mirror of
https://github.com/cloud-hypervisor/cloud-hypervisor.git
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1f0e5eb66a
Following the new design proposal to improve the restore codepath when migrating a VM, all virtio devices are supplied with an optional state they can use to restore from. The restore() implementation every device was providing has been removed in order to prevent from going through the restoration twice. Here is the list of devices now following the new restore design: - Block (virtio-block) - Net (virtio-net) - Rng (virtio-rng) - Fs (vhost-user-fs) - Blk (vhost-user-block) - Net (vhost-user-net) - Pmem (virtio-pmem) - Vsock (virtio-vsock) - Mem (virtio-mem) - Balloon (virtio-balloon) - Watchdog (virtio-watchdog) - Vdpa (vDPA) - Console (virtio-console) - Iommu (virtio-iommu) Signed-off-by: Sebastien Boeuf <sebastien.boeuf@intel.com>
154 lines
4.9 KiB
Rust
154 lines
4.9 KiB
Rust
// Copyright © 2022 Intel Corporation
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//
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// SPDX-License-Identifier: Apache-2.0
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#![no_main]
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use libfuzzer_sys::fuzz_target;
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use seccompiler::SeccompAction;
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use std::os::unix::io::{AsRawFd, FromRawFd};
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use std::sync::Arc;
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use virtio_devices::{VirtioDevice, VirtioInterrupt, VirtioInterruptType};
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use virtio_queue::{Queue, QueueT};
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use vm_memory::{bitmap::AtomicBitmap, Bytes, GuestAddress, GuestMemoryAtomic};
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use vmm_sys_util::eventfd::{EventFd, EFD_NONBLOCK};
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type GuestMemoryMmap = vm_memory::GuestMemoryMmap<AtomicBitmap>;
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const QUEUE_DATA_SIZE: usize = 4;
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const MEM_SIZE: usize = 512 * 1024;
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const BALLOON_SIZE: u64 = 512 * 1024;
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// Number of queues
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const QUEUE_NUM: usize = 3;
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// Max entries in the queue.
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const QUEUE_SIZE: u16 = 64;
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// Descriptor table alignment
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const DESC_TABLE_ALIGN_SIZE: u64 = 16;
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// Avalable ring alignment
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const AVAIL_RING_ALIGN_SIZE: u64 = 2;
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// Used ring alignment
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const USED_RING_ALIGN_SIZE: u64 = 4;
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// Descriptor table size
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const DESC_TABLE_SIZE: u64 = 16_u64 * QUEUE_SIZE as u64;
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// Available ring size
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const AVAIL_RING_SIZE: u64 = 6_u64 + 2 * QUEUE_SIZE as u64;
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// Used ring size
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const USED_RING_SIZE: u64 = 6_u64 + 8 * QUEUE_SIZE as u64;
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fuzz_target!(|bytes| {
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if bytes.len() < QUEUE_DATA_SIZE * QUEUE_NUM
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|| bytes.len() > (QUEUE_DATA_SIZE * QUEUE_NUM + MEM_SIZE)
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{
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return;
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}
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let mut balloon = virtio_devices::Balloon::new(
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"fuzzer_balloon".to_owned(),
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BALLOON_SIZE,
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true,
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true,
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SeccompAction::Allow,
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EventFd::new(EFD_NONBLOCK).unwrap(),
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None,
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)
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.unwrap();
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let queue_data = &bytes[..QUEUE_DATA_SIZE * QUEUE_NUM];
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let mem_bytes = &bytes[QUEUE_DATA_SIZE * QUEUE_NUM..];
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// Setup the guest memory with the input bytes
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let mem = GuestMemoryMmap::from_ranges(&[(GuestAddress(0), MEM_SIZE)]).unwrap();
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if mem.write_slice(mem_bytes, GuestAddress(0 as u64)).is_err() {
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return;
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}
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let guest_memory = GuestMemoryAtomic::new(mem);
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// Setup the virt queues with the input bytes
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let mut queues = setup_virt_queues(
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&[
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&queue_data[..QUEUE_DATA_SIZE].try_into().unwrap(),
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&queue_data[QUEUE_DATA_SIZE..QUEUE_DATA_SIZE * 2]
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.try_into()
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.unwrap(),
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&queue_data[QUEUE_DATA_SIZE * 2..QUEUE_DATA_SIZE * 3]
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.try_into()
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.unwrap(),
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],
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0,
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);
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let inflate_q = queues.remove(0);
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let inflate_evt = EventFd::new(0).unwrap();
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let inflate_queue_evt = unsafe { EventFd::from_raw_fd(libc::dup(inflate_evt.as_raw_fd())) };
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let deflate_q = queues.remove(0);
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let deflate_evt = EventFd::new(0).unwrap();
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let deflate_queue_evt = unsafe { EventFd::from_raw_fd(libc::dup(deflate_evt.as_raw_fd())) };
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let reporting_q = queues.remove(0);
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let reporting_evt = EventFd::new(0).unwrap();
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let reporting_queue_evt = unsafe { EventFd::from_raw_fd(libc::dup(reporting_evt.as_raw_fd())) };
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// Kick the 'queue' events before activate the balloon device
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inflate_queue_evt.write(1).unwrap();
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deflate_queue_evt.write(1).unwrap();
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reporting_queue_evt.write(1).unwrap();
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balloon
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.activate(
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guest_memory,
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Arc::new(NoopVirtioInterrupt {}),
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vec![
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(0, inflate_q, inflate_evt),
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(1, deflate_q, deflate_evt),
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(2, reporting_q, reporting_evt),
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],
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)
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.ok();
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// Wait for the events to finish and balloon device worker thread to return
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balloon.wait_for_epoll_threads();
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});
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pub struct NoopVirtioInterrupt {}
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impl VirtioInterrupt for NoopVirtioInterrupt {
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fn trigger(&self, _int_type: VirtioInterruptType) -> std::result::Result<(), std::io::Error> {
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Ok(())
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}
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}
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macro_rules! align {
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($n:expr, $align:expr) => {{
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(($n + $align - 1) / $align) * $align
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}};
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}
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fn setup_virt_queues(bytes: &[&[u8; QUEUE_DATA_SIZE]], base_addr: u64) -> Vec<Queue> {
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let mut queues = Vec::new();
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let mut base_addr = base_addr;
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for b in bytes {
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let mut q = Queue::new(QUEUE_SIZE).unwrap();
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let desc_table_addr = align!(base_addr, DESC_TABLE_ALIGN_SIZE);
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let avail_ring_addr = align!(desc_table_addr + DESC_TABLE_SIZE, AVAIL_RING_ALIGN_SIZE);
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let used_ring_addr = align!(avail_ring_addr + AVAIL_RING_SIZE, USED_RING_ALIGN_SIZE);
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q.try_set_desc_table_address(GuestAddress(desc_table_addr))
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.unwrap();
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q.try_set_avail_ring_address(GuestAddress(avail_ring_addr))
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.unwrap();
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q.try_set_used_ring_address(GuestAddress(used_ring_addr))
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.unwrap();
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q.set_next_avail(b[0] as u16); // 'u8' is enough given the 'QUEUE_SIZE' is small
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q.set_next_used(b[1] as u16);
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q.set_event_idx(b[2] % 2 != 0);
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q.set_size(b[3] as u16 % QUEUE_SIZE);
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q.set_ready(true);
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queues.push(q);
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base_addr = used_ring_addr + USED_RING_SIZE;
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}
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queues
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}
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