// Copyright 2024 Red Hat, Inc. // Author(s): Paolo Bonzini // SPDX-License-Identifier: GPL-2.0-or-later //! Bindings to access `sysbus` functionality from Rust. use std::{ffi::CStr, ptr::addr_of_mut}; pub use bindings::SysBusDeviceClass; use crate::{ bindings, cell::{bql_locked, Opaque}, irq::{IRQState, InterruptSource}, memory::MemoryRegion, prelude::*, qdev::{DeviceImpl, DeviceState}, qom::Owned, }; /// A safe wrapper around [`bindings::SysBusDevice`]. #[repr(transparent)] #[derive(Debug, qemu_api_macros::Wrapper)] pub struct SysBusDevice(Opaque); unsafe impl Send for SysBusDevice {} unsafe impl Sync for SysBusDevice {} unsafe impl ObjectType for SysBusDevice { type Class = SysBusDeviceClass; const TYPE_NAME: &'static CStr = unsafe { CStr::from_bytes_with_nul_unchecked(bindings::TYPE_SYS_BUS_DEVICE) }; } qom_isa!(SysBusDevice: DeviceState, Object); // TODO: add virtual methods pub trait SysBusDeviceImpl: DeviceImpl + IsA {} impl SysBusDeviceClass { /// Fill in the virtual methods of `SysBusDeviceClass` based on the /// definitions in the `SysBusDeviceImpl` trait. pub fn class_init(self: &mut SysBusDeviceClass) { self.parent_class.class_init::(); } } /// Trait for methods of [`SysBusDevice`] and its subclasses. pub trait SysBusDeviceMethods: ObjectDeref where Self::Target: IsA, { /// Expose a memory region to the board so that it can give it an address /// in guest memory. Note that the ordering of calls to `init_mmio` is /// important, since whoever creates the sysbus device will refer to the /// region with a number that corresponds to the order of calls to /// `init_mmio`. fn init_mmio(&self, iomem: &MemoryRegion) { assert!(bql_locked()); unsafe { bindings::sysbus_init_mmio(self.upcast().as_mut_ptr(), iomem.as_mut_ptr()); } } /// Expose an interrupt source outside the device as a qdev GPIO output. /// Note that the ordering of calls to `init_irq` is important, since /// whoever creates the sysbus device will refer to the interrupts with /// a number that corresponds to the order of calls to `init_irq`. fn init_irq(&self, irq: &InterruptSource) { assert!(bql_locked()); unsafe { bindings::sysbus_init_irq(self.upcast().as_mut_ptr(), irq.as_ptr()); } } // TODO: do we want a type like GuestAddress here? fn mmio_addr(&self, id: u32) -> Option { assert!(bql_locked()); // SAFETY: the BQL ensures that no one else writes to sbd.mmio[], and // the SysBusDevice must be initialized to get an IsA. let sbd = unsafe { *self.upcast().as_ptr() }; let id: usize = id.try_into().unwrap(); if sbd.mmio[id].memory.is_null() { None } else { Some(sbd.mmio[id].addr) } } // TODO: do we want a type like GuestAddress here? fn mmio_map(&self, id: u32, addr: u64) { assert!(bql_locked()); let id: i32 = id.try_into().unwrap(); unsafe { bindings::sysbus_mmio_map(self.upcast().as_mut_ptr(), id, addr); } } // Owned<> is used here because sysbus_connect_irq (via // object_property_set_link) adds a reference to the IRQState, // which can prolong its life fn connect_irq(&self, id: u32, irq: &Owned) { assert!(bql_locked()); let id: i32 = id.try_into().unwrap(); let irq: &IRQState = irq; unsafe { bindings::sysbus_connect_irq(self.upcast().as_mut_ptr(), id, irq.as_mut_ptr()); } } fn sysbus_realize(&self) { // TODO: return an Error assert!(bql_locked()); unsafe { bindings::sysbus_realize( self.upcast().as_mut_ptr(), addr_of_mut!(bindings::error_fatal), ); } } } impl SysBusDeviceMethods for R where R::Target: IsA {}