1 // Copyright 2018 The Chromium OS Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style license that can be 3 // found in the LICENSE-BSD-3-Clause file. 4 // 5 // Copyright © 2019 Intel Corporation 6 // 7 // SPDX-License-Identifier: Apache-2.0 AND BSD-3-Clause 8 9 use crate::{ 10 ActivateError, ActivateResult, Error, GuestMemoryMmap, GuestRegionMmap, 11 VIRTIO_F_RING_INDIRECT_DESC, 12 }; 13 use libc::EFD_NONBLOCK; 14 use std::collections::HashMap; 15 use std::io::Write; 16 use std::num::Wrapping; 17 use std::sync::{ 18 atomic::{AtomicBool, Ordering}, 19 Arc, Barrier, 20 }; 21 use std::thread; 22 use virtio_queue::Queue; 23 use vm_memory::{GuestAddress, GuestMemoryAtomic, GuestUsize}; 24 use vm_migration::{MigratableError, Pausable}; 25 use vm_virtio::AccessPlatform; 26 use vm_virtio::VirtioDeviceType; 27 use vmm_sys_util::eventfd::EventFd; 28 29 pub enum VirtioInterruptType { 30 Config, 31 Queue(u16), 32 } 33 34 pub trait VirtioInterrupt: Send + Sync { 35 fn trigger(&self, int_type: VirtioInterruptType) -> std::result::Result<(), std::io::Error>; 36 fn notifier(&self, _int_type: VirtioInterruptType) -> Option<EventFd> { 37 None 38 } 39 } 40 41 #[derive(Clone)] 42 pub struct UserspaceMapping { 43 pub host_addr: u64, 44 pub mem_slot: u32, 45 pub addr: GuestAddress, 46 pub len: GuestUsize, 47 pub mergeable: bool, 48 } 49 50 #[derive(Clone)] 51 pub struct VirtioSharedMemory { 52 pub offset: u64, 53 pub len: u64, 54 } 55 56 #[derive(Clone)] 57 pub struct VirtioSharedMemoryList { 58 pub host_addr: u64, 59 pub mem_slot: u32, 60 pub addr: GuestAddress, 61 pub len: GuestUsize, 62 pub region_list: Vec<VirtioSharedMemory>, 63 } 64 65 /// Trait for virtio devices to be driven by a virtio transport. 66 /// 67 /// The lifecycle of a virtio device is to be moved to a virtio transport, which will then query the 68 /// device. Once the guest driver has configured the device, `VirtioDevice::activate` will be called 69 /// and all the events, memory, and queues for device operation will be moved into the device. 70 /// Optionally, a virtio device can implement device reset in which it returns said resources and 71 /// resets its internal. 72 pub trait VirtioDevice: Send { 73 /// The virtio device type. 74 fn device_type(&self) -> u32; 75 76 /// The maximum size of each queue that this device supports. 77 fn queue_max_sizes(&self) -> &[u16]; 78 79 /// The set of feature bits that this device supports. 80 fn features(&self) -> u64 { 81 0 82 } 83 84 /// Acknowledges that this set of features should be enabled. 85 fn ack_features(&mut self, value: u64) { 86 let _ = value; 87 } 88 89 /// Reads this device configuration space at `offset`. 90 fn read_config(&self, _offset: u64, _data: &mut [u8]) { 91 warn!( 92 "No readable configuration fields for {}", 93 VirtioDeviceType::from(self.device_type()) 94 ); 95 } 96 97 /// Writes to this device configuration space at `offset`. 98 fn write_config(&mut self, _offset: u64, _data: &[u8]) { 99 warn!( 100 "No writable configuration fields for {}", 101 VirtioDeviceType::from(self.device_type()) 102 ); 103 } 104 105 /// Activates this device for real usage. 106 fn activate( 107 &mut self, 108 mem: GuestMemoryAtomic<GuestMemoryMmap>, 109 interrupt_evt: Arc<dyn VirtioInterrupt>, 110 queues: Vec<(usize, Queue<GuestMemoryAtomic<GuestMemoryMmap>>, EventFd)>, 111 ) -> ActivateResult; 112 113 /// Optionally deactivates this device and returns ownership of the guest memory map, interrupt 114 /// event, and queue events. 115 fn reset(&mut self) -> Option<Arc<dyn VirtioInterrupt>> { 116 None 117 } 118 119 /// Returns the list of shared memory regions required by the device. 120 fn get_shm_regions(&self) -> Option<VirtioSharedMemoryList> { 121 None 122 } 123 124 /// Updates the list of shared memory regions required by the device. 125 fn set_shm_regions( 126 &mut self, 127 _shm_regions: VirtioSharedMemoryList, 128 ) -> std::result::Result<(), Error> { 129 std::unimplemented!() 130 } 131 132 /// Some devices may need to do some explicit shutdown work. This method 133 /// may be implemented to do this. The VMM should call shutdown() on 134 /// every device as part of shutting down the VM. Acting on the device 135 /// after a shutdown() can lead to unpredictable results. 136 fn shutdown(&mut self) {} 137 138 fn add_memory_region( 139 &mut self, 140 _region: &Arc<GuestRegionMmap>, 141 ) -> std::result::Result<(), Error> { 142 Ok(()) 143 } 144 145 /// Returns the list of userspace mappings associated with this device. 146 fn userspace_mappings(&self) -> Vec<UserspaceMapping> { 147 Vec::new() 148 } 149 150 /// Return the counters that this device exposes 151 fn counters(&self) -> Option<HashMap<&'static str, Wrapping<u64>>> { 152 None 153 } 154 155 /// Helper to allow common implementation of read_config 156 fn read_config_from_slice(&self, config: &[u8], offset: u64, mut data: &mut [u8]) { 157 let config_len = config.len() as u64; 158 let data_len = data.len() as u64; 159 if offset + data_len > config_len { 160 error!( 161 "Out-of-bound access to configuration: config_len = {} offset = {:x} length = {} for {}", 162 config_len, 163 offset, 164 data_len, 165 self.device_type() 166 ); 167 return; 168 } 169 if let Some(end) = offset.checked_add(data.len() as u64) { 170 data.write_all(&config[offset as usize..std::cmp::min(end, config_len) as usize]) 171 .unwrap(); 172 } 173 } 174 175 /// Helper to allow common implementation of write_config 176 fn write_config_helper(&self, config: &mut [u8], offset: u64, data: &[u8]) { 177 let config_len = config.len() as u64; 178 let data_len = data.len() as u64; 179 if offset + data_len > config_len { 180 error!( 181 "Out-of-bound access to configuration: config_len = {} offset = {:x} length = {} for {}", 182 config_len, 183 offset, 184 data_len, 185 self.device_type() 186 ); 187 return; 188 } 189 190 if let Some(end) = offset.checked_add(config.len() as u64) { 191 let mut offset_config = 192 &mut config[offset as usize..std::cmp::min(end, config_len) as usize]; 193 offset_config.write_all(data).unwrap(); 194 } 195 } 196 197 /// Set the access platform trait to let the device perform address 198 /// translations if needed. 199 fn set_access_platform(&mut self, _access_platform: Arc<dyn AccessPlatform>) {} 200 } 201 202 /// Trait providing address translation the same way a physical DMA remapping 203 /// table would provide translation between an IOVA and a physical address. 204 /// The goal of this trait is to be used by virtio devices to perform the 205 /// address translation before they try to read from the guest physical address. 206 /// On the other side, the implementation itself should be provided by the code 207 /// emulating the IOMMU for the guest. 208 pub trait DmaRemapping { 209 /// Provide a way to translate GVA address ranges into GPAs. 210 fn translate_gva(&self, id: u32, addr: u64) -> std::result::Result<u64, std::io::Error>; 211 /// Provide a way to translate GPA address ranges into GVAs. 212 fn translate_gpa(&self, id: u32, addr: u64) -> std::result::Result<u64, std::io::Error>; 213 } 214 215 /// Structure to handle device state common to all devices 216 #[derive(Default)] 217 pub struct VirtioCommon { 218 pub avail_features: u64, 219 pub acked_features: u64, 220 pub kill_evt: Option<EventFd>, 221 pub interrupt_cb: Option<Arc<dyn VirtioInterrupt>>, 222 pub queue_evts: Option<Vec<EventFd>>, 223 pub pause_evt: Option<EventFd>, 224 pub paused: Arc<AtomicBool>, 225 pub paused_sync: Option<Arc<Barrier>>, 226 pub epoll_threads: Option<Vec<thread::JoinHandle<()>>>, 227 pub queue_sizes: Vec<u16>, 228 pub device_type: u32, 229 pub min_queues: u16, 230 pub access_platform: Option<Arc<dyn AccessPlatform>>, 231 } 232 233 impl VirtioCommon { 234 pub fn feature_acked(&self, feature: u64) -> bool { 235 self.acked_features & 1 << feature == 1 << feature 236 } 237 238 pub fn ack_features(&mut self, value: u64) { 239 let mut v = value; 240 // Check if the guest is ACK'ing a feature that we didn't claim to have. 241 let unrequested_features = v & !self.avail_features; 242 if unrequested_features != 0 { 243 warn!("Received acknowledge request for unknown feature."); 244 245 // Don't count these features as acked. 246 v &= !unrequested_features; 247 } 248 self.acked_features |= v; 249 } 250 251 pub fn activate( 252 &mut self, 253 queues: &[(usize, Queue<GuestMemoryAtomic<GuestMemoryMmap>>, EventFd)], 254 interrupt_cb: &Arc<dyn VirtioInterrupt>, 255 ) -> ActivateResult { 256 if queues.len() < self.min_queues.into() { 257 error!( 258 "Number of enabled queues lower than min: {} vs {}", 259 queues.len(), 260 self.min_queues 261 ); 262 return Err(ActivateError::BadActivate); 263 } 264 265 let kill_evt = EventFd::new(EFD_NONBLOCK).map_err(|e| { 266 error!("failed creating kill EventFd: {}", e); 267 ActivateError::BadActivate 268 })?; 269 self.kill_evt = Some(kill_evt); 270 271 let pause_evt = EventFd::new(EFD_NONBLOCK).map_err(|e| { 272 error!("failed creating pause EventFd: {}", e); 273 ActivateError::BadActivate 274 })?; 275 self.pause_evt = Some(pause_evt); 276 277 // Save the interrupt EventFD as we need to return it on reset 278 // but clone it to pass into the thread. 279 self.interrupt_cb = Some(interrupt_cb.clone()); 280 281 let mut tmp_queue_evts: Vec<EventFd> = Vec::new(); 282 for (_, _, queue_evt) in queues.iter() { 283 // Save the queue EventFD as we need to return it on reset 284 // but clone it to pass into the thread. 285 tmp_queue_evts.push(queue_evt.try_clone().map_err(|e| { 286 error!("failed to clone queue EventFd: {}", e); 287 ActivateError::BadActivate 288 })?); 289 } 290 self.queue_evts = Some(tmp_queue_evts); 291 Ok(()) 292 } 293 294 pub fn reset(&mut self) -> Option<Arc<dyn VirtioInterrupt>> { 295 // We first must resume the virtio thread if it was paused. 296 if self.pause_evt.take().is_some() { 297 self.resume().ok()?; 298 } 299 300 if let Some(kill_evt) = self.kill_evt.take() { 301 // Ignore the result because there is nothing we can do about it. 302 let _ = kill_evt.write(1); 303 } 304 305 if let Some(mut threads) = self.epoll_threads.take() { 306 for t in threads.drain(..) { 307 if let Err(e) = t.join() { 308 error!("Error joining thread: {:?}", e); 309 } 310 } 311 } 312 313 // Return the interrupt 314 Some(self.interrupt_cb.take().unwrap()) 315 } 316 317 pub fn dup_eventfds(&self) -> (EventFd, EventFd) { 318 ( 319 self.kill_evt.as_ref().unwrap().try_clone().unwrap(), 320 self.pause_evt.as_ref().unwrap().try_clone().unwrap(), 321 ) 322 } 323 324 pub fn set_access_platform(&mut self, access_platform: Arc<dyn AccessPlatform>) { 325 self.access_platform = Some(access_platform); 326 // Indirect descriptors feature is not supported when the device 327 // requires the addresses held by the descriptors to be translated. 328 self.avail_features &= !(1 << VIRTIO_F_RING_INDIRECT_DESC); 329 } 330 } 331 332 impl Pausable for VirtioCommon { 333 fn pause(&mut self) -> std::result::Result<(), MigratableError> { 334 info!( 335 "Pausing virtio-{}", 336 VirtioDeviceType::from(self.device_type) 337 ); 338 self.paused.store(true, Ordering::SeqCst); 339 if let Some(pause_evt) = &self.pause_evt { 340 pause_evt 341 .write(1) 342 .map_err(|e| MigratableError::Pause(e.into()))?; 343 344 // Wait for all threads to acknowledge the pause before going 345 // any further. This is exclusively performed when pause_evt 346 // eventfd is Some(), as this means the virtio device has been 347 // activated. One specific case where the device can be paused 348 // while it hasn't been yet activated is snapshot/restore. 349 self.paused_sync.as_ref().unwrap().wait(); 350 } 351 352 Ok(()) 353 } 354 355 fn resume(&mut self) -> std::result::Result<(), MigratableError> { 356 info!( 357 "Resuming virtio-{}", 358 VirtioDeviceType::from(self.device_type) 359 ); 360 self.paused.store(false, Ordering::SeqCst); 361 if let Some(epoll_threads) = &self.epoll_threads { 362 for t in epoll_threads.iter() { 363 t.thread().unpark(); 364 } 365 } 366 367 Ok(()) 368 } 369 } 370