mirror of
https://chromium.googlesource.com/crosvm/crosvm
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c3622e7f8d
This cleans up the activate() signature and avoids the need to pass two related (Queue, Event) variables everywhere a queue is needed. No functional change intended. BUG=None TEST=tools/dev_container tools/presubmit Change-Id: I9e5259428b39ad3a677fbb8a0bf574b3f15a7f35 Reviewed-on: https://chromium-review.googlesource.com/c/crosvm/crosvm/+/4738991 Reviewed-by: Frederick Mayle <fmayle@google.com> Commit-Queue: Daniel Verkamp <dverkamp@chromium.org>
124 lines
3.7 KiB
Rust
124 lines
3.7 KiB
Rust
// Copyright 2019 The ChromiumOS Authors
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#![cfg(not(test))]
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#![no_main]
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use std::io::Read;
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use std::io::Write;
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use std::mem::size_of;
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use base::Event;
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use crosvm_fuzz::fuzz_target;
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use crosvm_fuzz::rand::FuzzRng;
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use devices::virtio::QueueConfig;
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use rand::Rng;
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use rand::RngCore;
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use vm_memory::GuestAddress;
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use vm_memory::GuestMemory;
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const MAX_QUEUE_SIZE: u16 = 256;
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const MEM_SIZE: u64 = 1024 * 1024;
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thread_local! {
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static GUEST_MEM: GuestMemory = GuestMemory::new(&[(GuestAddress(0), MEM_SIZE)]).unwrap();
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}
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// These are taken from the virtio spec and can be used as a reference for the size calculations in
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// the fuzzer.
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#[repr(C, packed)]
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struct virtq_desc {
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addr: u64,
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len: u32,
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flags: u16,
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next: u16,
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}
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#[repr(C, packed)]
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struct virtq_avail {
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flags: u16,
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idx: u16,
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ring: [u16; MAX_QUEUE_SIZE as usize],
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used_event: u16,
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}
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#[repr(C, packed)]
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struct virtq_used_elem {
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id: u32,
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len: u32,
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}
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#[repr(C, packed)]
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struct virtq_used {
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flags: u16,
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idx: u16,
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ring: [virtq_used_elem; MAX_QUEUE_SIZE as usize],
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avail_event: u16,
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}
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fuzz_target!(|data: &[u8]| {
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let mut q = QueueConfig::new(MAX_QUEUE_SIZE, 0);
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let mut rng = FuzzRng::new(data);
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q.set_size(rng.gen());
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// For each of {desc_table,avail_ring,used_ring} generate a random address that includes enough
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// space to hold the relevant struct with the largest possible queue size.
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let max_table_size = MAX_QUEUE_SIZE as u64 * size_of::<virtq_desc>() as u64;
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q.set_desc_table(GuestAddress(rng.gen_range(0..MEM_SIZE - max_table_size)));
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q.set_avail_ring(GuestAddress(
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rng.gen_range(0..MEM_SIZE - size_of::<virtq_avail>() as u64),
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));
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q.set_used_ring(GuestAddress(
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rng.gen_range(0..MEM_SIZE - size_of::<virtq_used>() as u64),
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));
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q.set_ready(true);
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GUEST_MEM.with(|mem| {
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let mut q = if let Ok(q) = q.activate(mem, Event::new().unwrap()) {
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q
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} else {
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return;
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};
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// First zero out all of the memory.
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let vs = mem
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.get_slice_at_addr(GuestAddress(0), MEM_SIZE as usize)
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.unwrap();
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vs.write_bytes(0);
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// Fill in the descriptor table.
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let queue_size = q.size() as usize;
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let mut buf = vec![0u8; queue_size * size_of::<virtq_desc>()];
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rng.fill_bytes(&mut buf[..]);
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mem.write_all_at_addr(&buf[..], q.desc_table()).unwrap();
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// Fill in the available ring. See the definition of virtq_avail above for the source of
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// these numbers.
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let avail_size = 4 + (queue_size * 2) + 2;
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buf.resize(avail_size, 0);
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rng.fill_bytes(&mut buf[..]);
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mem.write_all_at_addr(&buf[..], q.avail_ring()).unwrap();
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// Fill in the used ring. See the definition of virtq_used above for the source of
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// these numbers.
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let used_size = 4 + (queue_size * size_of::<virtq_used_elem>()) + 2;
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buf.resize(used_size, 0);
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rng.fill_bytes(&mut buf[..]);
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mem.write_all_at_addr(&buf[..], q.used_ring()).unwrap();
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while let Some(mut avail_desc) = q.pop() {
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// Read the entire readable portion of the buffer.
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let mut read_buf = vec![0u8; avail_desc.reader.available_bytes()];
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avail_desc.reader.read_exact(&mut read_buf).unwrap();
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// Write the entire writable portion of the buffer.
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let write_buf = vec![0u8; avail_desc.writer.available_bytes()];
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avail_desc.writer.write_all(&write_buf).unwrap();
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let bytes_written = avail_desc.writer.bytes_written() as u32;
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q.add_used(avail_desc, bytes_written);
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}
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});
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});
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