cloud-hypervisor/vm-virtio/src/net.rs

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// Copyright 2018 Amazon.com, Inc. or its affiliates. All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
//
// Portions Copyright 2017 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 THIRD-PARTY file.
use super::net_util::{
build_net_config_space, build_net_config_space_with_mq, open_tap, register_listener,
unregister_listener, CtrlVirtio, NetCtrlEpollHandler, RxVirtio, TxVirtio, KILL_EVENT,
NET_EVENTS_COUNT, PAUSE_EVENT, RX_QUEUE_EVENT, RX_TAP_EVENT, TX_QUEUE_EVENT,
};
use super::Error as DeviceError;
use super::{
ActivateError, ActivateResult, Queue, VirtioDevice, VirtioDeviceType, VirtioInterruptType,
};
use crate::VirtioInterrupt;
use arc_swap::ArcSwap;
use epoll;
use libc::EAGAIN;
use libc::EFD_NONBLOCK;
use net_util::{MacAddr, Tap};
use std::cmp;
use std::io::Read;
use std::io::{self, Write};
use std::net::Ipv4Addr;
use std::os::unix::io::{AsRawFd, RawFd};
use std::result;
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::Arc;
use std::thread;
use std::vec::Vec;
use virtio_bindings::bindings::virtio_net::*;
use vm_device::{Migratable, MigratableError, Pausable, Snapshotable};
use vm_memory::GuestMemoryMmap;
use vmm_sys_util::eventfd::EventFd;
#[derive(Debug)]
pub enum Error {
/// Failed to open taps.
OpenTap(super::net_util::Error),
}
pub type Result<T> = result::Result<T, Error>;
struct NetEpollHandler {
mem: Arc<ArcSwap<GuestMemoryMmap>>,
tap: Tap,
rx: RxVirtio,
tx: TxVirtio,
interrupt_cb: Arc<dyn VirtioInterrupt>,
kill_evt: EventFd,
pause_evt: EventFd,
epoll_fd: RawFd,
rx_tap_listening: bool,
}
impl NetEpollHandler {
fn signal_used_queue(&self, queue: &Queue) -> result::Result<(), DeviceError> {
self.interrupt_cb
.trigger(&VirtioInterruptType::Queue, Some(queue))
.map_err(|e| {
error!("Failed to signal used queue: {:?}", e);
DeviceError::FailedSignalingUsedQueue(e)
})
}
// Copies a single frame from `self.rx.frame_buf` into the guest. Returns true
// if a buffer was used, and false if the frame must be deferred until a buffer
// is made available by the driver.
fn rx_single_frame(&mut self, mut queue: &mut Queue) -> bool {
let mem = self.mem.load();
let next_desc = queue.iter(&mem).next();
if next_desc.is_none() {
// Queue has no available descriptors
if self.rx_tap_listening {
unregister_listener(
self.epoll_fd,
self.tap.as_raw_fd(),
epoll::Events::EPOLLIN,
u64::from(RX_TAP_EVENT),
)
.unwrap();
self.rx_tap_listening = false;
}
return false;
}
self.rx.process_desc_chain(&mem, next_desc, &mut queue)
}
fn process_rx(&mut self, queue: &mut Queue) -> result::Result<(), DeviceError> {
// Read as many frames as possible.
loop {
match self.read_tap() {
Ok(count) => {
self.rx.bytes_read = count;
if !self.rx_single_frame(queue) {
self.rx.deferred_frame = true;
break;
}
}
Err(e) => {
// The tap device is non-blocking, so any error aside from EAGAIN is
// unexpected.
match e.raw_os_error() {
Some(err) if err == EAGAIN => (),
_ => {
error!("Failed to read tap: {:?}", e);
return Err(DeviceError::FailedReadTap);
}
};
break;
}
}
}
if self.rx.deferred_irqs {
self.rx.deferred_irqs = false;
self.signal_used_queue(queue)
} else {
Ok(())
}
}
fn resume_rx(&mut self, queue: &mut Queue) -> result::Result<(), DeviceError> {
if self.rx.deferred_frame {
if self.rx_single_frame(queue) {
self.rx.deferred_frame = false;
// process_rx() was interrupted possibly before consuming all
// packets in the tap; try continuing now.
self.process_rx(queue)
} else if self.rx.deferred_irqs {
self.rx.deferred_irqs = false;
self.signal_used_queue(queue)
} else {
Ok(())
}
} else {
Ok(())
}
}
fn process_tx(&mut self, mut queue: &mut Queue) -> result::Result<(), DeviceError> {
let mem = self.mem.load();
self.tx.process_desc_chain(&mem, &mut self.tap, &mut queue);
Ok(())
}
fn read_tap(&mut self) -> io::Result<usize> {
self.tap.read(&mut self.rx.frame_buf)
}
fn handle_rx_event(&mut self, mut queue: &mut Queue, queue_evt: &EventFd) {
if let Err(e) = queue_evt.read() {
error!("Failed to get rx queue event: {:?}", e);
}
self.resume_rx(&mut queue).unwrap();
if !self.rx_tap_listening {
register_listener(
self.epoll_fd,
self.tap.as_raw_fd(),
epoll::Events::EPOLLIN,
u64::from(RX_TAP_EVENT),
)
.unwrap();
self.rx_tap_listening = true;
}
}
fn handle_tx_event(&mut self, mut queue: &mut Queue, queue_evt: &EventFd) {
if let Err(e) = queue_evt.read() {
error!("Failed to get tx queue event: {:?}", e);
}
self.process_tx(&mut queue).unwrap();
}
fn handle_rx_tap_event(&mut self, mut queue: &mut Queue) {
if self.rx.deferred_frame
// Process a deferred frame first if available. Don't read from tap again
// until we manage to receive this deferred frame.
{
if self.rx_single_frame(&mut queue) {
self.rx.deferred_frame = false;
self.process_rx(&mut queue).unwrap();
} else if self.rx.deferred_irqs {
self.rx.deferred_irqs = false;
self.signal_used_queue(&queue).unwrap();
}
} else {
self.process_rx(&mut queue).unwrap();
}
}
fn run(
&mut self,
paused: Arc<AtomicBool>,
mut queues: Vec<Queue>,
queue_evts: Vec<EventFd>,
) -> result::Result<(), DeviceError> {
// Create the epoll file descriptor
self.epoll_fd = epoll::create(true).map_err(DeviceError::EpollCreateFd)?;
// Add events
// Add events
epoll::ctl(
self.epoll_fd,
epoll::ControlOptions::EPOLL_CTL_ADD,
queue_evts[0].as_raw_fd(),
epoll::Event::new(epoll::Events::EPOLLIN, u64::from(RX_QUEUE_EVENT)),
)
.map_err(DeviceError::EpollCtl)?;
epoll::ctl(
self.epoll_fd,
epoll::ControlOptions::EPOLL_CTL_ADD,
queue_evts[1].as_raw_fd(),
epoll::Event::new(epoll::Events::EPOLLIN, u64::from(TX_QUEUE_EVENT)),
)
.map_err(DeviceError::EpollCtl)?;
epoll::ctl(
self.epoll_fd,
epoll::ControlOptions::EPOLL_CTL_ADD,
self.kill_evt.as_raw_fd(),
epoll::Event::new(epoll::Events::EPOLLIN, u64::from(KILL_EVENT)),
)
.map_err(DeviceError::EpollCtl)?;
epoll::ctl(
self.epoll_fd,
epoll::ControlOptions::EPOLL_CTL_ADD,
self.pause_evt.as_raw_fd(),
epoll::Event::new(epoll::Events::EPOLLIN, u64::from(PAUSE_EVENT)),
)
.map_err(DeviceError::EpollCtl)?;
let mut events = vec![epoll::Event::new(epoll::Events::empty(), 0); NET_EVENTS_COUNT];
'epoll: loop {
let num_events = match epoll::wait(self.epoll_fd, -1, &mut events[..]) {
Ok(res) => res,
Err(e) => {
if e.kind() == io::ErrorKind::Interrupted {
// It's well defined from the epoll_wait() syscall
// documentation that the epoll loop can be interrupted
// before any of the requested events occurred or the
// timeout expired. In both those cases, epoll_wait()
// returns an error of type EINTR, but this should not
// be considered as a regular error. Instead it is more
// appropriate to retry, by calling into epoll_wait().
continue;
}
return Err(DeviceError::EpollWait(e));
}
};
for event in events.iter().take(num_events) {
let ev_type = event.data as u16;
match ev_type {
RX_QUEUE_EVENT => {
self.handle_rx_event(&mut queues[0], &queue_evts[0]);
}
TX_QUEUE_EVENT => {
self.handle_tx_event(&mut queues[1], &queue_evts[1]);
}
RX_TAP_EVENT => {
self.handle_rx_tap_event(&mut queues[0]);
}
KILL_EVENT => {
debug!("KILL_EVENT received, stopping epoll loop");
break 'epoll;
}
PAUSE_EVENT => {
debug!("PAUSE_EVENT received, pausing virtio-net epoll loop");
// We loop here to handle spurious park() returns.
// Until we have not resumed, the paused boolean will
// be true.
while paused.load(Ordering::SeqCst) {
thread::park();
}
}
_ => {
error!("Unknown event for virtio-net");
}
}
}
}
Ok(())
}
}
pub struct Net {
kill_evt: Option<EventFd>,
pause_evt: Option<EventFd>,
taps: Option<Vec<Tap>>,
avail_features: u64,
acked_features: u64,
// The config space will only consist of the MAC address specified by the user,
// or nothing, if no such address if provided.
config_space: Vec<u8>,
queue_evts: Option<Vec<EventFd>>,
interrupt_cb: Option<Arc<dyn VirtioInterrupt>>,
epoll_thread: Option<Vec<thread::JoinHandle<result::Result<(), DeviceError>>>>,
ctrl_queue_epoll_thread: Option<thread::JoinHandle<result::Result<(), DeviceError>>>,
paused: Arc<AtomicBool>,
queue_size: Vec<u16>,
}
impl Net {
/// Create a new virtio network device with the given TAP interface.
pub fn new_with_tap(
taps: Vec<Tap>,
guest_mac: Option<MacAddr>,
iommu: bool,
num_queues: usize,
queue_size: u16,
) -> Result<Self> {
let mut avail_features = 1 << VIRTIO_NET_F_GUEST_CSUM
| 1 << VIRTIO_NET_F_CSUM
| 1 << VIRTIO_NET_F_GUEST_TSO4
| 1 << VIRTIO_NET_F_GUEST_UFO
| 1 << VIRTIO_NET_F_HOST_TSO4
| 1 << VIRTIO_NET_F_HOST_UFO
| 1 << VIRTIO_F_VERSION_1;
if iommu {
avail_features |= 1u64 << VIRTIO_F_IOMMU_PLATFORM;
}
avail_features |= 1 << VIRTIO_NET_F_CTRL_VQ;
let queue_num = num_queues + 1;
let mut config_space;
if let Some(mac) = guest_mac {
config_space = build_net_config_space(mac, num_queues, &mut avail_features);
} else {
config_space = Vec::new();
build_net_config_space_with_mq(num_queues, &mut config_space, &mut avail_features);
}
Ok(Net {
kill_evt: None,
pause_evt: None,
taps: Some(taps),
avail_features,
acked_features: 0u64,
config_space,
queue_evts: None,
interrupt_cb: None,
epoll_thread: None,
ctrl_queue_epoll_thread: None,
paused: Arc::new(AtomicBool::new(false)),
queue_size: vec![queue_size; queue_num],
})
}
/// Create a new virtio network device with the given IP address and
/// netmask.
pub fn new(
if_name: Option<&str>,
ip_addr: Option<Ipv4Addr>,
netmask: Option<Ipv4Addr>,
guest_mac: Option<MacAddr>,
iommu: bool,
num_queues: usize,
queue_size: u16,
) -> Result<Self> {
let taps = open_tap(if_name, ip_addr, netmask, num_queues / 2).map_err(Error::OpenTap)?;
Self::new_with_tap(taps, guest_mac, iommu, num_queues, queue_size)
}
}
impl Drop for Net {
fn drop(&mut self) {
if let Some(kill_evt) = self.kill_evt.take() {
// Ignore the result because there is nothing we can do about it.
let _ = kill_evt.write(1);
}
}
}
impl VirtioDevice for Net {
fn device_type(&self) -> u32 {
VirtioDeviceType::TYPE_NET as u32
}
fn queue_max_sizes(&self) -> &[u16] {
&self.queue_size.as_slice()
}
fn features(&self, page: u32) -> u32 {
match page {
// Get the lower 32-bits of the features bitfield.
0 => self.avail_features as u32,
// Get the upper 32-bits of the features bitfield.
1 => (self.avail_features >> 32) as u32,
_ => {
warn!("Received request for unknown features page: {}", page);
0u32
}
}
}
fn ack_features(&mut self, page: u32, value: u32) {
let mut v = match page {
0 => u64::from(value),
1 => u64::from(value) << 32,
_ => {
warn!("Cannot acknowledge unknown features page: {}", page);
0u64
}
};
// Check if the guest is ACK'ing a feature that we didn't claim to have.
let unrequested_features = v & !self.avail_features;
if unrequested_features != 0 {
warn!("Received acknowledge request for unknown feature: {:x}", v);
// Don't count these features as acked.
v &= !unrequested_features;
}
self.acked_features |= v;
}
fn read_config(&self, offset: u64, mut data: &mut [u8]) {
let config_len = self.config_space.len() as u64;
if offset >= config_len {
error!("Failed to read config space");
return;
}
if let Some(end) = offset.checked_add(data.len() as u64) {
// This write can't fail, offset and end are checked against config_len.
data.write_all(&self.config_space[offset as usize..cmp::min(end, config_len) as usize])
.unwrap();
}
}
fn write_config(&mut self, offset: u64, data: &[u8]) {
let data_len = data.len() as u64;
let config_len = self.config_space.len() as u64;
if offset + data_len > config_len {
error!("Failed to write config space");
return;
}
let (_, right) = self.config_space.split_at_mut(offset as usize);
right.copy_from_slice(&data[..]);
}
fn activate(
&mut self,
mem: Arc<ArcSwap<GuestMemoryMmap>>,
interrupt_cb: Arc<dyn VirtioInterrupt>,
mut queues: Vec<Queue>,
mut queue_evts: Vec<EventFd>,
) -> ActivateResult {
if queues.len() != self.queue_size.len() || queue_evts.len() != self.queue_size.len() {
error!(
"Cannot perform activate. Expected {} queue(s), got {}",
self.queue_size.len(),
queues.len()
);
return Err(ActivateError::BadActivate);
}
let (self_kill_evt, kill_evt) = EventFd::new(EFD_NONBLOCK)
.and_then(|e| Ok((e.try_clone()?, e)))
.map_err(|e| {
error!("failed creating kill EventFd pair: {}", e);
ActivateError::BadActivate
})?;
self.kill_evt = Some(self_kill_evt);
let (self_pause_evt, pause_evt) = EventFd::new(EFD_NONBLOCK)
.and_then(|e| Ok((e.try_clone()?, e)))
.map_err(|e| {
error!("failed creating pause EventFd pair: {}", e);
ActivateError::BadActivate
})?;
self.pause_evt = Some(self_pause_evt);
if let Some(mut taps) = self.taps.clone() {
// Save the interrupt EventFD as we need to return it on reset
// but clone it to pass into the thread.
self.interrupt_cb = Some(interrupt_cb.clone());
let mut tmp_queue_evts: Vec<EventFd> = Vec::new();
for queue_evt in queue_evts.iter() {
// Save the queue EventFD as we need to return it on reset
// but clone it to pass into the thread.
tmp_queue_evts.push(queue_evt.try_clone().map_err(|e| {
error!("failed to clone queue EventFd: {}", e);
ActivateError::BadActivate
})?);
}
self.queue_evts = Some(tmp_queue_evts);
let queue_num = queues.len();
if (self.acked_features & 1 << VIRTIO_NET_F_CTRL_VQ) != 0 && queue_num % 2 != 0 {
let cvq_queue = queues.remove(queue_num - 1);
let cvq_queue_evt = queue_evts.remove(queue_num - 1);
let mut ctrl_handler = NetCtrlEpollHandler {
mem: mem.clone(),
kill_evt: kill_evt.try_clone().unwrap(),
pause_evt: pause_evt.try_clone().unwrap(),
ctrl_q: CtrlVirtio::new(cvq_queue, cvq_queue_evt),
epoll_fd: 0,
};
let paused = self.paused.clone();
thread::Builder::new()
.name("virtio_net".to_string())
.spawn(move || ctrl_handler.run_ctrl(paused))
.map(|thread| self.ctrl_queue_epoll_thread = Some(thread))
.map_err(|e| {
error!("failed to clone queue EventFd: {}", e);
ActivateError::BadActivate
})?;
}
let mut epoll_thread = Vec::new();
for _ in 0..taps.len() {
let rx = RxVirtio::new();
let tx = TxVirtio::new();
let rx_tap_listening = false;
let mut queue_pair = Vec::new();
queue_pair.push(queues.remove(0));
queue_pair.push(queues.remove(0));
let mut queue_evt_pair = Vec::new();
queue_evt_pair.push(queue_evts.remove(0));
queue_evt_pair.push(queue_evts.remove(0));
let mut handler = NetEpollHandler {
mem: mem.clone(),
tap: taps.remove(0),
rx,
tx,
interrupt_cb: interrupt_cb.clone(),
kill_evt: kill_evt.try_clone().unwrap(),
pause_evt: pause_evt.try_clone().unwrap(),
epoll_fd: 0,
rx_tap_listening,
};
let paused = self.paused.clone();
thread::Builder::new()
.name("virtio_net".to_string())
.spawn(move || handler.run(paused, queue_pair, queue_evt_pair))
.map(|thread| epoll_thread.push(thread))
.map_err(|e| {
error!("failed to clone queue EventFd: {}", e);
ActivateError::BadActivate
})?;
}
self.epoll_thread = Some(epoll_thread);
return Ok(());
}
Err(ActivateError::BadActivate)
}
fn reset(&mut self) -> Option<(Arc<dyn VirtioInterrupt>, Vec<EventFd>)> {
// We first must resume the virtio thread if it was paused.
if self.pause_evt.take().is_some() {
self.resume().ok()?;
}
if let Some(kill_evt) = self.kill_evt.take() {
// Ignore the result because there is nothing we can do about it.
let _ = kill_evt.write(1);
}
// Return the interrupt and queue EventFDs
Some((
self.interrupt_cb.take().unwrap(),
self.queue_evts.take().unwrap(),
))
}
}
virtio_pausable!(Net, true, true);
impl Snapshotable for Net {}
impl Migratable for Net {}