// 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. use crate::configuration; use crate::msix::MsixTableEntry; use crate::PciInterruptPin; use devices::BusDevice; use std; use std::fmt::{self, Display}; use std::sync::Arc; use vm_allocator::SystemAllocator; use vm_memory::{GuestAddress, GuestUsize}; use vmm_sys_util::EventFd; pub struct InterruptParameters<'a> { pub msix: Option<&'a MsixTableEntry>, } pub type InterruptDelivery = Box std::result::Result<(), std::io::Error> + Send + Sync>; #[derive(Debug)] pub enum Error { /// Setup of the device capabilities failed. CapabilitiesSetup(configuration::Error), /// Allocating space for an IO BAR failed. IoAllocationFailed(u64), /// Registering an IO BAR failed. IoRegistrationFailed(u64, configuration::Error), } pub type Result = std::result::Result; impl Display for Error { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { use self::Error::*; match self { CapabilitiesSetup(e) => write!(f, "failed to add capability {}", e), IoAllocationFailed(size) => { write!(f, "failed to allocate space for an IO BAR, size={}", size) } IoRegistrationFailed(addr, e) => { write!(f, "failed to register an IO BAR, addr={} err={}", addr, e) } } } } pub trait PciDevice: BusDevice { /// Assign a legacy PCI IRQ to this device. /// The device may write to `irq_evt` to trigger an interrupt. fn assign_pin_irq( &mut self, _irq_cb: Arc, _irq_num: u32, _irq_pin: PciInterruptPin, ) { } /// Assign MSI-X to this device. fn assign_msix(&mut self, _msi_cb: Arc) {} /// Allocates the needed PCI BARs space using the `allocate` function which takes a size and /// returns an address. Returns a Vec of (GuestAddress, GuestUsize) tuples. fn allocate_bars( &mut self, _allocator: &mut SystemAllocator, ) -> Result> { Ok(Vec::new()) } /// Register any capabilties specified by the device. fn register_device_capabilities(&mut self) -> Result<()> { Ok(()) } /// Gets a list of ioeventfds that should be registered with the running VM. The list is /// returned as a Vec of (eventfd, addr, datamatch) tuples. fn ioeventfds(&self) -> Vec<(&EventFd, u64, u64)> { Vec::new() } /// Reads from a BAR region mapped in to the device. /// * `addr` - The guest address inside the BAR. /// * `data` - Filled with the data from `addr`. fn read_bar(&mut self, addr: u64, data: &mut [u8]); /// Writes to a BAR region mapped in to the device. /// * `addr` - The guest address inside the BAR. /// * `data` - The data to write. fn write_bar(&mut self, addr: u64, data: &[u8]); /// Invoked when the device is sandboxed. fn on_device_sandboxed(&mut self) {} }