// 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 LICENSE file.
//! Runs a virtual machine under KVM
extern crate clap;
extern crate libc;
extern crate io_jail;
extern crate kvm;
extern crate x86_64;
extern crate kernel_loader;
extern crate byteorder;
#[macro_use] extern crate sys_util;
use std::ffi::{CString, CStr};
use std::fmt;
use std::fs::File;
use std::io::{stdin, stdout};
use std::os::unix::io::{AsRawFd, RawFd};
use std::path::{Path, PathBuf};
use std::string::String;
use std::sync::{Arc, Mutex, Barrier};
use std::thread::{spawn, JoinHandle};
use clap::{Arg, App, SubCommand};
use io_jail::Minijail;
use kvm::*;
use sys_util::{GuestAddress, GuestMemory, EventFd, TempDir, Terminal, Poller, Pollable,
register_signal_handler, Killable};
pub mod hw;
pub mod kernel_cmdline;
pub mod control_socket;
use control_socket::*;
enum Error {
Socket(std::io::Error),
Disk(std::io::Error),
BlockDeviceNew(sys_util::Error),
BlockDeviceJail(io_jail::Error),
BlockDevicePivotRoot(io_jail::Error),
BlockDeviceRootSetup(sys_util::Error),
Cmdline(kernel_cmdline::Error),
ProxyDeviceCreation(std::io::Error),
RegisterIoevent(sys_util::Error),
RegisterIrqfd(sys_util::Error),
KernelLoader(kernel_loader::Error),
ConfigureSystem(x86_64::Error),
EventFd(sys_util::Error),
Kvm(sys_util::Error),
Vm(sys_util::Error),
Vcpu(sys_util::Error),
Sys(sys_util::Error),
}
impl std::convert::From<kernel_loader::Error> for Error {
fn from(e: kernel_loader::Error) -> Error {
Error::KernelLoader(e)
}
}
impl std::convert::From<x86_64::Error> for Error {
fn from(e: x86_64::Error) -> Error {
Error::ConfigureSystem(e)
}
}
impl std::convert::From<sys_util::Error> for Error {
fn from(e: sys_util::Error) -> Error {
Error::Sys(e)
}
}
impl fmt::Display for Error {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match self {
&Error::Socket(ref e) => write!(f, "failed to create socket: {}", e),
&Error::Disk(ref e) => write!(f, "failed to load disk image: {}", e),
&Error::BlockDeviceNew(ref e) => write!(f, "failed to create block device: {:?}", e),
&Error::BlockDeviceJail(ref e) => write!(f, "failed to jail block device: {:?}", e),
&Error::BlockDevicePivotRoot(ref e) => {
write!(f, "failed to pivot root block device: {:?}", e)
}
&Error::BlockDeviceRootSetup(ref e) => {
write!(f, "failed to create root directory for a block device: {:?}", e)
}
&Error::Cmdline(ref e) => write!(f, "the given kernel command line was invalid: {}", e),
&Error::ProxyDeviceCreation(ref e) => write!(f, "failed to create proxy device: {}", e),
&Error::RegisterIoevent(ref e) => write!(f, "error registering ioevent: {:?}", e),
&Error::RegisterIrqfd(ref e) => write!(f, "error registering irqfd: {:?}", e),
&Error::KernelLoader(ref e) => write!(f, "error loading kernel: {:?}", e),
&Error::ConfigureSystem(ref e) => write!(f, "error configuring system: {:?}", e),
&Error::EventFd(ref e) => write!(f, "error creating EventFd: {:?}", e),
&Error::Kvm(ref e) => write!(f, "error creating Kvm: {:?}", e),
&Error::Vm(ref e) => write!(f, "error creating Vm: {:?}", e),
&Error::Vcpu(ref e) => write!(f, "error creating Vcpu: {:?}", e),
&Error::Sys(ref e) => write!(f, "error with system call: {:?}", e),
}
}
}
type Result<T> = std::result::Result<T, Error>;
struct Config {
disk_path: Option<String>,
vcpu_count: Option<u32>,
memory: Option<usize>,
kernel_image: File,
params: Option<String>,
socket_path: Option<String>,
multiprocess: bool,
warn_unknown_ports: bool,
}
enum VmRequest {
RegisterIoevent(EventFd, IoeventAddress, u32),
RegisterIrqfd(EventFd, u32),
}
const KERNEL_START_OFFSET: usize = 0x200000;
const CMDLINE_OFFSET: usize = 0x20000;
const CMDLINE_MAX_SIZE: usize = KERNEL_START_OFFSET - CMDLINE_OFFSET;
fn create_block_device_jail(root: &Path) -> Result<Minijail> {
// All child jails run in a new user namespace without any users mapped,
// they run as nobody unless otherwise configured.
let mut j = Minijail::new().map_err(|e| Error::BlockDeviceJail(e))?;
// Don't need any capabilities.
j.use_caps(0);
// Create a new mount namespace with an empty root FS.
j.namespace_vfs();
j.enter_pivot_root(root)
.map_err(|e| Error::BlockDevicePivotRoot(e))?;
// Run in an empty network namespace.
j.namespace_net();
// Apply the block device seccomp policy.
j.no_new_privs();
j.parse_seccomp_filters(Path::new("block_device.policy"))
.map_err(|e| Error::BlockDeviceJail(e))?;
j.use_seccomp_filter();
Ok(j)
}
fn run_config(cfg: Config) -> Result<()> {
let socket = if let Some(ref socket_path) = cfg.socket_path {
Some(ControlSocketRecv::new(socket_path)
.map_err(|e| Error::Socket(e))?)
} else {
None
};
let mem_size = cfg.memory.unwrap_or(256) << 20;
let guest_mem =
GuestMemory::new(&x86_64::arch_memory_regions(mem_size)).expect("new mmap failed");
let mut cmdline = kernel_cmdline::Cmdline::new(CMDLINE_MAX_SIZE);
cmdline
.insert_str("console=ttyS0 noapic noacpi reboot=k panic=1 pci=off")
.unwrap();
let mut vm_requests = Vec::new();
let mut bus = hw::Bus::new();
let mmio_len = 0x1000;
let mut mmio_base: u64 = 0xd0000000;
let mut irq: u32 = 5;
let block_root = TempDir::new(&PathBuf::from("/tmp/block_root"))
.map_err(Error::BlockDeviceRootSetup)?;
if let Some(ref disk_path) = cfg.disk_path {
// List of FDs to keep open in the child after it forks.
let mut keep_fds: Vec<RawFd> = Vec::new();
let disk_image = File::open(disk_path).map_err(|e| Error::Disk(e))?;
keep_fds.push(disk_image.as_raw_fd());
let block_box = Box::new(hw::virtio::Block::new(disk_image)
.map_err(|e| Error::BlockDeviceNew(e))?);
let block_mmio = hw::virtio::MmioDevice::new(guest_mem.clone(), block_box)?;
for (i, queue_evt) in block_mmio.queue_evts().iter().enumerate() {
let io_addr = IoeventAddress::Mmio(mmio_base + hw::virtio::NOITFY_REG_OFFSET as u64);
vm_requests.push(VmRequest::RegisterIoevent(queue_evt.try_clone()?, io_addr, i as u32));
keep_fds.push(queue_evt.as_raw_fd());
}
if let Some(interrupt_evt) = block_mmio.interrupt_evt() {
vm_requests.push(VmRequest::RegisterIrqfd(interrupt_evt.try_clone()?, irq));
keep_fds.push(interrupt_evt.as_raw_fd());
}
if cfg.multiprocess {
// block_root.as_path() won't fail if block_root::new succeeded.
let block_root_path = block_root.as_path().unwrap();
let jail = create_block_device_jail(block_root_path)?;
let proxy_dev = hw::ProxyDevice::new(block_mmio, move |keep_pipe| {
keep_fds.push(keep_pipe.as_raw_fd());
// Need to panic here as there isn't a way to recover from a
// partly-jailed process.
unsafe {
// This is OK as we have whitelisted all the FDs we need open.
jail.enter(Some(&keep_fds)).unwrap();
}
})
.map_err(|e| Error::ProxyDeviceCreation(e))?;
bus.insert(Arc::new(Mutex::new(proxy_dev)), mmio_base, mmio_len)
.unwrap();
} else {
bus.insert(Arc::new(Mutex::new(block_mmio)), mmio_base, mmio_len)
.unwrap();
}
cmdline
.insert("virtio_mmio.device",
&format!("4K@0x{:08x}:{}", mmio_base, irq))
.map_err(Error::Cmdline)?;
cmdline
.insert("root", "/dev/vda")
.map_err(Error::Cmdline)?;
mmio_base += mmio_len;
irq += 1;
}
if let Some(params) = cfg.params {
cmdline
.insert_str(params)
.map_err(|e| Error::Cmdline(e))?;
}
run_kvm(vm_requests,
cfg.kernel_image,
&CString::new(cmdline).unwrap(),
cfg.vcpu_count.unwrap_or(1),
guest_mem,
bus,
socket,
cfg.warn_unknown_ports)
}
fn run_kvm(requests: Vec<VmRequest>,
mut kernel_image: File,
cmdline: &CStr,
vcpu_count: u32,
guest_mem: GuestMemory,
mmio_bus: hw::Bus,
control_socket: Option<ControlSocketRecv>,
warn_unknown_ports: bool)
-> Result<()> {
let kvm = Kvm::new().map_err(Error::Kvm)?;
let tss_addr = GuestAddress(0xfffbd000);
let kernel_start_addr = GuestAddress(KERNEL_START_OFFSET);
let cmdline_addr = GuestAddress(CMDLINE_OFFSET);
let vm = Vm::new(&kvm, guest_mem).map_err(Error::Vm)?;
vm.set_tss_addr(tss_addr).expect("set tss addr failed");
vm.create_pit().expect("create pit failed");
vm.create_irq_chip().expect("create irq chip failed");
for request in requests {
match request {
VmRequest::RegisterIoevent(evt, addr, datamatch) => {
vm.register_ioevent(&evt, addr, datamatch)
.map_err(Error::RegisterIoevent)?
}
VmRequest::RegisterIrqfd(evt, irq) => {
vm.register_irqfd(&evt, irq)
.map_err(Error::RegisterIrqfd)?
}
}
}
kernel_loader::load_kernel(vm.get_memory(), kernel_start_addr, &mut kernel_image)?;
kernel_loader::load_cmdline(vm.get_memory(), cmdline_addr, cmdline)?;
x86_64::configure_system(vm.get_memory(),
kernel_start_addr,
cmdline_addr,
cmdline.to_bytes().len() + 1,
vcpu_count as u8)?;
let mut io_bus = hw::Bus::new();
let exit_evt = EventFd::new().expect("failed to create exit eventfd");
struct NoDevice;
impl hw::BusDevice for NoDevice {}
let com_evt_1_3 = EventFd::new().map_err(Error::EventFd)?;
let com_evt_2_4 = EventFd::new().map_err(Error::EventFd)?;
let stdio_serial =
Arc::new(Mutex::new(hw::Serial::new_out(com_evt_1_3.try_clone().map_err(Error::EventFd)?,
Box::new(stdout()))));
let nul_device = Arc::new(Mutex::new(NoDevice));
io_bus.insert(stdio_serial.clone(), 0x3f8, 0x8).unwrap();
io_bus
.insert(Arc::new(Mutex::new(hw::Serial::new_sink(com_evt_2_4
.try_clone()
.map_err(Error::EventFd)?))),
0x2f8,
0x8)
.unwrap();
io_bus
.insert(Arc::new(Mutex::new(hw::Serial::new_sink(com_evt_1_3
.try_clone()
.map_err(Error::EventFd)?))),
0x3e8,
0x8)
.unwrap();
io_bus
.insert(Arc::new(Mutex::new(hw::Serial::new_sink(com_evt_2_4
.try_clone()
.map_err(Error::EventFd)?))),
0x2e8,
0x8)
.unwrap();
io_bus
.insert(Arc::new(Mutex::new(hw::Cmos::new())), 0x70, 0x2)
.unwrap();
io_bus
.insert(Arc::new(Mutex::new(hw::I8042Device::new(exit_evt
.try_clone()
.map_err(Error::EventFd)?))),
0x061,
0x4)
.unwrap();
io_bus.insert(nul_device.clone(), 0x040, 0x8).unwrap(); // ignore pit
io_bus.insert(nul_device.clone(), 0x0ed, 0x1).unwrap(); // most likely this one does nothing
io_bus.insert(nul_device.clone(), 0x0f0, 0x2).unwrap(); // ignore fpu
io_bus.insert(nul_device.clone(), 0xcf8, 0x8).unwrap(); // ignore pci
vm.register_irqfd(&com_evt_1_3, 4)
.map_err(Error::RegisterIrqfd)?;
vm.register_irqfd(&com_evt_2_4, 3)
.map_err(Error::RegisterIrqfd)?;
let mut vcpu_handles = Vec::with_capacity(vcpu_count as usize);
let vcpu_thread_barrier = Arc::new(Barrier::new((vcpu_count + 1) as usize));
for cpu_id in 0..vcpu_count {
let mmio_bus = mmio_bus.clone();
let io_bus = io_bus.clone();
let vcpu_thread_barrier = vcpu_thread_barrier.clone();
let vcpu_exit_evt = exit_evt.try_clone().map_err(Error::EventFd)?;
let vcpu = Vcpu::new(cpu_id as u64, &kvm, &vm).map_err(Error::Vcpu)?;
x86_64::configure_vcpu(vm.get_memory(),
kernel_start_addr,
&kvm,
&vcpu,
cpu_id as u64,
vcpu_count as u64)?;
vcpu_handles.push(spawn(move || {
unsafe {
extern "C" fn handle_signal() {}
// Our signal handler does nothing and is trivially async signal safe.
register_signal_handler(0, handle_signal)
.expect("failed to register vcpu signal handler");
}
vcpu_thread_barrier.wait();
loop {
let run_res = vcpu.run();
match run_res {
Ok(run) => {
match run {
VcpuExit::IoIn(addr, data) => {
if !io_bus.read(addr as u64, data) && warn_unknown_ports {
println!("warning: unhandled I/O port {}-bit read at 0x{:03x}",
data.len() << 3,
addr);
}
}
VcpuExit::IoOut(addr, data) => {
if !io_bus.write(addr as u64, data) && warn_unknown_ports {
println!("warning: unhandled I/O port {}-bit write at 0x{:03x}",
data.len() << 3,
addr);
}
}
VcpuExit::MmioRead(addr, data) => {
if !mmio_bus.read(addr, data) && warn_unknown_ports {
println!("warning: unhandled mmio {}-bit read at 0x{:08x}",
data.len() << 3,
addr);
}
}
VcpuExit::MmioWrite(addr, data) => {
if !mmio_bus.write(addr, data) && warn_unknown_ports {
println!("warning: unhandled mmio {}-bit write at 0x{:08x}",
data.len() << 3,
addr);
}
}
VcpuExit::Hlt => break,
VcpuExit::Shutdown => break,
r => println!("unexpected vcpu exit: {:?}", r),
}
}
Err(e) => {
if e.errno() != libc::EAGAIN {
break;
}
}
}
}
vcpu_exit_evt
.write(1)
.expect("failed to signal vcpu exit eventfd");
}));
}
vcpu_thread_barrier.wait();
run_control(control_socket, stdio_serial, exit_evt, vcpu_handles)
}
fn run_control(control_socket: Option<ControlSocketRecv>,
stdio_serial: Arc<Mutex<hw::Serial>>,
exit_evt: EventFd,
vcpu_handles: Vec<JoinHandle<()>>)
-> Result<()> {
const EXIT: u32 = 1;
const STDIN: u32 = 2;
const CONTROL: u32 = 3;
let stdin_handle = stdin();
let stdin_lock = stdin_handle.lock();
stdin_lock
.set_raw_mode()
.expect("failed to set terminal raw mode");
let mut pollables = Vec::new();
pollables.push((EXIT, &exit_evt as &Pollable));
pollables.push((STDIN, &stdin_lock as &Pollable));
if let Some(socket) = control_socket.as_ref() {
pollables.push((CONTROL, socket as &Pollable));
}
let mut poller = Poller::new(3);
'poll: loop {
let poll_res = {
match poller.poll(&pollables[..]) {
Ok(v) => v,
Err(e) => {
println!("failed to poll: {:?}", e);
break;
}
}
};
for i in poll_res {
match *i {
EXIT => {
println!("vcpu requested shutdown");
break 'poll;
}
STDIN => {
let mut out = [0u8; 64];
let count = stdin_lock.read_raw(&mut out[..]).unwrap_or_default();
if count != 0 {
stdio_serial
.lock()
.unwrap()
.queue_input_bytes(&out[..count])
.expect("failed to queue bytes into serial port");
}
}
CONTROL if control_socket.is_some() => {
if let Some(socket) = control_socket.as_ref() {
match socket.recv().unwrap() {
Command::Stop => {
println!("control socket requested shutdown");
break 'poll;
}
_ => {}
}
}
}
_ => {}
}
}
}
for handle in vcpu_handles {
match handle.kill(0) {
Ok(_) => {
if let Err(e) = handle.join() {
println!("failed to join vcpu thread: {:?}", e);
}
}
Err(e) => println!("failed to kill vcpu thread: {:?}", e),
}
}
stdin_lock
.set_canon_mode()
.expect("failed to restore canonical mode for terminal");
Ok(())
}
fn main() {
let matches = App::new("crosvm")
.version("0.1.0")
.author("The Chromium OS Authors")
.about("Runs a virtual machine under KVM")
.subcommand(SubCommand::with_name("stop").arg(Arg::with_name("socket")
.required(true)
.multiple(true)
.index(1)
.value_name("PATH")
.help("path of the control sockets")))
.subcommand(SubCommand::with_name("run")
.arg(Arg::with_name("disk")
.short("d")
.long("disk")
.value_name("FILE")
.help("rootfs disk image")
.takes_value(true))
.arg(Arg::with_name("cpus")
.short("c")
.long("cpus")
.value_name("N")
.help("number of VCPUs")
.takes_value(true))
.arg(Arg::with_name("memory")
.short("m")
.long("mem")
.value_name("N")
.help("amount of guest memory in MiB")
.takes_value(true))
.arg(Arg::with_name("params")
.short("p")
.long("params")
.value_name("params")
.help("extra kernel command line arguments")
.takes_value(true))
.arg(Arg::with_name("multiprocess")
.short("u")
.long("multiprocess")
.help("run the devices in a child process"))
.arg(Arg::with_name("socket")
.short("s")
.long("socket")
.value_name("PATH")
.help("Path to put the control socket. If PATH is a directory, a name will be generated.")
.takes_value(true))
.arg(Arg::with_name("warn-unknown-ports")
.long("warn-unknown-ports")
.help("warn when an the VM uses an unknown port"))
.arg(Arg::with_name("KERNEL")
.required(true)
.index(1)
.help("bzImage of kernel to run")))
.get_matches();
match matches.subcommand() {
("stop", Some(matches)) => {
for socket_path in matches.values_of("socket").unwrap() {
let res = match ControlSocketSend::new(socket_path) {
Ok(s) => s.send(&Command::Stop),
Err(e) => Err(e),
};
if let Err(e) = res {
println!("failed to send stop command to socket at '{}': {}",
socket_path,
e);
}
}
}
("run", Some(matches)) => {
let config = Config {
disk_path: matches.value_of("disk").map(|s| s.to_string()),
vcpu_count: matches.value_of("cpus").and_then(|v| v.parse().ok()),
memory: matches.value_of("memory").and_then(|v| v.parse().ok()),
kernel_image: File::open(matches.value_of("KERNEL").unwrap())
.expect("Expected kernel image path to be valid"),
params: matches.value_of("params").map(|s| s.to_string()),
multiprocess: matches.is_present("multiprocess"),
socket_path: matches.value_of("socket").map(|s| s.to_string()),
warn_unknown_ports: matches.is_present("warn-unknown-ports"),
};
match run_config(config) {
Ok(_) => println!("crosvm has exited normally"),
Err(e) => println!("{}", e),
}
}
_ => {}
}
}