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// Copyright 2019 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 file.
use std::fmt::{self, Display};
use std::fs::File;
use std::io;
use std::os::unix::io::{AsRawFd, RawFd};
use std::thread;
use sys_util::{error, EventFd, GuestAddress, GuestMemory, PollContext, PollToken};
use sys_util::{Error as SysError, Result as SysResult};
use data_model::{DataInit, Le32, Le64};
use msg_socket::{MsgReceiver, MsgSender};
use vm_control::{VmMsyncRequest, VmMsyncRequestSocket, VmMsyncResponse};
use super::{
copy_config, DescriptorChain, DescriptorError, Interrupt, Queue, Reader, VirtioDevice, Writer,
TYPE_PMEM, VIRTIO_F_VERSION_1,
};
const QUEUE_SIZE: u16 = 256;
const QUEUE_SIZES: &[u16] = &[QUEUE_SIZE];
const VIRTIO_PMEM_REQ_TYPE_FLUSH: u32 = 0;
const VIRTIO_PMEM_RESP_TYPE_OK: u32 = 0;
const VIRTIO_PMEM_RESP_TYPE_EIO: u32 = 1;
#[derive(Copy, Clone, Debug, Default)]
#[repr(C)]
struct virtio_pmem_config {
start_address: Le64,
size: Le64,
}
// Safe because it only has data and has no implicit padding.
unsafe impl DataInit for virtio_pmem_config {}
#[derive(Copy, Clone, Debug, Default)]
#[repr(C)]
struct virtio_pmem_resp {
status_code: Le32,
}
// Safe because it only has data and has no implicit padding.
unsafe impl DataInit for virtio_pmem_resp {}
#[derive(Copy, Clone, Debug, Default)]
#[repr(C)]
struct virtio_pmem_req {
type_: Le32,
}
// Safe because it only has data and has no implicit padding.
unsafe impl DataInit for virtio_pmem_req {}
#[derive(Debug)]
enum Error {
/// Invalid virtio descriptor chain.
Descriptor(DescriptorError),
/// Failed to read from virtqueue.
ReadQueue(io::Error),
/// Failed to write to virtqueue.
WriteQueue(io::Error),
}
impl Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
use self::Error::*;
match self {
Descriptor(e) => write!(f, "virtio descriptor error: {}", e),
ReadQueue(e) => write!(f, "failed to read from virtqueue: {}", e),
WriteQueue(e) => write!(f, "failed to write to virtqueue: {}", e),
}
}
}
impl ::std::error::Error for Error {}
type Result<T> = ::std::result::Result<T, Error>;
struct Worker {
interrupt: Interrupt,
queue: Queue,
memory: GuestMemory,
pmem_device_socket: VmMsyncRequestSocket,
mapping_arena_slot: u32,
mapping_size: usize,
}
impl Worker {
fn execute_request(&self, request: virtio_pmem_req) -> u32 {
match request.type_.to_native() {
VIRTIO_PMEM_REQ_TYPE_FLUSH => {
let request = VmMsyncRequest::MsyncArena {
slot: self.mapping_arena_slot,
offset: 0, // The pmem backing file is always at offset 0 in the arena.
size: self.mapping_size,
};
if let Err(e) = self.pmem_device_socket.send(&request) {
error!("failed to send request: {}", e);
return VIRTIO_PMEM_RESP_TYPE_EIO;
}
match self.pmem_device_socket.recv() {
Ok(response) => match response {
VmMsyncResponse::Ok => VIRTIO_PMEM_RESP_TYPE_OK,
VmMsyncResponse::Err(e) => {
error!("failed flushing disk image: {}", e);
VIRTIO_PMEM_RESP_TYPE_EIO
}
},
Err(e) => {
error!("failed to receive data: {}", e);
VIRTIO_PMEM_RESP_TYPE_EIO
}
}
}
_ => {
error!("unknown request type: {}", request.type_.to_native());
VIRTIO_PMEM_RESP_TYPE_EIO
}
}
}
fn handle_request(&self, avail_desc: DescriptorChain) -> Result<usize> {
let mut reader =
Reader::new(&self.memory, avail_desc.clone()).map_err(Error::Descriptor)?;
let mut writer = Writer::new(&self.memory, avail_desc).map_err(Error::Descriptor)?;
let status_code = reader
.read_obj()
.map(|request| self.execute_request(request))
.map_err(Error::ReadQueue)?;
let response = virtio_pmem_resp {
status_code: status_code.into(),
};
writer.write_obj(response).map_err(Error::WriteQueue)?;
Ok(writer.bytes_written())
}
fn process_queue(&mut self) -> bool {
let mut needs_interrupt = false;
while let Some(avail_desc) = self.queue.pop(&self.memory) {
let avail_desc_index = avail_desc.index;
let bytes_written = match self.handle_request(avail_desc) {
Ok(count) => count,
Err(e) => {
error!("pmem: unable to handle request: {}", e);
0
}
};
self.queue
.add_used(&self.memory, avail_desc_index, bytes_written as u32);
needs_interrupt = true;
}
needs_interrupt
}
fn run(&mut self, queue_evt: EventFd, kill_evt: EventFd) {
#[derive(PollToken)]
enum Token {
QueueAvailable,
InterruptResample,
Kill,
}
let poll_ctx: PollContext<Token> = match PollContext::build_with(&[
(&queue_evt, Token::QueueAvailable),
(self.interrupt.get_resample_evt(), Token::InterruptResample),
(&kill_evt, Token::Kill),
]) {
Ok(pc) => pc,
Err(e) => {
error!("failed creating PollContext: {}", e);
return;
}
};
'poll: loop {
let events = match poll_ctx.wait() {
Ok(v) => v,
Err(e) => {
error!("failed polling for events: {}", e);
break;
}
};
let mut needs_interrupt = false;
for event in events.iter_readable() {
match event.token() {
Token::QueueAvailable => {
if let Err(e) = queue_evt.read() {
error!("failed reading queue EventFd: {}", e);
break 'poll;
}
needs_interrupt |= self.process_queue();
}
Token::InterruptResample => {
self.interrupt.interrupt_resample();
}
Token::Kill => break 'poll,
}
}
if needs_interrupt {
self.interrupt.signal_used_queue(self.queue.vector);
}
}
}
}
pub struct Pmem {
kill_event: Option<EventFd>,
worker_thread: Option<thread::JoinHandle<()>>,
disk_image: Option<File>,
mapping_address: GuestAddress,
mapping_arena_slot: u32,
mapping_size: u64,
pmem_device_socket: Option<VmMsyncRequestSocket>,
}
impl Pmem {
pub fn new(
disk_image: File,
mapping_address: GuestAddress,
mapping_arena_slot: u32,
mapping_size: u64,
pmem_device_socket: Option<VmMsyncRequestSocket>,
) -> SysResult<Pmem> {
if mapping_size > usize::max_value() as u64 {
return Err(SysError::new(libc::EOVERFLOW));
}
Ok(Pmem {
kill_event: None,
worker_thread: None,
disk_image: Some(disk_image),
mapping_address,
mapping_arena_slot,
mapping_size,
pmem_device_socket,
})
}
}
impl Drop for Pmem {
fn drop(&mut self) {
if let Some(kill_evt) = self.kill_event.take() {
// Ignore the result because there is nothing we can do about it.
let _ = kill_evt.write(1);
}
if let Some(worker_thread) = self.worker_thread.take() {
let _ = worker_thread.join();
}
}
}
impl VirtioDevice for Pmem {
fn keep_fds(&self) -> Vec<RawFd> {
let mut keep_fds = Vec::new();
if let Some(disk_image) = &self.disk_image {
keep_fds.push(disk_image.as_raw_fd());
}
if let Some(ref pmem_device_socket) = self.pmem_device_socket {
keep_fds.push(pmem_device_socket.as_raw_fd());
}
keep_fds
}
fn device_type(&self) -> u32 {
TYPE_PMEM
}
fn queue_max_sizes(&self) -> &[u16] {
QUEUE_SIZES
}
fn features(&self) -> u64 {
1 << VIRTIO_F_VERSION_1
}
fn read_config(&self, offset: u64, data: &mut [u8]) {
let config = virtio_pmem_config {
start_address: Le64::from(self.mapping_address.offset()),
size: Le64::from(self.mapping_size as u64),
};
copy_config(data, 0, config.as_slice(), offset);
}
fn activate(
&mut self,
memory: GuestMemory,
interrupt: Interrupt,
mut queues: Vec<Queue>,
mut queue_events: Vec<EventFd>,
) {
if queues.len() != 1 || queue_events.len() != 1 {
return;
}
let queue = queues.remove(0);
let queue_event = queue_events.remove(0);
let mapping_arena_slot = self.mapping_arena_slot;
// We checked that this fits in a usize in `Pmem::new`.
let mapping_size = self.mapping_size as usize;
if let Some(pmem_device_socket) = self.pmem_device_socket.take() {
let (self_kill_event, kill_event) =
match EventFd::new().and_then(|e| Ok((e.try_clone()?, e))) {
Ok(v) => v,
Err(e) => {
error!("failed creating kill EventFd pair: {}", e);
return;
}
};
self.kill_event = Some(self_kill_event);
let worker_result = thread::Builder::new()
.name("virtio_pmem".to_string())
.spawn(move || {
let mut worker = Worker {
interrupt,
memory,
queue,
pmem_device_socket,
mapping_arena_slot,
mapping_size,
};
worker.run(queue_event, kill_event);
});
match worker_result {
Err(e) => {
error!("failed to spawn virtio_pmem worker: {}", e);
return;
}
Ok(join_handle) => {
self.worker_thread = Some(join_handle);
}
}
}
}
}
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