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// Copyright 2017 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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use std::collections::BTreeMap;
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use std::io::Write;
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use anyhow::anyhow;
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use anyhow::Context;
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use base::error;
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use base::warn;
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use base::Event;
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use base::EventToken;
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use base::RawDescriptor;
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use base::WaitContext;
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use base::WorkerThread;
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use snapshot::AnySnapshot;
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use vm_memory::GuestMemory;
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use super::DeviceType;
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use super::Interrupt;
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use super::Queue;
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use super::VirtioDevice;
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const QUEUE_SIZE: u16 = 256;
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const QUEUE_SIZES: &[u16] = &[QUEUE_SIZE];
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// Chosen to match the Linux guest driver RNG buffer refill size.
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const CHUNK_SIZE: usize = 64;
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struct Worker {
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    queue: Queue,
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}
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impl Worker {
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    fn process_queue(&mut self) {
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        let mut needs_interrupt = false;
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        while let Some(mut avail_desc) = self.queue.pop() {
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            let writer = &mut avail_desc.writer;
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            while writer.available_bytes() > 0 {
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                let chunk_size = writer.available_bytes().min(CHUNK_SIZE);
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                let rand_bytes: [u8; CHUNK_SIZE] = rand::random();
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                let chunk = &rand_bytes[..chunk_size];
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                if let Err(e) = writer.write_all(chunk) {
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                    warn!("Failed to write random data to the guest: {}", e);
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                    break;
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                }
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            }
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            self.queue.add_used(avail_desc);
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            needs_interrupt = true;
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        }
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        if needs_interrupt {
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            self.queue.trigger_interrupt();
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        }
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    }
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    fn run(&mut self, kill_evt: Event) -> anyhow::Result<()> {
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        #[derive(EventToken)]
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        enum Token {
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            QueueAvailable,
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            Kill,
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        }
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        let wait_ctx = WaitContext::build_with(&[
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            (self.queue.event(), Token::QueueAvailable),
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            (&kill_evt, Token::Kill),
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        ])
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        .context("failed creating WaitContext")?;
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        let mut exiting = false;
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        while !exiting {
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            let events = wait_ctx.wait().context("failed polling for events")?;
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            for event in events.iter().filter(|e| e.is_readable) {
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                match event.token {
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                    Token::QueueAvailable => {
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                        self.queue
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                            .event()
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                            .wait()
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                            .context("failed reading queue Event")?;
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                        self.process_queue();
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                    }
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                    Token::Kill => exiting = true,
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                }
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            }
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        }
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        Ok(())
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    }
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}
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/// Virtio device for exposing entropy to the guest OS through virtio.
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pub struct Rng {
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    worker_thread: Option<WorkerThread<Worker>>,
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    virtio_features: u64,
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}
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impl Rng {
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    /// Create a new virtio rng device that gets random data from /dev/urandom.
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    pub fn new(virtio_features: u64) -> anyhow::Result<Rng> {
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        Ok(Rng {
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            worker_thread: None,
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            virtio_features,
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        })
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    }
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}
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impl VirtioDevice for Rng {
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    fn keep_rds(&self) -> Vec<RawDescriptor> {
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        Vec::new()
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    }
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    fn device_type(&self) -> DeviceType {
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        DeviceType::Rng
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    }
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    fn queue_max_sizes(&self) -> &[u16] {
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        QUEUE_SIZES
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    }
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    fn features(&self) -> u64 {
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        self.virtio_features
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    }
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    fn activate(
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        &mut self,
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        _mem: GuestMemory,
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        _interrupt: Interrupt,
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        mut queues: BTreeMap<usize, Queue>,
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    ) -> anyhow::Result<()> {
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        if queues.len() != 1 {
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            return Err(anyhow!("expected 1 queue, got {}", queues.len()));
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        }
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        let queue = queues.remove(&0).unwrap();
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        self.worker_thread = Some(WorkerThread::start("v_rng", move |kill_evt| {
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            let mut worker = Worker { queue };
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            if let Err(e) = worker.run(kill_evt) {
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                error!("rng worker thread failed: {:#}", e);
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            }
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            worker
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        }));
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        Ok(())
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    }
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    fn reset(&mut self) -> anyhow::Result<()> {
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        if let Some(worker_thread) = self.worker_thread.take() {
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            let _worker = worker_thread.stop();
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        }
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        Ok(())
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    }
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    fn virtio_sleep(&mut self) -> anyhow::Result<Option<BTreeMap<usize, Queue>>> {
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        if let Some(worker_thread) = self.worker_thread.take() {
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            let worker = worker_thread.stop();
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            return Ok(Some(BTreeMap::from([(0, worker.queue)])));
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        }
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        Ok(None)
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    }
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    fn virtio_wake(
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        &mut self,
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        queues_state: Option<(GuestMemory, Interrupt, BTreeMap<usize, Queue>)>,
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    ) -> anyhow::Result<()> {
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        if let Some((mem, interrupt, queues)) = queues_state {
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            self.activate(mem, interrupt, queues)?;
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        }
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        Ok(())
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    }
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    fn virtio_snapshot(&mut self) -> anyhow::Result<AnySnapshot> {
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        // `virtio_sleep` ensures there is no pending state, except for the `Queue`s, which are
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        // handled at a higher layer.
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        AnySnapshot::to_any(())
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    }
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    fn virtio_restore(&mut self, data: AnySnapshot) -> anyhow::Result<()> {
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        let () = AnySnapshot::from_any(data)?;
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        Ok(())
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    }
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}
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