110d2SManos Pitsidianakis    };
5a5110d2SManos Pitsidianakis}
ce4a144cSPaolo Bonzini
6dd818fbSPaolo Bonziniunsafe impl ObjectType for DeviceState {
6dd818fbSPaolo Bonzini    type Class = DeviceClass;
7bd8e3efSPaolo Bonzini    const TYPE_NAME: &'static CStr =
ce4a144cSPaolo Bonzini        unsafe { CStr::from_bytes_with_nul_unchecked(bindings::TYPE_DEVICE) };
7bd8e3efSPaolo Bonzini}
f50cd85cSPaolo Bonziniqom_isa!(DeviceState: Object);
201ef001SPaolo Bonzini
201ef001SPaolo Bonzini/// Trait for methods exposed by the [`DeviceState`] class.  The methods can be
201ef001SPaolo Bonzini/// called on all objects that have the trait `IsA<DeviceState>`.
201ef001SPaolo Bonzini///
201ef001SPaolo Bonzini/// The trait should only be used through the blanket implementation,
201ef001SPaolo Bonzini/// which guarantees safety via `IsA`.
201ef001SPaolo Bonzinipub trait DeviceMethods: ObjectDeref
201ef001SPaolo Bonziniwhere
201ef001SPaolo Bonzini    Self::Target: IsA<DeviceState>,
201ef001SPaolo Bonzini{
201ef001SPaolo Bonzini    /// Add an input clock named `name`.  Invoke the callback with
201ef001SPaolo Bonzini    /// `self` as the first parameter for the events that are requested.
201ef001SPaolo Bonzini    ///
201ef001SPaolo Bonzini    /// The resulting clock is added as a child of `self`, but it also
201ef001SPaolo Bonzini    /// stays alive until after `Drop::drop` is called because C code
201ef001SPaolo Bonzini    /// keeps an extra reference to it until `device_finalize()` calls
201ef001SPaolo Bonzini    /// `qdev_finalize_clocklist()`.  Therefore (unlike most cases in
201ef001SPaolo Bonzini    /// which Rust code has a reference to a child object) it would be
201ef001SPaolo Bonzini    /// possible for this function to return a `&Clock` too.
201ef001SPaolo Bonzini    #[inline]
201ef001SPaolo Bonzini    fn init_clock_in<F: for<'a> FnCall<(&'a Self::Target, ClockEvent)>>(
201ef001SPaolo Bonzini        &self,
201ef001SPaolo Bonzini        name: &str,
201ef001SPaolo Bonzini        _cb: &F,
201ef001SPaolo Bonzini        events: ClockEvent,
201ef001SPaolo Bonzini    ) -> Owned<Clock> {
201ef001SPaolo Bonzini        fn do_init_clock_in(
201ef001SPaolo Bonzini            dev: *mut DeviceState,
201ef001SPaolo Bonzini            name: &str,
201ef001SPaolo Bonzini            cb: Option<unsafe extern "C" fn(*mut c_void, ClockEvent)>,
201ef001SPaolo Bonzini            events: ClockEvent,
201ef001SPaolo Bonzini        ) -> Owned<Clock> {
201ef001SPaolo Bonzini            assert!(bql_locked());
201ef001SPaolo Bonzini
201ef001SPaolo Bonzini            // SAFETY: the clock is heap allocated, but qdev_init_clock_in()
201ef001SPaolo Bonzini            // does not gift the reference to its caller; so use Owned::from to
201ef001SPaolo Bonzini            // add one.  The callback is disabled automatically when the clock
201ef001SPaolo Bonzini            // is unparented, which happens before the device is finalized.
201ef001SPaolo Bonzini            unsafe {
201ef001SPaolo Bonzini                let cstr = CString::new(name).unwrap();
201ef001SPaolo Bonzini                let clk = bindings::qdev_init_clock_in(
201ef001SPaolo Bonzini                    dev,
201ef001SPaolo Bonzini                    cstr.as_ptr(),
201ef001SPaolo Bonzini                    cb,
201ef001SPaolo Bonzini                    dev.cast::<c_void>(),
201ef001SPaolo Bonzini                    events.0,
201ef001SPaolo Bonzini                );
201ef001SPaolo Bonzini
201ef001SPaolo Bonzini                Owned::from(&*clk)
201ef001SPaolo Bonzini            }
201ef001SPaolo Bonzini        }
201ef001SPaolo Bonzini
201ef001SPaolo Bonzini        let cb: Option<unsafe extern "C" fn(*mut c_void, ClockEvent)> = if F::is_some() {
201ef001SPaolo Bonzini            unsafe extern "C" fn rust_clock_cb<T, F: for<'a> FnCall<(&'a T, ClockEvent)>>(
201ef001SPaolo Bonzini                opaque: *mut c_void,
201ef001SPaolo Bonzini                event: ClockEvent,
201ef001SPaolo Bonzini            ) {
201ef001SPaolo Bonzini                // SAFETY: the opaque is "this", which is indeed a pointer to T
201ef001SPaolo Bonzini                F::call((unsafe { &*(opaque.cast::<T>()) }, event))
201ef001SPaolo Bonzini            }
201ef001SPaolo Bonzini            Some(rust_clock_cb::<Self::Target, F>)
201ef001SPaolo Bonzini        } else {
201ef001SPaolo Bonzini            None
201ef001SPaolo Bonzini        };
201ef001SPaolo Bonzini
201ef001SPaolo Bonzini        do_init_clock_in(self.as_mut_ptr(), name, cb, events)
201ef001SPaolo Bonzini    }
201ef001SPaolo Bonzini
201ef001SPaolo Bonzini    /// Add an output clock named `name`.
201ef001SPaolo Bonzini    ///
201ef001SPaolo Bonzini    /// The resulting clock is added as a child of `self`, but it also
201ef001SPaolo Bonzini    /// stays alive until after `Drop::drop` is called because C code
201ef001SPaolo Bonzini    /// keeps an extra reference to it until `device_finalize()` calls
201ef001SPaolo Bonzini    /// `qdev_finalize_clocklist()`.  Therefore (unlike most cases in
201ef001SPaolo Bonzini    /// which Rust code has a reference to a child object) it would be
201ef001SPaolo Bonzini    /// possible for this function to return a `&Clock` too.
201ef001SPaolo Bonzini    #[inline]
201ef001SPaolo Bonzini    fn init_clock_out(&self, name: &str) -> Owned<Clock> {
201ef001SPaolo Bonzini        unsafe {
201ef001SPaolo Bonzini            let cstr = CString::new(name).unwrap();
201ef001SPaolo Bonzini            let clk = bindings::qdev_init_clock_out(self.as_mut_ptr(), cstr.as_ptr());
201ef001SPaolo Bonzini
201ef001SPaolo Bonzini            Owned::from(&*clk)
201ef001SPaolo Bonzini        }
201ef001SPaolo Bonzini    }
*a22bd55fSPaolo Bonzini
*a22bd55fSPaolo Bonzini    fn prop_set_chr(&self, propname: &str, chr: &Owned<Chardev>) {
*a22bd55fSPaolo Bonzini        assert!(bql_locked());
*a22bd55fSPaolo Bonzini        let c_propname = CString::new(propname).unwrap();
*a22bd55fSPaolo Bonzini        unsafe {
*a22bd55fSPaolo Bonzini            bindings::qdev_prop_set_chr(self.as_mut_ptr(), c_propname.as_ptr(), chr.as_mut_ptr());
*a22bd55fSPaolo Bonzini        }
*a22bd55fSPaolo Bonzini    }
201ef001SPaolo Bonzini}
201ef001SPaolo Bonzini
201ef001SPaolo Bonziniimpl<R: ObjectDeref> DeviceMethods for R where R::Target: IsA<DeviceState> {}
201ef001SPaolo Bonzini
201ef001SPaolo Bonziniunsafe impl ObjectType for Clock {
201ef001SPaolo Bonzini    type Class = ObjectClass;
201ef001SPaolo Bonzini    const TYPE_NAME: &'static CStr =
201ef001SPaolo Bonzini        unsafe { CStr::from_bytes_with_nul_unchecked(bindings::TYPE_CLOCK) };
201ef001SPaolo Bonzini}
201ef001SPaolo Bonziniqom_isa!(Clock: Object);