// Copyright 2018 The Chromium OS Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE-BSD-3-Clause file. // // Copyright © 2019 Intel Corporation // // SPDX-License-Identifier: Apache-2.0 AND BSD-3-Clause use super::*; use arc_swap::ArcSwap; use std::sync::Arc; use vm_memory::{GuestAddress, GuestMemoryMmap, GuestUsize}; use vmm_sys_util::eventfd::EventFd; pub enum VirtioInterruptType { Config, Queue, } pub trait VirtioInterrupt: Send + Sync { fn trigger( &self, int_type: &VirtioInterruptType, queue: Option<&Queue>, ) -> std::result::Result<(), std::io::Error>; fn notifier( &self, _int_type: &VirtioInterruptType, _queue: Option<&Queue>, ) -> Option<&EventFd> { None } } pub type VirtioIommuRemapping = Box std::result::Result + Send + Sync>; #[derive(Clone)] pub struct VirtioSharedMemory { pub offset: u64, pub len: u64, } #[derive(Clone)] pub struct VirtioSharedMemoryList { pub addr: GuestAddress, pub len: GuestUsize, pub region_list: Vec, } /// Trait for virtio devices to be driven by a virtio transport. /// /// The lifecycle of a virtio device is to be moved to a virtio transport, which will then query the /// device. Once the guest driver has configured the device, `VirtioDevice::activate` will be called /// and all the events, memory, and queues for device operation will be moved into the device. /// Optionally, a virtio device can implement device reset in which it returns said resources and /// resets its internal. pub trait VirtioDevice: Send { /// The virtio device type. fn device_type(&self) -> u32; /// The maximum size of each queue that this device supports. fn queue_max_sizes(&self) -> &[u16]; /// The set of feature bits that this device supports. fn features(&self) -> u64 { 0 } /// Acknowledges that this set of features should be enabled. fn ack_features(&mut self, value: u64) { let _ = value; } /// Reads this device configuration space at `offset`. fn read_config(&self, offset: u64, data: &mut [u8]); /// Writes to this device configuration space at `offset`. fn write_config(&mut self, offset: u64, data: &[u8]); /// Activates this device for real usage. fn activate( &mut self, mem: Arc>, interrupt_evt: Arc, queues: Vec, queue_evts: Vec, ) -> ActivateResult; /// Optionally deactivates this device and returns ownership of the guest memory map, interrupt /// event, and queue events. fn reset(&mut self) -> Option<(Arc, Vec)> { None } /// Returns the list of shared memory regions required by the device. fn get_shm_regions(&self) -> Option { None } fn iommu_translate(&self, addr: u64) -> u64 { addr } } /// Trait providing address translation the same way a physical DMA remapping /// table would provide translation between an IOVA and a physical address. /// The goal of this trait is to be used by virtio devices to perform the /// address translation before they try to read from the guest physical address. /// On the other side, the implementation itself should be provided by the code /// emulating the IOMMU for the guest. pub trait DmaRemapping: Send + Sync { fn translate(&self, id: u32, addr: u64) -> std::result::Result; } #[macro_export] macro_rules! virtio_pausable_trait_definition { () => { trait VirtioPausable { fn virtio_pause(&mut self) -> std::result::Result<(), MigratableError>; fn virtio_resume(&mut self) -> std::result::Result<(), MigratableError>; } }; } #[macro_export] macro_rules! virtio_pausable_trait_inner { () => { // This is the common Pausable trait implementation for virtio. fn virtio_pause(&mut self) -> result::Result<(), MigratableError> { debug!( "Pausing virtio-{}", VirtioDeviceType::from(self.device_type()) ); self.paused.store(true, Ordering::SeqCst); if let Some(pause_evt) = &self.pause_evt { pause_evt .write(1) .map_err(|e| MigratableError::Pause(e.into()))?; } Ok(()) } fn virtio_resume(&mut self) -> result::Result<(), MigratableError> { debug!( "Resuming virtio-{}", VirtioDeviceType::from(self.device_type()) ); self.paused.store(false, Ordering::SeqCst); if let Some(epoll_threads) = &self.epoll_threads { for i in 0..epoll_threads.len() { epoll_threads[i].thread().unpark(); } } Ok(()) } }; } #[macro_export] macro_rules! virtio_pausable_trait { ($type:ident) => { virtio_pausable_trait_definition!(); impl VirtioPausable for $type { virtio_pausable_trait_inner!(); } }; ($type:ident, T: $($bounds:tt)+) => { virtio_pausable_trait_definition!(); impl VirtioPausable for $type { virtio_pausable_trait_inner!(); } }; } #[macro_export] macro_rules! virtio_pausable_inner { ($type:ident) => { fn pause(&mut self) -> result::Result<(), MigratableError> { self.virtio_pause() } fn resume(&mut self) -> result::Result<(), MigratableError> { self.virtio_resume() } }; } #[macro_export] macro_rules! virtio_pausable { ($type:ident) => { virtio_pausable_trait!($type); impl Pausable for $type { virtio_pausable_inner!($type); } }; // For type bound virtio types ($type:ident, T: $($bounds:tt)+) => { virtio_pausable_trait!($type, T: $($bounds)+); impl Pausable for $type { virtio_pausable_inner!($type); } }; } #[macro_export] macro_rules! virtio_ctrl_q_pausable { ($type:ident) => { virtio_pausable_trait!($type); impl Pausable for $type { fn pause(&mut self) -> result::Result<(), MigratableError> { self.virtio_pause() } fn resume(&mut self) -> result::Result<(), MigratableError> { self.virtio_resume()?; if let Some(ctrl_queue_epoll_thread) = &self.ctrl_queue_epoll_thread { ctrl_queue_epoll_thread.thread().unpark(); } Ok(()) } } }; }