1 // Copyright 2017 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 file. 4 5 use super::Error as DeviceError; 6 use super::{ 7 ActivateError, ActivateResult, EpollHelper, EpollHelperError, EpollHelperHandler, VirtioCommon, 8 VirtioDevice, VirtioDeviceType, EPOLL_HELPER_EVENT_LAST, VIRTIO_F_IOMMU_PLATFORM, 9 VIRTIO_F_VERSION_1, 10 }; 11 use crate::seccomp_filters::Thread; 12 use crate::thread_helper::spawn_virtio_thread; 13 use crate::GuestMemoryMmap; 14 use crate::{VirtioInterrupt, VirtioInterruptType}; 15 use anyhow::anyhow; 16 use seccompiler::SeccompAction; 17 use std::fs::File; 18 use std::io; 19 use std::os::unix::io::AsRawFd; 20 use std::result; 21 use std::sync::atomic::AtomicBool; 22 use std::sync::{Arc, Barrier}; 23 use thiserror::Error; 24 use versionize::{VersionMap, Versionize, VersionizeResult}; 25 use versionize_derive::Versionize; 26 use virtio_queue::{Queue, QueueT}; 27 use vm_memory::{Bytes, GuestAddressSpace, GuestMemoryAtomic}; 28 use vm_migration::VersionMapped; 29 use vm_migration::{Migratable, MigratableError, Pausable, Snapshot, Snapshottable, Transportable}; 30 use vm_virtio::{AccessPlatform, Translatable}; 31 use vmm_sys_util::eventfd::EventFd; 32 33 const QUEUE_SIZE: u16 = 256; 34 const QUEUE_SIZES: &[u16] = &[QUEUE_SIZE]; 35 36 // New descriptors are pending on the virtio queue. 37 const QUEUE_AVAIL_EVENT: u16 = EPOLL_HELPER_EVENT_LAST + 1; 38 39 #[derive(Error, Debug)] 40 enum Error { 41 #[error("Descriptor chain too short")] 42 DescriptorChainTooShort, 43 #[error("Invalid descriptor")] 44 InvalidDescriptor, 45 #[error("Failed to write to guest memory: {0}")] 46 GuestMemoryWrite(vm_memory::guest_memory::Error), 47 #[error("Failed adding used index: {0}")] 48 QueueAddUsed(virtio_queue::Error), 49 } 50 51 struct RngEpollHandler { 52 mem: GuestMemoryAtomic<GuestMemoryMmap>, 53 queue: Queue, 54 random_file: File, 55 interrupt_cb: Arc<dyn VirtioInterrupt>, 56 queue_evt: EventFd, 57 kill_evt: EventFd, 58 pause_evt: EventFd, 59 access_platform: Option<Arc<dyn AccessPlatform>>, 60 } 61 62 impl RngEpollHandler { 63 fn process_queue(&mut self) -> result::Result<bool, Error> { 64 let queue = &mut self.queue; 65 66 let mut used_descs = false; 67 while let Some(mut desc_chain) = queue.pop_descriptor_chain(self.mem.memory()) { 68 let desc = desc_chain.next().ok_or(Error::DescriptorChainTooShort)?; 69 70 // The descriptor must be write-only and non-zero length 71 if !(desc.is_write_only() && desc.len() > 0) { 72 return Err(Error::InvalidDescriptor); 73 } 74 75 // Fill the read with data from the random device on the host. 76 let len = desc_chain 77 .memory() 78 .read_from( 79 desc.addr() 80 .translate_gva(self.access_platform.as_ref(), desc.len() as usize), 81 &mut self.random_file, 82 desc.len() as usize, 83 ) 84 .map_err(Error::GuestMemoryWrite)?; 85 86 queue 87 .add_used(desc_chain.memory(), desc_chain.head_index(), len as u32) 88 .map_err(Error::QueueAddUsed)?; 89 used_descs = true; 90 } 91 92 Ok(used_descs) 93 } 94 95 fn signal_used_queue(&self) -> result::Result<(), DeviceError> { 96 self.interrupt_cb 97 .trigger(VirtioInterruptType::Queue(0)) 98 .map_err(|e| { 99 error!("Failed to signal used queue: {:?}", e); 100 DeviceError::FailedSignalingUsedQueue(e) 101 }) 102 } 103 104 fn run( 105 &mut self, 106 paused: Arc<AtomicBool>, 107 paused_sync: Arc<Barrier>, 108 ) -> result::Result<(), EpollHelperError> { 109 let mut helper = EpollHelper::new(&self.kill_evt, &self.pause_evt)?; 110 helper.add_event(self.queue_evt.as_raw_fd(), QUEUE_AVAIL_EVENT)?; 111 helper.run(paused, paused_sync, self)?; 112 113 Ok(()) 114 } 115 } 116 117 impl EpollHelperHandler for RngEpollHandler { 118 fn handle_event( 119 &mut self, 120 _helper: &mut EpollHelper, 121 event: &epoll::Event, 122 ) -> result::Result<(), EpollHelperError> { 123 let ev_type = event.data as u16; 124 match ev_type { 125 QUEUE_AVAIL_EVENT => { 126 self.queue_evt.read().map_err(|e| { 127 EpollHelperError::HandleEvent(anyhow!("Failed to get queue event: {:?}", e)) 128 })?; 129 let needs_notification = self.process_queue().map_err(|e| { 130 EpollHelperError::HandleEvent(anyhow!("Failed to process queue : {:?}", e)) 131 })?; 132 if needs_notification { 133 self.signal_used_queue().map_err(|e| { 134 EpollHelperError::HandleEvent(anyhow!( 135 "Failed to signal used queue: {:?}", 136 e 137 )) 138 })?; 139 } 140 } 141 _ => { 142 return Err(EpollHelperError::HandleEvent(anyhow!( 143 "Unexpected event: {}", 144 ev_type 145 ))); 146 } 147 } 148 Ok(()) 149 } 150 } 151 152 /// Virtio device for exposing entropy to the guest OS through virtio. 153 pub struct Rng { 154 common: VirtioCommon, 155 id: String, 156 random_file: Option<File>, 157 seccomp_action: SeccompAction, 158 exit_evt: EventFd, 159 } 160 161 #[derive(Versionize)] 162 pub struct RngState { 163 pub avail_features: u64, 164 pub acked_features: u64, 165 } 166 167 impl VersionMapped for RngState {} 168 169 impl Rng { 170 /// Create a new virtio rng device that gets random data from /dev/urandom. 171 pub fn new( 172 id: String, 173 path: &str, 174 iommu: bool, 175 seccomp_action: SeccompAction, 176 exit_evt: EventFd, 177 state: Option<RngState>, 178 ) -> io::Result<Rng> { 179 let random_file = File::open(path)?; 180 181 let (avail_features, acked_features, paused) = if let Some(state) = state { 182 info!("Restoring virtio-rng {}", id); 183 (state.avail_features, state.acked_features, true) 184 } else { 185 let mut avail_features = 1u64 << VIRTIO_F_VERSION_1; 186 187 if iommu { 188 avail_features |= 1u64 << VIRTIO_F_IOMMU_PLATFORM; 189 } 190 191 (avail_features, 0, false) 192 }; 193 194 Ok(Rng { 195 common: VirtioCommon { 196 device_type: VirtioDeviceType::Rng as u32, 197 queue_sizes: QUEUE_SIZES.to_vec(), 198 paused_sync: Some(Arc::new(Barrier::new(2))), 199 avail_features, 200 acked_features, 201 min_queues: 1, 202 paused: Arc::new(AtomicBool::new(paused)), 203 ..Default::default() 204 }, 205 id, 206 random_file: Some(random_file), 207 seccomp_action, 208 exit_evt, 209 }) 210 } 211 212 fn state(&self) -> RngState { 213 RngState { 214 avail_features: self.common.avail_features, 215 acked_features: self.common.acked_features, 216 } 217 } 218 219 #[cfg(fuzzing)] 220 pub fn wait_for_epoll_threads(&mut self) { 221 self.common.wait_for_epoll_threads(); 222 } 223 } 224 225 impl Drop for Rng { 226 fn drop(&mut self) { 227 if let Some(kill_evt) = self.common.kill_evt.take() { 228 // Ignore the result because there is nothing we can do about it. 229 let _ = kill_evt.write(1); 230 } 231 } 232 } 233 234 impl VirtioDevice for Rng { 235 fn device_type(&self) -> u32 { 236 self.common.device_type 237 } 238 239 fn queue_max_sizes(&self) -> &[u16] { 240 &self.common.queue_sizes 241 } 242 243 fn features(&self) -> u64 { 244 self.common.avail_features 245 } 246 247 fn ack_features(&mut self, value: u64) { 248 self.common.ack_features(value) 249 } 250 251 fn activate( 252 &mut self, 253 mem: GuestMemoryAtomic<GuestMemoryMmap>, 254 interrupt_cb: Arc<dyn VirtioInterrupt>, 255 mut queues: Vec<(usize, Queue, EventFd)>, 256 ) -> ActivateResult { 257 self.common.activate(&queues, &interrupt_cb)?; 258 let (kill_evt, pause_evt) = self.common.dup_eventfds(); 259 260 if let Some(file) = self.random_file.as_ref() { 261 let random_file = file.try_clone().map_err(|e| { 262 error!("failed cloning rng source: {}", e); 263 ActivateError::BadActivate 264 })?; 265 266 let (_, queue, queue_evt) = queues.remove(0); 267 268 let mut handler = RngEpollHandler { 269 mem, 270 queue, 271 random_file, 272 interrupt_cb, 273 queue_evt, 274 kill_evt, 275 pause_evt, 276 access_platform: self.common.access_platform.clone(), 277 }; 278 279 let paused = self.common.paused.clone(); 280 let paused_sync = self.common.paused_sync.clone(); 281 let mut epoll_threads = Vec::new(); 282 spawn_virtio_thread( 283 &self.id, 284 &self.seccomp_action, 285 Thread::VirtioRng, 286 &mut epoll_threads, 287 &self.exit_evt, 288 move || handler.run(paused, paused_sync.unwrap()), 289 )?; 290 291 self.common.epoll_threads = Some(epoll_threads); 292 293 event!("virtio-device", "activated", "id", &self.id); 294 return Ok(()); 295 } 296 Err(ActivateError::BadActivate) 297 } 298 299 fn reset(&mut self) -> Option<Arc<dyn VirtioInterrupt>> { 300 let result = self.common.reset(); 301 event!("virtio-device", "reset", "id", &self.id); 302 result 303 } 304 305 fn set_access_platform(&mut self, access_platform: Arc<dyn AccessPlatform>) { 306 self.common.set_access_platform(access_platform) 307 } 308 } 309 310 impl Pausable for Rng { 311 fn pause(&mut self) -> result::Result<(), MigratableError> { 312 self.common.pause() 313 } 314 315 fn resume(&mut self) -> result::Result<(), MigratableError> { 316 self.common.resume() 317 } 318 } 319 320 impl Snapshottable for Rng { 321 fn id(&self) -> String { 322 self.id.clone() 323 } 324 325 fn snapshot(&mut self) -> std::result::Result<Snapshot, MigratableError> { 326 Snapshot::new_from_versioned_state(&self.state()) 327 } 328 } 329 330 impl Transportable for Rng {} 331 impl Migratable for Rng {} 332